##gff-version 3
sequence01	MetaGeneAnnotator	CDS	466	729	.	+	0	ID=MGA_2;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIVYLPYKLRHFSIESNVIDVEGKNLKELINNLEKLFPGIKSELVENEKLKPGLSAVIDGRTTRLGLIHKINENSEVHFLPAIAGG;locus_tag=LOCUS_0010;note=MGA_2
sequence01	MetaGeneAnnotator	CDS	779	1333	.	+	0	ID=MGA_3;product=RNA 2'%2C3'-cyclic phosphodiesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082411.1;translation=MNVPYIIGKELSEIKNLVPDSYKHLLKWVDLSLIHCTLIFIGDSVENQVISVREVIENLKFDYEINTFVEEFGFLPNQNHPNVFIAKLNQSPEMFHLYNQLRSKLLENNFKLQKKFIPHITIARIRKNYSKKELKSFISFFQKMEYLKKISFQFKKISVIRSILKTEGPDYKILSEISIQSDNT;locus_tag=LOCUS_0020;gene=thpR;note=WP_004082411.1 RNA 2'%2C3'-cyclic phosphodiesterase (Thermotoga) [pid:25.7%25%2C q_cov:91.3%25%2C s_cov:90.4%25%2C Eval:1.5e-11],MGA_3
sequence01	MetaGeneAnnotator	CDS	1350	4505	.	+	0	ID=MGA_4;product=isoleucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596290.1;translation=MTEKQKQEKFYSDLQPKPDFAQIELEILNFWQNESIFKKSVNGRSDKNEYVFYDGPPFANGLPHYGHLLTGFVKDIIPRYQTMIGKRVDRRFGWDCHGLPAEMESEKELDLNGRSEVINFGVKKFNDHCRESVMKYTKEWETTVNRQARWVDFRNDYKTLDLNYMESVIWAFKKLWDKGLIYEKAKVMPYSWKAETPLSNFETRLDDSYRERVDPAVTVKFSLNDSDLGDSIDVLVWTTTPWTLPSNLALAVGSDITYSIFSNGNNYLLIAENTVEKYKNELEGMEKIKTIKGEILIGKSYKPIFDYFSDTENAFRILEADFVNTEEGTGIVHMAPGFGEDDQIVCESNGIPVKSPVDSRGNFTSEISDYEGMLVFDANKEIIKYLDSRNILFKHEEYSHSYPHSWRTDEPLIYKAVNSWFVEVTKFRDRMSELNQQINWIPNHIKDGAFGRWLSGARDWSISRNRFWGTPIPVWKSDNPNYPRVDVYGSLDEIEKDFGVRPTDLHRPAIDELTRPNPDDPSGKSMMVRVEEVLDCWFESGSMPFAQVHYPFENKQWFDSHFPADFIVEYIAQTRGWFYTLMVLSTALFDSHPFKNAIGHGVVVDETGSKLSKRLKNYPSPEEVWNKYGSDALRWFLVSSPILKGHNLEIDRKGSGIETSLRKVIVPIWNSLYFFILYSNLEGIKGQDINTSNVLIDKYILGKTRKLIEDVNLHMKNYEITEACSKISDFIDVLNNWYIRRSRPRFWDNIKSSEVLSAYNTLYTVLKSFFRVLSPFLPLISEYAYKKLTNEKSVHLQDWPSIDDFQEENNLIEKMDFVRQIVSVALSIRKINNLRVRQPIKSVTIISPDLNVDWLDEYESLIKEEINSKEIIYSKESYSLDGYSLTLNPRVLGPKLSHDVQKCIIAAREGRWEQDDQGRVIIEGYILEENEFSINPVSTEEKGIQKVIGFNVFVKLDLNISPELESEGLARDLVRLIQNIRRDTKLEVTDKVKVEVFCTEKMKKSFMGHYQYIADQILADSLSFSQEVKDRDDLISEKISGERVNISVLKK;locus_tag=LOCUS_0030;gene=ileS;EC_number=6.1.1.5;note=WP_004596290.1 isoleucine--tRNA ligase (Rickettsia prowazekii) [pid:53.0%25%2C q_cov:96.3%25%2C s_cov:97.1%25%2C Eval:0.0e+00],MGA_4
sequence01	MetaGeneAnnotator	CDS	4507	5586	.	-	0	ID=MGA_5;product=trypsin-like peptidase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583661.1;translation=MLKHTFYIFLISIFSLILLSCSSKEEENKEISSIEILEEENIILPSLNKVITKISPSVVAINISTVERDFFLRQRTQTADGSGVIITEDGFIVTNDHVISKANTISVTLHDGNIYEASVVGKFPSSDIALLKIPKKNLQPLTFSKDDTLKTGDWVIALGNAFGLEGGPTVTLGIVSALNRSIKTESGMILTDMIQTDAAINQGNSGGPLVNLQGELVGLNTILLSRAEGIGFAISSYLVKRYSDDLMKFGEVIIPWLGMELGTLTQEQAKTYCNWGYKTCEYKTIDGILIMEVEENSPSFETGIKAGDLITHVESEPVKSSREFYSRLWSYKLGNSINLKGKRQKKDISFNIELRKKNN;locus_tag=LOCUS_0040;note=WP_012583661.1 trypsin-like peptidase domain-containing protein (Dictyoglomus turgidum) [pid:39.1%25%2C q_cov:85.0%25%2C s_cov:79.7%25%2C Eval:8.8e-55],MGA_5
sequence01	MetaGeneAnnotator	CDS	5816	7159	.	+	0	ID=MGA_6;product=TrkH family potassium uptake protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_173427597.1;translation=MLVVYGFLSLIFIGAFLLFLPISHSGNFNVSFVDALFTATSAVTVTGLVVLDTGSTWSFFGELIITMLIFIGGLGITTSAAFLIVIMGQKVGFQNLLLIREEIRSQGLSNLGSLVINVVFLTLIIQIIGSIIFFFSFSILIREFDEFSLGQLIWLSVFHSISAFNNAGFETLSILGSESLTIFKYKPLILMIFSTLIIIGGLGYFVLHDLVHHRRIGKIKFRLKLFLETRLILLGYLILILFGFLFIFIGEFSNPNTLGNMDLSNKIFNSFFGSITSRSAGFSTFDYADLTGFSLLITEILMFIGGAPASVAGGIKITTFVVLALAVFSFLRGRKSVTIWRKKIPQETINHSIVVIIILALMILIYIFFITLLNNEIQFDKIVFEVISAFTTTGLSTGITSEVSILSKYLLISAMFIGRLSSLVLIFLLTNSREPNYNLSEEKIRIG;locus_tag=LOCUS_0050;note=WP_173427597.1 TrkH family potassium uptake protein (Mesobacillus campisalis) [pid:35.6%25%2C q_cov:99.8%25%2C s_cov:96.0%25%2C Eval:7.1e-76],MGA_6
sequence01	MetaGeneAnnotator	CDS	7268	7864	.	+	0	ID=MGA_7;product=TrkA family potassium uptake protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_103037344.1;translation=MAIDLDDRKVQALTGVVTHAVQADATDEVMLKELGVDNFHYAIVAIGRNTEASIMVTVLLRDLEIPVIVSRAQSELHGETLKRIGASKTVFPEKDVGASLAHDLFLPGVEQYLELTSSFGISRVLVPIKYVGHSLKDSGFSNARDKYGVVILAIQRRDDVILNPDEDELFVDDDVLLIAGTDDRVVRVIGTQSLENEI;locus_tag=LOCUS_0060;note=WP_103037344.1 TrkA family potassium uptake protein (Salinivenus iranica) [pid:29.9%25%2C q_cov:91.9%25%2C s_cov:81.2%25%2C Eval:1.2e-20],MGA_7
sequence01	MetaGeneAnnotator	CDS	7877	8317	.	+	0	ID=MGA_8;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFDKILVLLGDSSYDDILAEEMGDLVRSSRGYLIVVKPKIIPRKFPEDASLNHLNVNSDEQLKNFAKKTKLKEGRRLKLENPQSRDLNSVITSFLIQENPDLLVIPYDLIFNKKNQEILFHQNRIEDILIDNRCSLLIWKNQKNT;locus_tag=LOCUS_0070;note=MGA_8
sequence01	MetaGeneAnnotator	CDS	8325	8732	.	+	0	ID=MGA_9;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRILIFGSYNIKLFSHVFDFDDHDVFLLLSKDEKSRYNNLIEKCESNFFNFSNFSDIDFSEFDKFDLFIVSSGNDSVNSLFIHRLDQIYPDHRKIVFIKDSQFAELQRDFGFNVVSSDEILRENIIDILGGLIDE;locus_tag=LOCUS_0080;note=MGA_9
sequence01	MetaGeneAnnotator	CDS	8725	9438	.	+	0	ID=MGA_10;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDYVILVGLGEVGINIFREFFIVENDVELTAIDNSYNRVNEVNDYVKSKNPQSVDLCVYGDPLDHNVLINVGLKRCNKLILALDQDADNLAVAQTVKRLMENLSEDEKKHNLEIISIVWNNENKDLFSLLDVQKTLGVSDNILNIVNQISRPSFPINILDIEGTDNRIFTIKISSESKSIGKKVLEIRIPFKIIYLGIIDSFGNCELLNSDTVLNDGDLLIFSTSKRHQNLLNRYF;locus_tag=LOCUS_0090;note=MGA_10
sequence01	MetaGeneAnnotator	CDS	9449	10282	.	+	0	ID=MGA_11;product=prephenate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256077.1;translation=MRKISFLGPEGTYSGLALSEYDSKASRVPCRTFSEALGLLESDQVTDCIVPIENSLHGSIVEVLDFLIETPSVKIKNELLIKIDNCLLSKSKMRLSEIEVLFSHPQPLGQCKDYINKNLSNAKLIASLSTISAIEDLENSGLKGAVIGPKWAAEQNNLNILEEKIDGGLMNITRFVILSKNTSMESTRKDKTSIVFSFDEDSPGSLFEVLRPFAIRKINLTKIESRPTRKQLGRYYFFIDIEGNFNNPEMKIVLDETLKYTSELKILGSYPKVNYNL;locus_tag=LOCUS_0100;gene=pheA;EC_number=4.2.1.51;note=WP_012256077.1 prephenate dehydratase (Chloroflexus aurantiacus) [pid:37.5%25%2C q_cov:98.2%25%2C s_cov:96.5%25%2C Eval:2.1e-44],MGA_11
sequence01	MetaGeneAnnotator	CDS	10279	10536	.	-	0	ID=MGA_12;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSENKNGAGFYTGLFLGSIAGLTMGVLFAPKSGEETRSIISDKTSDWKEKAEELSEAAKERIITATHEGRKVAGEMRDEDYLEDI;locus_tag=LOCUS_0110;note=MGA_12
sequence01	MetaGeneAnnotator	CDS	10554	10874	.	-	0	ID=MGA_13;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENQELITFIRDIVLIITGVTVFTSSLLILFLIFKMYKDINKTISALSRTANRLDQISNKIIDDITFPVLKITNGFKKLRSMINKFTNKSSQQKETKEDKEDKKDK;locus_tag=LOCUS_0120;note=MGA_13
sequence01	MetaGeneAnnotator	CDS	10971	12554	.	-	0	ID=MGA_14;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQQDKKDYASIDNENFSLNIQEEISTNSSSFDSKKIVDEEAINENSPLLKSILAGPNPNQFDNWEEPSEDSLNEIQEDLTEWTTLDETELVTDDPVRMYLREIGKVELLNAEGERNLARIIEIVKYINDTKSLLLLSDQDQNTLNVQIIRNTLAYISSNLKAINVIYKFLNIEKGKSDITLSNYLNNMEIKSLLAGASKSEDYFTLINLMSDSLNINEEEVQSLIADLSATVDVVPKWIINEIFDEDPKLKDLKKYGSNKKSFKYHKDQDLEPLYENHIEKILNQGRICEDHLVKANLRLVVSVAKKYIGRGMSLLDLIQEGNIGLIRAVEKFDYRKGFKFSTYATWWIRQAITRAIADQARTIRVPVHMVETINKLLRVSRRLVQEYGREPTTRELAKEMDLSPEKVREILKISQEPVSLATPIGEEDDSLLGDFIEDVTSLGPSDAASHNLLKDHVNNVLGSLNIREQRVLQLRFGLEDGRSRTLEEVGREFGVTRERIRQIEAKALRKLRHPTRSKKLKDFLV;locus_tag=LOCUS_0130;note=WP_011861220.1 RNA polymerase sigma factor RpoD (Clostridioides difficile) [pid:55.2%25%2C q_cov:69.6%25%2C s_cov:92.6%25%2C Eval:2.1e-101%2C partial hit],MGA_14
sequence01	MetaGeneAnnotator	CDS	12554	14332	.	-	0	ID=MGA_15;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKPDLVKEVKSKLDLVELVSDNTNLSGNKNALKGLCPFHNEKTPSFVVYPDKQTWRCFGACSTGGDIFNFIMTSENINFPQALSIAASKAGVKLTFNSDTERDTHSVENANEIAASYFQSLIKTPEGLKARNYLNERGISEEIISRRGLGVNYEGMNTLVDHLKSKSVDSSSAIKSGLLVKWNNNVWKDTFTNRITIEIRDENNKLVGFGARALGQNQPKYINTRQTQLFNKSKVLYGLNWAKNSIKESGSAIIVEGYFDVITAHENGFMNVVGCMGTAISDDHLKILDPLCSKIILSLDSDIAGKKATYNNLIKIIRNFEKPDLLHEKIYLCDSDKDNDPDTMIRENPESWKSHINDTKSLIFYLIENIDYSYNLSDETEIIEASQSIYPIIITIKNSHEQNKAFDHLAKKLNISREKLQLLPKPKKNKRQSKHIYSQSWQNNENKLDEALINFLITNLELIESAKTIIDPKYFSPLYQHIYEKIISDVPLEEILNNMKNSSDEFTLELIESIFNQTQPSSSHESKITIMNDYIRRIRERYLKERKIETEKIMKERMVEKDKNSVQEWDYIIEEAIKDNQEIKTLQESKN;locus_tag=LOCUS_0140;note=WP_012258766.1 DNA primase (Chloroflexus aurantiacus) [pid:34.1%25%2C q_cov:65.7%25%2C s_cov:62.4%25%2C Eval:2.4e-61%2C partial hit],MGA_15
sequence01	MetaGeneAnnotator	CDS	14378	15475	.	-	0	ID=MGA_16;product=deoxyguanosinetriphosphate triphosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546176.1;translation=MSKKTIEELNEIIKEISNQNSKNEKLLSPLAMTTEKSKGRLNNEESNNFRSPYQIDRDRIIHTNAFRRLKHKSQVFIAPLGDHYVTRLTHTIEVSQIGRTIARALNLNEDLVEATSLGHDLGHSPFGHIGENVLDELNSEGFHHSKQSVRIVEILEKNGSGLNLTFEVIDGIKHHSKPQGDYMKPELVKNLSLEAQIVRLSDSIAYLAHDINDAIRAKMITNNDLPEKTKRDLGLKHSERLNNIITDVIISSWDCRTSSKSKNSWIRMSPKVTETITDLRNFMFEKIYLPIGITKEGEISKEIVKILFDYYIKNIHLVPDYIKSLSNSSDRIVTDYVCGMTDLFALRTAEQIKPGLTTNMFDGRL;locus_tag=LOCUS_0150;note=WP_012546176.1 deoxyguanosinetriphosphate triphosphohydrolase (Thermodesulfovibrio) [pid:49.8%25%2C q_cov:90.1%25%2C s_cov:94.1%25%2C Eval:6.4e-85],MGA_16
sequence01	MetaGeneAnnotator	CDS	15480	17321	.	-	0	ID=MGA_17;product=glutamine--fructose-6-phosphate transaminase (isomerizing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003432446.1;translation=MCGIYAYVGDKPAAQSLIEGIRKLEYRGYDSVGISTIENENEIVIHKVVGNTKKLKTKLSHETLNGNIGIAHTRWATHGKISEANAHPHISQNSDVVISHNGIIENYLQLKQELLNENVIFKSETDSEIISHLISKYLNEDFSLESSIYQLTQKIQGASSIVGFSIKDPGTLFAFKIGNSGGLLVSNSDNFSLVSSDTIPLIGNTNKFIALENGDIALIKKNKISISNNKKNITPVYHHLTNKKENFSKFSFNYFMEKEIYDQSETSLYSLKDRVNFENSTIEFHELEKYIKNLQKINRIILIGMGSSFNACMVGAKYFESITKIPSIAENSSEFLYSEKNISKNDLIIAITQSGETAETIRCIEKSKESGCFTISIVEQEISQASRISDVCIPLNCGQEFSVAATKTFTSSLIVLYILALFFSSKFNNSPRKDIESLITNLNQLPRLIGEIIQNQPLYKKISEKISSKNHLLYLGRDNMLPIASEGALKMKEVSYLHAESYPAGEMKHGVNALIGPSMPTIILAPSGRLHSKMINSINEILSRDGEVIALISEEDKLIPTLIDEYIVLPNLDEYLNPILFSIPLQLIAFHTSIIKNLDPDRPRNLAKTVTVE;locus_tag=LOCUS_0160;gene=glmS;EC_number=2.6.1.16;note=WP_003432446.1 glutamine--fructose-6-phosphate transaminase (isomerizing) (Clostridioides difficile) [pid:36.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-120],MGA_17
sequence01	MetaGeneAnnotator	CDS	17322	18026	.	-	0	ID=MGA_18;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIMSILNKACNIGLRQTLKIFTTSYRVEDLTNVPKNNPLIIVSNHLANIDPGILSASINRRLYFAAKSELFKNPIIRILLNSYGAIPLKRGKADLNAFKSILNILSKPNGTMVIFPEGHRSKGNLLKAKTGIAKIALHSQATLMPVSITGTNHLTSVFRVLKPTGSIKIKCGKPFILREGLSYNNKSELEGITSEIMFRIADLLPQDYRGFYNKENKFEFTKNLYNSNKEN;locus_tag=LOCUS_0170;note=WP_011460203.1 lysophospholipid acyltransferase family protein (Desulfitobacterium hafniense) [pid:35.4%25%2C q_cov:67.1%25%2C s_cov:77.6%25%2C Eval:7.3e-21%2C partial hit],MGA_18
sequence01	MetaGeneAnnotator	CDS	18058	18654	.	-	0	ID=MGA_19;product=(d)CMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015703.1;translation=MIITIDGPAGVGKTTVGKLTAQKLGIGFLDTGIMYRALTWFLIKNNLQNSTIDRIETDLKTLNFDLDITNIDITTVLINKINVTDVLYSSEVEKYVSKISSFKNVREMMVKKQRDIVKNSSCVVVGRDIGTIVLPNAKSKFYLTASAEERARRRFSQNSEENPYSKVLKDLKERDNSDMSRKFSPLKVPQNALIINTE;locus_tag=LOCUS_0180;gene=cmk;EC_number=2.7.4.25;note=WP_011015703.1 (d)CMP kinase (Fusobacterium nucleatum) [pid:42.0%25%2C q_cov:99.5%25%2C s_cov:89.4%25%2C Eval:4.8e-38],MGA_19
sequence01	MetaGeneAnnotator	CDS	18672	19427	.	-	0	ID=MGA_20;product=DNA polymerase III subunit delta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003404855.1;translation=MISICVVRDLILGKSQIKPFYGNYQVIIVEDSHLLRKESIDHLLKILEEGSPNFLLILLVQSLDFLPLTIKSRCQSYKLFPLPSKNIEKLLEMTYPEKTEKLSTIAKLSQGCFGKAINIIENPIILDNQNQTIERILNLLKNPLSKQLQYSNELSGQYKKNKDSVKNELDCWSNWCRDILMIQTNQDHQIIYSKYFDETKKIASIIPISKTLILLNYLSSSKKTLDMNVNPLIIFDILVKQIPKNIQVNPN;locus_tag=LOCUS_0190;EC_number=2.7.7.7;note=WP_003404855.1 DNA polymerase III subunit delta' (Clostridium botulinum) [pid:27.7%25%2C q_cov:94.8%25%2C s_cov:75.2%25%2C Eval:8.8e-15],MGA_20
sequence01	MetaGeneAnnotator	CDS	19765	21081	.	-	0	ID=MGA_21;product=diaminopimelate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000280679.1;translation=MLNENIKNILPITSQVNEEGILEIGGCNLEEISNIYGTPLYVYDESTIREICKEFVNEFKQSYPNSHISYSSKAFSSPHLTKILEDENLGIDVVSGGELSVLQYSKFPSNKVNFHGNNKSYEELKQAVDWDIETITLDSFDEISLLNKIASESSKTQKVLIRVSPSVDPKTHILTTTGTLDSKFGFPIETGQAEEAIKLTTKMSNLDLQGIHFHLGSPIFETKPYVLAINYVLEFAHQQRNNGLNLKIFNPGGGFAVTYTSKDKKPPSVKEYADAISETIIKKCDELSLPKPHLIVEPGRSIVARSGVAIYKIGSIKNIPGVRKYVSIDGGMGDNIRPALYQSEYSIFPVTKILEETTEKVTIVGKFCESGDILSNETYLPKLNHNDLIISATSGAYNIAMSSNYNMYCRPTIIIVNKGNHQVIKRRETHEDLLSHFV;locus_tag=LOCUS_0200;gene=lysA;EC_number=4.1.1.20;note=WP_000280679.1 diaminopimelate decarboxylase (Bacillus cereus) [pid:42.4%25%2C q_cov:96.8%25%2C s_cov:96.8%25%2C Eval:4.0e-100],MGA_21
sequence01	MetaGeneAnnotator	CDS	21133	21780	.	-	0	ID=MGA_22;product=nucleoside triphosphate pyrophosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545835.1;translation=MSRDFEELIKVIETLRSSNGCPWDRKQTHDSLKTLLIEEVYELVSAIEEKDKEKIVEELGDIIIHIIFHADIGKKEKKFFIDEILQKATLKLKRRHPHIFSSEKSNLNLKEVHKQWDKIKLEENEDPLSLIKNIPNHLPSLLKSASLYSRAKKLNLIKKQTIPQKITFELKSKEEISKEEISIKLFNLVSSLEEMGLNTEEILREYNNSIIKKIT;locus_tag=LOCUS_0210;gene=mazG;EC_number=3.6.1.9;note=WP_012545835.1 nucleoside triphosphate pyrophosphohydrolase (Thermodesulfovibrio) [pid:35.7%25%2C q_cov:99.1%25%2C s_cov:86.7%25%2C Eval:4.6e-32],MGA_22
sequence01	MetaGeneAnnotator	CDS	21849	22526	.	+	0	ID=MGA_23;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVVVLIFKGLFVISVPILLIIIASDVVIKTSFIYEYDYWKYNITERTNIDLNNLREIGRDIRDYFENDQEYLSIETTVNNQKKYLFNQREVEHMKDVKNLINFLDFIGLILGSILIVFSCLLFFYDKYWKKTLVNLIFSSGLFSIFLIISILLIFLAFFDYFFILFHEISFSNDLWILNPKTDYLIMIFPEKFFRDASYLIGLISILEFLFFYLIIRYLFRFKG;locus_tag=LOCUS_0220;note=WP_011254154.1 TIGR01906 family membrane protein (Lactobacillus acidophilus) [pid:30.1%25%2C q_cov:49.3%25%2C s_cov:51.5%25%2C Eval:1.9e-07%2C partial hit],MGA_23
sequence01	MetaGeneAnnotator	CDS	22516	23250	.	-	0	ID=MGA_24;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKKISAISFDLWDTLIKDSPQMGENRSEYRINEILILLSKINSKITLENIKISLNYIREQCTEDHKKGIDINFDNRVNQLIEKISQKEKIVPTRKINISIGKIIDKAFLKYPPQVIDGVEELIKNIYKKKYKICLISNTGFTSPKTYNIYLEKIGLLKYFQFILLSNELETAKPSKNIFEIAIKKLMVPSQEIFHIGDNYTADILGSKNCGFNSIWINNKNNSKNKDLTISNITEIENFVNL;locus_tag=LOCUS_0230;note=WP_011815342.1 5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YigB (Yersinia enterocolitica) [pid:34.0%25%2C q_cov:41.0%25%2C s_cov:36.6%25%2C Eval:5.0e-07%2C partial hit],MGA_24
sequence01	MetaGeneAnnotator	CDS	23324	24307	.	+	0	ID=MGA_25;product=SDR family NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545846.1;translation=MIIVTGCSGFIGFHLSKELLNNNLPVLGIDNLISSQNILKNWRLEQLKNYGINFIDVDITNKAELNKKIRDINFSGNFSTIYHLAGLAGVRQSVLEPKKYYNNNVMGTINMLNIATEFSLESFVFASSSSVYGLQDNRIPFVENETLESPQSPYAFSKLFAELISKDYSNISSLNVSLLRFFTVYGPAGRIDMSILKFIHNIINENPINIYGDGFQERDFTYVEDICEGIIKSSRVDGFETFNLGSSQPYSIIKVLSILKEIINKEPKIEYLPKHYADVNYTWANIDKAKSLLKWHPKTSLENGLEKTVDWYKNNKDLLASTFEKFN;locus_tag=LOCUS_0240;note=WP_012545846.1 SDR family NAD(P)-dependent oxidoreductase (Thermodesulfovibrio) [pid:40.6%25%2C q_cov:97.2%25%2C s_cov:97.5%25%2C Eval:1.0e-62],MGA_25
sequence01	MetaGeneAnnotator	CDS	24467	25522	.	+	0	ID=MGA_26;product=DNA replication/repair protein RecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000470745.1;translation=MLAIGKTSRSSFDQELINYEINSGDNCSIKAIGSDGPILFNIEFELKQDIKNSNSSIEDNKAFKYKKILKINGAKVSLNSFVGVFNVVMFEANDLMLIFGAPILRRRFLDILISQTDIQYLKALQRYNQVIKNRNRILKNISLNNSNYNELKFWTDKLIEDGSMIMYFRHKIIQNLFQRTSILYDQLSIENETLEIIYHPNLKYSDDIDLKNQLIQKNDYEKFIFESIERKKNDELRYGTSLVGPHRDDLDIKLSGFNISNYASRGQIRSIVLALKLAEAEIISEIKESDPVIILDDVMSEMDSDRRRLVLQLINNYDQVLITVPDRKLLDQPNLKYSKLFNVNKGKINIL;locus_tag=LOCUS_0250;gene=recF;note=WP_000470745.1 DNA replication/repair protein RecF (Bacillus cereus) [pid:32.2%25%2C q_cov:99.4%25%2C s_cov:86.7%25%2C Eval:4.1e-41],MGA_26
sequence01	MetaGeneAnnotator	CDS	25523	26290	.	+	0	ID=MGA_27;product=NAD-dependent protein deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762545.1;translation=MVNNILEATKIINSSKYIVAVTGAGISVDSGVPTFQGTDGLWTRFGKPSLNSYSDFIKDPDKWWLKEIKYTSSPYINELRRTLELAKPNIGHKILKLMEDLGLIKMLITQNIDGLHQDVGSRNLIEIHGSRKKFRCIGCNWRKDRGENKISKIPDPCMKCGKIMKFDSVMFGEPIPKDVLNSSRDSINYADCVLSIGTSSTVRPAAGLFWIAKSQNAKLIEINISPTKLTKFCDVVIKGSTSEILPKLFDSLENH;locus_tag=LOCUS_0260;gene=cobB;EC_number=2.3.1.286;note=WP_011762545.1 NAD-dependent protein deacetylase (Pyrobaculum islandicum) [pid:41.0%25%2C q_cov:95.7%25%2C s_cov:93.2%25%2C Eval:6.9e-47],MGA_27
sequence01	MetaGeneAnnotator	CDS	26292	27014	.	-	0	ID=MGA_28;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256313.1;translation=MFLSIIIPAYNESSIIENSLKKIQDFLSKKDFKYEIIIINDGSTDNTLEIVNLLASKNINLKIIDITHKGKGAAVKKGILSSNAKWSFLCDADLSMSIDQLDMFLSEIQQDPSIDIIIANRSHSQSNVYMEPQTRHYLGILFNIFVRLLLLKNFNDTQCGFKLFKNFTTSKIFSQQKINGFSFDVEVLFLSRKLNQNIKEIPIEWYYNPSSSVKFSNGSKAFLEIILILIYRIFRKYKFH;locus_tag=LOCUS_0270;note=WP_012256313.1 glycosyltransferase family 2 protein (Chloroflexus aurantiacus) [pid:33.6%25%2C q_cov:88.3%25%2C s_cov:82.8%25%2C Eval:3.1e-30],MGA_28
sequence01	MetaGeneAnnotator	CDS	27027	28262	.	-	0	ID=MGA_29;product=aspartate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583724.1;translation=MSSLSNKTVVQKYGGSSLKNVTAIKKIAEKIIKTHSEGFNVVVVVSAMGKTTDQLLYQATKIIKNISSKHNRDIDMLLSTGEIVSATLLSMAINSNKLGVNSISLTGPQAGIKTNLNHGSARISKIEISRLKKELSSKKIVIVAGFQGVSQTKDITTLGRGGSDTTAVALAAALKASSCEIYTDVEGIFTADPNIVKNAKLIHYLSFEEMLEMASLGAKMHPRSIELAAIYNIPISVKHSSKISKGTIIKSGIKKMEIREVVTGIPTERKISKITINDLDDTPGVAASIFMPLANQGINIDVIVQSAGNNGKTNLSFTLSENHLNQAIEILNDSNKINSKNINSEQGLAKISIVGTGIQNQPGYAARMFKNLAGAKVNIEMITTSEIRITCIIKDSDIEKATNTLHKEFFG;locus_tag=LOCUS_0280;EC_number=2.7.2.4;note=WP_012583724.1 aspartate kinase (Dictyoglomus turgidum) [pid:49.0%25%2C q_cov:97.6%25%2C s_cov:97.8%25%2C Eval:5.0e-97],MGA_29
sequence01	MetaGeneAnnotator	CDS	28265	29182	.	-	0	ID=MGA_30;product=homoserine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986279.1;translation=MNFHEIEVNVPASSGNIGSGFDCVGIAVDIWNKITLTQDINSSKPPTIKYSGEKSYKKIPNQDNLTLIQLKNFIDNNINGISINCNNNIPLSRGLGSSSAAIAAGLLLGSTLKNQQKTSLEKLIEIGINEEGHPDNIAPTMIGGCVISVLNNKEWGFSKVSIAEDLNVIIYIPEMEFETKKSRSLLNPLIDRKNAVFNIGRVALLINSLNNKEYSLLKLATQDMIHQDARLENFKEMKYILNSGLDAGALSGFVAGSGPSIMFFSKGREMTIKYELLECARKHNLKGRVIITKPTNKGAYIKVKK;locus_tag=LOCUS_0290;gene=thrB;EC_number=2.7.1.39;note=WP_011986279.1 homoserine kinase (Clostridium botulinum) [pid:32.3%25%2C q_cov:84.3%25%2C s_cov:84.8%25%2C Eval:5.5e-36],MGA_30
sequence01	MetaGeneAnnotator	CDS	29179	30120	.	-	0	ID=MGA_31;product=thioredoxin-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846363.1;translation=MNKNNIDLSIIGLGAASYAAALYAVRYQIPTVMIGEDFGGETATGGLIENYPGVPEIDGYDLMLNMKQQVENYNIKTIDENAISIEKKDQGYSIKCSGKTTIETRAVILGIGRERRKLNLENEEELTGKGVSYCSTCDAPLYKDKITAVVGGGNAAIEGALLLSKYSTEVYLIYRGNKIYRPEPVLLRHLDESKNINILLNTKITKIIGNNESGLNSIETRSDNESKNINIDGLFIEIGADPRLKIPNQLGLEINPTTNEVHVNNLMETNIAGIFAAGDLTDASGNLKQTVTAAGQGAISALSAYNYLGQIQK;locus_tag=LOCUS_0300;gene=trxB;EC_number=1.8.1.9;note=WP_052846363.1 thioredoxin-disulfide reductase (Sulfurisphaera tokodaii) [pid:36.3%25%2C q_cov:93.3%25%2C s_cov:89.8%25%2C Eval:8.6e-56],MGA_31
sequence01	MetaGeneAnnotator	CDS	30226	31413	.	+	0	ID=MGA_32;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870036.1;translation=MKEPIVDTIVVGSGPAGSQCAYNLSSRGHSVILLDYRENIGDKLCTGIVSAEFEKFYPDVSKFIYRRAYSASIFSPSGKLLKIKRKSPQALIIDRESFIREIAFNAEKLDTKLKLGRVVEKIEVNSKFVQVRVKYNGEVEEYTSRSLVLASWFGSRLAKMVGLDTPKTKIFGAQVKIKFNGIDEVNVFTGHSLPKGFFGWMVPLNNNYSYLGILGKENPKEIFEDFCRNLKNRFTTLSFSDDVDIWGITVSPSSKIFSNRIVGIGDVVGQVKPTTGGGIYFSMRSADLASQVLSEGLLSNNLSETFLSNYQKSWEKIFKKELQVGQLARFFYESLSEDEINNIINYLFESGVLDKEISFDWHSELVMYAFKTKILNFVKTPMRKAVQKVIYSLNN;locus_tag=LOCUS_0310;note=WP_010870036.1 NAD(P)/FAD-dependent oxidoreductase (Methanocaldococcus jannaschii) [pid:24.4%25%2C q_cov:87.6%25%2C s_cov:91.3%25%2C Eval:2.0e-26],MGA_32
sequence01	MetaGeneAnnotator	CDS	31391	33322	.	-	0	ID=MGA_33;product=transketolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546388.1;translation=MTLSFVPHEIFNDLLKKEIQPEIKSELLSYLCRINILYMINKAGSGHIGSSFSSIDLMSWFFLKYVLNNNSTRNYFFSSKGHDAPAMYSVMSSLGLIDFNLIHKLRKIDGLPGHPDVNTSNVITNTGSLGMGISKAKGIIKANRLKNTECRVFVMTGDGELQEGQFWESLMRVKQESLHELMIIIDNNKFQSDRTVEYTSDLGELKNKITSFGIQTIKINGHNVFKFSKDIKKLIDSNQPSAIIADTIKGKGVSFLEANNLKPGQFYKFHSGSTTDEIFRKSIDELSTKINQIINDNSISLDFDLENSYESKNVISNSHKKESLVKEYSISLLKQARKNKYIIALDGDLILDTGLIPFEEEFPDRFFECGIAEQDMVSQAGTLALEGFLPIVHSFASFLSSRPNEQIYNNATENSKIIYVGSLAGILPGGPGHSHQSVRDIASLSGIPNLKLIQPSCSKEVSMILNYCIDELKESSYIRLCSIPVETPFDLSKKYKIEKGKGTTIAEGKDVIIFSYGPVMINELLKTRTELMKTGIKIKIINLPWLNYVDKEWLKEQIKGFKFLFTLDDHYESGGQGEMLLSNISQQPDKSDFPKILLKIGINEIPKCGSNEEVLSYHKVDSLSIMKIIKETISKNSNYLENK;locus_tag=LOCUS_0320;EC_number=2.2.1.1;note=WP_012546388.1 transketolase (Thermodesulfovibrio) [pid:29.0%25%2C q_cov:94.9%25%2C s_cov:99.0%25%2C Eval:5.2e-57],MGA_33
sequence01	MetaGeneAnnotator	CDS	33324	34091	.	-	0	ID=MGA_34;product=acylneuraminate cytidylyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000132016.1;translation=MSKKSSNNIVALIPARSGSKRIKNKNIKLLNGHPLIAYTIQSAINSEIFDEIIVSTDSNDIKKISEYYGASVPFLRPSVYATDTSPDIEFVKHALVELSKLSKNYSQFSILRPTSPFRKANTIKRAFKLFSNSNSDSLRAVEKCLQHPCKMWTLEDDYIKPFVNLESYGPHNQPLHSSQYPSLPEVFVQNASLEIANSNVVFEQNNISGSKIIPFFTKDDEGIDVNVEEDWIKAEIYLKSEKAKLTEITQKPFNY;locus_tag=LOCUS_0330;note=WP_000132016.1 acylneuraminate cytidylyltransferase family protein (Leptospira interrogans) [pid:33.5%25%2C q_cov:91.8%25%2C s_cov:97.8%25%2C Eval:6.1e-27],MGA_34
sequence01	MetaGeneAnnotator	CDS	34098	34913	.	-	0	ID=MGA_35;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011088738.1;translation=MVKDYFKIENEVIIITGGSGKLGSIYSDYLAFRGANVFSFDILGNPNDEGKFGKDPKNSKLEYIEVDITEKSSIEYGLNQIIKKGLQPTGLINNAAIDSSPSTDSKDTGPLEDLPIESWDKVLDVNLKGTFLTSQIIGSQMAKNKKGSIININSHYGLISPDHRIYDFTKKSGVDFYKPIAYSVSKSGIINFTRYLATYWAEKNIRVNTLTLGGVYSEQDPRFVKEYSKRVPLGRMARGEEYCGPILFLISDASSYMTGSNLIIDGGWTAW;locus_tag=LOCUS_0340;note=WP_011088738.1 SDR family oxidoreductase (Bradyrhizobium diazoefficiens) [pid:39.3%25%2C q_cov:99.3%25%2C s_cov:98.2%25%2C Eval:2.8e-49],MGA_35
sequence01	MetaGeneAnnotator	CDS	34916	35428	.	-	0	ID=MGA_36;product=3-deoxy-manno-octulosonate-8-phosphatase KdsC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000030029.1;translation=MSLKSKQLDLKTSIIFKNIKFIFFDFDGVFTDNSVYVSQTGEEMVKCSRYDGIGLKNLESQGIGKIVISSEKNPLVKTRCKKMNIECYDSVENKFSLVKEIIENKNLEISKVAFMGNDINDLECLSKVGLPIVVKDCHPKLIKVAKYITETLGGNGAVREVCDHLTNQTE;locus_tag=LOCUS_0350;gene=kdsC;EC_number=3.1.3.45;note=WP_000030029.1 3-deoxy-manno-octulosonate-8-phosphatase KdsC (Salmonella) [pid:36.9%25%2C q_cov:87.1%25%2C s_cov:79.3%25%2C Eval:1.2e-22],MGA_36
sequence01	MetaGeneAnnotator	CDS	35430	36479	.	-	0	ID=MGA_37;product=N-acetylneuraminate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_066398080.1;translation=MPREIKIDNQIINDDSNCFVIAEIGNNHQGKLENAKKLITLAKQSGVSAVKFQKRDNINLFTEEMFNSPYTGAQSFGPTYGEHRMHLELNENDFKELIQYSKKEKITFFATPFDIKSAEFLYKLGTPAFKIASLDLNNLNLIKTVAEFKLPTIISTGAATLDQVKRTYEVISAINNQIAIMQCTSEYPAKAIHINLNVIKKYREEFPNAVIGYSGHDFGTSIPIAAFSMGARIIEKHFTNDKTLKGTDHQFSLTPNEMTSLVNEIYEVKLSLGDGEKIIYPEEQLSKFKMGKKLVASSTLNAGHVIKENDISIKSPGDGMSPFEIDMILGKKIKKRLTKDSSFTIENLE;locus_tag=LOCUS_0360;gene=neuB;EC_number=2.5.1.56;note=WP_066398080.1 N-acetylneuraminate synthase (Fictibacillus phosphorivorans) [pid:35.9%25%2C q_cov:97.1%25%2C s_cov:98.0%25%2C Eval:1.7e-55],MGA_37
sequence01	MetaGeneAnnotator	CDS	36542	37690	.	+	0	ID=MGA_38;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVVYITNARLPTEKAHGIQIIKMCEAFSELGFDVNVIHPWRYQSNKYHRTNVEDFYNLKYKISISKIPFFDVYLIRRFLPVFLFRIFSFNFAVLWGIISLIIAKTKNPNICIMRDNTPFSYWFFQKFGMKTILEFHDLPPKLSLKVFKSAIKTSSSLFAVTENLARDLEKALDLPHEIINVLHDGLDLETFKENIREDYEKLGVTYCGSLLPDKGIDTLLQASEMLPHLKFTIIGGHPSEIESYKKKWENLNLENVNFLGFKNPKFIPKYLKMSDLLILPSTAKTKKSSLYTSAMKLFEYLGAGKAIIASDIPSVREVLKHAETGYLIKPDDHEELAISIDKVLKDNDLKTLLENNAKKLSMKYSWVERTKNMLEKSKIFY;locus_tag=LOCUS_0370;note=WP_000591814.1 lipopolysaccharide N-acetylglucosaminyltransferase (Salmonella) [pid:24.1%25%2C q_cov:54.5%25%2C s_cov:58.3%25%2C Eval:2.9e-11%2C partial hit],MGA_38
sequence01	MetaGeneAnnotator	CDS	37699	38832	.	+	0	ID=MGA_39;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546788.1;translation=MKQRVNKNITVFSPFLNPVGVKRATFGLAKVFSQNYYNVNLLSVHREWEGLKLEENMKIIYLSTIFKRMPTKGFLIFRLVSLIIGFRTVFSLASYLKSNRTEILFVSMMPTIAWLALKFSGKSKEINFVISLQGFPRENIFRRVIWRKIFNASKDVIAESEGLMKKVIKMTGISKNVNFIYNPHFENQDEIRNKSEFVKLDYKYILGLGRLTKQKNFSMLIEAFNLIDHSNGLKLIIIGDGEEKSKLKNLVNKLKINSNVLFLGKIEDPFGYIENAEILVIPSLWEGLPRVAIEAQALKTPIISACKEGGLEEILMNGHAGIIVENHDVNEMKNSIEKYLKNPKIALSHSELGLKNISRFSLETSAKKYLTKFSNYF;locus_tag=LOCUS_0380;note=WP_012546788.1 glycosyltransferase family 4 protein (Thermodesulfovibrio yellowstonii) [pid:24.5%25%2C q_cov:94.7%25%2C s_cov:91.3%25%2C Eval:4.9e-19],MGA_39
sequence01	MetaGeneAnnotator	CDS	38837	39754	.	+	0	ID=MGA_40;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYHSKDITVLIATKDRVKQIERAILSSVNQSINPRVVVLDDASEINIKKELAYKFSKFRIKWLRSNTPSGVAGARNKLVENSSGSIMVFLDDDAYFSDEYSLEKILKKFSSSDSLAAMALKIVLRQETDGLQIPFNRLERILNKNIHNNETEASYYVGAGHVLVREVFEKTGGYDNDFFYGLEELDLSSSIIKEGKKIIYFPDVEVIHEPQRSVVDKKNQLKDETYYSIRNRIWVSYKHLPIIYLISHLFIWGSFYLLRSLLKFQLIKYFFALKDGFLKLKHLRRNPFNSESIKYLRKNHGRLWY;locus_tag=LOCUS_0390;note=MGA_40
sequence01	MetaGeneAnnotator	CDS	39735	40799	.	+	0	ID=MGA_41;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868307.1;translation=MGDCGIEMTTQISKTVIIPTRNEEEYIEDCINSLLEGSNVINSTEFIIVDGKSSDRTLDIVREKFQHLNLKILNNSNVFQASALNLGIENSSSNILEVGSDSQIIIRADAHSVYPENYLALCVEALQKNLEVGNAGSIQKAVGKNYFSKAIALVMNSTLGMGGVKYRKIGNEKLESDTAYLGCWWKADLLKLGGFNEDFQINEDYELNIRIRKFLNNNSITINPNLIVDYFVRTNFLGLLKQFFRYGLWKTKTLSIHPDSLKKRQLAPVLFVLFLVSLIIGNLILSYPYLEILNWIGAIVGLFWLIMIIDIWKDSPKIINVFLIPIVVLSMHISWGLGFLYGLLRWTRGGWNRS;locus_tag=LOCUS_0400;note=WP_010868307.1 glycosyltransferase family 2 protein (Pyrococcus abyssi) [pid:22.5%25%2C q_cov:93.5%25%2C s_cov:94.9%25%2C Eval:2.5e-09],MGA_41
sequence01	MetaGeneAnnotator	CDS	40796	41410	.	+	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSKRYKLKRVLDISMIIGGFIFPLLWPFWIIIIFIVPLLIWIEDRGPIFYSQKRIGKDKKIFKIFKFRTMVPNAEKMTGAVWSTKDDPRITKIGNFLRKTAIDEIPQLINIFKGEMSFVGPRAERPELHEEFSRKIPNFDKRLEVTPGLSGLAQINGSYDLNPKDKLKFDIEYSNKMSLLFDIKIIFISILNSLTARWDSPEN;locus_tag=LOCUS_0410;note=WP_009891044.1 sugar transferase (Clostridioides difficile) [pid:51.5%25%2C q_cov:79.9%25%2C s_cov:71.1%25%2C Eval:6.5e-41%2C partial hit],MGA_42
sequence01	MetaGeneAnnotator	CDS	41407	43008	.	-	0	ID=MGA_43;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLTLTIDWSIDKYRNRILEENLPKPILEIINLENPNTSFFNKEKFYKYGMLNFVDTEYGPVSNLSTNLDPDDDFYKPMLKNTIDKLMFDVDKLEEENFYCNEKLLALNEIIIWYYSTDFFGATNLTTSRLSYKLPSGVNITLDGSESTGGDYTKCNSMYKTLYEIHPSLSYIIKEGIDLSHRKVTYRIALESFKERPVIGFGTESFSYIFYKYLKGTDFEGYSPAKWDRSHSRPLDILTSTGLLGLTIWALIWIWIVSAIIKNFKNNSQNTFHIFVAGGLTSFFISNLLVFPTISTYLQFSLLISFLARSQIGFNKHSIIQNNSESSIKKMRINFLVVLVISISLISLYFLIIIPFNASKNQFPKGMNNDIEIYNKKLSSFPQMSITGRTNLVYQVLIDWDSILDSAESKENKEEIIIKIISIIESNAEDSLNRDPNDYDMNMAMWNFYTKIYLYDQSYINKIEEKSKKLIELAPTSLSSQETMIRTFLIKKDLDGAKRWNKIWKKDHPDLNDVDKNHWDSLISKLENELSN;locus_tag=LOCUS_0420;note=MGA_43
sequence01	MetaGeneAnnotator	CDS	42896	43330	.	+	0	ID=MGA_44;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGFSRFIISKIGFGKFSSKILFLYLSIDQSIVRVRYKILEKVINREEKNKVIKVYLKNLLLLFKINKGIVNKIAVNNPNKAPLDPLNIIVKKQADIPSIIKENFKNSICEFFRKSFFFFKFLIMKLLFSINNPKPMITIIDKY;locus_tag=LOCUS_0430;note=MGA_44
sequence01	MetaGeneAnnotator	CDS	43433	43657	.	+	0	ID=MGA_45;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRKLRKLKGIPIYWLNAINPTINPMKKLILNNVFHSSRDFKKLTVTKTIKIIYIIVIIPSIRIHVPQKLFVKL;locus_tag=LOCUS_0440;note=MGA_45
sequence01	MetaGeneAnnotator	CDS	43943	44884	.	-	0	ID=MGA_46;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081431.1;translation=MKNNNSILITGGAGFLGSHLVDTFLEKGNRISIIDNLSTTSKSNHINPEAEFIQMDINDTNLKKTIKKINPKIIIHCASQTSVSMSSRNPKKDAENNILGTLNLLESFYNSQDYYFVFISTGGAIYGENTGLSVGENHPCSPKSPYGLSKLTVENYIKYFSESIRMKHLIVRPANIFGPRQNPHGEAGVVSIFANSMLNNQNVSIFGDGNDYRDYVYVNDVVNFIEKAIEKNASGVFNVGTGISITTNKVFSDLAEILNYTKKPNYLPKRPGDIKGITLDSKKALKEINWKPKINFEQGLNETISFLKSVTLN;locus_tag=LOCUS_0450;note=WP_004081431.1 SDR family oxidoreductase (Thermotoga maritima) [pid:41.3%25%2C q_cov:96.8%25%2C s_cov:98.4%25%2C Eval:5.5e-63],MGA_46
sequence01	MetaGeneAnnotator	CDS	45017	45844	.	+	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKIIKNGSITTPKGFKAGAVYAGLKSPGEDKYDLGIIYSSSPSNWAGVFTKNKIVSPSVVLSKSLPDIIQGVVVNSGSANCCVGDQGMSDARELVDLTKKHLNSDLDFVLCSTGVIGVELPMGLIRENLGKINVNDSGGSDFSKSIITTDTITKEISIEIEHDGEKIHISGVAKGSGMIHPNMATMLAFITTDAKSESSYLKKVLKNVVDKTFNQIDVDGDTSTNDSVILLANGESGQKIDENSSMHDDFLKGLHIVAEDLSKKLLLMQKEHNI;locus_tag=LOCUS_0460;note=WP_000241357.1 bifunctional glutamate N-acetyltransferase/amino-acid acetyltransferase ArgJ (Bacillus cereus group) [pid:43.5%25%2C q_cov:95.3%25%2C s_cov:65.4%25%2C Eval:4.9e-49%2C partial hit],frameshifted%2C insertion/deletion at around 45805,MGA_47
sequence01	MetaGeneAnnotator	CDS	45967	46212	.	+	0	ID=MGA_48;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMAIGNSDSNIKEDKIKIFINDIQIVEEGKSIPFNPTSVIAALTKSEVEILVDLGIGNGDGCAWGSDLTEEYVVFNSAYRT;locus_tag=LOCUS_0470;note=WP_011228506.1 bifunctional glutamate N-acetyltransferase/amino-acid acetyltransferase ArgJ (Thermus thermophilus) [pid:39.5%25%2C q_cov:100.0%25%2C s_cov:21.0%25%2C Eval:9.6e-09%2C partial hit],frameshifted%2C insertion/deletion at around 45811,MGA_48
sequence01	MetaGeneAnnotator	CDS	46258	47067	.	+	0	ID=MGA_49;product=acetylglutamate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057248.1;translation=MMTSNNNIENPKNDVIVVKIGGSTLGVGDSTLADLVELRKSGFKVIIVHGGGKQISEWASKLGIRPEFINGLRRTDLQTMEVAIGVLAGLINTKIVNELNVLGASAVGYSGVSDRLFQAKIKDKNLGLVGELVGCNVDSLIKILENSIPVVSPIAFNIGFLDIEQDGILNVNADTAAGYLAKSLNADKLVFQTDVEGVLDFYGRVIPHMTTSQAKEIIKSGIAKDGMIPKIHACINSLSNVSSTHIIDGRVNKALLDCISNKKIGTRII;locus_tag=LOCUS_0480;gene=argB;EC_number=2.7.2.8;note=WP_011057248.1 acetylglutamate kinase (Thermosynechococcus vestitus) [pid:38.4%25%2C q_cov:94.1%25%2C s_cov:87.1%25%2C Eval:4.3e-42],MGA_49
sequence01	MetaGeneAnnotator	CDS	47069	48274	.	+	0	ID=MGA_50;product=acetylornithine transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082331.1;translation=MNENIDKLKSWQNIESQYYMQVVNRLPVVLVMGKGTLVWDSNSNKYLDFTSGWAVLNLGHSHPVVTEAIQEQSKKIMQMTNLYYTIPQLGLAKLLADNSCYDRVFFSNSGAEANEGACKLARKWGREMLDGAYEIITANNSFHGRTMAMMAATGQKHYQEEWEPLMPGFINVEYNNFDQFLEKASEKTCAVLLEVVQGEGGINVPDQKYLLDVQKWCQENNVLFMVDEVQTGMGRLGTLFGYQKFGLDPDVMVLGKALGAGVPLGAFMCKERFSVLSPGDHGSTFGGNALTTAAGWASAKYIIETDLPAEAARSGKYLHSMLDVIKERHDIEAVRGFGLLLGLELRKNKAQAVIERCLSKGLLLNAVRPNIIRFFPPLNVSEGEMNQAVKILEEALLEEKI;locus_tag=LOCUS_0490;EC_number=2.6.1.11;note=WP_004082331.1 acetylornithine transaminase (Thermotoga) [pid:45.6%25%2C q_cov:93.0%25%2C s_cov:97.4%25%2C Eval:1.8e-91],MGA_50
sequence01	MetaGeneAnnotator	CDS	48287	49504	.	+	0	ID=MGA_51;product=argininosuccinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808619.1;translation=MSKSKKIAILAYSGGLDSTISIDWIKKNYDFDVIALTVGLGNGGLSQDLIDRAKRAGAVDCIQEDVSDEFIRNYVFPSLRAGAIYENQYLLATALGRPLIAKKLVEVARRFDAVAVAHGCTGKGNDQVRLDSAIKTLSYENPLLIIAPAREGKMTRDEEKKYAEKLNIQLPGVGEKIYSIDRNLWGVAIEGEDLEDPWSKPPEDAYIITKSPNDAPEEPMDLIIAFNSGNPISLNGETLSPVDLVGNLNEIAGEHGIGRIDHIENRLVGIKSREVYETPGATVLDLSLMALEKSILTKEQLRIKSYISQQYADLVYEGKWFSGLRENLDAFVNSSMKYVSGEVRIRLFKGNASVNGLRSQYSLYNYDLATYSEEDKFDHHSATGFIDIFSLPSQLQRHKQPPDNS;locus_tag=LOCUS_0500;EC_number=6.3.4.5;note=WP_005808619.1 argininosuccinate synthase (Desulfitobacterium) [pid:48.0%25%2C q_cov:96.5%25%2C s_cov:95.4%25%2C Eval:4.6e-103],MGA_51
sequence01	MetaGeneAnnotator	CDS	49514	50902	.	+	0	ID=MGA_52;product=argininosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002121138.1;translation=MNKKDKDLVSIVRGSVSNSDFTKSIHFDKRLYKQDILSSQVHALVLEKLGILDEKEREKLIGSLNIIKEEIESGEFVWKDQYEDIHMNIEARLNEIVGSLSGKLHTGRSRNEQISTDTRMYVKDAIGEIKKLIVNLQASLVDISELNSSLIIPGYTHLQRAQPVTLGHHFLAYFHMLERDYERFVRAYNVSDVLVLGSGALSGNTFKIDRKFLAKELGFSRISQNSLDAVSDRDFVLDFVYSCMSCMIHLSKLAEELILWSSSEFSFLNIGEEFTTGSSMMPQKRNPDFAELVRGKTGRSIGSLVSLATTLKALPLSYNRDLQEDKEPLFDSFDTLRDSLNVMVGLIQSLTFNDSRINEVINDSFMIATDLADYLVKKGMPFREAYAKVALELKKVMSTKKSFNDLKLKDLKKISKLFEKDVLDITIEDVVNSRDGIGGTSFSSVSKAIKEARSLLNKKKSF;locus_tag=LOCUS_0510;gene=argH;EC_number=4.3.2.1;note=WP_002121138.1 argininosuccinate lyase (Acinetobacter) [pid:49.1%25%2C q_cov:95.2%25%2C s_cov:92.7%25%2C Eval:5.1e-117],MGA_52
sequence01	MetaGeneAnnotator	CDS	50908	51585	.	+	0	ID=MGA_53;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000589966.1;translation=MCKNLTLSASIISGDFLKIGEQLDELMQTDCNEIHYDVMDGHFVSNLSAGPVILDSIKEKIKCNIDIHLMVKNPLSYIQDFSKIGADVITFHIESDDEPINVINKIKELGMYSAIALNPETDWRAIEPLMKYLDRILFMTVVPGASGRSFEYDVIEKIKNFVENNKGFLNAEKLFQIGVDGGISKDTAKIAVDAGANLLISGSSIFWDDEKSISECVSEIIESTK;locus_tag=LOCUS_0520;gene=rpe;EC_number=5.1.3.1;note=WP_000589966.1 ribulose-phosphate 3-epimerase (Bacillus) [pid:40.6%25%2C q_cov:89.8%25%2C s_cov:93.0%25%2C Eval:3.9e-40],MGA_53
sequence01	MetaGeneAnnotator	CDS	51609	53267	.	+	0	ID=MGA_54;product=DAK2 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965042.1;translation=MNPKIGLEPNELIDLIEVFCQTLEEHRESINSLNVFPVPDGDTGTNMFFTIKGIRDYISEDTKSLDLASMVKLLSKWALLSARGNSGLLIAQLFKGLAFALNDDDLLGPKQFVKALIKTTEFAYESMPNPQEGTILTVLKESANASDKSLSKNPDDLIYIWKIANDIAKKTVDDTPNQMELLKKAGVVDAGGYGLSLMLEASFNCLFRDQEGNIIFSIPSDKSLYIPEVIKHKPIEKEFLQSVEDESWGFCTSFVIQGSSINIDHVKDDLNKKGKSLVVTGDTELLKIHIHVENPDEIIKYSQKFGDISHEDIQNMNLQTSEFNHSQNEEIQVVEVALIVFAREPILRQRFREITPDHLEFIEVSEDSSPSVQDILDSIENSKGKNVILLPNHKDLIEICNQALLLTSKNSSQIPTKNFIEGISSVLAFTSGKSYDINIKSMNRAIEDIKTCSVKVAVKTLEYNGLNIEEGDYIGFIENNLIAKNSDKNEVLKKIISNIDIDQKLISIYAGNNIIMDDAFDLLNQLQLQFPKSEFDLIESGQYDSEYFIGIE;locus_tag=LOCUS_0530;note=WP_010965042.1 DAK2 domain-containing protein (Clostridium) [pid:31.4%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:5.1e-74],MGA_54
sequence01	MetaGeneAnnotator	CDS	53307	54185	.	+	0	ID=MGA_55;product=DegV family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583151.1;translation=MSTAIVTDSAADIPADLLKKNNITEVPVIVNFGDESFKENVDLSADDFYERLQNSKEFPTTSQPAVGDFIDVYTNLAKKHDSIISIHISSKLSGTFNAAEQAAKEVGNSKCNITVVDTLSVSMGTGLIALEVAKSVKSGMKSADAVNYANELSEKGKIFVAVSTLEYLKKGGRIKGAAALIGGFLNVKPILTNVDGLVENWAKPRTMLRALSQIRDAAEGYVNIQNMAVLHTTQGFDARALASSLADHKYDGEILRSQFGPALGAHLGPGAVGVMFIGDVPSDEEKDEEEEE;locus_tag=LOCUS_0540;note=WP_012583151.1 DegV family protein (Dictyoglomus turgidum) [pid:33.1%25%2C q_cov:94.5%25%2C s_cov:98.9%25%2C Eval:2.8e-37],MGA_55
sequence01	MetaGeneAnnotator	CDS	54219	56684	.	+	0	ID=MGA_56;product=ATP-dependent DNA helicase RecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583501.1;translation=MESFIDHNNKSINLLIRILGLEKLNSYSNRAVTGGLDEFLRIHKKSLEACLKLYPIKNSSYFRLSPEMRKNWAEKVEEKYSRDRKSILNFSKKNRSKLKSKNALIKNQISSELTLNTPLSDLKFIHSIGRRKLKTLNISTLKDLLMYFPRKHIDYSSVSKINNSIIDQETTIVAQFISIKADGNFKLKSTKAIVSDGTGNIQITWFGQPYLAKQFKISNWIVLSGKIGNIGRKLTMDNPEYELLNSGFLKRENLIHAGNLLPVYPSNSDLAQRTIRNAVAKSLDKGIPLIEEFLPIEIRNKFHLVELQTAIQDMHLPPNMDRFFNAKKRFSFDELFLNQLNVLRRKSKRQISSYANSISLNDNSLDTFFSRLEFQLTKDQLKAINEIMNDLNSKKPMGRLLQGEVGSGKTIVALTSLFATAKCGYQGVLMVPTEILAEQHFLNIKKEFEDQELDTGLDNVIHIKVPGFEDITIKVGLLIGSLKPKSKLLTQTLIRKHQIDIIIGTHTLIQEKINFPDLSLVVIDEQHRFGVEQRDALLRTKNTPHLLSMSATPIPRSLALTLYGDLELSTLLEIPPGRKPVITKWCGDEESKKYAFDVIREEIGKGFQCFVVCPLIHESEQVRGRSVLTEFSKLKDEIFPEFRIGLLHGEMDLIEKSKIMYEFSNKNIDILVSTQVIEVGIDIPNASSIIIQSSERFGLSQLHQLRGRVGRGKIQGNCFTFSDFVSDQAIERLKIFEKHNDGFHLADQDLRIRGPGDYIGTRQSGVEGFRFASLTDLEMLENVRNQAKEIFLKDPTLSNDSYENLKKELLKNFEDRQLSVS;locus_tag=LOCUS_0550;gene=recG;EC_number=3.6.4.12;note=WP_012583501.1 ATP-dependent DNA helicase RecG (Dictyoglomus turgidum) [pid:36.8%25%2C q_cov:98.5%25%2C s_cov:98.2%25%2C Eval:4.9e-140],MGA_56
sequence01	MetaGeneAnnotator	CDS	56681	57568	.	-	0	ID=MGA_57;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVDVHTHIPTHENEVPDSEIKLDTSMKSGITTKLTNSVRDYLESFKNVEKTFVFGIAPRPWKPKDLVLGNPGGWPKNFNHNDIAYKLSTYNPEKIIPFMSLHPLDPKINDEYDRCVGDLGCKGIKLGPNYQDFPPDCEDAFKLYSRLEHDSLPIVFHQGTSPISHAPLMYASPQYIDKIAMAFPKLKIILAHLAHPWQVDALSVVRKHKNVWADVSAQFYRPWSFWNGMRLFYEWGVTEKIFFGSDWPITTPNETIEGLLSLEKFAIDHHLPKIPNSEIQGIINRNAIELLKMS;locus_tag=LOCUS_0560;note=WP_052846658.1 amidohydrolase family protein (Sulfurisphaera tokodaii) [pid:32.1%25%2C q_cov:69.5%25%2C s_cov:72.7%25%2C Eval:7.9e-24%2C partial hit],MGA_57
sequence01	Aragorn:1.2.38	tRNA	57579	57655	.	-	.	ID=Aragorn_1;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0010;note=Aragorn_1
sequence01	MetaGeneAnnotator	CDS	57677	58717	.	-	0	ID=MGA_58;product=N-acetyl-gamma-glutamyl-phosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546077.1;translation=MLKIGILNVTGYGGSELVRILHEHPEVQIKSITGRSNAGKKIGEVFPYLDDYPLTIESEVSKKVDLVFSALPHKASAEILGPLVKSGIKCIDLSADFRLPIHLYESVYKVKHPYPELLEKFTYGLPELFKEEIKNADNIANPGCFPTGALIPLSQFYKQNNNENSTVIIDSKTGISGAGRSKNIDFNFSEISDNFSAYSLDGHRHQPEINYHLSRYLKNNEKESYVPQNIIFTPHLSPMIRGIFTTCYIISSKIKNIEIDKKNTTFTKWVKTSPNVKNVRGSNNCLIYSDQPISEKNKTKDDAKAYRMISVIDNLVKGAAGQAVHNMNLMYGFPEKMGLDNLAIYP;locus_tag=LOCUS_0570;gene=argC;EC_number=1.2.1.38;note=WP_012546077.1 N-acetyl-gamma-glutamyl-phosphate reductase (Thermodesulfovibrio yellowstonii) [pid:40.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-61],MGA_58
sequence01	MetaGeneAnnotator	CDS	58777	59445	.	-	0	ID=MGA_59;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010889063.1;translation=MEEKNKKIIFKIKNIITNLSEVYGTPIWKPRLKPMDELIFTVLTQNTSDLNAEKAFYKLKTLGSWEEILKTSDFQIAKLIKSGGMSNIKSKRILGILQEIKKRKNKLDISFLSKLSLDDARHWLTSIEGIGPKTASVLLSFSFNMPAIPVDTHIHRVSKRLNLITKKTSAEDAHYILEKLVEDKNKYSFHVLLINHGRKKCHSRNPKCEECSLNKICNYKKL;locus_tag=LOCUS_0580;note=WP_010889063.1 endonuclease III (Deinococcus radiodurans) [pid:37.6%25%2C q_cov:90.1%25%2C s_cov:77.6%25%2C Eval:2.9e-32],MGA_59
sequence01	MetaGeneAnnotator	CDS	59429	60418	.	-	0	ID=MGA_60;product=polyprenyl synthetase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001817755.1;translation=MVNFNPIKLDPVEKELQIVSNNMIEIAEKEISYSKKISEILTQILTNPGKKIRPRITLLSSKLWGEPENENNIDIATAVELLHIATLLHDDTVDQAERRRGKKTPSSVWGKEVAVLLGDYIFAASAIYVSKTENGTIAMRFANTIVELSRGELSEFLDRGISRINRKTYFDRIYNKTASLFKTASLCGALTGIANETQSKVMKNFGFNIGMAFQIQDDIIDFVSKPNITGKPSVKDLSEGIVTLPSIIFIENNPSNNPLIDFLKDFPNLSLEKYQKAKDSILNSDSIEKSKLIVNEYIDKALQNFETIPDSKYKNSLIELVQNIHGRKK;locus_tag=LOCUS_0590;note=WP_001817755.1 polyprenyl synthetase family protein (Staphylococcus) [pid:31.6%25%2C q_cov:93.3%25%2C s_cov:99.0%25%2C Eval:1.2e-42],MGA_60
sequence01	MetaGeneAnnotator	CDS	60430	62097	.	-	0	ID=MGA_61;product=methionine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259302.1;translation=MSEKILVAVAWPYVNGPPHLGHIAGNTLPADIFARFNRMIGNDVLMVSGSDQHGTPVALKAKEENVHPREISEKYHAIWSIMNEKMGFTFDLYTKTGTENHKNVVQELFLKIKENGFLSEKDSEQPFSESLKMFMSDRYVLGTCKKCKNEARGDQCETCNITIDPKDLENIKSAIDGSPLIFKQTTHIYLELSKFQKKLKNWVEKQKHWRTSVKNHTLGMIEKGLIDRAITRDIEWGIPVPLTNYDKKRIYVWFEAVTGYLSASIEWSNSEKNSSGNQEAWRTWWENPDAKHYYFQGKDNVPFHTIIWPTMLMASGKKNLPYDVAANEYLNFGGKQFSKSKKWAVWLPDFLESYDPDPLRYHLTSIMPETSDSDFTWQSFLDANNNELVATLGNFIHRVLTMTYNNFEGKTPNIENQNDESTELLKKCKESMEKTKNFLEKREFRNALKSVMSLAQEGNKYIDFQAPWKQIKENKKDAALTLHTALTIISNLRIIMNPFLPFSSKKLATFIGEDPEKEIIWKFTKIKSNISLNKPIPLFKKLDDDIVEKEEAKLI;locus_tag=LOCUS_0600;gene=metG;EC_number=6.1.1.10;note=WP_012259302.1 methionine--tRNA ligase (Chloroflexus aurantiacus) [pid:42.4%25%2C q_cov:99.8%25%2C s_cov:99.2%25%2C Eval:4.9e-141],MGA_61
sequence01	MetaGeneAnnotator	CDS	62127	62942	.	-	0	ID=MGA_62;product=16S rRNA (cytidine(1402)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583798.1;translation=MGTLFIVATPIGNLKDITFRAVEILNNVEIILSENTRISKILLKKYNITTRLISYNDHNHKKKINSIIDILKTSNIALITDAGTPGISDPGSQLVLEARKNGININAIPGASALSSAISISGLKSNKFSFIGFPPKSNTQRKEMFLKIIKVNPIIMFESPHRIINLIKSIDNIFEECNIILFKEITKIHESVYTGTPTKILKKISNPKGEYVLILQNGKENNQSNPQVLSEEIRKYIKQGLSGKDIVEKISISKELPKKMIYELYLKEKDY;locus_tag=LOCUS_0610;gene=rsmI;EC_number=2.1.1.198;note=WP_012583798.1 16S rRNA (cytidine(1402)-2'-O)-methyltransferase (Dictyoglomus turgidum) [pid:40.1%25%2C q_cov:99.6%25%2C s_cov:96.9%25%2C Eval:1.2e-47],MGA_62
sequence01	MetaGeneAnnotator	CDS	62952	63830	.	-	0	ID=MGA_63;product=lipoyl synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000166375.1;translation=MVQVKRKLPEWFKVSAPTSNNFHELKNRLKNAKLNTVCEEAACPNIGECWDKKTATFMILGDICTRACAYCNVKTGRPTELDIFEPTRVANTVLQLGLKYAVVTSVDRDDLPDGGSKIFSMTISQIRKLNPLCKVEVLIPDFNGNLESLKTILSSKPSVLNHNIETVPRIFKKVRPKGNYDQSLELLKRSKKIEPRIPTKSGMMVGLGESRKEIKKTMEDLRSVECDLLTVGQYLRPTKKHHPIIRFYSPREFQEIKKDGINMGFKHVAAGPLVRSSYHADEQHTAATDIIN;locus_tag=LOCUS_0620;gene=lipA;EC_number=2.8.1.8;note=WP_000166375.1 lipoyl synthase (Bacillus) [pid:54.2%25%2C q_cov:98.3%25%2C s_cov:96.3%25%2C Eval:5.7e-91],MGA_63
sequence01	MetaGeneAnnotator	CDS	63903	65114	.	+	0	ID=MGA_64;product=23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546143.1;translation=MTNNIKDNNQKIRIQLEISEFNSDGSCKAELEGKKFKVFGAIPGEIVLVNIVKEFSDFTVVNVSEVLKSSPNRIKPPCEYYLLCSGCQFQHLDYKSQLKLKTKIVTDEILKNENFHRVKILDTIGSEKLYHYRNHARFTVAKKPPLRGNLGFVNRFSRRIFKIDKCLLMDHKINYLISLIQSKLQGMSQLSIRVGSNSGFALIQPDFQNIFPEIKSGQKKITEYFLQKPFRIGSPSFFQVNTKQAEKLSELLVDYLSLDGSEIVLDTYCGVGVFSVLIAPFVKNVVGIEISDSAIEDAVFNSRHLDNVEFIKGSSEESLKKLDFHPDIVILDPPRSGCKKDVLDSLILIKPKKILMISCDLESFMRDTEILCMKNYKLKLIQPVDMFPNTKHIEILAILEKIN;locus_tag=LOCUS_0630;gene=rlmD;EC_number=2.1.1.190;note=WP_012546143.1 23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD (Thermodesulfovibrio yellowstonii) [pid:36.4%25%2C q_cov:95.8%25%2C s_cov:98.5%25%2C Eval:6.4e-65],MGA_64
sequence01	MetaGeneAnnotator	CDS	65127	65381	.	+	0	ID=MGA_65;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNILGIGAFEVLVIFLIAFLILGPEKMSQFSKKFGNFVKKIRDEKEEFSSIIDESVKDINEDMKIQNPFKDDKKNDKEKGQDN;locus_tag=LOCUS_0640;note=MGA_65
sequence01	MetaGeneAnnotator	CDS	65341	66147	.	+	0	ID=MGA_66;product=twin-arginine translocase subunit TatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545000.1;translation=MIKKMIKKRDKIINSDIDKASSNDLNKDRKINNLSFKGHFLELKKRIIFSISLLSLFTILGFIFHRWIIALLLNQSFGINEFTGGQPVFTNITEFWSVVMRVSILTGVILSIPFIAYQIMIFIIPGLKENEKKYVYIFLPLMVISFYIGATFGYFILVPPAIKFLVLFGGDLAVPLIRIGSYIQLVISLMFWMGIVFQVPTVVFLLSKLRIVPIETFARFRKWFIVISFILGAFITPTFDPINQTLVALPIVILYEIGYWISRLTSRK;locus_tag=LOCUS_0650;gene=tatC;note=WP_012545000.1 twin-arginine translocase subunit TatC (Thermodesulfovibrio) [pid:34.4%25%2C q_cov:87.7%25%2C s_cov:95.1%25%2C Eval:3.5e-36],MGA_66
sequence01	MetaGeneAnnotator	CDS	66150	66332	.	-	0	ID=MGA_67;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLRGMGWPEILLILVVVMIIFGIGRLPEVGSGLGKGIRQFKKALSGKEEEEKSQKEKK;locus_tag=LOCUS_0660;note=WP_010943808.1 twin-arginine translocase TatA/TatE family subunit (Geobacter) [pid:55.8%25%2C q_cov:71.7%25%2C s_cov:68.3%25%2C Eval:2.2e-08%2C partial hit],MGA_67
sequence01	MetaGeneAnnotator	CDS	66407	67045	.	-	0	ID=MGA_68;product=transcriptional repressor LexA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256381.1;translation=MLSERQQNILDFINQFLDEEGFPPTIREIQKSCDISSTSVVSYNIEALRKKGHLEVKSNKSRGIINNQINKEKIISIPLVGKIAAGESLEIPEDIGINYEEEIEIPIDWFPKNKNIFALEVKGDSMSGDMISDGDVIIAEKIVDITEINSNQIGVINIKDENSATLKRISFNKDQNEVTLIPSNPDYLPITKKASNIKIEGKVLGLLRSFNT;locus_tag=LOCUS_0670;gene=lexA;EC_number=3.4.21.88;note=WP_012256381.1 transcriptional repressor LexA (Chloroflexus aurantiacus) [pid:36.4%25%2C q_cov:98.1%25%2C s_cov:96.8%25%2C Eval:8.1e-29],MGA_68
sequence01	MetaGeneAnnotator	CDS	67122	67385	.	-	0	ID=MGA_69;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082168.1;translation=MPSKKSHRKQIKNQEYNKTISSKARNAIKDAKKAINEDPSSENTILSVKKAVQSLDKAAQKGVIHKNNAGRRKSRLMATLNESSNKK;locus_tag=LOCUS_0680;gene=rpsT;note=WP_004082168.1 30S ribosomal protein S20 (Thermotoga) [pid:39.5%25%2C q_cov:94.3%25%2C s_cov:89.6%25%2C Eval:2.0e-09],MGA_69
sequence01	MetaGeneAnnotator	CDS	67398	69530	.	-	0	ID=MGA_70;product=GTP diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229747.1;translation=MQTNILIKQLKGYLSETKLDFVKEALFFAEKNHKNQFRKSGDPFISHPISTALYLANMRMDSTTISAALLHDVIEDCGITKDEIIAKFGPHVANLVDGVTKLKIKKNNSTLEILNPEQLRAANLRKILTAMSDDVRVVLIKLADRLHNMLTLDALDNKDQKRIAQETLDIYAPLAHRLGMWDMKWRLEDQAFKYLMPDRYKMTSRLIARKRTKRELYVDKAIKELQINLEKSKISGTIYGRPKHLYSIFKKIEKYSNQGKKFDEIYDLIALRIIVKTISECYATLGVVHNLWKPVPGEFDDYIANPKDSMYQSLHTTVMCYEGYPVEVQIRTKDMHLTAEEGIAAHWAYKEEDNESIGDKYESKMNWFKQLLDGQVDVEKDIDYVNSIKKDVLGDQVFIYTPKGEIKNLPVGATPLDFAYEVHTELGHDCVSSLINGKTVSLETPLKNGDTVEIRKSKNPRGPRLDWLNPDLQFVTTSKAKLKIRQWFRKQERQSNISRGTKIIKKESNKLGFKIDSKEVSLLPEFEDYSDLAEQLGSGETTIAQLAKSIEKKYLKTSPQNDENNSLPNVIVMGFNNLPNKISKCCNPSYGQEIQGYLTRKKTVSVHVSNCNFLRYSREPERIVNVVWGTNNQTLQVKIQVDADDRIGLLRDITSVVSSENININFLKSTDFGKATKVEFTVFTSGIEQLSRIYSRIEAISGVRNIQRLN;locus_tag=LOCUS_0690;gene=relA;EC_number=2.7.6.5;note=WP_003229747.1 GTP diphosphokinase (Bacillus) [pid:40.4%25%2C q_cov:99.2%25%2C s_cov:98.2%25%2C Eval:1.1e-159],MGA_70
sequence01	MetaGeneAnnotator	CDS	69590	70399	.	-	0	ID=MGA_71;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDIFNSKNNEDEKFIKNNVQEKLKIEPTPKIIPTPEATITPTPTVIPTPTPEPPSIGGKAMAYISNIHNIKPSDLKLFKYERKKWPSYAMGCPEPGKYYAQAETSGWSLHFIERNNKEYIVHTDENGTNIIECKKNLSENTVNIVKILNLSKTEEIILKRLKENIYFELETLKDKNKISPIIQYLDIDVIGIKNTHEECVFLMELEFITKTSTQKVKIICTDGSNFMKISNKNLQDEIFEIPVQLVNHLGKYASQVPFPGIPEKPDSN;locus_tag=LOCUS_0700;note=MGA_71
sequence01	MetaGeneAnnotator	CDS	70616	71818	.	+	0	ID=MGA_72;product=iron ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011729221.1;translation=MKKILLSLITIFSIVVISCSSETEIVEVVKEVPVEKEVIKEVEIIKEVPVEVIVEKEVIVEKEGETKTVEVVKVIEREVEVEKEVPVEKTYDTLVIYSGRGESLVAPVIQQFSEATGIPVEVKYGKTGALAATLLEEGSKSPADIYFAQDPGGLGSVNTILSSLSDEIISLGPNWANSPDNKWVGISGRGRVVVYNNEAITDPVTQLPDDIYDFVDSKWKDKIGWAPTNGSFQAMVTGMRVIWGEEKTEQWLEGIMANNPKIYAKNTPTVAATAAGEVEVGFVNHYYLHRFMAEEGETFAARNYFLPGGGPGSIVLVAGAGILDVSDNKDAAEAFLKFMLSPAAQGYFANQTYEYPLVDGVKKSRLLPDLDTLNTPDIDISDLGDLESTQELLRKVGALP;locus_tag=LOCUS_0710;note=WP_011729221.1 iron ABC transporter substrate-binding protein (Mycolicibacterium smegmatis) [pid:44.1%25%2C q_cov:77.0%25%2C s_cov:88.0%25%2C Eval:1.9e-72],MGA_72
sequence01	MetaGeneAnnotator	CDS	71952	73565	.	+	0	ID=MGA_73;product=iron ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_118840173.1;translation=MKINIDIGQTFLSVFSFFIILIISIPLVYLVVRVLGSDGNLLELIFRRRIYEIIIRTLTLVFSVTILSLIIALTLSWIIERTDIPWKKFFTILSVLPIVFPSYVAGMIFVDFLGPKGRVQGWLEPFGVTQLPEIYGFWGSTILLSLLSYPYLFLIIRSSLSRIDANLEEASKILGKNSLKTFFLVTFPLLRPAISSGCILVALYTLSDFGAVSLLRYETFTWAIMTQYESSFNRVVAASFSLVLIFFALLILILDGVIVKPKNYYVSGISGTSRKIKLIKLNLLNKIFSVFIIVLVIFFSVFFPFYGLTYWLIRGAIAGEIINFNWILVWNSISVSFLAAISCVFCSLLISLLIVKYNNKIGILTEKISYLGFGLPGIAIALGVIFVGLKLISPLYQTIALLILGYIILFLPVTIGAIKSSMLQINPHIEEASRSLGFRMWYTTLKITIPIIISGVLAGGILVFMLTMKELPATMILAPLGFETLSTSIWSYSSEAFFAKSAFPSMLLVLISGPFTAYLAFRGYTISDKPVKENLDV;locus_tag=LOCUS_0720;note=WP_118840173.1 iron ABC transporter permease (Salinibacter ruber) [pid:33.3%25%2C q_cov:93.1%25%2C s_cov:96.1%25%2C Eval:1.2e-75],MGA_73
sequence01	MetaGeneAnnotator	CDS	73558	74673	.	+	0	ID=MGA_74;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003405435.1;translation=MFENNKTIGSYHSDFEKEKGLIEVENVKCSYPPFDQIVLDDLSLVINSGEFVTILGHSGSGKTTLLRSLAGFEIIQEGYIRINGMLASTSWTHLPPEKRKIGFIFQDYALFPHLTVRQNISFGVVGNKNDKKKRENYILDLIGLKKQDYRYPHQLSGGQQQRVALGRALAPNPVAILMDEPFSNLDRQLRSSLSREIRDIIKSSGITAILVTHDREEAMILSDRVGVLVDGKLIQISEPEKLYRFPASLEVSRMISETRLIQGIVQKKYINTEIGKISIEKIQSGDSTFNEGSPIIASLRPEDLIIKKSNSDIHGTIVRKEFSGNNLIYCVELKSGDFLHVDNFNRIDSLNEGENVSLDFSLRNPISIFPK;locus_tag=LOCUS_0730;note=WP_003405435.1 ABC transporter ATP-binding protein (Pseudomonas) [pid:43.2%25%2C q_cov:91.1%25%2C s_cov:92.4%25%2C Eval:3.0e-66],MGA_74
sequence01	MetaGeneAnnotator	CDS	74674	75909	.	-	0	ID=MGA_75;product=conjugated bile salt MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861900.1;translation=MGAGSAIQGYTSLVFWRGFTAFFDPIVETFGWSRAATAGALSLQRSEGGMISPFVGILLEKFGPRKVMFFGVFVTGLSFILMSKMTTLWHFYAIISLLSIGMSFGTFIVLVATVGDWFNRKRKLALSILMSASGAGGFAVPILVTSIENFGWRDVIFGVGIGFWLIGFISASFMRHHPEQYGLSPDGDKLVEDKEEKAKSLKNKNEFSLKQILKTRFFWQFSIILAFAQLVSSTNLLHMPALTNFGVPIYIAGLSIAGLALGDLIGRLSIGVIGEKISSKTMLILSFSLLTIGAFSLAFVNLKIGNFVLESKYLVPVFAICWGLGFGSSIPLRLSMLGDYFGRKNYGTIVGLTSTISAISAAIGPIFVGLSFDITGSYRFPFLFLGITVAIALPLIFSLQSIETVKKILRS;locus_tag=LOCUS_0740;note=WP_011861900.1 conjugated bile salt MFS transporter (Clostridioides difficile) [pid:27.5%25%2C q_cov:91.2%25%2C s_cov:85.7%25%2C Eval:8.4e-28],MGA_75
sequence01	MetaGeneAnnotator	CDS	75983	76747	.	-	0	ID=MGA_76;product=enoyl-ACP reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582796.1;translation=MDFTNKRGIIFGVANPRSIAWAISKSLSDNGAQLAFTYQNERLKDPVSKAVKDMNPIELVECDALNENQIEEVFQKVSESGPIDFVVHSIAFAQREDLGGNFSETSLDGFRTALEVSAYTLIPIVKHAAPHVNKNGGSIITMTFEASNKVYPGYNIMGTAKAALENSVKQLAYEYGSKNIRVNAVSAGPLPTLAARSIPGFNDMRTIHASKSPLKRNVSHEEVANTSLFLLSDLSSGITGAIIPVDAGYGIMGL;locus_tag=LOCUS_0750;note=WP_012582796.1 enoyl-ACP reductase (Dictyoglomus turgidum) [pid:51.8%25%2C q_cov:98.0%25%2C s_cov:98.0%25%2C Eval:2.8e-64],MGA_76
sequence01	MetaGeneAnnotator	CDS	76759	77922	.	-	0	ID=MGA_77;product=galactonate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_171654832.1;translation=MDLKIKAIKAYPVWIGNRNQLLVKIETDKDIYGWGESGLSSRELAVKSALLHFENFLKGQDPFKIVRIWQEIYLSQYFEGGRVLTAAMSAIDIALHDIKAKALNVPVYELIGGKQRDFVPAFASTASPPGEKMIDLAKELIEKNWKCIRLSPSQKPDHSEIIYEPREALSETAEWLTKARAELGNEIVLGVDMHHRLNVAEAASFCNKMPPGTIDFLEEPIRDENPTSYQSLRRMTSIPFAIGEEFASKWQFLPYIENDITQFARLDICNVGGFTEALKVAGWCETHYIDLMPHNPLGPICTAASVHLGAAIPNFSWLEARNTPSEKLGSDNDDIFTQQVKLEGAMYPVPSTPGLGVDVNEDIIKELEFKQWEATHLQRTDGSITNW;locus_tag=LOCUS_0760;gene=dgoD;EC_number=4.2.1.6;note=WP_171654832.1 galactonate dehydratase (Paenibacillus foliorum) [pid:31.2%25%2C q_cov:99.2%25%2C s_cov:98.9%25%2C Eval:7.0e-53],MGA_77
sequence01	Aragorn:1.2.38	tRNA	78052	78140	.	-	.	ID=Aragorn_2;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0020;note=Aragorn_2
sequence01	MetaGeneAnnotator	CDS	78277	78966	.	+	0	ID=MGA_78;product=nucleotidyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978969.1;translation=MKALILVGGQGKRLWPKTEIIPKPMVKIFDKPLVYYQIEWLKKYGLEEIIFLTGYKPNSFRKYFGNVDSDGVIIKYSHEKYPLGRGGAIKNAIDKFNLYKENLVITNGDVLTDFSLDKMMEFHLNNHVLVTLMSVPYKSQFGIVKIDENDNVLEFSEKAKLPFWINGGIYISSPDFYNYLPEKGDHEVETFPELTKLNQLKAFKTNENWISIDTMKDLDDGEEFIKTYF;locus_tag=LOCUS_0770;note=WP_010978969.1 nucleotidyltransferase family protein (Sulfurisphaera tokodaii) [pid:40.3%25%2C q_cov:100.0%25%2C s_cov:98.7%25%2C Eval:5.2e-40],MGA_78
sequence01	MetaGeneAnnotator	CDS	78967	81699	.	-	0	ID=MGA_79;product=DNA polymerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082086.1;translation=METKDFKKKLLLIDGHAMIFRAWYSIPERLSSKGVGTSIVYGFLSSLFKLISDHNPSHLIVTLDPKGPTFRHELYPEYKANRDSTPPEIIKQTPLLEKILTSMKIPIFSVERYEADDLIGTITLMSVEHDFENLIVTGDKDLFQLITDKTNIWYSSPNPRSRDRIIDNVTFTQEKDFEGLVPLSIPDYKGLSGDASDNIKGIPGIGKKVANTLLKKYKNLEDIYENIEKIIELNIRGAKRIQSLLIEYREEAYKSRELATIFRKVPINLELSKSKFGSFNKEEVIKELSELELMSLVTRIPSGKNSIKHTLEYITIDSDIKLNSMIETIKKEGVFSFDTETSSLKPFDSNLVGISISVKPNSGWYIPINHDRGNNISSEGLQLIKEIFEDSTIEKIAHNSNFDMSVLFNNDFQVNKVTFDTMIAANLLGKRSLSLKNLCLEEFNQEMIPIENLIGKGKEQISFSSVSIQDATLYSCADSDITFRLKNIFEKELEKSGLLDVMENIEMPLIPVIVKMQQTGVSINIKKLETLSEILNEKINILEQKAKTILGEEEVNLRSSQQLAKVLIGELGVPATKKTKTGYTMDANTLEDLLKNESLEENASKLIKIVLAHREFSKIKSTYADSLPELINKNTGKIHTYFNQAGTSTGRLSSRDPNLQNIPVRTEIGNEVRKAFESNNKENYLLSADYSQIELKILAHLSEEPSLLQAFRNNEDIHDATAKIMYETETVSKDQRRIAKILNFGVIYGLSPHGVSRQTDLSREDGRKFIELYFGKYPGIKNYIDSVIKFAKINKFVETITGRKRLLPEINSPNFHSRSSSERMAVNMPIQGSSADIIKIAMIKIDHEIRSLNLLSKMIIQVHDELIFEVPKNELNDLQEILTKIMPNSLNLKVPLTIDINIAKSWGELK;locus_tag=LOCUS_0780;gene=polA;EC_number=2.7.7.7;note=WP_004082086.1 DNA polymerase I (Thermotoga maritima) [pid:37.5%25%2C q_cov:98.7%25%2C s_cov:99.7%25%2C Eval:2.9e-173],MGA_79
sequence01	MetaGeneAnnotator	CDS	81757	82365	.	-	0	ID=MGA_80;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVKENLDRLQNYLISHKVKGTNRSLINIEECVEIIKSIHSIIPNSLDESEIIVRQKESIIEQAEEEASKKRIYADSEAEKIRKNAEEKSEEMIIKANEQAEKLVQKEEIVKKAYEQSEKIILNSEEESKSIEEKAELSKQDTERKATNILNEAQDHSMKTRNGADAYAREVLFSLEERISTTLGQVRKGIEMLDESEVEIN;locus_tag=LOCUS_0790;note=MGA_80
sequence01	MetaGeneAnnotator	CDS	82384	82866	.	-	0	ID=MGA_81;product=pantetheine-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583503.1;translation=MVKAIFPGTFDPITKGHIDIIQRGSEIFNKITVGVYKESSKNLMFNTKERIELIEDSIKNISNVNIMPYSGLTVKFAEKVGASVIIRGLRIGNDFEYEREMALMNRQINPNIELVCLISSINNQFVSSSRVKEISMLGGDVSSLVTEKVKQSINKKLTDI;locus_tag=LOCUS_0800;gene=coaD;EC_number=2.7.7.3;note=WP_012583503.1 pantetheine-phosphate adenylyltransferase (Dictyoglomus turgidum) [pid:44.9%25%2C q_cov:97.5%25%2C s_cov:97.5%25%2C Eval:1.8e-35],MGA_81
sequence01	MetaGeneAnnotator	CDS	82867	83337	.	-	0	ID=MGA_82;product=16S rRNA (guanine(966)-N(2))-methyltransferase RsmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003431108.1;translation=MKSAIFSLIGPEGVKNQKILDLYAGTGNLGIECLNRGAKFSVFVEKNIKTFKMLKKRLEEKKYQNSSKVFCLDAIRAVKKIEGPFDIIFADPPYDYQNISEVLSLAEKNNLFHDQSLIFYEHSKNQEPIKNIGKLSNIKSKNYGDTSITLFKLEEV;locus_tag=LOCUS_0810;gene=rsmD;EC_number=2.1.1.171;note=WP_003431108.1 16S rRNA (guanine(966)-N(2))-methyltransferase RsmD (Clostridioides difficile) [pid:34.4%25%2C q_cov:98.7%25%2C s_cov:84.8%25%2C Eval:1.3e-22],MGA_82
sequence01	MetaGeneAnnotator	CDS	83564	85087	.	+	0	ID=MGA_83;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391699.1;translation=MKNNNIEQDENRLIESRKANLESLRNLGINPYPSKFQKTHTTLDAREMLEDLELNKQDENPKTESVIVAGRIMAYRDQGKIIFIDLKDGYGSIQIALRSDLLSDNLFKILKFIDIGDFVGIEGVVFRTRRGEPTIEAKKIDILCKSIRPLPDKWSGLQDIEKRYRQRYLDFISNDSSKEVALVKPKIISSIRKFLEVRNFIEVETPILVPVAAGAMAKPFITKHNALDRVLYLRIATELNLKKLIVGGVDKVFELGRIFRNEGIDHLHNPEFTTLESYEAYSDYNDVMKMVEEMVSEVSEDVNGSKIVNVGDEVIDLTPPWERLNLRDTIIKYSGIDYLKCRSPQELEKEMNSRGIHVEQGSNWGRMLDKVISYSVEPNLRQPCFLVDYPVEMSPLAKKKEGEDNIVERFEAFVCGGELANAFTELNDPIDQRKRFEDQEKLRKESGDDELDRLEEDFLIAIEHGMPPTGGLGLGIDRLAMIISGAKSIRDVLIFPQLKTLQDDNDD;locus_tag=LOCUS_0820;gene=lysS;EC_number=6.1.1.6;note=WP_011391699.1 lysine--tRNA ligase (Moorella thermoacetica) [pid:47.8%25%2C q_cov:97.4%25%2C s_cov:99.0%25%2C Eval:3.5e-135],MGA_83
sequence01	MetaGeneAnnotator	CDS	85080	86327	.	+	0	ID=MGA_84;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869753.1;translation=MIDLNTLISSSENILGKLQSRGEEIPLDNIKELDSKRKNLIQESDQLRSFRNSENKRIGDSKEKPSLEHINKMRDISDKLNKINVNLIDIESQLNELLLVIPNVPLDEVLIGNDETDNKVIFTKEDVKNKKTTKPHWEIAPNLGILDMEQGVKLAGSRWYVLKGKGAILQRSLVSWMLEKHNKNGYLEIAPPFLVKEEVMVGSGNLPKFSDLLYRDIEEDLWLIPTSEVALNSLHFGEIIPHEFPLKYVSHSQCFRREKAAAGRETRGIKRVHQFEKVELFRFELPENSRDAFDEMVKEVQLLCDELGLIYRSVELCTGDLGFQSAKTIDIEVWAQGSQDWLEVSSISTCTDFQSRRTKTRYKDEGEIIYPHTLNGSALAIPRILISILENNLQDDGSVLVPKVLQKYTGFERID;locus_tag=LOCUS_0830;gene=serS;EC_number=6.1.1.11;note=WP_012869753.1 serine--tRNA ligase (Thermanaerovibrio acidaminovorans) [pid:43.3%25%2C q_cov:98.8%25%2C s_cov:97.4%25%2C Eval:2.1e-95],MGA_84
sequence01	MetaGeneAnnotator	CDS	86330	86941	.	-	0	ID=MGA_85;product=aminoacyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966493.1;translation=MSFIKKIFGKNNSSKDDEGFNWLIVGLGNPGEEYDNTRHNIGFEAINFIAEKNNILFTHNNNSLTTKLKINNNNILLCKPLSFMNRSGSPIKYFLEKYQINAEKLIIISDDINLPLGKIRIRKKGSSGGHNGLKSIIKHLDTENFMRIRIGIENPGKIDTTDYVLGKFKRSEKKLLEESLFKVDRIYESLIINGIQKTMQNFN;locus_tag=LOCUS_0840;gene=pth;EC_number=3.1.1.29;note=WP_010966493.1 aminoacyl-tRNA hydrolase (Clostridium) [pid:44.3%25%2C q_cov:89.7%25%2C s_cov:97.3%25%2C Eval:1.9e-40],MGA_85
sequence01	MetaGeneAnnotator	CDS	86928	88952	.	-	0	ID=MGA_86;product=NAD-dependent DNA ligase LigA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000031442.1;translation=MLNNKDSKILNLISSLKDKLNEANYKYYILEKPSISDTEYDRVFQELLVIEEQNPSLVTLDSPTQRVGITPSSNFQNVEHLSPLLSLSNVFNKEQIEKWYTRISNQLDNQSTEVICELKIDGLAISLRYENGIFVQGSTRGDGSIGEDITNNLKTIKSIPLKLLDKNPPEIVELRGEVYFPKSSFKKFNEERSKLNLEEYSNTRNAASGALRQLDPKETSKRPINYFMYSIGYNSNNMPQTQSLVLEKLNSWGLRINPWNHICNSVNDIENAYMKAINDKDNLNYGTDGIVIKINDLYDQSILGTTSRDPRWATAYKFPTTTTTTILNKISVNIGRTGVLTPFAELEPVKLEGVTIRSASLHNIDYIDKKNIREGDLVEIQRSGDVIPQINRVSENNSRSKTSFKYEMPKTCPSCGKNVEKIENDPHTRCINSSCPDQFQRLVEHFVSKPAMNIDGLGKGIIETLIENNLLKTLPDIFHLTKDQLIQLPKFGEKSTENLLKSVNNSKKPTLPSFLFSLGIAHIGIEISEIITDYYKSIDALTNCNYEELINIKGIGEKITESLISWISTENNINLINNLIHAGVEPIAVQRNTKSLFSELIFVVTGTLEKYSRNEINSLIKELGGKTSSSISSQTSFLITGKNPGTKLQQALNFNIPIINESEFIDMKNNHELH;locus_tag=LOCUS_0850;gene=ligA;EC_number=6.5.1.2;note=WP_000031442.1 NAD-dependent DNA ligase LigA (Bacillus) [pid:42.0%25%2C q_cov:97.5%25%2C s_cov:98.5%25%2C Eval:9.4e-150],MGA_86
sequence01	MetaGeneAnnotator	CDS	89050	90285	.	+	0	ID=MGA_87;product=DUF1015 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545699.1;translation=MVDIRNFKGLMYNSNNSGDLSLNICPPFDVISPSLQSELYNKSQFNLIRLEYGKEFENDNQNSNKYLRASNFFNDWVSKNILEYDESFNFYLTEEKFSFENHNYSRTGITVLVRLEDLNNGSILPHENTRSGPKKDRFSLMKETKCNFSPLMSLYSDESGEIKNIFKNSKKNKPELSINSDQIKLKLWKIKNLEQIEKIKKHLINKKLMLADGHHRYETSIYYQDIFSKSKKSDESSNFRLMTLFSLDDPGVLMLGYHRIVSGLSVQEKEHLINFMTSSAIKVIEGNINDFNKSEDDFNILIINENESLIYTFQSNDIYDNQYKFLSDYIFKNVFDDERLNQVIDYNHDIISIEQSIKNKEIDIGFIMKPLNKNKFEDLVMKREKLPPKSTFFHPKLHSGLVIQNLNTEVL;locus_tag=LOCUS_0860;note=WP_012545699.1 DUF1015 domain-containing protein (Thermodesulfovibrio yellowstonii) [pid:31.0%25%2C q_cov:98.5%25%2C s_cov:98.5%25%2C Eval:4.7e-47],MGA_87
sequence01	MetaGeneAnnotator	CDS	90302	91495	.	+	0	ID=MGA_88;product=aspartate transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000462668.1;translation=MFEIIKPAKPDPILGLTEKFNLDNRSNKINLSVGIYQDSQGQTPTFDSVRKAEEILLQNESDKSYKPIIGDEEFGLLVKDLVLGKNITKQRENTAKSIHTPGGTGALRVVMDYFSKFHQNSVFWISKPSWPNHKQIINSTNLNFNEYAYFNSEDNQLNFNSMINDLSNVKSGDVVLLHGCCHNPTGIDLNQSQWETISDLLLSKKAIPLIDFAYQGFGDGLNEDSEGLRKIVQKNPESIICSSFSKNFGLYSERVGSLTILSSDNLVLENVVSQMKVCIRSNYSNPPSHGVDIVKLILSNPTMRKEWEKELSQIRNRMKKMRNDLVLKLHKLDSKKDFSFIKSQRGMFSISGLDKEQVNELREKYAIYIVDSGRINIAGINSNNIDRLSESIVSVIS;locus_tag=LOCUS_0870;gene=aspC;EC_number=2.6.1.1;note=WP_000462668.1 aspartate transaminase (Shigella) [pid:50.0%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:8.7e-115],MGA_88
sequence01	MetaGeneAnnotator	CDS	91492	92796	.	-	0	ID=MGA_89;product=tyrosine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229300.1;translation=MNSNINLIQELNWRGLISDKTPRLNSLISKEKISGYTGFDPTSKSLHIGSLIPIIGLIHLQRAGHQPIALIGGGTGMIGDPSGKSKERNILSRDIIKNNIEGIKSQLEKFLDFKSKNNPALIIDNYDWLSNLNLISFLRDTGKHFTINYMLKKESVKSRISREDGISFTEFSYMILQAYDYLHLYNKFGCKLQMGGSDQWGNILSGVDLINKLYKRKSNNSEPLAHGLTYPLITNSSGEKFGKSEGVAPTLDPNKTSPYKLYQFFFNVDDKDVIQYLKYFTLLEKTEIKNYEKSLKNFPQKRECQIKLAEQVTIMIHSNSGLNEAKKITKALFEGKFAKLNLKELKDALEGAPSSKIKRSKFNSSYSIQDLCVDQGICSSFSETKRLINQGALYINESKVEDFKEELNASHTIKGELIIIKRGSKNFHVVEIEN;locus_tag=LOCUS_0880;gene=tyrS;EC_number=6.1.1.1;note=WP_003229300.1 tyrosine--tRNA ligase (Bacillus) [pid:47.1%25%2C q_cov:97.9%25%2C s_cov:98.8%25%2C Eval:4.3e-110],MGA_89
sequence01	MetaGeneAnnotator	CDS	92809	93729	.	-	0	ID=MGA_90;product=bifunctional riboflavin kinase/FAD synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965112.1;translation=MEITELPNIKTPTLVTIGTFDGVHLGHISVFNQIKNIREKFYRKSKILALTFTKSPKQIINPEKKYSLICPLEERLELIKNQGIDHVIPINFDNNLRYKTASNFLNQLKNNINIKAFVIGNGTSIGNDQIKDEKQLRVITNELGIELFILPNITLKNKKISSSQIKKMISNGNIKDIEKNLGRNFTLSGKVIRGKQRGKKLGYPTANLKISINQCLPHDGVYFTKSFIDSHEQFSVTSIGENPTFESGNIPKMIETYILDFNDDIYDKNIKVEFLSFLRHQIKFQNISSLKEQIKIDVSNVKNQIT;locus_tag=LOCUS_0890;EC_number=2.7.1.26%3B 2.7.7.2;note=WP_010965112.1 bifunctional riboflavin kinase/FAD synthetase (Clostridium) [pid:33.3%25%2C q_cov:93.1%25%2C s_cov:92.7%25%2C Eval:8.6e-45],MGA_90
sequence01	MetaGeneAnnotator	CDS	93755	94813	.	-	0	ID=MGA_91;product=3-deoxy-7-phosphoheptulonate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932661.1;translation=MDKTYDINIKNYKNLEPPKEFLEELPITSQVSENVTESREIIKNIISGKDKRLLIITGPCSIHDEKSGIEYAEKLVGIKNQIDKNIYLVMRTYFEKPRTTVGWKGLINDPDLNGTFDMSKGLRKARKFLLDILKLGIPAGTEFLDPFTPQYLADLISWGAIGARTTESQTHREMASGLSMPIGFKNGTGGSIQIAVDAMYASQSSHSFLGIDSNGKACILNTKGNKSSHVILRGSSNGTNYDAKSINEAMTLIKNINLTPSILVDCSHANCFKDHKKQRIAFKEVLKQRVINKNSEIVGIMLESHINEGNQSLTDNLSELQYGVSITDPCINWKETEELLLEANSLIENQKN;locus_tag=LOCUS_0900;EC_number=2.5.1.54;note=WP_010932661.1 3-deoxy-7-phosphoheptulonate synthase (Chlorobaculum tepidum) [pid:48.9%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:9.4e-102],MGA_91
sequence01	MetaGeneAnnotator	CDS	94880	95281	.	-	0	ID=MGA_92;product=chorismate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007325001.1;translation=MSNNNELKATTLRGVRGATTVEENNSLSIKDATKELLIEMLKVNKINTDDIAATFFTTTKDLFDEFPAVAAREMGWKTVPLLCSHEMEVPSGLKRCIRILILWNTEKSQNKIKHPYLRKAINLRKSESEFDAT;locus_tag=LOCUS_0910;gene=aroH;EC_number=5.4.99.5;note=WP_007325001.1 chorismate mutase (Rhodopirellula) [pid:51.2%25%2C q_cov:92.5%25%2C s_cov:87.2%25%2C Eval:2.6e-30],MGA_92
sequence01	MetaGeneAnnotator	CDS	95296	96093	.	-	0	ID=MGA_93;product=tryptophan synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980825.1;translation=MNSRITNIIKEQNIKGRIALIPFITAGYPSVEGCINVAKGLVDGGSDVIEIGMPFSDPIAEGPTIQKSSHMAIENGMNIRKSLDIVEKIRSSGINIPIIMMGYINPILNIGLSNFAKLATNAGANGLIIADMPNEELKQIQISTAENSLDTIPLISLNSSEERIELGCKYAQGFIYCISILGVTGSRSSISLTVKEKVKTVKKFTNIPVGVGFGISKPSHVKNIKEYADAVIVGSALIDELEKAKSNPGTTAKKFISNLYKETFK;locus_tag=LOCUS_0920;gene=trpA;EC_number=4.2.1.20;note=WP_010980825.1 tryptophan synthase subunit alpha (Neisseria meningitidis) [pid:36.6%25%2C q_cov:92.8%25%2C s_cov:94.3%25%2C Eval:1.9e-47],MGA_93
sequence01	MetaGeneAnnotator	CDS	96105	96815	.	-	0	ID=MGA_94;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPENRSIIWKLNDEFLILLILIIVTFISLFLANFTNILVLSFFFYPATILPIFYLSFWKYKMNLKLTLKSLGFIYPSKNLKVKSIIIQQISPYILATYAWIIGLLFVGIWIYLINYFSISLFNPPILEEAIPKFPSNSFIVFCLIAMFIAPICEEILFRGFLLKKISSKYGPRKSILITSIIFALFHIDLGAIIPVLILGLSIGWVKIKTDSLLPCIGIHIIQNSLAIILSISNI;locus_tag=LOCUS_0930;note=WP_011181548.1 type II CAAX endopeptidase family protein (Bacillus) [pid:30.0%25%2C q_cov:80.1%25%2C s_cov:58.5%25%2C Eval:1.2e-13%2C partial hit],MGA_94
sequence01	MetaGeneAnnotator	CDS	96827	98737	.	-	0	ID=MGA_95;product=ATP-dependent zinc metalloprotease FtsH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257906.1;translation=MNNIFKKNLFIYTLIVASVLAAFFIFFDDSFQSTEEISISQVIELSNNPPLGQKIFIQVRGDTLKIESNGKLYKSRKENGSSVYEILNTAKVDPANVEVDVKGAGGFSNFLSIALSFLPLLLFAGILIFMMRQAQGGANNALGFGRSKARMFTGAKATVTFDDVAGVEEAKEELQEVVDFLKSPERFLALGARIPRGVLLVGPPGTGKTLMARAVAGEAEVPFFSISGSEFVEMFVGVGASRVRDLFDKAKKHSPCIIFVDEIDAVGRHRGAGLGGGHDEREQTLNQILVEMDGFDTSTNVIVVAATNRPDILDPALLRPGRFDRRVILDNPDIKGRSAILEVHSQGKPLEKNVKLESIAKQTPGFSGADLANLVNEAAILSARRKLKKINISTFLESIDRVIAGPARNSRIITEKERTLTAFHEAGHALVANYIPSADPVHKVSIISRGQMGGYTRYLPDEDRYLQTADQFEAMIATAMGGRVAEKIQFGAITTGASNDIETATRVANQMVTKYGMSEKLGLRTFGKTQEAVFLGKEVNEQRDYSSKTQEIIDKEIDKLLEKGKQSAESILLKHKNELELLANFLLENETIDGEEMVKLLKGETIKKKNSKSTKVPEETFDKDQLPNTKPEPQVS;locus_tag=LOCUS_0940;gene=ftsH;note=WP_012257906.1 ATP-dependent zinc metalloprotease FtsH (Chloroflexus aurantiacus) [pid:54.4%25%2C q_cov:94.5%25%2C s_cov:93.4%25%2C Eval:4.2e-184],MGA_95
sequence01	MetaGeneAnnotator	CDS	98942	99502	.	+	0	ID=MGA_96;product=translation initiation factor IF-3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_051498574.1;translation=MQRSTNYRPKKENLKKYRVNREIRSNSVRVIIGRKDSDSQLLDVRDAIKLAEEQGLDLVEVAPNHNPPVCRILDYGKFKFIQSKKAKEAKKSQSKILMKDVRLRMRIGDHDMKAKQKRIRFFITSGFKVRIAVFFRGREMAYPDLAVNLLKKVAEELQDISIIDKAPSIEGRSLSIVLAPMGKVKG;locus_tag=LOCUS_0950;gene=infC;note=WP_051498574.1 translation initiation factor IF-3 (Moorella thermoacetica) [pid:44.0%25%2C q_cov:89.2%25%2C s_cov:97.6%25%2C Eval:1.9e-38],MGA_96
sequence01	MetaGeneAnnotator	CDS	99504	99692	.	+	0	ID=MGA_97;product=50S ribosomal protein L35;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_103015481.1;translation=MPKMKTHSGAKKRFHKSSTGKLLRTKGMKSHLRRKKSKRIKRLFASKIGISDAIGKKIKRLI;locus_tag=LOCUS_0960;gene=rpmI;note=WP_103015481.1 50S ribosomal protein L35 (Archaea) [pid:41.3%25%2C q_cov:100.0%25%2C s_cov:96.9%25%2C Eval:9.2e-07],MGA_97
sequence01	MetaGeneAnnotator	CDS	99702	100058	.	+	0	ID=MGA_98;product=50S ribosomal protein L20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256290.1;translation=MTRVKGGNTNRKRHKKVLNQVKGHRGSRNRRFRVARESLIHALSYSTIHRKNKKREQRSLAILRINAAARLNGITYGKLIHGLKLSDVTLDRKSLANIAVNDPNAFKEIVDFAKSSLS;locus_tag=LOCUS_0970;gene=rplT;note=WP_012256290.1 50S ribosomal protein L20 (Chloroflexus aurantiacus) [pid:49.2%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:1.0e-26],MGA_98
sequence01	MetaGeneAnnotator	CDS	100076	100963	.	-	0	ID=MGA_99;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKENFIKISKDYIALTKPKVILLLVVTAISGMFLGNGSAPSIILMLIVILGGTLASGGAGAINHFIDKDVDQMMKRTSNRPVASSRVSPKKALSFGIILTLLSFIVLYFGSNFLTAILAILGNVFYVFVYSLWLKKTTSHNIVIGGIAGCFPPLVGWAAVTGTLALPAWYLFAIIFFWTPPHFWAFAMLMNEDYKEANIPMLPTIVGFRKTQIMILTHTIILISITLILTVVSSNLGLIYFSGAIILGILYINLTIRLMRNYSTKRNLGLYKFSLLYLFLLCFIIIIDSSNLIG;locus_tag=LOCUS_0980;note=WP_011227849.1 heme o synthase (Thermus thermophilus) [pid:46.6%25%2C q_cov:85.1%25%2C s_cov:41.1%25%2C Eval:8.7e-63%2C partial hit],MGA_99
sequence01	MetaGeneAnnotator	CDS	100978	101913	.	-	0	ID=MGA_100;product=COX15/CtaA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001087694.1;translation=MKKSTNKIALFRNPILSFLLLTSIVFCLFQISLGGFVRVSGSGLGCPDWPLCYGEIIPPMSYETLIEWGHRTSGVILGTLILISTFFIWIKNRNNYFLIITITTTLITVIVVGMIGGLVVLSELNPMLRTIHLFFAQLVILFLGISLVIVNSQSISITIIKKSLTSKHSIFLIISSLGIIITLLSGSYAVWKGAGTICSSWPLCSSSSILPNNQLELIHMTHRILSLITTIFSFWTCVYILRNLGNIVIKTLSSISILIIFSQILLGASNPWTNFEIWARVSHLGMASLLWTLFIIILSFTLISEIETKTK;locus_tag=LOCUS_0990;note=WP_001087694.1 COX15/CtaA family protein (Leptospira) [pid:25.2%25%2C q_cov:96.5%25%2C s_cov:90.8%25%2C Eval:1.2e-14],MGA_100
sequence01	MetaGeneAnnotator	CDS	101985	102206	.	-	0	ID=MGA_101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSETFPKCNSCSKGELVPLSDFGGQGAAIHYKAWVCTSPECGFNLKIRNGEVHINEPILEGHLREQRRKEFNN;locus_tag=LOCUS_1000;note=MGA_101
sequence01	MetaGeneAnnotator	CDS	102315	103334	.	+	0	ID=MGA_102;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015943403.1;translation=MIILGIETSCDETAVGIVADGTSLISNVIEKQTEIHSEYGGIIPELASRQHMKNISNAVKKALIDSKLDWGDIDMLGVTDGPGLAGSLIVGVNFANGLSSSLGIPLVGINHLEGHVFASWIDNENINEISFPLMCLIVSGGHTDLVKMNNYNNYELLGRTRDDAAGEAFDKAARVLGLGFPGGPEIEKAATKSREEFLFPKAYMKGTDDFSFSGMKTALKNLADKEMKNLSNDFKIDDYEFTVSKIANSFQNSMVEVLAKKTIDISIRENCKGIILSGGVAANTKLRDVLKDSSPLPVFIPPKILCTDNGAMIASCTFFKIRDKVSKSLFLEPVPSKSW;locus_tag=LOCUS_1010;gene=tsaD;EC_number=2.3.1.234;note=WP_015943403.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Desulfitobacterium) [pid:44.4%25%2C q_cov:98.2%25%2C s_cov:96.5%25%2C Eval:1.5e-77],MGA_102
sequence01	MetaGeneAnnotator	CDS	103340	103804	.	-	0	ID=MGA_103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDDILNKFNISKEEILRELEINQNNHIIITKSFIYHINYKNNEALISSIKRSSFDGYNLSIKNKNSTQFYWSILGIICAVGFWQLSSDIIISAIGGIFITLISIFLAIDYWITPEKFLLKLFSGTDIISIKIHKEILGECREILSYLNENTIN;locus_tag=LOCUS_1020;note=MGA_103
sequence01	MetaGeneAnnotator	CDS	103825	104526	.	-	0	ID=MGA_104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDNQIIYLNKLGKDVKVLNLKTPSIESVEYAKIKGFNAIHLDAEHGSFNVVSLENICRLAIGMGLTVTARVHEISSPNINLFLDRGVQGIVGPHVETYLEGLLLVNSCLYPPLGNRSWGGGRGTEFNQLDILNNKYGSKLKFSEWANINMIVTAQIESKIAIDNLDEILTIKGIDRIAFGPHDLAASLGHPGEPDHPEVLEAHYEIERKTRESGKKLWSDNMINFFPDIFTL;locus_tag=LOCUS_1030;note=WP_011459462.1 aldolase/citrate lyase family protein (Desulfitobacterium hafniense) [pid:28.4%25%2C q_cov:77.3%25%2C s_cov:66.7%25%2C Eval:1.4e-19%2C partial hit],MGA_104
sequence01	MetaGeneAnnotator	CDS	104620	105699	.	-	0	ID=MGA_105;product=mandelate racemase/muconate lactonizing enzyme family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010974695.1;translation=MNSSPSYWEETDSHKIVKTTDRFELREGWQTVYARKPECLLVKITLKNGLIGWGEANVPIGPEIVKLIISNIITPLVKKEKFINPNQMWQFLYDIQRGRGYHSGYYLDALAALDIAVWDALSKFHEIPLGKLLKKKPLAKIPVYLSGLRQKNLKEKISHLKLWANKDLKGVKLFLPANNTEIENELSKIQSEVQEINNWMVDLLWMSDLKSTIELKNSLENFKVKFLECPLQPENIEDHKMLVSKPGVPIALGEHFRTHYQISPWLKKQALNVLQPDIGRTGISNALIQLKLCKKYNVQVTPHMGMGSPIFQAATLHFSSICENNYLQEYQAGLANNLHELVKTSWSYKKGYIHMPKKF;locus_tag=LOCUS_1040;note=WP_010974695.1 mandelate racemase/muconate lactonizing enzyme family protein (Agrobacterium tumefaciens complex) [pid:28.0%25%2C q_cov:92.5%25%2C s_cov:85.3%25%2C Eval:1.4e-36],MGA_105
sequence01	MetaGeneAnnotator	CDS	105759	105965	.	-	0	ID=MGA_106;product=sulfur carrier protein ThiS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_024015109.1;translation=MKTLYLNGVKISIEKEIDITTFLKNQNLSQKKIAIAVNGSIIPKKEYQKNILKEGDKIEIVQAVGGGN;locus_tag=LOCUS_1050;gene=thiS;note=WP_024015109.1 sulfur carrier protein ThiS (Aquifex aeolicus) [pid:37.7%25%2C q_cov:98.5%25%2C s_cov:100.0%25%2C Eval:1.1e-07],MGA_106
sequence01	MetaGeneAnnotator	CDS	105969	106598	.	-	0	ID=MGA_107;product=thiamine phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963817.1;translation=MLKRKNFPNKILCLITDTKIKNKKETLNIIENSVSSGFNMIQLREKHMSSLELLDFGRKIQKIINNRALFIINDRVDIAMALKSDGIHLGEKSIPINLVKNLLGKEFLIGKSIHQVDSSLSIYESLINYWILGPIYKTLSHPNSKPIGLTPISELKKISKTPIIGIGGINENNSKDVIKKGCSGVAVKRYILESQKIHDDTKLIMKSIT;locus_tag=LOCUS_1060;gene=thiE;EC_number=2.5.1.3;note=WP_010963817.1 thiamine phosphate synthase (Clostridium) [pid:36.1%25%2C q_cov:92.3%25%2C s_cov:91.9%25%2C Eval:1.8e-33],MGA_107
sequence01	MetaGeneAnnotator	CDS	106618	107382	.	-	0	ID=MGA_108;product=thiazole synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011055920.1;translation=MDDFLIIDNKKFHSRLLTGTGRHKSAKELIQSIENSQTEIITVAIRRINLEAKKEENILEIIKSKNLTILPNTAGCTNSKDAVFTAELARELTETDWIKLEVIPDSKYLLPDPVGTLKAAEDLIKKGFKVLPYISADPVLALELEKIGCVTVMPLGSPIGSGQGIHTLESIKIIIDQSKVPVIVDAGIGVPSDAALVMEAGADAVLINTAIAQAENPGIMASAFRLGVQSGRQAFLAGRIPKKSIAVASSPPKE;locus_tag=LOCUS_1070;note=WP_011055920.1 thiazole synthase (Thermosynechococcus vestitus) [pid:55.3%25%2C q_cov:97.2%25%2C s_cov:91.3%25%2C Eval:7.2e-73],MGA_108
sequence01	MetaGeneAnnotator	CDS	107488	108234	.	+	0	ID=MGA_109;product=Cof-type HAD-IIB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000221392.1;translation=MIHGLLLDLDGTLINQDDKISLSVKNLVKDFAEQIPVSIISGRESREVKKFANELSLNYIQFSDNGARVIDNKNGDTIISVSIEEGLVKNIFSKILEKKLKFLATTNDKTFNSLVNVDSFDISTIVICLEEFEDAKAFSSEYSEELGLRVNISSDSNRERYYVNINHSHVSKGVAVNHFCRFYSLNKSKVMAIGDSYNDLEMLKEVGISVAMENAPIEVKDVARYVVKDVNSDGVEEALLKFSHRSFF;locus_tag=LOCUS_1080;note=WP_000221392.1 Cof-type HAD-IIB family hydrolase (Bacillus) [pid:29.5%25%2C q_cov:96.0%25%2C s_cov:95.2%25%2C Eval:4.0e-20],MGA_109
sequence01	MetaGeneAnnotator	CDS	108223	109980	.	-	0	ID=MGA_110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSENSSKNQKKYSNPDIEVTDCLACGNEIFGTKLYSRYKVCYKCNFHFHINARERLVSLIDRGTFKEYFNDVTSLNPIEKTSGAQYKSRIKKDRLRTGLSEAIVTGTCTIGGSPTVIMVLDFGFLGGSMGLVVGEKVALSLELAEKRRMPVLCVITSGGSRIQEGVLSLMQMAKTVVALDNLHKKGLPIISILGNPSTGQVIASFVSLSDIIIAEPGAHIGYAPYRSIKEVSGEIEPSKYTSEIYQKHGLIDRVVSRQNINRETSTLLDLLSPKFNLEILKTTNIPETSLLPLKPWEMVQLARNINRPQSRYYISEIFANFIELHGDRLMSDDPSIIIGLARLAGESVMVIAQQKTVEKINKSSNKKSQKVKIKPEGFRKAKRAIELAERFGLPIISLVDSLGPELSLQAEYKGLANSISELISSMTKVEVATISVIIGEGGSETGLSFSVSDRTLMMQNAIFTPISPEDAARSQLKDSGKIKDVVSTLKLTSTDCLQMGIIDYIVPEPVGGAHSSPQEAARLLKIELMKELGSLKKIYPRTLSRRRKKKFRQMGEYSNKFRSTLKSELKIWQSAFTAGVRALKK;locus_tag=LOCUS_1090;note=WP_012545653.1 acetyl-CoA carboxylase%2C carboxyltransferase subunit beta (Thermodesulfovibrio yellowstonii) [pid:40.1%25%2C q_cov:48.4%25%2C s_cov:89.2%25%2C Eval:2.6e-52%2C partial hit],MGA_110
sequence01	MetaGeneAnnotator	CDS	110000	111985	.	-	0	ID=MGA_111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFGIFISLASIGFLGLFNAPVDLESSNAFTKDNQNYFLTTKELGDTLGGNLGDIISREPQQWEHWNNIFALRIFGVFRNIIILLIGFSICWPKKMLLVLKKILIYSKFTYLHLKKWYISFFNLINSKSSNNTDSQAEENNKILEDQVEEKEILNDESLIKEPKVEQKITTTLNNPSEKWILPNIEILNESHLSPLSNEEMETTKKLIVSTLKEHGIEVTVGQVKPGPTVTMYGLEPGYGKKSKSKTLPSNKEQIENQENLGTRVRVDTILSREKDLALALASPNLRFQAPVPGTSLVGIEVPNKSPSLVNLRTTMETKNFSKFNKNNPLPLALGIGSNGDPVYCDLTKMPHFLVAGATGSGKSVCINSMISGLLLVRDPSELRLIMIDPKRVELTPYSGIPHLYTDPIVDAAKAVSILKLVIDQMMDRFKTLESLDCKNIAAFNEKSEEKLPYLVIIVDELADLMLSAAGEVEKSLVRIAQLGRATGIHLIVATQRPSVDVVTGLIKANFPSRISFSVTSQIDSRTVIDSPGAEKLLGRGDMLFLPVDQPKAIRVQGGLLSESEINSIISHWKDQSSFELPKLNPETKDESTSFEFSKNTDALFQQAVELAISQKKLSTSLLQRRLRIGYPRAARLMDELEEEGIVGPGDSGKPRDVLKH;locus_tag=LOCUS_1100;note=WP_003438328.1 DNA translocase FtsK (Clostridioides difficile) [pid:40.9%25%2C q_cov:79.3%25%2C s_cov:62.5%25%2C Eval:1.4e-110%2C partial hit],MGA_111
sequence01	MetaGeneAnnotator	CDS	112302	112877	.	-	0	ID=MGA_112;product=type-4 uracil-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048053779.1;translation=MSSKDFSSKIHSLDSTIKSCTLCDLHKTRTLAVPGSGSALSGLMMIGEGPGLNEDRDGLPFVGRAGKLLDKLLSEISINRKDTFISNIVKCRPPNNRDPLPKELESCSPYLEKQIKIFNPRVIVTLGRFSLSYFFPKETISSVRGQQIELDGRIIFPVYHPAAALRNTKFAQILRNDFHKIPSLLVSSLRK;locus_tag=LOCUS_1110;gene=udg;EC_number=3.2.2.27;note=WP_048053779.1 type-4 uracil-DNA glycosylase (Thermococcus kodakarensis) [pid:51.6%25%2C q_cov:90.6%25%2C s_cov:93.8%25%2C Eval:1.3e-45],MGA_112
sequence01	MetaGeneAnnotator	CDS	112891	113148	.	-	0	ID=MGA_113;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011388176.1;translation=MATVSDRLKNIIVETLSVEEGDVVPDASFVDDLGADSLDVVEMIMAIETEFSSDDEALEINDEEAEKIIKVSDALSFLENKGITD;locus_tag=LOCUS_1120;note=WP_011388176.1 acyl carrier protein (Rhodospirillum rubrum) [pid:54.9%25%2C q_cov:96.5%25%2C s_cov:100.0%25%2C Eval:1.5e-17],MGA_113
sequence01	MetaGeneAnnotator	CDS	113151	113753	.	-	0	ID=MGA_114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSISQETIKNITINTISNNTEIIQEENKESDDLNIMVEGNFDDYSVSQIEENNLEFPNNKKQIDRVITLQSLFEIDLNGNDYDKVIQRISNNYSLESVNLEFILDNINKIRENKKELDMKIHTLATEYPTFQIAVIDRNILRLGLIEIEESLYDSKTIKSLIEKFSKLAFIFGGENSDRFIKGVLNSFILEKNRAQQKE;locus_tag=LOCUS_1130;note=WP_007326965.1 transcription antitermination factor NusB (Rhodopirellula) [pid:35.0%25%2C q_cov:61.0%25%2C s_cov:82.8%25%2C Eval:2.8e-09%2C partial hit],MGA_114
sequence01	MetaGeneAnnotator	CDS	113759	114700	.	-	0	ID=MGA_115;product=ACP S-malonyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245314.1;translation=MTNKATLESNPVLLFPGQGSQFVGMGKDLIEKSQAAKDVYTQVNDALGRDLTKIIFDGPEKELNETKNAQPAITATSLACLAYLNEITENSYKINYTAGHSLGEYTSLAASGALTIDETIKLVVERGRLMQIACNENPGGMVAIIGVDELTVEEVCRETGTYTSNINSISQIVISGDHMSLARAIDLLNARGAKRVVTLPVSGAFHSELMQPAVDGLTEMLDSLNFTNPKFPIISNVKAKPIEKGEELKQELINQMKSCVQWSKTLDYLIDEGCNTFIEIGPGKVLTNLIKRIPGDFDLINISDYDSANKIIK;locus_tag=LOCUS_1140;gene=fabD;EC_number=2.3.1.39;note=WP_003245314.1 ACP S-malonyltransferase (Bacillus) [pid:41.0%25%2C q_cov:97.4%25%2C s_cov:96.8%25%2C Eval:1.2e-57],MGA_115
sequence01	MetaGeneAnnotator	CDS	114703	114915	.	-	0	ID=MGA_116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAPLPKKKHSRSRTRKKRAHQGLTRISLIKCPACPEKTLPHRACSHCGHYRGRYIGVINNVNTNSDQPQS;locus_tag=LOCUS_1150;note=WP_011402828.1 50S ribosomal protein L32 (Salinibacter) [pid:46.3%25%2C q_cov:74.3%25%2C s_cov:83.1%25%2C Eval:4.7e-08%2C partial hit],MGA_116
sequence01	MetaGeneAnnotator	CDS	115181	115675	.	+	0	ID=MGA_117;product=crossover junction endodeoxyribonuclease RuvC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011120029.1;translation=MKNRVIGIDPGLSNTGYGILDFNRDKLQPLEGGVCKTVTSDNLENRLKSIFEDIREVVIEYKPKIMAVEDLHSRYRNLKTAIIMGHARGVVCLVASLYDIPVFHYQPTQIKNIITGSGRADKIQIQRSISRLLNLNFDNLSEHVADAYAAAICYSRMFNNVSYK;locus_tag=LOCUS_1160;gene=ruvC;EC_number=3.1.21.10;note=WP_011120029.1 crossover junction endodeoxyribonuclease RuvC (Rhodopirellula baltica) [pid:43.6%25%2C q_cov:95.1%25%2C s_cov:87.6%25%2C Eval:1.4e-30],MGA_117
sequence01	MetaGeneAnnotator	CDS	115689	116345	.	+	0	ID=MGA_118;product=Holliday junction branch migration protein RuvA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002211199.1;translation=MISFLKGSLRKLPLGNSKLEILVNGIGYEVLLPVFVFESLHLKQLEINDEIELEIYYHATERSPKPILVGFNSIQEKNFFEQMIQVEGVGPQKAVTALIFPIHVIARAIETEDVHTLTQMPGIGSRAAQKIVATLKGKVGDSTSALIEDKVEQSDDADIDRKLNLRKEASTILVNLGYKEQEAIRSINEATENNSDLENDLEALIREIFKKKQDISNS;locus_tag=LOCUS_1170;gene=ruvA;EC_number=3.6.4.12;note=WP_002211199.1 Holliday junction branch migration protein RuvA (Yersinia pseudotuberculosis complex) [pid:32.1%25%2C q_cov:91.7%25%2C s_cov:97.5%25%2C Eval:1.3e-18],MGA_118
sequence01	MetaGeneAnnotator	CDS	116352	117401	.	+	0	ID=MGA_119;product=Holliday junction branch migration DNA helicase RuvB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011476176.1;translation=MAREEIIKNFDTEDLEDQNDIEEVYQSINLRPKNLLEYVGQKSVVNSLQTAMKAAKNRKEPLEHVLFHGPPGLGKTTLAHVIATESGYKIIHTSGPSLERPADMVGLLSNLNFGDVLFIDEIHRISKGVEEYMYSAMEDFKVDFITGSGTFAKTLSFPLQRFTLVGATTRAGMLSAPLRDRFGLTYHVDYYSPEELSNVIKRSSELLGIKISNEGSYEIANRSRGTPRIANRLLRRVRDYSEVHENGNIDKNISQKALQSEGVDELGLDRLDREYLKTLLVNYKGGPAGIEALAATINEESQTLMDVVEPFLLKIGFVVRTPSGRKATEKAYSYLNISNNKKSDQAQLF;locus_tag=LOCUS_1180;gene=ruvB;EC_number=3.6.4.12;note=WP_011476176.1 Holliday junction branch migration DNA helicase RuvB (Ligilactobacillus salivarius) [pid:53.6%25%2C q_cov:95.7%25%2C s_cov:96.4%25%2C Eval:4.0e-97],MGA_119
sequence01	MetaGeneAnnotator	CDS	117398	119224	.	-	0	ID=MGA_120;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013530489.1;translation=MISINKSAKIKEREKKAEFLEDSLEVISSYDQEVLNKFIKYLKPYKKKVFGGLIAVLLFAGVVVAIPVLVKITIDNAISEKNSLALNLMFVVLIIASFIHLFSNYFQQKLLGKIGENVIYDIRTKMFNHLQKLSMSFADKTKYGGLMSRVQGDVGALQELFQAGIHAIADILTLICVAIILITLNWIMGLMILIVLPILILVKIFWLPMARRAFLDASKARSIVSGVLNEHLNGVRVTQSLNREIRNQEIFDEKIADSLEKQDKAAKYGSGIMPPVETLTGLSMAIIIVIGGYLVTNGSIEIGIMVASLLYIQRLFDPIRTLTMHYSVVQRAMASGHRIFELLELPIEIKDEPNSKPLKIEKGKIELKNVDFGYESNNQILSDINLSIKENETIGLVGPTGSGKTSIAALIHRFYEIWDGEILIDNQDIRKVTQDSLGLNISMVLQDPVIFSGTVLENIRYRTNASDEEIIEASKTVGADEFINRLPDTYSTHLYEGGSNLSIGEKQLLSFARALVCDSKIFILDEATAYIDSYTELKIQNALNKVLKNRTGIIIAHRLSTIKNADKIVVLDKGKILEVGPHEELMKNKGLYSNLWAKHQSSFDDLNN;locus_tag=LOCUS_1190;note=WP_013530489.1 ABC transporter ATP-binding protein (Mesorhizobium ciceri) [pid:46.6%25%2C q_cov:95.2%25%2C s_cov:92.5%25%2C Eval:9.8e-159],MGA_120
sequence01	MetaGeneAnnotator	CDS	119221	121098	.	-	0	ID=MGA_121;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013530490.1;translation=MHFPKPHIPNPHIAERIAHAKQLLHIGDNLSHLSHKKEFEVLKRITKMCFKYKKYIFLGITGVIGIVSAQLYLPFLLGNGIDKSIEIIASGSSKFNDLYLVGFLIIITSMLRGLFGFLIQYNGEKIGNNITTNLRSDFHKKLQSLSFSFHDKIHSGNLMSRGILDIEGVGLFVRTGFLRTIEILLLMFFGGILLVSVDWKIGLLSLIFIIPTASLATTTRLRLRKIWTKIQQFYSDLNTKLQENLIGVRVVRAFGGQNHEIKKFRSSHKNVTNLTIESIEVSALGQSLIGFFFLITWSLIIWVCGIQVISGNLTLGEMTQSLVYLGMLQRPVRMIGMMVNAYARATSCGLRLFEILDKEPNIKSLNNPKSLDKIHKIEAKDIVFKFDHHSEKNILNNISFKVSSNQILGIIGPPGSGKSSLAQLIPRFYDIQEGSLTINDIDIRNIDITELRKEVGIISQNTFLFNMTIKENISYGAPNSEMNEIIECAQIAEIHDFIESLPEKYETTVGEFGVSLSGGQKQRISIARTLLKKPSLVIFDDSLSALDSITDQKIREHLETSISSQITIIISHRIDSLEHANEIIVLDKGNISQRGTPSELLKKDGIYKTISDIQHPKYEKEKSLS;locus_tag=LOCUS_1200;note=WP_013530490.1 ABC transporter ATP-binding protein (Mesorhizobium ciceri) [pid:38.2%25%2C q_cov:93.8%25%2C s_cov:95.2%25%2C Eval:9.0e-123],MGA_121
sequence01	MetaGeneAnnotator	CDS	121196	121705	.	+	0	ID=MGA_122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFAQFNIQIANFKYSEILKFIENQSFPEGWRETDFSKELRKKNSIYFIAYDTTDRIHNIEGYKKATLKNKMVIGYAGIWFYEEFSEIVSVAVLQNFRKLGVGRLLISKLINYVNFHKKSKIINLEVGKKNFIARNLYKQLGFKENGYREKYYLHDGDDAILMSLNINF;locus_tag=LOCUS_1210;note=WP_011393645.1 ribosomal protein S18-alanine N-acetyltransferase (Moorella thermoacetica) [pid:30.3%25%2C q_cov:84.0%25%2C s_cov:74.4%25%2C Eval:8.0e-11%2C partial hit],MGA_122
sequence01	MetaGeneAnnotator	CDS	121695	122591	.	-	0	ID=MGA_123;product=dihydrodipicolinate synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003815555.1;translation=MTNAIQGIHFMMPTPFTKESNIDFESIDRLVELSIENGCHGIVIMGVMGEAHRLTEDERNAVINHVSKKVNNRIPITVGVSGESIKIVSKRIKESKTFGANYLLCSPPKMLKTNEKVLLKFFKEISKDNNLPIVLQDLPQETGVNLTPEFINKITIEVPQIKFIKLEDPPTPKKISEILSKTSDQIGIFGGLGGVFLIEELTRGAIGTMTGFAFPEILVKTYEEFKNNNIKNAKSLFFEWLPLIRYENQQGISLSIRKHILFRRGIINTPDTRLPTPSIDKKTEEELESLLKEYQFKN;locus_tag=LOCUS_1220;note=WP_003815555.1 dihydrodipicolinate synthase family protein (Bordetella bronchiseptica) [pid:34.0%25%2C q_cov:95.6%25%2C s_cov:92.1%25%2C Eval:4.8e-45],MGA_123
sequence01	MetaGeneAnnotator	CDS	122597	122863	.	-	0	ID=MGA_124;product=ferredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003083029.1;translation=MTYIITSACKDLLDGSCVDVCPVDCIYSKKGDNQLFINPDECIDCAACEPVCPVNAIYPEEEVPEKEIASVDLNKNYDYDNSEPGLNT;locus_tag=LOCUS_1230;note=WP_003083029.1 ferredoxin family protein (Amycolatopsis) [pid:50.6%25%2C q_cov:96.6%25%2C s_cov:78.3%25%2C Eval:2.9e-21],MGA_124
sequence01	MetaGeneAnnotator	CDS	122907	123335	.	-	0	ID=MGA_125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKESNLLIDMTETATSKIKEVIKEQELNNSYLRIQLTANEHGAPGYAFGLEDNPNQDDTIVDLGDFKALIDPGTLPLITGSNIDYVEGLHRSGFIITNPNLPSGGGCGGGGCACGGGGGGCGSGGGGCGCGSGGGGCGCGN;locus_tag=LOCUS_1240;note=WP_002209365.1 iron-sulfur cluster insertion protein ErpA (Yersinia pseudotuberculosis complex) [pid:34.7%25%2C q_cov:71.1%25%2C s_cov:88.6%25%2C Eval:3.5e-12%2C partial hit],MGA_125
sequence01	MetaGeneAnnotator	CDS	123526	123966	.	+	0	ID=MGA_126;product=HTH-type transcriptional regulator Ptr2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869646.1;translation=MDKLDYKILSMLKKNGRLSNANMARSLKVSEGTVRRRLKKMTVDNVVRIFAVPNPDSIGLHSEALIGIQVDPDKMEIIANKVSKLEQATWVTHTTGTYDIFLWAAVESTEELGKFIRGPIGTIPGVRRTETFVNLKIVKRGHGPRN;locus_tag=LOCUS_1250;note=WP_010869646.1 HTH-type transcriptional regulator Ptr2 (Methanocaldococcus jannaschii) [pid:34.5%25%2C q_cov:96.6%25%2C s_cov:95.9%25%2C Eval:1.4e-17],MGA_126
sequence01	MetaGeneAnnotator	CDS	123979	124638	.	+	0	ID=MGA_127;product=biotin transporter BioY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015909445.1;translation=MEQSTIENSAHLGLKNNVSILGEKQNSLLESIFTNVGWKSKLLVIFAFLVFETILAQIKFFLPDNPVPVTMQTFGILMMGSVLGWRLGLITIFSYVLLGILGAPIFQSWNGGINYFLGATGGYIVGFFLAVPVMGFLSQRGWTRSKSLWAMLIGNIVIYIPAVIWLSIGMSFFDFSWPKSGQLLSQAIYPFIIGDLLKMVFAALITGLLWQIVDSRKSK;locus_tag=LOCUS_1260;note=WP_015909445.1 biotin transporter BioY (Chloroflexus aurantiacus) [pid:36.7%25%2C q_cov:85.4%25%2C s_cov:92.1%25%2C Eval:1.1e-28],MGA_127
sequence01	MetaGeneAnnotator	CDS	124658	126448	.	+	0	ID=MGA_128;product=aspartate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258183.1;translation=MYKDIGCGEVREKDEGKILRFAGWVHKRRDHGSLVFIDLRDSKGIIQIVFDPSNSADSHKVALSLRSEWVIEVKGTVQKRIKGAENPNLQTGNVEVIATDIKILNRSKTPPFEVNEDINIDENLRLKYRYLDLRKPKMQHNIKTRHIVTKAIWDYLHENDFVQIETPILIKSTPEGARDYVVPSRVHPGNFYALPQSPQQMKQILMVSGFERYFQIARCFRDEDLRADRQPEHTQLDFEMSFVEQDDVLNLVEDLYKSLIRKVSPETYIPEKFPRITFQEAMDLYGTDKPDLRFDLKLIDFTNVFANSDFGVFNKTIDSKGIIKGLVAPDCSSFSRSQISELNQLIVENGGPGVFSLTRANKKNHDLEVQDIKSAFSKFVDIEKLKETISVSKCRENDLLLICAGSEKIVNQSLSLLRNKIAEYLNLIKTDSFSFAFIVDFPMFEWNTDTEKWDAMHHVFTSPKDDHIKHLDSDPGQVIGQLFDLVCNGVELGSGSIRIHNREIQEKVFNIIGYSSNEVSERFSTILESFEYGAPPHGGMGLGLDRLVAMLVGETSIREVITFPKTQTAFDPLFDTPSLISDQQLRELNFDINNEE;locus_tag=LOCUS_1270;gene=aspS;EC_number=6.1.1.12;note=WP_012258183.1 aspartate--tRNA ligase (Chloroflexus aurantiacus) [pid:48.5%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:9.6e-167],MGA_128
sequence01	MetaGeneAnnotator	CDS	126494	127798	.	+	0	ID=MGA_129;product=trigger factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229611.1;translation=MKISTEKTDNQQVNLTIEVNDEDMESHIEIACNKMSKKMNFPGFRKGKVPRSVLENSLGKQRLIQESLDTLIPDVVFKAVDKEKLEIVSTPVVSVESLDPKLEILAKVALIPIVNLSSYEKFKITQSKNKVGVKEINNVINQVRESQLTWIPVERTVKRGDSLIIDFEINSDDKIVTSQNKMEYIVDYGKDHIESIPGFSEKLIKMNIGDEKKFNLEFPDNFPDEKLRNKSGEFKVLVHEIKEKQLPELNDAFAKSLGEGIEDVKALKQKIKENLKLNSENEWNNRIIEDFIDQVIVASKFVVAPILIDQESESIVKRQKEYIESRKLDFDEYLKNSEKTYEGLLEESREAAEKNIHRSLVINEISLKENIEVEEKEVLEEIKSWEQSNNKNSKISKDQIEQNIRQSIKDRLIMDKILKLAKDRVVKSNDKQKK;locus_tag=LOCUS_1280;gene=tig;EC_number=5.2.1.8;note=WP_003229611.1 trigger factor (Bacillus) [pid:28.9%25%2C q_cov:97.2%25%2C s_cov:97.9%25%2C Eval:1.4e-49],MGA_129
sequence01	MetaGeneAnnotator	CDS	127847	128470	.	+	0	ID=MGA_130;product=ATP-dependent Clp endopeptidase proteolytic subunit ClpP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081059.1;translation=MNDIENIIPTVIESGARGERAFDIFSLLLKERIIFLGTPINDQISNLIVAQLLYLAREDSTKDINLYINSPGGGVYAGLAIYDTMQHIPCDVSTISVGLCASFGTVLLTAGTKGKRFALPNSTIHMHQPISGAQGQASDIEIAAKEVLRVKDGLTKIISNHTGQSEAKIIKDSDRDSWMTAKQAVKYGLIDEILEKPESEKKNSSKK;locus_tag=LOCUS_1290;gene=clpP;EC_number=3.4.21.92;note=WP_004081059.1 ATP-dependent Clp endopeptidase proteolytic subunit ClpP (Thermotoga) [pid:59.7%25%2C q_cov:92.3%25%2C s_cov:94.1%25%2C Eval:1.1e-62],MGA_130
sequence01	MetaGeneAnnotator	CDS	128476	128688	.	-	0	ID=MGA_131;product=exodeoxyribonuclease VII small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008194462.1;translation=MMSEKNNFENLLDKLEIIVRKLEEGDLSLEESKDLFIEGVNISKKCKEILSETKLEIEDISKDLDLNNSI;locus_tag=LOCUS_1300;EC_number=3.1.11.6;note=WP_008194462.1 exodeoxyribonuclease VII small subunit (Thermotoga) [pid:50.8%25%2C q_cov:84.3%25%2C s_cov:78.7%25%2C Eval:6.6e-10],MGA_131
sequence01	MetaGeneAnnotator	CDS	128678	129925	.	-	0	ID=MGA_132;product=exodeoxyribonuclease VII large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438130.1;translation=MIFKEESNYSNIKATFTVGELSEYIKNTLERTTHLRNLEVIGEISNHFQSSSGHNYFSLKDEKAVIRCVMFKESSGIEYLENGQLINAQGYISFYKTRGDLQIYVNKVEPEGIGSLQKNFELLKTKLESEGLFDISRKRSLPKYPKFIGIATSKKGSVLQDILNIIKRRYPLIKIKIADTKVQGKDSSSSIVKSIKALESQKNIELIILARGGGSLEDLWPFNEEIVAKSIFACKVPVVSAIGHETDVTISDLVSDLRAPTPSAAAEIITPDIVELRNSISQKLNEFYINIDFLISKKTSNLEITFDPLLYKKPDILSFENRINQYSNSIKTSFLKNYEKFHLTINSLENSLRTLDPKNVLSRGYSIISKKNNNKVITKTNQLKVGDLLSITIKNGEIEARTTNLKNKIRRIDDE;locus_tag=LOCUS_1310;gene=xseA;EC_number=3.1.11.6;note=WP_003438130.1 exodeoxyribonuclease VII large subunit (Clostridioides difficile) [pid:40.4%25%2C q_cov:94.2%25%2C s_cov:97.8%25%2C Eval:1.8e-73],MGA_132
sequence01	MetaGeneAnnotator	CDS	129931	130494	.	-	0	ID=MGA_133;product=elongation factor P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005810907.1;translation=MTISSSEIKRNMTIMIDNEIFQILEWQHRKPPKAPPTLTLRVKNIKTGNVFEKKLQGNRPLTLARTDKRPFQYLYSDSTSHTFMNNETFEQINIDPSILGNALDFIIEGDIIEVISFEENPISIELPISVILEVIDSEQAVRGDTATNVTKTATVNTGLKVQVPLFIETGGKIKIDTRTGQYIERSN;locus_tag=LOCUS_1320;gene=efp;note=WP_005810907.1 elongation factor P (Desulfitobacterium) [pid:39.1%25%2C q_cov:98.4%25%2C s_cov:99.5%25%2C Eval:2.4e-36],MGA_133
sequence01	MetaGeneAnnotator	CDS	130508	131581	.	-	0	ID=MGA_134;product=Xaa-Pro peptidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393048.1;translation=MNKLIKKRLEKIQNLIKKSEFDSILISNSINRRYLSGFTGSWGYLFITESQSRLATDSRYIIQAEKESPEFEIISISSKNPWPISLTEGLQVQEIAFEPEDITVENLNFLKEKTSFKWIPTPNMVSNLRSTKDEEEIKLIQKAIDIADSSFNTISENIKPGITEKEIAWELEKHIRNLGAESLSFETIVASGPNSAKPHHSPSNRIIQEKEPIVIDMGAKYLGYCSDLTRTIFLGKADEQYNKVYDTVLIAQLTAIETLQKGMSGEEIDGLARSIINNSGFGNNFGHSLGHGVGLEVHENPGVGPTSKNIIEENMVFTVEPGIYLENWGGVRIEDIVLIKDGETKILSNAKKNKIID;locus_tag=LOCUS_1330;note=WP_011393048.1 Xaa-Pro peptidase family protein (Moorella thermoacetica) [pid:40.9%25%2C q_cov:98.3%25%2C s_cov:99.4%25%2C Eval:6.7e-71],MGA_134
sequence01	MetaGeneAnnotator	CDS	131574	132014	.	-	0	ID=MGA_135;product=type II 3-dehydroquinate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003230223.1;translation=MKKILLINGPNLNNLGNRESKFYGNVTLQEIENEVIKIGKNHGLEIEPFQSNHEGDIVDFIQKNSKNSIGIIINPGALTSSGYSLVDAIIDSNLTTIEVHLSNIHAREEFRSTSIIAPISKGQISGLGKDGYIYALNYFIHEIISE;locus_tag=LOCUS_1340;gene=aroQ;EC_number=4.2.1.10;note=WP_003230223.1 type II 3-dehydroquinate dehydratase (Bacillus) [pid:45.2%25%2C q_cov:92.5%25%2C s_cov:91.2%25%2C Eval:1.7e-31],MGA_135
sequence01	MetaGeneAnnotator	CDS	132065	133057	.	-	0	ID=MGA_136;product=site-specific tyrosine recombinase XerD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003700300.1;translation=MQIYNLDSKMSYSEKNQKKSEIPKSLYENISQKIWIDQVLKYNQFLKNRQFLSPYTIRNYLTDLIDFFKFLNNSSIKSINDLNKNHIREYMRWLSMSNVSRKSISRKLSSLKTFFSYLEEHNEIFHNPAEMVKPPKQDKKLPRIENTQDISKMMQKNSFLSSKMQLRNIAIIEVLYASGIRVSELTSLSIEDVDLKSGEIKVTGKGNKERIVLIGKDAIKAIKEYIEFERRNNSKSNYLFLNKTGEPISTRSIQRIVKKHSQIAGLHEDFHTHTLRHSFATHMLDGGADIKVVQELLGHSSPTTTQIYTHISKEKMREIYNSSHPRSKKI;locus_tag=LOCUS_1350;gene=xerD;note=WP_003700300.1 site-specific tyrosine recombinase XerD (Ligilactobacillus salivarius) [pid:38.8%25%2C q_cov:87.3%25%2C s_cov:100.0%25%2C Eval:8.3e-57],MGA_136
sequence01	MetaGeneAnnotator	CDS	133113	135173	.	-	0	ID=MGA_137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSLVIVESPTKARTLQRFLGNNFIVEASIGHINNLESGRDADRSGPVVGVDKDLEPIWGLERGAISRINNLNKLAKECDVIYLAADPDREGEGIAYHVANALIEKKHSKEKFKRVIFHEITEKAVKEAFESTSEINMNLVNAHIGRRLVDRLVGFKLSGLTSSLLRLKRLSVGRVQSVAVSIVKDKEDEIKAFNPEEYWNINADFLSNNNSYSGKLFKIPGVTEKDFKISNQLQANQIESAINSSVFTIESIKISSRTSKPKPPFTTSTLQQDASFRLRMSPSRTMTIAQQLFQGIKIGGGEEGLITYMRTDSTILSNESMKSIKGHIKNSYGENYFTERRYKTKSANAQEAHEAIRPTSINRTPESIKSFLEDDQFKLYDLIWRRTVACQMTESKTQKTSLITSSSNDENSYKFKSEAEELIFDGFKKLFPEKENKKLPDLKEGISVSIDSLNKEQKFTQHPPRYTEASLIKEMEDLGVGRPSTYASILNAIKDRRYVWLSGRSIYLTPIGNALVEELKKEFSNSFMDYKFTEKMNHELDLISNGKSKRENFVKKFWNDFEPLTSKLALRGEENPRNPSEYNFLRTNIVCSAKSPCINSETGKIFEENDPPLGTKSVNESLEIAPHLIWIRFRNKNGNGSFLGCEDRECKVTGDEDAWVSRGRRRERSLKKLQSTMTEKSLHP;locus_tag=LOCUS_1360;note=WP_003705339.1 type I DNA topoisomerase (Neisseria gonorrhoeae) [pid:40.9%25%2C q_cov:82.1%25%2C s_cov:73.0%25%2C Eval:5.0e-114%2C partial hit],MGA_137
sequence01	Aragorn:1.2.38	tRNA	135328	135419	.	-	.	ID=Aragorn_3;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0030;note=Aragorn_3
sequence01	MetaGeneAnnotator	CDS	135570	136196	.	+	0	ID=MGA_138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLTKTEEDSDTQYTIVDPSNTYIDPSVELGKGCVIEPFSFIKGKTKIGDNTRIGPNSYLENMIVGSNCKIFYSVCIDSTLEKDVQIGPYSRVRDNSFISDGVYIGNYAEIKNSNIREKSIISHFTYIGDATIGANVNIGAGAVTCNYDGESKHHTFIGDNCFIGSGTMLIAPLNIGAKSITGAGSVVTMNVEENITVVGNPARKLK;locus_tag=LOCUS_1370;note=WP_004082105.1 bifunctional UDP-N-acetylglucosamine diphosphorylase/glucosamine-1-phosphate N-acetyltransferase GlmU (Thermotoga maritima) [pid:46.6%25%2C q_cov:91.8%25%2C s_cov:42.9%25%2C Eval:2.2e-47%2C partial hit],MGA_138
sequence01	MetaGeneAnnotator	CDS	136259	137485	.	+	0	ID=MGA_139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAWFMIDVLLKLIVFIFLLLGYLIFLFSYRVFNGTSTRLILLSKFEDKDNGNLVPDVIFSQSIIRVIVGFWALGLAIHTAFIFYFYSSIFLNTWLESLIYFLVSMVFPLIGYFFIYVLNDKAVEKLIGIPKVILILNLSILKLPFINKFITSSNGNGNEENDAVEIDALEAAGLSVDPEEMKMIQGILRMDTVKVREIMRPRVDMIVVESDRDLKNVSNLMIEDGYSKIPVIGDSIDDILGIAYARDVLKSVGQDDGSLKIKEILRPAIFVPESQNLEQLLREFQKHRTRMAIVIDEHGGISGLVTVTDLIEEIVGELVDEFDVKDPDIRRINDSITIVDARMTVADLNEEIGTSIIAQGFDTIGGLVYKELGKMPEVGDHIEVDNLNITVQSTVGRRIGKLRLYIHS;locus_tag=LOCUS_1380;note=WP_164931023.1 CNNM domain-containing protein (Dictyoglomus turgidum) [pid:35.7%25%2C q_cov:68.4%25%2C s_cov:71.9%25%2C Eval:8.6e-49%2C partial hit],MGA_139
sequence01	MetaGeneAnnotator	CDS	137549	138142	.	-	0	ID=MGA_140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGLFYATTILAIFTIIGCGAAGAAGLQGPQGPQGAPGAAGIQGDAGPQGPSGAQGPAGSSGSAGPQGDQGPIGPAGPSGSQGPQGEAGVKGNPGNPGPAGADGQDGGSGASIVSGTAGTSVTISGGGYAAGETVSIQANGVEITTATANANGAFSVEISTVGLPTGAHTLSGEGDGGSNAVGVLVIGGSGGLQSSP;locus_tag=LOCUS_1390;note=MGA_140
sequence01	MetaGeneAnnotator	CDS	138610	138870	.	+	0	ID=MGA_141;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583506.1;translation=MREQKNEIIEKYKLRENDTGSTEVQVALLTDSINRLVEHTKIHKHDHSSRRGLISMVGQRRKLLKYLVRKDESRYVKLIDSLKLRR;locus_tag=LOCUS_1400;gene=rpsO;note=WP_012583506.1 30S ribosomal protein S15 (Dictyoglomus turgidum) [pid:60.0%25%2C q_cov:98.8%25%2C s_cov:95.5%25%2C Eval:1.1e-23],MGA_141
sequence02	MetaGeneAnnotator	misc_feature	1	1675	.	+	.	ID=MGA_143;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_012258185.1:penicillin acylase family protein,WP_012258185.1 penicillin acylase family protein (Chloroflexus aurantiacus) [pid:30.0%25%2C q_cov:95.5%25%2C s_cov:67.2%25%2C Eval:1.5e-65%2C partial hit],MGA_143;locus_tag=LOCUS_1410
sequence02	MetaGeneAnnotator	CDS	1723	2166	.	+	0	ID=MGA_144;product=CysO-cysteine peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003898830.1;translation=MAIFLPKKVIGNMFDHSLNLDPEEACGVLLGNKNQVSKNVRINNIHEEPLTRYTMDPNELLKVTLEAEKKDLEIIGFYHSHVYTQAFPSSTDIKEAITHSFGNPVDYFYILISLVEKNRPIMRAFKIDSLKNVNEENITFDGDQYRS;locus_tag=LOCUS_1420;gene=mec;EC_number=3.13.1.6;note=WP_003898830.1 CysO-cysteine peptidase (Bacteria) [pid:33.1%25%2C q_cov:81.0%25%2C s_cov:78.1%25%2C Eval:7.2e-11],MGA_144
sequence02	MetaGeneAnnotator	CDS	2174	3736	.	-	0	ID=MGA_145;product=citramalate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546272.1;translation=MKMDLYDTTLRDGTQQEGISLSVQDKISITEKLDDIGIPFIEGGYAGSNPKDNEYFKLIKNISLKQAKICAFGSTRKIYGKVDSDPVIKSLLSSESEIITLVGKSSDIQVEKVLETSLEENLSMISDSIEYLKNRDRKVIFDAEHFFDGYINNPSYSIKVLETAKEFGADTIVLCDTNGGMLPDKVSEITKIVSETLNCQIGIHTHNDTDTAVASAIAAYQSGATHIQGTINGYGERCGNANLVSIIANLQLKLGVNCLTKSNLSRLTELSNFVAETVNRPPFPYSPYVGKNAFTHKGGLHASATEKFISSYQHIDPSSIGNYTDVTISELSGKSNVNRKIRELGLSNQLGNTEAQEIVKYIKNQENQGFSYENSTASFELVVKRFLPNYEPPFELIDFVVLVENRSKSNGNLLCEATVKVKVENTVVHTASEGNGPVNALNNALIKALSPSYPKIHSLRLTDYNVRVVNESAATEAKVRVAVESADDKDVWRTVGCSANILEASWMALSDSLEWYLNKI;locus_tag=LOCUS_1430;gene=cimA;EC_number=2.3.3.21;note=WP_012546272.1 citramalate synthase (Thermodesulfovibrio yellowstonii) [pid:52.0%25%2C q_cov:99.4%25%2C s_cov:97.7%25%2C Eval:3.4e-149],MGA_145
sequence02	MetaGeneAnnotator	CDS	3834	4355	.	+	0	ID=MGA_146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMNFYLRNVENIECISRGSPGNRTFYLSVTNLNKVSGKTDSTSKLKIWLEKEQLVALCLLLKTPEESQGNIEDNLKENSGEFNLEVRGTDFSINSDSKTYELIFLSEEENNELLSITINIYLDILQWKNLGDQILKVCESGRKKCPLCHLPKNLDGTCDGNPCVKKNGHINLN;locus_tag=LOCUS_1440;note=MGA_146
sequence02	MetaGeneAnnotator	CDS	4373	5119	.	+	0	ID=MGA_147;product=SCO1664 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257528.1;translation=MIKYLYENKKIFSECLEKLDNWKLGNIRSVLNGSNQVFLLELFDPSFSSSLRCVYKPMIGEKPLFDFPSESLYKREMSAFVISRILGWPNIPSTTIRNGPLGVGTLQKFVDHDFNKNYFTLRDSYLEKFECFALFDLLVNNSDRKAGSCIQDSKKNIWSLDHGLTFNQNSRLRTIMFEFSGMEISDNLKIDLMEFRNYLINEPKLRDLLINWLSQESFDFFTDRLDVVIKLEKYPFLDVNLNVPWPLL;locus_tag=LOCUS_1450;note=WP_012257528.1 SCO1664 family protein (Chloroflexus aurantiacus) [pid:36.4%25%2C q_cov:79.0%25%2C s_cov:80.2%25%2C Eval:9.9e-35],MGA_147
sequence02	MetaGeneAnnotator	CDS	5111	6010	.	-	0	ID=MGA_148;product=inositol monophosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546263.1;translation=MEPQLIQNIDKKLTNKLASIAEKAALESGKYALENIDSEIQIFSKEGKKNNLVTEIDRRNQKFIISMIKDHFPDHSIIGEEDKKNIKPQLHEIAWLIDPIDGTTNFVNRIPIFSVSIGVLFKGIPIAGAIWTPWMSEKNLILKASFGNGATINNKKNKIKNILSSKLSEGGIATLPSKIENYFKINKNKKEFIGEKRVLGSCAFEMMLIAKGISAYGILGPASSWDFAAGVIIIRESGGEIFSINNKNEWERFKGFHDNYQNNYETIEHIRNWKGIMAGGSKNIVNFTTNNFTPLKKSK;locus_tag=LOCUS_1460;note=WP_012546263.1 inositol monophosphatase family protein (Thermodesulfovibrio) [pid:31.9%25%2C q_cov:75.6%25%2C s_cov:86.7%25%2C Eval:5.6e-25],MGA_148
sequence02	MetaGeneAnnotator	CDS	6094	7020	.	+	0	ID=MGA_149;product=zinc metalloprotease HtpX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392235.1;translation=MVGENNTFKVSRDKGLVTRMYFTWFLLGLLYAFFGLILNAFGIQISFIVVIVLGMGIFQYYMSDKMILWSTKAKVISRDKDPQLFEIVDRLAKRANIPSPKIAVMESSVPNAFATGRNPKNSLVAVTTGIRERLSSSELEAVLAHELGHVINGDMKVLAIANFFVTFTSFLMQMFFWNMLFGGIGGNRRQNGGYIIVIYFITMLVYFIGQLLVLALTRYREYGADRTGSYLCGKPNDLASALEKISGTISRIPSQDLRKVKTASAFMIIPALSGDDVAKLFSTHPPVQDRVRKLRKLRQEMNNISSNG;locus_tag=LOCUS_1470;gene=htpX;EC_number=3.4.24.-;note=WP_011392235.1 zinc metalloprotease HtpX (Moorella thermoacetica) [pid:48.0%25%2C q_cov:95.1%25%2C s_cov:97.7%25%2C Eval:1.3e-72],MGA_149
sequence02	MetaGeneAnnotator	CDS	7020	7592	.	+	0	ID=MGA_150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFLRKKKSHWEAISSILQSRNYLEENSIRLSSRSGVLISPSDHSFFQDLTTNVDKIVKDGRTDSNTVIEVLKDDQETFWVLIKDEDFPELISTTYTVINAVSNIVKPDNIIGSVFKLDLSQSKLIDVYGKVENCYLIFNSDFLGYYPFVPSGEERLNSLELDIYDILSSKGLEVLSDFNKWYGISSIPF;locus_tag=LOCUS_1480;note=MGA_150
sequence02	MetaGeneAnnotator	CDS	7608	8177	.	+	0	ID=MGA_151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLVFLTDPNEKINYHESFNLKLGVGKWKLIDKQSTIKGSENSLLIIGNHDLSQKRKVNFQEVFQKARKLKLKIIGVENGMFLINETLGGKKHLNKACKNNEIFIGLGTKIASIIGGSGNVKVFYPRLRNLKINYKANNLMVSAINHENGFIEAIELKGEEEILGVLWPVFAKDKLPKGFENIIKYIVD;locus_tag=LOCUS_1490;note=MGA_151
sequence02	MetaGeneAnnotator	CDS	8248	10734	.	+	0	ID=MGA_152;product=DNA gyrase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963336.1;translation=MVTENSEKFNLIGIEDEMKTSYLDYAMSVIVARALPDVRDGMKPVHRRILYSMYDSGMRSNSSYKKSARVVGDVLGKYHPHGDGAVYDAMVRMAQPFNMRYTIVDGQGNFGSVDGDPPAAMRYTESKLAPIADMILADIDKDTVEWADNFDASLQEPTTLPTILPTLLVNGAAGIAVGMATNMAPHNLSEVCDGLIALIDNPDSTIEDLMEFIKAPDFPTGAHIWGLEGVKSAYATGKGRVMMQANHKIEEGKNEKQSIIFNQIPYQVNKANLVIRIAELIKTKKIEGISEVRDESDRKGTRVVIELKRGITPAVVLNNLYKNTPLRSSFSINMLALVDGTPRVLNLKQVLKHFIDFRVEIITNRSKYELNKAQNRIHILEGLKIALDNIDKVIEIIRASNTVEEARNSLIKSFDLSDVQAQSIVDMQLRRLTGLEREKLDNEYNDLLKMISELESLLNDPDKILEEIKNETLGLKEKYGDKRKTKIHKQELGEWNREDVEPHEEMVVTLSLNGYLKRVSTDSFKRQHRGGKGVKGQRMTQEEDVTPYLQVCDTHDSLLFFTDRGRVFSTRVFDLPANQSRTSRGAPVANIISLEPREKVNAILAVPKLDQKIKSYIVLSTRTGLIKRMEVSQLKNLRKSGLNAFKLKNDDELVSVRLAIPDNTSEESLYPDVIMVTEMGQAIRFPLEEIKSRLRNAGGVRGINLKKGDKVVVMDLARPEDSLLIASQKGFGKLSDMRYYTRQRRGGKGNLTLRITPKNGKVASAQVVGQESDVYLLTEKAVVQEIPLGEISRYGRVTQGSTLMKLNARDKIASIRAVSPLKVEQPKK;locus_tag=LOCUS_1500;gene=gyrA;EC_number=5.6.2.2;note=WP_010963336.1 DNA gyrase subunit A (Clostridium) [pid:49.0%25%2C q_cov:99.2%25%2C s_cov:97.3%25%2C Eval:1.9e-227],MGA_152
sequence02	MetaGeneAnnotator	CDS	10764	11249	.	+	0	ID=MGA_153;product=flavin reductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257236.1;translation=MKKVKNLDDQLTLRECWGRFTTGVSIITTRLDNKKIHGMTANGILSVSLNPPIVLVSIGIERNTHDFIKKKKSFGISVLNSSQKEIAEYFSKDNILGENFFDYKEMPLGELVICKSIAQFECNLFKEIKIFDHTLFLATIDNFDFSEGDPLIWLDSKYKKI;locus_tag=LOCUS_1510;note=WP_012257236.1 flavin reductase family protein (Chloroflexus aurantiacus) [pid:34.8%25%2C q_cov:95.0%25%2C s_cov:89.8%25%2C Eval:3.2e-19],MGA_153
sequence02	MetaGeneAnnotator	CDS	11375	11785	.	+	0	ID=MGA_154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDYAIIKTGGKQYAVTPGRKVKIEKIEGSSGDKVNFDQVLLTSLDGKISIGSPNVKNATVIGEIQDQVKNDKVTTFKYHNKTRYRVRRGHRQLMTDVLIKDIENSISTKKVKKDSKKSTVKSSKTNTKKTSESRK;locus_tag=LOCUS_1520;note=WP_002551971.1 50S ribosomal protein L21 (Pseudomonas) [pid:44.6%25%2C q_cov:74.3%25%2C s_cov:98.1%25%2C Eval:2.1e-19%2C partial hit],MGA_154
sequence02	MetaGeneAnnotator	CDS	11788	12057	.	+	0	ID=MGA_155;product=50S ribosomal protein L27;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000940618.1;translation=MAHKKGSGTSRNGRDSAGKRLGVKEYAGTFVTAGSILVRQRGTPIKPGLNVGVGRDHTLYALKDGTVKFDFGSKSHKRVNIEPLKNNKN;locus_tag=LOCUS_1530;gene=rpmA;note=WP_000940618.1 50S ribosomal protein L27 (Bacteria) [pid:60.5%25%2C q_cov:91.0%25%2C s_cov:92.0%25%2C Eval:4.8e-24],MGA_155
sequence02	MetaGeneAnnotator	CDS	12066	12272	.	+	0	ID=MGA_156;product=50S ribosomal protein L31;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966172.1;translation=MKSEIHPKYFPNAVITCSCGEKWTLGSTKSELSVELCSKCHPYFTGEQRIVDTEGRVERFKRRFKLDE;locus_tag=LOCUS_1540;gene=rpmE;note=WP_010966172.1 50S ribosomal protein L31 (Clostridium) [pid:54.5%25%2C q_cov:97.1%25%2C s_cov:94.3%25%2C Eval:7.9e-19],MGA_156
sequence02	MetaGeneAnnotator	CDS	12279	13157	.	+	0	ID=MGA_157;product=DUF1385 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583169.1;translation=MSSKFGGQALIEGIMIRGALRAAVVIRKEDGTFVERTYDTSPWAIGKIRNVPILRGLVVLIDTLVIGTKALNFSAYVSSEDMDVELYEEKKQSPWAVIPVVIFSFVFAIGIFFIVPILISNVFEGFGLNTLITNAIEGILRLLFLIGYIWLISLSKEIQRVFQYHGAEHMAVAAFEHDENLEIEELKKYPTEHPRCGTSFLITIFVIALIIFMFFPREPLWFLITSRLILIPLLVAISYEIIRFSGSNENSFLFKIISWPGIFLQKITTKKPNDDQLELAIHCMKLAIKENK;locus_tag=LOCUS_1550;note=WP_012583169.1 DUF1385 domain-containing protein (Dictyoglomus turgidum) [pid:39.9%25%2C q_cov:97.9%25%2C s_cov:94.9%25%2C Eval:8.3e-58],MGA_157
sequence02	MetaGeneAnnotator	CDS	13164	13802	.	-	0	ID=MGA_158;product=bifunctional phosphoribosyl-AMP cyclohydrolase/phosphoribosyl-ATP diphosphatase HisIE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003243045.1;translation=MNNQDQKLIPAIIQDHSSKEILMLGYMNIEAINKTIEGPNVWFYSRSRNSLWEKGETSGNYLKFISMEIDCDQDTLLIQAIPNGPTCHTGKISCFEKLEKTNQRNLENNLKNPKKSKVEIIYELFKIIQDRQINPQKKSYTSELFVEGPEKISKKIIEESSETIIEFLDTERTTNELLINEISDLLYHLLVLIQAANIELDEVFEELSNRRK;locus_tag=LOCUS_1560;gene=hisIE;EC_number=3.5.4.19%3B 3.6.1.31;note=WP_003243045.1 bifunctional phosphoribosyl-AMP cyclohydrolase/phosphoribosyl-ATP diphosphatase HisIE (Bacillus) [pid:44.3%25%2C q_cov:95.8%25%2C s_cov:90.9%25%2C Eval:3.0e-39],MGA_158
sequence02	MetaGeneAnnotator	CDS	13795	14577	.	-	0	ID=MGA_159;product=HAD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722832.1;translation=MEIIKFNNPKIIIFDCFDTLVSNSIEEWKNAFKLICIKFKLPISPEKFWETWKNHELLFRETRIRKFETKDPLLNEFITKKPFKTYAQAWKECLKISVSKLNIKINIEESLEILLNQHSKRKIFKETKFVLEELKKEYKIFIISNADDCFLYPCIQSLNIPQSDIFSSERSKLYKPDKRIFQNMLSKVGIKPEEAWYVGDNYFDDVIGSYLADLNPIWINRNNLVKNHKYKIDNLIEIQNLTELIVILNNNSKKWRIINE;locus_tag=LOCUS_1570;note=WP_003722832.1 HAD family hydrolase (Listeria monocytogenes) [pid:24.9%25%2C q_cov:91.2%25%2C s_cov:97.0%25%2C Eval:2.0e-09],MGA_159
sequence02	MetaGeneAnnotator	CDS	14586	15344	.	-	0	ID=MGA_160;product=imidazole glycerol phosphate synthase subunit HisF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880065.1;translation=MLTKRIIPCLDIDKGRVVKGTSFLSLKDAGDPRELSNFYNNQGADELVFLDITASSEHRNIILDVVEKVSSEVFIPLTVGGGIRNLDDIRNLLNSGADKVSINTSAIENPDIIRKSSEEFGSQCIVVAIDAKRNNNSWSVFTHGGRVLTELDAIEWAEKVNSLGAGELLITSMDEDGQQKGYDIDLLKSIQKKVNIPIIASGGAGNLKHMLEALTIGKSDAVLAASIFHYGKYSIKEVKDYLNSENVPIRLI;locus_tag=LOCUS_1580;gene=hisF;EC_number=4.3.2.10;note=WP_010880065.1 imidazole glycerol phosphate synthase subunit HisF (Aquifex aeolicus) [pid:61.6%25%2C q_cov:99.2%25%2C s_cov:98.8%25%2C Eval:7.9e-88],MGA_160
sequence02	MetaGeneAnnotator	CDS	15358	16080	.	-	0	ID=MGA_161;product=1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012897810.1;translation=MEIIPAIDLINGEVVRLHKGKYEDKTIFSNNPLEIASNWEDLGAQKLHIVDLDGALSGNIENLKVIKEIKNITNLSIQVGGGIRDFNSANHLLEDIGIQRIIFGTTAVENPNEIKKSIKQFGNQRIIVSLDSKGNFISIKGWTEDYKITIEDFLESMKNIGVKNFIFTDITKDGTLEHPNYKKINIMKNLIPSGLTIAGGISDIQDIIELDKLGIEKVIIGKAIYTNNINLKKAISLFDN;locus_tag=LOCUS_1590;gene=hisA;EC_number=5.3.1.16;note=WP_012897810.1 1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide isomerase (Lactococcus) [pid:46.4%25%2C q_cov:97.1%25%2C s_cov:97.5%25%2C Eval:1.1e-56],MGA_161
sequence02	MetaGeneAnnotator	CDS	16084	16722	.	-	0	ID=MGA_162;product=imidazole glycerol phosphate synthase subunit HisH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011125292.1;translation=MNNQKIAVIDHKCANLHSVIKALEIFKIDVKICTSKTELKDIDGIILPGVGSFDPAMKNLIKQDLVDSIKNLTFSGTPLLGICLGMQLLMENSEEGSLNGIGLINGTAKMIESNEEDIKIPHMGWNNIEINDNNNSRILNGIKNNDYFYFVHSYKCIPTNNSEVAAFTKYGQKICAVIEKNNVFATQFHPEKSGIVGLKIYQNFLSFIEIGK;locus_tag=LOCUS_1600;gene=hisH;EC_number=4.3.2.10;note=WP_011125292.1 imidazole glycerol phosphate synthase subunit HisH (Prochlorococcus) [pid:42.0%25%2C q_cov:96.2%25%2C s_cov:94.8%25%2C Eval:2.2e-42],MGA_162
sequence02	MetaGeneAnnotator	CDS	16725	17288	.	-	0	ID=MGA_163;product=cob(I)yrinic acid a%2Cc-diamide adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064240066.1;translation=MVKIYTKSGDNGKTNLLFGGNTSKSDLRVETYGTVDEAVSFLGLAKSLIANNDIRKIIEDLQHSLFIIGAELATTPQNKKKLNDQVKTITTDMVNNLESLIDNINEKINLGDKFIMPGNSVGSAAIDVARTVVRRLERRIVELIGSDNSINSNIIPYVNRASDLLFILGRFEDNDKAIKEITDLRKS;locus_tag=LOCUS_1610;EC_number=2.5.1.17;note=WP_064240066.1 cob(I)yrinic acid a%2Cc-diamide adenosyltransferase (Ensifer glycinis) [pid:37.4%25%2C q_cov:92.0%25%2C s_cov:90.1%25%2C Eval:5.4e-25],MGA_163
sequence02	MetaGeneAnnotator	CDS	17391	17735	.	+	0	ID=MGA_164;product=iron-sulfur cluster assembly accessory protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964483.1;translation=MSQIPINTIEITERAASKVRKFAENEGKKPFALKVAVKGGGCSGLTYDLEIVDTPAENEKIIKQHGVEIRIPKKSFIFLAGTILDFSDGLNGKGFLFSNPNAKKSCGCGTSFSV;locus_tag=LOCUS_1620;note=WP_011964483.1 iron-sulfur cluster assembly accessory protein (Flavobacterium psychrophilum) [pid:48.1%25%2C q_cov:93.0%25%2C s_cov:99.1%25%2C Eval:2.6e-25],MGA_164
sequence02	MetaGeneAnnotator	CDS	17738	18568	.	+	0	ID=MGA_165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSETFFVDFNRVKFLFQKGSDALDLLDRLSTNSVLELSEKGIKTTIVTDEKAKIIDVLNVWKINNNKLLLESNIENINKLISWINKFTIEEDSLIQKQEDFFKISIIGNDLNKLYEFIPLLKNTKKGNFIEFTISSKRFLIGKHELFNGLESIDFICLDGILSRERLKKMLFNIDIPEKTQEDFELFRIKNLIPKSGSEITDSYNPLDLGLERFIDFSKGCYVGQEVVARLDTYKKVQNIMHMIKVDDIDSNMRGTKITSSSGGYAIAISKKKFV;locus_tag=LOCUS_1630;note=WP_011057784.1 folate-binding protein YgfZ (Thermosynechococcus vestitus) [pid:45.2%25%2C q_cov:22.5%25%2C s_cov:19.8%25%2C Eval:7.6e-10%2C partial hit],MGA_165
sequence02	MetaGeneAnnotator	CDS	18598	19356	.	-	0	ID=MGA_166;product=enoyl-[acyl-carrier-protein] reductase FabL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723876.1;translation=MDKLNQKFALVTGGSRGIGKAICLDLVKQGFNVAFTYFRNSNIAKKTLTELKKEKKECFSIKTHLGKEKDIEILFEKINNKFGKLDVLVNNAATGINVKSEELSPKHWDWVMNTNAKGPWISSIFASKLMKNGGSIINISSPGSQKVLSNYFSVGVSKSALESVTRYLSIELADKNIRVNTISPGIIKTDALNAFPSDSEINILANRTPPSGKSLETTDVAKLVTFLCSEDSYMIRGQNIIIDGGETLLPRI;locus_tag=LOCUS_1640;gene=fabL;EC_number=1.3.1.104;note=WP_003723876.1 enoyl-[acyl-carrier-protein] reductase FabL (Listeria monocytogenes) [pid:44.5%25%2C q_cov:96.4%25%2C s_cov:98.8%25%2C Eval:2.2e-53],MGA_166
sequence02	MetaGeneAnnotator	CDS	19363	20100	.	-	0	ID=MGA_167;product=3-oxoacyl-[acyl-carrier-protein] reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583308.1;translation=MTQKHALITGASRGIGAAIAKSLANDGHSISINYNNHKEDDEKVVGEIKDIGGKADCFQANISDKKDVEKLISNSKNKFGNIDILVNNAGIISDNLLMRMKDEDFDKVIDTNLRGTFYCTRLCVPDMVKQRWGRIINITSVVGLRGNIGQTNYSASKGAIHSFTMSLAKELATRGVTVNAIAPGYITTATVDVLSEKLKDTIMTWIPMKRFGKPEEIAGIASFIASEKSTYMTGEIIKIDGGMAI;locus_tag=LOCUS_1650;gene=fabG;EC_number=1.1.1.100;note=WP_012583308.1 3-oxoacyl-[acyl-carrier-protein] reductase (Dictyoglomus turgidum) [pid:52.1%25%2C q_cov:98.0%25%2C s_cov:97.6%25%2C Eval:1.6e-69],MGA_167
sequence02	MetaGeneAnnotator	CDS	20109	21119	.	-	0	ID=MGA_168;product=phosphate acyltransferase PlsX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003428446.1;translation=MNQKEVTIALDGMGGDFAPYNNIKGALIASKQSNVNILLVGDPNILKREIENQKIDSQKIKIIPSSGVVEEGEPPGMAFKNKPEASVFVCAGLVKKGLADGFVSCGASGGTFASAAFAFGMFEGLSKPAGGGAVNGFAPKTLILDLALNVDCSPKQLFDFAALGVTQAKILYDIENPTVAILSNGSEKGKGNKSTKETSELLESSNMNFVGNIEGDDISEGKANVVVCDGFTGNILLKSIEGLGKIITEFISKESKSDQLKDISNEIFRLTHIMQEFGGGPIFGVNGIAIVGHGKSNAQAISNGIGTAAMLARKNYIQESKKQLSELRSSIKSNKL;locus_tag=LOCUS_1660;gene=plsX;EC_number=2.3.1.274;note=WP_003428446.1 phosphate acyltransferase PlsX (Clostridioides difficile) [pid:33.5%25%2C q_cov:97.6%25%2C s_cov:98.8%25%2C Eval:3.6e-55],MGA_168
sequence02	MetaGeneAnnotator	CDS	21116	21520	.	-	0	ID=MGA_169;product=MaoC/PaaZ C-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_202318983.1;translation=MSENKKLLSVIHQVTDSQVVNYSKTSGDINPIHLDSSYAKNTQFGERIAHGMLIISFISDFMYKNFKETWLYTGSLKIKFKSPVFLNDEISTQGTIKNMEKKSNFTKITCSVNCTKQDGEEVISGISTVNLEDI;locus_tag=LOCUS_1670;note=WP_202318983.1 MaoC/PaaZ C-terminal domain-containing protein (Archaeoglobus neptunius) [pid:33.1%25%2C q_cov:94.8%25%2C s_cov:89.0%25%2C Eval:2.8e-16],MGA_169
sequence02	MetaGeneAnnotator	CDS	21988	22791	.	+	0	ID=MGA_170;product=3-oxoacyl-[acyl-carrier-protein] reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082240.1;translation=MKREKRRTAVVTGGATGIGEAITMKLSNEGFNVVVADLNKEKGLEISQKTDSQSGDIAFCETDVTNQKSIKNLLDFSFSNFDNLNILINNAGVAGAKGWEHESVSREEDWEASWKVNVLGLINVTTEFLPELQNNNDSRIVNIASVSGRQGRPSLPHYSSTKAAVINFTKSLDKRLKNNDITINTVCPGLLWTPMWEQVGLKYSNTQEKYKGFNAREVFDDMVQGSIPLGREQTPQDVANLVYFFTSPESAGFSGQAVNVDGGFFLN;locus_tag=LOCUS_1680;gene=fabG;EC_number=1.1.1.100;note=WP_004082240.1 3-oxoacyl-[acyl-carrier-protein] reductase (Thermotoga maritima) [pid:31.9%25%2C q_cov:95.1%25%2C s_cov:95.5%25%2C Eval:1.0e-32],MGA_170
sequence02	MetaGeneAnnotator	CDS	22793	23347	.	+	0	ID=MGA_171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRMIQIDKENMSSDLILLYNSKFVEKIQKTLLQKYIKNHLNHIEEPIISNLDNQKENLIIIVDFEKEVQLDSEFIQLKYFRDILENLDKNTNYKNIVTIISEIGVLGDEIHYFRALQYAAVINIAQAYALRLGSLKIRLNNICVPENFELLEKSTLISLVKFLLSQESMNITGQTLSLSRELLR;locus_tag=LOCUS_1690;note=MGA_171
sequence02	MetaGeneAnnotator	CDS	23350	23925	.	-	0	ID=MGA_172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQENKKFLLISMPIVLIFLSFFIFILIWSTISTGGQHGQPGLNEFFSETNLRIDPYTKFEINTFSHGIISSENIEGKLLMIDFWASWCPPCIKEGPVLSEAYRKWSEKGINFVGVSLWDSEKNILSFQERFSINYPLSIDTNGEMAINFGVRALPEKFFIDQNGKIIKKVIGPVSEYQLNKILEELISEK;locus_tag=LOCUS_1700;note=WP_011228871.1 TlpA disulfide reductase family protein (Thermus thermophilus) [pid:35.7%25%2C q_cov:58.6%25%2C s_cov:63.1%25%2C Eval:6.1e-19%2C partial hit],MGA_172
sequence02	MetaGeneAnnotator	CDS	23934	25088	.	-	0	ID=MGA_173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFITLIFLFTLLPHGYILADEKTITISGRVQNKTENFDSSKEYIIKLFKIINNSEEIIEISNTKTNQYQFSFSNLTITDTDEYFLVTENEGLSVITELNLQQQWDNLIIEIYDKGTNLDDIKISEYSLMIPQNSLINGEVSVLVLITLENLGDKTFQTDLSKPNLSGFDLLRFSLPEGYSNLNVDSDLPPGNIMEIPTGFALSNAIPPGIHQIIFSYSHQITNSKFSFKLKLPFGADKVRILMNVPEGIIKGEGLKQLEKIKIDQDFYTISEGTNYERNSSIELELSPFSKTKTFRSIFTFFETNLYKIIIIIVISLMLLFLIIYSIISNIKNDKNDDLSQERKRLILKIDQLKKSLESGIINEEEYAILEKGFQEKLKQL;locus_tag=LOCUS_1710;note=MGA_173
sequence02	MetaGeneAnnotator	CDS	25085	25330	.	-	0	ID=MGA_174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIFIGTIIAIICVLILSLPIFNKKILSKEIENEILLSKNRLEPKNVILNQVKSDYEAGYISNENFKELNSEINENNDIKK;locus_tag=LOCUS_1720;note=MGA_174
sequence02	MetaGeneAnnotator	CDS	25338	27308	.	-	0	ID=MGA_175;product=cytochrome c biogenesis protein CcsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000997623.1;translation=MGILGTFCITISFILSIYSILGFLISMNFKTEELKISARWSSYLTLPIISIAFSILVYSFVTHDFSIKYVFNHSNLAMEPIYTWVAIYAGNEGSLLYISAVISIGSFLTIKSLQKRIPESVPHITMIMMGILSFFLGVMLFLADPFTLLEFQAEDGRGINPLLKHPGMFTHPPLLMAGLATISIPFAITTGMLISGNYSDKGTEFVRITTLIIWLMLGIGLLLGSWWAYTILGWGGYWAWDPIENVGLMPWLVLTALIHSLIVQRRRGMFRLWNLVLINIAFVLSQFGMFINRGGPVVSVHSFAASTLGYIFLSFMILSIIFPSIIFLWKYKELINSRKIDSFLSKESSFLINNFLLLAITFVTLWGLVFPLFSELFGKEPVTVGTPYYNSVNGPLLLILILLMSIGPILPWKEGTIKSFFKNIRFPLMIFVLCIIICLIFFSSNFLAILAFSSLSLVLATILQEWIIGTKNRIKRFQENIFIAFIKLINGNRTKHGGYIVHLSILMLAMGIIGTNFYQEKADYVISKDKLLDFHSYQIELSETETKNFQDRIERKAKFNIYQKQNNSEKDLKKITELEGSNAIYPSFNMASVRAAIHSTILGDLYIVPSEFISEDELLIRISINPFISWLWFAGPIFFIGAIFTLWPRTEKNTKL;locus_tag=LOCUS_1730;gene=ccsA;note=WP_000997623.1 cytochrome c biogenesis protein CcsA (Leptospira interrogans) [pid:31.7%25%2C q_cov:92.5%25%2C s_cov:88.5%25%2C Eval:3.5e-85],MGA_175
sequence02	MetaGeneAnnotator	CDS	27310	27720	.	-	0	ID=MGA_176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKIKIMPYLKSILLCSXIPFSIFCSNQINDDENRAQYLFENIMCPVCDGQTISESQSQLAKNMRDIVRIKIEEGSTDDQILDYFKSKYGTSVLSNPPKSGFYFTVWLVPIIVLPSIFIGLLFLIRSLINPKKEN;locus_tag=LOCUS_1740;note=MGA_176
sequence02	MetaGeneAnnotator	CDS	27774	28388	.	-	0	ID=MGA_177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNSVKINILIILLTGLFSLAPTCQSGITQSTTYPIELFSEMHYSPAYKSQETPRLKPVAEAVVNLDPIGTENQYDMTIEKFKYDYESGENLYRVNCSFCHGNEGLGDGPAKEYIISENSYYSTNKVEGLPGSGSGTPYISPPQLNDIEERYGNRDSAYNRIYQMLNSEIGFGPMPGFLRVLSEEERKQIIEFILDKDNGLNK;locus_tag=LOCUS_1750;note=MGA_177
sequence02	MetaGeneAnnotator	CDS	28398	28904	.	-	0	ID=MGA_178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKSILGLFDTPDQGADALDGLHNAGFESHECDVLTGTPYPEGTFGEHVPQHRLFRFPLFGAIIGLTLSIFITTATQIAYPLVTGGKPILSIFAMLIIMYEMTMLSAVVTTVVGIIFESRLPKFNLGAYDTRITEGLIGVVVNCEEKDLPKAKKVFKDSGALDTKEA;locus_tag=LOCUS_1760;note=MGA_178
sequence02	MetaGeneAnnotator	CDS	28920	30299	.	-	0	ID=MGA_179;product=polysulfide reductase NrfD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256519.1;translation=MQQRRKLSQKQINQELLSGNLKTPKWYIPTMLFLGFFVVTGFAVILYMFNTGLGVTGLSRPVYWGLFITTFVFWVGISHAGIMISAILRLTQAEWRRPVTRAAELLTVFSLLTALFFPLMHAGRPWRIVYWLMPYDFARGIWPNIRSPLFWDPIAIGTYLTGSTLFLYVALIPDLAVLRDRTTGWQKVIYTILALGWRGNPRQWLLQTVAGILLSALMLPIFVSVHSIVSWDFAITPSVEGWHSTIFAPYFVIGAVHSGVSAVVTMMALMRWLWKWNNHIRPEHFDALARLLIVVATAWLGCTFLELIFSVYGREAPEIALRELQIFTWPWNLLFMIFLFTGYIIPVGFWVFKKARNNIVIMFWTSILVNVGMWLERFLIIVPGLARKQPFTFTWEAYTPSLVEWYILVWSFAWVSFLMLLFARFFPLIPLFETKESQVFTSETKIGRATVPVIYREED;locus_tag=LOCUS_1770;gene=nrfD;note=WP_012256519.1 polysulfide reductase NrfD (Chloroflexus aurantiacus) [pid:40.6%25%2C q_cov:91.3%25%2C s_cov:85.4%25%2C Eval:8.7e-85],MGA_179
sequence02	MetaGeneAnnotator	CDS	30313	31692	.	-	0	ID=MGA_180;product=polysulfide reductase NrfD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228899.1;translation=MATQTNIAKYSKATSELIXTTTIAPKKXKXIIMILSILSILGIVGIVLKILNGFEDKSAWGYYAATISFLLTTAAAAPMVAIAPTIAKADWVRPITRIASLFSVVGIVTALASIPLIFALPPLIVDETRRRSIWFEATNYSPHVWFALSIFGLTLCGLGLLYSSSIPDLAAMRDHGTGWRKKMGKSLSRGFIGTDGQWKSLKMRIGMMGTFYFLMLMFVNFLFSIDFALSLVAGWKDAIFPMYHAMTSLQSGIAICILAMFFARKYWGMENYIKVPQFWALSKLQLATTVLWFYFFYSAFIVFWYGRSASDQMVINLLIIGPYLPVFLGAFFLEFFVPWWILVWNPVRKSIPALAVVACLVLVGVLLDRIRIFVISWSTYSNEVIHKKFVPEENFPQFMAPSVADIIVFIGLVSLSALIFILSTRIFPLVSVWETHQSLLLTKVVKYVRTHVIAIGKPD;locus_tag=LOCUS_1780;gene=nrfD;note=WP_011228899.1 polysulfide reductase NrfD (Thermus thermophilus) [pid:23.8%25%2C q_cov:83.2%25%2C s_cov:83.0%25%2C Eval:8.5e-24],MGA_180
sequence02	MetaGeneAnnotator	CDS	31695	32447	.	-	0	ID=MGA_181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTENKESKFKWGMAVDIDKCTGCQACVLACQSENNIPINTEKNFKNARAIEWIRVERYWEGEFPDVKAKFIPILCQHCDNAPCEPVCPVYATYHTTEGLNVQVYNRCVGTRYCANGCPYLVRFFNYWEPEWPESLKNHLNPDVTVRSRGIMEKCTMCIQRIRRTTRNAKKNDEELKDGDISPACVDACPTDALVFGNQKDENSRVTQMKNDKRSYTLLDNLQTSPNIFYLAKIDHDKEESXHHEEGXHH;locus_tag=LOCUS_1790;note=WP_164922552.1 TAT-variant-translocated molybdopterin oxidoreductase (Rhodopirellula baltica) [pid:47.5%25%2C q_cov:93.2%25%2C s_cov:22.3%25%2C Eval:2.1e-64%2C partial hit],MGA_181
sequence02	MetaGeneAnnotator	CDS	32455	34842	.	-	0	ID=MGA_182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSLEKKNSVTKSKLSRRKFLGLLGATATGAVIFEACGVPEEELIVESPLDMPEDLVRGEDQWYATSCGISNYGESVLVRVMEGRAKKIAGNPDFPNSLGKQSVVSETNLQMLYHPDRITTPLYRKTKTGAHKPITWSSAISXLXKGINESKGKSTLITRPLRGLNAGLXESFSNFNSMKHLKFDSINNGLMNKTMKSVFDQDRLPYFDIGNSDLIISFGLDFLGTWGPVQYKTKFGKLKQNHGKLISIEPRMSLTSANADKWICPIPGTEMIFALGVAKHILSDNLFSSADAEKEFKNLIGDIDLSTFTDEYVTQNTGLKVKDIEYVINKIKESKGKILFLGGGPLEGYKNSLESMSIVFALNYLTNSVGSKGGIIFNPETPIKEFKVSEEGPSINIIDSSYANNLQEWKEETLKWESGETNLLILRGSNIIHGIPYDLTNALDSXKLKVCFSSILDDTAEASDLILPEHNSLEDWGVDIPEPLMGYQTXLFQQPVVNSPTKGKESKPIYDSKSFYDVLISLSDPMLGIKNYKELIEKFTSKLYSTTTSNRQGSVIASNEKQFLEGVLSRGGWWNINTKINNYDYVSNQXLNSIKVSNNNVFNDLSNKEFYLVPFLSNTILDGITAASPWAQGIPDPITTIAWDTWAEINPKTAEKLNLEQGDIIELISSTGKIKLPVFPHPAVHPKVIGVPIGLGHKFSGRYAAGKGVNVLKLCHTKLDHSQTFSWAENTVKIKKTQDSKTIAKFEGTLPGGAVAVEPGVPILTVGPNQTADDALHEAHEEHMEETFKDKNIK;locus_tag=LOCUS_1800;note=WP_011461961.1 molybdopterin-dependent oxidoreductase (Desulfitobacterium hafniense) [pid:24.6%25%2C q_cov:59.2%25%2C s_cov:65.5%25%2C Eval:1.3e-20%2C partial hit],MGA_182
sequence02	MetaGeneAnnotator	CDS	34830	35603	.	-	0	ID=MGA_183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKFIEFLKEKDRNTPTWLKILMPVLAFGGLAFHAVMAFVTAFLITAWFGNPLPVFGFNQSPDQPIAFPHTIHAGVGKLIDQKTGKPYKDIYGNERVNDSGEPQTGLGMDCTYCHKTVTKEAWAGIPPVELCISCHKVIGSDKSQELTKLREYGLFEKTKAPIKWKRVHXMPDHVRFVHEPHIRYLTSNPDAIQNKSADFKILGDGTVEASQVCSNCHGQISNMEKVAQKEPLKMGQCVACHRANEASIGCETCHH;locus_tag=LOCUS_1810;note=WP_012256517.1 cytochrome c3 family protein (Chloroflexus aurantiacus) [pid:30.9%25%2C q_cov:73.2%25%2C s_cov:58.9%25%2C Eval:5.8e-17%2C partial hit],MGA_183
sequence02	MetaGeneAnnotator	CDS	35612	35902	.	-	0	ID=MGA_184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDPGSLNIADWLMRLTALRILWICLLMAPAAAVSLLVAHAIIPSAVDSHHLSRKWVIIRAPLYLFGFGTLFLEIILFIYAFANMTFLSEFYPRFWQ;locus_tag=LOCUS_1820;note=MGA_184
sequence02	MetaGeneAnnotator	CDS	36207	36368	.	+	0	ID=MGA_185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEFDRRKFLKTGFLGLAGLLAVFSTFKPFNLWSKFYGKKNGDSVFVPRDSNH;locus_tag=LOCUS_1830;note=MGA_185
sequence02	MetaGeneAnnotator	CDS	36399	37406	.	+	0	ID=MGA_186;product=thiamine pyrophosphate-dependent dehydrogenase E1 component subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259508.1;translation=MDISKEKLVWLXETMYRIRRFEETMLEQTFKGNAMGVTHSSDGQEAGPTGVCAHLTEKDWIGSTHRGHGHCIAKELDTKKMMAEIMGRATGHCKGKGGSMHIADFSKGMLGANAIVGASIPLAVGAALTAKYKGLEKESIGVAFFGDGATSQGILHESMNLATVWKLPVIFVCENNHYAEATPVEYAVSIPDIADRASSYSMPGVVVDGMDVFAVYDAAGEAVKRARNGDGPTLLELKTYRYHGHFHADVPENYRTKEEESDWKDRDSIETFQDRVIKANQLTDKELKEIRDNIDNEMIEAVDFALNSPMPDMDELYKDVYVNYPNSVLAPQQRD;locus_tag=LOCUS_1840;note=WP_012259508.1 thiamine pyrophosphate-dependent dehydrogenase E1 component subunit alpha (Chloroflexus aurantiacus) [pid:55.0%25%2C q_cov:99.4%25%2C s_cov:97.6%25%2C Eval:1.3e-97],MGA_186
sequence02	MetaGeneAnnotator	CDS	37441	38514	.	+	0	ID=MGA_187;product=alpha-ketoacid dehydrogenase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259507.1;translation=MTTQEDTKNPLGPGYDVSGSEMRYRDSFNKTLRDELNRDPDVFLMGEDIAGGAGRFDEEGKPLDAWGGPFAATKGLIQDFGPDRIKDTPISEAGFLGAAIGSALTGLRPVVDLMYFDFVTVAYDQLLSNAAKSRYMFAGQTKVPLTMFARSGGGTGHAAQHSESFYSMLAHIPGLKVVVPSDAYSVRGLLAAAIRDDDPVFVVSDKKLINLSGFVPDENFAIELGKGRYLRKGSDVTLVGMSYTSVLCKEAAEKLAEEGIDCEVVDLLSLSPLDENILIESVSKTNRLIVVDEDTPRCSMASEVAAIVADQAFDYLDAPIKRVTGPHTPVPYNKALETAFMPDTNEVILATKKLLDI;locus_tag=LOCUS_1850;note=WP_012259507.1 alpha-ketoacid dehydrogenase subunit beta (Chloroflexus aurantiacus) [pid:50.5%25%2C q_cov:92.7%25%2C s_cov:95.6%25%2C Eval:4.3e-94],MGA_187
sequence02	MetaGeneAnnotator	CDS	38546	39619	.	+	0	ID=MGA_188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLLKVGYIGAGANTVKHHIPKIQSQDGVEAFGVSNRSIESSKRVAEKFGINKIYSNWRELLNDDEIDAVCIGTWPYMHSXLTIESLKAGKHVLVEARMAMNSKEAKEMEKISKQNPQLVTQVVPAPHTLPYDLTIIXWINNEMGDLLFLDMRINSGEFPEFNSEIHWRNNRDLSGNNIMHMGIWYEAAMRWLGPASSVNASAQVVVKRMKEEANFREISIPDHLEIIGSMTVGGKYHFTHSNVLGGAPIADVWIYGTKGTLHFYDNQLSSEASSDNSFAMELEVTKPQSKMKWEKLNINSNNVGSWRVEEEFVNAIRGKEDITHTSFKDGVKYMEFTDAVRMSWENTREVTLPLH;locus_tag=LOCUS_1860;note=WP_012774928.1 Gfo/Idh/MocA family oxidoreductase (Streptococcus suis) [pid:25.4%25%2C q_cov:54.1%25%2C s_cov:58.1%25%2C Eval:8.0e-16%2C partial hit],MGA_188
sequence02	MetaGeneAnnotator	CDS	39630	40394	.	+	0	ID=MGA_189;product=5-oxoprolinase subunit PxpA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249291.1;translation=MGIIDLNADVGESFGNMTSGLDNEIVPFVTSVNIATGFHSGDPNWIYKTVKLAENSNVSIGAHPSYPDLMGFGRRDMSFDDWEIVNLIKYQVGALLQFTRDKKIQHVKPHGALYNKASRDEKEARAVVQAIKEIDPEIIHVVLSGSIWEEVAKESGVRIAREAFADRAITSDGKLVSRNVKGSVITQEEEIVKRVIKLAKTGTMDSIDGDSVEISAETLCLHGDNKSSVGLASVIRKELERSGIXLSPMHTFVK;locus_tag=LOCUS_1870;note=WP_011249291.1 5-oxoprolinase subunit PxpA (Thermococcus kodakarensis) [pid:50.6%25%2C q_cov:98.8%25%2C s_cov:99.2%25%2C Eval:5.4e-68],MGA_189
sequence02	MetaGeneAnnotator	CDS	40402	41136	.	+	0	ID=MGA_190;product=5-oxoprolinase subunit PxpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868109.1;translation=MNSFLIKNIGDRSISVYFENIISPEINLNIHEIVERINKDKQSWLVDVVPTYNSFSVVFDINLTKSQEVKNYISEVLISKKNQEFVNENQTIINIPVKYGGEEGPDLEDVANYCNLSSDEIVKIHSSTLYLVYMTGFSPGFPYLGELDKRIHCPRLKKPRTRVSSGSVGLAGSQTGIYSIDSPGGWRIIGKTPMKLFDLKKKNPFPIIPGMKVKFFSVDLKEYTNIEKRIIEEKDFLGFEINND;locus_tag=LOCUS_1880;gene=pxpB;EC_number=3.5.2.9;note=WP_010868109.1 5-oxoprolinase subunit PxpB (Pyrococcus abyssi) [pid:47.1%25%2C q_cov:92.2%25%2C s_cov:98.2%25%2C Eval:6.4e-55],MGA_190
sequence02	MetaGeneAnnotator	CDS	41129	42220	.	+	0	ID=MGA_191;product=biotin-dependent carboxyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016387.1;translation=MTNNCFKVLDGGFLTTIQDLGRFGFASRGVSKSGPSDLNSFKIANLLLENNINSLTLEVSYGLAKFLILKPITISITGANLNPLLNDNKIPMWRTLNVEKNDILSFGSSNIGFRSYVGVAGGINVPLVLGSGATHLASGLGGFSGEKLSKDDLISSYPLKDKKKMFMYIGKKNEGSKNIKLRVISGPQEDLFSSKVVDRFYSETFKATEKLDRIGVTLEGSTIPTHSGNHDIISDFTPEGSIQIPGNGKPLILLSDCQTTGGYPKIGVVASIDLPKLGQIGANDSIEFEKITVEDAERLYKIQNEEVSKKNISEIVIKEYSIGIIDSKYHVKLYKNDHKDSEDFQITVNGKYVEIEEVIDSFH;locus_tag=LOCUS_1890;note=WP_011016387.1 biotin-dependent carboxyltransferase family protein (Fusobacterium nucleatum) [pid:40.7%25%2C q_cov:81.3%25%2C s_cov:87.8%25%2C Eval:1.5e-57],MGA_191
sequence02	MetaGeneAnnotator	CDS	42239	42601	.	+	0	ID=MGA_192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFKLIQDGXNISAIGLGFVFLVLFILTFFVLLLVKIEDFSEKRKPKNLKNQINEDQENLKNEKNGFYKEIHMAAAVAIALALNEKTIKTKNIVNTNNQASPWTYYSRTRQFFSRMGAKR;locus_tag=LOCUS_1900;note=MGA_192
sequence02	MetaGeneAnnotator	CDS	42598	43065	.	+	0	ID=MGA_193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYNVVINGKSFEVEILDIESGEAKVTVNGVEINADIHENKKFEISDENNKFQVLDKDNEDNIVEEDIQEKSFVPTSHPESVDSDGTIKAMMPGKIINVIVSIGDQVKQGDLVCVMESMKMEQNILADIDGEVLEVNVKPGDSVEHSAVLIKLG;locus_tag=LOCUS_1910;note=WP_004555739.1 acetyl/propionyl/methylcrotonyl-CoA carboxylase subunit alpha (Burkholderia pseudomallei) [pid:45.3%25%2C q_cov:48.4%25%2C s_cov:11.3%25%2C Eval:9.2e-10%2C partial hit],MGA_193
sequence02	MetaGeneAnnotator	CDS	43077	44276	.	+	0	ID=MGA_194;product=sodium ion-translocating decarboxylase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879576.1;translation=MFFWESLLEGIEALWIDPKMIIMWFIAFILLYVGIAKKKEPLLLIPISFGILLANLPLGELIKEGSQGESPGILLFFQKYGLETDLLPLLVFLGLGALTDFSPAISNPKTLILGAGAQVGVFVAMIGSLLLASVGIFDFGLPEAASIGIIGGADGPTTIFISTRMRELGNSLPNVDVQDIVGATAVAAYSYMALVPIIQPPIIKMLTTKSERQIKMEYSSKEVSKRAKILFPIICTLVISILVPKASPLVGVMMFGNLLKESGVVPRLSNTAQNELMNIVIIILGLAVGGTMPGSVFLQWQTIGIFILGLVAFAAATIAGILIAKIMNLFFKNKINPMIGAAGVSAVPMAARVVQEMAEKERPGNFILMHAMGPNVAGVIGTATVAGVLLSVVPKLLGS;locus_tag=LOCUS_1920;note=WP_010879576.1 sodium ion-translocating decarboxylase subunit beta (Archaeoglobus fulgidus) [pid:55.5%25%2C q_cov:93.5%25%2C s_cov:98.6%25%2C Eval:1.6e-103],MGA_194
sequence02	MetaGeneAnnotator	CDS	44304	45194	.	+	0	ID=MGA_195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METKTFFNGVIPILSTPFDEQGKINFRDLTRQVDWNLEVGVHGIGIAMASEIFKLSEQERDQVLSTVVRDVKGKIPVVMNTGAEGTFLSIQYSKKAESLGANALMIRPPILMGVHPSEVNNFFIQIAKAVNVPIFMQDQPDAQISPQMAISLSQEHENLCYVKCETQPTVPRVKETIDKLSSQSKLIVFGGAGGMFMLEEIKAGSVGTMPNGSMSDVLVEIWNLWEQGDRINAEKKFSENTNLLRLSMQSLGIANWLNKYILAKKGVIKNSFPRSPSLKPDHDQFMQIDRLFENSI;locus_tag=LOCUS_1930;note=WP_003086270.1 4-hydroxy-tetrahydrodipicolinate synthase (Pseudomonas) [pid:29.9%25%2C q_cov:61.8%25%2C s_cov:62.7%25%2C Eval:9.8e-14%2C partial hit],MGA_195
sequence02	MetaGeneAnnotator	CDS	45194	46000	.	+	0	ID=MGA_196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIYVLQIIILIIVTGIVGYIGGLVGMPLGPVRLFFFLIFGIPPLVAIGTNLAISFIAVISVIWPHVKNSNIDYKVAFLFGGFSLLGSFLGGLMSENAPMEILIWLIIFFLFISALLILQSVHFKKKRIETTQSIKFFNKNIFKYSFSNFLGMLIGLFGGATGLVLGALRYPILINYLKISARKTSGTNSMINLFVAVFGLSGHGLISGISGNSHFDFKIFMPLAVVVSLTSFWGAKSIGKFSEIFLLKLLYVTLLLMTLVMILRQFF;locus_tag=LOCUS_1940;note=MGA_196
sequence02	MetaGeneAnnotator	CDS	46013	47689	.	+	0	ID=MGA_197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKISGSNLIIKCLKAEGVETIFGIAGDHFLHLLDEMIDHEFNLIDGRHEAASVHMANAYSRLLRRPGVVMSTTPGHANAIAGLANALHSEAPVINIAGSAASTNLGRGAMQEFDQVGTAKPVTKGSWEIQSIERIPEIISLAFRTAMSGRRGPVHITIPEDIQTGMVDEKEFDRYYGNLDSQDYSINCDQKLITKALDILNRAKKPVIIAGAGAGATVNPKILEDFVNISQIPIFTVDHARGLVPDNHEFSCGLGYIPLNKALQRIKESDVVLLLGERLDYRWGYGGNPPFNDSVKQIIIDPDPSLXNRSRKFELVIWSDLGPAINDLCEKSKKYKWNNFDWAKSLKLSLNKYKEEMKKLAIDNNPMHPMLVSKTLSELIDDETIVIMDGGDYCHYFRAYLEANNPNLWLYVSSFGMIGAALPYSIGAQVAFPDKKVICVVGDGSLGFHAMDIDTAVRHQLPITIVVGNNSLWGIDYQIQKGIYGRTVWTELEPTRYDLVASGMGAKSKNVSNFSELKSSLSEALNFNGVSLLNIEVDKVGSPVAEAAISRKFGSHS;locus_tag=LOCUS_1950;note=WP_012257951.1 SDR family NAD(P)-dependent oxidoreductase (Chloroflexus aurantiacus) [pid:30.3%25%2C q_cov:95.7%25%2C s_cov:63.3%25%2C Eval:3.6e-67%2C partial hit],MGA_197
sequence02	MetaGeneAnnotator	CDS	47698	48024	.	+	0	ID=MGA_198;product=cupin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403747.1;translation=MAVYKQSKMNLKELFPGIIVRPVWGEKIMMMLVDIAPNAEVPLHSHPHEQAGRVLSGSFWLSIDGKDFLLQEGDHYVIPSGVMHSAKGIDTPSLALDIFNPPREEYKF;locus_tag=LOCUS_1960;note=WP_011403747.1 cupin domain-containing protein (Salinibacter) [pid:35.5%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:2.7e-11],MGA_198
sequence02	MetaGeneAnnotator	CDS	48026	48460	.	-	0	ID=MGA_199;product=superoxide dismutase%2C Ni;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011125519.1;translation=MISSRYLTKLMNKLSILDKAYAHCDIPCGIYDPNDAIQAAQTCIRMTELILEKQNDDSLSAKNSLSRYITVKETHAKKAKDDILIIWTDYFKDNHLEKYPDLHEKVWKXCQLGSQVKQNVDMEKAKQFKASLEEIGEIFWETKK;locus_tag=LOCUS_1970;gene=sodN;EC_number=1.15.1.1;note=WP_011125519.1 superoxide dismutase%2C Ni (Prochlorococcus) [pid:38.5%25%2C q_cov:95.1%25%2C s_cov:90.4%25%2C Eval:2.4e-27],MGA_199
sequence02	MetaGeneAnnotator	CDS	48525	48971	.	+	0	ID=MGA_200;product=signal peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861178.1;translation=MQNKIFLKILSLISIXKIRFFRVXDDSMYPILKDNQLIIVNTSVFQKRKIKRGDIVIFKIKGKEIKYIKRVVAIPKDKIIVDSKGVNVNDSDFFQHNYSGKYKLKSFYLLEEQYFVLAENRNVSSMFDSRSLGVISSSEIIGKVVRVL;locus_tag=LOCUS_1980;gene=lepB;EC_number=3.4.21.89;note=WP_011861178.1 signal peptidase I (Clostridioides difficile) [pid:31.9%25%2C q_cov:85.1%25%2C s_cov:76.7%25%2C Eval:4.0e-09],MGA_200
sequence02	MetaGeneAnnotator	CDS	48973	49728	.	-	0	ID=MGA_201;product=aquaporin Z;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003812617.1;translation=MDILRNKDTWTKGIAEFLGTFLFVFIGLGSIATVISIGQGSIDNGAVIAIALAHGIGITIAIIAIGRISGGHINPAVTIALSVTGNFHWIKGLVYIFFQILGAFTASLIWSKALSTPALGVHNPAWSIPRTLIIEGTLTGLLVFIIFATVVDKRGISKLAPFAIGFMIILGHLVAIPFTGASMNPARSFGPALTTKLFPPPGLPQEALWWSSHWVYWXGPIAGALIAAYIYVIIFGDKNSQDNLSKPGQEE;locus_tag=LOCUS_1990;gene=aqpZ;note=WP_003812617.1 aquaporin Z (Bordetella) [pid:35.3%25%2C q_cov:87.6%25%2C s_cov:93.2%25%2C Eval:1.1e-25],MGA_201
sequence02	MetaGeneAnnotator	CDS	49766	51115	.	-	0	ID=MGA_202;product=hydroxysqualene dehydroxylase HpnE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011031164.1;translation=MNKNKSVVVIGGGIAGLVATQILIEKGLKVILIEKKITLGGRAFSFKNSESNENIDNGQHIFTKNCSEYIKFLKNLEVFNQVILXKSINVPIYKNNKKEYLKFSGKPNAISLFLRLLRFNHISYIGKLRIIYALIIIKFKKNLKDLDSTDFKTWLKKHHQTYETNKYFWELFLKPALNDELEYMSSYIAILTIKNSILKPQKTAFGLPKTDLSSLVEKNFNNILRKTNSILIKGKTVKKISEDNNNNIMKIELSDNTEIKVDSIICTIPFFEIKNLFQKSSKITPIINNVSQLEYSPIVCIHFWFSEKITDELYFSVLDSPIQWVFNVSKIRXHKDQNKQHLVISLSSAWKWIKYDRKEMISIFSKEIYKLLQLNSRVKIKQTLIVNQPKATFRTLPGSYKLRPKNSTPLKNLFLAGDWTDTEWPSTMESAAKSGRKSAEDLLRYLKSL;locus_tag=LOCUS_2000;gene=hpnE;EC_number=1.17.8.1;note=WP_011031164.1 hydroxysqualene dehydroxylase HpnE (Streptomyces) [pid:27.2%25%2C q_cov:94.9%25%2C s_cov:88.9%25%2C Eval:3.5e-38],MGA_202
sequence02	MetaGeneAnnotator	CDS	51139	52032	.	-	0	ID=MGA_203;product=squalene synthase HpnC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015040123.1;translation=MNKLLLNNQEKESFKNCSDLAKSHYENFTVWSKLIRKDLMPFFSSIYAFCRVTDDIGDESNKKHENILKSLDEWEKLLLNCYTNKVNHPYFKALSITIKRFDIPPDNFIKIIDANRQDQIVKSYKXFQLLEEYCRLSANPVGRLVLKIMGYNNNEIMRFSDNICTGLQLLNFCQDISEDLKKGRIYIPEEDMKYHKVKKIDFQKSFVSNEMRNLIKFEIERTEKYFHEGLKIFHHMKRKDQFPISLFLKGGNTIVKEIKRRNFDTLTNKIRISKISKSKILFTSLLDLYLGRDMRKL;locus_tag=LOCUS_2010;gene=hpnC;EC_number=2.5.1.21;note=WP_015040123.1 squalene synthase HpnC (Bordetella parapertussis) [pid:34.9%25%2C q_cov:83.8%25%2C s_cov:93.5%25%2C Eval:3.1e-36],MGA_203
sequence02	MetaGeneAnnotator	CDS	52025	52822	.	-	0	ID=MGA_204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITFVSTNINELFVNLNISRLEPIDCPGEIICFQGYISEFPNTKICFLITGSNESRSLVALDWLTKNIKSNYLINIGLSDSTSENATHGHIMISTSIGNLFGYPINWNLNDIKFTNNFDTKLFNISRKSCYLGNXDFHIGKSLSVSNNFRTDRLRRWINTRKDILSIDNTAFFTGKYAEKHNIPFISISSILNYIDETDSNLMKDLDYSPTENLIKTMKFFPNFFSKYDFNNRLRMSRSNLMKFFQIFGKEISSITNDSKDGTYE;locus_tag=LOCUS_2020;note=MGA_204
sequence02	MetaGeneAnnotator	CDS	52819	53853	.	-	0	ID=MGA_205;product=polyprenyl synthetase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257726.1;translation=MSSNKHPSFLNRYQENISKNMKNAFSGHDMPIYDHLKYFLGWTDVNGNKIKDYSGKILRSSLCLLTSDSLNGDLRTSIRAAVALEFVHNFSLIHDDIEDQDKFRRHRLSLWAIWGIPSSIVSGNALLTLGNLEIGNITNDKLPLKIIKKTQKLLTLSYLRMMEGQFLDIHYESQIRITIPEYLRMINLKTSTLIECSLILGLLTSNYSNEDLEYQFSSLGKILGSIFQIRDDILGIWGTDKTGKPIGSDIKKKKKSLPIIHGLSHQNLSISKKIHNFLSQKSISEFDVKQVIEILDKAGSEKYCQKLINQYWLEGEKIITNLEIPISFKNDFKELGSYLSGRSS;locus_tag=LOCUS_2030;note=WP_012257726.1 polyprenyl synthetase family protein (Chloroflexus aurantiacus) [pid:31.4%25%2C q_cov:96.8%25%2C s_cov:97.4%25%2C Eval:2.3e-41],MGA_205
sequence02	MetaGeneAnnotator	CDS	53988	54920	.	+	0	ID=MGA_206;product=molecular chaperone DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166785.1;translation=MTKSYYEVLGISKNSDKKNIVSAFRKLARKFHPDVNKKNSYNEQKFKEINQAYQVLSDDKSRKDYDEFGDNWIHADQIRSNGINNSFKFDGNLNSDFFSFNDFFNLNNRSRSNSKYQNSHKIEISVTLKELYFGTKRIITIKEKINCAKCDSSKNFQNIKCTLCNGSGKTVKSKNIEFEVPRGLKNEGIIKLRRPDSKVINIMVKQVKEDNFIRKNNDLFTKVNVDYLDAILGGEVVVSTLDKPISLKIPAGTKNSTLFKVKDKGMPSLNSNKLGSLIVEIDVSIPSEISMKEKTILEKLRISKRENDAL;locus_tag=LOCUS_2040;gene=dnaJ;EC_number=1.8.4.-;note=WP_011166785.1 molecular chaperone DnaJ (Mycoplasma mycoides) [pid:31.0%25%2C q_cov:96.1%25%2C s_cov:95.4%25%2C Eval:2.0e-41],MGA_206
sequence02	MetaGeneAnnotator	CDS	54907	55245	.	+	0	ID=MGA_207;product=helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000332994.1;translation=MMHFDYDEPCYAISVTARFIGVHVQTLRYYERAGLVSPKRSNGNTRLYSRKDVDRLLQIKQWIEDLGVNLAGVEIIERLNERVLELEIQVQDLIKELIILRDKNNKSLNSGR;locus_tag=LOCUS_2050;note=WP_000332994.1 helix-turn-helix transcriptional regulator (Bacteria) [pid:50.5%25%2C q_cov:92.0%25%2C s_cov:80.5%25%2C Eval:1.7e-21],MGA_207
sequence02	MetaGeneAnnotator	CDS	55266	57584	.	+	0	ID=MGA_208;product=ATP-dependent Clp protease ATP-binding subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011141541.1;translation=MVFPRQEEYTDEAKEALNKASAWLNDMRNSQMDAEHLLMGLISIDNGMTEKILYALDVKIENMIVDLEKAIRAFPKLGESNSETRQIYATPRLLKVIDHSLQEKKRLKDEYIASEHLLHGLASLEDGEISTIFAKYGVSQERIYHALKDIRGSHRVTDPSAESKYQALEKYSVDLTKLARNSKLDPVLGREIEIKRVIQTLSRRTKNNPVLIGDAGVGKTAIVEGLAQLIIEDEVPSSLQGRRVIKLEMSSLLAGSKFRGEFEERLKAVMDEIRAASGEIVLFIDELHTVVGAGGAEGAIDASNMMKPALARGELQVVGATTPEEYRKYIESDKALERRFTPVNIDEPSPEIAVEMLNILSKRYEDHHEIKISNDAIESAVNLSARYITDRFLPDKAIDLIDESAAKLRIEIEGKQNKNSDQKFGKLTPENIAELISERTSIQVARLVEKDKSRLLKLEERLHERVIGQNKAVEALSDAIRRQRSGVSDPNRPIGTFIFLGPTGVGKTELARALAESLFDDEDNLVRIDMSEYQEKHTVSRLIGSPPGYIGYDDSGQLTEAVRRRPFRVVLFDEIEKAHPDVSNVLLQVLDDGRLTDSHGRVINFRNTVIIMTSNLGSQHISKESVGFKIQSNDEEWNNKKSRVEESLSNHFRPEFLNRIDETIIFDSLDDNDLLKIVDIVVSKVRNRMEDLGVKIDVSKGALKWLVEKGFDKMFGARPLRRAVQRNLENQLAKRILSGEFKKRSNIKVQVKKDNLVFSLNNKTKKSTNNLK;locus_tag=LOCUS_2060;note=WP_011141541.1 ATP-dependent Clp protease ATP-binding subunit (Gloeobacter violaceus) [pid:45.5%25%2C q_cov:97.3%25%2C s_cov:97.3%25%2C Eval:3.3e-186],MGA_208
sequence02	MetaGeneAnnotator	CDS	57609	58811	.	+	0	ID=MGA_209;product=2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546162.1;translation=MVYVLRKSKKPVYSIGIILAAGNSTRTGGKDKMFIRFQGIPLIIHSISKFSNHELIDYTIVVVPENKKLIMEKIIIQWNLKNILVVSGGERRQDSVLNALSEVRKNEIFNKVKLVAIHDGARPFFSEKLLNQGFDLADKYHAAIPVIPVNDTVKIVDNNGFVENTLDRGSIFRVQTPQIFSLDLIIKAHKDKSQEFTDDASMVELLGEKVKVFNGEYKNVKITTASDLENLNIINFGKNNNSIYGLGIDSHRLKLGIDLILGGIKIDHNKGLDGHSDGDVLLHSICDAILGALGLVDLGYHYPSSDLNLQGIDSSEMLNKILNMMKEKNFELNHLDSTIITQEPRISDYRESIENNLSNLLGINEFSVNLKATTTDFLGFIGKSEGIAAQSIVTLNKLNN;locus_tag=LOCUS_2070;gene=ispD;EC_number=2.7.7.60;note=WP_012546162.1 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase (Thermodesulfovibrio) [pid:36.1%25%2C q_cov:94.0%25%2C s_cov:96.4%25%2C Eval:3.9e-62],MGA_209
sequence02	MetaGeneAnnotator	CDS	58819	60186	.	+	0	ID=MGA_210;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546384.1;translation=MKFYDSLDKKKKDLDIKNQKVTIYVCGVTTSDYSHLGHAFSSMVFEVLQKYLEYKKIQVTRIQNFTDVDDKIIAKAIKEELTMNQVSEKYINAFIEDMDKLKIKKADSYPKATDEIPNIINFIKKLESKGFTYNLNGSVYFKVKNKEDYGKLSRRDLDNIVQGTRVDIEENKQHPGDFALWKKSKDDEPFWDSPWGKGRPGWHIECSSMVMTNFGSSVDIHGGGLDLLFPHHENEIAQSEAITGDRFAKFWMHNGLLKISGDKMSKSTGNLIRLRDALEIHSPNSLRLWMLSSHYRNPILYDKKNIIAQSKALKRLREATLISNTGNTHSNFSVKKYREVFEKYMDDDLNTPKALSVLFDLSREINKLNSLGKEIQEAQRLLKELAMILGLDLDKDEEEEKIEIDEVYIDHLIKKRNQFRKEKLFKEADETREELKKMGVEIRDSQQGTVWKKIS;locus_tag=LOCUS_2080;gene=cysS;EC_number=6.1.1.16;note=WP_012546384.1 cysteine--tRNA ligase (Thermodesulfovibrio) [pid:43.9%25%2C q_cov:99.3%25%2C s_cov:99.2%25%2C Eval:2.0e-110],MGA_210
sequence02	MetaGeneAnnotator	CDS	60179	60388	.	-	0	ID=MGA_211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYSIIEIIVSVLLIIVILLQVRGTGTALFGQGENSFRVRRGFERTLFRSTIILGIIFVVVAVLNVRFN;locus_tag=LOCUS_2090;note=MGA_211
sequence02	MetaGeneAnnotator	CDS	60419	61366	.	-	0	ID=MGA_212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKTNSQKNKKIVGIGGGTGLSTLLRALRTKPVDLTAVITVADNGGSSGRLRKEYGILPPGDFRNCLVALSDAEPLLKELFQYRFESNSELNGHSFGNLFIMAMEKVTGSFDKAIKESSKVLNVTGQLIPSTFEQVNLVAKLKDGIIVEGESEITNSNSSIIDIKLNPNNVTPSSQALKAIKDSDVIIIGPGSLYTSIIPNLLVPEIIEEINNTKNPVIYVCNIATQLGETTNYDAISHLKSIKKFAPDLKISSILVNSRIEELGEEFPTSTCVIHENFNSSDIEVKYSDLMNMNFKGHHDPDKLSNAIFEILNY;locus_tag=LOCUS_2100;note=WP_164920957.1 YvcK family protein (Thermosynechococcus vestitus) [pid:44.8%25%2C q_cov:87.3%25%2C s_cov:62.6%25%2C Eval:1.3e-64%2C partial hit],MGA_212
sequence02	MetaGeneAnnotator	CDS	61369	62916	.	-	0	ID=MGA_213;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393504.1;translation=MYIRNLSIQKCLQYNNYKYLISGEKKLEYDTVIGLEIHVQLNTKSKMFCSCPNNYQNQEPNTFVCPVCLALPGSLPVVNKTAIESAIKLGLALDCEIAHITKFDRKNYSYPDLMKGYQISQFDQPIAFSGNMKISDSKNIRINRVHMEEDVAKLIHNAIPNEESTLMDVNRAGVPLLEVVSEPDLRTTDETESYISKLQSIIQYLEIGSASMEEGSFRCDANISVKPKNSNVLNDRVEIKNMNRIKAVTRAIDFETKRQIKVTESGNRVIQETRGWDDEKGISISQRSKEDAHDYRYFPEPDIPIFKFDFEWIKSIKDTLPELPSEKTDRFCNDYGLSEYDSKLLTSSMNISKYFEKVIQKFSNSPKNQLHEFSKETANWLNGEVLRLMNNNQIKNINELEISPQDLRELIEMFQKREISNAVAKEVLLEMFKTKKNPKNIVETKGLKKIQDVEGLSEIASEVIKVNPDAIKDYLSGKETVIKFLVGQIMKISKGKADPKISESVIKEKLQDLRK;locus_tag=LOCUS_2110;gene=gatB;note=WP_011393504.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Moorella thermoacetica) [pid:45.6%25%2C q_cov:94.0%25%2C s_cov:100.0%25%2C Eval:1.7e-129],MGA_213
sequence02	MetaGeneAnnotator	CDS	62999	64462	.	+	0	ID=MGA_214;product=Fe-S cluster assembly protein SufB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005772922.1;translation=MDKSNTISRKSNISDKEYKWGFNTNVETDLAPKGLNEDIVRLISSKKNEPSWMLDWRLKSFLHWKEKSVSSGEPTWPKINYPEIDYQDIYYYAAPVTEDKPKSLDDVDPEMLEAFEKLGVPLQERAKLAGVAVDAVFDSVSVATTYEKQLKELGIIFCSFSEAVKNHPDLVKKYLGSVVPYSDNFFATLNSAVFSDGSFVYIPPGVRCPIELMTYFRINTEGSGQFERTLIIADKDSYVSYLEGCTAPIRKSHQLHAAVVELVALDNAEIKYSTLQNWYPGTKEGVGGVYNFVTKRGKCLGKKSKISWTQVETGSAITWKYPSVLLQGDDSIGEFYSVALTNNHQQADTGTKMIHIGKNTKSTIVAKGISAGFGNNTYRGQVRVLPSADNATNFTQCDSLLIGDKCGAHTVPYIEVKNPTARLEHEASTSKVSDDQLFYLMQRGISEEDAHHMIITGWSKEVFKELPFEFAMEAGQLLKVSLEGAVG;locus_tag=LOCUS_2120;gene=sufB;note=WP_005772922.1 Fe-S cluster assembly protein SufB (Coxiella burnetii) [pid:69.5%25%2C q_cov:97.5%25%2C s_cov:98.1%25%2C Eval:2.0e-199],MGA_214
sequence02	MetaGeneAnnotator	CDS	64464	65204	.	+	0	ID=MGA_215;product=Fe-S cluster assembly ATPase SufC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005771014.1;translation=MLKINNLHAEILGGEKILNGINLNINSGEVHALMGPNGSGKSTLANVIAGRDTYNVSDGEIIFQNDDISEFLPDERSRKGIFMAFQYPAEIPGVRPWQFLKAAVDAKRLTEGQKEMSVREFSSFFDEKAKEVGINSNLLKRSLNEGFSGGEKKRNEMLQMLVLQPKLCVMDETDSGLDVDALKTVAQAVNGLTDSNRSFLIVTHYQRLLDYIKPDFVHILVNGKIVNSGDYELALEIEKSGYETYL;locus_tag=LOCUS_2130;gene=sufC;note=WP_005771014.1 Fe-S cluster assembly ATPase SufC (Coxiella burnetii) [pid:58.3%25%2C q_cov:98.4%25%2C s_cov:98.8%25%2C Eval:4.6e-77],MGA_215
sequence02	MetaGeneAnnotator	CDS	65201	66523	.	+	0	ID=MGA_216;product=Fe-S cluster assembly protein SufD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390321.1;translation=MTLDHLENYLKVFEEINKSSVINGKPDLQNYRKKNWDEFVKTGIPVQRRGNERWKYTNLKPLLDLFQTPIKINDEDLKKYLESNIPVLDDQILIVLVNGMFSKNLSSNFENIKGFNLITLDDSIFEIDEFYKNSKLNQDPFISLNYACLSDVIKINVEKNDSDAVINVVYVSVGDNSKKTINNPRVLISGEKESSFSLIETYLEISDSSNSNFSNCVTEIILKEDSLLNHYRILLEQNDSFHIGNTRVYQSKGSEFNSISYSRSPQIGSNEIKVHLQGSESKCTLNGLYITTGTQHMVNDISINHEKPNSESHQYFKGILSGKSRAIFSGKVLVEKDAQKTFADQKDLNLLLSKGAEIDTKPSLEIYADDVQCTHGATAGHVDKDTLFYLMSRGLDKKTATGLLIKGFADEIINNILLDELKSFVHNDLANILPELNFEG;locus_tag=LOCUS_2140;gene=sufD;note=WP_011390321.1 Fe-S cluster assembly protein SufD (Rhodospirillum rubrum) [pid:35.0%25%2C q_cov:89.5%25%2C s_cov:88.6%25%2C Eval:2.2e-53],MGA_216
sequence02	MetaGeneAnnotator	CDS	66529	67767	.	+	0	ID=MGA_217;product=cysteine desulfurase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989988.1;translation=MNKNLDPKKIKKDFPIFERTINGYPLIYLDNAATTQKPQSVIDSLSSYYQYSNANVFRGVHTLSIEATDLYDEARKKVQQFIKAKHIEEIIYTRNTSESINLVAYSWALKNLKKGDKMFISPFEHHSNLVPWQQICRKVGAQLLYIPLNDSGTIDCEKFSTQIDKNTKLISVTHMSNVLGEISPIKDLTELAHRFGALIMVDGAQSVPHMSIDVQEMNCDFLAFSSHKMLGPTGIGVLYAKKEILESMDPFLFGGDMISEVTYEDAKWNDLPYKFEAGTPNIADAIATGIAIDYLQDIGMENVFNHEKSLVSYALEKFSSLENIDILGSQNPSLKGGVISFNHKFIHPHDLGTALDRHGIAIRTGHHCAMPLIRSFGLVAASRASFYIYNGNEDIDKLINSISEIEDYFKNE;locus_tag=LOCUS_2150;note=WP_010989988.1 cysteine desulfurase (Listeria monocytogenes) [pid:52.3%25%2C q_cov:98.3%25%2C s_cov:99.3%25%2C Eval:3.6e-127],MGA_217
sequence02	MetaGeneAnnotator	CDS	67760	68194	.	+	0	ID=MGA_218;product=iron-sulfur cluster assembly scaffold protein SufU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000009523.1;translation=MNEFNELDEMYREVILDHYRSPRNNQPLLEPTKEIESNNPFCGDEIKLQLKIQNEIVTEIGISGRGCAISQASASLMGEALLEKNINDSLELYSSFRELLTGNLSEDQLDNLGDLLALEGVKKFPIRVKCALLSWSAFNDLIEV;locus_tag=LOCUS_2160;gene=sufU;note=WP_000009523.1 iron-sulfur cluster assembly scaffold protein SufU (Bacillus) [pid:47.0%25%2C q_cov:93.1%25%2C s_cov:92.3%25%2C Eval:1.7e-30],MGA_218
sequence02	MetaGeneAnnotator	CDS	68256	69071	.	-	0	ID=MGA_219;product=4-hydroxy-2-oxoheptanedioate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_027999571.1;translation=MKPLELKSKLQSGGKVYGTMIWALEGTRWSSSFSKSDLDYVVIEAEHAPRDRAQISQLSQMFKSLDITTIIRITNPDPVLVGMAIDAGADGVLVPYTEKIEDVKMCSARAYNNPLKGTYLEKVMNEKKFPNEKSKKYLNERNKDRIFILGIESEPALENLEDLILSAPMDGVFVGPNDLTTSMGIPDELDHQKYINALKKIIKISEKHHIPVMIHHATIELSRLSIELGSRFILHGSDSSLLTNAIHQDFSQLKKDKKIMNQGNEATKKPY;locus_tag=LOCUS_2170;gene=hpaI;EC_number=4.1.2.52;note=WP_027999571.1 4-hydroxy-2-oxoheptanedioate aldolase (Sinorhizobium arboris) [pid:26.2%25%2C q_cov:87.1%25%2C s_cov:88.6%25%2C Eval:4.1e-16],MGA_219
sequence02	MetaGeneAnnotator	CDS	69142	70311	.	-	0	ID=MGA_220;product=D-galactarolactone cycloisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010972789.1;translation=MKITKITTYLIESQLKKPFWWSNGKATKRSAVLVKISTDEGIEGWGEGYGTQETISVIHSTLKSQIISENPLNREKLWEKMYLALNNAVLQVGIGGCAISAIDIALWDITGKTYNLPVSELLGGKIRDKILTYATGLYYSENDFPKNLVDEAKYYKKIGFKGMKMKIGAIKPESDIERIKEIRKAIGDDIYLMVDANQAYNLYTAKKLLKKLAEFNILWFEEPLHYYDWNSYAELKKISPIAISGGESLRTSSQFKDFLVNQAYDIVQPDVANVGGITEFKRIINMASTMGIQTIPHVWGTPVMIAASLHIASTIPNTPRMDNPQHFLQEPGMEYDRTDNPLRENITLETQPFKFDNGYLDVPQKPGLGIEISEEKIEKMCTQKIETKN;locus_tag=LOCUS_2180;EC_number=5.5.1.27;note=WP_010972789.1 D-galactarolactone cycloisomerase (Agrobacterium tumefaciens complex) [pid:37.6%25%2C q_cov:96.9%25%2C s_cov:97.9%25%2C Eval:5.8e-63],MGA_220
sequence02	MetaGeneAnnotator	CDS	70536	71501	.	+	0	ID=MGA_221;product=amino acid ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259079.1;translation=MDVVKERGELKCGVNDNLTGFGVVMPDGSFEGFDIDYCKAIAAAILGDSSKVEYVPLTASARFTALGSGEIDVLIRNTTWTASRDRELAQDFTATTFYDGQGMMVYADSGYKTIEDMSGATVCVLQGTTTELNLDDRFTKSGIPYTPLTFETNDPLQAAFEEKRCDGWTTDKSGLASKRAEFPASAGGPDALVVLAETLSKEPLGPLTRDNDSEFYDVVQWVVFGMMQAEESGINSSNVSSMAANPKDPGMARLLGVGFDGGEVQDFQFGIPKDFMQKVISQVGNYGEVYDRHLVPLGLTREGSFNALWTDGGLIYAPPFR;locus_tag=LOCUS_2190;note=WP_012259079.1 amino acid ABC transporter substrate-binding protein (Chloroflexus aurantiacus) [pid:49.7%25%2C q_cov:99.1%25%2C s_cov:79.9%25%2C Eval:3.6e-81],MGA_221
sequence02	MetaGeneAnnotator	CDS	71568	72761	.	+	0	ID=MGA_222;product=ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259080.1;translation=MFRTFIFQNFIDWIDRISFLRKRKTRRISFQLLFLGFLGLIIWYFVSKALQLDLGFSHLNSRAGFGLSHTFFIDYSSNDSRWKAYFTGVINTIRICSLGILLTTILGTIMGVARLSSNFLISRISALYIEILRNTPLLVQIVFWQIVFLKLPQISNAITTGGYTAISNRGILIPWIEANPKFDIFFAIVVIAILISIFLKVFLNRREEEKGQKLYSNFIPLIMFFGISLLGLLFTGIPFNWNIPSVAQNEFGTYMQSGGFELSPEFLALLFALVLYTGTFVTEIVRGSIQSLPKGQTEAALALGFSSYQRIILVILPQALRSIIPPLTNQYLNLTKNSSLAVVIAYPDLFMVTRTIINNSGHALPMFFVVLFTYLSLSLIISLIMNLLNRQVTKVRV;locus_tag=LOCUS_2200;note=WP_012259080.1 ABC transporter permease subunit (Chloroflexus aurantiacus) [pid:39.1%25%2C q_cov:89.4%25%2C s_cov:90.0%25%2C Eval:1.2e-63],MGA_222
sequence02	MetaGeneAnnotator	CDS	72761	73942	.	+	0	ID=MGA_223;product=amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259081.1;translation=MRLINEITRDGFFWIKENLFQSYLNSLMTLLIVVFIGYLFLDFLGFLINADWTVVEVNRRLLLLGRLPLGNEIRGWLILWFSMILISSSIGIWGSPNIKDFLIIFIISLVIFFIFGTLNSIYHILITYLISFSPYFFSKYFLRKKYFELSKRVLIFSWILIIPIFIIILLIGNGPKPNLWGGFLLNIILASVAIVAGFPLGLILGLGRASSFPVIKIASTFYIEVIRGAPLVAWLLLAWFVLPTFLPNLFGLNEVSIVVRAMIVLSIFASAYIAEVIRGGLQSIPKGQLEAADALGLSTIDSTFNIILPQAIRVVIPALVSTFIAMFKDTSLVFILALTDLLQVGRLIPEQEPEFFGRQLEALLVVAFLFWVVSISLSNLSSRLEKAMGIGVR;locus_tag=LOCUS_2210;note=WP_012259081.1 amino acid ABC transporter permease (Chloroflexus aurantiacus) [pid:34.4%25%2C q_cov:94.7%25%2C s_cov:92.7%25%2C Eval:5.1e-51],MGA_223
sequence02	MetaGeneAnnotator	CDS	73958	74698	.	+	0	ID=MGA_224;product=amino acid ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259082.1;translation=MKNKKEIIITENVEKSFGNFQALKGITATVKESEVVVVFGPSGSGKSTYIRTLNRLESHDSGRIIIDGVELNDDVKNLEKVRSNVGMVFQSFNLFPHLSILGNITLAPRKVKRMKKKEADDLAMGLLERVGIPEQAEKFPTQLSGGQQQRVAIARALAMQPKIMLFDEPTSALDPEMIKEVLDVMRELADSGMTMICVTHEMGFAREVADRFLFFDQGLLIEEGSPDHFFSNPKEDRTKLFLSQIL;locus_tag=LOCUS_2220;note=WP_012259082.1 amino acid ABC transporter ATP-binding protein (Chloroflexus aurantiacus) [pid:69.2%25%2C q_cov:97.6%25%2C s_cov:96.4%25%2C Eval:3.2e-94],MGA_224
sequence02	MetaGeneAnnotator	CDS	74706	75281	.	+	0	ID=MGA_225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPSESFENIEDYKKINRDFEIVLATRASRLAAKILDLFFFLAMIVLGLMLASFFGEMSFRDMYFWLIELQTNEISTSKSINSSPEGFQILLIVLSFFSVIFIQARLLVRDGQTIGKKIIGIKIINAFNLGKVKLINIIFIRWIFFEILSVLPFGTIIVLADVVFIFRKDRRCLHDMLSGTVVSQKNENLS;locus_tag=LOCUS_2230;note=MGA_225
sequence02	MetaGeneAnnotator	CDS	75286	76602	.	-	0	ID=MGA_226;product=sulfatase-like hydrolase/transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011120382.1;translation=MSKKHNKTNVILIMSDDLGYEVLGCNGGTSYETPVLDKLATDGINFTEAHVQPLCTPTRLQLMTGKYNSRNYIGFGLMKPDEKTFGHIMTEAGYKTLISGKWQLYSYNPPDVEPQMRNKGQKIEDAGFDEYCVWHAHHTEDKGSRYKDPVIYQNGSYLDNTKGQYGEDIFCDYILDFIDRNQEEPFFVYFPMALTHRPFEPTPDSPEYEEFDPPTNISLGKGKTFEEVEGWEDDPKYYKDMVEYHDKIVGRIIHKLDELDLSENTLVIYIGDNGTPVEVSSEMGSTSIQGGKGLPNDRGTHVPLICSMPGTINPGVNLDLIDSTDILATILDITKTPLNDFIIDGQSFLPQLSGQKGNPRDWLYFYYDPKNPRRDARSNREFKYVFARDEKWKLYDDGKLFNLENDLEELNPVFESDDTLESNDVRTKLTKVIEENTP;locus_tag=LOCUS_2240;note=WP_011120382.1 sulfatase-like hydrolase/transferase (Rhodopirellula baltica) [pid:46.9%25%2C q_cov:92.5%25%2C s_cov:86.0%25%2C Eval:1.7e-98],MGA_226
sequence02	MetaGeneAnnotator	CDS	76654	77442	.	-	0	ID=MGA_227;product=dihydroanticapsin 7-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003243359.1;translation=MTRLKNEVAIITGGAGDIGSAHVESFVREGANVIIADINEEKGNLIAKENSSFSSENKVKYVHLNSTDEESWKKLSSKTIEEFGKISILVNCYGTNFREKFINQNLENWNTILNVNLTSVFIGIKELIPFFKLSGKGSIINIGSLASLKGSASSPAYTASKTGLIGLTKSTAVAFAKDKIRCNLVCPGHVDTNFIRNDSDYSPNDWNTSINNPENYNQRLSQIPLGRLQTPKDIANLSTFLASEDSNMITGGIIAVDGGVTI;locus_tag=LOCUS_2250;gene=bacC;EC_number=1.1.1.385;note=WP_003243359.1 dihydroanticapsin 7-dehydrogenase (Bacillus) [pid:37.1%25%2C q_cov:98.5%25%2C s_cov:98.4%25%2C Eval:2.5e-39],MGA_227
sequence02	MetaGeneAnnotator	CDS	77524	78999	.	-	0	ID=MGA_228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMTRQIKYLLVLFCLFTISIGCSTETNENIFIGDEPSIKTHLKQQDIESGQITIEELILHGEKLFTANFNSLDGFGRPQSSGNRTRRDKKLFQENFNRISGPETSACSDCHNMPIIGGGGSNVTNVFSSAEKSPFLDFETEDLGKDITLKEIGNERNTLGMFGSGLVELLAREMSKELIAQRASAEIISLNESREVRIELITKEISFGFLTAKPNGTLDTSEIVGVDKDLIIKPFTQKGVVPSLRVFTNNAMNHHHGMQSSETFEDREDIHKAMDLLSDSKDHDGDGVINELTMGDITALTIFQALLPIPKWEEPKTDIEKEAAKNGQLLFSKIGCSDCHRPYLPLKNTLFSDPGPFNPKDHLSAEDTKGIYIDLKDYYPNLKINENDELLIPLFSDLKRHKMGDLLNNEKVKQLATRNNVPTDQWITKKLWGFASEPPFLHHGRATLISEAIKVHGGEAENSKQAYIKLNEIEQAHIVEYLNTFKTEKAK;locus_tag=LOCUS_2260;note=WP_005457832.1 di-heme oxidoredictase family protein (Vibrio parahaemolyticus) [pid:28.7%25%2C q_cov:32.2%25%2C s_cov:27.6%25%2C Eval:6.5e-09%2C partial hit],MGA_228
sequence02	MetaGeneAnnotator	CDS	79004	79960	.	-	0	ID=MGA_229;product=LLM class F420-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020640552.1;translation=MTKFGVCLPIFSGSSAKTSEININEIINFAKKSEELGYSSLWGADHFHLGHEKGEHELWTILSVIAQQTERIRMGPLVLGYSHREPTLLAKMTSTLDFLSSGRFDLGIGAGWYKEEQNAYGFPWIEKVGIRMDAFEEYIEIILNIFKDNKHPDYNHFPTPNTKLTPKLTQKPYPPLLIGGGGEKRTLKLVAKYADIWNIPAVTAKEYSRKLSILKSHCENEGTDYSRIEKTMESRILITDKGINDEIIDWFRYFLKTAGNVVPTRQESKEIIESNFIIGQIDECKEKINNYVESGVQHFTLYFLDFPSYSSLELLSDF;locus_tag=LOCUS_2270;EC_number=1.-.-.-;note=WP_020640552.1 LLM class F420-dependent oxidoreductase (Amycolatopsis balhimycina) [pid:35.6%25%2C q_cov:86.8%25%2C s_cov:86.1%25%2C Eval:5.7e-39],MGA_229
sequence02	MetaGeneAnnotator	CDS	79953	80975	.	-	0	ID=MGA_230;product=LLM class F420-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020640552.1;translation=MIDFGFCLPIFPGGNDRMARTPMVNSLNPNTLDSLVREIDLMDFNSIWVADHLNMSNDTPILEGLTTLSWASNISKRLRLGHIHFNNLLRNPSLTAKMYSTLDIITNGRINFFIDGGHPGTKNEVTSYGYDFLSDSERIEQLEEAIKIIKLMWTQKPISFQGTHYNIHEPLLYPKPLQKPHPQIWIGSLTESNQVREWNKKIFQIIAKYGDWWNVTPVGIQEYKETQKKLKKVFNDHNRDFNTLNKSVELEILIGKDEEDIERIKKEINLNNPKNNYFGDWENWNKSNVSGNPSIIISKLKEYIELGVTNFMFWFLDSPSLDGARIFNQQVIPELRRMYD;locus_tag=LOCUS_2280;EC_number=1.-.-.-;note=WP_020640552.1 LLM class F420-dependent oxidoreductase (Amycolatopsis balhimycina) [pid:27.8%25%2C q_cov:88.5%25%2C s_cov:92.2%25%2C Eval:9.7e-24],MGA_230
sequence02	MetaGeneAnnotator	CDS	81028	84387	.	-	0	ID=MGA_231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLTFSILKGYFFKSKFISIIFLLSTLSLGIIISSLTIYINYLEDNVINKTVNSLGVSNKNIWLNNTNASLSEDYLANKSELIEELVNQESGFITDNSKIIKLDISKNKSPLKNIIYKKNVSQHSSSIKDYSLSVVTIDNLFENVSILDSTDENKEGVFNIYISKNTSKMLDILVGDIIYIPDPLYPEPLKFHVSKIFDLDENDEFWMGQTSVVNPRVNANGILETPLSINSKDLLKLNERSEGSTSLYWMFFLSDNLIFDFGPSKSIEYIKNIQNQLSLKFPSSLIINPIAERLESNLNDYKNTLPSLLIIGSLLIMTSLIISLLPILQLGEKFNSEFYILKMRGLKGKQLFADIIFWLFLFVFPICLLGSFIGNYLTTYIIDSSEILNNESKNGFSVNFLSGILASFISIIAISIPIFIKRFLQNNSIENQKIFDKFRSSSFFQRYYIDLIIISLASVSFWESLISNFQYLANYSNDNIALIAILKMAIPMFWILGLIFLVLRLFQIINLITEKLRINVNKPLWLRFSLINVTRKPNEYSWILLIFWISTCTILSSRTIINTVDNHINDSLSYQVGGDIRINDVPLEKSLNKTEINIDVLSQYNQSLSFRGVGKLGKKDFKFLAVQPELIEKSIWYREDFSSKSISELMPKIQINNSQEKLFIKENIKSIGLTINNSTPIPSHVQLWLRVKFNNGRHETIPISNCKVFDCHQKNHPDINWSSYYINLDEEIKESIEIVGILVYETSPEDLSTEFTLKIKEINFSTNNNLNNSEGRFNYLGVIPINESNSWQTLPTSEGIDTNLNFYYLEGESDSEYMEINFGSGSDEGIRGIYLSSFNELPIITSKSFLKENLHQVGEKFIAKLGGHYVQLKIVDSLELFPTLDPSENGFIILDGDDLINFLEIRGPLRFNSTEIFASSKNNISTENFFSNSIESNQSDSKLNSSMLDFSVQENQQKYFIKDNLIESLKDNKVTEGGLDGLNILSLYIIPVLLVLGSISFVSIQVITRSSEWISSKRIGINSRIIFTHVILEYLIVIIVGILLGIFTSSFITKILVNELIEVFYSTSTLLYLPIYLKVNWSIYYSIIISAVIIVFLSSIIGIKNILKSISTEEQTFQ;locus_tag=LOCUS_2290;note=MGA_231
sequence02	MetaGeneAnnotator	CDS	84410	85279	.	-	0	ID=MGA_232;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582574.1;translation=MASLLQATNISKEYVSGTFLKKRNLALKEISFSVEETPPSITCIAGESGSGKTTMARLLAGLLDKSGGELLYKGKSLNKMNSEEKLTFKKEVQTIFQDPFEVYNPFYKVDHVLTTPLKKFGITSNKSDSDKMILSALEEVGLRPDETLGRFPHQLSGGQRQRIMVARAFLLRPKIIIADEPVSMVDASLRATILEELKLLREKHGISIVYITHDLTTAYQVADNILILYKGYLKEAGSVEVVINNPQHPYTKLLVDSIPQPDPDIKWGKLDISATQELLETPGVGWRNS;locus_tag=LOCUS_2300;note=WP_012582574.1 ABC transporter ATP-binding protein (Dictyoglomus turgidum) [pid:48.4%25%2C q_cov:99.0%25%2C s_cov:88.1%25%2C Eval:1.1e-70],MGA_232
sequence02	MetaGeneAnnotator	CDS	85286	86263	.	-	0	ID=MGA_233;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868867.1;translation=MTNFALSVENLKVYYHTSGGPVKAVEGVSFNLSKGEKLGLVGESGSGKSTIALALMRSHKPPAIIEEGSINLGQTNLLDLSEENMRKTRLSGISMIPQGAMNSLNPVARIRKQVVDALSDHSFKFKKAERETFLRELMESVELDPKVLNLFPHELSGGMKQRVCIAISISLKPQVIIADEPTSALDVIVQRQVIETLSKVQEELGAACVLIGHDMGLMAQFADKIGIMYAGKLVEIGSVNDIFKNPTHPYTRLLIESLPDTKGKRPLIGIPGLPPSLLNLAPGCSFCLRIEKENRKEIPWVEISKDHFIQKCDICSDYGKVKTKK;locus_tag=LOCUS_2310;note=WP_010868867.1 ABC transporter ATP-binding protein (Pyrococcus abyssi) [pid:45.2%25%2C q_cov:94.8%25%2C s_cov:98.1%25%2C Eval:5.5e-69],MGA_233
sequence02	MetaGeneAnnotator	CDS	86260	87102	.	-	0	ID=MGA_234;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082483.1;translation=MKALKLINDNRMLTAGIITLIFVIFFGVIGSWFVDRERADVGAGRPAQPPSLDHWLGTDQQGRDVFADIVYGTPGTLKIGLIAAFVGVGVGTILGFISGYFGGYIDNFIRFISDVFMTIPVLMILIVLASLLDVMSNTMLGLLIAAFGWMGALRVTRAQVLTMRERAYIQVAKLNGVNDLEIIFKEMIPNLLPFIAASLVGASAGAVLASLGLSALGLGPQNEPSIGLTIFWVLHYGALIRELWWWFMPPIIVMVLLFIGLFMITAGLDRIANPRLRTKV;locus_tag=LOCUS_2320;note=WP_004082483.1 ABC transporter permease (Thermotoga maritima) [pid:32.1%25%2C q_cov:95.7%25%2C s_cov:95.4%25%2C Eval:2.0e-42],MGA_234
sequence02	MetaGeneAnnotator	CDS	87113	88120	.	-	0	ID=MGA_235;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582577.1;translation=MNAEYVLKRFLLFLAVIVVAVSINFIIPRLRDTNPIKERLYQLAAQGGVNVGKMEEMIEVWEKKFGLDQPLWKQYINYWNDVIRLDFGKTIADFTPVINEIMRSAPWTIGMLSVATVIAFVVGTVFGALLAWPKTGNFVKIFVPFLMTLSAIPYYLLGIVMIYTFAIYWPILPTSGAYGFGVRPEWSIEMVLSVISHAIMPAGSIVLTSIGFWGLGMRGMMITTMGEDYMKFAEYKGLKENRIFLSYGVRNAMLPQVTGLAISLGTILAGSVLVEVIFAYPGLGNLLYTAISSNDYFLMQGIMIFVIVSLGFALFVVDLLYPLIDPRINLQEQQS;locus_tag=LOCUS_2330;note=WP_012582577.1 ABC transporter permease (Dictyoglomus turgidum) [pid:37.3%25%2C q_cov:96.7%25%2C s_cov:97.3%25%2C Eval:1.0e-70],MGA_235
sequence02	MetaGeneAnnotator	CDS	88384	90351	.	+	0	ID=MGA_236;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080060.1;translation=MIKLNSKVMVFALVTGLFSFVIACGGTTTETIVEKEIVEVVKEVPVEKEVIKEVEVEKVVVEEKEVIKEVEVVKKEIVEVEKIVVPPDYKAGHRGDVAREDTLIITGFGPGASEWTGFDNLNPYSAGGLGRVRGILNKTIYEYMYYYNHNTGEQIPWLATSYTTHEDGMGVDFTLRQGIKWSDGEDFSCDDVKYTVELLRDTPELVFASDMGEWVKNVTCVDDHNVTINLNKPNVRFFYFYFVENSEIHIQILPKHVWEKEDPLEFTNWDPDKGYPVGTGPYVAVEATGQGQIFDRNDAWWAAETGFSHLPVPLRVAYIPPGSADTAVARNINNEFDVASIMQPGVFLVAKKKNPNIQSWAVKGPSWGAADACVYTLGVNTEWGPMSDVNVRRAINRTVDRQLLVDLAYEGSTVTRGVPYSTYGGLKLYEDAQADLIAKYDPEKHDLDEAATHMAAAGYAKDGDGQWAKDGAKLEFDLHVPGWLKPMGPVLEKQLKDGGFAATFVLHDPDNGPMFDAVRTGKADMWVLVHCGSSNEPWGTLQHYHSKFSAPSQGEMNSYIWGNSHYKNPEYDAIIDKMDEIPGSANDPAYMALADQALELFLSDVIEITLAEERHVVTFNTAHWKGFANENDPYVAPYSLWAAFILEVLNVTKAK;locus_tag=LOCUS_2340;note=WP_004080060.1 ABC transporter substrate-binding protein (Thermotoga maritima) [pid:26.9%25%2C q_cov:83.2%25%2C s_cov:94.6%25%2C Eval:1.1e-35],MGA_236
sequence02	MetaGeneAnnotator	CDS	90409	91056	.	-	0	ID=MGA_237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDEMPINEINIKIRELEITSMKSSDEILVTSGRFIRAAEEAVANYYDYPTFMPLAYDDTYEHMEIHVESYLALKELTEACEKEGYPSKTKEIIKSDTESKNPESVDQENLIRENAKIPSIDSANDELMKFLKSKTWGFFGGTCDQWVNMDYDLKKQKSSFINESNDWKIVWDLKPDKFLGPKTLIYYINSETGSVSGDINNNQNSPISEGCDKW;locus_tag=LOCUS_2350;note=MGA_237
sequence02	MetaGeneAnnotator	CDS	91309	92574	.	+	0	ID=MGA_238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLKLGIIGCGGMGLRHMHGISELMKYSEIMKLEAVCDLHESAANFVASKAEEITGKRPTVFTSLEKMLQESDIDVLDIVTDTRTHHKFAIEAMKSGVHVMTEKPMGVTLKACRQMMDSRKKNNVKLAVAENYRKDPMNRLVKELIDNGAIGTPQMLLDISVSGGGHLMHATGWRAKKVMAGSLILEQGVHTSDLILYFLGDAESIYATTGIMQKERIVGKRPPGIEQFYGHRVEDQFEGQSKVIIDAEDTAFSVIKFQSGAIGQMTMTSGANGYGFGNQTIHGTEGTLKLPGSRNGNSPIISRDNLSDSITGDDLLDLVPEWQLDDITSLYFDGSRRISSYDYPFEAVDRKLIAIELHDLAEAIINNSTPEVDEIVGVKALSLAYGALESGDTGQIVNLKDIESGKVNQYQSEIDSELKI;locus_tag=LOCUS_2360;note=WP_003807115.1 O-antigen biosynthesis protein WlbA (Bordetella) [pid:26.6%25%2C q_cov:69.1%25%2C s_cov:72.9%25%2C Eval:1.1e-22%2C partial hit],MGA_238
sequence02	MetaGeneAnnotator	CDS	92596	93066	.	+	0	ID=MGA_239;product=thioredoxin-dependent thiol peroxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012220392.1;translation=MLLEGQKAPSFELMGSGGSLINLDNLKGNIVVLYFYPKDDTPGCTIEACEFRDMKEVYDQTGIKVFGVSADDFDSHQNFINKFDLNFELIIDENHEICQKYGVLYEKNDNGNSKLSIKRITYLLDENGIIMKIWKDVDPNGHAQEIINFIETSKKS;locus_tag=LOCUS_2370;gene=bcp;EC_number=1.11.1.24;note=WP_012220392.1 thioredoxin-dependent thiol peroxidase (Coxiella burnetii) [pid:46.2%25%2C q_cov:91.7%25%2C s_cov:94.7%25%2C Eval:7.6e-36],MGA_239
sequence02	MetaGeneAnnotator	CDS	93248	93397	.	+	0	ID=MGA_240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPPNDEWGSMKVTLTWSSAFKIALAVVIVNVITVPIVLIGIVAFIGDI;locus_tag=LOCUS_2380;note=MGA_240
sequence02	MetaGeneAnnotator	CDS	93399	94046	.	-	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYITEFKQLPIKNIQPSPNHLEDNYSNEDIKSVAQDIKEKGLMEPLLVGKLKNGNFEIILGIKRYLAFKHLGYSTVVVGIINEMVNSDEAWALSLQYPSLSELLTPSHKSIGIKFLIDNEKMNLNEISNQTGIHINDLNRYLTIFKFDKELKRMLENNEINLKISVLSHNLNKTLSKLSGSELPSITSSQIAKNLISKNNNEIENLEKIINIFD;locus_tag=LOCUS_2390;note=MGA_241
sequence02	MetaGeneAnnotator	CDS	94184	95155	.	-	0	ID=MGA_242;product=threonine ammonia-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083156.1;translation=MKVFMKYVIPTIENVKSAKKAIKKYITITPLIHYPSLDKILDAEVWVKHENFQILGSFKVRGGLNYGTYLEKPNSSSVLVTPSTGNHGQSIAYSARVFGYKSIICCPVGINPSKIESMENLGAQVISKGNSYDESKFNAQEIAEKNNYIYVDGANEDKLIAGVATYSLEIFDEIDPDFIIVPLGAGSGASGACIVRNGLNKKTKIIAVQSSASPAGYLSWKEKQLTESKSNSKCEGLATGKGYELPQSILIDSLDDFVLSEEKEIFSAMKIFLLNTKSLVESAGASTLAAAIGLKKKIKGKKVVLVASGGNASVNNLIEALKL;locus_tag=LOCUS_2400;gene=ilvA;EC_number=4.3.1.19;note=WP_004083156.1 threonine ammonia-lyase (Thermotoga maritima) [pid:31.6%25%2C q_cov:94.4%25%2C s_cov:76.3%25%2C Eval:2.2e-38],MGA_242
sequence02	MetaGeneAnnotator	CDS	95461	96480	.	-	0	ID=MGA_243;product=GMP reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009874161.1;translation=MRIEREVKLDFEDVLIRPKRSTLYSRKLVNLTRTFKFKFSESSWTGIPIIAANMDTIGTFEMAEVLSKNQMLTAIHKFYNTEDWVNALKSGINPEYLSLTAGIDSLSQIKDLIKNLTTNKQKIPKFLCLDVANGYTEKFIDTVKTVRDAFPNPIIAGNVVTGEMTEALILAGADIVKVGIGPGSVCTTRIVTGVGYPQLSAILECSDAAHGLGGHVISDGGCKYPGDISKAFGAGADFVMLGGMFAGHLESGGELFEEDGIKYKRFYGMSSDTAMERHYGEIESYRASEGKTVTVPYKGKVENTLRHILGGLRSAATYVGARTIKEIPKCTTFILKTSK;locus_tag=LOCUS_2410;EC_number=1.7.1.7;note=WP_009874161.1 GMP reductase (Buchnera aphidicola) [pid:61.2%25%2C q_cov:100.0%25%2C s_cov:97.1%25%2C Eval:4.2e-112],MGA_243
sequence02	MetaGeneAnnotator	CDS	96499	96993	.	-	0	ID=MGA_244;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003226700.1;translation=MEITSKKIQSKIIELSQKISDFYLENNDFKYLSIVVPLSGGVPFAVDLVKSLSDEIQNKLLMCYAYDMDEEWYFSDSNPEIGEPILIIEDIYDTGKTLADIIPWLEEKFTPREIKTVVLLEKEIEKINNITIDWTGFIVEDTWVFGYGMDDENGMRRGLPYITD;locus_tag=LOCUS_2420;gene=hpt;EC_number=2.4.2.8;note=WP_003226700.1 hypoxanthine phosphoribosyltransferase (Bacillus) [pid:31.3%25%2C q_cov:97.6%25%2C s_cov:88.9%25%2C Eval:1.1e-09],MGA_244
sequence02	MetaGeneAnnotator	CDS	97000	97953	.	-	0	ID=MGA_245;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259700.1;translation=MTYFESSFITIISLSAPLVFVVIGETITERSGVVNLSVEGTILITALTAFAVAVSTNNASLGVLSAGLIGSFIALIIVLCDIKLSINQIAIGFVLTILCGKLSSFLGQNFVRIPGPSLPKVDLPILKDIPYIGPSLFNQNILVLLSVLLIPIAWFFLYRTKFGLNLRSVGENPTSSMSRGINPEHMRILGTLIGGFLIGIGGAAFSLHAKYGWSEGHTGNYGWICLAIVIFGGWNPIRAALGAYAFGAFQLIALKMQSVTIGFTQVLPLIPFPLMIMTLIFIQMFNGEHRRKLPVFLKPIIGGIEPGSLGKXLNKEK;locus_tag=LOCUS_2430;note=WP_012259700.1 ABC transporter permease (Chloroflexus aurantiacus) [pid:45.1%25%2C q_cov:86.4%25%2C s_cov:83.8%25%2C Eval:9.3e-66],MGA_245
sequence02	MetaGeneAnnotator	CDS	97950	99014	.	-	0	ID=MGA_246;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259701.1;translation=MENKLKINLLNLSFITIKLLVTFLLISLIILLLGGSPLEVXESIIYGAFGKPQKIVKTLLIWAPIALASLALLITFSAGLWNIGIEGQIIAGSIGATIIARSALGESIASPYIQIFIGLIFGGLWGLLCGFLRVKFNVHEIFGGLGLDFVASGLIVYLIIGPWKRAGIASTSGTDIFPDASWFPTLGKYNFQIIPLILVIASFFIIFILIKYTNLGLRLRATGINPSSTSRYKINSSLYFYYAFAIAGALAGIAGVVQAAGFHHKLVPAISGGYGFLSILIVLASSRNPVITMILSFFFASMIAGGSQLQLRLDLHSSMISIILSSIVLIWLVMRSPYLNNXFNKITSRLNLEK;locus_tag=LOCUS_2440;note=WP_012259701.1 ABC transporter permease (Chloroflexus aurantiacus) [pid:30.4%25%2C q_cov:86.4%25%2C s_cov:89.2%25%2C Eval:1.7e-42],MGA_246
sequence02	MetaGeneAnnotator	CDS	99004	100464	.	-	0	ID=MGA_247;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259702.1;translation=MEIKFKNITKSFGNILANKDISFTISSGKIHALLGENGAGKSTLVKILSGHYKADDGEIIVGEKKLELGSTKDSIKNGIGILAQDPLDFSNLNVLESFIVGSKNSNPFINIKGIKKNILEQFKKYKINVNPEDQIRDLSVGERQQVELIRLLFNGTKVIILDEPTNGFSLEQKQLVFEVLKSLNKVGFIIILVSHKLDEVLDLCQEATILKRGEIVSTVQLPCPSDQIINLMFDSKFSXKTNNEKENSKKSELGSILINFSKKPKSIQYYDQDINFPCGKTTGVIGLQGSGADQFIRECFSGKINITIKNENSDNFIPEKYFYYTPSDRLEKGLFNELKIYEHVAISRFSDSQIIDWKKVENKSIKLIDDFNIKGEKNTLASELSGGNQQKLMLALIPEEIGLLLMEQPTRGLDVQSASFIWRKIKTRSNSDYGSIFSTTDIEEVWSYSDYIMCFSGNSITHFSDKSNISKDEIPYLISGVSSNGK;locus_tag=LOCUS_2450;note=WP_012259702.1 ATP-binding cassette domain-containing protein (Chloroflexus aurantiacus) [pid:33.7%25%2C q_cov:99.0%25%2C s_cov:98.2%25%2C Eval:1.7e-73],MGA_247
sequence02	MetaGeneAnnotator	CDS	100531	103104	.	-	0	ID=MGA_248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFRIKNSLLTFLILLSISSLLIIGCGEGEVEEPMSSSVDKSDYDKLKDDAKQEVKQEVKQQVEEKEDEDRREAMSSGLSYPEKPPVIGMILVGPRNDKGWSQAHFEGGQYAAEALNGELITVDLVNPADNPDLTIPGIAEDMIDQGANVIFATSDDMKDGILEAAAMFPDTDFVWSSGDSALEGGKGYKPELENLANIMGQMEYGQMIAGCAAALKSKNGKIGFLGPLINDETRRLANATYLGAIHCSNQPIDFKTIWIGFWFHIPGVTLXPTQVTNEFFDEGRDVVISHIDTTEALVVGGQRAXSGEDVWVVPYDYEGACEQAPEIXLGVNYFNWGPDYLEIVEKSLNXEFINEWIWSXPDWDNMDESTIGWHHGPGLFEDEASKLDQFIDELASGMNLFMGPLNFEDGSTYLEADEVADEMQVWYTPQLLSGMNGEGTEATGNPMDDASPLELTQMLLGAYADNGGAYDPPTVGVILVGPRNDKGWSQAHFEGAEYAAKAMNGDLITVDFVNPADNPDLTIPGIAEDMIDQGADLIIATSDDMKDGILEAAAMFPNTTFVWASGDSALESGKGYKPELTNLGNVMGQMEYGQMIAGCAAALKSKDGKIGFLGPLINDETRRLANATYLGSKYCAGDKALDFKVTWIGFWFHIPGVTLDPTQVTNEFFDEGRDVVISHIDTTEALVVGGQRAAGGEDVWVVPYDYEGACEQAPEICLGVNYFNWGPAYLMFLNGALNMDSDPNTWDQLLLDGDIGWGWVGPYWKDITHPDKSFIGWHSGDGLNGDESQSLDSFIGELANGLNLYTGPLNFQDGTVYVESGKSLDWSGDHLNETSGVDAAKVWYTPQLLEGIEGSSE;locus_tag=LOCUS_2460;note=WP_012259703.1 BMP family ABC transporter substrate-binding protein (Chloroflexus aurantiacus) [pid:48.8%25%2C q_cov:41.0%25%2C s_cov:87.5%25%2C Eval:1.2e-96%2C partial hit],MGA_248
sequence02	MetaGeneAnnotator	CDS	103216	104019	.	-	0	ID=MGA_249;product=amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013230771.1;translation=MYLKNILKIIEKRISKSQIIGYGILIILLILFIFNADFERLQDKMFKTSLIVEQFPLIVTQAARNTLIFTFLGFSGGIILGLIIALMRLSNLTLYRWLAIVYIDMLRGLPALLVLIFIAFGLPIALGIRIPGTYTRGSLALAIVSSAYIAEVLRAGIQAIPRGQEEAAKALGMKKFDVMQKVIFPQAFRIVLPPLTNELVLLLKDTALISVIGVTPETKELTRFGRDGVNWSANATPLVVAGFVYLAITIPMTRVANWLENKMRTPK;locus_tag=LOCUS_2470;note=WP_013230771.1 amino acid ABC transporter permease (Amycolatopsis mediterranei) [pid:36.1%25%2C q_cov:80.5%25%2C s_cov:85.0%25%2C Eval:3.8e-35],MGA_249
sequence03	MetaGeneAnnotator	CDS	2239	3195	.	-	0	ID=MGA_251;product=mannonate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010974020.1;translation=MRAGFGQFKSPSPEYLKFAKQFGATDILLNHADLPGANGRWELQDLVKLRLMVESHGLKLSALENVPTNFYDQVMLNGPKRDEQIENMIYTIRNIARAGIPIFGYDWLPSEVWRTEPRLIRGDAVATAFDDSVAQKMPLTHGREYTEEEMWEYMEYWIKIITPIAEEEGIXLGIHPCDPPVPKLGGVPMLLRSFDSYKRLIEIYPSDSNAIEFCQGTFSEMNDDIYEMIRYFGERKKILYVHFRNVSGQVPKFHEEFIXTGYVDMYKAMKIYHEVGFDGFFIDDHVPNTYQDTQWGHRGRAFANGYIQAMIEAVQKEN;locus_tag=LOCUS_2480;EC_number=4.2.1.8;note=WP_010974020.1 mannonate dehydratase (Agrobacterium tumefaciens complex) [pid:33.3%25%2C q_cov:98.1%25%2C s_cov:98.2%25%2C Eval:2.6e-39],MGA_251
sequence03	MetaGeneAnnotator	CDS	3240	3710	.	-	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAITMFSSSHLGKWEKLYINLTEGERTPFKESETWLLGKKPGIISIFESDEIVYITSTSDIVKEIQQLLKSNNSHEFRKMVAIVDLAISTTYVSKGLKNKKMNQRIDKKIQGFKFRIVPIRENLRVRISDAFIAVADPRYNGPTTMSNLAIDNLPK;locus_tag=LOCUS_2490;note=MGA_252
sequence03	MetaGeneAnnotator	CDS	3864	5507	.	+	0	ID=MGA_253;product=thiamine pyrophosphate-requiring protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011085891.1;translation=MDGYEAIAKILKLEGVEWMACFPSNPLIEAVAKEGIRPIMFRQERGGIMAADGYSRTMNSSKFGVFACQGGPGAENSYGAIAQAWADSVPILFLPDGVPLQTADVKPSFWASRAYKDITKWSESINDPQRIVPLMRRAFHALKNGRPGPVLLEMHKDHMENEVTNLDEYKTQVSMPVSPSNSSVKDSLKILLSAKNPVIWSGQGVIYGNATQELKKFAELLKIPVITTMPGKSSFDERHPLSLGSANRTAPKAVWHWLKESDLVFAIGSSLTITNYGITIPEGKNIVHSTNNIEDINKDYSVEYGLVGDSKMVLDSLLNELNSNKKSIEKFINDKETNIQDDIQKIKKDWMKEWIPYLESSMEPINPYRLINEINNNIDHEKSIITHDAGHPRDQIMPFLTSTIPNSYIGWGKTTHLGYGIPLMIGAKIAHPDKFCMNFMGDAAFGMSGLDIETAVRSDTPITTVLMNNSTMGGYSVRYPQSIERYGAINLSGDYAKIAEGMGAIGIRVTKTEEIGKAIQKAQKHNKDGKTVLIDVKTQPELKMSVY;locus_tag=LOCUS_2500;note=WP_011085891.1 thiamine pyrophosphate-requiring protein (Bradyrhizobium diazoefficiens) [pid:44.2%25%2C q_cov:98.7%25%2C s_cov:98.3%25%2C Eval:1.1e-126],MGA_253
sequence03	MetaGeneAnnotator	CDS	5516	6688	.	+	0	ID=MGA_254;product=mandelate racemase/muconate lactonizing enzyme family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011028331.1;translation=MKTTGFKTMVLGTPWRNLTYIKIETDQGIVGIGEARVLGKTHTVTEYLKDVERHFIGHDPFDIESLYRRLTLLDFGKPGEVVYTGLALVELAYWDIIGKFCKLPIYKLMGGKVKDKIPAYANGWYTVERSPQQFSEAALNVIEKGYIGMKFDPFGNGDLEMDREEFFKSIDLIEAVSSTVGHKAQIMLEMHGRFAPHQAREIAKAVEKFNPAWLEEPTRPGDIPALKSVRNHTSLPIATGERLYGANEFREVWTSQCVDIIQPDITQTGGILEAKKISSTAESYSIMVAPHNVGGAISTSAAVTLVSTLRNGKIVEHFNDFADPHVKNVADNYPEVTDGYFELSEKPGWGIEIXEDFIKDNPPEKYNNIALDPGLNMFENPNWAQRGQSR;locus_tag=LOCUS_2510;note=WP_011028331.1 mandelate racemase/muconate lactonizing enzyme family protein (Streptomyces) [pid:48.1%25%2C q_cov:93.6%25%2C s_cov:94.8%25%2C Eval:1.0e-104],MGA_254
sequence03	MetaGeneAnnotator	CDS	7074	8492	.	-	0	ID=MGA_255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLVSFIDFKIESSTDLYDYLDNWLKSVQKFSNEEDHNIKKNFISTKNHIEITNDFEQANFRQLVNYFKSPEVLPALIIIPDSRYFAKNLIELVEKIIQINSLNCKVQCINSSWNDPINDGINRLTLNGLLSETEIKKRNSVVFKVNRGEVVTKAPIGYKIGSEGDLVIDKTHETVVKKIFSLYTGTNINGFNLLKNRLGLRKISSYLNNEGIRTKKGNWWSPSSVDVVLKNRTYTGIYQRSGLIITNNHPSLISEDIFQKVQKIRESKKNIRRPRETRLVFKKGLIRCGICSRNMNFKNIVRIWKNINGYSRKENYRYYYCLSLSCSGENTNHIRFEILFEEIVKQIIKISKDYKKSLNNKXVYWKFSRNDEFNEKKKVIEKNFLATLRKVSKGKISIESLKVYIERLNKIDENSYSEQTINIENIFSEFSNSDVQNKERILFFINNLINMIYIKNNSVRINIKDPIIFDS;locus_tag=LOCUS_2520;note=WP_011861375.1 recombinase family protein (Clostridioides difficile) [pid:24.8%25%2C q_cov:60.4%25%2C s_cov:51.9%25%2C Eval:5.4e-13%2C partial hit],MGA_255
sequence03	MetaGeneAnnotator	CDS	8492	9187	.	-	0	ID=MGA_256;product=C4-type zinc ribbon domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047987.1;translation=MWDKLFSLQEVDTKIQINLKDKDDLNEKILLEDGKKAKESLLNEIKNAITKYQVQINKIESKIQELQNKKTDIQKKIYGGLVSNVRELQALKNEDDQLEKDINELNNYANKFFSKLSLMEENLDKITQEVDILKENWNKNFPELEKRSEDLEISIKENMSNRDILFNSIPDDLSMIYQRLLKAKDNIAVSKVSAGTCSVCHVKFPLSTEKELMLGKEIVFCDNCGRILVII;locus_tag=LOCUS_2530;note=WP_012047987.1 C4-type zinc ribbon domain-containing protein (Clostridium botulinum) [pid:24.8%25%2C q_cov:97.8%25%2C s_cov:93.4%25%2C Eval:1.5e-10],MGA_256
sequence03	MetaGeneAnnotator	CDS	9312	10820	.	+	0	ID=MGA_257;product=pyruvate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003436250.1;translation=MTSSKTSFYKIPKFLISKPKTRIICTIGPSSSSKKQIKEMILEGMSVARLNLSHGNAQFHKMCIENILEMSKQLDAPVGILADVPGPKFRIGKIETDILKLTKNDNIIIDLSSENNKNDSSSNLQPSLKVWPPGIENEIQIGSELLLDDGSIKIKVSSINKEKINCIVENSGILKSNKSLVIPGKGSKLNYFTPETKESLEFIANNEIDFVGLSYVRSENDVERVKDFFSNKTNKPKLISKIELPLDLITLEKIIKSSDGVMVARGDLGVQIPISKVPSFQKKIIKLSNKIGKPVITATQMLESMIESPNPTRAEATDIYNAVNDGTDALMLSAETSIGKFPIESLKKMSEIALEAEKDFDHINFMENRNNEDLTTLVDEAISYGACKTAHSVQAKLIIAFTESGSTAGRIASFRPEKPILALVANKSVTKKLSINWGVIPLPAPKFFKVQEMFSAGSKAALETKLAENGDMAVLVVGMPIGVPGNTNLMRIMKIPEPELNN;locus_tag=LOCUS_2540;gene=pyk;EC_number=2.7.1.40;note=WP_003436250.1 pyruvate kinase (Clostridioides difficile) [pid:38.2%25%2C q_cov:95.2%25%2C s_cov:80.2%25%2C Eval:1.4e-96],MGA_257
sequence03	MetaGeneAnnotator	CDS	10832	11644	.	+	0	ID=MGA_258;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIVDFQITKNISIKGFSLIRSNNDRLLLFVHGLASNSTLFLPLANKLFKLGYSSIGIDLRGHGNSSKPSNGYTLETFSEDISIIIRRHLKVKPIFIGQSMGANLGVMLAKEKKPIIQGCICIDGGFINLKNKFPNWKECEKQLTPPNLDHLQLPKLKELIEINHSDWPNLSIQGTLNNWKIFNNLKIKKKLSIKKHLLLLKSLWNQEPNNINQLNVSTLLINSTIKQNFENLPSNTKMINLEGDHDIHAQKPDLISKIINDEISKGFFR;locus_tag=LOCUS_2550;note=WP_003245141.1 alpha/beta hydrolase (Bacillus) [pid:35.4%25%2C q_cov:30.4%25%2C s_cov:30.6%25%2C Eval:3.1e-08%2C partial hit],MGA_258
sequence03	MetaGeneAnnotator	CDS	11641	12681	.	+	0	ID=MGA_259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTEINILTIFGSGETSPYMAKTYRSIFNSYPNLKIKNPVILNTPFEFQENSNILSQKIFDYFEKRLNLKPTISSLRQNSPKSIDIENITTEIKKSDFLFSGPGSPTYALDLWKKTKIDKIIKSKIYEPGIIAFSSAAALTLGTYTLPVYEIYKAGIKPYWEKGLDLLNFLGTKTIIVPHYNNQEGRDHDTSHCFIGENRFKKLLDNLQEDFIYIGIDEHTACIFNINESKLQVMGKGQVHFGSKSKIFSINNGDSLNFEDILYKQKITPNLNKIPKENFKNHHSDPTAKDSSNEVSIEIEELIKIREIARSNNNWDLSDKIRSILESKGIKIKDTQEKTSWEKNN;locus_tag=LOCUS_2560;note=MGA_259
sequence03	MetaGeneAnnotator	CDS	12678	13595	.	-	0	ID=MGA_260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYFRLNNFYVGSYEGAPDSYWDSSLVVQSGDQVFSLGAMEFQDLYHIVKETSEKENTNFSLDSYVETLINDSTPRMDFDWSGIDGNNVKSPIFPEEVWAAGVTYSDSMRERQAESETPDVYAKVYSADRPEIFFKGTGGRMQGPGQELGIRKDSGWDVPESELAVIIINGDIAGYTIGNDMSSRSIEGENPLYLPQAKVYNKSFSLGPCIISAEGIDPQNLEVGLEISRGKDIVFEGKSSTSQMKRNVHELVEWLKKSNDLPEVAVLMTGTGIIPPQDFTLKEDDIVKINIEKIGTLTNKIVKV;locus_tag=LOCUS_2570;note=WP_011122036.1 fumarylacetoacetate hydrolase family protein (Rhodopirellula baltica) [pid:49.5%25%2C q_cov:69.8%25%2C s_cov:75.3%25%2C Eval:6.1e-51%2C partial hit],MGA_260
sequence03	MetaGeneAnnotator	CDS	13598	15490	.	-	0	ID=MGA_261;product=molecular chaperone DnaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003531910.1;translation=MAKVLGIDLGTTNSAVAIMEAGEPTIVENKEGRRTTPSVVAVNPKTNERFIGELARRQSVTNSENTIYSVKRFMGGRFDDSSVKSDGKKVSYKISKAKNGDVSVKMNGEDHSPPEISSMVLQKIKEDVEQKVGEKISKAVVTVPAYFSDSQREATKVAGKIAGLEVLRIINEPTAAALAYGLESKGDQTIAVYDLGGGTFDITILQLGEGVFEVKSTNGDTHLGGDDFDNILLDYVAEEFKSENGIDLRDDPAALQRLRVESERAKIELSSVNQTEINLPFITADANGPKHLVFSLTRAKFEQITSSLIERTVKPCKQAIKDADLNNSQIGELILVGGMTRMPAVVEKVKEIFGKEPNVGINPDEVVALGAAIQGGVLEGDVKDVLLLDVSPLTLGIETLGGVKTTLIERNTTIPTTKSETFTTAADNQPSVEIHVLQGEREMASDNVSIGRFNLDGIPPAARGVPQVEVTFDIDADGILKVSARDKGTNKEQHITITGRSGLDDSEIDRLINEAEENSEKDKTKREGIEARNLGESTVYAAEKLLNEQGDKVPEEMKKEIETSTSELKEILAEEDPDVAKLTEATNNLQTSMQKLGESIYSQSENDDAGQDSGDDGSKDEPVEGEYKEV;locus_tag=LOCUS_2580;gene=dnaK;note=WP_003531910.1 molecular chaperone DnaK (Sinorhizobium meliloti) [pid:59.7%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:2.0e-215],MGA_261
sequence03	MetaGeneAnnotator	CDS	15512	16033	.	-	0	ID=MGA_262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEKKKKNISRSKKKNNKLEELEKERDDYKILAQRTQADLINSRKRMLKDIEDAKNRNIKKNILEFLPLLDDLELALSSMEDDNGWTEGIRAIQSKFVNILENIGVSVIDDLKDFDPRLHDAVLISSDENRDSGEISKVFSSGYKLKDEVIRPAKVEIINNESLKNDEIQKNK;locus_tag=LOCUS_2590;note=WP_003721982.1 nucleotide exchange factor GrpE (Listeria monocytogenes) [pid:33.1%25%2C q_cov:79.8%25%2C s_cov:74.3%25%2C Eval:4.1e-13%2C partial hit],MGA_262
sequence03	MetaGeneAnnotator	CDS	16045	16476	.	-	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSMLLVLNFMHKKIMNFDDDLKLNRTEGDIVGVYIISVAARLMEMHPQTLRKYDRAGLVSPSRTVGMLRLYSDADLIKLRIIKRLVENYGINLAGVSLILDLIEILTKILQHTEEQNEINWIEKNDKIEKMINMALKEISYI;locus_tag=LOCUS_2600;note=WP_011227989.1 helix-turn-helix transcriptional regulator (Thermus thermophilus) [pid:46.2%25%2C q_cov:72.7%25%2C s_cov:44.6%25%2C Eval:1.3e-17%2C partial hit],MGA_263
sequence03	MetaGeneAnnotator	CDS	16579	17364	.	+	0	ID=MGA_264;product=redox-sensing transcriptional repressor Rex;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_027479676.1;translation=MQKIKRKFKNESKLLNLVSKKPKSELLQKKQPNSKIRQDDSYRKIVYPAVLFNNVPEIVIQRLPIYIRILSKIQKQGEPKISSKILGELSGISPGIIRKDLNYFGRFGKQGSGYQVKELKETLKTILGLDGTWNVAVIGLGKLGNAIASYPGFEKAGFRIVALFDTNKTLHGKKIGRITIQSLNELKRSVKTRNIKIAIISTPSNQSQNVVNKLVDSGIKCILNYTQSSLKVPKEIIMKPVDPISTLQSMAFYLKNDHLNK;locus_tag=LOCUS_2610;note=WP_027479676.1 redox-sensing transcriptional repressor Rex (Deinococcus radiodurans) [pid:33.3%25%2C q_cov:77.0%25%2C s_cov:94.8%25%2C Eval:1.9e-31],MGA_264
sequence03	MetaGeneAnnotator	CDS	17389	17808	.	-	0	ID=MGA_265;product=F0F1 ATP synthase subunit epsilon;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004195832.1;translation=MKLLDIEIVTAEKTIFSGQASLIQIPGIEGELGILPSHAPIITELDPGEVLIKNEKEVLSLVLSGGFVEVFNDKVTILADAAERTNEIDIEKTKEAIEKAEKIVESKGSDIDIQKALFVIRASKAQLRVANRRRSTKSL;locus_tag=LOCUS_2620;EC_number=7.1.2.2;note=WP_004195832.1 F0F1 ATP synthase subunit epsilon (Burkholderia) [pid:39.8%25%2C q_cov:95.0%25%2C s_cov:94.3%25%2C Eval:5.6e-20],MGA_265
sequence03	MetaGeneAnnotator	CDS	17817	19220	.	-	0	ID=MGA_266;product=F0F1 ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393855.1;translation=MSEKNVGKVIQIIGTVVDVEFESDNLPSIYNALEVEYDDGKLVLEVEQHIGNNWARCLALGPTEGIPRGAKVVDSGGPVTVPVGKASLGRIFNVLGEALDNLGDVNAEEKWPIHRPPPSFEQQSGSTDILETGIKVFDLITPFSKGGKVGAYGGAGVGKTVIITELIRNIAQEHSGVSVFAGVGERSREGNDLWHEMQDYGVLDNTALVFGQMNEPPGTRARIALTGLTMAEYFREKGKQDVLFFVDNVYRYILAGMEVSALLGRMPSAVGYQPTLSTEMGDLQERITSTTDGSITSFQAVYVPADDYTDPGIVTTFGHLDASISLERSLSEQGLYPAVDPLASSSRILEPAIVGEEHYNVAREVQRVLQRYRDLQDVIAILGVEELSDDDKLTVARARKIQRFLTQPFHVVEVFTGIPGKYVKTADTVKGFQEILSGKHDELPEQAFYMVGTIEEVVEKAKDLAKS;locus_tag=LOCUS_2630;gene=atpD;EC_number=7.1.2.2;note=WP_011393855.1 F0F1 ATP synthase subunit beta (Moorella thermoacetica) [pid:66.3%25%2C q_cov:98.5%25%2C s_cov:99.6%25%2C Eval:1.5e-180],MGA_266
sequence03	MetaGeneAnnotator	CDS	19243	20103	.	-	0	ID=MGA_267;product=F0F1 ATP synthase subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258894.1;translation=MANLKELRRRIKSVSSTARVTKAMQMIAAAKMRRAQQKVVDGRPYSEKIHSILSHLNLVNYDDEDFELSIHENLTGTKELCLMITPDRGLCGALVSNITKVALTNSENIEEEVVFITIGKKASSLIVRLGKDLKAQFGVSDMPEIQETLAVSKLVMDELKTGQYKSVSMIYSEFVTTAIQKPVKKTLIPVEISDDEEQIPLDYIFEPDIEKLLNTLIPRYIEMEIYHGVLEATASEHSARMVSMQNATDNANELLDDLTLELNKARQQVITSELLDLVGGMIAQEG;locus_tag=LOCUS_2640;note=WP_012258894.1 F0F1 ATP synthase subunit gamma (Chloroflexus aurantiacus) [pid:36.9%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:3.3e-51],MGA_267
sequence03	MetaGeneAnnotator	CDS	20113	21627	.	-	0	ID=MGA_268;product=F0F1 ATP synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393857.1;translation=MALRGQDIASIIKRQIEDYGSELSLIDVGTVVEAGDGNARIHGLSNVKYSELLQFPNDTLGLALNLEEDSVGAVILGEFTHIKEGDEVKATGRIVEVPVGESLIGRVVDPLGRPLDGQGPIQSDSTNPVEKIAPNVVSRKSVDQPVQFGVKVVDALVPVGRGQRELIIGDRNTGKTTVAMDCIINQKGGDLICVYVAIGQKSSKVAAVVDTLKEHGAMDHTFVVAANASDASSLQYLAPYSGVAMAEFFMDQGKDVLIVYDDLSKHAWAYRQMSLLLRRPAGREAYPGDVFYLHSRLLERAARLDESAGGGSITALPIIETQAGDVSAYVPTNVISITDGQIYLESDLFNSGIRPALNTGLSVSRVGSSAQTKAMKKVAGSLKIELAQFRELASFAQFGSDDLDEVTKRQLQRGQRLQEILKQPQYSPVTVENQVSMLYLASKGYLDDIDLEKILEFEKVWVEYASNNIPGVMKGISETGELSGENEKEIDKVISDCKKMFTAG;locus_tag=LOCUS_2650;gene=atpA;EC_number=7.1.2.2;note=WP_011393857.1 F0F1 ATP synthase subunit alpha (Moorella thermoacetica) [pid:62.7%25%2C q_cov:99.8%25%2C s_cov:99.2%25%2C Eval:3.0e-179],MGA_268
sequence03	MetaGeneAnnotator	CDS	21649	22188	.	-	0	ID=MGA_269;product=F0F1 ATP synthase subunit delta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003425856.1;translation=MAKEPSARRYAEAIFQIDNVDLNKDNWSQKLKFLTELACNNDVLSLMNEPHVPLNIKKDGIKKLCSGFTKKQLNFVFLLLERGQFDLVIDISDRLSEMTDDIEGIKRAKIISAVELKKDFMEKIEKKLGDLTNSKVIGVNEIDESIVGGIVVRFSDQVLDMSIKGEFLKMRDSFSKSNI;locus_tag=LOCUS_2660;EC_number=7.1.2.2;note=WP_003425856.1 F0F1 ATP synthase subunit delta (Clostridioides difficile) [pid:24.3%25%2C q_cov:95.0%25%2C s_cov:95.6%25%2C Eval:3.1e-11],MGA_269
sequence03	MetaGeneAnnotator	CDS	22194	22682	.	-	0	ID=MGA_270;product=F0F1 ATP synthase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183008.1;translation=MEDLGINLPGLITQVISFLILLFVLSKLLYKPVIKMLDDRADRIKESLSAAEKAKEDAASSAEKIEKELISARQEGQKIIDQAKQFSEDFKEKERSKALEEIENLIEKSKIDLEKETRVAINELRKNFSSLVLEAAEKVVNKEIDDNTHNKLIEKVLKENVK;locus_tag=LOCUS_2670;gene=atpF;EC_number=7.1.2.2;note=WP_011183008.1 F0F1 ATP synthase subunit B (Mesoplasma florum) [pid:24.3%25%2C q_cov:93.8%25%2C s_cov:85.9%25%2C Eval:3.1e-09],MGA_270
sequence03	MetaGeneAnnotator	CDS	22739	22999	.	-	0	ID=MGA_271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDLVYGNISALAAALAIAIGSIGPGLGIGMLAGKAMEALGRNPEARGPIQQNMILAIAFAEAIAIYALVVAIIIIFVADSKIPTV;locus_tag=LOCUS_2680;note=MGA_271
sequence03	MetaGeneAnnotator	CDS	23070	24155	.	-	0	ID=MGA_272;product=F0F1 ATP synthase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258899.1;translation=MKRIFILVILGIFFIVALAAGPLGSIIPGGGFFQSPVAHIQLPAETVFKLPFFFTDYSVTNTSISLWIAILLLILISFLGTRNRKDVPGRLQNFLEIIVEFFLNLVESVSGSKAGRKFLPVVMTIFLCVITSNWLGILPGVGTVGLVETAEVLCEHKSHHLHHSDDHHSDDHHDSHHSSKCTDDVLKEIGDEKLTPFQGTGFLKIIVPGTKDEETKKLSTVVGDSNTGRLLPIIRGASTDLNTSLAIGIVAMIFVQIWGFQALGIKGYGSKFISFKSPIMFFVGLLELIAEIARIISFTFRLFGNMFAGEVLLVAMAFLIPLIGIIPFMGLELFVGLIQAFIFAMLTLVFGVSAIADHNEH;locus_tag=LOCUS_2690;gene=atpB;EC_number=7.1.2.2;note=WP_012258899.1 F0F1 ATP synthase subunit A (Chloroflexus aurantiacus) [pid:34.4%25%2C q_cov:95.6%25%2C s_cov:96.5%25%2C Eval:7.0e-44],MGA_272
sequence03	MetaGeneAnnotator	CDS	24178	24432	.	-	0	ID=MGA_273;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIKYFRNSRFVFKGQNKTIELLVQLSGIGWFIAISIAGFAFLGVWIDSLIGLKPIGVIVGMLLGIILAGFGSFKMIKRILND;locus_tag=LOCUS_2700;note=MGA_273
sequence03	MetaGeneAnnotator	CDS	24445	25005	.	-	0	ID=MGA_274;product=bifunctional nuclease family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257304.1;translation=MIEMVIDSIRVSLSNYQRVVILKQKENDRYLPIWIGPAEADSIAVRLQDVSVPRPLTHDLLITVIKELGASIDHIVISGLDNDTFFSKIVLKKGSDFFSIDSRPSDAIAVAVRSNVPVFVKPEVLEKAGVRIDNEKGIIIGSDKENQNLEKTVPVDQKELDKLSAFTDFIDSLDLDDLGKGTVEKK;locus_tag=LOCUS_2710;note=WP_012257304.1 bifunctional nuclease family protein (Chloroflexus aurantiacus) [pid:42.4%25%2C q_cov:95.2%25%2C s_cov:93.4%25%2C Eval:6.3e-34],MGA_274
sequence03	MetaGeneAnnotator	CDS	25068	25904	.	-	0	ID=MGA_275;product=orotidine-5'-phosphate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931823.1;translation=MLNWVSKLDSIIKERKTVLCVGLDPQDSLVKKLGFDSLYQWGAAIIDATKDFVCAYKFQLAFYESLGSKGIRDMEKTIEYAKSSGVLLIGDAKRGDIGNTAEAYAKALFDTWKFDVVTVNPYLGFDSIKPFIDREDKGAFVVCRSSNNSASQIQDILVKSKNSDIELYQHVYHLIENYDQKNNAGLVMGSTNLEPLRRIRLLNDDIPLLIPGIGAQGGVIEDVVPISLSKKHNGRCIFPISRGIIFPNSSKTNFEDYLSSVNKKADLFCNKMRSYISS;locus_tag=LOCUS_2720;gene=pyrF;EC_number=4.1.1.23;note=WP_010931823.1 orotidine-5'-phosphate decarboxylase (Chlorobaculum tepidum) [pid:36.9%25%2C q_cov:93.2%25%2C s_cov:93.8%25%2C Eval:2.0e-42],MGA_275
sequence03	MetaGeneAnnotator	CDS	25915	26586	.	-	0	ID=MGA_276;product=molybdate ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005815806.1;translation=MSLGIIEINIILLSLKIAFFSTLITTIFGFLIAFYLEKSQSWISFLVDVLVSLPLLMPPVIIGYALLWIFSPLSPIGTVIENLFGNSIVFTWVAASLAAAIVSLPLVVNMFRVSLLNIGPELENSAKTLGLSNIQIFLFIIIPVAKKGLIAGIMLGFFRSLAEFGATIIVAGNIPGISQTLPLAIFTRISSGDDSGALNLIIISVTLGVISITINKLILSKKV;locus_tag=LOCUS_2730;gene=modB;note=WP_005815806.1 molybdate ABC transporter permease subunit (Desulfitobacterium) [pid:36.6%25%2C q_cov:91.9%25%2C s_cov:89.1%25%2C Eval:1.7e-35],MGA_276
sequence03	MetaGeneAnnotator	CDS	26592	27383	.	-	0	ID=MGA_277;product=molybdate ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461081.1;translation=MIFFNIIFIMSRIAKRRNIIFFLVLVLSILLISCKKISFEDDIIVLAAASLSDPLSEISEKYQVSNVYFDFAGSYTLSNKIRMGSNADIVIFAGIDPLEDLVKEKYIKENSVSILLKNQLTLICSKKIQCPETKNVFENRSFKIAVADPKLAPLGKYSKIFLEENELWERVEKQLVYNLDAQATIASVESGNVPLGIVYSSDALTSDLVEVILDLEFKSLKIEYPVAIIDRTKNEEKALKFLRYLQSNESAEIFSKFGFSSLE;locus_tag=LOCUS_2740;gene=modA;note=WP_011461081.1 molybdate ABC transporter substrate-binding protein (Desulfitobacterium hafniense) [pid:34.5%25%2C q_cov:83.7%25%2C s_cov:81.0%25%2C Eval:1.7e-27],MGA_277
sequence03	MetaGeneAnnotator	CDS	27395	28213	.	+	0	ID=MGA_278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKVKYDFSSFSELDFYRKVNTRLIELAEVDKLAKIIELGCGTGGVTELILDRVNSAKNTVIYAIDSSASAISASLSRLESRKEAILKFIQTEAQNLQTTVKDQVDSVIYCNSIHYINNKMDMVNQIGNSLKKGGTFAFNTSFYSGSHPPETEIFLRKWMFKTIKLLKKRYGIMPVKMEKVESRVQLTPDNYTELILSNGFYIKEKEVIEVDVPLDGWYHICSFKDWIEGVLPGVPLSKGKEILQETVKELFDEMNINTLQRNWLSVVAVKK;locus_tag=LOCUS_2750;note=MGA_278
sequence03	MetaGeneAnnotator	CDS	28214	31474	.	-	0	ID=MGA_279;product=carbamoyl-phosphate synthase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392401.1;translation=MTQEISKVLIIGSGPIVIGQAAEFDYAGTQACKSLREEGIEVVLVNSNPATIMTDLDVADKVYIEPLIPEIIEKIIIEENPDGILGTLGGQTGLNLVMELDELGILNKYNVKVLGTSISSIKMAEDRDEFRILMNSLNEPVPKSFACSSIQESLDAADQIGYPVVVRPAYTLGGSGGGVAENEEMLKTIADSGLKASRVNQVLIEESLVGWKEVEYEVIRDSFDNAITICNMENIDPLGVHTGDSIVVAPSQTLTDKDYQLLRSASLKIIRALSIEGGCNIQFALEPYWISDPNRGELIRKQRYYVIEVNPRVSRSSALASKATGYPIARIAAKIALGKKLDEMTNVVTQKTTAAFEPALDYCVVKIPRWPFDKFELGDRTIGTQMKATGEVMAIDRTFEAAFLKALRSLDIKNQSQLSELDEVGPTIDLNPSDSRIWRVMTALRKGMDPIDLSRKTGFDPWFSNSFLKIIKMEKELSSNVIDSSILLKAKRMGFSDSDISRILKISTEEVRNKRIEFGIIPTYKMVDTCAAEFEAFTPYFYSTYETENEALPIHKDKVIVLGSGPIRIGQGIEFDYCSVHAAWALNKINKKSIMINSNPETVSTDFDTSERLYFEPLDEESIRNIIDNEIYGSKKPKSIVQFGGQTAVNLATSLDDSSNPIMGSSAKTIDNASDRVPFEKITESLKIPQPPGGEVSNINEAIDVANSVGFPVVVRPSYVLGGMSMEILQNVKELEQYFDSHSSLFQDFRGSLLIDRYIEGIEVEVDAVCDGQNILIPGIMEHIERAGVHSGDSIAVYTPINLTKEEVDIIVQHTKDIGVALGIKGLMNIQFVIKRSVVKEEKGQKSKVYILELNPRSSRTIPFISKITGIPMIDIAVKIMNGSALKDLGYENQLIPNKNFYAVKAPVFSMSKLTGVDTFLGPEMKSTGEVMGIDNSFQSALSKALISSQLQLPPEGKLLLSIADRDKMNSKKLIKLINSKGYKFAATPGTADLIESLGFTSERIEKVLSRHPNAVDLIEDKSIIGVINTVTGDRKTLQDGFQIRRISTERKIPCFTSLDTAYAAIDSSSIGIDLKVKSLEKFVSY;locus_tag=LOCUS_2760;gene=carB;EC_number=6.3.5.5;note=WP_011392401.1 carbamoyl-phosphate synthase large subunit (Moorella thermoacetica) [pid:53.3%25%2C q_cov:99.1%25%2C s_cov:99.5%25%2C Eval:0.0e+00],MGA_279
sequence03	MetaGeneAnnotator	CDS	31484	32596	.	-	0	ID=MGA_280;product=carbamoyl phosphate synthase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001830071.1;translation=MNNHNKKAYLYLDDGSIYSGISIGSEKESNGEVVFNTSMTGYQEMLTDPSYGGQILIATYPLIGNYGINPYFNESNNVQVSGFIVRSLCDFPFHNLSTLSLGDFLIQNNIPAISDIDTRSITKKIRSKGVMKGLITLNSDKKRALKILKSTEDYDQKDLVSSVSTKTSYEYIGQKENHINREFNIVLVDLGVKRNILRILDSKGCKITVLPWNSNAETILGFNPDGIVFSPGPGDPSRLDNIVNVVKDIIGSVPMMGICLGHQIIARAFGFDTFKLHFGHRGGNQPVKDLNKGKVYPTAQNHGYAVKSDISNDEIEVSHINLNDQTISGLINKKDSVITLQYHSEASPGPQDSEYLFDDFITIMKKFNKK;locus_tag=LOCUS_2770;note=WP_001830071.1 carbamoyl phosphate synthase small subunit (Staphylococcus) [pid:46.2%25%2C q_cov:98.6%25%2C s_cov:97.8%25%2C Eval:3.3e-89],MGA_280
sequence03	MetaGeneAnnotator	CDS	32589	33893	.	-	0	ID=MGA_281;product=dihydroorotase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861243.1;translation=MNKSTPMVIRNIRLKDDDSKISNNFFDVFIKNSLIEDVIKSKIDSRYEDYLEVDGKGNIMSPGLVDLHAHFRDPGFTYKEDLKSGSNAAVNGGFTTVVLMPNTEPPIDNPDIFDDQLDRSKDLSVRLLHTGCLTKQRKGEVLLDSKDFNSMIEKGSVGFSDDGDHLKKSIMIEDALKVFSGRVPLMDHPEDHLFLDDGVMNEGVVSTRLGLIGRPKEAEIRSVEQNLNIAKKTGGWIHLQHLSCGESVDLVNEAKINGVNVTSEVTPHHISYTENQIEINKFDTQFKVNPPLRTEIDRVKCLEGLENGIIDVVATDHAPHSYIEKREIFSDAPSGINGLENAFGLVASNIGIGKAIEKMAENPGSIIKKISGLKIGEIRRGYIADLTIISDENWILDLANIKSKSKNYVMNDKNDFLKGKPIITIFEGKLINNE;locus_tag=LOCUS_2780;EC_number=3.5.2.3;note=WP_011861243.1 dihydroorotase (Clostridioides difficile) [pid:39.8%25%2C q_cov:98.4%25%2C s_cov:99.5%25%2C Eval:9.9e-75],MGA_281
sequence03	MetaGeneAnnotator	CDS	33886	34785	.	-	0	ID=MGA_282;product=aspartate carbamoyltransferase catalytic subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583924.1;translation=MSFIDTDNLNNKDIQRLIDKAGFFKKTFLDTKQIPKYLEGKIITTLFFEPSTRTRTSFDIAGKILGAQIINIQVDYSAVKKGESFLDTIKTLNSMPIDGIILRHPKSGASYFADKNLDXPVINAGDGSFEHPTQALGDLFTLNETLGKVKGLKITIVGDVLHSRVARSSIKSYLEMGCEITICGPLEFLPKFNFNYGEIVTENLDEALKNADVIMTLRIQNERLHESEKMNLNRYISDYQINKENLGKAKLMHPGPVNQGVEIEIGLINDSRSLIGLQVNNGLFMKMAILQEYLGDQNE;locus_tag=LOCUS_2790;EC_number=2.1.3.2;note=WP_012583924.1 aspartate carbamoyltransferase catalytic subunit (Dictyoglomus turgidum) [pid:45.2%25%2C q_cov:99.0%25%2C s_cov:96.5%25%2C Eval:2.3e-63],MGA_282
sequence03	MetaGeneAnnotator	CDS	34782	35369	.	-	0	ID=MGA_283;product=bifunctional pyr operon transcriptional regulator/uracil phosphoribosyltransferase PyrR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003431186.1;translation=MQGFLMDSFLDKELLPKVLMTSNQVRKALIRISHEIYEKNNDFENLVILGIPTRGVHISNRIVKILSQLYSVNVKSEILDPKYYRDDISYXDKKGLKFSKISENLENKIIILVDDVLFTGRTTRACLNAILDFGRPRSVQLAVLIDRGHRELPIRPDFIGKNIPTSRDEVVRVLLEEEDLVDEVVIINQESSVTQ;locus_tag=LOCUS_2800;gene=pyrR;EC_number=2.4.2.9;note=WP_003431186.1 bifunctional pyr operon transcriptional regulator/uracil phosphoribosyltransferase PyrR (Clostridioides difficile) [pid:49.1%25%2C q_cov:86.2%25%2C s_cov:95.5%25%2C Eval:7.3e-39],MGA_283
sequence03	MetaGeneAnnotator	CDS	35483	36589	.	-	0	ID=MGA_284;product=glycine oxidase ThiO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000333314.1;translation=MKIGVIGGGIVGSSAAYYLSKFGYKPVVFEKDGVAAHASGFAQGGLNPNVNPFSIDFKLHKLAFNLHKEIKADSYLKNLLDPQYVKKSIVLLTTNRKEQLSFKSLLKIFTNTTSSSTRWLEPKEIQNIDSRVSNEILGGVYYEDYMEVNALKLSELLLKASQEMGAEYVLGEVDNILVKNGSVVGLEVNGEKQYFDVVLISSGPWCTTLLEKNDIHLPLFPLKGQXLRLENPGLDFQVAFSWGKDYLTQKEDGLLWVGTTEEKVGFDDKITSEGKEVILNTVEKFFPDIRKLKILKQTAXLRPVTPDNLPIIGETDIANLYIGTGAGRKGIKLGPAIGNLASRIILGKDLQLDVSPFSLNRFRNLAKR;locus_tag=LOCUS_2810;gene=thiO;EC_number=1.4.3.19;note=WP_000333314.1 glycine oxidase ThiO (Bacillus cereus) [pid:25.2%25%2C q_cov:92.7%25%2C s_cov:93.2%25%2C Eval:9.2e-23],MGA_284
sequence03	MetaGeneAnnotator	CDS	36844	37734	.	+	0	ID=MGA_285;product=2-hydroxy-3-oxopropionate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_072771929.1;translation=MKEKIGFVGLGIMGKPMASNLLDAEYSVNAYDLISKNLDSLLEKGIDSSASPKEVAENSDVIIVMVQNSPQSENAILGENGILNGASKGNLIIDMSSISPLVSQKISNECEKKGVDFIDAPVSGGEPGAIEGTLAIMVGGNSSSFERAKPVFEILGSSSVLCGDIGAGNFTKLANQIIVGANIHALSEALVLTTKAGLDPETVFNAIKGGLAGSNVMNTKAPMMFNRNFDPGFRIELHLKDITNAMQTANELNIPLQVTANLHQVLTSLVLHGKGKLDHSGILQFVEDQSNIEVKK;locus_tag=LOCUS_2820;gene=garR;EC_number=1.1.1.60;note=WP_072771929.1 2-hydroxy-3-oxopropionate reductase (Desulfitobacterium chlororespirans) [pid:54.6%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:7.8e-88],MGA_285
sequence03	MetaGeneAnnotator	CDS	37760	38866	.	+	0	ID=MGA_286;product=Ldh family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867978.1;translation=MLERFHVPDDIAVRVDDKKLKVVVEKIFQSRGISEKDSQIASXVLLSADIKGVDTHGVSNMLRRYLQYFDDGIAKPDANWKIIRETASCATVDCDRGLGLIVAPQCMDIAIEKAKDTGVGMVSMGNGRHLGMAGYHAAKALDHDMIGVCMTSSSSGVVPTFASKAVLGTNPIALAAPAKHEIPFIFDAATSTIATNKIRLAQRLGVQLAPGWVADKNGNPVMENFSLKTTNDPDEERLLQLPLGATRELGSHKGYSLGVVVDILGSILNGNLAGPLSNNVLHQNHFVAAYSIEAFIDTKTFKELMDKYLKSLRELPPAPGHDRVLYAGLPEHEESEKRLKDGIPLHPEVISWFENICSELGIEFDIIK;locus_tag=LOCUS_2830;note=WP_010867978.1 Ldh family oxidoreductase (Pyrococcus abyssi) [pid:35.0%25%2C q_cov:98.6%25%2C s_cov:98.9%25%2C Eval:1.6e-51],MGA_286
sequence03	MetaGeneAnnotator	CDS	38903	39394	.	+	0	ID=MGA_287;product=NUDIX hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010902608.1;translation=MERHFTSTVFVVDLLKKAILLHWHEKVGAWLPPGGHVEKNEDPIQTAKREVLEETGLNIKIVEKKNKLKFKEVTQLEPPHTILLEKIDDPKSGIHEHIDMIYIGINIQDLDTPRNWQWVTKKQLEKSLPLTKTDGLKLSPPDDVKILGIEAINYVLKNHNKIT;locus_tag=LOCUS_2840;note=WP_010902608.1 NUDIX hydrolase (Halobacterium) [pid:32.1%25%2C q_cov:92.0%25%2C s_cov:93.6%25%2C Eval:8.8e-12],MGA_287
sequence03	MetaGeneAnnotator	CDS	39429	41129	.	+	0	ID=MGA_288;product=dihydroxy-acid dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000502719.1;translation=MSNSKAPKRELGKHRSWETTEGAARAPHRSMMKAMGLTDKDINAPFVGIASTHNEVTPCNAGIGPLAEEAKKGVFAARGTPFVFGTITVSDAISMNTVGMKGSLVSREVIADSIETVVFAERFDGLIAIAGCDKSLPGSMMAIARLNVPSVFVYGGSILPGSYKGENIQIQDVFEAVGKHQKGDIDDDELYQIESRACPGPGSCGGMFTANTMSSVGEALGLSLPGSASEAAVDQRKSASSRAAGEAVLHLLRENIKPSDILTKKAFENAVTVVTSMGGSTNSALHLPAIAQEMGVDLTLDDIHEISMRTPHLADMKPAGKFLMYDLDKVGGVPLVMKRLLNLGLIHGDCMTVTGKTVAENLSNIPDNEEENTVVVKTDSPISKTGGLVVLHGNLAPDGAVLKVAGHNYGKKWAGPARVFNQEEECMEALKKHSVKSGDFVVIRYEGPKGGPGMREMLSVTSAIVGQGLGDKIFLMTDGRFSGASHGPMIGHVGPEAAIGGPIAAVEDGDLIEIDLEKFELNIKISNEEMKSRLNNIVLPKPPYTSGVLGKYIKLVQPASKGAFTG;locus_tag=LOCUS_2850;gene=ilvD;EC_number=4.2.1.9;note=WP_000502719.1 dihydroxy-acid dehydratase (Leptospira) [pid:56.9%25%2C q_cov:97.7%25%2C s_cov:98.6%25%2C Eval:1.4e-175],MGA_288
sequence03	MetaGeneAnnotator	CDS	41119	42327	.	-	0	ID=MGA_289;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005809990.1;translation=MFPKQFLYTVIPFACVVLGDSLIYLILPLSPEEFGIKDYWGLKLAFWIGIALSINRFVRIFTNFLASKYYLKFGFKFPFIISIFIGSLTTISYGINENIIIFLIARLFWGVCFSFQRLGVQLSAFEFGSDHQKARYLGFANASLRGGSLLSVVLGSLLIQITNIEITFIIFGLFGLFMMLIAILIPDFSISSISKTNHEKDLNKNNRFNLISTGLLRFSSAFTANGILLATASVFVSKVLENDNTLIGFQLTAITLGSFVLGLRWFADLFLSFIYGEISDKIGRNFVVNLCVIFMIIGCILLIYSTSSLELMILSFLLLFFFSVGTDVSLESITGHLSGDSSRSIELSKFNTWADFGSAIGPFIGFVILGVSGFQVIFIISATIIFFTWIIFLIGLKNITIQ;locus_tag=LOCUS_2860;note=WP_005809990.1 MFS transporter (Desulfitobacterium hafniense) [pid:21.8%25%2C q_cov:90.3%25%2C s_cov:90.3%25%2C Eval:4.1e-19],MGA_289
sequence03	MetaGeneAnnotator	CDS	42355	43320	.	-	0	ID=MGA_290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRKSGEIKNQEKTKVKTKEKTKEKTKDRVMVFIDGSNLYHVMTQNLTRHDLRFGKFSEKLAGTRSLVRTYYYNIRQNIRSDEQERFLNSLYDTPYMEVRLGIVKXRGQAMVEKGVDVMIAIDLLKCAYEDLYDTAILVSGDGDFYPAIQAVKDLGKHVEIAGFDTNISPESSKISDLVIKFNKSYFNNLWMTKTEIKKIKESFSKKEIMDEDSSPEGENKVSRNTSKNANSKSSKKPPVRRPSIRSMNGNNISKSSNRNRIDPKPNREEFKNKRLVSSGYSNGKNSHVSSPPELRNGNYKSKEKEKAKIKIFSWLKKNSN;locus_tag=LOCUS_2870;note=WP_011174153.1 NYN domain-containing protein (Thermus thermophilus) [pid:45.4%25%2C q_cov:42.7%25%2C s_cov:77.9%25%2C Eval:3.3e-26%2C partial hit],MGA_290
sequence03	MetaGeneAnnotator	CDS	43482	44165	.	+	0	ID=MGA_291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSVNFKPPCAMPNGLQCIDNEIFIMDQLTDNVFVIDQKGKIIRVINTITENGSGITIGGGFLWTASNGRTKAREYRSTDTHISWIYKLDLDSGEMIDRFPTPDGGGIHGIEWDDGKIWITAFNPKALILVDANNFKEIKKIPINQEVAHGLARVEDGIWCADRRAKEIIKYDVDNGDELEKIKFPKDGPDPHGLSIDNNGTLWYCDAVHPPPTTRDFPEIGTIQK;locus_tag=LOCUS_2880;note=MGA_291
sequence03	MetaGeneAnnotator	CDS	44162	44998	.	+	0	ID=MGA_292;product=amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011083944.1;translation=MKPYFIYDTHQHFWDFKLRDYDWIEKGSXLXKNYLPENLKPNIDQVEIDKVVSVQAHQSLEDTFWLLDLAEKNDFIAGVVGWVDLTSKDLNKHLDKLQKNSFFKGVRHVWHDETEENWIVQESVLNGIKELSNRGIPFDFLARPNHLPYIPKVFEXAPNLKGXLDHIGKPLIAEGIFXPWXKLISEISTIPNLFCKISGMXTEASEKWEXNDFNKYVYHVFKEFGEDRVMFGSDWPVCLLAGEYKQVFELPQKVLEKDLNENVKRKFLSDNAKKFYSL;locus_tag=LOCUS_2890;note=WP_011083944.1 amidohydrolase family protein (Bradyrhizobium diazoefficiens) [pid:37.3%25%2C q_cov:98.2%25%2C s_cov:98.6%25%2C Eval:6.7e-46],MGA_292
sequence03	MetaGeneAnnotator	CDS	45023	45784	.	-	0	ID=MGA_293;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003811135.1;translation=MAKSEGRVAIVTGGGSGIGKESAFALAKDGYSVAIAGRREEVLNETVKEATNEGLKMLGVQTDVGNPESVKNLFSKTLEEFGRLDVLFNNAGGGAPKILIEDLTYXQWQTVVDSNLTGTFLCSQEAIKIMKSQDPMGGRIINNGSISAYTPRPDSAPYTATKHGVSGLTKSISLDGRKXNXACGQIDIGNASTNMTERMSSGTAQADGSMKVEPTYDVKHVGETVLYMSNLPLDTNVQFVTIMATKMPYIGRG;locus_tag=LOCUS_2900;note=WP_003811135.1 SDR family oxidoreductase (Bordetella) [pid:60.3%25%2C q_cov:99.6%25%2C s_cov:98.4%25%2C Eval:1.2e-80],MGA_293
sequence03	MetaGeneAnnotator	CDS	45876	46634	.	-	0	ID=MGA_294;product=23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966431.1;translation=MPSRNKKINRDFQIEGRRSVLEALKNPSRIEKLLISDYEKIGSQIEKILKIAKKLDINVDFVTKNQLDKVSHTKKHQGVIATTTSPGYYTEKKLWDDLEENNQRIVVVLDGIQDPHNIGAISRTALAMGVFALVLPKRNSAGISPGSLRSSAGAIEHLKIVRVSNINSSLSKFKELGFWVIGLDHNSNNEINSVKVNFPSVIVVGSEGKGISELVLKNCDTTAKIPIKGPVDSLNASVAAGIAFYELLKNYQ;locus_tag=LOCUS_2910;gene=rlmB;note=WP_010966431.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Clostridium) [pid:44.4%25%2C q_cov:95.2%25%2C s_cov:95.2%25%2C Eval:2.9e-50],MGA_294
sequence03	MetaGeneAnnotator	CDS	46695	47291	.	+	0	ID=MGA_295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSEEKALIVQEAIENRRTYRKFLDEIVPSKLMSTILESAKWSPNHRKTEPWRFISISKSSKKRILISDAVKKLSIETSKNPNPKTKLNSAEKSKLEILESPELIYAFSLPGDSNEITQENYASTCISIQNMALVSYFFDISISWSTGKPTKISNLNKILEVPNEWNIVGALYIGFSEKPMNQIKVSRENHSEYTTWY;locus_tag=LOCUS_2920;note=WP_003243940.1 nitroreductase (Bacillus) [pid:29.8%25%2C q_cov:71.2%25%2C s_cov:70.1%25%2C Eval:5.4e-13%2C partial hit],MGA_295
sequence03	MetaGeneAnnotator	CDS	47294	48172	.	-	0	ID=MGA_296;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003814901.1;translation=MKHLNIMVSKHSVFYSPLIGVIAGGFLKEHGYEANYSIVPENQTVSTYLLSGEVDVAQAAVSANWSFMEQNKNTNIIHFAEINQRDGFFILSKEVSGITSWKNLENCSLIAQLGAQPFDMLRFALNKEDVDIDKINWIQAESLDSSIELFKQGNADFIHLQGPYPQQLALEGYGEIVFSVGETIGPVAFSSICCTKEFRDKNEYLIFLDAFKKAKKWVLTENLDLVAKKISSFFDEISFEVIKTTLQTYRDLGCWSLETNISRETYEASLDVFSFNKTISKRHDYSEVVVTD;locus_tag=LOCUS_2930;note=WP_003814901.1 ABC transporter substrate-binding protein (Bordetella bronchiseptica) [pid:21.6%25%2C q_cov:96.2%25%2C s_cov:82.2%25%2C Eval:3.6e-13],MGA_296
sequence03	MetaGeneAnnotator	CDS	48202	49377	.	-	0	ID=MGA_297;product=LLM class flavin-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011039542.1;translation=MKFSFFMMPLHIPIENPSLSFKRDLDWISYAEDLGFDEFWVGEHHSAGWETIPSPEMFLAAASQRTSRIKLGTSMISLPFHHPFHVAERIAFLDHLTEGRAIFGIGRCSLPTDIKLFQIPYQDLQPMMEESLEIITKLLENDEPVSYEGKYWDINDMYLQLKSYQPKIPIAIACSGSKSSLEFAGRKGLVPLSLAHPPGPYSVPISNQWKVMSEAAKKSGKKIDRKNWELVTYVYLSDSKEQAWADIESGAYRDIHEYFFNISETAREGYKSFPDQEEQDITVASVANQRSWIIGTPDDAIEAIEKLDQEAGGIGGMMITTHEWASDKKSKYSAELFARYVMPHFRGHTKDLKNAWDRTKQDFKDGKLSNASGKGNNPFEDDHKTNLHVKN;locus_tag=LOCUS_2940;note=WP_011039542.1 LLM class flavin-dependent oxidoreductase (Streptomyces) [pid:38.5%25%2C q_cov:92.1%25%2C s_cov:96.2%25%2C Eval:1.2e-68],MGA_297
sequence03	MetaGeneAnnotator	CDS	49534	50601	.	+	0	ID=MGA_298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIKRKIKINYYLYIFLSTVIFLLIFSGCSTTAGTQKDPIYILNEDGNAEIYISSTDGESEKRLTNSDGNEYSPKWSPDGKKIAFISDRNEKLQLWVMDPKGENEQLLVDLIGENEQSLVDLQNPDKSIIKKPPDFFWAPDSERISYVSFFNNQIDLRVIDLTTKTVLPVTKSIATEELGNWSSDGEWIVFTVKSGGEKLGIFKKNPLGVDEIELSTDIGSQPRWCPKGIKIAFISKRDGHEEIYTMDKNGENEENISTNDSIDIDFSWSPDGKRLTFISERDDNPEVYITTVDGLEKVRLTSNSASESNPVWSGDRILFLSNSDGDNDLYSMKPDGTDQLRITSTDGEESEPNW;locus_tag=LOCUS_2950;note=WP_010940703.1 Tol-Pal system beta propeller repeat protein TolB (Geobacter sulfurreducens) [pid:30.5%25%2C q_cov:60.8%25%2C s_cov:50.2%25%2C Eval:3.2e-25%2C partial hit],MGA_298
sequence03	MetaGeneAnnotator	CDS	50606	51469	.	-	0	ID=MGA_299;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003815464.1;translation=MNKLFVLGAGTPTPTKERFGSSIVLSIENELVMFDCGPATTHKLIKKGILPTQVNSLFFSHHHFDHNVDYPCFLLSRWDQGAGKEEKLKVFGPNLTEKITEQLIGPDGVFSYDWKARVNHPLSQKVYENRGGVLPRTPPSILSKDIKPGSTQVFDKFEVHSREGKHVQPYLDSLAYRLDYKNSSVVYTGDTSPCEDVIELSYKADVMICMCWDDQEIMNEIGENEGQCGTLGAAMMASKANVKHLVLTHMGPNINQKSEQRKSLKEMKKIFPGKITFSNELDEIFLD;locus_tag=LOCUS_2960;note=WP_003815464.1 MBL fold metallo-hydrolase (Bordetella) [pid:34.9%25%2C q_cov:97.9%25%2C s_cov:95.6%25%2C Eval:1.1e-43],MGA_299
sequence03	MetaGeneAnnotator	CDS	51549	53372	.	+	0	ID=MGA_300;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010970425.1;translation=MSKNLLEIKNLQISFRTSSEKNNIIKAVSKINLDIPSGKTIGLVGESGSGKSVTALAIMGLLPKDICEISGEINYLGRNLLKLTNSELSILRGKEISMVFQEPMTSLNPVLNIGKQIEEILEKHLSLTNNQLKNKTVSLLEMVRIADPESRTKNYPHQFSGGQRQRIMIAMALACNPKLLIADEATTALDVTIQLQILELIKDLTTSMGTTLLMITHNLGIIARYANQVNVMKEGKIVEKGSALEIYSSPSHFYTKNLLNSVPIIDVKNKNINSKTIDNSNKNPLISIKNLNVEFQLKNNHFFSKSSSTIKAVKDVSLEIFKGETFGLVGESGSGKTTIGKSIVNLVQPKSGMILLKENKSEKFSQNIKTIRKNVGMVFQDPYGSLNPRMRIKEIILEPIRVHNPKSDNENNVVISLLQKVGLHSSMMYRYPHEFSGGQRQRICIARALAHNPSLLILDEPLSALDVSIQSQIVDLLKNLQKESDISYLFISHDLATVQNLSHRVAVMYLGKLIEYGSKDSIYSNPLHPYTQALLDSVPIPDPSIETKTNRTIIQGEIPSATNPPSGCVFRTRCPKPTDDCKEGTSEMGLIEIENEHWVDQCCVNCK;locus_tag=LOCUS_2970;note=WP_010970425.1 ABC transporter ATP-binding protein (Sinorhizobium) [pid:47.7%25%2C q_cov:92.3%25%2C s_cov:92.2%25%2C Eval:8.3e-142],MGA_300
sequence03	MetaGeneAnnotator	CDS	53373	54764	.	-	0	ID=MGA_301;product=neutral/alkaline non-lysosomal ceramidase N-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000048700.1;translation=MILTGVARVDITPPIGISHAGWGAALHEKAEGIDMPLYSTSLYLKSESTEEEIIIIDLDLCILTSDLDNQIRNKITSFFPIKKENIRISVSHTHAGPALGDGVWLEGGKEYLESYKILLPELILRSVNDSVKNAIPARIGVKKGHCDININRRPADNKGNFFTGRNWEGVVDREVIVIGFDDVDGKPIATIVDYACHPTILGPENKLISPDYPGHMRFSVEQNIGGLCLFLQGAAGNQGPVHTFLGDVEIARKAGKILGLEASKLRTQLDPFKREEKLIDIVPSGADLGMYEDVSLGEPSDVINIRNKKIHLDSLEFPDVIKAEELYQKSLEKLYNARESGDESLVKSIVSETKRANFIKNLSNIAQSGKIELWIQTFRVGDVILQSIPVEPFAETGIGIKGTNVNGIQILFSGYSNGSFGYLPLIDAYEEGGYEPNNTPFAAGSAEIVEKICVEEIKNITDS;locus_tag=LOCUS_2980;note=WP_000048700.1 neutral/alkaline non-lysosomal ceramidase N-terminal domain-containing protein (Bacillus) [pid:27.5%25%2C q_cov:95.9%25%2C s_cov:92.9%25%2C Eval:5.0e-32],MGA_301
sequence03	MetaGeneAnnotator	CDS	54806	55918	.	-	0	ID=MGA_302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLSNIQVGILVGVQQVFSGLSNIPAGIITDTFRKTLGLMLAASMFFVSIGFLFLSIANYYIFILLGASLMSIGASLWHAPAFSILSNRYPDRKAYALGVHISGASAGNSLGPLLGGLLLGGISLGAFNWGGLGWKSICFINFIPCFLISLFLLLKSKKLMNPEIENVNFSNYFQNVLGSLKKTGVLVMVLLHALRGATHQSFLVYLAIYLKEYLSYSSFLIGIHLALLTIAGIVFTPVLGFLSDKIGRLPIIIFGFAMTSLLIAMILFLNSGISLIVMLFILGSVLFSIVPIISAYAMDTAGKMNEGSSIAFLFTGGSIAGAIAPVLAGLFFDRWGFDGLIFFTVSLSLLGLFIVITYTLYDSFKNKYV;locus_tag=LOCUS_2990;note=WP_012583336.1 MFS transporter (Dictyoglomus turgidum) [pid:24.1%25%2C q_cov:69.2%25%2C s_cov:65.2%25%2C Eval:2.9e-08%2C partial hit],MGA_302
sequence03	MetaGeneAnnotator	CDS	56057	56722	.	-	0	ID=MGA_303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTELKGILTFIRKLLINLVVSLPFLGFGIYGFLLNPDAIPVYASGICLGIGGFLLTVGFLLSFVASFPMPMLVEGEKELILRHPTMRPAYTRMAISVPFFGAAAYLALGTQSPYVYAFVVGLIGLWLFFKGVTRYLRNLCITYLVTDRRIIHMYKFLWLYTNEIPVGRIISIQEARSFFEIITGRGSVVVSSGIGARMTIKMEEISDPSPVANELRGLLPD;locus_tag=LOCUS_3000;note=MGA_303
sequence03	MetaGeneAnnotator	CDS	56800	58740	.	-	0	ID=MGA_304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNKFFLIVLLFIFLSSHGSFNSIVVKANDDKLTNFEPAFLNRPNYDGRIVFSSNARGNNYNLYVADAGGGDLHEITHEPGDEINPSISPDGNFVAYAQNNEGDWNITVMEIDTEHRWNLTHSPHNETNPDWSDWDRIAYQSDKYGNWDIMWKDAFGPEWDGGTSPDMEITNSPQNETNPAWGRYNYASMIAYVRDGDIWAFDDNMGQEFRTPASGGGEQVMPLWYPGDDIFPNSRGPALIYKEKNKPGLMWSGLDGGNRGPLLKTKDQNPRNIXVISASFGLSPETIGFVTKKGEIMAFNFYDRDNPSMIDVREHRGRIKDMDWGPWGSHGGPGGGFMGMGGGGNRPPGGGGGMMDRMRDMVPGGNNRGGGNNMDNRMMDEGRKMMQEQEEMQRRMMDEQRKMEEEQRERDRQREEEDRRRQDQERERRQQEDEQRFKMEEERRALELKSEQDRXSMEDERRMRXLEQRREEMEMEREMREEQIRMEEERREREREDEQERMEQQARMMEEQRRMMREEAAARGGTGPGPDGPSGPDFYVRGASEEQYNCMVKTLGQPVVEQFNFRDPRSEEYERLTNNGCEGVPELFGQEVYGDDERGFFGXPKVGALKTGGPEEMMQDPTMLAMAGLVVTVGATLLQMARGK;locus_tag=LOCUS_3010;note=MGA_304
sequence03	MetaGeneAnnotator	CDS	58795	59406	.	-	0	ID=MGA_305;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGLDWILIILFAVGGFWGYKSGLITGVLTVIALFVASIISGQFSERLVSLISNSVEGEALSTAIAYVAIYVVVFILARMLAKGIKAGLKVVLLGWVDKVGGVALGIVAGVIIIGAVVGAGARYAYVVEDGDKVYSEDVLKQMARTFAASAAREGVDGLLKGSTVTGVVVDIYRILPAGGLGMLPGDFDIAFDLLDQRRXIDS;locus_tag=LOCUS_3020;note=MGA_305
sequence03	Aragorn:1.2.38	tRNA	59568	59644	.	-	.	ID=Aragorn_4;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0040;note=Aragorn_4
sequence03	MetaGeneAnnotator	CDS	59686	60453	.	-	0	ID=MGA_306;product=aldolase/citrate lyase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001012068.1;translation=MVKQNLLKGKLESGETVIGPFCIVPSMTMIDTLGYSGMDFCILDTEHGPMDMQTITDLCIAADGTXVSPIVRVGENNERLILRAXDVGSSGVQVPQINQKSDAEDVVQSAKYSPIGHRGLSIFTRAGEYFKHAGKDHTDNQNDNTLVIVHIEGQRGLNNLDEIMSVDGIDVLFLGPYDISQSLGIPGQVTDPKVEKAIREATDKARSLGRYVGSYAKDVEMGKWLIDIGVQYLSINTDATIYMQSCEKIVNDLRK;locus_tag=LOCUS_3030;note=WP_001012068.1 aldolase/citrate lyase family protein (Leptospira interrogans) [pid:32.1%25%2C q_cov:92.2%25%2C s_cov:93.6%25%2C Eval:2.2e-29],MGA_306
sequence03	MetaGeneAnnotator	CDS	60598	61416	.	+	0	ID=MGA_307;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002658011.1;translation=MGTGSSDGIPRVSCLTKTNDICETCVSSIKPNSLNRRRNTSLLIQNYFQNKIHNTVIDIGKTFWEGAIQWFPKHNVRKLDGVIITHSHADAVGGFDHLRDWTNWIQDQVKIFIRKDDLEMVKKMFFYIFDNNPPSKYAIPQLDFELIDKNNSFTISNIXYEPIPVFHGNNYITFGYKFWNIAYIPDISGIPEESEKLFKNLDXLIIDALRPQGXHRSHFTLEQSLEVVRKYKPKKTFLTDITCNIEHQTLNNYLKXLNLNVELAYDGLSIEV;locus_tag=LOCUS_3040;note=WP_002658011.1 MBL fold metallo-hydrolase (Borreliella burgdorferi) [pid:30.9%25%2C q_cov:100.0%25%2C s_cov:98.0%25%2C Eval:5.1e-27],MGA_307
sequence03	MetaGeneAnnotator	CDS	61420	62154	.	-	0	ID=MGA_308;product=ribonuclease activity regulator RraA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011083209.1;translation=MKKXIFFEAPEHVLSADTLEKLKEVNTSAFVDVLSRNGYDARHILMDNIFPLNEGRRLVSRAITVRYLPSRPDADSEKPSGEKSPEYAAFEAAGPGDVIVMESMSTKLMSIGGDIKFLRLKQRNIDGLICDGGVRDMKSVDKYGIRIWGYGRTSNLGTRVGTPYSTNEPVRIDGVLVRPGDYMVADDDGVVVIPRTVAKLVAEQALEYTELEGWIKKKLSEENLSPGKYYPPNEETFEXFRRTK;locus_tag=LOCUS_3050;note=WP_011083209.1 ribonuclease activity regulator RraA (Bradyrhizobium) [pid:28.8%25%2C q_cov:93.0%25%2C s_cov:95.0%25%2C Eval:2.3e-20],MGA_308
sequence03	MetaGeneAnnotator	CDS	62177	62962	.	-	0	ID=MGA_309;product=3-oxoacyl-[acyl-carrier-protein] reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460500.1;translation=MKLLDGKKALITGARKGIGRGIAYRLAEQGADVGINDYIDDEETQKTAGLVKSLGMKSSIHIQDVSKKENIDKMVDDFISEHGKIDILVNNAIMQPQNKPFFEIDEEWWDYMMDLSLKGYFFAAQKVSKEMVKRKISGSIICISSVHSYRASENWTPYGIAKMGLRRMVKGLAADLVNTGINSNCIAPGWINNTIPPNDDQVEPDSFSAPWVPTGRQGLPSDIANAVVFLSSKMGEYVNGETLLVDGGMIATGSLAGRPSD;locus_tag=LOCUS_3060;gene=fabG;EC_number=1.1.1.100;note=WP_011460500.1 3-oxoacyl-[acyl-carrier-protein] reductase (Desulfitobacterium hafniense) [pid:37.5%25%2C q_cov:94.6%25%2C s_cov:98.8%25%2C Eval:7.9e-38],MGA_309
sequence03	MetaGeneAnnotator	CDS	62979	63740	.	-	0	ID=MGA_310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKEDKKPPPYISVSQVRTYLLCGMKYYFQYFEKIKTFPTGPMIRGSSVDKAANDHFDIKADNGVGLKRNDFVDLAVSEHDNNAEXAEMDITKQTSRDRLAEISKKYHVTHAQKLTPLSKNAVQLKINGDIGLDIPVLGFADLITKDGVVIDNKVRKQNRVNDLTKDIQLVTYADVGNFSKVGIALVTDNKNPKAEIYTAQISDSSKSLVRERIKSVRNGIKKKVFLPAPEGSWYCSEKWCSFWNICPYGDG;locus_tag=LOCUS_3070;note=MGA_310
sequence03	MetaGeneAnnotator	CDS	63803	65101	.	-	0	ID=MGA_311;product=cation:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_119682992.1;translation=MHDSPLHLVASLILSLSIILIFAKLGGEFFERILKMPPVLGELIMGIIISPFALGGIILGSIGPLFEIPLDTHSGKESMIPVDSSLYFLAQLGAVILLFEAGLETNKKRFFQYLKPATAVAIGGVSLPFLLGVIATVLTGFASFNSLSELIPALFVGSIMTATSVGITARVLGDMGKLDSEEGVTILAGAVVDDVLGILILAIIVAIETTGVVSIGGITLIAVKAISFWFVLTFFESLVAPWISRILFLFKGSGVRVCLSLSLAFLAAGIAELYFGLAMIIGSYSLGLALSSTNLKEEIEESLQKINYFLVPVFFCVIGMQVDLGAIFSGDASLILTISFVVILTIFAIISKFVGCGIPALLFGFNRVGSWRIAVGMLPRGEVALIIAGIGLVSGVIDKQVFGVTIFMTIITTIIAPILLSPAFKSDKSGLR;locus_tag=LOCUS_3080;note=WP_119682992.1 cation:proton antiporter (Bacillus) [pid:35.4%25%2C q_cov:94.7%25%2C s_cov:91.3%25%2C Eval:1.6e-53],MGA_311
sequence03	MetaGeneAnnotator	CDS	65169	66599	.	-	0	ID=MGA_312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKIFLNIQIYLMIIVFFVCLSCETSDVQKIGELPAVTNHLDQSSIDQGELSLEEIIQHGKELFVISFNTLDGAGRPEATGSNKKRLRRESPHNFNRISGPDANACSGCHNLPKIGGGGDNAANVFGLVTDVSFATLEGNVGSQENEPSLIDVTNERNTLGMFGSGLVELLAREISRDLLEIVQKTKKNANESQKDVIESLSSKGIDFGTIRVTADGFLDVSGVNGVDTDFIVKPFIQKGIIVSLREFSNTALNHHHGIQSDELFGENSDFDKDGIVNELTSGDITALTVFQATLPLPERVIPKDDYLKSVINEGEQIFDQIGCTSCHIPNLPLESTMFYEPGPFNPENTMKLSEANEILIFDLLDYVGKLKKNEKGQYLVPLYSDLKRHKMGFELDNERLKQKGIPTDVWITKKLWGFYDEPPFLHHGRATLLSEAILMHSGDAEESKNNYKNLNDDQRDYLIEFLKTFKNDIQ;locus_tag=LOCUS_3090;note=WP_011963595.1 di-heme oxidoredictase family protein (Flavobacterium psychrophilum) [pid:26.4%25%2C q_cov:40.1%25%2C s_cov:33.9%25%2C Eval:5.1e-11%2C partial hit],MGA_312
sequence03	MetaGeneAnnotator	CDS	66589	67518	.	-	0	ID=MGA_313;product=tRNA pseudouridine(55) synthase TruB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986789.1;translation=MSIKRNFHGFINLNKESGPTSSFVVSSIKKMIQPKLKVGHCGTLDPLASGVLPICIGRATRLSEFLLLENKGYKVRGKFGFSTDTYDSTGKTIDHSNKNVKRDELEKALESFKGEINQRPPLFSALKFKGERLYNIARKGGNYIPPKRKVKVLDISLIKFEFPMYELDILVSSGFYARSLIHNLGENLDCPSHMIGLERTSVGEFHLSKAIKLNQLSDLMKKEKLESHIFSLDYVLKNIQRIDMNLDESMKLKNGIKIDIQDSNFFYQPCSDKYSDLIKAYDSQGRFFAILRVSEDGKFLKPEKVFHEN;locus_tag=LOCUS_3100;gene=truB;EC_number=5.4.99.25;note=WP_011986789.1 tRNA pseudouridine(55) synthase TruB (Clostridium botulinum) [pid:37.5%25%2C q_cov:80.3%25%2C s_cov:84.1%25%2C Eval:1.9e-44],MGA_313
sequence03	MetaGeneAnnotator	CDS	67537	67890	.	-	0	ID=MGA_314;product=30S ribosome-binding factor RbfA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965109.1;translation=MTNRRLEKVNVNIQRILGSLINIKNQGEELSPIVSVTQVKISPDFAIAKIFVSIMGDENSVKLSLESLKNNSKVLRKELSEKIYLKKVPKLIFVIDDTLDKVEKMNKLFENLEISQK;locus_tag=LOCUS_3110;gene=rbfA;note=WP_010965109.1 30S ribosome-binding factor RbfA (Clostridium) [pid:28.2%25%2C q_cov:100.0%25%2C s_cov:96.7%25%2C Eval:2.1e-11],MGA_314
sequence03	MetaGeneAnnotator	CDS	67907	69655	.	-	0	ID=MGA_315;product=translation initiation factor IF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002456223.1;translation=MVNEKIEKIESTAQAVNLPPVITVGDLSQIIDISPSEIIKELMRRGVMANINETINFEMAAIISTTFGVPVLKPKDNQSDSIAKPTLSDSEVVVRPPIVTILGHVDHGKTTLLDSIRGTKVVDSEHGGITQGIGAYQVSHNNNLITFIDTPGHEAFTNMRARGAQVTDIAVLVVAADDGVMPQTVEAINHIKAADVPMIIAINKVDVPGVDINRLKGQLVEHEVIPEELGGDILCVNVSAIKKEGIDDLLESISLVAEISELKSNPNDLGVGVILEGQTDKLKGNLATILVQNGKVFLGNYLVAGGSSGRIKSMIDGFGNPVEFIEPGAPAQILGINPAPKPGDIFKVFEKEKDSKQLLGKKKKNQPLNSNNFLSSNMNSDSSETFNLIVKTGSQGTMEPVKKVLENMAIDKKNIKIIHSDIGSVNESDIMLATASFSTVVAFQSDVEPGALKQAQANNILVKRYDIVYEMIEEIEEIVSKLGEDIVVESKLGEATILEVFEIDKKGKAAGFRVNSGVIRRNGYMKILRDDKELFNGQVGSLRHFKENVREIRNGMEGGVTLENFKDFQENDVIYCYELKRS;locus_tag=LOCUS_3120;gene=infB;note=WP_002456223.1 translation initiation factor IF-2 (Staphylococcus) [pid:40.4%25%2C q_cov:98.8%25%2C s_cov:81.4%25%2C Eval:5.0e-128],MGA_315
sequence03	MetaGeneAnnotator	CDS	69678	71318	.	-	0	ID=MGA_316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNEMLLAVTQLAAERNLSHSVVVSAIKSALENAYKRDELAKGQDVKVDLNPTTGETVVRTVRRVVEVIENIDEEIALSEAQKQFKEVKVGDEITTGFIEHNPGRIAAQTAKQIVIQKLREAERELVLKEFSDKTGQILNGTIQRVDPKHVVISLGKGEGIMPITEQINGERYRVGQQLKFLVQRVENSVRGPEIILSRNDPGLLRELFKTEVPEIFNGVIEIKALSREAGSRSKIAVFSNQEGVDAVGACVGLRGLRIQNVVNELLGEKIDVVEWNEDDAEFIKKSLSPAEVQKVVLNEITGSSLVIVPEDQLSLAIGKDGQNVRLAAKLTEWKLDIQHQGSISSDQDFVELKLENSTSVSDLGFASRTEKLIVAEGIKTLGDLALKRESLLDVKGLGPKSLEEVNSVLKSFKGTPEKIKVDTKKDEKPNQNVQDTVLEGETENIKEESIDELNPEDEILELENLEKSQEKISENKIDTVQETVPQDDIWNIGKISRRKSSDSSQTLRFAEDIEGIRSSNESSTKKGKKERTKAKNRKGNSNKSR;locus_tag=LOCUS_3130;note=WP_003231912.1 transcription termination factor NusA (Bacillus) [pid:46.0%25%2C q_cov:62.5%25%2C s_cov:91.6%25%2C Eval:2.2e-82%2C partial hit],MGA_316
sequence03	MetaGeneAnnotator	CDS	71423	73126	.	-	0	ID=MGA_317;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966455.1;translation=MRLSKYFWKTLREISSDAEMESHKLLLKAGFIQQVTSGIFNYTPIGWKAISKIKEVIFQEMNLAGAFEVNLPVNQPIDLWEKSGRSKTFVPPLASFEDRRGNEMVIAPTHEETATFLAASYLDSYRDLPFIIYHIQTKFRDETRPRAGLLRVREFEMKDAYSFDKDEEGLDDSYRTMIKTYENIFRRCGLDVIKVEADSGPIGGKDSSEFISIASSGEDTIFSCDSCDYAANSEKAEFFKLDADKLSGNEDIKDIETPNITTIKGLSKFLNLSKDKIIKTVVYKFSKGLISVSIRGDLDINETKLRNYLNEDPKPATKKDLENHGLIEGYLSARNIKISSILDDSIDIDSSYVTGSNKENYHLKNVIPKRDLNYDEIIDVSLAQKGFNCIRCKGFLNEKRGIEVGHVFKLGTGYSEKLGAYFIDQKGNSLPSVMGCYGIGVGRLLAAVIEARHDKKGIIFPKTIAPFQIYLINLNNESQEVLDKSNYLYENLKKLNYDVLFDDRNETPGVKLNDSDLLGIPLRLLVSKRTLSEQSVEFKPRDAEQSKLISIEEIFQEVDRFYNSIDT;locus_tag=LOCUS_3140;EC_number=6.1.1.15;note=WP_010966455.1 proline--tRNA ligase (Clostridium) [pid:42.5%25%2C q_cov:98.6%25%2C s_cov:98.1%25%2C Eval:1.3e-128],MGA_317
sequence03	MetaGeneAnnotator	CDS	73135	74352	.	-	0	ID=MGA_318;product=flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004339423.1;translation=MRNKTLSVKIGNLTIGDLNPIVVQSMTDTDTTDVEATVSQIEHLVLAGSEMVRITVNNDLAAKSVFDIKKKLIDRGINIPIIGDFHFIGHRLLTKYSDCAESLDKFRINPGNVGRGSRRDLNFETFIKVARDLDKPIRIGVNSGSLDPELMQLKMDENARLSEPRDSELVEREALVDSALLSADRALSIGLPENNIVLSCKVSRISQMVESYKILSSSCDFPLHLGLTEAGMGSRGSTSTSIALGLLLSQGIGDTIRASLTPEPKGDRAKEVKLCQEILQSLDLRSFRPSVTSCPGCGRTTSSFFRELSEEIEIYLEKYSKIWNVEYPGSSELKVAVMGCVVNGPGESKYADIGISLPGSGESPKAPVFIDGEREMFLEGPNIAKDFIDLVNNYVQKRWGKKVKT;locus_tag=LOCUS_3150;gene=ispG;EC_number=1.17.7.1;note=WP_004339423.1 flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase (Francisella tularensis) [pid:55.2%25%2C q_cov:98.8%25%2C s_cov:99.8%25%2C Eval:9.5e-125],MGA_318
sequence03	MetaGeneAnnotator	CDS	74377	76023	.	-	0	ID=MGA_319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSFFISVITFLALLFPLVVVHELGHFFTAKLMKVKVLEFGFGFPPKLYSLWTGKTKVFIDENTNFQDEKTLLLSKNTIVEISFKRMSKDIYARKINYQKALKDSKKNQDQDKLLTGKIAHFENDHIILRDMQWSFNLLPLGGFVRLFGEQDNDDPESFSAKNPFSRLLILFSGAFINAIFPIILLFFLFLYPHDVVQSDLIVKTVMPNSPAEKSGLSSGDKIVSINGKVITSINDLHQELTSNLGEDTIWELKKGIPDPFAKLNEPQYQYKESSSVNLIPRWNPPSLKVVQSSSGPNEISISKARLYDPYVGTFDQFEVVETIIKDDQIKFESIKENYPQISIGDKLKIVNKVNISKNEISLEQARALNPLSGTHDTFTEGAVGIIVSITNDRLVQNEINLLSSFKRSVDYLWQTLLISKNAFWGYFSGSTHPQFQGPLTVGPIGIGQITGTIATANVSISDKLITFVNLASILSLSLAIINILPIPALDGGRILFVFIEILRNGKKISPQKEGMVHAAGFVFLISLALFISFFDVARIFDGGSIFD;locus_tag=LOCUS_3160;note=WP_003430605.1 RIP metalloprotease RseP (Clostridioides difficile) [pid:28.8%25%2C q_cov:36.5%25%2C s_cov:60.2%25%2C Eval:2.9e-13%2C partial hit],MGA_319
sequence03	MetaGeneAnnotator	CDS	76025	77164	.	-	0	ID=MGA_320;product=1-deoxy-D-xylulose-5-phosphate reductoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546435.1;translation=MDIGIYIVSKKIVILGSTGSVGTQCLEIIRKFPDDFSVLGLSAGKNFKLLKEQIQEFTPEYFFIDNYEQKIEESKKISLEEMASLEDADLVVMALSGSIGLLPMYEAVNSGKNIILANKESIVMAGKLLVDKAKLTGATILPVDSEPSAIWQCMLGEGKNISKLILTASGGSLRNYSVDELKNISPELVLQHPTWNMGAKITIDSATLLNKAFEVVEASNLFSIPLNNIDVLIHPESIVHSLVEFIDGNLKALLSIPDMRFPIQYAMFFPERKANIELPECNLAEVGSLNFSPVISGKYPLFDMAMSIAHNNNSLMSVLVGADEAVVDLFINGKIEFLDMNYLIEKTIQSHKSIENPSLEDIKIASEWGFKNVHQLIDI;locus_tag=LOCUS_3170;EC_number=1.1.1.267;note=WP_012546435.1 1-deoxy-D-xylulose-5-phosphate reductoisomerase (Thermodesulfovibrio) [pid:45.0%25%2C q_cov:95.5%25%2C s_cov:97.6%25%2C Eval:1.5e-84],MGA_320
sequence03	MetaGeneAnnotator	CDS	77143	77838	.	-	0	ID=MGA_321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNLKKQKYLISSILIIIIIFTLTVWIDWSFTVYIVGTFSLLSFFYLIYLVCTNWKFRKSELESSSSKNNTFYIFFISILYFSLILIHLVFLRNEEQGFRFLIFVLIITFSVDSFSYFIGSLIGKKRDNFLSLISPNKTIEGTLGGFFVGFLFSILLSRILDINGDWGSLFIISFLIPFFAVIGDFLQSALKRYFGVKDSGESLPGHGGFLDRIDSLGLSVASYYWILVFI;locus_tag=LOCUS_3180;note=WP_000813592.1 phosphatidate cytidylyltransferase (Bacillus) [pid:32.9%25%2C q_cov:69.7%25%2C s_cov:61.6%25%2C Eval:2.1e-20%2C partial hit],MGA_321
sequence03	MetaGeneAnnotator	CDS	77982	78236	.	-	0	ID=MGA_322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSGISLEKINEKSFSEFLFTDQVPDPDLVIRTAGEFRISNFLLWQTAYSEFYSTKTFWPDFGEDEIDKAIFNYSKRERKFGNV;locus_tag=LOCUS_3190;note=WP_011017071.1 isoprenyl transferase (Fusobacterium nucleatum) [pid:66.2%25%2C q_cov:91.7%25%2C s_cov:33.0%25%2C Eval:1.4e-23%2C partial hit],internal stop codon at [78378:78380](-),MGA_322
sequence03	MetaGeneAnnotator	CDS	78378	78668	.	-	0	ID=MGA_323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPKHIAIIMDGNGRWASQRKKPRAEGHQAGVENISKVVEIMIKKEIKFLTLFAFSTENWTRPFKEVEFLTGQLLAKSITSNIEKLNNAGVKILHL;locus_tag=LOCUS_3200;note=WP_010946251.1 polyprenyl diphosphate synthase (Legionella pneumophila) [pid:45.7%25%2C q_cov:95.8%25%2C s_cov:38.2%25%2C Eval:2.5e-20%2C partial hit],internal stop codon at [78378:78380](-),MGA_323
sequence03	MetaGeneAnnotator	CDS	78710	79270	.	-	0	ID=MGA_324;product=ribosome recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010938169.1;translation=MNPETILSEMKKRMDGAILSLDKALSSMRTNRAHTGLVENIIVDYQGMEMPISQLAQVSVSDGQMLIIQPWDKSISETIARAISTSDIGMQPNVDGDLIRLTVPALTQERRNEIVKLVRKRTEEGKISVRNVRRSSIEEIRNLEKNSGLSQDESRRAQSKIQEITDDNIKIIEENSLNKEKEVLND;locus_tag=LOCUS_3210;gene=frr;note=WP_010938169.1 ribosome recycling factor (Desulfovibrio vulgaris) [pid:43.8%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:4.1e-41],MGA_324
sequence03	MetaGeneAnnotator	misc_feature	79294	79838	.	-	.	ID=MGA_325;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_011172952.1:UMP kinase,WP_011172952.1 UMP kinase (Thermus thermophilus) [pid:59.1%25%2C q_cov:95.0%25%2C s_cov:73.4%25%2C Eval:5.2e-54%2C partial hit],MGA_325;locus_tag=LOCUS_3220
sequence04	MetaGeneAnnotator	misc_feature	1	656	.	+	.	ID=MGA_326;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_011459103.1:50S ribosomal protein L5,WP_011459103.1 50S ribosomal protein L5 (Desulfitobacterium) [pid:62.9%25%2C q_cov:80.6%25%2C s_cov:97.8%25%2C Eval:2.7e-59],MGA_326;locus_tag=LOCUS_3230
sequence04	MetaGeneAnnotator	CDS	671	976	.	+	0	ID=MGA_327;product=30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004197948.1;translation=MARKSKVEREKKIIRTIEKYNSHRDELLNQWNDTSLTLQKRREARRALGKLPRNSNPNRLTNRCSITGRPRGYIRFVGLSRIVFRDKALLGEFPGIRKASL;locus_tag=LOCUS_3240;gene=rpsN;note=WP_004197948.1 30S ribosomal protein S14 (Pseudomonadota) [pid:49.0%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:6.6e-18],MGA_327
sequence04	MetaGeneAnnotator	CDS	986	1378	.	+	0	ID=MGA_328;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_036371522.1;translation=MTDPISDMLTRIRNGHHAKKMFVEVPSSKIKTNILKIFLDEGFINGYEQNEIDNKGVTKINLKYGKDEEPMILGLKRVSRPGLRNYVKKGEIPIYLGGMAVSLVSTSRGIMTGKEAFKNKLGGELICYLW;locus_tag=LOCUS_3250;gene=rpsH;note=WP_036371522.1 30S ribosomal protein S8 (Moorella thermoacetica) [pid:53.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-35],MGA_328
sequence04	MetaGeneAnnotator	CDS	1395	1940	.	+	0	ID=MGA_329;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005810135.1;translation=MSRIGKKPILIPSGVQVDIEGNNIKAKGPLGELSLEFQDMINVTIESDNIICKRKNDAPESRSMHGLYRSLISNIIEGITSGFEIKLEVVGTGYRIEKKGNNLVFNLGYSHPVNVEPLGTNKLDVEGQNLAIVKGIDRQLVGQQASDIRKLRKPNPYTGKGVKYQGEIITRKAGKAAVTTA;locus_tag=LOCUS_3260;gene=rplF;note=WP_005810135.1 50S ribosomal protein L6 (Desulfitobacterium) [pid:52.0%25%2C q_cov:96.7%25%2C s_cov:95.1%25%2C Eval:1.7e-49],MGA_329
sequence04	MetaGeneAnnotator	CDS	1949	2326	.	+	0	ID=MGA_330;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003421141.1;translation=MSSKKYSNNKRIVRHLRLRKKISGTSFAPRLAVFRSNRKIYAQVINDDQNKTLISSSSLEINSKNKQDNVDYAGKCFEAYQVGVSLAEKCNKSGISKLVFDRGGYKFHGRIKALAEGVRKGGVSF;locus_tag=LOCUS_3270;gene=rplR;note=WP_003421141.1 50S ribosomal protein L18 (Clostridioides) [pid:48.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-25],MGA_330
sequence04	MetaGeneAnnotator	CDS	2326	2883	.	+	0	ID=MGA_331;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000554646.1;translation=MTTNSNERNNSRNSRNSRNNPRDNDGIVEKVVQVRRVTKVVKGGRNLRFSAMVVAGDRKGKVGVASGKGAAVPDAVRKASTNARKNMVSVQMKGTTLPYEVNAKYGAAKIMLKPASPGTGVIAGGGIRAVMEAVGVQDVLSKNFGSNNPVNTVKATVKALVSLKDPDHHISLRKNNPEDKEVDHE;locus_tag=LOCUS_3280;gene=rpsE;note=WP_000554646.1 30S ribosomal protein S5 (Bacteria) [pid:52.1%25%2C q_cov:77.8%25%2C s_cov:86.7%25%2C Eval:1.4e-38],MGA_331
sequence04	MetaGeneAnnotator	CDS	2876	3058	.	+	0	ID=MGA_332;product=50S ribosomal protein L30;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002936638.1;translation=MSNIMIVQTKSYIGSNKKQRDTLKALGLGKIGDSVVKENSKVILGMVSKVSHLLKIENIK;locus_tag=LOCUS_3290;gene=rpmD;note=WP_002936638.1 50S ribosomal protein L30 (Streptococcus) [pid:53.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-10],MGA_332
sequence04	MetaGeneAnnotator	CDS	3068	3544	.	+	0	ID=MGA_333;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010881064.1;translation=MVELHKLKPPVGSKSNRKRRGRGDGSNKGSYSGRGLKGQKARSGGSLPLFFEGGQLPLVKKLPFMRGFHNRFRKSYVPINLDKLELLFESGDKVNPEILYEKNVISKNNSLVKILGEGDLTKALVVSAHGFSKSAKKKIEKVGGSIEKIDSQDGVIDE;locus_tag=LOCUS_3300;gene=rplO;note=WP_010881064.1 50S ribosomal protein L15 (Aquifex aeolicus) [pid:50.7%25%2C q_cov:94.3%25%2C s_cov:99.3%25%2C Eval:3.7e-33],MGA_333
sequence04	MetaGeneAnnotator	CDS	3537	4904	.	+	0	ID=MGA_334;product=preprotein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258251.1;translation=MNSSSSYQGKKNTSNKPALLQAMIDAFRVPDLRFRILFTLGILVIFRFFAHVPVPGVNRDALASAFQSNPLLGFLDLFSGGALRNLSIAALGVYPYITSSIIMQILTPVIPTLKEMSQEGESGRQKINQYTHYLMIPIAFVQGWGQLTVLQNSFGGVPVISGIGFTGGNAISTLSILLAMTAGTAILVWMGELVTEKGIGNGVSLIIFAGIVSSIPQLLGQGLLLRNQTFQLILLVVIGLIIVYLIVVFTEAQRRIPVQYGKSIFRGGKMYRQSGASFIPLRVNSAGMIPLIFAFSLLILPATVASYFVNPSSDSFGSRIAETLTNFLGPASTGYWILVFIMVMAFTFFYALVMFNQQNIADNLQKNGGFVPGIRPGNPTHEYLLKVMVRITWAGAIFLAFVAVMPFLAGLITNLGAAASIMSSTSLLIMVGVALDTLRQLESQLLMRNYEGFLD;locus_tag=LOCUS_3310;gene=secY;note=WP_012258251.1 preprotein translocase subunit SecY (Chloroflexus aurantiacus) [pid:47.5%25%2C q_cov:95.8%25%2C s_cov:99.6%25%2C Eval:1.8e-111],MGA_334
sequence04	MetaGeneAnnotator	CDS	4885	5466	.	+	0	ID=MGA_335;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011125842.1;translation=MKGFWINICGVNVVIVIFLGPPGAGKGTKAKKLSDYFEWRHLSTGDLLRNEVKNETELGLLANEFMKKGDLVPDKIIINMISNILVNQNAGIVLDGFPRTIDQARSLRHSLEDISKKIDKVLFLDVEESKIISRLTNRGRKDDDPKVIVNRLKTYGDLTQPLISFYEKEGLIEKIDGNGTEENVFNNLLKVMA;locus_tag=LOCUS_3320;EC_number=2.7.4.3;note=WP_011125842.1 adenylate kinase (Prochlorococcus) [pid:41.6%25%2C q_cov:92.2%25%2C s_cov:97.8%25%2C Eval:3.1e-34],MGA_335
sequence04	MetaGeneAnnotator	CDS	5504	6316	.	+	0	ID=MGA_336;product=type I methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003357322.1;translation=MHRTKTKIENIGMVVNNSISLKSNKELAFMKEAGAIVADVMQTVVSKIDPGVTTKELDVIASKEISASGAKPAFLGYLGFPACFCISVNDEIVHGIPSDRKLSEGDIVSIDGGVIVNGYYSDHAVTVPVGKVTKELDKLIFDTRNSLYKGIEMCKENNMIGDIGNAIESYIMPKKYGLVREYVGHGIGRNLHEGPQIPNYGKKGTGIKLNNGMVVAIEPMINIGGEKTVLSDDGWTVKTADGSQSAHFEHTVAITEEGPIILTENGEKNG;locus_tag=LOCUS_3330;gene=map;EC_number=3.4.11.18;note=WP_003357322.1 type I methionyl aminopeptidase (Clostridium) [pid:52.0%25%2C q_cov:90.7%25%2C s_cov:98.8%25%2C Eval:1.6e-68],MGA_336
sequence04	MetaGeneAnnotator	CDS	6309	6527	.	+	0	ID=MGA_337;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393913.1;translation=MAKKEAIEVEGKVTEALPNANFRIELANGHKVLAHVSGKIRMHFIRVIPGDRVLVELSPYDLTRGRITYRFK;locus_tag=LOCUS_3340;gene=infA;note=WP_011393913.1 translation initiation factor IF-1 (Moorella thermoacetica) [pid:79.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.5e-28],MGA_337
sequence04	MetaGeneAnnotator	CDS	6671	7054	.	+	0	ID=MGA_338;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869905.1;translation=MAIVLGVNIPDNKRIENALTKIQGIGPTISKNILNNAGIINNPRVHELAEEDLARIRSSIDGLKLNLEGDLKREIRDNIRRLVDIKSYKGSRHRKGLPVNGQRTKTNARTKRGRKTAVAGNKQAPKH;locus_tag=LOCUS_3350;gene=rpsM;note=WP_012869905.1 30S ribosomal protein S13 (Thermanaerovibrio acidaminovorans) [pid:53.2%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:1.7e-29],MGA_338
sequence04	MetaGeneAnnotator	CDS	7076	7462	.	+	0	ID=MGA_339;product=30S ribosomal protein S11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943461.1;translation=MARKPRDRKKEKRFIPRCKAYIYATFNNTIVTITDPGGSVLATSSAGAVGFSGSRKSSAFAAQRTAEAVVKKAEGFGVKSINIIVKGPGAGREAAIRALQANGMHVVSIKDVTPIPHNGCRPPKKRRV;locus_tag=LOCUS_3360;gene=rpsK;note=WP_010943461.1 30S ribosomal protein S11 (Geobacter) [pid:63.0%25%2C q_cov:99.2%25%2C s_cov:96.9%25%2C Eval:2.2e-40],MGA_339
sequence04	MetaGeneAnnotator	CDS	7485	8093	.	+	0	ID=MGA_340;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583370.1;translation=MSRDISPKCKSCRKFGMKMCSKPPGKCAFEKRRGNRNTFTRRLSDHGTQLKEKQKARVTYGIQERQFRRYMNLAGRAEGITGDNLIQILESRLDNVAFRLGFGESRQQIRQWINHGHITVNEKKVNIPSYQIKPGDKVSFKESSKKKTFFDTVTQTMGSRTVPDWLQCDNGDISGVVLKMPEVTGTDIGIDTRLIVEYYSRR;locus_tag=LOCUS_3370;gene=rpsD;note=WP_012583370.1 30S ribosomal protein S4 (Dictyoglomus turgidum) [pid:42.8%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:1.2e-42],MGA_340
sequence04	MetaGeneAnnotator	CDS	8102	9118	.	+	0	ID=MGA_341;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002288715.1;translation=MQEEIEKLYGLNTVEDTTEEEKEELSISFKIIEENEKYGKFVLEPLSKGWGDTLGNPLRRTLLNSLPGAAITWARIGGVDHEYSSLDGIKEEVLELLLNLKNVRVKALSERSGRLRLEASGVGEVTGADIMSSSDFEIINGDVHLASLDSADSILEVELNVETGTGYIPADKEAQEGLPIGVLPVDAIFTPIRKVNVDVENTRVGKRSDLEKLTLEVWTDGTIDPLNAVKNSSDLLMDRFFQIKEAKDRTEEIPTAVSTGVTPEIYNTLVENLDLSARTLNCLKRANLNRVGDVIAVPRSELLKIRNFGQRSITELFEKLEGHGVTAEGSEKKSEDEN;locus_tag=LOCUS_3380;EC_number=2.7.7.6;note=WP_002288715.1 DNA-directed RNA polymerase subunit alpha (Enterococcus) [pid:42.1%25%2C q_cov:87.0%25%2C s_cov:94.6%25%2C Eval:5.6e-64],MGA_341
sequence04	MetaGeneAnnotator	CDS	9137	9502	.	+	0	ID=MGA_342;product=50S ribosomal protein L17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390413.1;translation=MRHRVSGFKLGRKSSSRKALYKNLVTDFIKYGSIKTTYAKAKAIQPIIEKIITLGKKGTYQDKRIVSRFIIDPQVQEKVFGEISVNLKDRTSGFTRITKLGLRKGDTALMVELSLVDSLEG;locus_tag=LOCUS_3390;gene=rplQ;note=WP_011390413.1 50S ribosomal protein L17 (Rhodospirillum rubrum) [pid:47.0%25%2C q_cov:96.7%25%2C s_cov:83.6%25%2C Eval:5.3e-23],MGA_342
sequence04	MetaGeneAnnotator	CDS	9509	10315	.	+	0	ID=MGA_343;product=tRNA pseudouridine(38-40) synthase TruA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012544911.1;translation=MFFASVLEYDGTNFSGSQYQKGSRTVQGELELILKKTFNISNRVKFASRTDSGVHSLGQIVLINTENEIPVEKTSKVINDNLPIDIRIKECKLVNKTFNPRRDALAREYIYKISLKKYLSPFESRFVSNYGSNIDFSLLKEASSLFEGEHDFKSFSGSALPKNGESSVRRILNITCVKKETLIXIRVLGNSFIHQQIRRMVGLMVKISQGEFALSKIQDMLFSNERKTLSLIAPSNGLYLSKILYPDGLLDIDYNNQFTEVKNVNSFK;locus_tag=LOCUS_3400;gene=truA;EC_number=5.4.99.12;note=WP_012544911.1 tRNA pseudouridine(38-40) synthase TruA (Thermodesulfovibrio yellowstonii) [pid:35.2%25%2C q_cov:89.2%25%2C s_cov:97.2%25%2C Eval:2.9e-38],MGA_343
sequence04	MetaGeneAnnotator	CDS	10296	10757	.	+	0	ID=MGA_344;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081738.1;translation=MSIHLNRINLKGKDXSSKWHLINADGKILGRLASEIARLLMGKDKPTYSTNLLSGDFVVVINSQGIRLTGNKSETKKYWRHSGYPGGLREISFKEMKEXDQQFIIKNAVKGMLPKNKKGDKILSRLKVYGGNDHPHESQIIASDKSQEEKNTQ;locus_tag=LOCUS_3410;gene=rplM;note=WP_004081738.1 50S ribosomal protein L13 (Thermotoga) [pid:48.5%25%2C q_cov:85.0%25%2C s_cov:87.2%25%2C Eval:9.0e-34],MGA_344
sequence04	MetaGeneAnnotator	CDS	10785	11180	.	+	0	ID=MGA_345;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000079986.1;translation=MTQGKYYYGTGRRKSAIARVRVFNTPGSVTVNGKSLENFITVDAWKQHAIRPLVVTDMEGSLTVSIKSHGGGISGQAGAISLGIARAIINLDPNLRKALKSAGLLTRDSRVKESKKYGLKRARKAPQYTKR;locus_tag=LOCUS_3420;gene=rpsI;note=WP_000079986.1 30S ribosomal protein S9 (Terrabacteria group) [pid:52.0%25%2C q_cov:95.4%25%2C s_cov:96.2%25%2C Eval:4.5e-30],MGA_345
sequence04	MetaGeneAnnotator	CDS	11185	12042	.	-	0	ID=MGA_346;product=peptide chain release factor N(5)-glutamine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880003.1;translation=MPTIGEILKEIRDELFKKNISESQIESEIIIENVLGISTEKLYSNINKQCSEKEYKNIIKVLKKRKQRIPLPYITENCYFYGKKFHIYSGILIPRPETELLIDRCLYNIPKSSNIKLSVLDIGTGSGIIAIILKLMSPLLTVNALDISKEAINLTKKNIELHNLXGKINLFNEDFRDHLSMKYDFILANLPYIPKNRFPSLPPELKFEPRLALDGGENGIELITDLIKLLPKIVKGTDSKVILEIDSTQLKYVKNIINIYLKSAKILSLKDLSGKDRIVEISNIK;locus_tag=LOCUS_3430;gene=prmC;EC_number=2.1.1.297;note=WP_010880003.1 peptide chain release factor N(5)-glutamine methyltransferase (Aquifex aeolicus) [pid:32.9%25%2C q_cov:96.8%25%2C s_cov:94.0%25%2C Eval:6.8e-33],MGA_346
sequence04	MetaGeneAnnotator	CDS	12048	13124	.	-	0	ID=MGA_347;product=peptide chain release factor 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931817.1;translation=MNEQTIEKLKNIKTRFIEIEELMANPKNASNPDTITKLAKEHNQLKNIVSLFDQYNNFEKEFINSKNIEETDSDPEIIELAKIEQKEISEKIKLISENLKKELIPKDIRDEADAIVEIRAGTGGDEAGLFAAEIYRMYQRYSELNSWKTQIVNINDTGLGGLKEVTFEIKGKGVFSRLKHEAGTHRVQRVPSTESQGRIHTSAITVAILPKLEEIDIEINLEDIRTDIFHSGGAGGQNVNKVATAVRLTHNPTGIIVTCQRERSQSQNRLIAMDLLKAKIWDIEYKKQQEQLEKDRRIQVGTGDRSEKIRTYNFPQGRVTDHRINFTSHNLPSILDGNLDEIINPLIQEFQARKLINS;locus_tag=LOCUS_3440;gene=prfA;note=WP_010931817.1 peptide chain release factor 1 (Chlorobaculum tepidum) [pid:49.4%25%2C q_cov:97.5%25%2C s_cov:98.0%25%2C Eval:2.3e-95],MGA_347
sequence04	MetaGeneAnnotator	CDS	13147	14433	.	-	0	ID=MGA_348;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583333.1;translation=MYQAPRGTSDILPDQQNNWNFVKDIAKKSSETFGFKEIATPTFEETELFKRGVGSDSDIVQKEMYSFTDSSEKSFTLKPEGTAATCRSFIENGMNNLSKPVRLFYISSMYRHERPQSGRLRQHHQFGAEIFGDESPEIDSELIELALHYLNSLGLKNLKIKINSIGDVTTRSKFSEDLKLFFXPYKSQMNSVDKKRLETNPIRLLDSKDEKLLTLKENSPKSIDYLDEESETHWNSVLNNIQKLTKTYNEFDIEIDHKLVRGLDYYNRTVFEIHPNEEKSQSSILSGGRYDGLMSLLGGPDVPGVGFGSGIERIILNLKNQKILLPDSYDNKGPELMIISVGGQHITDTSIEIATFLRKNNISVILAPKNRSIKGQMRYANSCDSKNVLIIGKNELEKKXASIKNLNDSSEKTVELSSKNILKILKEK;locus_tag=LOCUS_3450;gene=hisS;EC_number=6.1.1.21;note=WP_012583333.1 histidine--tRNA ligase (Dictyoglomus turgidum) [pid:40.8%25%2C q_cov:96.7%25%2C s_cov:97.8%25%2C Eval:3.4e-88],MGA_348
sequence04	MetaGeneAnnotator	CDS	14441	15571	.	-	0	ID=MGA_349;product=GuaB3 family IMP dehydrogenase-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011125290.1;translation=MKNNSRKMKKAYGFDDVSISPGEITINPELTDTSIEIQDISLKIPFFASAMDAISSPKFIKQLDKLGGLAVLNLDGIYCRYENTEEIFQDISKAKEEKATELMQKIYSEPVKNSLIEKRILQIKDSGSKCAVSIIPANTKKTLKIIKDAGADILIVQSTVTTAQHRSNSPVGLIFSEIKKNLKMPVLVGNTVSYSVTKALMEENIDGILVGVGPGAACTSREVLGIGVPQVTATLDCSLARDNYFDETGRYVPIITDGGIRTGGDVCKAIASGADAVMIGTPFAQTLEAPGLGYNWGMATPHDSLPRGTRINVGRKTKLKTLLFGPSSSTDGTLNLVGALKVSMGMLGAKNIKQMHNSELVLAPSIKTEGKIFQQR;locus_tag=LOCUS_3460;note=WP_011125290.1 GuaB3 family IMP dehydrogenase-related protein (Prochlorococcus) [pid:50.4%25%2C q_cov:98.9%25%2C s_cov:96.4%25%2C Eval:9.6e-100],MGA_349
sequence04	MetaGeneAnnotator	CDS	15710	16591	.	+	0	ID=MGA_350;product=Rossmann-like and DUF2520 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005809751.1;translation=MSGKIRRFSSIGIIGAGRLGCSLALGLIEEKYNLTAVSSSNSKVKKILEKVSTSTVVFSDPQEVIDASEIIFFTTKDDSISLLINSLSIPREKFLIHCSGSLSLNVLEKNKSGFKIGNFHPIQTFPNITSQKNLRNIYFSIDSSDSDLENWLKKVAISFNSDVIKIPHQNKDLYHAICVLNCALLVSLIGHSSKLWSNIGINSETGIKITLPMIKTTLQSILDFGSFEALSGPLIRGDLETIKRNITVLGEHSEYSKKIYILLSSMALDMDSSKFNLSKEKFGQIKQILQLND;locus_tag=LOCUS_3470;note=WP_005809751.1 Rossmann-like and DUF2520 domain-containing protein (Desulfitobacterium) [pid:26.6%25%2C q_cov:91.8%25%2C s_cov:80.7%25%2C Eval:1.4e-17],MGA_350
sequence04	MetaGeneAnnotator	CDS	16626	17465	.	+	0	ID=MGA_351;product=pantoate--beta-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080408.1;translation=MEILRXIKELKSKLILTDGSIGLVPTMGSLHKGHLSLLDYARKENEILVASLFVNPKQFSPQEDFQNYPRDVQKDISIFSDSSVDFVFIPDEXQIYPKNFSTYINNHFEGETFEGEFRDSHFEGVLTVVAKLINIVNPKRIYFGEKDAQQLFLVKKMVSDLNFDVIIRSVETIRESNGLACSSRNSYLSREDFIGAGNIYKSLLKVSTSWKEGENNFSILKKSFLKNLENMDGMVIQYAEILDPNTFKSIDSINEIKEAIFIVAVIFKGIRLIDNITLD;locus_tag=LOCUS_3480;gene=panC;note=WP_004080408.1 pantoate--beta-alanine ligase (Thermotoga maritima) [pid:42.3%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.9e-56],MGA_351
sequence04	MetaGeneAnnotator	CDS	17462	17962	.	-	0	ID=MGA_352;product=gamma carbonic anhydrase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004454132.1;translation=MLFKVNGKYPQIDSQAYVHETSILLGDVKIGAESSVWPGAVIRADNGKITIGERTNIQDNSVIHSDGNSKIGNNVTIGHGVICHATKISDNCLLGNGSILNEGVEIGDFCLVAAGSTVLENMKIPSNSLITGTPARIRGKLTERHVELIKLSFNIYVDKVEQYKKT;locus_tag=LOCUS_3490;note=WP_004454132.1 gamma carbonic anhydrase family protein (Clostridioides difficile) [pid:45.2%25%2C q_cov:93.4%25%2C s_cov:93.9%25%2C Eval:2.6e-35],MGA_352
sequence04	MetaGeneAnnotator	CDS	18119	18520	.	-	0	ID=MGA_353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKILLTSILFLISLSCSDNQDNSQTIENELSKPGWPVIFQGFARVDGNDIPAGVPIYAKLGDHRSLIAETQSGTYMNVVIGAKKNSDYGKFITFHIGSPDTKSVQAKEKYKMLESDTPISIKFDLNFPELP;locus_tag=LOCUS_3500;note=MGA_353
sequence04	MetaGeneAnnotator	CDS	18526	20004	.	-	0	ID=MGA_354;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722232.1;translation=MLQERDEILETTIKDVVNKVKTRQIKATDLTTYFIERIKNIDSKINSVITIEKEKSLKRAEEIEFIVNNNKDLDKFPLLGVPLIIKDNISTKDITTTAASKILSNYKPTFNATVITKLIDAGAIIIGKANMDEFAMGSSNENSAFGPVKNPWNLKKVPGGSSGGPAASVASRLCIGSLGSDTGGSIRQPAALCGIVGLKPTYGLVSRFGLIAFGSSLDQIGPMTKNVEDCAEILEVIAGYDNADSTSSKIEIPKYSKEINKEIKGMKIGIIENLFGEGVEEGVNTSVNESISILKDLGATVSKTRIPLLEQAVSIYYLIAPSEASSNLARYDGFKYGFSNKSSKTIWETIEFTRGEGFGDEVKRRILIGTYALSSGYYDAYYKKAQQVRTLLTESILNEFKKYDVLISPTSPCVAFDLKSKVDNPLAMYLNDICTIPANIAGIPAISIPCNFSDNLPVGLQIMGPHFSESKIMNVGNSIQKISNWHKQKPKI;locus_tag=LOCUS_3510;gene=gatA;note=WP_003722232.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA (Listeria monocytogenes) [pid:51.5%25%2C q_cov:98.6%25%2C s_cov:99.6%25%2C Eval:1.3e-139],MGA_354
sequence04	MetaGeneAnnotator	CDS	20012	20305	.	-	0	ID=MGA_355;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722233.1;translation=MELLSKKELQNLAKLSHLQLDEDELDKLALDLSKVLEYFSSLEDINTESIKMTGHPLNIINSQREDITSKSMNTEEVLKNAPSKLKKFFKIKKVLDK;locus_tag=LOCUS_3520;gene=gatC;note=WP_003722233.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC (Listeria) [pid:31.7%25%2C q_cov:84.5%25%2C s_cov:84.5%25%2C Eval:3.7e-08],MGA_355
sequence04	MetaGeneAnnotator	CDS	20483	22117	.	+	0	ID=MGA_356;product=CTP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257008.1;translation=MSKYIFVTGGVVSSLGKGIVSASIGRILKSRGFSVTILKLDPYLNIDPGTMSPYQHGEVFVTRDGSETDLDLGHYERFIDEELTKNSNVTAGQIYSEVIKEERQGTYLGGTIQTVPHVTDVIKNKISQISNKGNVDVVILEIGGTVGDIEGQPFLESIRQIRNDIGSTNTFSLHLTLLPYLGATKELKTKPTQHSVNTLRGTGIQPDAIICRSDFPVESDVKKKISLYCDVPEENVFSLETLDTIYAVPLVLEEQFMGDILVNKLNLKKAESSQGLLKDWNNIVDLIRKPKDSVKIAVVGKYADLPDSYLSVKEALIHAGIHNGYDVEIEWVTSERLEVEDPEKLLSLISGIVIPGGFGPRGIEGMIRAANYSRVKGIPYLGLCLGMQIMVVEFCRSKLGLDLAHSIEFDEDTPHPVISFLPGQEDISQKGGTMRLGIYPCKLQKGSIAMKAYKKDFIEERHRHRYEVNNEYRSSMEKSGLLASGVSPDNKLVEISEIVDHPFMIGSQFHPEFLSRPNNPHPLFREFVNVAKGIIREGSQHKLV;locus_tag=LOCUS_3530;EC_number=6.3.4.2;note=WP_012257008.1 CTP synthase (Chloroflexus aurantiacus) [pid:58.0%25%2C q_cov:99.8%25%2C s_cov:98.7%25%2C Eval:2.2e-183],MGA_356
sequence04	MetaGeneAnnotator	CDS	22358	23821	.	+	0	ID=MGA_357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADTIDKPIKKPTTRTRKVTPRRKPVSKPSIVNLDNLDNGTSSIKPRNGKVPKPEVEQEENQFSGLFTKSPEELMQLATELGVDPAKISRKIDLLISLMSVIAERSDVLIGAGVLDVLHDGFGFLRNPEGSDKKEDIYVSQTQIRRFGLRKGDFVAGQVRPPKDNEKYYGLIRVEMVNGDGPDSSKNRGRFEKYTSIYPNEKLVLETAVQPFSTRLIDIISPIGKGQRALIVAPPKAGKTVLLKEIASGISENYPEVVLIVALIGERPEEVTDMRRSVKGEVYSSTFDEPVEDHCRMAELALNRAYRLVESGQDVTILLDSLTRLARAYNLKIPSSGRTLSGGMDPLALYPPKKFFGAARNCEESGSLTIIASCLVDTGSRLDDLIYEEFKGTGNMELHLDRRLAEQRVFPSIEMSKSGTRHEELLLDEYTLKQSTLLRRMMALSNSHSDATSDPSDFAKRILREMGKTKSNEEFLKFDFLKKKNGY;locus_tag=LOCUS_3540;note=WP_012256183.1 transcription termination factor Rho (Chloroflexus aurantiacus) [pid:61.4%25%2C q_cov:74.9%25%2C s_cov:80.4%25%2C Eval:8.1e-129%2C partial hit],MGA_357
sequence04	MetaGeneAnnotator	CDS	24316	27930	.	+	0	ID=MGA_358;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTLVSAKTLTALAAGMLLIVGLLGIQNSTDTAQAAATGSVNLTNGWSNLSTAASPAKLAAGTTPTYVGSGKSLYVTFTSSGRLIQSGSNQLIVSVVDSDLNASITKSTVVVLHADHSSSSTLIAATIGGTGTGDSKMIPIIDSSGNGSVGGEDITTACKWIGHGSYNNLGAAATTATTKLMNIGSDGDFNLKLDNTAYDAASAGQFNDLPDCSTATAGFISVDVNNAGDVANNQAAKITVSTANNKLNVVNPPVAVDNAEGTNAEYPVVLMSLSWSTSQVNTTSVTAWSGVVTSSNAISIVLEETGRNTGVFEQLFTVFDNQNTEMPLGMIQSVADGTGIVLTATGDQTTYPVGSFGHDIPATCANDCATPTGRSVTSATSTLAVKDGGTVYVKYIDAATKDSTNVSTTVSAKVDATIPTVAVNSPAHSSENQTRVPTISLTATDAGAGLDVSQAILLLDEENDDTEDKAYSDDNDGTSNGADVITSDSAASINSNATGVTGVNASQAELLVLYGFSTAGALNGGSHDSYTVATGGVTVDRGTSTDGSSSMTYTHTPSASLPIDGNSNLTLPVNHWVDFIGVASDLAGNVGFSDSDSTASVGILGKYAPHHIKIDQKLPSISSANTGWWWDTSLDVRDKTHKNTTTKATAVVVNFDGNVTDVDATDFLITYDDGTTHTPSSAVVYDFIPDAGDSSVSEGTQRVFLTLDSSMAANDTPKVALAGSVSDKAGNATATGSLGNATDTIDPTITAILSGGSGTGTGAEGASGLTKNTVTLTVTTDEELISNPTVTVHDLGMAKAGGGDTATTAGNAYLGPCGAVSTCGFGASRVEITAYGSSAGATDSADWVGASTTAQGAKSFTLSIAKGTPGYDGTKTVIVSATDKATAGNTKTSGTASSSTDQIKFVFDTTAATLVISPAAASTTTQRRPYIVLDYSDDLSKVTISKATLDGVDISGDLSTTDNKKFYYVPSADLTAASHTVIAKMTDYAGNATSEESKSFTVAARKDFKITLLAGWNAVSIPSNPVTSDIDTVFSNAGVDQVLAYQNHAWHIATKDASSGTFASTSESPLTSVSQGVGYWVHNNNFESQAVALVGPVEPSAGTPPAVVTIPTVAGWNFVGVVDVSRANTEGADGTTITTSNLYFGDLVDGNAGGHDIVYKYDTTNLKFVEVAEGTNVTTGQGLWIYVKPQSDGSVLAIVPPSP;locus_tag=LOCUS_3550;note=WP_011086345.1 VCBS domain-containing protein (Bradyrhizobium diazoefficiens) [pid:20.7%25%2C q_cov:94.3%25%2C s_cov:34.1%25%2C Eval:2.1e-12%2C partial hit],MGA_358
sequence04	MetaGeneAnnotator	CDS	28022	29125	.	+	0	ID=MGA_359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIMFMNFKTLLIGVVTSFLLTAGLFVTSDFVKADSHGEFNFIPRIIVFQGNVFINGKRINEYETDITDGITLIAKSGDIELTTEVGSFTAGRYHIQLGPNLDENSTFEIWLENQVKAEESLFYGADSNGKWSLSVIQDLHFSEMPVATPTPTPIPPTPTPTPVVVQPSFLSGQIVSGSSGENAGAGLKLYAVINDYTSETVEIEDGFFKIVVDPKYDYYVGEDIVFILEGIKALTTHKFLAGEFNKEVNLIFPNIPATPVPPTPTPIPPTPKPSVPEPTRTPVPAVIEKIIVEVTSTPTPTPLPVIEPKEEKVEEQKSEIVVVEEESSGGACGANIDPNAPISSGHIAMLLSPLIFIGFRRIFGRN;locus_tag=LOCUS_3560;note=MGA_359
sequence04	MetaGeneAnnotator	CDS	29138	29770	.	-	0	ID=MGA_360;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257009.1;translation=MKISWKSGNTIVTDTNSGKIIFDPKIDNLSTDDQKDPNTVLTFSSESLYESTKGKIAKESKTIFGPGEYEFGKIGLKGVAHGNPETKDESTINNIIVAECENLSICHLGNLNLMLSTSLIAQNISGVDILFIPLNTSSFNMDELTNLIRSIDPRVVIPMNYKFSEQTTPTQKLFSSELGVEIEESITKASLTRSNLNSSDGLKVIYLKPV;locus_tag=LOCUS_3570;note=WP_012257009.1 MBL fold metallo-hydrolase (Chloroflexus aurantiacus) [pid:28.9%25%2C q_cov:91.9%25%2C s_cov:91.0%25%2C Eval:1.1e-14],MGA_360
sequence04	MetaGeneAnnotator	CDS	29914	30960	.	+	0	ID=MGA_361;product=heat-inducible transcriptional repressor HrcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056606.1;translation=MDSLNTRTKEILNILIDEYVNTGFPVGSETIVQNSEIEVSPATVRSEMGLLTREGYISKLHQFSGSIPSHKGYQLFIEMIPDDEPPEINDFVTLKGKLNVLPKTFEHVCENAMAVISDLTGGVAFSKVYSSRSILIDFNFFQIDNELVISSKLSSGTVLEIKLPLIRELNSNEIQFLDNFIKSEIFGRTIDQIEQSKYSVFSTDSLLQQICLEIFEIFLVRIRRSEEGKFKGANRVFEHPDVISQPIIAKSLLEMIDDPLLFEDLIDLSNYESNFRVIIGEDNIENNLKWFSIIIAPFGLSDSLGGSIGLIVPKRIPYKRILPIVKYASIWIDGLIKRNMGEKSLILE;locus_tag=LOCUS_3580;gene=hrcA;note=WP_011056606.1 heat-inducible transcriptional repressor HrcA (Thermosynechococcus vestitus) [pid:25.6%25%2C q_cov:94.5%25%2C s_cov:96.6%25%2C Eval:3.0e-20],MGA_361
sequence04	MetaGeneAnnotator	CDS	31005	32159	.	+	0	ID=MGA_362;product=molecular chaperone DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582445.1;translation=MSSKKDYYEILGVNKNSSIEEIKKKFRKLALEFHPDRNKAPDASEKFKEINEAYQVLVDPEKKKIYDQFGHSGLDGKFGGFQQGGFEDLGGFGDIFETFFGGSFGSSRSSSNQTSQGRSLEYRVKINFYESASGKDEPLKIERLEQCITCKGSRAKPGTEVDSCSSCNGSGQVRRIQRTIFGQFEQRTTCSSCNGSGQLIKVLCSDCRGKGLSKVMKDLIVKIPPGISDGDIVKLTNQGDPGINGGPNGDILVHINVDPHEVFVRKNINILLGVDVDIVQASLGREITIPTIEGETIIQVKPGTQSGDQLKLSGLGFPEINNPRKKGDMIVILRVITPTKLSKEQKSLFESLEKSFGHQSNGKLKETDRKSIFRRIKDGFLQDE;locus_tag=LOCUS_3590;gene=dnaJ;EC_number=1.8.4.-;note=WP_012582445.1 molecular chaperone DnaJ (Dictyoglomus turgidum) [pid:39.9%25%2C q_cov:99.0%25%2C s_cov:99.5%25%2C Eval:1.7e-80],MGA_362
sequence04	MetaGeneAnnotator	CDS	32185	33090	.	+	0	ID=MGA_363;product=50S ribosomal protein L11 methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001831256.1;translation=MSERGSKWVELKIRVNSEYVEPIVRLFNKYLSGKVYTQIIDFQEEEEHANSRDLDVEIIGYIISNDNISEYLTNIEVGLKLFEKIFKISDLKKREVFSDTWEKQKFPPISLGKDIVIVPKEKDKINFLHKKTLVIEPSMAFGTGHHVTTKMCIELLEDFIEGEESVIDFGTGTGILALCSLLLGAKSVFCVDNDIESIYSSKKNFEKSGFISKAEFFHGDLSTIPEKNKKFDIVLANLTSHILIENFEHIFRKVDQNGFIIMSGILETRINEVIETFLNKKLKLLKRLQYDNWVSLVFQRI;locus_tag=LOCUS_3600;gene=prmA;note=WP_001831256.1 50S ribosomal protein L11 methyltransferase (Staphylococcus) [pid:29.1%25%2C q_cov:97.7%25%2C s_cov:98.7%25%2C Eval:1.1e-31],MGA_363
sequence04	MetaGeneAnnotator	CDS	33092	33850	.	+	0	ID=MGA_364;product=16S rRNA (uracil(1498)-N(3))-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011974593.1;translation=MHRFFVNHIKEKKGEDVSLDSLRHQLKNVLRFRKDDFIEIFDDTSFEYSIRILDDNCDFGEIISKRIRKIEMYPEIILCQSFIKNDRFELILEKSSELGVTQIIPMITERVQSGSKLKNFDSKHSRWRKIIQEAVEQSGGNVIPTIESFHTFKDLLNLFDDQYEKILFWEKFENSIDLKTCLNSYQNNIKKLIIFIGPVGGFSESEVSIARENRCKIVTLGDRVLKSETVAISSLSIIRYHFQGLVSGKYKN;locus_tag=LOCUS_3610;EC_number=2.1.1.193;note=WP_011974593.1 16S rRNA (uracil(1498)-N(3))-methyltransferase (Sinorhizobium medicae) [pid:24.9%25%2C q_cov:94.8%25%2C s_cov:94.7%25%2C Eval:2.0e-11],MGA_364
sequence04	MetaGeneAnnotator	CDS	33847	34854	.	-	0	ID=MGA_365;product=NAD(P)H-dependent glycerol-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003426955.1;translation=MKKITVIGNTTWGFTLTFLISKKVSNISILTRSEEEKKILDKSRIHKNLSNKMKLPRTIEIESNIQKTIKESNTIIIAVPSHTLNENLMKIREYVTPDKMIISATKGISVKGERMSEVINSYLTKSSINTIGALSGPNLASEISEGKPAVSTIAFRDINKSNDFRDFFSSDSFRIYSGTDVIGTELGGALKNIIAIGAGIIDGLKLGTNAKSAFVTRGLHEITKLGLKLGAEKSTFAGLSGMGDLITSCFGNSSRNWKLGIALSQGISAKEFSNKSKITLEGIQTTFQAEKLSQKLNVSMPITTTTAKVLNNEISIDSAIKELMTRNLSEEEIMN;locus_tag=LOCUS_3620;EC_number=1.1.1.94;note=WP_003426955.1 NAD(P)H-dependent glycerol-3-phosphate dehydrogenase (Clostridioides difficile) [pid:34.0%25%2C q_cov:98.8%25%2C s_cov:97.1%25%2C Eval:2.0e-53],MGA_365
sequence04	MetaGeneAnnotator	CDS	34871	35518	.	-	0	ID=MGA_366;product=glycerol-3-phosphate 1-O-acyltransferase PlsY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003231560.1;translation=MILQLSLNIFTGILAYLLGSIQFGLISGKLIKGIDIREHGSGSTGATNVGRTLGVKIATGVAIIDIAKGFLIVFLFANLLKFFDAEISSYSIIIIGSMAILGHCWPVYYKFKGGKGVLTSLGVYLLVSPIACLIALTTFIIIATISKYVSLGSLMGASVALIYVVVSFFTSIGNSSLTDILFTLFIFCVIFYRHKENIQRLIKGEENKIENKKKP;locus_tag=LOCUS_3630;gene=plsY;EC_number=2.3.1.15;note=WP_003231560.1 glycerol-3-phosphate 1-O-acyltransferase PlsY (Bacillus) [pid:44.4%25%2C q_cov:87.9%25%2C s_cov:90.7%25%2C Eval:3.9e-31],MGA_366
sequence04	MetaGeneAnnotator	CDS	35518	36822	.	-	0	ID=MGA_367;product=ribosome biogenesis GTPase Der;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258958.1;translation=MSIPVIAIFGRPNVGKSTLFNRIAGTRISIVSNVPGTTRDWISLNVESDDNRFILIDTGGIDETPQEEISNEVSEVTKQVLKESDAIILVVDSKEGLNVLDSYAAQLARKSNKPCVLAINKVDNPNRMLGISEFYKLGLKKVVTLSAYHGNGVSDVMDEISKQLPLFNEKPEKSDSINVAIVGKPNVGKSSLFNSIIGEDRSIVNPIAGTTRDSIDTEIVFENKKINFIDTAGLRRRGSIEPGIEKYSVIRSIKSISRSDISLLVTDITEKISSQDSHIAGMIKDAGKGCIVIANKWDLNEELSLTQDDISNVTMDKLKFLNGSPIIFTSNVTKIGIETIFDKILEVYEEYNKTIHDDKIWTNIIDTISKHPPPSKGRSKIIIKNAFQKSTKPPTFEIKFQNGKLLHFTYKRYLENGLRKKFGLNGVPIKLDIK;locus_tag=LOCUS_3640;gene=der;EC_number=3.6.5.-;note=WP_012258958.1 ribosome biogenesis GTPase Der (Chloroflexus aurantiacus) [pid:40.8%25%2C q_cov:98.8%25%2C s_cov:97.1%25%2C Eval:1.2e-93],MGA_367
sequence04	MetaGeneAnnotator	CDS	36850	37752	.	-	0	ID=MGA_368;product=ornithine carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878750.1;translation=MNLLNITDLEPKQIRKIVEKSLEFKKGLRTESLKGKNVVLLFEKPSLRTKLGFFKAINILGGSPIYFGPEEIGMGKREPIKDISKVVSRMADIAILRTFSHSTIEEFSNYSNIPVINALSDVEHPCQALGDLLTIYESTSLNFKDIKITFIGDGNNVALSLSHAILSLGGKFVICTPKEFGFGKTDITKTEQLVKKYGGSFHIESSPEKAVENSNIIYTDVWASMGQEKEISKRKIIFKNFQVNEKLLSISPEALFMHDLPAHPGEEISENLLEHPQSIVFDQAENRVWSQVSLLDQLFL;locus_tag=LOCUS_3650;gene=argF;EC_number=2.1.3.3;note=WP_010878750.1 ornithine carbamoyltransferase (Archaeoglobus fulgidus) [pid:43.0%25%2C q_cov:99.0%25%2C s_cov:96.7%25%2C Eval:1.0e-63],MGA_368
sequence04	MetaGeneAnnotator	CDS	37823	39490	.	-	0	ID=MGA_369;product=arginine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583838.1;translation=MEISFVLKKYLNEALSSFNGEYFKKSKKIDFVVEKPQIKEHGDYSSNIALQVSRELNQNPEEIAKIIIKNLELPDFIKNVSFKKPGFINFFLSDQWLQENLKSILNKENNYSKKENFNKKIQVEFVSVNPTGNLHIGHARGAVIGSTLSNLLETQGFQVNREYYINDAGNQIDLFTESLYVRYMNLFNNNLPIPENGYEGKELEEIAEQIKSENYEKFTKISKKEALIHLKEIGIKQILNNIKDDLIKLGVEYNSWFSEKSLIKNGEFTETINILKKKDLVFEEDGATWLDSKKLGDNKNNVLIKSEGGAPTYFATDIAYHKNKFLTRNFDMVIDIWGADHHGHIKRLSDALKALGVERNRFVVILNQIVSLKTKSSMTKFSKRKGTSIPLKDLIEEVGKDACRYNFLSKSPDSQMEFDIDVSKKSSSENPVYYVQYAHARMNSIIEKSRDLNLSKSTSNLNLLTHYTEIEVMKKLSEFPEILRFSSEKLEVHRLPQYTLELSQLLQKFYEKCRVLPEKQKDYPISNSRLYLIKASKLILSEALSIMGMESPNKM;locus_tag=LOCUS_3660;gene=argS;EC_number=6.1.1.19;note=WP_012583838.1 arginine--tRNA ligase (Dictyoglomus turgidum) [pid:43.6%25%2C q_cov:95.0%25%2C s_cov:95.3%25%2C Eval:3.2e-124],MGA_369
sequence04	MetaGeneAnnotator	CDS	39845	41158	.	+	0	ID=MGA_370;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase GatCAB subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011090641.1;translation=MDKIELLDKELNSFMEVYKDSALKTAIRLEKELLSGNTRGPLHGIPIGLKDIFDIKNKITTVGSKILRNNFASSNATVVDKLESSGAIIIGKTSLVEFAFGATGLNPHYPQTVNPWNKEKIPGGSSSGSGVAVSSKLCAGALGTDTGGSVRMPASLCGISGLKPSYGLVSRTGVFPLSWTLDHVGPLASTPYDCGLIMNSISGYDSTDKDSVFLENFDFNGRIGKSIKGIKIGVPQEYFFDDLDSEVEEKINNSISYLEDNGAIIRKISCPWVKFGRSINLIISSSEGLSIHEDWLKNYRDQYDPKVKSRFLSAMSISSNDYIKALKSKEWFTGKMNEIFQEVDLIISPTIPILATNIEDDSNVGNIKNPLFTGVFNVTGHPSLSVNAGFSKNKLPIGLMISGRHKEDDLVLQIGEIIGGTESEYFRKNNIRIQEII;locus_tag=LOCUS_3670;note=WP_011090641.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase GatCAB subunit A (Bradyrhizobium diazoefficiens) [pid:37.6%25%2C q_cov:95.0%25%2C s_cov:89.6%25%2C Eval:4.8e-77],MGA_370
sequence04	MetaGeneAnnotator	CDS	41155	42090	.	+	0	ID=MGA_371;product=decaprenyl-phosphate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965124.1;translation=MKQILGLFEIFRLRQQIKNFLVIVPFLFSLNLWYSNNELGQYLLIFSSVVGGVLIFSLASWAVYLLNDVIDADMDLIHESKKNRPIARGTVSKNYALVMSLFLIIGVPILAFFLSTGFCVCIAIYLLMNIFYSLLLKQIVIIDVITVALGFVIRALSGVFILRDSGVEVLSNLQVSPWFYLCTGFAALFIVLMKRHGELEGSEQTFVTRPTLRMYSSNLLLSLINISCSATIITYSLYTVSGKFGWEVNVPSDNSMIITVPLVIIGIFRYMYLCFEEKKGESPEKIITSDIFLIIVILIWLITSIFILLLR;locus_tag=LOCUS_3680;EC_number=2.4.2.45;note=WP_010965124.1 decaprenyl-phosphate phosphoribosyltransferase (Clostridium acetobutylicum) [pid:34.3%25%2C q_cov:99.0%25%2C s_cov:97.9%25%2C Eval:8.8e-45],MGA_371
sequence04	MetaGeneAnnotator	CDS	42157	42843	.	+	0	ID=MGA_372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPWVIIQRIISLPFLGLSIFLKISPNFISLISIFLILIASFLIVLNFLVFGILALTLAVIFDCVDGELARVSKKTSILGERLEFLGADFFTMIGIPSIAIWLFVYNDLSTFILFLCFLSASLSVFARNYFEFDCNFDLKKLNFTEKIIISWSKNQININHTSLLVSIMFFLRMNLTTQDGILFLVIVLSGFFYPQNIFYLVIFVSISQIVFVSLIIFADILKNKITTN;locus_tag=LOCUS_3690;note=MGA_372
sequence04	MetaGeneAnnotator	CDS	42836	43573	.	-	0	ID=MGA_373;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKNNKNLNIIILVAGRGSRLEEVTKDPKCLLKIQGKTLIDRTLDQISDYEKQINKIIFVTGYKSEKIKTHISKHKLFSYCDFIFNKDYELGSIFSLNLTRNHINDHNIIMDGDVFCESSIISLIFNSLNENTILIDPKSSNTGEEILVGASTKKIISIKRGLTGEFKNFGESIGFMRLNRKSMMKFFEVIEEDILLNSKTIGYEDLLDKLVKFIDIGFISIKEKKWIEIDFPKDYEDAKKLIIN;locus_tag=LOCUS_3700;note=WP_011022964.1 sugar phosphate nucleotidyltransferase (Methanosarcina acetivorans) [pid:23.7%25%2C q_cov:96.7%25%2C s_cov:57.9%25%2C Eval:4.7e-13%2C partial hit],MGA_373
sequence04	MetaGeneAnnotator	CDS	43573	44055	.	-	0	ID=MGA_374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILGQYHTGFVVENLEASLHFYIDILGLKIEREPATQSGEWISDVVGLKNIELKMAFVGTGDGHSIELFEYLNPTGKKREDMDKVFLPGSAHCAFIVDDIRSWFKKLKENNVKILSNGEPTLRDKPYPWARYAIYIQDPDGNVIEMVERAKKPKGNSEN;locus_tag=LOCUS_3710;note=MGA_374
sequence04	MetaGeneAnnotator	CDS	44137	45246	.	+	0	ID=MGA_375;product=2-aminoethylphosphonate--pyruvate transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_032507026.1;translation=MKDKVLFTPGPLTTSLDVKRSGLRDIGSRDEEFIQLCRDLRKNLLLLANLSHDEYEVILLQGSGTYGLEAVLSSFTPPNGKWLIVSNGDYGHRLTLIAKILNIDFIEASFPCQNIPDKEVINYHLENDEKITHVSLTHCETTTGILNPIEDLLELPSMSDKKIFIDAISSLGLYEISNQNSVIDFLIGSPNKSLEGIPGFSFVFVKKEILNKYNYPPRSFSLDLLGQYRESVKSGQFRFTPPVQSILVLKKALQIYFEEGGLKSRFKRYKNIQYSIINGMKKMGFETIVASKDQSVLITSFKIPNLKSFVFEKFYKFLSDHGLVIYPGKIEGINSFRIGHMGQIKEKDVDNLLKKINLYLKKCESDNEI;locus_tag=LOCUS_3720;gene=phnW;EC_number=2.6.1.37;note=WP_032507026.1 2-aminoethylphosphonate--pyruvate transaminase (Clostridioides difficile) [pid:38.5%25%2C q_cov:97.6%25%2C s_cov:97.6%25%2C Eval:1.2e-70],MGA_375
sequence04	MetaGeneAnnotator	CDS	45236	45925	.	+	0	ID=MGA_376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKNFDINTILSETGSSLLTIIYKSLLKREKQIILECGVNKGYSTSMFSYYSEKSDSYCFSIDINDCKDVVTSERWTFIHNDDSKVLEIINDYPVLQDQGIDILFIDSFHRADHVEKVLYGWYPYLNKDSLIFIDDIDGRNYRKGKEKDSYYNELNWEEINRFTRDFSENNSSDTILTQYFGKTGLAKIVKVSEKGSLPNRIVNRERSLLLKLITLFNRNLKNLFRSR;locus_tag=LOCUS_3730;note=MGA_376
sequence04	MetaGeneAnnotator	CDS	45928	47403	.	+	0	ID=MGA_377;product=amidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879446.1;translation=MKNNEKYEVLFKSASELRQLICSKKISPVEITNLALERIEQINPKTNAFLTVTADSALEKAKEVEKKILNQEPLGLLAGIPTSIKDLEPMKGVRQTKGSLIFKDFIADVDQISVERIKNQDGIILGKTNTPEFGQSGTTENKLGDHCRNPWNLEYVAGGSSGGTGSSVASGITPVAQGSDGGGSIRIPAAFCGIYGIKATQGRVPRRNISNLSWHPVNYSSMGPISRYVVDSALFLQALSGPHPESEFGTLTNSPPNFLIDIEKGVSGKLIGWSPDLGSRIVDDEVKNVTENAVKIFEDLGANVEELNFDIDLDELEHPLHNVLSFALAYATNGYLLEENSDFLMHYVRNTIEKGKNISADEYLQSLTKLYEFRSKIERIFDRYDFISTPTMAIPAFKCNERPFFENGKIKFKDLDDGYYDYSNWNIHLTQFTALFNWSGNPAAALPCGFSSSGLPVSLQIIGKKEDEVGVLQASRAFEKVKPWHDYYPHI;locus_tag=LOCUS_3740;note=WP_010879446.1 amidase (Archaeoglobus fulgidus) [pid:36.2%25%2C q_cov:95.1%25%2C s_cov:96.9%25%2C Eval:1.0e-70],MGA_377
sequence04	MetaGeneAnnotator	CDS	47498	48376	.	+	0	ID=MGA_378;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003815464.1;translation=MNAKLHVLGSGTPTPTKERWGSCFVLEIPGEQIMFDCGPASTYKMILMDLDPKKVNNLFFTHHHSDHDLDYPCFLLTRWETSIGNEENLNIYGPPPTELLTTRLIDLDIGAFAHDLIARTNHPLSLNAYQIRGGVLPRQLPKYIARDISPGEVINTKNAKVTSTLAEHVEPYLDSLAYKVETEGLSIVFTGDTRPCKTVVELARDADYLVCICSGLQSDIEGTPEDDYMSGSIDAGMMAKEANVSNLMLVHEGYNLSDPKNLKDAIDGIKNIYDGNVIQTNELKTYDLQVGK;locus_tag=LOCUS_3750;note=WP_003815464.1 MBL fold metallo-hydrolase (Bordetella) [pid:35.2%25%2C q_cov:93.5%25%2C s_cov:92.5%25%2C Eval:1.2e-45],MGA_378
sequence04	MetaGeneAnnotator	CDS	48469	49668	.	-	0	ID=MGA_379;product=M20 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011728380.1;translation=MQNYIQTILDSIDEEKIAEDTLNFLKVKSETGDEKKGCDFLVNILQRENLDVLVDEFIDKRPNVYTLLSGSNPKVGKSLMFNGHIDTIPIGISDPPEIKNNTIIGRGAEDMKGGLISVVHAISAIKKSKINLSGDLSLTSVIGHETPIGQKEGPKRLIELLKLKKMTPDAIVITEGPNAIWTAGMGFINFTITIHSEKGSMHTINTTFLENPIYWAGKTLLELQNLEVEFENSEYHKLCGRNQLNIGKLNGGDYFNRLPSEVTINGTLRWNPNYKMKDMLSKLQNICSKISKKSNLKTNFSIEENATKQPFQTSLDDPIINSLKNSGEKIIEKSPEIIGMALSTDANLYSYHTKIPTIGYGPQYKTAHSDHEKISIDSLYKASKIYALTAIEYCGIYKK;locus_tag=LOCUS_3760;note=WP_011728380.1 M20 family metallopeptidase (Mycolicibacterium smegmatis) [pid:22.7%25%2C q_cov:98.2%25%2C s_cov:98.7%25%2C Eval:2.4e-19],MGA_379
sequence04	MetaGeneAnnotator	CDS	49723	49893	.	+	0	ID=MGA_380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLIIIFLGLLFISVGLLLYQSRLENDFQVQSDENRHTNISYLKVMKEVEKELFD;locus_tag=LOCUS_3770;note=MGA_380
sequence04	MetaGeneAnnotator	CDS	49933	50940	.	+	0	ID=MGA_381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATLTLEHKQHFEEFGFVKIQGLLDPKEVIDPVISEYKIVLDNLADQLFDNGKIQSKYEDLEFGERVTKIYSESGEVHNQFFDFSLPQSNIKNDTPFWTGPAVFNAIRNPELLDIVEGFIGSEIYSNPIQHVRIKVPEKDCPRDKNGNVIFGATPWHQDAGVATEEIDNTDMLTVWFPLTDATEDNGCLQIVPGSHKGKVLTHCPGFDLKTKKKISKLGPGGLQIPEKLFKSEHAMPIPMKKGDVLLFSKKTVHSALPNLSDQIRWSFDLRYQPVGQPTGRDMFPGFIARSKEDPDAVLEDSSTWNQMWIKARDSLAKTEQFEFNRWDGNDIACA;locus_tag=LOCUS_3780;note=WP_005888848.1 chlorinating enzyme (Pseudomonas syringae group) [pid:35.7%25%2C q_cov:30.4%25%2C s_cov:37.2%25%2C Eval:6.6e-09%2C partial hit],MGA_381
sequence04	MetaGeneAnnotator	CDS	50965	51168	.	+	0	ID=MGA_382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKRLIFGIFLIIVGLIWLLNIGESFGQLLILSIGIYFCLIGASQKIRSSKKKIPEEEDNLPIKDDS;locus_tag=LOCUS_3790;note=MGA_382
sequence04	MetaGeneAnnotator	CDS	51158	52042	.	+	0	ID=MGA_383;product=DUF1295 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942960.1;translation=MIRKDKIKFLGYLFLILLVSFFFTLLISPNTIQIGFVPSIIIFSGIIFLVQWVFFIHSYLLNSEYYFDLVGSMTFISIIISAFLISDIKDFRSMVLFFIVIVWAIRLGSFLFFRIRLKGFDNRFSSIKNDFFKLFFVWNLQGMWILFSISPALISLLSEAKNSMGILGYVGILVWALGFLIEIIADYQKMIFRSKKENEKNFINSGFWAWVRHPNYLGEIILWFGVSIISFPVLIGWQFLSLLSPIFVAILLIKISGVPILEENNKNRWGDNPEYLTYIKNTPMIIPRILKIKK;locus_tag=LOCUS_3800;note=WP_010942960.1 DUF1295 domain-containing protein (Geobacter sulfurreducens) [pid:26.4%25%2C q_cov:84.4%25%2C s_cov:96.5%25%2C Eval:8.4e-26],MGA_383
sequence04	MetaGeneAnnotator	CDS	52157	52765	.	+	0	ID=MGA_384;product=glycerol-3-phosphate acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011993730.1;translation=MILIFWILVAFFLSSIPWAMVLGFLFLNRDIREVGDNNPGGANAWKMGGWKIGLSAVLLDLAKAFVPIYCAINFAGIESWGISALAVASLLGHAFTPFLKFRGGKSLAVTAGIWAAISNGWLVIPVMISLATFHSLQRTHVWTIILTMIVILSWVILRYFSPSMIILWVFNMNLIVLKHRNEIREGVIPRNWLINIVRKEND;locus_tag=LOCUS_3810;note=WP_011993730.1 glycerol-3-phosphate acyltransferase (Fervidobacterium nodosum) [pid:30.9%25%2C q_cov:90.6%25%2C s_cov:94.0%25%2C Eval:5.6e-21],MGA_384
sequence04	MetaGeneAnnotator	CDS	52758	53324	.	+	0	ID=MGA_385;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINFISFYYLYFLVVFSLLLLFVTLVNILLSFLFTRKNKRQGSIDFSSKKPLISVLIPARDEEENIYRCINSLLKQSYSNIEVVVLDDDSEDNTFALAKEISDLDSRVSVYKGNKVPSGWLGKNWACHQLSEKANGEFLLFLDSDTKLSPNVLSDSMNMHINEDLDLLTLFPKRKASTFIDKIISVTI;locus_tag=LOCUS_3820;note=WP_010933643.1 hydroxychlorobactene glucosyltransferase CruC (Chlorobaculum tepidum) [pid:42.3%25%2C q_cov:71.8%25%2C s_cov:34.3%25%2C Eval:1.7e-26%2C partial hit],internal stop codon at [53322:53324](+),MGA_385
sequence04	MetaGeneAnnotator	CDS	53328	53945	.	+	0	ID=MGA_386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFSWIPIFLANTSKFPFFSAAFGQFLLFKRDSYNLIGGHKTIKVEILDDFELGRNISRNKLKLKMINGVKDIETFSYNSEKEALRGFSRTIFPFFYQSLIGFLILWFLFISMTFIPFLMIFVEFFNITLDENKNSLILLIWTLLSCSWVLAALRSKQSIFLAILFPFAMLVTSIIGFYSVVSFLIDNIHWKNRNVIFQKGNKDK;locus_tag=LOCUS_3830;note=MGA_386
sequence04	MetaGeneAnnotator	CDS	53961	54446	.	+	0	ID=MGA_387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIKIIDQYRITNNQVLNYIDDVTDEESKLIFEPLNCISWTLGHLARYNNLTFAARSRGVEIPNEFKDFENGAPHSQKDLSYVKGLWHKTLSDTEKFLDGLNENDLVKVLDNDSYNVDNLGTVMTRMIFHSWNHLGEIASVRQLIGKNPGNPGYGKWDWKY;locus_tag=LOCUS_3840;note=MGA_387
sequence04	MetaGeneAnnotator	CDS	54489	56090	.	+	0	ID=MGA_388;product=glycoside hydrolase family 32 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258585.1;translation=MISENNDHTSLVPKYIFSEIEEEQLKQLENNPLMQRLIVSRESYKNDPHRPIYHYVNPESNLNDPNGLCFWNQRWHLFYQGYPPEDPRVHWGHAISDDLIHWRDLPYAIYPDPEESCFSGATLVEKNRVIAMYHGTKVGNMIATSSDPLLLNWEKLTNKPVIPISNPDGTPLPYRVFDPCIWNKDGVYYSLSGGTLPHEPSGKRTRANFLFKSKDLINWEYLHPFIEGDRFTLIGDDGACPYFWPIGDRHILLFFSHMSGGQALLGDYDSSRDKFIVTSHQDFNFGAYGPSGVHAPSATPDGKGGVIVIFNMNPGLDTKGWNQIMSLPRRLSLLGKDKLGRDLLAVEPSGDVESLRMDHKKISNLTLSANEEVVLENINGNSMEIIAQIETNNSPMIELNVLRSPHKEEFTRIAFYRARGFRDWERYSMEEIRAGTATSNSLITIDSSYSSLLPDALSRAPETGSLFMEPNELLNLRVFLDKSIIEVFVNGKLCVSTRVYPSLKNSTGISLRAQGSDANLLSLDYWNMQNIYK;locus_tag=LOCUS_3850;note=WP_012258585.1 glycoside hydrolase family 32 protein (Chloroflexus aurantiacus) [pid:29.5%25%2C q_cov:90.6%25%2C s_cov:98.7%25%2C Eval:6.0e-40],MGA_388
sequence04	MetaGeneAnnotator	CDS	56113	58044	.	+	0	ID=MGA_389;product=S9 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249703.1;translation=MENVKEYIEGIKTIPWISFDELNNQIFFQQTSVDSKTNQRLSQIFSIDLISKKIEKVTSGFNDSIPKISPDGKFLAFIRTNEKTKSNKINSIFIKDFYKNYEFQLTENFKSVKSSEDNYGLFNWDNSSSRLVYSFRASNLNNLDLKPLVVKKIRYRHDALGWIGDIYNQVEIINIFDKSIISVPNSECDHLNPVFSNNDKLIAFITDAGDDRDTSWTQSIEIFNIDSSKILKIDQSFGGLFSLIWTEDDSKLIVFGSNDNKYSDKRVSSLFSINLKNGEKVDLNINQVAFNSQPNLNFLSHMTLPYTSRGVSFIADISLKNSKLKVLYGKESKINQIAYGNSNEKVFFVENSRNHHESICQYDRSSNNYELLYDSNDDLFQKIKVSRMEKFEINRSSYQIESRIFLPNDIDKNKKYPVIIDIHGGPHGRFEDQISISQELFTSNNFIVLAVNPRGSSSYGDDFLNEVLTDWGGEDYLDILDSIDELSKFNFIDPNRLGLYGHSYGGFMSSWIIGHSNKFKAAVISAPCINLNSMSGTSDIGIKFGEEQWGGIRTFNVEKHLFNSPISYVENVETPALILCGELDYRCPIEQAEQYFVALKRLNKNVQFVRYPDQNHQMLDQGKPDFVIDYWTRTINFFKEYLC;locus_tag=LOCUS_3860;note=WP_011249703.1 S9 family peptidase (Thermococcus kodakarensis) [pid:27.4%25%2C q_cov:94.4%25%2C s_cov:94.1%25%2C Eval:5.5e-59],MGA_389
sequence04	MetaGeneAnnotator	CDS	58066	59553	.	-	0	ID=MGA_390;product=M81 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011836208.1;translation=MKKILIAGCTQEISSFNPVTCKYDFFDISRGNEIYKFNKGLNTYIGGVIEEIEKTQNMHPVFTYNAQGHAAGILEHTSFLKISNELINSIKEHKGKVDGVYISLHGSMATTEELDPEGFILEEIRKILGYDIPLVISLDLHGVLTTKMLENCNGVTSLHTYPHIDFADTGKRAFKMLKRIMNEEVKPLCARVRIPTLVRGEELITEKGVFGEQVKYAKSLNSNNKILSAGFFIGNPFTDVPELCSQSYVFTDNDIQLASKSALNMANDFWPNRKKMQANLISIKKSVELGSKMEGTIAYTDAADAPSSGALGDSNAIISEMIQQNYPHSILSTLLDPKSAQFAHKKGQGSQIKIPLGGAFDQRFKPLDLEWKIISVSNEPFMLEKWGFLQTPGLTAVLKSGNLTVVVTSNPVMQVDRSIYLVNKLNPKDFHSVIIKSPHCEPEFYDNWVKENFNVDAPGATSANLSSLGHKNCRRPMFPMEKNCKFTPKVEIYGK;locus_tag=LOCUS_3870;note=WP_011836208.1 M81 family metallopeptidase (Cereibacter sphaeroides) [pid:42.9%25%2C q_cov:98.8%25%2C s_cov:98.0%25%2C Eval:4.0e-115],MGA_390
sequence04	MetaGeneAnnotator	CDS	59670	60125	.	-	0	ID=MGA_391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFYTILLVISMTIISCSQASSDEASSKEISEKSVNRLSVIMNEWEVRPTPNYKMGKHIPPGDIEITLTNAGKLVHNMYVLNQSSYDDFTILDDETADLSEIEVLLEISDVQPGQNGKGAISDLQPGTYAFICNIPGHYSSGTVGKFIVR;locus_tag=LOCUS_3880;note=MGA_391
sequence05	MetaGeneAnnotator	CDS	205	1356	.	-	0	ID=MGA_394;product=alpha-hydroxy acid oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013843875.1;translation=MRLKHCHNYYDFRKLAKKRIPSPIFHYIDGAAEDEVTYRRNASAFNDVDLVPNVLRGVENIDLSTTIFGKKLDLPFFCSPTALQRLFHYDGERAVARAAKKLNTMFGVSTLSTIPVEELSQINTPKLFQFYYHKDKGLNDVVLQKAKEAKFDVLALTVDTIVAGNRERDLRTGFTSPPKITLSSLFEYLTKPMWGINYVTRGKFELPLLKDHVNELSNVAMSIGNYFSKFLDQSMNWNDAEKLSSDWGGHFALKGIMSVEDAKRAVDIGCTGIILSNHGGRQLDGSRSSLDQLSEIVDAVGDKIDVIIDGGIHRGTHMLKALSLGAKACSGGRLYLYALAAAGEVGVEKALNIYKAELERDMKLMGCTKLSDLNRDNLRFRNQ;locus_tag=LOCUS_3890;note=WP_013843875.1 alpha-hydroxy acid oxidase (Sinorhizobium meliloti) [pid:57.9%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:6.3e-131],MGA_394
sequence05	MetaGeneAnnotator	CDS	1427	2581	.	-	0	ID=MGA_395;product=mandelate racemase/muconate lactonizing enzyme family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000975831.1;translation=MKITNIKPFAAQFISLSKSAESHPKKWVFVKIETDEGIHGWGEIGTGSSVSEKLMSTAVNEVTDLFIGENPMDTERLWHKLFRKFSYVGSRGFTTSLISGFDIALWDIKGKYSNMPIYDLLGGRFRDTVRLYCNSWFDGCDTAEDYAKAAKTNLLNKGYSACKLDPFLEMVPFHTMYQDGFISQAGEEEGYDIVSAVRDVVGPKFEILIDAHGHYNVPNAIRLANNLYDRFKIGWFEEPLPPESIKGLKQVKENTDAPICVGERLYTRYDFLPILENGLADYIMPDTVWTGGISETIKIANMAEAYNVPVSPHVIPGGPIELISAAHVVSAIPNFYRLEHSLSLIPKHNNYLKEPYKIINGEFHLNNNPGLGFELDEKKLEKLF;locus_tag=LOCUS_3900;note=WP_000975831.1 mandelate racemase/muconate lactonizing enzyme family protein (Salmonella) [pid:35.8%25%2C q_cov:99.5%25%2C s_cov:98.0%25%2C Eval:1.2e-57],MGA_395
sequence05	MetaGeneAnnotator	CDS	2693	3934	.	+	0	ID=MGA_396;product=mandelate racemase/muconate lactonizing enzyme family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_210343307.1;translation=MKITHIETIRVDEIPQIIWVNIHTDKGIIGLGETFYAPTVVESAIHDHFGPLLIGRDPRKVELHWNSMFTLSDHAGFGGAEMRAISALDMALWDIKGQDAGVPIYELLGGAVRERIRVYATGLPYSGFIEYVNQLLDKGITAMKFGPTIPLALASDGQFLSPKDLDIAIQPIKEIRDAIGNKIQIANDGHGKWTLPVAIRIAQAMEPYEIMWQEDLMPVHNPNALKELQNSTKTPVCISERLLSRWQFREFIENGSARIVMPDLIWTGGISETKKIAILASSYQVPFAPHDASGPVNIFACAQICISSINAMIQEFVPPYHEGWYGDFVDPNLDIVDGFLNAPQNPGIGTKLKKEVKERKDVHLKISSTAKENPIDDWETVDFLGKKSTFRSNSMEEELKILRKERSPHLYDK;locus_tag=LOCUS_3910;note=WP_210343307.1 mandelate racemase/muconate lactonizing enzyme family protein (Bradyrhizobium diversitatis) [pid:37.9%25%2C q_cov:89.1%25%2C s_cov:95.0%25%2C Eval:1.7e-76],MGA_396
sequence05	MetaGeneAnnotator	CDS	3950	4510	.	-	0	ID=MGA_397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFFIILIGINFSCFSVEGSENSDSVLDIDSEIESIVTKTPEPSPERNKEINLDVVFKDKVNLYLNLDVPKGFVLKELVVKKYEGDDKIAFFAIQKSSTYTAGDDISKMVAWGHFGPESGNVLFYSDNLEFKNKVPVKLSSGSYSIRFAQNNYKEAKYKLVGKLISASKSGLPDYGEAYSDHGY;locus_tag=LOCUS_3920;note=MGA_397
sequence05	MetaGeneAnnotator	CDS	4537	5421	.	-	0	ID=MGA_398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAFIGLEGPSARLLIADILGKEKIIEGNAAQEFFNQFLNATLPAIAGFLLTILSITLMFWSLPIIALLSSICAFITLLIFKENKKDEILQTSDNSSIRDAVIYSYKNIQIRCLLICSVTILGWGITQPLIPEYCRDKLGLDGSGYAIISSVYFVGAMIASISLPYLKKYVLNSKSIFLFIILYLISVILFFISPNFYIAGFMILLSGVFHAYWWAGVLLSLQIISEERFKGRVISFFFATLGLVGIGFILGGFLGTKFNSIVVASASGFILFATHFVLYVFSSSFRSLDSYKQ;locus_tag=LOCUS_3930;note=MGA_398
sequence05	MetaGeneAnnotator	CDS	5585	5767	.	+	0	ID=MGA_399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIAGKPVNKPIKKVESVSSKIYQLIRISLIKKIENAKADDPNKNTKALFLKIDIFMFIF;locus_tag=LOCUS_3940;note=MGA_399
sequence05	MetaGeneAnnotator	CDS	5944	7395	.	+	0	ID=MGA_400;product=sulfatase-like hydrolase/transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015776859.1;translation=MASTDQNRPNILFILSDDQGPWAMNCSGTEELISPNLNRLSETGIRFENFFCASPVCSPARATILTGQMPSQHGVQDFLRSGNSEELSEEDKSIQYIKGIPTYIELLKERGYSTALSGKWHLGDSVTPQAGFDFWDVFATGSGDYYKSPMFKDGKLYEGDGYISDVITDNAIKFLDEQFNEKKPFSLNVHYTAPHAPWDRHQHPKDVYDDYFKNCKFESVDWESTHPNHLSKEGASGSIGHTKLERRQILSGYFSAITEMDKNIGRLLDWLEEKKLRDNTLIIFTSDNGMNMGHHGIWGKGNGTYPPNMFDTSVKVPTIISMPNHLPQDIVNFDLLSHYDLMPTILEFSNIEHSENHQMPGKSFKKLIQGSKKIDQKPIMVYDEYGQTRMIRNNNHKYIHRYNGVECEFYNLMADPKETKNEINNPDFAEIIIKMKRQLFDWFKNYSKPEHDGSKQLVKGRGQLDIINSNREAFAQDVTFLLK;locus_tag=LOCUS_3950;note=WP_015776859.1 sulfatase-like hydrolase/transferase (Brachybacterium faecium) [pid:34.4%25%2C q_cov:94.4%25%2C s_cov:96.7%25%2C Eval:8.7e-75],MGA_400
sequence05	MetaGeneAnnotator	CDS	7487	8245	.	-	0	ID=MGA_401;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065716.1;translation=MSFSLLNINYQNNNKNILNDISIDFTEKSIGVLGHNGSGKTTLMKILSGITKPTSGKVEFDKKNLKHISDLDRAKNIGYVQQDREYVIGFTLYEYVELGTFPNKNILDFKNNLDSKVIDKALDIVGLLNRKDELVDNLSGGEMQILRIARVLAQNTKVILFDEPTSNLDLKNAHKVSSLIKKLNSHGIQTIVTSHDFRILKDISDFLCLLKNGVIVDFGKTKDVLTHENIINAFELLPEHYSKIDSNEFKDL;locus_tag=LOCUS_3960;note=WP_048065716.1 ABC transporter ATP-binding protein (Methanosarcina acetivorans) [pid:34.8%25%2C q_cov:86.9%25%2C s_cov:84.6%25%2C Eval:2.0e-30],MGA_401
sequence05	MetaGeneAnnotator	CDS	8261	9448	.	-	0	ID=MGA_402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIRFFMLILIIIPNLFLACANTESKTIKEETIVEVIKEVPVEKEVIREVEIEKIIVQEKEIIKEVPVVEREVVEVVKTVEVYIDQKSDSLIDLSKVEGIVNPKNFSWPREIQAMNGNIVINQEPQRILTVSLGHDEMLFGFVELDKIVATTSFSQDPGGNIFEFSNGLPVITADPEVIIAQDPDIVFADPYANPNLLDALSDLNIPVIQTTLHNDVEGRRADILLMGYALGELESAKNLINILDERIKFINSYTETKDVNEKPKILSLTYYDAYWTGGLGSTEGSIIDLAGGINIAAESGVQSNDMITKESLISMNPDVIIIPQSKEWGGESFFNDLISDNTLKEIQAIKNDKVYLVDPRYFTTLSHWNLRGTEELMKIVWDDLRTKKFIDFGR;locus_tag=LOCUS_3970;note=WP_147367304.1 ABC transporter substrate-binding protein (Fusobacterium canifelinum) [pid:26.9%25%2C q_cov:67.8%25%2C s_cov:93.1%25%2C Eval:3.7e-25%2C partial hit],MGA_402
sequence05	MetaGeneAnnotator	CDS	9445	9963	.	-	0	ID=MGA_403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILASSEYGEMSSILFWLAGGLESTRWDHVFLLFPIVLINLPILIFYSNKLNVLALSDDSAKSLGLNVSKTRLILLLSTTALTSMAVAVSGIIAFVGIIIPHIVRLITGPDNRVVIPISALLGSLFLVFTDYLARTIFSPTEIRLGIITSLVGAPFFIYLLIRQRTTEVVQ;locus_tag=LOCUS_3980;note=WP_005901766.1 iron ABC transporter permease (Fusobacterium nucleatum) [pid:45.2%25%2C q_cov:95.9%25%2C s_cov:48.4%25%2C Eval:1.4e-37%2C partial hit],MGA_403
sequence05	MetaGeneAnnotator	CDS	9920	10306	.	+	0	ID=MGA_404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDISPYSELAKIIIEITELANNDIASPPRINETKEFLPETKEIKYTVNAAIIPPKNAIKGNTIRDNEYIPNAIELTAPTAAPDETPIILGSAIGFLNNPCIIAPETESEIPTKIARIILGNLIFKII;locus_tag=LOCUS_3990;note=MGA_404
sequence05	MetaGeneAnnotator	CDS	10346	10525	.	+	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRIFSISAKFILTGPDLTERITNNKVKDKQRIDKSKSLSKYDKFLNLFLLRLDIDNIK;locus_tag=LOCUS_4000;note=MGA_405
sequence05	MetaGeneAnnotator	CDS	10858	11874	.	-	0	ID=MGA_406;product=2-hydroxyacid dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010971592.1;translation=MSINKDKLNVLVLRANSLDRSIEELKKNTHVPVEWTIVDFMDKKLIADVLPHQDVLVSTSLDHSFKNESKNLKGIFMPGAGWEKVSPEAVPDGCLVTNSYEHEIGIAEYVIMSMIALDRNLINVHNNFSKNKWDYWPQRSGPSKELHGRSVGVLGLGRIGRKVLEMTKVFGMKNYGIEVNPIDQSIIEDLSLVDLVKPKDIISVLPILDFFIICVPFIKSTEGLITKNELSLMKKDSFIINPARGPIVNQKDLFESLKTNQIAGAALDTWYTYPKTKDENPNPSDFPFNELNNVILTPHVCGSTFGTFDRRMKVVAQNINNFFEGKNPINRVQELSKD;locus_tag=LOCUS_4010;note=WP_010971592.1 2-hydroxyacid dehydrogenase (Agrobacterium tumefaciens complex) [pid:34.3%25%2C q_cov:84.0%25%2C s_cov:85.4%25%2C Eval:2.0e-45],MGA_406
sequence05	MetaGeneAnnotator	CDS	11953	12480	.	-	0	ID=MGA_407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKFLIIVVVNILFFSVISCDSEDKLASSENSDSKMPKGYVGSLYKAEPLSGSLKNPETIKIESDNINEPIVEEKKLNDFSGKPRFIEFWSPTCMTCLASKPVVHGLKEDFGEEFDFFSLSTSDYQSRDAFLDYGIRAVPTFIIEDSQGEIIFKASGRAKNEVFQATFEEILNTN;locus_tag=LOCUS_4020;note=MGA_407
sequence05	MetaGeneAnnotator	CDS	12485	12664	.	-	0	ID=MGA_408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLFNEINNKLENRRKYLLIILNITLLIFVVLEISILNTIAPKAEIKSFTKNCVMENRC;locus_tag=LOCUS_4030;note=MGA_408
sequence05	MetaGeneAnnotator	CDS	13238	14227	.	+	0	ID=MGA_409;product=myo-inositol-1-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257445.1;translation=MNTLMSDYHIGDIKIVAAFDIDKEKVGKDLSEAIYMNNNSLKFHEVPLTGVKVQRGMTHDGLGKYLSALISKAPGETSNIVKILKEKKVDVVINYLPVGSEQATKWYVEQVLKAGCAFVNCIPVFIAKENYWQKRFHEAGLPIIGDDIKSKVGATIIHRVLARLFQDRGVKINNTYQLNFGGNTDFLNMLERDRLISKKISKTESVKSQLEQEINSKNIHIGPSDHVPWLEDRKWAYIRLEGTSFGDLPLNAEIKLEVEDSPNSAGVAVDAIRCAKIAKDRGITGPVDSASSYFMKSPPKQFTDDEARQMVEEFVNGNEKKQTKTRLDD;locus_tag=LOCUS_4040;note=WP_012257445.1 myo-inositol-1-phosphate synthase (Chloroflexus aurantiacus) [pid:67.0%25%2C q_cov:96.4%25%2C s_cov:88.1%25%2C Eval:3.5e-124],MGA_409
sequence05	MetaGeneAnnotator	CDS	14260	15096	.	+	0	ID=MGA_410;product=NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_037399313.1;translation=MSKKKVLVTGLNGVVGSALKSDFEKKYELSSFSRYGCEDIPDERNHKGNLKDYDSVLQAFKGQDVVVHLAADRSMKAEWDTVLPYNIVGVQNVFEAAKVAGVKRVIFGSSQHAVGGNYLDEPYKSILSADFSKVKRPYKRIDENTPIRPSGFYGVSKAFGEAIGSIYNEYYGLPSIHLRIGYTASNDNPGKGMSLWLSHRDCTQIIMKSVDAPESLKYGVYFAMSDNYWNIFSIEKAKKELGYKPQDDSGQVLTQELNTPQLERDRTEFKVNPYSNKD;locus_tag=LOCUS_4050;note=WP_037399313.1 NAD(P)-dependent oxidoreductase (Sinorhizobium fredii) [pid:33.9%25%2C q_cov:88.5%25%2C s_cov:84.1%25%2C Eval:7.2e-32],MGA_410
sequence05	MetaGeneAnnotator	CDS	15105	15449	.	+	0	ID=MGA_411;product=histidine triad nucleotide-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_043552785.1;translation=MTKTLFTKIIDREIPADIVYEDNEIISFKDINPQAPIHLLIVPKKVIPTLNDLDAEDFELIGKMFKVAQKLAKDNNLSVSGFRTVFNCNEDGGQTVYHIHLHLLGGRQFQWPPG;locus_tag=LOCUS_4060;note=WP_043552785.1 histidine triad nucleotide-binding protein (Salinibacter) [pid:58.0%25%2C q_cov:98.2%25%2C s_cov:97.4%25%2C Eval:1.2e-35],MGA_411
sequence05	MetaGeneAnnotator	CDS	15468	15707	.	+	0	ID=MGA_412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKYDRYRGENLLINGLWGVLFGTFPIIAILIYLAVAKTIEGFSVAPNVLVILILVSCFLSVLLNTARINSKYKNNEPI;locus_tag=LOCUS_4070;note=MGA_412
sequence05	MetaGeneAnnotator	CDS	15723	16931	.	+	0	ID=MGA_413;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963780.1;translation=MRFSFGNTFRSLKERQYRTYFIALLLMMAAVNMQMVARSQLTYDITGSALYVGVVGAGFAPPILLLAIFGGSVSDQFNKKHILQISQLGMIILCAIIAFSIFLNVLTVFHLIIAAFLQGFLWAFLVPARQSLIPELVKKDLIVNAIALNGSGMALMTFLAPGLGGYLYSELGPLAVYITIMSLFLISCLINQSLPSITPVNRKNQPRVTQIKEGIKYVFHDNALRLLILIALVTTLLSMPVRTLMPVIMDEIFSRGADAVGLMLSTIGLGTVLGSLFFAGLPKGKRGTTLIATLCISGISILLLSLSHYFWLTIIIMILMGIGDAGRRSLNVALLMQKSKPEFRGRVNGIYTMNFGFIPLGAIPIASLASFMGIANSLMITSILLIFISIIFFILRKPIKNL;locus_tag=LOCUS_4080;note=WP_010963780.1 MFS transporter (Clostridium) [pid:22.8%25%2C q_cov:96.5%25%2C s_cov:95.6%25%2C Eval:1.0e-30],MGA_413
sequence05	MetaGeneAnnotator	CDS	16932	17435	.	-	0	ID=MGA_414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITIINHYSLIILGCVLIGGFSYLYFRKKSPYLLALLISIILILITSYFIFKQEGNELLVNSNEAEVGYVSEKLQFVEFFSSTCLACMISKPIIENLEEEFNDKYDFVYLNVKDYEYVDLVFQLEIQTVPTFVILDKKGEVLFRSSGVPQSSDLISKLEQIYSDQTN;locus_tag=LOCUS_4090;note=MGA_414
sequence05	MetaGeneAnnotator	CDS	17502	17930	.	+	0	ID=MGA_415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKNNVISAIKSSWKDLQKSLTEFSYDKLAQQDSSFSNQVLNTLYEISLKEISVINNISSENMSNKKPLKIKSNKENIRVSFRNSLISLSETHDTLIKMLTSQEENIFTNNSPKRLIIDQGTFYNYLQAKKDISELSENIS;locus_tag=LOCUS_4100;note=MGA_415
sequence05	MetaGeneAnnotator	CDS	17927	18877	.	-	0	ID=MGA_416;product=peptidyl-alpha-hydroxyglycine alpha-amidating lyase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_212337777.1;translation=MMVELTDLNGFEPVNNWAKIPHPLKFIEATSVAVDSVNNVYVFNRGINPIMIFNKDGDFIDTWGEGKFTRPHSIFIDDEDFLYLVDDGGHCVYKMTSNGDLIFTLGIPGNPSPWQEGGMFNRPTDLAIDSDKNLYVSDGYGNSRIHKFDNFGNHVLSWGESGSDPGQFSLPHNITFHEEGFLVVCDRENFRVQFFDTNGSFVRQIHFHRPQAICSGKGVFSGKLIISEAGSPSLNQSNVPNLGNLIKIIDFDGKEICRFGNSLGGELPDQFISPHGITQDNDGNIYVAEVSYTAYGSKLNPPQEVVSLRKWKPKYH;locus_tag=LOCUS_4110;note=WP_212337777.1 peptidyl-alpha-hydroxyglycine alpha-amidating lyase family protein (Bradyrhizobium liaoningense) [pid:44.6%25%2C q_cov:93.0%25%2C s_cov:89.6%25%2C Eval:4.7e-70],MGA_416
sequence05	MetaGeneAnnotator	CDS	18884	19849	.	-	0	ID=MGA_417;product=sugar phosphate isomerase/epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012803716.1;translation=MRFCYAFRRFSDYPYLGNAFDMDPGKLTDKFLNRVNEMGFDGIELGMECLDRIEGGERGLKEFGKRLNDLGTPVLAIRAGGLMIDPEKGNEYLKRSKRAVIFAEILGSEVVNGAISGSSKSPYIDTGTRLIPKSGSALIGAQPMGYFKSQDSSRDTTMPEYEMLAEKFVEISEFAEEHGLNVSCEVHQNSPVDNSWSAKLVNSLVNKDNFGINPDLGNIIWNYDIQEESCEDAIKELAPISNYWHCKNLTRINFPEDNRTLFIRENIVGGEIDYRFSVEAMHEANYSGMMAIEGVFTGDQFYSDKLSLDYCKNLWLNLEGE;locus_tag=LOCUS_4120;note=WP_012803716.1 sugar phosphate isomerase/epimerase (Brachybacterium faecium) [pid:24.0%25%2C q_cov:81.6%25%2C s_cov:78.6%25%2C Eval:1.9e-10],MGA_417
sequence05	MetaGeneAnnotator	CDS	19971	21128	.	+	0	ID=MGA_418;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011860963.1;translation=MSNKEKRSIFFVLGAIVCFWFNLYLYVPILPLHAQNLGADLNFVGLIVASYAIGQIILRIPIGIGSDVIGSRKLFACISTMFGTIGSLGLAISTNETSMLISRTLVGIGAAGWVAISILYASYFGDGDKSKAMSYLMFIHSFAVLIATLIGGYIAEHLGNISTFWASTAVGIIGTTLLLFTQEKKRPENLNFSLKEISKIFSSKFLIKISLIGILPQFVTFSILFGFLPVFLKTIGATKSEIGLITSISLFSSLIGILITPYITKKIGLTYSIWVTAITISIGALLVPFVSNLIIITITQIISGLGRGMINTILISAIVNNSPKHEQATSMGFYQAIYALGMFLGPALSGNVANIFGINFVFYLSGLLMLTTPLITGFKEISKDK;locus_tag=LOCUS_4130;note=WP_011860963.1 MFS transporter (Clostridioides difficile) [pid:26.8%25%2C q_cov:94.8%25%2C s_cov:92.9%25%2C Eval:2.9e-43],MGA_418
sequence05	MetaGeneAnnotator	CDS	21139	21519	.	+	0	ID=MGA_419;product=carboxymuconolactone decarboxylase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875873.1;translation=MEKFEELKNKSHKWREWYYDGEPELDPVAQPVKEAFDLINATLFGHIYQRPELDTKIRSLCTIAALTVLDKPKQLPGHITGALNSGASKEEIIELITQMLFYGGYPSTVNALTAASETFKEYEKKH;locus_tag=LOCUS_4140;note=WP_010875873.1 carboxymuconolactone decarboxylase family protein (Methanothermobacter) [pid:41.1%25%2C q_cov:96.0%25%2C s_cov:95.2%25%2C Eval:4.3e-17],MGA_419
sequence05	MetaGeneAnnotator	CDS	21956	23011	.	+	0	ID=MGA_420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKWIIISQKKYHILINICVLLALVSYQTKFLYFPSLFNLFSWIFISLGLTLISNFLNNLKEENKKHSKNINNLKLDLAISKRVIEGLKSLSYSTKWKSTIQNFSENFRNIGGFDSSIIFIREQGTENLKLEIKDGITINSNTINIENHPEWNKLRQGNSVLLDPDNHVLPQWINENKQYGIIIPLINELNFFGLVYGFFESKDHVQEKFLEESKVFCYVSSKYLWLVKNTNKQNSLDIILSDAGRKLEENSQLMNLKDLSLDLEKESIKFKDRNIPISSQEFTVMKILAKNINSYIEDFEIEENAQKENSEILKSSVPITIYRLRKKLSKIPGGTKLIKSKRGKGYSLSIN;locus_tag=LOCUS_4150;note=MGA_420
sequence05	MetaGeneAnnotator	CDS	23016	24173	.	-	0	ID=MGA_421;product=pyridoxal phosphate-dependent aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393453.1;translation=MKLAARMKNLGTETAFETLAKAKALEAEGKDIVHLEIGEPDFDTPENIINAAKLGLDQGYTHYGPSPGLPHVRAKIAEHQSETHGFNVSPDHVVITPGAKPIMFFSIMALIESGDEVIYPNPGFPIYESMINFMGGKAVPLQLREENDFNADIQDFKNLVNKNTKLIILNSPNNPCGSVIPKEELGEISEIIKNSNAIVLTDEVYKNFYFEGQHSSISEFEGMKERTIILDGFSKSFAMTGWRLGYGVFPEKLVEPISRLITNSVSCTSSFSQIAAIEAIDGPQDSVLNMVDEFKARRQLIVEGLNSINGISCRNPKGAFYAFPNIKETGYSSKEITDKLLFDYGVALLSGTAFGKFGEGYLRLSFANTRENLNEAIKRIKSFLN;locus_tag=LOCUS_4160;note=WP_011393453.1 pyridoxal phosphate-dependent aminotransferase (Moorella thermoacetica) [pid:56.9%25%2C q_cov:97.9%25%2C s_cov:96.4%25%2C Eval:2.6e-124],MGA_421
sequence05	MetaGeneAnnotator	CDS	24353	25129	.	+	0	ID=MGA_422;product=potassium channel family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000779169.1;translation=MKYLNPIYLLKLLFIRSEFKFEKRNNIVAKLDKITELPLIVFAFAMVPLLIGPLLWDLTPEEVETFSRLDNVIWSVFVIDFSIKLLISPQRLLFIKEHWLEALCCLPNLQPIRVLRIIVVGTKAVRGFTRLGKADFLFVWVGALVIVGATIITSLERARNPELGSFPDALWWAIVTITTVGYGNQEPITFFGRIVAVFLMVSGVGFFAALAANLAAVFVNKDETSQLDKVEKEVSQLKKQVKDLIKEIQNNSNLSKKK;locus_tag=LOCUS_4170;note=WP_000779169.1 potassium channel family protein (Vibrio cholerae) [pid:32.8%25%2C q_cov:89.1%25%2C s_cov:85.0%25%2C Eval:8.3e-32],MGA_422
sequence05	MetaGeneAnnotator	CDS	25145	27175	.	+	0	ID=MGA_423;product=thioredoxin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948731.1;translation=MPNQLQFETSAYLLQHKDNPVDWYPWNDEALNKAKLENKPIFLSVGYSSCHWCHVMEEESFEDLEVAKLLNKNFVSIKVDREERPDIDSIYMASVQIITGQGGWPMSVFLTPEGKPFYGGTYFPKNSRHGMPGFLDLIKYLSDIYSNKNEDVLKSSEKLTAMLKIQLEEKIKSEKPNSKIFNEALESLKSEHDDIHGGFGSFPKFPQPLLHNLLLNIWNENSDEESLKIVTKSLLSMAKGGIYDQVGGGFHRYSTDSEWKVPHFEKMLYDNSLLSYLYLDCWKITKNIRFKEISENVLEYLNKEMLSKEGSFFSSQDADSEGIEGKFFVWSKEEIFKTLGKKDADKFTEVFLISEEGNFEGMNIILERNDLNLSFNERKEINHLLKKLYQQRLKRIPPETDKKIITSWNSLAIKSFAYAGILLDREDFIDTAVKAANNLLESNTYNENLLRSSYEHQNSNKKNNPPGFLEDYSFLIDALLEIYQVTGEKIWLEKALTQTEKMINNFWDESQNSFFDTSKFSNTLILRPSVLQDNVVPSGSSVAWRILIKLFSITNDKKYKLIVDKFISTASNQITHFPTSHAYWLSSLNMYYSTPLHLCIIGNPKDKKTQEFLKIGNQSYKPNRIIITASNDTEGKNLDITNEKIMLNNLPTAYVCENFSCKKPTNLSEELNVQLS;locus_tag=LOCUS_4180;note=WP_011948731.1 thioredoxin domain-containing protein (Clostridium botulinum) [pid:41.5%25%2C q_cov:99.7%25%2C s_cov:98.7%25%2C Eval:1.8e-156],MGA_423
sequence05	MetaGeneAnnotator	CDS	27249	28646	.	+	0	ID=MGA_424;product=class II fumarate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014207001.1;translation=MTNKNTRIEKDSMGNLEVPFDAMYGANTQRAVLNFPISNLKLSNSLINAITQIKYSAAKVNMDLGLLDQKVSSLIQDACKEILNGEHYKEFVVDVFQTGSGTSTNMNVNEVISNIAIKSIDGNIGSRDPVHPNDHVNKGQSSNDVIPTAIHIASSMEIKNTLIPSLKKLSSELEKKSREFWPIIKTGRAHLQDATPIRLGQEFEGYKGQIELGIERSKIALRELSALALGGTAVGTGVGMHPDFAKKMIRELNSEYDHEFEESPNHFQSQNSLDGLVQASGCLKTIAVSLMKIANDIRWLGSGPRAGIGEIELPEVQPGSSIMPGKVNPVIAESVTMVSAQVIGNDTTIAIAGQSGNFELNVMMPVAAYNILQSIELLSSSALNFSEQCISGLKATENGPNQVKNGLAICTALAPIIGYDNAANIAHIASKTGESIFEVAIKETDLSKEELEKILDPEAMTEPKK;locus_tag=LOCUS_4190;gene=fumC;EC_number=4.2.1.2;note=WP_014207001.1 class II fumarate hydratase (Acinetobacter pittii) [pid:49.5%25%2C q_cov:98.5%25%2C s_cov:98.9%25%2C Eval:2.6e-121],MGA_424
sequence05	MetaGeneAnnotator	CDS	28643	29863	.	+	0	ID=MGA_425;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003814398.1;translation=MISQRNQEINNSYNFKFYKFILPVYFPLLLISICIGILAPAIPAKVNWIGGSIFLIGLIVGARNLGEAIFAIPVGIVINKLGTRITTITGSLGVSFFALIAGLSPNGYLLYFSIFFLGAFLGLFGISRHSYLSKVVPIDYRGKAFSRFGGVSRIGYFIGPLIGGLSAKYISFDIPFYIVFVISAIATLLMYFISSPEEKYLSQENKNTSKKVTQIIKENKYSLGVVGTGLFVLNLLRESRHIIIPLWAFNIGLEVDDLGIIQSISSAIDMTLFYPAGYVMDKFGRKWTSVPSIILLSLAFSLISFADSYQKLLLVGLILGISNGIGSGAMLTLGSDLAPEDSNGPFLGIWRLISWSGSGLASPLVGTIGQFLSLSLASFSITGIGFVGIVFFIFLVPETLKKNHNP;locus_tag=LOCUS_4200;note=WP_003814398.1 MFS transporter (Bordetella) [pid:27.8%25%2C q_cov:89.2%25%2C s_cov:91.4%25%2C Eval:5.9e-42],MGA_425
sequence05	MetaGeneAnnotator	CDS	29851	30702	.	-	0	ID=MGA_426;product=DUF4392 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011011337.1;translation=MAEIENIILDKDTRNISKLKKYIDKDFVNKSAEFLLESKGNIFITTGFYIVYAGATETDGPPGSVALGNALKKLGFSITYITDKWSYDVVKSILQDEDELIEFPITSHIESLEFGNKLIKDFSPELLISIERAGLMNDGTYRNWKNEDISEFNAKIDHLFEQFPKSIGIGDGGNEIGMGNLYNEIIKTSGLPDNPSITTVSNLIISSCSNWGAYGLIAAISKLIGENLLPSVDLSKEYIMKLVDSGAVEGMSGKKYYGVDGRNLDDDSSCLQRLHDHLKNHGL;locus_tag=LOCUS_4210;note=WP_011011337.1 DUF4392 domain-containing protein (Pyrococcus furiosus) [pid:31.1%25%2C q_cov:91.2%25%2C s_cov:91.2%25%2C Eval:9.7e-24],MGA_426
sequence05	MetaGeneAnnotator	CDS	30714	31502	.	-	0	ID=MGA_427;product=putative hydro-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164925131.1;translation=MKFNNNLKEIRHKIREGSFTSTTSGLNPGYTQTNVAILPSQYALDFMIFCQRNPKSCPLVEVLTPGKFEAQISSPNSDIRTDVPKYRVFQSGKMIDEVTDILDYWSDDFVTFLLGCSFTFERALIDSGIQLKHYDLKKNVAMYISDINSVPSDFFSGNMVVSMRWIQNQDIEKAIETTKKYPSMHGEPIHIGDPEKIGISDISKPDFGDFFEPDSNNYSPVFWACGVTPQVVALKSKIPIMITHSPGHMFITDLKDDDFKFE;locus_tag=LOCUS_4220;note=WP_164925131.1 putative hydro-lyase (Thermanaerovibrio acidaminovorans) [pid:50.8%25%2C q_cov:95.4%25%2C s_cov:82.2%25%2C Eval:1.1e-74],MGA_427
sequence05	MetaGeneAnnotator	CDS	31600	32898	.	+	0	ID=MGA_428;product=glycine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013228379.1;translation=MPTLETLVSLAKRRGFIFQNSEIYGGLGSVWDFGPIGVELKRRIKDFWWTSMVHNRNDIEGIDSSILMDPAVWEASGHLKGFSDPLVECTECHRRFREDQIESTCPECDSELSSPRQFNLMFKTFMGPVEEEAATIYLRPETAQGIFVNFNNVLTTSRRKIPFGIAQIGKSFRNEITPGNFIFRTREFEQMEMEYFCHPEDSDRLFKEWIEFSMNWFKEIGIQEKNLKTRIHTDDERPHYAKSATDIEYNFPWGWGELETINNRTDYDLKNHMEKSGRDLSYFDEATKSRYVPYVIEPAMGADRTTLAVFSDAYHEEKVNDETRIVLKFNPKISPIEVAVLPLSRNEKLASISDKVFNLIRNSFRCQFDDTQSIGKRYRRQDEIGTPICVTIDFDTLDDNSVTIRNRNTMKQIRVEINKVNQIIKDHLETQF;locus_tag=LOCUS_4230;EC_number=6.1.1.14;note=WP_013228379.1 glycine--tRNA ligase (Amycolatopsis mediterranei) [pid:51.6%25%2C q_cov:98.6%25%2C s_cov:98.5%25%2C Eval:7.7e-136],MGA_428
sequence05	MetaGeneAnnotator	CDS	32905	33393	.	+	0	ID=MGA_429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNIIKFLVLLSLFTLSCNNITDKESINFSGITLEKENFDLEEFKGFPVIINFWYPSCPPCVKEIPNLVESLKKNPNKIKVLGVLHNSPFDSEDTAKELLENFNADYINVFDQDGKIENQFSIKVFPTSIFLNHEHQITKEWSGYLDKKKLEELIKEIIIQ;locus_tag=LOCUS_4240;note=WP_015776421.1 TlpA disulfide reductase family protein (Brachybacterium faecium) [pid:28.9%25%2C q_cov:75.9%25%2C s_cov:63.8%25%2C Eval:6.2e-10%2C partial hit],MGA_429
sequence05	MetaGeneAnnotator	CDS	33395	33835	.	+	0	ID=MGA_430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLDAILLISKFLHAVSASVWLGGSIILLLYGKHVNQSWKDLGFFFKDIVNASIILILSTGIILSIERLSTENVSTTYIILLALKIILSLWLFFLVWKFRTNKYEKLINTKNKFSWVFSYTFFVISGVLIFFIAEILSTLIEKQF;locus_tag=LOCUS_4250;note=MGA_430
sequence05	MetaGeneAnnotator	CDS	33840	34316	.	-	0	ID=MGA_431;product=2-amino-4-hydroxy-6-hydroxymethyldihydropteridine diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545434.1;translation=MKIVYLSLGSNLGNRLENIKNSLRYLKELGDIQKVSNIYNTKPWDVKEKQPDYLNQNCQLITELSPEKLIEGTKNIEKILGRENKGDLSPRIIDIDLLIYEDFSQKNENLIIPHPKMTERAFVMIPLAEIAPDLIIHGYNKTVKEIAGELDSSLVEIF;locus_tag=LOCUS_4260;gene=folK;EC_number=2.7.6.3;note=WP_012545434.1 2-amino-4-hydroxy-6-hydroxymethyldihydropteridine diphosphokinase (Thermodesulfovibrio) [pid:47.0%25%2C q_cov:94.9%25%2C s_cov:100.0%25%2C Eval:3.8e-30],MGA_431
sequence05	MetaGeneAnnotator	CDS	34319	35092	.	-	0	ID=MGA_432;product=dihydropteroate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002164656.1;translation=MMGVINVTPDSFSGDGVSQNVDEALALVSNFKDFGVDIIDIGGESTRPSSIYNDVKPLTIQEEISRVVPVISQIKKHFDVPISIDSRRAVVVREAFDAGADMINDVSMMNYDSDMINVVSDLSIPFVLTHNRKIKNGNVVNNIKKDLEDSISKLRNTKFDLSNLIIDPGIGFNKSSKQSISILRELDKLKFGFPLLIGTSRKSHIGDVLDLPISDRLEGTAATVSISIDRGADIIRVHDVKEMVRVAKMTDAISRGF;locus_tag=LOCUS_4270;gene=folP;EC_number=2.5.1.15;note=WP_002164656.1 dihydropteroate synthase (Bacillus cereus) [pid:45.5%25%2C q_cov:98.4%25%2C s_cov:87.4%25%2C Eval:4.4e-57],MGA_432
sequence05	MetaGeneAnnotator	CDS	35281	36867	.	+	0	ID=MGA_433;product=acyl-CoA carboxylase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005800651.1;translation=MESKIISDSDKKNTNINKVEELETRRSLAKLGGGEEKNKTQKKKGKLLARERLSLLFDNGKFEEFDQFITHRSQEFGLDKQKFEGDSVVCGVGQVNGKQVFAFSQDFTVLGGSLSEVASMKICKLMDHAVKTGCPVVGINDSGGARIQEGVESLAGYGEIFRRNTMASGVIPQITVIAGPSAGGAVYSPALTDFIFMVEEIGQMYITGPEVIQAVTGEKVNHQELGGSKTHSQKSGVVHVSTKNETECFNKVRELLSYLPSNNLDDPENLESSDSENRISDKLKSIIPDEANQSYDMKEIIREIVDSGKIFEIHKDFATNIITCLSRFDGQVVGIVANQPLSVAGVLDIDASVKAARFVRFCDAFNIPILTLVDVPGFMPGVNQEFGGIIRHGAKLLYAYSEATVPKITIIIRKAYGGAYIVMGSKELRSDVNLAWPSAEIAVMGPEGAVKIISRKIIQESEDKVETQNKLVDEYKDKFANPFVAASRGYLDDVIDPSTTRSKIISSLRMLKTKSDNNIPKKHGNIPL;locus_tag=LOCUS_4280;note=WP_005800651.1 acyl-CoA carboxylase subunit beta (Bacteroides fragilis) [pid:57.5%25%2C q_cov:97.2%25%2C s_cov:99.2%25%2C Eval:4.8e-175],MGA_433
sequence05	MetaGeneAnnotator	CDS	36892	37884	.	+	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDLLKIAKIEAGGGNLFKELSDLFEDAKIKPSGYPDAVVWQGGNHNGKINPVAHSLTDAYALLGTIAAIDILGLPFYAVPMWSQFRHDTKLEALAWFGNIPSTSIKWSTAGDAYVNDEKGNKVVVMGKSGNAHLRTQAGVYCNVRPYGPITVVRSMPCLPYSQNKSKFSVNDEGIVHSEMNSPGVQMAYANRLFLKLVNDSGAIGRIATKPTQAMEDGINAGLHSWLIKDTNFEVGRKYAVDPYEEHKESIEKIIKLLPSDFKNGMGNWSGRIEQHIADTNYGLLIWDLINKQNTVVLSTDLDGXXLTXLXADISDPLXAXSXEWXQVX;locus_tag=LOCUS_4290;note=MGA_434
sequence05	MetaGeneAnnotator	CDS	37866	38261	.	+	0	ID=MGA_435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVASXXGXXXXXXXXWXEMGXTTGXGRDMTSVMXXMDGPPXHEQTXGSAXAMLLXXXXGXEWVGGTKQPYDPRIHFVLIRDAYIDANPDNKNLHNWLDNALKKFDEVYEGNRPGFLEGYKSLKQEITPWGK;locus_tag=LOCUS_4300;note=MGA_435
sequence05	MetaGeneAnnotator	CDS	38283	39218	.	+	0	ID=MGA_436;product=malate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933173.1;translation=MAKHKVTIIGAGNVGATTAQRIFDQGYADVVLIDILEGIPQGKSLDILESGPVVGSDSKIIGDNNYESSKNSDVVVITXGIARKPGMSRDDLLLTNMKIVGEVTKNVCNYSPNAILIVVSNPLDAMVQHAHKISKFPKQRVLGMAGILDTARFKSFLADELKVSVNSISAYVLGGHGDTMVPVIKSTTVGGVPISDLIPSNRLEEIVQRTRDGGAEIVGYLKTGSAYYAPSASIVQMVESILFDKKEILPCAAFLEGEYDINGLFVGVPIKIGKSGVEEIITIELSSSEQKALKNSANSVKELTEIMYKND;locus_tag=LOCUS_4310;gene=mdh;EC_number=1.1.1.37;note=WP_010933173.1 malate dehydrogenase (Chlorobaculum tepidum) [pid:56.9%25%2C q_cov:95.8%25%2C s_cov:96.5%25%2C Eval:2.3e-93],MGA_436
sequence05	MetaGeneAnnotator	CDS	39211	39951	.	+	0	ID=MGA_437;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064255254.1;translation=MTKRLLNKKALVTGAGQGIGKETVIQFANEGAKVFATDKNEKALEFFNDKSNIIPLKLDVTSYSEIKNLVEITGYVDIIFNCAGIVHEGTILDSDLEDWDLAFDVNVKSMFKVIKTYLPLMLKQNSGSIINMSSLASSTLGVPNRFVYTASKAAVIGLTKSIAKXFVAKNIRCNAICPSTIETPSLQDRINKSENPSEERKKFIARQPMKRIGKPEEIAKLAVYLGSDESSYTTGVAHIIDGGMAI;locus_tag=LOCUS_4320;note=WP_064255254.1 SDR family oxidoreductase (Sinorhizobium americanum) [pid:55.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.2e-70],MGA_437
sequence05	MetaGeneAnnotator	CDS	39952	41079	.	-	0	ID=MGA_438;product=CoB--CoM heterodisulfide reductase iron-sulfur subunit B family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011142939.1;translation=MTVKKYAFYPGCVARGGAPELYQSSLLVLDKLGIETIELDKAACTGAGVLQEKNQKLGDVLNIRTLALAEEMNLPIITICSTCQGVISQANHRVLKSPEYLEEINAELKEEGLEYKGSTDVKHLLWILIEDIGLDELKKTFKKELKGFNFAPFYGCYIVRPSDALGFSENPERQHSLDMVINSTGASVTDFSGKTKCCGFPILLINQKNSLKMVSNHTGEAKDKGADAMVTPCPLCHLNLDGYQGKARKANRGDKGDLPIIHLPQLLGLAMGIEPYRLGFARHIVSTKDFISSISPGERHSDPQNFNIAMLLGMMGFGSLIFALITAIGAFFVLRAIYIYEWGDNSFTHYIDTCSFEGIYFIGKYICSILGFLGF;locus_tag=LOCUS_4330;note=WP_011142939.1 CoB--CoM heterodisulfide reductase iron-sulfur subunit B family protein (Gloeobacter violaceus) [pid:47.1%25%2C q_cov:78.1%25%2C s_cov:98.3%25%2C Eval:5.8e-73],MGA_438
sequence05	MetaGeneAnnotator	CDS	41076	42029	.	-	0	ID=MGA_439;product=succinate dehydrogenase/fumarate reductase iron-sulfur subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011142938.1;translation=MKAVIDVKRFDPENNSKEYFQKYELDVDESSTILDALIKIREDLDGTLALRCSCRASICGSCGMRVNGSAKLVCKTRLVDISPEGEKVQVEPLGNMPVIKDLVVDMNPFWNKVKQVRPFMMPENTEPEGEYIASNESMTHLVDVMNCIMCGACVSDCTALEVDESFIGPAALAKAYRFVADPRDDKSKDRLKYLNKNSGVWDCTRCYACVEVCPKGVAPMERIMKMRDLAIEEGFKNTSGYRHTKSFVNSVGRLGRLDEAKLALTSVGFFNIFGLIDLAFVGLKALVRGKLPPILPHKAESSENIKKIVNKIEKKKV;locus_tag=LOCUS_4340;EC_number=1.3.5.-;note=WP_011142938.1 succinate dehydrogenase/fumarate reductase iron-sulfur subunit (Gloeobacter violaceus) [pid:42.2%25%2C q_cov:92.1%25%2C s_cov:91.8%25%2C Eval:1.1e-63],MGA_439
sequence05	MetaGeneAnnotator	CDS	42029	43705	.	-	0	ID=MGA_440;product=succinate dehydrogenase/fumarate reductase flavoprotein subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878184.1;translation=MSKHDLLIIGAGLAGLRAAVEGVRQGLSVAVITKVHPVRSHSNAAQGGINAALTDRGDDWKDHAFSTIKGSDYLADQDAVEIMCKEAGDALIELEHMGVIFSRDDEGKLGTRAFGGQKKARTFFVGAITGSAMLHVLYEQSVKYNLSIYEEWFVTKLVKIDGKCVGVIAIDMKTGKVESISAKSVVIATGGAGRVFEPSTNAIICTGDGLSLALRAGAELMDTEMIQYHPTTLAGNGILLSEAARGEGAYLINSENERFMEKYAPDYMELASRDVVSRSEQIEIDEGRGIDGCVLLDMRHLGKNFIEERLGYLQEVATEFMGIDLSEKPIPIKPGMHYIMGGIKTDFNGATSVPGLYAAGECANVSVHGANRLGANSLLDTVVFGRRSAVNSVEWVKSNEFIEIPDEILISEKNRFQSLFDKPSSGIRPGKIRLEMAEAMTKGIGVWRDEKSINNAWEKVKDIRSDYDNIYLDDKGKIYNTDLIGALELDFMIDVAESICAGAKARKESRGAHFRTDLKERDDKNWLKHTLVEKNDDGFIVKTSDVKITDWEPEERVY;locus_tag=LOCUS_4350;EC_number=1.3.5.-;note=WP_010878184.1 succinate dehydrogenase/fumarate reductase flavoprotein subunit (Archaeoglobus fulgidus) [pid:44.5%25%2C q_cov:99.6%25%2C s_cov:99.8%25%2C Eval:4.1e-132],MGA_440
sequence05	MetaGeneAnnotator	CDS	43747	44301	.	-	0	ID=MGA_441;product=NUDIX hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080176.1;translation=MSSNQNKNQKLINSKIEYSGEILSIRSDLIELDPGTNIKRNIVEHPGSVVIIPKTKNGKILMVSQWRHAIQQTLIELPAGHIDDGETPEEAGIRELQEEIGYKPGKLISLSEMWIAPGWCNEKIFSFLALDLIPSQLEPDKDEKISVLEFEQLEIYEMIMDKKIVDSKTISTFMIFYKNELKLQ;locus_tag=LOCUS_4360;note=WP_004080176.1 NUDIX hydrolase (Thermotoga maritima) [pid:42.0%25%2C q_cov:91.8%25%2C s_cov:93.9%25%2C Eval:3.2e-30],MGA_441
sequence05	MetaGeneAnnotator	CDS	44311	45180	.	-	0	ID=MGA_442;product=NAD(+)/NADH kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393018.1;translation=MNSNIENFNSPKRVGILANHMIPQAMELGEVLKTNLDSQNSWWIKNINDLEGISNNLDETDLIITIGGDGTILRAAHISALKEIPILGINMGTVGFMCEIEASDCIEELPNYLDGSSIIEKRMMLKAEIIRKGKKVEYDALNDIVLARGSKIRVIEISVKLNNTHLATYRGDGVVLSTPTGSTGYSLSLGGPVVSPSSNLILLKPIGSHMSLHGGVVLDLNSKIDLTIRSENSATVSIDGFIDLPMSDFDKINVEVSKQRVKFLRHKSFEEDFWSLITKKLGMRKGNII;locus_tag=LOCUS_4370;note=WP_011393018.1 NAD(+)/NADH kinase (Moorella thermoacetica) [pid:31.9%25%2C q_cov:93.4%25%2C s_cov:89.1%25%2C Eval:1.8e-33],MGA_442
sequence05	MetaGeneAnnotator	CDS	45314	46735	.	-	0	ID=MGA_443;product=NADH-quinone oxidoreductase subunit N;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941019.1;translation=MSFQDFLIISPEIVISFTAILVFLLDLFINDKKILVPVSISGLVISFILTLGLWNGWLIESPGIYAFFSSIKLDEFSLFFKVLIILSAVAVIGSSGQYINSNIESKGEFLGLLLLSITGMLLLVSSVELITVWVSLELTAIPLVALVALGKNDTSLEASLKFLILSAVSSVVILYGLVFLYGYSGSTYFNDMLSYISSSNSSPGDLMILNYGLLIGIILLVLGISFKLAAFPFQMWVPDVYQGAPTPITAYLSVVSKAAGFAVLLRIIYSVLGGNDFSVILSNLFAIIAVFSMTIGNVMALRQNDIKRLLAYSTIAHAGYLLIGVASLNISGIGENLYSGPQGVLYYLAGYAFTNLTAFLLIIGVSKSIGTFELSGFAGLRKKSPLTSFVLAVSVISLLGIPPTVGFMSKIFIFSAAVNTNLTWLAIVGVINSVISAYYYLRILKIAFVDPEENQSEIKISKAISLITLVGVI;locus_tag=LOCUS_4380;note=WP_010941019.1 NADH-quinone oxidoreductase subunit N (Geobacter sulfurreducens) [pid:36.0%25%2C q_cov:98.3%25%2C s_cov:92.8%25%2C Eval:4.3e-79],MGA_443
sequence05	MetaGeneAnnotator	CDS	46732	48282	.	-	0	ID=MGA_444;product=NuoM family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011142531.1;translation=MNGLISIIVFIPILASIIILALLRNDKFIRRFSFSIVSIELLLTIFAFSLYDKAKGGIQLVDFIEGWIPIKGFNANYLVGIDGLSAPLVLLSGILGAAAVWGSWRIKNRVKEYFALLLFLQGVVIGVFVSLDLLLFFIFWEAELIPMYFLISIWGSGRAHYSAAKFVIFTLFAGALLIIGILAIYLSQGINSFTMVSIPELNLQGIPELMTGANFLIPVSVIFWLFFISFAIKLPLWPLHSWLPDAHTDAPTAVSVMLAGILLKMGGYGIFRISLGFFKNSSFNFDVAAPILVILGAISVIYGAILTIRQTDLKRLIAFSSVSHMGYVIIGFSSLISVVSINDTLALNGAALQLFTHGTITGLAFLLVGLVYDRTHTRYIPDLGGLTAKMPIIAIFFLIAGFGSLGLPGLSGFVAELMIFLGTFQVGNIFAIATVIGVFGVVLAAGYTLWMIQRSFFGNKPSKESPVSKDFEELSDMHILDVFPVLVLTIPIFVVGIYPRLLTDIIEIGIREMFLL;locus_tag=LOCUS_4390;note=WP_011142531.1 NuoM family protein (Gloeobacter violaceus) [pid:39.4%25%2C q_cov:95.7%25%2C s_cov:93.4%25%2C Eval:2.3e-97],MGA_444
sequence05	MetaGeneAnnotator	CDS	48311	48886	.	-	0	ID=MGA_445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFPMIILGFLSVVVGFLVNPLLDLGFVSKHAFSHFLEHNLFFDDPKEFHFVFEVAIISTILAIMGIVTAILVVKGKLNIKNNFVYKILINKYYFDEFYENLIVKKFFYNKIGSFISWIDENIVDKSNAKISDFTIYLSKKMSKIQNGHLQSYGFVFFTALTVLMIVFFISNLNTGDSWLDLIDKLNSEIY;locus_tag=LOCUS_4400;note=WP_011392500.1 NADH-quinone oxidoreductase subunit L (Moorella thermoacetica) [pid:31.2%25%2C q_cov:86.9%25%2C s_cov:25.6%25%2C Eval:2.0e-14%2C partial hit],internal stop codon at [48890:48892](-),MGA_445
sequence05	MetaGeneAnnotator	CDS	48890	50311	.	-	0	ID=MGA_446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLEIIYWLILLIPFTGFLINGILISIFFKNYSKISGFITVASVFISLVLSIFSLINFNDKGVQLLDSFDWLMIGDIGIKTGFLIDPLTSMMLIVVTGVSLMIQIYSIGYMASDKGYSRYFSFMALFTFSMLGLVLSKNLIHLFIFWELVGVSSYLLIGFWFKKNSAVVAAKKAFLMTRVGDFGLMVGILFIFSKGQQYLDIPTLYKGVSSGEFQGSGLLILCILLFLGAVGKSAQFPLHSWLPDAMEGPTPVSALLHSATMVTAGVFLIGRLFPLFESSSEIMVIIAIIGGFTAVFAATMGIVSDDIKRVLAYSTISQLGYMVLALGSGFYAAAFFHLFTHAWFKALLFLSAGSVSHATGTFNMKFMGGLRQHMPITYVLTLLGALSLIGIFPFSGFWSKDEILGHIYLQSSPLSLVLFILASIGVFLTALYMTRVIMLTFHGSYKVGISSENSSNSKSEDNDHPAEPHESP;locus_tag=LOCUS_4410;note=WP_000568230.1 NADH-quinone oxidoreductase subunit L (Bacillus cereus) [pid:50.3%25%2C q_cov:93.0%25%2C s_cov:69.5%25%2C Eval:4.7e-118%2C partial hit],internal stop codon at [48890:48892](-),MGA_446
sequence05	MetaGeneAnnotator	CDS	50312	50509	.	-	0	ID=MGA_447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWIDYRKTKNLITAEMWKNLLEGEGLPAKIIPEGNDILDWSEYSEFRILVPRGREHVADEILRKL;locus_tag=LOCUS_4420;note=MGA_447
sequence05	MetaGeneAnnotator	CDS	50512	50853	.	-	0	ID=MGA_448;product=NADH-quinone oxidoreductase subunit NuoK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000100077.1;translation=MNLEAILILSGIIFTIGLYGSLTKRNAIVVVMCLELMFNAVAIAVIGFSRFRPPQVLVDTDVLSPLNVLSGHMMAVFVIAIGAAEVALALALIISIYKVKGNIELTGLNNLKN;locus_tag=LOCUS_4430;gene=nuoK;EC_number=1.6.5.9;note=WP_000100077.1 NADH-quinone oxidoreductase subunit NuoK (Bacillus cereus) [pid:31.5%25%2C q_cov:95.6%25%2C s_cov:92.3%25%2C Eval:2.1e-11],MGA_448
sequence05	MetaGeneAnnotator	CDS	50855	51385	.	-	0	ID=MGA_449;product=NADH-quinone oxidoreductase subunit J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001012801.1;translation=MEFADLPTLVDIVFWIVALFTIFGSIAIITVNNVFKSAVLLALTMVSISILYFLLSADFIGVIQILVYVGAVSVLIAFAVMLVKDVPKSNSANNLINLSIIPSTIFLVIIAFSVGAENWITKTSIDYEEPLSEIVVSNVSWIGELLIREYFISFQIAGLILLAALIGALALLRRER;locus_tag=LOCUS_4440;EC_number=1.6.5.9;note=WP_001012801.1 NADH-quinone oxidoreductase subunit J (Bacillus) [pid:35.1%25%2C q_cov:81.8%25%2C s_cov:81.0%25%2C Eval:2.6e-15],MGA_449
sequence05	MetaGeneAnnotator	CDS	51385	52050	.	-	0	ID=MGA_450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGLGLIKGLFVTFKNLIGPTFTVQYPNKKVGLIKASKYYNKNPFSLFKSRPLEGFKAIVGQAVIKEFPDQFPRFRGQEFNWFEDRCTGCASCAKYCPLGIIEIETHPGENNIQEGTSYDIDVFDIDIGRCMFCGICVEACPFDALHMGSGFERAIEKREDLVISIDELRSAEKRPSTWFRPQIENSSYKPRNEEIEDSHDVGRHEKPSKEELTERWVNER;locus_tag=LOCUS_4450;note=WP_010967794.1 NADH-quinone oxidoreductase subunit I (Sinorhizobium meliloti) [pid:32.5%25%2C q_cov:51.6%25%2C s_cov:62.8%25%2C Eval:3.0e-13%2C partial hit],MGA_450
sequence05	MetaGeneAnnotator	CDS	52058	53275	.	-	0	ID=MGA_451;product=NADH-quinone oxidoreductase subunit NuoH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392496.1;translation=MNTVMDSVVFKFIYCMLVSSDECANSFKIIGSGFISEKYAIIGFLITAFFLIFVVINGALVGVLALIWGERRLIGRFQARVGPNRWGPWGIFTPVADAIKVMFKEDISPSLSDKFVFVLAPILMVVPVLLIFAVIPFGEATFLTDLNIGVLFVLAITSTNTLSVLMAGWGSGNRYGIIGGLRAVAMLLSYEIPMALAAVGVILMAGSLSIIQVIESQQIPYAIFQPLGFLTFLIASTAELNRSPFDITEAESELIAGYMTEYSSMKFGLFYLGEFMATIASSAIIVCLFLGGWKGPEILPSHFWFMIKWILMICVFIWFRATFPRLRVDQIMELAWKGLFELTLINILSIAILMLIWPDPSITELWIMTGVNWIVFFASLWIFGKLLGPKPLEKNGVTRKIVLQK;locus_tag=LOCUS_4460;gene=nuoH;EC_number=1.6.5.9;note=WP_011392496.1 NADH-quinone oxidoreductase subunit NuoH (Moorella thermoacetica) [pid:46.7%25%2C q_cov:78.0%25%2C s_cov:89.4%25%2C Eval:6.9e-83],MGA_451
sequence05	MetaGeneAnnotator	CDS	53275	54381	.	-	0	ID=MGA_452;product=NADH-quinone oxidoreductase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257853.1;translation=MSLRTEPVTMNVGPIHPSTHGVFRMRVTFDGEEIVDVEPVIGYLHRGSEKLAEERTYTQVVTLTDRMDYVASMTNNQSYILSVEKLAGITPSPRGVWLRMIAAELQRIASHAVANGFLINDLGAWHTPLLYMLREREKILEMFEMLCGARITNSYLRPGGVFMDAPDQFWPALNRFLDEMPNRIDDIERLLTTNEIVLIRTQNVGVLKKEECLNASITGPVLRASGVDWDLREKNPYDYYDQIEFSRPLGEIGDNHDRFLIRIFEMRESLKILRQCIENIEPGPVRPKEVPFLVRPPKGDSYVPIESPKGELGFYLVSDGGISPFRCHVRAPSLINLTLLKEMVLGDKIADLFVTFGSIDVNMGEVDR;locus_tag=LOCUS_4470;EC_number=7.1.1.-;note=WP_012257853.1 NADH-quinone oxidoreductase subunit D (Chloroflexus aurantiacus) [pid:53.1%25%2C q_cov:99.5%25%2C s_cov:99.7%25%2C Eval:5.4e-108],MGA_452
sequence05	MetaGeneAnnotator	CDS	54378	54824	.	-	0	ID=MGA_453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKCFSGEKINELIEEIDPKSVVSTNLDSVHIKPENAINIFSKLKDKENCQFNLLNSLTAVDYIDHFEMVYHLTSTIHNHSIVVKIICGEGRKEPKVSSVVSIWKGADLQEREVWDLMGITFENHPNLKRLMLWEEFPGHPLRKDYLR;locus_tag=LOCUS_4480;note=WP_000070263.1 NADH-quinone oxidoreductase subunit C (Bacillus cereus) [pid:37.9%25%2C q_cov:83.8%25%2C s_cov:29.5%25%2C Eval:2.7e-21%2C partial hit],MGA_453
sequence05	MetaGeneAnnotator	CDS	54817	55452	.	-	0	ID=MGA_454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEINNTSENILERIPLYQTTDDLDREEGIEINAMKATHKSPIPVKDLSENDDIDKTAFVTSVDFLLNWARKSSIFPAQFGLACCAFEMIASAASRFDLARFGAERFSATPRQADLMIVAGTVTWKMAPAIRTMYDQMSDPKWVISMGVCATSGGPYFESYSVVPGVNHIVPVDIYVPGCPPRPDALLYGVMQLHEKIKKYSIWGAAAGQND;locus_tag=LOCUS_4490;note=WP_003081859.1 NADH-quinone oxidoreductase subunit B (Amycolatopsis) [pid:65.0%25%2C q_cov:66.4%25%2C s_cov:76.4%25%2C Eval:4.3e-51%2C partial hit],MGA_454
sequence05	MetaGeneAnnotator	CDS	55443	55838	.	-	0	ID=MGA_455;product=NADH-quinone oxidoreductase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932448.1;translation=MLNNYFDQYGIIGLFLVTATLVPLGMLLVSKLAQYIKVRPHNPSEIKEGMYECGMRVDSERWQGYNLRYYYYALLFVIFDIETVFLFPWAVKYGVLSKEFGVSVLLAMILFLFIVTIGYVYAWKKGDLQWK;locus_tag=LOCUS_4500;gene=ndhC;EC_number=1.6.5.9;note=WP_010932448.1 NADH-quinone oxidoreductase subunit A (Chlorobaculum tepidum) [pid:37.7%25%2C q_cov:93.1%25%2C s_cov:79.0%25%2C Eval:2.9e-21],MGA_455
sequence05	MetaGeneAnnotator	CDS	55922	57013	.	-	0	ID=MGA_456;product=Zn-dependent alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011090622.1;translation=MKAAVMYKPSVPLEIVDLNIENPKAGEVLVKMDATGLCASDHHVIEGVLPYPTPIVLGHEASGTIEKLGPGVSNLKVGDRCIFSFIPSCGFCFNCRSGIGHLCTNHRKDANRHYDGTLRLKDKSGNEIHQMHKLGSFAEQQVVSEQSCFKIPDEVPSEVGALMGCCVATGIGGVINIPGVKIGSTMAVFGCGGVGLNVIQGAKLLNATQIIAVDVHDHKLEFAYKFGATHVINAKNEDAVETIKEISKGGVDYAFDSFGSSKVMEQVMDSIKMGGTGVIVGVAPFGEKVSVDMVDMIRGEKKLYSAFYGSKTPHETFKTIVDLYISQKIDVDSMIRETYRLDQINEGFKAIEAGEDGRGVIVF;locus_tag=LOCUS_4510;note=WP_011090622.1 Zn-dependent alcohol dehydrogenase (Bradyrhizobium) [pid:38.8%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:4.0e-71],MGA_456
sequence05	MetaGeneAnnotator	CDS	57099	57704	.	+	0	ID=MGA_457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRKNLPKTFLRDVSRDDVKRVMNWIEDEEVSESWFGRYNYGDPAHLGYDPKKMIDSSETEWDRTFNDPNHEPHRTILSINNENDEHIGEIQLSIDEALGDAQLSILIGRKDLWHKGYGSSVLLTAMQYVFEKLKLYRIWVDIPEYNQNARTLFDHAGFKHEGTLRKSRPHEGARFNSVIMGILSQEYKTLYQAGISSYFN;locus_tag=LOCUS_4520;note=WP_011228778.1 GNAT family N-acetyltransferase (Thermus thermophilus) [pid:36.7%25%2C q_cov:48.8%25%2C s_cov:55.4%25%2C Eval:2.2e-09%2C partial hit],MGA_457
sequence05	MetaGeneAnnotator	CDS	57701	58885	.	-	0	ID=MGA_458;product=threonine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011142358.1;translation=MKSYLTTLECTYCFEEYPVNELINVCLKCGKVLFPRYDLSLIKKEVDPNVFSNRPSNMWRYRELMPIIEESNIVSLSEGFTPLIKSSNLGDKLGLKNLFIKDETMNPTGSFKARGLSSAISKAKELGAKSITIPSAGNAGGAMAAYGALAKLDTYVFMPKDTPLANIIETKAYGANVQLIDGYITDAGKFSQSLVTSKGVFDVSTLKEPYRVEGKKTMGFEIAEQLNWTLPEFIIYPTGGGTGIVGIWKALHELKELGWIKGPMPKMICVQAQGCSPIVDAFLKGDDFADPFENPSSIASGMRVPAAIGDYLVIRSLRESGGTGLKVSDEEMIKGVKYLSENEGIFAAPEGGATIAGLQKLLDRGEINENNKVLLLITGSGFKYLDKLSPFFDD;locus_tag=LOCUS_4530;EC_number=4.2.3.1;note=WP_011142358.1 threonine synthase (Gloeobacter violaceus) [pid:46.5%25%2C q_cov:98.7%25%2C s_cov:98.5%25%2C Eval:1.6e-105],MGA_458
sequence05	MetaGeneAnnotator	CDS	58882	59571	.	-	0	ID=MGA_459;product=lipoyl(octanoyl) transferase LipB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583130.1;translation=MRLKNQIEYEWLGVQKYSQSLNIQETYHKKRVTGHINDSVIFLEHYPVITIGRTGSNKDILSDSRLLEQSKIEVINTNRGGETTFHGPGQLIGYFFIKIKDLNLTPISYVRLLEKMLVLSYLDYGLKTITLKGKTGVWVPGDKKSKKIAAIGVRISNGVTMHGFSANISNDLSDFNHIIPCGMPELESTSLKKELSLNVELKDFSMKFMKNLSKEIGYKDNIIGLGVNS;locus_tag=LOCUS_4540;gene=lipB;EC_number=2.3.1.181;note=WP_012583130.1 lipoyl(octanoyl) transferase LipB (Dictyoglomus turgidum) [pid:36.5%25%2C q_cov:88.6%25%2C s_cov:84.1%25%2C Eval:9.6e-34],MGA_459
sequence05	MetaGeneAnnotator	CDS	59759	60271	.	+	0	ID=MGA_460;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007326614.1;translation=MACAKQTGPPTGDLDTSKDYSAVLYTEKGNITIDLFEKQVPLTVENFINLSKSGFYNEVGFHRVIPGFMAQTGDPTGTGTGGPGYTFEDEFHPELLHKGEGIVSMANRGPNTNGSQFFITYGSTEHLDGXHSIFGKITSGMEIVSLISPRDPRNTSAPLFKIDKIEIVEK;locus_tag=LOCUS_4550;note=WP_007326614.1 peptidylprolyl isomerase (Rhodopirellula) [pid:53.0%25%2C q_cov:78.8%25%2C s_cov:93.7%25%2C Eval:8.6e-37],MGA_460
sequence06	MetaGeneAnnotator	CDS	391	1572	.	-	0	ID=MGA_463;product=Gfo/Idh/MocA family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015705009.1;translation=MKKIYNVAIIGCGAIGRAHIEGYQLLENINLTAVVDPYDPARENYQDEYKIPYGFKNISDLKNINIDIVSICTPHLHHHQNTIDVSKLGVKGIICEKPMTIGSGNASEMINITNENNCKLIISHQRRFTPGWIKAREIIKSGEIGSVSMIDIRVEQGLLNWATHTIDGALFSLDDPSPIWVMGSVERNTDRYERNVRIEDSCIGLVQLDNSSQLFIQSDLSDQEFTGFNNDAGYFSVIGTKGMLNVSENKVLLFSKNTXGWSSISLGXDEKNIKPIGGKTNADQIIELIKWIEGGPEHRGSAKKAKVTLDIMMSIYESARINQKISFPVSQNKYPLDLMVEEEKLKVKNQGKYDIRGYLNRNNIDEEKFKSLRKKGIDHHQIMHDLNKELTND;locus_tag=LOCUS_4560;note=WP_015705009.1 Gfo/Idh/MocA family oxidoreductase (Klebsiella aerogenes) [pid:25.1%25%2C q_cov:83.2%25%2C s_cov:100.0%25%2C Eval:6.8e-19],MGA_463
sequence06	MetaGeneAnnotator	CDS	1618	1941	.	+	0	ID=MGA_464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIPKNIEIKEDGLLIDWTNGKSHXFPFLYLRLQCPCAHCVEEMTGRPLLDVSTVPGDITILEYSLVGKYALQFLWSNADPCSTSGIYPFEMLLKLAELDKTIKHLS;locus_tag=LOCUS_4570;note=MGA_464
sequence06	MetaGeneAnnotator	CDS	1944	3407	.	-	0	ID=MGA_465;product=L-2-hydroxyglutarate oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011142204.1;translation=MTQKFDVTIIGAGIIGLGTAISILKKHPKIKLGILEKDKQVAAHQTGHNSGVIHSGIYYKPGSLKAKFCVKGRASMAQFCIENDLKYDKCGKIIVAYKEEEFPRXEALMERGKANLVQGLELIGPERXQEIEPNAVGLKALYAPNTAIVDYTEVSELFAKNVTNNGANILLDTKFLNSNTKNKSTIIQTSNGDIETKYVINCAGLYSDRVAKNMGVNPNLRIIPFRGEYFSLIPEKSNLINGLIYPVPDPQFPFLGVHLTKNVKGFIEAGPNAVLAWAREGYKKIDINPYDVINTLTYPGFVKFSSKNLKTGLMEINRSFRKKIFLKDLQKMVPSLNSSDLIKGGSGVRAQAIGSDGSLIDDFAIEMGSRSIHVLNAPSPGATSSLIIGDYIANLADNLINDVVPKDFNSSFSVKNNENNXNIVLLLIMIAFGSLLFTLITALGAFFILRAIFIYELGDNSFTHYIDNCSFEGIYIIGKYICSILGN;locus_tag=LOCUS_4580;gene=lhgO;EC_number=1.1.3.-;note=WP_011142204.1 L-2-hydroxyglutarate oxidase (Gloeobacter violaceus) [pid:46.2%25%2C q_cov:79.1%25%2C s_cov:94.6%25%2C Eval:1.0e-99],MGA_465
sequence06	MetaGeneAnnotator	CDS	3409	4563	.	-	0	ID=MGA_466;product=glycerate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391945.1;translation=MKIIIAPQSFKGSLSALEVSNIIAQSVKKNFPDSEIITIPIADGGDGTLETLVDATNGTLKSLNVLDPLERNIQAQWGSLGDKTTAVIEMARASGLALLNNNELNPLQTTTFGTGQLILEAINTNHKQIIIGIGGSATNDAGVGMASALGFKFLKDNGDPISSGASEIGLIKNIIIPKNIIDFSKYKILVACDVNNPLCGENGASYIYGPQKGASPEQVKFLXDSLYSFSKVINKELGINVLDIPGSGAAGGXGAGLMAFTSATLKPGISIVFDTLNVEQRIKDADLIITGEGQFDKSTIFDKAPVGIAKLGLKYNIPSVGISGSIGEGFHLIHENGISSISSIINKPMNIESAIKNAPELLLQASDQLMRAIKIGIRLNLKEF;locus_tag=LOCUS_4590;note=WP_011391945.1 glycerate kinase (Moorella thermoacetica) [pid:44.4%25%2C q_cov:98.2%25%2C s_cov:99.2%25%2C Eval:3.3e-87],MGA_466
sequence06	MetaGeneAnnotator	CDS	4597	5178	.	-	0	ID=MGA_467;product=guanylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257428.1;translation=MIPLKLQSNIFVISGPSGVGKDTILEKMADHGMPYHFVITVTTRKARTGEKEGVNHFFVSEEEFQKMKKENMLIESAFVYGNYYGVPKTQVEEPILSGQNVLIRVDIQGAERLRKLYPAATLILIKPSTIDDLKDRLIERGTNTKKEMTXRLKSAISEMENTTIFDYEIINFKNQLDNAIFELEDIINKTSKN;locus_tag=LOCUS_4600;EC_number=2.7.4.8;note=WP_012257428.1 guanylate kinase (Chloroflexus aurantiacus) [pid:39.6%25%2C q_cov:94.3%25%2C s_cov:87.1%25%2C Eval:1.8e-37],MGA_467
sequence06	MetaGeneAnnotator	CDS	5175	6473	.	-	0	ID=MGA_468;product=3-phosphoshikimate 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545275.1;translation=MNIIVSPPNSIRGELITPSDKSISHRSAIFNSISKGISNIKNFSDGDDCISTLKILKKLGVKISKLDQDNSGLSLRIEGIGDNLFPNINLELDAGNSGTTMRLMSGILSSKSKGYXLTGDDSLCSRPMERVISPLNLMGANIKSKNGFPPLHFPSNKQIINGIQYSMPISSAQVKSAIILSALNAKNDTTISQPSLSRDHSERMLTSMGAKIKLTKNFINIKPSLLSSIDLEIPGDISSASYWIIAGLIHRNAELTIKNVGVNPSRIGILNVLKRMNANFSLTNNKIIGNEPVADINVXSSKLIGTIIEGNEIPLLIDEIPIICXAASLAQGETLIKDASELRVKESDRLKAISNVLSKLKVKHINNDDGILIFGSKKLSGGIHQTFGDHRIAMAIGVAGLVSEDSITIKNAEVASISYKNFWSHLKIISEQ;locus_tag=LOCUS_4610;gene=aroA;EC_number=2.5.1.19;note=WP_012545275.1 3-phosphoshikimate 1-carboxyvinyltransferase (Thermodesulfovibrio) [pid:43.3%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:4.4e-91],MGA_468
sequence06	MetaGeneAnnotator	CDS	6470	7477	.	-	0	ID=MGA_469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTMMNNYNGLQINKITVIGLGEFGKTLSELLYSSTSKNYQLIGYDADTNTHSKMKKSNILDATEWNLKTATSDADIIFICVPKVEINDLLKNLNEFVKKDCVIIDTSIFKKEISDYADSLFENSISFIGGSIIFDQDINSKPSQNHFVLIPSSKTSTESMEIVVNLLKSINLSPLFFHIDEYDNFMFALYGLPNLISTAYRNLMMESPSWREIKKLYGSSFMKLSELSLKEPEDESDLLFLKEQLPADWIKRFNQNFSYLTDPSVNSYKNVINNSEIYREKFFKFKEGINPNSDASINPNDLSGGMLELFLGSKLTGYFKNRGNIQNYNQKKDKK;locus_tag=LOCUS_4620;note=MGA_469
sequence06	MetaGeneAnnotator	CDS	7461	8207	.	-	0	ID=MGA_470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKITELIENLNIPDSTSIGFNSNKTIKENPNMILLTYVDLNKPFDMKVLKYSDAIILKNFDNDNSLDSIKKSKMIIGLELYDNSNTDLKFLENNEFDFIVYASDNVNAELLLSENLSSAYFISSLISDDKGACIEEVGFDFLFIKNDSIAFPLKISDLLKIQEMVLKNSGTIFMYSNSLPSFSDLELLRKTNVSGFAVDGNGISLYQIKSLKNQIQKLKPLKSNDTSSNTPFLPNFSENQDLDDYDE;locus_tag=LOCUS_4630;note=MGA_470
sequence06	MetaGeneAnnotator	CDS	8200	9081	.	-	0	ID=MGA_471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINYLNNNNDIKSDSSILIFAFAGWPDAGQSATNALKTLSENLDAKKFAEIQSEDFFNFSRERPMVYTEDDKRLLKWPSNDFSFVPKIKNNHDLIILNGIEPHLKWNTFGDLIIELSQKFNVELVITLGALLDAIPHTRVPKLTLTSTNDIPDKFTSKQFERASYEGPTGITSILLDKFSKIDISCLSIWAHSPHYLQASPNPILSLALLNKLDSEIGIKSDLTKLNTKAAKFRARLDNAILQDTELKNYVNNLEERYDSSLPTFENTEEDVKLFHDLENFLKKSRSDEENND;locus_tag=LOCUS_4640;note=WP_003977163.1 filament polymerization regulator ParJ (Streptomyces) [pid:36.8%25%2C q_cov:83.6%25%2C s_cov:73.3%25%2C Eval:3.7e-42%2C partial hit],MGA_471
sequence06	MetaGeneAnnotator	CDS	9147	9893	.	+	0	ID=MGA_472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIAHRGNSSKAPENTVRSFKKSLLSGFNIIEFDVQLSKDNFPVIFHDERLERTTDGKGFLRDHYWNELKKLDAGEWFGENFKEEKIPSFDEILKKFSSNTHLQIEIKSNEENISQIIIKSLEKYSLIKNYKQKAYSIPGFSITSFNINQIIKTKRYQPQINVGWLVKDNEDENNLIEKLLDNNINMYIPNINSEFWKKIELKKSLKENNITVCAWGAKKFSDVKKMLYSGADAMTVDWPEEAIKII;locus_tag=LOCUS_4650;note=WP_012047983.1 glycerophosphodiester phosphodiesterase (Clostridium botulinum) [pid:42.4%25%2C q_cov:66.9%25%2C s_cov:64.0%25%2C Eval:2.5e-30%2C partial hit],MGA_472
sequence06	MetaGeneAnnotator	CDS	9886	11628	.	-	0	ID=MGA_473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLFSKILKSSNSPLSKLSNAERKIIRAWCMYDWANSGFYTSVVVAIMPVYFVSLYKAEMGSGAVFWGFQFSASVVWALTGALATFIVALSSPIFGIIADRSGLKKKLLTILCATGSFCTLLLFLSAYTSTPWLFSLAFYFLAAIGFAGSNVFYNSLLPHIAPEDLLDDVSSRGYAYGYLGGGLLLLVHVIFLIFFDYSDIAIRSCIASTGLWAFGWAIWTILVVPEPKIEIQDSGKFKLFHSISQAFKQLRKTAKEFKQFKTLLIFLLAFIIFNDAIQTALGVAGAFGLDVLRISAETNILTILIVQFVATPGAMFFAYLSKKIGTKKSLITAVLGWGFITILAVGFAPLNLSTHTQYDYQLNYDKTKDNYELTTKPTLSDTNKNEIEWANLNIDLIDHNEDENFLNENQVSLFLDNFGLDGCRFSASVLGGNLDNQSSICDTHPTKLNENFIDLWPRFLRMIIWAPLGFSQDIQFIILGIGVGIVMGGSQALGRSLFAYMVPKSRSGEFFGFFSFSWRAVSVIGPVTYALLAGFFTPRTGIISLAIQIFIGVIILKYVNVEDGRKVALEHDKDNYKLK;locus_tag=LOCUS_4660;note=WP_010964893.1 MFS transporter (Clostridium) [pid:30.6%25%2C q_cov:54.7%25%2C s_cov:72.2%25%2C Eval:2.1e-38%2C partial hit],MGA_473
sequence06	MetaGeneAnnotator	CDS	11634	12662	.	-	0	ID=MGA_474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSKNSKISVAQIGTKHGHAEGVLQVMLENDDVEVKGIFEPDINRVEELKNLNEYPWNKVIFFEHQDQVFLDPTIKAVASEGNNFESLAQTYEILKSGKHVFYDKPAGDNFDDFLSCIKIAKQKNLFIQMGYMFRKHDGFTKIAEIISQGKIGNVFNIRANMSTNILPEGLNGEIQISKHQGGILFDLGGHMIDQIVYFLGRPNKIYSFLRRDISSIKNYSDNTLAVFEFDKSIATIEINSRTINHMKTRRFEVYGENGTLILEPFEPAQFLQINLKKSNDSLPIEEEYYSDSITLTDKPRYVESFDSFIKSIKGLKKPDRTLEHEVLVQETLLRATNSIIN;locus_tag=LOCUS_4670;note=WP_010905252.1 Gfo/Idh/MocA family oxidoreductase (Lactococcus) [pid:25.2%25%2C q_cov:74.9%25%2C s_cov:72.3%25%2C Eval:6.0e-13%2C partial hit],MGA_474
sequence06	MetaGeneAnnotator	CDS	12807	14153	.	+	0	ID=MGA_475;product=mandelate racemase/muconate lactonizing enzyme family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010902283.1;translation=MANYNKNSNPSKLKITDMRIAVVGHDNWRWPIIKIHTNQGLIGLGEVRDGASARYALMLKSRLLGENPCNVEKLFRKIKQFGGHGRLGGGVCGVEMALMDLAGKAYEVPAYMIAGGKYRDQIRVYSDTPSKKDPVEMGHALKERMDRGFTYLKMDIGIWIAEEIDGGIIFPNDYHETEIQEGSTGGSQKSMINESQNVMHPFTGIQLTEKGIKEISEYVKTVRDIVGYEIPIATDHFGHIGLESCIRLGKELDKYSLAWYEDMIPWQYTQQWKQLKNSVDTPVSTGEDIYLLDGFKPLIDNDAVSIIHPDLATSGGILETKRIGDYAQEKGIPMALHQAGSPVVAMANVHCAAATEGFIALEMHSVDNPWWDDLVNGETDKIINNGFVKVPESPGLGITLNEDAVEKHLNTNASGFAGKGKSMDIYPTGAFEPTDEWDKLDSHDRTWS;locus_tag=LOCUS_4680;note=WP_010902283.1 mandelate racemase/muconate lactonizing enzyme family protein (Halobacterium) [pid:32.8%25%2C q_cov:89.3%25%2C s_cov:89.6%25%2C Eval:2.9e-53],MGA_475
sequence06	MetaGeneAnnotator	CDS	14160	15008	.	+	0	ID=MGA_476;product=sulfite exporter TauE/SafE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003228670.1;translation=MEITLFQLIVFLLLGIIATSYGVLVGAGGGFIIGPVLILLFGWDNKTAVGTSLVCVSVASISGAISYLRLKIVDIRSAILFGIAAMPGAILAVIGLEKIDSAIFNILFAIMLLLTGFYVFWSPSKSKKSSTNENENEKNKGYWRVYRKITPTIGDKYTYNFIEPLATALNTIFGFISSFFGIGGGPLRTPSLIYFFNFPVKVATATSVATMSIYTIFGSIAHLYNGNVEIQPVLPLAIGAIIGSQFGVIISKKIKGRLMMKLLSFAMIAIAIQMGIEGINGL;locus_tag=LOCUS_4690;note=WP_003228670.1 sulfite exporter TauE/SafE family protein (Bacillus) [pid:28.1%25%2C q_cov:96.1%25%2C s_cov:98.2%25%2C Eval:2.1e-31],MGA_476
sequence06	MetaGeneAnnotator	CDS	15017	17578	.	+	0	ID=MGA_477;product=M1 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164928589.1;translation=MNNEFRLQKSIVPSHYSIFIEPDLINESFSGNEEISISVLETTKSIKINSIGLVIGNVKLTGNIELNSTKIEEDKKHETITIHFKSLIDPGDYNLKIQFSGKLDNSLRGFYLSKYRDNQGIEHKIGTTQFESTDARRAFPCFDEPEFKSVFSISLKLDQSLMAISNSPIESEITNSEGKKTIIFKDTIKMSTYLVAFIIGPFEESETAEVNNVPIKIISVKGKRHLSKYALNCGKFFLDYFNNYYGINYPGSKLDLIAVPDFASGAMENFGCITFRESLLLVDETRATESELTRIADVIAHEIAHMWFGDLVTMKWWNGIWLNEAFATFMATKAVDKFNPDWERWVQFGFERSAAFDVDSLEETRPIEYEVISPDDASGMFDLLTYEKGGSVLRMLEQYLWEQSFQNGVKKYLKIHQYSNTDTKDLWESLEKSTNEPVEKTMESWIFQPGFPQLMVSEENNSLKLEQNIFKYENTSNKNQVWKIPIVIKSFTESDKSIYKTLMEENKKYIDLNNSPDIFHLVNVGGDGFYRIQYSNNLLTKILKNLNPEKNKLTNIERFCLLDDYWSDILSCNKTVDVFLEDLQFFKEENDPEVLNLIISCLSFIDKFVDENHSNNFKSFSEGYFSHLLKKYGFKNNNNDTNKIKEFKAALIRGLGNICADEKIINYCGELFETYRKNPKDVEANALAATISVLSNNGDSNLYNEFLELYLNSSTPQDEMRFLFALSSFQNIDNFINTLELSLSEKVRTQNAPYLLGQTLRNKKHFSVSWDFIENNWDKINDKFPENSIPRLLTGIRAITDVECSEKIKTFLKNNKVPQGQKTVDQHLEKLNINVKFADFNLKYLEKFLLNNN;locus_tag=LOCUS_4700;note=WP_164928589.1 M1 family metallopeptidase (Gloeobacter violaceus) [pid:30.8%25%2C q_cov:95.0%25%2C s_cov:90.2%25%2C Eval:1.0e-119],MGA_477
sequence06	MetaGeneAnnotator	CDS	17586	17768	.	+	0	ID=MGA_478;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIKENIKNLKITLKDLIFILPLVFAFILIVFMIFDTASTKCDWSVRDRWECYSDADKNS;locus_tag=LOCUS_4710;note=MGA_478
sequence06	MetaGeneAnnotator	CDS	17775	18089	.	-	0	ID=MGA_479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNQVWDSYHNIKRIICSDLNSSEKLVLISIATNCEFDTKSRNYISETPLSTLIRYSTLDEKNFNIIFNNLIESGIILTKDKGKLEFNFHTLSQHKYNSPNLPK;locus_tag=LOCUS_4720;note=MGA_479
sequence06	MetaGeneAnnotator	CDS	18150	18752	.	+	0	ID=MGA_480;product=DNA-3-methyladenine glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000098063.1;translation=MSKPIFWNQACEDLSKKDKVMKLIIKKYNKDYLIESKNPFKTLCRSIISQQISTTAAKSIYERFESISSLIPQKIIKISDYKFREIGLSKQKISYIKTLSEKVNSEKIDLVKLKTLETEKTFKTLTELKGIGPWTANIFLMFYCLNSNIFPSNDLGLINGLKKFYGNSSQINTIKNLWDPWCSVGTFYIWRALDGEALNY;locus_tag=LOCUS_4730;note=WP_000098063.1 DNA-3-methyladenine glycosylase (Leptospira) [pid:29.5%25%2C q_cov:91.0%25%2C s_cov:83.3%25%2C Eval:1.8e-16],MGA_480
sequence06	MetaGeneAnnotator	CDS	18810	20195	.	+	0	ID=MGA_481;product=acetolactate synthase 2 catalytic subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011707860.1;translation=MKISELFMNIAKENSIDHFFGIPGSGVPLDLMDSGREIDLHFVNVAHESTAAIAAGAYGLLKESSGLSLAVKGVGAANLTGGIANAYFERMPVVGICETTPNYSYENEMVQHADHYAMMKSVTKKMLTISNDNPGETIRDAFSTSMENRQGPVLIDFPSDMGLVDVKDKLNSPSKPKKSKETNKSEIKKISEIINKSKKPVVIIGNDVKADNAIEESIKFAEKCGAGVISTMKSRGVFPENHERWVAVTTGFPSQNTKAGDLMLSSDLIILIGVDQMMTHTPWPENTLQTIEIISDSHFKTMSSDPIFTEIGNIKSTLNKLTKLIMNPGWKIQELLNISINLESRFKRPSNAIFATQDIFEISKELLPKEGLVYSETGAFITLLENTWKFDQPSKFFGTSGGRTMGLMIPSFIGGCLATDNSIPSIGIGADGSSLMRMGEFETINRCNLKWPIVIINDAAL;locus_tag=LOCUS_4740;gene=ilvG;EC_number=2.2.1.6;note=WP_011707860.1 acetolactate synthase 2 catalytic subunit (Aeromonas hydrophila) [pid:24.1%25%2C q_cov:100.0%25%2C s_cov:83.6%25%2C Eval:2.0e-28],MGA_481
sequence06	MetaGeneAnnotator	CDS	20199	20432	.	+	0	ID=MGA_482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYRQGFRKYPDYGLDLTMVDFASAAKSCGLKGITTNTPESFKNALIESFKEDTTTIIDARIDPKIYQDSFGLTLGD;locus_tag=LOCUS_4750;note=MGA_482
sequence06	MetaGeneAnnotator	CDS	20433	20924	.	-	0	ID=MGA_483;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIFIYIFFYLNKLYILDQRKYIMSDKNFENIKAFLNHPRIAVVSTIKKNGTSQLSPNWYIYLDGSIYISTTKNRAKYWNISRDNRVSLCIYSEPLATDYVVIEGQCDILPKQKIFPITEEIVKLYVPKDLVEDRVSQIKKEDRVLLKITPDKYLSRSWGSVI;locus_tag=LOCUS_4760;note=MGA_483
sequence06	MetaGeneAnnotator	CDS	20926	21102	.	+	0	ID=MGA_484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREIIKETKNEIDSFIEEHKSIDERLLRSQKNLAFLIKEFERLIDNFYKENTEKINNE;locus_tag=LOCUS_4770;note=MGA_484
sequence06	MetaGeneAnnotator	CDS	21089	21592	.	-	0	ID=MGA_485;product=adenine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011388365.1;translation=MDLKKIIREIQDYPEKGIIFRDISTILANPDAFSFTINELGKNIQKFNPDYLAAVESRGFIFASPLSQIFKIPLILIRKKGKLPPPVIGIDYDLEYGKDTLEVSSSVIPKSKNILIVDDIIATGGTVNASIDLIEKTGNKVLGILSVIDLKLYKKPFTVPLRSIIHY;locus_tag=LOCUS_4780;EC_number=2.4.2.7;note=WP_011388365.1 adenine phosphoribosyltransferase (Rhodospirillum rubrum) [pid:42.6%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:4.5e-35],MGA_485
sequence06	MetaGeneAnnotator	CDS	21645	22523	.	+	0	ID=MGA_486;product=S-methyl-5'-thioadenosine phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014537507.1;translation=MKKVSRLGIIGGSGVYDLPGIQNSDWIKIQTNFGEPSDKVLIGNLNNIPVAFLPRHGKNHQFSPSKINYRANIEALKICNVTKIISVSAVGSLRKDLHPGTIVLSDQFIDNTKFRKNTFFDDDITAHISMSDPTCSNLKNEIVTIAKQSKINVIDKSTYICIEGPQFSTKSESLLFQKWGADIIGMTAMPEVKLSREAEMCYVNLSLITDFDCWKVEEEPVSAKIVIQNFKKNLKQIHSIITNLTNNKNLINKCTKGCQNSLENSITTKLNNNNKITQKKLINIIKKYYNVI;locus_tag=LOCUS_4790;EC_number=2.4.2.28;note=WP_014537507.1 S-methyl-5'-thioadenosine phosphorylase (Ketogulonicigenium vulgare) [pid:43.7%25%2C q_cov:90.1%25%2C s_cov:91.6%25%2C Eval:1.0e-63],MGA_486
sequence06	MetaGeneAnnotator	CDS	22523	23167	.	+	0	ID=MGA_487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKNVEEKKKLFYRIIDVIKVRMIAGIIILIPLLVPLYLLTFAFETLDGFFAPIFTQLFGRKILGVGFIVLLLLTFLLGTISKFAIVTKIIQWIESLILKTPLFGAIYNTTREVASSFQGGKSTGFTTPVTIEYPKSDVWTMGFLTRTIEFDEKGTHGIVYMPSTPVPSTGWVVLVPIEKINFLDLKADQAMKLIVAGGIASSGKLKFKNINQ;locus_tag=LOCUS_4800;note=MGA_487
sequence06	MetaGeneAnnotator	CDS	23175	23642	.	+	0	ID=MGA_488;product=MOSC domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545911.1;translation=MTNPKIVSVCLSKLNGIPKYPQKIVEVGKFGINGDFHSGETNKHAKKTNYDRQLSLVSQNVIDELSEKLQIDLSAGDLGENFLVENMGDLTTIKAGTRLKIGKNVIIEITKHNTPCVTLNKIHPLLMESILGRRGLLAKVESIGKVKPGDSIEIL;locus_tag=LOCUS_4810;note=WP_012545911.1 MOSC domain-containing protein (Thermodesulfovibrio) [pid:36.9%25%2C q_cov:95.5%25%2C s_cov:95.8%25%2C Eval:9.2e-18],MGA_488
sequence06	MetaGeneAnnotator	CDS	23758	24375	.	+	0	ID=MGA_489;product=SOS response-associated peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064241734.1;translation=MCGRYNLHQTDQLIDRYNTVNQISIFPDYNRSPGTINPVIISKYNENWILGFEWGIQKQNQLIANKRIESINKELGSFNRCLVPINGYYEWKSHPSGKIPFYIFPKTENLISLAGIYYKNSESNVSKFLIVTKPADKSLEKIHSRMPMMISQNEENNWLNENNNTDFNFYNVKLGIIPVSQKVNNPQYSDPSCIKKTDEYQIFFN;locus_tag=LOCUS_4820;note=WP_064241734.1 SOS response-associated peptidase (Ensifer glycinis) [pid:24.7%25%2C q_cov:91.7%25%2C s_cov:93.7%25%2C Eval:4.6e-10],MGA_489
sequence06	MetaGeneAnnotator	CDS	24431	24610	.	+	0	ID=MGA_490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVVNITWKEGRSREQKEEVIKDITKTLVDKANAREEDVVIIFNPLEPSNMAHGKELLG;locus_tag=LOCUS_4830;note=MGA_490
sequence06	MetaGeneAnnotator	CDS	24626	25609	.	-	0	ID=MGA_491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILITDYVWPNIDIEKKIIEDNGHELIVAPNSDQSTLINLIKDVDAILFCFADINEDVLEAAKKCKVACRYGIGVDNIDIQKATELGIIITNIPDYCLDEVSDHVLAMLLNLNRSIMPHDKKVKEGLWHEVNKVERIRRLNKSTLGIIGYGRIGKNVAKKANVFGIEVIAFDPLLKDDDQENNVKSVTLDYLFKNSDFITLHIPLIKETKHLISFDQIQIMKDDVIIINAARGGLIDEDALIKGLSSEKILGVGLDVMEDPNPKASNELFKFKNVIVTPHTAYFSQESNEELQERVVGEALTVLQGNFPENLINRDVIGKNRSNIN;locus_tag=LOCUS_4840;note=WP_048061266.1 phosphoglycerate dehydrogenase (Methanothermobacter thermautotrophicus) [pid:39.4%25%2C q_cov:97.6%25%2C s_cov:60.2%25%2C Eval:4.8e-57%2C partial hit],MGA_491
sequence06	MetaGeneAnnotator	CDS	25609	27243	.	-	0	ID=MGA_492;product=ASKHA domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877524.1;translation=MSPIFFEKFQIESEKNKSIFDYADFLNVRVPTSCGRTGECHECIVELIEGFEGLSEKTESEKFLKENYRLACQAIVKDPNKNIRFNVLRRQPKILDKGLKRDFEFDPITVKKGDSIIYNESEKIDDFKGYIFGLSIDIGTTTIVMNLVNMQDGNILGTSSFENPQRFGGSDVMNRISYETGKFKGELQSVLISGINFEIGELCKEFNIRRRWIYEIVIVGNSTMRDICFGFDVFSIGQKPYKSFTELETEKGKRDSTAIYTTAKELGIRINPNANVYGAPLIGSHVGSDVTADLLTISMDNEEKNVILVDIGTNTEIVVGNKNKLMAASCPAGPAFEGGEVTYAMPGYDGAIEAFVFDNDQSKIKIIGNSKPEGICGSGLIDILSELKSNGIMNELGVFEKNAQEYVISKDEGISLSRADVSALAQAKAANSCGQAIVIRKYPADLNSFSKIYLSGGFANYIDVENAKKIGFIVDLPNTEVIKIGNGSLEGATIMLLSKKLRISMENLVKTIEHVELETTDDFFNFFVEGCQFKPIENELMESE;locus_tag=LOCUS_4850;note=WP_010877524.1 ASKHA domain-containing protein (Archaeoglobus fulgidus) [pid:30.6%25%2C q_cov:95.4%25%2C s_cov:97.3%25%2C Eval:3.6e-72],MGA_492
sequence06	MetaGeneAnnotator	CDS	27279	27542	.	-	0	ID=MGA_493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTNGNNLRKKINVEKAKDSLEKLFLIYKDISFNADEISKKRCPYKDAKSRCTANFSCKNQFFTQKKEDLPVCTGSDLLDYRTAWEI;locus_tag=LOCUS_4860;note=MGA_493
sequence06	MetaGeneAnnotator	CDS	27545	28282	.	-	0	ID=MGA_494;product=corrinoid protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393606.1;translation=MAIIHEGLSEEFKYVTKPNEQEHIGSMFDSSDLLMQQIAFNLIKGKNNDVYDLVKKALDEGYEANTVLDDGLIAGMAIVGVKFRDNVIFVPEVLISARAMKAGMEHIDPILSASGVEPIGTVIMGTVKGDLHDIGKNLCIMMLRGGGFTVHDLGVDTKPDEFIDAVLEHEATVVGMSALLTTTMPNMGVTIEAFEEAGLREEVKILVGGAPVTKNFADEMGADGYGSNAVECVQIAKDILGVNKG;locus_tag=LOCUS_4870;note=WP_011393606.1 corrinoid protein (Moorella thermoacetica) [pid:51.2%25%2C q_cov:84.5%25%2C s_cov:98.1%25%2C Eval:2.0e-56],MGA_494
sequence06	MetaGeneAnnotator	CDS	28341	29357	.	-	0	ID=MGA_495;product=MtaA/CmuA family methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_054938010.1;translation=MKKKERVINALTGKPVDRTPVSNPTNVATVELMDLVDAPFPDACRDPELNAKLAVTGYTELGFDSIAPYFSIIQESSALGCEMQWEQKDNWPTVRMGNPIWKTPDDIKIPSGFLEHQDNLAITKSIEILKKEVGDEVAIIGKTMGPWTLAYHVFGVEPFLLLSIDDPQKTMECLYKLREITVLFGQAQIDAGADVLVVPDHATGDLVSGEYYKRFLLEIHQELVETLPVPLILHICGKTIDRMPYIAESGMAAFHFDSKNDPQEAMNAVDGKINLAGNINNPETLYSKGVSDVKQEVFKALDAGVQLIAPECAIPLKTKIENLLAIPEAVEEWTLKKH;locus_tag=LOCUS_4880;EC_number=2.1.1.-;note=WP_054938010.1 MtaA/CmuA family methyltransferase (Moorella) [pid:52.3%25%2C q_cov:98.5%25%2C s_cov:97.9%25%2C Eval:9.8e-93],MGA_495
sequence06	MetaGeneAnnotator	CDS	29374	30030	.	-	0	ID=MGA_496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPQEVIEKYGTCLELISMDPFFHEITVGLFLKDSTLTVHSYRNKDGVKERLTQIRDRIVLFGGAKPLEGSYNQATYDCGMKNGCCTSPLRFLLKRAVMKNDNYDSESKITVKDLRSEMQLYLTPKEVEGKTIYTVSGEGEAKKPEIRYRAVVNGLNRYGGCVKVSHTEVSLQCFRRNDAIMKIILPIARNISATEDSLAAEDMAGQMTTQTLGFSST;locus_tag=LOCUS_4890;note=MGA_496
sequence06	MetaGeneAnnotator	CDS	30069	30959	.	-	0	ID=MGA_497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRVNFLDSIKSGITLLGDGATGSYLQTKGLEPGGCPEYMCHTAPDVIKGMAKNYFENGSDFVLTNSFGGNSFMLEKYGHKDLIKTLNIKAAQLAKSEAKDNQFVIGSIGPTGEFLQPLGDISEEEMGEAFHQQISALLEGGVDGIIFETMTAIEEITLGIKTAKQITDKAVIGSMVFDKGPRGLFTMMGITPEKAVKDLINSGADVVASNCGNGSDIMLEVASELTKYSEKPVMIQSNAGIPEIIKGKIVYNEKPEFMVKNYNKMLDLGVSILGGCCGTNKLHIKEFRKMIDSNN;locus_tag=LOCUS_4900;note=WP_010943552.1 homocysteine S-methyltransferase family protein (Geobacter sulfurreducens) [pid:37.8%25%2C q_cov:97.0%25%2C s_cov:35.3%25%2C Eval:6.1e-56%2C partial hit],MGA_497
sequence06	MetaGeneAnnotator	CDS	30956	31303	.	-	0	ID=MGA_498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIHIRIMYWKEIPLQVEGVKGSNRSSFTLDSRFQEAADAIAMHDGSYGSDAYLDGFQWKEHGTFEGDLDTLVNLKLKEINEGMPVNFVSIIRDLIKENNRDQTPGSIDHLWYKK;locus_tag=LOCUS_4910;note=MGA_498
sequence06	MetaGeneAnnotator	CDS	31307	32347	.	-	0	ID=MGA_499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIPLNSHNNFIIVGENIHATRVLRLNGKRIGENEKGVKSVLFSDPNGEKMFLEIPKHFHETQPYQQGTVKHLMVAIWKGVHGSSQEQEQAISYIKYQVDRQINAGANFLDLNVDEVSYNLDEQILSMNWLVDVVENLSTVPPSIDSSNSQIIEAGLKAYSGKQGSPMINSVALERIETINLVNEFDTHVIITAASKDGMPDDDVQRVENVNELMKKVDELNINYGKVHVDPLVFPISVSPTYGPHFLDAVKVIRQSFGGEIHISGGLSNVSFGLPKRKLINDVFIYLCIQNGIDSGIIDPVQTNIRNVFELDLSSNAFKITSEMLLGNDDFCMNYLDSFRSGDLD;locus_tag=LOCUS_4920;note=WP_011392721.1 methyltetrahydrofolate cobalamin methyltransferase (Moorella thermoacetica) [pid:37.3%25%2C q_cov:74.3%25%2C s_cov:91.0%25%2C Eval:1.2e-37%2C partial hit],MGA_499
sequence06	MetaGeneAnnotator	CDS	32347	33147	.	-	0	ID=MGA_500;product=methylenetetrahydrofolate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010971608.1;translation=MKAKFSLEIIPKQVEKIKDLPKDIVDDIYITYIPGASPQDIINASETILNYGFTPIPHCPARTIPDEEFFINYLDGLIKIGVIKILIIGGSISTPKGRFSSSIDLLNTGLIQQSKIKTVNIAGHPEGNPDDKNHFENMIEKSKWLNTNNIQSNIVTQWCLSPDITNSWINKTKSHLGKIGVKSEIHLGIAGPAKLTTILKYAKICGVSATTSVFMKQGLDIRKIINHNPDNILNSLIGYDKLHIYPFGGINEFLKWYKNTNIKEVF;locus_tag=LOCUS_4930;note=WP_010971608.1 methylenetetrahydrofolate reductase (Agrobacterium tumefaciens complex) [pid:29.5%25%2C q_cov:96.2%25%2C s_cov:88.6%25%2C Eval:3.0e-32],MGA_500
sequence06	MetaGeneAnnotator	CDS	33256	34143	.	+	0	ID=MGA_501;product=2-hydroxy-3-oxopropionate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_072771929.1;translation=MNIGFIGLGNMGTGMVRNILKNMGQNNNLNVYTRTKSKIDSMVEEGATGCYSLKELTTNSDIILTCLPNVDTSRDLILGSDGIINHANSNQIIVDHSTVDMKTSQDCSKVASEKNIPFLDAPISGGPTGAAEGTLTIMVGGDKSAFEKSTSVFEMMGAKISHMGISGAGTAMKLVNQLLVSTNTVAAAEAFVLAEQAGVNLNSAIDILSTSWGKSQMIERNGPITVEKNFENSAAPLRNLIKDLNIIEDLRLQLGLELPVTQASSKVANDTNNMGLTEPDIAATALTIKKLSSIE;locus_tag=LOCUS_4940;gene=garR;EC_number=1.1.1.60;note=WP_072771929.1 2-hydroxy-3-oxopropionate reductase (Desulfitobacterium chlororespirans) [pid:33.6%25%2C q_cov:100.0%25%2C s_cov:98.3%25%2C Eval:3.2e-41],MGA_501
sequence06	MetaGeneAnnotator	CDS	34148	35212	.	+	0	ID=MGA_502;product=isocitrate/isopropylmalate family dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005116066.1;translation=MSKEYNIAVIKGDGIGTEVVEESLKFLNHIEKKTNIKFNFQEFPWGSEYYFSNGVMMEENGEKKLSSFDSIFLGAVGHPDIQDHITLNGLLLPIRRYYDQYICHRPSVLYKGVKSPLSDKKPGSIDIIVVRENTEGEYANIGGFQYKDTSDEVAVQTAVFTRKGCERVMEYSFELSLKRNKKVCSITKSNAQGYGMTLWDRVFEDVSKKYPNVETESLLIDAACMDFIRQPEKFDVVVASNLFGDILTDIAAMITGSLGLASSANINPDKTKPSMFEPTHGSAPDIAGKGIANPMAQILTSGLMMDHLGEPELARKIENSVKVVLEKQEIRSPDIGGNNSTTEVGNAIVNELNL;locus_tag=LOCUS_4950;note=WP_005116066.1 isocitrate/isopropylmalate family dehydrogenase (Mycobacteroides abscessus) [pid:46.3%25%2C q_cov:98.3%25%2C s_cov:98.6%25%2C Eval:7.0e-89],MGA_502
sequence06	MetaGeneAnnotator	CDS	35231	36247	.	+	0	ID=MGA_503;product=aldo/keto reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011083943.1;translation=MINPFEKTQLNSTGIYLPRLGFGGAPISGISMKSFGGVEEKEALKIINLAYNKGIRYFDTAPLYGIGNGEKRYSKVLSKKPRNDFVISTKCGRVIDVEKYEKPKFSSEVEYTENKTIKFDFSSDGIKRSLEDSLKRLNLDYIDILLLHDSDVENLETKAKKTALPTMMQLKNEGIVKAIGCGMNEWEMPSRFIDDFNIDVVLLAGRFTLLDHSSFEIFLPKCIENKVKVIIGGPYNSGILADDNLNKNSLFNYENVPQNILKKAMKLNKISKKYNIPLKAASLQYVMNHPAVISTIPGSQSIYELENNIEICNIKIPEEFWKDLIQNSLIPKNAFYPK;locus_tag=LOCUS_4960;note=WP_011083943.1 aldo/keto reductase (Bradyrhizobium) [pid:38.0%25%2C q_cov:94.1%25%2C s_cov:95.1%25%2C Eval:1.1e-56],MGA_503
sequence06	MetaGeneAnnotator	CDS	36554	37132	.	+	0	ID=MGA_504;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNPEETENNSESTNLALCIFPHLKEFAVIDFTESNNGDPIKIFNSNKILDEKFFTLIENEFKKMLKDDDFPFLNLIGLPQNIENLIRTQTLASILEILKSSNNEINDMNNIAILFFSGKILEISKDELEKILNNLFHEEIELNKIKDSVDKILELMASEKSAQKSLIKNDLYGIITGNNESYATLWERSNN;locus_tag=LOCUS_4970;note=MGA_504
sequence06	MetaGeneAnnotator	CDS	37169	38923	.	+	0	ID=MGA_505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTINKYLSSDEIRDSFLNYFVKKKHITHPSSSLIPANDPTLLLTNSGMAQFKSYFSGESKPPKPRITTSQKCFRSTDIDEVGDNTHLTLFEMLGNFSFGDYFKEEACKWGLELLINEFGLEENRIFATVHSDDSEAKKIWLNLGMPEHKIFSFDDNWWGPAGLEGPCGPCSELHYYTGDLLPNDYKSASKNKSWGPNVSDEFLELYNLVFTQFYHHLDGRKTELPKKNIDTGMGLERLTSVIQQVDSCYDTDLFTEIIEKIENLSGIQWKKSKSSDKAIIIIAEHVRSATFLIGDGVIPENTGRGYILRRIIRRAMRYGMTLKIKAPFMGLIAEEVIRKMGHHYSELIENKPFILKVLEVEETKFSSTLQQGNTLLKTLIKDRNLIQEKFDQINKNLIKIISKENFKDKELFDLFEKSKIGPESLISNLINKAIDLEKHIAKEKNDQLKLLIKNITKLNWKNNISGFEVAYLYDTLGFPAEVTSEIAEESNLKIDLDEFNNIMEKLKLRAKSSSQFKGDLSLQRLFEEMGISETTFQGHNNLKTDSLVIGILKNDKPTKKANSGDEIKIILNQTPFYPEGGGQV;locus_tag=LOCUS_4980;note=WP_004081612.1 alanine--tRNA ligase (Thermotoga maritima) [pid:7.9%25%2C q_cov:99.3%25%2C s_cov:58.1%25%2C Eval:1.1e-98%2C partial hit],internal stop codon at [38921:38923](+),MGA_505
sequence06	MetaGeneAnnotator	CDS	39278	40054	.	+	0	ID=MGA_506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVHKHITSYNEAIESGALAFFGDKYDHEVRTVEISNGSKFSYELCGGTHCNYTGDIGSFYIISESSIASGVRRIEAVTGVNAEKLATNHLSILNSLSSSLNVPISEIKNKINDITNEIEKLNKNYNKLENKIHSENILDIEKTSIKIGNSTLVSSVLDVPNQELLRQTGDQIKNNIKSGAICLGSNIEGKATLIIMVTKDLTNKINAKELIQSISPIINGGGGGREELAQAGGKNPEKLTEAIKTFEKIVKNILSTN;locus_tag=LOCUS_4990;note=WP_004191158.1 alanine--tRNA ligase (Burkholderia mallei) [pid:34.9%25%2C q_cov:92.2%25%2C s_cov:26.8%25%2C Eval:1.6e-38%2C partial hit],MGA_506
sequence06	MetaGeneAnnotator	CDS	40055	40468	.	+	0	ID=MGA_507;product=Holliday junction resolvase RuvX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259679.1;translation=MTILAIDYGEKRIGISISDPGKIISLPQEPIMSKGIKNDSLTISKLIENNNIELVVLGLPLTLNGDFGFQAKFTSNFEKELKKQTSTPIIKFDERFTTKQAKDISKNSKKANSKIDSIAASIMLQTYLDSRRDEKLI;locus_tag=LOCUS_5000;gene=ruvX;EC_number=3.1.21.10;note=WP_012259679.1 Holliday junction resolvase RuvX (Chloroflexus aurantiacus) [pid:38.8%25%2C q_cov:94.9%25%2C s_cov:87.6%25%2C Eval:2.6e-17],MGA_507
sequence06	MetaGeneAnnotator	CDS	40465	41310	.	+	0	ID=MGA_508;product=shikimate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393067.1;translation=MIIKLGVIGYPLGHTLSPVFQQAALDHLKINGQFKAIPITPEQLPKFIRTMDKNNIKAVCVTIPHKESVLDLIDEIDPEALKIGAVNWIVNNEGNLKGFNTDYKGFLKSLEFETGFSPYKKTATIFGSGGSCKAVSHALNLAGLSKLFIINRTKKKAENIANDLKSENLDIIPLDFKDSIINNVLLESELIINSTSLGMSGGPEPNNDLINNYDINPGTIGYDLVYSPKETPFLKKIIEKKGIPASGLSMLVFQGIEGFKLSTGQDAPEKLMLDITNSISL;locus_tag=LOCUS_5010;EC_number=1.1.1.25;note=WP_011393067.1 shikimate dehydrogenase (Moorella thermoacetica) [pid:37.8%25%2C q_cov:95.4%25%2C s_cov:90.2%25%2C Eval:6.6e-41],MGA_508
sequence06	MetaGeneAnnotator	CDS	41395	42579	.	+	0	ID=MGA_509;product=chorismate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879991.1;translation=MFRFITAGESHGPSLSVILEGLPAGLKINEDNIKVDLQRRQKGFGRGGRMKIEKDHAVIKSGVRHGISMGSPISLWIENKDFENWTEAMSPYPVNESVDKKEFTKIVPGHADFAGALKYKQHDLRNVLERASARETTARVAAGALCKSMLKELGIIIRSRVISIGDSVPSNTLDSKEIESINWETIEKSEVRTDSKDLEKKFIDSILKAKKDRTTVGGIFQVIAFNMPVGLGSFSQWDRKLDGKIAQAMMSINAVKGVEIGSGFLNTRKPGRNVHDVIIPDKSDIRNFNHVSNHAGGLEGGVSNGEPIIVNVAIKPIATMTNPLPSVDINSGEIVEAQYNRSDICQVPPACVIGEAMLALSLSEVVIEKFGGDHIDEMLANFSNYQKSHKEFGI;locus_tag=LOCUS_5020;gene=aroC;EC_number=4.2.3.5;note=WP_010879991.1 chorismate synthase (Aquifex aeolicus) [pid:49.4%25%2C q_cov:99.0%25%2C s_cov:98.5%25%2C Eval:1.5e-98],MGA_509
sequence06	MetaGeneAnnotator	CDS	42584	43120	.	+	0	ID=MGA_510;product=shikimate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010881430.1;translation=MKDNHEFDYNLYLIGLSGTGKSTCGKMLSQKLNLIFIDLDKEITKKEKTPISEIFLKKGEKYFRKTETSLLEKFSKKKNHIISTGGGIVENNYNMEVMKNSGKVIWLTASPINITKRLNSKYAEYRPLLGNSPNVKIISQMLEKRKLVYNQAEFKINTNNNSPSEVVKKLSKLLLKNE;locus_tag=LOCUS_5030;note=WP_010881430.1 shikimate kinase (Aquifex aeolicus) [pid:38.9%25%2C q_cov:88.2%25%2C s_cov:90.5%25%2C Eval:7.8e-23],MGA_510
sequence06	MetaGeneAnnotator	CDS	43113	44216	.	+	0	ID=MGA_511;product=3-dehydroquinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257969.1;translation=MNDNNDNLATIVKTSQRNYKVLVGYKSIEALGNELESLNVNGKIFLISDNSIFPEFILKIHHILEKSKYKTNIFTLDFNEKTKNHSTLNELYRWYGEQKIERNDTIIAVGGGVTGDIVGFSASTWLRGVNVVHIPTTLAAMVDASIGGKTGINLNIGKNLVGAFHQPILVLSDTESLKSLPKRELASGWAEAIKHSLLYDEKLLNIFINKSSDIKELKHPISTKVIRESVKIKSEIISQDEFEKGDKRIFLNYGHTVGHAIESISKYSKFLHGEAVSIGMCVAAKISEMSGFSNPNLTKLHQEIMELYNLPITISDIKEEEIIKSIKIDKKVKDGKVRWILLKKISDPFINNQIDDEVLIKALKSSR;locus_tag=LOCUS_5040;gene=aroB;EC_number=4.2.3.4;note=WP_012257969.1 3-dehydroquinate synthase (Chloroflexus aurantiacus) [pid:40.4%25%2C q_cov:89.9%25%2C s_cov:91.7%25%2C Eval:1.8e-63],MGA_511
sequence06	MetaGeneAnnotator	CDS	44209	44517	.	-	0	ID=MGA_512;product=MoaD/ThiS family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_024015101.1;translation=MVNEEIVYVRIPAPLRSITGQKNKIEINLSQFDDHNVRSILNYVDTQFPGFKEKIFNTSGELKQFVNIFINGEDARYLDGVETEVNSADEISIVPAVAGGII;locus_tag=LOCUS_5050;note=WP_024015101.1 MoaD/ThiS family protein (Aquifex aeolicus) [pid:43.6%25%2C q_cov:92.2%25%2C s_cov:97.8%25%2C Eval:1.1e-18],MGA_512
sequence06	MetaGeneAnnotator	CDS	44587	45420	.	+	0	ID=MGA_513;product=Cof-type HAD-IIB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011140835.1;translation=MQYIKMFFNKNINDCKLLVFDLDGTILDKKSNISNKMIQLCSKLKKQNILFTIATGRSAKPALNYANILGVKIPIICLGGSLVIDPINNKIIRETKIDKNISKELINILDEEKYESALYYGRNIYIKEISEWSKGYIERQSIPYFIDKNFSKILNKKPTMILTVGKPDEMDVLEKKLRELVENSLCVVRSMPHFCELSNLKGNKFFALKFLLEKLSLNFSNVITFGNGEADIEIIKKSQIGISINNSPEKLLENSNFLIAPPEEQGVENFIEEFILK;locus_tag=LOCUS_5060;note=WP_011140835.1 Cof-type HAD-IIB family hydrolase (Gloeobacter violaceus) [pid:26.2%25%2C q_cov:93.9%25%2C s_cov:92.9%25%2C Eval:1.9e-24],MGA_513
sequence06	MetaGeneAnnotator	CDS	45426	46349	.	+	0	ID=MGA_514;product=ribokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008761960.1;translation=MFKKNKIIVLGSINTDISIKGKRLPKPGETIYAEKISYTGGGKGANQAIAASRLINNDSKVDMIGSIGDDIFSKKNLEKLRTEGINTEGIRSIPNTSTGTAVIFLDQKSENYILIVEGANYKCNKNELNYLKRIINNNSILLLQHEIPINIVHQSMEIGKKQKALIILDPAPYMKIDIKNYYQNVDILTPNKIEAENISNIKIDSLEDAYKAGEIIRSLGPLFVIITLGKKGCVFISDQEKIHIDTPKVNLENSVGAGDCFNGALAVGIKNGLSIIESIKFANKSASISVSKEGVQESMPYFKEIIN;locus_tag=LOCUS_5070;gene=rbsK;EC_number=2.7.1.15;note=WP_008761960.1 ribokinase (Bacteroides) [pid:39.9%25%2C q_cov:98.0%25%2C s_cov:96.7%25%2C Eval:6.6e-53],MGA_514
sequence06	MetaGeneAnnotator	CDS	46346	47323	.	-	0	ID=MGA_515;product=quinone-dependent dihydroorotate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259753.1;translation=MAETSLKLTSPFNHFLKFLQIKDESLLSYIGKIEFPNPIGLAAGLDKNYKTSINYLNFGFGFAVTGTILTNQNFGNPKPRLLRYLNNKSIVNSLGFPSEGLNTIKNKFSNLEIEKNRIFASISGLNIDDIYRCFNELSPLVVGIELNISSPNTQGLKNFHNLKNLQKLLKIFNNKKTKPLIVKLPPSLEQENDLIEMVKCVQDSGSEGVVISNSHPIKDSKLNIGFGGLSGKPVYEHTLKMVSKIRKIVDNNFTIIGSGGVSTTSDVWKLIASGANAVQIYSGVVYEGPFIAYKINKELKNIFLSNKISSVKELFCSESPFPSKY;locus_tag=LOCUS_5080;EC_number=1.3.5.2;note=WP_012259753.1 quinone-dependent dihydroorotate dehydrogenase (Chloroflexus aurantiacus) [pid:31.5%25%2C q_cov:85.8%25%2C s_cov:82.9%25%2C Eval:2.7e-39],MGA_515
sequence06	MetaGeneAnnotator	CDS	47472	48731	.	+	0	ID=MGA_516;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005113311.1;translation=MKNPYSNDNPTSESDIKKVPYLASLSISSFRWLWFGTILQMGAVQMGMTARTMVVDDITNSAFLSGVVAMGFAPSLLVFAIIGGWVWDKFDNRSIIQFCLICFTLVSASIGLLIAFEVIHWIHLFIASLFQGALFSLQMPSRQSLIPKLVPKSLIGNGVALIAASMATISIFSGAAIGLLYGSLGPSYVFLIISILYVISFILTSQIPSTKQIKENQNNQGLLGSTKESITYLFYNKMILGIFLSSILVSLFALPVRLQLPIIARRLYEASSNEIGLLLSISSIGAVLASLFIASLSKSKLRGFIFLLGIFGLSACVFLLGFFPYFIAGIIIWILFGIFENIRMTLSQSLTLEYVDENFRSRIMGLYMMNYAFIPLGALPIGKSIDVFGAEKSLLIFSLIFFISSVLVLISSKELRKIR;locus_tag=LOCUS_5090;note=WP_005113311.1 MFS transporter (Mycobacteroides abscessus) [pid:25.3%25%2C q_cov:87.4%25%2C s_cov:83.9%25%2C Eval:1.4e-25],MGA_516
sequence06	MetaGeneAnnotator	CDS	48739	50499	.	+	0	ID=MGA_517;product=DNA mismatch repair endonuclease MutL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965141.1;translation=MVKNNRNSKNLQNTRVKLLGENTASKIAAGEVIESPLSIVKELIENSLDANSSIINISIENGGINKISVIDDGDGIHPNDLELIFQRFATSKINSINDLFQLTTLGFRGEALPSISAVSKINLISKKIDSSGFEIEFFNGKKIKHKVSAISKGTNINVTNLFENIPARLKFLGTSTQESSKIKTLISDYSIIYPNVKFVLISDSVTKISTPGTGDILEAYSSIHGNEITESMLKLELDKMISGVTSNTSIARGNRSNIKFSVNQRIIKNSSLVYAVETAYSGLIEPRRFPFTFINIKIDPKLIDVNVHPAKTEIKFRDEREIFRTILDVVRTTITHQSSIPEINYKKNNSYPENFNKINSNLYDSNIKTPKSFFDKNDDFKNNKELNNNFNLTEEKISLEESKVIGVLDNTFIICTHKSGILIIDQHGAHERINFESILEDLKKKKNIGQSLLEPIIIDINESKFTKLISHRLTFKKFGLDFEELDDTSIIIRSIPSIISTSKDIYGKLIEIIEDIDSKKITDWQYWISAEIACKASVKARTKLTINECEELIKNLSNCKEIHDPHGRPVIMRLPINTIKNQFHRS;locus_tag=LOCUS_5100;gene=mutL;note=WP_010965141.1 DNA mismatch repair endonuclease MutL (Clostridium) [pid:32.5%25%2C q_cov:97.4%25%2C s_cov:99.5%25%2C Eval:5.6e-87],MGA_517
sequence06	MetaGeneAnnotator	CDS	50496	51413	.	+	0	ID=MGA_518;product=UbiA-like polyprenyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084205587.1;translation=MISSNSINKLKLSLMGIKNKIIYKIKTYSDLVKFEHSIFALPFGIAAFFLVVKNTEISYINLINIIISMISIRVFAMTINRIIDKQIDLQNPRTKNREIPLGIVSIKEAILISIISLIVFLGTLFTFHPICWALSPIVILVMIIYPYTKRFTWLCHFFLGLIYLIVPPAVSIALTGTFSIEMVLLGLGGLFWVTGFDILYGILDFQYDKTNNLKSIPVKFGLKNSILISRLLHLITLIFLLLMGINLELQLIYWIGFSIISILFIWEHSLVKVNDISKLNISFFTMNGLISIVFSIFTISETLVI;locus_tag=LOCUS_5110;note=WP_084205587.1 UbiA-like polyprenyltransferase (Thermodesulfovibrio islandicus) [pid:41.9%25%2C q_cov:93.1%25%2C s_cov:95.0%25%2C Eval:1.7e-61],MGA_518
sequence06	MetaGeneAnnotator	CDS	51419	52021	.	+	0	ID=MGA_519;product=flavin prenyltransferase UbiX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073576.1;translation=MRKFIVAISGGSGALYSLKVCESILANGDELFLVTSEPGRRVLSLETSINLSGKTEKDLKILLEKFGANYKNQIHIHHENDVGASIASGSFKTDGMVIIPCSTGTLGSIANGISRGLIERAADVVLKERRKLIIVPRETPLSLIHLKNMVKLTEAGGIVMPASPGFYHIPKSVDDLVDMVASRVLQHLEIESSIIKQWKG;locus_tag=LOCUS_5120;note=WP_011073576.1 flavin prenyltransferase UbiX (Shewanella oneidensis) [pid:44.4%25%2C q_cov:96.5%25%2C s_cov:89.5%25%2C Eval:9.6e-42],MGA_519
sequence06	MetaGeneAnnotator	CDS	52031	53788	.	+	0	ID=MGA_520;product=menaquinone biosynthesis decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009873545.1;translation=MTPNNFQSFIHLLEKEGELHRIRTEVDPYLEITEISIKAQLEDKPAILFENVKGSKFPLAINTMASAKRIELALGEDPSKTGENLVNFVDSLNPPNIKSLWSNKKWIPNLLSTFPKTKRKSEVSENFLSNPNLSDLPLLHCWPEDGGKFITLPLVVTQHPENGSYNIGMYRMHMYDSKSTGMHMQIEKGGGFHHYQAEQMGQPLELAVAIGGDPALILSAIMPLPEGIGEMQFCGMLRKSRTKLIKCKTIDLKAPAESEFILEGYLNPNERKLEGPFGDHFGHYSEAAEFPVFHINAIQHKNNPIYPATVVGKPPQEDKFMGDCTQSILGPLIKLIHPEIKSTWAYFEAGFHNLLVVSTENRYTREPFKTALGILGQGQLSLTKTIILVNSNVDVKNKSQILQEIRKNFNPQSDFLLLSKTPLDTLDFTGESMHKGSKMIIDATGYNTNTVNPVPIPKDIRTFSNQIIDWRFIGNTLLAISVKEIGRNVINNLLSNKLLENVKIIACVSEDVNIHNDVELLWGIFTRFDPASDVTFREATIKGINPSYEGTMFIDATWKKGYQKPLVMDQEIINKVESKWETYWK;locus_tag=LOCUS_5130;note=WP_009873545.1 menaquinone biosynthesis decarboxylase (Chlamydia trachomatis) [pid:39.4%25%2C q_cov:99.1%25%2C s_cov:99.5%25%2C Eval:2.0e-108],MGA_520
sequence06	MetaGeneAnnotator	CDS	53767	54873	.	+	0	ID=MGA_521;product=aminofutalosine synthase MqnE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546001.1;translation=MGNLLEMIDLSTSDTKLNEISEKIINNERLTFDDGVYLFESNDFYSLGKMANYAKNKISGNKVYFVLNRHINPTNICVLSCNFCDFAKKTGDPDAYEMTPEEILGKIDKDISEIHIVGGHHPTWKFEYYENIVKEIHQKFPHIQIKGFTAAEIDYFWRRWKIDPEESLARLKEAGLASMPGGGAEVFSPRIHKMLLPGKSNSSRWLEIHKTAHTMGIKSNCTILYGHLETYEERIDHLIQLRDLQDETDGFLAFIPLQYQIGDTHLRKNKISPIEDLKMISVSRLMLDNIPHIKSYWVTIGESTASVGLNFGADDLDGTIGEEKIMHAASASSPAGLARTKMISLISEAGKIPVERDALYNEVKTYAY;locus_tag=LOCUS_5140;gene=mqnE;note=WP_012546001.1 aminofutalosine synthase MqnE (Thermodesulfovibrio yellowstonii) [pid:52.4%25%2C q_cov:94.8%25%2C s_cov:99.4%25%2C Eval:7.1e-108],MGA_521
sequence06	MetaGeneAnnotator	CDS	54863	55624	.	+	0	ID=MGA_522;product=menaquinone biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880666.1;translation=MHTKIGRMPYLNSEIFYLNIDNNYFDLIFHTPKEMGKEINEDKIHAGPLSLVDSINCKKSIDFLPFIVSTEKKSNSVLLFSKVPYQKLDRKKISITDDTSTSVKLLEIILNKFWKIKEINFANEDERTSNAELLIGDKALKQLYINNSWPFVYDLGQIWHEMTNLQFVFARWAILSSVNKNIKNTLKENIFKSLSEKLISIEKIANNNKRNFMPIKDIKKYVSSFTYEYKSKHNDSIIEFQKLLSSNQLKINY;locus_tag=LOCUS_5150;note=WP_010880666.1 menaquinone biosynthesis protein (Aquifex aeolicus) [pid:27.6%25%2C q_cov:95.7%25%2C s_cov:93.2%25%2C Eval:5.6e-17],MGA_522
sequence06	MetaGeneAnnotator	CDS	55628	56734	.	+	0	ID=MGA_523;product=cyclic dehypoxanthinyl futalosine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880478.1;translation=MLNNIREKVLNNDRITFDEGLYLLEKVSIYDLGKLANNIRTKINPSNTVTFVIDTNLNYTNICDAFCSFCSFYRTDPKDPSAYTFSVEEMMKKIEKARDKGCTTVLMQGGLNSELPFDYYKNMVSETIRLYPEVTPHYYSAPEIMKMSEVSNKSIKQVLIELKKSGQRTIPGGGSEILSNSIKSQISRLKPKNSIDQWTKVHSIAHEVGFFTTATMMYGHIEKSNHIIETLSHIRNIQDDSKNKQGSFTAFIPWSYKREHNPLSKKVLKEAGANQYLRIIALSRIFLDNIPHIQASWFSEGYSTGQMALHYGADDFGGTLFDENVMLAAGFYNRTTVEGIKSLINDAGFNASQRTTEYEIVGEKTKVG;locus_tag=LOCUS_5160;gene=mqnC;EC_number=1.21.98.1;note=WP_010880478.1 cyclic dehypoxanthinyl futalosine synthase (Aquifex aeolicus) [pid:42.9%25%2C q_cov:97.8%25%2C s_cov:97.5%25%2C Eval:1.3e-82],MGA_523
sequence06	MetaGeneAnnotator	CDS	56727	57596	.	+	0	ID=MGA_524;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879200.1;translation=MDKYKIKSLKDFNVTFGHSPDADDAFMFYGLAKNKIPTTFKVNHLMDDIESLNKRATSGKLEVTAISAAHYPKVSNNYQIMSCGSSVGRNYGPLLVSEKKINEKKLSGLKIAIPGKFTTSYLLFQIFINQNIEPVFMHFDEVINSIKSGSTDAGILLHEGQVTFQEYGLNKILDLGERWFEKTSLPIPLGLDLVHKKFSPEHRKEITTAFYKSIKYAIENEDKALDYALSFGRGIEKNKGRKFVRMYVNNDTLNMGQEGLNALNKLFQFAKESEIIDKQPNIELCVPDN;locus_tag=LOCUS_5170;note=WP_010879200.1 ABC transporter substrate-binding protein (Archaeoglobus fulgidus) [pid:41.3%25%2C q_cov:93.8%25%2C s_cov:98.2%25%2C Eval:5.4e-62],MGA_524
sequence07	MetaGeneAnnotator	CDS	243	1766	.	-	0	ID=MGA_527;product=sulfatase-like hydrolase/transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015776786.1;translation=MTKNKPNIVFIFPDQLRADFLGCYGADFXKTPNXXXXAENGVLYEKAYXASPVCVPARTSXLTGLNPYKHGITGNWXAXXPDYKTTGIKTWADIINDQGYYTSAVGKMHFYPWDAXHGFSYRNITEDKRHLHVRDDYFKYLRSAGYRKYHGNEHDGYHENIGAIKSIVPYEYSWDHFVGKEACRFIDNYGKDGPFAMMVGFPGPHDPYDPSEDFGDIPSEDSVPEPIPIYEHDEPHVDGQIDAGRAEWAGLNFNHINRQDAKKKRKMRAHYAGLVQQIDHEVGEIIKSLEKNNLIDNTVIFFATDHGDHLGDHGLFGKGTFHEASAHIPLIVRTPDTVNNPKRSDQLVYLYDITATILTFAGAEIPSYYDSKPLPDIPGIDSSNRDILFGLQPHGWMAYDGTWKLSKYRNGVRTLFNMDDDKNEAKNLYDNPENFVLRSELEAKLSTEIMDSINFSVFDRILDNKDTNNSLSQSDDFGKEGWEWTYPASPISKFGMIVNHPTTDSDS;locus_tag=LOCUS_5180;note=WP_015776786.1 sulfatase-like hydrolase/transferase (Brachybacterium faecium) [pid:31.7%25%2C q_cov:87.4%25%2C s_cov:95.2%25%2C Eval:3.1e-54],MGA_527
sequence07	DFAST	assembly_gap	1658	1662	.	+	.	ID=GAP_1;estimated_length=known;gap_type=within scaffold;linkage_evidence=paired-ends;note=GAP_1
sequence07	MetaGeneAnnotator	CDS	1814	2137	.	-	0	ID=MGA_528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKFLDNKIILDRRFIIFLMMFFIFSCNSNXELPSPNSLDETKEEVKEIKKTNSDDSKEKEKFGYVDWWPVSTEDEKSDNYTATTSTIKEIPFPAKKFVDPESTTK;locus_tag=LOCUS_5190;note=MGA_528
sequence07	MetaGeneAnnotator	CDS	2182	4275	.	+	0	ID=MGA_529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLILSVLISCNSDTKSISENPIVTQNENILIPFRDISKEALGKDRMIENRYPGVAIFDFDRDGDMDIYVTSAETNSLIEETRGGNNKLFENLGNEKFAEISDSANVTLPESNSTAVAACDFNNDGYQDLYVASYGRIGDGLDYRSVSPKTDLFDIVKDRLLLNNKNGTFTDITSEAFGDEINIRSGISVSCGDIDNDGWIDIFVGNRADQDYIAFNNPRHHGHYNVLYKNNANLTFSDITEKAGLKGPNILMRMPHGEPIKWFDEESQRWNEGYDPNFKDINEEKVGDPTGQTLAAVFWDHDLDSDIDLWISDDGDRLKVYRNDSDLNNIKFTLITRELGIDKVGAWMGFSIGDIDSDADLDVFVTNIGFHPLTRTPPEIPGGDCAYGHIFSWGTCFHYLLRNDSTQDEKSQIFNSVFNNISDSIIITPDKYLPTEGLNIFNILEDWQIPKGLDAYEFGFGSALFDYENDGDIDLYWLGSMGGRGEGPGGLRYPGPGRMFLNLPENFEDITTESHLLDIDNVNYELVDASDENIDLESNRIGIKFHENGKGLAKGDLNNDGYIDLIATNSNGYIFKNGTGEMNGGPLFLWINGGGNNNWISLRLKGRMSIDGTGSNSDAIGSIVTIKYLNEGEEITQVKQVTSGESFISANSLDVNFGLGKSTEIDELLITWPNGNSQTFENVKVNQILEITEKTD;locus_tag=LOCUS_5200;note=WP_024768457.1 VCBS repeat-containing protein (Aquimarina macrocephali) [pid:32.8%25%2C q_cov:27.7%25%2C s_cov:15.4%25%2C Eval:3.3e-12%2C partial hit],MGA_529
sequence07	MetaGeneAnnotator	CDS	4272	5717	.	-	0	ID=MGA_530;product=sulfatase-like hydrolase/transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011108631.1;translation=MHKDKIDSYNVIFIMADQMKATASNLYSKMGVDTPNLKRIAKEGILFNNAVTPHPLCVPARTAIMTSRYPHTNGCRRNETLMPNKELHVFDIWKQNGFKTGLIGKNHCFETKKDISNFDTFIEYDHLGTNDNRTDMPWVTPQISYKITEDPIETYGSFLIAEKTLNFLEKNQDNPFALWVSFPDPHEPYEVPKKYFNEVKGTFEFPKLRSDEFSDGTAPERNVLLNKILNMNNASIEEKQNLITVYMAMVKFVDDSIGTILDKLEDLNLKRKTIIVFTADHGDFAGEHDMIVKGGVFYDCLTRVPLIISSENIISKNKMIDHPVNTIDIMPTVLELQGLNIPESFQGHLLPISDDVEPQKASFSEYGTGGKPYQLNDLKNLNQPYGYKTLIECLWAREAEGRRKMVRTENWKYVFDSMGDKDELYDLKNDPWEHYNLASKIEYLKKKNELKSLLLDWMIETEDPNPVPLPESVGPEWANQL;locus_tag=LOCUS_5210;note=WP_011108631.1 sulfatase-like hydrolase/transferase (Bacteroides thetaiotaomicron) [pid:29.9%25%2C q_cov:96.0%25%2C s_cov:92.2%25%2C Eval:1.9e-53],MGA_530
sequence07	MetaGeneAnnotator	CDS	5710	6354	.	-	0	ID=MGA_531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQNSDYNNNDSDTDNIEIIQSEDYENNNTVIPKKNNMIRRMIGAALLNVNVYEEIEADPKATFQAVLIVILASFSAGIGAFSLYSVNPSILDLTLSSFTSLIRWAFLALITYFVGSILLKTDQTDVTWGQLARTMGFAQTPAIIVSLGFFSEDIYRFITMIVTFWLIATMVIAVRQALDFKRGMSGNLRAFIVVLIASIPGLLINYYILSLNA;locus_tag=LOCUS_5220;note=MGA_531
sequence07	MetaGeneAnnotator	CDS	6382	7830	.	-	0	ID=MGA_532;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257475.1;translation=MLIPYKWKAFGAVSLSLFVMVMDQSALNVILPEIAESFSVRLSIVSWVTIIGGLTISSTLLPLGKLADIMGRRKVHIIGMGLFGIGSLICYFSSNISTLLAGRILSSIGSSMDQAVVMAIVLAVFPKNERGKGLGMITFAVGLGAIAGPLIGGQISQLIGWRFVFLIMFFPTFLALSLAYLVLKDTLIGSPESSEKERYDWKGATYSAFFIIILIINIINPLNIAYSSPIYWSLWLICISIFIIFVRSQLTNPFPMFNLYFFTKWRFSFAVAARLTGFMSNAPFWFLIPFYATIVLGYSISLTGILIFLNAVGMSFAGTIGGRLSDKFGTLKFILTGLLALTISWILLIFLPSNSPVIYIAFISLFNGASNGLWMAPNTSETLEDIDRNSQGIISAFNALIRNVGSVIGISISTTLITFILISNGLDVEINDLKTGSESEILILANAMRYAFVMLASFSILGIVLSICGRIKDNSLVKKRVI;locus_tag=LOCUS_5230;note=WP_012257475.1 MFS transporter (Chloroflexus aurantiacus) [pid:29.4%25%2C q_cov:82.4%25%2C s_cov:82.2%25%2C Eval:6.1e-44],MGA_532
sequence07	MetaGeneAnnotator	CDS	7870	8202	.	-	0	ID=MGA_533;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003082899.1;translation=MSNAKKVTDQNFNEEVIESSKPVLVDFWAEWCGPCKMIAPSLEELANDYKDSIDVAKLNVDENPTTASSFSIRSIPTLLIFKDGSPVSQIVGAVPKSAIKSKIDEVLEKA;locus_tag=LOCUS_5240;gene=trxA;note=WP_003082899.1 thioredoxin (Amycolatopsis) [pid:55.1%25%2C q_cov:97.3%25%2C s_cov:100.0%25%2C Eval:3.1e-31],MGA_533
sequence07	MetaGeneAnnotator	CDS	8204	10921	.	-	0	ID=MGA_534;product=formate dehydrogenase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048061084.1;translation=MTTEEKRKIETLTIKVDGKLIPAKPGQTVIQAAQDAGIYIPYLCYHPGMDPYGACRMCVVETEVNGRKMIQASCTTPVSNEMIVSSDSTDIRDLRKGIMDLLMSEHPHGCLTCHRIELCGPQDVCQRHVSVTDRCTTCPKNERCELKDTIRDTEMDLTTPLTYNRRQLPIHTDDPFYDRDYNLCIVCVRCVRVCDEIRFDNAITLKSRSGVAIVGTSQGTSLLESGCEFCGACIDVCPTGALVERNYKWEKAAKKTKSICSNCPVGCQLIMESNEQEKSIRMIGDYSGQSNAGQTCFRGKFGNDYVNFRNIKDPKIKQGTSQNSSNWEEVNFLISKKISDFNPSEIAILNSPRSTNEDYFVSQKFARLVLKTNNVDSTNKDQILNYFSKSLKYPGGTGTILDLENADNVIIISGNPTEQQNVLSVFAKKAARNGSNIIVIDPRETEMTRYSNKWIKNTPNSQSNLISAISKSVFDQRIEDQVFIKDHGEGLDDFKTSLWDFDLEKIKSEFGIDANLVTELAKTISSGSTSFILGVDGLNDFQSSELVKSVINLATITGNLFKKGSGVFPLYKGANIQGSLDLGHSPNLLPGFRNLENKKDVDFLNKYWDSDLSTEKGMNYEEIIQGIKDKKIKSLFVMNDAFAEDLMNKDVLDAISQLEFLVVGTSKKNSLSDLADVVIPISNFTEREGTMTNLERRVQLSPKAHNSKKDYKSVWEFYSNLAQTIGFDDFNYESAEAVFDEIKEIIKEYEKIDYKTLNDGGEKWELLKKKVSLLPVKFLSKDQLNNDRNGLLFLHGRVLSQTNQEVEIIKGNQKNIISKENIIKMHPNDVKNLNLKEGDLINIVNGSSFSIEGKLKLEQELEGTIRYTSLFGEIMTNYSESREDWAPTIPDLEFKTVSVKKINRS;locus_tag=LOCUS_5250;gene=fdhF;EC_number=1.17.1.9;note=WP_048061084.1 formate dehydrogenase subunit alpha (Methanothermobacter thermautotrophicus) [pid:27.1%25%2C q_cov:98.6%25%2C s_cov:99.5%25%2C Eval:1.2e-102],MGA_534
sequence07	MetaGeneAnnotator	CDS	10923	12626	.	-	0	ID=MGA_535;product=NADH-quinone oxidoreductase subunit NuoF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250564.1;translation=MSEIFNQLVSKIESQQSDEDILIRVGYGASGQASGSKKIFDWLKKNLKSNTDIRMVGALGLSYLEPIVDIKIKDKPRVLFSNVDIEKIQKITDEYIHNQNVLKEYAFAQISEDGEKIFNNIPELDNFSPFKYQKRIATRNFGEIDPESFEQYILTGGYKSLDKALNSLTPEDVLEEVKNSGLRGRGGAAFSTGIKWSFLAGNNSPIKYVLCNCEEGDPGAFNDKGILENDPHTLLEGLILAGYATKSSHGHIFIRQGHTIPIENARKAVKDAYENGLLGKNILGSDFNFEVEVSLTGDSYVAGEETALMEAIEGKRSMPRFRPPFPAQAGLWGKPSNINNVKTLSYVPWIIENGANEFKKIGTEKSSGTAIICLSGHINNRGMYEIPFGITLGDLLQNVGGGSSTGKQIKLLQTGGPLGGVLGKEAFDVVMDFDEMAKAGAILGSGGIIVGDQNVDVVDLIRNLVAFNQFESCGKCFPCRLGNTHMLDILDRACNEKSIKGDLDVVKKIGENMKVGSLCGHGQLGYNPISSALKFFDQEFIDKMTTHTIRDEKSKIPEMILPTRTRP;locus_tag=LOCUS_5260;gene=nuoF;note=WP_011250564.1 NADH-quinone oxidoreductase subunit NuoF (Thermococcus kodakarensis) [pid:43.3%25%2C q_cov:91.7%25%2C s_cov:86.2%25%2C Eval:8.2e-128],MGA_535
sequence07	MetaGeneAnnotator	CDS	12636	13139	.	-	0	ID=MGA_536;product=NADH-quinone oxidoreductase subunit NuoE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081672.1;translation=MNTNSKNNDLRSNIRELLNSENKKSSQDSSPPKTVTVLSCLLSVQDNFHYIPDEAIEEIADFMDKTINDVWGVASFYTNFRFSPPGSYSLDICWGPTCHISGAQEILRGIHKKLGIDSETETEDGKISLGYSTCLGACAQAPVYAVNHELIGNASVEKIMDTIKELK;locus_tag=LOCUS_5270;gene=nuoE;EC_number=1.6.5.9;note=WP_004081672.1 NADH-quinone oxidoreductase subunit NuoE (Thermotoga) [pid:34.1%25%2C q_cov:80.8%25%2C s_cov:83.9%25%2C Eval:8.8e-23],MGA_536
sequence07	MetaGeneAnnotator	CDS	13237	14013	.	-	0	ID=MGA_537;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064251678.1;translation=MTDMLGSIVLITGAGSGIGREIAKKFVDAGSKTIIIGRRSDQLEGTKQICDPKKKNNVFIKQCDITKEEDLDDLVTFIKNEFGKVDVLVNNAGASSAVRTISHVTEEMWDNVFDLNIKAVYQISQKLIPLMLENKSGTIITISSMAALNPGLLGGAPYGAAKAGVTNLMGHINSELNSQGIRATAIMPAEVDTPILKNRAIPPNQDARNTMMKPEDLADTVFLCASLPQRTVIEQIVMSPINKRDVAKDLEAAKNRTK;locus_tag=LOCUS_5280;note=WP_064251678.1 SDR family oxidoreductase (Sinorhizobium americanum) [pid:40.2%25%2C q_cov:96.5%25%2C s_cov:92.2%25%2C Eval:4.7e-51],MGA_537
sequence07	MetaGeneAnnotator	CDS	14029	15354	.	-	0	ID=MGA_538;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256439.1;translation=MISNGKNITIIGAGFTGLSSAYYLLKKGYHVEIFESAPFIGGQASTINLSGFEIERGYHHLFTGDSQIIDLINDLGLQEKLKWHQSSVGIFDGEKIFSFQSPLDLIKFNKIPFFDRLRLGFITLLLKYKKNWKSLESMTASEWIKSWAGKNVYDQIWGPLLRGKFGDYSEEIGMPWFWGKIQTRFGSRKRFNQEVLGYPNGSFKIILDTLDKKIHSLGGVIYKNTPVKKIYFNDKKEIQIKFLENNFKQKTKNTNVVLSTVPSFEMLNICDFPDEYKSKLEASKYLGASVFIMELKEKLTPFYWLNIADRNSPFLGVIEQSNLLSSEYYKNKNFLYLTNYLDRNDWRYKLEESELLNIYCDYLKKINPQFNKDWIIDYTYNKISAAQPIIGKNYGNIIPEISTPLEGVYLANTTQIYPEDRGTNYSVKMSQKVVDLIEKHF;locus_tag=LOCUS_5290;note=WP_012256439.1 NAD(P)/FAD-dependent oxidoreductase (Chloroflexus aurantiacus) [pid:33.5%25%2C q_cov:98.0%25%2C s_cov:96.6%25%2C Eval:2.9e-69],MGA_538
sequence07	MetaGeneAnnotator	CDS	15359	16123	.	-	0	ID=MGA_539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNNLLPIRTGEIARCFYLEHKLGVKKIFALGTVAIERISDVIALSLILGLTLILVYINSESLEFINYLPGNQYSFILFILLIFLASLLLIIAPFFRLKIYKIFDYFSRNSNVFIKKIFNFIKQFFDGYFSINNSSKLIKLLSISFLIWILEITMYFFIAVSVNLTLDSFFLLILTVLFFGTAANLAGIFPSTAGGWGSFDFFGVLVLISFGIDEQLSLGFVIFTHFFLWAPVTLIGMLIFLKDWIPLRKIKNI;locus_tag=LOCUS_5300;note=MGA_539
sequence07	MetaGeneAnnotator	CDS	16418	18451	.	-	0	ID=MGA_540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFRKIGLNKIELLISSLLIFLAGFLRFYDLSSRSIHHDESLHGFFSWQFSNGMGFEHNPLMHGVFWFLANGTIFFLFGDNDFTLRVLSAIFGIILVLIPILLLKDKIGFLPSFIMSLLFTISPHLLYFSRFARNDIIIVVWTMGLFVFLWRYLEKRQNSSLYMLVIFLVLGFITKETSYITVFIIGLWLLFKSRSDFYGLIFSKMSMKKIKPHTDLFIVFFTLSLPLASPLIGIFQDYFNLILVAKEGTVGVSTGLPSGSNGYIVAVIVSALFFLVSLIIGLLWGGKKWLLIASLFWGIYILFYSTFLTNVSGISTGVWQSLGYWISQQEVARGGQPWYYYFIVFINYEFLPFYSSFIALIYYIFKGDSFRKFFVYWVIATFLLYSLAGEKMPWLTVNIVVPFIVLTSIFTSDIIKKIYSEKRSLFSNIIFILIPLIILFSIFSFFITDWTNLNIESFISIWIYITLILLSCYYLIFYTYKNGISWTSKRVFLSISLILIILTIRISTQSSFDDPDVPDEMIVYTQTSPHVHAMSKRIYSESLNKLGNKNLKISIDTSDGYTWPWAWYLRDFENTEYVNFDNYDDNLNLQSDILIVHQRNKETIEIALGDNIKDYDQNLIPLRWWYPENYRMSNYDDFIDKISNFENIQNMMNYFFFRDLETSIGSVNTIVYIKSDM;locus_tag=LOCUS_5310;note=WP_015909245.1 TIGR03663 family protein (Chloroflexus aurantiacus) [pid:23.5%25%2C q_cov:91.3%25%2C s_cov:61.4%25%2C Eval:1.7e-45%2C partial hit],MGA_540
sequence07	MetaGeneAnnotator	CDS	18466	20805	.	-	0	ID=MGA_541;product=DUF2298 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_141612405.1;translation=MVLIFLKWILVLQIIGIIGFPLSYFLFKNLRSVGIGFSKPIGIIILCSSYWLISNIPVFPXGYTSLIIWSLFLLSLSLIFLFINRKEFTLIIKQNKYLFLTIEVIFFLVFFFWIFIXFLDPNIVGTEKPMDFMILNSMMNFSTFPPTDLWYSGEVISYYYFGYWIWGIISILSNIAPNYTYNLSIATVAALTSSSVFGLISMMIRENKGSTRDSIIVGIVTLFFVLFCTNFHIIWETLTLTGFLNEGFLNWLSIDGLTKRNIGDWYLNGGWWRSSRIINFFENGQSLDYTISEFPLFSFILGDLHPHLMSIPFFILSLATVYILQFLDIKNIHGYSLEAITKLFLITLIVGSLGFINGWDFPVIILIFFIFYFFIPLIRYFFTEYVFPKKFIIYLLIITLGSTLIFFSQYYLHLQTQVQFPPILPVKISSRIIHFFTIWGVFILIIMPLFLKNLXLIIKDLSNKERSYEISFYKIFIILFVLIFVIWIIINFLTYDLINFSRILHNSIIIIFLFGILMIFSRNIFEKSKSICPNPEYFFNGLIVISLILLLGVEMFRVNDFFGNRMNTIFKIYYQVWILFSFISGYIFWKVFFTSEKTFINSKTIKIFISSSLSIIFVFSSYYLLSSIHNRTNGFNNPLTLDGTNYLKVFNPLEYELIDWVKNNTEKGDVILESVGQDYTKSSLISTFSGRPTVLGWTGHEHQWRGDYSLINSRNKDVIKIYTSENLEVISNLLNKYDVKYIIIGEKEILDYQVANILILEQLGDVVFNEKGNKIIKLY;locus_tag=LOCUS_5320;note=WP_141612405.1 DUF2298 domain-containing protein (Litorilinea aerophila) [pid:23.5%25%2C q_cov:98.8%25%2C s_cov:98.0%25%2C Eval:2.5e-53],MGA_541
sequence07	MetaGeneAnnotator	CDS	20815	21624	.	-	0	ID=MGA_542;product=ribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002670498.1;translation=MDFDFLRKRVESFQKDLGFEFENTNLLITALSHPSGIRFLERHYNESNQRLEFLGDAVVGLVIAEFFYNYSSDWNEGTLTTRRSLVINGNALSRAAKKLNLHNNLIMSKEENERKGNYKKSNLXDAFEALVGAIYLDKGMNFVSRFIITSLEDQIYEALISNKIKDFKSTLQELTQSRGLGTPLYKLISRKGPSHKPIFETAAILNGVFLSLGSGYRKIDAEMRAAELAYNKIIENQDIXFGVRAKFKSRLKFILNDLQNSFIGKKPKR;locus_tag=LOCUS_5330;gene=rnc;EC_number=3.1.26.3;note=WP_002670498.1 ribonuclease III (Treponema) [pid:36.2%25%2C q_cov:86.6%25%2C s_cov:94.3%25%2C Eval:5.1e-35],MGA_542
sequence07	MetaGeneAnnotator	CDS	21731	22966	.	+	0	ID=MGA_543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINNLLTKHLSEYQVKILIKSGSVAEQLNMTLYLVGGAVRDILIGNTPNELDLVIDGDLKKFINELQKELLVKIHETSKFMTMTTTIEDIKIDIARAREENYYPKGSLPSVSISNIKKDIQRRDFTINSICVDLSNNSFGEILDQQNGLKDLMEGKIKVIHDESFLDDPTRIFRAVRFSKRLNFSIDENTEMLIKKYSEKISELSGSRIIXELKKISLEIDPFEIFEELNKKNILSVISPHLSINYKNXEIEKIHNLVXFXDPLEFWFNIMTKDKTREQLEKIISRLDLTKNIRIQLLSKCDLTNLLKDWXSEKLYKNPPISTIQKIPNKILEFEYITTDNSEYKKILSQIIENIRKIDPILNGDDLISFGVSQGKDVGIFLENIKKQRFLGLISTKEEEIRFVKSSLEN;locus_tag=LOCUS_5340;note=WP_012546426.1 CBS domain-containing protein (Thermodesulfovibrio) [pid:30.9%25%2C q_cov:98.5%25%2C s_cov:48.7%25%2C Eval:1.6e-47%2C partial hit],MGA_543
sequence07	MetaGeneAnnotator	CDS	22963	23808	.	-	0	ID=MGA_544;product=DNA-3-methyladenine glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023475.1;translation=MTKNQISGYIDTPIDLESSLCGGQSFRWMIKNKRFRGVIRNVIIEFQQKDRGICWNSYNNDDLNFINQIIAEYLDLNFDLKKFSERNLKDIAIQSSLDKYYGLRILNQDPWECLVSFICSAASNLNKITKNVQSIMKIGEKIGPEEIDYIFPSPQKILTFGELKLRNLGLGFRAPYVIDAALKIIEEKINLQSLKFSSYDISKKKLMMINGVGEKIADCVLAFSLNFSNAFPVDRWVRRSLINQYNLSEKLNNHELGDWARKRFKDDGSYVQQYLFHNIKN;locus_tag=LOCUS_5350;note=WP_011023475.1 DNA-3-methyladenine glycosylase (Methanosarcina acetivorans) [pid:32.2%25%2C q_cov:93.6%25%2C s_cov:92.9%25%2C Eval:9.5e-32],MGA_544
sequence07	MetaGeneAnnotator	CDS	23811	26621	.	-	0	ID=MGA_545;product=helicase C-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257493.1;translation=MFEKLLSKASPTGSYVALDLETSGVDKDKDRIIEIGCIKFSPLTKKTEKLSILINPKLEISDFIKELTGISQEELDRSPIFEEVSDKIKNFLVDDNGLQHSVIAHNAPFDIGFLQRNGIDVSGSVFDTYDLAFTLISDSGYSLQDLASDFNIDSGTAHRALSDAETTMNLFLILSEKLYELSYEKIIRLSKFNYVFEPPYHFAPSVLSDLFSKTVKKRKVVIKDQEQSNQNKFEKFDTSEFDISADKIFSKDGVLSNVLENYEKRSNQEQMFKHVEKAIKDKENLVIEAYPGTGKTLSYLISAAKYILESKKAGNLNPRVIVSTNSISLQNQIINKDWPIVCSLLEKMGISHEEINIKILKGRSNYLCRSKSDEFIPRNINELRVFAKSALWLSNENSGDRSHVNFKGLEKFFYRISAEGSKQCVYNYPDCFLRQAREDAQDSDILIVNHSLAITGMNSEKEYIPPHDVFIIDEGHHLEDVATSIFGFYIHELEFLGIFKDLVDENNSLNQLNALFNKNKNDYSLGSINVENIIKMLGEIKSDLILIRESAINLFESFTETLGIYLKDKFNDRTLRLKTNEELINTDLWVKLNNNISELLKKWESTRLLIQEIEGFFEGANEILLRSETSFELIEDYSSKIHMALVEKPETDVFWLETDRNFERISINGAPIRVSEKLANILFNSEGSTIITGATLGEGGSFQNFKNSIGFYEGLSVPKMSPSFDYSSSALFTVVSDITSPNNNGYIEDISKAIINISQNVKDRILVLFTSYSALNSVRKHIQEPLKEIDMRMISQGVNGPAEKIVKSLENAKEIVALGTGPMWEGVDFQKAPLKVVIVPRLPFSVPTHPIFEARSEQYIQPFIEFAVPDAVKKFQQGFGRLIRSNKDFGAFVVLDNRIISKRYGQDFVESIPGYDWLETGSNNLGQKIKSWIDQK;locus_tag=LOCUS_5360;note=WP_012257493.1 helicase C-terminal domain-containing protein (Chloroflexus aurantiacus) [pid:30.7%25%2C q_cov:96.0%25%2C s_cov:96.5%25%2C Eval:7.5e-116],MGA_545
sequence07	MetaGeneAnnotator	CDS	26747	27712	.	+	0	ID=MGA_546;product=alcohol dehydrogenase catalytic domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762093.1;translation=MKAARVYNKRKIEFLEIPQDPIVKGSSLIKVNEISICGSDIKVHFDSDLSLDKYPFSPGTPCHEVTGIIEESGDPKIPNGTRVLVIPKNDDGMKEFIVSTSDRIIPLPEWGGLDEWVMCQPIGTVYYSSKQWGNPKDKNIVILGQGAIGLGYTMIASKQNPSKIITIDPLNYRLEKSLELGATHTINPLENSLIEGINDLTKGKGADIVVDASGSKNALNQCISITKIQGLIICFGIISEKHSRINHNEFIKKNLNIKSTHLATTENPLVEIKEVVKLKKDGILDPGILKTHNLDWEDAQKAFDMYSNYEDKVIKISLKVS;locus_tag=LOCUS_5370;note=WP_011762093.1 alcohol dehydrogenase catalytic domain-containing protein (Pyrobaculum islandicum) [pid:26.9%25%2C q_cov:91.6%25%2C s_cov:90.9%25%2C Eval:1.2e-15],MGA_546
sequence07	MetaGeneAnnotator	CDS	27714	28091	.	-	0	ID=MGA_547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIISIVFGIIISSVMSLITIGHFSIAMISDRNFFQVMINKKVKSNRFLLFVFLIHLTHLICGFVLSIIFFLISGNLLQILFTIFVGFLGIIICYLFRTFWKHIIIQMILFIIGYIWIMPMLPLWI;locus_tag=LOCUS_5380;note=MGA_547
sequence07	MetaGeneAnnotator	CDS	28103	28984	.	-	0	ID=MGA_548;product=4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009894070.1;translation=MIGLIYMKEIKKHSKNSSYSLKSFAKINLTFEVLRKTENSLHEITGVFQTINLHDEMEFSSATSIKVDCNNVYIPQESNLVFIAIQKLKKIFNIKNEGVHIKISKNIPVSSGFGGGSSNAAITLMTLNKLWNLKLTRSELIEIAVELGSDVPFFIIGGTARISGVGEIVEKLPLIKTTPIMLSFFNYSGFNKTKNMYQELTENNFSNGENTDNLVKCLKNQDPVDDNIFYNVFNKIAEKSFPNINERFKDLSNITGSKSILCGAGPSIFSVIKKPDDVSEINLPFLNTYTCDK;locus_tag=LOCUS_5390;gene=ispE;EC_number=2.7.1.148;note=WP_009894070.1 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase (Clostridioides difficile) [pid:37.6%25%2C q_cov:87.7%25%2C s_cov:87.5%25%2C Eval:4.4e-35],MGA_548
sequence07	MetaGeneAnnotator	CDS	28941	29738	.	-	0	ID=MGA_549;product=16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009892086.1;translation=MVRTGTPIYGQHFLIDNEVRNKILEEAKINSYDNVIEIGPGHQALTKKIIESCSNFFAIEIDKEISKKLQELYSFNSSVKILNEDARYFDPSLLDLEDFNYKLIGNLPYYSANFIVRNFLESSVRPKELIIMVQKEVAESMSAKVGKMKLLSVATQFYGDVFKLFDVYPESFSPPPKVISSVVKIKVRENFLYNVDSSNDFFKFVKSGFNSPRKKISNSLSFGLSVPKEQIIELLKNTNVDPDSRPSLLTINDWIDLYERNKKTF;locus_tag=LOCUS_5400;gene=rsmA;EC_number=2.1.1.182;note=WP_009892086.1 16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA (Clostridioides difficile) [pid:35.2%25%2C q_cov:92.5%25%2C s_cov:86.5%25%2C Eval:1.0e-32],MGA_549
sequence07	MetaGeneAnnotator	CDS	29741	31573	.	-	0	ID=MGA_550;product=elongation factor 4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001030950.1;translation=MKKQLIRNFSIIAHIDHGKSTLADRLIDITLGSSVRGDSDQLLDTMDLEKERGITIKAQAIRLSYKSKENIVYQLNLIDTPGHVDFSYEVSRALAACEGALLLVDGTQGIQAQTLANIYLALDQGVQIIPVINKIDSKLANPQAVSLEIQNTFGFKEEEILFVSAKTGEGVKELLEVIVNDIPPPEGETNDSLQALIFDSKYDSFKGVLAYVRVVNGEIKAGSKLNLMGTNKDCDVLETGIFSPNLIKKDVLSTGEVGYIATGLKNVRDCRVGDTLTSSQNPAKNSLSGYETLKSMVFSGLYPVDGEQYPNLRDALGKLQLNDASLIFEPETSGALGFGFRCGFLGLLHMDIVQERLEREYNIELIGTAPTVKYNVELTDNSSIEVDNPSKWPENQKINQVFEPWIKLSIISPSEYIGPITELVTSNRGEFINTEWIQSNTLGSQLSGSRVLMEFDIPLSEILVDFHGKLKSCSKGYASMDYTQISSRPSDLVKLQILINEQKVDSLSVITHRTKSVFMARDLVKQLKELIPRQMFDIPLQGGIGGKIIARETIKALRKNVTAKCYGGDITRKRKLLAKQSEGKKRMKKVGSVEVPQEAFMSILKSDKQE;locus_tag=LOCUS_5410;gene=lepA;note=WP_001030950.1 elongation factor 4 (Bacillus cereus) [pid:55.6%25%2C q_cov:99.3%25%2C s_cov:98.4%25%2C Eval:2.4e-197],MGA_550
sequence07	Aragorn:1.2.38	tRNA	31583	31667	.	-	.	ID=Aragorn_5;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0050;note=Aragorn_5
sequence07	MetaGeneAnnotator	CDS	31734	33596	.	-	0	ID=MGA_551;product=asparagine synthase (glutamine-hydrolyzing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011101239.1;translation=MCGISGITTNNESLVRKMILNTSHRGPDNSGIYSDTSVTLGHCRLSIIDLSSKANQPMSNNNDSLIISYNGEIYNFLKIRADLQNKGVNFNTDSDTEVILKLYEREGLNSFKKLRGIFAFSIWDKKEDKLIISRDPLGVKPLYYFFHENNLIFSSELKAIYSVVPNLEIDEVSLNVYFNLGYITGPNTIWKGVKKLLPGHTLIFSKGNIKINKYYSNNLETEYIEKNLIRDQISEKIHNVVKDQLVGDVPVGLFLSGGIDSSLLLAIMSKYSESPVNTFSSFFDLDSDYDNKKFNSDFYIARETAKHFGSIHHEVKITELDLIENIEKVVWHMDEPASNSTLITNYILAKKASEHVKVIMSGEGGDEVFGGYHRYHSYRIIDYWQKIPKIFRDNKLIFKLFDILNQSRKINRLNYDNLLNLYLSFANNQEYIPSEFLTPELYSETSYLNFMQEFITPFLNKKSTFDSLINAEMNSWMLDDYINRADKMSMAHGVENRVPYLDLDIIDLSSKIRPDFKYSLLNRKRGKRLLVDSMKEYIPSNVLNHPKKGWVSPISKWIRKGLRDLVNETLHENYNPDLKNILNFKKINAMVDDHMSQKRYGAETIWMLLKFQLWYKTFKK;locus_tag=LOCUS_5420;gene=asnB;EC_number=6.3.5.4;note=WP_011101239.1 asparagine synthase (glutamine-hydrolyzing) (Lactiplantibacillus) [pid:29.6%25%2C q_cov:99.7%25%2C s_cov:96.5%25%2C Eval:2.7e-87],MGA_551
sequence07	MetaGeneAnnotator	CDS	33702	34580	.	+	0	ID=MGA_552;product=SMP-30/gluconolactonase/LRE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003228493.1;translation=MKKLVDEQANVGEGPLWDPNTQLLYWTDIRSGRLFKFDPSDNSNKTIHSGIFIGGFSVNSQGGLLLGTWRGVMLWESDEKYKWIHYGEFEGETLQFNDCIAGPDGSFYAGTFFDSSIEGKEKLGKLYRFFPDGKIEIVSENHGCSNGMGFSPDLNWFYHTDAAKKTIYRHHYDKKSHEVGESEVWFRYEKEGGTDGMTVDSEGFVWSAIWGGSRIIRIDPSGKIEREILVPAVQTSSLMFGGKELKDIYITTAASPQSKHDYEPDSYLGGSLFLEQQSIKGKLEFESNFSWE;locus_tag=LOCUS_5430;note=WP_003228493.1 SMP-30/gluconolactonase/LRE family protein (Bacillus) [pid:35.1%25%2C q_cov:94.5%25%2C s_cov:94.2%25%2C Eval:7.0e-41],MGA_552
sequence07	MetaGeneAnnotator	CDS	34591	35163	.	-	0	ID=MGA_553;product=sulfopyruvate decarboxylase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496438.1;translation=MSLLTRLEAIEIIMSEINDNDLVISTTGMISREVFYIKERTSNFYMIGSMGLASSFGLGIAMINKSKRVIVLDGDGSLLMSLNTLPLPKYLGISNFLHICLDNGLYQSTGSQKTISNSLDFKLITKSMGYENSYLIEGNQDELSNLIRSIPESLSFVNIKVSQDQNLEVPRVSIEPEIISSRFSEHCFEK;locus_tag=LOCUS_5440;gene=comE;EC_number=4.1.1.79;note=WP_064496438.1 sulfopyruvate decarboxylase subunit beta (Methanocaldococcus jannaschii) [pid:35.5%25%2C q_cov:94.7%25%2C s_cov:95.2%25%2C Eval:1.9e-25],MGA_553
sequence07	MetaGeneAnnotator	CDS	35160	35669	.	-	0	ID=MGA_554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPEDFVKALKERDFLYFSGVPDSTFGSLFSVLENDQDLNYVPAPKEDVAIGIASGFSISKKKSCVVMQNSGLGNIINAVTSFNGIYKIPVLIVIGWRGYGGKPNDAPEHWIMGEKTTEIIKDLELPFTSIENQDIENQDFLNKLDGLIERIYNENIPGIILINKGVIK;locus_tag=LOCUS_5450;note=WP_008767815.1 phosphonopyruvate decarboxylase (Bacteroides) [pid:34.5%25%2C q_cov:98.8%25%2C s_cov:44.7%25%2C Eval:9.4e-20%2C partial hit],frameshifted%2C insertion/deletion at around 35162,MGA_554
sequence07	MetaGeneAnnotator	CDS	35671	37359	.	-	0	ID=MGA_555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFESNILPWERLGSLKNTLNKTGFIRAIEAHSGLSGLIVESSGFDAIWESSLTDSASKGLPDASIVGNEGRLHTINEILNVTTKPMIVDGDTGGDSDNFRFLVKRLERLGVSAVIIEDKVFPKRNSFGGTDASSMEDPELFSKKIVAGRNARATDDFLIIARLESLVAGIGMNDTVLRAEKYMRAGADGIMIHSKLKNPEEIITFSKKFKVLCEKLNKRPFLISVPTTYNSIKDSELKDLGFNIVIHANHLLRASFEAMSETASKIIDSDRSKEVDDQIVSVKKVFSIVGYDKIVERENEKNELDDLNVIIPSAGDSKEFDNTSKSFLQINDFPIIQHQIESIHKAGLDKIVVITPQNNNDFKIFEKNGVNLCKTNSSKSNQLFKSLLSARESMENGFLIIFGDIIFNEELLISLINSDKDIVLGIDNSYKFHKHNQDKKLDLIITEESSETKFRSLNTNSLERITNIGKSISINEADGEFIGMGYFSKSAAQKLLKIVDELNESSNKFHEAKSFETADLTDVIQELIDRGNEVFARRTYKGWIEIHSMDDVKQAQNELKI;locus_tag=LOCUS_5460;note=WP_011202933.1 phosphoenolpyruvate mutase (Bacteroides fragilis) [pid:46.5%25%2C q_cov:51.1%25%2C s_cov:67.4%25%2C Eval:5.7e-65%2C partial hit],MGA_555
sequence07	MetaGeneAnnotator	CDS	37388	38086	.	+	0	ID=MGA_556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVYVEKIIVIHLKEFNKTIIIKLIYQMNTINKEDMNITKKTFTLIIPLIFILIIISGCSESDENANKIDKITDTEKIFTIDDLTKTGFKKNKTYKTDDLPGANSAYYGFTSKKDSNGKRVSVDYEVRFFDSHEDAKNIGVSLVEERVGKDXKLTKNDATWKEGVKEARTCGGDSGHGKGYSLVVASSTCNLAKYNDYYIYGNMILLCQGKDDLESQKNCNEILLILENPSP;locus_tag=LOCUS_5470;note=MGA_556
sequence07	MetaGeneAnnotator	CDS	38096	39379	.	-	0	ID=MGA_557;product=hydroxyacid-oxoacid transhydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013222287.1;translation=MNLIDFEKIFAMENSSIKFGKGATLDVGYEAKRLEIKKVLILTDKNIFELPVVQNVIKSLESENIDFTIYKDVKIEPTDSSFKDASRIANSDSFDGFIAVGGGSTIDTAKAANLYSTYPADFLDYVNSPIGKGKRIPGPLKPLIAIPTTSGTGSETSGGAIFDLEEINAXTGLSDRYLRPSIGIVDPNNVMTMPNMVTACSGFDVLCHGLESYTALAFSEREYSGDPFTRPAYQGSNPISDIFALKAIELVSKNIESAIKYPEDILYKENMLLASTLAGVGFGNAGVHLPHGMSYAVSGYVKEYLPEGYPDEKPIIPHGLSVIINAPAVFKFTFESNPERHLNAASLMDSDELSSNDKPGEILSSKIISLLRNLNMPNGLQELGYNHDDIPKLVEATLPQHRVTKLSPLKVGKKELEGLFSDSMSLW;locus_tag=LOCUS_5480;note=WP_013222287.1 hydroxyacid-oxoacid transhydrogenase (Amycolatopsis mediterranei) [pid:38.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-91],MGA_557
sequence07	MetaGeneAnnotator	CDS	39533	39700	.	-	0	ID=MGA_558;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINPDISRSIKNKMVAIINNINEKILIRINGILNDSIKNFTGNKNFLIKNNKGKR;locus_tag=LOCUS_5490;note=MGA_558
sequence07	MetaGeneAnnotator	CDS	39972	40232	.	+	0	ID=MGA_559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIFLSQLIINDEIRQQSKFSSILFFIQMNISSNYGIIFFSSLTLFLFYKNLSVLLLTIMIITQLSLSVFLTLGFLFFKRSIENE;locus_tag=LOCUS_5500;note=MGA_559
sequence07	MetaGeneAnnotator	CDS	40254	40415	.	-	0	ID=MGA_560;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINNDAIIGLNSSMKNSGRLSSESKVNNLCIITNIIPVKDPQIMPIVKNNNT;locus_tag=LOCUS_5510;note=MGA_560
sequence07	MetaGeneAnnotator	CDS	40640	41413	.	+	0	ID=MGA_561;product=2-succinyl-6-hydroxy-2%2C4-cyclohexadiene-1-carboxylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000150197.1;translation=MSKSELINYFQNKRNTKNPILLIHGFSSGWEEWLEVIKILGKEKTIIAVDIPGHGKSLKLEKYSLENYSEPLIDFSYKHFKEPFDVIGHSLGGLIAIFVASKLNNLVRNLVLEDPPIIEKRNNKPSIIDLLDQEAKEKINWKNLNDAEEYIKKIDPEISENKLKIRSKNKFLADIKAYDFTFLNENISTPNLLKNIKSRTLLTFGDPEFGGILSADDAKTISTLIPKCSIKKWQLTGHGIHNEHTNKYCEMIKKFIV;locus_tag=LOCUS_5520;gene=menH;EC_number=4.2.99.20;note=WP_000150197.1 2-succinyl-6-hydroxy-2%2C4-cyclohexadiene-1-carboxylate synthase (Staphylococcus) [pid:26.0%25%2C q_cov:96.5%25%2C s_cov:95.9%25%2C Eval:6.8e-10],MGA_561
sequence07	MetaGeneAnnotator	CDS	41419	41655	.	-	0	ID=MGA_562;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDESFLKKSQKHAEKLIELSPEHINAQESMIRLALVRMDFLEAKKWVDKWKQDHILLQFQDIIFLDDFLLELEIENQK;locus_tag=LOCUS_5530;note=MGA_562
sequence08	Aragorn:1.2.38	tRNA	70	145	.	-	.	ID=Aragorn_6;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0060;note=Aragorn_6
sequence08	MetaGeneAnnotator	CDS	245	1339	.	+	0	ID=MGA_563;product=arabinonate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979122.1;translation=MQITDIKFEAYRWPRTKPITNGLYTYTHAGLNAIIVETDENVQGLGLTTDLVSANIISAIVEGLKPALIGKDPFDNERHWHEMWRPKLVGRRGLTTRAIGGIDIALWDIKGKALGIPLYKLLGGFTNKVEAYVAGGYYEKGKGLKELADEMKSHLDIGARAVKMKIGGVPINEDVERVKVVREAIGKDIKLMVDANNAYRHYQAMEVARKIEEYDVFWFEEPVEPDDYEGSAIIARSTSTPIAAGENEYTRYGFRDMINARSADILQPDALVLGGITEFMKIAALAQANDLDISPHGAQEVHIHLVSAIPNGLILEFYNDTLDPMWGKSYTETININDGYVSAPDLPGLGLELNKKELEKYRVL;locus_tag=LOCUS_5540;gene=araD;EC_number=4.2.1.5;note=WP_010979122.1 arabinonate dehydratase (Sulfurisphaera tokodaii) [pid:36.5%25%2C q_cov:89.8%25%2C s_cov:89.0%25%2C Eval:7.3e-57],MGA_563
sequence08	MetaGeneAnnotator	CDS	1345	2490	.	+	0	ID=MGA_564;product=XdhC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272343.1;translation=MEEVYAAANKELKSNNDFVIASVVRTSGSTPQKPGAKLLVKLDDTSVGTLGGGCVEGDIWFASKEILKRGGVSSEKEYYLNEDIAAQDGLVCGGTMYFLIDPVRKKEEDSVLSEKIIDEVNSAYAGGEPVALGTLIKSSNPEQFPTGKKILVRNDGSILGDLGIQELNEKIISESKDIIPLGRNKYLKTDEGNEVFIEAFISPPTLIIAGGGHVGKALAPIASSAGFRIFVNDDRKEFANKERFPMAEIICNKNFETCIEELPVNTNTFIVIATRGHRFDDVALEAAARTKASYVALLGSKRKTILIFEELIKRNIPIDRLSNIKAPAGLDIGARTPEEIAISIVAEMVAFRFVGTGKPMQLDQKLIDKIKEKTLTVKEKN;locus_tag=LOCUS_5550;note=WP_041272343.1 XdhC family protein (Desulfitobacterium hafniense) [pid:33.2%25%2C q_cov:99.7%25%2C s_cov:97.5%25%2C Eval:2.2e-51],MGA_564
sequence08	MetaGeneAnnotator	CDS	2487	3107	.	+	0	ID=MGA_565;product=molybdenum cofactor cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001272856.1;translation=MTKDSPITSILLAAGISSRMGSIKALLPWENKTLIEWQIEKIQESGIQEIIVVLGSNAEKIKNKIKNLDISIVLNPDYEKGKTTTIKKGLSGVKNTESDIMLLAVDQPRHGWILKKVIDDHIKNQTLISCPINKGSKGHPIIFQNQLRKELLEIEEKTQGIRKITTKYSTSVNTIEVDSDTVNIDINTPEEYQEAIKIFSREINFE;locus_tag=LOCUS_5560;gene=mocA;EC_number=2.7.7.76;note=WP_001272856.1 molybdenum cofactor cytidylyltransferase (Enterobacteriaceae) [pid:28.1%25%2C q_cov:95.6%25%2C s_cov:99.0%25%2C Eval:1.4e-14],MGA_565
sequence08	MetaGeneAnnotator	CDS	3109	4308	.	+	0	ID=MGA_566;product=M24 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228823.1;translation=MKTELIKKAKNHLRQNKLSSWLIYNYKGSNPFFEKIIGKKIDGLTRPIWFVIKVDQEPLIITHKLDSNFVREEGLIIEEYTDRKSMMNLLKEKLPTGSKVAMEYSPNGLIPRTSFVDAGTIDMCKNELGLNIISSANIIQDIAGKWTEKQLESHLIAGEKLKEILEETFDFIGSNIHWKLTEFDIAEFIRGKFDRYELETDHGPVVAVNQNSSLPHYEPKEETSSIITRNSWLLIDLWAKTKTENSVYSDITWVAQLGDTIPDENQKIFEIVKNTRDLSFNFIKDNFKNNKLVKGFEVDQFARQHISDSGYGEFFIHRLGHSIGTDVHSVSVNLDSFETVDERNITEGIGFSIEPGIYLDNFGVRSEINVFINDQNPEITTPIQNEIITINTKSPRKNN;locus_tag=LOCUS_5570;note=WP_011228823.1 M24 family metallopeptidase (Thermus thermophilus) [pid:32.5%25%2C q_cov:95.7%25%2C s_cov:98.7%25%2C Eval:2.9e-57],MGA_566
sequence08	MetaGeneAnnotator	CDS	4308	5183	.	+	0	ID=MGA_567;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGLGESLALLSALFHASGGIFIKSIKSKISAFQITAFRFWIATPCLLLLTFFSVEISELPNIPLIPLLLIVLATIINTAGILLFTTAIMKGRVGITYTTSTSMMIFFSLLWGILLKIDTISLWAIIGSIFILTGVYLVNRTNNSNEPKIDKKIMFLPIMAALLWSVGLILTDFSLKEIEPMITATIRALIPAVGFTIWILITKKEISISNLTFKDKSFMGASSLLGLGSSLSFIFALSLTRPSITVILNSVSPIFAVLLSFIFLKEKLSLHQIIGVLISISGTMVIVIMI;locus_tag=LOCUS_5580;note=WP_011948814.1 DMT family transporter (Clostridium botulinum) [pid:29.5%25%2C q_cov:47.4%25%2C s_cov:46.8%25%2C Eval:9.2e-09%2C partial hit],MGA_567
sequence08	MetaGeneAnnotator	CDS	5180	6118	.	-	0	ID=MGA_568;product=ornithine cyclodeaminase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156015424.1;translation=MAKFLTEENVNQLLEMDDALGSLEEIFLASSKGGIINLPRERINIEGSSFNFMAASWEEKGIVGYKSYVAGSKGLSFHVLIYSLEDNQLLTMIEANRLGQLRTGAASGIATKYLSTNDSIDLGVYGSGFQAETQIEAISRVKNIKSCIVYSRNSDNREKFCEKMTEKLGFSLEPTDDPKESAIDKDVIVTVTNSPEPVLMGDWISSGTHINAAGSNIASKKEIDLEVVEKSDLIVVDDLNQAKTECGDLIQAGVGFDWSNVVLLEDIVSGKIKRSNENISLFESQGIALEDIAIGFKLLQKANNENIGTELS;locus_tag=LOCUS_5590;note=WP_156015424.1 ornithine cyclodeaminase family protein (Sulfurisphaera ohwakuensis) [pid:32.2%25%2C q_cov:99.7%25%2C s_cov:97.1%25%2C Eval:1.4e-37],MGA_568
sequence08	MetaGeneAnnotator	CDS	6212	7090	.	+	0	ID=MGA_569;product=SMP-30/gluconolactonase/LRE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164921881.1;translation=MWNFEEILPENGDLTEGPAWTGKSLLITDGKSDRILEIDPKSKKSSVWFHGTQGVNGLNFNSKGELFGCEQRGRRIVQYLENNEKKTIAERLDGRKINHPNDLAIDPSGNIWFSDQISTIDELPQLDHASILKATPQQDGSYNCERMTFDTTSPNGLLFSEDYKTLYVAQSTFNGFERRQLRAYPVLENGKLGEYKLLHDFGPHRGIDGMTLDSEGNIIATCGWEISGPGGMICVFSPKGRIIESHSVPCKRPSNCTFGGENLDILYVTTLEGHLFMVKNTGRQGYLLYPEK;locus_tag=LOCUS_5600;note=WP_164921881.1 SMP-30/gluconolactonase/LRE family protein (Rhodopirellula baltica) [pid:31.7%25%2C q_cov:97.9%25%2C s_cov:82.5%25%2C Eval:2.3e-28],MGA_569
sequence08	MetaGeneAnnotator	CDS	7106	7981	.	+	0	ID=MGA_570;product=SMP-30/gluconolactonase/LRE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164921881.1;translation=MNEWNWELIVKQESLTEGPAWNGSELLYSQCPASLTWSWNPNNNKNTVWREETNGSNGMLFDQEGNLYACEGEGRRLVQYSKGKETVIITDNFEGKKYNEPNDLAIYPDGRNIWFSDPNYGGRKPFLEHESVYLAQKTSNDSWNISRATFDTTRPNGVLLSKDTKTLYVAESPYGNDVRRQFRAYPINEDYSLGDHTVLHDFGDGRGIDGMCLDTEGNILATAGHHEGGPGPMIYHFNTSGRVLRTFEAPADKPTNCSFGGENLDILFITFVGGEVYQVKNTGLKGHLLFP;locus_tag=LOCUS_5610;note=WP_164921881.1 SMP-30/gluconolactonase/LRE family protein (Rhodopirellula baltica) [pid:32.6%25%2C q_cov:97.6%25%2C s_cov:82.3%25%2C Eval:8.0e-37],MGA_570
sequence08	MetaGeneAnnotator	CDS	7978	8940	.	-	0	ID=MGA_571;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000670421.1;translation=MKKIIMLLIFSLLIISCQENSETKLALDWYPNSNHGGVYTALEKKYFEDEGLLVDVYIPSDPSTILQTVGAGQDDFGISYQPDLLLARSQGIPVVSIASIVQIPLNSIMSLSSSNISNPSDLKGKTIGYPGIPLNIGILESILDSEGLTISDVELLDVGFDLVPALLSGTVDAVIGAYWTHESILIEMEGQGVSIMKLEDWGVPLYYELILITNEKMIEDNKSLVENFVKAFINGYQDSINHPDDSLDYLIKANPEMNSELEDKGLDLLIPIWSASKPKFGSQEKSVWDGFAQWMIDKNLIDKNLDISKAYDPTFVENLD;locus_tag=LOCUS_5620;note=WP_000670421.1 ABC transporter substrate-binding protein (Bacillus) [pid:33.7%25%2C q_cov:95.6%25%2C s_cov:97.0%25%2C Eval:1.5e-50],MGA_571
sequence08	MetaGeneAnnotator	CDS	8961	9746	.	-	0	ID=MGA_572;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005482930.1;translation=MFQIIFKTVKKYFEYGKFLSIISPLILIFLLLIIWQIGILIFDTPNWMLPSPVAIFQEIIDSKNILFKHSLVTLNESFWGLLLAIILGVIFGIIIFSFKTAERSVYPLIIASQTIPIIAIAPLLLIWVGPGILSKIIVVVLISFFPVVVNLIDGFKNADKDYEKMLKTFNASKIQILLKIHFPFALPYLLSGIKIASVSSIIGAVIGEWVGSTEGLGWLIKVSSPQFLTERMFASIVILSFMAIILFSLSWLLEKFLLRNY;locus_tag=LOCUS_5630;note=WP_005482930.1 ABC transporter permease (Vibrio parahaemolyticus) [pid:37.7%25%2C q_cov:85.1%25%2C s_cov:83.8%25%2C Eval:4.2e-39],MGA_572
sequence08	MetaGeneAnnotator	CDS	9727	10503	.	-	0	ID=MGA_573;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011086102.1;translation=MDKLLEVKSLGKSFKSKNVEKTIFSNINFHLFDQEIISIIGPSGCGKSTILNIISGVESDFQGEVIIKGQNSSLKNQSEVSYMQQKDLLLPWRNVLENSILGLEINKLNKNKSRENALRLLPEFGLEGSENMFPRHLSGGMRQRVSFLRSILLERPIMLLDEPFSALDSITRSKMHEWVSSILMINKKSVVLVTHDIYEAVLLSDRVLIMGGSPINICMEFEININRPRFKSPNNQKIFSKYEKDISDELLKHVPNNI;locus_tag=LOCUS_5640;note=WP_011086102.1 ABC transporter ATP-binding protein (Bradyrhizobium diazoefficiens) [pid:41.7%25%2C q_cov:87.6%25%2C s_cov:78.0%25%2C Eval:5.2e-50],MGA_573
sequence08	MetaGeneAnnotator	CDS	10737	11579	.	+	0	ID=MGA_574;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYTESQKKIEQNFISELNQDNEKFIHVPLMILKLESMEHEVDIIETLGKISNIVKEIKDLSSSFDTFYDIIQITNNFLFDVVKIQGNPYDYYHPNNSFLNKVLETKAGNPVSISIIYQEICRQLGFDLTGIGIPGHYLLKYGHGESLIFLDPYNKGVLLTKKEVLQITNKKNKQSNTNIKVAEDSIKEYGPRKTILRVLNNLKYSYSSIKNFEKSLLISNMILKIQPNNIENLVHMVSLHKELNNESDALELLDNFIEKSPEDSPITINLLNIRKKLFN;locus_tag=LOCUS_5650;note=WP_004522631.1 tetratricopeptide repeat protein (Burkholderia pseudomallei) [pid:25.9%25%2C q_cov:71.4%25%2C s_cov:71.4%25%2C Eval:1.0e-17%2C partial hit],MGA_574
sequence08	MetaGeneAnnotator	CDS	11743	12444	.	+	0	ID=MGA_575;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIYKTIVLLIVNLFLLLFLGCQNNQEIDANPQTVLNDSTNRMNDWESFRFRLEHEKGTTTISNGMELRIIEGEVILPRRVKLTGKATVGGQFIALDIILIDEQSYMTNPLTGIWNHIDPEDSPFGNFDVREVIANILKMMENPEFITPPKNEEDLKVKGNVISTVFEPLVGSVDANLNAEVHLEINFMNMDVKSAKIIGRINPLDPQEVIRVIKIWDVDGDIEVNPPIDPLK;locus_tag=LOCUS_5660;note=MGA_575
sequence08	MetaGeneAnnotator	CDS	12450	13925	.	+	0	ID=MGA_576;product=MDR family MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000229620.1;translation=MKKTFESIKPFLLFLPFCAGVFLGADDQTKVVTILPEIMIDFEIPIHELGKASWLVTAYLIGYTAIMPFIGRVSDKYGYRTTFLVALIIFMIGSAATAISPELSRIGGGSPSMGWIIGTRVLQSLGGGALIPISIAAAGYIIPRNKHAIAYGLIGASAEAGGVIGPLFGGAVTEFLNWRWAFWLNIPLTLITIIFLFKCHKGNKYPVKLDFLGAIIFASFLAFLTAGLSQIGENNNMAIMLIIISIISLILTIVRHRTTEYSIIPRNLLSKPGFSASNITHLFIGAALIIAMVTVPVMAQTLFSESPLEGGLKLLRLTIALSIGAFLGGILTQRFGTRIPIIIGLIMTTIGFFLMSTWGIDPIIKDPWVSIHLSITGFGFGLCIAPIMEAALDKIRSSERGSASSILTVSRMMGQTFGLAILTAWGTSRFAKLTKDMPEFSLDPFGQQEFTEAALAAGEKVFQGFFLAGAIVSIIGIIPAIMMSKSKRKMN;locus_tag=LOCUS_5670;note=WP_000229620.1 MDR family MFS transporter (Bacillus cereus) [pid:29.4%25%2C q_cov:81.9%25%2C s_cov:76.7%25%2C Eval:3.6e-44],MGA_576
sequence08	MetaGeneAnnotator	CDS	13928	15520	.	-	0	ID=MGA_577;product=FAD-dependent thymidylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256261.1;translation=MFYQEEFSKEEQVILDKYFSNIDKPVFALINLPEVVKGALFARYSRSPKSLRRLFLDEFLLHIEKKESNGKEESLLDVSRAEKLYDRVFNEYGDDSVAQLGGAHIACEQSSNILTKILEWSRLASYLEQSTRYIFYDQKLGDRYRYTIPSEILNSPDEAVYLNGMEELFGIYKKSLGELIPYFQKLFPKKSSDSNFVYNSTIRAQACDVARGVLPASTISNVGIFATGQSYELMIMRMRIHPLQEVRDCAEMMLTELRKIIPSFLKRVDVPERGLKWSSYFEDNYKNMKNISNNIQSSDKKIMDVELIDWDEDAELKVAAASLYPYTSYSENSILEFLKKMSKEEIENILRNYVGKRENRRHKPGRGMERVFYKFDIKSDFASFRDLQRHRLMTIDWQLLNPNLGFEIPKEIIETNLKSDWNKAEKISDQLFSLLSSYGPEVAQYPVLFGHNIRYTIQLNARAAFHLLELRTTRQGHPNYRVVCQEMHKLIKEKAGHRVIADLMNFVDHNDYNLARLESSRNTDKKRNQK;locus_tag=LOCUS_5680;EC_number=2.1.1.148;note=WP_012256261.1 FAD-dependent thymidylate synthase (Chloroflexus aurantiacus) [pid:40.2%25%2C q_cov:99.1%25%2C s_cov:98.3%25%2C Eval:2.6e-104],MGA_577
sequence08	MetaGeneAnnotator	CDS	15573	16787	.	-	0	ID=MGA_578;product=pyruvate dehydrogenase complex dihydrolipoamide acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963512.1;translation=MITEVTMPSMGADMTEGTIVKWLKKEDEKIEKGDKIAEIETDKTVVEMEAYGDGYLRKIIIPEGEKVPVGTVIAFMGALDDEIPEIKDESPSKSETLSESTSKSSSLQDSSLNSNPKISNSTGRVKASPIAKKLAEELGVDLSSISGSGPGGRITKEDVEAAGSGSGSGNNEVESSVQGNLTPLSSMRKTIASVTVRSKTEAPHFYITSSVNMTNTLEKRKEFNDKSDVHVSVNDLIIFSSVNALKKFPKFNSSFQNDSLNVYSQINIGIAMALEAGLIVPALIDCQNKSLGEISSSAKDLVNRAKGNGGSLSQEENTSGTFSISNLGMFDVENFTAIIVPPQAAILATGKVVPTPVVNESEIVVSQQMKATLSVDHRVADGAEAALFLGEIKNFLENPDNLFS;locus_tag=LOCUS_5690;note=WP_011963512.1 pyruvate dehydrogenase complex dihydrolipoamide acetyltransferase (Flavobacterium psychrophilum) [pid:37.0%25%2C q_cov:98.5%25%2C s_cov:76.9%25%2C Eval:1.9e-69],MGA_578
sequence08	MetaGeneAnnotator	CDS	16820	17797	.	-	0	ID=MGA_579;product=pyruvate dehydrogenase complex E1 component subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000279894.1;translation=MTLMTIRQSIQKGLREALQNDPSVFLMGEDIGEYGGAYAITSGFLEEFGPERIKDTPISEATFIGAGIGAASVGLKPIVELMSMSFSLVAFDQIVNMAANLRYMSGGQISVPLIIRAPTGAGMQLGATHSQSFETWLSEVPGLKVITFSNPIDALGLLRSAVKDLNPIIIAEPAGLYGVQGDVPDKYYEIPIGSASVVKEGKDVTFVSYGHGIPILLDTQEELTKINIDAEIIDLRTLNPLDMLTINNSIEKTGRVVLLDTSRKLGGIMPEIVSRIQEQSVDFLDGPIVRVGSENTPWPYNRNLEESSLPNVNNVIESFREGYKI;locus_tag=LOCUS_5700;EC_number=1.2.4.1;note=WP_000279894.1 pyruvate dehydrogenase complex E1 component subunit beta (Leptospira) [pid:45.8%25%2C q_cov:98.8%25%2C s_cov:99.1%25%2C Eval:7.9e-84],MGA_579
sequence08	MetaGeneAnnotator	CDS	17802	18773	.	-	0	ID=MGA_580;product=pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943082.1;translation=MSKDNLSKKELLKLQEKMILIREFEEACGENYAKGFIRGFLHLYIGEEAIAVGAISSLEKEDYVVTHYRDHGHALARGLSTESVMAELFGKSTGVSKGKGGSMHLFDVEKNFMGGHAIVGAQLPLALGIALACKYKKENNVVLVFFGDGAVSQGTFHETLNLASLWELPVLFFLENNLYGMGSHVENTRAEGRDIYSSADAYGIQAEIVDGMNVLEVLDITKKSLESIRNNSKPILIEAKTFRFSGHSMADPAKYRSKDELNYWLKKDPIKSFEKYLIGENICTKDELKKIKEKAINEIEKAVDFSIKSPEPSLEELKKDIYA;locus_tag=LOCUS_5710;gene=pdhA;note=WP_010943082.1 pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha (Geobacter sulfurreducens) [pid:53.3%25%2C q_cov:98.1%25%2C s_cov:97.2%25%2C Eval:2.3e-91],MGA_580
sequence08	MetaGeneAnnotator	CDS	18817	19683	.	-	0	ID=MGA_581;product=bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008767914.1;translation=MKIIDGKNISNKIIENIQKKVELKLKSGFRAPKLAIILIGENYASETYVSAKIRTCEKVGISTQLFRFDSNVKSSEVTGKIEELNYHPDYDGILVQLPLPSHLHQREILDIINPLKDVDGLTSLNTGFLALNRPKFIPATPLGIQKLLIESKVGIEGKHIVICGRSNIVGRPLSNLFSNDQVHSNATVTLCHSKTNNLINHTKNADILIVAVGNPEFINESMVKEGSIVIDVGINRVKDFSNKKGYRIAGDVNFDSVINKVSMITPVPGGVGPMTIAMLLENVLKSSS;locus_tag=LOCUS_5720;gene=folD;note=WP_008767914.1 bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD (Bacteroides) [pid:45.8%25%2C q_cov:98.6%25%2C s_cov:96.9%25%2C Eval:1.3e-71],MGA_581
sequence08	MetaGeneAnnotator	CDS	19773	20141	.	+	0	ID=MGA_582;product=holo-ACP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393656.1;translation=MINVGIDIIEIERIQNVKIRYPKRFLKKIFTQNEINYCRDRSPQLAARFAAKEAMMKALGTGIRGVGWKDVEVIRNRGQAPQIKLSGRGKKVGESIGLKNTSLSISHSKDYAVACVTIETSK;locus_tag=LOCUS_5730;EC_number=2.7.8.7;note=WP_011393656.1 holo-ACP synthase (Moorella thermoacetica) [pid:41.9%25%2C q_cov:99.2%25%2C s_cov:96.1%25%2C Eval:1.7e-21],MGA_582
sequence08	MetaGeneAnnotator	CDS	20159	21703	.	+	0	ID=MGA_583;product=NAD(P)H-hydrate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164924808.1;translation=MNRVVTSKEMKLIEDQIFLSGITSEELIEKAARSISDFIENKIKDLSNKSILILAGSGNNGLDGITTAKNLNNKLKKTEIWVFSKSKKITKNLNIIKKNNLKFRIIDSLDEKKLLKLKEFDLILDSIIGIGANFPLRKDTIDLLDNIGRSINHKKQIVISIDNPSNLDSDKGNVLTKYFKSDFTLMIGYPKLGCHIAFQPEIVGNLITLDIGIDEKTINWKFPKRHLLDKKWAKKILPKRPLNSHKGTSGSTLIIGGSINYPGAAFFTGSSATKTGVGLVGLMIPNSIYHIIAKKLPDAIFFPIEEFKEQVPLKFLSKFTSIVIGPGMGLEENTRKFTLYTLKKLSDNDFKSKKIILDADALNQISSEKKWWDKVPGECILTPHFGEMSRLTKISIQEIQKNKVEITQEFSSIWNQIIVLKGSNTIISHPNGNLLISPWSNSGLSKAGSGDLLTGIISGLSAHTQLNSFDSASLGVYLHGLSGYLATNNKGVYGMTSTDILEKIPEAFTEILLN;locus_tag=LOCUS_5740;note=WP_164924808.1 NAD(P)H-hydrate dehydratase (Thermodesulfovibrio yellowstonii) [pid:32.4%25%2C q_cov:99.0%25%2C s_cov:98.2%25%2C Eval:1.2e-66],MGA_583
sequence08	MetaGeneAnnotator	CDS	21706	22488	.	+	0	ID=MGA_584;product=type III pantothenate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003359441.1;translation=MLMTIDIGNTNISMGIFQNDSLIIKRSLRTNLKSSQIEYQDKIFDFLKKDLQNYKDINGVIIGSVVPSITNHIKISIQKITNLNVHVMNSETKTNLEILYEIPSDVGSDRICDAVAAKTLYSNNKIIVDFGTATVFDAITESGKYLGGAISPGIEVASEALYINTSLLHRIEVSPTKNIIGRNTNDSLQSGLFWGYLYLVEGMIKSFKKELEEYTNNNKIFVIATGGLAPLMSSYTDYFDKVDQDLTLKGLNFIYNLNLR;locus_tag=LOCUS_5750;EC_number=2.7.1.33;note=WP_003359441.1 type III pantothenate kinase (Clostridium) [pid:39.9%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:1.5e-49],MGA_584
sequence08	MetaGeneAnnotator	CDS	22498	23712	.	+	0	ID=MGA_585;product=bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861611.1;translation=MKKIKRNPLEGKNITVGVTGSIAAYKSADLVSKLVQVGANVSVIMSKNAENFVGKNTFEALSHNPVITNYFENFSDMNIDHVHLAKNSDLIIIAPITANSIAKISHGITDDPITGTISASKSPVILAPAMDAGMYENNVSKNLKSLDKNRFCILEPQIGRLASGITGKGRMVDPNFILENAMLLMSKTGDLKTRKIIISAGGTREFIDPVRYIGNKSSGKMGYAIATAARDRGANVSLFSAKNISLPVPLGVINHYIETSSDLEKTILPNAESSDIIFMAAAVCDFKPKNIEINKIKKNPKENNFNIELEKTSDIIKQLKNKNITKIAFAAETENIIENAKIKLKEKNLDMIIANDVSREDIGFNSDNNQVTLIQKNGSITELPVMPKTELAHILLDETISLIS;locus_tag=LOCUS_5760;gene=coaBC;EC_number=4.1.1.36%3B 6.3.2.5;note=WP_011861611.1 bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC (Clostridioides difficile) [pid:43.2%25%2C q_cov:97.8%25%2C s_cov:99.2%25%2C Eval:5.6e-85],MGA_585
sequence08	MetaGeneAnnotator	CDS	23734	23991	.	+	0	ID=MGA_586;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIWKKKKNGLDLVVIEDGNTMILGGVRSTKRGVEAMAKARGYDQGRSIKGLTSLEEGKKFVEDFKPWIEFCGEDLQLESEILE;locus_tag=LOCUS_5770;note=MGA_586
sequence08	MetaGeneAnnotator	CDS	23993	26602	.	-	0	ID=MGA_587;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013224259.1;translation=MTKKFLNIKMDDFPKNHDFSSSEETIINKWESSGIFKWDSKTSKKEIFSVDTPPPTASGYLHMGHIFSYTHQDFIVRFQRMIGKNIFYPMGWDDNGLPTERRVQDYFNVRCDPSQTSIKNIIEVVKIRDKKSAPLKVSRNNFIELCHLVTQEDEKIFKDVFTKIALSVDWTQEYSTIGELPRKLAQKSFLDLFNKGHIYNTDFPVMWDPGFQTAVAQAEVEDREVEGAFHDIKFSIPEIDKEFTISTTRPELLPACVGITAHPDDKRYKSFFGKKAITPLFGVSVPIFASDLVDPEKGTGILMVCTFGDQVDVQWWKENNLDLRQLLDFYGRFKEIEFGEKEWESSNSEKANSIYKLLIGRTVKQGREIVVENLKNPNNFEDSKIALVGDLKNITHSVRFYERSKVPLEYLNTRQWFVRLMDKKSDLIQKGKEISWHPEFMRKRYENWTENLQADWCISRQRFFGVPFPVWYTLDSDCNPDYENPIIASWEDLPVDPMEDTPKGYEPEQRGKPNGFIGESDVFDTWFTSSLSPQIAAHWDESEDKMHQIFPNNIRPQSHEIIRTWAFYTIVKSLLHHDSIPWKNVVISGWILDPDRKKMSKSKGNVVTPSDLIQEYGTDPVRYWAASARLGTDTAFDEQVFKIGKRLSTKIYNASKFVLSQDALEGEVKNPLDLSFLANLIEHVDICSNNYNKFNFAESMMVAEKFFWNMFTDNYLELVKNRARQNEDLEQQTSSVATLRLTLNVMLRLFAPVLPIITDEVWSWVFAKETGIDSIHSSTWPTKEEILNYSFKEEEKKLFLTTCDAIRAIRRSKTQNGFRLGAEVKSISLVGTEKDIKLLELAKNDIVTAARCEILNLELGKEIEARIID;locus_tag=LOCUS_5780;gene=valS;EC_number=6.1.1.9;note=WP_013224259.1 valine--tRNA ligase (Amycolatopsis mediterranei) [pid:46.1%25%2C q_cov:94.4%25%2C s_cov:94.6%25%2C Eval:4.0e-212],MGA_587
sequence08	MetaGeneAnnotator	CDS	26616	27377	.	-	0	ID=MGA_588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDIFEEFLKNDRKIYHDEFLKENYSTDSYFELVEKSLKDGLDWREVVLGTIKIWKIPEEKFGNQKLIYLISGEAFNWIRLATRIISSFNIQPPREQINDFLFKGFLPFGFSENKFKSKIGDVKFRGWQNYFYGVIVEESVIELSKLKFMKKVFSSGIDISEKILDEIYKEIYGDIFEVLWEKFNFYDQKGNRNKKYYLPKTTGQSQIDEFTYWLFKNRLMNSTPEVFASRVNEALKYLDNVKMNNMMRISIN;locus_tag=LOCUS_5790;note=MGA_588
sequence08	MetaGeneAnnotator	CDS	27386	30031	.	-	0	ID=MGA_589;product=preprotein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545108.1;translation=MVEILSKIFGDPNKKIIRNLSSIVSEINDLEKVFESFSSQDDFINKTEELKNRVLNGETLDDILIEAYALVREVSKRILGQRHFDVQLIGGIVLHQGKIAEMKTGEGKTLVATLPSYLNALSGHGVHVVTVNDYLSKRDASWMGPIHRFLGLKVGCLQQEKSFILPEIPGENFDGDFEKLIEVERNIAYSCDILYGTNNEFGFDYLRDNMVDSKSRIVQKEHAFAIVDEVDNILIDGARTPLIISGPVKDRGQDYKKFAHLARTLHVDEDFTSDEKNRSINLTEDGINKIEKTLNISNLYDQENFGVTHFIENAIKANIHYIKDREYVINDGQVVLVDEFTGRLMQGRRYSDGLHQAIEAKENLKIQRESATYATITLQNYFRIYSKLSGMTGTASTEAEEFDKIYSLDVVQIPTNQPNIREDVPDLIFNSEKSKFNALVKKIRDLQKLGQPVLVGTTSIEKSELLSNLLRKNNVNHQVLNAKQHEKEALIIADAGKEGTVTVATNMAGRGTDIILGGSKSVGEKEWEIHNQKILNLGGLVILGSERHESRRIDNQLRGRAGRQGDPGGTQFYISAEDDLMKRFGGDRIQSIMNMVGLDEETPIENKLLTRAVEGAQSKVEGFHFEIRKTLVDYDDVINTQREIIYQLRKQAFSDELLQEKILDIIHNEVEDLVTGFSLNDRNKEDIDLFSQEFSKIIPSSKSHLEDIENITGDSSILSEKLHEIIDNQFVLLKENLQLDQFNGWLRFVLLRSIDSQWVEHLTIMDNMRQGIGLQAAGQRDPLVQYKTIGFQMFEDLMFRINRDISRTIFNVGVNFESNNSTKNSNDSLRTSKGSMMDNVNSGHGEKRIIGKKIGRNDPCPCGSGKKYKKCSETETCGAKV;locus_tag=LOCUS_5800;gene=secA;note=WP_012545108.1 preprotein translocase subunit SecA (Thermodesulfovibrio yellowstonii) [pid:49.8%25%2C q_cov:98.9%25%2C s_cov:99.4%25%2C Eval:1.8e-244],MGA_589
sequence08	MetaGeneAnnotator	CDS	30045	30995	.	-	0	ID=MGA_590;product=ribose-phosphate pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259441.1;translation=MQGRFGNLKIFSGNANKLLTEKICEYLHEKPGKIEVFKFRNDNSFVRILENVREHDVFLVQPTSGDVNDSIMELLIMIDAARRASAARVTAVMPYYGYGRTDKKDQPRVPITARLIADLISTAGADRVITVDLHAAQIQGFFNIPVDELTAVQMFADYFLTKSFENIVVIATDVGISKDARDFAERLKAPLAIVEKRRVGNDDNVQTLNIIGDVKDKIAITFDDEIDTGGSLIQALAALEDQGAKEVYSCATHAVFSNGALERLSAHSILKELIVTDTITQKTSSGKLKVLSIAPLLGEAISRIQTGRSVGALFKK;locus_tag=LOCUS_5810;note=WP_012259441.1 ribose-phosphate pyrophosphokinase (Chloroflexus aurantiacus) [pid:50.5%25%2C q_cov:99.7%25%2C s_cov:97.6%25%2C Eval:3.4e-84],MGA_590
sequence08	MetaGeneAnnotator	CDS	31177	32502	.	+	0	ID=MGA_591;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002208584.1;translation=MKQISNILLKPIITEFNKGSNSLLNLSSYVFGISGTLVTLGAIILPYKVLDILNASPVTILGMNLGKNGLLGLISLITGLTASLIQPLAGFFSDKNIKSGYGKRLPFLVVGGIGVSFFSLFLVPVQSVLGLMIIFMIINVFGNLGEGPANALIKDHIESKSFGSASGIFNFSRVLGAAIVLLITLQFMKNYSGPEDSQWFWASIILISIIMSLSTLWSFFSLKPQKINQIPQKINQKKHIEKKWSKNQRKRFIWFIIAFSISVTSLSSLQTFAIYFVSDVVIQSNPAQTTTYIILVLCLTIGIIVIPAGYISDKIGKKPLLILASISGIFGPSLMIPFHTVIPVLIGCALIGISVGLIISLFWAIANDLIPKDFAGRTLGFTAIAFLIGSGLARSSGFLVDWLNIQNHNWGYYFLLLLSSFSFFISPLIVLKNSVEEDQNF;locus_tag=LOCUS_5820;note=WP_002208584.1 MFS transporter (Yersinia pseudotuberculosis complex) [pid:24.5%25%2C q_cov:76.0%25%2C s_cov:79.0%25%2C Eval:6.5e-13],MGA_591
sequence08	MetaGeneAnnotator	CDS	32538	33443	.	+	0	ID=MGA_592;product=4-hydroxy-3-methylbut-2-enyl diphosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003112824.1;translation=MKVILSNPRGFCAGVVRAIDIVELTLEKYGAPVYVKHEIVHNAKVVEEVERKGAITVENVEEIPNNSVVIFSAHGSDPKDFIKAQEKELKIIDATCPLVTKVHNEAKKYSQSGKKIILVGHRGHQEVKGTMGQTASMTLIDEREKWTLDNLKPDEEVAVLTQTTLSVEDTSKAVKQIKRKFPKALVRNDICYATTNRQDAVKELALKSDLVLVIGSQNSSNCKRLQEVSESFGTPSFLIMEPNEILPEWIEGKKVVGITSGASTPEGMVQKVVQYLNPSKLSSIDGNPEDITFKLPKELQK;locus_tag=LOCUS_5830;gene=ispH;EC_number=1.17.7.4;note=WP_003112824.1 4-hydroxy-3-methylbut-2-enyl diphosphate reductase (Pseudomonas) [pid:48.9%25%2C q_cov:99.7%25%2C s_cov:98.7%25%2C Eval:5.7e-78],MGA_592
sequence08	MetaGeneAnnotator	CDS	33451	34134	.	-	0	ID=MGA_593;product=2%2C3-diphosphoglycerate-dependent phosphoglycerate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003566791.1;translation=MAKIILVRHGQSIWNLENKFTGWVDVDLSKYGEIEALNAGKSISQLDIKFDIAYTSILLRAVRTLEVILNQIHQEKLVVFKDWRLNERHYGNLQGLNKEDTSRRFGKEQVFEWRRSYSLRPPEINETDFNSMRKNSLFKNIPHEKLPRSESLKDTIERMTPFIENVFLKDVSLDKNLIISAHGNSLRALIKFIENISDKDILKLEIPTGKPILMKFKNGLYLSRKYL;locus_tag=LOCUS_5840;EC_number=5.4.2.11;note=WP_003566791.1 2%2C3-diphosphoglycerate-dependent phosphoglycerate mutase (Lacticaseibacillus) [pid:50.7%25%2C q_cov:99.1%25%2C s_cov:98.3%25%2C Eval:6.9e-61],MGA_593
sequence08	MetaGeneAnnotator	CDS	34136	34924	.	-	0	ID=MGA_594;product=glucose 1-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003894390.1;translation=MIEKEKNQRVKNKVALVTGGSAGIGAATVRMLLEHGSSVFIGDINVEEGNQLAADLKHLGFVQFLKLDVGNENNWENVINQIMKTKKRLDILVNNAGVSTWETRKQVLETSLDAWELSMKVNSTGVFLGTRAVLPVMKNQKSGSIVNISSIFGIAGSKGGASYHASKGAVRSFTKASAIQYAEYGIRVNSIHPGFTDTSMTEDLHGSTHERTDEGSRREEITPLGRIGKPEDIAYGVLYLGSDESNWVTGSELVIDGGVLAQ;locus_tag=LOCUS_5850;EC_number=1.1.1.47;note=WP_003894390.1 glucose 1-dehydrogenase (Mycolicibacterium smegmatis) [pid:42.2%25%2C q_cov:96.9%25%2C s_cov:99.2%25%2C Eval:1.5e-47],MGA_594
sequence08	MetaGeneAnnotator	CDS	35014	36174	.	+	0	ID=MGA_595;product=enolase C-terminal domain-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_050532079.1;translation=MKNLSKNNIKIDEISIDVVERELEFVGLKDNRGDRGLTGGVVQQGIIRVVTSTGIEGNSIIGQHRGNSTDKIKEIIKTFKPILINSKEKNWESIWKKLFELAKNHNINKTLYHECLASIDVAIWDIIGKINDSPIHKILGQIRNSIPVYGTYQPRYENHKGYLEEALELKSRNFKAYKIHPGVMSTKDTIKTIEETRKFLGPEFTLMLDPNNGYDYQKALEVGKALDLNNYYWFEDPVPWNNFDSIKKLSNKLKTPLAMSDKPRFLFEEFSNYLRDGNLKLIRGTSKKFGITGLKNLCELAKTSNTNCEIGTGGNIFMNMANLHVMMTIKNCNFYEYWMPTWAHDFACIETIELDENSEITAPIKPGIGLTLNEDWIKNHKVATLV;locus_tag=LOCUS_5860;note=WP_050532079.1 enolase C-terminal domain-like protein (Pseudaestuariivita atlantica) [pid:26.0%25%2C q_cov:81.3%25%2C s_cov:84.0%25%2C Eval:6.0e-28],MGA_595
sequence08	MetaGeneAnnotator	CDS	36174	37013	.	+	0	ID=MGA_596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLSLQSLSYKNSFNESSIDLDGIIQKASKMRMDGIDIHYNHFKTTDPKYLEKIRLDCLKLGLKICYIGLSNNXLLPPSEISSQINMIKKWVDIAYEMKIPMVRVFGGWLSENQTDEQAWPHLVEVTREAVNYASTKKIILGXHNHNHGCIPATGEQVVRLLKDINSPYFSHILDTGQFRGSPGASMGERGKIDSSYNFYESIEKSAPFATHIRAKIYRIGTGKEVWLDYDRIMKIFSKIQYNGWLSVVYEGQDEENEETAIPKSVVFLREMIKKYNL;locus_tag=LOCUS_5870;note=MGA_596
sequence08	MetaGeneAnnotator	CDS	37031	37687	.	+	0	ID=MGA_597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKFYEDSIIPKSFRRNFSVYERINDLGIDLGTFEENVKSIQGTGLAGVIFNESGLVYLSGQSGGTLQMNDTEERVKHGQDGAQNVADNMIKRLHWAITCGGEGGDLDDVLYTVKALGMVVSTDVDFDSGPAVTNGFSFRWHSVFGGGMGDYSXXGLDSGGYSGVHARSAIGGFTGKFSIEPEIIVAIPKELSTEIISNRGWIFPLIPEVFERIKKNN;locus_tag=LOCUS_5880;note=MGA_597
sequence08	MetaGeneAnnotator	CDS	37703	38590	.	+	0	ID=MGA_598;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAISGSNGLIGTELKQYLENNGEKVTTIVRNPTQKGILWNPENEDINLDLLEGFDCIINLNGKKIDNLLPISNNYEIKKSRISSTKTLSVSISKLKYPPKVFLSASGFGYYGDRGNENLTEKSTPGKGFLSQLAMEWENSATSYIPSNSNTRIILMRFGFVLSKNGGILPRLNVLGNLGLGKMFGNGFQFWPWISMEDTISGIYHVLRSPVLNGPVNFVAPQQTTNKEFMKIFTKYSKKFCFLPIPKFLISNFSTETTKKTLLNSTKMLPEKLISSDFKFNFDTLEKTFEKYY;locus_tag=LOCUS_5890;note=WP_011403492.1 TIGR01777 family oxidoreductase (Salinibacter ruber) [pid:33.7%25%2C q_cov:97.6%25%2C s_cov:62.8%25%2C Eval:1.3e-42%2C partial hit],MGA_598
sequence09	MetaGeneAnnotator	CDS	2470	3246	.	+	0	ID=MGA_600;product=3-oxoacyl-[acyl-carrier-protein] reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583308.1;translation=MKKFDNSVCLVTGGSSGIGRGIAIEFAKEGAFVVVTDIQEKPKTGKYHDTDLSTTTLEEIQNIGGKGIFIKTDVSNDNEIINLVEKIKTDFEKLDILVNNAGIHIPGSIEDLSIQDWDIVTGVNIRGVFLLSKNCIEXLKTSDRGRIIHIASVHAFGGGNGPAYASSKAGIINLTKDMSLSLGQYGITVNTICPGYIETPIQDYLKPEEIESFKETLSIKRLGKPKDIANAALFLASEESEWITGTSIVVDGGGIAAI;locus_tag=LOCUS_5900;gene=fabG;EC_number=1.1.1.100;note=WP_012583308.1 3-oxoacyl-[acyl-carrier-protein] reductase (Dictyoglomus turgidum) [pid:39.1%25%2C q_cov:95.3%25%2C s_cov:96.7%25%2C Eval:5.8e-41],MGA_600
sequence09	MetaGeneAnnotator	CDS	3233	4510	.	+	0	ID=MGA_601;product=MSMEG_0569 family flavin-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003891990.1;translation=MQQFNFSKINPEFHPVVIIGAGVAGLCSSLHLTKKNIPHIIIEKGEIANTWEDERWDNFFLVNPNWAIKIPEFGFGSKSFPSKNPDGFLNKSEIINLLKNFASHIGSKIFTHENVISLSRKKNXIYEIKTNKRKIHSNVVIIASGAFGDPHIPKLSSKPQNKIFEIHSSQYKNSKILPEGAALVVGSGQSGAQITEDLIESGRKIWLSVSKCGRRLRNYRGHDSSWWNNEMGLFDKTVKDVPFNERWKCSSHTSGSKGGHEINLMDLHEKGLNLCGSVSNYSSEKIFFDNNLFENLKFSDNSALQWSKNVDNYIKKHNLILPDQNIYHDPRIIKEKLISPKYISFNSSKISTIIWATGFRFNFDWIKLDITQKNGHPIQERGITNFKGLYFMGLQWMHSSKSAQFIGVGEDAEYVTNDIEEKFNF;locus_tag=LOCUS_5910;note=WP_003891990.1 MSMEG_0569 family flavin-dependent oxidoreductase (Mycolicibacterium smegmatis) [pid:31.7%25%2C q_cov:96.5%25%2C s_cov:96.5%25%2C Eval:4.5e-64],MGA_601
sequence09	MetaGeneAnnotator	CDS	4511	5398	.	-	0	ID=MGA_602;product=SMP-30/gluconolactonase/LRE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532545.1;translation=MKKPILILXDXIFPEGSIWNNGLLYFSDIFSHEVVSLSLEGKRETVFSLQDDYPVGVGLLPNGKMLINSLFGKKVLLGDPETGKISTFCDFSKILSSYSPEYIVNDMIVNNDGQAYIGIDAVDFDENEPIGPHNKPSFSYILLVNPDGTVKIASDRMTFPNGMAISPDGKTLVVAETFANRLTSFDINSDGSLKNKRIFADIGAPTDGISMDEEGCVWVALPSYKFGGHGGWVRVKDGGEILDEVVTNTHGAFDCQLGGPEKKHLFLLEASILGQPRDKGDGRVRVVEVEVPGID;locus_tag=LOCUS_5920;note=WP_013532545.1 SMP-30/gluconolactonase/LRE family protein (Mesorhizobium) [pid:34.7%25%2C q_cov:98.0%25%2C s_cov:95.5%25%2C Eval:4.3e-38],MGA_602
sequence09	MetaGeneAnnotator	CDS	5532	6119	.	+	0	ID=MGA_603;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLALIIILISSLIIISGCSGDESTASDSETQSSGDTNYIITLPNYIFTLDHAKETGWKSSKTFDPAAVDDEGNLYTPGATEIHYGFRQRKDIEVRFYESHEDALNLGAPVAATATENLQETGGAQSVTTLADAGVGVRGGTKYAAYAVIGNLVALCELSVETCESFSDALLIANPSPFTSGEGEAKGLKGSGN;locus_tag=LOCUS_5930;note=MGA_603
sequence09	MetaGeneAnnotator	CDS	6177	6359	.	+	0	ID=MGA_604;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTIAWTLMFSNIIHQKSLLLLSIVLFSTFLGIFMIVSGIKAEKKKSEKSVEESEIYDES;locus_tag=LOCUS_5940;note=MGA_604
sequence09	MetaGeneAnnotator	CDS	6356	7240	.	-	0	ID=MGA_605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRFVFLIFIIFIFTSLSCSSDSQLEQVEEKNNIQKSEMNRIGPPPDGERRGPPXXGERRGPPPGGERRGPPPGGERRGPPPDRNLNRPIDKYSCEINVQGFCVFTGTPHPNGLNPNSEEIVNRKGDFLFSVNNAIAVNSSSEVLKPSGKPASDXDFLIESSLGDMTKDEKSFHKVMAIMFPIRNALMYDIEKITFSYWNSLVIELEKRNIKDFSYTGGPTPRDNYYSREGIFELAKNPNERDIHHDVMKFLEESGIHLLCHVTSEEFNNMLKDLHPEGHDPCKDAKITNKIPF;locus_tag=LOCUS_5950;note=MGA_605
sequence09	MetaGeneAnnotator	CDS	7301	7534	.	-	0	ID=MGA_606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKVYFRKKNLYFLLLVALIFLITNSFFLTEARSALILTITNGLFATLLCQLRMNLWSRTLADRHKNCEITEVDYLD;locus_tag=LOCUS_5960;note=MGA_606
sequence09	Aragorn:1.2.38	tRNA	7576	7652	.	-	.	ID=Aragorn_7;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0070;note=Aragorn_7
sequence09	MetaGeneAnnotator	CDS	7720	8277	.	-	0	ID=MGA_607;product=signal peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257166.1;translation=MIEDLREIGRSIIVASLIYIILIILTQNYVVKGKSMFPNLDDGQRVLVNKFIYFRIFSLDNSKIVIGDKFIFGGPKRDEVVVFKSPQLFQKEAIVKRIIGLPGDWIEIKNGIVLVNSKPTSENFGFTSSISFDEKMKVPESMYFVLGDNRNYSNDSRLFGFVSSDEIIGRVWVTYWPFSEFRIFG;locus_tag=LOCUS_5970;gene=lepB;EC_number=3.4.21.89;note=WP_012257166.1 signal peptidase I (Chloroflexus aurantiacus) [pid:34.6%25%2C q_cov:95.7%25%2C s_cov:80.5%25%2C Eval:7.7e-24],MGA_607
sequence09	MetaGeneAnnotator	CDS	8402	8986	.	+	0	ID=MGA_608;product=dCTP deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003975261.1;translation=MVLSDKTIKEYLDNGALIIDPLDPKDIQPASVDLHLDNKILVFRNSTEPFIDLKKDLPDLTEEHIIKKNQPFILHPGEFILASTIERIKIPTDIVARLEGKSSLGRVGLLIHSTAGYVDPGWDGKLTLELTNVSRLPITLYYGMRIGQISFLKLTTHVIREYGSPELGSRYKGQKDPTASKAHLDFDKQIKHTE;locus_tag=LOCUS_5980;gene=dcd;EC_number=3.5.4.13;note=WP_003975261.1 dCTP deaminase (Streptomyces) [pid:51.1%25%2C q_cov:96.9%25%2C s_cov:98.4%25%2C Eval:4.1e-50],MGA_608
sequence09	MetaGeneAnnotator	CDS	8989	10056	.	+	0	ID=MGA_609;product=bifunctional diaminohydroxyphosphoribosylaminopyrimidine deaminase/5-amino-6-(5-phosphoribosylamino)uracil reductase RibD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_043943609.1;translation=MTFFKEALSLAESVKGNVSPRPPVGAVIVKNSKIVGRGRTTSKPIKHAEIMAMEEAGENCQGSVLYTTLEPCYHHGSTPPCVDSIIKSGIHKVITPLKDPNPEVNGKSIEKLINSGIEVSTNLNNDEIHQAEELIEGFKHFLITKKPFVTVKYAMTLDGKISSKIGDSTWISNDQSRKIVHKLRSQSDAVLIGVNTLLVDNPKLNARYGFSGPKYRVVLDSNYKAPKNSNLFKSPGKILIYSTKVTSQKQISNVEHIKTNSSNEGVDITSVLEDLGKKGCVNILVEGGKDILGSFFDLKLVNKVIIFISPKILGGKNAITAVGGNGYSYIDESPELKKVNISKIENDIMISGYLN;locus_tag=LOCUS_5990;gene=ribD;EC_number=1.1.1.193%3B 3.5.4.26;note=WP_043943609.1 bifunctional diaminohydroxyphosphoribosylaminopyrimidine deaminase/5-amino-6-(5-phosphoribosylamino)uracil reductase RibD (Clostridium) [pid:41.4%25%2C q_cov:98.9%25%2C s_cov:99.2%25%2C Eval:1.1e-70],MGA_609
sequence09	MetaGeneAnnotator	CDS	10058	10645	.	+	0	ID=MGA_610;product=riboflavin synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258063.1;translation=MFTGIIQSIGEVIEISNESLTVSCKDVINELNISDSISISGTCLTIIEKNLEKSTFKVNVIPETLQRTNLGHLSNKSKVNLETSAKLGGVIGGHLVQGHIDCTSEIINIKNEGNSYVVSIKTPKNIARYLVEKGYIALDGTSLTIVEVNDENFIVSIIPYTWENTIFKYSESSKLVNIEVDLTAKYLENFYKFYK;locus_tag=LOCUS_6000;gene=ribE;EC_number=2.5.1.9;note=WP_012258063.1 riboflavin synthase (Chloroflexus aurantiacus) [pid:44.0%25%2C q_cov:100.0%25%2C s_cov:98.0%25%2C Eval:7.8e-41],MGA_610
sequence09	MetaGeneAnnotator	CDS	10761	11951	.	+	0	ID=MGA_611;product=bifunctional 3%2C4-dihydroxy-2-butanone-4-phosphate synthase/GTP cyclohydrolase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392434.1;translation=MKLNTIEEGISSFSNGKPVIIVDDEDRENEGDLTIPAESITPEIINFMATNARGLICVAIDKQYLDNLKIPPMVNGITSNNHTAFTVSVDSSQGITTGISSFDRAKTIKDLIDEKSTAESFVKPGHIFPIQYRPGGVLVRAGHTEASVDLSILAGKQKAAVMCEILNDDGSMARRDDLEKFAKKHDIKIISIEDLISYRFSHDKLIDRIAETTLPTKYGKFKAIGYKSSHELEEHLALVSGNISKDEPVLVRVHSECLTGDFFDSLRCDCGDQSKDSLKKIGSEGGIFVYMRQEGRGIGLHNKLKAYELQDSGKDTVEANKTLGFPPDLRHYGVGAQILVDLGVKKIKLLTNNPKKVVGLDGFGLEIVEVIPILGNENEHNKTYLKTKKQKLGHSF;locus_tag=LOCUS_6010;EC_number=3.5.4.25%3B 4.1.99.12;note=WP_011392434.1 bifunctional 3%2C4-dihydroxy-2-butanone-4-phosphate synthase/GTP cyclohydrolase II (Moorella thermoacetica) [pid:59.7%25%2C q_cov:99.5%25%2C s_cov:97.8%25%2C Eval:8.4e-134],MGA_611
sequence09	MetaGeneAnnotator	CDS	11962	12447	.	+	0	ID=MGA_612;product=6%2C7-dimethyl-8-ribityllumazine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001099502.1;translation=MKPPSSNKSNFDNLVNNNFDFSKIKIGLIISTFNKEISENLRTNILKELKNHKIQIKNSNYFIEKFVPGVFELSQTAYHLAKTSKFDVIICIGSVIKGETKHDEYISMSTAQGLTNASILTDTPIIFGVLTTQNIQQAEERISNGTYYARSALEMAVLNSS;locus_tag=LOCUS_6020;gene=ribE;EC_number=2.5.1.78;note=WP_001099502.1 6%2C7-dimethyl-8-ribityllumazine synthase (Streptococcus) [pid:37.7%25%2C q_cov:90.7%25%2C s_cov:92.3%25%2C Eval:6.9e-22],MGA_612
sequence09	Aragorn:1.2.38	tRNA	12509	12582	.	+	.	ID=Aragorn_8;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0080;note=Aragorn_8
sequence09	Aragorn:1.2.38	tRNA	12601	12677	.	+	.	ID=Aragorn_9;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0090;note=Aragorn_9
sequence09	MetaGeneAnnotator	CDS	12692	13741	.	+	0	ID=MGA_613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKFKVAFIGSSEINLEPHNRAIKLAGGVLERVDDSKKEKAFNELKNYNVIIVEQSQLPLNSDFFSNLQNSSCKGVVCFGHGYDSVDMKAATDNKIIFVNGASFGTEEVSNQTMMLLLVCARKFVLHDKLMKSGTWTREYLSPMGHISGETLGLIGIGDIGRAVSRKAKAFGMNVIGYDPYLSSWNFKEYGIEIATSIEEVCEKSDYVSLHTNLTDETYQLVGEKHFKLMKKTAYLINCSRGPVVDELALIDALKSQEIAGAGLDVFEQEPIDPENPLLSMDNVATTNHYASYSELAWERAQTQLGEEAVRIATGTLPMSFINKELISEIPEMKQAQVWEIYKNNFNNS;locus_tag=LOCUS_6030;note=WP_012582463.1 phosphoglycerate dehydrogenase (Dictyoglomus turgidum) [pid:38.3%25%2C q_cov:81.9%25%2C s_cov:53.7%25%2C Eval:9.7e-51%2C partial hit],MGA_613
sequence09	MetaGeneAnnotator	CDS	13881	16529	.	+	0	ID=MGA_614;product=2-oxoglutarate dehydrogenase E1 component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259558.1;translation=MLKENQRNNFSKINAGIIAEILENYFNDPSSIPDSDKKILSDYLKSITGQNLTTESVLDKSNDQSEFIRKYGYIYANTDPLNINNVKLPENFSSNNSNDKSPYIKLESIYLKNIGYEWEHLRSREEKIWFENKIETESKDLDTTKQELIDSTFELIKAEDFEKFIHRSFPGSRWYSLEGSEALIPLIKTLITKASQTNIERILMGMPHRGRLNTLSHIFNKPYELIFDEFKEENLKKIVKNINSDEFLLDVKYHLGAKTSIKNSIGKNLDLFMLPNPSHLEMITPVISGATLGIKDKEKISSEKTLSIIIHGDAAFAGQGIVAETFNLSGVEGYNTQGNIHIINNNQIGFTTDPKNAFSTKFSSDLARGFDIPILHVNGDDIESCIKIAKLAVQYRNSFSKDILINLVGYRRFGHNEMDEPSFTQPLMYKKIKSHPTVRSIWVKEILERNMISIDEISQFEIENNEKLRKANSNLNTVDHQSLAWPNNFPNNKKSSEFIKTKLSASNLISTNKSLWSVPLDFTLHPKLKTLIEKRRNSDLDSKIEWGHAEILSLALLSEKNIPIRLTGQDSSRGTFNQRHGVLIDIEDESKLNVFSNINKKNLPYLINSPLSEEAALGFEFGYSSMFLDSLVIWEAQFGDFANNAQSIIDELICSSQAKWGQNTGLTLLLPHGFEGMGPNHSSGHLERFLNLSSQNNITIANCTNTSQYFHLLRQQGLTPPNEKKPLVIMTPKSLLRHPLASSTLKEILEGQFAPILETRKDNIDQINKVIICSGKISIEFLYKDSEKLLKNSVLIRVEQLYPFPEKIFKDIISKYKNIKKIIWLQEEPKNKGAWQYINDTISPMVKKLKFVGRNFSPSPASGSSTVHKLQQQQIFDDIIKE;locus_tag=LOCUS_6040;EC_number=1.2.4.2;note=WP_012259558.1 2-oxoglutarate dehydrogenase E1 component (Chloroflexus aurantiacus) [pid:39.4%25%2C q_cov:99.5%25%2C s_cov:98.1%25%2C Eval:1.1e-188],MGA_614
sequence09	MetaGeneAnnotator	CDS	16531	17727	.	+	0	ID=MGA_615;product=2-oxoglutarate dehydrogenase complex dihydrolipoyllysine-residue succinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946280.1;translation=MTEEIKVPEMSESTVEATVGIWHKQVGDTVKEGDPLLELETDKVNLDINSPVDGTLTTLDKQTGDTVIEGQILATISTEENSSEKTEVNSREPEKEENLVKEIVDITPIAKTIAQKNNIDISNIKGSGKEGKITKEDVENYIDKNNNSSKMIEPSSEKSNEFESENSSETRIKLSRRRLTIAKRLTEVQQETVMTTTYNEVDLSKIIEIRKNFQTKFFESYNVKLGFMSFFVKAVINSLIKFPEINSELQNQELILKKYYDIGIAVSTDEGLVVPVLRDAINKSFSEIEISIGELATRARKKLISLEELQGGTFTITNGGIFGSMMSTPILNPPQVAILGMHRIIERPIAKNNNIVIAPMMYLAVTYDHRVIDGSSAVQFLGHIKQLIEDPNALLINL;locus_tag=LOCUS_6050;gene=odhB;EC_number=2.3.1.61;note=WP_010946280.1 2-oxoglutarate dehydrogenase complex dihydrolipoyllysine-residue succinyltransferase (Legionella pneumophila) [pid:45.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-100],MGA_615
sequence09	MetaGeneAnnotator	CDS	17729	18868	.	+	0	ID=MGA_616;product=mandelate racemase/muconate lactonizing enzyme family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013229000.1;translation=MPKPTTIEKIETYLWDRWLIVRVICEDGTIGIGEGGVHGWQFPTEAMIKTITPYLIGKDPSIIEHHYQYLYRNSHFMGSIINGALSAIDIALWDIKGKRLGVPIYDLMGGKTRNKARCYIHVEGETIDDLVSDSLEKVKEGFTAIRFQPYSSNFFTYDSVSEWIDDAENRVSAVRESIGNKIDLCIEIHRQMSPSESIMLGKRLEKFNPFFYEDPMLPDSPEIMKDIQEKSNLPIATGERFTTIFEFQQLLQHKACSYVRPDLCLAGGLSGSKKISAMAESHHIKVIPHNPLSPISTAACLQLDASIPNFALQEYTPTEKLPPKSELLETPLKLNNGYLEIPSGPGLGIELRTETLKKYPRIEKILDTPLKNDGSVADF;locus_tag=LOCUS_6060;note=WP_013229000.1 mandelate racemase/muconate lactonizing enzyme family protein (Amycolatopsis mediterranei) [pid:42.5%25%2C q_cov:97.6%25%2C s_cov:98.7%25%2C Eval:6.1e-86],MGA_616
sequence09	MetaGeneAnnotator	CDS	18869	19660	.	-	0	ID=MGA_617;product=undecaprenyl-diphosphatase UppP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010881444.1;translation=MNIFNSIIIGFIQGITEFLPISSSGHMVVLSDIFGLKTPSLSVDLVAHLGSLIAVICFFGVKSFKEIKISGLQYEKMKSIFIKLFIASIPIGIIGYLLKDTLATTARTSIIVGVCFIVSGIFLIISSYINYIIKNQNKLLGIKKIMFIGLFQAFAIFPGISRSGMTISSGILMGINKKKTVEFSFLLSIPVILGANIFQFLEIISSSVKSSDWGNLFLIFFVSMIISLITINFTLKWAQKIKFWLFGFYGVVFGLFTLALQLV;locus_tag=LOCUS_6070;gene=uppP;EC_number=3.6.1.27;note=WP_010881444.1 undecaprenyl-diphosphatase UppP (Aquifex aeolicus) [pid:31.8%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:3.0e-32],MGA_617
sequence09	MetaGeneAnnotator	CDS	19741	20949	.	+	0	ID=MGA_618;product=mandelate racemase/muconate lactonizing enzyme family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_210343307.1;translation=MAKITKIETLTNSKYSKIIWVKIYDESGEYGIGETSWGPETVETHILTDIAPQIIGENPLNIEKLWVDICKLGITVRPNGAEVRALSAIDIALWDLAGKLTNQPLYQMLGGLFREKIKIYNTCAGYSYGVNRPGTYRNIPGSIDYKPESQYEDQHAFMTDAGKLAESLLEEGVSAMKIWPFDQFSGKTNGQFISSEDIDKGLEPFQKIRDAVGRKMDIMVELHSMWNLPSAKRIAKALEPIEPLWYEDPIPMDNLDALADYKRSTRIPVTASETLTLRWSFRELFEKRAVDICMFDICWVGGISEAKKISTMAEAYQLPIAPHDCVGPITFLSAIHMSLNAPNAMIQETVRAYNNTWYRDIIETMPKIESGYVYPPKGIGIGTIFTEKFIESKDTIIKTVES;locus_tag=LOCUS_6080;note=WP_210343307.1 mandelate racemase/muconate lactonizing enzyme family protein (Bradyrhizobium diversitatis) [pid:48.6%25%2C q_cov:98.5%25%2C s_cov:94.0%25%2C Eval:6.5e-110],MGA_618
sequence09	MetaGeneAnnotator	CDS	20946	22013	.	+	0	ID=MGA_619;product=phosphotriesterase-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003414790.1;translation=MTKSYKKEELTGKALTVLGPKDTNQLGKVICHEHLLIDFNVVFQNPPNPKELHLKDEKLNLSNLGWIKKFWVSNKDNLLIDDIEISINELKHFYKAQGNTIVDVTSIGLSRNPSALKIISQRTGVNVIMGSGYYIEKTHPNYFKTDSVYQIAEKITNDILHGVDGTEVHSGIIGEIGCDFPWSSDERKSVHAGVLAQIETGAPILIHPGRDENAPLEIVNSIMKWGGNTSRTIMGHIERTIYSKSKLLDLANSGVYMNFDLFGHESSYYPLDDSTYMPSDHQRIEIISELIDSGFSNKILVGHDICSKHRLKNFGGHGWDHILKKIIPKMKKFGIKTRDIENILIKNPREILKFS;locus_tag=LOCUS_6090;note=WP_003414790.1 phosphotriesterase-related protein (Pseudomonas) [pid:33.2%25%2C q_cov:96.6%25%2C s_cov:91.9%25%2C Eval:2.2e-58],MGA_619
sequence09	MetaGeneAnnotator	CDS	22029	22925	.	+	0	ID=MGA_620;product=thioredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256486.1;translation=MNKKTLKFLKILIRQTILLLILILVSCGIDTNSDENSLKNQNSLSVIIISSDISIGLNKIKFAVLNLEGNPILNQEKNLKVFISPLEDPQFKKPISIEWEPWPISGGVYKSNIELKSSGFWKINVLYEETEKLTGEAIIQVNKIPLTPEVGKIPPKIHTKTISTQLSLESITSDINPKSELYRSDFFDVLGTKPIVINFSTPSFCKSGTCSPMIENIKKLSDIFHENIVFIHVEIYDNPEEIRISGNPNIGKISEPVKIWNLPSEPWTFFIDNSGKIVSKHEGYVEYENLEQITSTLK;locus_tag=LOCUS_6100;note=WP_012256486.1 thioredoxin family protein (Chloroflexus aurantiacus) [pid:25.1%25%2C q_cov:93.6%25%2C s_cov:92.3%25%2C Eval:5.2e-23],MGA_620
sequence09	MetaGeneAnnotator	CDS	22929	23252	.	-	0	ID=MGA_621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFFLRKIFILSFLILILNSCTNNFQEVTGQIISIESSELNKISKLTLKDFDREIWVFNGNNKSYSHFTSHHLKEHQVSGHPVIIIYEKIGEQLSIVSIEDGDENGH;locus_tag=LOCUS_6110;note=MGA_621
sequence09	MetaGeneAnnotator	CDS	23262	24110	.	-	0	ID=MGA_622;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIVISKYLITFILFLFLLSCSNNDLPKIVENTVTPNSEDNEGISTSLETEITNDNNETESIMYYVRAHNYLEQKNFLNAEKFFDTVIKLEPNFSRAWLGRATSKFYQEKYESSLSDLEKSIELKNDLGEAYLLKSIIFLELEDLENSEKQIINFDNLVSPEWPVLIKARIYGNRGEFQKAEDLFSKSISLASNPSLAYWWRGKFRANFNNLEDSIEDFKEAIFLDPNNPKLYLDRAKILINYDQDLEKIIIDLEEAESLAKEPRLPTVYKEAKRLLKQFEK;locus_tag=LOCUS_6120;note=MGA_622
sequence09	MetaGeneAnnotator	CDS	24114	25097	.	-	0	ID=MGA_623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILVYFGNNEFSINKSIEKIIDDSGKEVLMIDNEKIDLLEFQNIIYNVPLINDGRVVLVKNLLCRIFDESNSLDWIPILKGSLEVPGNSMLLFSDFFTDDTLTNKFRKSKFFKELNDISEIHESLLPKGRGSRAQVLNWINLRSKELGMEINSKQSSKIENMLERDFFSIDQELKKLALYTQGRNVKDDDIENIISGSKNEIIFNVLDQIINGNYLKAIPIIRKLYVQGVTSGELVFLLISSLHRILQIRSLIDEGIKDGESISSTVGLTNNYYFKKLMQQAFQKTTNNLFILLEELFVFEKKLKTQAVDEKDEFELFLVKLSSISV;locus_tag=LOCUS_6130;note=MGA_623
sequence09	MetaGeneAnnotator	CDS	25210	26262	.	+	0	ID=MGA_624;product=redox-regulated ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256516.1;translation=MKIAILGLPKSGKSTIFNCLTNQIDQKTNSFGIMKVPDNRVEELSKLSSSIKTSFAELEIMDSESSQIFNDSSEFFSDEIVNSLQEFDAIILIIRSFNDPSVPHPFGLVEPEKDLEHFLLEQRFRDINMIEKRIEKIDSEKNTLNKKNQELSKTQTDLLRSLKNEFENGISFEEINNNNEFKKIFQESFFLSSIPTTIVFNIDENHIDENLENYTKDIFQAKIYGKLEEELLLLDKKEAEEIRQDLKINDYSIQNLVNQILKQNHIIHFLTTGEKDTKAWQIKSGSTAVESAQKIHSDISRGFIRAEVIHYSELLKSGSFSEAKKKGILRTEGKDYIVKNGDVINFLFSV;locus_tag=LOCUS_6140;gene=ychF;note=WP_012256516.1 redox-regulated ATPase YchF (Chloroflexus aurantiacus) [pid:34.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-53],MGA_624
sequence09	MetaGeneAnnotator	CDS	26292	26984	.	+	0	ID=MGA_625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAEELGKINKPKADHAQKSKKIYLVPLIINYFPDIEEFTSLLTEYWKACDNQINKLETQAGTVSKIFHEGVWSDGKEGLNQIGSLNKFCLDLVNSRINTGSNLVPIESEENYKKLMDLTRIVQLGFASEQIRDLILNEYNQVVETRNTFITNQLKKIGDTEAGLLIGSVQNFKIPDEIELFNIIPPEHDKIFRWLSEKEKSLRSQVNPENSQENVQTEDSSKDSGLWTP;locus_tag=LOCUS_6150;note=MGA_625
sequence09	MetaGeneAnnotator	CDS	26972	28201	.	+	0	ID=MGA_626;product=radical SAM family heme chaperone HemW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012099423.1;translation=MDSLEINNTISFYIHIPFCQIKCPYCDFNTYENIENFIPNYMKAINIEINNWKKILLPYTINSIYFGGGTPSYISNSYIKEIINLLKSKFSINKNSEITLEANPVDLNLNKLSSYLDIGVNRLSIGIQSFSNSLLKKLGRNHDQKSAIKSIENTFKAGFKNFNVDLMYGIPDQSINQWRSSLIKIKTYEINHLSTYNLTFEQGTPFYNWKKQGKLIAPKDKKVEDMYLLQKELLSEMGYIHYEISNWSKPKMQSNHNLRYWSGNNYIGVGAGAHSYFNNRRFSNIKSPKKYIEKMISRNISQSNNFFKEMSNIGIIHEQEILSSKDILFDRIMLNLRLIKGIKHKDINKEFNINFSRKFKYLLSELVDLELIEENSKITKLTDKGILLSNEIILKFFQEISKPLPLKIM;locus_tag=LOCUS_6160;gene=hemW;note=WP_012099423.1 radical SAM family heme chaperone HemW (Clostridium botulinum) [pid:38.3%25%2C q_cov:96.8%25%2C s_cov:99.5%25%2C Eval:2.1e-71],MGA_626
sequence09	MetaGeneAnnotator	CDS	28201	28698	.	+	0	ID=MGA_627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIGILIFIIKESNFSLSNLSNFLRLLQAKIREDSIKSDFGGKFFENSSKPTLKLYIKKETTKSEKISFEIFFSKDNTGIHLTELSEYAFNHFFEEMIVMLKSDPLQSTLWGISSKSILKTIKEESNSRLIKIWESIIRLNVEQIIFSNSIIEINGDSIKITRK;locus_tag=LOCUS_6170;note=MGA_627
sequence09	MetaGeneAnnotator	CDS	28702	29622	.	-	0	ID=MGA_628;product=protein translocase subunit SecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_085009790.1;translation=MINIVGKRLWFLGISLSVLLVGLIVIAIPPHLNLGIDFTSGSTVTVDFYDDPGSQKIENSLSNIGANNFSVQSMGEGAYFIRLQELKDSGDSSNNKDGSLLSRDDLEKSFSNINENFEILSVETVGKKIADGTIQNSIIAVAVASIFVMAYIMYAFRAVGNSFRYALGAIIALLHDVFIILGLFAILGLIFGIQVNAIFIVGILTVIGYSVNDTIVVFDRIRENQLRLPNRAFSETVNLAINESIGRSLNTSVTTSLVILAMLLFGGDSLRDFLIVLLLGVIIGTYSSIFIAAQFLVFWEEGFRKK;locus_tag=LOCUS_6180;gene=secF;note=WP_085009790.1 protein translocase subunit SecF (Geothermobacter hydrogeniphilus) [pid:36.1%25%2C q_cov:97.1%25%2C s_cov:91.3%25%2C Eval:6.6e-45],MGA_628
sequence09	MetaGeneAnnotator	CDS	29615	31597	.	-	0	ID=MGA_629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRFRGIIFILLIFVMAVMAISIPQINFNLWGYDFKRGEEGSFLGLSLGLDLKGGTHLVYEAQPKEGEKITADDMEGVRKILEKRVNSFGISEPSVQLLGASGSTPDRILIQLPGLDKTNIKLFIASDVSVEKVEGLLKSEFPGYEKAKVSKLEDGTFSILIDDLSSSGNSNNQVEKLADPAIVDILNVFDKEFPVKLVLAFSPGENESEEETQEEDLPDISQIESIVESLGVGSFEIEDLRQGVYQITLTEFKHNFDSKNFREFDSQDLQNIVNPFFSLGSIYQASLTGGVVKFSITGGVEEAKKLIGETALLEFKERDCLPVDNLTVTDWPPDGLSKNDWINQRCLNPKYFEDKAVNLSGKNLIDAYPDVQPGLSKPIVSVVFDEQGGDDFFSITSRIANNQDALAIFLDGEELIAPTASSGISGGRAFIDGPTFTSERVRTIAIQLKSGALPVGLKLIQERNVNATLGEDSLQKSVIAGGIGLVLVLIFMVSYYKAPGIVASTALILYGILLLSIFKIVPVTLTLSGAAAVILSIGVAVDANILISERIKEEIRSGRMLLSSIREGFQRAWPSIRDSNISTIITCMVLYWFGDRFGTSVIQGFALTLGIGVILSMFTAYFVSRVLMRVIGMSPLGRWLSLFVPTGKINNPERGKSND;locus_tag=LOCUS_6190;note=WP_011144152.1 protein translocase subunit SecD (Gloeobacter violaceus) [pid:39.8%25%2C q_cov:51.8%25%2C s_cov:74.1%25%2C Eval:5.5e-62%2C partial hit],MGA_629
sequence09	MetaGeneAnnotator	CDS	31597	32283	.	-	0	ID=MGA_630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILQIRTFPDPILRSRAKQVSEINSDIKNLTSDMIETLIEAKGLGLAANQVGVLKRIVVLNFPEKKPIALINPEVTKKMGKRTVEEGCLSFPNHTGVVERSLKIKAKALDEHGGRLYFDSEELFAQVLEHEIDHLNGILFIDHLKKHEKLHARKFEYPKETHQHDLKVEVEVIKDEDLNENQNKYNEKLYSEIKVEKMLEALEKGNLLVDLSSLKQEKEDEKLVGNL;locus_tag=LOCUS_6200;note=WP_010965029.1 peptide deformylase (Clostridium) [pid:47.0%25%2C q_cov:65.4%25%2C s_cov:98.7%25%2C Eval:1.0e-32%2C partial hit],MGA_630
sequence10	Aragorn:1.2.38	tRNA	662	736	.	-	.	ID=Aragorn_10;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0100;note=Aragorn_10
sequence10	MetaGeneAnnotator	CDS	782	1717	.	-	0	ID=MGA_633;product=rhodanese-related sulfurtransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_032607335.1;translation=MKEQEFCIFAFYQFXTTTNKLQLXEKLNNLSKREKIKGIVLIADEGINGTVSGFIDGIKKLEKYLEKEGFTTLEKKYAYSSYMPFHRMKVKLKKEIITFAGEEVNVEKQTGEFVSPEDWNKLIEDPEVTLLDIRNLYETQIGTFSDSEILGVKTFTQLKELVDKKLLENKDKKIAMFCTGGIRCEKVSSYMIENGMKNVFQLKGGILKYLENISAEQSKWEGECFVFDNRISVKNELVKGEAIICPGCXYPVTPTDRTSYKYEDSVSCDNCYDHLSEQKKENLRERKRQIQLSLSRNEPNRYIRVTPKEYQ;locus_tag=LOCUS_6210;note=WP_032607335.1 rhodanese-related sulfurtransferase (Pseudomonas) [pid:45.0%25%2C q_cov:95.5%25%2C s_cov:95.5%25%2C Eval:2.1e-70],MGA_633
sequence10	MetaGeneAnnotator	CDS	1714	2913	.	-	0	ID=MGA_634;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461376.1;translation=MIGSALRNXFGILVDPLNVNFDWSVGEIGIAYAVMSITSALSSPFSGWLGDKFGAKKTIFFGTILFLLGMLWVSFMNNLWEFYLAYGLVLGFAQSLIGVPIVPSVISWFRRHVGLGTGALMVSWSLGPALTIQILAISFVNYGWRNTFLVFGILISIITFLLLIFFKDSPEKAGKKPFGWLEEDENSKNNLLSSFDLNKQKLIYRTDAFWHLVNIHFWGCVGHAIILVCIIPLAINKGIGPIQAAGVXSTIATVSILSRFFFPIIGDKFGSRFIIFISFLGQGLSVLILLFTDSTFGFYVFAVSFGIPYGGEGTVHPVINRQYFGLFPMGRTYGWQLXGAGLGMALGGIIPGLVFDLSNSYDIAILISCXSSLIGAFIVIILPKTSKELIDWNLSLEXT;locus_tag=LOCUS_6220;note=WP_011461376.1 MFS transporter (Desulfitobacterium hafniense) [pid:24.4%25%2C q_cov:88.2%25%2C s_cov:85.2%25%2C Eval:2.2e-25],MGA_634
sequence10	MetaGeneAnnotator	CDS	2970	3167	.	-	0	ID=MGA_635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSIIDKKNKSNPIIGLSLMGFTIIICLAFLIYFGAWITEKRLEVREQKNPVWWENTVLWVCPLH;locus_tag=LOCUS_6230;note=MGA_635
sequence10	MetaGeneAnnotator	CDS	3167	3514	.	-	0	ID=MGA_636;product=4a-hydroxytetrahydrobiopterin dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003085898.1;translation=MDNLXKRHCEACRVGSLPVTDSELKIFSENFKEWELLNENGIRKIKKQFKFPNFQEALSFTIKMGKLSEEQGHHPXLTLEWGKVSVIWWTHKIKDLHMNDFIMASKTDELFMKYY;locus_tag=LOCUS_6240;EC_number=4.2.1.96;note=WP_003085898.1 4a-hydroxytetrahydrobiopterin dehydratase (Bacteria) [pid:48.2%25%2C q_cov:95.7%25%2C s_cov:93.2%25%2C Eval:3.2e-28],MGA_636
sequence10	MetaGeneAnnotator	CDS	3517	3702	.	-	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTXQIMWYKGRTTQQKSELADVITKAVAEIGNTTAEDTQIIFHDVEKSNWAHGGVMASES;locus_tag=LOCUS_6250;note=MGA_637
sequence10	MetaGeneAnnotator	CDS	3777	4766	.	+	0	ID=MGA_638;product=thiamine-phosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546377.1;translation=MMKSSFSEKELIKDFCNILINNPNEDNLLIGIGDDAAVFRSHEFATQSTDALVEKIHFDLSYTSFYNLGWKSIAVNQSDLAAXGSSSKYFLVTIGMPKSIERKNLKELYLGFNDILKLYGGEIIGGDLVRSNELFISIVATGFCKINNNKPLIMKRNSAKPGDVVAVTGFLGNSSGGLTLLKENLTNFDYLKNAHLKPLPKXKESQIFVKMGIKSCIDLSDGLIVDATRISEASNVSMIIDLNKIPVSQELKNAFPDSWKDHALNGGEDFQLLITGKKELITKIKNETKSNLTIIGKVKKKSSNYLTVLENNKPNSRFLSKGWDHFDDK;locus_tag=LOCUS_6260;gene=thiL;EC_number=2.7.4.16;note=WP_012546377.1 thiamine-phosphate kinase (Thermodesulfovibrio) [pid:33.0%25%2C q_cov:91.5%25%2C s_cov:94.0%25%2C Eval:1.1e-40],MGA_638
sequence10	MetaGeneAnnotator	CDS	4756	5241	.	+	0	ID=MGA_639;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002918074.1;translation=MTNNSLQNPDITISSLSEEETRTKGKILSKNIQIGDLIFLIGELGAGKTRFVQGLSKGINSPQIARSPTFVLITEYIGDIILYHCDLYRISIPEEVINLELEELLDKGALVVEWPEKGGEYMPDPDLIISTEINQDNSRKLLFFSYSERGKTLLKHMKKNI;locus_tag=LOCUS_6270;gene=tsaE;note=WP_002918074.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE (Streptococcus sanguinis) [pid:37.7%25%2C q_cov:90.7%25%2C s_cov:98.6%25%2C Eval:2.0e-21],MGA_639
sequence10	MetaGeneAnnotator	CDS	5243	5929	.	+	0	ID=MGA_640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNILLTIDTSTKFSSVSLSENYKIQHEIHWVSDQNHSLELMPNIKKCLNXSKIDISEITDLAVALGPGGFSSLRVGISTALGISLPNSMKTFGIPTFLIEFFEHKNLYNNLFAFLPAGRNKYAWKKYEDSMTFFPDGVDSADTISKMLTKNSYICGESAKELSEIIEFDNVVSNQTPTRSSINFIKTLKEIIEKDLLNEYQLIEPIYSRPPNITKTKKPLPKWRIN;locus_tag=LOCUS_6280;note=WP_011393646.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB (Moorella thermoacetica) [pid:29.8%25%2C q_cov:41.2%25%2C s_cov:41.2%25%2C Eval:4.3e-10%2C partial hit],MGA_640
sequence10	MetaGeneAnnotator	CDS	5929	6396	.	+	0	ID=MGA_641;product=nucleoside-diphosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001831235.1;translation=MSFETTLVLIKPDAIQRNLSGKIINRIENTGLKIVGLKMIKIDKKLAKKHYQEHQEKPFFENLVDFISSSPVLAIAISGPNSIQKIRTLMGQTNPLDSPPGTIRGDYGIDLERNLIHGSANDSDALRELELFFDKKEIQNFKKSIDEWTGWTTEA;locus_tag=LOCUS_6290;gene=ndk;EC_number=2.7.4.6;note=WP_001831235.1 nucleoside-diphosphate kinase (Staphylococcus) [pid:49.0%25%2C q_cov:93.5%25%2C s_cov:97.3%25%2C Eval:1.9e-39],MGA_641
sequence10	MetaGeneAnnotator	CDS	6383	6751	.	-	0	ID=MGA_642;product=ribosome silencing factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002898109.1;translation=MNXANTKHKSIEEFGRLAVKILSDNLGDNVVLLDVRGNSDYSDFLVITSGKTDQHLESLSTRVTKDLRNAGLRVHHKEGSGSGGWILLDFLGLVTHIFSDESRKKYDIENLLGGGREIVRLQ;locus_tag=LOCUS_6300;gene=rsfS;note=WP_002898109.1 ribosome silencing factor (Streptococcus sanguinis) [pid:34.0%25%2C q_cov:82.0%25%2C s_cov:82.6%25%2C Eval:2.6e-14],MGA_642
sequence10	MetaGeneAnnotator	CDS	6818	7927	.	+	0	ID=MGA_643;product=tRNA 2-thiouridine(34) synthase MnmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438277.1;translation=MNSKKTKRIVVAMSGGVDSSVAAALLSKKGYEVIGITMXLFAYPDEKVSKLNKSCCSLEDVEDARSVCRNIGAKHYFLNFEKEFNEHVVNYFISEYEKGRTPYPCLACNDRLKFDFLLKRAEFMNADYIATGHYAQIKNENNEWHLIKGKDETKDQSYVLYNLNQEVLSKLKLPIGKFLKSEIREIANXLGLINASKPDSQDICFIPDGNYKKFLEKRIEKNPGKIVDSSGNTIGKHDGVYNFTIGQRKGLNLDKGFSEPIFVTSIDHETKTVEVGTSKDLLKTKVIASSVNFLSGKTPKKPIKVTAKIRYHSKNSTAIVKKLKTHTEITFDEPQRAITPGQAIVFYKGDEVIGGGIIEGNKIKEKIPA;locus_tag=LOCUS_6310;gene=mnmA;EC_number=2.8.1.13;note=WP_003438277.1 tRNA 2-thiouridine(34) synthase MnmA (Clostridioides difficile) [pid:47.8%25%2C q_cov:95.7%25%2C s_cov:98.6%25%2C Eval:1.4e-87],MGA_643
sequence10	MetaGeneAnnotator	CDS	8292	8615	.	+	0	ID=MGA_644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQAIQNLDINPDFIIIDAVKLESLKIPNISLIKGDQRCLSVAAASIVAKISRDRMMRDIYEIKFPKYGFASNKGYGSKKHIESINTLGPSKIHRMSFKPLSEMKIN;locus_tag=LOCUS_6320;note=WP_003723891.1 ribonuclease HII (Listeria monocytogenes) [pid:47.7%25%2C q_cov:100.0%25%2C s_cov:40.2%25%2C Eval:2.0e-22%2C partial hit],MGA_644
sequence10	MetaGeneAnnotator	CDS	8612	9262	.	+	0	ID=MGA_645;product=thiamine phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003436488.1;translation=MSKSHKNKKPKINKIKGLYVIVDPEHILGMPLHEMCELISASGANVLQLRSKIHDDGDFLEHAKKINSICKKNNTLFIINDNCVVANLSGADGVHVGRTDLPIKEAKVILKDNQIIGNSNATIEEIQESSKLGADYIAVGSIFITKTKTNTIPSSIEIIRKAKDLVTQPIVAIGGINLRNIKHITKSGADAFCVASAITKSKNPEKVIKEMKQFIK;locus_tag=LOCUS_6330;gene=thiE;EC_number=2.5.1.3;note=WP_003436488.1 thiamine phosphate synthase (Clostridioides difficile) [pid:36.6%25%2C q_cov:93.5%25%2C s_cov:96.2%25%2C Eval:2.1e-32],MGA_645
sequence10	MetaGeneAnnotator	CDS	9274	9921	.	+	0	ID=MGA_646;product=haloacid dehalogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258353.1;translation=MSYQKNNLSIIINQSIENINEIHLGRESALANCRKSIQKSSSSIRASHRNQFDEALTLANESKESLEKAKEALKKFHLNINTVFFLDTEKEFCEAMLVYSFLSESNIPTPEDLQVTVSSYLKGLAEASSELRRTSLDSIRKSNYELADKYLGIMNEVTDLLETIDFPEAVTGGLRRTTDQLRSVVERTRGDVTLSLDRKKLENQLENLKETLKNS;locus_tag=LOCUS_6340;note=WP_012258353.1 haloacid dehalogenase (Chloroflexus aurantiacus) [pid:39.1%25%2C q_cov:91.6%25%2C s_cov:93.8%25%2C Eval:5.1e-31],MGA_646
sequence10	MetaGeneAnnotator	CDS	10020	12089	.	+	0	ID=MGA_647;product=sodium-translocating pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392862.1;translation=MNIIIVSIIAGILALLTALFLAFKITRQKIENSNLSEIANLIQEGAMAFLKREYTILSIFVISMFIIILLFIDLNVLNVSKIKELQSDGNITSSGPWTALSYLFGAIGSGLAGFIGMSIAVRGNSRTAEAAQKGLNPSLRVAFNTGTVMGMTVVGIGILGVSILWLIFGNANIIAGFGFGASSIALFARVGGGIYTKAADVGADLVGKVEAGIPEDDPRNPATIADNVGDNVGDVAGMGADLFESYAGSIIATIALALFVPTLNKGLSTESAIVFPILIGGIGIFSSIIGTLLVRTKPNANMSSLLWSLRIGIFGAGIISLIGTYIATIYLDIHIYYFYIIVIGIVVGQVIGTATEYFTSYEYNPVKWIAKQSLTGHPSNIIAGIAVGLYSTLIPALSVVIGIWAAYQLGGLYGIGLSSVGMLATLGITLSTDAYGPVADNAGGLAEQAGLDPEVRERTDALDALGNTTAATGKGFAIGSAVLTALALMAAYANVIGVKNFNLLDPSVLIGVLIGSTLPFIFSGMTMQAVGVAAGAMIEEVRRQFREIPGLREGKKGVKPDAARAVEISTTGSLKAMILPSLTAIIAPIIVGIISEKALGGLLAGSIVSGFLLAIFMANAGGAWDNAKKYIELGNHGGKGSDAHKAAVSGDTVGDPFKDTSGPAINILLKLMAIVSLIFGPLFLGINIF;locus_tag=LOCUS_6350;EC_number=3.6.1.1;note=WP_011392862.1 sodium-translocating pyrophosphatase (Moorella thermoacetica) [pid:54.3%25%2C q_cov:97.1%25%2C s_cov:97.8%25%2C Eval:4.6e-192],MGA_647
sequence10	MetaGeneAnnotator	CDS	12097	12744	.	-	0	ID=MGA_648;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965570.1;translation=MKKIFEDKNFSIEKIIVGPFSENCYLVNRKNSKECFLIDPGYESSKLLNKISSYGFELKYILVTHGHADHTGAIAKLNEKYDIQVFLGDGDQNLYENPDKWITDFFPEFESPPKQYSIIXDDKKIKIDHLNIEVIVTPGHTLGSLCYKLENYIFTGDTLFKNSIGRYDLPGGDKDKELSSIKTKLLTLKQDCIVLPGHGDSTTIGSENNNNPYLI;locus_tag=LOCUS_6360;note=WP_010965570.1 MBL fold metallo-hydrolase (Clostridium) [pid:40.9%25%2C q_cov:94.4%25%2C s_cov:99.0%25%2C Eval:5.5e-41],MGA_648
sequence10	MetaGeneAnnotator	CDS	12728	15343	.	-	0	ID=MGA_649;product=DNA mismatch repair protein MutS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583439.1;translation=MGKDISDLSPSRKQFLELKKDYSEEILLVRVGDFYEAFDEDAKLISKILGIVLTSRNVGKGLRAPLAGIPYHSIDSYLKDLVDSGYRXAICEQTEEXTSYKGIFKREVVRIITPGTIIEPDLLQNDKNNYLCSAISGQFEVGIAIADISTGECFAGDFPEHLVVDEISRHSVSELICDNKVRMLFEENGELPTNLRIVSTDDQIISTSSKKIKNFLKVKNLKGMGCVEGKPSLFAVSELINYISETQKQILPKFNNVSVLSRDGFLLFDSQVSRDLELFETLNPSSKSLTLFGVLNSTRTSMGARLLRNWISKPLADLKIIQDRQELIKIFFNNNLKRREIRSILSSIPDMERLIHRIITNRINPKEIVALAFAVKVIPNIRKIIQEIGQDLPQIKDLSNQIIDLNDFSKKILSVVEEEPIGLVGGGKIIKKGLNKELDIQRGYIFESRXKLASIERNMKEKTGINNLKIGFNKIFGYYFEVSKSHIDQVPEDFHRKQTLVNAERYTTSQLKNLEXKIINARDKVSSMETELFNELCVSLSEYQNDVVQVAKIISQIDVLSNLSEISVENNYTCPTFTKENKIDIKAGRHPVIEKSMPFGKFIPNDIDLSNDKRQILVITGPNMSGKSTYIRQVAMLTLMAQIGCFIPAEKAEIGLVDQLFTRAGLSDDIGAGRSTFMVEMVETANVLRRATSRSLVILDEVGRGTSTYDGLAIAKAVVEYIHNNPQKSCKTLFATHYHELTNCEEYLDRCVNSRVDVNETGKDVTFLHKIVPGASKRSYGIHVGKLAGLPKEVIDRAYDLLSDYEGNNQEKTTYNNYYGFQIPMIDQQENWISEEISSIDVNLITPLEALNKLSEIKKKSQEIKGDEKNI;locus_tag=LOCUS_6370;gene=mutS;note=WP_012583439.1 DNA mismatch repair protein MutS (Dictyoglomus turgidum) [pid:42.1%25%2C q_cov:98.2%25%2C s_cov:99.6%25%2C Eval:1.3e-186],MGA_649
sequence10	MetaGeneAnnotator	CDS	15347	15901	.	-	0	ID=MGA_650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTNKILFLTALGSILLAVIIIPMIIFKPWIPIDPLYVSGKIFYLRITEPLILDQIVFSQTTESGNVKTYSIKPVNPNYKLAKIDVELTNHSESXVKTLIDEKAAELITTKQGRFEPINSVSTSELISNENSNNSIEFSPLWGSVDLLSNEIIKGSLVFEVPPNLDFSQFAWLGSDSITISYKE;locus_tag=LOCUS_6380;note=MGA_650
sequence10	MetaGeneAnnotator	CDS	15905	17074	.	-	0	ID=MGA_651;product=cysteine desulfurase NifS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048066396.1;translation=MDDYIYLDNAATTKIKKKVLDSMVPHLESNFGNPSSLYSFGQESRNSIEESREKIAKIINCRPNEIIFTSGGTESDNLAIFGSAYAMKEFGNHIITSSIEHHAVLHACEELEKEGFKVDYLPVDKFGLVSPKDLKNAIKPTTILVSIMMANNEIGTIQDMNNLIKVVREKQNSNNNIILFHSDAVQSLGKMEINVKNMDIDLLSFSAHKINGPKGIGGLFIKRGSPMKPMFFGGGQEKQLRSGTENVASIVGFAEALLLADSERGYFNEKCSKLRDQLTNRILKLIPGSFLNGHPTDRLSNIVNISFDGVEGEPILVGLDFAGIYASSGSACSSGSLDPSHVLIATGLNPRLAVGSIRFSFSPSNSEEEIDYVVKELSKIVKNLREMAT;locus_tag=LOCUS_6390;gene=nifS;EC_number=2.8.1.7;note=WP_048066396.1 cysteine desulfurase NifS (Methanosarcina acetivorans) [pid:50.0%25%2C q_cov:98.2%25%2C s_cov:97.4%25%2C Eval:1.8e-104],MGA_651
sequence10	MetaGeneAnnotator	CDS	17221	18186	.	+	0	ID=MGA_652;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057313.1;translation=MINVKNLSKYYGDYPAVINISFELKKGDIVGLLGPNGAGKTTTMRVLTGFTPPTEGDVTIGGYDIIKDSLEIRKLIGYLPESVPLYLDMEVTDYLEFMGKIRGMSNSQIKKRLPEVIDTIGLGEYRNVLVGKLSKGYRQRTGIAQAILHEPKILILDEPTIGIDPVQVIETRGLIKELGGNHTLILSSHILPEVSMICKRVLVIHEGKIVADDKPSVLSEKLKTSEQIELTIRSKNITEILKELRNFNFIIDARENIVNQITNKNDETINLIVEVKPENNAQEIIAKSVIEKGWGLVRLNSVPMTLEEIFMQVTTDEKPKE;locus_tag=LOCUS_6400;note=WP_011057313.1 ABC transporter ATP-binding protein (Thermosynechococcus vestitus) [pid:40.7%25%2C q_cov:100.0%25%2C s_cov:96.9%25%2C Eval:1.6e-65],MGA_652
sequence10	MetaGeneAnnotator	CDS	18186	18947	.	+	0	ID=MGA_653;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_118838670.1;translation=MKNIFLIANKEIKTYIASPMAYIVAASFLAVTGFFFVASVSDAFAEASIRGFLAGAVFFLIFLSPAITMRLLSEEQKLGTLELLLTSPLKETEIVVGKFIAAFSIILLMFLLTIFYTIILLIYGVPDIGPIFTGYLGLILYGAATLSVGLFASALGPNQLVSLVVGSGILTTLTFIDFIANRLSPNVAKILNHLQLGGSFSVFDQQSFGISEGGHFADFARGIISLGDITYYFSITLIFLMLTILILESRRWR;locus_tag=LOCUS_6410;note=WP_118838670.1 ABC transporter permease (Salinibacter ruber) [pid:29.4%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:6.6e-26],MGA_653
sequence10	MetaGeneAnnotator	CDS	18947	20704	.	+	0	ID=MGA_654;product=Gldg family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057315.1;translation=MNKKESRSPKKNKSWNMFAWLKDNSRSFTQLLVLFGSGSLIIGILVYVFFRDIQDAGIIVSGVAILTLFIAAILNRKNVFRSILGRRGKYSANTFFIVFGTILLMIAGNVLFFWLETKNSPPSWIRNDLTATKEYELSEQSGAVLDQLNEDIEIFIFIKNNTQNSNLAIRRTEDLLSEFSKRSTTKNLTYKLIDPDLDPDIAQKLGIDRFLAGRSLPSLAFKGSETQRISYSIGIDPRENPDVFSEQDIITGLLVVTQLKQKIVLFLSGHDERDITDFDQNSNGYGLAVDALVRDNYIVNNVTVAELGNILASGDLENFPAAVIIADPKEPISQPQSQLLTEYINFGGNVFILIESDVPEEYLTFLAQWGIIVGNGTLVDTISYVAPSLDFLQVKNTNLQIPDHPITHNFDVMYFPGASYIAMSLSKEEMPITPEGVLYVNSQPLAFTTINSWSETDLEKLSFDNKVDTPGPLPIAMASQIISTVIGEPLDQIDGGYSYSHLVVIGDSDFASNKYITSSRNQDFFANSVNWLTKDTDLISIRVKESVFRELVLTKNERAFIRWSGWLLMPSVIGSLGILAWWRRR;locus_tag=LOCUS_6420;note=WP_011057315.1 Gldg family protein (Thermosynechococcus vestitus) [pid:25.0%25%2C q_cov:90.4%25%2C s_cov:91.8%25%2C Eval:3.0e-32],MGA_654
sequence10	MetaGeneAnnotator	CDS	20707	21750	.	+	0	ID=MGA_655;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIRVSLILVILLSLSSILGTWVYIEFLNSEDTVEESPYLYRISNKDMITVDIKTKQKELSIEKRDDRDGLWFFKTLINTPLNLNRWGGFTFLLQGPITDRFIDDSETNRSKFGLDDPSLFLNIGLSDGSNIELELGDKTPDGAYHYALVKGRSSIMTVDVSWVEVIQKLANIPPLPDWYYSLDPITVTEVVFYINGKILKAYGFVKSNPDENFRKWEECKLLIDQETNQPYLEIEPCVGKKIDDQKLLINLVKHISKPDFDGVALDGTGLKSPQEFAKFGTTSDSPHIFLRTEGFDSRGRKILSRVAITFGSDTSDGNHVYVVPQDGEDVILADKKWVQEIIKNFY;locus_tag=LOCUS_6430;note=MGA_655
sequence10	MetaGeneAnnotator	CDS	21747	25115	.	-	0	ID=MGA_656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTSEYYNSKLSKIGNELKLISQELYLTFLNNKNDLRKYFDEKTLVDWALIGLNISKGSEKNLKTGKKFFQVSSLINEKIPLSTFKIWMLMVEKISLESTALGYSYLISSPSVLKFLRPRYLQEWGEISKSIFSGSWKSNSLASKFLELSPLLLEIISFDDLKKISEYCKNLSVKSCDLASHNLDWFSENLPILGKESGDFIILLKKMTTSDWREINMFFELLDLNIQKNKVENIKYLNQLLLNFYLEKEKKSNKNKTENADIKITDFAKTFLKNTEKLRDLDLSRIFNFNLNLIKFSSQSAYNFNNSVDSLLEKLTDTQLLEWFNTGIEILKKDLTLGELFFLIETEQSQLLIDTLSFSVDIEREKELFKIYCAALSGKDLEIQSSEKLVEKEIGWLDSNLATTEGTTIFLPQTVKRFSTKKENFAWYKVIATHQTGHVEFGSFEFNFERKSSLFFDLRFQLLNLKSEENIDDTLKDTNKDSKSYLTDISKFLNIFDDSKLALDIFTLLEASRIDRKVLNVYRGIRDDYLDVQKSALINRPKIEELPTREALVEILIRYSINPNLKVNIPSKYKDIIRTLFVLVDKMNSLKAIVEDTAEATIRIYKILSEIDNTLEDNMEFEELDLNENFQDETENQENEDDLKNILDYFQSLVKEFKSSNKNNDSDESENVLEESKYQSPQEVEYRGDFKPELSQLLYDFQLSDGISDGNFEDLNLDENELEEMIKNFPDIQDSEGDQSEKADGNVAKNIADLLDTLDGQDSNSGGMFSDSFGHVDENGKSLVPTGKDQYVYDEWDFRAKEYKKNWCLVNEKKMSEGESDFYDETLLNYSGLMKEIRKQFEMIVPENYRKIKRLEDGEEQDLDLVVEAMTDLRAGITPSEKLFWRRNKIERDIAVAFLLDMSASTAEAIEDTKYSRDDWGAPDDPEKYMEWLRKRRSQGLRRGYKRIVDLEKEGMILLIEALETLGDFYGIYGFSGYGRENVEFFVMKEIEEKFSPEIARRIDRVSPLHATRMGPAIRHTIKKLEKVEAKSRFLFLISDGRPQDRGYSREGVEKEYAVNDTKKALQEAKSIGVTPFCLTVDKQGHDYMKNMMDDMSYEVLDNIALLPSRLPELYKALTMT;locus_tag=LOCUS_6440;note=WP_110170977.1 VWA domain-containing protein (Luteitalea pratensis) [pid:31.2%25%2C q_cov:29.1%25%2C s_cov:43.5%25%2C Eval:1.8e-39%2C partial hit],MGA_656
sequence10	MetaGeneAnnotator	CDS	25122	25703	.	-	0	ID=MGA_657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIHNSIIKIKSRLKLLKVQEFSDKKSSGIPKAAVFVLLTQKHDGPSILFVKRSNEVSNHKGEICFPGGKKEIFDKSLLDTAYRELEEEIGVTKQSIEIICSLSPEITRTGYIIFPYVAHLIDDSNIKPDKREIEKVMFITLDDIQDPERKRTIDFLSKKSRIQRNGFLLNNYLVWGATSNITNELLERIHQ;locus_tag=LOCUS_6450;note=WP_025862357.1 CoA pyrophosphatase (Legionella pneumophila) [pid:32.9%25%2C q_cov:72.5%25%2C s_cov:82.8%25%2C Eval:9.1e-18%2C partial hit],MGA_657
sequence10	MetaGeneAnnotator	CDS	25714	26595	.	-	0	ID=MGA_658;product=CbbQ/NirQ/NorQ/GpvN family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011731550.1;translation=MSSDKTNYKNIRIEEFKISEKPFYIPVADEIDIFHSAYKQKIPVLLKGPTGTGKTRFVEYMAWHISNIASTNHKKKSDVQKEVPLITVACHEDLTASDLVGRYLIDPEGTRWVDGPLTRAVKVGGICYLDEVVEARKDTTVIIHPLTDHRRLLTVDKLGELIEASEGFLMVVSYNPGYQNALKDLKQSTRQRFIAIEFDFPPFEVEKEIIKTESGVNDSIASSLATIGEKIRNLTDYGLTEAASPRVLIYAGRLIKDGIPARRACQVAISWGITDDKKLHKSIEEVISAIFPN;locus_tag=LOCUS_6460;note=WP_011731550.1 CbbQ/NirQ/NorQ/GpvN family protein (Mycolicibacterium smegmatis) [pid:52.6%25%2C q_cov:93.5%25%2C s_cov:96.6%25%2C Eval:3.0e-76],MGA_658
sequence10	MetaGeneAnnotator	misc_feature	26609	27195	.	-	.	ID=MGA_659;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010881297.1:dephospho-CoA kinase,WP_010881297.1 dephospho-CoA kinase (Aquifex aeolicus) [pid:33.3%25%2C q_cov:98.5%25%2C s_cov:94.4%25%2C Eval:1.1e-18],MGA_659;locus_tag=LOCUS_6470
sequence11	MetaGeneAnnotator	CDS	113	1036	.	+	0	ID=MGA_661;product=transketolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249224.1;translation=MRENNMELYESKILSLVKENEKIVVLTAENRVSLRNVPEKLNQNFIDVGISEQNLIGIGAGLAKLGFLPIMHGMSTFLTMRAFEFIRTDLGYPKLPSILVGTFNGLSATANGTANGPTHQAIEDIALMKLVPNMTVVAPSDRLETLQILDNISKLEGPLYIRDSNFESMEIEREPFVWGKNDCIVKGDEIAILSFGTMLDICLKASKKLSEKSISHAVYNMRFLKPIDKNLLNEIFSKFEKIIVVEDHIDTGGLSSIIREFAWENGKDKKIIFMNLRDSFFRPGNFNDAIQNTELTVGKIIAKVINS;locus_tag=LOCUS_6480;note=WP_011249224.1 transketolase family protein (Thermococcus kodakarensis) [pid:30.9%25%2C q_cov:99.0%25%2C s_cov:98.4%25%2C Eval:4.7e-35],MGA_661
sequence11	MetaGeneAnnotator	CDS	1033	1614	.	-	0	ID=MGA_662;product=D-sedoheptulose 7-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000566736.1;translation=MTNSFVDEIETIISQSTDVITKTLGLANLIDECAAKIITSLKNDGKVILFGNGGSAADAQHMAAELIGRFKIERSSIPAFSLTTDSSIITSIGNDYDFENIFSRQIESLGGEHDIVIAISTSGNSKNVINGVKSAKEKGIFVIGLSGKSTSKLKEISDITINAPSDDTARIQESHRVIIHCLCDIVEKSIVKS;locus_tag=LOCUS_6490;gene=gmhA;EC_number=5.3.1.28;note=WP_000566736.1 D-sedoheptulose 7-phosphate isomerase (Helicobacter pylori) [pid:47.1%25%2C q_cov:88.6%25%2C s_cov:89.6%25%2C Eval:1.4e-42],MGA_662
sequence11	MetaGeneAnnotator	CDS	1717	2475	.	+	0	ID=MGA_663;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_038967020.1;translation=MINDLFSIKDKVIVITGSNQGIGEILAKNMQKKGAIIYRIDKRFSKTKKKDDRIFNKVCDITNLKQIKNVCNDIFNESKKIDVLINNAGITLPGKPETYSLDSWIKTLGVNLTGSFQMSLEILRYMKKKRRGSIINITSINAEFGFPNNPAYVASKGGLKLLGKSLARDWGKYGIRINNLGPGYIITKMTEKSFKNKKTRLDRQKNTMLNRWGEPEDLVGPCIFLASDASSYVTGQDIYVDGGWTANGIQIE;locus_tag=LOCUS_6500;note=WP_038967020.1 SDR family oxidoreductase (Bradyrhizobium diazoefficiens) [pid:40.2%25%2C q_cov:97.6%25%2C s_cov:95.3%25%2C Eval:3.2e-49],MGA_663
sequence11	MetaGeneAnnotator	CDS	2533	3360	.	+	0	ID=MGA_664;product=N-acetylneuraminate synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003974091.1;translation=MVFIIGEIGINHNGDIEITKKLIQIAKKAGCDAVKFQKRTIEKVYTKQVLDSPRQSPWGTTTREQKMGLEFDKKEYDVINNYCLENKIEWFASAWDIDSQYFLQDFNLKHNKIASAMLTDIEFLNLVANEKKHTFISTGMSTMEEIEQAVKIFEDSDCPFELMHTNSSYPMKIEEANLLCIPMLKEKFGCNVGYSGHEVSAYRVSLIAVGLGATSLERHITLDRTMYGSDQAASLEPAGLYRLVRDVRTVNSILGDGKKRVWPSEVPIKEKLRKK;locus_tag=LOCUS_6510;note=WP_003974091.1 N-acetylneuraminate synthase family protein (Streptomyces) [pid:48.0%25%2C q_cov:99.3%25%2C s_cov:87.2%25%2C Eval:1.2e-63],MGA_664
sequence11	MetaGeneAnnotator	CDS	3406	4920	.	+	0	ID=MGA_665;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKILLFLTNDYTHYCLSYAFQKKYDHKLYAISEVTSTPRKFFENQEFVRYEKLSFFHDHIKKKNTPPDMEYLKKFEDKYGINLWKLVQNERIFLYYKNFHKFSNDEILNILEQECRFLEDTLEEIKPDYFFTKMPSLHHQELIFQMCKSMGIKVIAMNFTLLAQKCMLSQDNSELDFHTIQNIPDEKIMSFDEIQNELKTSSLVKQLDTKLVIPQNSLLNKINSMFEYVLKFESNNTKTHYTYYGRSKKKVLFYYIIDFLRNKKRKKFIEKNLIKDSKFSEPFVYFPLHMEMERTTLIGAPYFINQIEIIRSVAKSLPIDFKLYVKEHPGQILRGWHSEKEYEEIMNIPNVRLFHPDIPNDVLYKNCSVVFTIAGTAGFEAACYEKPSVTMVRLNYSDLPSVTLLDNFSELHDLFKIKLKEKVFAKDVSKFLNLFKANVSNFDWANFSKKLSEEFFVNNTQDAHISNDKMGSFLKENYHILEDFADEHFKKIQFFEKGKNSN;locus_tag=LOCUS_6520;note=WP_011088743.1 hypothetical protein (Bradyrhizobium diazoefficiens) [pid:26.2%25%2C q_cov:25.8%25%2C s_cov:27.6%25%2C Eval:1.5e-08%2C partial hit],MGA_665
sequence11	MetaGeneAnnotator	CDS	4913	5794	.	-	0	ID=MGA_666;product=sulfotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011140468.1;translation=MDRLVKPNFFIAGAPKSGTTNISYYLSQHSNVFMPDNLEPYYFARLDVPEKYERDIISNEDEYLKLFNNQNNATMVGESSPVYLYCPNSPRLIKNFLPSAKIIISLRNPVEIAFSEYLSLKFMKFEKNLTFKQTIDFNEEQLQKNEFHIDSILESGFYYKHLSTFMNEFPADQIKIIIFEDYIKTPQKIIQSIFSFLGLKEFPNLIDPPKNSYRVPTNEGSKLLMNNSTFRKLSKRLIPTSTRQKFGDKFLVKESKRPPVPHEERNRLKKIYNDDVDSLKKLLDIKLPWNDFN;locus_tag=LOCUS_6530;note=WP_011140468.1 sulfotransferase (Gloeobacter violaceus) [pid:25.5%25%2C q_cov:95.6%25%2C s_cov:96.6%25%2C Eval:4.2e-17],MGA_666
sequence11	MetaGeneAnnotator	CDS	5779	6534	.	-	0	ID=MGA_667;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011088717.1;translation=MLTGAAGNLGSKYVEGFSQAGANVVLADINFQQCKKLEKKINKKYDTNSLSVKVDLTDPKSIKGMVAKILKKYSTIDVLINNAAYQGNNKIRTNGFDGLDLKTWNRAIDVNLTGVFLLSQEIGKIMIKQKNGNVINISSTYGIVGADQRIYGKSGQNSAVFYAATKSAILNLTRYLAAYWNRTGIRVNTFSPGGVENNQDKTFVKKYSEKTMIGRMAKKDEYVGALIFLASDASSYMTGSNLIIDGGWTAW;locus_tag=LOCUS_6540;note=WP_011088717.1 SDR family oxidoreductase (Bradyrhizobium diazoefficiens) [pid:36.7%25%2C q_cov:100.0%25%2C s_cov:94.6%25%2C Eval:1.1e-44],MGA_667
sequence11	MetaGeneAnnotator	CDS	6662	7720	.	+	0	ID=MGA_668;product=N-acetylneuraminate synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870578.1;translation=MKKIMIDGKFIGNGCPFYIIAEAGANHEGELDKALQLIDSAIEADVDAIKFQNYTAAKLTTKTAQKYWDDGNKKESQFDVFDKLDKLSKDDWKKIFDYARQKGITCFSTPFDLDSVDLLESFNVPAYKIASADITHIPLIKKIASKKKPIFMSTGMASFSEIHDALSAIHNEGNNEIVLMHCITSYPTKPEDANLEMIKKLSKEFPECVIGYSDHTLGTEIAALSVFYGSTCIEKHFTFDKNLKISRDHRLSLTSDDFKELRNKINLIEMSRGSEIENYIHVESDAVKYARRSVVSKCIIPKGSEITESVIDVKRPGTGIAPKYFSKIIGSKAVKDIPEDSTIQWDDIDYNQ;locus_tag=LOCUS_6550;note=WP_010870578.1 N-acetylneuraminate synthase family protein (Methanocaldococcus jannaschii) [pid:42.0%25%2C q_cov:98.9%25%2C s_cov:99.1%25%2C Eval:9.5e-70],MGA_668
sequence11	MetaGeneAnnotator	CDS	7717	8715	.	+	0	ID=MGA_669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKKILIRVDGSKKIGLGHVYNMLTILHFLRNEQILIVMNEENKLGSSKFKEQKYKIKFFKNNSELLKIISNFEPDIIFNDILNTKIDYMKKIREMSSMIVNFEDVGKGRAYADLVFNPIFNKKKMLTKEFYGGKFACVRDEFRIWTNSSLRKNVKKILVSFGGTDPTQITTKIFRVIEELSLKNIEFIIMLGFGFEHKDEIKKAANHLIKDGYTIKLIEKSDFLAKYIRYADFAIVSNGRTVFEIASMQVPILSVAVNDREKSHTFVRDEKIGKHINYNPVSFTKELSFNIKHLLEYENRKIFRARLKKIELLYGVERVIDIIYDEFKLRT;locus_tag=LOCUS_6560;note=WP_011986975.1 glycosyltransferase (Clostridium botulinum) [pid:33.3%25%2C q_cov:98.8%25%2C s_cov:58.8%25%2C Eval:6.0e-47%2C partial hit],MGA_669
sequence11	MetaGeneAnnotator	CDS	8704	9447	.	-	0	ID=MGA_670;product=glycosyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869429.1;translation=MGSTRLPGKVLELVDGKNPSLLYTINQLKESKYLKKIIVATTTNPEDNVIFDFCQKIDIDIFRGDPENVLSRYYECAKSFHLSSILRVTGDCPLIDPKIVDQGISKFLENKYDYVTNTFPRSFPDGNETEIFSFDTLELAHKNARLPSEREHVTPYIRNNKQQFKIYNFSYSENISNLRWTLDYDVDLKLINEIILKINTRPIHLEDILNLFKSEPNLKKINQDHKPNEGYMKSLKDDEEFTRNSSS;locus_tag=LOCUS_6570;note=WP_012869429.1 glycosyltransferase family protein (Thermanaerovibrio acidaminovorans) [pid:35.8%25%2C q_cov:98.4%25%2C s_cov:92.8%25%2C Eval:3.7e-42],MGA_670
sequence11	MetaGeneAnnotator	CDS	9568	11439	.	+	0	ID=MGA_671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLYLIEDIDKNRIEELEQDDSDLVTLDYISHIRLNENGIVHKTMDEYLNAKDRKIVFEHCSEYLKKLEEYKNEKSSFHGINLIGIIDRNELLEFLMDRIPRVIAISKILEDSKYETVFLSSDLYEIFQNTDYDSKFQIFNTIDKKELTFENITIPIKIGKTTSSINVSRKNYQFIKKTIEGIIGKSFHLTNNNSDVKKIILVEFDPELYFELLQEINKNNLQAILVNFRKSAVYSKKTLQNLRKTNSVFITGKEYLDKSKLEEIKDRKNIILDYLKKNDNKELIPKLSLNYKIDTTILLKRKIINIIIQRIDEYLNCISIAEEINSSKNNLGVLMLNNSGETEKIFDSVFNNRLIFLLQHAFANYTKNISYIDLLDDYHHTKKQFIVWGNFVKNYLTNIKNIDKDQIIVAGSPKYDSFESINKKNSKNKKIIITLRPIIFHVEGFKTELYKNYEKALSKIISSCRDFSNVEIIFKLHPQQNVNNEFLEKTIRTNFPEARIEQTIPIKELFYESDLHINIASDNFDISSVVLEAMILKKPTLNIQLQTNKFNFEIFQMNAIRTMMYDEDIKKEINALLYDKKIIGQLLSNSKQYLKEYLSNHGKASESVINQIMKRNSSINF;locus_tag=LOCUS_6580;note=MGA_671
sequence11	MetaGeneAnnotator	CDS	11425	12540	.	-	0	ID=MGA_672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYKKRKEIENEVLKIYRKVSPSHRNLINNKTKSQFFYQRANLMNTLGIPVGYFKNKKILEIGGGTGEKALFYAFYGADVTIIEPNENSCKIAQRIFSKTNLIKKLSIINKSIFDVDLKIIKNFDMISIEGVLHHTFKPMENLNMVLKNMVENQIILIAIGESHGMLKRELQKEAVTKLANNDPMKISFYVKKLFPEHLKRATNHDLRNAESVIQDNYVNPQDESTNLKDICATFLKNKISYLSSYPKLDLFYITNPWNQERENYFNYNSYKKYYGLLEKIWMTCGEEKISETMKTFDLQHIIKEVKNDEKKLLKLKQKIKKNSFREKDLEIIKKGYMGIGLNYFVGIKQNTDDKKFIKKLSAYKKSKIN;locus_tag=LOCUS_6590;note=MGA_672
sequence11	MetaGeneAnnotator	CDS	12587	13726	.	-	0	ID=MGA_673;product=N-acetyl sugar amidotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015749.1;translation=MKNLKICTKCIQPNTRPGIFFNEDSVCGACLWEKEKKKIDWSERIVELNKIAHNAKQENAMYDCVIGVSGGKDSTKQAITARDTLGLRCLLVNYQPEDITKIGMDNIENLKQLGFDVISIRPNPKIMKKLVKFDFFERLNPVKATEFSLYSSAYIIAEKFHIPLVIQGENPGLTVGTSLTGVGKDADALKAYKLQTLSNGWKEYLQVEGVSEKDLFLFHYDVSKLINQNAKGIWLQYFLQEWSYRGNAEFSSKFGFKGRDNFRPEDIGTYVSFGALDSDIVPVNQMLKFIKFGFGFCMDHVCYDLRDGLIDKKKAIELVLKYDGKCEERYIEEFCNYVEISRDEFDKTCEKFRGAMWIQENSEYRNQIHDLLKEIYDKE;locus_tag=LOCUS_6600;note=WP_011015749.1 N-acetyl sugar amidotransferase (Fusobacterium nucleatum) [pid:51.0%25%2C q_cov:92.1%25%2C s_cov:94.1%25%2C Eval:1.7e-96],MGA_673
sequence11	MetaGeneAnnotator	CDS	13819	15606	.	+	0	ID=MGA_674;product=carbamoyltransferase C-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000698821.1;translation=MKILAVTLEKCSGCALLINDKIIFSTSEERYSRIKSDSSFPKQSILHALKFANIQGSDLDQVIICGNKLSLIPSLTNEYSTLDVDDQLKIMKKYWYPKLVEKKSVSFLEIIKDKINLEQFPFNTKFAKGFDYFSLENPYTENDAKRVSVFFKDILADLLQIDTSKISHMEHDWCHAAYAFYASPIRDDNTLVVTADAWGDDLSGSISIFDKKENQLKRVKEYDHRDFQLARIYRYTTLYMRLLANEHEYKVMGLAPYYTGPKREEVEKIFDKMLELDGLEFKFNKEIPDIFNFLENNLDSFRFDHIASGLQKFTEKILVNWFTNLITEYQCTSVVFSGGISMNVKANMLISEIPQIKHFFVPGAGTDETLPIGACYHHAEINGISPQSLNTMYLGENASYTENEINKIPNCKITKFTDVEQILSHLLNNKIIATCRGRMEMGQRSLGNRSILADPRDVENIQKINHSIKMRDFWMPFAPVVLFDKQDELLDNPKKIDSPFMTIAFNTINGRNKIPVGVQQADETARAQLLKKEQNAILWELISKFYEKTGIPALVNTSFNLHGEPIVRNIDDAIRVFKNSDLDILWLEDHIIEKI;locus_tag=LOCUS_6610;note=WP_000698821.1 carbamoyltransferase C-terminal domain-containing protein (Leptospira interrogans) [pid:39.8%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:2.4e-109],MGA_674
sequence12	MetaGeneAnnotator	CDS	754	1467	.	-	0	ID=MGA_677;product=50S ribosomal protein L1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393948.1;translation=MVKQGKKYRNAIEEVGQTFYSPDDAIALAKKVSNRNFDEAVELHILTSADPKHADQQVRGFAELPHGTGKQVRVLVFAEGDVANDAKEAGADIIADQDVIKKIETGWSEFDVSIATPDQMSKIGKLGRYLGRKGLMPNPKTGTVVQGKDISKAINASKKGRLEIKMDKTSIIHLRFGIVSFSEEQLQDNLKSIMTTLISSRPDGVKGRFLKKATLATTMGPGIKIDITDLENMVENN;locus_tag=LOCUS_6620;gene=rplA;note=WP_011393948.1 50S ribosomal protein L1 (Moorella thermoacetica) [pid:50.2%25%2C q_cov:95.4%25%2C s_cov:97.4%25%2C Eval:9.7e-61],MGA_677
sequence12	MetaGeneAnnotator	CDS	1492	1920	.	-	0	ID=MGA_678;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056150.1;translation=MAKQVQALVKLQIEAGKATPAPPVGPALGQHGANIMGFVKEYNDRTSKMSGNIIPVEITIYTDKSFTFELKSPPASALIKKMAKLDKGSGESGVEMVGKITRSQAKEIAKEKLQDLNAVDLDAATKIIEGTARSMGVLVEDK;locus_tag=LOCUS_6630;gene=rplK;note=WP_011056150.1 50S ribosomal protein L11 (Thermosynechococcus) [pid:62.4%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:2.8e-46],MGA_678
sequence12	MetaGeneAnnotator	CDS	1925	2533	.	-	0	ID=MGA_679;product=transcription termination/antitermination protein NusG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258049.1;translation=MIEEIDLTEEILEEEEIMDLSSYSGDWYILHTYSGQEDRVKKNLDQRVKTMDLKDKIFGCVVPTESEVEVKDGQRKIIKKKMYAGYLLVNMTMDDDSWFAVRNTPGITGFISXEDEQERRPKPVPLEDKEVDQIFSRMKSDSPKVRVGFAKGDSVRIKDGPFAEFMGTVDYVDQDKGKARVLVSFFGRDTPVELDFLQLDKG;locus_tag=LOCUS_6640;gene=nusG;note=WP_012258049.1 transcription termination/antitermination protein NusG (Chloroflexus aurantiacus) [pid:50.0%25%2C q_cov:94.1%25%2C s_cov:98.4%25%2C Eval:2.7e-55],MGA_679
sequence12	MetaGeneAnnotator	CDS	2535	2771	.	-	0	ID=MGA_680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEQSPKVSEVRPSRLSGLKLGRIGEIISELKKTRWPSRSEATRLTLLVLAIXGAIGIILGIIDMGFSRLFEIXSXG;locus_tag=LOCUS_6650;note=MGA_680
sequence12	MetaGeneAnnotator	CDS	2969	4156	.	-	0	ID=MGA_681;product=elongation factor Tu;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390512.1;translation=MGKQTFDRSKPHVNVGTIGHVDHGKTTLTAAITATLAKANDNVSFRAFDTIDNAPEERERGVTIAIQHVEYETETRHYAHVDCPGHADYIKNMITGAAQMDGAILVVSAPDGPMPQTREHILLARQVNVPKIVVALNKCDMMDDEELLELVELEVRELLTEYGFPGXEVPVVKISALQALESEGEGEWADKINELMAKVDEYIPVPERPTDLPFLMPVEDVFSIKGRGTVVTGRIERGEVKVGDEIEIVGFGSTEKSTVTGVEMFHKSLDSGIPGDAVGCLLRGLEREEIARGAVLAKPGTITPLTKGKAQIYVLTKEEGGRHTPFFSGYKPQFYIRTTDVTGTVTLPEGTEMVMPGDNLEMDVELMYPVGLEKELRFAVREGGRTVGSGVFIAV;locus_tag=LOCUS_6660;gene=tuf;note=WP_011390512.1 elongation factor Tu (Rhodospirillum rubrum) [pid:67.8%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:1.9e-154],MGA_681
sequence12	Aragorn:1.2.38	tRNA	4251	4325	.	-	.	ID=Aragorn_11;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0110;note=Aragorn_11
sequence12	Aragorn:1.2.38	tRNA	4350	4435	.	-	.	ID=Aragorn_12;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0120;note=Aragorn_12
sequence12	MetaGeneAnnotator	CDS	4604	4759	.	+	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEKPLNEISLDELVEKAILERVDRRNRIFRLINLLILGIIIGTIIYFFF;locus_tag=LOCUS_6670;note=MGA_682
sequence12	MetaGeneAnnotator	CDS	4931	5188	.	+	0	ID=MGA_683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTLNSYFNNKRIPLLLLLNVLLIVFVVLEFSILNQGKVTRDIWDAKREASERAGRILRAERADKEQEIKEQKLKEEKEEQDSEE;locus_tag=LOCUS_6680;note=MGA_683
sequence12	MetaGeneAnnotator	CDS	5374	6678	.	-	0	ID=MGA_684;product=homoserine dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_196768329.1;translation=MDNTKKQVLNVGLIGLGNIGTKVAEELLQDNKFNQIFNLKTVLVRDLKKYQNIVFNNKKFKSNNKILFNLVDXPEKIFDDEDIDVVIELMGGINPAFEYVKKSLIAGKDVITANKDLISREIKQLLNISYKYNSKIKFEASVGAGIPIIELLLGLSKQNQIRSIRGIINGTSNYILSKMSEDGSEFEDVLKEAQDLGFAESDPTNDVDGLDAKFKITXLGALAFKSEIPLESVYVDGIREISNKDFEYAKELGLNIKLLAFAEKEESTISARVHPILIPINDPMAKVDRNYNVVEIEGNLIGKLWIQGEGAGSNSTTSAVLGDLMSLFDSRQLEIQSLNQNLKIRTIDENVNKYYIRLVVVDKPGVLAQIAEIFSDKNISIASVIQKDNYTDDQFVDLVIMTHSSIEKNIQNVMKKISLLKIVQKDPLLIRVED;locus_tag=LOCUS_6690;note=WP_196768329.1 homoserine dehydrogenase (Moorella thermoacetica) [pid:40.5%25%2C q_cov:97.5%25%2C s_cov:98.4%25%2C Eval:1.6e-85],MGA_684
sequence12	MetaGeneAnnotator	CDS	6777	7658	.	+	0	ID=MGA_685;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000833447.1;translation=MIKLTNEMLKKKYLILVLFLSIIVIGCSKNQINNDKYYYSESNQEIFYSEYGDDSNPQILLIHGLMGSSSSYNYIIEFLSKDYKITVIDLPGHGKSNLEIKFDVTNLSKVIEEFIEKKFSTPIILVGYSLGGTIINEIVTNSNELTSSIIFLDPWFSNNSSLDSLAFKFLSVVEKNAKNSWVAPEDSFKHIEKMSTKLTKEQIELIGNNRLNYDLKIWDNSIQKETLIKDSEYPIETPSLILKPSSSLVKESQIKKLSEKYSSLVVKEIEDTTHMFIFEKPEKISKLIDEFIK;locus_tag=LOCUS_6700;note=WP_000833447.1 alpha/beta hydrolase (Bacillus cereus) [pid:22.8%25%2C q_cov:84.3%25%2C s_cov:95.3%25%2C Eval:1.2e-11],MGA_685
sequence12	Aragorn:1.2.38	tRNA	7944	8019	.	-	.	ID=Aragorn_13;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0130;note=Aragorn_13
sequence12	MetaGeneAnnotator	CDS	8019	9218	.	-	0	ID=MGA_686;product=nickel pincer cofactor biosynthesis protein LarC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583893.1;translation=MFNEEEVKNIFFINMIGGVSGDMLIGGLLSLGVQISKINETLSLLPLKGIELTKKNVKRGPVEAVLAEPIFDENLLKTTFSWDDFFDLILNSXLDDDIKIKTRRVLNKLVDAEEKVHGGKENPHELGSIDTLVDIISVIVGFKILKADIIYASPFPFDTGTIKTHHGIVSSLAPATSEIISSVNAPLSQVETNIRLGELVTPTGSALVTELCVFDKLEMRLDKVGYGAGVKNPDGYSNVVSIWQGEQVENKDIDNVLLIESNIDDNSGEIFGFTTEKLLNNGALDVWVTPIFMKKNRPAYKISVLSDPLQLASLTEILMSETSTFGIRVSEVKRYKSKREIIKLKTIFGIIQVKVRFNTNGKDYFPEYEECRKVALQKNVPLMKVYQEVQNKIKLYLEK;locus_tag=LOCUS_6710;gene=larC;note=WP_012583893.1 nickel pincer cofactor biosynthesis protein LarC (Dictyoglomus turgidum) [pid:34.8%25%2C q_cov:97.5%25%2C s_cov:99.2%25%2C Eval:3.5e-63],MGA_686
sequence12	MetaGeneAnnotator	CDS	9211	10032	.	-	0	ID=MGA_687;product=ATP-dependent sacrificial sulfur transferase LarE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461498.1;translation=MKNLLTTESKSYLDNLSDLISSYGRCLIAFSGGVDSTFLGFIANKVLGKNSLMITAKSPSLDNEELKXSLHLAKNWKWNHRIIDTKEFSNPNYTKXNLDRCFFCKEELFKVLSDIAIQXGFNFVLDGSNLDDLNDFRPGMKASSKYGVKSPLVEVGLTKEMIRTISKHFDIPTWDKPSQPCLSSRIPYGTTITPKILEEVSRSEKFLKSLGYKVVRVRHHGSIARIEVPEKDFEKLLXNQSRDLIVKELKKIGFKFITFDLLGFRTGSLNNHV;locus_tag=LOCUS_6720;gene=larE;note=WP_011461498.1 ATP-dependent sacrificial sulfur transferase LarE (Desulfitobacterium hafniense) [pid:46.4%25%2C q_cov:95.6%25%2C s_cov:97.4%25%2C Eval:3.8e-62],MGA_687
sequence12	MetaGeneAnnotator	CDS	10048	12501	.	-	0	ID=MGA_688;product=ATP-dependent protease ATP-binding subunit ClpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003235011.1;translation=MPSRFEKFSERARKVLSLAQEEAQRFNHNYIGTEHILLGLSKESEGVAAKVLDSIGIDSSKIQSSVEFIIGQGDRQTHNSLGLTPRAKKVIELSVDEARRLNHQYIGTEHILIGLLREGEGIAAGVLESLGATLDAVRKESDKLISETVSSPKLKEKKTSTPLTDELGSDLTRLANKGKLDPVIGRDSELERVIQILSRRTKNNPVLIGQPGVGKTAIVEKLAQMVNLGNVPDTLLNKRVITLNVGSLVAGTKYRGEFEERLKKVIKELKDSSDSILFIDEMHSIVGAGAAEGAVDAANILKPALARGELQIIGATTIDDYRKNVERDPALERRFQQVSVDPPDIDGTIDILKGVRPRYEEHHGLKITDDAVRAAAELAERYISDRNMPDKAIDLMDEAGSKVRIKNGTQPITLKRAVDKLNKIQDKKFKAISDRKYDFAADLRDEELKQAERVEKMNSSWEKKKSNKKLVTXEDIAQVVSMWTKIPVTRLGIEEKKRLLDMEKTLKQKISGQDEAISLISKAVRRARSGLKNPKRPIGCFLFLGPTGVGKTHTVKKLSEFLFGSEDNLVRLDMSEYMERHSVSRLVGAPPGYIGFDEGGQLTDIVRTKSYCTILLDEIEKAHPDVFNILLQIFEDGHLTDSKGRKIDFKNTIIIMTSNLGSDLIRDDSVIGFSSTEESNTLGDYSRMKGKVLEEVKKFFRPEFLNRIDGTIVFHPLNKTQIFEIVDLLLSDLQSVMLNNGYVLQVTDEVRTYLAETGYDAKFGARPLRRLIQEDIEDLLSEEFLKDKFSPGDIIELDIINDQIALKQDKTVKFEQK;locus_tag=LOCUS_6730;gene=clpC;note=WP_003235011.1 ATP-dependent protease ATP-binding subunit ClpC (Bacillus) [pid:55.2%25%2C q_cov:98.3%25%2C s_cov:99.0%25%2C Eval:4.9e-257],MGA_688
sequence13	MetaGeneAnnotator	CDS	337	1089	.	+	0	ID=MGA_691;product=phosphocholine cytidylyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011707810.1;translation=MKAIILAAGLGSRLGSLGKNTPKGMITVFGKTLLERQIEIFQNCGINDITIVTGHNSNSINFPNVNYIKNNNYATTNMNESLFCAREKFDDSILISYSDIIYEQKIIEQLLQSKFDFSIGIRLNWKESYENRLQHPLSEAENVIIENQKIIYLRKNLLTCTQDQKIGEFLGLMKLTKKGSNELLNKYLELKQNHTKTFHSSESLEKAYLTDMLQEMIDSGSTLNPVILNHLWFEIDTTEDLKRAEKSLKI;locus_tag=LOCUS_6740;note=WP_011707810.1 phosphocholine cytidylyltransferase family protein (Aeromonas hydrophila) [pid:26.7%25%2C q_cov:98.4%25%2C s_cov:94.0%25%2C Eval:3.9e-23],MGA_691
sequence13	MetaGeneAnnotator	CDS	1086	2465	.	-	0	ID=MGA_692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESLENTIEITKESKRIGSNFLGILNDLKRRPEDAARELHVELEIINGIISGEIELPNEIVKNAVKIWPVNERDFYIISDDCMTGVKIMRSEESEKSSRIMERAGKPYYEYRDTVSSTLAPFRPEWIMELCYVEDNEANNSEIQWNHGHFMHQFTYFIGEVNFYYQKSDGVKKVAVMNTGDSMYITPFTPHTFATRKGAKENGLILALTFGNKILGDVKQELSAISSELGREFALDFSSNRQTVASLIKFHRHMCSIGIKELSKRTGIHEEKINEIESGQVEPAKQEINKIAEILNVNSRDLLPNDKIEDKVIISHHNENNSWDFPEDEKRYSFTELANSTTLPYSKSFEIDVCYDDKKDILDLRMGLHQYIYNVSEENISLNWLYGNKQYCEIIRPGDSVYIKPFVSHNFRGNGKLLVLRLGGKVVGDSQRELSVIGKENVKRAVDESMQWFDPKGHN;locus_tag=LOCUS_6750;note=MGA_692
sequence13	MetaGeneAnnotator	CDS	2524	3471	.	-	0	ID=MGA_693;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTIKQPSEIVYGKYSVPKNNFPDNCLLITSRGANERGWLDYIKLKNYFIFDQVENNPSMTTVDKIIRDFSNEKISNVIGLGGGSVLDVAKYCGFKMNKKKILIPTTFGSGSEVTRIAVLKVDNKKQSFHDDRLFADKAIIDSYFIENTPDKIFKNSFVDALAQCSEGYDSKLGNEYTKFFCEEAFRYLENGIITENKESVVLGSFFSGIGFGNCSTTLGHALSYVFSNEGISHGHALAFTTTVSHKFNDSKYFVRFKNLIKKLNFEPIKLKMNLEDASELILDDRKHLDNNPKLVTKDDIIKLLDIINSEKTLE;locus_tag=LOCUS_6760;note=WP_010964882.1 4-hydroxybutyrate dehydrogenase (Clostridium) [pid:34.1%25%2C q_cov:62.9%25%2C s_cov:61.7%25%2C Eval:4.9e-27%2C partial hit],MGA_693
sequence13	MetaGeneAnnotator	CDS	3557	4399	.	+	0	ID=MGA_694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSKEIIKVGGAFDAMSAKLVENSGFDAIWAGSFSISAINAVPDASILTMTEFFDAASKMAYACNIPVIADCDTGYGGPDNVRHLVKKYENAGIAGISIEDKVFPKQNSLLENASHELLSEKDFVEKIIAAVESKQNENFLIIARVEALISGMGMDEALKRASAYEKAGADAILIHSKQQTPDEIFQFMELWDGDIPIVVVPTTYDNVKIDELISHKIKFVIYANQTLRASHASMSKLLSRLVNAKSINEVNDMMSTMNDIFKLQDMYDTQQNIDQKSNQ;locus_tag=LOCUS_6770;note=WP_004525540.1 phosphoenolpyruvate mutase (Burkholderia) [pid:44.7%25%2C q_cov:91.1%25%2C s_cov:45.4%25%2C Eval:3.2e-56%2C partial hit],MGA_694
sequence13	MetaGeneAnnotator	CDS	4409	4897	.	+	0	ID=MGA_695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKIQREIFQYLKKNYIKNFVGVPDSTLKHFIDEGLKDKKILIANREEEAIGIGAGMTLAGSPTLMFMQNAGFANSISTITSLIQLYEIPLLFLIGWRGYLKNDAPEHEKIGQIQPHLLKNMDLENKILTNKTWKKNCDWALSKLKKNIPVALIIRREFLD;locus_tag=LOCUS_6780;note=WP_011202932.1 phosphonopyruvate decarboxylase (Bacteroides fragilis) [pid:36.9%25%2C q_cov:90.7%25%2C s_cov:42.1%25%2C Eval:2.3e-17%2C partial hit],frameshifted%2C insertion/deletion at around 4894,MGA_695
sequence13	MetaGeneAnnotator	CDS	4890	5444	.	+	0	ID=MGA_696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRKEAIDIVCNYIKNDIIISANGFISRDVYSSLEKNTNFYMIGSMGLASSIALGIALKKPKRRIFVFDGDGNILMNLGSLVTIGTLHPKNLIHIIFDNKIHESTGGQPTQSKKINILKIAKATNYLTYSVNTKKSLENVLKKISKSKGPILIHVLIKKSNAKSSRVDISPKLIKNRFMNAINK;locus_tag=LOCUS_6790;note=WP_002679014.1 phosphonopyruvate decarboxylase (Treponema denticola) [pid:44.3%25%2C q_cov:100.0%25%2C s_cov:50.8%25%2C Eval:1.1e-33%2C partial hit],frameshifted%2C insertion/deletion at around 4894,MGA_696
sequence13	MetaGeneAnnotator	CDS	5445	5645	.	-	0	ID=MGA_697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKRIFFLSGIILFSGIVMNNAYAYIDPGTSSMLLQVIVGALVGVGITIKVYWEKIKFRIISRTKK;locus_tag=LOCUS_6800;note=MGA_697
sequence13	MetaGeneAnnotator	CDS	5716	7218	.	+	0	ID=MGA_698;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILDSGLIHPFMFALFPILLIYVNNIAEISLESLFLPIVIIYGATILLVIIISKIIKNLTKSTLIVSSFLLIFFTIGHIQLLLRGNEVFGLRADSLTVMGIPYVILLSIILYAIYKKTNVTKPNKIISVISIAIILSFVPTAISNSSEVVTNQFFEKIDFDTDKKPDVYLIVLDGYAGAKSLEDNFGFDNSNFLNSLSNTNFYVSKNNFSNYEWSNLSMNALLNMNYLDTYPDYSIDDYLLLRDLYNSNLVMKTFQTNGYETFFIDGGAPFRNIHVSTETLCHATDNGLLQNLIDTSMISLVSKKFSTISWNEIRTCAFEELENIPNKSNKPIFTYAHINLPHHPYTYDSDGNLIEYPEIDEELTEKESNHRYVNQVKVANKKILEILPKLISSSEISPIIILTSDHGWGFFHHFEQPLEENRTFLLQRHNNLQAFYPSTDTESYDDLTSVNVFRQIFNDNFGTNLQLLEDKAVFVKKDSVTSNYVSQTDVTEIVKPKN;locus_tag=LOCUS_6810;note=MGA_698
sequence13	MetaGeneAnnotator	CDS	7227	8396	.	-	0	ID=MGA_699;product=UDP-4-amino-4%2C6-dideoxy-N-acetyl-beta-L-altrosamine transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870579.1;translation=MRDKKSYSFYGKSTKVPFFVPFIDKSDILEMKKTLDSTVLTNGPKLKQFETAFRKITKAKFAIGVSNATAALHLSLNAIGIKRGDEVLVPNLTFAASANSIILAGGTPVIVDVDETMNISSNSIKKAITKKTKAIMPVHFAGLSCQMDEIKDIAKANSLKIIEDCAHAIGTKFKSKHVGTIGDAGCFSFYPTKNISTIEGGMMITNDRKIAKSVELARNHGITRTLMNRYSEGKPWEYDIREPGYNYRLDEVRATLGISQLKKLDMLNQKRKNAFVYYNKFLSGINGLSTPAGLDFKDHSCHLYIIRISKNAKINRDKLYESLLKKGIITSVHYKPLDTFTVFKEKAKVRGKLVRSKELFKEILSLPLYPNITKAEQDFVIKVIRQNLV;locus_tag=LOCUS_6820;gene=pseC;EC_number=2.6.1.92;note=WP_010870579.1 UDP-4-amino-4%2C6-dideoxy-N-acetyl-beta-L-altrosamine transaminase (Methanocaldococcus jannaschii) [pid:41.2%25%2C q_cov:95.4%25%2C s_cov:96.9%25%2C Eval:1.1e-74],MGA_699
sequence13	MetaGeneAnnotator	CDS	8525	10378	.	+	0	ID=MGA_700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLYILDNTTQSQIEEMVIDDSSKFITFDFVSHENLLKKGIKHEIIDEFLTDDTRKEIFIFCSTWLKRHEEDNRSEFKIHDIDLTTIIDRNELLEFLMEKIPKTVAFFNIIKNQKFDTIFVPSNMKDVLSKVDIDSEVRFMDMMDEELMSFETINIPINFKFFKKKYSMKRERYYFIKKFLERIYGKIFGISKIIPNNKKILLLEFDPEIHENILTEINNQGFQAILLNNRKTVISSFQSIRILKKTNSCMMIPNDWLNQDIMNKRDKLKRQILKKIFQIKMFKALIPECKFQDIDFNDIMKHKIASIIIQRIDECLNTILIAESINHRDDFLGIMTMNFSGETEKIFLKSNNRIPIILLQHAFANYTKEISYFDILDDFHCIKNKIAVWGDAVKDYLVTVRSIPEEKILVSGSPKYDSHSLIKNKKSGKIKLLITLRPIITHMEGYRLDLYDRYEKVIKDLIYFSNENKKIEIKFKLHPQQNKSNNILIDMIKKISNVEILQFESITDLLSECDLHVNVATDNFDASSVILESMILGRPTVNIQLQKNDIDFEFIKYDAIKSVYYDEDIVKKISDLINDGNQKDELLKNSQLFLKRYLKNRNNASKRLIDSAFRD;locus_tag=LOCUS_6830;note=MGA_700
sequence13	MetaGeneAnnotator	CDS	10441	11646	.	-	0	ID=MGA_701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYLYFLYFIDVGDRLILILITKKQIKFEIDMSFVKNIGLVYMFIPFLASPSIIENKTSFIINILLGSKTLTLKIKDLPKISFQRDEFYLMLNLVGVLTYSIKYELNNNQITLTFDYINKFEIPLKQNTEEEKNLVELLYLCSRDGTSFVTNENIELGKYRFKTLKIYKKNEKQIVETFSGIKFFLDSMHPGNTIDECFVNDIHSIQHSDDFTGKVVVDVGAECGDTPLYYASLGAKVFAFEPIAENFNSMLRNFSLNEKLAENIIPINAAVGKNGILKFFQSPDSPTYGSSFVYNRYGNEGKTVNVKGISFSKLLEECNINEIELLKLDCKGCEIYLDKEFLKHVNSLKIEYMGQFTSSKLDDLKNILEESGFRYEIYRPTPFSRLSNKLNGHIYAKKCE;locus_tag=LOCUS_6840;note=WP_011763222.1 FkbM family methyltransferase (Pyrobaculum islandicum) [pid:30.9%25%2C q_cov:43.6%25%2C s_cov:56.6%25%2C Eval:1.1e-11%2C partial hit],MGA_701
##FASTA
>sequence01
TGACCTAGAAGAGGCAGGAGGAGGATTTGGTGTACATATCGCAGATATAGAAATTGATGAAAATACTGGAAAAACCGATGTAGTTAGATACACTGCAATTCAAGATTGTGGAAAAGCAATTCACCCTTCTTATGTTGAAGGACAATTACAAGGAGGAGCAACTCAAGGTATAGGTTGGGCTTTAAATGAGGAATATTATATGAATTCTGATGGAGTGATGGAAAATTCTAGTTATTTAGATTACAGAATGCCTATTTCTTTAGATCTTCCGATGATTGATACAATTTTAGTAGAAGTTCCTAGTGAAGAGCATCCATTTGGTGTGAGAGGAGTAGGTGAAACACCTATTGTGCCTCCAATCCCAACTATTTCTAATGCTATTCATGATGCAATAGGAATTAGAATGTCTAGTACCCCAATGAAACCTTCTAGTATTATAGAGGGTTTAAAAAATAAATAGTTTTCATGGCAATTGTTTATCTACCATATAAACTAAGACATTTTTCTATTGAATCAAATGTCATAGATGTAGAAGGGAAAAATTTAAAAGAATTGATAAACAATTTAGAAAAATTATTCCCTGGGATTAAATCAGAATTAGTTGAAAATGAAAAACTTAAACCTGGTCTTTCAGCTGTTATTGATGGTCGTACTACTAGATTAGGCTTAATTCATAAAATCAATGAAAATTCTGAAGTCCATTTTCTACCTGCAATTGCTGGAGGATAATTTGGTTACTCAATATAATGAGAATTTTCCCTGGAGAATATTCGTAAGCATGAATGTTCCATATATCATTGGAAAAGAATTATCTGAAATTAAAAACCTAGTGCCTGATAGTTACAAACACTTATTGAAATGGGTAGATTTATCATTGATCCACTGTACATTAATATTTATTGGCGATTCTGTAGAAAATCAAGTTATATCTGTAAGGGAAGTTATAGAAAATCTTAAGTTTGATTATGAAATTAATACATTTGTTGAAGAATTTGGATTTTTACCAAATCAAAATCATCCGAATGTTTTTATTGCTAAGTTAAACCAGTCCCCCGAAATGTTTCATCTATATAATCAATTAAGATCAAAATTGTTAGAAAATAATTTTAAATTACAAAAAAAATTTATTCCTCACATTACAATTGCTAGAATAAGAAAAAATTATTCTAAAAAAGAATTAAAATCTTTTATTTCATTTTTCCAGAAAATGGAATATCTGAAGAAAATTTCTTTTCAGTTTAAAAAAATTAGTGTAATTCGGAGTATTTTGAAAACTGAAGGACCTGATTATAAAATTTTATCCGAAATCTCAATACAAAGTGACAACACATAGAATGTAAAATTAAATTATGACAGAAAAGCAGAAACAAGAAAAATTTTATTCAGATTTACAACCTAAACCTGATTTTGCTCAAATAGAATTAGAAATTTTAAATTTTTGGCAAAATGAATCTATATTTAAAAAATCTGTAAATGGGAGATCTGATAAGAATGAATATGTTTTTTATGATGGTCCTCCATTTGCTAATGGATTACCTCATTATGGGCATTTATTAACTGGATTTGTAAAAGATATTATTCCTAGATACCAAACAATGATTGGAAAAAGAGTAGATAGAAGATTTGGGTGGGATTGCCATGGTTTACCTGCAGAGATGGAATCAGAAAAAGAGCTAGATTTAAATGGAAGATCAGAAGTAATAAATTTTGGAGTTAAGAAATTTAATGATCATTGTAGAGAATCTGTGATGAAATACACTAAAGAATGGGAGACCACAGTTAATAGACAGGCTAGATGGGTCGATTTTCGAAATGATTACAAAACTTTGGACCTTAATTATATGGAATCTGTAATTTGGGCATTCAAGAAACTTTGGGACAAAGGTTTAATTTATGAAAAAGCAAAAGTAATGCCTTATTCTTGGAAAGCCGAAACACCACTATCAAATTTCGAAACTAGACTAGATGATTCATATAGAGAAAGAGTTGATCCCGCAGTAACTGTAAAATTTTCTTTGAATGATTCTGATTTAGGAGATTCGATTGATGTTTTAGTATGGACTACGACCCCTTGGACATTACCATCAAACCTTGCTTTAGCAGTAGGCTCAGACATTACTTATTCAATTTTTTCAAATGGAAATAATTATTTATTGATAGCTGAAAATACTGTAGAAAAATATAAGAATGAATTAGAGGGAATGGAAAAAATAAAAACAATTAAAGGGGAAATTCTTATTGGAAAAAGCTATAAGCCAATTTTTGACTATTTTTCAGATACTGAAAATGCATTTAGAATCCTTGAAGCAGACTTTGTGAATACAGAAGAAGGAACAGGAATTGTTCACATGGCTCCTGGTTTTGGAGAAGATGATCAAATTGTTTGTGAATCAAATGGTATTCCTGTTAAAAGCCCAGTAGATTCAAGGGGGAATTTCACTTCTGAAATCTCAGATTATGAAGGAATGCTAGTATTTGATGCTAATAAAGAAATTATTAAATATTTAGATTCTAGAAATATTTTATTTAAACATGAAGAATATTCTCATAGTTATCCTCATAGCTGGAGAACAGATGAACCTCTAATTTATAAAGCGGTCAATTCTTGGTTTGTTGAAGTTACAAAATTTAGAGACAGGATGTCGGAATTAAATCAACAAATAAATTGGATTCCTAATCATATTAAAGATGGAGCATTTGGTAGGTGGTTATCAGGAGCAAGAGATTGGTCAATTAGCAGGAATAGGTTCTGGGGAACTCCTATTCCAGTATGGAAAAGTGATAATCCTAATTATCCTAGAGTAGATGTTTATGGAAGTTTAGATGAAATTGAGAAAGATTTTGGTGTAAGGCCGACTGATCTTCATAGGCCCGCAATTGATGAACTTACACGTCCTAATCCAGATGATCCTTCTGGCAAAAGCATGATGGTTAGAGTGGAAGAAGTGTTGGATTGTTGGTTTGAATCTGGATCTATGCCATTTGCTCAGGTTCATTATCCTTTTGAAAATAAGCAATGGTTTGATTCTCATTTTCCAGCAGATTTTATAGTTGAATATATTGCGCAAACACGGGGTTGGTTCTATACACTTATGGTTTTAAGTACGGCTTTATTTGATAGCCATCCTTTCAAGAATGCAATAGGTCATGGAGTAGTTGTAGATGAGACTGGATCTAAACTTTCTAAGAGATTAAAGAATTATCCTTCTCCAGAAGAGGTATGGAACAAATATGGTTCAGATGCACTTAGATGGTTTCTGGTATCGTCTCCAATTTTAAAGGGGCATAACTTAGAAATTGATAGAAAAGGCTCTGGCATCGAAACCTCTTTAAGGAAAGTCATAGTACCTATTTGGAATTCCTTATACTTTTTTATTCTTTATTCAAACCTTGAAGGAATTAAAGGACAAGATATAAACACATCAAATGTTTTAATTGATAAATATATTTTAGGAAAAACTAGAAAATTGATTGAAGATGTAAATTTGCATATGAAAAATTATGAAATTACTGAAGCATGTTCAAAAATTTCTGATTTTATAGATGTTTTAAATAATTGGTATATTAGAAGAAGTAGACCAAGATTTTGGGATAATATTAAAAGCTCTGAAGTTTTAAGTGCATATAATACTTTATATACTGTTCTTAAGAGTTTTTTTAGGGTGTTATCTCCATTTTTGCCTTTAATTTCTGAATATGCTTACAAAAAACTTACTAATGAAAAAAGTGTTCATTTGCAAGATTGGCCATCAATAGACGATTTTCAAGAAGAAAATAATTTAATAGAGAAAATGGATTTTGTTAGACAGATTGTATCGGTAGCATTATCTATTAGAAAAATAAATAATCTTAGAGTGAGACAACCTATTAAATCAGTAACAATTATTTCTCCAGATTTAAATGTTGACTGGCTAGATGAATATGAAAGTCTTATTAAGGAAGAAATAAATTCAAAAGAAATAATTTATTCAAAAGAATCATATTCTTTAGATGGTTATAGTCTTACATTAAATCCACGTGTATTAGGCCCAAAACTGAGTCATGATGTACAAAAATGTATTATTGCTGCTAGAGAGGGAAGATGGGAGCAGGATGACCAAGGAAGAGTAATAATAGAAGGTTATATTTTGGAAGAGAATGAATTTTCTATAAATCCTGTATCTACTGAAGAAAAAGGAATACAAAAGGTTATTGGATTTAATGTATTTGTGAAATTAGATTTAAATATTTCTCCTGAATTAGAATCAGAAGGATTAGCTAGAGACCTTGTTAGATTAATTCAGAACATCAGAAGAGATACAAAATTAGAGGTTACAGATAAAGTGAAAGTTGAAGTTTTTTGTACTGAAAAAATGAAAAAATCATTTATGGGTCACTATCAATATATTGCAGATCAAATTTTGGCAGACTCATTAAGTTTTTCTCAAGAGGTTAAAGATCGTGATGATTTAATTTCTGAAAAAATTTCTGGAGAAAGAGTAAATATATCTGTTTTGAAAAAATGAATTAGTTATTCTTTTTTCTTAATTCTATGTTAAAAGAAATATCTTTTTTTTGTCTTTTGCCTTTTAAATTTATGGAATTTCCTAGTTTGTAGCTCCACAATCTACTATAAAATTCTCTGCTGGATTTTACTGGCTCTGATTCTACATGTGTTATTAAATCTCCGGCTTTAATCCCCGTTTCAAATGAAGGTGAATTTTCTTCAACTTCCATTATAAGAATCCCATCTATTGTTTTGTATTCACAGGTTTTATATCCCCAATTACAATATGTTTTAGCTTGTTCTTGGGTTAGTGTTCCTAACTCCATCCCCAACCATGGAATAATAACTTCACCAAATTTCATCAGATCATCTGAATATCTTTTAACTAAGTAAGAACTTATGGCGAATCCAATGCCTTCTGCTCTACTTAACAAAATAGTATTTAATCCTACGAGTTCTCCTTGTAAATTTACTAATGGTCCTCCAGAGTTTCCTTGGTTAATAGCAGCATCAGTTTGAATCATATCAGTAAGAATCATTCCTGATTCAGTCTTTATACTTCTATTTAATGCACTTACTATTCCTAGTGTGACAGTAGGGCCACCCTCTAAACCAAAAGCATTACCTAAAGCTATAACCCAGTCTCCTGTTTTAAGGGTATCGTCTTTCGAGAAAGTAAGAGGCTGTAAGTTTTTTTTAGGAATTTTTAATAGAGCTATATCACTACTTGGAAATTTGCCAACTACAGAAGCCTCATAAATATTGCCATCATGTAAGGTCACTGAGATAGTATTAGCTTTTGAGATAACATGATCATTGGTAACTATAAAGCCATCTTCAGTTATAATTACACCAGAACCATCTGCAGTCTGTGTTCTTTGACGTAGAAAAAAATCTCGTTCCACAGTTGATATATTTATTGCGACTACAGAAGGTGAAATCTTTGTGATTACCTTGTTCAGGCTGGGTAAAATAATATTTTCTTCTTCTAGAATTTCTATCGATGAAATTTCCTTATTTTCTTCTTCTTTTGAGGAACAACTAAGAAGTATTAGGGAGAAAATAGAGATTAAAAAGATATAAAAAGTGTGTTTTAACATTGTAATTTTTATAAAATTTTGAATAGAGTAATAGGTAGAGAAATTTTATAATTGTTTTTTAAATGTAATTATAAATCCTCTTAGAGAATAATAAAAATTTTTTTGGAATCTATAATTGGAGAGACAATCAAGAAATAGAGTAATTTTAACTCCTAGAAATTCAGAGATTTCTTCTATAAATTTTAAGATCAAGAAAAGAAAATCTGTATTTAGGGGACCTTCATCTTTAATGTTGGTTGTATATGGTTTTTTATCTTTAATTTTTATAGGAGCATTTTTACTTTTTTTACCTATTTCTCACTCAGGGAATTTTAATGTTTCATTTGTAGATGCTTTATTTACAGCTACTTCTGCTGTTACTGTAACTGGTTTAGTTGTTTTAGATACAGGTTCAACATGGTCATTTTTTGGAGAATTAATAATAACTATGTTGATTTTTATAGGAGGCTTGGGTATTACCACTAGTGCTGCATTTCTTATAGTGATAATGGGCCAAAAAGTTGGTTTTCAGAATTTATTATTAATTAGAGAAGAAATCAGATCTCAAGGTTTATCAAATCTTGGTTCATTAGTTATAAATGTAGTATTTTTAACATTAATTATTCAAATAATTGGTTCAATTATTTTTTTCTTTTCATTTTCTATTTTAATTCGAGAGTTTGATGAGTTTTCTTTAGGTCAGTTAATATGGTTGAGTGTTTTCCATTCTATTTCTGCTTTTAACAATGCTGGATTTGAAACTTTAAGTATCTTAGGAAGTGAAAGTTTAACAATATTCAAATATAAACCTTTAATATTGATGATTTTTTCAACCTTAATAATTATAGGAGGATTAGGTTATTTTGTTTTACATGATTTAGTCCACCATAGAAGAATAGGAAAAATTAAATTTAGATTAAAGTTATTTTTGGAAACTAGGCTGATTCTTTTGGGTTATCTAATACTAATATTGTTCGGATTTTTATTCATTTTTATAGGAGAGTTTTCTAACCCAAACACTTTAGGAAACATGGATTTGTCTAATAAAATTTTTAATAGTTTTTTTGGTTCCATTACGTCTAGATCAGCAGGATTTAGTACATTTGATTATGCTGATCTTACCGGATTCAGCTTATTAATTACTGAGATCTTAATGTTTATAGGAGGAGCTCCTGCTTCAGTAGCTGGAGGTATAAAAATCACTACATTTGTTGTATTAGCTTTAGCGGTTTTTTCTTTTTTAAGAGGAAGGAAAAGTGTTACGATCTGGAGAAAGAAAATTCCCCAAGAAACGATTAATCATTCAATTGTAGTTATTATAATCTTGGCACTTATGATTCTTATCTATATATTTTTTATAACTTTATTAAATAATGAGATACAATTTGATAAAATTGTTTTTGAGGTAATTTCGGCTTTTACCACTACTGGTTTAAGTACAGGGATTACTTCAGAAGTATCAATATTAAGTAAATATTTATTGATTTCTGCAATGTTTATAGGTAGATTGAGTAGCTTGGTTTTGATTTTTCTTTTAACAAATTCAAGAGAACCAAATTACAATTTATCCGAAGAAAAAATAAGAATTGGTTAATTGGTATTTAGGTGAAATAAGTTGGCTAGTAGACAAATAGTGGTAATAGGGTTAGGAAGGTTTGGCACGCGGGCTGCGAGAACTTTATATCAACTTGGTCATGATGTAATGGCAATAGATCTTGATGATAGAAAAGTACAAGCTTTAACTGGAGTAGTTACTCATGCAGTCCAGGCTGATGCTACTGATGAAGTGATGTTAAAAGAATTAGGAGTTGATAATTTCCATTATGCTATTGTAGCTATTGGAAGGAACACAGAGGCTTCTATAATGGTTACAGTATTATTAAGGGATCTAGAAATTCCTGTAATAGTCTCTAGAGCTCAGAGTGAATTGCATGGAGAAACATTAAAAAGAATAGGTGCCTCTAAAACAGTTTTTCCAGAAAAAGATGTAGGTGCTAGTTTAGCTCATGATTTATTTCTTCCAGGTGTTGAGCAATATTTAGAATTAACATCTTCATTTGGAATAAGTAGAGTTCTAGTTCCAATAAAATATGTTGGACATTCTTTGAAAGATAGTGGATTTAGTAATGCTAGAGATAAGTATGGAGTTGTAATTCTGGCTATTCAAAGAAGAGATGATGTTATTTTAAACCCTGATGAAGATGAATTATTTGTGGATGATGATGTTCTATTAATAGCAGGGACAGATGATAGAGTAGTAAGAGTAATAGGTACTCAAAGCTTAGAAAATGAAATATAGATAAGTGTTTTTATGTTGTTTGATAAAATTTTAGTGTTATTGGGTGACTCTTCTTATGATGATATTTTGGCAGAAGAAATGGGTGATCTTGTTAGATCTTCTAGAGGGTATTTAATTGTAGTAAAACCTAAGATTATTCCAAGGAAATTTCCTGAAGATGCATCTTTAAATCATTTAAATGTTAATTCTGATGAACAATTAAAAAATTTTGCAAAAAAGACGAAATTAAAAGAAGGTAGGAGATTGAAATTGGAAAATCCTCAATCTAGAGACTTAAATAGTGTAATAACGTCTTTTCTGATTCAGGAAAATCCTGATTTATTGGTTATTCCTTATGACCTTATTTTTAATAAAAAAAATCAAGAAATTTTATTTCATCAGAATAGAATTGAAGATATATTGATTGATAATAGGTGTAGTTTATTAATCTGGAAGAATCAAAAAAATACTTAGGTTTGATATGAGAATTTTAATTTTTGGGTCTTATAATATTAAATTGTTTTCACATGTATTCGATTTCGATGATCATGATGTTTTTCTTTTGCTAAGTAAAGATGAAAAATCACGCTACAATAATTTGATTGAAAAATGTGAATCGAATTTTTTTAATTTTAGCAATTTTTCTGATATAGATTTTTCTGAATTTGATAAATTTGATTTGTTCATTGTTTCTTCTGGTAATGATAGTGTTAATTCTTTATTCATTCATCGATTAGATCAAATTTATCCTGATCATAGAAAAATTGTTTTTATAAAAGATTCTCAATTTGCAGAACTACAACGTGATTTTGGATTTAATGTGGTATCTTCTGATGAGATTCTTAGAGAGAATATTATTGATATTTTAGGAGGATTAATTGATGAATGATTATGTCATTCTTGTGGGATTAGGAGAAGTTGGTATAAATATATTTAGAGAATTTTTTATTGTAGAAAATGATGTAGAGTTAACTGCTATTGATAATTCATATAATCGAGTAAATGAAGTTAATGATTATGTGAAATCAAAAAATCCTCAAAGTGTTGATTTATGTGTTTATGGAGACCCTTTAGATCATAATGTTTTGATTAACGTTGGTTTGAAAAGATGCAATAAGTTAATTTTAGCACTTGATCAAGATGCTGATAATTTAGCTGTTGCACAAACTGTTAAACGTTTAATGGAAAATCTTTCGGAAGATGAAAAAAAGCATAATTTAGAAATCATTTCTATTGTTTGGAATAATGAAAATAAAGATTTATTTTCATTATTAGATGTTCAAAAAACTTTAGGTGTTTCTGATAATATTCTTAATATTGTTAATCAAATCTCACGTCCTTCTTTTCCTATAAATATTTTAGATATAGAAGGCACTGATAATAGAATTTTTACTATAAAAATTTCTTCTGAATCTAAATCTATAGGAAAAAAAGTTTTGGAAATTAGAATTCCTTTTAAAATTATATATTTAGGAATAATTGATTCTTTTGGTAATTGTGAATTGTTAAATTCTGATACAGTTTTAAATGATGGAGATTTGTTAATATTTAGTACATCTAAAAGACATCAAAATTTATTGAATAGATATTTTTAAAGGTGAATTAATGAGGAAAATTTCATTTTTAGGCCCTGAAGGAACATATAGTGGTTTAGCTTTAAGTGAATATGATTCCAAAGCTTCAAGAGTTCCTTGTAGAACTTTTAGCGAGGCTTTAGGTTTACTAGAATCTGATCAAGTAACTGATTGTATAGTTCCTATAGAAAATAGTTTGCATGGTTCTATTGTAGAAGTATTAGATTTTCTAATAGAAACTCCATCTGTAAAAATCAAAAATGAACTTTTAATAAAAATTGATAATTGTCTTCTTTCAAAATCAAAAATGAGGTTATCTGAGATAGAAGTTTTGTTTTCTCACCCACAACCTTTGGGTCAATGTAAAGATTACATTAATAAAAATTTATCTAATGCAAAATTAATAGCTTCATTAAGTACAATTTCTGCAATAGAAGATTTAGAAAATAGTGGTTTGAAAGGTGCTGTTATAGGGCCTAAATGGGCTGCTGAGCAAAATAATTTAAATATTTTAGAAGAAAAAATAGATGGAGGATTGATGAATATCACAAGATTCGTGATATTAAGTAAAAATACTTCTATGGAATCTACTAGAAAAGATAAGACTTCTATAGTATTTAGCTTTGATGAAGATTCTCCTGGTAGTTTATTCGAGGTTCTTAGGCCATTTGCAATAAGAAAGATCAATCTAACTAAAATAGAATCTAGACCTACTAGAAAACAACTAGGAAGATATTATTTTTTTATTGATATTGAAGGAAATTTTAATAATCCAGAGATGAAAATAGTACTAGATGAGACTTTAAAATATACAAGTGAATTAAAAATATTAGGTTCTTATCCTAAAGTTAATTATAATCTTTAGATATCTTCTAAATAATCTTCATCTCTCATTTCTCCAGCTACTTTTCTGCCTTCATGAGTAGCAGTGATAATTCTTTCCTTGGCTGCTTCACTTAACTCTTCAGCTTTTTCTTTCCAATCACTTGTTTTATCAGAAATAATACTTCTTGTTTCTTCTCCAGATTTTGGAGCAAATAGCACACCCATAGTTAAACCAGCAATACTACCTAGAAAAAGTCCAGTATAAAAACCAGCTCCATTCTTATTTTCAGACATTTGTCTCCTAAGTTATCTTATTTATCTTTTTTATCTTCTTTATCTTCTTTGGTTTCTTTTTGTTGTGAAGATTTATTCGTGAATTTATTGATCATTGATCTTAGTTTTTTGAATCCATTAGTGATTTTGAGTACAGGAAAAGTAATATCATCAATAATTTTATTTGAAATTTGATCTAGGCGGTTTGCAGTTCGACTAAGAGCAGAAATAGTTTTATTGATATCTTTATACATTTTAAATATTAGAAATAATATTAATAAAGAAGAAGTAAAAACAGTTACTCCGGTAATTATTAAAACTATATCTCTAATGAAAGTAATTAATTCTTGATTTTCCATATCAAAATTTTAAGGATTATTCATGAATAGTATCAATAATAGAACTTAGAGTAAAGTTATATTAAGTAAATAGTTAATAACAATATTGTGAATAACTTAAACTAGAAAATCTTTTAGTTTTTTTGACCTTGTGGGGTGTCTAAGCTTTCTTAAGGCTTTTGCTTCTATTTGTCTAATTCTTTCTCTTGTTACACCAAATTCTCTTCCAACTTCTTCTAATGTTCTACTCCTCCCATCTTCTAATCCAAATCTAAGTTGAAGTACTCTTTGTTCTCTAATATTTAAACTTCCTAATACATTATTAACATGATCTTTTAATAAATTATGAGAAGCTGCATCGGATGGTCCTAAAGAGGTAACATCTTCTATAAAATCGCCTAATAACGAATCGTCTTCTTCTCCTATAGGCGTTGCTAAGGATACTGGTTCTTGAGAAATTTTTAAAATTTCTCTTACTTTTTCTGGTGATAAATCCATTTCTTTTGCTAATTCTCTAGTAGTAGGTTCCCTTCCGTATTCTTGAACTAATCTTCTACTAACCCTTAATAATTTATTTATGGTTTCAACCATATGAACTGGAACTCTGATAGTTCTTGCTTGGTCTGCTATAGCTCTTGTAATAGCTTGTCTAATCCACCAAGTAGCATAAGTACTAAACTTAAAACCTTTTCTATAATCGAATTTTTCTACAGCTCTTATTAGTCCTATATTGCCTTCCTGTATTAAATCTAGAAGAGACATTCCTCTGCCAATATATTTTTTTGCAACACTAACTACTAATCTTAAATTTGCTTTTACTAAATGGTCTTCACAAATTCGACCTTGATTTAAAATTTTTTCAATATGGTTTTCATAGAGTGGTTCTAAATCTTGATCTTTATGATACTTAAATGATTTTTTATTAGAACCATATTTTTTCAAATCTTTTAATTTAGGGTCTTCATCGAATATTTCATTGATAATCCATTTTGGAACCACATCAACTGTTGCAGAAAGATCAGCAATTAGTGATTGTACTTCCTCTTCATTTATATTTAGACTGTCAGACATTAAATTAATAAGGGTAAAATAATCTTCAGATTTTGAAGCTCCTGCTAGTAAAGATTTTATTTCCATATTGTTTAAATAATTAGAAAGAGTAATATCTGATTTTCCTTTTTCAATATTTAGGAATTTGTATATAACATTAATTGCTTTTAGGTTTGAAGAGATATATGCGAGTGTATTTCTGATGATTTGCACATTAAGAGTATTTTGATCTTGATCTGATAGTAAAAGTAGAGATTTAGTATCGTTAATGTATTTTACTATTTCAATTATTCTAGCTAAATTTCTTTCTCCTTCAGCATTTAATAATTCTACTTTTCCTATTTCTCTAAGATACATTCTTACTGGATCATCTGTGACTAATTCCGTTTCATCTAATGTTGTCCATTCAGTAAGGTCTTCTTGAATTTCGTTTAATGAATCTTCTGAAGGCTCTTCCCAGTTATCAAATTGGTTGGGATTAGGTCCTGCCAATATAGATTTTAATAAAGGGGAATTTTCATTTATAGCTTCTTCGTCAACGATTTTTTTGGAATCAAATGAAGAAGAATTGGTAGAAATCTCTTCTTGAATATTTAATGAGAAGTTTTCATTATCTATAGATGCGTAATCTTTTTTATCTTGTTGACTCATTAATTTTTAGATTCCTGAAGTGTTTTTATTTCTTGATTATCTTTAATTGCTTCTTCAATAATATAGTCCCATTCTTGAACAGAATTTTTATCTTTTTCTACCATACGTTCTTTCATAATTTTTTCTGTTTCAATCTTTCTTTCTTTGAGATATCTTTCACGGATTCTTCTAATATAGTCATTCATAATTGTAATTTTACTTTCATGACTACTAGATGGTTGAGTTTGATTAAATATACTTTCTATTAACTCTAAAGTAAATTCATCAGAAGAATTTTTCATATTGTTTAATATCTCCTCTAATGGTACATCAGATATGATTTTTTCGTATATATGTTGATAAAGTGGAGAAAAATATTTTGGATCTATAATAGTTTTAGCGGATTCAATAAGTTCTAAATTGGTAATTAAAAAATTTATCAATGCTTCATCAAGCTTATTTTCATTGTTTTGCCATGATTGAGAATAAATATGCTTAGATTGTCTTTTATTTTTTTTAGGTTTTGGTAATAGTTGTAATTTTTCTCTGGAAATGTTTAGTTTTTTTGCTAGATGATCAAATGCTTTATTTTGTTCGTGAGAATTTTTTATAGTAATTATTATTGGATAAATTGATTGTGATGCTTCAATTATTTCAGTTTCATCAGACAGATTATAGGAATAATCAATATTTTCTATTAAGTAAAAAATTAAAGATTTAGTATCATTAATGTGAGATTTCCATGATTCAGGATTCTCTCGAATCATTGTGTCGGGATCATTATCTTTATCAGAATCACAGAGGTAGATTTTTTCATGTAAAAGATCTGGTTTTTCAAAGTTTCTTATAATTTTTATTAAATTATTATAAGTAGCTTTTTTGCCTGCAATATCTGAATCTAGAGATAGAATAATTTTTGAGCATAAAGGATCAAGTATTTTTAAATGGTCATCAGAAATTGCTGTACCCATACATCCAACAACATTCATGAACCCGTTTTCATGGGCAGTTATGACATCAAAGTATCCTTCTACTATTATTGCAGAACCAGATTCTTTTATAGAATTTTTAGCCCAATTGAGTCCATATAATACTTTTGATTTATTGAAAAGTTGAGTTTGTCTAGTATTGATATATTTTGGTTGATTTTGGCCTAAGGCTCTTGCTCCGAAACCTACTAACTTGTTATTCTCATCCCTTATTTCTATAGTGATTCTATTTGTAAAAGTATCTTTCCAGACGTTATTATTCCATTTGACTAGAAGTCCTGATTTTATTGCAGATGAGCTATCAACGGATTTTGATTTTAAATGATCAACAAGAGTATTCATTCCCTCATAATTTACCCCCAACCCTCTTCTTGAGATTATTTCTTCACTAATACCTCTTTCATTTAAATAATTTCTGGCTTTTAATCCTTCAGGTGTTTTTATTAAAGATTGAAAATAAGAAGCTGCAATTTCATTGGCATTTTCTACAGAATGAGTATCTCTTTCTGTGTCTGAATTAAAAGTGAGTTTTACTCCAGCTTTACTAGCAGCTATAGATAATGCTTGAGGAAAATTTATATTTTCTGAAGTCATAATAAAGTTAAAAATGTCTCCGCCGGTAGAACAAGCACCAAAACATCTCCACGTCTGCTTATCTGGATAGACTACAAAAGAAGGAGTTTTTTCATTGTGAAAAGGGCACAATCCTTTTAAAGCATTTTTATTACCAGATAAATTAGTGTTATCAGAAACTAATTCTACTAGATCGAGTTTACTTTTTACTTCTTTTACTAGATCAGGTTTTGCCATTATAAAAGTGAATGATACAGAAATATTAATTATATATTATCTGACCTATAATCTTCCATCAAACATATTTGTTGTTAGGCCTGGTTTTATTTGTTCAGCAGTTCTTAAAGCAAAAAGATCAGTCATACCACAAACGTAGTCAGTTACAATTCTGTCTGAAGAGTTTGAAAGTGATTTAATGTAATCAGGGACTAAGTGAATATTTTTGATGTAATAATCAAATAATATTTTTACTATTTCTTTAGAAATTTCTCCTTCTTTAGTTATTCCTATTGGAAGATAAATTTTTTCAAACATAAAATTTCTTAAATCTGTGATTGTTTCAGTTACCTTTGGAGACATCCTGATCCAAGAATTTTTACTCTTACTAGAAGTTCTGCAGTCCCAAGAACTAATAATTACGTCAGTGATAATATTATTAAGTCTTTCGCTATGTTTTAATCCTAGATCTCTCTTAGTTTTTTCTGGAAGATCATTATTAGTTATCATTTTTGCTCTTATTGCATCATTAATATCATGTGCTAAATAAGCAATTGAATCAGAAAGTCTTACTATTTGAGCTTCAAGAGATAGGTTTTTAACTAATTCGGGTTTCATGTAATCTCCCTGAGGTTTTGAGTGGTGTTTTATTCCATCAATAACTTCAAAGGTAAGATTTAACCCAGAGCCATTTTTTTCAAGAATTTCTACTATTCTTACACTTTGTTTACTATGATGAAAACCTTCAGAATTAAGTTCGTCTAATACATTTTCTCCTATATGACCAAATGGAGAATGTCCTAAATCATGACCTAAAGATGTTGCTTCTACTAAATCTTCATTTAAATTAAGTGCTCGAGCAATTGTTCTTCCTATCTGAGATACTTCAATAGTATGAGTTAATCTAGTTACATAATGATCACCTAAAGGAGCGATAAAAACTTGGCTTTTATGTTTTAGCCTTCTAAAAGCATTGGTATGAATAATTCTATCTCTATCTATTTGATAGGGAGAACGGAAATTGTTAGATTCTTCATTATTTAATCTTCCTTTAGACTTTTCTGTTGTCATTGCTAAAGGAGAAAGCAGTTTTTCATTTTTAGAATTTTGATTTGAAATTTCTTTTATTATTTCATTTAATTCTTCAATTGTTTTTTTACTCATATAATTATTCCACTGTAACCGTTTTTGCTAAATTTCTAGGTCTATCTGGATCTAAATTTTTAATGATAGAGGTATGGAATGCTATTAACTGTAATGGGATAGAAAAAAGTATAGGGTTAAGGTATTCATCTAGGTTTGGTAATACAATATATTCATCTATTAAAGTAGGTATTAATTTATCTTCTTCAGATATTAGTGCTATAACTTCACCATCTCTAGATAGTATTTCATTAATTGAATTAATCATTTTTGAGTGTAACCTTCCTGATGGAGCTAAAATTATTGTAGGCATTGATGGCCCTATTAATGCATTAACTCCATGTTTCATTTCTCCAGCAGGATAAGACTCAGCATGTAAATAACTTACCTCTTTCATTTTTAATGCGCCTTCGGATGCTATGGGTAGCATATTATCTCTACCTAGATAAAGAAGATGATTCTTTGAGCTTATTTTCTCAGAGATTTTTTTATATAGAGGTTGATTTTGAATTATTTCTCCTATCAATCTTGGTAATTGATTTAAATTAGTGATAAGACTTTCGATGTCTTTTCTAGGAGAATTATTAAATTTTGATGAAAAAAATAAAGCTAAAATATAAAGTACAATTAATGAACTTGTAAATGTTTTTGTAGCTGCAACTGAAAATTCTTGTCCACAATTTAATGGGATACACACATCTGAAATTCTACTAGCTTGAGAAATTTCTTGTTCAACTATAGATATAGTGAAACATCCACTCTCTTTGGATTTTTCTATACATCTTATAGTTTCCGCAGTTTCACCTGATTGTGTGATGGCAATAATTAGATCATTTTTAGAGATATTTTTTTCGCTATACAGGAATTCAGAGGAATTTTCTGCAATAGAGGGGATTTTTGTTATAGATTCAAAGTATTTTGCTCCAACCATACATGCATTAAAACTACTACCCATACCAATTAAAATAATTCTATTAATTTTTTGAAGGTTTTTTATATATTTTTCAAGCTCATGAAACTCTATAGTAGAATTTTCAAAATTTACTCTATCTTTTAATGAATATAATGAAGTTTCACTTTGGTCATATATTTCCTTTTCCATAAAATAATTGAATGAAAATTTTGAAAAATTCTCTTTTTTATTGGTTAAATGATGATAAACAGGAGTGATATTTTTTTTGTTATTTGAAATAGAGATTTTATTTTTCTTTATTAACGCTATATCACCATTTTCTAGTGCAATAAATTTATTTGTATTTCCAATTAAAGGAATTGTGTCGCTTGATACTAATGAAAAATTATCTGAATTACTTACTAATAATCCTCCAGAATTACCTATTTTGAAAGCAAATAATGTTCCTGGATCTTTAATAGAAAAACCAACAATTGAAGAGGCTCCCTGAATTTTTTGTGTTAGTTGATAAATTGAAGATTCTAAAGAAAAATCTTCATTTAGATATTTAGATATTAAATGTGAAATAATTTCACTGTCTGTTTCAGATTTGAAAATAACATTTTCATTTAATAACTCTTGTTTTAATTGTAAGTAGTTTTCTATAATTCCATTATGAGAAATTACCACATCAGAGTTTTGACTGATGTGAGGATGTGCATTTGCTTCAGAAATTTTTCCGTGTGTAGCCCAACGAGTATGAGCTATTCCTATATTTCCATTTAAAGTTTCATGGGATAATTTAGTTTTTAATTTTTTTGTATTGCCTACTACTTTATGAATAACTATTTCATTTTCATTTTCAATAGTAGAAATTCCTACACTATCGTAACCTCTATATTCAAGTTTTCTAATTCCTTCTATAAGAGATTGGGCTGCAGGCTTATCGCCCACATATGCATAGATTCCACACATTCAATTTTCCTTGTTGCTATTATATAAATTTTTTGTAAATTCAAATTTATTTTCTTTATTATAAAATCCTCTATAATCTTGGGGAAGTAAATCAGCGATTCTAAACATTATTTCACTTGTAATCCCTTCTAGTTCAGATTTATTATTATAGGATAAACCTTCTCTTAATATAAAAGGTTTTCCACATTTTATTTTTATAGATCCAGTAGGTTTTAGTACTCTGAATACAGAAGTCAGATGATTAGTTCCAGTAATGCTAACTGGCATAAGTGTTGCTTGACTGTGAAGAGCTATCTTAGCTATTCCGGTTTTAGCTTTTAATAAATTTCCTTTACTTCTATGTCCTTCAGGAAATATAACCATAGTTCCATTAGGTTTGGATAAAATATTAAGAATTGACTTAAAGGCATTTAAATCAGCTTTTCCTCTTTTTAACGGGATAGCACCATAAGAATTTAGCAATATTCTAATTATTGGATTTTTAAATAACTCTGATTTAGCTGCGAAATATAGTCTTCTGTTAATACTTGCTGATAATATTCCTGGATCTATATTTGCCAAATGGTTACTTACTATAATTAGAGGATTGTTTTTAGGTACATTGGTTAAATCTTCAACTCTATATGATGTGGTAAATATTTTAAGAGTTTGACGTAATCCAATATTGCAAGCTTTATTAAGAATACTCATTATTAATTTTTTCAATTATTTCATCTGAAACTTGATGAATATTTTTTTACTCTGTATTAATTATTAAGGCATTTTGAGGTACTTTTAAAGGAGAGAATTTTCTAGACATATCTGAATTGTCTCTTTCTTTTAGATCTTTAAGTACTTTAGAGTAGGGATTTTCTTCAGAATTTTGTGAAAATCTTCTTCTAGCTCTTTCTTCTGCTGAAGCAGTTAAATAGAATTTTGATTTGGCATTTGGTAACACTATAGTTCCTATATCTCTTCCTACTACTACACAAGAAGAATTTTTCACAATATCTCTTTGTTTTTTTACCATCATTTCTCTAACATTTTTAAAACTTGATATTTTAGAGACATATTTTTCTACTTCAGAAGAATATAATACATCTGTAACGTTAATTTTATTTATTAATACAGTTGTGATATCGATATTTGTTATATCTAAATCAAAATTTAAGGTTTTTAAATCTGTTTCTATTCTATCAATAGTAGAATTTTGAAGATTATTTTTAATTAAAAACCAAGTTAAAGCTCTATACATTATTCCTGTATCTAAGAATCCAATCCCTAGTTTTTGTGCTGTTAATTTTCCTACTGTTGTTTTTCCTACTCCTGCAGGACCATCTATAGTAATAATCATAAATTTAGTTAGTGTTTTTAGTTGGGGTTTACTTGAATATTTTTTGGAATTTGCTTTACTAAAATGTCAAAAATTATTAATGGATTCACATTCATATCTAGTGTTTTTTTTGAAGACGAAAGATAATTTAACAGAATAAGAGTTTTTGAAATTGGTATTATAGAAGCAATTTTTTTTGTTTCATCAAAATACTTAGAATAAATAATTTGATGATCTTGATTTGTTTGAATCATTAAAATATCTCTACACCAATTTGACCAGCAATCTAATTCGTTTTTTACAGAATCTTTGTTTTTTTTATATTGTCCAGATAATTCATTAGAATATTGTAATTGTTTTGATAAAGGATTTTTTAATAAATTTAATATTCTTTCAATGGTTTGATTTTGATTGTCTAAAATTATTGGATTTTCTATAATATTAATTGCTTTCCCAAAGCAACCTTGTGACAGTTTTGCTATAGTACTTAGTTTTTCAGTTTTTTCCGGATAAGTCATTTCTAATAATTTTTCTATGTTTTTAGAAGGTAGAGGAAAAAGTTTATAGGATTGACATCTTGATTTGATTGTTAAAGGTAAAAAATCTAAAGATTGCACTAATAAAATTAGTAGAAAATTTGGAGATCCTTCTTCTAATATTTTTAATAAATGATCAATGGATTCTTTTCTTAGTAAATGTGAGTCTTCTACTATAATAACTTGATAATTTCCGTAGAAAGGTTTTATTTGAGATTTTCCTAATATTAAATCTCTAACAACACATATTGAAATCACAGTTTGTTTTGTAGTTGGGCCACAACATTTTCTTTCATCATTTTTTTTAGGGTTTGAACATACTGATTCTTTATTAATAATTAATACATCAGGGTGATTATTAGAATTAATTCGTTTACATTGGTCACATGAACAATCTTCGACTCCTTTTTCACCTTTACAGTTGATCTCCTTGGATATATCTAGAGCTAGTGTAGTTTTTCCAGAATTTTTAGGTCCAGAAATAATAATTGAATGTGGTAAAGGATTAGATTTACAGACTTCTTTAAGGCTGTTAATTACTTTAGGATAACCTAATGTTTGCCAAGAACTAATTTAAACCTCCAGATTTAAAAGTTTAAACAAAATGAGAGAGTAAATCTTCATGGGTTTCTCTTCTTTTTATTACTTGATGATTACCTTTGTTAACTATTATTATAGTAGGCCTGCAGTACATATTATAATTGCTAGACATAGCAATATTATACGCCCCAGATGTAGCTGAGATAATTAAATCATTATGGTTTAATTTTGGAAGGTAAGTTTCGTTGGATAAAATATCGCCTGATTCACAAAATTTTCCTACTATAGTAACTTTTTCTGTAGTTTCTTCTAAAATTTTTGTTACAGGGAATATAGAATATTCTGATTGGTATAACGCAGGTCTAATATTATCTCCCATTCCTCCATCTATACTTACATATTTTCTTACTCCAGGAATATTTTTTATGCTTCCTATTTTATAAATTGCTACTCCTGATCTTGCTACTATCGATCTTCCTGGTTCAACTATGAGATGAGGTTTAGGTAATGAAAGTTCATCACATTTTTTTATTATTGTTTCAGATATCGCATCTGCATATTCTTTAACACTAGGAGGTTTTTTATCCTTAGATGTATAAGTAACAGCAAATCCTCCTCCAGGGTTAAAGATTTTTAAGTTTAAGCCATTATTTCTTTGCTGATGAGCAAATTCTAATACGTAATTTATTGCGAGGACATACGGTTTTGTCTCAAAAATAGGAGACCCTAAATGAAAATGAATACCTTGTAAGTCTAGGTTAGACATTTTTGTGGTTAATTTTATCGCTTCTTCAGCTTGTCCTGTTTCAATAGGAAACCCAAACTTAGAATCTAGTGTTCCAGTAGTAGTTAAAATGTGAGTTTTAGGGTCAACACTAGGAGAGACTCTGATTAAGACCTTTTGAGTTTTTGATGACTCAGAAGCTATTTTATTTAACAAAGAAATTTCATCAAAACTATCTAAAGTAATTGTTTCGATATCCCAATCTACAGCTTGTTTTAGTTCTTCATATGATTTGTTATTACCATGAAAATTGACTTTATTTGAAGGAAATTTTGAATATTGAAGTACTGATAATTCACCTCCTGAGACAACATCTATTCCTAGATTTTCATCTTCTAAAATCTTTGTAAGATGTGGACTAGAAAATGCTTTTGAAGAATAAGAAATATGGGAATTAGGATAGGATTGTTTAAATTCATTAACGAATTCTTTACAGATTTCTCTAATGGTACTCTCATCATATACGTAAAGAGGTGTACCATAGATATTTGAAATTTCTTCTAAATTACATCCTCCTATTTCTAAAATTCCCTCTTCATTAACTTGAGAAGTAATAGGAAGTATGTTTTTTATATTTTCATTCAACATATTTGTATAATTTATTTTGTTTAAAATTTCTTATTTTGTCTAATCTTTATTTTATGTAATTTTTTTTATAATTGAATTATTATATTCCCTAAGAATTTCTTCAGTATTCAAACCCATTTCTTCAAGGCTTGAAACTAAATTAAATAATTTTATTGATATTTCTTCTTTAGATATTTCTTCTTTAGATTTTAATTCAAAAGTAATTTTTTGGGGGATTGTTTGTTTTTTTATTAAGTTAAGTTTTTTAGCTCTTGAATATAAACTTGCAGATTTTAATAGGGAAGGAAGGTGGTTGGGTATATTTTTTATTAAAGACAAAGGATCTTCATTTTCTTCTAGTTTTATTTTATCCCATTGTTTATGAACTTCTTTTAAATTTAAGTTACTTTTTTCTGAAGAGAAAATATGAGGATGCCTTCTTTTAAGTTTTAATGTGGCTTTTTGTAGTATTTCATCAATAAAAAACTTTTTTTCTTTTTTCCCTATATCAGCATGAAAAATGATATGAATAATTATATCGCCTAGTTCCTCAACAATTTTTTCCTTATCTTTTTCTTCTATAGCAGACACTAATTCATATACTTCTTCAATTAATAAAGTTTTTAATGAGTCATGAGTTTGTTTTCTGTCCCAGGGACATCCGTTAGAGCTTCTTAAGGTTTCTATTACTTTAATTAATTCTTCAAAATCTCTAGACATAGTACAAAATTTCTCCTAAGTTATGGAAACAATTAATATATTTATATGTTTACAAGAAAATTAATTTTATGAAAGTAGTAGTTTTAATTTTTAAAGGATTATTTGTTATAAGTGTGCCTATTCTTTTGATAATCATTGCATCAGATGTTGTCATTAAAACATCATTTATTTATGAATATGATTATTGGAAATACAACATAACTGAAAGGACTAATATTGATTTAAATAATTTGAGAGAAATAGGAAGAGATATTAGAGATTACTTTGAGAATGATCAAGAATATTTATCAATTGAGACTACTGTAAATAATCAGAAAAAATATTTGTTTAATCAAAGAGAAGTAGAACATATGAAAGATGTTAAAAATCTCATTAATTTTCTAGATTTTATAGGGTTGATTTTAGGTTCTATTTTAATAGTTTTTTCCTGTTTATTATTTTTTTATGATAAATATTGGAAAAAAACTCTCGTAAATTTAATATTTTCAAGTGGGCTGTTCAGCATCTTTTTAATAATAAGTATTTTATTAATTTTTTTAGCTTTTTTTGATTATTTTTTTATTTTGTTTCATGAGATTAGTTTTTCAAATGATCTTTGGATTCTGAATCCTAAAACTGATTATTTAATAATGATTTTCCCAGAGAAATTTTTTAGAGATGCTTCTTATTTAATAGGATTAATTTCTATTTTAGAATTTTTATTTTTTTATTTGATAATTAGATATTTATTTAGATTTAAAGGTTAACAAAATTCTCAATTTCAGTAATATTACTGATTGTGAGATCTTTATTTTTTGAGTTATTTTTATTATTGATCCAAATAGAGTTAAATCCACAATTTTTTGATCCTAAGATATCTGCAGTGTAATTGTCTCCAATATGAAATATTTCTTGACTGGGTACCATTAATTTTTTAATTGCAATCTCAAAAATATTTTTTGATGGTTTTGCAGTTTCTAATTCATTCGACAATAAGATAAATTGAAAATATTTTAGTAAACCAATTTTTTCTAAATAGATATTGTATGTTTTAGGAGAAGTAAATCCAGTATTAGAAATCAGGCATATCTTATATTTTTTTTTATATATATTTTTAATAAGTTCTTCTACTCCATCAATAACTTGAGGAGGATATTTTAGAAAAGCTTTATCAATTATTTTCCCTATAGAAATATTAATTTTTCTTGTTGGGACAATTTTTTCTTTCTGAGAAATTTTCTCTATTAATTGATTCACTCTATTATCAAAATTTATATCAATTCCTTTTTTATGATCTTCAGTGCATTGTTCTCTTATGTAATTCAATGAAATTTTGATGTTTTCTAAAGTAATTTTTGAGTTAATTTTTGATAATAATATGAGAATTTCATTAATTCTATATTCAGATCTATTTTCTCCCATTTGAGGTGAATCTTTAATTAAAGTGTCCCATAGATCGAAAGATATAGCTGAGATTTTTTTATAATTCATATTTAAGATGTTTGTGTTTTTTTTGAACTAGGTAATAATAAATAATAACTAATTTTATGAGTAAGGAAAATAATTGATAATAGTTACAGGATGTTCAGGTTTTATTGGGTTTCATCTTTCTAAGGAATTGTTAAATAATAATTTGCCAGTATTAGGTATTGATAATTTAATTTCTTCACAAAATATTCTTAAAAATTGGAGGTTAGAACAATTAAAGAATTATGGAATAAATTTTATAGATGTAGATATTACGAATAAAGCAGAATTAAATAAAAAAATAAGAGACATAAATTTTTCTGGAAATTTTTCTACAATTTATCATTTAGCCGGATTAGCAGGAGTAAGGCAATCAGTTCTAGAACCAAAGAAATATTACAATAATAATGTTATGGGGACTATTAATATGTTGAATATAGCTACAGAATTTTCTTTAGAATCTTTTGTTTTTGCTTCTTCTTCTAGTGTTTATGGGCTTCAAGATAATAGAATTCCTTTCGTAGAAAATGAAACATTAGAAAGTCCTCAATCTCCATATGCATTTTCTAAGTTATTTGCTGAATTAATTTCTAAGGATTATTCTAATATTTCTTCTTTGAATGTATCTTTATTAAGATTTTTTACGGTTTATGGTCCTGCTGGAAGGATTGATATGAGTATTTTGAAGTTTATCCATAATATTATTAATGAAAATCCTATAAATATTTATGGAGATGGTTTTCAAGAAAGAGATTTTACATATGTGGAAGATATTTGCGAAGGAATTATAAAATCTAGTAGAGTTGACGGCTTTGAAACATTTAACTTAGGGTCATCACAACCTTACTCTATAATTAAGGTTCTAAGCATATTAAAAGAAATAATTAATAAAGAACCAAAAATAGAATATCTTCCAAAGCATTACGCTGATGTGAATTATACGTGGGCAAATATTGATAAAGCTAAGTCACTTTTGAAATGGCATCCTAAAACAAGTTTAGAAAATGGATTAGAAAAGACAGTGGATTGGTATAAAAATAACAAAGATTTGTTAGCATCAACTTTTGAAAAATTTAATTGAAATTATACGAATAGATGGAGATTTAAAATTTTACTTTCTAAAATTTCTCTAAAAAACTTTAGGAATCATGTTGATACTTCTATTGATTTAGCTCCAGGTTTAAATATATTTTTTGGTTCTAATGGTCAAGGTAAAAGCAATTTTGTTGAAAGCATTTATTTGCTAGCTATTGGAAAAACATCTAGATCATCTTTTGATCAAGAATTAATTAATTATGAAATCAATTCAGGAGATAATTGTTCAATTAAAGCAATTGGATCAGATGGTCCCATTTTGTTCAATATAGAATTTGAATTAAAACAAGATATAAAAAATTCAAATTCTAGTATTGAAGATAATAAGGCATTTAAGTATAAAAAAATCTTAAAAATAAATGGAGCTAAAGTTTCTTTGAATTCTTTTGTAGGCGTTTTTAATGTTGTTATGTTTGAAGCTAATGATTTAATGTTAATTTTTGGAGCTCCTATATTAAGAAGGAGATTTTTAGATATCTTAATTTCACAAACTGACATTCAGTATTTGAAAGCTCTTCAAAGATATAATCAGGTTATAAAAAATAGGAATAGAATTTTGAAGAATATTTCTTTAAATAATTCTAACTATAATGAGTTAAAATTTTGGACAGATAAATTGATTGAAGATGGAAGTATGATAATGTATTTCCGACATAAAATAATTCAGAATTTATTTCAACGTACAAGTATTTTATATGATCAATTATCTATAGAAAATGAAACTTTAGAAATAATATATCATCCTAATTTGAAATACTCAGATGATATTGATTTAAAAAATCAATTGATACAAAAAAATGACTATGAAAAATTTATTTTTGAATCTATTGAGAGAAAAAAGAATGATGAATTAAGATATGGAACTTCATTAGTTGGCCCTCACAGAGATGATTTAGATATAAAATTGTCAGGATTTAATATTTCTAATTATGCTTCTAGAGGTCAAATAAGATCTATAGTATTGGCATTAAAGTTAGCTGAAGCTGAAATTATTAGTGAAATAAAAGAAAGTGATCCTGTAATTATTTTAGATGATGTAATGTCAGAAATGGATTCAGATAGAAGAAGATTAGTTTTACAATTAATTAATAATTATGATCAGGTTTTAATTACAGTTCCAGACAGAAAATTATTAGATCAACCCAATCTGAAGTATTCAAAATTATTTAATGTTAATAAAGGCAAAATTAATATTTTATAAATGGTAAATAATATTTTAGAAGCAACAAAAATTATTAATTCAAGTAAATACATTGTAGCTGTTACAGGTGCAGGGATTTCTGTTGATAGTGGAGTTCCAACATTTCAAGGAACTGATGGTCTTTGGACTAGATTTGGAAAACCTAGTTTAAATAGTTACTCTGATTTTATTAAAGATCCTGATAAATGGTGGCTAAAAGAAATAAAATATACCTCTTCTCCTTACATTAATGAATTAAGAAGAACTCTTGAATTAGCTAAACCTAATATTGGACATAAAATTTTAAAATTGATGGAAGACTTGGGTTTAATAAAAATGTTGATTACACAAAACATTGATGGTTTACATCAGGATGTAGGTAGTAGAAATTTAATAGAAATTCATGGAAGTAGAAAAAAATTTCGATGTATTGGTTGTAATTGGAGAAAAGATAGAGGAGAAAATAAAATTTCTAAAATTCCTGATCCTTGTATGAAATGCGGAAAAATTATGAAATTTGATTCTGTGATGTTTGGAGAACCTATTCCGAAGGATGTATTAAACTCTTCTAGAGATTCAATTAATTATGCTGATTGTGTTTTATCTATAGGGACATCTTCTACTGTAAGGCCTGCAGCAGGATTATTTTGGATTGCTAAATCTCAAAACGCTAAACTAATTGAAATTAATATTTCACCTACAAAATTAACTAAATTTTGTGATGTAGTCATAAAGGGTTCTACATCAGAAATTTTACCGAAACTTTTTGATAGTCTTGAAAATCATTAATCTAGTGAAATTTATATTTTCTAAAAATCCTATAAATTAATATTAATATAATTTCTAAGAATGCTTTTGAGCCATTAGAGAATTTTACAGAACTACTAGGATTGTAATACCACTCAATAGGAATTTCTTTAATATTTTGGTTTAATTTTCTACTTAGAAATAATACTTCTACATCAAAAGAAAACCCATTGATTTTTTGCTGGCTAAAAATTTTTGAGGTAGTAAAATTTTTAAAAAGCTTAAATCCACATTGAGTGTCATTGAAGTTTTTTAATAATAACAACCTTACAAAAATATTAAATAATATTCCCAAATAATGTCTTGTTTGAGGTTCCATATAAACATTTGATTGTGAATGGCTTCTATTTGCAATAATTATGTCTATAGAAGGATCCTGCTGTATTTCGCTTAGAAACATATCTAATTGATCTATTGACATTGATAAATCAGCATCACATAAAAAACTCCATTTTGCATTTGAAGAAAGAATTCCTTTCTTGACTGCCGCTCCTTTTCCTTTATGAGTGATGTCTATAATTTTTAAATTAATATTTTTAGAAGCTAATAAATTTACAATTTCAAGAGTATTATCTGTACTTCCATCATTGATTATAATTATTTCATATTTAAAATCTTTTTTAGACAAAAAATCTTGAATTTTTTTTAGAGAATTTTCGATAATTGAAGATTCATTATATGCAGGAATTATTATTGATAGAAACATGCTGAAGATCTATTATCCAAAAAATTCTTTATGCAATGTATTTGTTGCTTTTTCTATATCAGAATCTTTGATTATGCATGTGATTCTTATCTCAGAAGTTGTAATCATTTCTATATTTACTTTTGCACCAGCTAAATTCTTGAACATTCTAGCAGCATAACCTGGTTGATTTTGAATTCCTGTGCCTACAATACTTATTTTTGCTAGACCTTGTTCACTATTAATATTCTTTGAGTTAATTTTATTAGAATCATTTAATATCTCTATAGCTTGATTTAAATGATTTTCTGACAAAGTAAAGCTAAGGTTAGTTTTCCCGTTATTTCCTGCGCTTTGAACTATCACATCTATATTTATACCTTGATTTGCAAGAGGCATGAATATACTTGCAGCTACTCCAGGAGTATCATCTAAATCATTAATAGTTATTTTTGATATTTTCCTTTCTGTAGGTATTCCTGTTACTACTTCTCTAATTTCCATTTTTTTTATTCCTGATTTAATTATTGTTCCTTTAGATATTTTTGATGAATGTTTTACAGATATAGGTATATTATATATTGCTGCTAATTCTATGGACCTAGGATGCATTTTTGCACCTAATGATGCCATTTCTAGCATTTCTTCAAAAGATAGATAATGAATTAATTTTGCATTTTTAACTATATTTGGATCTGCTGTAAATATTCCTTCTACATCAGTGTAAATTTCACATGATGAAGCTTTTAATGCAGCAGCTAGAGCTACTGCTGTTGTGTCTGAACCACCTCTTCCAAGAGTAGTTATATCTTTAGTTTGTGAAACTCCTTGAAAACCTGCAACAATTACAATTTTTTTTGAGCTTAATTCTTTTTTAAGTCTTGAAATTTCAATTTTGGAAATCCTTGCAGATCCATGATTTAAATTAGTTTTGATTCCAGCCTGGGGACCTGTAAGACTTATTGAATTTACTCCTAATTTATTAGAATTTATTGCCATTGATAATAATGTAGCACTAACTATTTCTCCTGTAGAAAGAAGCATATCTATATCTCTGTTATGTTTACTAGAAATATTTTTAATAATCTTTGTAGCTTGATAGAGAAGTTGATCAGTTGTTTTTCCCATTGCTGAAACTACTACAACTACATTGAATCCTTCAGAGTGTGTTTTGATAATTTTTTCAGCTATTTTTTTTATAGCAGTTACATTTTTTAATGATGAACCACCGTATTTTTGGACTACGGTTTTATTTGATAGAGAAGACATTATTATTTTTTTACTTTAATATATGCACCTTTATTAGTTGGTTTAGTTATGATGACTCTTCCTTTCAAATTGTGTTTTCTAGCACATTCTAAAAGTTCATATTTTATTGTCATTTCTCTTCCTTTTGAAAAGAACATTATTGATGGACCTGATCCTGCAACAAATCCTGAAAGAGCACCTGCATCTAACCCTGAATTTAAGATATATTTCATTTCTTTAAAATTTTCTAATCTTGCATCCTGATGAATCATATCTTGGGTGGCTAATTTTAATAGAGAATATTCTTTGTTGTTTAAAGAATTTATCAGTAATGCTACTCTTCCAATATTGAACACAGCATTTTTTCTGTCGATCAAAGGGTTTAATAGAGATCTAGATTTTTTTGTTTCAAATTCCATTTCAGGAATATAAATTATTACGTTTAAATCTTCTGCAATTGAAACTTTTGAAAATCCCCATTCTTTATTGTTAAGTACTGAAATAACACATCCTCCAATCATAGTAGGAGCAATATTATCAGGATGTCCCTCTTCATTGATTCCAATTTCGATAAGTTTTTCTAGAGAAGTTTTTTGTTGATTTTTTAAAGTAGAACCAAGCAATAATCCAGCAGCAATAGCTGCTGAACTGCTTCCTAATCCTCTTGAAAGGGGAATGTTATTGTTACAATTTATTGAAATCCCATTAATATTGTTATCAATAAAATTTTTTAATTGAATTAGAGTTAAATTATCTTGATTAGGGATTTTTTTATAAGATTTTTCTCCAGAATATTTTATTGTAGGTGGTTTTGAAGAATTAATGTCTTGTGTGAGTGTAATTTTATTCCAAATATCTACTGCAATTCCTACACAATCAAATCCTGATCCTATATTTCCACTGCTTGCAGGGACATTTACTTCGATTTCATGAAAATTCATTTTTGGATTTGACCTAAATAATTATATGCTGAGAGTGCAGATATTGCTCCTTGTCCAGCAGCAGTAACAGTTTGTTTTAAATTCCCTGAGGCATCTGTTAAATCTCCTGCAGCAAAAATTCCTGCTATATTAGTTTCCATTAAATTGTTTACATGGACTTCATTTGTCGTAGGATTAATCTCTAATCCTAGTTGATTTGGAATTTTTAATCTTGGGTCTGCGCCTATCTCAATAAATAAACCATCAATATTGATATTTTTTGATTCATTATCACTTCTAGTTTCTATAGAATTAAGTCCAGATTCATTATTTCCGATAATTTTAGTAATTTTGGTGTTAAGTAGTATATTAATATTTTTTGATTCATCTAGATGTCTTAAAAGTACAGGTTCTGGTCTATATATTTTATTCCCTCTGTATATAAGATAAACTTCAGTAGAATATTTACTTAGCAATAATGCCCCTTCTATAGCTGCGTTTCCTCCTCCTACTACTGCTGTAATTTTGTCTTTATATAAAGGAGCATCACAGGTAGAACAATAAGAAACTCCTTTTCCAGTTAGTTCTTCTTCATTTTCTAAATTTAATTTTCTTCTTTCTCTACCTATTCCTAGAATTACAGCTCTGGTTTCAATTGTAGTTTTTCCTGAACATTTTATGGAATAGCCTTGGTCTTTTTTTTCTATACTTATAGCGTTTTCATCAATAGTTTTTATATTATAATTTTCAACTTGTTGTTTCATATTTAACATTAGATCATAACCATCGATTTCTGGTACTCCAGGATAATTTTCAATTAATCCTCCAGTGGCAGTTTCTCCACCAAAATCTTCTCCAATCATTACAGTAGGTATTTGATATCTAACAGCGTATAATGCCGCCGCATAACTGGCAGCTCCAAGACCTATAATACTTAAATCTATATTATTTTTATTCATATAATAAGTTTCTATGATTGTTTATTAGAGATTATAAACTTTATACTTATAATAATTTACTTATACTTATAATAATCTACAAGTAAATTTTAAGTGCAGGAAATTTTGAAAGAGCCTATTGTTGATACTATAGTTGTTGGATCTGGACCGGCAGGTAGTCAGTGTGCATACAATTTAAGTTCTAGGGGTCACTCAGTAATATTACTAGATTATAGAGAAAATATTGGTGATAAATTATGCACAGGAATTGTAAGTGCTGAATTTGAGAAATTTTATCCTGATGTTTCAAAGTTTATTTATAGGAGAGCTTATTCAGCAAGTATTTTTTCTCCTTCTGGTAAATTATTAAAAATTAAACGGAAATCTCCTCAAGCATTAATTATTGATAGGGAAAGTTTTATCAGAGAAATAGCATTTAATGCAGAAAAACTTGATACGAAATTGAAATTGGGAAGAGTAGTTGAAAAAATTGAAGTCAATTCTAAATTTGTTCAGGTTAGAGTTAAATACAATGGAGAAGTAGAAGAATATACTTCTAGATCTTTAGTTTTAGCAAGTTGGTTTGGAAGCAGACTAGCAAAAATGGTAGGTTTAGATACCCCTAAGACAAAAATTTTTGGAGCTCAGGTCAAGATAAAATTTAATGGAATTGATGAGGTTAATGTTTTTACAGGACATAGTTTGCCAAAAGGTTTTTTTGGATGGATGGTTCCTTTAAATAATAATTATTCATATTTAGGTATATTAGGAAAAGAAAACCCTAAGGAAATTTTTGAAGATTTTTGTAGAAATTTAAAAAATCGATTTACAACATTAAGTTTTTCTGATGATGTTGATATTTGGGGAATTACTGTATCTCCATCATCAAAAATTTTTTCAAATAGAATTGTTGGAATAGGAGATGTAGTAGGACAAGTTAAACCTACTACAGGTGGAGGGATTTATTTTTCTATGAGGTCTGCAGATTTAGCTTCTCAAGTTTTATCTGAAGGGTTACTCTCAAACAATTTGTCTGAAACTTTTTTATCTAATTATCAAAAATCTTGGGAAAAAATTTTTAAAAAAGAGCTTCAGGTAGGTCAATTAGCAAGATTTTTTTATGAAAGTTTAAGTGAAGATGAAATTAATAATATTATTAATTATCTATTTGAATCAGGAGTACTAGATAAGGAAATTTCTTTTGATTGGCACTCTGAATTAGTAATGTATGCATTCAAAACAAAAATTTTAAACTTTGTTAAAACCCCTATGAGGAAAGCTGTTCAGAAAGTTATTTATTCTCTAAATAATTAGAATTTTTTGAAATAGTCTCTTTGATTATTTTCATGATACTTAATGAATCAACTTTATGATAACTTAATACCTCTTCATTAGAACCACATTTAGGAATTTCATTAATCCCAATTTTTAAAAGAATTTTTGGAAAATCAGACTTGTCGGGTTGTTGAGAAATATTTGATAGTAACATTTCTCCTTGACCTCCACTTTCATAGTGATCATCTAATGTAAAGAGAAATTTAAATCCTTTTATTTGTTCTTTTAACCATTCTTTGTCTACATAGTTTAGCCAAGGTAAATTAATAATTTTAATTTTAATTCCCGTTTTCATGAGTTCAGTTCTTGTTTTTAATAATTCATTTATCATTACAGGACCATAGCTGAAAATTATCACATCTTTTCCTTCAGCTATTGTAGTTCCTTTACCTTTTTCGATTTTATATTTTTTAGATAAATCAAAAGGTGTTTCTACTGGAATTGAACATAATCTAATATAGGAACTTTCTTTTAATTCATCTATGCAATAATTCAAAATCATTGATACTTCTTTAGAACAACTTGGTTGAATTAATTTTAGATTTGGAATTCCTGATAGAGATGCGATATCCCTTACAGATTGATGGGAGTGTCCAGGTCCTCCTGGCAGGATTCCTGCTAAAGAACCTACATAAATAATTTTAGAATTTTCTGTTGCATTATTATATATTTGCTCATTTGGTCTACTGCTTAAAAAGCTAGCAAAAGAATGAACTATAGGTAGGAACCCTTCTAATGCTAGGGTACCAGCTTGAGAGACCATATCTTGTTCTGCTATTCCGCATTCGAAAAACCTATCAGGAAATTCTTCCTCAAATGGTATTAAGCCTGTGTCTAAAATTAAATCTCCATCTAAAGCAATAATATATTTATTTTTCCTTGCTTGCTTTAATAGAGAAATGGAATATTCTTTTACTAATGATTCTTTTTTGTGAGAATTAGAAATGACATTTTTTGACTCATAAGAATTTTCAAGATCAAAATCTAAAGAAATTGAATTATCATTTATTATTTGATTGATTTTAGTAGAAAGTTCATCAATAGATTTTCTAAATATTTCATCTGTTGTTGAACCACTGTGGAATTTATAAAATTGTCCAGGTTTAAGATTATTAGCTTCTAGAAATGATACACCTTTACCTTTTATGGTATCTGCAATAATTGCTGAGGGCTGATTGCTATCAATCAATTTTTTTATATCTTTAGAAAATTTGAAAACATTATGTCCATTTATTTTAATTGTTTGAATTCCAAAAGAAGTTATTTTATTTTTTAATTCTCCCAAGTCGCTTGTATATTCTACTGTACGGTCTGATTGAAATTTATTATTGTCTATTATGATCATTAATTCATGTAAAGATTCTTGTTTCACTCTCATCAGTGATTCCCAAAATTGACCTTCTTGTAATTCTCCATCTCCAGTCATAACAAAAACTCTACATTCTGTATTTTTAAGTCTGTTTGCTTTTATTATTCCTTTAGCTTTTGATATTCCCATTCCTAAAGAGCCAGTATTAGTAATTACATTGGAAGTATTCACATCAGGATGCCCAGGAAGACCATCAATTTTTCTTAATTTATGAATCAAATTAAAATCTATCAATCCTAGAGATGACATTACCGAATACATTGCTGGTGCATCATGGCCCTTAGAAGAAAAAAAATAATTTCTTGTTGAGTTATTATTTAAAACATATTTTAAGAAAAACCATGACATTAGATCTATAGAACTGAATGATGACCCAATATGTCCAGATCCAGCTTTGTTTATCATATAAAGAATATTAATTCGACATAAATAAGAGAGTAGTTCAGATTTTATTTCAGGTTGGATCTCTTTTTTTAAAAGATCATTAAATATTTCATGGGGCACAAAACTTAGAGTCATTTTAATAATTAAATGGTTTTTGGGTTATTTCAGTCAACTTAGCTTTTTCTGATTTTAAATATATTTCTGCTTTGATCCAATCCTCTTCTACATTCACATCAATTCCTTCATCATCTTTTGTGAAAAAGGGGATAATTTTTGAACCAGAAATGTTATTTTGCTCAAAAACTACATTAGAATTTGCTATTTCTAAGCTTGCATTTTGTACAAAGACTTCAGGTAAAGAGGGGTATTGGGAACTATGTAATGGTTGATTATGTGGACCATAAGATTCAAGATTTACGAATGGCTTTATATAGTCATCTTCTAATGTCCACATTTTACAAGGATGCTGTAAGCATTTTTCTACTGCTCTCAATGAATCTGAATTTGAATTAGAAAATAATTTAAAAGCTCTTTTAATAGTATTGGCTTTTCTGAAAGGACTTGTTGGCCTGAGGATGCTAAATTGAGAATAATTTTTGCTTAATTTAGATAATTCAACTAATGCATGTTTGACAAATTCTATATCTGGAGATGTATCTGTTGCATAAACAGATGGTCTTAAAAAAGGGACTGAAGCTCCATAATACTCTGATATTTTTTTTATATCATTAGAGTCAGTTGAAACTATTATTTCATCAAAAATTTCACTATTTATTGCTGATTGAATTGTGTAAGCAATTAAAGGATGGCCATTTAACAATTTAATATTTTTATTTTTAATTCTTTTAGATCCAGATCTTGCTGGGATCAGAGCTACAATATTATTACTACTTTTTTTAGACATTTTTTCTTACCAAGCTGTCCATCCACCATCAATAATCAGATTAGATCCAGTCATGTAAGACGATGCATCACTAATTAAAAATAGAATAGGTCCACAATATTCTTCTCCTCTTGCCATTCTTCCTAAAGGAACTCTTTTTGAATATTCTTTTACAAATCTAGGATCTTGTTCTGAATATACTCCACCTAAAGTTAATGTATTTACTCGAATGTTTTTTTCAGCCCAATATGTGGCTAAATATCTAGTAAAATTAATTATTCCTGACTTGGATACAGAATAAGCAATTGGTTTATAGAAATCTACCCCTGATTTTTTAGTGAAATCATAGATTCTATGATCAGGTGATATAAGTCCATAATGAGAATTAATGTTTATTATGGATCCCTTTTTATTTTTTGCCATTTGAGAACCTATTATTTGAGATGTAAGAAATGTTCCTTTTAAATTAACATCTAAAACTTTATCCCAAGATTCTATTGGTAGATCTTCAAGTGGACCAGTGTCTTTGCTATCAGTGCTTGGAGACGAATCTATAGCTGCATTATTTATTAATCCGGTAGGCTGTAAACCTTTCTTAATAATTTGATTTAGGCCATATTCAATAGATGATTTTTCAGTAATATCTACTTCTATATATTCTAACTTAGAATTCTTAGGATCTTTTCCAAATTTTCCTTCATCATTTGGGTTGCCTAATATATCAAAGCTGAAAACATTTGCACCTCTAAATGCTAAATAGTCAGAATAAATGGAACCTAATTTTCCGCTACCACCTGTGATGATTATCACTTCATTTTCTATTTTAAAATAATCTTTTACCATAATTATTCTGTTTGATTTGTTAGATGATCACATACTTCCCTTACAGCACCATTCCCTCCAAGAGTTTCAGTAATGTATTTGGCAACTTTAATTAATTTTGGATGACAGTCTTTTACAACAATTGGAAGGCCTACTTTTGATAGGCATTCTAAATCATTAATGTCATTTCCCATGAAAGCTACTTTAGAGATTTCTAAATTTTTATTTTCAATAATTTCTTTTACTAAAGAAAATTTATTTTCTACAGAATCATAACATTCAATATTCATTTTTTTACATCTAGTTTTTACTAAAGGGTTTTTCTCTGAAGATATAACAATTTTTCCTATTCCTTGAGATTCTAAGTTTTTTAATCCAATTCCATCATATCTTGAGCATTTAACCATTTCTTCTCCAGTTTGAGAAACATATACACTGTTGTCAGTGAATACTCCGTCAAAATCAAAAAATATAAATTTTATGTTTTTGAAAATAATTGATGTTTTAAGATCTAATTGTTTTGATTTAAGAGACATTTTATTCCAAGTTTTCAATAGTGAAAGAAGAATCTTTTGTTAATCTTTTTTTTATTTTTTTCCCTAGTATCATATCTATCTCAAAAGGAGACATTCCATCTCCTGGAGATTTAATTGATATATCGTTTTCTTTAATGACATGACCCGCATTTAATGTACTAGAAGCAACAAGTTTTTTACCCATTTTAAATTTTGATAATTGTTCTTCAGGATAAATGATTTTTTCTCCGTCTCCCAAAGATAATTTTACTTCATAGATCTCATTAACAAGAGAAGTCATTTCATTTGGAGTTAGTGAAAATTGATGATCGGTTCCTTTTAAAGTTTTATCATTAGTAAAATGTTTTTCAATAATTCTGGCACCCATAGAGAAAGCTGCAATAGGTATAGAAGTTCCAAAATCATGACCTGAATATCCTATTACAGCGTTAGGAAATTCTTCTCTATATTTCTTAATCACATTCAAATTTATGTGAATAGCTTTAGCAGGGTACTCAGAAGTACATTGCATTATAGCGATTTGATTATTTATTGCTGAAATAACTTCATAGGTTCTCTTAACTTGATCTAGTGTTGCAGCTCCAGTACTAATAATTGTAGGGAGTTTAAATTCTGCTACAGTTTTTATAAGATTAAGATTATTTAGATCTAATGAAGCAATTTTAAAAGCTGGAGTTCCTAGTTTATAAAGAAACTCTGCGCTCTTAATATCAAAAGGAGTTGCAAAGAAAGTGATTTTTTCTTTTTTGGAATATTGAATTAATTCTTTAAAATCATTTTCATTTAATTCTAGATGCATTCTATGTTCACCGTAAGTAGGTCCAAAACTTTGTGCCCCTGTATATGGAGAGTTGAACATTTCTTCAGTAAAAAGATTAATATTATCTCTTTTTTGAAATTTTACTGCCGATACACCACTTTGTTTTGCTAAAGTGATTAATTTTTTAGCATTTTCCAATTTTCCTTGATGATTATTTCCTATTTCAGCAATTACAAAGCAATTGGAATCATCATTTATTATTTGATTATCTATTTTTATCTCTCTAGGCATAATTTAACTATATATTTAGAATAGGGTTTTATAAAAGTATTTTAGTTTAAAGAGTTGATATATTGAAAGTAGTTTACATTACTAATGCAAGATTACCGACTGAAAAGGCTCATGGCATTCAGATAATTAAGATGTGTGAAGCATTTTCAGAGTTGGGTTTTGATGTCAATGTTATTCATCCTTGGAGGTATCAGTCAAATAAATATCATCGTACTAATGTGGAAGACTTTTATAATCTAAAATATAAGATTTCTATATCTAAGATTCCCTTTTTTGATGTTTATCTTATAAGAAGATTTTTGCCAGTTTTTTTATTTAGAATTTTTTCATTTAACTTTGCTGTATTGTGGGGAATAATTTCTTTGATAATTGCAAAAACTAAAAACCCTAACATTTGTATCATGAGAGATAATACTCCATTTTCTTATTGGTTTTTTCAAAAATTTGGGATGAAAACAATTCTAGAATTTCATGATTTACCCCCAAAATTATCCCTAAAAGTTTTTAAATCAGCTATCAAAACTAGTTCTTCACTTTTCGCTGTTACTGAAAATTTAGCTAGAGATCTAGAAAAAGCATTAGATTTACCTCATGAAATAATTAATGTTTTACATGATGGTCTTGATTTAGAAACTTTTAAAGAAAACATTAGAGAAGATTATGAGAAACTGGGAGTAACTTATTGTGGATCTTTGTTGCCAGATAAAGGTATAGACACATTACTCCAAGCTTCTGAAATGTTACCTCATTTAAAATTTACGATTATTGGGGGTCATCCATCAGAGATAGAATCATATAAGAAAAAATGGGAAAACCTTAATCTTGAGAATGTAAATTTTTTGGGTTTTAAGAATCCAAAATTTATACCTAAATATCTTAAAATGTCTGATTTATTGATTCTTCCTTCTACTGCAAAGACTAAAAAATCATCTTTATATACATCTGCAATGAAATTATTTGAATATTTGGGAGCAGGAAAGGCAATAATTGCTTCAGATATTCCGTCAGTAAGAGAAGTTTTAAAACATGCTGAAACAGGGTACTTAATTAAACCTGATGATCATGAAGAGTTGGCAATATCTATAGATAAAGTTTTGAAAGACAATGACCTGAAGACTTTATTAGAAAATAACGCAAAAAAATTATCTATGAAGTACTCTTGGGTTGAAAGAACTAAAAATATGTTAGAAAAATCAAAAATTTTTTATTAAAAGTCATAATGAAACAAAGAGTAAATAAAAATATTACTGTTTTTTCTCCCTTCTTAAATCCTGTAGGAGTTAAAAGAGCTACTTTTGGATTAGCTAAAGTGTTTTCTCAGAATTATTACAATGTGAATCTCTTGAGTGTTCATAGAGAATGGGAAGGACTCAAATTAGAAGAGAATATGAAAATCATATATTTATCTACAATTTTTAAAAGAATGCCGACTAAAGGTTTTTTAATTTTTCGACTTGTATCTCTAATTATTGGATTTAGGACAGTTTTCTCTCTGGCATCTTATTTGAAATCTAATAGAACAGAAATATTGTTTGTTTCTATGATGCCTACAATAGCATGGTTAGCTTTAAAATTTTCTGGTAAATCTAAAGAAATTAATTTTGTAATAAGCCTTCAAGGTTTTCCTAGAGAAAATATATTTAGGAGGGTAATTTGGAGAAAAATTTTTAATGCTTCTAAAGATGTAATAGCAGAGTCTGAAGGATTAATGAAAAAAGTTATCAAAATGACCGGGATATCTAAGAATGTGAACTTTATATATAATCCTCACTTTGAAAATCAAGATGAAATTAGAAACAAATCAGAATTTGTAAAGCTTGACTATAAATATATTCTTGGTTTAGGTCGACTTACTAAACAGAAAAACTTTTCTATGCTTATTGAAGCATTTAATCTTATAGATCACTCTAATGGACTTAAATTAATTATTATTGGAGATGGTGAAGAAAAAAGTAAACTGAAAAATCTAGTTAATAAGTTGAAGATCAACTCAAATGTATTATTTTTAGGTAAAATAGAAGACCCATTTGGCTATATTGAAAATGCAGAAATTTTAGTTATACCTTCTCTATGGGAAGGATTGCCTAGAGTGGCAATTGAAGCTCAAGCTTTGAAAACCCCAATTATTTCTGCATGTAAAGAAGGAGGTTTGGAAGAAATTTTAATGAATGGTCATGCAGGAATAATTGTAGAAAATCATGATGTGAATGAAATGAAAAATTCTATAGAAAAATATTTAAAAAATCCTAAAATTGCTTTAAGTCACTCAGAATTAGGACTAAAAAATATTTCAAGATTTTCACTTGAAACTTCTGCAAAAAAATATTTAACTAAATTCTCTAATTATTTTTAAGAAAATGTATCATAGTAAAGACATCACTGTTCTTATAGCTACTAAAGACAGAGTAAAGCAAATTGAAAGAGCTATTTTGAGTTCTGTAAATCAGTCAATAAATCCAAGAGTAGTTGTATTGGATGATGCCTCAGAAATAAATATTAAGAAAGAATTAGCATATAAATTTTCTAAATTTCGAATCAAATGGTTAAGATCAAATACACCTTCTGGAGTAGCAGGTGCAAGAAATAAACTTGTAGAAAATTCTTCTGGTTCTATAATGGTTTTTTTAGATGATGATGCTTATTTTTCAGATGAATATTCATTAGAAAAAATATTAAAGAAATTTTCTTCATCAGATAGTCTTGCTGCTATGGCTTTAAAAATTGTTTTGCGTCAGGAAACTGATGGTCTACAAATTCCTTTTAATCGATTAGAAAGAATATTAAACAAAAATATTCATAATAATGAAACTGAAGCATCTTACTATGTTGGCGCAGGACATGTTTTAGTAAGGGAAGTTTTTGAAAAAACTGGTGGCTACGATAATGATTTTTTTTATGGACTTGAAGAATTAGATTTAAGTTCATCAATTATTAAGGAAGGAAAAAAAATCATTTATTTTCCAGATGTTGAAGTGATTCATGAACCTCAGAGATCAGTTGTAGATAAAAAAAATCAATTAAAAGATGAAACCTACTATAGTATTAGAAATCGAATATGGGTTTCCTATAAACACTTACCAATAATTTATCTTATTAGTCATTTATTTATTTGGGGTTCATTTTATTTATTAAGATCCTTGTTAAAGTTTCAGTTGATAAAATATTTTTTTGCATTGAAAGATGGATTTTTAAAATTAAAACATTTAAGAAGGAACCCATTTAATTCTGAAAGCATAAAATATTTAAGAAAGAATCATGGGAGATTGTGGTATTGAGATGACTACTCAGATATCTAAAACAGTTATTATTCCAACAAGAAATGAGGAAGAGTACATAGAGGATTGTATAAATTCTCTTCTTGAAGGATCAAATGTAATCAACTCTACAGAATTTATCATTGTTGATGGAAAAAGTTCTGATAGAACTTTAGATATAGTTAGAGAAAAATTTCAACATTTGAATTTAAAAATATTAAATAATTCTAATGTATTTCAAGCATCAGCACTTAATTTAGGAATTGAAAATAGTTCTTCAAATATATTAGAGGTAGGCTCTGATTCACAAATTATTATCAGAGCAGATGCTCATTCTGTTTATCCTGAAAACTATCTTGCTCTTTGTGTAGAAGCATTACAAAAAAATCTAGAAGTAGGAAATGCTGGATCTATTCAGAAAGCAGTTGGAAAAAATTATTTTTCAAAAGCAATTGCTCTAGTAATGAATTCTACTTTGGGTATGGGTGGTGTCAAATATAGAAAAATAGGAAATGAAAAATTGGAAAGTGATACTGCTTATCTTGGTTGTTGGTGGAAAGCAGATTTATTAAAATTAGGTGGATTTAATGAAGATTTTCAAATCAATGAAGATTATGAATTAAATATTAGGATAAGAAAATTTTTAAATAATAATTCAATTACTATTAATCCAAATTTAATAGTAGATTATTTTGTGAGAACAAATTTTTTAGGATTATTAAAACAATTTTTTAGATATGGATTATGGAAGACCAAAACTTTATCCATACACCCAGATTCTCTTAAGAAAAGACAATTGGCACCTGTATTATTTGTATTATTTTTGGTTTCTTTAATAATAGGAAATTTAATCTTATCTTATCCATATTTAGAAATTCTTAATTGGATAGGGGCTATTGTAGGTTTATTTTGGTTAATTATGATTATAGATATTTGGAAAGATTCTCCTAAAATTATAAATGTTTTTCTAATCCCCATAGTTGTTTTGTCTATGCATATTTCATGGGGTTTAGGTTTTTTATATGGACTTTTAAGATGGACTAGAGGAGGATGGAATAGATCTTGAATTCTAAGAGATATAAGTTAAAAAGAGTTCTTGATATTTCCATGATAATTGGAGGATTTATTTTCCCTTTACTATGGCCTTTTTGGATAATTATAATTTTTATTGTTCCTTTATTAATTTGGATTGAAGATAGAGGTCCAATTTTTTATTCTCAAAAGAGAATAGGAAAAGATAAGAAAATTTTTAAGATTTTTAAATTTAGAACTATGGTACCTAATGCTGAAAAAATGACTGGTGCAGTATGGTCTACTAAAGATGATCCTAGAATTACTAAAATTGGAAATTTTTTGAGAAAGACAGCAATAGATGAGATTCCACAGTTAATAAATATCTTTAAAGGAGAAATGAGTTTTGTAGGGCCAAGAGCAGAAAGACCGGAATTGCACGAGGAATTTTCTAGAAAGATTCCAAATTTTGATAAAAGATTAGAGGTGACTCCAGGTCTCTCAGGTTTGGCACAAATAAATGGATCATATGATTTGAATCCTAAAGACAAATTGAAATTTGATATTGAATACTCAAATAAAATGAGTTTGCTTTTTGATATTAAGATAATTTTTATTTCAATATTAAATAGTTTAACTGCAAGATGGGATTCTCCAGAAAATTAATTTGATAATTCATTTTCAAGTTTTGAAATTAATGAATCCCAATGATTTTTATCTACATCGTTTAAATCAGGATGATCTTTTTTCCATATCTTGTTCCATCTTTTTGCACCATCTAAATCTTTTTTAATTAAAAATGTCCTTATCATTGTTTCTTGAGATGAAAGACTGGTAGGAGCTAGTTCAATTAATTTTTTAGATTTTTCTTCAATTTTATTTATATATGATTGATCATATAGATAAATTTTTGTGTAAAAATTCCACATAGCCATATTCATATCATAATCATTTGGATCTCTATTAAGACTATCTTCAGCATTTGATTCTATTATTGAAATAATTTTTATGATTATTTCTTCTTTGTTTTCTTTAGATTCTGCAGAATCTAATATTGAATCCCAGTCTATTAGAACTTGATATACTAAATTAGTCCTTCCTGTAATAGACATTTGTGGAAAAGAGGATAATTTTTTGTTATAAATTTCGATATCATTATTCATCCCTTTAGGAAATTGATTTTTGGATGCATTAAAAGGGATGATTATTAAGAAATATAAACTTATTAAGCTTATAGAAATAACTAAAACCACTAAAAAATTTATTCTCATTTTTTTAATGGAGCTTTCTGAATTATTTTGAATTATTGAATGTTTATTGAATCCTATTTGAGATCTTGCTAAAAAGGAAATTAATAATGAAAATTGTAAGTATGTAGAGATTGTTGGAAATACTAAAAGGTTACTAATAAAAAATGATGTTAATCCTCCAGCAACAAAAATATGGAAAGTATTTTGAGAGTTGTTTTTGAAATTTTTTATGATTGCAGAAACTATCCATATCCAAATTAAAGCCCATATTGTTAATCCTAATAAACCTGTAGAAGTCAGTATGTCTAATGGTCTACTGTGAGATCTGTCCCATTTTGCAGGAGAATAACCTTCAAAATCTGTTCCCTTTAAGTATTTATAAAAAATGTAAGAAAAACTTTCAGTACCAAATCCTATGACAGGTCTTTCTTTGAACGATTCAAGTGCTATTCTATAGGTAACTTTTCGATGACTTAAATCAATTCCTTCTTTGATAATATAAGATAGAGAAGGATGAATTTCGTATAATGTTTTATACATTGAGTTACATTTAGTGTAATCTCCTCCTGTACTCTCGCTTCCATCTAAAGTTATATTTACACCGCTAGGCAACTTATAAGATAATCTTGAAGTGGTTAAATTTGTTGCTCCAAAAAAATCTGTTGAATAATACCATATAATTATTTCATTCAGTGCTAACAATTTTTCATTACAATAAAAGTTTTCTTCTTCTAATTTGTCCACATCAAACATTAATTTATCGATAGTATTTTTCAACATAGGTTTATAGAAATCATCATCTGGATCCAAATTAGTACTGAGATTTGAGACTGGTCCATATTCAGTATCAACAAAATTTAACATACCATACTTGTAAAATTTTTCTTTATTAAAAAAAGAAGTGTTAGGATTTTCTAGATTTATTATTTCTAAAATAGGTTTTGGTAAATTTTCTTCTAAGATTCTATTTCTGTATTTGTCTATTGACCAATCAATAGTAAGAGTGAGATACAAAATACTTGAAAAGGTAATTAATAGAGAAGAGAAAAATAAAGTAATAAAAGTATATTTAAAAAATTTATTATTACTCTTTAAAATTAATAAGGGAATTGTTAATAAGATTGCAGTAAATAATCCTAATAAAGCTCCTCTTGATCCACTTAACATTATTGTTAAAAAACAAGCTGATATCCCTAGTATAATTAAAGAAAATTTTAAAAATTCTATTTGTGAGTTTTTTAGAAAATCTTTCTTTTTCTTTAAATTTTTAATTATGAAATTGCTTTTTTCAATTAATAATCCTAAACCAATGATTACAATAATCGATAAATATTGAGCTAGAAAATTGGGATTAGCCAAGGTACCGTTAATTTTTGAATCTATCACTGCTTTTCCAAAACCAGGGTATGATTCATTTACAGGAAGATAAGTAATTGTAATGGGGAGAAAATTAAGAAAATTAAAAGGAATTCCTATATATTGGCTTAATGCAATTAATCCAACAATAAATCCTATGAAAAAGTTAATTTTAAATAATGTTTTCCACTCGTCTAGGGATTTTAAAAAATTAACTGTTACAAAAACCATTAAGATTATATACATTATTGTAATAATCCCTTCCATTCGAATCCATGTGCCCCAAAAACTTTTTGTGAAGCTATAACCGAATAAGCTTGAAATTGAATTGATTGTTAAAAATCCCAATAATAGTAGAATTATTGGAAAAATTTTTGGTTTTTCTTCTCTGTATTTAATTACTAAAATTAAAAAAGCAGTTGTTGAAATTATTACTAAGCTTCTAAACCATATTGCTTTTCCTACTATGAAAGGATAAATAGTTTCAGGTGATACCAATAAAGGTGTTATCAGTAATCCAGATATTGATAGTTTTATAATCCAGATTAGGTATTTTTCCATTTCAATATAATGGTGAAGATTTTATAATCGATTAATTTAGAGTAACAGATTTTAAAAAAGATATTGTCTCATTCAAACCTTGTTCAAAGTTAATTTTAGGCTTCCAATTGATTTCTTTTAAAGCTTTTTTGCTATCAAGAGTAATCCCTTTAATGTCTCCTGGTCTTTTAGGTAAATAATTAGGCTTTTTCGTGTAATTTAATATTTCTGCTAAATCTGAGAAAACTTTATTAGTTGTAATAGATATACCTGTTCCTACATTAAATACACCGGAGGCATTTTTTTCAATTGCTTTTTCTATGAAATTCACTACATCATTAACATAAACATAGTCTCTATAATCATTTCCATCACCGAATATAGATACATTTTGATTATTTAGCATTGAATTTGCGAATATAGATACAACTCCTGCTTCTCCATGGGGATTTTGTCTTGGTCCAAAAATATTAGCAGGTCGAACAATTAAATGTTTCATTCTTATTGATTCTGAAAAATATTTTATGTAATTTTCAACTGTTAACTTTGATAAACCATATGGAGATTTAGGAGAACAAGGATGATTTTCTCCTACTGAGAGTCCAGTGTTTTCTCCATAAATAGCTCCTCCGGTCGAAATGAAGACAAAATAATAATCTTGAGAATTATAAAAAGATTCTAGTAAATTCAAGGTACCTAAAATATTATTTTCAGCATCTTTTTTAGGGTTCCTAGAAGACATGGAAACACTAGTTTGACTAGCACAATGAATTATGATTTTGGGGTTAATTTTTTTGATTGTTTTTTTTAAATTAGTGTCATTAATATCCATTTGAATAAATTCAGCTTCAGGATTTATATGATTACTTTTTGAAGTTGTAGAAAGATTATCTATAATTGATATTCTGTTACCTTTTTCTAGAAATGTGTCTACTAGATGAGACCCTAGAAATCCAGCTCCACCTGTAATTAATATTGAATTATTGTTTTTCAAACTACCTCCAATTAGCATGAAATATTAAAATAGATAACATTATAATACTTTATTAAGTTATATTGATGAGTAAACTTAAATTCTAGATATTTTTTTTCTGTTAAGTTAGGATGCAATAAGAATAGGAGAATTATGATAAAAATTATTAAAAATGGTTCAATTACTACTCCAAAAGGTTTTAAAGCTGGTGCTGTTTATGCTGGACTTAAAAGCCCTGGAGAAGATAAATATGATTTGGGAATAATTTATTCCTCTTCCCCTTCAAATTGGGCTGGTGTATTCACCAAAAATAAAATTGTTTCTCCTTCAGTAGTTTTAAGTAAATCTCTACCCGATATTATTCAAGGAGTAGTGGTAAATAGTGGGTCAGCTAATTGTTGCGTTGGTGATCAGGGCATGAGTGATGCAAGAGAATTAGTAGATCTTACCAAAAAACATTTGAATTCAGATCTTGATTTTGTTTTATGTAGTACAGGTGTAATAGGTGTTGAGTTGCCTATGGGATTAATAAGAGAAAATTTAGGAAAAATCAATGTTAATGATTCAGGAGGATCTGATTTTTCGAAATCAATTATAACTACAGATACAATTACTAAAGAAATTTCTATTGAGATAGAGCATGATGGTGAAAAAATTCATATTTCTGGTGTAGCTAAGGGTTCCGGCATGATTCATCCGAATATGGCTACAATGTTAGCTTTCATAACTACTGATGCAAAATCTGAATCATCTTATTTAAAGAAAGTTTTGAAAAATGTAGTTGATAAAACTTTTAATCAAATAGATGTTGATGGTGATACTAGTACTAATGATTCAGTTATTTTATTAGCTAATGGAGAATCAGGACAAAAAATTGATGAAAATTCTTCAATGCACGATGATTTCTTAAAAGGATTACATATTGTTGCTGAGGATTTATCAAAAAAATTGCTATTGATGCAGAAGGAGCACAACATTTAATTACAGCAAAAGTACAAGGAGCTATTAATAGTGTAGAGGCTAGACTTATAGCAAAAGAAATAGTTTCTTCAAATCTTGTAAAAACTGCTGTTTATGGAAGAGATCCTAATTGGGGCAGAATAATGATGGCTATAGGTAACTCTGATTCTAATATCAAAGAAGATAAGATAAAAATATTTATTAATGATATTCAAATTGTTGAAGAAGGAAAATCTATTCCTTTTAATCCAACATCTGTGATTGCAGCTCTTACGAAATCAGAAGTAGAGATATTAGTAGATCTGGGTATTGGAAATGGTGATGGATGTGCTTGGGGTAGTGATTTAACTGAAGAATATGTTGTTTTTAATTCAGCCTATAGAACATAATACTTCTGATTGTGTTTTATATTAATAATATGATCTTTATTTAATATGATGACTTCTAATAATAATATTGAAAACCCAAAAAATGATGTGATAGTTGTAAAGATTGGAGGTAGTACATTAGGAGTTGGTGATAGCACTTTGGCAGACTTAGTAGAATTAAGAAAATCTGGTTTTAAGGTAATTATTGTGCATGGAGGAGGAAAACAAATTTCTGAGTGGGCATCTAAGTTAGGCATTAGGCCTGAATTTATTAATGGTCTTAGGAGAACTGATCTTCAAACTATGGAAGTAGCTATTGGTGTCCTTGCTGGATTGATAAACACAAAAATTGTTAATGAATTAAATGTTTTAGGCGCAAGCGCAGTAGGTTATTCAGGTGTTTCAGATAGATTATTTCAAGCGAAAATAAAAGATAAAAATTTGGGGTTAGTAGGAGAATTAGTTGGATGTAATGTCGACTCTCTGATAAAAATCTTAGAAAATTCTATTCCTGTTGTATCTCCAATTGCTTTCAATATAGGATTTCTAGATATAGAACAAGATGGAATTTTAAATGTAAATGCTGACACAGCAGCAGGTTACTTAGCTAAAAGTTTGAATGCAGACAAACTGGTTTTTCAGACTGATGTTGAAGGAGTATTAGATTTTTATGGTAGAGTTATACCTCATATGACAACATCTCAAGCCAAAGAGATAATAAAATCTGGAATTGCGAAAGATGGAATGATACCAAAAATTCATGCTTGTATTAATTCTCTTTCAAATGTTTCTTCAACTCATATAATAGATGGCAGGGTAAATAAAGCATTGTTAGATTGTATTTCGAATAAAAAAATTGGAACAAGGATTATTTAGTATGAATGAGAATATAGATAAATTAAAAAGTTGGCAAAATATAGAATCTCAATACTATATGCAAGTTGTAAATAGATTACCTGTAGTTTTAGTAATGGGTAAAGGGACTTTAGTATGGGATTCTAATTCAAATAAATATCTTGATTTTACTTCAGGGTGGGCAGTTTTAAATTTGGGGCATTCTCATCCTGTTGTAACTGAGGCTATCCAAGAGCAGTCAAAAAAAATTATGCAAATGACGAATCTTTACTACACAATTCCTCAACTTGGATTGGCAAAATTATTAGCTGATAATTCTTGTTATGATAGAGTTTTTTTTAGTAATAGTGGTGCAGAAGCTAATGAGGGTGCATGCAAGTTAGCTAGAAAATGGGGCAGAGAGATGTTGGATGGAGCATATGAGATAATTACTGCTAATAATTCTTTTCATGGAAGGACTATGGCAATGATGGCTGCTACAGGTCAAAAACATTATCAAGAAGAATGGGAACCTCTAATGCCAGGTTTTATAAATGTTGAATATAATAATTTCGATCAATTTTTAGAAAAAGCTAGTGAGAAAACATGTGCTGTTCTTTTGGAAGTTGTCCAAGGCGAAGGTGGAATAAATGTTCCTGATCAAAAATATCTACTAGATGTACAAAAATGGTGCCAAGAGAATAATGTTTTATTTATGGTAGATGAAGTACAAACTGGCATGGGAAGGCTAGGTACTTTATTTGGATATCAAAAATTTGGTTTAGATCCAGATGTAATGGTTTTAGGAAAAGCTTTAGGAGCAGGAGTGCCTCTAGGAGCTTTTATGTGTAAAGAAAGGTTTTCAGTTTTATCTCCAGGAGACCATGGTTCAACTTTTGGTGGGAATGCATTGACTACTGCTGCAGGTTGGGCATCTGCTAAGTATATAATAGAAACAGATTTACCTGCAGAAGCTGCAAGAAGCGGAAAGTATTTGCATTCAATGTTAGATGTTATTAAAGAAAGGCATGATATAGAGGCAGTAAGAGGGTTTGGGTTATTGCTTGGTCTTGAATTAAGAAAAAATAAAGCTCAAGCAGTTATTGAGAGATGCCTTTCAAAAGGATTATTGTTAAATGCTGTGAGGCCAAATATCATTAGATTTTTCCCTCCTTTAAATGTTTCAGAAGGAGAAATGAATCAAGCCGTAAAAATATTAGAAGAAGCTTTATTAGAAGAAAAAATTTAAGGATCATAAAAAATGAGTAAATCAAAAAAAATAGCCATTTTAGCCTATAGTGGTGGCTTAGATTCGACTATCTCTATAGATTGGATTAAAAAAAATTATGATTTTGATGTTATTGCACTTACAGTAGGTTTGGGTAATGGAGGATTATCTCAAGATTTGATAGATAGAGCTAAAAGAGCAGGTGCGGTTGATTGTATCCAAGAGGATGTAAGTGATGAATTTATAAGAAATTATGTTTTTCCCTCATTAAGAGCAGGTGCTATATATGAAAATCAATATTTATTAGCTACTGCTTTAGGCAGGCCTCTAATTGCCAAGAAATTAGTTGAAGTAGCTAGAAGATTTGATGCTGTTGCTGTAGCTCATGGCTGTACTGGAAAAGGAAATGATCAAGTTAGATTAGATTCTGCAATTAAAACTCTTTCATATGAAAACCCCTTATTAATTATTGCTCCTGCTCGTGAGGGCAAAATGACAAGAGATGAAGAAAAGAAATATGCTGAAAAATTAAATATTCAATTGCCAGGAGTTGGAGAAAAAATTTATTCAATTGATCGCAATTTATGGGGAGTTGCAATTGAGGGAGAAGATTTAGAAGATCCTTGGAGCAAGCCACCTGAAGATGCATATATAATTACAAAATCCCCTAATGATGCCCCAGAAGAACCAATGGATTTGATAATAGCATTTAATTCTGGAAACCCTATTTCCTTGAATGGAGAAACTTTAAGTCCTGTTGACTTGGTGGGAAATCTTAATGAAATTGCTGGTGAACATGGAATAGGGAGAATAGATCATATAGAAAACAGATTGGTTGGAATAAAATCTAGAGAAGTCTATGAAACTCCAGGCGCAACAGTTTTGGATCTATCTTTGATGGCACTAGAAAAATCAATATTAACTAAAGAACAATTGAGGATTAAATCTTATATTAGTCAACAGTATGCTGATTTAGTGTATGAGGGAAAATGGTTTTCGGGTTTGAGGGAAAATCTTGATGCATTTGTTAATAGTTCAATGAAATATGTTTCTGGAGAAGTGAGAATCAGATTATTTAAAGGTAATGCATCTGTGAATGGTTTGAGATCCCAATATTCTTTGTACAACTATGATTTAGCTACTTATTCTGAGGAAGATAAATTTGATCATCACTCTGCAACTGGTTTTATTGATATATTTAGCCTTCCAAGTCAGTTGCAAAGGCATAAACAACCCCCTGATAATAGTTAAATTTGTGAAATGAATAAAAAAGATAAAGATTTAGTTTCTATAGTACGTGGATCTGTAAGCAATTCTGACTTTACTAAGTCAATACACTTTGACAAGAGATTGTATAAACAAGATATTCTATCTTCTCAGGTCCATGCTTTGGTCTTAGAAAAATTAGGAATTTTAGATGAAAAAGAAAGAGAAAAATTGATTGGAAGTTTAAATATCATCAAAGAAGAAATCGAATCAGGAGAATTTGTTTGGAAAGACCAATATGAAGATATTCATATGAACATAGAAGCTAGATTAAATGAAATAGTAGGATCATTATCAGGAAAGTTACATACTGGAAGATCTAGAAATGAGCAAATATCTACAGATACCAGGATGTATGTAAAAGATGCTATAGGAGAAATTAAAAAATTAATTGTTAATCTTCAAGCTTCATTAGTAGATATTTCTGAATTAAATTCATCTTTAATTATTCCAGGCTATACTCATTTACAAAGAGCTCAACCAGTAACTTTAGGACATCATTTTTTGGCATATTTTCATATGCTAGAAAGAGATTATGAAAGATTCGTAAGAGCTTATAATGTATCAGATGTTTTGGTTTTAGGTAGTGGGGCTTTATCTGGAAATACTTTTAAAATCGATAGGAAATTTCTTGCTAAAGAATTGGGCTTTTCTAGAATCAGTCAAAATAGTTTAGATGCAGTCTCTGATCGTGATTTTGTACTTGATTTTGTTTATTCTTGTATGTCATGCATGATTCATCTTTCTAAGTTGGCCGAAGAATTGATATTATGGTCTTCGTCTGAATTCTCATTTTTAAATATAGGGGAAGAATTTACTACTGGTTCTAGTATGATGCCTCAAAAAAGAAATCCAGATTTTGCAGAATTAGTGAGAGGAAAAACTGGTAGATCTATAGGATCTTTGGTATCTCTAGCTACTACTCTTAAAGCACTTCCATTGTCTTATAACAGAGATTTACAGGAAGATAAGGAGCCATTATTTGATTCATTTGACACTCTTAGGGATTCTCTTAATGTCATGGTGGGTTTAATTCAATCATTAACTTTCAATGATTCTAGAATTAATGAAGTGATTAATGATAGTTTTATGATAGCTACTGATTTGGCGGACTATTTAGTCAAGAAGGGAATGCCATTTAGGGAAGCATATGCTAAAGTGGCACTTGAATTGAAAAAAGTAATGTCAACAAAAAAATCTTTTAATGATTTAAAACTGAAAGATTTAAAAAAGATAAGCAAATTGTTTGAAAAAGATGTTTTAGATATAACCATAGAAGATGTTGTTAATTCTAGGGATGGTATAGGTGGAACTTCGTTTTCTAGTGTTTCTAAAGCTATCAAAGAAGCAAGAAGTTTATTGAATAAAAAGAAAAGTTTTTAATTTTTATGTGTAAAAATTTAACTCTTTCAGCATCTATAATTTCTGGTGATTTCCTAAAAATAGGAGAACAGTTGGATGAATTGATGCAAACTGATTGTAATGAAATTCACTATGATGTTATGGATGGTCATTTTGTTTCAAATTTATCTGCAGGTCCTGTGATCCTTGATTCTATTAAAGAAAAAATTAAATGTAATATAGATATTCATTTAATGGTAAAAAATCCTTTATCTTACATTCAAGATTTTTCAAAAATTGGAGCAGATGTGATTACATTTCATATAGAAAGTGATGATGAGCCTATAAATGTGATTAATAAAATTAAGGAATTAGGCATGTATTCTGCTATAGCATTAAACCCTGAAACAGATTGGCGAGCAATAGAGCCTTTAATGAAATACTTAGACAGAATTCTTTTTATGACTGTAGTTCCTGGAGCATCTGGAAGATCTTTTGAATATGATGTGATAGAAAAAATTAAAAATTTTGTAGAGAATAACAAGGGATTTCTGAATGCTGAAAAACTTTTTCAGATAGGGGTCGATGGAGGTATTTCTAAAGATACTGCAAAAATAGCTGTAGATGCTGGTGCCAATCTTTTGATATCTGGTTCATCAATATTTTGGGATGATGAAAAAAGTATTTCAGAATGTGTTTCAGAAATTATTGAATCCACTAAATAAAAATTAATATATTATAAAAAAACATGAATCCTAAGATTGGCCTTGAGCCTAATGAATTAATTGATTTAATAGAAGTTTTTTGTCAAACCCTAGAAGAACATCGAGAAAGTATAAATTCTCTTAATGTTTTTCCTGTTCCAGATGGTGATACAGGTACGAATATGTTCTTCACTATAAAGGGGATTAGAGACTATATTTCAGAAGATACGAAGAGTTTAGACTTAGCTTCAATGGTTAAACTATTGTCTAAGTGGGCATTACTATCTGCTAGAGGTAATAGTGGATTATTAATAGCTCAATTATTTAAAGGGTTAGCTTTCGCATTAAATGATGACGATTTGTTAGGGCCAAAACAGTTTGTTAAGGCATTGATTAAAACCACTGAGTTTGCTTATGAATCAATGCCTAATCCACAAGAAGGAACCATTCTTACGGTATTAAAAGAATCAGCTAATGCAAGTGATAAAAGTCTTTCAAAGAATCCAGATGATTTGATATATATTTGGAAAATAGCTAATGATATCGCAAAGAAAACGGTTGATGATACTCCTAACCAAATGGAACTCTTGAAAAAAGCAGGCGTAGTAGATGCTGGAGGATATGGATTGTCTTTAATGTTAGAAGCTTCATTCAATTGTTTATTTAGAGATCAAGAAGGAAACATTATTTTTTCTATTCCTTCTGATAAGAGTTTATATATTCCTGAAGTGATAAAGCATAAACCTATTGAAAAAGAATTTCTACAGTCTGTAGAGGATGAATCTTGGGGCTTTTGTACATCATTTGTTATTCAAGGATCATCTATCAATATTGATCATGTAAAAGATGATTTAAATAAAAAAGGAAAGTCACTTGTAGTTACAGGTGATACTGAATTATTAAAAATCCATATTCATGTGGAAAATCCTGATGAAATAATAAAGTATTCTCAAAAATTTGGAGATATTTCTCATGAAGATATTCAGAACATGAATCTTCAAACTTCAGAGTTTAATCATAGTCAAAATGAAGAAATTCAAGTTGTAGAGGTAGCTTTAATTGTGTTTGCTAGAGAACCTATTTTACGTCAAAGGTTTCGTGAAATAACTCCAGATCATCTAGAATTTATTGAGGTTTCAGAAGATTCCTCACCAAGTGTTCAAGATATATTAGATTCAATAGAGAATAGTAAAGGAAAAAATGTTATTTTACTTCCCAATCATAAAGATCTTATAGAAATTTGTAATCAGGCTCTTTTATTAACTTCAAAAAATTCTTCTCAAATTCCAACAAAAAATTTTATTGAAGGAATATCTTCTGTGCTGGCATTTACTTCTGGAAAAAGTTATGACATCAATATTAAATCAATGAATAGAGCTATAGAAGATATTAAAACTTGTTCAGTAAAAGTTGCTGTAAAAACCCTTGAATATAATGGTCTTAATATTGAAGAAGGTGACTATATAGGGTTTATTGAAAATAATTTAATTGCTAAAAATTCTGATAAAAATGAAGTTCTAAAAAAAATAATTAGCAATATTGATATAGATCAAAAATTGATTTCTATTTATGCAGGAAATAATATAATTATGGATGATGCTTTTGATTTATTGAATCAATTACAATTACAATTTCCTAAATCAGAGTTTGATTTAATAGAGTCTGGGCAATATGATAGTGAGTACTTTATCGGAATTGAATAAATTGATATTCTAGAATAAGATAATTTTAAGGAGATTGAAGTGTCTACAGCAATTGTTACAGATAGTGCCGCTGATATACCTGCGGATCTTTTAAAAAAGAATAATATAACTGAAGTTCCTGTTATAGTGAATTTCGGAGATGAATCCTTCAAAGAAAATGTCGATTTATCGGCTGATGATTTTTATGAAAGATTGCAAAATTCTAAAGAGTTTCCTACCACATCTCAACCAGCAGTTGGGGATTTTATAGATGTTTATACTAATTTAGCTAAGAAGCATGATTCTATAATTTCTATTCATATCTCATCCAAATTAAGTGGCACATTTAATGCTGCTGAACAAGCAGCTAAAGAAGTAGGAAATTCCAAATGCAATATTACAGTTGTAGATACTTTAAGTGTGAGTATGGGAACTGGATTGATAGCTTTAGAAGTTGCTAAGTCAGTCAAGTCGGGAATGAAATCTGCAGATGCTGTAAATTATGCTAACGAGTTATCAGAAAAAGGAAAAATATTCGTTGCTGTAAGTACTTTGGAATACCTGAAAAAAGGTGGCAGAATAAAAGGTGCCGCTGCTCTTATTGGTGGATTTCTAAATGTTAAGCCTATTTTAACGAATGTTGATGGTCTAGTTGAGAATTGGGCTAAACCAAGAACAATGTTGAGGGCTTTATCTCAGATTCGAGATGCAGCTGAAGGTTATGTAAATATTCAAAATATGGCTGTTTTGCATACAACTCAAGGTTTTGATGCAAGAGCATTAGCTAGTTCTTTAGCAGATCATAAATATGATGGTGAAATCTTAAGATCACAGTTTGGTCCTGCTTTAGGAGCTCACTTAGGTCCAGGTGCAGTTGGAGTGATGTTTATTGGCGATGTTCCTTCTGATGAAGAAAAAGATGAAGAGGAAGAGGAATAAATTCATTATCTTTCCGTTTAAATTTATTTTTTAATGGAATCTTTTATAGACCATAACAACAAATCGATTAATCTATTAATTCGTATTCTTGGTTTAGAGAAACTTAATTCTTATTCTAATAGGGCAGTCACAGGTGGATTAGATGAATTTCTTAGAATTCATAAAAAATCTTTAGAGGCTTGTTTGAAGTTATACCCTATTAAAAATTCTTCATATTTTAGATTGTCTCCTGAAATGAGGAAAAATTGGGCTGAGAAGGTTGAAGAAAAATATTCTAGGGATAGAAAATCAATATTAAATTTCTCTAAAAAGAATAGAAGTAAACTGAAGAGTAAAAATGCTCTAATAAAAAATCAAATTTCAAGTGAACTTACTCTAAATACTCCTCTTTCAGATTTAAAATTTATACATTCAATTGGAAGAAGGAAATTAAAAACATTGAATATTTCTACTCTAAAAGATTTATTAATGTATTTTCCTAGAAAACATATTGATTATTCTTCTGTTTCCAAAATAAACAATTCAATTATTGATCAAGAAACTACAATAGTTGCTCAGTTTATTTCTATTAAAGCAGATGGGAATTTTAAATTGAAATCTACTAAAGCAATTGTTAGTGATGGTACTGGAAATATTCAAATTACCTGGTTTGGACAACCTTATTTGGCTAAACAATTTAAGATAAGTAACTGGATTGTATTGAGCGGAAAGATAGGAAATATTGGAAGAAAACTTACTATGGATAACCCAGAATATGAATTACTTAATTCAGGGTTTCTTAAAAGAGAAAATTTAATTCATGCGGGTAACTTATTACCTGTTTATCCTTCAAATAGTGATTTGGCACAGAGAACGATTAGAAATGCAGTAGCAAAATCTTTAGATAAAGGGATTCCTTTAATTGAAGAATTTCTTCCAATAGAAATAAGAAATAAATTTCATTTAGTAGAACTTCAAACAGCTATTCAAGATATGCATTTACCTCCTAATATGGATAGATTTTTTAATGCTAAAAAAAGATTCTCTTTTGATGAATTATTTTTGAATCAATTAAATGTTCTTAGAAGAAAATCTAAACGTCAAATATCTTCTTATGCTAATTCAATTTCTTTAAATGATAATTCTTTAGATACTTTCTTTTCGAGATTAGAATTTCAATTGACGAAAGATCAATTAAAAGCAATTAATGAAATAATGAACGACTTGAATTCTAAAAAACCTATGGGAAGACTACTTCAGGGTGAAGTTGGAAGCGGGAAAACTATTGTAGCTTTAACATCTCTTTTTGCTACAGCTAAGTGTGGATACCAAGGAGTATTAATGGTACCCACAGAGATATTAGCTGAACAGCATTTTTTAAATATAAAGAAAGAATTTGAAGACCAAGAATTAGACACAGGTCTAGATAATGTTATTCATATTAAAGTTCCTGGATTTGAAGATATAACAATAAAAGTTGGTCTACTTATTGGTAGTTTAAAACCTAAATCAAAATTATTAACTCAAACATTAATTAGAAAACATCAAATAGATATTATTATTGGAACTCATACTTTGATACAGGAGAAAATTAATTTTCCTGACTTATCTTTAGTTGTTATTGATGAACAGCATAGATTTGGAGTAGAGCAAAGAGATGCATTGTTGAGAACAAAAAATACTCCTCATCTTCTTTCTATGTCAGCTACACCAATTCCTAGAAGTTTAGCATTAACTCTTTATGGTGATTTAGAACTTAGTACATTGTTAGAGATCCCCCCAGGGAGAAAACCCGTAATAACGAAATGGTGTGGAGATGAAGAATCTAAAAAGTATGCTTTTGACGTAATAAGAGAGGAGATAGGCAAAGGCTTCCAATGTTTTGTTGTATGTCCTTTAATTCATGAATCTGAACAAGTAAGAGGTAGATCTGTATTAACAGAATTTTCAAAATTAAAAGATGAAATTTTCCCTGAATTTAGAATTGGTTTATTGCATGGAGAAATGGATTTAATAGAGAAAAGTAAAATAATGTATGAATTTAGTAATAAAAATATTGATATTCTCGTATCTACTCAAGTTATTGAAGTAGGAATAGATATCCCTAATGCTAGTAGCATAATTATTCAAAGTTCTGAAAGATTTGGATTATCTCAATTACATCAACTTAGAGGAAGAGTAGGAAGAGGAAAAATTCAGGGTAACTGTTTCACATTTTCAGATTTTGTTTCTGATCAAGCAATAGAAAGACTTAAAATTTTTGAAAAACATAATGATGGATTTCATCTAGCAGATCAAGATTTAAGAATAAGGGGCCCTGGAGATTATATTGGAACTAGGCAAAGTGGAGTTGAAGGCTTTAGATTTGCTTCTCTCACAGATTTGGAAATGCTCGAAAATGTTAGAAATCAGGCTAAAGAAATTTTTCTCAAAGATCCTACTTTGTCTAATGATTCTTATGAAAATTTAAAGAAAGAACTATTGAAGAATTTTGAAGATAGACAATTAAGTGTATCTTAGGACATTTTTAAAAGTTCAATGGCATTCCTGTTAATTATTCCTTGAATTTCAGAGTTTGGAATTTTGGGTAGATGATGATCAATTGCAAATTTTTCAAGACTTAGAAGTCCTTCAATAGTTTCATTAGGCGTTGTGATTGGCCAATCGGATCCAAAAAAAATCTTTTCTGTTACTCCCCATTCGTAAAAAAGTCTCATTCCATTCCAGAAAGACCATGGTCTGTAAAATTGAGCTGAAACATCAGCCCAAACATTTTTATGCTTTCTTACTACTGACAGAGCATCAACTTGCCATGGATGAGCTAAATGAGCAAGAATAATTTTCAATTTAGGAAAAGCCATAGCAATTTTATCAATATATTGAGGGCTAGCATACATTAAAGGGGCATGTGAAATAGGTGAAGTGCCTTGATGAAAAACTATAGGTAAAGAGTCATGTTCAAGCCTTGAATATAATTTGAAAGCATCTTCACAATCAGGAGGGAAATCTTGATAATTAGGGCCTAATTTAATCCCTTTACAGCCTAAATCTCCAACGCATCTGTCGTATTCATCGTTAATCTTAGGATCTAATGGATGTAAAGACATGAATGGAATAATTTTTTCAGGATTATAAGTTGATAATTTATATGCAATATCATTATGATTAAAATTCTTAGGCCATCCACCTGGATTTCCTAGCACTAGATCTTTTGGTTTCCAAGGCCTTGGAGCGATACCAAAAACGAAGGTTTTTTCAACATTCTTAAATGATTCCAGATAATCTCTTACTGAATTAGTTAATTTAGTAGTAATGCCTGATTTCATAGAAGTATCTAATTTTATCTCAGAATCAGGAACTTCATTTTCATGAGTCGGAATATGTGTATGAACATCTACAATCATTTTTTTATTTTGGTACCCCGTACGAGATTCGAACTCGTGATCTCTGCCTTGAAAGGGCAGCGTGTTAGGCCACTACACCAACGGGGCTATTTTTCGTCTTCAAATATATTAAGGATAGATTGCTAGATTGTCTAATCCCATTTTCTCAGGGAAACCGTACATTAAGTTCATATTGTGTACAGCTTGACCTGCCGCTCCTTTTACAAGATTGTCTATAACGGAAATCATTCTGTAGGCTTTAGCATCATCTTTTGTTTTGTTTTTTTCTGATATTGGTTGATCTGAGTATATCAAACAATTATTTGACCCTCTTACATTTTTTACATTGGGAGAAGTTTTTACCCATTTTGTAAATGTGGTGTTCTTTTTATCAATTTCAATATTTTTAATTTTAGAAGAAATTATATAGCAGGTAGTAAATATTCCTCTTATCATTGGTGAAAGATGGGGAGTAAAAATAATATTTTGTGGGACATAAGATTCTTTCTCATTATTTTTTAGATAACGAGATAGATGATAATTTATTTCTGGTTGATGTCTATGGCCATCTAAACTATAAGCAGAAAAATTATCAGAGATTTCAGAGAAATTAAAATCAATATTTTTTGAGCGCCCTGCGCCTGAAATCCCAGTCTTGGAGTCAATAATTACGGTAGAGTTTTCATTATTATTCTGTTTGTAAAATTGCGACAATGGTATTAATGCTCCTGTTGGAAAACAACCAGGGTTTGCAATATTATCAGCATTTTTAATTTCTTCTTTAAAAAGTTCAGGAAGACCGTAAGTGAATTTTTCCAATAATTCTGGATATGGATGTTTTACTTTATAAACAGATTCATATAAATGAATAGGAAGCCTAAAATCTGCACTAAGATCTATGCATTTAATTCCAGATTTTACTAAAGGACCTAAAATTTCTGCGCTAGCTTTGTGAGGTAGAGCAGAGAAAACAAGATCAACTTTTTTAGAGACTTCAGACTCTATAGTTAGAGGGTAATCATCTAAATAAGGAAACACTTCTCCAATTTTTTTTCCTGCATTACTTCTTCCAGTAATACTTTTTATTTGTACTTCAGGATGTTCATGGAGAATTCTTACTAATTCAGAACCACCATATCCGGTTACATTTAAAATTCCTATTTTTAACATAATTTAAAAGATTGGTATGTTTTCAGATGAACATCCTAACAGTTCTAAGTTGATTTGTCCTATAGTTTTTTATAATTACAAATCTTATTTAAGCTACATTCCTCACATTTAGGATTTCTAGAATGACATTTTTTTCTTCCATGGTTTATTAAAAGTACATGGAAAGAATATTTATTTTTATCTTCAACTAATTTTTCTAGGATGTAGTGAGCATCTTCAGCACTAGTTTTTTTTGTTATGAGATTTAATCTTTTCGATACTCTATGAATGTGAGTATCTACAGGTATTGCTGGCATATTAAATGAGAAAGAAAGTAGAACTGATGCAGTTTTGGGTCCAATTCCTTCTATACTTGTTAACCAGTGCCTAGCATCATCTAAACTTAATTTTGATAGAAATGATATATCTAGTTTATTCTTTCTTTTTTTTATTTCTTGAAGAATACCTAAAATTCTTTTTGATTTGATGTTAGACATTCCACCTGATTTGATTAATTTAGCGATTTGAAAATCTGATGTTTTTAATATCTCTTCCCATGATCCTAGGGTTTTGAGTTTATAAAATGCTTTTTCTGCATTTAAATCTGAAGTGTTCTGTGTTAAAACAGTAAAAATTAATTCATCCATAGGTTTTAACCTAGGCTTCCATATAGGGGTTCCGTAAACTTCAGAAAGATTAGTAATAATATTTTTGATTTTGAAGATTATTTTTTTATTTTTTTCTTCCATGAATATTTTGAACTAATTCAATTAATGAATTTTTATATTTAGAATCTGGAATTGTCTCAAAATTCTGTAAAGCTTTATCAATGTATTCATTTACTATTAATTTAGATTTTTCTATTGAATCTGAATTTAATATTGAATCTTTTGCTTTTTGATATTTTTCTAAAGAAAGATTAGGAAAATCTTTTAAAAAATCTATTAACGGGTTATTTGAAGGATTATTTTCAATAAAAATTATTGATGGGAGTGTTACTATTCCTTCTGATAGATCTTTTACAGAAGGTTTTCCTGTGATATTTGGTTTAGAAACGAAATCTATTATGTCATCTTGGATTTGGAAAGCCATTCCAATATTGAATCCAAAATTTTTCATAACTTTACTTTGTGTTTCGTTTGCGATTCCAGTAAGTGCACCACATAAAGAAGCAGTTTTAAAGAGAGAAGCAGTTTTATTGTATATTCGATCAAAATAAGTTTTTCTATTTATTCTTGAGATACCTCTGTCAAGAAATTCTGATAATTCTCCTCTACTTAATTCAACAATTGTATTAGCAAACCTCATAGCTATTGTTCCATTTTCTGTTTTAGAGACATAAATCGCAGAAGCAGCAAAAATGTAATCTCCAAGTAAAACCGCAACTTCTTTTCCCCAGACACTACTTGGTGTTTTTTTTCCTCTTCTTCGTTCGGCTTGATCTACAGTATCATCATGAAGAAGCGTTGCAATATGAAGTAATTCTACTGCTGTAGCTATATCAATATTGTTTTCATTTTCAGGTTCTCCCCAAAGTTTTGATGATAATAGTGTAATTCTTGGCCTGATTTTCTTACCTGGATTTGTAAGAATTTGAGTTAATATTTCAGATATTTTTTTAGAATAAGAAATTTCTTTTTCTGCAATCTCGATCATGTTATTAGAGACAATTTGTAATTCTTTTTCTACAGGATCTAATTTTATAGGATTGAAATTTACCACTTGGACTCCATTTAAATTAATTTTGCCTCTTCTTTTTCGACAATATCATCATCAAGTTTTTTAAATAAAGGTATTGGTTTATTTAAGGAAATATTAGATTTAATCTTTGTGAATTTCCAAATTATTTCTTTTTCAGGGTCTTCTCCAATAAATGTGGCTAATTTTTTTGAAGAAAAAGGCAAAAATGGATTCATTATGATTCTCAGATTAGAAATGATAGTTAATGCTGTATGTAAAGTTAATGCGGCATCTTTTTTATTCTCTTTTATTTGTTTCCATGGAGCTTGAAAGTCAATATATTTATTTCCTTCTTGAGCTAAAGACATTACTGATTTTAAAGCATTTCTAAATTCTCTTTTTTCCAAAAAGTTTTTTGTTTTTTCCATGGATTCTTTACATTTTTTCAACAGTTCTGTAGATTCATCATTTTGGTTTTCAATATTTGGGGTTTTACCTTCAAAGTTATTGTAAGTCATAGTTAAAACTCTATGAATAAAATTTCCTAAAGTTGCAACTAATTCATTATTGTTAGCATCTAAAAATGATTGCCAAGTAAAATCAGAATCAGAAGTTTCAGGCATTATTGATGTAAGGTGATATCTTAATGGATCAGGATCGTATGATTCTAGAAAATCTGGTAACCATACAGCCCATTTTTTACTTTTCGAAAACTGTTTTCCTCCAAAATTTAGGTACTCGTTTGCAGCAACATCATACGGAAGGTTTTTCTTTCCTGAAGCCATCAACATTGTAGGCCAAATGATTGTGTGAAAAGGAACATTATCTTTTCCTTGAAAATAATAATGTTTTGCATCCGGATTTTCCCACCAAGTTCTCCAAGCTTCCTGATTTCCAGAACTATTTTTCTCTGAATTTGACCATTCTATAGAGGCAGATAAATATCCAGTAACGGCTTCAAACCATACATATATCCTTTTTTTATCATAATTTGTTAATGGAACAGGGATTCCCCATTCAATATCTCTTGTAATTGCTCTGTCTATAAGTCCTTTTTCTATCATACCTAGAGTATGATTTTTCACAGAAGTTCTCCAATGTTTTTGTTTTTCAACCCAATTTTTAAGTTTTTTTTGAAATTTTGAAAGTTCTAAATAAATATGTGTTGTTTGCTTAAAAATTAAAGGTGATCCATCTATAGCAGATTTGATATTTTCTAAGTCTTTTGGATCAATAGTAATATTACATGTTTCACACTGATCACCTCTTGCTTCATTTTTACATTTTTTGCAAGTACCTAAAACATATCTGTCAGACATAAACATTTTCAATGATTCTGAAAAGGGTTGTTCAGAATCTTTCTCAGACAGAAATCCATTTTCTTTAATTTTCAGAAATAATTCTTGTACAACATTCTTATGGTTTTCAGTTCCAGTTTTTGTATAGAGATCAAAAGTAAAACCCATTTTTTCATTCATTATGCTCCAAATAGCATGATATTTTTCAGATATTTCTCTAGGGTGAACATTTTCTTCTTTTGCTTTAAGTGCTACTGGGGTCCCATGTTGATCACTACCGGAAACCATTAGAACATCATTTCCTATCATTCTGTTAAATCTAGCAAAAATATCTGCAGGTAAAGTGTTTCCTGCTATATGTCCTAAGTGAGGAGGCCCATTTACATATGGCCAAGCTACTGCAACTAATATTTTTTCAGACAAAATAAATCCTAATAATTATATTTTTTAAATTAATAATCTTTTTCTTTTAAATATAATTCATAAATCATTTTCTTTGGTAATTCTTTTGAAATAGAGATTTTTTCAACAATATCTTTTCCACTTAATCCTTGTTTAATATATTTTCTTATTTCTTCAGATAAGACTTGAGGGTTACTCTGATTATTTTCTTTTCCATTTTGTAGTATTAGTACGTATTCACCTTTGGGATTAGATATTTTTTTTAGTATCTTAGTAGGAGTTCCTGTATATACAGATTCATGAATTTTTGTAATTTCTTTGAATAATATAATATTACATTCTTCGAAAATATTATCTATTGATTTTATTAAATTTATTATTCTATGTGGAGACTCAAACATAATAATTGGGTTAACTTTAATAATTTTTAGGAACATTTCTTTTCTTTGGGTATTACTTTTAGGAGGAAACCCTATAAAACTAAATTTATTGGATTTTAAACCAGAAATTGATATTGCTGATGATAAAGCTGAAGCTCCTGGGATAGCATTAATATTAATTCCATTTTTTCTGGCTTCTAATACTAATTGTGATCCTGGATCACTAATACCAGGAGTCCCAGCATCTGTTATTAATGCAATATTGGATGTTTTTAAAATATCAATAATAGAGTTGATTTTTTTCTTGTGATTATGATCATTATAAGAAATCAAGCGAGTAGTAATATTGTATTTTTTTAATAGAATTTTTGAGATTCTAGTGTTTTCAGAAAGTATTATTTCAACATTATTGAGTATTTCTACTGCTCTGAATGTAATATCTTTCAAATTTCCTATTGGAGTGGCTACAATAAATAATGTTCCCATTAAAAATATTTAGTTTATTATGTCTGTGGCAGCTGTATGTTGTTCATCTGCATGATAAGAACTTCTTACTAAAGGTCCTGCTGCTACATGTTTGAAACCCATGTTAATTCCGTCTTTTTTAATTTCTTGAAATTCTCTAGGAGAATAGAATCTTATTATTGGATGATGTTTTTTTGTTGGCCTTAAATATTGTCCTACAGTTAAAAGATCACATTCTACTGATCTGAGATCTTCCATAGTCTTTTTTATTTCTTTTCTTGATTCTCCAAGACCTACCATCATTCCAGATTTTGTAGGTATTCTAGGTTCAATTTTTTTAGATCTTTTAAGTAATTCTAAAGATTGATCATAATTGCCTTTTGGCCTAACTTTTTTAAATATTCTTGGAACAGTTTCTATATTATGATTAAGAACAGAGGGCTTAGAAGAAAGTATTGTTTTTAATGATTCTAAGTTTCCATTAAAATCAGGAATTAAAACTTCCACCTTGCATAATGGATTTAATTTTCTTATTTGACTAATTGTCATAGAAAATATTTTAGAACCACCATCAGGAAGATCATCTCTATCAACTGAAGTTACTACAGCATATTTCAAACCAAGCTGAAGAACAGTGTTTGCAACTCTAGTGGGCTCGAAAATATCTAATTCTGTAGGTCTGCCTGTTTTGACATTGCAATAAGCACAAGCTCTAGTACATATATCTCCGAGGATCATAAAAGTAGCAGTTTTTTTATCCCAGCATTCTCCTATATTAGGACAAGCTGCTTCTTCACAAACAGTATTTAATTTTGCATTTTTTAAACGATTTTTTAATTCGTGAAAATTGTTACTAGTAGGAGCAGATACTTTAAACCACTCAGGTAATTTTCTTTTTACTTGAACCATTTTAAATTTATATAATATTGTATTTAAATCATTTATCTAAGATATTATTATATTCTATCCTACTACAATATTATGACTAACAATATAAAAGACAATAATCAGAAAATAAGAATTCAGTTAGAGATATCGGAGTTTAATTCAGATGGTTCTTGTAAAGCAGAATTAGAAGGTAAAAAATTCAAAGTTTTTGGTGCTATACCTGGTGAAATAGTATTAGTAAATATTGTTAAAGAATTTTCAGATTTTACTGTAGTAAATGTATCTGAAGTATTAAAAAGTTCTCCTAATAGAATAAAACCTCCTTGTGAATATTATTTATTATGTAGTGGCTGTCAATTTCAACATTTAGATTATAAATCTCAACTAAAATTAAAAACAAAAATTGTGACTGATGAGATTTTGAAAAATGAAAATTTTCATCGAGTTAAAATCTTAGATACTATAGGAAGCGAGAAATTATATCATTATAGAAATCATGCTAGATTTACAGTAGCAAAAAAACCTCCTTTAAGAGGAAATCTAGGATTTGTTAATAGATTTTCAAGAAGAATATTCAAGATTGATAAATGTTTACTTATGGATCATAAGATAAATTATTTAATTTCTCTAATACAGAGTAAATTACAAGGTATGTCTCAATTATCAATAAGAGTTGGATCTAATTCTGGTTTTGCATTAATTCAACCTGATTTTCAAAATATTTTTCCAGAAATAAAATCGGGGCAGAAGAAGATAACTGAATATTTTCTTCAAAAACCATTTCGTATAGGTTCTCCATCATTTTTTCAAGTTAACACAAAACAAGCAGAGAAATTGTCAGAATTATTAGTAGATTACCTTAGTCTTGATGGTTCTGAAATTGTATTGGATACATATTGTGGTGTTGGTGTCTTTTCTGTTTTAATAGCACCTTTTGTAAAGAATGTTGTTGGGATTGAGATATCTGATTCTGCTATTGAAGATGCTGTTTTTAATTCACGACACCTTGATAATGTAGAATTCATTAAAGGTTCTTCTGAAGAATCTTTGAAAAAATTAGATTTTCATCCAGATATAGTAATTTTAGATCCTCCTAGGTCTGGTTGCAAGAAAGATGTGTTAGATTCTCTTATATTGATCAAACCAAAGAAAATATTAATGATATCATGTGACCTTGAGTCTTTTATGAGAGATACTGAAATTTTATGTATGAAAAATTATAAATTAAAACTCATTCAACCAGTTGATATGTTTCCAAATACTAAACATATAGAAATTTTAGCGATTTTAGAAAAAATAAATTAAATATAAGGATTATTGGTGAATATTTTAGGAATAGGTGCTTTCGAAGTTCTTGTTATTTTTTTGATAGCATTTTTGATATTGGGTCCTGAAAAAATGAGTCAGTTTTCAAAAAAATTTGGAAATTTTGTGAAAAAAATTAGAGATGAAAAAGAAGAATTTTCTTCAATAATTGATGAATCTGTAAAGGATATAAATGAAGATATGAAGATTCAAAATCCATTTAAAGATGATAAAAAAAATGATAAAGAAAAGGGACAAGATAATTAATTCTGATATAGATAAAGCTTCAAGTAATGATTTAAATAAAGATCGTAAAATTAATAATTTATCATTCAAAGGACATTTTTTAGAATTAAAAAAAAGAATAATTTTCTCTATTTCATTACTTTCATTGTTTACTATTCTAGGGTTTATTTTTCATCGTTGGATTATTGCTCTTCTTTTAAATCAATCTTTTGGGATAAATGAATTTACTGGAGGACAACCAGTTTTTACAAATATTACTGAATTTTGGTCAGTAGTTATGAGAGTTTCTATTCTTACAGGTGTTATTTTATCTATTCCTTTTATTGCTTATCAAATTATGATTTTTATAATTCCTGGATTGAAAGAAAATGAGAAAAAATATGTTTATATTTTTCTTCCTCTCATGGTGATTTCATTTTATATTGGAGCTACTTTTGGCTATTTTATTCTTGTTCCACCTGCAATTAAATTCCTTGTCCTTTTTGGAGGTGACTTGGCAGTACCATTAATAAGAATAGGTTCATATATACAGTTAGTAATAAGCTTAATGTTTTGGATGGGAATTGTATTTCAAGTCCCTACTGTAGTATTTCTATTGTCTAAATTGAGAATTGTTCCTATAGAGACATTTGCACGTTTCAGAAAATGGTTTATAGTTATTTCTTTCATTTTGGGTGCATTCATTACACCTACCTTTGATCCTATTAATCAAACATTGGTTGCTTTACCCATAGTGATATTGTATGAAATAGGATATTGGATATCTCGATTAACTAGTAGAAAATGAGTTTATTTTTTTTCTTTTTGAGATTTTTCTTCTTCTTCTTTGCCTGATAATGCTTTTTTAAATTGCCTAATACCTTTACCTAATCCTGATCCTACTTCAGGCAGTCTTCCTATTCCAAATATTATCATTACAACTACAAGTATTAATAAAATCTCTGGCCATCCCATTCCTCTTAAAAAATTCATAAATTATCGCCTCTATTGAATGTTGAACATATTAATATAAGTCTTTCAAAATAAATTGAATAGTTCAAGTCTTATTAAGTATTAAAGGATCTTAATAATCCCAAAACTTTACCTTCTATTTTAATGTTTGAGGCTTTTTTAGTAATGGGTAAATAATCTGGATTGCTAGGAATTAATGTTACTTCGTTCTGATCTTTGTTAAAACTAATCCTCTTTAGAGTGGCAGAATTTTCATCCTTTATATTAATTACACCTATTTGATTTGAGTTGATTTCAGTAATGTCTACAATTTTTTCTGCGATTATGACATCTCCGTCACTAATCATATCACCAGACATAGAATCGCCTTTTACTTCAAGTGCAAAAATATTTTTATTTTTTGGAAACCAATCTATAGGTATTTCTATTTCTTCTTCGTAATTTATGCCGATGTCTTCAGGGATTTCTAATGATTCACCAGCTGCAATTTTGCCTACTAAAGGAATACTTATAATCTTTTCTTTATTGATTTGATTATTTATTATTCCTCTTGATTTATTAGATTTAACTTCTAGGTGGCCTTTTTTCCTTAGAGCTTCAATATTGTAAGAAACAACAGATGTTGAACTAATATCACAAGATTTTTGGATTTCTCTTATTGTGGGCGGGAAACCTTCTTCATCCAAAAACTGATTGATGAAATCAAGTATATTTTGCTGTCTTTCTGATAACATTTTAATAATATTTTTTTATTTAATTCAAAATTAGCAAAGACAAGATTTTCAGTCAATCAACGGATGTCTCATAAAATTATTTTTTATTCGAAGATTCGTTTAATGTAGCCATAAGTCGGGATTTTCTTCTTCCCGCATTATTTTTGTGTATTACTCCTTTTTGAGCGGCTTTATCTAAAGATTGAACTGCTTTTTTTACACTTAAAATAGTGTTTTCTGAAGAAGGATCTTCGTTTATAGCTTTCTTAGCATCTTTAATAGCATTTCTTGCCTTAGAAGAAATTGTTTTATTATATTCTTGATTCTTTATTTGTTTTCTATGACTTTTTTTACTTGGCATAATTCACCGTTTCTAATTTAATCTTTGTATATTTCTAACTCCTGAAATAGCTTCGATTCTAGAGTATATTCTACTAAGCTGTTCAATTCCACTAGTAAAAACAGTAAATTCTACTTTAGTAGCTTTTCCAAAATCTGTAGACTTTAAAAAATTGATGTTTATATTTTCACTAGATACCACAGAAGTTATGTCTCTTAGTAGACCAATTCTATCATCTGCGTCAACTTGTATCTTTACTTGTAATGTTTGATTATTAGTTCCCCAAACTACATTAACTATTCTTTCAGGTTCTCTAGAGTATCTTAAAAAATTACAATTGGATACATGAACGGATACTGTTTTTTTTCTTGTTAAGTATCCTTGAATCTCTTGTCCGTAACTAGGGTTACAACATTTTGATATTTTATTTGGGAGATTATTGAATCCCATTACTATTACATTAGGAAGTGAATTATTTTCGTCATTTTGAGGGGATGTTTTTAAATATTTCTTTTCTATTGATTTAGCTAATTGAGCAATTGTGGTTTCGCCAGATCCAAGTTGTTCTGCCAAGTCTGAATAATCTTCGAACTCAGGTAATAAAGAAACTTCTTTTGAATCTATTTTGAAACCTAATTTATTTGATTCTTTTTTTATTATTTTAGTTCCCCTTGATATATTAGATTGTCTTTCTTGTTTTCTGAACCATTGTCTGATTTTCAATTTTGCTTTACTTGTAGTGACAAATTGTAAGTCTGGATTTAGCCAATCTAATCTTGGGCCACGAGGATTTTTTGATTTTCTTATTTCTACAGTATCTCCATTCTTTAATGGGGTTTCCAAGGAAACTGTTTTTCCATTTATTAATGAAGAAACACAATCATGACCTAACTCAGTATGTACTTCATATGCAAAATCTAATGGAGTTGCACCTACAGGGAGATTTTTTATTTCTCCTTTAGGAGTATATATAAATACTTGATCTCCTAAGACATCTTTTTTTATAGAATTTACGTAGTCTATATCTTTCTCTACGTCTACTTGTCCATCAAGAAGTTGTTTGAACCAATTCATTTTGGATTCATATTTGTCACCTATTGATTCATTGTCTTCTTCTTTATAAGCCCAGTGTGCAGCAATTCCTTCTTCTGCAGTTAGATGCATATCTTTTGTTCTAATTTGAACCTCAACTGGGTATCCTTCGTAACACATTACTGTAGTGTGCAAAGACTGATACATACTGTCTTTGGGGTTTGCTATATAATCATCGAATTCGCCTGGAACAGGTTTCCATAGATTATGCACCACTCCTAATGTCGCGTAACATTCGGAAATAGTTTTTACTATAATTCTCAACGCTATCAGATCATAAATTTCATCAAACTTTTTACCTTGATTTGAATATTTTTCTATCTTTTTAAAAATACTGTATAAATGTTTGGGCCTTCCATAAATTGTTCCTGAAATTTTTGATTTTTCAAGATTTATTTGAAGTTCTTTTATAGCTTTATCTACATATAGCTCTCTTTTAGTTCTTTTTCTTGCTATGAGCCTAGAAGTCATCTTGTATCTATCAGGCATTAGATATTTAAATGCTTGATCTTCAAGTCTCCATTTCATGTCCCACATTCCTAATCTGTGGGCTAAAGGAGCATATATATCTAAAGTTTCTTGTGCGATTCTTTTTTGATCTTTATTATCTAATGCATCTAAAGTTAACATATTGTGTAATCTGTCTGCTAACTTGATTAATACGACTCTAACGTCATCTGACATAGCAGTTAATATTTTTCTAAGATTTGCTGCTCTTAATTGTTCTGGATTTAATATTTCTAAAGTGGAATTATTTTTTTTAATCTTAAGTTTTGTGACTCCATCCACTAAATTTGCTACATGTGGCCCAAATTTTGCAATAATTTCGTCTTTAGTTATTCCACAATCTTCTATTACATCGTGTAGTAGAGCTGCAGAAATAGTAGTGCTATCCATTCTCATATTAGCTAGATATAGTGCAGTGGAGATAGGATGACTTATAAATGGATCTCCTGACTTTCTAAACTGATTTTTGTGATTTTTTTCCGCAAAAAACAATGCTTCTTTAACAAAGTCTAGTTTTGTTTCTGAAAGATATCCTTTTAGTTGTTTTATTAGAATGTTAGTTTGCATATTTCCTCTTTAGGAATTTTCTCTAATATTTTAGATCAAATCAAGTATTCTAAATATAATTAATTAGAATCTGGTTTTTCAGGTATTCCAGGAAATGGTACTTGTGAAGCATATTTTCCTAGATGATTTACTAATTGAACAGGAATTTCAAAAATTTCATCTTGTAAATTTTTATTAGAAATTTTCATAAAATTAGAACCATCAGTACAAATAATTTTCACTTTTTGAGTGGATGTTTTTGTGATAAATTCTAGTTCCATTAAGAATACACATTCTTCATGAGTATTCTTAATGCCTATTACGTCAATATCAAGATATTGAATTATAGGTGATATTTTATTTTTGTCTTTTAGAGTTTCTAACTCAAAATATATATTTTCTTTTAATCTTTTTAAAATAATTTCTTCTGTTTTTGATAAATTCAATATTTTTACTATATTTACGGTGTTTTCTGAAAGATTTTTTTTGCATTCAATAATATTTGTTCCATTTTCATCAGTATGTACTATATATTCTTTATTGTTTCTTTCTATGAAATGAAGACTCCATCCTGATGTTTCTGCTTGGGCATAATATTTTCCTGGTTCTGGGCAACCCATTGCATATGATGGCCATTTTTTTCTTTCATATTTAAATAATTTTAAATCACTTGGTTTTATATTATGAATATTAGATATATAAGCCATAGCTTTTCCACCAATACTTGGTGGTTCGGGAGTGGGAGTAGGGATAACTGTAGGAGTAGGAGTTATTGTGGCTTCAGGCGTAGGTATAATTTTAGGAGTGGGCTCTATTTTTAATTTTTCTTGGACATTATTTTTGATAAATTTTTCATCTTCATTATTTTTAGAGTTAAAAATATCTATCATCATTAGAGCAATTAGAAAACTTCCTATCGTAATAATTAATGTGATGTTTAATATTTTTTTCAATTGATTTTTAGTTAAATTTATTTTTTTTCTAGTTTACCAGAGCAAATCTTTAGTGTCTTTTAATTGTTGACTATTTGACTAAAGAATAATCTTTGATACTATATTGTTGATTAAATTAATAAACAACATTTTGGAGTAAAAAATATTATTAAAATGAAAAAAATATTATTAAGTCTTATTACTATATTTTCTATAGTTGTTATTTCATGTTCTTCAGAGACTGAGATAGTTGAAGTAGTTAAAGAAGTTCCTGTAGAAAAAGAAGTAATTAAAGAAGTAGAAATAATTAAAGAAGTTCCTGTTGAAGTTATCGTTGAGAAGGAAGTGATAGTAGAAAAAGAAGGAGAAACTAAAACAGTTGAAGTTGTAAAAGTAATAGAGAGAGAAGTGGAAGTAGAAAAAGAAGTACCAGTAGAAAAAACATATGATACTTTGGTGATTTATTCTGGAAGAGGAGAATCATTAGTAGCACCAGTAATTCAGCAATTTTCTGAGGCTACTGGAATACCTGTTGAAGTAAAATATGGAAAAACAGGAGCTTTAGCAGCGACTTTATTGGAAGAAGGATCAAAGTCTCCTGCTGATATTTATTTTGCTCAAGATCCAGGCGGTCTTGGTTCAGTAAATACTATCTTATCTTCATTGTCTGATGAAATAATTTCATTAGGTCCTAATTGGGCTAATTCTCCAGATAATAAATGGGTAGGTATATCAGGTAGAGGTAGAGTGGTTGTATATAATAATGAGGCAATTACTGATCCTGTTACACAATTACCAGATGACATTTATGATTTTGTTGATTCAAAATGGAAAGATAAAATCGGATGGGCTCCAACTAATGGATCATTTCAGGCTATGGTTACCGGGATGAGAGTTATATGGGGAGAGGAAAAAACTGAGCAGTGGTTAGAAGGAATTATGGCTAATAATCCTAAAATATATGCAAAGAATACTCCTACTGTAGCTGCAACTGCTGCTGGAGAAGTAGAAGTAGGATTTGTAAATCACTATTATTTACATAGATTTATGGCAGAAGAAGGAGAAACATTTGCTGCAAGAAATTATTTCTTACCAGGTGGTGGCCCAGGTTCAATTGTTTTAGTTGCTGGTGCAGGAATTCTAGATGTTTCTGATAATAAAGATGCAGCAGAGGCATTTCTAAAATTCATGCTTTCTCCTGCAGCTCAAGGTTATTTTGCCAATCAAACTTATGAATATCCATTGGTAGATGGAGTTAAGAAATCTAGACTTTTACCGGATCTAGATACATTAAACACTCCTGATATAGATATTTCTGATTTGGGAGATTTAGAAAGTACTCAAGAATTGTTAAGGAAAGTAGGAGCACTTCCTTAAATTTAAAATACAACATCACACTTTTTAATACCACACAACTCCAGTTCATTACTGGAGTTGTTGTTTTGGGTAAACATAATAAGATATAGAATGTCTTTTATACTAAAATAATGAAAATAATCTTTTTAGATTGATGAAAATAAATATTGATATAGGTCAAACTTTTCTTAGTGTATTTTCTTTTTTTATAATTTTGATTATTTCAATTCCTTTGGTTTATCTAGTTGTTAGAGTTTTAGGGAGTGATGGGAATTTATTAGAGTTGATTTTCAGAAGAAGGATATATGAAATTATTATTAGAACATTAACTCTTGTATTTTCAGTAACAATTCTATCATTAATTATTGCTTTAACTTTATCTTGGATTATTGAAAGAACTGATATTCCCTGGAAGAAATTTTTTACAATTTTATCTGTTTTACCTATTGTTTTTCCTAGTTATGTAGCTGGAATGATTTTTGTTGATTTTTTAGGTCCTAAAGGTAGAGTACAAGGATGGCTTGAACCTTTTGGGGTAACTCAATTACCTGAAATTTATGGTTTTTGGGGATCTACAATACTTCTTTCTTTGTTATCTTATCCGTATTTGTTTTTAATTATTAGATCTTCTTTGAGTAGAATAGATGCTAATTTAGAGGAAGCTTCAAAAATTTTAGGAAAGAATAGTTTAAAAACTTTCTTTTTAGTTACTTTTCCACTTTTAAGACCAGCAATAAGTTCAGGCTGTATTTTAGTAGCACTTTATACTCTTAGTGATTTTGGAGCAGTATCTTTATTACGTTATGAGACTTTTACTTGGGCAATTATGACTCAATATGAATCATCTTTTAATAGGGTTGTAGCAGCCTCTTTTTCATTGGTTCTTATTTTTTTTGCATTACTAATTTTAATTTTAGATGGTGTAATTGTTAAACCTAAAAACTATTATGTATCAGGAATTTCTGGAACTTCAAGAAAGATCAAATTAATTAAATTAAATTTATTAAATAAGATTTTTTCAGTTTTTATAATAGTTTTAGTAATATTTTTTTCAGTTTTCTTCCCTTTTTATGGATTAACTTATTGGCTAATAAGAGGAGCAATTGCTGGAGAGATAATAAATTTTAATTGGATATTAGTTTGGAACTCTATCTCAGTTTCTTTTTTGGCAGCCATTTCTTGTGTTTTTTGCTCTTTACTGATTTCTTTATTAATCGTCAAATACAATAATAAAATTGGTATATTAACTGAAAAAATTTCTTACCTGGGTTTTGGTTTACCAGGAATTGCTATAGCTTTAGGTGTAATATTTGTAGGATTAAAATTAATTTCACCATTATATCAAACTATCGCATTACTGATTTTGGGATATATTATTCTTTTTCTTCCTGTCACCATTGGTGCAATAAAATCATCTATGTTACAGATAAATCCACATATTGAAGAAGCCTCGAGAAGCTTAGGCTTTAGAATGTGGTATACAACTTTAAAGATTACCATTCCTATTATAATTTCAGGAGTTTTAGCTGGAGGAATACTAGTTTTTATGCTTACTATGAAAGAGCTGCCAGCTACTATGATACTTGCTCCTTTAGGATTTGAAACTCTTTCTACTTCGATATGGTCTTATTCTTCAGAAGCATTTTTTGCAAAATCAGCTTTCCCTTCTATGTTATTGGTTTTGATATCTGGCCCTTTTACTGCATATCTAGCTTTTAGAGGATATACTATCTCTGATAAACCTGTTAAGGAGAATTTGGATGTTTGAAAATAATAAGACCATTGGCTCATATCATTCTGATTTTGAGAAAGAAAAAGGTCTTATAGAAGTTGAGAATGTGAAATGTAGTTATCCTCCTTTTGATCAGATTGTATTAGATGATCTCTCTCTCGTAATCAATTCCGGAGAATTTGTAACAATATTAGGACATAGTGGTTCTGGTAAAACTACTTTATTAAGATCATTGGCTGGTTTTGAAATAATTCAAGAAGGCTATATTAGAATAAATGGTATGTTAGCATCTACTAGTTGGACTCATTTGCCCCCTGAGAAGAGGAAAATAGGATTTATATTCCAAGATTACGCACTTTTCCCTCATCTTACTGTAAGGCAAAATATATCTTTTGGGGTAGTCGGAAATAAAAATGATAAAAAGAAACGTGAAAATTACATCTTAGATCTAATTGGTTTGAAAAAACAAGATTATAGATATCCTCATCAGTTATCTGGTGGTCAACAACAGAGAGTAGCTTTAGGAAGGGCTTTAGCGCCTAATCCTGTAGCGATTTTAATGGATGAACCATTTAGTAACCTTGATCGTCAACTTAGATCATCTTTGAGTCGAGAAATTAGAGATATTATTAAATCTTCTGGTATAACAGCAATTCTTGTTACTCATGATAGAGAAGAAGCTATGATTTTATCTGATCGTGTGGGAGTTTTAGTAGATGGAAAATTAATTCAAATATCTGAACCAGAAAAGCTTTATCGTTTCCCTGCTTCTTTAGAGGTTTCTAGGATGATTTCAGAAACAAGATTAATTCAAGGTATAGTTCAAAAAAAATATATAAATACTGAAATCGGTAAAATTTCAATAGAGAAAATTCAATCTGGTGATTCAACTTTTAATGAAGGATCACCGATAATAGCATCATTAAGACCCGAAGATCTCATTATTAAGAAAAGTAACTCTGACATACATGGCACAATAGTAAGGAAGGAATTTTCTGGAAATAATTTAATTTATTGTGTTGAGTTAAAATCTGGAGATTTTTTGCATGTAGATAATTTCAATAGAATTGATTCATTAAATGAGGGAGAAAATGTAAGTTTAGATTTTTCATTGAGAAATCCAATTTCAATTTTCCCAAAGTAATCAAGACCTAAGAATTTTTTTTACAGTTTCAATACTTTGAAGAGAAAAAATTAATGGAAGTGCGATAGCTACTGTGATGCCTAAAAACAAAAAAGGAAATCTATAACTTCCAGTGATGTCAAAAGATAAACCAACGAAAATTGGCCCTATAGCAGCTGAAATAGCGCTAATTGTACTTGTTAATCCAACAATAGTTCCATAATTTTTTCTTCCAAAATAATCTCCTAACATAGATAATCTTAAAGGAATAGATGATCCAAATCCTAAGCCCCAACAAATTGCAAAAACAGGCACAAGATATTTACTTTCAAGTACAAAGTTGCCAATTTTAAGATTTACGAAAGCAAGTGAAAAAGCACCTATAGTTAATAATGAGAAAGATAATATCAACATTGTTTTTGAAGAAATTTTTTCTCCTATCACTCCAATCGATAATCTTCCAATTAAATCCCCAAGAGCTAAACCTGCTATAGATAACCCTGCAATATAAATTGGTACTCCGAAATTTGTTAATGCTGGCATATGTAATAAATTTGTTGAACTTACAAGTTGTGCGAAAGCTAAAATTATAGAAAATTGCCAAAAGAATCTTGTTTTTAATATTTGTTTTAATGAAAATTCATTTTTATTTTTTAAGCTCTTTGCTTTTTCTTCTTTATCTTCAACTAATTTATCTCCATCAGGAGATAGGCCATATTGTTCAGGGTGATGTCTCATAAAACTAGCAGAAATAAAGCCTATTAACCAGAAACCAATTCCTACTCCAAAAATCACATCTCTCCATCCAAAATTTTCTATTGATGTAACTAATATTGGAACAGCAAATCCTCCTGCTCCTGAAGCCGACATTAGAATAGATAATGCTAATTTTCTTTTACGATTGAACCAATCTCCAACTGTAGCTACTAAGACAATGAAAGTTCCAAAAGACATGCCTATTGATAACAAACTTATAATGGCATAAAAATGCCATAATGTTGTCATTTTACTCATAAGAATAAAACTTAAACCTGTCACAAATACACCGAAAAACATTACTTTCCGAGGTCCAAATTTTTCTAGTAGAATACCAACAAAAGGTGATATCATACCACCTTCAGATCTTTGTAAAGATAAAGCTCCTGCAGTTGCAGCTCTACTCCATCCAAAAGTTTCTACAATGGGGTCAAAGAAGGCTGTAAATCCTCTCCAAAATACTAACGATGTATAGCCTTGAATTGCAGATCCTGCGCCCACAATCCACCAACCGTAGAATATACCTGATTTATGATTCTGTTGTTTTGTTTCTTTATTTATGATTGTTTTAATCTTATAAACCCATTATTCCGTATCCGGCATCTACTGGAATTATTGCACCTGTAATCCCACTAGAAAGATCACTTAATAGAAATAAAGAAGTATTTGCTACTTCTTCATGAGAAACATTTCTTTTAAGAGGTGACTTACTAGCATGTATGGTTCTCATGTCATTAAATCCTGGAATACTTCTTGCAGCTAAGGTAGGTAGGGGTCCTGCTGAAACTGCATTTACTCTGATATTTTTACTTCCGTACTCATAAGCTAGCTGTTTCACTGAGTTTTCTAATGCTGCTTTTGCTGTGCCCATAATATTGTATCCTGGGTAGACTTTATTGGATGCTTCAAAAGTCATTGTTATAATTGATCCTCCATTTTTATTAACATGAGGAGCTGCATGTTTAACTATTGGAATTAATGTGTATGCACTTACTTCAAGAGCAGTTCTAAAACCATCTAGACTCGTTTCAGAGAAATTGCCTCCGAGATCTTCTCTTTGAGCAAAAGCTATACTATGGACAACAAAATCAATAGGTCCTGATTCAGAAACTTTTTGAAAGACTTCCTCAATTTGATTTTCATTCAATGCATCACATTCAACTAATTCTATAGGGTTCATATCTTTTACTGCTTTAGAAACAGGATCTTTCAATCTTTCATTTTGATATGTAAATGCTAACTGAGCTCCGTTATCACTTAAAGATTTTGAAATAGCCCATGCTATACTTCTGGGATTTGCCACTCCAAATATTATTCCTCTTTTATTTGTAAAATCCATTATTACTCCTTTTACCAGTTTGTTATTGATCCATCTGTTCTCTGAAGATGTGTGGCTTCCCACTGTTTGAATTCTAGTTCTTTAATAATATCTTCATTTACATCTACACCTAGTCCAGGAGTAGAAGGTACTGGATACATTGCTCCTTCAAGTTTAACTTGTTGGGTAAAGATATCATCGTTATCACTTCCAAGTTTTTCACTAGGTGTGTTCCTTGCTTCCAACCAAGAGAAATTAGGAATTGCTGCACCTAAATGAACTGAGGCTGCAGTGCAAATAGGACCTAAAGGATTATGTGGCATTAAATCTATATAATGTGTTTCACACCATCCAGCAACTTTTAAAGCTTCTGTGAACCCTCCAACATTACAGATATCAAGTCTAGCAAATTGAGTTATATCATTTTCTATATAAGGTAAAAATTGCCATTTTGAAGCAAACTCTTCTCCAATTGCAAAAGGGATAGATGTCATTCTTCTAAGTGATTGATAAGATGTAGGATTTTCATCTCTTATTGGTTCTTCGAGAAAATCTATGGTTCCAGGGGGCATTTTGTTACAAAAAGAAGCAGCTTCGGCTACGTTAAGCCTATGATGCATATCAACTCCTAAGACTATTTCATTTCCTAATTCTGCTCTTGCTTTTGTTAACCATTCAGCAGTTTCAGATAAGGCTTCTCTTGGCTCATAGATTATTTCTGAATGATCTGGTTTTTGAGATGGAGATAGTCTGATGCACTTCCAATTCTTTTCGATTAACTCTTTCGCCAAGTCAATCATTTTTTCTCCGGGAGGAGAAGCAGTAGATGCAAATGCAGGCACAAAATCTCTTTGTTTACCTCCTATCAATTCATAAACAGGAACATTTAAAGCTTTTGCTTTAATGTCATGAAGTGCAATATCTATTGCTGACATGGCAGCAGTTAGAACTCTACCACCTTCAAAATATTGACTTAGGTAAATTTCTTGCCATATTCTTACTATTTTGAAGGGATCTTGGCCTTTAAGGAAGTTTTCGAAATGTAATAATGCTGATTTTACAGCTAACTCTCTACTGGATAATCCTGATTCTCCCCAACCATAGATGTCTTTATCTGTTTCTATTTTTACTAAGAGTTGATTTCGATTTCCTATCCATACAGGATATGCTTTAATAGCTTTAATTTTTAAGTCCATTTTTCCCTTGTTACTTTTTGATAGTTTTGAATTGTAATTTTAATATACACCATTTTAATTTAATACAGGATTTAAGGTAAAATTTAAGATACTTTTTATTTAAAAGTCTTAGGAAATGATTTAATTAAATGGCGGACGGAGAGGGATTCGAACCCCCGGTACGCATAACGCACAACGGTTTTCAAGACCGCCGCCTTAAACCACTCAGCCATCCGTCCGTTAGATTAATTAACTAGAAGATTATATTTTCACTATGGATAATTGTCTAATATAAATATTATATTACTAATAGATTTAAATAATGTGTTCATAATTTATTATTGAAATGAGATATAACAAATAGAGAAATAAAAAATGAAAGCTTTGATTTTAGTTGGTGGACAAGGGAAGAGATTATGGCCAAAAACAGAGATAATTCCTAAGCCCATGGTTAAAATTTTTGATAAACCACTTGTCTATTATCAGATTGAATGGTTAAAAAAATATGGATTAGAAGAGATCATATTTTTAACAGGCTATAAACCTAATTCTTTTAGGAAATATTTTGGCAATGTAGATTCTGACGGAGTAATAATTAAATATTCTCATGAAAAATATCCTCTAGGTAGAGGGGGCGCAATAAAAAATGCTATAGATAAATTTAATTTATATAAAGAAAACTTGGTAATTACTAATGGAGATGTGTTAACAGATTTCTCTTTGGATAAAATGATGGAATTTCATCTTAATAATCATGTTTTAGTAACTTTAATGTCAGTTCCATATAAATCTCAATTTGGAATAGTGAAGATTGATGAGAATGATAATGTTTTAGAATTTTCTGAGAAAGCGAAATTACCATTTTGGATTAATGGAGGTATTTATATCTCTAGCCCTGATTTTTATAATTATTTACCTGAAAAAGGTGATCATGAAGTAGAAACTTTTCCAGAATTAACTAAATTAAATCAATTAAAAGCATTTAAAACAAATGAAAATTGGATTTCTATTGATACGATGAAAGATTTAGATGATGGAGAAGAATTTATAAAAACTTATTTTTAGTTACTTTAATTCTCCCCAGGATTTTGCAATATTGATATCAATAGTTAAAGGTACTTTAAGATTTAAAGAATTTGGCATAATTTTTGTCAGAATTTCCTGTAAATCATTTAATTCATTTTTGGGAACTTCAAAAATCAACTCATCATGCACTTGAATAATCATTTTTGAAAGTAAATTTAAACTTCGAATTTCATGATCTATTTTTATCATTGCAATCTTAATTATATCAGCAGAACTCCCTTGAATTGGCATATTTACGGCCATTCTTTCTGATGATGAACGAGAATGGAAATTAGGGGAATTTATCTCAGGAAGAAGCCTTTTTCTTCCTGTAATAGTTTCTACAAATTTATTTATTTTTGCGAATTTTATTACACTATCGATATAATTTTTTATACCAGGATATTTGCCAAAGTACAATTCTATAAACTTTCTTCCATCCTCTCTAGATAAATCTGTTTGTCTAGAGACTCCGTGAGGGCTTAATCCATAGATTACTCCGAAGTTGAGAATTTTAGCTATCCTTCTTTGATCTTTGGAAACTGTTTCTGTTTCGTACATAATTTTGGCAGTAGCATCATGTATATCTTCATTATTTCTAAATGCTTGGAGTAGACTAGGTTCTTCTGATAAATGAGCAAGGATTTTTAGTTCTATTTGAGAATAATCTGCTGATAAAAGATAATTTTCTTTATTGTTTGATTCAAATGCTTTGCGAACCTCATTGCCAATTTCAGTTCTTACAGGAATATTTTGCAAATTCGGATCTCTGCTAGATAAACGACCAGTTGAGGTTCCAGCTTGATTAAAGTAAGTATGAATTTTTCCTGTATTTTTGTTTATCAATTCTGGCAGACTATCAGCATAAGTTGATTTGATTTTTGAAAATTCTCTATGAGCTAAAACAATTTTTATTAGTTTACTAGCATTTTCTTCAAGAGATTCATTTTTTAACAAATCTTCAAGGGTATTGGCATCCATAGTGTAGCCAGTCTTAGTTTTTTTAGTAGCGGGCACTCCCAGTTCACCTATAAGAACTTTAGCTAATTGTTGGCTTGATCTAAGATTCACCTCTTCTTCCCCCAATATTGTTTTAGCTTTTTGTTCTAAAATATTAATTTTCTCATTTAATATTTCTGACAAGGTTTCTAGTTTTTTTATATTTATTGAAACACCCGTTTGTTGCATTTTTACTATCACTGGGATTAAAGGCATTTCAATATTTTCCATGACATCTAATAAACCACTTTTTTCTAATTCTTTTTCGAAAATATTTTTTAACCTAAAAGTGATATCTGAGTCAGCACAAGAGTAAAGAGTTGCATCTTGAATTGAAACACTAGAAAAAGAGATTTGTTCTTTTCCTTTTCCAATTAAATTTTCTATAGGAATCATTTCTTGATTGAATTCTTCCAGGCAAAGATTTTTTAAACTAAGAGATCTTTTCCCTAGTAAATTTGCAGCTATCATAGTATCAAATGTAACTTTATTCACTTGAAAGTCATTATTAAATAGTACTGACATATCGAAATTAGAATTGTGAGCAATTTTTTCAATTGTTGAATCTTCAAAAATTTCTTTAATTAATTGCAACCCTTCAGAAGAAATATTATTTCCTCTATCATGATTGATAGGTATATACCAACCTGAATTTGGTTTTACTGAGATAGAGATTCCTACAAGATTTGAGTCAAAAGGTTTTAGTGATGATGTTTCTGTATCAAAACTGAAAACGCCTTCTTTTTTTATAGTTTCAATCATTGAATTTAACTTAATATCTGAGTCTATAGTTATATATTCAAGTGTGTGTTTAATTGAATTTTTACCTGAAGGGATTCTAGTTACCAGAGACATTAATTCTAACTCACTTAGTTCTTTAATTACCTCTTCTTTATTAAAAGATCCAAATTTTGATTTCGATAGTTCTAAATTAATTGGAACTTTTCGGAAAATTGTAGCTAGTTCTCGAGATTTATATGCTTCTTCTCTATACTCAATGAGTAAAGATTGAATTCTTTTAGCCCCTCGAATATTTAATTCAATAATTTTTTCTATATTTTCATATATATCTTCTAGGTTTTTGTACTTCTTTAATAGTGTGTTTGCCACTTTCTTTCCTATACCTGGAATACCTTTTATGTTGTCAGAGGCATCTCCTGAAAGCCCTTTATAATCTGGAATACTTAAAGGCACTAAACCTTCAAAATCTTTCTCTTGAGTGAATGTAACATTATCTATTATTCTATCTCTTGATCTGGGGTTTGGGCTAGAATACCAAATATTAGTTTTATCAGTGATTAATTGAAATAAATCTTTATCTCCAGTAACTATCAAATTCTCAAAATCATGTTCTACACTCATTAAAGTTATAGTTCCTATCAAATCATCAGCTTCATATCTTTCTACTGAAAAGATTGGAATTTTCATCGATGTGAGAATTTTTTCTAATAAAGGAGTTTGTTTGATTATTTCAGGAGGAGTTGAATCACGGTTTGCCTTATATTCTGGATATAATTCATGTCTGAATGTTGGTCCTTTGGGATCAAGGGTTACAATCAAGTGACTTGGATTATGATCAGAAATAAGTTTGAAGAGACTCGATAAAAACCCATATACTATCGAGGTGCCAACTCCTTTTGAGGAAAGTCGCTCAGGTATTGAATACCATGCTCTGAATATCATTGCATGACCATCAATTAATAATAATTTCTTTTTAAAATCTTTAGTTTCCATAGTTCATAATTCTTTTGATATAAGAATTATACTATTTTAGAAACTTTTTAAAGAAAATCAGTTTATTTCTACTTCACTTTCATCAAGCATTTCTATTCCTTTTCTGACCTGACCTAGCGTTGTAGAAATTCTTTCTTCAAGAGAAAATAAAACTTCACGTGCATATGCATCTGCACCGTTTCTGGTTTTCATTGAATGATCTTGAGCTTCGTTTAAAATATTTGTAGCCTTTCTTTCAGTATCTTGTTTTGATAATTCTGCTTTTTCTTCTATAGATTTTGATTCTTCTTCCGAATTTAATATAATCTTTTCAGATTGTTCATAGGCCTTTTTAACAATTTCTTCTTTTTGAACTAATTTTTCAGCTTGTTCATTTGCTTTAATAATCATTTCTTCTGATTTTTCTTCAGCATTTTTTCTGATTTTTTCAGCTTCTGAATCAGCATAAATTCTTTTTTTACTAGCTTCTTCTTCTGCTTGTTCAATAATAGATTCTTTTTGTCTCACAATTATTTCAGATTCATCTAATGAATTCGGAATAATTGAATGAATTGATTTAATTATTTCAACACATTCTTCAATATTTATTAAAGATCTATTAGTACCTTTAACTTTGTGAGAAATTAAATAGTTTTGTAATCTATCTAAATTTTCTTTTACAGTCATATGACCCCCTTATTTTTTTTAAATATCTGTTAGTTTTTTATTAATTGATTGTTTGACTTTTTCAGTTACTAAACTGCTTACATCTCCACCTAACATACTTATTTCTTTAACTCTACTTGAGCTTACAAATTGATTGTTAATACTGGAAATTAAGCATACAAGTTCGATATTCGGATTTATTTGTCTATTCATTAGAGCCATCTCTCTTTCATATTCAAAATCATTTCCTATTCTTAATCCTCTTATAATTACAGATGCTCCTACTTTTTCAGCAAATTTTACAGTTAAACCTGAATAAGGCATTATATTTACATTAGATATATTTTTTATTGAATCTTCAATAAGTTCTATTCTTTCTTTTGTATTAAACATTAAATTCTTACTAGATTCTTTATAAACTCCAACTGTAATTTTATTGAAAATTTCTGATCCTCTTTGAATAATGTCAATATGTCCTTTTGTTATTGGATCAAAAGTACCCGGGAAAATAGCTTTTACCAATTAAACCTCCTCTAATTTAAATAGAGTGATGGAAGTATCACCATAATTTTTTGATTTTATATTTGAAAGTTTTCCTATATTTTTTATGGGTTCTTGATTTTTAGAATGTTCATAAAAAATTAAAGATTGATCATGGAATAAATTATTTTTTTCTGCAAGACTTAATACTTCAGATATATTTTGATAATCATAAGGAGGATCAGCAAATATAATATCGAATGGACCTTCTATCTTTTTTACAGCTCTAATGGCATCTAGACAAAATACTTTACTAGAGTTTTGATATTTTTTTTCTTCCAGTCTCTTTTTTAACATTTTGAAAGTTTTGATATTTTTTTCAACAAATACACTGAATTTTGCTCCTCTATTAAGACATTCAATACCTAGATTTCCAGTTCCTGCATATAAATCTAGAATTTTTTGGTTTTTAACTCCTTCAGGACCTATTAGAGAAAAAATAGCTGATTTCACTTTTGATGTTGTAGGCCTTAAAGACTTATTTTTATTTTTAAAAATTGGTCACGCTCAAATATTTTCCAGTTATTTGTTATTCCTGTGTTACATTATTTATGTGAATTGATTGGTATTTCAATATAATAATTAAGCGAGTTTACATATTTTTAAGAATTCAGATATACAAAAAAGATTAAATTTAATTTAATTTTACAAATAAATAATGTTTTTTTTATAAGGAAAAATGAAAAATAATAATATTGAACAAGATGAAAATAGATTAATTGAATCTAGGAAAGCAAATTTAGAATCGCTTCGAAATTTAGGTATCAACCCTTATCCTTCTAAATTCCAAAAAACTCACACTACTTTAGATGCTAGAGAAATGCTAGAAGATTTAGAATTAAATAAACAAGATGAGAACCCTAAAACTGAATCAGTAATAGTTGCTGGAAGAATAATGGCTTACAGAGATCAGGGAAAAATTATTTTTATTGATTTAAAAGATGGTTATGGTTCTATCCAAATTGCTCTTAGATCAGATTTATTAAGTGATAATTTGTTTAAAATTTTAAAATTTATTGATATAGGAGATTTTGTTGGAATTGAAGGTGTTGTTTTTCGTACTAGGAGAGGAGAGCCTACTATAGAAGCAAAAAAAATAGATATATTGTGTAAATCAATTAGACCATTACCTGATAAATGGTCAGGATTACAAGATATCGAAAAAAGATATAGACAACGTTATTTAGATTTTATTTCTAATGATTCTTCAAAAGAAGTTGCTTTGGTAAAACCAAAGATAATTTCATCAATAAGAAAATTTTTGGAAGTAAGAAATTTTATAGAAGTAGAAACTCCAATATTAGTTCCTGTAGCAGCTGGTGCGATGGCTAAGCCTTTTATTACAAAACATAATGCTTTGGATAGAGTTTTGTATCTTAGAATTGCTACTGAATTAAATTTAAAAAAATTGATTGTTGGTGGTGTAGATAAAGTGTTTGAGTTAGGGAGAATTTTTAGAAATGAAGGAATTGACCATCTTCATAATCCTGAATTTACAACTTTAGAAAGTTATGAAGCTTATTCTGATTATAATGATGTGATGAAAATGGTAGAAGAGATGGTTTCTGAAGTTTCAGAAGATGTGAATGGTTCTAAAATAGTAAATGTTGGTGATGAAGTAATTGATCTAACGCCTCCTTGGGAGAGATTAAATTTAAGAGATACTATAATAAAATACTCTGGTATAGATTATTTAAAATGTAGATCACCTCAAGAATTAGAAAAGGAAATGAATTCTAGAGGGATTCACGTAGAACAAGGATCAAATTGGGGAAGAATGTTGGATAAAGTGATTTCATATTCAGTAGAACCTAATTTGAGGCAACCGTGTTTTCTTGTAGATTATCCTGTAGAAATGTCTCCTTTGGCAAAAAAGAAAGAAGGTGAAGATAATATTGTTGAAAGATTTGAAGCATTTGTTTGTGGTGGAGAACTAGCGAATGCTTTCACTGAATTAAATGATCCCATTGACCAAAGAAAAAGATTTGAAGACCAAGAAAAATTACGGAAAGAATCAGGAGACGATGAATTAGATAGATTAGAAGAAGATTTTTTGATAGCAATAGAACATGGTATGCCTCCTACAGGAGGATTAGGGTTAGGAATTGATCGATTAGCAATGATAATTTCTGGAGCTAAATCTATAAGAGATGTGTTAATTTTCCCTCAGTTAAAAACCTTACAGGATGATAACGATGATTGATTTAAATACATTAATTTCAAGTTCTGAAAATATTTTAGGCAAGCTACAATCAAGAGGAGAAGAAATTCCTTTAGACAATATAAAAGAATTAGACTCTAAGAGGAAAAATTTAATTCAAGAATCTGATCAGTTAAGGAGCTTTCGTAATTCTGAGAATAAACGAATAGGGGATTCGAAAGAAAAACCTTCTTTGGAACATATCAATAAGATGAGGGATATTTCAGATAAATTAAATAAAATTAATGTAAATCTAATAGACATAGAATCCCAATTAAATGAATTATTGTTAGTGATTCCAAATGTTCCACTCGATGAAGTTTTAATTGGTAATGATGAAACTGACAATAAAGTAATTTTTACTAAAGAGGATGTGAAAAATAAAAAAACAACTAAGCCTCATTGGGAGATAGCACCGAACCTGGGAATTTTGGATATGGAGCAAGGAGTCAAATTAGCTGGATCTAGATGGTATGTTTTAAAAGGTAAAGGCGCTATTCTCCAAAGAAGTTTAGTTTCTTGGATGCTGGAAAAACATAATAAGAACGGATATTTAGAAATTGCTCCACCTTTTTTAGTTAAGGAAGAAGTAATGGTGGGTTCGGGTAATTTACCAAAATTTTCTGATTTACTTTATAGAGATATTGAAGAAGATCTTTGGTTAATTCCAACTTCTGAAGTTGCATTAAATAGTCTACATTTTGGAGAGATAATTCCACATGAATTTCCTCTAAAATATGTCTCTCATTCTCAGTGCTTTAGAAGAGAGAAAGCTGCTGCTGGAAGAGAAACTAGAGGAATAAAAAGAGTTCATCAATTTGAAAAAGTTGAATTATTTAGATTTGAATTACCAGAAAATTCCAGAGATGCATTTGACGAAATGGTAAAAGAAGTTCAATTATTATGTGATGAGTTAGGGCTAATATATAGGTCAGTGGAATTATGTACTGGAGATTTAGGGTTTCAGTCAGCAAAAACTATAGATATAGAAGTTTGGGCTCAAGGTTCTCAAGATTGGTTAGAAGTTTCATCTATCTCAACTTGCACTGATTTTCAATCAAGAAGAACTAAAACTCGATATAAAGATGAAGGAGAAATAATTTATCCTCATACTTTGAATGGATCAGCTCTGGCAATTCCAAGAATTTTAATATCAATATTAGAAAATAACCTTCAAGATGATGGTTCAGTTTTAGTACCTAAGGTTCTACAGAAATATACAGGATTTGAAAGAATTGACTAGGTTTAATTGAAATTTTGCATAGTTTTTTGAATTCCATTGATTATTAAAGATTCATAAATTCGGTCTACTTTAAATAAAGATTCTTCTAATAATTTTTTTTCTGATCTTTTAAATTTACCCAAAACATAATCTGTAGTATCAATTTTTCCAGGATTTTCTATTCCGATTCTTATTCTCATGAAATTTTCAGTATCTAAATGTTTAATGATTGATTTAAGGCCGTTATGTCCTCCTGATGATCCTTTTTTTCTAATTCTTATTTTCCCTAAAGGTAAATTGATATCATCAGAAATAATTATTAATTTTTCAGCATTAATTTGATACTTTTCTAAAAAATATTTTATCGGAGATCCACTTCTATTCATAAAACTAAGAGGTTTGCATAGAAGAATATTATTATTATTAATCTTTAGTTTAGTTGTTAATGAATTATTGTTATGAGTAAACAAAATGTTATTTTTTTCAGCAATAAAATTTATTGCTTCGAATCCAATATTATGACGAGTATTATCATATTCTTCTCCTGGATTTCCTAATCCTACAATTAACCAATTGAAACCCTCATCATCTTTTGAAGAATTGTTTTTCCCAAATATTTTTTTAATGAAGCTCATGATTGTTTTTCATATCTATAAATTCTGATTCGTTGATTATTGGTATATTAAAGTTTAAAGCTTGTTGAAGTTTTGTTCCTGGGTTTTTCCCCGTAATTAAAAATGATGTTTGACTAGATATACTCGAAGAAGTCTTGCCTCCTAATTCTTTTATTAGAGAGTTAATCTCATTCCTTGAATATTTTTCTAATGTTCCTGTAACAACAAAAATTAATTCAGAAAATAAAGACTTTGTGTTTCTCTGTACTGCTATAGGTTCAACTCCTGCATGAATAAGGTTATTTATTAGATTTATATTATTTTCTGTTGATATCCAAGAAATTAAACTTTCAGTTATTTTTTCTCCTATTCCTTTGATATTTATTAATTCTTCGTAATTACAATTTGTTAATGCATCTATAGATTTATAGTAATCAGTGATAATTTCTGAAATTTCTATTCCAATATGAGCTATCCCTAAAGAAAAAAGAAATGAAGGTAAGGTGGGTTTTTTAGAATTATTTACTGATTTTAGTAGATTTTCAGTACTTTTTTCTCCAAATTTAGGCAATTGTATTAGTTGATCTTTAGTTAGATGGAATATGTCAGGTAATGTCTTGAGAAGATTGTTTTCTATTAATGTTTCTATTATCCCTTTTCCTAGGCCATCGATATTCATTGCTGGTTTTGACACAAAATGTTCAACTAACCTTTGGAATTGGTCTGGGCAACTAGAATTTATACATCTAGTATGAGGATCATTTTCTATTTTTTCCACATTTTTCCCACATGAGGGGCACGTTTTAGGCATTTCATATTTAAAAGAAGTTTTTGATCTTGAATTATTTTCTGAGACTCTGTTTATTTGAGGAATTACATCTCCAGAACGTTGAATTTCTACTAAATCTCCTTCTCTTATATTTTTCTTATCGATATAATCTATATTGTGAAGACTAGCAGATCTTATTGTTACTCCTTCTAGTTTTACTGGTTCTAATTCAGCGAATGGTGTGAGTACTCCAGTCCTGCCAATGTTAACGGATATTTTATTTAATATTGTGGTGGTTGTAGTAGTAGGAAATTTATATGCAGTAGCCCATCTTGGATCTCTAGAAGTTGTGCCTAAAATTGATTGATCATATAAATCATTAATTTTAATTACTATTCCATCTGTACCATAATTTAAATTATCCTTGTCATTTATTGCTTTCATATATGCATTTTCAATATCATTTACTGAATTACAAATGTGATTCCAAGGATTAATTCTTAACCCCCAACTATTTAATTTTTCTAATACTAGACTTTGAGTCTGTGGCATATTATTTGAGTTGTATCCAATTGAATACATGAAATAATTTATTGGCCTTTTGGAAGTTTCCTTGGGATCTAACTGTCTTAGAGCGCCAGAAGCTGCATTTCTAGTATTGCTGTATTCTTCTAAATTTAATTTGCTGCGTTCTTCATTAAACTTTTTAAAGGATGATTTTGGAAAATATACTTCTCCTCTTAATTCCACTATCTCAGGAGGGTTTTTATCTAATAGTTTTAGAGGAATTGATTTTATTGTTTTTAGATTATTAGTAATATCTTCTCCGATACTTCCATCTCCTCTTGTAGAACCTTGTACAAAAATTCCATTTTCATATCTTAATGAGATAGCAAGTCCATCGATCTTGAGTTCACAAATCACTTCAGTAGATTGATTATCTAATTGGTTAGAAATCCTTGTATACCATTTTTCAATTTGTTCTTTATTGAAAACATTACTCAAGCTTAATAGAGGAGATAAATGTTCTACGTTTTGAAAATTGGAAGAGGGAGTTATTCCTACTCTTTGTGTAGGAGAATCTAAAGTAACTAAAGAAGGATTTTGTTCTTCTATTACAAGTAGTTCTTGAAAAACACGATCATACTCTGTGTCACTTATAGAAGGTTTTTCAAGAATATAATACTTGTAATTTGCTTCATTCAATTTATCTTTCAAGCTTGATATTAAATTCAAGATTTTAGAATCTTTATTGTTTAACATATAAAAGATATTTTTTAAAAATTAGATTTTTAATTGCGTTTTTGGACTGTGAATGTATTATGATTATTAATAATTGTAACCTATTTGGGAGAAATCCGTGGTAGATATTAGGAATTTTAAAGGTTTGATGTATAACTCCAATAATTCTGGAGATTTGTCTTTGAATATTTGTCCTCCATTTGATGTTATTTCTCCAAGTTTACAGAGTGAATTATATAATAAATCACAATTCAATTTAATCAGATTGGAGTATGGTAAGGAATTTGAGAATGATAATCAGAATTCTAATAAATATCTTAGAGCATCTAACTTTTTCAACGATTGGGTTTCTAAAAATATTTTAGAATATGATGAATCCTTTAATTTTTATTTAACTGAGGAAAAATTTTCTTTTGAAAATCATAATTATTCTAGAACTGGAATTACTGTATTAGTTAGATTAGAGGATTTGAATAATGGTTCAATTTTACCCCATGAAAATACCAGATCGGGTCCGAAAAAAGATAGATTTTCTTTAATGAAAGAAACTAAATGTAATTTTAGTCCATTAATGTCATTGTATAGTGATGAATCAGGAGAAATAAAAAACATTTTTAAAAATTCTAAAAAAAATAAACCGGAATTAAGCATAAATTCTGATCAAATTAAATTAAAACTTTGGAAGATAAAAAATTTAGAACAAATAGAGAAAATTAAAAAACATTTGATTAATAAAAAATTGATGCTTGCTGATGGACATCATAGATATGAGACTTCTATTTATTATCAGGACATTTTTTCTAAATCCAAAAAATCTGATGAATCATCTAATTTTAGATTGATGACATTGTTTTCATTAGATGATCCAGGTGTTTTGATGCTTGGTTATCATAGAATTGTTTCAGGGCTTTCAGTTCAAGAAAAAGAACATTTAATTAATTTTATGACTTCTAGTGCAATTAAAGTAATCGAAGGGAATATTAATGATTTTAATAAAAGTGAAGATGATTTTAATATATTAATTATTAATGAGAATGAGTCTTTAATTTATACATTTCAAAGTAATGATATATATGATAATCAATATAAATTTTTAAGTGATTATATATTTAAGAATGTTTTTGATGATGAAAGATTAAATCAAGTTATTGATTATAATCATGATATTATTTCTATTGAACAATCTATAAAAAATAAAGAAATTGATATTGGTTTTATTATGAAGCCCTTAAATAAGAACAAGTTTGAAGATTTAGTAATGAAACGTGAAAAACTTCCACCTAAATCAACTTTTTTTCACCCAAAACTTCACTCAGGATTGGTGATTCAAAATCTTAATACTGAAGTATTATAATAAAAGGAACCTTTAATTGTTTGAAATTATTAAACCAGCAAAACCAGATCCGATCTTAGGGCTTACAGAAAAGTTTAATTTAGATAATAGGTCAAATAAAATTAATCTTTCTGTAGGAATTTATCAAGACTCTCAAGGTCAAACACCAACTTTTGATTCAGTTAGAAAAGCTGAAGAAATTCTTCTTCAGAATGAATCTGACAAGTCTTATAAACCTATTATAGGAGATGAAGAATTTGGTTTATTAGTAAAAGATTTAGTATTAGGAAAAAATATAACTAAACAAAGAGAGAATACTGCAAAATCTATTCATACTCCTGGAGGGACAGGAGCTTTAAGAGTAGTAATGGATTATTTTTCAAAATTCCATCAAAATTCTGTATTTTGGATCAGTAAACCTTCATGGCCAAATCATAAGCAAATTATTAATTCTACTAATTTGAATTTTAACGAATATGCTTATTTTAACTCTGAGGATAATCAATTAAATTTTAATAGCATGATTAATGATTTAAGTAATGTAAAAAGTGGAGATGTAGTCTTATTACATGGATGTTGTCATAATCCTACGGGAATTGATCTTAATCAGAGTCAATGGGAAACTATTTCAGATTTATTACTATCTAAAAAAGCGATTCCTTTAATTGATTTTGCCTATCAAGGATTTGGAGATGGTCTAAATGAAGACTCTGAAGGTCTTAGAAAAATTGTTCAAAAAAATCCAGAATCAATAATTTGTTCTAGTTTTTCAAAGAATTTTGGACTTTATAGTGAAAGAGTTGGATCATTAACAATTTTATCTTCTGATAATCTTGTATTAGAAAATGTAGTAAGTCAGATGAAAGTATGTATTAGATCTAATTATTCAAATCCACCATCTCATGGAGTAGATATAGTAAAATTAATTTTAAGTAATCCGACTATGAGAAAAGAATGGGAAAAAGAATTAAGTCAGATTAGAAATAGAATGAAAAAAATGAGAAATGATTTGGTCTTGAAGCTTCACAAACTTGATTCTAAAAAAGATTTTTCTTTTATTAAATCTCAGAGAGGAATGTTTAGTATTTCAGGTTTAGATAAAGAACAAGTTAATGAATTAAGAGAAAAATATGCTATTTATATAGTAGATTCAGGAAGAATAAATATTGCAGGTATTAATAGTAATAATATTGATCGATTATCAGAATCAATTGTTTCTGTAATCTCTTAATTTTCTATTTCTACTACATGAAAATTTTTGGAACCTCTCTTTATAATTATTAATTCTCCTTTTATTGTGTGAGAGGCATTTAGTTCTTCTTTAAAATCTTCTACTTTTGATTCGTTAATATACAATGCGCCTTGATTGATTAATCTTTTAGTTTCTGAAAAAGAAGAGCAGATTCCTTGGTCTACGCATAAATCTTGTATAGAGTAAGATGAATTAAATTTACTTCTTTTGATTTTACTTGATGGAGCTCCTTCTAGAGCATCTTTTAATTCTTTCAAATTAAGTTTTGCGAATTTTCCTTCAAATAATGCTTTTGTGATTTTTTTTGCCTCATTAAGCCCTGAGTTAGAGTGAATCATGATTGTAACTTGTTCTGCTAATTTAATTTGACATTCTCTTTTTTGAGGGAAATTTTTTAATGATTTTTCGTAATTTTTTATTTCAGTTTTCTCAAGCAAAGTAAAATATTTTAAATATTGAATTACATCTTTATCATCAACATTGAAGAAAAATTGATATAGTTTATAAGGAGAAGTTTTATTTGGATCCAGTGTAGGAGCTACTCCTTCACTTTTTCCGAATTTTTCTCCAGAAGAATTTGTTATTAATGGATATGTTAATCCATGTGCAAGTGGTTCAGAATTATTTGATTTTCTCTTATATAATTTATTGATTAAATCTACTCCTGAAAGTATGTTTCCCCATTGATCACTACCTCCCATTTGTAATTTGCATCCAAATTTATTGTATAAATGTAAATAGTCATACGCTTGTAAAATCATATAACTAAACTCTGTAAAAGATATTCCATCTTCCCTAGATATTCTTGATTTCACAGATTCTTTTTTTAACATGTAATTAATGGTGAAATGTTTTCCTGTATCTCTCAAGAAAGAGATTAAATTTAGGTTTGATAGCCAATCGTAATTATCAATAATTAATGCTGGATTATTTTTTGATTTAAAATCAAGAAACTTTTCTAGCTGAGATTTTATTCCTTCAATGTTATTTTTAATAATATCTCTACTTAAAATATTTCTTTCTTTTGATTTTCCACTTGGATCACCTATCATACCGGTTCCACCTCCTATAAGAGCTATCGGCTGATGTCCAGCTCTTTGAAGGTGAATTAATCCAATTATTGGTATTAAGCTTCCTATATGTAAGCTTTTTGATGTTGGATCGAAACCTGTATATCCTGAAATTTTTTCTTTAGAGATAAGGCTATTTAACCGAGGTGTTTTATCTGAAATTAGTCCCCGCCAATTAAGTTCTTGAATTAAATTGATATTTGAGTTCATTTAAATAGAATATCAAGTAATTTGATTTTTGACATTTGAAACGTCAATTTTTATTTGTTCTTTTAGTGAAGAAATATTTTGAAATTTTATTTGATGTCTTAGAAATGACAAAAATTCTACTTTTATATTCTTATCATAAATATCGTCATTAAAATCTAAAATATAAGTTTCTATCATTTTAGGTATATTTCCAGATTCGAAAGTAGGATTTTCTCCTATACTTGTGACTGAAAATTGTTCGTGAGAATCTATGAATGACTTTGTAAAATAAACTCCGTCATGAGGTAGACATTGGTTAATAGAAATCTTAAGATTTGCAGTAGGATATCCTAATTTTTTCCCTCTTTGTTTACCTCTAATAACTTTTCCTGATAAAGTAAAATTTCTTCCCAAATTTTTTTCTATATCTTTTATATTGCCATTAGAAATCATTTTTTTTATTTGTGAGCTAGAAATTTTTTTATTTTTTAAAGTAATATTTGGTAGTATAAATAATTCTATTCCCAATTCATTGGTAATAACTCGTAATTGCTTTTCATCTTTTATTTGATCATTTCCTATGCTGGTTCCGTTACCTATTACAAATGCTTTTATGTTTATATTATTTTTTAATTGATTTAAAAAATTAGAAGCAGTTTTATATCTCAAATTATTATCAAAATTAATTGGAATCACATGATCTATTCCTTGATTTTTTATTAATTCTAAACGTTCTTCCAATGGGCAAATCAAGCTATATTTTTTTTCAGGATTTATAATTTGTTTAGGAGATTTAGTAAATGTTAAAGCTAATATCTTTGATTTTCGATAAAATTTTTCTCTGATATTTTTTATTTGATTAAATACTGATATATGACCTAAATGAACTCCATCAAAAGTGCCTATTGTAACTAGGGTAGGTGTTTTTATGTTAGGTAGTTCAGTTATTTCCATTTTTCATGTTAATCATGAAAATTTTTCAATTTTTCTGATTTTCTATTAAGGAATTTGCTTCTAATAATAATTCTTCTGTTTCTTTCCAATTTATACATGGATCAGTAATGGAAACCCCATATTGAAGTTCAGATAGGTTATCAGTTAAACTTTGATTTCCTTCATTAATATGACTTTCTAACATTATTCCTACTATTTCAGAGTTTTTGTTAATTACTCTTTGTTTTAGAACTTCTTTGAAGGCTATTCTTTGTTTTTTATGATCTTTAAAACAATTCGCATGAGAACAATCTACTAATATTGATGGAGTTAAATTAATGTTTTTTATTAGAGTCATAGCTTCATTAATAGACTTTGCATCATAATTAGTACCGTTAGAACTACCTCTTAGAATAACATGACTAGACTTGTTTCCTTTAGTATTTAATATACAAGCTTTTCCATTTGAATCTATTCCGAGGAAAGAATGTGAAGATTGAGAAGCGTACATTGCATCTACAGCTATTTGTATACTACCGCCTGTACCATTTTTGAATCCTATTGGCATACTCAATCCACTAGCCATTTCTCTATGAGTTTGACTCTCAGTAGTTCTAGCACCAATAGCTCCCCAAGATATCAAATCAGCTAAATATTGAGGAGTAAAAGGATCTAAAAATTCAGTGCCTGCAGGTATTCCCAATTTTAGAATATCCAATAAAAATTTCCTTGCCTTTCTTAAACCTTTTGACATATCAAATGTTCCATTTAAATCAGGATCATTGATTAACCCTTTCCATCCAACTGTGGTTCTAGGTTTTTCAAAATATGTTCTCATTACTAGATAAATATTTTTATCTATTTGGTTTTTAATACCTACCAATTTTTCAGCATATTCTATTCCAGACTTTTCATCATGAATAGAGCATGGACCTGTAATGATCAAAAGCCTTTTGTCTTTTCCAGAGATGATATTTTTTATAATTTCTCTTGACTCTGTTACATTTTCAGAGACTTGAGAAGTAATAGGAAGCTCTTCCAAGAATTCTTTTGGAGGTTCTAAGTTTTTATAGTTTTTTATATTAATATCGTACGTTTTATCCATAGTGTTACTAATTTATATCCGAATTAATTATTTGGCAAAAGTATTTGAAGCAATGAAGAGTTGATTTTATGTAGCATCAAATTCGCTTTCACTTTTTCTTAAATTTATTGCTTTTCTTAAATATGGATGCTTTATTTTATTTTGAGATTTTTCAGTATTCCAAAGTATCAAAATTCTAATACATCTTTTTAGGCCACTTGGTACTTCCATTTCGTGGCTACACAGCAAAGGTACAGTTTTCCAACCCATTTCTCTTGCTGCAACAGCAGGAAATTCATCAAATAAATCTTTAGTTGTAGTAAAAAATGTCGCCGCAATGTCATCAGTATTTATTTTATTAACTTTTAACATTTCAATTAACAATTCTTTAGTAGCATCTTTGATGCTTAAAGAATTGTTTTCTTCTACTGTGGTTGCTCCTCTAACTCCTCTCAGAGTTGTTGCTTTTAATTCATTGTTATTAGACATTTTTTAACTTGTTATTATTTGAAGGTTTCTTTGTATAGATTAGATATAAATTTTTTTGCTGTGGTTCCAGGATTACTTTTTGCTTTTTCTAATTCATCTATTAATGCACTTCCAACGATTACGGCATCGGCATATTCTTTAATATTCTTTACATGAGAAGGTTTTGATATTCCAAATCCTACTCCTACAGGAATATTAGTGAATTTTTTAACTGTTTTAACTTTTTCTTTTACAGTTAAAGAAATAGATGATCGTGACCCTGTAACACCTAGTATACTTATGCAGTATATAAATCCTTGAGCATATTTGCATCCTAATTCAATCCTTTCTTCTGAGCTGTTTAAAGAAATTAGAGGAATAGTGTCTAAAGAGTTTTCTGCTGTAGAAATTTGAATTTGCTTAAGTTCTTCATTAGGCATATCAGCAATTATTAAACCATTTGCTCCTGCATTGGTCGCTAATTTTGCAAAATTAGATAATCCTATATTTAGTATTGGGTTAATATAACCCATCATAATAATAGGTATATTGATTCCAGAGGATCTAATTTTTTCAACTATATCTAAAGATTTTCTTATATTCATTCCATTTTCTATAGCCATATGACTACTTTTTTGAATTGTAGGCCCTTCTGCAATGGGATCACTAAATGGCATCCCTATTTCTATTACGTCTGAACCTCCGTCTACTAAACCCTTAGCTACGTTTATACAACCTTCTACAGAGGGATAGCCTGCAGTAATGAATGGAATTAAGGCTATTCTACCCTTTATATTTTGTTCTTTTATAATATTTGTAATTCTACTATTCATATTTTCTTCCTCTAGATATTTGAGATACTTAGTATAATTGCAAGACTATTTTGAATTATATGTATTCCTATACATGGGAGTAAAGAGTCTGTCTTGATTTTTACCCATCCTATAGATAAACCTAAAATTAAAACAGGTATTATTGCTCCTAAATCTATATGAAATAATGCAAAAATTATACTTGTTATTAATATAGATTTTCTAGGACCATACTTTGATGAAATTTTTTTTAACAGGAATCCTCTAAATAATATTTCTTCACATATTGGAGCTATGAACATAGCAATTAAACAAAAAACTATAAATGAATTACTTGGAAACTTTGGAATAGCTTCTTCCAATATAGGTGGGTTAAATAGACTTATAGAAAAATAATTAATTAAGTAAATCCAAATTCCAACGAATAACAATCCTATTATCCAAGCATATGTAGCTAGTATATATGGTGAAATTTGTTGAATAATAATTGATTTCACTTTTAGGTTTTTAGATGGATAAATGAAACCAAGTGATTTTAATGTGAGTTTTAAGTTCATTTTATATTTCCAGAAACTTAAGTAAAATATTGGAAGAATTGTTGCTGGATAGAAGAAAAATGATAATACTAAGATATTTGTAAAATTTGCTAAAAACAGACTAATAAAAGTTACAATTATTAGTATTAATAAAATAAGAAACTCATCATTTAATTTCCAGATAATAGATCTATTTTCTGGGTTCATTTTTAAGAATGTTAACTTACTTGAGGTTCTGGTTTAGTATTAGGCAATTGATCTTTGTCGAATGTTTCCTCAGGGACTTTCGTAGATTTAGAATTTTTCTTTTTTATTGTTTCCCCTTTTAATAATTTCACCATTTCTTCTCCATCAATGGTTTCATTTTCAAGAAGGAAATTTGCTAATAATTCTAATTCATTTTTATGTTTTAGGAGTATAGATTCAGCACTTTGTTTCCCTTTTTCAAGCAATTTATCAATTTCTTTATCTATAATTTCTTGTGTTTTGGAACTATAATCTCTTTGTTCATTAACTTCTTTTCCTAGGAAAACAGCTTCTTGGGTTTTCCCAAATGTTCTTAATCCTAATTTTTCACTCATTCCATACTTTGTTACCATTTGATTTGCCACTCTAGTAGCTGTTTCTATATCATTGCTAGCTCCAGTTGTAATTGCCCCAAATTGGATTTTTTCGGCAACTCTTCCACCCATTGCTGTCGCAATCATTGCTTCAAATTGATCCGCTGTTTGTAGATACCTATCTTCATCTGGTAAATATCTGGTATATCCTCCCATTTGACCTCTAGAAATTATTGATACCTTGTGAACAGGATCTGCTGATGGAATATAGTTGGCAACTAAGGCATGTCCAGCTTCATGAAATGCGGTCAAAGTACGTTCTTTTTCAGTAATTATTCTACTATTTCTTGCAGGGCCTGCAATTACTCTGTCAATTGATTCTAAAAATGTGCTTATATTAATCTTCTTTAGTTTTCTTCTTGCTGAAAGTATCGCTGCTTCATTGACTAAATTGGCAAGATCTGCACCACTAAAACCAGGGGTTTGTTTAGCTATTGATTCTAATTTTACATTTTTTTCTAATGGTTTGCCTTGAGAATGAACTTCTAGTATAGCTGATCTTCCTTTTATATCTGGATTATCTAGAATTACTCTTCTATCAAATCTTCCAGGTCGTAATAAGGCAGGATCTAATATATCTGGTCTATTTGTTGCGGCAACTACTATAACATTTGTGGAAGTGTCAAATCCATCCATTTCTACAAGTATTTGGTTTAAGGTCTGTTCTCTTTCATCATGTCCTCCTCCTAAACCAGCGCCTCTGTGTCTTCCAACAGCATCTATTTCATCTACAAATATAATGCAAGGAGAATGTTTTTTAGCTTTATCAAATAAGTCTCTTACTCTTGATGCCCCAACTCCTACGAACATTTCAACAAATTCTGAGCCACTTATTGAGAAAAAAGGTACTTCAGCTTCACCAGCTACTGCTCTTGCCATTAAAGTTTTTCCAGTACCAGGAGGTCCAACTAATAAAACACCTCTAGGAATTCTAGCTCCAAGAGCTAAAAATCTTTCAGGAGATTTCAAAAAATCTACAACTTCCTGTAATTCTTCTTTTGCTTCTTCTACTCCTGCAACATCATCAAAAGTTACTGTTGCTTTTGCACCAGTAAACATTCTAGCTTTGCTCCTACCAAATCCCAAAGCATTGTTAGCTCCTCCTTGAGCTTGCCTCATCATAAAAATTAAAATTCCAGCGAATAATAATAAAGGAAGGAAACTTAAAGCGATTGATAAGAAGTTACTGAAGCCTCCAGCTCCTTTTACATCAACTTCAACATTTGCAGGATCTACTTTAGCAGTATTGAGTATTTCATAAACACTAGAACCATTTTCTTTTCTAGACTTGTATAATTTTCCATTACTTTCAATTTTTAATGTGTCTCCTCTAACCTGTATGAAAATTTTTTGTCCTAGAGGGGGGTTATTGGATAATTCTATTACTTGAGATATAGAAATTTCTTCAGTAGATTGGAATGAGTCATCAAAAAATATGAAAAAAGCAGCCAAAACTGAAGCTACTATTAAAGTATATATAAAAAGATTTTTCTTAAAAATGTTATTCATAGATTAAGCGTCAAAAAACTTTAATGTTTAATATTCAATATAGTTTTCGATATATGATATCATTCTATCCTAGCATATTCTAATTTTAAAAATGAAAAATATTTGTTAATTAGAATATAATTGAGAAAATAATATATTAATGCTAGAATTTCACGATTTGTGGGAGGAAATAATAATAGTTTTGTTAAGGTTGGTTAAGTAAGTTTGCAGAGATCTACTAATTACAGACCGAAAAAAGAAAATTTAAAAAAATATAGAGTAAATAGAGAGATAAGATCTAATTCTGTAAGAGTAATAATAGGTCGTAAAGATTCTGATTCTCAGTTGCTTGATGTTCGAGATGCTATTAAATTGGCAGAAGAACAAGGGCTTGATCTGGTTGAAGTGGCTCCTAATCATAATCCTCCAGTGTGCAGAATATTAGATTATGGAAAATTTAAATTTATTCAATCTAAAAAAGCTAAAGAAGCGAAAAAATCTCAATCTAAAATTTTAATGAAGGATGTAAGATTGAGAATGAGAATAGGTGATCATGATATGAAAGCAAAACAGAAAAGAATTAGATTTTTCATTACTTCTGGTTTTAAAGTGAGAATAGCAGTTTTTTTTAGAGGAAGAGAGATGGCTTATCCAGATTTAGCAGTGAATTTATTGAAAAAAGTAGCAGAAGAATTACAAGATATATCTATAATTGATAAAGCACCATCTATTGAAGGTAGGTCATTATCTATAGTATTAGCCCCAATGGGGAAGGTGAAAGGTTAAAATGCCAAAAATGAAAACACATAGTGGAGCAAAAAAGAGATTTCATAAAAGCTCTACAGGAAAATTATTAAGAACTAAAGGAATGAAAAGTCATTTAAGAAGAAAAAAATCAAAAAGAATCAAAAGATTATTTGCTTCTAAAATAGGCATATCAGATGCTATTGGTAAAAAAATTAAACGATTAATTTAGGAGTTTTGTTTGACTAGAGTTAAAGGTGGAAACACTAATAGAAAAAGACATAAAAAAGTACTCAATCAAGTTAAAGGTCATCGTGGTTCTAGAAATAGGAGATTTCGAGTTGCAAGGGAATCATTAATACATGCCCTTTCTTACAGTACAATTCATAGAAAAAATAAAAAAAGAGAACAGAGATCATTAGCAATATTAAGGATTAATGCTGCTGCTAGATTAAATGGTATTACTTATGGAAAATTGATCCATGGTTTGAAGTTATCTGATGTGACATTAGATAGAAAATCTTTAGCTAACATAGCTGTTAATGATCCAAATGCTTTTAAAGAAATTGTTGATTTTGCTAAGTCTTCATTATCTTGAATTAATTAAGATTTATGTCATCCAATTAAATTAGAACTATCGATAATTATTATAAAGCATAGAAGAAATAAATAGAGCAAAGAAAATTTATATAGTCCGAGATTTCTTTTAGTTGAATAATTTCTCATTAATCTTATTGTAAGATTAATGTATAGAATTCCTAGTATTATAGCCCCAGAGAAGTATATCAGTCCTAAGTTTGAACTAACAACGGTTAATATTAAAGTTATAGATATAAGTATTATAGTATGAGTGAGTATCATTATTTGGGTTTTTCGGAAACCTACTATTGTTGGAAGCATAGGGATATTTGCTTCTTTATAATCTTCGTTCATTAACATAGCAAAAGCCCAAAAATGTGGTGGTGTCCAGAAAAAAATAATTGCAAAAAGATACCAAGCAGGAAGTGCCAGTGTTCCTGTTACTGCTGCCCAACCTACTAAAGGAGGAAAACAACCTGCAATTCCTCCGATAACAATATTATGAGATGTTGTTTTTTTTAACCATAATGAATAAACGAAAACATAAAAGACATTTCCTAAAATTGCCAATATGGCTGTTAGAAAATTAGAACCAAAATAAAGTACAATAAAACTAAGTAAAGTAAGAATAATTCCAAAAGAAAGAGCTTTTTTCGGTGATACTCTGCTACTGGCTACTGGTCTATTGCTGGTTCTTTTCATCATTTGATCTACATCTTTATCAATGAAATGATTTATTGCACCTGCTCCCCCAGAAGCTAATGTGCCACCTAAAATAACTATTAACATTAAAATTATAGAAGGAGCACTTCCATTGCCTAGAAACATTCCTGAAATAGCTGTAACTACTAGTAACAATATTACTTTAGGTTTTGTTAAGGCAATATAATCTTTTGATATTTTTATGAAATTTTCTTTAGTCAATGTTTAAAATATTTTTATTTAGTTTTTGTTTCTATTTCTGATATTAGAGTAAAGCTGAGTATGATTATAAATAATGTCCATAATAATGAAGCCATTCCTAAATGAGAAACTCTAGCCCAAATTTCAAAATTTGTCCACGGATTACTAGCTCCTAAAAGTATTTGACTAAAAATAATTAAAATTGAGATTGAAGAAAGAGTTTTTATTACAATGTTTCCTAAATTTCGTAATATATAAACACAAGTCCAAAAACTAAAAATTGTTGTTATCAAAGATAATATTCTGTGTGTCATATGAATTAATTCCAATTGATTATTGGGTAATATAGATGAGCTTGAGCATAGAGGCCATGAGCTACAAATTGTACCTGCTCCTTTCCATACAGCATAAGACCCCGATAATAATGTAATAATTATTCCTAATGATGAAATTATCAAAAATATGGAATGTTTACTGGTTAAGGATTTTTTAATAATAGTTATAGATATTGATTGTGAGTTAACTATTACTAGAGAAATTCCTAAAAATAAAATTACTAATTGAGCAAAAAATAAGTGTATAGTTCTTAACATTGGATTCAGTTCTGATAGAACGACTAATCCTCCAATCATTCCTACTACAATAACTGTAATCAGAGTAGTTGTAATTGTAATAATTAAAAAATAGTTGTTTCTATTTTTTATCCATATAAAAAATGTTGAAATTAAAATTAATGTTCCTAAAATGACACCACTTGTTCGATGTCCCCACTCAATTAAAGTTTCATAACTCATAGGAGGGATTATTTCACCATAACATAGAGGCCAGTCTGGGCAACCCAGGCCAGAACCTGATACTCTAACAAATCCTCCTAGAGAGATTTGAAATAAACAAAATACTATACTAGTAAGAAGTAAGAAACTTAGTATAGGATTTCTAAATAAAGCTATTTTGTTAGTAGATTTTTTCACATTAAAATGAAATTATTTATTGTTATACAATTATAATAATTTTTTTATTGTAATAAATTAGAAATTGTGAATTAATTATTAAATTCTTTTCTTCTTTGTTCTCTTAAATGTCCTTCTAATATAGGCTCATTAATGTGAACTTCACCATTTCTAATTTTTAAGTTAAAGCCACATTCTGGACTAGTGCAAACCCAAGCTTTATAGTGTATTGCTGCTCCTTGTCCTCCGAAATCAGATAAAGGAACTAATTCTCCTTTAGAACAAGAATTGCATTTTGGAAAAGTTTCAGACATCTCCATCCCCTCAATCATATATTTATGATTTACTATTCTACTATTGTAGTATTTATTTATAATAAGGGAATCTATTTTTTTGTAAAGAGGGTTTTGTATTAATAAATCATGATAATTTTAGGAATTGAAACATCCTGTGATGAAACTGCAGTAGGTATAGTTGCTGATGGAACTTCTCTTATTTCAAATGTTATTGAGAAACAGACTGAAATTCATAGTGAATATGGAGGAATTATTCCAGAATTGGCTTCTAGGCAGCATATGAAGAATATTTCTAATGCTGTAAAAAAAGCATTGATTGATTCTAAATTAGATTGGGGAGATATAGATATGTTAGGTGTTACTGATGGTCCTGGTTTAGCTGGTTCTTTAATCGTGGGTGTAAATTTTGCTAATGGCTTGTCTTCCAGTTTAGGAATACCTTTAGTTGGAATAAATCATTTAGAAGGGCATGTTTTTGCTTCTTGGATTGACAATGAGAATATAAATGAGATTAGCTTTCCACTAATGTGTTTAATTGTATCAGGTGGACATACAGATTTAGTAAAAATGAATAACTATAATAATTATGAATTATTAGGAAGAACTAGAGATGATGCGGCAGGAGAAGCATTTGATAAAGCTGCTAGAGTATTAGGTTTAGGTTTTCCAGGTGGACCTGAAATAGAGAAAGCTGCAACTAAATCTAGAGAGGAATTTTTATTTCCAAAAGCTTATATGAAAGGAACTGATGATTTTAGTTTTAGTGGTATGAAAACTGCATTGAAAAACCTTGCTGATAAAGAAATGAAAAATTTGTCTAATGATTTTAAAATTGATGATTATGAATTTACTGTTAGTAAAATTGCTAATTCTTTTCAGAATTCTATGGTTGAAGTATTAGCTAAGAAAACAATAGATATTTCAATTAGAGAAAATTGTAAAGGGATAATATTAAGTGGGGGGGTAGCTGCTAATACAAAATTAAGAGACGTTTTAAAAGATTCTTCGCCTTTGCCAGTTTTTATTCCTCCAAAAATTTTATGTACAGATAATGGAGCTATGATTGCGTCTTGTACATTTTTTAAAATTAGGGATAAGGTTTCTAAATCATTATTTCTAGAGCCAGTACCTAGTAAATCTTGGTAAATTTTTTAATTAATAGTATTTTCATTAAGATAGCTTAATATTTCTCTACATTCTCCAAGAATTTCTTTATGAATTTTTATTGAAATAATATCTGTTCCAGAGAAAAGTTTTAATAAGAATTTTTCTGGAGTTATCCAATAATCTATAGCTAAAAAAATGGATATTAATGTTATAAAAATTCCTCCAATTGCAGATATAATAATATCTGAAGATAATTGCCAGAATCCTACAGCACAAATTATTCCCAATATTGACCAATAGAATTGAGTAGAATTTTTATTTTTGATAGAAAGGTTGTATCCATCAAAAGATGACCTTTTTATCGAGGAAATTAGTGCTTCATTATTTTTATAATTGATATGATATATAAAAGATTTTGTTATGATTATATGATTATTTTGATTAATTTCTAATTCGCGCAAAATTTCTTCTTTAGAAATATTGAATTTGTTTAAAATATCATCTTTCATAGTTGAGTCTCCTATTGGTTTTATAATGTGAAAATATCAGGAAAAAAATTTATCATATTGTCACTCCAGAGTTTTTTGCCTGATTCTCTAGTTTTTCTTTCAATTTCATAATGTGCCTCAAGAACCTCTGGATGATCTGGCTCTCCTGGATGCCCTAAAGAAGCAGCTAAATCATGAGGTCCAAATGCTATTCTATCAATACCTTTAATTGTCAATATTTCATCTAAATTATCTATTGCGATTTTTGATTCTATTTGAGCAGTTACTATCATATTAATATTAGCCCATTCAGAAAATTTCAATTTACTACCATACTTGTTGTTTAGAATGTCTAATTGATTAAATTCTGTTCCTCTTCCTCCACCCCATGATCTATTTCCTAAGGGAGGGTAAAGGCAACTATTTACTAAAAGAAGTCCTTCTAAATATGTTTCAACATGAGGGCCTACTATCCCTTGAACACCTCTATCTAGGAACAGATTGATATTTGGGCTAGATATTTCGTGGACTCTTGCAGTTACAGTTAAACCCATTCCTATTGCAAGGCGACAAATATTTTCTAAAGAAACTACATTGAAAGAGCCATGTTCAGCGTCTAGGTGAATTGCATTAAACCCTTTTATTTTTGCATATTCAACTGATTCAATAGAAGGCGTTTTTAAGTTTAATACTTTAACATCTTTGCCTAATTTATTTAAATAAATTATTTGATTATCATTCATTTTTCAATTATAAAATATTTTATAATTCTTTACTTACAATTCTTAATTTACTGAATTTTCAATGATTTTTTGTTCATCTACTTCAACTCCTAATCAAAATTTTTTAGGCATATGAATATATCCTTTTTTATATGACCAAGAGGTTTTTACTAATTCATGGAGATTGTTTGCTAATCCAGCTTGATATTCTTGTAAATAATTATTTTCACAAATAGAAGAAAAATGTAAAGTGGCAGCTTGGAAAATCGGACTTCCCATTCCCATGTGAGGGGTAACTTGAACATTGTATTTTTTACATAATTTTAATTGAATTAAGGCATTGGAAATTCCTGTTCTTCCGATGTCAGGTTGCAGAACATTTAAAGCTTGTTTTTTTAGCCATGGTGATATTTGATAATGAGTCCTAAAATGTTCTCCCAGAGCAATTGGAACTCCAGGTTTAGAAACTAGCATTTTATGATCTTCAATATTTTCAGGTTGTAAAGGACATTCTAAAAATTTTACTTTAAAATTTTCTAGACTGTTCTTTAATTCAATAGTTGATTTTAAATCTGACATCCAAAGAAGATCTACCATCCAATTATTTATTTCCTGAACTTCACTTTGAATTTTTGAGAGTTCATTTTCTATTTCTGTGTTATTAGCAGGAAGAAATAATTTGACTCCTTTTAAGTCTTTATTTGCCCATAGTTTAAGATGAGAAATTTTTTCTTTTAAATTTTTTTGTCTTAAGCCCGATAAATATACTGGTATTTTAGCGAGAGGTTTCTTTTTTAAAAGTTTTCCTAAAGGGATTTCATGAAATTTTGAAAGAGCATCCCAAACTGCAATATCTAGTGCTGCTAAAGCATCAAGGTAATAGCCTGAATGGTAACCTCTACCTCTTTGAATATCATAAAGAAATTGCCACATTTGATTAGGATTGATGAATTTTTCTTTCTTTACTAGGGGTGTAATAATATTGGAAATTATTAATTTTACTATTTCAGGACCTATAGGGACGTTTGCTTCTCCCCATCCTATAAGTCCATTTTTTAATGTAATCTTTACTAATAAGCATTCTGGTTTTCTTGCATAAACAGTTTGCCAACCTTCTCTTAATTCGAATCTGTCAGTAGTTTTTACGATTTTATGAGAATCAGTTTCTTCCCAATAACTTGGAGATGAATTCATAACCACATGGTAGGAAGAGATGTCTTCTATGATAAAATTTAAATTATAATTTTTAGTGATTAGTTTCCTCCTCCTACAGCCTGTACTATTTCTATTTTATCTCCTTCCTTAAGAATATTTTTTTGATATTCTTTTTTAGGAATTATCGAACCGTTAACTGCAATAGCAATTTTTTTTTGAGATAAGTTTTGATTTTTTAGAAAAGTTGTAATGTCTATTTCTTTTTCAATAGATATTTTAACTCCATTTAAGTATAAAGTTTTCATTTTTTAAGTTATGGATTTCATAATAAGCTTTGTATCATCATGAATTTTTTGTGATTCTAATATGTATCTTTTCACAGCTACTCCTGAACATCCTTTTTTGATGACATCTTTTGAATTATTTTCATTAATTCCTCCTATTCCAATTATAGGTGTTTTACTTATTTTTTTTAATTCTGAAATTGGAGTTAAACCTATAGGTTTGCTATTTGGATGACTTAAAGTTTTATAAATTGGTCCTAAAATCCAATAATTAATTAATGATTCATATATTGATAAACTTGAATCAACTTGATGAATAGATTTTCCAATAAGAAATTCTTTTCCTAGAAGATTTTTAACTAAATTTATAGGAATAGATTTTTCTCCTAAATGTATTCCATCACTTTTTAATGCCATAGCTATATCTACACGATCATTAATAATGAATAATGCTCTATTATTTATAATTTTTTGAATTTTTCTTCCAAAATCTAATAATTCTAAAGAAGACATATGTTTTTCTCTTAATTGAATCATGTTGAATCCACTGGAAACAGAATTTTCTATTATATTTAAAGTTTCCTTTTTATTTTTGATTTTTGTGTCTGTGATTAAGCACAAAATTTTATTTGGAAAATTCTTTCGTTTTAACATTTTTTTGAAAATCAGTTAACTATTCTTTAGGAGGAGAACTAGCTACTGCAATACTTTTTTTAGGTATTCTTCCTGCAAGAAAAGCTTGTCTTCCTGATTGTACACCTAATCTAAATGCTGATGCCATTATTCCAGGGTTTTCAGCTTGTGCTATAGCCGTATTTATTAGAACTGCATCTGCGCCTGCTTCCATAACAAGAGCAGCATCAGATGGAACACCTATCCCTGCATCTACTATTACAGGTACTTTAGACTGATCTATAATAATTTTTATGGATTCTAATGTATGAATGCCTTGCCCAGATCCTATTGGAGAGCCTAATGGCATTACTGTCACACATCCTATTTTTTCTAATTCTAGAGCTAATACAGGATCAGCAGAAATATAGGGTAATACCTTAAATCCTTTTTTAATTAGATCTTCAGCAGCTTTTAAAGTTCCGACAGGGTCAGGGAGAAGGTATTTGGAATCAGGAATAACTTCTAGTTTTATCCAATCAGTTTCAGTCAATTCTCTAGCAAGTTCTGCAGTGAAAACGGCATCTTTAGAATTAGTGCATCCTGCCGTATTTGGTAATATAGTAAGATTTTTTGATTTGATTATTTCTAGAATATTTTCTTCTTTTTTAGCTTCAAGATTAATTCTTCTTATAGCAACTGTAATTATTTCAGTTTGTGAATTTTCAATACTTTGAATTAATTCTTTAGCGCTTTTATGTCTTCCAGTTCCTGTCAATAATCTAGAATGAAATTTTTTATTGTCAATGATTAGAAAATCATCCATAAATATATCCAACTTCTATAATGTTTAAATCTTTATACTTTATATTCTAATGAATATTAAAATATCATAAGACAAAAATTTTGTAATTATAAGAAGGAGATATTTATGATTCATGGATTACTTTTAGATCTTGATGGAACTCTAATAAACCAAGATGATAAAATATCACTAAGTGTGAAAAATTTAGTTAAAGATTTTGCAGAACAAATTCCTGTATCTATTATTTCTGGCAGAGAATCACGAGAAGTAAAAAAATTTGCGAATGAATTATCTTTAAATTATATACAATTTTCTGATAATGGAGCTCGAGTTATAGATAATAAAAATGGAGATACTATTATTTCGGTTAGCATTGAAGAAGGTTTAGTTAAAAATATATTTTCTAAAATTTTGGAGAAAAAATTAAAATTTCTTGCTACTACTAATGATAAAACATTTAATTCTTTAGTAAATGTAGATTCATTTGATATTTCCACAATAGTTATTTGCTTAGAAGAATTTGAAGATGCTAAAGCTTTTAGTTCAGAATATTCTGAAGAATTAGGATTAAGAGTTAATATTTCTAGTGACTCTAACAGAGAAAGATATTATGTGAATATTAATCATTCTCATGTTAGTAAAGGTGTTGCCGTTAATCATTTTTGTAGATTTTATTCATTAAATAAATCTAAAGTTATGGCAATTGGTGATAGTTATAATGATTTAGAAATGTTAAAAGAGGTAGGTATTAGTGTTGCAATGGAAAATGCTCCGATTGAAGTAAAAGATGTAGCTAGATATGTTGTCAAAGATGTTAACAGTGATGGTGTAGAAGAAGCGTTATTGAAATTTTCTCATAGATCATTTTTTTAGAGCTCTTACACCTGCAGTGAAAGCTGATTGCCAAATTTTTAATTCTGATTTTAGTGTAGATCTAAATTTATTACTATATTCTCCCATTTGTCTAAATTTCTTTTTTCTTCTTCTACTTAGAGTTCTAGGATAGATTTTTTTTAAAGAACCTAACTCTTTCATGAGCTCTATTTTTAATAATCTTGCAGCTTCTTGAGGTGAGGAATGTGCTCCTCCTACTGGTTCAGGAACTATATAATCAATTATTCCCATTTGAAGACAATCAGTAGAAGTTAATTTTAGTGTAGAAACAACATCTTTGATTTTTCCTGAATCTTTTAATTGTGATCTAGCAGCATCTTCAGGACTAATTGGTGTAAAAATTGCATTTTGCATCATTAATGTTCTGTCAGATACCGAGAAAGATAACCCTGTTTCACTTCCCCCTTCACCTATTATTACAGAAATTGTAGCTACTTCTACTTTTGTCATAGAAGAGATTAATTCAGATATAGAATTTGCAAGTCCTTTATATTCAGCTTGTAAGCTTAATTCAGGACCTAATGAATCAACTAGACTAATTATAGGTAATCCGAATCTTTCAGCTAATTCAATAGCTCTTTTTGCCTTTCTAAATCCTTCAGGTTTAATTTTAACTTTTTGAGATTTTTTATTGGAAGATTTATTTATTTTTTCCACAGTTTTTTGTTGAGCTATTACCATCACAGATTCCCCCGCTAGTCTTGCTAATCCTATTATAATTGAAGGATCATCAGACATTAATCTGTCACCATGAAGTTCTATAAAGTTCGCAAAAATTTCTGATATATAATATCTAGATTGTGGCCTATTTATATTTCTAGCTAGTTGGACCATTTCCCAAGGTTTTAATGGTAAAAGGGATGTTTCAGGAATGTTAGTAGTTTTCAAAATTTCTAGGTTAAATTTTGGACTTAAAAGATCAAGCAATGTTGATGTTTCTCTATTAATGTTCTGTCTAGATACAACTCTGTCTATTAGTCCATGTTTCTGATATATTTCTGAGGTGTATTTAGATGGTTCAATTTCACCGCTAACTTCTTTGATACTTCTGTAGGGAGCATAACCTATATGGGCTCCAGGTTCCGCAATAATAATATCTGATAAAGAAACAAAACTTGCGATCACTTGTCCTGTAGAAGGATTACCTAAAATTGAAATTATTGGGAGCCCTTTTTTATGTAAATTATCTAATGCCACTACAGTTTTGGCCATTTGCATCAAAGACAAAACTCCCTCTTGAATTCTTGATCCTCCACTCGTAATAACACATAAAACAGGCATTCTTCGTTTTTCTGCTAATTCAAGAGATAATGCAACTTTTTCACCTACAACCAATCCCATACTTCCGCCTAGGAATCCAAAATCTAAGACCATAATTACAGTAGGAGACCCGCCTATAGTACATGTTCCTGTGACTATTGCTTCACTAAGTCCAGTTCTTAGCCTATCTTTTTTTATACGAGATTTATATTGTGCTCCTGAAGTTTTCTCGATAGGGTTTAGGGAAGTCACATCATTAAAATACTCTTTAAAAGTTCCTCTATCTATCAAAGAAACAAGTCTTTCTCTTGCATTGATATGGAAGTGAAAGTTACATTTATAGCAGACTTTATAACGGGAATACAATTTAGTTCCAAATATTTCATTTCCACAAGCCAAGCAATCTGTGACTTCTATATCTGGATTTGAGTATTTTTTTTGGTTCTTTGATGAATTCTCAGACATTATAAAATATTATGATATTTTAGTGTTTTAATACATCCCTAGGCTTTCCTGAATCTCCTGGTCCTACAATTCCTTCTTCTTCCAATTCATCCATTAATCTTGCTGCTCTAGGATAACCTATCCTTAATCTTCTTTGAAGTAGAGATGTAGAAAGTTTTTTTTGACTTATGGCTAATTCAACAGCTTGTTGAAAAAGAGCATCAGTATTTTTAGAAAATTCAAATGATGTACTTTCATCTTTAGTTTCAGGATTTAATTTTGGTAGTTCGAATGAAGACTGATCTTTCCAATGAGAAATAATTGAATTTATTTCTGATTCAGAGAGCAATCCTCCTTGTACTCTTATAGCTTTTGGTTGGTCTACAGGTAGAAAAAGCATATCTCCTCTACCTAATAATTTTTCTGCACCAGGACTATCAATAACTGTTCTGGAATCTATTTGGCTAGTTACACTAAATGATATTCTACTTGGAAAATTCGCTTTTATTAAACCAGTAACCACATCAACAGAAGGACGTTGAGTCGCTACAATAAGATGTATACCAGTAGCTCTTCCTAATTGAGCTATACGTACTAGTGATTTTTCAACTTCTCCAGCAGCACTCAACATTAAATCAGCAAGTTCATCAACTATAATCACTAAATAAGGTAATTTTTCCTCTGATTTTTCATTAAATGCAGCAATGTTCTTACAATCCAATGATTCAAGAGTCTTGAATCTATCCATCATTTGATCGATTACTAATTTTAAAATTGAGACAGCTTTAGCAGCATCAACTATTGGATCAGTATATAGATGAGGAATACCTGAGTAGGGAGTTAGTTCTACTCTTTTAGGATCTATCATTATTAATCTTAGTTCTGAAGGGTCTCTTACTAGCAACAATCCACTAATCATTGAATTAATGCAGACACTTTTTCCAGACCCTGTGGCTCCAGCTACTAGAAAATGAGGCATTTTAGTGAGATCACAATATACAGGATCTCCATTACTTCCAATCCCTAATGCTAAAGGCAAGGGATTATTTTTATTGAATTTACTAAAATTTTTTGTTTCCATAGTAGTTCTTAGATTAACTAGACTAGGACTTTTATTTGGTACCTCTATGCCAACTAAAGATGTTCCAGGGACAGGAGCTTGGAATCTCAAATTTGGACTTGCTAAGGCTAAAGCTAAATCTTTTTCTCTAGATAATATTGTGTCAACTCTTACTCTTGTTCCTAAATTTTCTTGATTTTCAATTTGTTCTTTATTAGATGGTAGAGTTTTGGATTTAGATTTTTTACCATATCCAGGTTCTAGACCATACATAGTTACAGTTGGCCCTGGTTTTACTTGACCTACTGTAACTTCAATTCCATGTTCTTTTAAAGTAGATACAATTAATTTTTTAGTGGTTTCCATTTCTTCATTTGATAAAGGGCTCAAATGAGATTCATTTAGAATTTCTATATTAGGAAGGATCCATTTTTCTGAAGGGTTATTCAAAGTAGTAGTAATTTTCTGTTCAACTTTGGGTTCTTTTATTAGGGATTCATCATTTAAAATTTCTTTTTCTTCAACTTGATCTTCCAGAATTTTATTATTTTCTTCCGCTTGAGAATCTGTATTATTTGAAGATTTAGAATTTATTAAATTGAAAAAAGAAATATACCATTTTTTTAGATGAAGATATGTAAATTTTGAATAGATTAATATTTTCTTCAAAACCAGTAACATTTTTTTAGGCCAGCAAATAGAAAATCCTATTAATAAAATAATTATATTTCTAAAAACCCCGAAAATTCTTAAAGCAAATATATTATTCCAGTGTTCCCATTGTTGTGGTTCACGAGAAATAATGTCTCCCAAATTTCCTCCAAGAGTATCTCCTAATTCTTTTGTTGTTAGAAAATAATTTTGGTTATCTTTTGTAAAAGCATTAGATGATTCTAAATCTACAGGTGCATTGAATAATCCTAAGAATCCTATTGATGCTAAAGAAATAAAAATTCCAAAAACCAAATATCTCCAATATTTAGTGAATTTTTTATTTTGGAATAATATTATAAATAGGCTAACTAATGAATAAGATATGACTATTATGCTTCCCCATCCAAATAATCTCAAAATTATTTCCCAGTAGAAGAAGTTGATTACAACAAGAATCAATACTACAAATAATAGAAAAATTGTTTGAGGCTTTTTTTCTATAAAAATCTTTTGTTTTGATATAGGTTTCTTTTTTTGAGACAAAATATAGTTTAAAAATTGTTTATTTTGACTCTAGAATATTTAGCCTATGAGGTCAATTAGTTCAAGAAATCATTTTTAGCATTTTTCATTTTCTTAACGAAGAAACAAGTAAAGAGGGAATTTTATGGAAATCATTTCTTAGTATTTGTGCAAATTTTGTGTTTCTTAAAGCAGCTGCTGGATGATAAACAGGAAAGATTATTCTTCCATCCAATTCTATTTGTTGACCTCTTACAGATGATATTGTTTCTTTAGGAAAGAAATATGATAAAGAAAATCTTCCTAATGTGACTATTACTCTAGGGTTAAATATTTTAATTTGTTTTTCTAAATATGGAGAGCAAGATTCTAATTCTTTTGGCAATGGATCTCGATTATTTGGAGGTCTGCATTTTACTATGTTGGAAATAAAAGTATCTTTTCTATTTATTGATATTTCTGAGAGTAATTTGTCTAATAATTTGCCCGCTCTTCCAACGAATGGTAACCCATCTCTGTCTTCATTTAATCCTGGTCCTTCACCAATCATCATTAAACCAGATAAAGCACTCCCACTTCCAGGAACAGCCAATGTTCTTGTTTTGTGAAGATCACACAATGTGCAAGATTTTATTGTAGAGTCTAAGCTATGTATTTTTGAAGAAAAATCTTTAGATGACATCCATTAGGATTTATTAGTCAGTAATACCTTTATTCTCAAGAAAAGAAAGAGCATCTGAGACTTTTATGATTTTTTCAGCTTCTTCATCATTAATTTCTAGTGCTTCATCATCTGATGAAAATTCTGTTTCAATAGCCATAATCATTTCTACTACATCTAATGAATCTGCGCCTAGATCATCTACGAAAGATGCATCAGGCACTACGTCTCCTTCTTCTACTGAAAGTGTTTCGACTATAATATTTTTTAATCTGTCACTTACTGTTGCCATAGTTACTCCTTTTGCTGAGCTCTATTTTTTTCTAAAATGAAGCTATTTAAAACTCCTTTTATAAATCTATCTGAATTTTCTCCACCAAAAATAAATGCCAATTTTGAAAATTTTTCTATTAATGACTTTATTGTTTTGGAATCATACAATGATTCTTCTATTTCTATCAATCCTAATCTTAAAATATTTCTATCGATTACTGCTATCTGAAAAGTAGGATATTCGGTCGCAAGAGTATGAATTTTCATATCTAACTCTTTTTTATTTTCTCTAATTTTATTTATATTATCTAAAATAAATTCAAGGTTAACTGACTCTAAAGAATAATTATTAGAAATTCTTTGAATAACTTTGTCATAATCATTTCCATTTAAGTCTATTTCAAATAAAGATTGTAGTGTTATTACTCTATCAATTTGTTTTTTATTATTTGGAAATTCCAAATTGTTTTCTTCAATTTGAGATACAGAATAATCATCAAAATTCCCCTCTACCATAATATTAAGATCATCACTTTCTTTATTTTCTTCTTGAATTATTTCTGTGTTATTACTAATAGTATTTATAGTAATGTTTTTTATTGTTTCTTGAGAAATTGAAGTCATGAATTCTATTTTATGATTTTATTAGCTGAGTCATAATCACTTATGTTAATAAGGTCAAAATCGCCTGGTATTCTTTTGATAAGGTTTGTTAAAACTTTACCAGGACCTATTTCAATAAATGTATTACATCCTTCATCTATTAAATAATCTAAAGTTTTGGACCACTGAACACAAGATTTCATTTGGTTAATTAATTCTTGTTTTAATTCTTCACCTTTTTCAATGGGTTTTGCTTTAACATTACTTATGATAGGGAATTTGGGATTTGTGAAATTTAATGAATCTAACATTTCAGTTAATCCATCTACAGCTGGTTGCATAAGTTCTGAATGGAAGGCACCAGAAACAGGTAGAGTGACAACTCTTTTAGCCCCTCTAGCATTCAGTAAGTCTATTGCTCTTGCTAAACTCATATGATCACCGCTAATAACAATTTGAGAAATAGAATTAATGTTGGAAGTGTATGTGCCAGTTTCTCTACATACTTCTTCTACTGTAAGTTCGTCTACGCCTATTATAGCAACCATTCCACCTGGGTTTTCATTACAAGCGATTTGCATCAACCTTCCTCTTTCTACTACCAATTTAATAGTTTCATCTATTGTTAGAGCTCCAGAAGCCGCCAATGAGGTGTATTCTCCTAGGCTGTGACCAGCAGTATAGTTAATTTTATATGAATTTTCAGTGATTTCATTTAAGTAAGCCAAACACGCTAATGATGTAGCTGTAATTGCTGGTTGAGCATTTTTAGTTTCATTAAGTTCTTTTTCTGGCCCATCAAAAATAATCTTAGTTAAATCTCTGCCAAGAGCATCATTTACTTGGGTGTATACATCTTTAGCAGCTTGGCTTTTCTCTATTAGATCTTTTCCCATTCCTACAAATTGAGAACCTTGACCAGGAAATAGTAATACGGGATTTGATTCTAAAGTAGCTTTATTAGTCATATTTAAGATTGAGGTTGATCTGAGTTTGTATTTACATTATTTATCACACCAATATATCTTCCCCTATAATGACCACAATGAGAACATGCTCTATGAGGTAATGTTTTTTCGGGGCATGCAGGACATTTTATTAAGCTAATTCGAGTTAACCCTTGATGAGCTCTCTTTTTTCTAGTCCTAGATCTAGAATGTTTCTTTTTTGGTAATGGTGCCATAATTTTATTTTAAATGATTTCGATTAATACGAAGGAATTATCGGTCTAAATGATTTTTTTTTCAAGTAATTTTTAACCCTTTATATTGCAGATCCTTGAATAAAGATAAAATAATAGAGAATTTTTCCAATTTTGTTCTTATTAAAATTGTTTAATTGGTAAAAGTGACTTTGTTATGTAGATTTTTATTAAAAGAGTTAGATACTATTTAAATAGCTTAAGAAAATAGAATTAATATAGGTACACTTCACTATTGTAGGCAAGAATGAAGAATCGAGTAATAGGCATAGATCCAGGATTATCAAATACTGGATATGGAATTCTAGATTTTAATAGGGATAAGCTTCAACCTTTAGAAGGTGGAGTTTGTAAAACTGTGACTTCAGATAATTTGGAAAATAGACTTAAATCTATTTTTGAAGATATTAGAGAAGTAGTTATTGAGTACAAGCCAAAAATTATGGCAGTTGAAGACCTGCATTCAAGATATAGGAATTTAAAAACAGCTATAATTATGGGTCATGCGAGAGGAGTAGTCTGTTTAGTCGCATCTCTATATGATATTCCTGTATTTCATTATCAACCTACTCAGATAAAAAATATTATAACTGGATCTGGTAGAGCTGATAAAATTCAAATACAAAGATCAATATCAAGGTTATTAAATTTAAATTTTGATAATCTTAGCGAACATGTAGCAGATGCCTATGCTGCAGCAATATGTTATTCAAGGATGTTTAATAATGTATCCTATAAATGAAGGAAGGTTTTAATTGATTAGTTTTTTGAAAGGTTCTTTAAGAAAATTACCACTTGGTAATTCTAAATTGGAAATTCTTGTTAATGGAATAGGTTATGAAGTATTATTACCTGTTTTTGTTTTTGAATCTCTTCATTTAAAACAATTAGAAATAAATGATGAAATAGAATTAGAGATTTATTATCATGCTACTGAAAGAAGCCCGAAGCCAATACTAGTAGGATTTAATTCTATTCAGGAGAAGAATTTTTTTGAACAAATGATTCAAGTAGAAGGAGTAGGCCCTCAAAAAGCTGTGACTGCCTTAATTTTTCCTATTCATGTGATTGCTAGAGCTATAGAAACCGAAGATGTTCATACTCTTACTCAAATGCCGGGTATTGGTTCAAGGGCTGCCCAGAAAATTGTTGCAACTCTTAAAGGAAAAGTAGGGGATTCTACTTCAGCTTTGATAGAAGATAAGGTAGAGCAATCAGATGATGCTGATATAGATAGAAAATTAAATTTAAGGAAAGAAGCTTCTACTATTCTTGTTAATCTAGGATATAAAGAGCAAGAAGCAATTCGAAGTATAAATGAGGCTACAGAAAATAATTCTGATTTAGAAAATGATTTAGAAGCTTTAATAAGAGAAATATTTAAGAAGAAACAAGATATTAGTAATAGTTAGGTAGATTTGGCTAGAGAAGAAATAATAAAAAATTTTGATACAGAAGATTTAGAAGATCAAAATGATATAGAAGAAGTTTATCAATCTATAAATTTGAGACCAAAAAATTTATTAGAATATGTTGGTCAAAAATCTGTTGTAAATAGTCTTCAAACTGCTATGAAAGCTGCTAAAAATAGAAAAGAACCTTTGGAACATGTGCTTTTTCATGGGCCACCTGGGTTAGGTAAAACTACCCTTGCGCATGTTATAGCAACAGAATCTGGTTACAAAATAATCCATACATCTGGACCTAGTTTAGAAAGACCAGCTGATATGGTAGGTTTATTGTCAAATCTTAATTTTGGAGATGTGCTTTTTATTGATGAAATACATCGTATATCAAAAGGTGTAGAAGAATATATGTATTCTGCAATGGAAGATTTTAAAGTGGATTTTATTACTGGATCTGGAACATTTGCAAAAACTCTTTCTTTTCCTTTACAGAGATTTACTTTAGTGGGTGCGACTACACGAGCAGGAATGCTATCTGCTCCTCTTAGAGATAGATTTGGTTTAACTTATCATGTTGATTATTATTCTCCAGAAGAACTAAGTAATGTAATTAAAAGGTCATCTGAATTATTGGGTATTAAAATATCTAATGAAGGATCATATGAAATAGCAAATAGATCTAGAGGTACTCCTAGGATTGCTAACAGGTTATTAAGAAGAGTTAGAGATTATTCTGAAGTTCATGAGAATGGAAATATTGATAAAAATATTTCTCAGAAAGCTTTGCAATCTGAAGGAGTTGATGAGTTAGGGTTAGATAGGTTAGATCGAGAATATTTAAAAACTTTGTTAGTCAATTATAAGGGTGGTCCGGCAGGAATAGAAGCTTTAGCTGCTACAATAAATGAAGAATCTCAAACATTAATGGATGTTGTAGAGCCTTTTCTTCTTAAGATAGGATTTGTTGTTAGAACTCCTTCAGGTAGAAAAGCAACTGAAAAAGCTTACTCTTATTTAAATATTAGTAATAACAAAAAATCTGACCAAGCTCAGCTTTTTTAATTATTTAAATCATCAAAAGAAGATTGATGTTTTGCCCATAGATTCGAATATAATCCTTTGTTTTTCATCAACTCTTCATGTGGACCAACTTCTAATATTTTTCCTTTATCTAATACTACTATTTTGTCTGCATTTTTAATTGTTGATAATCTATGAGCAATAATAATACCCGTTCTGTTTTTTAAAACCTTATTTAAAGCGTTTTGTATTTTCAATTCTGTATAACTGTCAATATATGCAGTAGCTTCATCTAAGATAAAAATTTTAGAATCACATACTAAGGCTCTTGCAAAACTAAGTAATTGTTTTTCTCCAATAGATAAATTTGAGCCCCCTTCATATAAGTGCGTAGAATATGTATCTGGTAATCTGTTAATGAATTCATCTGCACCTACAGTTTTACTTGCTTCAATAATTTCTTCATCTGATGCATTAGTTCTATATCTAATGTTTTCTAGAACAGTACCAGAAAATATTACAGGATCTTGGAGAACCATGCTTATATTTAATCCTAAGGAATCTTGAGTAACTTTTCTTATATCTTGATTATCGATTAGAATTTCTCCATCCCATATTTCATAAAACCTGTGAATTAAAGCTGCAATACTTGTTTTTCCAGATCCTGTCGGTCCCACAAGACCTATAGTTTCATTTTCTTTAATTGATAAATTTATATCACTTAAAATTTGATTATTACTTTCATAACCAAAATCCACATTCTTAAGTTCAATTTTACCTTTTTCGATTTTTAATGGTTTTGAATTTGGTTCGTCTTTGATTTCAATAGGTAGTTCTAATAGTTCAAAAATTCTATGACCTGATGCCATTGCTCTTTGCACAACGCTATAATGCATTGTAAGAGTTCTAATAGGATCAAATAGGCGCTGTATGTACAGTAATGATGCAACCATTATTCCTATCTCTATAGATCCATTTGTTACTAGATACCCTCCAATAACAATAATTATTGCCATAGATAATCCTGTTAAAGTTTCAACTGGAGGCATAATTCCTGATCCATATTTAGCTGCTTTATCTTGTTTTTCTAAGCTATCAGCTATTTTTTCATCAAATATTTCTTGATTTCTTATTTCTCTATTTAATGATTGTGTAACTCTCACACCGTTAAGGTGTTCATTTAATACTCCTGAAACTATAGATCTAGCTTTACTTGCATCAAGAAATGCTCTTCTGGCCATTGGTAACCAAAATATTTTTACTAAAATTAAAATTGGAAGAACGATCAAAATCATTAATCCCATGATCCAATTTAAAGTGATTAAAATTATTGCAACACATATTAAAGTGAGTATATCTGCAATAGCATGTATTCCTGCTTGGAAAAGTTCCTGAAGAGCTCCGACATCTCCTTGAACCCTTGACATCAAGCCTCCATATTTAGTTTTATCAGCAAAAGACATGGAAAGTTTTTGTAAATGATTAAACATTTTTGTTCTGATATCATAAATCACATTTTCTCCTATCTTTCCTAAAAGTTTTTGTTGGAAATAATTTGAAAATAGATGAATAAATGAAGCAATTATTAAAACTACGAACATTAAATTTAGAGCTAGAGAGTTTTTTTCAGAAATAGCATTATCAATTGTTATTTTAACTAACACAGGAATGGCTACCACAACACCCGCAAATAATAATACAGCAATAAGACCACCAAAAACTTTCTTTTTATATGGTTTTAAGTATTTAATAAATTTATTTAAAACTTCTTGATCGTAGGAAGAAATTACCTCTAAGCTATCTTCAAGAAATTCTGCTTTCTTTTCTCTTTCTTTTATTTTTGCTGATTTATTAATACTAATCATGACAAGGATTTTTCTTTTTCATATTTTGGATGTTGTATATCAGATATGGTTTTATAGATTCCATCTTTTTTTAATAACTCTGATGGGGTTCCCCTTTGAGAGATGTTTCCTTTATCAAGTACAATGATTTCATTTGCGTGTTCTAAAGAATCAATTCTATGAGAAATGATAATTGTGATTTGAGATGAAATAGATGTTTCCAGATGTTCACGAATTTTTTGATCTGTAATTGAATCTAATGCGCTTAGTGAATCATCAAAAATTACTAAAGAAGGTTTCTTTAATAATGTTCTGGCTATAGAAATTCTTTGTTTTTGTCCTCCAGATAAGGAAACTCCAAATTCTCCTACTGTTGTTTCATATTTTTCAGGAAGAGATTCTATAAAATCATGTATCTCTGCAATTTGAGCACATTCAATGATTTCATTCATTTCTGAGTTAGGTGCTCCATATGAAATATTTTCTTTAATTGTCATATTGAATAGAAAAGTGTTTTGAGAAATTATGCCTACTTCTTTCCTCAATTCAGTAATATCTATATTTCTAATATCAATATCATTAATAGTTAATGATCCTTCTTGGATATCGTAAAATCTTGGAATAAGTTGAGCTAGAGATGATTTTCCAGATCCAGGAGGACCAATAATTCCTAATATTTGGTTTGAACTAACTTTAAAAGAGATGTTATTAAGTATATTTTTTTCACTATGATGATCAAATTTAAACACAATATCTTTAGCTTCAATTTTATGTATTTTATCTAAAGATTTTGGATTATTTAGAGATTTGATATTAGGTTCCTTGTCTAATATTTCAAATAATCTCAGGCCACATGAAGTAGCTCTAGCGTAAGCATTAACCATCATTCCAATCATTCTTACGGGTCTTTGTAGCATACCTAGATAAACTAATGATTGTGTCATTTCTCCTAGTGTTAAATTGCCTGAAATCACTTGGATACCGCATACCCATATAATCAAAGACCAAGTTATGAGAAAAAAGAATCCAATTAAAGATTGTCCTAATGCAGAAACTTCTATTGATTCGATAGTTAAATTTGTTACATTTTTATGAGATGAACGAAATTTTTTAATCTCATGGTTTTGACCTCCAAATGCTCGAACTACCCTTACTCCAATTAAGTTTTCTTGTAACTTAGTATTTAAATCAGAATAAAATTGTTGAATTTTGGTCCAAATTTTTCTTAGACGTAAACGTGTAGTAGTAGCTAATGATGCAGTAGGAATTATGAAAATAAGACTTAATAATCCAATTTTCCAATCTACAGATACTAAAAGAATTCCTCCAAAAAACATTAGTAGTAAGATTTCTATTGTTCTTAAAAAGCCAGTTCTTACAAATAATCCTACTCCCTCAATATCAAGTATTCCTCTAGACATTAAATTTCCTGAATGAATTTTGTCATGAAAAGAGAATGATAATGATTGTAATTTTTTATGAAAATCACTTCTCAAATTTGTTGTGATATTGTTTCCAATTTTTTCACCATTATATTGAATTAAAAACCCAAATAAACCTCTTAGCATACTAGTAATTATTATCAGGAACCCAACTAGATATAGATCATTAAATTTTGAGGATCCTGATGCTATTATTTCTATTGATTTATCTATTCCATTTCCTAGTAAGAAGGGTAAATATAATTGTGCAGATACAATCCCAATTACTCCCGTTATTCCTAGAAAAATGTATTTTTTATATTTAAAACACATCTTAGTGATTCGTTTTAGAACTTCGAATTCTTTTTTATGTGATAAATGGGATAAGTTATCTCCGATATGCAATAGTTGTTTTGCATGGGCGATACGTTCTGCTATGTGAGGATTAGGTATATGTGGTTTTGGAAAATGCATTTTATAATTTTATGTATCTGAGGAAATATAATAAATTATAGATAATCTTTTTTACTATACTTTTTTGTATAAGTTTTCAAAAAATTAATATTTTCATATGAAATTTGCCCAATTTAATATTCAAATAGCTAATTTTAAATATTCTGAAATATTGAAATTTATAGAAAATCAATCTTTCCCAGAAGGTTGGAGGGAAACTGATTTTTCTAAAGAATTAAGAAAAAAAAATTCAATTTATTTTATTGCTTACGACACTACAGATAGAATTCACAATATTGAGGGATATAAAAAGGCTACATTAAAAAATAAAATGGTCATTGGTTATGCTGGTATTTGGTTTTATGAAGAGTTTTCAGAGATTGTTTCGGTAGCAGTTTTACAAAATTTCAGAAAATTGGGTGTTGGCCGTTTGCTAATAAGTAAATTAATTAATTATGTGAATTTTCATAAGAAATCGAAAATTATTAACTTAGAAGTTGGGAAAAAGAACTTTATAGCAAGGAATTTATATAAACAACTTGGGTTTAAAGAAAATGGGTATAGGGAAAAATATTATTTACATGATGGTGATGATGCAATTTTAATGAGCCTCAATATTAATTTTTGAATTGATATTCTTTTAAAAGAGATTCTAATTCTTCTTCAGTTTTTTTATCTATTGAGGGAGTAGGTAATCTGGTATCAGGAGTGTTTATTATTCCTCTTCTGAATAAAATATGTTTTCTAATACTTAAACTTATTCCTTGTTGATTTTCATATCTAATTAGTGGTAACCATTCAAAAAATAATGATTTTGCATTCTTAATATTGTTGTTTTTGAATTCTTCGTATGTTTTAACTAAAATTTCTGGAAAAGCAAATCCAGTCATCGTTCCAATTGCACCTCTTGTCAATTCTTCAATAAGGAATACTCCTCCCAGGCCTCCGAATATTCCTATTTGATCAGATGTTTTTGATAATATCTCGGAAATTTTTTTAGGTGTTGGAGGATCTTCTAGTTTAATGAATTTTATTTGTGGAACTTCAATAGTAATTTTATTGATAAATTCAGGAGTTAGGTTAACCCCAGTCTCTTGTGGTAAGTCTTGTAATACTATCGGTAAGTTATTATCTTTAGAAATTTCTTTGAAGAATTTTAATAACACTTTTTCATTAGTTTTGAGCATTTTAGGTGGAGAACAAAGTAAATAATTGGCACCAAAAGTTTTTGATTCTTTAATTCTTTTGGAAACAATTTTAATACTTTCTCCACTTACTCCTACAGTAATAGGAATCCTATTGTTTACTTTTTTTGACACATGATTTATTACAGCATTTCTTTCATCTTCTGTTAATCTATGAGCTTCTCCCATCACTCCCATAATTACAATTCCATGACAACCGTTTTCTATTGATAATTCAACAAGCCTATCTATCGATTCGAAATCAATATTGGATTCTTTAGTGAAAGGAGTAGGCATCATGAAATGAATGCCTTGAATTGCATTAGTCATATTATTTAGGTGTTTAATCCAGGTTCAGAGTTGTCATAATCGTAATTTTTGTTTAAGTCTACAGAAGCTATTTCTTTTTCTGGAACTTCCTCTTCAGGATAAATTGCATTTACAGGACATACTGGTTCACATGCAGCACAGTCAATGCATTCGTCTGGGTTGATAAATAATTGATTGTCTCCTTTTTTGGAGTATATGCAGTCTACTGGACAGACATCAACGCAAGAACCATCAAGTAAATCTTTACAAGCAGAAGTAATGATATAAGTCATTTTTCCTCAACACTAATCTTTTTAATAGATAATAATCAAGAATTTAATTTCCGCAACCACAACCTCCGCCTCCGCTTCCGCAACCACAACCTCCACCTCCGGAACCACAACCTCCACCTCCACCTCCGCAAGCACAACCTCCGCCTCCACAACCTCCACCAGAAGGAAGGTTAGGATTAGTAATGATAAATCCAGATCTATGAAGTCCTTCTACATAATCTATGTTAGATCCAGTGATAAGAGGCAATGTTCCAGGATCTATTAAAGCCTTGAAGTCACCAAGGTCTACAATTGTATCATCTTGATTAGGGTTGTCTTCTAAACCAAATGCATATCCAGGAGCACCATGTTCATTAGCAGTCAATTGGATTCTTAAATAGGAATTATTAAGTTCTTGTTCTTTGATTACTTCTTTAATTTTTGAAGTAGCTGTTTCAGTCATATCTATAAGAAGATTAGACTCTTTTTCCATTTGTAACTCCAGATGAATATTTAATATCTAAATAGATTATACATGAAAAATTTTCATAAAATATAGTGATTTTTTGTAATTCAAAATAATTAAATTAAAATAAATTGACGAAAAAACTATTAATCACTAGAATTTTTGTCTGATTTCGAAATTTAATTTAATAAAATAATGTTATTTAAGGAGGGTTTTTTTGGATAAGCTAGATTATAAAATTCTTTCAATGTTAAAGAAAAATGGAAGACTTTCTAATGCTAACATGGCAAGATCTTTGAAAGTTAGTGAAGGTACAGTAAGAAGAAGATTGAAGAAAATGACTGTTGATAATGTAGTCAGAATTTTTGCGGTTCCAAATCCTGATAGTATTGGTTTACATTCTGAAGCTCTAATTGGAATACAAGTAGATCCAGATAAAATGGAAATTATTGCTAATAAAGTTTCTAAATTAGAACAAGCTACTTGGGTTACACATACTACAGGTACTTATGATATATTTTTATGGGCGGCTGTGGAATCTACTGAGGAATTAGGAAAATTTATTAGAGGGCCTATTGGAACTATACCAGGTGTTCGTAGAACAGAAACATTTGTTAATCTAAAAATTGTTAAAAGAGGACATGGTCCCAGAAATTAATAGGAGAGAATAATGGAACAATCTACAATAGAAAATTCTGCTCATTTAGGTTTGAAAAATAATGTTTCTATATTAGGAGAAAAACAAAACTCTTTATTAGAATCTATTTTCACTAATGTAGGATGGAAGTCTAAATTATTAGTTATTTTTGCTTTTTTAGTTTTTGAAACAATTCTAGCTCAGATAAAATTTTTTCTTCCTGATAATCCAGTTCCGGTTACGATGCAAACATTTGGAATATTAATGATGGGGAGTGTTTTGGGCTGGAGACTTGGTTTAATCACTATTTTCTCATATGTCCTTTTAGGAATTTTAGGAGCTCCTATTTTTCAAAGCTGGAATGGTGGAATTAACTATTTTCTAGGTGCTACAGGGGGATATATAGTAGGGTTTTTTCTTGCAGTACCTGTAATGGGATTTTTATCTCAAAGAGGTTGGACTAGAAGTAAATCATTATGGGCAATGTTAATAGGTAATATTGTTATATATATTCCTGCTGTTATTTGGTTAAGTATCGGTATGTCATTCTTTGACTTTAGTTGGCCTAAAAGTGGGCAACTTTTATCTCAAGCAATTTATCCTTTCATAATTGGTGATTTATTAAAAATGGTTTTTGCAGCATTAATTACTGGTTTATTGTGGCAGATAGTTGATTCTAGAAAATCAAAATAATTTATGGAGCGTCTAAAAATTGTATAAGGATATAGGTTGTGGAGAAGTCAGAGAGAAAGATGAGGGAAAAATTCTTCGTTTTGCAGGATGGGTTCATAAGAGAAGAGATCATGGATCTCTTGTCTTTATTGATTTGAGAGATTCAAAAGGTATTATTCAAATAGTTTTTGATCCTAGTAATTCTGCAGATTCTCATAAGGTTGCATTATCTTTAAGATCTGAATGGGTTATTGAAGTTAAAGGTACCGTTCAGAAAAGAATCAAAGGTGCTGAAAACCCAAATTTGCAAACTGGTAACGTTGAGGTGATTGCCACAGATATAAAAATCTTAAATCGATCCAAAACTCCTCCCTTTGAAGTTAATGAGGATATAAATATTGATGAAAATTTAAGATTGAAATATAGATATTTGGATTTACGAAAGCCTAAAATGCAACATAATATAAAAACTAGACATATTGTTACTAAAGCAATTTGGGATTATCTCCATGAAAATGATTTTGTTCAAATAGAGACGCCAATTCTTATTAAAAGTACTCCAGAAGGGGCTAGAGATTATGTTGTGCCTAGTAGAGTCCATCCAGGAAACTTTTATGCTCTCCCTCAATCGCCACAACAAATGAAGCAAATTTTAATGGTCTCTGGTTTTGAAAGATATTTTCAAATTGCTAGATGTTTTAGAGATGAAGATTTAAGAGCAGATAGACAACCCGAGCACACTCAACTTGATTTTGAAATGAGTTTTGTAGAGCAAGATGATGTTTTGAATTTAGTTGAAGATTTATATAAGTCTCTTATAAGAAAAGTTTCTCCTGAAACATATATTCCTGAAAAATTTCCACGAATAACTTTTCAGGAAGCTATGGATCTTTATGGTACAGATAAACCAGATTTGAGATTTGACTTAAAATTGATTGATTTTACAAATGTTTTTGCGAATTCGGATTTTGGAGTTTTCAATAAAACAATTGATTCTAAAGGTATTATTAAAGGTTTGGTCGCACCTGATTGCTCATCTTTTTCTCGTTCACAAATATCTGAATTGAATCAGTTAATAGTAGAAAATGGAGGACCAGGAGTTTTTAGTTTAACTAGAGCAAATAAAAAAAATCATGATTTAGAAGTACAAGATATTAAATCAGCATTTAGTAAATTTGTAGATATAGAAAAATTAAAGGAAACTATATCTGTTAGTAAATGTAGAGAAAATGATCTTTTATTAATTTGTGCTGGGTCTGAAAAAATTGTCAATCAATCTCTGAGCTTATTAAGAAATAAAATTGCAGAATATTTAAATTTAATCAAAACAGACTCTTTTTCATTTGCTTTTATAGTGGACTTTCCTATGTTCGAATGGAATACAGATACTGAAAAATGGGATGCTATGCATCATGTTTTCACTTCTCCTAAAGATGATCACATAAAACATTTAGATTCCGATCCAGGACAAGTGATAGGGCAGTTGTTTGATTTAGTTTGTAATGGAGTAGAGTTAGGATCGGGTAGTATAAGAATTCACAATAGAGAAATTCAAGAGAAAGTTTTTAATATTATAGGATATTCATCTAATGAAGTATCAGAAAGATTTTCAACTATATTGGAATCATTTGAATACGGTGCACCTCCACATGGAGGAATGGGATTAGGTTTAGATAGATTGGTAGCAATGTTAGTAGGAGAAACCTCAATAAGAGAAGTGATTACTTTTCCAAAAACTCAAACAGCATTTGATCCTTTATTTGATACCCCCTCTTTAATTTCTGATCAACAACTTAGAGAATTGAATTTTGATATTAATAATGAAGAATGAATGATATTATTTCTTTCTGTATTTAGATTAATTTAGAAGAATAAAATGAAAATATCTACTGAAAAAACTGATAATCAACAAGTAAATTTAACTATTGAAGTAAATGATGAAGATATGGAAAGCCATATTGAGATTGCTTGTAATAAAATGAGTAAAAAAATGAATTTTCCTGGATTTAGGAAAGGTAAAGTTCCCAGATCAGTTCTAGAAAATTCATTAGGAAAACAAAGATTAATTCAGGAATCTTTAGATACTTTAATACCCGATGTAGTTTTCAAAGCTGTAGACAAAGAAAAATTAGAAATAGTATCTACTCCAGTAGTTTCAGTTGAATCACTAGATCCTAAACTAGAAATTCTTGCTAAAGTTGCTTTGATTCCAATTGTTAATTTATCTTCTTACGAAAAATTCAAAATTACTCAATCAAAAAATAAAGTAGGAGTTAAAGAAATTAATAATGTAATTAATCAAGTAAGGGAATCGCAATTAACTTGGATCCCAGTAGAAAGAACTGTGAAAAGAGGGGATTCATTAATAATTGATTTTGAAATTAATTCAGATGATAAAATTGTAACTAGTCAAAATAAGATGGAATACATAGTTGATTATGGCAAAGATCATATTGAATCTATTCCCGGATTTTCAGAAAAATTGATTAAAATGAATATTGGAGATGAAAAAAAGTTTAATTTAGAATTTCCTGATAATTTTCCTGATGAAAAATTAAGAAATAAGTCTGGAGAATTTAAAGTATTGGTTCATGAAATTAAAGAAAAGCAATTACCTGAATTAAATGATGCTTTTGCGAAAAGTTTAGGAGAAGGCATAGAAGATGTTAAAGCCCTAAAACAAAAAATTAAAGAAAATTTAAAATTAAACTCTGAAAATGAATGGAACAATAGAATTATTGAAGATTTTATTGATCAAGTTATTGTAGCTTCAAAATTTGTTGTAGCTCCAATTTTGATAGATCAAGAATCTGAAAGTATTGTGAAAAGACAAAAAGAGTATATTGAGTCTAGAAAATTAGATTTTGATGAATATTTAAAAAATTCAGAAAAGACTTATGAAGGATTATTAGAGGAATCACGTGAAGCTGCTGAAAAAAATATTCATAGATCTTTAGTAATTAATGAAATTTCTTTAAAAGAAAATATAGAAGTTGAAGAGAAGGAAGTATTAGAAGAGATAAAGAGTTGGGAGCAAAGTAATAATAAAAATAGCAAAATTTCTAAGGATCAAATTGAGCAAAATATTAGGCAATCTATTAAAGATAGATTAATTATGGATAAAATTTTGAAATTGGCTAAAGATAGAGTGGTAAAATCTAATGATAAACAAAAGAAATGATTTAATAATCTTATAAACAATTATTCAATTGAAAATCTGGAGATAAATATGAATGATATAGAAAATATTATACCTACGGTTATAGAAAGTGGTGCTAGAGGTGAAAGAGCTTTTGATATATTCTCTTTACTTTTGAAAGAAAGAATTATTTTTTTAGGTACTCCTATCAATGATCAAATTTCTAATTTGATTGTTGCACAGTTGCTTTATTTAGCTAGAGAAGATTCTACTAAAGATATTAACTTATATATTAATTCTCCTGGTGGAGGAGTTTATGCAGGTTTAGCTATTTATGACACAATGCAACATATTCCATGTGATGTTTCAACTATTAGTGTTGGTTTATGTGCTAGTTTTGGTACAGTTCTTTTAACCGCTGGAACTAAAGGAAAAAGATTTGCTTTACCTAATTCAACTATTCATATGCACCAACCTATTAGTGGAGCTCAAGGTCAAGCTTCTGATATTGAAATAGCTGCTAAAGAGGTTTTAAGAGTAAAAGATGGTCTTACAAAAATTATTTCTAACCACACTGGACAATCTGAAGCTAAGATTATTAAAGATTCCGATAGAGATTCATGGATGACAGCTAAGCAGGCTGTGAAGTATGGATTAATTGATGAAATCCTTGAAAAGCCTGAGAGTGAAAAGAAGAATTCTTCAAAGAAGTAAGTATTTTAGATAGAATTATTTAAATCTAAATCTTTAGAAATATCTTCTATTTCTAATTTTGTTTCTGAAAGAATTTCTTTACATTTTTTAGATATATTCACGCCTTCAATAAACAAATCTTTAGATTCTTCTAGAGAAAGATCTCCTTCTTCTAATTTTCTTACAATAATTTCTAGTTTATCTAATAAATTTTCAAAGTTATTTTTTTCACTCATCATCTATCCTTCTAATTTTGTTTTTTAAGTTAGTAGTTCTTGCTTCTATTTCCCCATTTTTAATTGTAATTGATAGTAAATCTCCTACTTTTAATTGGTTAGTTTTTGTGATTACTTTATTATTATTTTTCTTAGAAATTATTGAGTATCCTCTACTTAATACATTCTTAGGATCTAATGTTCGTAGCGAGTTTTCAAGAGAATTAATAGTTAAATGAAATTTTTCATAATTTTTTAAAAATGAGGTTTTTATAGAATTTGAATATTGATTGATTCTATTTTCAAAGGATAATATATCAGGTTTTTTATACAATAAAGGATCAAAAGTGATCTCTAGATTAGATGTTTTTTTTGAAATTAAAAAATCAATATTTATGTAGAATTCATTTAATTTTTGAGAAATAGAATTTCTTAATTCAACTATGTCAGGTGTAATTATTTCTGCAGCTGCTGAAGGAGTAGGAGCACGTAGGTCAGAAACTAGATCAGAAATTGTTACGTCAGTTTCATGACCTATAGCACTTACAACAGGAACCTTACAAGCAAATATAGATTTGGCAACTATTTCTTCATTAAAAGGCCAAAGATCTTCCAGAGACCCTCCCCCTCTTGCTAAAATAATTAATTCAATATTCTTTTGAGATTCTAAAGCTTTTATAGATTTTACTATTGAAGAAGAAGAATCTTTTCCCTGAACTTTTGTGTCTGCAATTTTAATTTTTATCAGAGGGTATCTACGTTTTATGATATTTAATATGTCTTGTAAAACAGAACCTTTCTTTGATGTTGCAATTCCAATAAATTTTGGATATTTTGGTAAACTTCTCTTTCTGGAAATATCAAACAATCCTTCAGATTCAAGTTTGGTTTTTAAGAGTTCAAAGTTTTTTTGTAGAGATCCAATGCCTTCTGGTTCAACTTTATTAACGTATATTTGTAGATCTCCTCTGGTCTTGTAAAAAGAAATATAACCTTGAGCATTTATTAACTGACCATTTTCTAAATATTCAATTCCAGAAGACTCTTTAAACATTACGCATCTAATTACTGCTTTTTCGTCTTTCAATGAGAAATAATTATGGCCGCTTGAAGATTGAAAATGGTTAGATATTTCTCCTATTACTTCAAGGTTTCTTAAGTGAGTTGTTCTTTCTAAAGTATTTTTTATATATTCTGAAAGTTCACCAACAGTAAAAGTAGCTTTAATATTTGAATAATTACTTTCTTCTTTAAAAATCATTAATCTTAATTAGATCTTTCAATGTATTGACCAGTACGAGTGTCAATTTTAATTTTTCCTCCAGTTTCTATAAACAAAGGTACTTGAACTTTTAGACCAGTGTTAACAGTAGCAGTTTTTGTTACATTGGTTGCAGTATCTCCACGTACTGCTTGTTCACTATCAATTACTTCTAGAATTACTGATATAGGCAATTCAATACTTATTGGATTCTCTTCAAACGAAATTACTTCTATAATATCTCCTTCTATTATGAAATCTAAAGCATTGCCTAATATTGAAGGATCAATATTTATTTGTTCAAATGTTTCATTATTCATAAAAGTATGAGAAGTAGAATCACTATAAAGATATTGAAAAGGTCTTTTATCAGTTCTAGCTAACGTTAAAGGCCTATTGCCCTGTAGTTTTTTTTCAAAAACATTACCGGTTTTTATGTTTTTCACTCTTAAAGTCAATGTAGGCGGAGCTTTGGGAGGTTTTCTGTGTTGCCATTCAAGTATTTGGAATATTTCATTATCTATCATAATTGTCATATTTCTTTTTATTTCACTAGAACTTATTGTCATGTTTCCTCTTTTATTAATCTATGATTTTATTTTTTTTTGCATTACTTAAAATTTTTGTTTCTCCGTCTTTAATTAATACTATGTCTTCTATTCTTACTCCACCCCAGTTTTCTAAATAGATTCCTGGTTCTACGGTAAAGACCATATTTTCTTCTATAATATTTTTACTAGTAGGTCCTACTCCAGGGTTTTCATGGACTTCTAATCCTACTCCATGACCTAAACTGTGTCCGAAATTATTCCCAAAACCTGAATTATTAATTATTGACCTCGCTAATCCATCTATTTCTTCCCCTGACATTCCTTTTTGAAGAGTTTCAATTGCAGTTAATTGAGCTATAAGAACAGTATCGTAAACTTTATTATATTGTTCATCTGCTTTACCCAAAAATATAGTTCTAGTTAAATCGCTACAGTAGCCTAAGTATTTTGCTCCCATATCAATTACTATTGGTTCTTTTTCTTGAATTATCCTGTTGCTTGGAGAGTGATGTGGTTTAGCAGAATTGGGGCCAGAAGCAACTATTGTTTCAAAAGATAGAGATTCTGCTCCAAGATTTCTTATATGTTTTTCAAGTTCCCATGCTATCTCTTTTTCAGTAATTCCAGGCTTGATGTTTTCAGATATAGTATTAAATGAACTATCTGCAATATCTATTGCTTTTTGTATTAATTTTATTTCTTCTTCATCCTTTGTGGATCTTAGATTAGATACCATATTAGGGGTCGGAATCCATTTGAATGATGTTTTTTCTTTTAGAAAGTTTAAATTTTCTACTGTAATATCTTCAGGCTCGAAAGCGATTTCTTGTACTTGTAATCCTTCAGTTAAAGATATAGGCCAAGGATTTTTGCTAGAAATAGAAATTATTTCAAATTCTGGAGATTCTTTTTCAGCTTGGATTATATATCTTGAATCAGTAGCTAATCTAGATTGACTTTCTGTTATAAATAAGTATCCCCATGAACCAGTAAACCCAGAAAGATATCTTCTATTAATTGAGTTAGAAATTAATATTGAATCAAATTCACTTTTTTTTATTAAATTTTGAATTTTTTCTAATCTTTTTTTAATCAATTTATTCACTAATTATTTCATGGATAAAATAATTTAAAGCATAAATATATCCATCTTTTCCAAGACCTGAAATTTGTCCTTTTGATATTGGTGCAATTATTGATGTGCTTCTGAACTCTTCTCTAGCATGAATATTAGAGAGATGAACTTCAATGGTTGTAAGATTTGAATCTATAATTGCATCTACCAAAGAATACCCAGAACTAGTCAATGCTCCTGGGTTAATAATTATGCCAATAGAGTTTTTAGAGTTTTTTTGAATAAAATCTACAATATCTCCTTCATGGTTTGATTGAAAAGGTTCAATTTCTAAGCCATGATTTTTTCCGATTTTTATAACTTCATTTTCAATTTCCTGAAGCGTTACATTACCATAGAATTTTGATTCTCTGTTGCCAAGATTATTTAAATTTGGTCCGTTAATTAATAGTATTTTTTTCATTTTATACCTCTCAAATAGTTTATCTGATTTACTAACAAAAAAATATTTGATTAAATCTTCTTAGATCTAGGATGGGAGGAGTTATAGATTTCTCTCATTTTTTCTTTAGAAATATGAGTGTAAATTTGTGTTGTTGTAGGGCTTGAATGACCCAGTAATTCTTGAACAACTTTTATATCTGCGCCTCCATCCAACATATGTGTAGCAAAACTGTGACGTAGAGTATGAGTATGAAAATCTTCGTGTAATCCAGCAATTTGACTATGTTTTTTTACAATTCTTTGAATTGATCTGGTAGATATAGGTTCTCCAGTTTTATTTAAGAATAAATAGTTTGATTTTGAATTATTTCTTCTTTCAAATTCAATGTATTCTTTTATTGCTTTGATAGCATCTTTTCCAATTAGTACTATTCTTTCTTTGTTTCCTTTTCCTGTGACTTTTATTTCACCTGATTTTAGATCAACATCTTCAATTGATAGACTGGTTAATTCACTGACCCGGATGCCTGAAGCATATAAAACTTCTATTATAGCTATATTTCTCAATTGCATTTTTGAAGAAAGAAAACTATTTTTTTGCATCATTTTTGAAATATCTTGAGTATTTTCAATTCTAGGTAGTTTTTTGTCTTGTTTTGGAGGTTTTACCATTTCGGCAGGATTATGAAATATTTCATTATGTTCTTCTAGATAGGAAAAGAAAGTTTTAAGAGATGATAGTTTTCTAGAAATACTTTTTCTAGATACATTACTCATTGATAACCATCTCATATATTCTCTAATATGATTTTTATTCAAATCATTTATTGATTTTATTGAAGAATTATTTAGAAATTTAAAAAAATCAATTAAATCTGTCAGATAATTTCTAATGGTATAAGGAGATAAGAATTGTCTGTTTTTTAGAAATTGATTATATTTCAGGACTTGATCTATCCAAATTTTTTGAGAAATATTTTCATAAAGTGATTTAGGTATTTCAGATTTTTTTTGATTTTTTTCAGAATATGACATTTTAGAATCCAAATTATATATTTGCATTCTATCGAGTTTTTTTTATATATTCACTGTAAAAAAGGTGTTAGTTAAAGTATTTTTAAGGATGAAGACTTTTTTCAGTCATAGTAGATTGAAGTTTTTTAAGAGATCTTTCTCGTCTTCTTCCTCTTGATACCCATGCGTCTTCATCTCCTGTAACTTTACATTCTCTATCCTCGCAACCTAGAAAGGAGCCATTACCATTTTTATTCCTGAATCTTATCCAAATTAAGTGTGGGGCAATTTCCAAAGATTCATTCACAGATTTTGTTCCTAGAGGTGGATCATTCTCTTCAAAAATTTTTCCTGTTTCAGAATTGATACACGGAGATTTTGCTGAACACACTATGTTAGTTCTTAAAAAATTATATTCACTAGGATTTCTAGGATTTTCTTCACCTCTTAAAGCTAATTTAGATGTCAAAGGTTCAAAATCATTCCAGAATTTTTTAACAAAGTTTTCTCTTTTTGATTTTCCATTAGAAATAAGATCAAGTTCATGGTTCATTTTTTCAGTAAATTTGTAGTCCATAAAACTATTTGAAAATTCTTTTTTCAGTTCTTCTACTAGTGCATTTCCTATTGGGGTTAAATATATTGATCTACCACTTAACCATACATATCTTCTATCTTTTATTGCATTAAGAATGCTTGCGTATGTACTAGGTCGCCCCACGCCTAAATCTTCCATTTCTTTTATTAAAGAAGCTTCTGTGTATCTTGGAGGATGTTGTGTGAATTTTTGTTCTTTATTTAATGAATCTATAGATACTGATATTCCTTCTTTAAGATCTGGAAGTTTTTTATTTTCTTTTTCAGGAAATAACTTTTTAAATCCATCAAAAATTAACTCTTCTGCTTCTGATTTGAATTTGTAACTATTCTCATCATTAGATGAGGAAGTAATTAAACTAGTTTTTTGGGTTTTGCTCTCCGTCATTTGACATGCCACAGTTCTTCTCCAAATTAAATCATATAGCTTAAACTGATCATCCTCTAAAAAACTCTTAATTGATTCAGGTGTTCTATTTATAGATGTAGGCCTTATTGCTTCATGGGCTTCCTGAGCATTAGCAGACTTAGTTTTGTATCTTCTTTCAGTAAAATAATTTTCTCCATAAGAATTTTTTATGTGTCCTTTTATACTTTTCATTGATTCATTAGATAATATTGTTGAATCAGTTCTCATATAAGTTATTAACCCTTCTTCTCCTCCGCCTATTTTTATTCCTTGAAATAGTTGTTGGGCAATAGTCATGGTTCTAGAAGGACTCATTCTTAACCTAAAAGAAGCATCTTGTTGAAGTGTACTGGTTGTAAAAGGAGGCTTAGGTTTTGAAGTTCTACTGGAGATTTTGATAGATTCTATTGTAAAAACTGAGCTATTTATTGCACTCTCAATTTGATTTGCTTGTAATTGATTACTTATCTTGAAATCTTTTTCAGTTACACCTGGTATTTTAAATAATTTTCCTGAGTATGAATTATTATTTGATAAAAAATCAGCATTTATATTCCAATATTCTTCTGGGTTGAACGCTTTTATTTCGTCCTCTTTATCTTTAACGATGCTAACCGCGACTGATTGTACTCTACCTACTGATAATCGTTTTAATCTTAGTAAAGAAGAAGTTAAACCACTTAATTTAAATCCAACCAGCCTATCTACAAGTCTTCTTCCTATATGAGCATTTACTAGATTCATATTAATTTCACTAGTGCTTTCAAAAGCCTCTTTAACAGCTTTTTCAGTAATTTCATGAAAAATGACTCTTTTGAATTTTTCCTTAGAATGTTTTTTTTCAATAAGTGCATTTGCAACGTGATATGCTATTCCTTCGCCTTCTCTATCTGGATCCGCAGCTAAATAGATAACATCACATTCTTTAGCAAGCTTGTTTAGGTTATTAATACGAGATATTGCACCTCTTTCTAGCCCCCAGATGGGTTCTAGGTCTTTATCGACTCCAACCACAGGGCCACTTCTATCTGCATCTCTACCTGATTCAAGATTATTAATATGACCGATTGACGCTTCAACGATAAAATTATTTCCTAGAAACCTTTGCAATGTTCTTGCTTTTGTAGGTGATTCAACTATTACTAGGCTTTTACTCATTTTTCTCCTTTTTTCGGTTATCACAACAAATTTAATCTAATATATAACAAGTTGTCATACCCCTTTAGGGGTTGACTACTGTTAATCAGAATCGAAACTTTAAAAAAAGAAGTTACATTATTTTTTTAATAAAATCTAATTATTTTTATCAATATGGCGGAGAGGGCGGGATTCGAACCCGCGGTTCCATTTAACTGGAACACGCGCTTTCCAAGCGCGCCTAATCGGCCACTCTAGCACCTCTCCTAAATTATATTTATTATAAATGTAATTTGGATTTTAATAATGATTTTTGCGTTTCTCAACTTACTATAGTAGTTTGTAACTTTAAAAATATTATCTTGTCTTATATTTCATTTGCTTCAAAAGAAAATAGTAATTTTCTGAAATAATTTTATGAGTAAATTAACAAAAACTGAGGAAGATTCTGACACTCAATATACTATTGTAGATCCAAGTAACACTTACATTGATCCTTCTGTAGAATTAGGAAAAGGATGTGTAATTGAACCGTTTTCTTTTATAAAAGGTAAAACAAAAATTGGTGATAATACTCGAATAGGCCCTAACTCTTATTTAGAAAATATGATTGTAGGTAGTAATTGTAAAATTTTTTATTCTGTGTGTATTGATAGTACTTTAGAAAAAGATGTTCAAATTGGGCCATATTCTAGAGTTAGAGATAATTCATTTATTTCAGATGGTGTATATATTGGTAATTATGCAGAAATTAAGAATAGTAATATCCGAGAGAAATCAATTATTAGTCATTTTACATATATAGGTGATGCTACAATTGGTGCTAATGTTAATATAGGTGCAGGTGCAGTAACCTGTAATTATGATGGAGAATCAAAACATCATACTTTCATAGGAGACAATTGTTTTATTGGATCTGGTACAATGTTAATTGCTCCACTGAATATAGGAGCGAAATCAATAACAGGTGCGGGTTCAGTTGTTACTATGAATGTAGAGGAAAATATAACTGTAGTCGGAAATCCCGCTAGGAAATTAAAATAAGGTTTTATGAGTACAGACGACCCTAGTCATAGACATAGATGTTTTAAAATAAGAAAGTTTGTGTGGCTTGGTTTATGATTGACGTGTTATTGAAATTGATTGTTTTTATCTTTCTTTTGCTAGGTTACTTAATTTTTCTTTTCTCTTATAGAGTTTTTAATGGTACTTCTACTAGATTAATTCTCCTATCAAAATTTGAAGACAAGGATAATGGGAATCTTGTTCCAGATGTAATTTTTTCACAATCTATTATTAGGGTAATAGTAGGTTTTTGGGCATTAGGTTTAGCTATTCATACTGCTTTTATATTTTATTTTTATTCGAGTATCTTTTTAAATACTTGGTTAGAGTCATTAATTTATTTTCTTGTTTCAATGGTTTTTCCATTAATTGGTTATTTCTTTATTTACGTTTTAAATGATAAAGCTGTAGAAAAATTAATAGGAATCCCTAAAGTTATTTTAATTTTGAATCTTTCAATTTTGAAATTACCTTTTATTAATAAATTTATCACCTCATCAAATGGGAATGGGAATGAAGAAAATGATGCTGTAGAAATTGATGCTTTGGAAGCAGCTGGATTATCTGTAGATCCTGAGGAAATGAAAATGATACAAGGGATTTTGAGAATGGACACTGTGAAGGTAAGAGAAATTATGAGGCCTAGGGTAGATATGATAGTTGTTGAATCTGATAGAGACTTGAAGAATGTTTCAAATTTAATGATTGAAGATGGCTATAGTAAAATTCCAGTCATAGGAGATTCTATAGATGATATTTTAGGAATAGCTTACGCAAGAGATGTTTTGAAATCGGTTGGTCAAGATGATGGATCATTAAAAATAAAAGAAATTCTTAGACCTGCAATTTTTGTTCCAGAGTCTCAAAATTTGGAACAATTATTACGTGAATTTCAAAAACATAGGACTAGAATGGCTATAGTTATAGATGAACATGGAGGAATCTCTGGGTTAGTTACAGTTACGGATTTAATTGAAGAGATTGTTGGAGAATTAGTTGATGAATTTGATGTTAAAGATCCAGATATTCGAAGGATTAACGATTCCATTACAATAGTTGATGCAAGAATGACTGTTGCTGATCTTAATGAAGAAATTGGGACGTCAATTATAGCTCAAGGTTTTGATACTATTGGCGGCCTAGTTTATAAAGAATTAGGGAAAATGCCAGAAGTAGGGGATCATATAGAGGTTGATAATTTGAATATTACTGTTCAATCTACTGTTGGTAGAAGAATAGGAAAACTAAGACTGTATATTCATTCCTGAGATAAAAAGAAACAGCCCATAAATTTATAGGCTGTTTCTAAATTTCTTTTTATTAGTAAAGAATTATGGAGAAGATTGTAAGCCACCAGATCCACCGATGACTAATACTCCTACTGCATTAGATCCACCATCTCCTTCACCACTTAGTGTGTGAGCTCCGGTAGGAAGTCCTACAGTAGAGATTTCAACAGAGAATGCACCATTTGCATTCGCTGTAGCAGTAGTAATTTCAACACCATTTGCTTGTATTGAAACAGTTTCTCCAGCAGCATATCCTCCACCAGATATAGTTACAGATGTACCTGCAGTTCCAGAAACTATACTTGCTCCTGATCCTCCATCTTGTCCATCAGCACCTGCTGGTCCTGGATTACCTGGGTTTCCCTTTACTCCCGCTTCTCCTTGTGGTCCTTGTGAACCTGAAGGTCCTGCTGGTCCTATAGGTCCTTGATCACCTTGAGGTCCTGCAGATCCTGAAGAACCTGCTGGTCCTTGGGCACCCGAAGGTCCTTGTGGTCCTGCATCACCTTGGATACCTGCTGCACCTGGTGCGCCTTGAGGTCCTTGCGGTCCTTGTAATCCGGCTGCTCCAGCTGCTCCACATCCAATTATTGTAAATATCGCTAATATTGTTGTTGCGTAGAAAAGACCTCTCATTTGGCCCATCCTCCCATTAAACTATGGAATATCAATTTTCAATTTAAAACAGTCCGAGAAAATTCTCGGTCTATTTAATAACTACATTATTGTTCACTTACAAGCATATAATTAACTTGAAAATGCCAATTGAAGTACTATATGCAATCATATTGTGGCTCAAACTAATATGTCAAGTTTTATTAAGCTTAATTTTTTAATAAAAACGGTGTTTTTTGTTAATTTGTGTCTAATTTTTATTAAATAATTCAAAATATCTAAAATTTACTAAGGTTTTTATTAAAATTTTTAATATTTCTAATAATTGGTTTTTTATAATACTTTGTTATTTTAAAGATTATAGCGTATTATCTTGGGGGAAATTTAAAGAATATATTAAAATTGGTGTATTGGAGATGCGCCTGATCTATCTAGTAATATAGTAAAGAAGAGTTGATAGATCTAAAACTAGAATTCTGCACTTTATTATGCGTGAACAAAAGAATGAAATAATAGAAAAATATAAATTGAGAGAAAATGATACTGGCTCTACTGAAGTTCAAGTAGCCCTTCTTACAGACAGTATTAATCGTTTGGTAGAACATACTAAAATCCACAAACATGATCATTCAAGTAGAAGAGGACTTATTTCAATGGTGGGACAAAGAAGGAAACTTCTTAAGTATCTAGTTAGGAAAGATGAATCTAGATACGTTAAATTGATTGATAGCCTGAAACTACGTAGATAATACATCCTTAGTTAAAATCTATTCACTATATGAATCGCGCGTTTTAACACTTTAAGTTGTTGAGTTTCTAATTGTTTTTATAGTTTTCTGAATTTAAAATATAACTTTAGTTAGAGAGAAAAAAATAATTATGTTAAAGACGTATAAAATAAATATTGGTCAAAAAAGTATTGAAATAGAAATAGGAAAATTAGCTCAAAAGGCTAATGGAGCAGTGACTGTAAGGTGTGGAGACACATTGTTGTTAGTTACTGCAGTTGCTTCAAAAACTGCTAGAGAAGGTATTGATTTTCTTCCATTATCTGTTGATGTGGCAGAGAAGGCTTATGCTGCAGGGAAATTACCTGGAGGGTTTTTTAAGAGAGAAGGAAGACCAGGTTCTGATGCTATATTAAATGCACGATTAATAGATAGACCTTTAAGACCTCTGTTTCCCAAAAGCTTTCATAATGATATTCAAATAATTGTTAATGTTCTTGCTACTGATCAAGAAAATACTCATGAATCATTGGGTATTATTGGGGCATCCTGTGCATTAGCTATATCAGATATACCGTTTTTAGATCCTGTAGGAGCTTGTAATATTGGATATATTGATGGGGACTTTATAATTAATCCTACTTATGAAGAATTAAGTAATAGTGATATTGACCTAACGGTAGCTGGCACTGAAGATGCGATAATGATGGTTGAAGCTGGAGCTAATATTGTTCCAGAAGAACAACTTTTAGAGGCTTTAAAAATTGCACAAGACCAAAACAAAGAAATTGTTAAAGTAATTAAGGAAATCCAATCAGAATTAGGTAAAGAAAAATGGGTAATCTCAGAATCCTCAAATGGATTTGATGCTTCTGATTTACAAATTAAAGATATCAAAGATACTTTGATTAAATGTCATGAAGAAGATATTTCTGGTGATCCTAAAAGTGAAATTTTGAATTCATTGAAAGAACGTATTGCAAATGATGACAAAGATATTGAAAAGCAATTAGATACTTTGATTCATGATGTTGAAATGGATATTTTAAGAGATAATATTACTGAAAAAGAACAGAGACCTGATGGTAGAAATTTAGATCAAATTAGATTATTAGAGTCTGAAGTAGGATACGTGCCAAGGGTTCATGGTTCTAGTATATTTCGAAGAGGTGATACTCATGTTTTGAGTATTGTCACACTTGCATCAGAAGGAGAAAAACAAAGAATAGATAACTTGTCTCCTATTAGTGAAAAATATTTTATTCATCATTATAATTTCCCAGATTTTTCAGTTGGAGAAGTAGGTAGAGGATTGTTTACTGGCAGAAGAGAGATAGGTCATGGTGCTTTAGCTGAAAGAGCTCTATTTCCAGTGATTCCATCACAAGAAGATTTTCCATATACTATAAGAGTTGTATCTGAAGTAGTTAGCTCTAACGGTTCTACATCTATGGCTAGCGTATGTGCTGGTACAATGTCTCTTATGGATGCTGGTGTTCCTATTTCAGCTCCAGTTGCAGGAATTGCTATGGGGCTTATTATTAATTCTGAAGGAAAATATTCTATTTTGACTGATATTCAGGGAGCTGAAGACCATTTTGGAGATATGGATTTCAAAGTTGCAGGAACTCAAGAAGGTGTAACGGCTTTGCAGATGGATATAAAAGTTAAAGGAATCACATTTGAAATAATGGAAGAAGCTTTGGAAAAAGCTAAAGTTGCTAGATTGACTATACTTGAAAATTTAGTGTCTACAATAGATGTTCCTAGAGAAAATGTAAGTAAATATGCTCCAAAATTACTTACTATAAATATACCTAAAGATAAAATTGGTG
>sequence02
AAATTTGCTGAATTACTTAAAAGAGTCAGATGTCGGGAGTAACGCTTGGGTGATTTCAGGGGATAGAACAAAGTCTGGTCTTCCTTTGGTTGCAGGAGATTCTCATAGAGCTTTGGATACGCCAAGTGTATATTATCAAGTTCATTTAGAATGTGAAAAATTTTCTGTAAGTGGCTACTCTATCCCAGGTTTACCTGGTGCGCCACATTTTAGTCATACTGAATATCTTGCTTATGGTATGACTCATGGAAATGCAGATTATCAAGATTTATTTCTAGAAAAATTTCGAGAAAATGGAAATAATCTTGAATATTTCTATAAAAACAGATGGTTGAAAGCTGATTTAGAGATTAAGTCTATAAATGTAAAAAATGGAAAAAAAGAATTTGTTGAAGTCGTAAAAACAAATCATGGTTCTGTAATTTCTGGTAATCCTAGATCAGGTTATGGATTAATTTTTAGTCATACTGGAACAAATTCTGGAACTAAATGGGTTGATACTGTATATCAAATACTTCATGCTAAAAATTCAGATCAATTAATTGAATCACTGGAAGAATGGACTGAACCAGTAAATAATTTTGTTTTTGCTGATATTAGAGGAAAAATAGGTTACAAGTTGAGAGGAAAGATTCCAGTAAGAAACTCAGATAACCATAAAGGTATAGTTTCAGGATGGGATGGGAATCATGATTGGAAAAATTTTATTCCTTACTATGAAATGCCTTCTTCTGTAAATCCAAATGTTGGTTATATAGTTACTTGTAATCAAAGAGTGGTAGGTCCTGATTTTCCTTATTATATAGGAGATGATTTTCGTCCTGGATATAGAGCTTCGAGAATAATTACCAGAATTTTGGAATTGCCTGAAGCTGAAGCAACAGTTGAAAATATGTCTCAGATTCATTCAGATAGATTAAGTATTCCAGCTTCAATTTTATTCAAAAAATTATTAGAAATGGACCTTTTTTCTAAATCACAAAATGATTTAGAAAAATTAATAAAACAATGGGATTTTGTAATGAGTCCTGACTCTAAAGTTGCAACATTGTATTCAATGATTAGGAAAACACTAATAGAAGAATCTTTGAATATGATATTTGGTAATTTGATCGATAAAATTGATTCTTCTGAATTTTCTAGAGCTTATGACTTCATAGTAGCTTCAATTTATTCTCAATTGATCAATCAAATAAATGGTGGGTCAAAATTTATTAATTATTCTGATCTTGAAAAATTGTTAAAAATTTCTGTAAATAAAAATTTGGGAAATTTTGAAAAAAAATTTCATGAAGATAATTTGGAGAGTTATAAATGGGGTAAAGTTCACAAGACTAATCCTAAACATCCATTGTCTAAAATGTTTCCAGAATATGCTTCTTTTTTGAATCCACCCAATGTATCTATGGGAGGAGATTCAGATACTCCACAACAAGGGGGTTATTTGGAAAACTTTGAAGTAAATTCTGTATCTGTTAATAGATATATTCATGATGTTTCCGATTGGAAAAAATCTAGATGGATAGTTCCTCTTGGAGCTTCTGGTCATCCTGGAAGTCCACATTTTAGTGATCAGAGTAAGTTATGGTCAAATTTAGAAACAATTCCTCAACTTTGGGATTGGGATGAGATAAAATCTAGTGCAGAGTCTCATCAATCATTGACCCCAAGTTAATTTTTAGGTTATAGTCATTCAAGTTTAAATAAAATTTATTATAAAAAATGGCGATATTTTTACCCAAAAAAGTTATAGGTAATATGTTTGATCATTCTTTGAATTTAGATCCAGAAGAGGCATGTGGAGTTTTGTTGGGGAATAAAAATCAGGTTTCAAAGAATGTTAGAATCAATAATATTCATGAGGAACCATTAACTAGATACACTATGGATCCTAATGAATTATTAAAAGTTACATTAGAAGCAGAAAAAAAAGATTTGGAAATTATAGGTTTTTATCATTCTCATGTTTATACTCAAGCATTTCCGTCTTCAACAGATATAAAAGAAGCTATTACTCATAGTTTTGGTAACCCTGTGGATTATTTTTACATTTTGATTTCTTTAGTCGAGAAAAATCGTCCTATTATGCGGGCATTCAAAATAGATTCACTGAAGAATGTTAATGAAGAAAATATTACTTTTGATGGTGATCAATATAGAAGTTAAGAATTATTTAAATTTTATTTAAATACCATTCTAAAGAGTCAGATAATGCCATCCAACTGGCTTCAAGGATATTAGCTGAACAACCTACAGTTCTCCAAACATCTTTATCATCCGCTGATTCTACAGCAACTCGTACTTTAGCTTCTGTGGCAGCTGATTCATTAACTACTCTTACATTATAATCAGTCAATCTTAATGAATGAATTTTAGGATAAGAAGGGCTTAATGCTTTTATTAAAGCATTATTCAATGCATTTACAGGTCCATTTCCCTCTGATGCAGTATGAACAACAGTATTTTCTACTTTTACTTTTACAGTTGCTTCACATAAAAGATTTCCATTTGATTTTGATCTATTTTCAACCAATACTACAAAGTCTATTAATTCGAAAGGAGGTTCATAATTTGGTAAAAATCTCTTTACTACTAATTCAAATGAAGCTGTAGAATTTTCATAAGAGAATCCTTGGTTTTCTTGATTCTTGATATATTTCACAATCTCTTGTGCTTCAGTATTGCCTAGTTGGTTACTTAATCCAAGTTCTCTAATTTTCCTGTTCACATTACTTTTTCCTGATAATTCTGAAATCGTAACGTCTGTATAGTTACCTATTGATGAAGGATCAATGTGTTGATATGAGGAAATAAACTTTTCTGTAGCTGAAGCGTGTAATCCTCCTTTGTGGGTAAAAGCATTTTTCCCGACATATGGTGAATAAGGAAAAGGAGGTCTATTTACAGTCTCAGCTACGAAATTAGATAATTCTGTAAGTCTAGAAAGATTACTTTTTGTCAAACAATTTACTCCTAACTTCAACTGTAAATTTGCAATTATACTTACCAAATTTGCATTACCACATCTTTCTCCATAACCGTTTATTGTTCCTTGAATATGAGTAGCACCTGATTGGTAAGCTGCTATAGCTGAAGCTACAGCCGTATCTGTGTCATTATGAGTATGTATTCCTATTTGACAATTTAAAGTTTCAGATACTATTTTAGTAATTTCAGACACTTTATCAGGTAGCATTCCTCCATTTGTATCACAAAGAACTATGGTATCAGCTCCAAATTCCTTTGCAGTTTCTAGGACTTTTATACTGTAACTAGGATTGTTGATGTAACCATCAAAAAAATGTTCTGCATCAAAAATAACTTTTCTGTCTCTATTTTTTAGATATTCTATAGAATCTGAAATCATTGATAGGTTTTCTTCTAGAGAAGTTTCTAATACTTTTTCTACTTGAATATCCGAGGATTTTCCTACTAGGGTAATGATTTCTGATTCAGAAGATAATAATGATTTTATAACTGGATCACTATCCACTTTTCCATAGATTTTTCTAGTGCTTCCAAATGCGCAAATTTTTGCTTGCTTTAAAGAGATGTTTTTTATGAGTTTAAAATATTCGTTATCTTTTGGGTTTGAACCAGCATATCCGCCTTCAATAAAAGGTATTCCTATATCATCTAATTTCTCTGTAATTGAAATTTTATCTTGTACAGATAATGATATGCCTTCTTGTTGGGTCCCATCTCTAAGAGTTGTGTCGTATAAGTCCATTTTCATAAAAATTTTTGATTAACTGTGTAACTATAACATGAGTTTATGAGATTTTCAGATAAAGTATTTAATAAATATTATAAAAAATGATATAAAAATATTTATGATGAATTTTTATTTACGAAATGTGGAAAACATAGAATGTATTTCAAGAGGTTCTCCAGGTAATAGAACTTTTTATTTAAGTGTAACTAATTTAAATAAAGTTTCCGGAAAAACTGATAGTACATCTAAACTGAAAATTTGGTTGGAAAAAGAACAACTTGTCGCATTATGTTTGTTGTTAAAGACCCCTGAAGAATCTCAAGGAAATATAGAAGATAATTTAAAAGAAAATTCAGGAGAATTTAATTTAGAAGTTAGAGGAACTGATTTTTCTATAAATTCAGATTCTAAAACTTATGAATTAATATTTTTGTCTGAAGAAGAAAATAATGAATTATTATCAATTACAATAAATATTTATTTAGATATCTTGCAATGGAAAAATTTAGGAGATCAGATTCTTAAAGTATGTGAATCAGGAAGAAAGAAGTGTCCTTTATGTCATTTACCAAAAAATTTAGATGGAACTTGTGACGGAAATCCCTGTGTCAAAAAGAATGGACACATAAATTTGAACTGAAATATTTGGTTATCCAAATGATAAAATATTTATATGAAAATAAAAAAATATTTTCTGAATGTTTGGAGAAATTAGATAATTGGAAATTAGGAAACATCAGATCAGTATTAAATGGAAGCAATCAAGTGTTTTTATTGGAGCTTTTTGATCCTAGTTTTAGTAGTTCATTACGATGTGTATATAAACCAATGATTGGAGAAAAACCTCTTTTTGATTTCCCTTCAGAAAGTCTTTATAAACGTGAAATGTCTGCTTTTGTTATAAGTAGAATATTGGGTTGGCCTAATATTCCAAGTACAACTATTAGAAATGGTCCATTAGGTGTTGGCACATTACAAAAATTTGTTGATCATGATTTCAATAAAAACTATTTTACCTTGAGAGATTCGTACTTAGAAAAATTTGAATGTTTTGCTCTCTTTGATTTGTTGGTTAATAATTCTGATAGAAAAGCTGGCTCATGTATACAAGACTCTAAGAAAAATATTTGGTCATTAGATCATGGTTTGACTTTTAATCAGAATAGTAGATTGAGGACAATTATGTTTGAATTTAGTGGGATGGAAATTTCTGATAATCTTAAAATTGATTTAATGGAATTTAGAAATTATTTAATCAATGAACCAAAGCTTAGGGATCTTTTAATTAATTGGCTATCTCAAGAGTCTTTTGATTTTTTTACTGATAGATTAGATGTTGTAATTAAATTAGAAAAGTATCCTTTTCTAGATGTTAATTTAAATGTTCCTTGGCCGTTACTTTGACTTTTTTAGAGGAGTAAAATTATTAGTAGTGAAATTAACAATATTTTTTGAGCCTCCTGCCATTATTCCTTTCCAATTTCTAATATGTTCTATAGTTTCATAATTGTTTTGATAATTATCATGAAATCCTTTGAATCTTTCCCATTCATTTTTATTATTTATAGAAAATATTTCTCCTCCAGATTCTCTAATTATTATAACTCCCGCAGCAAAATCCCAACTAGAAGCTGGTCCTAATATACCGTAAGCAGAAATTCCTTTGGCTATTAACATCATCTCAAAAGCACAACTTCCTAATACCCTTTTCTCACCAATAAATTCTTTTTTATTTTTGTTAATTTTAAAATAATTTTCTATTTTTGATGGAAGAGTGGCTATTCCTCCTTCAGAAAGTTTTGAAGAAAGAATGTTTTTAATTTTATTTTTTTTGTTGTTTATAGTTGCCCCATTGCCAAAAGATGCTTTTAGGATTAGATTTTTTTCACTCATCCATGGTGTCCAAATTGCTCCTGCTATAGGTATTCCTTTGAAAAGTACTCCAATAGATACAGAAAATATAGGAATCCTGTTAACGAAGTTTGTTGTTCCATCGATAGGGTCAATCAGCCATGCTATTTCATGTAGTTGAGGCTTTATATTTTTTTTATCTTCTTCTCCAATAATTGAATGATCAGGAAAATGGTCTTTAATCATCGAAATTATAAATTTTTGATTCCTACGATCTATTTCTGTAACAAGATTATTTTTCTTTCCTTCTTTAGAGAATATTTGTATTTCAGAATCAATATTTTCTAAGGCATATTTTCCAGATTCTAATGCAGCTTTTTCAGCAATTGACGCTAATTTGTTAGTTAATTTTTTATCAATGTTTTGAATCAATTGAGGTTCCATATAGTGGATTATAATGAATTACCAATATAGAATAATACTAACATAAATATTTATTATTCATTATAAAAATCAAGGTGAATTAAATGGTTGGAGAAAATAATACCTTTAAGGTATCTAGAGATAAAGGACTTGTTACAAGGATGTATTTTACTTGGTTTTTACTTGGTCTTTTATATGCATTTTTTGGGTTAATTTTGAACGCTTTTGGTATTCAAATATCATTTATAGTTGTAATAGTTTTAGGTATGGGTATTTTTCAATATTATATGTCTGACAAAATGATTTTATGGTCTACTAAAGCCAAGGTAATTTCCAGAGATAAAGATCCTCAATTATTTGAAATAGTCGATAGATTGGCTAAGAGAGCTAATATACCTTCTCCTAAAATCGCTGTAATGGAATCTAGCGTTCCGAATGCATTTGCTACTGGTAGGAATCCAAAGAATTCTTTGGTTGCGGTTACTACTGGTATTAGAGAACGATTATCATCTTCAGAATTAGAGGCAGTTTTAGCTCATGAATTAGGGCATGTTATTAATGGAGATATGAAAGTTTTAGCTATAGCTAATTTCTTTGTAACTTTTACTAGTTTTCTTATGCAAATGTTTTTTTGGAATATGCTTTTTGGTGGAATTGGAGGTAACAGGCGCCAAAATGGAGGTTACATTATTGTAATATATTTTATTACTATGCTTGTATATTTTATAGGACAACTTTTAGTTTTAGCTCTTACTCGTTATAGAGAATATGGTGCAGATAGAACAGGGTCATATTTATGTGGAAAACCTAATGATTTAGCTTCTGCTTTAGAAAAAATTAGTGGAACGATTTCAAGAATTCCTTCTCAAGATTTAAGAAAAGTTAAAACTGCTAGTGCCTTTATGATTATTCCTGCTTTGTCTGGAGACGATGTAGCAAAATTGTTTTCTACTCATCCTCCTGTACAAGATAGAGTAAGAAAGTTAAGAAAACTGAGACAAGAAATGAATAACATTTCTAGTAATGGTTAATGTTCTTTCTCAGAAAGAAGAAATCGCATTGGGAGGCAATTTCTTCTATATTACAATCAAGAAATTACTTAGAAGAAAACTCAATTAGATTATCTAGTAGATCAGGTGTTTTAATTTCACCTTCTGATCATTCTTTCTTTCAAGATTTAACGACTAATGTAGATAAAATTGTAAAAGATGGACGTACTGATTCCAATACTGTAATTGAGGTTTTAAAAGATGATCAAGAAACATTTTGGGTTTTAATTAAAGATGAAGATTTTCCTGAGTTAATTTCTACTACTTACACAGTTATAAATGCAGTGTCGAATATTGTAAAACCCGATAATATAATAGGATCTGTTTTCAAATTAGATTTGAGTCAAAGTAAACTAATCGATGTATATGGAAAAGTTGAAAATTGTTATCTGATTTTTAACTCTGATTTTTTAGGATATTATCCTTTTGTTCCTTCTGGAGAAGAAAGATTAAATTCTTTAGAACTGGATATTTATGATATTTTAAGTTCAAAAGGCTTAGAAGTTCTTTCAGATTTTAATAAGTGGTATGGTATTTCATCAATTCCATTTTGATTTTATGAGGTTTTTATGGTTTTAGTATTTCTAACGGATCCCAATGAAAAAATAAATTATCATGAATCTTTCAACCTTAAGTTAGGTGTTGGTAAATGGAAATTAATAGATAAGCAAAGCACTATTAAAGGATCTGAGAATTCTTTACTTATTATAGGGAATCATGATTTGAGTCAAAAAAGAAAAGTAAATTTTCAAGAGGTTTTTCAGAAAGCAAGAAAGCTTAAATTGAAAATTATAGGTGTTGAGAATGGAATGTTTTTAATTAATGAAACACTTGGTGGTAAAAAGCATTTAAATAAAGCCTGTAAAAACAATGAAATATTTATTGGTCTTGGTACAAAGATAGCTAGTATTATTGGAGGATCTGGAAACGTAAAAGTTTTTTACCCTAGGTTAAGAAACTTAAAGATTAATTATAAAGCAAACAATTTAATGGTTTCTGCTATTAATCATGAAAATGGATTTATAGAGGCTATAGAATTAAAAGGAGAGGAAGAAATTTTAGGAGTTTTATGGCCTGTGTTTGCAAAAGATAAATTACCTAAAGGTTTTGAAAATATAATTAAATATATTGTTGATTGATAGTGGGTTTTTTATTGTTAATAAGTATGGGGTAATTATAAAATAAATATGTATATATTTAAGGAAAATTATGGTTACTGAGAATTCAGAAAAATTTAATTTAATTGGCATTGAAGATGAGATGAAAACGTCTTATCTTGACTATGCAATGAGTGTGATAGTTGCGAGAGCTCTTCCAGATGTTCGAGATGGAATGAAACCTGTTCACAGGAGAATACTATATTCTATGTATGATTCAGGAATGAGATCTAATTCTTCCTATAAAAAAAGTGCTAGAGTTGTTGGTGATGTTTTAGGTAAATATCATCCTCATGGAGATGGAGCTGTCTATGATGCGATGGTTAGGATGGCTCAACCATTTAATATGAGATATACGATTGTAGATGGACAGGGAAATTTTGGTTCAGTAGATGGGGATCCACCTGCAGCAATGAGATATACAGAATCAAAATTAGCGCCTATAGCTGACATGATATTAGCTGATATAGATAAAGATACTGTTGAATGGGCAGATAATTTTGATGCTTCTCTTCAAGAACCAACAACTCTTCCAACTATTCTGCCTACTCTTTTAGTTAATGGAGCAGCAGGCATTGCAGTAGGAATGGCAACTAATATGGCTCCACACAATCTTTCAGAAGTATGTGATGGGTTAATAGCATTGATTGATAATCCTGATTCTACAATAGAAGACCTTATGGAATTTATAAAAGCTCCTGATTTTCCTACAGGTGCGCATATTTGGGGATTGGAAGGAGTAAAATCTGCCTATGCAACAGGGAAAGGCAGAGTAATGATGCAAGCTAATCATAAAATTGAAGAAGGGAAAAACGAAAAACAAAGTATTATTTTTAATCAAATCCCTTATCAAGTTAATAAAGCTAACTTGGTTATTCGAATTGCTGAATTAATTAAAACTAAGAAGATAGAGGGGATATCTGAGGTTAGAGATGAATCTGACAGAAAAGGTACTCGTGTTGTTATTGAATTAAAAAGAGGAATTACTCCTGCTGTTGTTTTAAATAATTTATATAAAAACACTCCATTAAGATCATCTTTTTCAATAAATATGTTGGCATTAGTGGATGGTACTCCTAGAGTCTTGAATTTGAAACAAGTCCTTAAGCATTTCATAGATTTTCGAGTTGAAATTATCACTAATAGGTCTAAATATGAATTAAATAAAGCTCAAAATAGAATTCATATTTTAGAAGGATTGAAGATAGCATTAGATAATATAGATAAAGTCATAGAAATCATTAGAGCATCTAACACTGTTGAGGAGGCTAGAAATAGTTTAATTAAGTCCTTTGATTTATCTGATGTTCAGGCTCAGTCCATAGTTGATATGCAATTAAGAAGATTAACTGGTCTTGAAAGAGAAAAATTAGATAATGAATACAATGATTTATTGAAAATGATCTCTGAATTAGAATCTTTGTTAAATGATCCTGATAAAATACTAGAAGAAATAAAAAATGAAACTTTAGGGCTAAAAGAAAAGTATGGAGATAAAAGAAAAACAAAGATACATAAACAAGAGTTAGGAGAATGGAATAGGGAAGATGTTGAACCACATGAAGAGATGGTGGTTACCCTAAGTCTTAATGGATATCTCAAAAGAGTGAGTACAGATTCATTTAAAAGGCAACACAGAGGTGGAAAGGGAGTAAAGGGACAAAGAATGACTCAAGAAGAAGATGTCACTCCTTATTTACAAGTTTGTGACACTCATGATTCACTTCTTTTCTTTACAGATAGAGGACGTGTTTTTTCTACAAGAGTTTTCGATTTGCCAGCTAATCAGTCAAGAACTTCAAGGGGAGCGCCTGTAGCAAATATTATTAGTTTGGAGCCAAGAGAGAAAGTGAATGCAATTTTAGCTGTTCCTAAGTTAGATCAAAAAATAAAATCATATATAGTTTTATCTACAAGAACTGGTCTAATAAAAAGGATGGAAGTGTCTCAATTGAAAAATTTAAGAAAATCAGGATTGAATGCTTTTAAACTTAAAAACGATGATGAATTAGTTTCAGTGAGATTAGCGATTCCTGATAATACTTCAGAAGAATCTTTATACCCTGATGTGATAATGGTTACAGAAATGGGTCAAGCTATAAGATTTCCATTGGAGGAAATAAAATCGAGATTAAGGAATGCAGGTGGAGTAAGAGGAATTAATTTAAAAAAAGGCGATAAGGTTGTTGTAATGGATTTGGCTAGGCCTGAAGATTCATTGTTAATTGCTAGCCAAAAAGGTTTTGGAAAATTATCAGATATGCGTTATTACACTCGTCAAAGAAGAGGAGGGAAAGGGAACTTAACATTGCGTATAACTCCTAAGAATGGAAAAGTTGCAAGTGCACAGGTTGTAGGACAAGAAAGTGATGTTTACTTATTAACTGAGAAAGCTGTTGTACAAGAAATACCTTTGGGTGAAATTAGTAGATATGGAAGAGTAACTCAGGGTTCAACATTAATGAAATTAAATGCTAGAGATAAAATTGCTTCCATAAGAGCTGTGTCTCCATTAAAAGTTGAACAGCCTAAAAAGTAATTATTTTGATTTAGATCAACTCTTATTAGGTGAAAAAAGTGAAAAATTTGGATGATCAGTTAACTTTAAGAGAATGTTGGGGAAGATTTACTACTGGAGTAAGTATCATAACAACTAGGCTAGATAATAAAAAAATTCATGGTATGACTGCTAATGGAATTCTTTCTGTCTCTTTAAATCCTCCAATTGTTTTAGTTTCTATAGGTATTGAAAGAAACACTCATGATTTTATAAAAAAAAAGAAATCATTTGGAATAAGTGTCTTGAATTCCAGTCAAAAAGAAATAGCTGAATATTTTAGCAAAGATAATATTTTGGGAGAAAATTTTTTTGACTATAAAGAGATGCCTTTAGGTGAATTGGTAATTTGTAAATCAATTGCACAGTTTGAATGTAATCTTTTTAAAGAAATAAAGATATTTGATCATACACTATTTTTAGCAACTATTGATAATTTTGATTTTTCTGAAGGAGATCCATTAATTTGGCTTGATTCAAAGTATAAAAAAATATAGATTAATTGATTTTAATTAAATAAATTGTTTAATTTAATGATTATATTGGTTAGAATTTGTATAATTAATTGACCCAATTCGTTTTGAATTGTAGAATCTCATGGTTGTTATATAAGGATAAAGTTATGAATGATTATGCGATAATAAAAACAGGTGGAAAGCAGTATGCTGTTACTCCTGGTCGTAAAGTAAAAATAGAGAAAATAGAAGGATCATCAGGAGATAAAGTTAACTTTGATCAAGTTTTGTTAACTTCTTTGGATGGAAAAATAAGTATTGGTTCTCCTAATGTAAAGAATGCAACTGTTATAGGTGAGATTCAAGATCAAGTAAAAAATGATAAGGTTACTACTTTTAAATATCACAATAAAACTAGATATAGGGTAAGAAGAGGTCATCGTCAACTAATGACAGATGTTTTAATTAAAGATATTGAAAATTCAATTTCTACTAAGAAAGTGAAAAAAGATTCTAAAAAATCTACTGTAAAATCTTCAAAAACAAATACAAAAAAAACATCTGAATCTAGGAAATAATTATGGCTCATAAGAAAGGTAGTGGAACATCTAGAAATGGACGAGATAGTGCAGGGAAAAGATTAGGGGTAAAAGAATATGCTGGTACTTTTGTTACTGCTGGATCTATTTTAGTTAGACAAAGAGGAACTCCTATTAAACCAGGGTTGAATGTTGGAGTAGGAAGAGATCATACTTTATATGCTTTAAAAGACGGAACAGTAAAGTTTGATTTTGGATCTAAAAGTCACAAGAGAGTGAATATAGAACCATTAAAAAATAATAAGAATTGAGGTAAAGATTGAAATCTGAAATTCACCCAAAATATTTTCCCAATGCAGTAATCACTTGTTCTTGTGGAGAAAAATGGACACTTGGATCTACAAAGTCTGAGTTAAGTGTTGAATTATGTAGTAAATGTCATCCATATTTTACTGGAGAACAACGTATTGTTGATACTGAAGGTAGAGTAGAGAGATTTAAGAGACGTTTCAAATTAGATGAATAGAGTTAAATGAGTTCTAAGTTTGGTGGGCAAGCTCTGATTGAAGGGATAATGATCCGAGGTGCTTTACGTGCTGCAGTAGTAATCAGGAAAGAGGATGGGACTTTTGTAGAAAGAACTTATGATACAAGCCCTTGGGCAATCGGAAAGATAAGAAATGTTCCAATATTAAGAGGTCTTGTAGTCTTGATAGATACTCTAGTGATAGGAACAAAAGCTCTAAATTTTTCTGCTTATGTTTCTTCAGAAGATATGGATGTTGAATTATATGAAGAAAAAAAACAATCACCTTGGGCAGTTATTCCGGTAGTAATTTTTTCATTTGTTTTTGCAATTGGTATATTTTTTATTGTTCCAATTTTAATATCTAATGTATTTGAAGGATTTGGATTAAATACTTTAATAACTAATGCTATAGAGGGGATATTAAGATTGTTATTTTTAATTGGATATATTTGGTTAATAAGTCTTTCTAAAGAAATTCAAAGAGTCTTTCAATACCATGGAGCTGAGCATATGGCTGTAGCTGCATTCGAACATGATGAGAATTTAGAAATAGAAGAACTTAAAAAATATCCTACAGAACATCCAAGATGTGGAACTTCTTTTTTAATTACAATTTTTGTTATTGCATTAATAATTTTTATGTTTTTCCCTAGAGAACCTTTATGGTTTTTAATAACATCTAGGTTAATTTTGATTCCATTACTAGTTGCAATTAGTTATGAAATTATTAGATTTTCAGGAAGCAATGAAAATAGTTTTCTTTTTAAAATTATTAGTTGGCCAGGAATTTTTTTACAAAAAATAACAACTAAAAAACCTAATGATGATCAATTAGAATTGGCTATTCATTGTATGAAGTTAGCAATAAAAGAAAATAAATAATCAGATCTATTTTCTTCTATTTGATAATTCTTCGAATACTTCATCTAATTCAATATTAGCTGCTTGTATAAGGACTAGTAAGTGATAAAGTAAGTCAGAAATTTCATTTATTAATAATTCATTAGTAGTTCTTTCAGTATCTAAAAATTCAATAATTGTTTCTGAAGATTCTTCTATTATTTTTTTAGATATTTTTTCAGGTCCTTCCACGAAAAGTTCAGAAGTGTAGGATTTTTTTTGAGGATTAATTTGACGATCTTGAATTATTTTAAATAATTCATAAATGATTTCAACTTTAGATTTTTTTGGGTTTTTTAAATTATTTTCTAGGTTCCTTTGATTGGTTTTTTCTAATTTTTCAAAGCATGAAATTTTTCCTGTATGACAGGTAGGACCATTAGGTATTGCTTGTATAAGTAATGTATCTTGATCACAATCAATTTCCATAGATATGAATTTCAAATAATTCCCTGATGTTTCTCCTTTTTCCCAAAGAGAATTTCTAGACCTACTATAAAACCAAACATTTGGTCCTTCAATAGTTTTGTTTATTGCTTCAATATTCATGTATCCAAGCATTAAAATTTCTTTAGATGAGTGATCTTGAATAATTGCAGGAATAAGTTTTTGATCTTGATTATTCATTAATGATTCTCCATTTTTTTGAATTATTATTTAAAATTACAATTAATTCAGTTAAATTTTGTATTTCTATTAAGTTATCTATTTTATATTTATGATTTTTAACAAGGTTATTTCTATTTATCCAAATAGGATTTAGATCAGCTAAATATGATCCTATCACGTCGTCAAAATAATTATCTCCTACATACCATGCTTCTTCTGGTTTTATTCCTACTTTAGATAACATATTTTGAAAAATTCTTTTATCTGGTTTATATAGTTTAGATCTCTCGGAACTGAAGATATCAGATTGTGGAATATTTAAAGATTGAATACATGGATATAGAAAACAATCATCTGCATTAGAAATGATAAAAATTTTATATTCTTTTTTTAATTCTTCTAATACAAATTTAGTTTCTTTAAATATTTTTCTTTTTGAATGTTGATTAAGGAGTATTTCTAAAGATTCTTCAATATTTATTTTTATATTTAGTTTTGAAACTGAAATTTTTAAACATTCTTTCCAAGCTTGTGCGTATGTTTTAAATGGTTTTTTAGTTATAAATTCATTAAGAAGGGGATCTTTTGTTTCAAATTTTCTAATTCGTGTTTCTCGAAATAACAATTCATGATTTTTCCAAGTTTCCCAAAATTTTTCAGGTGAAATGGGTAATTTAAACTTAATACAGATTAGTTTAAAAGCATTTTTCCATTCTTCTATACTATTTGAAACAAGTGTGTCGAAACAGTCAAAAATTATTATTTTGGGGTTATTAAATTTAATAATTTCCATTATTAGTTTTAAATCAATCTGATTGGAACATTTTCTGAATTTAAGTAGTCTTTTACTTCTTTAATGGAGTATTTTCCATAATGAAAAATACTAGCGGCAAGAACAGCATCAGATTTTCCAATAGTTAATGCTTCTAACATGTGTTTTAAGTTTCCTGCACCACCACTTGCAATAATGGGGATATTTACTTTTTTTTGAATACTTTTCAGTAAATCTATATCGTACCCTTTTTGTTGACCATCTTCATCCATGCTAGTAATAAGCAATTCTCCTGCTCCTAAAGAATTAACTTTTTCAGCCCATTCAATAGCATCTAACTCTGTTAATACTCTTCCTCCATGAGTAAACACACTCCAAGAGTTATTGTTTCTTTTAGCATCTATAGCAACAACAATGCATTGAGATCCAAATTCTTCTGAACTTTTCCTAATGATATCTGGATTTTCTATAGCCGAAGTGTTTATAGAAACTTTATCAGCTCCCGAATTAAGTAGGTTCCTAATATCATCAAGATTTCTTATTCCTCCTCCTACAGTTAGCGGTATAAATACTTCTGAAGATACTTTCTCAACAACGTCTAATATTATATTTCTATGTTCTGAACTAGCAGTTATATCTAAGAATACTAATTCATCAGCTCCTTGATTGTTATAGAAATTAGATAGTTCTCTGGGATCTCCAGCATCTTTAAGAGATAAAAAACTAGTTCCTTTTACTACTCTTCCTTTATCTATATCTAAGCATGGTATTATTCTTTTAGTTAACAATATATTTCCTTTATTAATTATCAAATAGAGAAATAGCTTTTTTTAGGTTTATATTGTTCGTATATATTGCTTTTCCAATGATAACTTTTTCTATTCCTAATTTGTCTAATTCTATAATATCTTGAATATCAGAGATGCCCCCTGCAATTGTTAAACCACTAGGGATTAGATTTTTCATAATATTAATTTTTTTATAATTTGGATGTTCTAACGTTCCATCTTTAGTGATATCAGTGAAAATGAAATTTTTCACTCCAATATTTTTCATAGATTCAAGAAAATCTTCAATGGTGATTTTATAGTCTTCAGTCCATCCTTTTATTGAAATAAAATTTCCTTTTGAGTCTAAACTTACTATTATTCTTTGGTTTCCAAATTGTTTGATAGATTTTTTGATTTCATTAGGATTTTCTACTGCTGTAGTACCAAAAATTATTCTTTGAATTCCAATATCTTCTAACAGATGATTTGCTGAATTAAAATCTCTTATTCCTCCCCCTACTTGTATTGATAAATTAGTGATATTTTTAATTTCTTTTATAACTTTTAAGTTTTCTATATTTCCAGATAAAGCTCCGTCTAAATCAACTATATGTAATTTTTGAGCACCTAAATCTTCCCAATTTGAAGCAATTTCTAAAGGGTTATTAGAGAAAATTGTTTTATCTTCATATTTTCCTTTATGAAGCCTGACTACTTCTCCATTTATAAGGTCTATAGCTGGTATTATTTCCATGAATCATTTCCCAATTTCAATAAAAGATAGAAAATTTTGATAAATTTTTAGTCCCACTATTCCACTTTTTTCTGGATGAAATTGAGTTGCAAAGACATTGTTTTTTTCAATTACTGCACATATTTTTTGTCCATATTTTGTAAATGCAGCTACTTCTGAATTATTAGTTGGAATACATTTGTAACTATGAACAAAATAAAAATAATCATTATTTTTAATTCCATTAAGTATTCTAGAGTTATTATTATCATTAATTTCTATATTATTCCATCCCATGTGAGGAATTTTAATATCTTCTTCATTAGATTCAATCATTTTAGCAGTTCCATTTATTAAACCTATTCCATTTAAAGATCCTTCTTCAGAGTTTTCCATTAATAATTGCATACCTAAGCAAATTCCTAATAAAGGAGTTCCGGAAAATGTTAGGTTTTTAATAGAATCAACTAAATCTTGTTTAATGAGATTTTTCATTGCTGGATCAAAAGATCCTACACCTGGCAATATTATTCCATCTATATCTTTTAATTCTGTTTTAGATGTGCATATTTTCACATCAATTTTAAAAATCTCTAATGCTTTAATTACACTATGTAGATTTGCACATTTATGATCTATAACCGCTATTTTTTGATTGTTCATAATTATGATTTTCTTAAATCAGTTATTTCTTTTATAGCTTTATCATTGTCTTCGAATCTTCCTAGAATAAATAAAAGGTCACTAGCTCTGTTCACATAAGGAATAATATTAGAGTTTATTGAATTGTCTGATCCTATTAATTCTACTATTCTTCTTTCTAGTCTTCTAACAACTGTTCTAGCTACATCAATTGCTGCAGATCCTACAGAATTTCCAGGCATAATAAATTTATCTCCTAAGTTGATTTTTTCATTAATATTGTCTATTAAAGATTCAAGATTATTTACCATATCTGTTGTGATAGTTTTAACTTGATCATTAAGTTTTTTCTTATTTTGAGGAGTAGTAGCTAATTCTGCGCCAATAATAAATAAAGAATGTTGTAAATCTTCAATAATTTTTCTAATATCATTGTTAGCTATCAAAGATTTAGCTAGTCCTAAAAAAGAAACTGCTTCATCAACTGTTCCGTATGTTTCTACACGCAGATCAGATTTTGAAGTATTTCCTCCAAATAATAGGTTTGTTTTTCCGTTGTCTCCAGATTTTGTATAGATTTTTACCATTTTCCTTTAATTATTATAACTGACAGATAATAAAGAGTTATACTATGTTGAAAGTATATTTTAAAATAATTTAATATAATTGTTGTATATAATGGAATTATAATGTCTCAAATACCTATAAATACAATTGAAATAACAGAAAGAGCAGCTTCAAAAGTAAGAAAGTTTGCTGAGAATGAAGGGAAAAAACCGTTTGCTTTAAAAGTTGCAGTAAAAGGTGGTGGTTGTTCAGGCTTAACTTATGATCTTGAAATAGTTGATACTCCAGCTGAAAATGAGAAGATTATCAAACAACATGGTGTGGAAATAAGAATTCCTAAGAAATCCTTTATTTTTTTAGCAGGTACAATTTTAGATTTTTCCGATGGATTAAATGGTAAAGGATTTTTATTTTCAAATCCTAATGCAAAAAAATCTTGTGGTTGCGGAACTTCTTTTTCAGTTTAAATATGTTTTCTGAAACATTCTTTGTTGATTTTAATCGAGTAAAATTTCTTTTTCAAAAAGGTTCGGATGCTTTAGATCTATTAGATAGATTATCTACGAATAGTGTTTTAGAACTATCTGAAAAAGGCATCAAGACAACTATAGTTACTGATGAGAAAGCAAAAATCATAGATGTGTTAAATGTTTGGAAAATAAATAATAATAAATTGCTTTTAGAATCAAATATAGAAAATATTAATAAACTTATTTCATGGATAAATAAATTTACTATTGAAGAAGATTCTCTAATTCAAAAACAGGAAGATTTTTTTAAAATATCTATAATTGGTAACGATTTAAATAAACTGTATGAATTTATTCCACTGCTAAAAAATACTAAAAAAGGTAATTTTATTGAATTTACTATAAGTTCTAAAAGATTCTTGATAGGCAAACATGAGTTATTTAATGGACTAGAGTCAATAGATTTTATTTGTTTGGATGGAATTTTGTCTAGAGAAAGACTAAAAAAAATGCTCTTTAACATAGATATTCCTGAAAAAACCCAAGAAGATTTTGAATTATTTAGGATAAAAAATCTTATTCCTAAATCAGGAAGTGAAATTACTGATTCTTATAATCCATTAGATTTAGGATTAGAAAGATTTATAGATTTTTCTAAAGGATGTTATGTGGGACAAGAAGTAGTAGCTAGGCTAGATACTTATAAAAAAGTACAGAATATTATGCATATGATTAAAGTTGATGATATAGATTCAAACATGAGGGGAACTAAAATTACTTCATCTTCAGGGGGATATGCAATAGCTATTTCTAAGAAGAAGTTCGTGTAATTTTTATTAGTTTGTTTATTTTTAGCTAGTTAAATTCTAGGCAGAAGTGTTTCTCCGCCGTCTATAATGATGTTTTGACCCCTTATCATGTATGAGTCTTCGGAGCATAAAAATGTTACTAATTTAGCTACATCTGTAGTTTCAAGAGATTTTCCTGAAGGAGGAGTTCTATTAGCAAGTATATTTATTTCAGAGTCCGATGGGAATGCATTTAATGCATCAGTCTTGATGATTCCAGGAGAAATTGTATTAACTCTGATGTTTTTATCTGCTAATTCTATTGATAGATACCTTGTAACAGATTCTAGTGCAGATTTAGATACACCCACAGAAAAATAATTAGATAAAACTTTTTGAGATCCTGGACTTGATATATTTATTATCGACCCTCCATTTTTCATAAGTTTGCTAGCGAAGATTGATGAAATCCATGGCCCTTTAGCATTTGTATTCATTACCCAGTCCCAATGTTTAGGTGAAAGTTCCTCTGATTTAACGTTTATTCCAGTGGCAGCATTGTTTACTAACACATCAAGTTTTCCGAATTTGTTATTTATTTTTTCAAAAAGAATTTCTATATCTTTTTCTTTTCCTAGATGAGTTTTAATTGAGAAACATTCTTTTTTCTCTTTTTTTAATTCGGTCAGAGTTTTTTTTGCAATATTAGAGTTTCTGAAATATGTGAATGCTACGTTGAAACCTTGTTTTACTAAATCTAAACAAATAGCCTTACCTATCCCTCTGGATCCACCTGTAACTAATGCAAATTTTTGATTTAATTTATCCACTATTTTTTATATGGCCATTCCACCATCTATCTTAATTATTTCTCCAGTCATGTAGGTTGATTTTTCTGAAGCTATAAATGAAGCAATCCCAGCAATTTCTTCTGGTTTTCCAAATCTTTTCATAGGGATCCATGTCATAATTGTATCTTTCAATTTTTCTGATAGAACATCTACTGTTGCAGTAGTTATATATCCAGGAGCAATTGCATTAACAGTAACTCCTCTGGTGGCAAGTTCTTTAGCTAATGACATTGTAAAAGAATGTATTGCACCTTTAGATGCTGAATAATTTGTTTGACCAATATTACCTCTTAATCCTACTACTGAAGTAATATTTATAATTCTTCCCCATCTTTGTTTTACCATATCTGGAACACACAAACGCGTACAATAGAATGTTCCTCTGAGATTTGTATCAATTACTTTATCAAAATCTTCATCTTTCATTCTCATCAGTAAATTGTCAGAAATTATGCCTGCATTATTAACAAGGATATCTATATTTCCAAATTTGTTTTTTGAATTAGAAATTAATTTCTCAACATCTTTCTTATCAGAGATATTAGCTTGAAAACAATCAGCTTTTCCTCCTATATCTTTAATTTCTCCAACAACTTTTTCATCATCTTCCTTATGATTATTATAATTTATAGAAATTGAATGCCCATCATTTGCTAATGATTTTGCTATAGCAGCTCCTATTCCTCTTGATGCTCCAGTTATTAAAGCATGCTTCTGTGTCATTTATTCTCCTATAGTTTATTGGATTTTATACTTGATCTGAGTTCCGAAAGTTGTTTTTTTGATTCTTGGATATAATTTTTCCTAGCCAACATTGCTGCAGTGCCTATTCCATTTGAAATTGCTTGAGCATTAGATTTTCCATGTCCAACTATAGCAATTCCATTTACACCAAAAATAGGTCCTCCCCCAAATTCTTGCATAATGTGGGTTAATCTGAAAATTTCATTTGATATATCTTTTAATTGATCTGATTTAGATTCTTTAGATATAAATTCTGTAATAATTTTCCCCAATCCTTCTATTGATTTTAATAAAATGTTCCCAGTAAACCCGTCACATACTACTACATTTGCTTTTCCTTCAGATATATCGTCTCCTTCAATATTTCCAACAAAATTCATATTAGAACTTTCTAATAGTTCAGATGTTTCTTTAGTGGATTTATTTCCTTTTCCTTTTTCAGATCCATTACTGAGTATAGCAACAGTTGGGTTTTCGATATCATATAAAATTTTTGCTTGGGTAACACCTAATGCTGCAAAATCAAATAATTGTTTGGGAGAACAATCAACATTTAAAGCAAGATCGAGAATCAAAGTTTTAGGTGCAAAACCATTTACAGCTCCGCCTCCAGCTGGTTTTGATAATCCTTCAAACATCCCAAATGCAAATGCAGCTGATGCAAATGTTCCTCCGGATGCACCACAACTTACGAAACCATCAGCAAGTCCTTTTTTTACTAATCCAGCACACACAAATACAGATGCCTCTGGTTTATTTTTAAATGCCATTCCAGGAGGTTCTCCTTCTTCAACTACACCACTCGAAGGAATAATTTTGATTTTCTGAGAATCAATTTTTTGATTTTCAATTTCTCTTTTTAGAATATTAGGATCCCCTACCAAAAGAATATTAACATTAGATTGTTTTGAAGCTATAAGTGCCCCTTTAATATTGTTATAAGGAGCAAAATCTCCTCCCATTCCATCTAAAGCAATAGTAACTTCTTTTTGATTCATATATCCTCCAAATTAACAGTAGATATTCCTGATATTACTTCTTCTCCATCTTGTTTAGTACAATTCACTGAACAAGTAATTTTAGTGAAATTTGATTTTTTTTCCATATTTTTTATTGTACCTTGTGTGGAAATTTCATCGTTAAGAAAAACAGGTGATTTAAATTTTATTTTTAATGAACCTGTATAGAGCCATGTTTCTTTAAAATTTTTATACATAAAGTCTGAAATGAATGAAATTATTAGCATTCCATGAGCAATTCTTTCTCCAAATTGAGTATTTTTTGCATAAGAAGAATCTAGATGAATAGGGTTAATATCACCTGAAGTTTTAGAGTAATTAACAACTTGAGAATCTGTAACTTGATGAATTACTGACAATAATTTTTTGTTTTCAGACATTTTTATGTTCCTTCTTTGTAATAAACAGATTAGATGAAGAGTAGGCAATATTTTGATTATTGATGTTTTTGAAGTGCATTTCTATATTTACCATAAGATTTCCTCTAATGATTTTCTTAGATTTTAGTACACATGTACAAATTACTTCTGTATCTACCTTTACAGCAGAAAATAAACTCATCTCTTGACTAGTATGAACAGTTTCGGAATCATTATTGAAAAGATTAAGGGTTTTTAGAAGATCTTTAAATCCTAAAGTTATTAGAGCAGAAATAGGATAGAAATCAATTTTTTTTTCTACGGTTAATTGGCATGCTTCTATATAAGAATCAAGGAATTCTCTGGTAGTATTTAATTTATACTCTGAAATAATATCACCAGATGATAAGATATTAAGGATTATATACTCCTTTGAATTACAATTATCAAAATACTTTACTTAAAAATTTAGATTTAATAAAGCTTTTATGAAGAGAGAAAAAAGAAGAACAGCTGTAGTAACTGGTGGGGCAACTGGGATTGGAGAAGCTATAACTATGAAGCTTTCTAATGAAGGTTTTAATGTTGTTGTTGCAGATTTAAATAAAGAAAAAGGACTAGAAATCTCCCAAAAAACTGATAGCCAATCTGGAGATATTGCTTTTTGTGAAACTGATGTTACTAATCAAAAAAGCATAAAAAACCTTTTAGATTTTTCATTTAGTAACTTTGATAATTTAAATATTTTGATAAATAATGCAGGCGTAGCTGGGGCAAAAGGTTGGGAACACGAATCTGTATCTAGAGAGGAGGATTGGGAAGCATCTTGGAAGGTAAATGTTTTAGGTTTAATAAATGTTACTACTGAATTTTTACCAGAATTACAAAATAATAATGATAGTAGGATAGTTAATATTGCGTCTGTTTCTGGAAGACAAGGTAGGCCTTCACTTCCTCATTATTCTTCTACTAAGGCAGCAGTAATAAATTTTACAAAGTCATTAGATAAAAGATTAAAAAACAATGATATTACTATTAATACTGTCTGCCCTGGATTACTTTGGACTCCTATGTGGGAACAAGTTGGGTTAAAGTATTCAAATACTCAAGAAAAATATAAAGGATTTAATGCTAGAGAGGTTTTTGATGATATGGTGCAAGGAAGTATTCCTTTAGGAAGGGAGCAGACTCCACAAGATGTTGCTAATTTAGTTTATTTTTTTACTTCACCAGAGTCCGCAGGTTTTTCGGGTCAAGCTGTTAATGTAGATGGGGGATTTTTTCTAAATTGATATGAGAATGATTCAAATTGATAAAGAAAACATGAGCTCGGATCTAATTTTACTTTATAATTCAAAGTTTGTAGAAAAAATCCAAAAAACACTTTTACAAAAATATATAAAAAATCATTTAAATCACATAGAAGAACCCATAATTTCCAATCTTGATAATCAGAAAGAAAACTTGATAATCATTGTAGATTTTGAAAAGGAAGTTCAATTAGATTCAGAGTTTATTCAATTAAAATATTTCAGAGATATATTAGAAAATTTAGATAAGAATACTAATTATAAAAATATAGTAACCATAATTTCTGAAATTGGTGTTTTGGGTGATGAAATTCATTATTTTAGAGCTCTTCAATATGCAGCTGTAATAAATATTGCACAAGCATATGCTCTAAGATTAGGTTCTCTAAAAATCAGATTAAATAATATATGTGTTCCAGAAAATTTTGAATTATTAGAAAAATCTACTTTAATTAGTTTGGTAAAATTTTTGTTATCTCAAGAATCAATGAATATTACAGGGCAAACTTTAAGTTTATCAAGAGAACTTTTAAGATGATTTTATTTTTCAGAAATTAATTCTTCAAGAATTTTGTTTAATTGATATTCACTAACAGGCCCTATAACCTTTTTTATGATTTTCCCATTTTGATCTATAAAAAATTTTTCAGGTAAAGCTCTTACTCCGAAGTTTATTGCCATTTCTCCATTTGTATCTATAGATAAAGGGTAATTAATTGAAAAACGTTCTTGAAATGATAGAATGTTTTTTTCAGAATCCCATAATGATACACCTACAAAATTTATTCCTTTCTCAGACCATTTTCTATAAGCTTCTGATAAAACTGGTCCCTCTTTAATACATGGTGGACACCATGAGGCCCAAAAATCTATCATTAATAATTTTCCTTCAATATTTTCGGAGGATATTATTCCATGTGAAAATGTGTTTATTTCAAATTTAGTATAAGGGTCAATTCTCAAATTAGTTTCACTAAAAAACTCATTTAGTCCTGGTTGACCATGTTGGCCACCAGTAGAAATAGTTGACCATATCAAAATAAAAATAAAAAAAGACAAAAATATTAAAACTATTGGCATACTAATAAGTAAAAATTTCTTATTTTCTTGTTTCAATATTCCTCTTATAGTTGTTTAAGTTTTTCCTGAAAACCTTTTTCTAAAATTGCATATTCTTCTTCATTGATTATTCCGGATTCAAGAGATTTCTTTAGTTGATCTATCTTTAGAATCAACCTTTTTCTTTCTTGTGATAAATCATCATTTTTATCATTTTTGATATTAGAAATAATAGAATAAATTATTAAAAATAGTAACATTAATGAAATTACAATTATAATTATGATTTTATATAGATTAGTTTCAAAAAAAGTAAAAATTGATCTAAATGTTTTAGTCTTAGAGAATGGTGATAATTCAAGTTCAATAGAAGAATTTCTTTCATAATTGGTTCCTTCAGAAATTGTATAAAAATCTTGATCTATTTTAATTTTTTCTAATTGTTTTAATCCTTCTCCTTTAATAATTCCCTCTGGAACATTCATTAATATTCTAACTTTATCTGCACCAAAAGGAAGCTTTAGTTTAAAAGAGAATTTTGAATTTGTTATTTGATGAGAATAAGAAAAAATTATTTGATGTATTCCTGGAGGAATAGCATTAGATAATGCAAAACCTGTAGGGATTTCCATAATATTTCCAGGAGGAAGATCGCTGTCAACATTAAGATTTGAATATCCTTCAGGAAGGCTAAATCTTAATAAATCGAAACCTGAAAGATTTGGTTTTGATAAATCAGTTTGAAATGTTTTATCTCCCAAGTTTTCTAATGTGATCAATACAAGTACGGATACTTCTCCGTTAATTAAACTATTTTGTGGAATCATCAATGAATATTCTGAAATTTTTATATCATCTAGATTCGTACCTTTATCATATATTTCTATTATTAGATTATCCCATTGTTGCTGGAGATTTAATTCAGTGATTACTGATAATCCTTCATTTTCTGTTACTAAGAAATACTCATCTGTGTCTGTGATTGTTAAATTTGAGAAAGAAAACTGATATTGATTAGTTTTTGTATTTGATATTTCAATTATTTCTTCTGAGTTATTTATAATTTTAAAGAGTTTGATTATGTATTCTTTTGAAGAGTCAAAATTCTCAGTTTTATTTTGAACACGACCAGAAATTGTAATGGTTTTTTCGTCAGCTAGAATATATCCATGTGGTAATAATGTGAATAGAAAAATAAGAGTTATGAATAATTTTTTCATTTTTTTATATCATTATTCTCATTTATTTCTGAATTTAATTCTTTAAAATTTTCATTTGAAATATATCCAGCCTCATAGTCAGATTTTACTTGATTTAAAATGACATTTTTAGGTTCTAATCTATTTTTAGAGAGTAAAATCTCATTTTCTATTTCTTTTGAAAGAATTTTTTTATTAAATATTGGTAATGACAAAATTAAAACACAAATGATTGCAATAATTGTTCCTATAAAAATATACATTTCGTTATTATAATTTAGTATTTTTTTCTGTTCTAGGCCATAGTGTGAATATAGCTCCAATGAAGAATATAGGCCCTGCAAACCAAAGCCACGAAATAAATGGATTAATACTTATTCTTATTAGAAGTTCATCTTCTGATATAAATTCTGAGGGCACTATATATAAATCACCTAGAATAGTTGAATGAATTGCTGCTCTTACTGAAGCCATGTTAAATGATGGATAAATTGCATTTGATCCTTCTAGTTCTGTGATTTTTTTCAAATCTTTTTCTGAATTATTTTGTTTTTGATATATATTGAATTTTGCTTTTCTTTCAATTCTATCTTGAAAATTTTTTGTTTCAGTTTCTGAAAGTTCTATTTGATAACTATGAAAATCTAATAATTTATCTTTTGAAATAACATAATCAGCTTTTTCTTGATAAAAATTTGTTCCTATAATTCCCATTGCTAACATTAAAATTGATAAATGTACTATGTATCCTCCATGTTTAGTTCTGTTTCCATTTATCAACTTTATAAAAGCTATAAAAATATTTTCTTGGAAACGTTTAATTCTATTTTTAGTCCCTATAATCCATTCTTGTAGAATAGTTGCAAGAACTAAAGAAAGAGAAGAAAAAGCTAAAATTGCTAGAAAGTTAGAACTAAAAAAAATAAGGCAAATGATTATGCACAATACGAAAATCATCAAAGGGAACCTAATATTTTTGAAAAAAGATTTTATGGTTCCTTCTTTCCATGGAAGTATAGGCCCTATACTCATTAATAATATTAGTATCAATAATAATGGGCCATTAACACTATTATAGTATGGAGTTCCAACTGTTACAGGTTCTTTTCCAAATAATTCTGAAAATAAAGGGAAAACTAGGCCCCATAAAGTTACAAAAGTAATTGCTAATAATAAAAAATTATTTATTAAAAATGATGATTCTTTTGAAAGGAAAGAGTCAATTTTTCTAGAGTTAATGAGTTCTTTGTATTTCCAAAGAAATATAATTGAAGGAAAAATTATGCTTAATATCATAAAACTTAAAAAGATATATCCAAGGGTTGATGCAGCAAAAGAATGAACAGATACTACTGGTCCTCCTCTATTGATAAACATACCAAATTGAGAAAGAACAAAAGCTATATTTATCAAAACTAAGTTCCATAATCTAAACATTCCTCTTCTTCTTTGGACTATCAAAGAATGAATTAATGCTGTCAGTACTAACCATGGCATTAATCCTACATTTTCTATAGGGTCCCATGCCCAATATCCACCCCATCCTAAAATAGTATATGCCCACCATGATCCTAGCAGTAATCCGATTCCTAGCATTAACCAAATTATCAAAGTAGTAATTCTTACAAATTCTGTTCCTTTATCACTGTAATTTCCACTAATGAGCATCCCTGTGGTAATAGCAAATGGTATTGAAATTGTTGCTAATCCTGCCATTAATAAAGGAGGATGAGTAAACATACCTGGATGTTTTAATAAAGGATTAATTCCTCTTCCATCTTCAGCTTGAAATTCAAGTAATGTGAATGGATCTGCAAGAAATAACATTACTCCAAGAAAAAAAGAAAGAATTCCCATCATTATCATTGTAATATGTGGCACGGATTCAGGAATCCTTTTTTGGAGTGATTTTATTGTCAAAAATGATCCTATAGATATTACAGCAGATATATAAAGTAAAGAACCTTCGTTTCCTGCATAAATTGCAACCCAGGTATAAATAGGTTCCATAGCAAGATTGCTATGGTTAAATACATATTTGATACTGAAATCATGAGTAACAAAAGAATATACAAGTATAGAAAATGCTATAGAAATTATTGGTAGAGTTAAATAGGAACTCCATCTTGCGCTAATTTTCAATTCTTCAGTTTTAAAGTTCATACTTATAAGAAAACCTAAGATAGAATAAATAGATAAAATAAAACTTATTGTTATGCAAAATGTTCCTAAAATACCCATATTAATTTTCTTTCTTCGGATTAATTAAACTTCTGATTAAAAATAATAACCCAATAAAAATACTTGGTAATACAATTATTGGAACTAACCAAACAGTAAAATAAAAACCAGATTTTGGTGGATTAGATAATACAGAAGTTCCATATTTTGATTTGAAATAATCTAATATTTGATCATCAGTAGAGCCTTCTTCTATTTTAATCCTAACAATATCTCTCATATTTTTAGCTAATTGTGATTGTGATTCAGAAATAGTTTGTCCATCGCATACTGGACACATTATGTTTTCAAATAAATATTGAGCTCTATTTTCATCATCATTTATTTGATTAGAACAAAAAATTGAAAATGGGATNATAGAACATAAGAGTATTGATTTTAGATAAGGCATAATTTTTATTTTAATTTTCAATATCTTAATAATAGTTCAAGAGGTGGGAAAAGAATTAAAATAATTGTTAAAAATTATTTATTTAATCCGTTATCTTTATCCAGTATGAACTCAATAATTTGTTTTCTTTCTTCTTCTGATAGTACTCGTAAAAATCCTGGCATCGGACCGAATCCAATCTCAGAGTTGAGCATTTGATAAATTCTATTGTAGGCACTATCCCTATTTCCATATCTTTCTTCAATATCATTTAGTTGAGGAGGGCTAATATAGGGAGTTCCAGAACCTGAACCAGGAAGCCCTTCAACTTTATTTGTAGAATAATAACTATTTTCACTAATGATATATTCTTTTGCAGGGCCATCTCCTAAGCCTTCATTACCATGACAGAATGAACAGTTTACTCTGTATAAATTTTCTCCTGATTCATAATCATATTTGAATTTTTCTATAGTCATATCATATTGATTTTCTGTTCCTATAGGATCAAGATTAACTACAGCTTCTGCTACAGGTTTTAGTCTTGGAGTTTCTTGAGATTTATATGCTGGGCTATAATGCATCTCAGAAAATAATTCTATAGGATATGTAGTACTTTGGGTTATTCCACTTTGACAAGTAGGAGCAAGACTGAATAATCCAGTTAGTAATATTATTAATATATTTATTTTTACAGAATTTTTTTTCATTTTTTATTGTTATGCTTCTTTAGTGTCTAAAGCTCCAGAATCTTTAAATACTTTTTTAGCTTTTGGTAAATCTTTTTCTTCACAGTTAACAACAACTCCTATCAATCCTTCAGTGATTCTAGTGTCGTAAGCTCCAAGATTAAATTTTGGAAGTCTAGATTCAAATATAATACCAACTACCGTAGTAACTACTGCAGATAACATTGTCATTTCATACATTATTATAAGCATTGCAAATATTGATAAAATTGGTTTACCTCCAGTTACCAATGGATATGCGATCTGTGTGGCAGTAGTGATAAATATAGATAGAGTTAACCCTATTATGGCTCCAAATAAAGGGAATCTGAACAATCTATGTTGTGGAACATGTTCACCAAAAGTCCCTTCAGGATATGGAGTGCCAGTTAAAACATCACATTCGTGGGATTCGAAACCAGCATTATGTAGACCATCTAAAGCATCAGCTCCTTGATCTGGGGTATCAAATAATCCTAATATACTTTTTTTAGACATTTTTTCTCCTTGACTCTAGTCTTCTTCTCTATATATGACTGGAACAGTAGCTCTTCCTATTTTTGTTTCTGATGTAAATACTTGACTCTCTTTAGTTTCGAAAAGAGGAATTAGTGGGAAAAATCTAGCAAAAAGCAACATTAAGAATGAGACCCATGCAAATGACCATACTAAAATATACCATTCTACTAAACTAGGAGTATATGCTTCCCAAGTAAAAGTAAAAGGTTGTTTTCTTGCTAGTCCCGGTACAATAATTAGAAATCTTTCTAACCACATTCCAACATTTACCAATATCGATGTCCAGAACATGATAACGATATTATTTCTTGCTTTTTTAAATACCCAAAAACCTACAGGTATAATATATCCGGTAAAAAGAAATATCATAAATAATAAGTTCCAAGGCCAAGTAAATATCTGTAATTCTCTTAATGCTATTTCTGGTGCTTCACGACCATATACTGAGAATATTAATTCTAAGAAAGTACATCCTAGCCAAGCTGTTGCAACTACAATTAAAAGTCTTGCTAACGCGTCAAAATGTTCTGGTCGGATATGATTATTCCATTTCCATAACCATCTCATTAATGCCATCATAGTAACTACAGCTGATACCCCTGAATGAACTGCTCCAATAACGAAATACGGAGCAAATATNGTTGAATGCCAACCTTCAACTGAAGGAGTAATTGCAAAGTCCCAAGAAACTATAGAATGGACTGAAACGAAAATTGGTAGCATTAATGCAGATAATAAGATTCCTGCTACAGTTTGTAGTAGCCATTGCCTAGGATTTCCTCTCCATCCAAGAGCTAAAATTGTGTAAATAACTTTTTGCCATCCTGTTGTTCTGTCTCTAAGGACTGCTAAGTCAGGAATTAGAGCAACGTATAAGAATAATGTACTTCCTGTTAAATAGGTTCCTATAGCGATAGGATCCCAAAACAAAGGAGATCTAATATTTGGCCATATACCTCTAGCAAAATCATAAGGCATTAACCAATAGACAATTCTCCAAGGTCTTCCAGCATGCATTAAAGGAAAAAACAGTGCTGTTAATAGAGAAAATACTGTAAGTAATTCAGCAGCTCTTGTTACTGGTCTTCTCCATTCTGCTTGAGTCAATCTAAGAATAGCAGAAATCATTATACCTGCGTGACTAATTCCTACCCAAAAAACAAAAGTTGTAATAAATAAACCCCAATATACAGGTCTACTTAAACCAGTAACCCCTAAACCCGTGTTAAACATATAAAGTATTACCGCAAATCCAGTTACAACGAAAAAACCTAAGAATAACATTGTAGGTATGTACCATTTAGGTGTTTTAAGGTTACCTGATAATAATTCTTGGTTAATTTGTTTTTGACTTAATTTTCTTCTTTGTTGCATTCTTATCTAATCCTTAATCTGGTTTTCCAATTGCAATTACATGTGTTCTCACATATTTAACAACTTTAGTTAATAAAAGTGATTGGTGTGTTTCCCAAACTGATACAAGTGGGAATATTCTTGTTGAAAGAATGAATATTAGGGCACTTAGAGAAACTAATCCAATAAAAACTATAATATCTGCTACTGAAGGAGCCATGAATTGAGGAAAGTTTTCTTCAGGAACAAATTTTTTATGAATTACCTCGTTAGAGTATGTAGACCAAGAAATCACAAATATTCTTATTCTATCTAGAAGAACGCCAACTAAAACAAGGCATGCTACTACTGCTAATGCAGGAATACTCTTTCTTACAGGATTCCAGACTAATATCCACCAAGGGACAAAGAATTCTAAGAAAAATGCTCCAAGGAAAACAGGTAAATAAGGACCTATAATTAATAAATTAATGACCATCTGATCACTTGCAGATCTTCCATACCAAAAAACAATGAATGCTGAGTAAAAGAAATAAAACCAAAGTACAGTTGTAGCTAGTTGTAATTTTGATAGAGCCCAAAATTGAGGAACTTTAATATAATTTTCCATTCCCCAGTATTTTCTGGCAAAAAACATAGCAAGAATACAAATCGCAATTCCTGATTGTAGAGAAGTCATCGCATGATACATAGGGAAAATTGCATCTTTCCATCCCGCTACTAAACTTAATGCGAAATCTATACTAAATAGAAAATTAACAAACATTAACATTAAGAAATAAAATGTCCCCATCATTCCAATACGCATCTTTAACGATTTCCATTGACCATCAGTACCTATAAAACCTCGAGATAATGATTTTCCCATTTTTTTTCTCCATCCAGTTCCATGATCTCTCATTGCTGCTAAATCCGGGATACTTGAGGAATATAATAATCCTAATCCACATAAAGTTAATCCGAAAATTGATAGTGCAAACCAAACATGAGGCGAATAATTTGTTGCCTCGAACCATATTGATCTTCTTCTAGTTTCATCAACAATTAGAGGAGGCAGTGCGAATATTAGTGGTATAGATGCTAAAGCTGTCACTATCCCTACTACTGAAAATAAACTAGCTATTCTAGTTATTGGTCTAACCCAATCTGCTTTAGCAATTGTAGGGGCAATAGCTACCATTGGAGCAGCAGCAGCAGTAGTAAGTAGAAAAGAAATTGTTGCTGCGTAGTAACCCCAAGCGGATTTATCTTCAAANCCGTTAAGAATTTTTAATACTATTCCAACAATCCCCAATATACTTAAAATAGACAAAATCATAATGATNAATTTNATTTTTTTCGGAGCTATTGTAGTGGTGCNTATTAACTCTGATGTTGCCTTTGAATATTTAGCTATGTTTGTCTGTGTTGCCATTTTTAGTGATGTNTTCCTTCTTCATGATGNTCACTTTCTTCCTTATCATGATCTATTTTAGCTAAATAAAATATATTCGGAGAAGTTTGAAGATTATCAAGTAATGTATAAGATCTTTTATCGTTTTTCATTTGAGTAACCCTGCTGTTTTCATCTTTCTGATTTCCAAAAACAAGTGCATCTGTTGGGCATGCATCTACACATGCAGGAGAAATATCTCCATCTTTTAATTCTTCATCATTTTTCTTTGCATTTCTCGTAGTTCTTCTAATTCTCTGAATACACATAGTGCATTTTTCCATTATTCCCCTAGATCTTACAGTAACATCGGGGTTTAAATGGTTTTTTAAACTTTCTGGCCATTCAGGTTCCCAGTAATTAAAAAATCTTACTAGATAAGGACATCCATTAGCACAATATCTAGTACCAACACATCTGTTATAGACTTGAACATTTAAGCCTTCAGTTGTGTGATAAGTGGCATAAACAGGGCATACAGGTTCGCAAGGAGCATTATCACAATGTTGACATAGAATGGGTATGAATTTTGCTTTTACATCAGGAAATTCTCCTTCCCAATACCTTTCTACTCTTATCCATTCAATAGCTCTGGCATTTTTAAAGTTTTTTTCTGTGTTTATTGGGATGTTGTTTTCCGATTGGCAAGCTAAAACACAAGCTTGACAACCTGTACATTTATCTATGTCAACAGCCATTCCCCATTTAAATTTACTTTCTTTATTTTCTGTAACCATTTTTCCCTTATTTTATATTTTTATCTTTAAATGTTTCTTCCATGTGTTCTTCATGTGCTTCGTGAAGAGCATCATCTGCAGTTTGGTTTGGCCCTACAGTCAATATAGGAACACCAGGTTCTACTGCTACTGCTCCTCCTGGAAGTGTGCCTTCAAATTTTGCAATAGTTTTTGAATCTTGTGTTTTTTTGATTTTAACTGTGTTTTCTGCCCAAGAAAAAGTTTGAGAATGGTCTAATTTAGTATGACATAGTTTTAATACATTAACTCCTTTTCCAGCAGCATATCTTCCAGAGAACTTATGACCTAATCCTATAGGAACACCAATTACTTTAGGGTGAACTGCAGGATGAGGGAAAACAGGAAGTTTAATTTTCCCTGTTGATGATATTAATTCTATAATATCTCCTTGTTCTAAATTAAGTTTTTCTGCTGTTTTAGGATTTATTTCTGCCCAAGTATCCCAAGCTATAGTAGTTATCGGATCTGGGATTCCCTGAGCCCAAGGGCTAGCCGCTGTTATTCCATCTAAAATAGTATTTGATAAAAATGGAACTAAATAAAATTCTTTATTACTTAAATCATTAAATACATTATTGTTAGACACCTTAATACTATTAAGCTNTTGGTTAGATACATAATCATAATTATTTATTTTAGTATTAATATTCCACCATCCTCCTCTTGAAAGAACACCTTCTAAGAATTGTTTTTCATTGGATGCTATAACTGACCCTTGTCTATTTGAAGTAGTGGTTGAATAAAGTTTTGAAGTGAATTTTTCTATTAATTCTTTGTAATTTTTTATGCCTAACATTGGATCTGATAAAGAAATTAATACATCGTAAAAACTCTTTGAATCATAAATTGGTTTGGATTCTTTTCCTTTNGTAGGCGAATTCACTACAGGTTGTTGAAATAANAATGTTTGATATCCCATTAGTGGTTCTGGTATATCTACTCCCCAATCTTCTAGAGAATTATGTTCTGGAAGAATTAAGTCGGATGCTTCAGCAGTATCATCAAGAATTGATGAAAAACATACTTTTAATTTNATAGAGTCTAAGGCATTTGTTAAATCATATGGAATACCATGAATAATATTAGATCCACGTAAAATCAAAAGATTTGTTTCTCCTGATTCCCACTTGAGTGTTTCTTCTTTCCATTCTTGAAGATTATTAGCGTAAGAAGAGTCAATAATATTTATAGAAGGTCCTTCTTCAGAAACTTTAAATTCTTTAATAGGAGTTTCTGGATTAAAAATTATACCTCCTTTTGATCCTACAGAATTAGTGAGATAGTTTAATGCAAAAACTATTGACATACTTTCTAAACTATTTTTATATCCTTCTAATGGACCTCCTCCAAGAAATAAAATTTTACCTTTGGATTCCTTAATCTTATTTATTACATATTCAATATCTTTGACTTTTAAACCAGTATTTTGAGTGACATACTCATCTGTGAATGTGCTTAAATCAATATCTCCAATTAAATTTTTAAATTCTTTTTCTGCATCAGCAGATGAAAATAAATTGTCAGATAAAATATGTTTTGCTACACCAAGAGCAAAAATCATTTCTGTTCCAGGAATAGGACAAATCCATTTGTCAGCATTTGCGGATGTTAGNGACATTCTAGGTTCAATTGATATTAGTTTTCCATGATTTTGTTTTAATTTACCAAATTTAGTTTTATATTGAACTGGTCCCCAAGTACCTAAGAAATCTAATCCGAAAGAAATGATTAAATCAGAATTACCTATGTCAAAATAAGGCAATCTGTCTTGATCAAAAACTGATTTCATTGTTTTATTCATTAATCCATTATTAATTGAGTCAAATTTTAAATGTTTCATAGAGTTAAAATTTGAAAAAGATTCAANNAGTCCAGCATTTAAACCTCGTAAAGGTCTTGTAATTAAAGTTGATTTACCTTTTGATTCGTTTATTCCTTTNTCAAGNATAGAGATAGCAGAACTCCANGTTATTGGTTTGTGTGCTCCAGTCTTAGTTTTTCTGTAGAGTGGAGTAGTAATTCGGTCGGGGTGATATAACATCTGGAGATTTGTTTCAGATACAACACTCTGTTTTCCTAGTGAGTTAGGAAAATCTGGATTTCCAGCAATTTTTTTTGCTCTTCCTTCCATTACTCTAACGAGAACGCTTTCTCCATAATTAGATATCCCGCATGAAGTTGCATACCATTGATCTTCACCTCTTACTAAATCTTCAGGCATATCTAATGGGCTCTCTACTATTAATTCTTCTTCTGGAACGCCGCATGCCTCAAAAATTACAGCTCCTGTAGCTGTAGCACCAAGAAGACCTAAGAATTTTCTTCTTGACAATTTACTTTTAGTTACTGAATTTTTTTTCTCTAGTGATGACAAGTTTCACATCCTATTGAAGCTTCATTTGCTCTATGACAAGCTACACACTGGCCCATTTTTAAAGGTTCTTTTTGAGCTACTTTTTCCATATTAGATATTTGTCCATGACAGTTAGAGCAAACTTGAGATGCTTCTACTGTACCGTCACCTAAAATTTTAAAATCGGCTGATTTATTTTGTATAGCATCGGGATTCGATGTCAAATATCTAATATGAGGTTCATGAACAAATCTTACATGATCAGGCATNCTATGAACTCTTTTCCATTTAATAGGNGCTTTTGTTTTTTCAAATAATCCATATTCTCTCAATTTAGTTAGTTCTTGGCTTTTATCGCTTCCTATTACTTTATGGCATGAAATACATAGCTCTACTGGAGGTATTCCTGCCCAAGCTTCTTTAGTTACAGTTTTGTGGCAGTAAGTACAATCCATTCCTAAACCTGTTTGAGGTTCTCCAGAATCATTTACTCTTTCATTTCCATAAATATCTTTGTATGGTTTTCCAGTTTTCTGGTCAATCAATTTACCTACTCCAGCATGAATAGTATGAGGAAAAGCAATAGGTTGATCAGGGCTCTGGTTAAATCCGAAGACTGGAAGAGGATTACCAAACCATGCAGTGATTAAAAACGCTGTGACGAAAGCCATTACAGCATGAAATGCAAGACCACCAAATGCTAAAACTGGCATTAGGATTTTTAACCATGTTGGTGTATTTCTGTCTTTTTCTTTTAAGAACTCTATAAATTTATTAAACAATTTTCTCCTTATTGCCAGAACCTTGGGTAGAATTCACTTAAGAAGGTCATGTTTGCAAAAGCATAAATAAATAAAATAATTTCTAAAAAAAGAGTTCCAAATCCAAATAGGTATAATGGAGCTCTAATAATCACCCATTTTCTACTTAAATGATGAGAGTCTACGGCTGAAGGAATGATAGCATGAGCAACTAATAGAGAGACTGCGGCCGCAGGAGCCATTAAAAGGCATATCCATAAGATTCTGAGAGCCGTCAAACGCATTAACCAATCTGCTATATTTAATGAACCTGGATCCATGGATAAGATTTAATAATTAAAATATTTGATTTATAAACACTTTTTAATACAAATAGGAGATTATTATAAGGTTACTAGAATATCAATAATTTTATGATTTTTTTTTTCATATTTAATTGTTAAATTTTAATATTAAATTAATTTTTGAACTATAACCTTGTTTTCCAGAATCTTTGTTTATAGAATCAACNTATAAATAAACTGATTTCAAATATTAAAATTTATTTATCAAATTGGGAGATATTGGGAAAATTTAATTGATGGAAATCTGATTTATTAGAATTACACATTAAGGAGATCAAATATGAATGAATTTGATAGGAGAAAATTTCTTAAAACAGGATTTTTAGGCTTAGCGGGATTATTAGCAGTTTTCTCAACTTTTAAACCATTCAATTTATGGTCAAAGTTTTATGGAAAAAAGAATGGAGATTCTGTTTTTGTACCAAGAGACTCGAATCACTAGTAATAATTTCAATATTGTAAAGGATAGAAAATGGATATTTCTAAAGAAAAATTAGTTTGGCTATANGAAACGATGTATAGAATTCGTCGTTTTGAAGAAACAATGTTAGAGCAAACTTTTAAGGGTAACGCTATGGGGGTTACTCATAGTTCAGATGGTCAGGAAGCTGGACCTACAGGTGTATGTGCTCATTTAACTGAAAAAGACTGGATTGGATCTACTCATAGAGGTCATGGTCATTGTATAGCAAAAGAATTAGATACTAAGAAAATGATGGCAGAAATAATGGGGAGAGCTACTGGACACTGTAAGGGAAAAGGTGGGTCAATGCATATTGCTGATTTTTCTAAAGGAATGCTAGGTGCTAATGCAATAGTTGGAGCCAGTATACCTCTTGCTGTTGGAGCNGCATTAACAGCAAAATATAAAGGTTTAGAAAAAGAATCTATAGGAGTTGCATTTTTTGGAGATGGAGCTACAAGCCAAGGTATTCTTCACGAAAGTATGAATTTGGCTACAGTGTGGAAATTACCTGTGATATTTGTTTGTGAAAACAATCATTATGCCGAAGCAACTCCAGTTGAATATGCTGTTTCTATTCCAGATATTGCTGATAGAGCTTCATCATATTCTATGCCAGGAGTAGTTGTTGATGGAATGGATGTTTTTGCAGTTTATGATGCGGCCGGAGAAGCTGTAAAAAGAGCTAGAAATGGAGATGGNCCTACTTTACTTGAGTTAAAAACTTATAGGTATCATGGTCATTTTCATGCTGATGTTCCAGAAAATTACAGAACTAAGGAAGAAGAATCTGATTGGAAAGATAGAGATTCTATTGAAACTTTTCAAGATAGAGTAATTAAAGCTAATCAACTTACAGATAAAGAATTGAAAGAAATCAGAGATAATATTGATAACGAAATGATTGAAGCAGTTGATTTTGCTCTTAATAGTCCTATGCCAGATATGGATGAGTTGTATAAAGATGTATATGTTAACTATCCTAATTCAGTTTTAGCTCCTCAACAGAGGGATTAATTAAATTAAATACGAGTTATTTTAAGGAAATAATATGACTACACAAGAAGATACAAAAAACCCTTTAGGACCAGGTTATGATGTTTCAGGTTCTGAAATGAGATATAGAGATTCATTCAACAAAACATTAAGAGATGAATTAAATAGAGATCCGGATGTGTTCTTAATGGGTGAAGATATTGCAGGTGGTGCAGGAAGATTTGATGAAGAAGGTAAACCTTTAGATGCTTGGGGGGGACCCTTTGCTGCTACTAAAGGCTTAATTCAAGATTTTGGTCCTGATCGAATTAAAGACACCCCTATTTCTGAAGCAGGTTTTTTAGGTGCTGCTATAGGATCAGCTCTTACTGGGTTAAGACCTGTAGTAGATTTAATGTATTTTGATTTCGTTACTGTGGCTTATGATCAATTATTATCCAACGCAGCAAAAAGTAGGTATATGTTTGCTGGTCAAACAAAAGTCCCTCTAACAATGTTTGCTAGATCAGGAGGTGGTACAGGTCATGCTGCTCAGCACTCTGAATCTTTTTATTCAATGTTAGCTCATATACCTGGCTTAAAAGTTGTTGTTCCTTCTGATGCTTATAGTGTTAGAGGATTATTAGCTGCAGCTATTAGAGATGATGATCCNGTTTTTGTGGTAAGTGATAAAAAACTTATTAACTTATCAGGTTTTGTTCCAGATGAAAATTTTGCTATTGAACTAGGAAAAGGAAGATATTTAAGAAAAGGTTCTGATGTTACTCTAGTAGGCATGTCTTATACTTCTGTTTTATGTAAAGAAGCTGCTGAAAAACTTGCAGAAGAAGGTATAGATTGTGAAGTTGTAGACCTTTTAAGCCTTTCTCCTTTAGATGAAAATATTTTAATAGAATCAGTCTCTAAGACTAATAGACTTATTGTAGTAGATGAAGATACTCCTAGATGTAGTATGGCATCAGAAGTAGCGGCAATTGTAGCAGATCAAGCTTTTGATTATTTAGATGCTCCTATAAAGCGAGTTACTGGTCCACATACTCCGGTTCCATACAATAAAGCTTTGGAGACAGCATTTATGCCAGATACTAACGAAGTAATATTAGCGACTAAGAAACTTTTAGATATCTAATCTAATATATTTAGATCAGTGGGGGAATATTATGGAAAAGTTACTAAAGGTAGGTTATATAGGTGCTGGAGCAAATACCGTAAAACACCATATACCTAAAATTCAATCTCAAGATGGAGTGGAAGCTTTTGGAGTATCGAATAGGTCGATAGAGTCATCAAAAAGGGTAGCTGAAAAATTTGGAATTAATAAAATTTATTCTAATTGGAGAGAATTATTAAATGATGATGAAATTGATGCAGTTTGTATAGGAACTTGGCCATATATGCATTCAANTTTAACAATTGAATCATTGAAGGCAGGAAAGCATGTTCTTGTTGAAGCTCGTATGGCAATGAATTCTAAAGAAGCAAAAGAAATGGAAAAAATTTCTAAGCAAAATCCTCAACTAGTTACTCAAGTTGTTCCAGCTCCACATACATTACCTTATGATTTAACAATTATTGANTGGATTAATAATGAAATGGGAGACTTATTGTTTTTAGATATGAGAATAAATTCAGGAGAATTCCCTGAGTTTAATTCTGAAATTCATTGGAGAAATAATAGAGATTTATCTGGAAACAACATCATGCATATGGGAATTTGGTATGAGGCTGCAATGAGATGGTTAGGGCCTGCTAGCTCTGTAAATGCTTCTGCTCAGGTAGTAGTTAAGAGAATGAAAGAAGAGGCTAATTTTAGAGAAATATCAATTCCTGATCACCTTGAAATAATTGGATCAATGACTGTAGGAGGTAAGTATCACTTTACTCATAGCAATGTTCTTGGTGGTGCTCCTATTGCAGATGTTTGGATTTATGGGACTAAAGGGACATTACATTTTTATGATAATCAATTGTCCTCTGAAGCTTCATCAGATAATAGTTTTGCCATGGAACTTGAAGTTACAAAACCTCAATCGAAAATGAAATGGGAAAAATTAAATATAAATTCTAATAATGTAGGGTCATGGAGAGTAGAAGAAGAATTTGTTAATGCTATTCGTGGCAAAGAAGATATTACTCATACTTCATTCAAAGATGGTGTAAAATATATGGAATTTACAGATGCAGTAAGAATGAGTTGGGAAAATACTAGAGAAGTAACACTCCCTCTGCATTGAAGAGGTAATTTTGGGAATAATAGATTTAAATGCTGATGTAGGGGAATCTTTTGGTAATATGACCTCTGGTCTTGATAATGAAATTGTACCTTTTGTTACTTCTGTAAATATCGCTACGGGTTTTCATTCTGGAGATCCTAATTGGATATATAAAACAGTAAAATTAGCTGAAAATTCAAATGTTTCTATTGGAGCTCATCCTTCTTATCCAGATTTGATGGGATTTGGAAGAAGAGATATGAGTTTTGATGATTGGGAAATTGTTAATTTAATTAAATATCAAGTTGGAGCTTTGCTACAATTTACTAGGGATAAGAAAATTCAACATGTTAAACCTCATGGTGCACTGTACAATAAAGCGTCAAGAGATGAAAAAGAAGCTAGAGCGGTAGTACAAGCGATAAAAGAGATTGATCCAGAGATAATCCATGTTGTTCTTTCAGGATCAATTTGGGAAGAGGTTGCTAAAGAATCTGGGGTTAGAATTGCAAGAGAAGCTTTTGCTGATAGAGCAATTACTTCAGACGGAAAATTAGTTTCTAGAAATGTTAAAGGTTCTGTGATTACCCAAGAAGAAGAGATAGTGAAAAGGGTAATAAAATTGGCTAAGACTGGAACAATGGATTCTATTGATGGTGATTCTGTGGAAATTTCTGCAGAAACTTTATGTCTTCATGGGGATAATAAGAGTTCTGTTGGGTTAGCTTCAGTGATAAGGAAAGAGTTAGAGAGATCAGGAATCCNATTGAGCCCCATGCATACATTTGTGAAATAATACATTAATGAACTCTTTTTTAATCAAAAATATTGGAGATAGATCTATATCTGTGTATTTTGAGAATATAATTTCACCAGAAATTAACTTAAATATTCATGAGATAGTAGAAAGAATAAATAAAGATAAACAATCTTGGTTGGTAGATGTTGTTCCAACATATAATTCATTTTCAGTAGTTTTTGACATAAATTTGACTAAATCTCAGGAAGTGAAAAATTATATTTCCGAAGTTTTGATTTCAAAAAAAAATCAGGAATTTGTTAATGAAAATCAAACTATTATTAATATTCCAGTAAAATATGGAGGAGAAGAAGGACCTGATTTAGAGGATGTTGCTAATTATTGCAATTTATCTTCTGATGAAATTGTTAAAATTCACTCATCTACCCTTTATTTAGTATATATGACTGGTTTTTCTCCTGGTTTTCCATATTTAGGAGAATTAGATAAAAGAATTCATTGTCCGAGATTGAAAAAACCTAGAACTAGAGTTTCTTCAGGTTCAGTTGGTTTGGCAGGAAGCCAAACGGGAATTTATTCTATAGATTCTCCAGGTGGATGGAGAATAATAGGGAAGACACCAATGAAATTATTTGATTTAAAAAAGAAAAATCCATTTCCTATAATTCCTGGAATGAAAGTAAAGTTCTTTAGTGTAGATTTGAAAGAATATACGAATATAGAAAAAAGAATTATTGAGGAAAAAGATTTTTTAGGTTTTGAGATAAATAATGACTAATAATTGTTTTAAAGTATTAGATGGAGGATTTTTAACCACGATTCAAGATCTTGGAAGATTTGGTTTTGCTTCAAGAGGTGTGTCTAAATCAGGTCCTTCAGATTTAAATTCTTTTAAAATTGCTAATTTATTGTTAGAAAACAACATAAATTCATTAACGTTAGAAGTTTCATATGGTTTAGCGAAATTTTTGATTCTTAAACCAATTACAATTTCTATAACTGGTGCAAATTTAAATCCTCTTTTAAATGATAATAAAATACCAATGTGGAGAACTTTGAATGTAGAAAAAAATGATATTCTTTCATTTGGATCTTCGAATATTGGTTTCAGAAGTTATGTTGGAGTAGCTGGAGGAATTAATGTTCCATTAGTTCTAGGTTCTGGTGCTACTCATTTAGCTTCAGGGCTTGGGGGCTTTTCTGGTGAAAAATTAAGTAAAGATGATTTAATTTCTTCTTATCCTTTGAAAGATAAAAAGAAAATGTTTATGTATATTGGAAAGAAGAATGAAGGATCTAAAAATATAAAATTACGGGTTATATCTGGTCCTCAAGAAGATCTTTTTTCATCAAAGGTTGTAGATAGATTTTATTCTGAAACTTTTAAGGCTACTGAAAAATTGGATAGAATAGGTGTTACTTTAGAAGGATCTACAATTCCTACACATTCAGGAAATCACGATATAATTTCAGATTTTACTCCTGAAGGATCTATTCAAATTCCAGGTAATGGAAAACCATTAATTCTTCTTTCAGACTGCCAAACAACAGGAGGTTATCCAAAAATAGGTGTTGTTGCTAGTATTGATTTGCCTAAATTAGGACAAATAGGAGCAAATGATTCAATAGAATTTGAAAAAATAACTGTTGAGGATGCAGAAAGACTATACAAAATTCAGAATGAAGAAGTTTCTAAGAAAAATATTTCAGAAATAGTGATAAAAGAATATTCAATTGGTATTATTGATTCAAAATACCATGTTAAATTATATAAAAATGATCACAAAGATTCTGAGGATTTTCAAATAACTGTTAATGGAAAATATGTTGAAATAGAGGAAGTAATTGATTCTTTTCACTAATATTTACTTAAGGAAATTATGGATTTTAAATTAATACAAGATGGGNTAAATATTTCGGCAATAGGTTTAGGATTTGTTTTTTTAGTTTTGTTCATCTTGACTTTTTTTGTGTTGCTATTAGTTAAAATTGAAGATTTTTCAGAAAAAAGAAAACCTAAAAATCTTAAAAATCAAATCAACGAAGATCAAGAAAATTTAAAGAATGAAAAAAATGGTTTTTATAAAGAAATTCATATGGCAGCAGCAGTAGCAATAGCATTAGCATTGAATGAAAAAACAATAAAAACCAAGAATATTGTTAATACTAATAATCAAGCATCTCCTTGGACTTATTATTCAAGGACTCGCCAATTTTTTTCTAGAATGGGAGCTAAGCGATGAAAAAATATAATGTAGTAATTAATGGTAAATCCTTTGAAGTAGAAATTTTAGATATTGAATCAGGAGAAGCTAAAGTTACAGTTAATGGTGTTGAAATCAATGCTGATATACATGAGAATAAGAAATTCGAAATTTCTGATGAGAATAATAAATTTCAGGTTTTAGATAAAGATAATGAGGACAATATTGTTGAAGAAGATATTCAAGAGAAATCATTTGTTCCCACAAGTCATCCTGAATCTGTAGATTCAGATGGAACAATAAAAGCAATGATGCCAGGAAAAATTATCAATGTAATAGTTTCAATAGGTGATCAAGTAAAACAAGGAGACTTAGTTTGTGTGATGGAATCTATGAAGATGGAACAAAATATTTTGGCAGATATAGATGGTGAAGTTCTAGAAGTAAATGTAAAACCAGGGGATTCTGTAGAGCATAGTGCGGTTTTAATTAAATTGGGTTAAAAGAGGGAATTTTGTTTTTTTGGGAGAGTTTATTAGAAGGAATAGAAGCATTATGGATTGACCCTAAAATGATCATAATGTGGTTTATTGCTTTTATATTATTATATGTTGGTATTGCTAAAAAGAAAGAACCTTTACTTTTAATACCGATTTCATTTGGAATTTTATTGGCTAATTTGCCTTTAGGAGAGCTTATAAAAGAAGGTTCTCAAGGGGAATCTCCAGGAATACTACTTTTTTTTCAGAAATATGGTTTGGAAACTGATTTATTACCTTTATTAGTTTTCTTGGGCTTAGGTGCATTAACCGATTTTAGTCCAGCTATATCAAACCCTAAAACTTTGATACTTGGCGCAGGAGCTCAAGTTGGTGTGTTTGTAGCAATGATTGGATCTCTTTTATTGGCTTCAGTTGGGATTTTTGATTTTGGGCTTCCTGAGGCGGCGTCGATTGGAATTATAGGAGGAGCTGACGGTCCTACCACAATTTTTATATCTACTAGAATGAGAGAACTTGGAAATAGTTTACCTAATGTAGATGTACAGGATATTGTTGGCGCTACTGCAGTTGCTGCTTATTCTTATATGGCTTTAGTCCCAATTATTCAACCTCCTATAATTAAAATGTTAACAACCAAGTCTGAACGTCAAATTAAGATGGAGTATTCATCTAAAGAGGTTTCTAAAAGAGCAAAAATTCTTTTTCCTATTATTTGTACTTTAGTAATTAGTATACTTGTTCCTAAAGCATCTCCTTTAGTAGGAGTAATGATGTTTGGTAATTTGTTAAAAGAATCAGGAGTTGTTCCTAGACTTTCGAATACTGCTCAAAATGAATTAATGAATATAGTAATAATTATTTTAGGTTTGGCTGTAGGTGGAACAATGCCGGGATCTGTATTTCTACAATGGCAAACTATAGGAATTTTTATACTAGGATTGGTGGCTTTTGCTGCAGCAACAATAGCAGGAATTCTTATTGCAAAGATAATGAATTTATTTTTTAAAAACAAAATTAATCCTATGATTGGTGCTGCTGGAGTTTCTGCTGTCCCAATGGCTGCAAGAGTTGTTCAAGAAATGGCAGAGAAAGAAAGACCGGGAAATTTTATACTAATGCATGCTATGGGACCTAATGTTGCTGGAGTAATAGGTACTGCTACTGTAGCTGGTGTCCTTTTAAGTGTAGTTCCAAAACTTCTTGGTTCTTAACAATAAAATATAGTTTTAGGATTAAAAATGGAAACAAAAACTTTTTTTAATGGCGTTATTCCAATTCTTAGTACACCTTTTGATGAACAAGGTAAGATAAATTTTAGAGATTTAACTAGGCAAGTAGATTGGAATTTAGAAGTAGGGGTTCATGGAATTGGGATAGCAATGGCTAGTGAGATTTTTAAATTGTCCGAACAGGAACGTGATCAAGTTTTGAGTACTGTTGTAAGAGATGTAAAAGGTAAGATTCCTGTAGTTATGAATACAGGTGCTGAAGGTACATTTCTTTCAATTCAATATTCAAAAAAAGCTGAGAGTTTGGGTGCAAATGCTTTAATGATTAGACCTCCTATTCTAATGGGTGTACATCCTTCAGAAGTAAATAATTTCTTCATTCAAATAGCCAAAGCAGTAAATGTACCTATATTTATGCAAGATCAACCGGATGCACAAATTTCCCCACAAATGGCTATTTCTTTGTCTCAAGAGCATGAGAATTTGTGTTATGTGAAATGTGAAACTCAGCCAACTGTTCCTAGAGTCAAAGAAACCATTGATAAACTATCATCTCAATCAAAATTAATTGTTTTTGGTGGTGCTGGTGGAATGTTTATGTTAGAAGAAATAAAAGCTGGTTCAGTAGGAACTATGCCAAATGGATCTATGTCAGATGTTCTTGTTGAAATTTGGAATTTGTGGGAACAGGGAGATCGAATAAATGCTGAAAAGAAATTTAGTGAAAACACAAATTTATTAAGGTTATCTATGCAAAGTTTAGGTATAGCAAATTGGTTGAATAAGTATATCTTAGCCAAAAAAGGAGTTATTAAGAATAGTTTTCCAAGGTCACCTTCGTTGAAACCGGATCACGATCAGTTTATGCAAATAGATAGACTATTTGAAAATTCCATTTGATGGATATATATGTTCTTCAAATCATTATCCTGATTATTGTTACTGGAATAGTAGGATATATTGGAGGTTTGGTTGGAATGCCTTTAGGTCCAGTAAGGTTGTTCTTTTTTTTAATTTTTGGAATTCCACCTTTAGTTGCAATTGGAACAAATCTTGCTATAAGTTTTATAGCTGTTATAAGTGTTATTTGGCCTCATGTAAAAAACTCAAATATAGACTATAAAGTGGCATTTTTATTTGGTGGATTTAGTCTATTGGGTTCATTTTTAGGCGGATTAATGAGTGAAAATGCTCCCATGGAAATATTAATTTGGTTGATAATTTTTTTCTTATTTATTTCTGCTCTTTTGATACTTCAAAGTGTGCATTTTAAAAAAAAGAGAATAGAAACAACTCAATCAATTAAGTTTTTTAATAAGAATATTTTTAAATATTCATTTTCAAATTTTTTGGGAATGTTGATTGGACTCTTTGGTGGAGCAACTGGTTTAGTTTTGGGAGCTTTAAGATATCCTATTTTAATCAATTATTTAAAAATATCGGCTAGAAAAACTTCAGGAACTAATTCCATGATTAATTTGTTTGTGGCAGTATTTGGTTTATCGGGACATGGATTGATTAGTGGGATAAGCGGAAATAGTCATTTTGATTTTAAAATTTTTATGCCCTTAGCTGTTGTTGTATCTTTAACTAGCTTTTGGGGTGCTAAATCAATAGGTAAATTCTCAGAAATTTTTCTATTAAAACTATTATATGTAACATTATTACTAATGACTTTAGTAATGATTTTGAGACAATTTTTTTAATTGGAGAAAAAAATGGGAAAAATTTCAGGAAGTAATTTGATAATAAAATGCCTAAAAGCTGAAGGTGTTGAAACTATTTTTGGGATCGCCGGAGATCATTTTCTACATTTATTGGATGAAATGATAGATCATGAGTTTAATTTGATTGATGGAAGACATGAAGCAGCTTCAGTACATATGGCTAATGCTTATTCTAGGTTGTTGAGAAGACCTGGTGTAGTAATGTCTACAACTCCAGGCCATGCAAATGCTATTGCAGGCTTAGCTAATGCTCTTCACTCTGAGGCACCAGTAATAAATATTGCTGGTTCTGCAGCTTCTACTAACTTGGGTAGAGGTGCCATGCAAGAATTTGATCAAGTAGGCACAGCAAAGCCAGTAACTAAGGGTTCTTGGGAAATTCAATCAATTGAAAGAATACCTGAAATAATTTCACTAGCATTTAGAACAGCAATGAGTGGAAGAAGAGGCCCTGTACATATTACTATTCCTGAAGATATTCAGACAGGAATGGTTGATGAGAAAGAGTTTGATAGATATTACGGTAATTTAGATAGTCAGGATTATTCGATTAATTGTGATCAAAAATTAATCACTAAAGCTTTAGATATTCTAAATAGAGCAAAAAAACCAGTCATTATAGCTGGCGCTGGTGCAGGCGCAACAGTAAATCCAAAAATTCTAGAAGATTTCGTGAATATTTCTCAAATTCCTATATTTACTGTAGATCATGCAAGAGGATTGGTTCCTGATAATCATGAATTTTCTTGTGGTTTAGGATACATTCCTTTAAATAAAGCATTGCAGAGAATTAAAGAATCTGATGTGGTTTTATTATTAGGTGAAAGATTGGATTACAGATGGGGATATGGAGGTAATCCTCCTTTTAATGATAGTGTGAAACAAATAATTATTGACCCTGATCCTAGTTTAAANAATAGATCTAGAAAATTTGAGTTAGTAATTTGGTCAGATTTAGGTCCTGCAATTAATGATCTTTGTGAAAAATCAAAAAAATATAAATGGAATAATTTTGATTGGGCTAAATCATTAAAACTTTCTTTAAATAAATATAAAGAAGAGATGAAAAAATTAGCTATAGATAATAATCCAATGCATCCAATGTTAGTAAGTAAAACATTATCTGAATTAATTGATGATGAAACTATTGTAATAATGGACGGAGGAGATTATTGTCATTATTTTAGAGCATATTTAGAAGCAAATAATCCTAATTTATGGTTATATGTAAGTAGTTTTGGAATGATAGGTGCTGCTCTTCCTTATTCTATAGGTGCTCAAGTTGCATTTCCAGATAAAAAAGTAATATGTGTCGTTGGGGATGGATCATTAGGTTTTCATGCGATGGATATTGATACTGCTGTTAGGCATCAATTACCAATTACTATAGTAGTAGGAAATAACAGTTTATGGGGAATAGATTATCAAATTCAGAAAGGTATATATGGTAGAACTGTATGGACAGAATTAGAGCCTACAAGATATGATTTGGTTGCTTCAGGAATGGGAGCAAAATCTAAAAATGTGTCTAACTTTTCTGAGTTGAAATCATCTTTAAGTGAAGCTTTGAATTTTAATGGAGTTTCTTTACTAAACATTGAAGTAGATAAAGTGGGAAGTCCAGTAGCTGAAGCTGCAATTAGTAGAAAATTTGGATCACATAGTTAAGGAGTATTATGGCTGTATATAAACAATCTAAAATGAATTTAAAAGAATTGTTTCCTGGTATTATTGTAAGGCCAGTATGGGGTGAAAAAATAATGATGATGCTCGTAGATATAGCTCCTAATGCAGAAGTTCCCCTTCACTCTCATCCCCATGAGCAAGCAGGAAGGGTTTTATCAGGATCTTTTTGGTTATCTATAGATGGGAAAGACTTTCTTCTTCAAGAAGGAGATCATTATGTTATTCCTAGTGGAGTAATGCATAGTGCAAAGGGTATTGATACCCCTTCACTTGCATTAGATATATTTAATCCCCCTAGAGAAGAATATAAATTTTAGTTTATTTCTTAGTTTCCCAGAAAATTTCACCAATTTCTTCTAGAGAAGCTTTGAATTGTTTAGCTTTTTCCATATCAACATTTTGTTTTACTTGTGAACCTAATTGACAAGNTTTCCAAACTTTCTCATGAAGATCAGGATATTTTTCTAAATGATTATCTTTAAAATAATCTGTCCATATAATAAGAATGTCGTCTTTAGCCTTTTTTGCATGAGTCTCTTTGACAGTTATATATCTTGATAGAGAATTTTTTGCAGACAAACTATCATCATTTTGTTTTTCTAGAATTAGTTCAGTCATTCTAATACATGTCTGGGCAGCTTGTATTGCATCATTAGGGTCATAGATTCCACATGGAATATCGCAATGTGCATATGCTTTATCTAAGATAGACAATTTGTTCATTAATTTAGTTAAATATCTAGAGGATATCATTAGAAACTCCTATGTTTCAGGTTAGAATTATCAATAAATCAAATGTATCAACATATTTATAAGTATGCAAAATAAAATTTTTTTAAAAATCCTATCATTAATTTCAATTTTNAAAATTCGGTTTTTTAGAGTTATNGATGACAGTATGTATCCTATTCTTAAGGATAATCAATTAATTATTGTTAATACATCTGTATTTCAAAAAAGAAAAATAAAACGAGGCGATATAGTGATTTTTAAAATTAAAGGTAAAGAAATAAAGTATATTAAACGAGTAGTAGCTATTCCAAAAGATAAAATTATTGTTGATTCAAAAGGAGTAAATGTTAATGACTCAGACTTTTTTCAACACAATTACTCTGGAAAATATAAATTAAAATCCTTCTATTTATTAGAAGAACAATATTTTGTTTTGGCTGAAAATAGAAATGTTTCTTCAATGTTTGATAGCAGATCTCTTGGAGTGATCAGTTCTTCTGAAATAATTGGAAAGGTAGTGAGAGTTTTATAATTTATTCTTCTTGTCCAGGTTTAGAAAGATTGTCCTGGGAATTTTTGTCACCAAAGATTATTACGTAAATATATGCAGCTATTAATGCACCTGCAATCGGACCAANCCAATAAACCCAATGTGAACTCCACCATAGGGCTTCTTGAGGAAGTCCAGGGGGAGGAAATAGTTTTGTTGTTAAAGCTGGGCCAAAACTTCTAGCTGGATTCATACTAGCGCCCGTGAAAGGTATAGCTACTAAATGACCTAAAATGATCATGAAACCTATAGCGAATGGAGCTAATTTACTTATGCCTCTTTTATCTACTACAGTGGCAAAAATTATGAATACAAGTAAACCTGTNAGAGTTCCTTCAATGATTAAAGTTCTTGGAATAGACCAGGCAGGATTATGAACTCCTAATGCAGGAGTAGATAATGCTTTTGACCATATTAGACTAGCAGTGAAAGCTCCTAGTATTTGAAAAAATATATAGACTAATCCTTTAATCCAATGAAAATTACCTGTGACAGATAAGGCAATAGTTACTGCAGGATTTATATGTCCACCTGAAATTCTTCCTATAGCAATTATAGCTATAGTGATTCCTATTCCATGAGCAAGAGCAATAGCTATAACTGCACCATTATCTATACTTCCTTGTCCTATGGAAATAACTGTAGCAATGCTTCCTAGTCCAATAAAAACAAACAAAAAAGTTCCTAGGAATTCAGCAATTCCTTTTGTCCAAGTATCTTTATTTCTTAATATATCCATTATTAGTATTCAAATTTGATAACAGTAGTTTAGCATTTTATAAAGATTTCAGATATCTTAATAAATCCTCTGCACTTTTTCTTCCACTTTTTGCAGCACTTTCCATTGTTGAAGGCCATTCAGTGTCAGTCCAGTCTCCTGCCAAAAAAAGATTTTTTAATGGAGTAGAATTTTTTGGTCTTAATTTATAAGATCCAGGTAATGTTCTGAAGGTTGCTTTTGGTTGATTTACAATTAGAGTTTGTTTAATTTTTACTCTAGAATTTAATTGAAGTAATTTATAAATTTCTTTTGAGAAAATTGAAATCATTTCTTTTCTATCATATTTTATCCATTTCCATGCTGAGCTAAGAGATATTACTAAATGTTGTTTGTTTTGATCTTTATGNTCTCTAATTTTTGATACATTAAATACCCATTGAATAGGACTATCCAAAACTGAAAAATATAATTCATCAGTAATTTTTTCAGAAAACCAGAAATGAATACATACAATAGGAGAATATTCTAATTGAGAAACATTATTAATTATTGGTGTAATCTTAGAAGATTTTTGGAAAAGATTTTTGATTTCAAAGAATGGAATTGTACAAATAATAGAATCAACTTTTATTTCAGTATTATCAGACAATTCTATTTTCATAATATTATTATTATTATCTTCAGAAATTTTTTTTACAGTTTTTCCTTTTATTAATATCGAATTTGTTTTTCTTAGTATGTTATTAAAATTCTTTTCTACTAAAGAAGAAAGGTCAGTTTTAGGTAATCCAAATGCAGTTTTTTGGGGTTTCAAGATGGAATTTTTAATAGTCAAAATTGCTATATATGAACTCATATATTCTAATTCATCATTTAAGGCAGGTTTAAGAAATAATTCCCAAAAATATTTATTTGTTTCGTAAGTTTGATGATGTTTTTTTAACCAGGTTTTAAAATCAGTTGAATCTAAGTCTTTTAAATTTTTTTTAAATTTTATAATTATTAGAGCATAAATTATTCTAAGCTTTCCAATGTATGAAATATGATTGAATCTTAATAACCTTAAAAATAAAGAAATAGCATTAGGTTTTCCAGAAAATTTTAAGTATTCTTTTTTGTTGTTTTTATATATTGGAACGTTGATTGATTTNTCTAAAATTACTTGATTAAATACTTCTAAGTTTTTAAGAAATTTGATGTATTCAGAACAATTTTTTGTAAAAATATGTTGTCCGTTATCAATATTTTCATTAGATTCACTATTTTTAAAAGAAAATGCTCTTCCTCCAAGGGTGATCTTTTTTTCAATCAATATTACTTTCAGTCCTTTTTCTATTAGGATTTGGGTAGCTACTAAGCCTGCTATTCCACCACCAATTACAACAACTGATTTGTTTTTATTCAAATTAAATTCCTTTTATGTGGTTATTATAATTTTCTCATGTCTCTTCCCAAATAAAGATCTAATAATGATGTAAAGAGAATTTTAGATTTAGAAATTTTTGAAATCCTTATTTTATTTGTTAGTGTGTCAAAATTTCTTCTTTTTATTTCTTTCACAATTGTATTTCCTCCTTTCAAAAATAAAGATATTGGAAATTGATCTTTTCTTTTCATATGATGGAATATCTTTAATCCTTCATGAAAATATTTTTCTGTTCTTTCAATCTCGAATTTTATTAAATTCCTCATTTCATTTGAGACAAAAGATTTTTGAAAATCTATTTTTTTTACTTTATGATATTTCATGTCTTCTTCAGGGATATAGATCCTTCCTTTTTTCAAGTCTTCTGAAATATCTTGACAAAAATTAAGTAATTGGAGTCCAGTGCATATATTATCTGAAAATCTCATGATTTCATTATTGTTGTAACCCATAATTTTAAGAACTAATCTTCCTACTGGATTCGCAGATAATCTGCAATATTCCTCAAGAAGTTGAAAANTCTTATAACTTTTTACTATTTGATCTTGTCTATTAGCATCTATTATTTTTATGAAATTATCAGGAGGAATATCAAAACGTTTTATAGTAATAGATAAAGCTTTGAAGTAGGGATGATTCACTTTATTTGTGTAACAATTAAGTAATAATTTTTCCCACTCATCTAATGACTTTAAAATATTTTCATGTTTTTTATTAGATTCATCTCCTATGTCATCTGTAACTCTACAGAAAGCATAAATTGAAGAAAAAAAAGGCATGAGGTCTTTTCTTATCAGCTTGCTCCATACAGTGAAATTTTCATAATGACTTTTTGCTAAGTCTGAACAGTTTTTAAATGACTCTTTTTCTTGATTGTTCAATAATAATTTATTCATAAGTACCATCTTTTGAATCATTAGTAATTGAAGAAATTTCTTTACCAAAAATTTGAAAAAATTTCATTAAATTTGATCGAGACATTCTTAATCTATTATTAAAATCATATTTTGAGAAAAAATTAGGAAAAAACTTCATTGTTTTTATTAAATTTTCTGTTGGAGAATAATCTAAATCTTTCATTAGATTTGAATCAGTTTCATCAATATAATTTAGAATTGAACTGATAGAAATAAATGGAATATTGTGTTTTTCTGCATATTTTCCCGTAAAAAATGCAGTATTATCTATGGATAAAATATCTTTTCTAGTATTTATCCATCTTCTCAGTCTATCTGTTCGGAAATTGTTAGACACTGAAAGAGATTTTCCTATATGAAAATCNATATTTCCAAGATAACATGATTTTCTTGAAATATTAAAAAGTTTAGTGTCAAAATTATTTGTAAATTTAATATCATTAAGATTCCAGTTAATTGGGTATCCAAACAGATTTCCTATAGATGTTGAGATCATAATGTGTCCATGTGTAGCATTTTCAGAAGTTGAATCGGATAATCCAATATTAATTAAGTAATTGCTTTTGATATTTTTTGTTAACCAATCTAATGCTACTAATGATCTTGATTCATTAGAGCCTGTGATTAAGAAACAAATTTTGGTATTTGGAAATTCGGAAATATACCCTTGAAAACATATTATTTCACCTGGGCAATCAATAGGTTCAAGTCTAGAAATATTTAAGTTAACAAATAATTCATTAATATTGGTACTTACGAATGTAATCATGAGGATCTTCCAGACAAATATGATCCTAATTCTTTAAAGTCATTTTTAAATGAGATAGGTATTTCTAAATTAGTTATAATTTTTTCTCCTTCTAGCCAATATTGATTTATTAATTTTTGACAATATTTTTCACTTCCTGCCTTATCTAATATTTCTATAACTTGTTTTACATCAAACTCTGAAATAGATTTTTGTGATAAAAAGTTATGGATTTTTTTAGATATTGATAAGTTTTGATGTGATAAGCCATGAATTATAGGAAGACTCTTCTTCTTTTTTTTAATATCTGATCCTATTGGTTTTCCGGTTTTGTCTGTTCCCCAAATACCTAGAATATCATCTCTAATTTGAAATATGCTTCCCAAAATTTTTCCTAAAGAAGAAAATTGATATTCTAGATCTTCATTACTGTAATTCGATGTTAAAAGCCCCAAAATTAATGAACATTCTATTAAGGTAGATGTTTTAAGGTTAATCATTCTTAAATATTCAGGAATTGTAATTCTAATTTGGGATTCGTAATGGATATCTAAAAACTGTCCTTCCATCATTCTTAGATATGAAAGAGTTAAAAGTTTTTGAGTTTTCTTTATTATTTTTAATGGCAATTTATCATTAGTTATGTTGCCTATCTCTAGATTCCCCAAAGTTAATAATGCATTTCCAGATACAATTGATGAAGGAATGCCCCATATTGCCCATAAACTAAGTCTGTGTCTTCTGAATTTATCTTGATCTTCTATATCATCATGAATAAGAGAGAAATTATGGACAAATTCTAATGCTACTGCTGCTCTTATACTTGTTCTTAAATCACCATTCAAGGAATCTGAAGTTAATAAACAAAGAGAAGATCTGAGAATTTTCCCAGAGTAATCTTTAATTTTGTTTCCATTTACATCAGTCCATCCTAGAAAATATTTTAAATGATCATATATCGGCATATCATGTCCGCTAAAAGCATTTTTCATGTTTTTAGATATATTTTCTTGATATCTATTTAAAAAAGAAGGATGTTTATTTGATGACATTTTAAATTGTTTAATATTTATATTTATTTTAAATAATAAGAATCTTTTACAAAAGGGGAAATAGGTGATAGTTTTTTATCAACAAATCTGATAATATCATTATTAGATATTTTATAACTGTATTGTAATATTAAATGACTAAGAGCTATTACGAAGTATTAGGAATTAGTAAAAATTCTGATAAAAAGAATATTGTTTCTGCTTTTAGAAAATTAGCTAGGAAATTTCATCCTGATGTTAATAAAAAAAATTCTTATAACGAGCAAAAATTTAAAGAGATTAATCAGGCATATCAAGTATTATCTGATGATAAATCTAGAAAAGATTATGATGAATTTGGAGATAATTGGATACATGCAGATCAAATAAGATCTAATGGTATCAACAACTCATTTAAATTTGATGGTAATTTGAATAGTGACTTTTTCTCATTTAATGATTTCTTTAATCTAAATAATCGATCTAGAAGTAATTCCAAATATCAAAATTCTCATAAAATAGAAATTTCAGTCACTTTGAAAGAACTATATTTTGGTACGAAAAGAATAATTACCATTAAAGAAAAAATTAATTGTGCTAAATGTGATTCAAGTAAAAATTTTCAAAATATCAAATGCACACTGTGTAATGGATCTGGCAAAACGGTTAAATCTAAAAATATTGAATTTGAAGTCCCTAGAGGATTGAAAAATGAAGGAATTATAAAATTACGAAGACCAGATTCAAAAGTCATTAATATTATGGTTAAACAAGTTAAAGAAGATAATTTTATTAGAAAAAATAATGATTTATTTACTAAGGTGAATGTAGATTATTTAGATGCTATTTTAGGAGGTGAAGTTGTTGTGAGTACATTGGATAAACCTATTAGTTTAAAAATACCTGCGGGTACTAAAAATTCAACACTTTTTAAAGTTAAAGATAAAGGAATGCCAAGTTTAAATTCCAATAAATTAGGTTCTTTAATTGTAGAAATTGATGTTTCTATTCCATCTGAAATTTCTATGAAAGAGAAAACCATTTTAGAGAAATTAAGAATTTCTAAGAGAGAAAATGATGCACTTTGATTATGATGAACCTTGTTATGCTATAAGTGTTACTGCTAGATTCATAGGAGTTCATGTTCAAACTTTGAGATATTATGAAAGAGCAGGTTTAGTTAGCCCTAAAAGATCTAATGGAAATACTAGGTTATATTCTAGAAAAGATGTTGATAGGTTACTTCAGATAAAACAATGGATAGAGGATTTAGGCGTTAACTTAGCAGGCGTAGAAATTATTGAGCGTTTAAATGAAAGAGTTCTCGAGTTGGAAATTCAAGTACAAGATTTAATAAAAGAATTAATTATTTTAAGAGATAAAAATAATAAAAGTTTAAATTCAGGAAGATAGAATTTAGTAAAGAGGTATAGATGGTTTTTCCTAGACAAGAAGAATATACAGATGAAGCTAAAGAAGCTTTAAATAAAGCTAGTGCATGGCTAAATGATATGAGGAATAGTCAAATGGATGCTGAGCATCTATTAATGGGTTTAATTTCAATTGATAATGGCATGACTGAAAAGATTTTATATGCTTTAGATGTAAAAATAGAAAACATGATAGTTGATTTAGAGAAAGCCATTAGAGCATTTCCAAAATTAGGAGAGTCGAATTCTGAAACTAGACAGATATATGCAACTCCCAGATTATTAAAAGTTATTGATCATTCATTGCAAGAGAAAAAAAGGTTAAAAGATGAATATATTGCCTCAGAACATTTGTTACATGGATTAGCTTCATTAGAAGACGGAGAAATATCAACAATATTTGCTAAATATGGAGTTTCTCAAGAAAGAATTTATCATGCTTTAAAAGATATACGTGGAAGTCATAGAGTTACAGATCCCAGTGCTGAAAGTAAATATCAGGCCTTGGAAAAATATAGTGTAGATTTAACTAAATTAGCTAGAAATTCAAAATTGGACCCTGTTTTAGGGAGAGAAATAGAGATTAAGAGAGTTATTCAGACATTGTCTAGAAGAACAAAAAATAACCCTGTTTTAATAGGTGATGCTGGTGTTGGAAAAACAGCTATAGTAGAAGGTTTAGCTCAATTGATTATAGAAGATGAAGTGCCTTCATCACTCCAAGGAAGAAGGGTAATAAAATTAGAAATGTCTTCTTTGTTAGCAGGAAGTAAATTTAGAGGAGAGTTTGAAGAAAGATTAAAAGCAGTGATGGACGAAATAAGAGCAGCTTCAGGAGAAATTGTTTTGTTTATTGATGAACTACATACTGTTGTTGGAGCAGGAGGTGCAGAAGGAGCTATTGATGCTTCTAATATGATGAAACCAGCTTTAGCACGAGGAGAGCTTCAGGTAGTTGGAGCTACAACTCCTGAAGAATATAGAAAGTACATAGAATCTGATAAAGCTTTGGAAAGAAGATTTACGCCAGTTAATATAGATGAACCTTCTCCGGAAATAGCAGTTGAAATGCTTAATATATTAAGTAAAAGATATGAAGATCATCATGAAATAAAAATCTCTAATGATGCTATTGAGTCTGCAGTGAATCTTAGTGCAAGATACATCACTGATAGGTTTTTACCAGATAAGGCGATAGATTTAATTGATGAAAGTGCTGCAAAATTAAGAATTGAAATTGAAGGAAAACAAAATAAAAACTCTGATCAGAAATTTGGAAAATTAACTCCTGAAAATATAGCCGAACTGATTTCAGAAAGAACCTCAATACAAGTTGCAAGACTCGTGGAAAAAGATAAGTCTAGATTGTTGAAATTAGAAGAAAGATTACATGAAAGAGTGATTGGACAAAATAAGGCAGTAGAAGCTTTATCTGATGCAATTAGACGGCAAAGATCAGGCGTAAGTGATCCTAATCGTCCTATAGGAACTTTTATTTTTTTAGGTCCTACTGGAGTAGGAAAAACAGAACTTGCTCGAGCTTTAGCAGAAAGTTTATTTGATGATGAAGATAATTTGGTAAGAATAGATATGTCTGAATATCAAGAAAAACATACTGTTTCTAGATTAATAGGTTCTCCTCCAGGTTATATAGGTTATGATGATTCAGGACAATTAACTGAAGCTGTTAGAAGAAGACCATTCAGAGTAGTTCTTTTTGATGAAATAGAGAAAGCTCATCCAGATGTTAGTAATGTATTATTACAAGTTTTAGATGATGGTCGTTTAACTGATAGTCATGGAAGAGTGATAAATTTTAGAAATACAGTAATTATCATGACTAGTAATTTAGGTTCCCAACATATTTCTAAAGAATCAGTAGGTTTTAAAATTCAATCTAATGATGAAGAATGGAATAACAAAAAATCTAGAGTAGAGGAGTCTCTTTCTAATCATTTTAGGCCTGAATTTTTAAATAGAATTGATGAAACTATTATCTTTGATTCATTAGATGATAATGATCTTCTTAAAATCGTGGATATTGTAGTGTCAAAAGTGAGAAACCGTATGGAAGACTTAGGAGTAAAAATTGATGTTTCAAAGGGTGCCCTTAAATGGTTAGTAGAAAAAGGTTTCGATAAAATGTTCGGAGCACGTCCTCTTAGAAGAGCTGTTCAAAGAAATTTAGAAAATCAATTAGCTAAGAGAATTTTAAGTGGAGAATTTAAGAAACGAAGTAATATTAAAGTTCAAGTAAAAAAAGATAATCTAGTGTTTTCTTTAAATAATAAAACAAAAAAATCTACTAATAATCTAAAATAATGCTTTTCTTTAAATTTTTTAATTTTGGTGTATGTTTTGAGAAAATCTAAGAAACCTGTTTATTCAATAGGGATTATATTAGCTGCAGGAAATAGTACTAGAACTGGTGGAAAAGATAAGATGTTTATTAGGTTCCAGGGTATTCCTTTGATTATCCATAGCATTTCCAAGTTTAGTAATCATGAATTGATTGACTATACTATTGTAGTTGTTCCAGAAAATAAGAAGTTAATAATGGAAAAAATAATAATTCAATGGAATTTAAAAAATATTCTTGTTGTATCCGGAGGAGAAAGGAGGCAAGATTCTGTTTTAAATGCTCTTTCAGAAGTTAGAAAAAATGAAATTTTTAATAAAGTTAAATTGGTTGCTATTCATGATGGAGCTAGACCATTTTTTAGTGAAAAATTATTAAATCAAGGATTTGATTTAGCAGATAAGTATCATGCTGCTATTCCTGTAATTCCTGTGAATGATACTGTAAAAATTGTTGATAATAATGGATTTGTTGAAAACACTTTAGACAGGGGGTCAATTTTTAGAGTTCAAACTCCTCAAATTTTCAGTTTGGATCTAATTATTAAAGCACATAAGGATAAATCACAAGAATTTACAGATGATGCATCAATGGTTGAGCTTTTAGGGGAAAAAGTGAAAGTTTTTAATGGAGAATATAAAAATGTAAAGATTACCACTGCTTCTGATTTAGAAAATTTAAATATTATTAACTTTGGAAAAAATAATAATTCTATTTATGGTCTAGGAATAGATAGCCACCGACTAAAATTAGGAATAGATTTAATATTGGGTGGAATAAAAATAGATCACAATAAAGGTCTTGATGGACATAGTGATGGTGATGTTCTTTTGCATTCTATTTGTGATGCAATATTAGGTGCATTAGGATTAGTTGATTTAGGTTATCATTATCCTTCTAGCGATCTTAATTTACAGGGAATAGATAGTTCAGAAATGTTAAATAAAATTTTAAATATGATGAAAGAGAAGAACTTTGAACTTAATCACTTGGATTCTACTATAATCACTCAAGAACCTAGAATTTCAGATTATAGAGAATCGATAGAAAATAATTTGTCTAATTTATTAGGGATAAATGAATTTTCAGTGAATTTAAAAGCTACTACTACAGACTTTTTGGGTTTTATCGGAAAATCTGAAGGAATTGCTGCACAATCAATAGTAACTTTAAATAAACTAAATAATTAGGGATATTTTGAAATTTTACGATAGTTTAGATAAGAAAAAGAAAGATTTAGATATAAAAAATCAAAAAGTAACTATCTACGTATGTGGAGTTACCACTTCAGATTATTCTCATTTGGGCCATGCATTTTCTTCAATGGTGTTCGAGGTTCTTCAAAAATATTTGGAATATAAAAAAATTCAAGTTACTAGAATCCAGAATTTCACAGATGTCGATGACAAAATAATTGCTAAAGCTATTAAAGAAGAATTGACTATGAATCAAGTTTCTGAAAAATATATTAATGCTTTTATTGAAGATATGGATAAATTAAAAATTAAAAAAGCAGACTCTTATCCTAAAGCAACTGATGAAATTCCAAATATTATTAATTTTATAAAAAAATTAGAAAGTAAAGGTTTTACTTATAACTTGAATGGCAGTGTGTATTTCAAAGTAAAGAACAAAGAAGATTATGGTAAATTGAGCAGAAGAGATTTAGATAACATTGTTCAGGGAACTAGAGTAGACATTGAAGAAAACAAACAACACCCTGGAGATTTTGCCTTATGGAAGAAATCTAAAGATGATGAGCCTTTTTGGGATTCCCCTTGGGGTAAAGGTAGGCCTGGTTGGCATATTGAATGTAGTTCTATGGTAATGACTAATTTTGGAAGTTCTGTTGATATTCATGGAGGAGGTTTAGATCTTTTATTTCCTCATCATGAGAATGAAATAGCACAGTCTGAAGCAATTACTGGAGATAGATTTGCTAAATTTTGGATGCATAATGGATTGCTAAAAATTTCTGGAGATAAGATGAGTAAATCTACTGGAAATCTTATAAGGCTTAGAGATGCTTTGGAAATTCATTCTCCTAATTCTTTGAGATTATGGATGTTAAGTTCTCATTATAGAAATCCAATTCTTTACGATAAGAAAAACATTATTGCTCAATCTAAAGCCCTTAAAAGATTAAGAGAAGCAACACTCATTTCTAATACAGGAAATACTCATTCAAATTTTTCAGTTAAAAAATACAGAGAAGTTTTTGAAAAATATATGGATGATGATTTAAATACTCCTAAGGCTCTAAGTGTTTTATTTGATTTGTCTAGAGAAATAAATAAGTTGAATTCATTAGGGAAAGAAATTCAAGAAGCACAGAGGTTATTAAAAGAACTTGCAATGATTTTAGGATTAGATTTAGATAAAGATGAAGAGGAAGAAAAAATAGAAATTGATGAAGTTTACATAGATCACTTAATCAAAAAGAGAAATCAGTTTAGAAAAGAAAAATTATTTAAAGAAGCTGATGAAACTAGAGAAGAATTAAAAAAAATGGGAGTTGAAATTAGAGATTCTCAACAAGGAACTGTTTGGAAAAAAATTAGTTAAACCTTACATTAAGTACAGCTACTACTACGAAAATTATACCCAAGATTATAGTTGATCTGAATAATGTTCTTTCAAAGCCTCTTCTTACTCTGAATGAATTTTCTCCTTGTCCAAAAAGTGCAGTGCCTGTGCCTCGAACTTGAAGCAAAATTACAATTATTAATAGTACTGAAACAATTATTTCTATGATACTGTAAATCATTTTTCTCCTCTATTTATTAACAACATACTATCAATAATTTAAAATTTCAAAAATAGCATTTGAAAGTTTATCAGGATCATGATGACCCTTGAAATTCATATTCATTAAATCTGAGTATTTTACTTCAATATCAGAAGAATTGAAATTTTCATGTATTACACATGTGCTTGTTGGGAATTCTTCACCTAATTCTTCAATTCTTGAATTTACCAATATTGAAGATATTTTTAAGTCTGGAGCAAATTTTTTGATTGATTTTAGATGAGATATTGCATCATAATTTGTTGTTTCTCCAAGTTGTGTAGCTATATTACATACATAAATTACTGGATTTTTAGTATTGTTAATTTCTTCAATAATTTCTGGGACTAATAAATTTGGAATAATACTAGTGTATAGACTTCCTGGACCAATAATTATTACATCTGAATCTTTAATAGCTTTTAAAGCTTGAGAAGAAGGTGTTACATTATTAGGATTTAATTTTATATCAATTATACTTGAATTTGAGTTAGTTATTTCACTTTCTCCTTCTACAATGATTCCATCTTTCAATTTTGCAACTAAATTTACTTGTTCAAATGTAGAAGGGATCAGTTGACCAGTAACATTAAGTACCTTACTTGATTCTTTAATTGCTTTATCAAAACTACCAGTCACTTTCTCCATAGCCATAATGAATAAATTTCCAAATGAATGTCCATTCAATTCTGAGTTACTTTCAAATCTATATTGGAATAATTCTTTTAATAAAGGTTCTGCGTCTGATAAAGCTACTAGACAATTTCTAAAATCTCCAGGAGGAAGAATCCCATATTCTTTCCTTAGCCTACCTGAACTGCCTCCATTATCTGCGACAGTTATTACTGCAGTTAAATCTACGGGTTTTGTACGTAAAGCTCTTAGTAAAGTTGAAAGACCTGTGCCACCACCAATTCCAACAATTTTTTTATTTTTTTGTGAATTAGTTTTTGACATTTTTACTTTCGTAAATCTTGGAGTTTTTCTTTGATTACTGATTCCGAAATTTTAGGATCTGCTTTACCTTTAGAAATTTTCATAATCTGACCAACTAAGAATTTTATTACTGTTTCCTTACCAGACAAGTAATCTTTAATAGCATCAGGATTAACTTTTATAACTTCAGAAGCAATTTCTGAGAGTCCTTCAACATCTTGAATCTTTTTTAAACCTTTTGTTTCAACAATATTTTTAGGGTTTTTTTTAGTTTTAAACATTTCTAATAGTACTTCTTTTGCTACTGCATTGCTTATTTCTCTTTTTTGGAACATTTCTATTAGTTCACGAAGGTCTTGTGGCGAAATTTCCAGTTCATTTATGTTTTTAATCTGATTATTATTCATTAGACGTAATACTTCTCCGTTAAGCCAATTTGCTGTTTCTTTACTAAATTCATGTAGTTGATTTTTAGGAGAATTACTAAATTTCTGAATAACTTTTTCAAAATATTTTGAAATATTCATAGAAGAAGTGAGCAATTTTGAGTCATATTCTGATAAACCATAATCATTACAAAATCTATCAGTTTTTTCAGAAGGTAATTCGGGTAAAGTATCTTTTATTGATTTTATCCATTCAAAGTCAAATTTGAAAATCGGGATATCTGGTTCTGGAAAATACCTATAATCATGAGCATCTTCTTTGGATCTTTGTGAAATACTAATTCCTTTTTCATCATCCCAACCTCTAGTTTCTTGTATAACTCTATTTCCTGATTCAGTAACCTTTATTTGTCTTTTAGTCTCAAAATCTATAGCTCTAGTTACAGCTTTAATTCGATTCATATTTTTTATTTCTACTCTATCGTTTAGCACATTGGAGTTTTTAGGTTTGACGCTAATGTTAGCATCACATCTAAAACTACCTTCTTCCATACTTGCAGATCCGATTTCTAAGTATTGAATAATTGATTGGAGTTTCGAAATATATGATTCTGTTTCATCAGTAGTTCTTAAATCAGGTTCAGATACAACTTCTAGAAGGGGAACACCAGCTCTATTTACATCCATTAATGTAGATTCTTCATTTGGGATAGCATTATGAATTAATTTAGCTACATCTTCTTCCATGTGAACTCTATTAATTCTAATATTTTTACTATCTGAAATTTTCATATTACCACTAAACGCTATAGGCTGATCAAACTGGGAAATTTGATATCCTTTCATAAGATCAGGATAAGAATAATTTTTTCTGTCAAATTTTGTGATATGAGCAATTTCGCAATCTAATGCTAGCCCTAGTTTTATAGCAGATTCTATTGCTGTTTTATTTACTACTGGTAAAGATCCAGGTAATGCTAAACATACAGGACATACAAATGTGTTAGGCTCTTGATTTTGGTAGTTATTGGGACAACTACAGAACATCTTACTTTTAGTGTTTAATTGAACATGAATTTCTAAACCTATTACTGTGTCATATTCCAATTTTTTTTCCCCGGATATTAAATATTTGTAATTATTGTATTGTAAACATTTTTGAATAGATAGATTACGAATATACAATATATTTTAAATTCATAGGAATTTAATAAACAAATGAAAAATAATGAGTATAATTACAATATAATTTAATTTAGGAGGCATATTGGATAAATCAAATACAATTTCTAGAAAATCTAATATTTCGGATAAAGAATATAAGTGGGGATTTAATACTAATGTTGAGACAGATTTAGCTCCTAAAGGTCTTAATGAAGATATTGTAAGGTTAATTAGTTCGAAAAAAAACGAACCTTCTTGGATGTTAGATTGGAGATTGAAATCTTTTCTACATTGGAAAGAGAAATCTGTTTCATCTGGAGAGCCTACTTGGCCTAAAATTAATTATCCTGAAATAGATTATCAAGATATTTATTATTATGCAGCACCAGTTACAGAAGATAAGCCTAAATCATTAGATGATGTGGACCCTGAAATGTTAGAGGCTTTTGAAAAATTAGGTGTTCCACTTCAAGAAAGAGCAAAATTGGCTGGTGTAGCTGTAGATGCTGTTTTTGATAGTGTTTCTGTTGCCACTACATATGAAAAGCAATTAAAAGAATTAGGCATTATTTTTTGCTCTTTTAGTGAAGCAGTAAAAAATCATCCTGATCTTGTGAAAAAATATTTAGGGAGTGTTGTTCCTTATTCTGATAATTTTTTTGCAACTTTAAATTCTGCAGTTTTTAGTGATGGTTCTTTTGTATATATCCCGCCGGGTGTTAGATGTCCTATTGAATTAATGACCTATTTTAGAATTAACACTGAAGGATCTGGTCAATTTGAAAGAACTTTAATTATTGCTGATAAAGATTCTTATGTGAGTTATTTGGAAGGTTGTACTGCTCCGATTAGAAAAAGCCATCAATTACATGCTGCAGTTGTTGAGTTAGTAGCTCTGGATAATGCTGAGATAAAATATTCTACTCTTCAAAATTGGTATCCAGGAACAAAAGAGGGTGTAGGGGGAGTATATAATTTCGTAACAAAGCGTGGAAAATGTTTGGGAAAAAAATCAAAAATATCTTGGACTCAAGTAGAGACAGGTTCTGCCATTACTTGGAAATATCCTAGTGTATTGTTACAGGGTGATGATTCTATTGGAGAATTCTATTCTGTCGCACTAACAAATAATCATCAACAAGCTGATACTGGGACAAAGATGATTCACATAGGTAAGAACACCAAGAGTACGATTGTTGCCAAAGGTATTTCAGCGGGATTTGGTAATAATACATATAGAGGGCAAGTTAGAGTCCTTCCGTCTGCAGATAATGCTACTAATTTCACACAATGTGATTCTCTTTTAATAGGAGATAAATGTGGTGCTCATACTGTTCCTTATATTGAGGTAAAAAATCCCACTGCTAGATTAGAGCATGAAGCTTCTACATCTAAGGTAAGTGATGATCAATTATTTTATTTAATGCAAAGAGGAATTTCAGAAGAAGATGCTCATCATATGATAATTACAGGGTGGAGCAAGGAAGTTTTTAAGGAACTTCCTTTTGAATTTGCAATGGAAGCAGGACAATTATTGAAAGTAAGTCTAGAAGGAGCAGTCGGATAAAATGTTAAAAATTAATAACTTACATGCAGAAATATTAGGTGGAGAAAAAATTCTGAATGGAATAAATTTGAATATTAATTCAGGAGAAGTACATGCACTTATGGGTCCTAATGGAAGTGGAAAAAGTACATTGGCAAATGTAATAGCTGGTAGAGATACTTATAATGTATCTGATGGAGAAATAATTTTTCAGAACGATGATATTTCTGAATTTTTACCTGATGAAAGATCTAGGAAAGGCATTTTTATGGCATTTCAATATCCCGCTGAAATTCCTGGTGTTAGGCCATGGCAGTTTTTAAAAGCAGCTGTTGATGCTAAAAGATTAACAGAAGGACAAAAAGAAATGTCTGTAAGAGAATTTTCTTCATTTTTTGATGAAAAAGCTAAAGAAGTAGGCATAAACTCTAATTTATTAAAAAGATCATTAAATGAAGGCTTTTCAGGTGGTGAGAAAAAAAGAAATGAAATGCTACAGATGTTAGTTCTTCAACCCAAGTTATGTGTTATGGATGAAACTGATTCAGGATTAGATGTTGATGCTTTAAAAACTGTTGCTCAAGCAGTTAATGGATTAACTGATTCTAATAGATCTTTTTTGATTGTTACTCATTATCAGAGATTACTTGATTACATAAAACCAGATTTTGTTCATATTCTTGTAAATGGGAAAATAGTTAATTCAGGTGACTATGAATTAGCATTAGAAATAGAAAAATCAGGATATGAAACTTACCTATGACACTTGATCACTTAGAAAATTATTTAAAAGTTTTTGAGGAAATTAATAAATCTTCAGTTATTAATGGAAAACCTGATTTACAAAATTACAGAAAGAAAAATTGGGATGAATTCGTAAAAACAGGCATTCCAGTACAAAGGCGTGGTAATGAAAGATGGAAGTATACTAACTTGAAACCTCTTTTGGATTTATTTCAGACTCCTATTAAAATAAATGATGAAGATTTAAAAAAATACTTAGAATCCAATATTCCTGTTTTAGATGATCAAATATTAATTGTCTTAGTTAATGGAATGTTTTCCAAAAATCTCTCATCTAATTTTGAAAATATCAAAGGTTTTAATTTAATTACATTAGATGATTCTATTTTTGAGATAGATGAATTTTATAAAAACTCTAAACTTAATCAAGATCCTTTTATTTCTCTTAATTATGCTTGTTTGAGTGATGTTATTAAAATAAATGTTGAAAAAAATGATTCCGATGCAGTTATTAATGTTGTATATGTTTCTGTTGGAGATAATTCTAAAAAAACTATAAATAACCCTAGAGTTTTAATATCAGGAGAAAAAGAATCATCCTTTTCTTTAATTGAAACGTATTTAGAAATTTCTGATTCATCTAATTCTAATTTTAGCAATTGTGTTACAGAGATAATTCTAAAAGAAGATTCTTTGTTAAATCATTATAGAATTTTATTAGAACAGAATGATTCTTTCCATATTGGAAATACTAGAGTATATCAATCTAAAGGAAGTGAATTTAATTCTATATCTTATTCACGCTCTCCTCAGATTGGTAGCAATGAAATAAAAGTTCATTTACAAGGTAGTGAAAGTAAATGTACTTTAAATGGTTTATATATTACTACTGGAACTCAACATATGGTAAACGATATTAGCATTAACCATGAAAAGCCTAATTCAGAAAGTCATCAGTACTTTAAAGGAATTTTATCTGGTAAGTCTAGAGCTATTTTTAGTGGAAAAGTTTTAGTAGAGAAAGATGCCCAGAAAACTTTTGCGGATCAAAAAGATTTAAACTTGTTACTTTCAAAAGGTGCAGAAATAGACACGAAACCAAGTTTGGAAATTTATGCTGATGACGTTCAATGTACTCATGGGGCTACTGCTGGACATGTTGATAAAGATACGTTGTTTTATCTCATGTCTAGAGGGTTAGACAAGAAAACTGCAACTGGATTATTGATTAAAGGTTTTGCTGATGAGATTATAAATAATATTTTATTAGATGAACTTAAATCTTTTGTTCATAATGATTTAGCAAATATTCTTCCAGAATTAAATTTTGAGGGATAATTATTTTGAATAAGAATTTAGATCCTAAGAAGATTAAAAAAGATTTTCCAATTTTTGAAAGAACTATTAATGGTTACCCATTAATTTATCTTGATAATGCTGCAACTACACAAAAACCTCAGTCTGTAATTGATTCTCTATCTTCTTATTATCAATATTCAAATGCAAATGTATTCAGAGGTGTTCATACTTTAAGTATAGAGGCTACAGATTTATATGATGAAGCTAGAAAAAAAGTTCAACAGTTTATAAAAGCTAAACATATAGAGGAAATTATTTATACTAGAAATACTTCTGAAAGTATAAATTTGGTTGCTTACAGTTGGGCTCTAAAAAATCTCAAAAAAGGAGATAAAATGTTCATTTCTCCTTTTGAGCATCATTCAAATTTAGTGCCTTGGCAGCAAATATGCCGTAAAGTAGGAGCGCAATTATTATATATTCCTTTGAATGATTCAGGAACAATTGATTGTGAAAAATTTTCAACTCAGATAGATAAAAATACTAAACTTATATCTGTGACTCATATGTCAAATGTATTAGGTGAAATTAGTCCTATTAAAGATTTAACTGAATTGGCACATAGATTTGGAGCATTAATTATGGTTGATGGGGCACAAAGTGTTCCTCATATGTCTATAGATGTACAAGAAATGAATTGTGATTTTCTTGCTTTTTCTTCACATAAAATGTTGGGCCCTACAGGAATAGGAGTTCTTTATGCAAAAAAAGAAATTTTGGAATCTATGGATCCATTTCTTTTTGGAGGAGACATGATAAGTGAAGTCACTTATGAAGATGCCAAGTGGAATGATTTACCTTATAAATTTGAAGCTGGTACTCCTAATATAGCTGATGCTATTGCTACAGGAATAGCTATAGATTATTTGCAAGACATTGGAATGGAAAATGTTTTTAATCATGAAAAAAGTTTAGTTTCTTATGCATTAGAAAAATTTTCTTCTTTAGAAAATATTGATATTTTGGGTTCTCAAAATCCATCTTTGAAAGGTGGAGTGATTTCATTCAATCACAAGTTCATTCACCCTCATGATTTAGGTACAGCTTTGGATAGACATGGAATTGCTATACGTACAGGTCATCATTGTGCAATGCCATTAATTAGAAGTTTTGGTTTAGTTGCAGCTTCTCGTGCAAGTTTTTATATTTATAATGGTAATGAAGATATTGATAAACTAATAAATTCAATATCTGAAATAGAGGATTATTTTAAAAATGAATGAATTTAATGAATTGGATGAAATGTATAGAGAAGTGATTCTTGATCATTATCGTTCTCCTAGAAACAATCAACCTTTACTTGAACCTACTAAAGAAATTGAGAGTAATAATCCATTTTGTGGAGATGAAATTAAATTACAACTTAAGATACAGAATGAAATTGTTACTGAAATAGGAATCTCTGGTAGAGGTTGTGCTATTAGCCAGGCATCTGCTTCGTTAATGGGAGAAGCTCTATTAGAGAAGAATATTAATGATTCGCTTGAACTATATAGTAGTTTTAGAGAATTATTGACAGGAAATTTATCAGAAGATCAATTAGATAACTTAGGTGATTTATTAGCTCTTGAAGGTGTGAAAAAATTTCCGATCAGGGTGAAATGCGCTCTTTTATCTTGGTCTGCTTTTAATGATTTGATAGAAGTTTAACCAAAATCAATGACTCTCCAGGATAGGATTCTAACCTATGACTAGCTGATTAACAGTTATATCAATAAGGTTTTTTGGTAGCTTCATTTCCTTGATTCATAATCTTTTTATCTTTTTTTAATTGGCTAAAATCTTGATGAATTGCATTTGTTAATAAAGATGAATCACTTCCATGTAGTATGAATCTAGATCCTAGCTCTATAGAAAGCCTTGATAATTCTATAGTTGCATGATGAATCATTACAGGAATATGATGTTTTTCCGAAATTTTTATAATTTTTTTTAGTGCATTTATATATTTTTGGTGATCGAGTTCATCAGGTATCCCCATTGAAGTAGTTAAATCATTTGGGCCAACAAAAACTCCATCCATTGGAGCACTTAATATTAAATCTTCTAAATTTTCTAGTGCAGGTTCACTTTCAATTCCTAGTATAAAAATTCTGTCTTTGTTCCTTTCATTTAAATATTTTTTAGATTTTTCATTAGGAAATTTTTTTTCATTCATTACTTTTTCTAAATATGTTCCCTTTAATGGATTATTATAGGCTCTAGCTGAACACATTTTTACATCCTCAATTTTTTCTGTGTAAGGCACAAGAACTCCATCTGCGCCTGCATCAATTGCCATACCTACTAATACAGGATCAGGGTTTGTGATCCTAATGATTGTTGTTATATCTAATGATTTAAACATTTGAGATAATTGGGATATTTGAGCTCTGTCTCTAGGTGCATGTTCTGCTTCAATGACTACATAATCAAGATCAGATTTAGAAAAACTTGAGCTCCATCTGGTTCCTTCTAATGCCCATATCATTGTTCCATAAACTTTTCCTCCAGATTGTAATTTTGATTTTAACTCTAATGGTTTCATGGTTCCTGTCTTACTATATTATTTATTTTTTCTAGTAATAATTACTATATTAAATTATTTTTTAGTAATATTAATTTTTAGTTTCAATTTTTTGAGTACACATTTTTTCAATTTTTTCTTCCGAAATTTCTATACCTAATCCTGGTTTTTGGGGAACATCAAGATAACCATTATCAAACTTAAATGGTTGTGTTTCTAAAGTAATATTTTCTCGTAAAGGATTATCAGTTCTATCATATTCCATGCCGGGTTCTTGTAGGAAATGCTGAGGATTGTCCATCCTAGGAGTATTTGGAATTGTACTTGCTATATGTAAAGATGCAGCAATCATTACAGGTGTTCCCCAAACATGAGGTATTGTTTGGATACCCATAGTAGAAGCCATATTTATAATTCTCTTGAATTCTGTAATTCCTCCAACATTAGCTACATCAGGTTGAACTATGTCATATGCTTGATTAACTAAGAAATCTTTGAATTGAGAAGATGTTCTTAAAGATTCACCCCCTGAAATTGCAATAGGAGAAATCTTTTTTAATTCAGCGTATGAATTCCAGTCATAATAATGTAGTGGCTCTTCAAACCACAATATGTTAAATTCGGCTAGTTTTTTTAATAATTTCTTTGCAGTGTATAGATTATATGCTTGATTCGCATCAACCATTAAATAAATGTCATCTCCTATTGCTTTTCGTATTTCTTTAATTCTTTCTATGTCTGATTCTGGTTTTATGGCCCCTATTTTCATTTTCATTCCTTTAAAACCTATTTTTTTGTAGTATTTAGCTTCATCAACTAGGTTTTTGGGAAAATCATTCTCTGAGTAATATAGACCTGTTGCGTAAGTAAGTATTTTGTCTCTTATTTTTCCACCCAATAATTCAGAAACAGGAAGATTATATGTTTTACCAGTAATGTCCCATAGTGCGATATCTATTGCACTAATAGCACATCCTCCAATTCCTACTTGTAAAACTGCATTATTTAATGCAAGGTACATCTTTTCCCATAATTTTTCTCTATTTAATGGATTTTCAGAGATAATTTGAGATTTTAAGGTGCTATGGATGACAGAAATTGTTTCTTGAGTTCCATATCCTTCTCCCCAGCCTTCTATGCCTTCGTCAGTTGAAATTTTAACAAGTACAGCAGATCTCTTTGTTGCTTTTCCGTTTGACCACCAAAAAGGTTTTTTCAGTTGGGATTCAATAAGATAAGTTGTTATTTTAGTTATTTTCATGCTTTACCTAAAACTAATTTATACTGCTTTAAAGTTTTTGTAACTAGTTGATTTTTTTTGAAAATGATAAAATGGAAAAAATTTTATTTATAAAGGAGGTGATGGACAAGATGTTTAAAAAAACATTTATAATTTGTTTATCTTTAATAATTTCCTATTCATTTTTGATATGATGTCAAGCAGAAGAAGAATCTGAAACTTCATCAGCTACTTCAGGTAGCACATTGGATGTAGTTAAAGAAAGAGGAGAACTGAAGTGTGGAGTCAATGATAATTTAACTGGATTCGGGGTTGTAATGCCTGATGGTTCATTTGAAGGATTTGATATTGATTACTGTAAAGCTATCGCGGCTGCAATTTTGGGAGATTCTAGTAAAGTAGAATATGTCCCATTAACTGCTTCTGCTAGATTTACAGCTTTAGGTTCAGGAGAAATAGATGTTTTGATTAGAAACACTACTTGGACTGCATCTCGTGATAGGGAATTAGCTCAAGATTTTACAGCTACTACATTCTATGATGGTCAAGGCATGATGGTTTATGCTGATAGTGGATATAAGACTATTGAAGATATGTCTGGAGCTACTGTATGTGTTCTTCAAGGAACCACTACAGAATTAAATCTTGATGATAGATTTACAAAGTCTGGCATTCCTTACACACCGTTAACATTTGAAACTAATGATCCTTTACAGGCAGCTTTTGAAGAAAAAAGATGTGATGGTTGGACTACTGATAAATCAGGACTTGCTTCCAAGAGAGCAGAATTTCCTGCATCTGCAGGTGGGCCTGATGCTCTTGTAGTACTAGCTGAAACTCTTTCTAAAGAGCCTTTAGGACCACTTACAAGAGATAATGACAGTGAGTTTTATGATGTTGTACAGTGGGTAGTTTTTGGTATGATGCAAGCAGAAGAAAGTGGGATTAATAGTTCTAATGTTTCTTCAATGGCTGCTAATCCGAAAGACCCTGGTATGGCTAGGTTATTAGGAGTTGGTTTTGATGGTGGAGAAGTTCAAGATTTCCAATTTGGAATACCTAAAGACTTTATGCAAAAGGTTATATCACAAGTAGGAAATTATGGAGAAGTTTATGATCGGCATCTAGTTCCTTTGGGACTTACTAGAGAGGGATCATTTAATGCTCTTTGGACCGATGGCGGATTAATTTATGCTCCTCCATTTAGATAAATCTTAAGATTTAAAACTACATAAATATTGTGCGTCGGAAACCCGGCGCACATATTGTATTTGTATATGTTTAGAACATTTATTTTTCAGAATTTTATTGATTGGATTGATAGAATTAGTTTTCTAAGAAAAAGAAAAACTAGGAGAATATCATTCCAATTATTATTTCTTGGTTTTTTAGGTTTAATTATTTGGTATTTTGTTTCTAAGGCTTTACAGTTAGATCTTGGTTTTAGTCATCTGAATAGTAGGGCAGGATTTGGTTTAAGCCATACTTTTTTTATAGATTACTCGAGTAATGATAGTAGATGGAAGGCTTATTTCACTGGTGTAATTAATACTATTAGAATTTGCTCTTTAGGTATCTTACTCACCACAATTTTAGGAACGATTATGGGAGTTGCTAGGCTTTCGTCTAATTTTTTAATTTCTAGAATTTCAGCATTGTATATAGAAATATTAAGAAATACTCCTTTACTCGTTCAAATAGTATTTTGGCAAATAGTATTTTTAAAATTACCTCAAATTTCTAATGCTATAACTACAGGAGGTTATACAGCTATATCTAATAGAGGGATTTTGATTCCTTGGATTGAGGCAAATCCAAAATTTGATATATTTTTTGCAATAGTAGTTATTGCAATTTTAATTTCTATATTTTTAAAAGTATTTTTAAATAGAAGAGAAGAAGAAAAAGGACAAAAATTATATTCTAATTTTATACCTTTAATAATGTTTTTTGGTATTTCTTTATTAGGCTTATTGTTTACCGGAATTCCTTTTAATTGGAATATTCCTTCGGTTGCTCAGAATGAGTTTGGGACTTATATGCAATCAGGGGGATTTGAATTATCACCAGAATTTTTGGCATTGTTATTTGCTTTGGTTTTATATACTGGTACTTTTGTAACTGAAATTGTAAGAGGAAGTATTCAATCTCTTCCTAAAGGTCAAACTGAAGCAGCATTAGCATTAGGGTTTTCAAGTTACCAGAGAATTATTTTAGTAATTCTTCCACAAGCATTGAGATCTATTATTCCTCCTCTTACTAACCAATATTTGAATTTAACCAAGAATTCTTCTTTAGCTGTTGTAATTGCTTATCCAGATCTTTTTATGGTTACAAGAACTATTATTAATAACTCTGGTCATGCTCTTCCAATGTTTTTCGTTGTTCTATTTACCTATTTAAGTCTAAGTTTAATTATTTCTTTGATAATGAATCTTTTGAATCGTCAAGTTACTAAGGTGAGGGTTTAATGAGATTAATAAATGAAATTACAAGAGATGGTTTTTTTTGGATAAAAGAAAATTTATTTCAATCTTATCTAAATTCATTAATGACTTTATTAATTGTTGTTTTTATAGGTTATTTATTCTTAGATTTTTTAGGCTTTTTGATTAATGCAGATTGGACTGTAGTAGAAGTAAACAGGAGACTTTTATTATTAGGAAGGTTACCTCTTGGAAATGAGATAAGAGGATGGTTAATTCTTTGGTTTTCTATGATATTAATTTCATCTTCTATAGGAATATGGGGTTCTCCAAATATAAAAGATTTTCTAATTATTTTTATTATTTCTTTAGTGATTTTCTTTATTTTTGGGACTTTAAATTCTATTTACCATATTTTAATTACTTATTTAATTTCTTTCTCTCCTTATTTCTTCTCAAAATATTTTCTTAGAAAAAAATATTTTGAATTATCAAAGAGAGTATTAATATTTTCTTGGATTTTAATTATTCCAATTTTTATTATAATTCTTTTAATTGGAAATGGTCCTAAACCTAATCTATGGGGCGGGTTTTTACTAAATATTATTTTAGCTTCAGTTGCTATAGTTGCAGGGTTTCCATTGGGATTGATTTTAGGATTGGGAAGAGCAAGTTCATTCCCTGTAATTAAGATAGCTAGTACTTTTTATATTGAAGTTATAAGAGGAGCACCTTTAGTTGCTTGGTTATTATTAGCATGGTTTGTTTTACCAACTTTTTTGCCAAATTTATTTGGTTTGAATGAAGTAAGTATTGTTGTAAGAGCGATGATTGTATTATCTATATTTGCTAGCGCATATATTGCTGAGGTAATAAGAGGAGGATTACAGTCAATACCAAAAGGTCAATTGGAAGCAGCCGATGCTTTGGGTTTAAGTACTATAGATTCTACTTTCAATATCATATTGCCTCAAGCAATCAGAGTAGTAATACCGGCTTTAGTTAGTACATTTATTGCTATGTTTAAAGATACTTCATTAGTGTTTATACTTGCTCTTACTGATTTGTTACAAGTGGGAAGATTAATTCCTGAACAGGAACCAGAATTTTTTGGTAGGCAATTAGAAGCTTTATTAGTAGTAGCATTTTTGTTTTGGGTTGTTTCAATTTCTTTATCGAATTTAAGCTCTAGACTAGAGAAAGCTATGGGTATAGGAGTAAGATAATAGAGGAGGTTTAAAATGAAAAATAAAAAAGAAATAATTATTACAGAGAATGTTGAGAAGTCATTTGGGAACTTCCAGGCTTTAAAAGGAATTACGGCAACAGTGAAAGAAAGTGAAGTTGTTGTAGTTTTTGGTCCTTCTGGTTCAGGTAAATCTACTTATATAAGAACTTTGAATAGACTAGAATCTCATGATTCAGGAAGAATAATTATAGATGGTGTTGAACTGAACGATGATGTGAAAAACTTAGAGAAAGTTAGATCAAATGTAGGTATGGTATTTCAGTCATTTAATTTATTTCCTCATCTATCAATATTAGGGAATATTACTTTAGCTCCTAGAAAAGTTAAGAGAATGAAAAAGAAAGAAGCTGATGATCTAGCCATGGGTTTACTTGAAAGAGTAGGTATTCCTGAACAAGCAGAAAAATTCCCAACACAACTATCTGGGGGGCAACAACAAAGAGTAGCTATAGCACGAGCATTGGCTATGCAACCAAAAATAATGTTATTTGATGAACCAACTTCAGCATTAGATCCGGAAATGATTAAAGAAGTTTTAGATGTAATGAGGGAACTGGCAGATTCAGGTATGACAATGATATGTGTTACCCATGAAATGGGTTTTGCAAGAGAAGTGGCAGATAGATTTCTATTTTTTGATCAAGGTTTATTGATAGAAGAGGGTTCTCCTGATCACTTTTTTTCTAATCCTAAAGAAGATAGAACTAAACTTTTCTTGAGTCAGATATTGTAATATTTTCATGAGTCCTTCTGAATCCTTTGAAAATATTGAAGATTATAAAAAAATAAATAGAGATTTTGAAATTGTTTTAGCAACTAGGGCCAGCAGGTTAGCAGCTAAAATATTGGATTTATTTTTTTTTCTAGCAATGATTGTTCTTGGTTTAATGTTAGCTAGTTTTTTTGGTGAAATGAGTTTTAGAGATATGTATTTTTGGTTAATTGAGTTGCAAACCAATGAGATTTCCACTTCTAAAAGTATTAATTCATCTCCAGAAGGATTTCAAATTTTATTGATAGTATTATCCTTTTTTTCTGTAATATTTATTCAAGCTAGGTTGTTGGTAAGAGATGGGCAGACTATAGGAAAAAAAATCATTGGAATAAAGATTATAAATGCATTTAATTTGGGTAAAGTAAAGTTGATTAACATTATTTTTATAAGATGGATATTTTTTGAGATTCTGTCTGTTCTTCCTTTTGGAACTATTATTGTTTTAGCAGATGTTGTCTTTATTTTCAGAAAAGACAGAAGATGTCTTCATGATATGTTATCAGGTACAGTTGTATCTCAAAAAAACGAAAATCTTTCCTGAATTTTTAAGGAGTATTTTCTTCTATTACTTTAGTTAATTTAGTCCTTACATCATTGGATTCTAAAGTATCATCAGATTCAAAAACGGGATTTAGTTCCTCTAAATCATTTTCTAAATTAAATAATTTTCCATCATCATATAGTTTCCATTTTTCATCTCTTGCAAAAACATATTTAAATTCTCTATTTGATCTTGCATCTCTTCGAGGATTTTTAGGATCATAATAAAAATATAACCAATCCCTAGGGTTTCCTTTTTGACCAGATAGTTGAGGAAGAAATGATTGTCCATCAATAATGAAATCATTTAAGGGTGTTTTGGTAATATCTAAAATTGTAGCTAAAATGTCAGTTGAATCTATTAAATCTAAATTGACTCCAGGGTTTATGGTTCCTGGCATAGAGCATATTAGTGGTACATGGGTACCTCTATCATTAGGTAACCCTTTCCCACCTTGAATTGAGGTAGATCCCATTTCAGAGCTTACTTCAACAGGAGTTCCATTATCTCCAATATAAATTACAAGTGTGTTTTCACTTAAATCTAGTTCATCTAGTTTGTGAATTATTCTTCCCACTATCTTGTCATGATACTCTACCATATCCTTATAATATTTAGGGTCATCTTCCCACCCTTCAACTTCTTCAAATGTTTTTCCTTTTCCTAATGAGATATTTGTTGGAGGATCAAATTCTTCATATTCTGGACTATCTGGGGTGGGCTCAAAAGGTCTATGAGTTAGAGCCATAGGAAAATATACAAAGAAAGGTTCTTCTTGGTTTCTATCAATGAAGTCTAATATATAATCACAAAAAATATCTTCTCCATATTGGCCTTTTGTATTATCTAAATAAGATCCATTTTGGTATATAACTGGATCCTTATATCTTGAACCTTTATCTTCTGTATGATGAGCATGCCATACGCAATATTCATCAAATCCTGCATCTTCAATCTTTTGTCCTTTATTTCTCATTTGAGGTTCTACATCAGGTGGATTGTAAGAATATAATTGCCATTTTCCCGATATTAGAGTTTTATATCCAGCTTCAGTCATTATATGACCAAAGGTTTTTTCGTCTGGTTTCATTAATCCGAATCCAATATAGTTTCTAGAATTATATTTACCTGTCATAAGTTGTAATCTAGTAGGTGTACATAAGGGTTGAACATGAGCTTCTGTGAAGTTAATTCCGTCTGTTGCTAATTTATCTAATACTGGTGTTTCATAAGACGTTCCACCGTTACATCCTAATACTTCATATCCCAAATCATCTGACATTATTAAGATCACATTAGTTTTGTTGTGTTTTTTGCTCATTATTCCTCCAGTAATTTGTATATTTTTAAAATAACATGGTTACTTAATAATTTATATGGTTACTCCTCCATCTACAGCTATAATACCTCCTGTAATCATATTAGAATCTTCAGATGCAAGAAAAGTAGATAAATTTGCTATATCTTTAGGAGTTTGGAGCCTCCCTAGGGGTATTTGACTTAATCTTTGATTATAATTTTCTGGATTATTAATACTTGTATTCCAGTCATTTGGACTATAATCAGAATCATTTCTTATGAAATTTGTATCTACATGCCCAGGGCAAACTAAATTACATCTAATTTTGTCTTTCGCAAAAGCTACTGCTGTACTTTTAGTTAACCCTATCAATCCTGTTTTACTCGCAGTATAAGCTGGGCTAGATGCTGAACCTTTTAGTGAAGCTAATGATCCAATATTGATAATTGATCCTTTACCGGATAATTTAAAAAATGGAATTAATTCTTTTATTCCTATAAAAACACTTGTCAGATTTACATTTAAAATTGTGTTCCAATTTTCTAAATTTTGATTAATAAATTTCTCTCGAAAATTAGTTCCATAGCAATTAACTAATATTGAGATTTTTCCAAATTCTTCAATTGTTTTAGATGATAATTTCTTCCATGATTCTTCATCTGTTGAGTTGAGATGAACATATTTAACCTTATTTTCAGAAGAAAAACTTGAATTTTCTTTAGCTATTAGGTTACCTTTTTCTTCATTAATATCTGCTATTATTACGTTTGCTCCTTCTCTGACAAATGATTCAACATGAGCACTTCCAATATCTCCTGCACCACCAGTAATTATTGCTACTTCATTCTTTAATCTGGTCATATTATTATCCGTAAACGAGTTCAATTAACAGGTATCCGTTAACGTAATTTAACACGTTTAAGTATTTTATTTCTACTAAACTCATTTTGCTTTTTCAGTTTTGAATGTGTTTAAGTATTCAACTATATGTGCTTGTTCAATTTCATTAAGCTTTATATAAGCTTGTTTACTATTTTCTGCTTCTCCTCCATGAACTTTTATAGCCTCAGAGATTAAAGTTGCCCTTCCATGATGTAAAAAAGGAGGCTCACTAGCAAATCCCCATAATTTTTTCGTGATCCATTGATCAGTAGGAACATTATTTCTTGTTGCTAGTTGTTTGACTTTTTCATTATTCAACAAATCTCCCATTTTATGTCTCTTCAAATCAGAAAATAGGGGAATAAGCAATTCATCATTTTCATTTATTTTTAAGTTTGGATAATAATCTTTTAAATCTATATAAATTCCCTTTGTGTCTTCTGCGGATAAATGATCTTTAGGGTTAAAAGGTCCAGGGTCTGAAAATAAGGTGTTTTTAAGTGGCAAATAGGGTCTATGACAATCAGAGCATCCAATTTTTGAGAATAATAATTGTCCATTTTTGGCCGCTTCTTTTTCAATATCGGTCTTTGGTTCTTCCCATTTAGGTATAGGAAGTAATGCTTGAAAAATTGTTAGAGCAGTAATATCTCCCATCGTCAATTCATTAATTACACCATCACCATCATGGTCTTTAGAATCTGATAATAAGTCCATAGCCTTATGAATATCTTCTCGATCTTCGAAAGTTTCTGAAGATTGCATTCCATGATGATGATTCATTGCGTTATTTGTAAAAACTCTTAGGGAAGGAACTACACCTTTTTGAGTAAAAGGTTTAATGATTAAATCTTTATCAACCCCTACTATCTCCGATGTGTCTAAAGTACCATTGGGTTTAGCAGTTAAAAATCCAAACGAAATTTCTTTAGTAATCAATTCTATTCTGACTTCTCTAGATTCATTCAAAGAAATTATTTCAGCGCTTGCTCTTTGAGCTATTAATTCTTTAGACATTTCTCTAGCCAATAGTTCAACTAGTCCAGAACCAAACATTCCTAAAGTGTTTCTTTCATTTCCTATCTCTTTTAGAGTGATATCCTTTCCAAGATCTTCAGTTTCAAAGTCTAAGAAGGGAGATTTTTCCGCTGAAGAAAAAACGTTAGTTACATTACTTCCACCACCACCAATTATAGGCATGTTATGGCAATCAGAGCATGCGCTAGTTTCAGGTCCAGAAATCCGATTAAAATTTTCTTGGAATAATTTTTTATCTCTTCTAGTTCTATTTCCAGAACTTTGTGGTCTGCCAAATCCATCTAATGAATTAAAATTTGCTGTAAATAATTTTTCTCCATGTAAAATTAGTTCTTCTATAGTAATTTGACCAGATTCAATATCTTGTTGTTTTAAGTGGGTTTTTATTGAAGGCTCATCTCCAATGAAGATATTTTCGTTAGTTTCTGTACTACATCCAATACTAATAGTGAATAGACAGAAAAGAACTAATAAATATTTTATCTGTCTAGTCATCATATATTTAAAAATCTGATAATAATTCTAAGGAACTATAGGAAGGGAAATCCAAAAAATATAATGTGAAATGCTGTACTCCAGATTCTACATAATTATTTATTTTTTCTTTACATTCATCTATTTGTCCTATTATAAAATTAGATTCAATAATCTCTTTAGACTCCTGTCTAGTGGGTACAACATTACCTGCAGTTTTCAAGAAATACCTAAACCAATCAATAATTTCGTCATTAATACCTTTGTCAGTAATTAGTATTCTTGATTCCATTGTTTTTTCAATTCTAGAATAATCAGTTCCTTCGTTTTCACAATGAGATTTTAATATGGATAACTTTCTAGAATATTCTTTGGCAGTAACTGCAGGAATATTCCAAATATCTGCATATTTAGCTACTAATTTTAATGTTCTTTTTTCACCACCTCCACCTATCAATAATGGAGGGTAAGGTTTTTGAGTTAATTTGGGAGTTAATTTTGTGTTAGGTGTAGGAAAATGATTATAATCTGGATGTTTATTGTCTTTAAAAATATTTAGAATTATTTCTATATATTCTTCAAAAGCATCCATTCTGATTCCTACTTTTTCTATCCAAGGAAACCCATATGCATTTTGTTCTTCTTTATACCAACCTGCACCAATTCCTAGATCAAATCTTCCTGAACTTAAAAAATCTAGTGTGGAAGTCATTTTTGCTAGTAATGTAGGCTCTCTATGTGAGTATCCTAGTACAAGTGGTCCCATTCTAATTCTTTCTGTTTGTTGTGCAATTACACTAAGAATTGTCCAAAGTTCATGTTCTCCCTTTTCATGGCCTAAATGAAAATGATCTGCACCCCATAAAGATGAATATCCTAATTCTTCAGATTTTTTCGCAAAATTAATAATTTCATTAATATTTATTTCAGATGTTTTTGCACTTGATCCTGAAAAAATTGGTAAACATACTCCAAATTTAGTCATACATTCTCCTTAGTTCCGGGATTACTTGTTGGTTAAATATTCTTGCACCATCAAGAGAAGGAGAATCAAGAAACCAAAACATAAAATTTGTTACTCCTAATTCTATGTACTCTTTTAATTTTGAAATAATTATTGATGGGTTACCTGATACGTTTGATTTATTCCAGTTTTCCCAATCTCCAAAATAGTTGTTTTTAGGATTATTTAAATTTATTTCTTTTTTAATTCTTTCAATATCTTCTTCATCTTTTCCAATAAGGATTTCTAATTCAACAGACTTGTTTAAGGTATTAAAATCTCTGTTATGGTCATTAAAAACCTTTTTTAATTTCTTTTGAGTTTCCTTGTATTCTTGTATTCCAACAGGAGTCACATTCCACCAATCTCCATATTTTGCTATTATTTGGAATATTTTTTTGTTCCATTCTCTAACTTGGTTACTTTCAGTTAAACTGCCAATCCATATTTGAGGGTGTGGTTTTTGTAATGGTTTTGGATATAAAAGAGGTTCATGAATATTATAATGTGTACCTTGAAAAGAAATAGGTTTTTGAGTCCACATTAACTTAATAATTTTTATAGCTTCTTCAAGTTGTTCAATTCTTTCTGAATCTGATAAAAAATCATAACCGTAGGATGTGACTTCATTTTTTGTTCCTGGGTGTCCTCCATCAATGAAAAAATTAATTCTGCCATTAGTAATAATATCTAGAGTAGAATACATTTTTGCGGTTAATGAAGGGTTTCTTAGAAGATTGTTGAAATGAATATGGCCCAATCTAAGTCTTTTTGAAATATTTGAGGCCCATGATAAAGTCGTTAATCCTTCAAGTATTGGTGTATCATTGCTCATATTTAAATGATCTGCAACCCAAATGGAATTGAAATCCATTAAGTCTATTTCCCTTACTAAACTATCCAAGGTATTTGGGTTTAAAGAATTTACCATAGGAGTTCTAGCCATTCTATCATTCCCGCCAGGGAATATAGGTAAGCAAAATCCAAAATCGATCATTCTTGTCCTCTTTTAATTTATTATATTTATATAATCTTTATACATTTTTAAATTATTGAAAAGTTTGTTCTTCTGTGGAAATAGATTTAAGAATATTTTTTATACCTATAATCGAACTAAGAAAAACTATAATTACAGCTGAAATGATAATTGAATAATATATTGACCAATTCACTTTCAAATATATTGGGAGATATAACAGAGTAGAAGTTGAATAGAATACTTCAATAAGTTCATTTACTAAAATTTTCGTTATAAAACTACTGGTAAAAATTCCTAATAAGATTCCTACAATTATTACTATCAAATATTCTAATATGACATGAGTAAATATTATTCTAGAATTTATTCCAATTCTTTTTGATGAAATCCATTCTGAAGATCTTGTAATTACTTGAATAGATACGAAACTTATACTTCCTAGAACTAGTAAAACTGGGATAATATATAAAGACAAAATGTTTAACCCATCCAATCCTCCCTCTGTTACTTTATTATCTTTTAAAGATTCTATTAAGTTATCTTTTATAAAATATTTTTGTTGGTTTTCTTGAACAGAAAAATCTAACATTGAAGAATTTAATTTTGAATCAGATTGATTTGATTCTATTGAATTAGAGAAAAAATTTTCAGTTGAAATATTATTTTTTGAAGATGCAAATATCTCAGTAGAATTAAATCTTAATGGACCTCTAATTTCTAAAAAATTTATTAAATCATCACCATCTAGAATTATAAATCCATTTTCTGAAGGATCTAGTGTTGGAAACAATTCAAGGCTATCTACTATTTTGAGTTGTACATAATGACCGCCTAATTTAGCGATAAATTTTTCTCCTACTTGATGAAGATTTTCTTTTAAGAATGATTTACTAGTAATAATTGGTAATTCGTTAAATGAAGATAAGTATATGCCTCTGATACCTTCATCTGATCCAGAACCAAAATTAATTTCCATATATTCAGAATCAGATTCTCCTTCCAGATAATAAAAATTTAAATTTGTATCTATTCCTTCAGAAGTTGGAAGAGTTTGCCAAGAATTTGACTCGTTTATAGGAATAACACCTAAATAATTAAACCTACCTTCGCTATTATTTAAATTATTATTTGTTGAAAAATTTATCTCTTTGATTTTAAGAGTGAATTCTGTTGATAAATCTTCTGGAGAAGTTTCATAAACAAGTATTCCTACTATTTCTATAGATTCTTTTATTTCCTCATCTAAATTTATGTAGTAGCTAGACCAATTTATATCAGGATGATTTTTTTGATGGCAATCAAATACTTTACAATTAGAGATTGGAATAGTTTCATGTCTTCCATTATTGAATTTTACTCTTAACCATAATTGCACGTGAGAAGGGATTGGAGTTGAATTATTAATAGTTAATCCTATTGACTTTATATTCTCTTTAATAAAAAGTTTTTCTTGTGAATTATTTATTTGGATTTTGGGCATTAATTCAGATATAGATTTTGAAGAAAAATCTTCTCTATACCATATTGATTTTTCTATTAATTCTGGTTGTACTGCAAGGAATTTAAAGTCTTTTTTTCCTAATTTCCCGACTCCTCTAAAACTCAATGATTGATTATATTGACTTAATACATCTATATTGATTTCAGTTTTATTCAGAGATTTTTCAAGAGGAACATCATTTATTCTGATGTCTCCACCTACTTGGTATGAAAGAGAATCATTAATATGATTATCGACTGTATTTATAATTGTTCTAGAAGATAAAATTGTACATGTTGAAATCCAAAATATTAACAATATCCACGAATATTCATTTGGCTTTCTAGTAACATTTATTAAACTGAATCTTAACCATAGAGGCTTATTAACATTTATTCTAAGTTTTTCGGTAATAAGATTTATTATTTGAAATAATCTTAATACCAAAAAAATCAAACCAAGAATCCAAAACATTGGAATTGCCATTTTTAAGATTGCTATTAGGGCTATATTATCATTACTGTAGTTTGCTAAATATTGAAAATTTGAAATGAGTGATTCCCAAAAACTTACAGACGCTAAAGAAATAATGATTAAGTCTATGTAATACCTTTGAAAGAATGAAGAACTTCTAAATTTATCGAAAATTTTCTGATTTTCTATTGAATTGTTTTGAAGGAATCTTTTAATAAATATTGGAATTGAAATAGCGATGATACTTATAAATGAAGCTAAAATCCCACTCAAAAAATTTACCGAAAAGCCATTCTTAGATTCATTATTTAAAATTTCACTTGAATCAATTATATAAGTTGTCAAATAATTTCCAATAAATGATCCAAGAAGACAGATAGGAAACACAAATAAAAATAACCAGAAAATTATATCTGCAAACAATTGTTTTCCTTTCAATCCTCTCATTTTTAATATGTAAAATTCTGAATTAAATTTTTCTCCTAGTTGTAATATTGGAAGTAGTGAAATGATTAGAGATGTCATTATTAACAAAGATCCTATTATCAATAGAGAAGGCAGAGTATTTTTATAATCATTTAAATTAGATTCTAATCTTTCTGCTATTGGATTAATAATTAAGGAACTTGGAAATTTAAGACTAAGTTGATTTTGAATATTTTTTATATATTCAATAGATTTTGATGGACCAAAGTCGAAAATTAGATTATCAGATAGAAAGAACATCCAATATAAACTAGTTGACCCTTCAGATCTTTCATTTAACTTCAAGAGATCTTTTGAATTTATTGATAAGGGTGTTTCTAGTATTCCATTTGCATTTACTCGAGGATTTACTACACTGGTTTGGCCCATCCAAAATTCATCATTTTCATCTAAATCAAATATTTTAGAAACATGAAACTTAAGTGGTTCAGGATATAATGGATCTGGAATATAGATTATATCTCCCACTAAGATGTCTAACATTTTTGAGGTGTTTTTAGAAATATAAATATTAAAAACTCCTTCTTTATTTTCATCAGTGGAATCTAAGATAGAAACATTTTCAAATAAATTATCTATAGTAACAACTGAGAGACTGTAATCTTTTATAGAAGAAGAATGTTGGGAAACATTTTTCTTATATATTATATTTTTTAATGGAGATTTATTTTTGGAAATATCAAGTTTTATAATTTTCGAATTGTCAGTAATGAAACCAGATTCTTGATTAACTAATTCTTCTATTAATTCTGATTTATTTGCTAAATAGTCTTCCGATAAAGACGCATTTGTATTATTCAACCAAATATTTTTATTACTAACTCCAAGACTATTTACTGTCTTGTTGATTACATTATCTTCTAAATAATTTATATAGATAGTTAAAGATGAAATTATTATTCCTAGAGATAAAGTAGATAGTAGAAAAATAATTGATATAAATTTAGATTTAAAAAAATAACCTTTTAAGATGCTGAAAGTGAGTTTCATTTATTTCAATCTCAAAGAAGATTTAAGAATTTCTCCACCCAACTCCTGGTGTTTCTAATAATTCTTGAGTTGCTGAAATATCCAATTTCCCCCACTTAATATCTGGATCAGGTTGAGGTATAGAATCAACTAATAATTTTGTGTAAGGATGTTGAGGGTTATTTATAACAACCTCTACAGAACCTGCTTCTTTAAGATATCCTTTATACAGAATTAATATATTATCTGCTACCTGATACGCAGTAGTTAGATCGTGAGTAATATAAACTATAGATATTCCATGTTTTTCTCTTAGCAATTTAAGTTCTTCTAATATTGTTGCTCTTAAAGATGCATCAACCATAGAAACAGGTTCGTCTGCAATTATTATTTTTGGTCTTAAAAGAAAAGCTCTAGCCACCATTATTCTCTGTCTTTGCCCTCCACTTAATTGATGAGGAAATCTTCCTAAAGTCTCATCAGGTCTAAGGCCAACTTCTTCTAAAGCGCTTAATATCATTTTATCAGAATCACTCTTGTTGGAAGTGATTCCAAATTTTTTTAATGGAGTTGTTAGAACATGATCAACTTTATAAAAAGGATTATAAACTTCAAATGGATCTTGGAATATGGTTTGAACTTCTTTTTTAAAAGTGAGTTTTTCTTCGGAATTCATTTTATTCAATGATTTTCCTTTGTATAAAAGTTCTCCGCCAGATTTATCTAAAAGCCCAGCTAAAAGACGAGCCATAGTTGTTTTACCGCTTCCACTTTCACCAGCTATACAGGTGATAGAAGGAGGGGTCTCTTCAACTGAAAATGAAATTTCTTTTAGAGCTAAATTTCTTTTCTTTAAGAATGTTCCACTAACGTATTCTTTACTTATATTAGTTGCTTGTAAAAGGCTTGCCATATTTTCCTATTTTTTTGTTTTTACTTTTCCATAATCTGAACAGATATCACATTTCTGAATAAAATGATCTTTACTGATTTCTACCCATGGGATTTCTTTTCTATTTTCTTTTTCTATTCTGAGACAAAAACTACATCCTGGAGCTAGATTTAGCAGGGATGGTGGTAATCCTGGAATTCCAATTAAAGGTCTTTTTCCTTTAGTATCGGGTAAACTTTCTATAAGTAATCTGGTATATGGATGAGTAGGATTTTTAAAAATATCATTTACTGAACCAATTTCTACTAGTTTTCCTGCATACATTATTCCAATTTTATCAGCAAATTGAGCCATTAATCCCATATCATGACCAATTAAAACACATGCAGCACCTAATTCTTCTTGTACCTTAGATAAAGTTTCTATTACCTGTCTCTGTACAATTACATCTAAAGCACTTGTTGGTTCATCCGCAATAATAACTTGAGGTTTCAAAGAGATTGATATAGCAATACAAACTCTCTGTTTCATTCCTCCACTTAATTCATGAGGGAATAAATTTAAGACTTTAGGATCCAACTCCACGCTTTCCATAAGTTCTCTAAGGAATGTTTCTCTTTCTGCTTTTTTAAATTTAAAACTATGGTCAGAAAGAGCATCTACTACTTGTTTTCTTATTCTAGCAACAGGGTTCAATGAATTCATTGCTCCTTGAGGAATCATTGAAATACCACTTAGTCTTGTTTTTCTCATATTTTCTTCACTGAGATCTAATAAATTAGTCTGTCCCAAATTTATTGAACCTTCTTCTATTATTGCTGGAGGTTTATGAGATCTCATTAAGGCTAAGGCAATTGTAGATTTTCCAGAACCTGATTCTCCTACTAAACCTAGTTTTTCTCCTTTTGAAAGGTTAAAAGATACTCCTTCTACAGCTTTAACTGGACCACCACTGGTGTGATAGTATACCTTTAAATTTTCTACACTTAGTGCGAAATTTGTCATACTTTAGTCCTTAATCTTGGATTAGCTATTCTATCTAACCCTGCAGTAATCATGAAAAGACCTATAAAGAGCAAAACCATTACTATTATAGGAGGCATGAACCACCACCAAAGTTCTCTTATTAAAGCTCCATAATGAAGGACCCAAAAAATCGTTAATCCTATTGAAGGTTCATTTTGGGGTCCAAGGCCTAGAGCTGATAGTCCAAGCGAAGCTAATACTGCACCTGCAGAAGCACCAACAAGACTAGCTGCAATAAATGGGAGAAGATTAGGGATCATTTCTTTAAAAATTATTTCTAGGTCATTCACACCGTTAAGTTTTGCTACTTGGATATATGCTCTTTCTCTCATTGTCAGTACTTGGGCTCTTGTAACTCTAAGTGCACCCATCCAACCAAAAGCAGCTATCAGAAGCCCTAACATTGTATTACTCATAACGTCTAGAAGAGACGCTAAAACTATCAAAATCATTAATACTGGTATGGTCATGAATACATCAGAAATAAATCTTATGAAATTATCTATATAACCTCCAAAATATCCACTTATGAATCCTAGAATTGTTCCAACTCCAACTCCTACAAATGCTGCAATCAATCCAATTTTTAAAGTTCCTGGAGTTCCATATACTATATCTGCAAAAACATCTCTACCTTGTTGATCAGTACCAAGCCAATGATCTAATGAAGGTGGTTGAGCAGGTCTTCCTGCACCAACATCTGCTCTTTCCCTGTCTACGAACCAACTTCCTATAACACCAAAAAATATTACGAATATTAAAGTAATTATTCCTGCGGTTAACATTCTATTATCGTTAATTAATTTTAGTGCTTTCATTATTAATCTCTTATGATTGTTGTTCCTGCAAGTTTATTCTTGGATCTATCAATGGATATAACAAGTCAACTACAAATAAAGCGAACCCTAAAGAAACAATTACAAAAATCATTATTCCTTGCATTAAGAAATAATCATTTGAAGATATCGCAGTATATAGTAGATTTCCTAGTCCAGGATAAGCAAAAATCACTTCTACTAATACTGATCCTGCTAAAATAGTTCCAAGGCTAATTGCAAGTCCTGTTACTTGAGGTAACATTGCATTCCTTACGCCGTAACTTAGGAAAATTCTATTTTCTTTTAATCCTTTATACTCAGCGAACTTCATATAATCCTCACCCATAGTAGTAATCATCATTCCTCTCATTCCAAGCCCCCAAAAACCTATTGAAGTAAGTACTATTGATCCTGCTGGCATAATTGCGTGTGAAATAACACTTAACACCATTTCAATACTCCATTCAGGTCTGACCCCGAAGCCGTATGCTCCAGATGTAGGTAGAATGGGCCAGTATATTGCAAAAGTATAGATCATGACTATTCCAAGAAGGTAATAGGGAATAGCAGAAAGAGTCATTAGGAAAGGGACAAAAATCTTTACAAAATTTCCAGTTTTTGGCCATGCAAGTAAAGCTCCGAAAACAGTACCCACTACAAAAGCTATTACAGTGGCCACAGATAACATCCCAATCGTCCATGGAGCCGATCTCATTATTTCATTAATTACCGGAGTAAAATCTGCTATAGTTTTTCCAAAATCTAAACGAATTACATCATTCCAATAATTAATGTATTGTTTCCATAATGGTTGATCTAGACCGAATTTCTTTTCCCATACTTCAATCATTTCTTCCATTTTTCCTACATTAACTCCGCCTTGAGCGGCCAATTGATAAAGTCTTTCTTTAATGGGATTTGTGTCTCTGAGTCTAGGAATTATGAAATTTATACTTACGGCAACGACAATAACAGCAAGAAATAGGAGAAATCTTTTAAGTACATATTCTGCGTTCATTGAGTTGATTTTTGTAATTTATTTATGATTTATAATTCTTCAACAAAAATAAAGCCATGTAAAGTTAAATTTTTAAATAACACAGTTTTTTTTCAATTAGATTATTATTTCAAGCAATTTTTTAATATTTTAATTGACTTTTAATGCTTTTTTGATGAAAATCTCTGTAAGTTAACTCTAAGATATTTCAGTTAGTTCAAAATTTTATTAGAATTTCTGAATATTTTTTATTGTTATATAACAAAAACTTAAGGAGAAAATTTATGATTAAATTAAATTCCAAAGTTATGGTATTTGCTTTAGTGACTGGATTATTTTCTTTTGTGATAGCTTGTGGTGGAACTACTACAGAGACAATTGTTGAAAAAGAAATTGTTGAAGTAGTAAAAGAAGTTCCAGTGGAAAAAGAGGTTATTAAAGAAGTTGAGGTTGAAAAAGTTGTTGTAGAAGAGAAAGAAGTTATTAAAGAAGTTGAAGTTGTTAAAAAAGAAATTGTAGAAGTTGAAAAAATAGTTGTACCTCCAGATTATAAAGCTGGGCACAGAGGTGATGTGGCTAGAGAAGACACATTAATTATTACTGGGTTTGGACCTGGTGCTTCTGAATGGACTGGTTTTGATAACTTAAACCCATACTCTGCTGGTGGACTTGGACGAGTACGAGGTATTCTTAACAAGACTATTTATGAATACATGTATTACTACAACCACAACACTGGTGAACAGATTCCATGGCTAGCTACCTCTTATACTACTCATGAAGATGGTATGGGAGTAGACTTTACTTTAAGACAGGGAATTAAATGGTCAGATGGAGAAGATTTTTCATGTGATGATGTTAAATACACTGTTGAATTGTTAAGAGATACACCTGAATTAGTATTTGCTAGTGATATGGGTGAATGGGTGAAAAATGTTACTTGTGTAGATGATCACAATGTTACAATTAACCTTAACAAACCTAATGTTAGATTTTTCTACTTCTATTTCGTAGAGAACTCTGAAATTCATATTCAAATTCTTCCTAAACACGTTTGGGAAAAAGAAGATCCTCTAGAGTTCACTAACTGGGATCCTGATAAAGGATATCCTGTAGGAACTGGTCCATATGTAGCTGTTGAAGCTACCGGACAAGGACAGATCTTTGATCGAAATGATGCTTGGTGGGCAGCAGAGACTGGTTTCTCTCACCTTCCAGTACCATTGAGAGTTGCTTATATTCCTCCAGGAAGTGCTGATACAGCAGTTGCTAGAAATATAAACAACGAATTTGACGTTGCTTCAATTATGCAACCAGGTGTTTTCCTAGTTGCTAAAAAGAAGAACCCTAACATTCAGAGTTGGGCTGTAAAAGGTCCGTCTTGGGGTGCTGCAGACGCTTGTGTGTACACTCTAGGTGTTAACACTGAATGGGGTCCTATGAGTGATGTTAATGTTCGAAGAGCTATTAACAGAACTGTAGATAGACAACTATTGGTTGACTTAGCTTATGAGGGTTCAACTGTCACAAGAGGAGTTCCGTACTCTACTTATGGTGGATTGAAATTATATGAAGATGCTCAGGCAGATCTTATTGCTAAGTATGATCCAGAGAAACATGATTTAGATGAAGCTGCAACACATATGGCTGCTGCAGGTTATGCTAAAGATGGAGACGGTCAGTGGGCCAAAGATGGTGCTAAGTTAGAGTTTGATCTACATGTACCTGGTTGGTTAAAACCAATGGGTCCAGTGCTAGAAAAGCAGTTAAAAGATGGTGGTTTTGCCGCTACCTTTGTATTACATGATCCAGATAATGGACCTATGTTTGATGCTGTAAGAACTGGTAAAGCTGACATGTGGGTACTAGTTCACTGTGGAAGTAGTAATGAACCTTGGGGAACATTACAGCACTATCACAGTAAATTTAGTGCACCTTCACAGGGAGAAATGAACAGTTATATTTGGGGTAATAGTCATTACAAAAACCCAGAATATGATGCAATCATTGACAAAATGGATGAAATCCCTGGATCTGCTAATGACCCTGCTTACATGGCATTAGCTGATCAAGCATTAGAACTATTCTTAAGTGATGTTATTGAAATTACTCTTGCTGAAGAAAGGCATGTAGTAACATTCAATACTGCTCATTGGAAAGGTTTTGCTAATGAAAATGATCCATATGTTGCTCCATATAGCTTATGGGCTGCGTTCATTCTAGAAGTTTTGAATGTGACAAAAGCTAAATAGTTATAGCACATATAAGATGAATTTATTGGGGGATGTTTAGTCATCCCCCAATTTTTTTTACCACTTATCACAACCTTCTGAAATAGGGCTATTCTGATTATTATTGATGTCACCACTTACAGATCCTGTTTCAGAGTTGATGTAATAAATCAAAGTTTTTGGTCCTAGAAACTTATCAGGTTTTAAATCCCAAACGATTTTCCAATCATTTGATTCATTGATGAAAGAAGATTTTTGTTTTTTGAGATCGTAATCCATGTTTACCCATTGATCACAAGTTCCTCCAAAAAATCCCCAAGTTTTACTTTTTAGGAATTTCATTAATTCATCATTAGCTGAATCAATGCTAGGGATTTTAGCATTTTCTCTTATGAGATTTTCTTGATCAACTGATTCTGGATTTTTAGATTCTGTATCAGATTTTATAATTTCTTTTGTTTTGCTTGGGTAACCTTCTTTTTCACAAGCTTCAGTTAATTCTTTTAAAGCCAAATATGATTCAACATGAATTTCCATATGCTCGTATGTGTCATCATATGCAAGAGGCATAAATGTAGGATAGTCATAATAATTCGCTACAGCTTCTTCTGCTGCTCTTATAAATCTACCTGATGTAACAAGTATTTCATCAGAAGATTTCATTGAAGTTATTTCAAGTTCTCGAATTTTAATGTTTATTTCATTAATAGGCATTTCATCTCTCATTACTCCTTCAGTAAGTTCAAAAAAAACTATACAAGCTGGTTCTGAATCATAATAAGAAACAGTGTTTTTACATCCAAATATAAAAAATATGAGAATAATTACGTGAAAATTCTTTAGTAACGAAGTTATTTTTGGAGCTTTCATAATGTAATATTTATTTTCAATTTTATTTAGTTTAATTAATGGGAGATTATATTATTAATTAAGAATTTTTTGTAATTACAATTTTTTAAAATATTTTTTGGAGACGAAATGACTTTAAAATTAGGAATTATAGGATGTGGTGGTATGGGACTTAGACATATGCATGGTATTTCAGAATTAATGAAATATAGTGAAATTATGAAATTAGAAGCAGTATGTGATCTTCATGAATCTGCAGCAAATTTTGTTGCTTCAAAAGCTGAAGAAATTACAGGAAAAAGGCCAACTGTTTTTACTAGCCTTGAAAAAATGTTACAGGAATCTGATATAGATGTTTTAGATATAGTTACAGATACTCGAACACATCATAAATTTGCTATAGAAGCTATGAAAAGTGGAGTACATGTGATGACTGAAAAGCCTATGGGGGTAACTCTAAAGGCTTGTAGGCAAATGATGGATTCACGAAAAAAAAATAATGTAAAGTTAGCTGTAGCTGAAAATTATAGAAAAGACCCCATGAATCGTTTAGTTAAAGAATTGATAGACAATGGGGCGATTGGTACTCCACAAATGCTTTTGGATATTTCTGTTTCCGGTGGAGGACACCTAATGCATGCTACTGGATGGAGAGCAAAAAAAGTAATGGCTGGAAGTTTAATATTAGAGCAAGGCGTGCATACATCTGACTTAATTCTATATTTTTTGGGTGATGCAGAATCAATTTATGCCACTACTGGAATTATGCAGAAAGAAAGAATTGTAGGGAAGAGGCCACCAGGTATAGAACAGTTTTACGGGCATAGGGTTGAGGATCAATTTGAAGGTCAGTCTAAAGTAATCATAGATGCGGAAGATACTGCATTTTCTGTAATAAAATTTCAAAGTGGAGCTATTGGCCAAATGACTATGACTAGTGGTGCAAATGGTTATGGTTTTGGAAATCAGACTATACATGGTACTGAGGGAACACTAAAACTTCCCGGAAGTAGAAATGGTAATAGTCCAATTATTTCTAGGGATAATTTATCTGATTCCATTACAGGAGATGATCTTCTGGATTTAGTTCCTGAATGGCAATTAGATGATATTACTTCATTATATTTTGATGGTAGTAGAAGAATCTCTAGCTATGATTATCCATTTGAGGCAGTAGATAGAAAACTTATTGCTATTGAGCTACATGATTTGGCGGAAGCAATAATAAATAACTCTACACCTGAGGTAGATGAGATTGTAGGAGTGAAAGCATTATCATTAGCTTATGGAGCATTAGAGTCTGGAGATACTGGTCAAATAGTTAACTTAAAAGATATAGAATCAGGTAAGGTGAATCAGTATCAGTCTGAAATTGATTCTGAATTGAAAATTTAAATCATAAGGAGAATCTTAGCAATGTTATTAGAAGGACAGAAAGCTCCAAGTTTTGAGTTAATGGGTTCTGGTGGATCTTTAATTAATCTTGATAATTTGAAAGGAAATATAGTAGTTCTTTATTTTTATCCTAAAGATGATACTCCAGGATGTACTATTGAGGCGTGTGAATTTCGTGATATGAAAGAAGTTTATGATCAAACAGGTATTAAAGTGTTTGGCGTGAGTGCAGATGACTTTGATTCTCATCAAAATTTTATTAATAAATTTGACTTAAATTTTGAATTGATAATAGATGAAAACCATGAAATTTGTCAGAAATATGGAGTTCTTTATGAAAAAAATGATAATGGGAATTCTAAATTGAGTATTAAGAGAATAACTTATTTGTTAGATGAAAATGGAATTATTATGAAAATTTGGAAAGATGTTGATCCTAATGGTCATGCACAAGAAATAATTAATTTTATTGAAACTTCCAAGAAAAGTTAAAAAAAGAGTTGTTTTTATCTAGAAGTTATTTTTTTGAGATGGCAAAATAATAAATAAATAGAGGTATAAATTATGAAAGGTCCTAGTATATACAAGTTTTTGACAAGTTTTCCTGTAATAATCGTATTAATAGTTATTGTAGTTATTGCAGTAATCTTTATTGCTGTATAAGAGAGAAAAAATGATTCCTCCAAATGATGAATGGGGATCAATGAAAGTTACACTTACATGGTCCAGTGCTTTTAAAATTGCTTTGGCAGTAGTAATAGTTAATGTAATAACTGTTCCGATTGTTCTTATAGGAATAGTAGCATTTATTGGAGATATTTAGATTAGTCAAATATATTGATAATTTTTTCTAAATTTTCTATCTCGTTATTATTTTTAGAGATAAGATTCTTAGCTATTTGACTAGAAGTAATAGAAGGTAATTCGCTACCAGATAATTTAGATAAAGTTTTATTTAAATTGTGAGAAAGAACAGAAATTTTCAAATTTATTTCATTGTTTTCTAACATTCTTTTCAATTCTTTATCGAATTTGAAAATTGTTAAATATCTATTTAAATCATTAATATGAATTCCTGTTTGATTTGATATCTCATTTAAATTCATTTTTTCATTATCAATGAGAAATTTTATTCCAATTGACTTATGAGAAGGAGTGAGTAATTCAGATAATGAAGGATATTGTAAAGATAGAGCCCATGCTTCATCAGAATTTACCATTTCATTTATAATTCCAACTACTACAGTTGAATAACCAAGATGTTTAAATGCTAAATATCTTTTTATTCCTAATATAATTTCAAAATTCCCATTTTTTAATTTTCCCACTAGTAGTGGTTCCATAAGTCCTTTTTCTTTTATGTCTTGAGCCACAGATTTTATATCTTCATTAGAATAATTATCTTCAAGATGATTAGGTGAAGGCTGAATATTTTTTATGGGTAATTGTTTAAACTCAGTAATGTAATTCATAATTATTAAGAAATTTTATTCTTTTAAAAGAATAACATGAGACATATGATATTTTGAAATTATTTAATTTTATGTTGTGATAATACAGCCCCTATAGGTAAGGGTCGTTATCAAGTTTTAAATAATGACCCTATATCTTATAATTTTAGTGCTTCGATAAGATTGTTCACTGAAGCATTCCCTCCAGAAGCAACTAGAACTACTTTTTTTCCTTTTATTTTCTTCTTTAAACCGATTGCTGCAGCTAAAGTAGATGCTCCTGCAGATTCAACAAGTGATTTTGTGTTTAATAGAAATATTTTCATAGCTGAGAATATTTCTTTTTCCTCAGATAAGACAAAATCATCTAAGCTGTCTATTAAAATTGATTGAGGTAATTCATATCCTTTTCCAGTAGCTAATCCTTCACATTTAGAATTAGATTTTGATTCAGTTAATTGTTTTTCTTTCCAAGATAAATAACCTGCAGGAGAAGCTGAAGATTGAACTGCTATAATTTTAGTTTTTTTATTTAATCCGTTTCTTACTATGCAAGCTCCAGAGGCTCCACTTCCTGCTCCCAAGGGCACTATAATAAAATCTGGATCTATTTCATCAAAAATTTCTAATGAATAAGTAGCTACACCTGCAATTAATTTGTCTTCATTGGCTCCATCTACATAGATATAGTTGTTTTTTTCTGCTATTTCTTGAGCATTGAATTTTGATTCATCGTAACTATTTCCTTTTGAAATAACCTGAGCTCCTAGATTTTCCATAGATTCAATTTTTGATGGGTTGATTCCAACAGGGCAACAAATTATTGATTTATATCCAAATACTCTTGCAGAATATGCTATAGATTGGCCGTGATTTCCAGTTGAAGGTGTAACTAACACTGATGAAGAATTAGGTTTTTCAAGATAAGTTCCGTAATTTAATCCCCCTCTAACTTTGAACGATCCTAATATTTGAAAATTTTCATGTTTTACCCAAACTTCAGCATCTAAAATCTTATCAAGGCTGGGGTAATGGATTAGGGGAGTAATAGTTATATATTTTTTAATAGCCTTTTTAGCTGATTTAACATTTTCAATTGTCGGAATTACATATTTCATAAAAACCTTCACAAAAGAAGAACTCCCACTTATTGCTAAGTGAGAGCTTCCTCCCGATACGGAATTGGTGATCGCTTTCTCCCTCTCCAGCGTCCCTTAATTGAGAGTTTGTTCGCTTTCATCCTGTGTCGTCACACAATCAATAGAATATTACAAAATAAAAAAGTTGTCAATACCTGTTAGCGAGTATTTTAAAAACTTTTTTTATAATTGGCCCTCGACGTTAATCAAGGGCCATATTTCCGCATCAGTTTCTTTATTGAAAAGAAACCATAATTAACCTTAATCTTTCCCAGAAAAAAGTAAAACTGATAATTTTATTTACTAGTTTTCAAAATAAAAGTGGTGCATTTAGGAATTTCCTTTATAGTTCTTGCTCCTACATAAGTAGCTGCAGATCTTAATCCTCCTAAAATATGTCTTAAGGTGTTTTCTACTTTTCCTTTATAGGGGACAGTTACAGTTTTACCTTCACTTGCCCTGTAACTTTCTATTTCTCCATAGTGTCTTTCCATAGCTGTATCAGAGCTCATTCCATAGAATCTTTTATATTTAATTCCATCTTCTTCAAATAATTCTCCTCCAGATTCTAAATGACCAGCGAACATTCCTCCCAGCATTACAAAATCCGCTCCAGCTCCAAAAGCTTTAGAAATATCTCCAGGGTATTTACACCCTCCATCTGAAATCACATGACCACCTAATCCATGGGCTGCATCGGAACATTCCAATATTGCTGATAGTTGTGGATACCCAACTCCAGTTACTATTCTAGTAGTACACACAGATCCTGGTCCGATTCCAACTTTCACAATATCTGCTCCTGCTAATATTAAAGCTTCAGTCATTTCTCCTGTTACTACATTTCCTGCAATAATTGGATTTGGAAAAGCATCTCGGACTGTTTTTACTGTATCAATAAATTTTTCTGTATAACCGTTAGCTACATCTAAACAAAGAAATTTAGGTATTTTTTGTTTATTGGTAGTTAAGTTTTTAATTAAATCTTTTATTTGGGATAAAGAATCAATCCCTGCAGTTAGAGAAAGATATTCAGGGTTTATGCCACTTTTAAGTGCATTTACCCAATCTTCAGTATTGTAAAATTTATGAATAGCTGTAAGCATTTGATTTTTTGATAGCACTTCAGCCATTTCAAAAGTTCCTATAGTATCCATGTTTGCAGCTATAATAGGAATTCCTGTCCAAGATGACTCAGAAAATTTAAATTTAAAAGTTCTGGTTAAATTAACAAGTTTTCTAGAGTAAAGAGTACTCCTTTTAGGTCTTATTAATACATCTTCAAAATCAAGTTTTACTTCTCTTTCTATTCTCATATTTTTACAGAGATTATTTTAATCGGTTATATATGGTAATCCTCGCCTCATCCCATTTTCATCATCCATGCCATAACCAAAGACCCAAGTATCTTCTACAATAAAACCTGTCCAGTCAATAGTAATATTGTTAATTTTCTCAATTTCTTTTTCCAATAAGACTACAGTTTTTATTTCCCTTGGAGTAAATTTTTCTTCCAACCATGGAATTATATCAGCCAATGTCTTTCCTGTATCATAAATATCTTCAATAATTAATATTGGTTCTCCAATTTCAGGGTTGGAATCAGAAAAATACCATTCTTCATCCATGTCATAGGCATAACACATTAAGAGTTTGTTTTGAATTTCATCAGAGAGTGATTTAACTAAATCTACTGCGAATGGAACACCTCCAGATAATGGGACGACAATGGATAGATATTTAAAATCGTTGTTTTCCAAATAAAAATCTGAGATTTTTTGGGATAATTCAATGATTTTTGATTGTATTTTTTTTGAAGTTATTTCCATTTTTAACTATTTTTCCTTATTCAATNGTTTTCCTAAAGATCCTGGTTCAATTCCTCCAATTATTGGTTTTAAGAAAACTGGTAACTTTCTTCTATGTTCTCCATTAAACATCTGTATAAATATTAGTGTCATTATCATTAAAGGGAAAGGGATTAATGGAAGAACTTGTGTAAATCCTATGGTAACCGACTGCATTTTAAGGGCTATTAATTGGAATGCTCCAAAAGCATAGGCTCCTAAAGCAGCTCTAATAGGGTTCCATCCTCCAAATATCACTATGGCCAAGCAAATCCATCCGTAGTTTCCAGTGTGNCCTTCTGACCATCCATACTTAGCATGTAGAGAAAAAGCAGCTCCTCCAATTCCTATAAGGAAACCACCAATTAATGTTCCTAATATTCTCATATGTTCAGGGTTGATTCCTCTGCTCATTGATGATGTAGGGTTTTCACCAACAGAACGTAAATTTAATCCAAATTTAGTTCTGTATAGAAAAAACCAAGCTATAGGAATAAGTAATACAGATAATAAAACAAGAATATTTTGATTAAACAAAGAAGGNCCTATATAAGGAATATCTTTTAGTATGGGGAGATCTACTTTAGGTAGAGATGGCCCAGGTATTCTTACGAAATTTTGACCAAGAAAACTGCTTAACTTACCACATAGAATTGTTAGTACGAATCCTATTGCAATTTGATTAATACTTAGCTTTATGTCACACAATACAATTATAAGAGCTATAAATGATCCTATTAAACCAGCAGATAAAACACCTAAACTAGCATTATTAGTTGATACGGCTACTGCAAATGCGGTAAGTGCAGTTATTAATATTGTTCCTTCTACAGATAGATTTACTACACCGGATCTTTCTGTGATTGTTTCTCCTATAACTACAAATACCAATGGAGCACTTAAGGATATTATCGTGATAAAGGAGGATTCAAAATAAGTCATTTTTCTAGATTCAACCTGGATGTAATTTTATTGAANATATTGTTTAAATAAGGTGATCTCATTACCAACCATATGAGAACAATTGAAGAAAGTATTATTGAAATCATGCTNGAGTGTAAATCTAGTCTTAGTTGTAATTGGGATCCTCCTGCAATCATAGATGCAAAGAAGAAACTTAGGATCATTGTTATTACAGGATTTCTTGAAGAAGCTAATACGATCAAGATTGATAAGAATCCATATCCTCCTGAAATTGCTGGTACAAGTTTATGATGAAAACCTGCAGCTTGAACTACTCCAGCTATACCTGCTAATGCTCCTGCAATTGCGAAAGCATAATAAAAATAAAGTGAACTGTTTATTTTATACCTACTGGTTGAAGATGGATTTATTCCAGTAGCTCTAAGTCTAAGACCTAAATTAGTATATTTAATTAAAATAAAGATGATAAAAAAAGAAGCTATTACTAGGATTAATGGAATAATCTGGAAGTTGTATTTTCCTAGAGTAGGAAACCAAGATGCATCTGGAAAAATATCTGTACCGCTTGTAGATGCTATTCCTGCTCTTTTCCAAGGTCCAATTATTAGATATACGATTAATCCTGATGCGACAAAATCAAGACCTAATCCACCAAAAATTTCATGTACATTAAACTTGACTCTAAGAAATCCACATAATAGACCCCATAATCCACCAAAAATCAGACCAATAAATATTTGAATATATGGAGATGCAATTGATTCTCCTAAAGCAGATCTTGCTATAATTGTTGCACCTATAGACCCTGCTATAATCTGACCTTCAATTCCAATATTCCATAATCCAGCTGAGAAAGTTATCAGAAGAGCTAATGATGCTAGTGCGATTGGTGCCCAAATTAATAAAGTTTTTACTATTTTTTGTGGTTTTCCAAAAGCACCGTAAATTATTGATTCNATTACTTCTAATGGGGAACCTCCAAGTAATAGAATAATTAAACTAATCAATAGGAATGTAACTAATAATTTTATAGTTATAAAACTTAGATTTAATAAATTTATTTTCAGTTTATTTTCCATTGCTACTAACACCTGAAATTAGATAAGGTATTTCATCTTTACTTATATTTGATTTATCTGAAAAATGAGTGATCGAATTTCCTGAAAAACACATTATGTAATCAGAATATGACCAAACTTCTTCTATGTCTGTAGTAGAAAATATTGAACCATAGTCGGAATTAGATCTGGTTTTAATTTTTCTCCATATGAAACTAGCTGATTGTACATCTAATCCTCGAGTGGGTTGTTCCATTAATAAAAGACCTATTTCTTCTGGGATCAAAGCAAGCATTAATTTTTGCTGATTACCTCCTGATAATTCCGAAGCCAGAGTGTTTTTTTCGCCTTTTATATTGAAATCATCAATTAATTTGATGCTTTTGTTTTCTACTTTTTTCCAATCAATTATTTGAGAATCTGAGAATCTTGAAATAGCAACGTGTTCATATATTTTCAATTCATTGAATAACCCTTTTTCCAGTCTGTCAGATGGAGTGTAGTAAAAATATTTTTCAGGTATAAAATTGTCAGAATTTTCATTTTTTATTGTAATATTAATTTTTCCGCTGAAACATTCTCTAATGAATTGATCTGCTCCAGAACCTTGTAGTCCTATGACACCTGTAGTTTTCCCACATGGAAAATTGATATCTTGATCATAATATTGAATACTTTTTGGTTTTTTAGAGAAATTAATCAGTATTGATCCTAACTCAGATTTTTTTGAATTTTCTTTTTCATTGTTAGTTTTANCAGAGAATTTCGAATCAAACATAAGATTAATGATTTGATCACTAGGGCAGGGAAGCTGGACAGTTGATACTATTTCTCCTCTTTTTAATATAGTAGCTTCTTGGCAAAGATCTAATACTTCATCAAGTTTATGTGATACTAAAATTATTATGAAACCAACTTTATTTAATGATTTAAGTACTTCAAATACAAGTTGTTTTTGTTCTAGGGAAAATCCGTTCGTTGGCTCATCTAAAATTATAACTTTTGTTCCATTGAATAAAAGTCTAATTAGTTCAACTTGTTGTCTTTCTCCTACTGAAAGATCTCTGATTTGATCCTCAGGATTCACATTAATTTTATATTTTTTAAATTGTTCTAAGATATTCTTTTTTATTCCTTTTATATTAATAAAAGGATTGCTGTTCTTACTTCCTACAATAAAACTTTCTAAGACATTCAGATTTGAAAAATCTAAGGGATCTTGAGCGAGGATTCCAATACCATTTTTTATTGAGTCTTTAGTAGATCCAAGTTCAAGTTTTTTTTCTCCAACTATGATTTCTCCATCATCTGCCTTGTAATGCCCTGAAAGTATTTTTACAAGAGTAGATTTTCCTGCTCCATTCTCTCCTAGTAATGCATGAATTTTCCCAGATGAAATAGTAAAGCTTATATCCTTGTTAGCGAGAATATTCCCAAATGATTTCGTGATATTTTTAAACTTAATTTCCATAATAAAACTAAATAGGCGACTCGTTTAGGAGTCGCCTATTATTATAATCTCTTAAAGCATTTACCGTTATTCTGATGAACCTTCTATGCCTTCTAACAATTGTGGTGTATACCATACTTTTGCAGCATCTACTCCAGAGGTTTCATTTAAATGATCTCCTGACCAGTCTAAGGATTTTCCACTTTCAACATACACTGTTCCATCTTGGAAATTTAATGGACCTGTATATAGGTTGAGTCCATTAGCTAATTCCCCTATGAAAGAATCTAAAGATTGTGATTCATCTCCGTTTAACCCATCACCTGAATGCCATCCGATAAAAGATTTATCAGGATGAGTAATATCTTTCCAGTATGGACCAACCCATCCCCATCCAATATCTCCATCCAATAATAGTTGATCCCAAGTATTAGGATCTGAGTCCATATTCAATGCGCCATTTAGAAACATTAGATAAGCTGGTCCCCAGTTGAAATAGTTTACTCCNAGACAAATTTCTGGAGCTTGTTCGCAAGCACCTTCATAGTCATAAGGGACTACCCATACATCCTCTCCACCAGCAGCCCTTTGTCCTCCAACTACCAAAGCTTCAGTAGTATCTATGTGTGAAATTACTACATCTCTTCCTTCATCAAAGAATTCATTAGTAACCTGTGTCGGGTCTAATGTAACTCCAGGGATATGGAACCAGAAACCAATCCATGTGACTTTAAAGTCTAAAGCTTTATCTCCTGCACAGTATTTTGATCCAAGATATGTAGCATTAGCTAATCTTCTAGTTTCATCGTTGATTAATGGACCAAGGAAACCTATTTTTCCATCTTTAGATTTTAATGCTGCAGCACAACCTGCAATCATTTGGCCATATTCCATTTGGCCCATTACATTACCTAAATTTGTTAATTCAGGTTTGTAACCTTTTCCACTTTCTAAAGCACTGTCACCTGAAGCCCATACGAATGTTGTATTAGGAAACATAGCAGCGGCTTCTAATATACCGTCTTTCATATCATCAGACGTAGCAATAATTAGATCAGCACCCTGATCAATCATGTCTTCAGCAATTCCTGGTATAGTGAGGTCTGGATTATCTGCTGGATTAACAAAATCTACAGTAATTAAATCACCATTCATAGCTTTAGCTGCATATTCAGCACCTTCAAAATGAGCTTGAGACCATCCTTTATCGTTACGAGGNCCTACTAGAATAACCCCAACTGTAGGTGGATCATATGCCCCACCATTATCTGCATATGCTCCTAAAAGCATTTGTGTGAGTTCAAGAGGACTTGCATCATCCATAGGATTTCCAGTCGCTTCAGTACCTTCCCCATTCATTCCCGATAATAATTGTGGGGTGTACCATACTTGCATTTCATCTGCTACTTCATCTGCTTCAAGATAAGTTGATCCATCTTCAAAATTTAATGGACCCATGAATAGATTCATTCCTGAAGCTAATTCATCAATGAATTGATCTAGCTTTGAAGCTTCATCTTCAAAAAGTCCAGGGCCATGATGCCACCCTATAGTAGATTCATCCATGTTATCCCAGTCGGGNTCAGACCAAATCCATTCATTTATAAATTCANCATTAAGACTTTTTTCAACAATTTCAAGATAATCAGGTCCCCAGTTGAAATAGTTTACTCCGAGNCAAATTTCTGGAGCCTGTTCACAAGCACCTTCATAGTCATAAGGAACAACCCAAACATCCTCTCCAGATNCTGCACGTTGTCCTCCAACTACTAATGCCTCAGTAGTATCAATATGTGAGATAACAACATCTCTTCCTTCATCAAAAAATTCGTTAGTAACCTGTGTCGGNTCTAATGTAACTCCAGGGATATGGAACCAGAAACCAATCCAAATTGTTTTGAAATCTATTGGTTGATTCGAACAATGAATTGCACCTAGGTATGTAGCATTAGCTAATCTTCTAGTTTCATCGTTGATTAATGGACCGAGGAAACCAATTTTTCCGTTCTTAGATTTTAATGCTGCAGCACAACCTGCAATCATCTGTCCGTATTCCATCTGTCCCATGATATTTGCAAGATTTTCTAATTCAGGTTTGTATCCTTTACCACCTTCAAGAGCGCTGTCACCTGAAGACCAAACGAAATCAGTATCCGGGAACATCGCAGCTGCTTCTAATATTCCATCTTTCATATCATCAGATGTAGCAAAAATTACATTAGCACCCTGATCAATCATGTCTTCAGCAATTCCCGGGATAGTTAAATCAGGGTTATCTGCTGGATTAACAAGATCAACAGTTATTAATTCTCCATTTAGTGCCTCTGCTGCATATTGTCCACCTTCGAAATGTGCTTGAGACCATCCTTTGTCATTTCTAGGACCAACTAAAATCATTCCAATTACTGGAGGTTTCTCTGGATATGATAATCCACTAGACATAGCTTCTCTTCTATCTTCGTCTTCTTTCTCTTCAACTTGTTGTTTTACTTCTTGTTTTACTTCCTGCTTTGCATCATCTTTTAATTTGTCATAATCACTTTTATCTACTGAACTTGACATTGGTTCTTCTACTTCTCCTTCTCCACACCCAATAATTAATAGAGAAGAAATGGAAAGAAGAATTAAAAATGTTAATAGTGAATTTTTTATGCGAAACATGAATACCCTCCAATTAGTTTAGTCTCTGTAATCTTTTTAAAGATTAGAAATATTAGAATAACATAAATTTTACACGTTAACAGATAAATTTTGGTATATTATTTCTCTTATCTATTTTGGTGTTCTCATTTTATTTTCAAGCCAATTTGCCACTCTTGTCATTGGGATAGTTATTGCTAAATATACAAACCCTGCTACTACAAGAGGAGTTGCATTAGCAGACCAATTGACTCCATCTCTTCCAAATCTAGTTAATTCTTTAGTTTCTGGTGTTACTCCTATTACTGAAATAAGGGCAGTATCTTTTAGTAGAAGAACTAATTCATTAGTTAGTGGCGGTAAGACAATTCTAAAAGCTTGTGGGAAAATAACTTTTTGCATCACATCAAATTTTTTCATTCCTAGAGCTTTTGCTGCTTCTTCTTGACCTCTTGGAATTGCTTGAATACCTGCTCTAAGCACTTCAGCTATATATGCAGAAGAAACAATAGCAAGAGCTAGGCTTCCTCGAGTGTATGTGCCTGGAATTCTTATTCCTAAAGCTATAGGTAAACCAAAAGCTATGAATATAAGTACTAATAGGGCGGGTAGTCCTCTAAGCATATCTATATAAACTATTGCTAACCATCTGTATAAAGTAAGATTTGATAATCTCATCAATGCAATTATCAGACCTAATATGATGCCTCCAGAGAACCCCAAGAATGTGAATATTAAAGTGTTTCTAGCTGCTTGAGTGACTATAAGAGGAAATTGTTCAACTATTAAAGAAGTTTTGAACATTTTATCTTGTAGACGTTCAAAATCAGCATTGAAAATAAACAAAATCAACAAAATAATTAATATTCCATACCCTATTATTTGAGATTTTGAAATTCTCTTTTCAATTATTTTAAGTATGTTTTTTAGGTACATTAATTCATTTTAAAGGATCAAAAGAAAAAATAATAATTAGCGGGGATATTAAAAACTTTAACAACTGTTCTCAAATGACTTAATAATTGTTGTTATTTTTAAGTTGGGTTTTAACTGAAGAAAATGGTGGAATAAAAAGTTTGACTGAATAAGGTATAAGATGTTAATTTCTTTGATGTGTTTAAATTAAAATCATTTTCAACTTCGAATTGCATATGTATCTGCCCCGACAAGATCGGGGATTAACTACTTAAATCTTCTAAAGATACTATCTAAAAATCACAAAATCGGAGTTTAAAATGAATTTCAAATCGTTATATATATTTATATTAAT
>sequence03
GTACCTCTTTTTTTATACTCTACTACTGCATCATATATAGGCATAACTTTATTATCAGGATAATGAATAGTCCAATCTCCTTCTCTTTCAGGAGTCATTAAATTTTTTAATCTTATATTTCCAAAAGTACCTCTAATCATCACATTGTGGTTACCTCTTCTTGAACCATATGAATTAAAATGTGATTTTGGAATATCTTTGGATATCAAATGTTGTCCAGATGGAGCACTCTGAGGAATACTTCCAGCAGGAGAAATATGATCAGTTGTAACCGTATCTCCAAGTTCTACTAAAACTCTTGCCCCTTTAATAGGAACCCATTCAGGTAATTCTAAAGAAAAGTCTTCAAAAAATGGAACTTTTTGAATATAAGAAGATCCTTTATCCCATTTGAATAATTTAGTGTTTTCAGAATCCAAATTGTTCCAATCCATATTATCTTTTAGAGCAGTAGAATAAGTATTTTTATACATTTCAGGTTTAATAGAATTTAGTATAGTCATTTTAATTTCATCTTGAGAAGGCCAAATATCAGAAAGGAAAACATCATCTCCATTATAATCAGTTCCAATAGGTTCATTTTTAAGATCAATATCTATTGTCCCAACAATTGCATAAGCAACTACTAACATAGGAGAAGCTAAATAATTAGCTTTTACTTGTGGATGAATCCTACCTTCAAAATTTCTATTTCCACTTAAAACTGAAGCTACTGACAAATCATTATCTTCTATTAATTCTGAAACATCATTTGGAAGAGGGCCACTATTTCCTATGCAAGTTGTACATCCATACCCAACAGTCGAAAAACCTATCTTATCTAATTCTATATTCAAATTAGAGTCAGAAAGATATTTTGTTACTACTTTTGAACCAGGAGCCATACTAGTTTTAACCCAAGGTTTTGGTTTTAAACCCATTTTATTCAAATTTCTAGCCATCAAACCTGCACCTACCATTACAGAAGGATTTGATGTGTTTGTACAACTAGTAATTGCAGCAATAACGACTGAACCATCTTCAAAAACCAAATCTTCATGTTTGTGTGTCTTAAAATTTTTGTAGAAACTGCCTCTTACATCAGAAAGTTTAACCTTATCTTGAGGTCTCTTAGGTCCTGCTAAACTAGACTCAACTAAATCCAAATTAATCTCAATTACATCCGTATAAGATGGCTCTATTTGATTAGAATAAAAAATTCCCTGATTTTTAAAATATTCTTCCATTTCAGAAATTTTAATAACTTCTCTTCCTGTATTTCTTAAATAATCAATTGTTTGATCATCAATAGGAAAATAACCACATGTAGCACCATATTCTGGTGCCATATTAGCAATAGTTGCTCTATCAGCTAAACTTAAACCTATTAAACCAGGACCAAAAAATTCTACAAACTTCTCTACAACACCATGTTTCCTTAAGGTTTCTGTAACAGTTAAAACTAAATCTGTTGCTGTCGTACCCTCTTTGAGAGATCCAATTAATCTAACCCCTATAATTTCAGGTAGTTTCAAATAATATGGTTGACCTAACATTACTGCCTCAGCTTCAATTCCACCTACTCCCCATCCTAAAACACCTAAACCATTAATCATTGTTGTGTGAGAATCTGTTCCCAAACAACTATCTGGAAAAATATATTTTTGATTATTAGATTCTTGAATCATTATCCCAGGAGATAAATATTCTAAATTCACCTGATGTACAATTCCAACTCCTGGAGGAATTATAGAAAAATTTGAGAATGCTGATTGTCCCCATTTAAGTAATTGATATCTTTCTTTGTTTCTTTTAAATTCAAGCTTGGTATTTTTAGCCAATGCACCTTCTGAAGCAAAATAATCTACTTGCACAGAATGATCTATAACTAATTCAGATCTTACAATAGGATTGATTAAAGAAGGGTCGTATCCTGCTTCTTGAGCTGCTTCACGCATACTTGCTAGATCTACTACTACTGGAACTCCAGTAAAATCCTGAAGAACAACCCTGGATGGTAAAAAAGGAATTTCTTTTTTAAAAGATGCTTTATCACCCCAAGATAAAATATTTTCTAGTTCTTCTATATTAGTTTTCCCTAACGATAAATTCCTTAAGATGTTTTCTACTAAAATTTTTAAAGAATATGGAAATTTCTCTAATTGAGGGTAATATTTACTTAATTCATTTAAGCTAAAATAAGTTAATTCCCCTGAAGAAGTATTAAGTTTTTGTTTTGATTTATTCAAATAATCCATATCAATTCTCTTTTTGCACAGCTTCAATCATTGCTTGTATGTAACCGTTTGCGAAAGCTCTGCCTCTATGTCCCCATTGAGTATCTTGATAAGTATTTGGAACATGATCATCAATGAAAAATCCATCAAATCCTACTTCATGATATATTTTCATCGCTTTATACATATCTACATATCCAGTNTTTATAAACTCTTCATGAAATTTAGGAACCTGACCTGAAACGTTTCTAAAATGTACGTAAAGTATTTTCTTTCTTTCTCCAAAATATCTAATCATTTCATAAATATCATCATTCATCTCAGAGAAGGTTCCTTGGCAAAACTCTATGGCATTTGAATCACTCGGATAAATTTCAATTAGTCTTTTATATGAGTCAAAGCTTCTTAATAACATAGGAACTCCTCCAAGCTTAGGTACTGGAGGGTCACAAGGATGAATTCCTAANCTTATTCCTTCTTCTTCAGCTATTGGAGTAATAATTTTTATCCAATATTCCATATACTCCCACATTTCCTCTTCAGTATATTCTCTTCCATGAGTAAGAGGCATCTTTTGAGCAACAGAATCATCAAAAGCAGTAGCCACAGCATCCCCCCTTATTAATCTAGGTTCTGTCCTCCATACTTCAGAAGGTAACCAATCATATCCGAATATAGGAATACCGGCTCTTGCAATGTTCCTGATTGTGTAAATCATGTTTTCTATCTGTTCATCTCTCTTAGGACCGTTAAGCATAACTTGATCGTAAAAATTGGTAGGAACATTTTCCAAAGCAGATAACTTGAGGCCATGGCTTTCAACCATAAGCCTGAGTTTGACTAAGTCTTGTAACTCCCATCTGCCATTTGCTCCAGGGAGATCAGCATGATTTAACAAAATATCGGTAGCACCAAATTGTTTTGCAAATTTTAAATATTCTGGGCTTGGTGATTTAAATTGTCCGAATCCTGCTCTCATAATTTCCTTCCTATTCTCATAATTATCTCATCTAAAATAATAATCTATTTAGGCAAATTATCAATCGCTAAATTAGACATTGTAGTAGGACCATTATAACGTGGGTCTGCAACTGCTATAAAAGCATCAGATATTCTTACTCTAAGATTTTCTCTAATTGGAACAATTCTAAATTTAAACCCTTGAATTTTCTTATCTATTCTTTGATTCATTTTTTTATTCTTCAAACCTTTTGAAACATAAGTTGTAGAAATAGCAAGATCAACAATAGCTACCATCTTTCTAAATTCATGAGAATTATTAGATTTTAATAATTGTTGGATTTCCTTAACTATGTCAGAAGTACTAGTAATATAAACAATTTCATCTGATTCAAAAATTGAAATAATCCCTGGTTTTTTACCTAATAACCAAGTCTCAGATTCCTTAAAAGGAGTTCTTTCTCCTTCAGTAAGGTTAATATAAAGTTTTTCCCATTTTCCTAAATGCGATGAAGAAAACATTGTAATAGCCAAATAGGTCCTAATTATTATAGATTAATGTTAATTTTTAAAAACAATATATATAGTAACTATTTAATAGTTAGATAATTAAAAATAACTTTATAGATATTTTATGAATTTAATCNGATTTAACAAATAATCTGGAAATCATAAAGGAGCAATAATATGGACGGATATGAAGCTATAGCAAAAATTTTAAAATTAGAAGGAGTAGAATGGATGGCTTGTTTTCCTTCTAATCCTCTAATAGAAGCNGTAGCAAAAGAAGGAATAAGACCTATTATGTTTCGTCAAGAAAGAGGAGGTATAATGGCTGCTGATGGCTACAGCAGAACAATGAATTCTTCCAAATTTGGAGTTTTTGCGTGCCAAGGCGGACCTGGAGCAGAAAATTCCTATGGAGCTATAGCTCAAGCTTGGGCTGATTCGGTTCCTATTCTTTTTTTACCAGATGGAGTGCCACTTCAAACAGCGGACGTAAAACCTTCTTTCTGGGCTTCAAGAGCGTATAAAGATATTACAAAGTGGTCAGAATCAATTAATGATCCTCAAAGAATTGTACCACTCATGAGAAGAGCTTTTCATGCTCTAAAAAATGGAAGACCAGGACCAGTGTTATTGGAAATGCATAAAGATCATATGGAAAACGAAGTCACTAATTTAGATGAATATAAAACTCAGGTTAGCATGCCTGTTTCACCTAGTAATTCATCTGTAAAAGATTCTCTTAAGATACTTCTTTCTGCAAAAAACCCTGTTATTTGGTCAGGTCAAGGAGTAATTTATGGTAATGCAACTCAAGAACTCAAAAAATTTGCAGAATTACTAAAGATTCCAGTAATTACTACAATGCCTGGAAAGAGTTCATTTGATGAAAGACATCCCCTTTCTTTAGGATCCGCAAATAGAACAGCACCTAAAGCAGTCTGGCATTGGTTGAAAGAATCAGATTTAGTTTTTGCTATTGGATCTAGTTTAACAATTACCAATTATGGGATCACAATTCCTGAAGGAAAAAATATCGTTCATTCCACCAACAATATAGAGGATATTAACAAAGATTATTCTGTGGAATATGGTCTAGTTGGAGATTCTAAAATGGTATTAGATTCTTTATTGAATGAATTAAATAGTAATAAGAAATCGATAGAAAAGTTTATTAATGATAAAGAAACCAATATTCAAGATGATATTCAAAAAATTAAAAAAGATTGGATGAAAGAATGGATTCCTTATTTAGAATCTAGCATGGAACCTATTAACCCATATAGATTAATAAATGAAATTAACAATAATATTGATCATGAAAAATCAATAATTACTCATGATGCCGGTCATCCTAGAGATCAAATAATGCCTTTCTTAACTTCAACTATTCCAAATTCATATATTGGATGGGGAAAAACTACTCACTTGGGATATGGTATTCCCCTTATGATAGGAGCAAAAATTGCTCATCCTGATAAATTTTGTATGAATTTTATGGGAGATGCAGCATTCGGAATGTCAGGATTAGATATAGAAACAGCAGTAAGATCAGATACTCCTATAACAACGGTATTAATGAATAATTCTACCATGGGAGGATATAGCGTTAGGTATCCTCAATCAATTGAAAGATATGGTGCTATCAATTTATCTGGAGATTATGCAAAAATAGCTGAAGGGATGGGAGCGATAGGAATTAGGGTCACAAAAACTGAGGAAATCGGAAAAGCTATCCAAAAAGCTCAAAAACATAATAAAGATGGTAAAACTGTATTAATAGATGTAAAAACTCAACCAGAACTGAAAATGTCAGTATATTAAGAGGAAATATGAAAACAACAGGATTTAAAACCATGGTTCTAGGAACACCATGGAGAAATTTAACTTATATCAAGATTGAAACAGATCAAGGAATAGTTGGAATAGGAGAAGCACGAGTATTAGGTAAAACTCATACAGTCACAGAATATTTAAAAGATGTTGAACGCCACTTTATCGGACATGATCCTTTTGATATTGAGTCATTATATCGAAGATTAACTCTTCTTGACTTTGGAAAACCTGGAGAAGTTGTTTATACAGGTTTAGCATTAGTTGAACTTGCATATTGGGATATCATAGGAAAATTCTGCAAACTACCAATATATAAACTCATGGGAGGGAAAGTAAAAGACAAAATCCCTGCTTATGCTAATGGATGGTATACAGTTGAAAGATCCCCTCAACAATTTTCAGAAGCTGCATTAAATGTGATAGAAAAAGGTTACATAGGAATGAAATTTGATCCATTTGGTAATGGTGATCTTGAAATGGATAGAGAAGAATTTTTTAAATCAATTGATTTAATAGAAGCTGTAAGTTCTACCGTAGGTCATAAAGCTCAAATAATGTTGGAAATGCATGGTAGATTTGCACCTCATCAAGCAAGAGAAATCGCAAAAGCTGTAGAAAAATTCAACCCTGCTTGGCTTGAAGAGCCAACAAGACCTGGAGATATACCAGCATTAAAATCAGTTAGAAATCATACTAGTCTTCCTATTGCAACTGGTGAAAGGTTATACGGAGCAAATGAATTTAGAGAAGTCTGGACTAGTCAATGTGTAGATATAATTCAGCCTGATATAACTCAAACAGGAGGAATTCTAGAAGCAAAAAAAATTAGTTCTACTGCTGAAAGTTATTCAATTATGGTAGCTCCTCACAATGTAGGTGGAGCTATTTCAACTAGTGCTGCTGTAACTTTAGTAAGTACTTTAAGAAATGGAAAAATCGTAGAACATTTTAATGATTTTGCTGATCCTCATGTTAAAAATGTTGCTGATAATTATCCTGAAGTAACTGATGGTTATTTTGAGTTATCTGAAAAACCTGGATGGGGAATTGAAATAAANGAAGATTTTATTAAAGATAATCCTCCAGAAAAATATAATAATATTGCTTTAGATCCTGGATTGAATATGTTTGAAAACCCTAATTGGGCTCAAAGAGGTCAATCTCGATAAACTAATACAAGGAGAACTGTAAGCCGAGTTCTGTATTGGAATTATCCAATGGTAATCATTTATCTAGTTTTTTCGTTACCGAAAAAATCAAGCAGCCTACCCGAGAGATCAGTCGGATTTCTTACTCTCCTATTTGGCCTTGCACCGGATAGGGTTTACCTAGCCTTAAATGTTACCATTTAAGCGGTAGGCTCTTACCTTACCTTTTCACCCTTACCTAATTATGGCGGTTTATTTTCTGTTGCACTTTCCGTCAAGTTTCCTTGCCCGGCCGTTAACCGGTATCCTAACCCGATGGTGCTCGGACTTTCCTCTTCATTTATGAAGCGATTACCCGTTCTCCTTGTGAATAAATAATACCATAAGGTAACAAAATCATTATTATTTAAGAATCAAAAATAATAGGATCTTTAATATTTATTCTTACTGAATTATTTTTTATATAAATCATATTGATTAAATTATTTATGAAAAATAATATTCTTTCTTTATTTTGAACATCTGAATTAGAAAATTCAGAAAAAATATTTTCAATATTTATTGTTTGTTCACTATAAGAATTTTCATCAATTTTATTTAATCTTTCAATATAAACTTTTAAACTTTCAATAGAAATTTTTCCTTTAGAAACCTTTCTTAAAGTAGCTAAAAAATTTTTCTCAATAACTTTCTTTTTTTCATTGAATTCATCATTTCTAGAAAATTTCCAATAAACTANTTTATTATTCAGAGATTTTTTGTAATCTTTAGAAATTTTGATAATTTGTTTAACAATTTCTTCAAACAAAATTTCAAACCTAATATGATTTGTATTTTCTCCTGAACAAGAAAGGGAAAGACAATAATAATATCTGTAGTTTTCTTTTCTAGAGTATCCATTAATATTTTTCCATATTCTAACAATATTTTTAAAATTCATATTTCTAGAACAAATTCCACATCTTATTAAACCTTTTTTAAAAACTAATCTAGTTTCTCTAGGTCTTCTAATATTTTTTTTTGATTCTCTTATTTTTTGAACTTTTTGAAAAATATCTTCAGAGATTAAAGAAGGATGATTATTTGTAATTATTAATCCTGATCTTTGATAAATACCTGTGTAAGTTCTATTTTTTAAAACTACATCAACACTTGATGGAGACCACCAATTCCCCTTTTTAGTTCTTATTCCTTCATTATTTAAATAAGATGATATTTTTCTTAATCCTAATCTATTCTTTAATAAATTAAATCCATTTATATTAGTTCCTGTGTATAAAGAAAATATTTTTTTTACTACTGTTTCATGAGTTTTATCAATAACAAGATCACCTTCTGATCCAATTTTATATCCAATAGGAGCTTTCGTAACAACTTCACCTCTATTTACTTTAAATACTACCGAGTTTCTTTTTTTAATTTCTGTTTCACTCAGTAATCCATTTAAAGTTAACCTGTTAATACCATCATTTATAGGATCATTCCAACTTGAATTAATGCATTGTACCTTACAATTCAAAGAATTGATTTGGATGATTTTTTCGACCAATTCAATTAAATTTTTTGCAAAATATCTTGAATCAGGGATGATTATCAAAGCAGGAAGAACTTCTGGAGATTTAAAATAATTTACTAATTGTCTAAAATTAGCTTGTTCAAAATCATTGGTGATTTCTATGTGATTTTTAGTTGAGATAAAATTTTTTTTTATATTATGATCTTCTTCATTAGAAAATTTTTGTACAGATTTTAACCAATTATCTAAATAGTCATATAGATCAGTACTGGATTCTATTTTAAAATCTATAAAACTAACTAGTCTCATCAGATTATCACCAAAATTCTCCCACAATTATCACAAAAAACAATTTCTTTTCCCAACATTAATTCTTTTTCAGTACTCAACGGAAATTTAACATGACAAACAGAACATGTTCCTGCAGAAACCTTTGAAACAGCAATATTATCTTTTGCTTTCAATAAACGCTGATAGATCATTGATAAATCATCAGGAATAGAATTGAAGAGAATATCTCTATTTGACATATTTTCCTTAATAGAAATTTCCAGGTCTTCAGATCTTTTTTCTAATTCAGGAAAATTTTTATTCCAATTCTCTTTTAAAATATCAACTTCTTGAGTTATTTTGTCTAAATTTTCTTCCATTAAAGACAATTTAGAAAAAAATTTATTAGCATAATTATTTAATTCATTAATGTCTTTTTCTAATTGGTCATCCTCATTTTTCAAAGCTTGTAATTCTCTGACATTGCTAACAAGTCCACCATATATTTTTTTCTGTATATCGGTTTTTTTGTTTTGTAATTCTTGAATTTTACTTTCTATCTTATTAATTTGAACTTGATACTTTGTTATTGCGTTTTTAATTTCATTCAATAATGATTCTTTAGCTTTTTTCCCATCTTCCAATAATATTTTTTCGTTTAAATCATCTTTATCCTTCAAATTAATTTGAATTTTAGTATCTACTTCTTGAAGCGAAAACAACTTGTCCCACATTTATTACTCCCATGAAAATCACTAAAAAAACATCATTACCTTGTTATTATATGAAGATAAAAAATATAATCTATAAGAAAGCTATAAACTTATTATATATACTATACATTAGTGAGAGAAAATATTGACAAGTTCTAAAACATCTTTTTATAAAATACCTAAATTCTTGATATCAAAACCAAAAACAAGAATTATCTGTACTATTGGTCCTTCAAGTTCTAGTAAAAAACAAATTAAAGAAATGATATTAGAAGGTATGTCGGTAGCAAGGCTCAATCTATCCCATGGTAATGCCCAATTCCATAAAATGTGTATAGAAAACATATTAGAAATGTCAAAACAATTAGATGCCCCGGTAGGCATATTAGCTGATGTCCCAGGACCGAAATTCAGAATAGGAAAAATTGAAACTGATATTCTAAAATTAACTAAAAATGACAATATAATCATAGATTTATCATCAGAAAATAATAAGAATGACTCTTCTTCTAACCTTCAACCTTCTTTAAAAGTATGGCCCCCAGGAATAGAAAACGAAATTCAAATAGGATCAGAATTATTACTTGATGATGGGTCCATAAAAATAAAAGTATCTTCAATAAATAAAGAAAAAATAAATTGTATAGTTGAAAACTCAGGTATTTTGAAATCCAATAAATCTTTAGTTATTCCAGGAAAAGGTTCAAAGTTAAATTATTTCACACCTGAAACAAAAGAATCTTTAGAATTCATTGCAAATAATGAAATTGATTTCGTTGGACTATCTTATGTAAGGTCAGAAAATGACGTTGAAAGAGTAAAAGATTTTTTTTCTAATAAAACAAATAAGCCAAAATTAATTTCTAAAATTGAACTTCCTTTAGATTTAATCACATTAGAAAAAATCATCAAATCCTCAGATGGTGTGATGGTAGCTAGAGGAGATTTAGGAGTTCAAATACCTATATCTAAAGTTCCAAGTTTCCAAAAGAAAATTATTAAATTATCTAACAAAATTGGAAAACCAGTAATTACTGCTACACAAATGCTTGAATCAATGATTGAATCTCCAAATCCTACAAGAGCTGAAGCAACAGATATTTATAACGCAGTTAATGATGGAACAGATGCTTTAATGTTATCTGCAGAAACATCTATTGGAAAATTCCCAATAGAATCTTTAAAAAAAATGTCAGAAATAGCATTAGAAGCTGAAAAAGATTTTGACCATATTAATTTTATGGAAAATAGAAATAATGAAGATTTAACTACTTTAGTAGATGAAGCTATATCTTATGGAGCCTGTAAAACAGCTCATTCAGTACAAGCTAAACTTATTATTGCATTCACAGAATCTGGAAGCACAGCAGGTAGAATAGCCTCTTTTAGACCAGAAAAACCAATTCTTGCTTTAGTGGCAAACAAATCAGTAACTAAAAAACTTTCTATTAATTGGGGGGTAATTCCACTACCAGCACCAAAATTTTTCAAAGTTCAAGAAATGTTTTCGGCTGGATCTAAGGCAGCCTTAGAAACTAAATTAGCTGAAAATGGAGACATGGCTGTCCTTGTTGTAGGAATGCCTATAGGAGTACCCGGTAACACAAATTTAATGAGAATCATGAAAATTCCTGAGCCTGAATTAAATAATTAACTCTATTAAATATGGAAATAGTAGATTTTCAAATTACAAAGAATATTTCCATAAAGGGGTTTTCATTAATTCGCTCTAATAATGATCGATTATTACTTTTTGTCCACGGTCTTGCATCAAATTCTACCTTATTTTTACCACTTGCGAATAAGTTATTTAAATTAGGATATTCTTCAATAGGAATAGACCTAAGAGGTCATGGAAACTCATCTAAACCTTCAAATGGTTACACACTAGAAACTTTTTCAGAAGATATCTCGATTATAATTAGAAGACACTTAAAAGTTAAACCAATTTTCATAGGTCAATCTATGGGGGCAAATCTCGGAGTTATGCTAGCTAAAGAGAAAAAACCTATTATTCAAGGATGCATATGCATAGATGGAGGATTTATAAATCTAAAGAATAAATTCCCAAATTGGAAAGAATGTGAAAAACAATTAACACCTCCAAATCTTGACCATTTGCAATTACCAAAATTAAAAGAACTTATTGAAATCAACCACTCTGATTGGCCAAATTTATCAATTCAAGGAACATTAAATAATTGGAAAATATTCAATAATTTAAAGATAAAAAAGAAATTGTCTATAAAGAAACATCTTTTACTACTAAAATCTCTTTGGAACCAAGAACCTAATAATATTAATCAACTAAATGTTTCAACACTTTTAATTAATTCTACTATTAAACAAAATTTTGAAAATCTTCCATCAAACACAAAAATGATCAATTTAGAAGGTGATCATGATATTCATGCACAGAAACCAGATTTGATATCTAAAATTATCAATGATGAAATATCAAAAGGATTTTTTAGATGAACACAGAAATTAACATTTTGACTATTTTCGGATCTGGAGAAACATCTCCTTATATGGCAAAAACTTATCGTTCTATTTTCAATAGCTACCCTAACTTAAAAATAAAGAATCCTGTAATACTTAATACTCCATTTGAATTTCAAGAAAATTCTAATATACTATCCCAAAAAATTTTCGATTACTTCGAAAAAAGATTAAATCTAAAACCAACTATTTCTTCCCTAAGACAAAATTCTCCTAAATCTATAGATATAGAAAATATCACTACTGAAATAAAAAAATCTGATTTTCTTTTCTCTGGGCCAGGAAGTCCAACATATGCTTTGGACTTATGGAAGAAAACAAAAATTGATAAAATCATTAAATCAAAGATTTATGAACCGGGCATAATTGCATTCTCAAGTGCAGCAGCTTTAACTTTAGGTACTTATACTCTACCAGTTTATGAAATTTATAAAGCTGGCATTAAGCCATATTGGGAAAAAGGATTAGATTTATTAAATTTTTTAGGAACAAAAACTATTATTGTCCCTCATTATAATAATCAAGAAGGAAGAGATCATGATACTTCACATTGTTTCATAGGTGAAAATAGATTTAAAAAATTATTAGATAATTTACAAGAAGATTTTATATATATTGGAATTGATGAACATACTGCATGTATATTCAATATTAATGAATCAAAGCTTCAAGTTATGGGCAAAGGTCAAGTACATTTTGGTTCAAAATCAAAAATATTCTCTATAAATAATGGAGATTCCCTAAATTTTGAAGATATATTATACAAACAAAAAATTACACCTAATTTAAACAAAATTCCTAAAGAAAACTTCAAGAATCATCATTCTGATCCTACTGCAAAAGATTCATCAAATGAAGTTTCAATAGAAATTGAAGAATTAATAAAAATTAGAGAAATTGCCAGATCAAACAACAATTGGGATCTGTCTGATAAAATTCGTTCAATTTTAGAATCTAAGGGTATAAAAATTAAAGACACTCAAGAAAAAACATCTTGGGAGAAAAATAATTAGACTTTAACAATCTTATTAGTTAATGTCCCAATCTTTTCTATATTAATCTTAACGATATCATCTTCTTTCAAAGTAAAATCTTGAGGAGGAATAATGCCAGTTCCAGTCATTAAAACAGCAACTTCTGGAAGATCATTACTCTTCTTTAGCCATTCTACTAATTCATGAACATTTCTTTTCATCTGGGATGTAGAAGATTTACCTTCAAAAACAATATCTTTACCTCTAGATATTTCTAATCCCACTTCTAAGTTTTGAGGATCGATTCCTTCAGCACTAATAATACATGGACCTAATGAAAATGATTTATTATAAACCTTTGCTTGAGGAAGATATAAAGGATTTTCTCCTTCGATTGACCTACTACTCATATCATTACCAATTGTATAACCAGCTATATCTCCATTAATAATTATTACAGCTAATTCTGATTCTGGCACATCCCATCCAGAATCTTTTCTAATACCTAATTCTTGCCCAGGACCTTGCATTCTTCCTCCAGTGCCTTTAAAAAATATTTCTGGTCTATCGGCAGAATATACTTTTGCATAAACATCAGGTGTTTCACTTTCTGCTTGACGTTCTCTCATACTATCACTATAAGTTACTCCAGCAGCCCATACTTCTTCTGGAAATATTGGAGATTTCACATTATTACCATCAATTCCAGACCAATCAAAATCCATTCTAGGCGTACTATCATTAATTAATGTCTCCACATATGAATCTAAGGAAAAATTAGTATTTTCTTTCTCAGAAGTCTCTTTGACAATATGATAAAGATCTTGAAATTCCATGGCTCCCAAACTAAAAACTTGATCTCCAGATTGAACAACCAATGAAGAATCCCAATAGGAGTCAGGAGCCCCCTCATAAGATCCAACATAGAAATTATTTAATCTAAAATATTTCATAACTATACTTCCTTATATTCTCCTTCTACAGGTTCATCTTTAGATCCATCATCTCCAGAATCTTGACCAGCATCATCATTCTCAGATTGAGAGTAAATTGATTCACCTAATTTTTGCATAGATGTTTGAAGATTGTTAGTAGCTTCAGTCAATTTAGCCACATCAGGATCTTCTTCAGCAAGAATTTCCTTTAATTCACTTGTACTAGTTTCTATCTCTTTTTTCATTTCTTCTGGAACTTTATCACCTTGTTCATTTAAAAGTTTCTCAGCAGCATAAACAGTACTTTCTCCTAAATTTCTAGCTTCTATACCTTCTCTCTTAGTTTTATCTTTTTCTGAGTTTTCTTCAGCTTCATTAATTAACCTATCTATTTCAGAATCATCTAAACCAGACCTTCCTGTAATAGTAATATGTTGTTCCTTATTAGTTCCCTTATCTCTAGCACTAACTTTTAAAATTCCATCAGCATCTATATCAAAAGTAACTTCTACTTGGGGAACTCCCCTAGCTGCTGGAGGTATCCCATCTAAATTAAATCTTCCAATAGAAACATTGTCTGAGGCCATCTCTCTCTCACCTTGTAACACATGTATCTCTACACTAGGTTGATTATCAGCAGCAGTTGTAAATGTTTCACTTTTAGTAGTAGGAATCGTAGTATTTCTCTCTATTAAAGTTGTTTTAACACCTCCTAAAGTTTCTATTCCTAAAGTAAGAGGAGAAACATCAAGCAATAAAACATCTTTAACATCACCTTCCAAAACACCACCTTGAATAGCTGCTCCTAATGCTACTACTTCATCTGGATTTATCCCTACATTAGGTTCTTTCCCAAAAATTTCTTTCACTTTCTCTACTACAGCAGGCATCCTTGTCATTCCACCTACTAAAATTAACTCTCCTATTTGTGAATTATTCAAATCAGCATCTTTTATTGCTTGTTTACATGGCTTTACTGTCCTCTCAATTAAACTAGATGTGATTTGTTCAAATTTAGCTCTAGTTAAAGAGAAAACTAAATGTTTTGGCCCATTAGCATCAGCAGTAATAAAGGGTAAATTAATCTCAGTTTGATTAACACTTGAAAGTTCAATTTTCGCTCTTTCAGATTCTACTCTCAATCTTTGTAATGCAGCAGGATCATCTCTGAGATCAATACCATTTTCAGATTTAAACTCTTCAGCTACATAATCTAACAAAATATTATCAAAATCATCTCCACCTAAATGAGTATCACCATTAGTTGATTTTACTTCAAAAACACCCTCTCCCAATTGAAGAATTGTTATATCAAAAGTTCCACCACCCAAATCATAAACTGCTATAGTTTGATCTCCTTTAGATTCTAGACCGTAAGCAAGAGCTGCTGCAGTTGGTTCATTAATTATTCTTAATACTTCTAATCCAGCAATCTTTCCTGCTACCTTTGTAGCTTCTCTCTGACTATCACTAAAATAAGCGGGAACGGTAACTACTGCTTTAGATATTTTTTCTCCAACTTTTTGTTCTACATCTTCCTTAATCTTCTGTAGAACCATGGAAGATATTTCTGGTGGAGAGTGATCTTCACCGTTCATTTTGACTGAGACATCTCCATTTTTAGCTTTTGAGATTTTGTAAGATACTTTCTTGCCATCAGATTTAACTGATGAATCGTCAAATCTTCCACCCATAAATCTTTTTACAGAATATATCGTGTTTTCAGAATTTGTTACAGACTGTCTTCTTGCCAGTTCTCCTATAAACCTTTCATTAGTTTTGGGATTTACAGCAACTACAGATGGTGTAGTTCTTCTTCCTTCCTTATTTTCAACTATTGTAGGTTCCCCAGCTTCCATTATTGCTACAGCCGAATTGGTTGTTCCTAAATCTATACCTAATACTTTAGCCATTTTTTTCCCTCAATTTTCTAACTATTTATTTTTTTGTATTTCATCATTTTTCAAAGATTCATTGTTAATAATTTCTACTTTAGCTGGTCTAATTACTTCGTCTTTCAATTTATAACCAGAACTAAAAACCTTGGAAATTTCTCCAGAATCTCTATTTTCGTCAGAAGATATCAAAACCGCATCATGCAATCTAGGATCAAAATCCTTTAGATCATCTATTACAGATACACCTATATTTTCTAATATATTCACAAATTTAGATTGTATAGCTCTAATACCTTCAGTCCATCCATTGTCATCTTCCATAGAAGATAAAGCTAACTCTAAATCATCTAATAAAGGCAAAAATTCTAAAATATTTTTTTTTATATTTCTGTTTTTTGCATCTTCAATATCTTTCAACATCCTTTTTCTAGAATTTATTAAATCAGCTTGAGTTCTCTGAGCTAAAATTTTGTAATCATCTCTTTCTTTCTCAAGTTCTTCTAATTTATTATTTTTTTTCTTAGATCTTGAAATGTTCTTTTTCTTTTTTTCAGTCATTATAAATCTTCTTAAATATATGAAATTTCTTTCAAAGCCATATTAATCATTTTTTCTATCTTGTCATTTTTTTCAATCCAATTTATTTCATTTTGTTCTTCTGTATGTTGTAAGATTTTCGTTAATATCTCTATAAGATCCAAAATCAAACTTACTCCTGCAAGATTTATACCATAATTTTCAACTAACCTTTTGATTATTCTCAATTTAATTAAATCTGCATCAGAATATAATCTCAACATGCCTACAGTTCTTGAAGGACTAACTAAACCAGCTCTATCATACTTTCTTAAGGTCTGTGGATGCATTTCCATTAAACGTGCTGCTACACTGATGATATATACTCCTACAATATCTCCTTCAGTCCTATTAAGTTTAAGATCATCATCAAAATTCATAATTTTTTTATGCATGAAATTTAATACTAACAACATACTAAACATTTATACGATGCGTGTCAACTTAATATTAATAAACTAATTAAAAAAAAAATCAATATTGCATCTGTTAAACCTCTACAATAAAATCACAATTCAGGAGATAGTTTGCAAAAAATAAAAAGAAAATTCAAAAATGAAAGCAAATTACTAAATTTGGTTTCAAAAAAACCAAAGTCTGAACTTTTGCAGAAAAAACAGCCTAACTCCAAAATTAGACAAGATGATTCATATAGAAAAATTGTTTATCCTGCTGTTTTATTTAATAACGTTCCTGAAATAGTAATACAAAGACTTCCTATCTACATAAGAATTCTCTCAAAAATACAAAAACAAGGAGAACCTAAAATTAGTTCTAAGATTCTAGGAGAATTATCAGGAATATCTCCAGGAATCATTAGAAAAGATTTAAACTATTTTGGAAGATTTGGAAAACAAGGGAGTGGTTATCAAGTTAAAGAACTTAAAGAAACACTTAAGACTATTTTAGGTTTAGATGGAACATGGAATGTAGCTGTAATTGGTTTAGGGAAATTGGGAAATGCTATTGCTTCTTACCCTGGTTTTGAAAAAGCAGGATTCAGAATTGTAGCTCTTTTTGATACCAATAAAACATTACATGGTAAAAAAATTGGCAGAATCACAATACAATCTTTAAATGAATTAAAAAGATCTGTAAAAACACGAAATATAAAAATTGCAATAATATCCACTCCATCAAATCAAAGCCAGAATGTGGTTAACAAATTAGTAGACTCAGGCATAAAATGCATACTCAACTACACTCAATCTTCTTTAAAAGTACCAAAAGAGATTATCATGAAGCCTGTAGACCCTATATCCACTTTACAATCAATGGCCTTCTATTTAAAAAATGATCATTTAAATAAGTAAACTTACTACCAATAAAGTTAATATTTATAGACTTTTAGTAGATCTTCTTCTATTGGCTACCCTTAATTGTGCCTTAGAAGCCCTTATAACAAAAAGTGCTTTCTGAATATCAATATCAGAACCCTTTGATTCAACTATTTTCTCAGCTTTTTCAATAGCTTCTTTAGTTTTTTCAATATCTATTTCGTTAGTCCTTTCAGCAGCATCTGCCAAAATAGTTACTTTATCATTAAAAACTTCTACAAATCCTCCAGATAGAACTAAACTCAACACTTCTTTTTCATTTTTTATTAATACTTCACCTGGGTCCAACTCAGTAATAATTGGAGCATGGGAAGGAAGAATTCCTAGTTCTCCTTCTATTCCAGGTATTTGAATAAGACTTGCTTGACCTGAAAATATAGTTTTTTCAGCTGTAACTATTTCAATATCAAGTAATTTCATCATTCACCTTAAGATTTAGCTAAATCCTTTGCTTTTTCAACTACTTCTTCAATAGTACCTACCATATAAAATGCTTGCTCTGGTAATTCATCATGTTTTCCAGACAAAATTTCTTGGAATCCTTTAACAGTATCTGCAGTTTTGACATATTTTCCTGGAATACCTGTAAAAACTTCTACAACATGGAAAGGTTGAGTAAGAAATCTTTGAATTTTTCTTGCCCTTGCAACAGTTAATTTATCATCGTCAGATAGTTCTTCTACTCCAAGAATAGCAATTACATCCTGTAAATCTCTATATCTTTGTAAAACTCTCTGCACTTCCCTAGCAACGTTATAATGTTCTTCTCCTACAATTGCTGGTTCAAGAATTCTAGAACTAGAAGCAAGAGGATCAACTGCAGGATAAAGACCTTGTTCCGATAAAGATCTTTCCAATGAAATTGATGCATCCAAATGTCCAAAAGTAGTAACTATTCCAGGGTCCGTATAATCATCAGCAGGCACATAAACAGCCTGGAAAGAAGTGATTGAACCATCAGTAGTAGAAGTAATTCTTTCTTGTAAATCTCCCATTTCTGTTGATAGGGTTGGTTGATATCCTACAGCAGATGGCATTCTACCTAAAAGAGCAGAAACTTCCATTCCAGCTAAAATATACCTATAAACATTATCTACAAAGAATAATACATCTTGTTTACCTTTTTCACGGAAATACTCCGCCATAGTCAATCCAGTAAGAGCTATTCTAGCTCTAGTTCCAGGAGGTTCATTCATTTGACCAAAAACTAATGCCGTATTATCTAAAACACCATAATCTTGCATTTCATGCCATAAATCATTTCCTTCTCTTGATCTTTCTCCAACACCTGCAAATACAGATACTCCACTATGTTCTTGAGCTATGTTTCTAATCAATTCTGTAATAATTACAGTTTTTCCTACTCCTGCACCTCCATAAGCACCTACTTTTCCTCCTTTAGAAAATGGAGTTATAAGATCGAAAACTTTAATACCAGTTTCCAAAATATCTGTAGATCCGCTTTGTTGTTCAAAAGAAGGAGGAGGACGATGAATAGGCCATTTTTCTTCTGCATTTACATCACCTAGGTTATCCAATGCTTCACCTAAAACATTAAATATTCTCCCTAATGATGCTTTTCCTACAGGAACAGTTACTGGGCCTCCTGAATCAACAACTTTTGCTCCTCTTGGAATGCCCTCTGTAGGCCCTAAGGCTAAACATCTAGCCCAATTATTACCAATATGTTGCTCCACTTCAAGCACAAGCTTACCATCATCATATTCTACTTCCAAAGCATTATAGATAGATGGCAAATTATCAGATTCAAATTCAACATCAACAACCGTTCCAATAATTTGAATAACTTTTCCAACATTTTTTTCAGACATTATTTTTCTCCCTTTTTAAATTTTATCCTTCTTGAGCAATCATTCCACCTACTAAGTCTAGTAATTCTGAAGTGATCACTTGTTGTCTAGCTTTGTTTAATTCAAGAGTTAAATCATCTAAAAGTTCATTTGCATTATCGGTAGCATTTTGCATAGATACCATTCTTGCTGAATGTTCACTAGCAGTAGCTTCCAGAACTCCATGATAAATCTCCATTTCTATATACCTTGGAATCAAAGTATTTAATAATTTTTCAATATCAGGTTCAAAAATATAATCAAGAGGAATTTGTTCTTCATCGTCAGAAATTTCAACTGGAATCAAAGTCTTCTTTACAGGCTTTTGTATAGCAGTTGTAACAAATTCAGAATAAATCATAGATACAGATTTGTATTGTCCCGTTTTCAATTCATCCATTACCAGTTTAGAAACTGCTAAAGTCTCTTGAATTTCAGGCATATCTGAAACTCCAAATTGTGCTTTAAGATCTTTACCTAACCTTACAATTAAAGAACTAGCTTTTTTACCTATAGTAATAAAAACAACTTCTTCTTCAATATTTTCAGAATTAGTTAAAGCAACCTTAGTAATATTAGAAACTAAAGCTCCGCATAAACCTCTATCAGGGGTAATCATTAAACATAATTCTTTAGTCCCAGTTAAATTTTCATGAATACTTAATTCAAAATCTTCATCATCATAGTTAACTAAATTTAAATGACTTAAAATACTATGAATTTTTTCTGAATATGGCCTACCATCTACAACTTTTTGTTGTGCTCTTCTCATTTTAGCAGCAGCAATCATCTGCATAGCCTTTGTTACCCTAGCTGTACTAGAAACACTTTTAATTCTTCTCCTTAATTCTTTTAGATTAGCCATATATAAATCTTATCCAGCTGTAAACATTTTTTTGCAATCAGAAATCACTTTATCTATTTCTTTTTCATTTTCTCCAGACAATTCTCCAGTTTCTGAAATACCTTTCATTACTCCTGGAATATTATTTGAAGCATATTCAACCCAAACTTTTTCAAATTCTAAGATTTTTTCTAAATCTATATCATCTAAATAACCTTTTGACGCTAAATAAAGCATACTTACTTGATTTTCAACTGTTACAGGAGAATATTGAGGTTGTTTTAATATTTCCTGTAACCTTTGACCTCTTTGAAGTTGTCGCTTGGTTACTTCATCTAGATCATCAGAACCAAATTGAGCAAATGAAGCTAATTCTCTAAACTGTGCTAATTCAATTTTTAAACTTCCAGCTACTTTCTTCATGGCTTTAGTTTGAGCTGAACTACCTACTCTACTTACAGATAGACCAGTATTCAATGCTGGTCTTATCCCTGAGTTAAACAAATCACTTTCGAGATAAATTTGTCCGTCAGTAATAGAAATAACATTAGTAGGAACATAAGCAGAAACATCTCCTGCCTGTGTTTCAATAATAGGTAATGCAGTTATAGAACCTCCACCAGCACTCTCATCTAATCTAGCAGCTCTCTCCAATAATCTAGAGTGTAAATAAAAAACATCTCCAGGATAAGCTTCTCTACCTGCCGGTCTACGTAATAATAAAGACATTTGTCTGTAAGCCCAGGCATGTTTACTTAAATCATCATAAACTATTAATACATCTTTTCCCTGATCCATAAAAAATTCAGCCATAGCAACGCCTGAATATGGAGCTAGATACTGTAAAGAAGATGCATCAGAAGCATTTGCTGCAACAACAAATGTATGATCCATCGCACCATGTTCTTTTAGGGTATCAACTACAGCTGCTACTTTAGAAGATTTTTGCCCTATAGCAACATAAACACATATTAAATCTCCACCTTTCTGGTTAATAATACAATCCATTGCAACAGTAGTCTTTCCTGTATTCCTGTCTCCAATAATTAACTCTCTCTGACCTCTTCCTACTGGAACTAAAGCATCAACTACTTTTACTCCAAACTGAACAGGTTGATCTACAGATTTTCTTGAGACAACATTGGGAGCTATTTTTTCTACAGGATTAGTAGAATCTGATTGGATTGGACCTTGTCCATCTAAAGGTCTTCCTAAAGGATCTACTACTCTTCCAATTAAACTCTCTCCTACAGGAACTTCAACAATCCTTCCAGTAGCTTTTACTTCATCTCCTTCTTTTATATGAGTAAATTCACCAAGAATTACTGCTCCTACACTATCTTCTTCTAAGTTCAATGCCAAACCAAGTGTATCATTTGGGAATTGGAGTAATTCACTATACTTTACATTAGACAATCCGTGAATTCTAGCATTTCCATCTCCTGCTTCCACAACTGTCCCTACATCAATAAGTGATAATTCACTTCCATAATCTTCAATTTGTCTTTTAATAATTGATGCTATATCTTGACCTCTTAATGCCATTTTTATCTCCCATTTAATTTACTAAATATTACTTTTAGAAAAAGAATCTCTCATTTTAAGAAATTCACCTTTTATACTCATATCTAAAACTTGGTCAGAAAATCTTACAACTATACCACCTACTATAGATTCATCTATTTCATTAACTCCAATAACTTTTGAATTAGTTAAATCTCCAAGTTTTTTTTCAATTTTCTCCATAAAATCTTTTTTCAACTCTACTGCCGAAATAATTTTAGCTCTTTTGATTCCTTCAATGTCATCAGTCATTTCTGACAATCTATCACTAATATCTATAACTAAATCAAATTGTCCACGTTCAAGTAATAAGAAAACAAAATTAAGTTGCTTTTTAGTAAAACCTGAACATAGTTTTTTAATACCATCTTTTTTGATATTTAATGGAACATGAGGTTCGTTCATCAAACTTAAAACGTCATTATTACAAGCTAACTCTGTCAAAAATTTCAATTTTTGACTCCAATTATCTTTATTAAGATCAACATTATCTATCTGAAAAATAGCTTCAGCATATCTTCTTGCACTTGGTTCTTTGGCCATAATTATTACTTAACATTTTCTTTTAAAACTTTCTCTATTAATTTATTGTGAGTGTTGTCATCAATTTCTTTATTTACAACTTTCTCAGCTGCTTCTAAGACTAAAGATGAAAAATTCTTCCTAAGCTCATTAATAGCTACACGAGTTTCTTTTTCTAAATCAATCTTAGATTTTTCAATTAGATTTTCAATTTCTTCTAGAGCTTTACTTCTCTCTTTTTCTTTAAAATCTTCACTGAATTGTTTTGCTTGATCTATAATTTTCTGACCTTCTTGTCTAGCAGAAATTAATTCTTTTTCAATTTTCTCCGCAGATGAAGCAGCATCTTCTTTTGCCTTTTCAGCAGCAGAAAGACTTTCCTTAATTCTATCTGCTCTATCATCAAGCATTTTTATTACCGGTTTATAAAGTAATTTACTCAACACAAACAAAAGTATTAAAAAACTTATTACCTGAGTAATAAGACCGGGTAAATTTATCCCCAGATCTTCCATTTAATATTCCTCTCTATGAGTAATTAAAAGTAATCTTTTAACTCTCTAATTTTTTGTTAAACAGTAGGAATTTTTGAATCCGCTACGAATATAATTATTATTGCAACAACTAAAGCATAAATAGCGATAGCTTCAGCAAATGCAATAGCTAGGATCATATTTTGTTGAATAGGTCCTCTTGCTTCTGGGTTTCTACCTAAAGCTTCCATAGCTTTACCAGCAAGCATACCTATTCCTAATCCAGGTCCTATTGAACCTATGGCTATGGCTAAAGCAGCAGCTAAAGCCGATATATTTCCATAAACTAAATCACCCAAGGAAATCCTCCTTAATCATTAATTGAATTGTTTATAATATGTTTTTAGCATATTTCTTTTTACTTTTAAACTAGTGTTCATTATGATCCGCAATTGCAGAAACTCCAAACACTAAAGTTAACATTGCAAATATGAAAGCTTGAATAAGCCCTACGAACAATTCAAGACCCATAAAAGGAATTATTCCTATCAAAGGAATTAGGAAAGCCATAGCAACTAATAATACTTCCCCCGCGAACATATTTCCAAATAAACGGAATGTAAAACTAATTATTCTAGCTATTTCAGCTATTAACTCTAATAGTCCAACGAAAAACATTATTGGACTTTTAAAACTAATAAATTTAGATCCATATCCTTTAATTCCTAAAGCTTGAAAACCCCAAATTTGAACAAATATCATAGCTACAATTCCTATAGCCAATGATGTATTTAAATCAGTACTAGCACCTCTGATAATTGGAAGTAACCTTCCTGTATTACTATCTCCAACAACTGTAGATAATTTTTTAGTTTCTTCATCTTTAGTACCTGGAACAATTATCTTTAAGAACCCTGTACCTTGAAATGGAGTTAATTTTTCATCACCTATCTCCTTAAGCACATCATCAGTACATTTTGAAGAATGATGACTATCATGATGATCGTCAGAATGATGATCATCAGAGTGATGTAAATGATGTGATTTGTGCTCACATAAAACTTCTGCAGTTTCAACTAAACCAACTGTTCCAACACCTGGTAAAATACCCAACCAATTAGAAGTTATCACACATAAAAATATAGTCATTACTACAGGGAGAAATTTTCTTCCTGCTTTACTTCCAGATACCGACTCAACAAGATTAAGAAAAAACTCAACGATTATTTCTAAAAAATTTTGTAATCTTCCAGGTACATCTTTTCTATTTCTAGTACCCAAAAAACTAATCAAAATTAACAATAAAATAGCTATCCATAAAGAAATAGAAGTATTAGTCACTGAATAATCAGTAAAAAAGAAAGGTAACTTAAAAACAGTTTCTGCTGGTAATTGAATATGAGCTACGGGAGATTGAAAAAACCCTCCACCGGGTATTATAGAACCCAAAGGACCTGCTGCTAAAGCAACAATAAAAAATATTCCTAAAATAACAAGAATGAAAATTCTTTTCATATTATATTTAATTACACTTTACTTAGTCATTTAATATTCTTTTTATCATTTTAAAACTTCCAAATCCAGCCAATATTATTCCTAGAAGCATTCCTACGATCACACCAATTGGTTTTAAGCCTATCAAACTATCAATCCAAACTCCTAAAAAAGCAAAACCTGCTATAGAAATCGCAATAAACCACCCAATCCCTGATAATTGAACTAATAGTTCTATAGTTTTATTTTGACCTTTAAACACAAACCTAGAATTTCTAAAATATTTTATTTTTAACAAATATAGAAAAAATTATTTTTTTTCTACAGTACCTTTTCCTAAATCATCCAAATCCAAACTGTCTATAAAATCAGTGAATGCTGATAATTTATCTAACTCTTTTTGATCTACAGGAACAGTTTTCTCAAGATTTTGGTTTTCTTTATCAGATCCTATAATTATACCTTTTTCATTATCAATTCTTACTCCTGCTTTTTCTAAAACTTCAGGTTTAACAAAAACAGGAACATTTGATCTCACAGCTACAGCTATTGCATCAGATGGCCTAGAATCAATAGAGAAAAAATCAGATCCTTTTTTCAAAACAATTTTGGAGAAGAAAGTATCATTATCAAGTCCAGAAATCACTATGTGGTCTATAGATGCTCCCAGTTCTTTGATAACTGTAATCAATAAATCATGAGTAAGAGGCCTAGGAACAGAAACATCTTGAAGCCTAACTGCAATAGAATCAGCCTCTGCTGGTCCAATCCAAATAGGTAAATATCTATCATTTTCTTTCTGTTTAAGAATTACCACTCTTTGGTAATTAGAAAGACTAACCCTAATACTGTCTATGACCATCTCAATCATTCTAGCCTCTTATTAATATAAAACTAAAAATATTTTAAAGCATAAACAATAAATTTGAAATCTTAAGAAGAAATATAAGACCTCATTTTATTACAGAAAAGATCAGCTTTTTTATTAACTGAACTTAAATAATCTTCGAAATTAGTTTTAGAAGAATTAGGAAAAATTATACCCCTAGAAATGGGGAAAATACATCTTCCATTATGTTTTTTGCTGAGACTAATTGGAACAACATCTTCAATAACTCCACCTTGTGCACCTATACCAGGAATAAGTAGAGGAATATCATCATTCAATAATCTAATTCTCCTTAATGGCTCTAAGTTAGTAGATCCCATTACCAACCCTGCATTATTTTTCTGATCATAATTTTCAATTAAATGATATACATGTTGATACAATTCTATATCTGAATTTTTAGATTTAACTAAAATATCTTGAATTTGAGATGCAGAGTTATTAGAACTTCTACAAACTACAAAAGCTCCTTTATCTTCTCTATCTATGAAAGGTTTTATAGAATCAAAACCTAGATAAGGATTAACAGTAACAACATCAAACTTCCAAGTATCAAACAAAGCTTTAGCATAGGCTTCGGCAGTATTTCCTATGTCACCTCTTTTTGCATCTCCAATTAAAAGTACCCCCGAAGATTTAGCATATTCTATGGTTTTCTCCATATCTCGAATGCCTTTAGAACCCAAAGATTCATAAAATGCTAATTGGAATTTATAAGCACATACAAAGTCTTTAGTAGCATCTATAATAGCTGCGCCCCATTGATATAAACTATCAAACCCTAGTTTTTTTACCAGAGAATCTTGGGGATCTAAACCTACACATAAAACAGTTTTTCTTTCTTTTATAATAGAATCTAATTTTGAAACCCAATTTAACACAATTTACTCATTATACTTTTTTTGAAAGAATCAGTTTGTTTATTGTAATTGATATTACCCCTAGTGTGACAGAAATAATTATTAAATTTAATGCTCCACTATCATCACCAGATGATATACGTGTAAATATAGCAAGAGGTAGAGTCTGAGAAATTCCAGGGATATTACCTGCAACAATAATAGTAGCTCCAAATTCAGCTAAACTTCTAAAAAAACCAAGCATAATTCCGGCAATCAATCCCTTCTTAGCCACTGGGATAATGATAAACAAAAAAATCTGAATATTTGAAAGTCCTAAAGTTTTTGCAGAGTTCTCCAACTCAGGTCCAATATTTAAAAGAGAAACTCTAAACATATTAACTACTAAAGGAAGTGAAACTATAGCTGCAGCTAAAGACGCTGCTACCCAAGTAAAAACTATAGAATTTCCAAATAAATTTTCTATTACTGTTCCTATAGGAGATAAAGGACTAAATATCCATAAAAGAGCATATCCAATTATTACTGGAGGCATTAAAAGTGGAAGAGAAACTAAGACATCAACTAAAAAAGATATCCAAGATTGAGATTTTTCTAAATAAAAAGCTATTAAAAATCCAAAAATAGTTGTAATTAAAGTTGAAAAAAAAGCAATCTTTAATGAAAGTAAAATGATATTTATTTCGATTATTCCCAAACTCATTCCTGTCACTCCAAAGAACTAAATCCAAATTTTGAAAAAATTTCTGCCGACTCATTAGATTGTAAATATCTAAGAAATTTTAAAGCTTTTTCTTCATTTTTAGTTCTATCAATTATTGCTACAGGATATTCAATCTTTAAAGATTTAAATTCCAAATCTAAGATTACTTCAACTAAATCCGAAGTTAAAGCATCAGAAGAATATACAATTCCTAAAGGAACATTACCCGATTCTACAGATGCTATAGTAGCTTGTGCATCTAGGTTATATACCAATTGTTTCTCAACTCTTTCCCATAGTTCATTTTCTTCTAAAAAAATCTTTGAATACTTACCTAAAGGAGCTAATTTAGGATCTGCAACAGCTATTTTGAAACTACGATTTTCAAATACATTTTTAGTCTCAGGACATTGTATTTTTTTCGAGCAAATCAAAGTCAATTGATTTTTCAACAAAATACTTACAGAATTTTCTTTAATATATTTTTCTTTTACTAAATCTTCTAAAGGATCAATTCCAGCAAATATTACAATATCTGCATTTGAACCCATCCTAATCTTATTACTTAAAGTGTAAGAACCAGCAAAATCAAAATACACATTACTAACTTGATATTTTTCAGATATTTCAGAAAGAGGATCAGATAATGAAGCTGCTGCAAGAACAATAATATCATCTTCAAAAGAAATTTTTTTACAAGATATTAAAAGTATAGATAAAACTAATACTAGAAAAAATATTATATTCCTTCTTTTAGCAATACGTGACATAATAAAAATTATATTAAAAAAAATCACTTTAATAAGAAATGGGAAAAGTAAAATACGACTTCTCTTCTTTTTCAGAATTAGATTTCTATAGAAAAGTAAATACTAGACTAATAGAATTAGCTGAAGTAGACAAACTAGCAAAAATCATAGAATTAGGTTGTGGCACTGGAGGAGTGACAGAATTAATTTTAGACAGAGTAAATTCTGCTAAGAATACTGTAATTTATGCAATTGACAGTTCTGCTAGTGCTATTTCTGCATCCTTATCCAGACTAGAATCTCGAAAAGAAGCTATTTTGAAATTTATTCAAACTGAAGCTCAAAATTTACAAACAACTGTAAAAGATCAAGTGGACTCTGTGATTTATTGTAATTCCATACATTATATAAATAATAAAATGGATATGGTTAATCAAATAGGTAATAGTTTAAAAAAAGGTGGCACATTTGCCTTCAACACATCTTTTTATTCTGGATCTCATCCGCCAGAAACAGAGATATTTCTTCGAAAATGGATGTTCAAGACTATTAAGCTCCTGAAAAAAAGATATGGAATAATGCCTGTAAAAATGGAAAAAGTAGAATCTAGAGTACAATTGACACCTGATAACTATACTGAACTTATTCTCTCAAATGGATTTTACATTAAAGAAAAAGAAGTCATTGAAGTTGATGTTCCATTGGATGGCTGGTATCACATCTGTTCATTTAAAGATTGGATTGAAGGTGTTCTTCCAGGAGTGCCTTTATCAAAAGGAAAAGAAATTCTTCAAGAAACAGTTAAAGAACTTTTTGATGAAATGAATATCAATACATTACAAAGAAATTGGTTATCAGTAGTAGCTGTAAAAAAATAATTAATAAGACACAAACTTTTCTAAAGATTTAACCTTTAAATCAATTCCTATAGAACTTGAATCTATTGCAGCATAAGCAGTATCTAATGAAGTGAAACAAGGAATCTTCCTTTCAGTAGATATTCTTCTTATTTGGAAACCGTCCTGTAATGTTTTCCTATCTCCAGTAACTGTATTTATTACTCCAATAATAGATTTGTCTTCTATCAAATCCACTGCATTAGGATGACGACTCAAAACTTTTTCAATTCTTTCAGAAGTAAACCCTAAGGATTCTATTAAATCTGCAGTACCAGGAGTCGCTGCAAACTTATAACCTTTAGAATTTATTAATTTTATCAATTTTTTACTATTCATTTTATCTCTATCAGCAATACTAAGAAGAAGTTTTCCTTCTGGAGGTAATTGTAATTGAGAAGAAATTAAAGCTTTAGATAACGCAGATTGAAAACTATTATCGATACCCATCACTTCTCCTGTTGACTTCATTTCAGGGCCCAAAAAAGTATCAACTCCAGTAAGTTTAGACATAGAAAAAACAGGTGCTTTAACCGCATAAAAATTCTTATTAGGAATCAGTTGATTTTCATAACCTAAATCCTTAAGAGCAGAGCCATTCATAATTTTTACAGCAATATCTATCATAGGGATTCCCGTAATTTTAGAGATAAATGGAATAGTTCTGCTAGATCTTGGATTTAATTCCAATATATATACTTTACTTTTTTGACCTTTCTCTTCCTTTACTACAGATCTCTTAATAACAAACTGTATATTCATTAATCCTTTTATTCCGAGAGCAACCCCTATATCTTTAGTATGTTGAACTATTATATCTACTTCTTCTTTTGTTAAATTGATAGGAGTATAGACTGCAATTGAATCTCCACTATGTACACCTGCACGCTCTATATGCTCCATAATTCCAGGAATAAGAATATTTTGACCATCACAAACAGCATCAACTTCAACTTCAATACCTTCAATATATCTATCAATTAACAAAGATCCACGAAAGTCTTGAAATAGTGAAGAATGAGAATCAAAATACTGCTCTAATTCCTTTACATTCTGAAGTATTTCCATAGACATTCCACCTAGAACATAACTAGGCCTTACAACCACAGGAAATCCTACAGAATTTGCAACATCTATGGCTTCATTTATATTCGAAACTTCTCCTCCAGGAGGTTGAGGTATTTTTAAACTTTCAGTTATTTTTTCAAAAGGAACTCTATCTGATGCATTATCAATTGTTTTAGCACTAGAACCCATTATAGGATTACTTGAATCATCTAGAGATGTTGCTAAATTTACTGCAGTTTGACCACCAAACTGTACAATAGATTTTGGCTTCTTAGATCCATATATCTCATTATCAATAATATTCCTTATAGATTCTTCATCTAAGGGCTCAAAATATAATCTTTCAGAAGTATCAAAATCAGTAGAAACCGTTTCAGGATTCGAGTTAATCATTATAGATTTTTTATTAATCTTATTTAAAGCCCAGGCAGCATGAACAGAGCAATAATCAAATTCAATTCCTTGTCCAATCCTTATAGGGCCACTACCTAGTACTATTACTTTGTCTTTATGAATAGGCAAGGCTTCATTTTCGGTTTCATAAGTACTATAAAAGTATGGAGTGAATGCTTCAAACTCTGCAGCGCACGTATCTACCATTTTATAAGTTGGAATTATGCCAAATTCTATTCTCTTATTTCTTACTTCTTCAGTAGAAATTTTTAATATTCTAGATATATCAGAATCAGAAAATCCCATCCTTTTTGCTTTTAGTAATATACTAGAATCAATAACATTTGAAGATAATTCTTTTTCCATTTTAATAATTTTTAAGAATGAATTAGAAAACCATGGATCAAACCCAGTTTTTCTAGATAAATCAATAGGATCCATACCCTTCCTTAACGCCGTCATAACTCTCCAGATTCTAGAATCTGAAGGATTTAAATCTATAGTTGGGCCTACTTCATCAAGTTCAGATAATTGAGATTGATTTTTAATATCTAGAGAACGTAGAGCTTTCAAAAATGCTGCTTCAAATGTTCTATCTATTGCCATTACTTCACCTGTGGCCTTCATTTGAGTCCCTATAGTACGATCTCCTAACTCAAATTTATCAAATGGCCATCTTGGAATTTTTACTACACAATAATCTAATGCTGGCTCAAATGCTGCAGTAGTTTTTTGAGTAACAACATTTGTCATCTCATCCAATTTTTTTCCTAAAGCTATTTTTGCTGCAATTCTAGCAATAGGATACCCAGTAGCTTTTGAAGCAAGAGCAGAGGATCTACTGACTCTAGGATTAACTTCAATTACATAATATCTTTGTTTTCTAATTAGCTCTCCTCTATTAGGATCTGATATCCAATAAGGCTCTAAAGCAAATTGAATATTACATCCTCCTTCAATAGACAGAGCACGGATGATTTTAAGTGACGCTGATCTAAGAAGTTGATAATCTTTATCTGTTAAAGTTTGACTTGGAGCAACAACTATTGAATCCCCAGTATGTACACCTAATGGATCTATATTTTCCATGTTACATATAGTAATTGCATTATCAAAAGAATCTCTTATAACTTCATATTCAACTTCCTTCCATCCTACTAATGATTCTTCTATCAATACCTGGTTAACTCTGCTAGCTTTCAATCCAGAATCGGCAATAGTTTTAAGCATTTCTTCATTTTCTGCTACTCCTCCACCACTTCCACCTAGAGTATATGCTGGACGTACAACTACTGGATATCCAATTTGATCTGCAGCATCCAATGATTCTTGTATTGAAGAACAAGCAAAACTTTTTGGTACAGGTTCATTAAGACTATTCATTAAAATTCTGAATTCATCTCTATCTTCAGCCATTTTGATAGAACTAATTGAAGTACCTAACACTTTTACATTATATTTATTTAAAATACCCAATTCATCTAGTTCCATAACCAAATTCAATCCGGTTTGCCCCCCTAATGTACCCAAAATGCCATCTGGGTTTTCTTCAATAATTATTTTCTCTATTATTTCAGGTATTAAAGGCTCTATATAAACCTTATCGGCGACATCCAAATCAGTCATTATAGTAGCAGGATTGGAATTTACTAAAACTACTTCTATACCTTCTTCTCTTAATGATTTGCATGCTTGTGTGCCAGCATAATCAAATTCAGCAGCCTGGCCTATTACTATTGGACCAGAACCTATTATTAAAACTTTTGATATTTCTTGAGTCATGTTAATTTTTTATTTTTTATTGAATTTTTTCATAATAGTTATAAAGTCATCGAATAAATATTCTGAATCTTGAGGACCAGGAGATGCTTCTGAATGATACTGAAGTGTTATTACCGAATCTTTTTTATTTATCAAACCAGAGATTGTTTGATCATTTAAATTAATATGGCTTACTTCAATTTCATCATTTGAAATATCAGATTTAACAGCATATCCATGGTTCTGTGCAGTGGGATAAACTTTTCCTTTATTCAAATCTTTTACCGGTTGATTTCCTCCTCTATGACCAAAATGTAACTTAAAAGTATCAAATCCAAAAGCTCTTGCTATAATCTGGTGACCTAAACAAATACCCATCATTGGAACTGAACCAATAATATCTTTCACAACATTCACTATATTATCTAAACGAGAAGGATCTCCTGGGCCAGGAGAAAAAACAATTCCATCAGGGTTAAATCCTAAAATTGTTTCAGCATTAGAATTCCATGGTAATACTGTAATTTTACATCCTTTAGAATCAAGAATTCTTAAAATATTCCTTTTCACACCAAGATCCACTAAAACAATATTAAATTCTCTATTAATATGATTTTCTTTTTGGCCAATATATTCATAGGATGTTTTAGTTGAAACACTAGATACAAGATCTTTTTGATCATAATCTTCAGTAGATTTTAAAATCTTTAAAGCCCTTTTTTTATCACTATTTAAAGTAATTAAACCTTTCATTACTCCTTTACTACGTATTTTTTTAGTAATCGATCTTGTGTCTATATCAGAAATAGCAGGAATATTATTTTGAATCAAAAAATCTCCTAAAGATAAAGTAGACAAATTATGAAAAGGAAAATCACATAATGATCTAACTATAAACCCACTAACTTGAACATTGTTTGATTCATTAAAATATGGGTTAATTCCATAGTTACCAATTAATGGATAAGTAGCTATTAATATCTGACCCCCATATGAAGGATCCGTCAACATTTCTTGATATCCAGTCATCGAAGTATTAAAAACCACTTCACCATTGGATTCTTTTTCAGATCCTATACTTATACCACTATATATAGATCCATCATCTAAATATAAATAAGCTTTTTTATTATGATTATTCATTATTTATCAACTTACCTTCAAAAATTGTAATAATAGGTTTTCCTTTTAAAAAATCATTTTTATCATTCATTACATAATTTTTACTTTTTGATTTGATATTCGCCAAATCCAATATCCAATTTTCATCACTTATAATTGTAAGATCAGCAATATATCCTCTTCTAATTTCACCAATTTTTAATCCTGAGATTTTTTTAATTATACTTCCAGGATTTTCAGCCATTTTTTCTATTGCTTTCCCTATACCTATATTGGATGCTACTAAACCAAAAGCATTTTCCAAACCATTAATACCTGAAGGTGCATCACTAAAAATTTCTCTCTTTTCTATATATGAATGAGGAGCATGATCAGTCGCCACAACATCTATAATTCCGTTTTCAAGACCTTCTAAACATTTCACCCTGTCTATTTCTGTTCTTAATGGAGGATTAACTTTAAATTGAGTATCAAATTTATTTATTTCTATTTGATTTTCTGTGTAAGAAATATGATGAGGTGTAACTTCAGAAGTTACGTTTACTCCATTAATTTTTGCTTCATTTACCAAATCAACTGACTCCCCACATGACAAATGTTGAAGATGAATCCATCCCCCTGTTTTCTTAGCAATATTTAAATTTTGTTCTACAGATCTAATTTCAGCTTCTTTTGGTCTTCCAATAAGACCCAGTCTTGTAGAAACAACACCCTCATTCATTACACCATCATCTAAAAATAAATGATCTTCAGGATGATCCATCAAGGGCACTCTACCTGAGAAAACCTTTAAAGCATCTTCTATCATAATAGATTTTTTTAAATGATCTCCATCATCTGAAAAGCCCACAGAACCTTTTTCAATCATAGAATTAAAATCTTTAGAATCTAAAAGAACTTCTCCTTTTCTTTGTTTAGTTAAACAACCTGTATGAAGTAATCTAACAGATAAATCCTTTGATCTGTCTAATTGATCATCAAAGATATCAGGATTATCAATAGGAGGTTCTGTATTTGGCATTAGCACTACTGTAGTAAACCCTCCATTAACAGCAGCATTGGATCCTGATTTTAAATCCTCTTTGTATGTAAAACCTGGATCTCTAAAATGAGCATGTAGATCTACTAATCCAGGAGACATAATATTACCTTTCCCATCTACTTCTAAATAATCTTCATACCGAGAATCAATTTTACTTTTTATTACGTCTTCAATTAAGGAGTTTTTAATAAAAACATCAAAAAAATTATTACTTATTTTAGAATCATCATCTTTTAATCTAATATTTCTTATTACCATTGGAGTTGATTTATTCATTTTGATCACCCAAATATTCTTGAAGAATTGCCATTTTCATAAATAACCCATTATTAACCTGTAATCCAATTAATGATCTAGAATCATTGATCAAACCGATTTCTATTTCTACTCCTTGATTTACAGGACCAGGATGCATTAATTTTGCTTTACCTAAATTTTCCTTATTTATTTGATAATCAGAAATATATCTATTTAAATTCATTTTTTCAGATTCATGCAATCTCTCATTTTGTATCCTTAGAGTCATAATCACATCTGCATTTTTTAATGCTTCATCCAAATTCTCAGTAACTATTTCTCCATAATTAAAATTAAACTTTGGAAGAAATTCTAAAGGTCCACATATGGTTATTTCACATCCCATTTCCAGATAAGATTTTATAGATGATCTAGCAACTCTACTATGCAAAACATCTCCAACAATTGTGATTTTTAAACCTTTAACTTTCCCTAAAGTTTCATTTAAGGTAAACAAATCACCTAATGCTTGAGTAGGATGTTCAAAACTTCCATCTCCAGCATTTATCACAGGAANATCAAGGTTTTTATCAGCAAAATATGAGGCACCACTCTTAGGGTGTCTTAATATTATTCCATCAATAGGCATAGAGTTTAAAGTTTTAATAGTATCCAAAAATGACTCACCTTTCTTAACGGCAGAATAATCTACTTGGATATTGATAATTTGAGCTCCTAATATTTTTCCTGCAATATCAAATGATGTCCTAGTCCTAGTACTGGGTTCAAAAAAAAGAGTAGTAATAATTTTTCCTTCTAAATACTTTGGTATTTGTTTTGTATCTAAGAATGTTTTCTTAAAAAATCCAGCTTTATCGATTAACCTTTGAATATCTTTATTATTTAGATTATCTGTATCTATAAAACTCATTGTGTAACACTACTTTCTTGATTAATAATTACTACTTCATCTACTAAATCTTCCTCTTCCAACAAAACTCTTACCACTTCATCTCTACTTGTAGGAATGTTTTTACCAATAAAATCAGGTCTTATTGGTAATTCTCTATGTCCTCTATCTATTAATACCGCCAATTGTACAGATCTAGGTCTTCCAAAATCCAAAATAGCATTTAAACACGCTCTTGTTGTCCTTCCTGTAAACAGAACATCATCTACCAAAATTATAATTTTATTTTCTAAATTCTCAGATATTTTTGAAAACTTTAAACCTTTTTTATCATNGTAAGAAATATCATCTCGATAATATTTGGGGTCCAGAATTTCGGACTTAACGTTTACAGAATAAAGTTGACTTAAAATTTTTACAATTCTATTAGAAATATGGACTCCACGAGTTGGAATCCCAAGAATTACTAAATTCTCAAAATCATTATTTTTCTCATATATTTCATGAGAAATTCTTATTAAAGCTTTTCTGACTTGATTAGATGTCATTAAAACTTTGGGGAGCAATTCTTTATCTAGAAAAGAATCCATTAAAAAACCTTGCATGGAGCAAGGGAAATTAAAAGTCTATGTTTCAAAACAATCATATTTTATCCTTGCCAGCCTCACTGGACTGGATTAAAGGTTCAAATTAATTCTCAAGAACTCTAGCATCAATCTTATCGTTTAGCAAGATTACGAAATCTATTGAGTGAAAAAGGTGAAACATCTAATTGCAAATCTTTACCCAAAATAATTCTTGAAGCTAAATTACCAATCGCAGGACCCAATTTTATTCCTTTCCTTCCAGCACCTGTGCCAATATATAAATTAGCAATATCAGTTTCTCCTATTATAGGCAAATTATCTGGGGTTACAGGTCTAAGNCAAGCCGTCTGTTTTAAGATTTTCAATTTTCTAATATCAGGGAAAAATTTTTCGACCGTATTCAATATCACTTCTTTACCTTCAGATGTAATTTTATCATCAAAACCAACCTTCTCTTCAGTAGTCCCTACCCATAGTAATCCATCTTCTTTTTGAGTTAAATAATCTTTTCCCCANGAAAANGCCACTTGGAAATCTAAACCTGGGTTTTCAAGCCTTAANATCTGTCCTTTAAGAGGAAATAGAGGAAGGTGAATATCATTTTTCTCTAAAAGAGTAGTACACCATGGACCTGAAGATATTAAAACCACATCAAAATATTGTTTTTCACCATTTACTTCCAATCCCACAACCGATCCATTTTTTACTAAAATATTATCTACTTCTCCTAAAACATATTCTGCTCCCATTTCTTGAGAAGCTTTTAATAAAAGTTCTGATAATTTTAAAGCATTAACTTCCATATAATCTTCATAGTAAACACCACCCAATATTTCATTAGAAACCCTAGAATCAATATTTTGAATTTCTTTAGGTTCTAACCATCTAGTAGAACTAGAAGTAGTATTTGTAAATATTTTTAGTAATGATTTGAAAGATAATTGTTCTTTACGATTGGTAGTCAATAGTACAATGCTTTTCTTTACATATTGAGGATCTAGCAAATTTTTCAAATATGAATCAGCTTTTATTTCTTTATGTAAATTAAATGCAAGTTTATGCAACTTAAAATCAATTGAGAAAGGATTAACATTTGGGTTTAATCCACCTTGTGCAAATCCAGATGCATGTGCAGCTACCCCATCTTTTTCAAATACAACAGGTTTATATCCAAATTTAGATAAATAATAGGCCGCTGAGGACCCTACAATCCCTCCACCAATTACACCTATTTTCATACTTAACTTGACCTTTTAGAGTTATAAAACNTTTCTTTTCCATTAGGATNTTCAGATCTCAAAGTAACACTATTAGTCANTCTTATAGAAAGTTGTTTCATAATTATAAATTCTTATAAATTTTTGAATACATTTTATTCTAACAAATAATACTGATTGTAATATTGTAATAAAATTCAAAGATTTTGCTTGTGTTTTTATCTATAGGAAAACATAATAAACATATAAATTAATTCCAATAAATCGGAGGAAAAATGAAAGAAAAAATAGGTTTTGTTGGACTGGGTATTATGGGAAAGCCAATGGCATCGAATTTATTAGACGCAGAATACTCTGTTAATGCATATGATTTAATTAGCAAAAATCTTGATTCCTTATTAGAGAAAGGCATAGATAGTTCTGCTAGTCCGAAAGAAGTTGCTGAAAATAGTGATGTGATAATAGTTATGGTTCAAAATTCTCCTCAATCTGAGAATGCAATTCTTGGTGAGAACGGAATACTGAATGGTGCTTCTAAAGGGAATTTAATAATTGATATGAGTTCAATTTCTCCTCTTGTTTCACAAAAAATTTCTAATGAATGTGAAAAGAAAGGAGTAGATTTCATTGATGCTCCTGTTTCAGGAGGAGAGCCTGGAGCAATCGAAGGNACTCTAGCTATTATGGTAGGAGGAAACTCTTCTTCTTTCGAAAGAGCTAAACCAGTTTTCGAAATTTTAGGATCCTCTTCAGTNCTCTGTGGAGATATAGGGGCTGGAAATTTTACAAAATTAGCTAATCAAATAATAGTTGGCGCAAATATACATGCTTTATCAGAAGCATTGGTTCTAACAACTAAAGCCGGATTAGATCCTGAAACAGTGTTCAATGCTATTAAAGGAGGTCTTGCAGGTAGTAATGTGATGAATACAAAAGCCCCTATGATGTTCAATAGAAATTTTGATCCGGGTTTTAGGATAGAGTTACACTTAAAAGATATTACTAATGCAATGCAAACGGCTAATGAATTAAATATTCCTTTGCAAGTAACTGCTAACCTTCATCAAGTTCTGACATCATTGGTTTTACATGGAAAGGGAAAGCTTGATCATTCAGGAATATTACAGTTTGTTGAAGATCAATCTAATATTGAAGTCAAAAAATAATAATTAATAATCTAAAGGAATAAAAATGCTTGAAAGATTTCATGTGCCTGATGATATTGCGGTTCGTGTTGATGATAAAAAATTAAAAGTAGTAGTAGAAAAAATTTTCCAAAGTAGAGGAATATCTGAAAAAGATTCTCAAATTGCTTCAGANGTTCTTCTATCTGCTGATATCAAAGGTGTTGATACTCATGGGGTTTCTAACATGTTAAGAAGATATTTACAGTATTTTGATGATGGAATAGCCAAGCCTGACGCAAATTGGAAGATTATTAGAGAAACTGCTTCTTGTGCTACTGTTGATTGTGATAGAGGATTAGGTCTAATTGTAGCTCCTCAATGTATGGATATAGCTATTGAAAAGGCAAAAGATACAGGAGTTGGAATGGTATCTATGGGTAACGGAAGACATTTAGGAATGGCAGGATATCACGCGGCTAAAGCACTTGACCATGACATGATTGGAGTATGCATGACTTCTTCTTCTAGTGGTGTTGTTCCAACATTTGCTTCTAAAGCAGTGCTAGGAACAAACCCTATTGCTTTGGCAGCTCCTGCAAAACATGAAATTCCATTTATATTTGATGCTGCTACTAGTACCATTGCAACCAACAAAATTCGATTAGCACAAAGATTAGGTGTTCAATTAGCACCAGGTTGGGTAGCTGATAAAAATGGAAATCCAGTTATGGAAAATTTTTCCTTAAAAACTACTAATGATCCTGATGAAGAAAGACTACTTCAATTACCATTAGGNGCAACTAGGGAATTAGGCTCTCATAAAGGCTACTCTTTAGGAGTTGTTGTAGACATTTTAGGGTCGATTTTAAATGGAAATTTAGCAGGCCCTCTTAGTAATAATGTTCTTCATCAAAATCATTTCGTTGCAGCATATTCAATTGAAGCATTTATAGACACAAAAACATTTAAAGAACTAATGGATAAATATTTAAAATCTTTGAGAGAATTGCCTCCAGCACCTGGACATGACAGAGTATTATATGCAGGTTTGCCTGAACATGAAGAATCTGAAAAAAGATTGAAAGATGGAATTCCCTTACATCCCGAAGTAATAAGTTGGTTTGAAAATATATGTTCAGAATTAGGAATAGAATTTGATATTATTAAATGATTTTTAAATCCTTTCTTTAAAACTATAAAAAATAATATGGAAAGACATTTTACTTCTACAGTTTTTGTAGTTGATTTACTCAAAAAAGCTATACTTCTACACTGGCATGAAAAAGTTGGTGCATGGCTACCTCCTGGAGGTCATGTAGAAAAAAACGAAGATCCTATACAGACAGCTAAGCGTGAAGTTTTAGAAGAAACAGGATTAAACATAAAAATTGTAGAGAAAAAAAATAAACTCAAATTTAAAGAAGTTACACAATTAGAGCCACCTCATACCATTCTGTTAGAAAAAATTGATGACCCTAAATCAGGTATACATGAACATATAGATATGATTTATATTGGAATAAACATTCAAGATTTAGATACACCCCGAAATTGGCAATGGGTTACAAAAAAACAACTTGAAAAATCTCTTCCTCTTACAAAAACAGATGGTTTGAAACTATCACCTCCTGATGATGTGAAAATATTAGGTATAGAAGCAATAAATTATGTACTAAAAAATCATAATAAAATAACGTAAAATGAATTCATAAAATATTTCTAAGGAGAATTTAATGAGTAATTCTAAAGCACCTAAAAGAGAATTAGGAAAACACAGGAGTTGGGAAACTACTGAAGGAGCAGCAAGAGCTCCACATAGATCTATGATGAAAGCAATGGGTCTTACAGATAAAGACATCAATGCCCCTTTTGTAGGTATTGCATCTACTCATAATGAAGTGACTCCATGTAATGCTGGCATAGGACCATTAGCAGAAGAAGCAAAAAAAGGAGTTTTTGCTGCTAGAGGAACTCCTTTTGTATTTGGAACTATTACCGTTAGTGATGCTATTTCAATGAATACAGTAGGAATGAAAGGTTCATTAGTTAGTAGAGAAGTAATAGCAGATTCTATTGAAACTGTAGTTTTTGCAGAAAGATTCGACGGATTAATTGCAATTGCAGGATGTGACAAAAGCTTGCCAGGATCTATGATGGCTATAGCAAGACTTAATGTCCCTTCTGTTTTTGTTTATGGAGGCTCAATTCTTCCAGGTAGTTACAAAGGAGAAAACATTCAAATCCAGGATGTCTTTGAAGCAGTAGGAAAACATCAAAAAGGTGATATTGATGATGATGAATTATATCAAATTGAATCAAGAGCTTGCCCTGGACCAGGATCTTGTGGAGGAATGTTTACCGCAAATACTATGTCATCAGTTGGGGAAGCTCTAGGTTTGAGTTTACCAGGGTCAGCATCAGAAGCTGCAGTAGATCAAAGGAAATCTGCTTCAAGTCGTGCTGCTGGAGAAGCAGTTCTACATTTACTCAGAGAAAATATAAAACCATCGGACATTCTTACCAAAAAAGCTTTTGAAAATGCTGTAACTGTAGTCACATCTATGGGAGGTTCAACAAATAGTGCTCTCCATCTGCCTGCAATTGCTCAAGAAATGGGTGTAGATTTAACTCTAGATGATATACATGAAATTTCAATGAGAACACCTCATTTAGCTGATATGAAACCTGCTGGAAAATTTTTAATGTATGATTTAGATAAAGTTGGCGGAGTACCATTAGTAATGAAAAGGCTTCTTAACTTAGGATTAATTCATGGAGATTGTATGACAGTAACTGGGAAAACAGTAGCGGAAAATCTAAGTAATATTCCAGACAATGAAGAAGAAAACACCGTTGTCGTAAAAACAGATTCTCCTATTAGTAAAACAGGTGGATTAGTGGTACTGCATGGTAACCTTGCTCCTGATGGTGCTGTATTAAAAGTTGCTGGTCATAATTATGGAAAAAAATGGGCTGGCCCAGCTAGAGTTTTCAATCAAGAAGAAGAATGTATGGAAGCATTAAAAAAACACTCTGTAAAATCTGGAGATTTCGTAGTAATACGGTATGAAGGTCCCAAAGGAGGACCTGGAATGAGAGAAATGCTTTCAGTCACAAGTGCAATAGTAGGACAAGGTTTAGGGGATAAAATCTTTCTTATGACTGATGGAAGATTTTCTGGAGCATCGCATGGACCAATGATAGGTCATGTAGGACCTGAAGCAGCAATTGGAGGACCTATTGCTGCAGTAGAAGATGGTGATCTAATAGAAATAGATCTAGAAAAATTTGAATTAAACATCAAAATAAGTAATGAAGAAATGAAATCTAGATTAAATAATATTGTATTACCAAAACCTCCTTACACTAGTGGTGTATTAGGAAAATATATAAAACTTGTTCAACCAGCATCTAAAGGAGCTTTCACTGGATAGTGATATTTTTTAATCCAATTAAAAATATTATCCAAGTGAAAAAAATTATAGTTGCTGAAATAATAAAAATTACTTGAAATCCAGAAACTCCTAAAATAACAAATCCTATAAAAGGACCAATAGCTGAACCAAAATCAGCCCAAGTATTAAATTTTGATAATTCAATAGATCTAGAAGAATCACCACTTAAGTGTCCAGTAATGGATTCTAGAGATACGTCTGTTCCAACACTGAAGAAAAACAACAATAAAAAAGATAAAATCATCAACTCTAAACTTGAAGTTGAATAAATCAATAGAATACAACCAATAATCATAAAGATCACACACAAATTCACAACAAAATTTCTACCTATTTTGTCAGAAATTTCACCATATATAAAAGACAAAAATAAATCAGCAAACCATCTAAGACCTAAAACGAAACTTCCTAAAGTAATTGCAGTTAACTGGAAACCTATCAAAGTATTATCATTCTCTAATACTTTAGAAACAAATACAGAAGCAGTAGCTAATAATATTCCATTAGCAGTAAATGCAGAAGAAAATCGTAACAATCCTGTTGAAATCAAGTTAAATCTATTATTTTTATTTAAATCTTTTTCATGATTTGTTTTAGATATACTGCTTATCGAAAAATCAGGAATTAAAATTGCTATTAACATCATAAATAATCCAAATAATCCAAAAATAATAAAAGTTATTTCTATATTTGTTATTTGGATTAGTAGCGAACCTAACACAACAGATAATAAACTTCCTCCTCTCAATGAAGCATTTGCAAATCCCAAATAACGAGCCTTTTGATGGTCTGAACCAAACTCAAAAGCTGATAATTGAACCCCCAATCTTTGAAATGAAAAACATACACCCCAAAACAATCTAGCAATTAAAAAAATTATTATATTTTCATTAATTCCATAAGAAATAGTTGTTAAAGATCCAATAAAAATTGAAATAATAAATGGAAATTTGAATCCAAATTTCAAATAATATTTTGATGCTAAAAAGTTAGTAAAAATTCTAACAAATCTGTTAATACTTAATGCTATTCCTATCCAAAATGCTAATTTGAGTCCCCAATAATCTTTAATTCCAAATTCCTCAGGACTTAAAGGAAGTATTAAGTAAATTAATGAATCTCCCAAAACCACACAAGCAAATGGAATGACAGTATATAAAAATTGCTTAGGAAACATTTATATCAGCCAATTAAAGTTTAAAAATTAATTGGAATTCTTTTTTAACCAAGAAAATATTTTAATCTTAGCTTTTTCTTTCTCTTTTGATTTATAGTTTCCATTCCTAAGTTCAGGAGGACTAGAAACATGAGAGTTTTTACCATTAGAATAACCAGAACTAACTAACCTTTTATTCTTAAATTCCTCTCTATTAGGTTTTGGATCAATCCTGTTTCTATTAGAAGATTTAGAAATATTATTGCCGTTCATACTCCTAATAGAAGGCCTTCTAACAGGAGGTTTTTTAGAAGATTTAGAATTAGCATTTTTCGATGTATTTCTGGATACTTTATTTTCTCCTTCTGGCGAAGAATCTTCATCCATAATTTCTTTCTTAGAAAATGATTCCTTAATCTTCTTTATTTCTGTTTTTGTCATCCATAAATTATTGAAATATGATTTATTAAATTTAATTACTAAATCAGAAATTTTTGAAGACTCNGGAGAAATATTCGTGTCAAAACCAGCTATCTCAACATGTTTCCCCAAATCTTTAACAGCTTGTATTGCTGGGTAAAAATCTCCATCTCCACTTACAAGTATTGCAGTATCATATAGATCTTCATAAGCACACTTNAGAAGATCTATGGCTATCATCACATCTACACCTTTTTCAACCATAGCTTGACCTCTTTNCTTGACAATACCTAACCTAACTTCCATATAAGGGGTATCGTAAAGAGAATTCAAGAATCTTTCTTGTTCATCTGATCTGATGTTCTGGCGAATATTATAATAATAAGTTCTAACTAAGCTTCTAGTGCCAGCTAATTTTTCAGAAAATTTCCCGAATCTTAAATCATGTCTAGTTAAATTCTGAGTCATAACATGATAGAGATTACTACCATCTATGAATACCATCACACGATCTTTAGTCTTTTCTTTAGTCTTTTCTTTAGTTTTAACTTTAGTCTTTTCTTGGTTTTTTATTTCTCCACTTTTTCTCACCATATTTTCTCCCCACTACTTCTAGGTTATCAATCATTTTTTCTAGATTTATTAATTTTTTATCATGTAACTCGTAATTACAATTGAATAAGGAAACCTTTTAGTACCAATATTGATTTTATATTATAATAACCCCACTATTTAAAAAATTTTAAGGAAATAAAATGAAATTATCAGTAAATTTTAAACCACCTTGCGCTATGCCAAATGGTCTCCAATGCATCGACAATGAAATTTTCATTATGGATCAACTAACTGATAATGTATTCGTGATTGACCAAAAAGGCAAGATTATTAGGGTAATTAATACAATAACAGAGAATGGATCCGGAATTACTATAGGTGGAGGTTTTCTATGGACAGCATCTAATGGAAGAACAAAGGCACGTGAATATAGGTCAACAGATACTCACATCAGCTGGATTTATAAACTTGACCTTGATTCTGGTGAAATGATAGATAGATTTCCAACACCTGATGGTGGCGGAATTCATGGAATAGAATGGGATGACGGAAAGATATGGATTACTGCTTTTAATCCCAAAGCATTAATACTAGTAGATGCAAATAATTTTAAAGAAATAAAAAAAATCCCAATTAATCAAGAGGTAGCCCATGGTTTAGCTAGAGTAGAAGATGGGATTTGGTGTGCTGATAGGAGAGCGAAAGAAATAATCAAATATGATGTGGATAACGGAGATGAACTAGAAAAAATCAAATTTCCTAAAGATGGACCAGATCCACATGGATTATCTATAGATAACAATGGAACTCTTTGGTATTGCGATGCGGTACATCCTCCTCCAACAACAAGAGATTTCCCTGAAATCGGAACTATACAAAAGTGAAACCTTATTTCATCTATGATACTCATCAACATTTTTGGGATTTTAAACTTAGAGATTATGATTGGATTGAAAAAGGTAGCATNTTAGANAAAAACTATCTCCCAGAAAATTTAAAACCTAACATAGATCAAGTAGAAATAGATAAAGTAGTATCTGTTCAAGCACATCAATCATTAGAAGATACTTTTTGGTTACTTGATTTAGCTGAGAAAAATGATTTCATTGCTGGTGTAGTAGGTTGGGTTGATCTAACAAGCAAAGATCTAAATAAACATTTAGATAAACTTCAAAAAAATTCTTTTTTTAAAGGTGTAAGACATGTGTGGCATGATGAAACTGAAGAAAACTGGATAGTTCAAGAATCCGTTTTAAATGGAATAAAAGAATTATCAAATAGAGGGATTCCCTTCGATTTTTTAGCTAGACCAAATCATTTACCTTATATACCTAAGGTTTTTGAAAANGCTCCAAATTTAAAAGGNNTCCTAGACCATATAGGNAAACCTTTGATTGCAGAAGGAATATTCNANCCTTGGNNNAAACTAATTTCAGAAATATCNACAATTCCTAATTTATTCTGCAAAATATCAGGAATGATNACTGAGGCAAGTGAGAAATGGGAAGNTAATGATTTCAACAAATATGTCTATCATGTTTTTAAAGAATTTGGAGAGGATAGAGTCATGTTTGGTAGTGACTGGCCTGTTTGTCTTTTAGCAGGAGAATATAAACAAGTCTTTGAATTACCACAAAAAGTATTAGAAAAAGATCTTAATGAAAACGTAAAGAGAAAGTTCCTCTCTGATAATGCGAAAAAATTCTATTCTTTGTAGTAGTTAAATCAAATATCTGTTCTGCTATCCACGACCTATATAAGGCATCTTTGTAGCCATAATAGTTACGAATTGAACATTAGTATCTAAAGGTAAATTAGACATATAAAGCACTGTTTCCCCTACATGTTTTACGTCATAAGTAGGTTCTACTTTCATTGAACCATCAGCTTGAGCTGTACCTGAAGACATCCTTTCTGTCATATTAGTAGAAGCATTACCAATATCAATTTGACCACANGCNATATTNTATTTTCTACCATCTAAAGAAATAGATTTAGTTAANCCTGAAACTCCATGTTTAGTTGCAGTATAAGGTGCAGAATCTGGTCTAGGAGTATAAGCAGAAATTGAACCATTGTTAATAATTCTACCTCCCATAGGATCTTGAGATTTCATAATCTTAATAGCTTCCTGAGAACATAAAAACGTACCTGTAAGGTTAGAATCNACAACAGTTTGCCATTGNTCATAAGTAAGATCTTCAATAAGAATTTTNGGAGCNCCACCTCCAGCATTATTAAAAAGTACATCTAGCCTACCAAACTCCTCAAGAGTTTTAGAAAAAAGATTTTTTACAGATTCAGGATTACCGACATCGGTTTGTACTCCCAACATTTTCAAGCCTTCATTAGTTGCTTCTTTTACTGTTTCATTTAAAACTTCTTCTCTTCTTCCAGCTATGGCAACAGAATAACCATCTTTAGCTAGAGCAAAAGCAGATTCTTTACCAATTCCAGATCCTCCTCCTGTTACTATTGCAACTCTTCCTTCTGATTTAGCCATCTTAACTCTCCTCTAATACTATTTAATTATCCCTATTAGAAATATTTCACAATTTTATATATGCAATTAAATCAATGTTTGACAAAAAATACTATTGATAATTTTTTAAAAGTTCATAAAAAGCTATACCTGCAGCCACTGAAGCATTAAGAGAATCTACAGGACCTTTTATAGGTATTTTGGCAGTGGTATCACAATTTTTCAATACCAATTCTGATATTCCTTTACCTTCAGAACCTACAACAATTACAGATGGAAAATTTACCTTAACTGAATTTATTTCATTATTAGAATTATGATCCAACCCTATTACCCAAAAACCCAGTTCTTTAAATTTTGATAATGAAGAATTTATATTAGAAACTCTTACAATTTTTAAATGTTCAATTGCACCTGCAGATGATCTAAGTGATCCGGGAGAAATTCCAGCACTATTTCTTTTAGGTAACACTAATGCAAAAACTCCCATTGCAAGGGCAGTTCTTGATATAGCTCCAATATTGTGAGGATCTTGTATCCCATCTAAAACAACTACAATTCTTTGATTATTCTCTTCAAGATCATCCCAAAGTTTTTTTTCAGTATAGTAACCAGGAGAAGTTGTAGTTGCTATTACACCTTGATGCTTTTTAGTGTGACTGACCTTATCAAGTTGATTTTTCGTAACAAAATCTACATTTATATCTAATTTTTTCGCAATTTTTAAGATTTTTTCTATTTGAGAGCCTATTTTTTCATAATCTGAAATAAGAAGTTTTTCAATCCTTGAAGGATTTTTCAATGCTTCTAAAACGGAACGTCTTCCCTCTATTTGAAAATCTCTATTTATTTTTTTATTACGACTAGGCATATATTCATATTAAAAAGTATAATCAAAGAATTATCAAAATATATCTACATTACAAGAAAAATGAACTCAGAAGAAAAAGCTTTAATTGTTCAAGAGGCAATAGAAAACAGAAGAACTTATAGAAAATTCTTAGATGAAATAGTCCCATCTAAATTAATGAGTACTATTTTAGAATCTGCAAAATGGTCTCCAAATCATAGAAAAACTGAACCTTGGAGATTTATATCAATAAGTAAATCCTCAAAAAAAAGAATTTTGATTTCTGATGCAGTTAAAAAACTTTCAATAGAAACTTCAAAAAACCCAAACCCTAAAACTAAATTAAATTCAGCAGAAAAATCAAAGCTAGAAATCTTAGAAAGTCCTGAATTAATTTATGCTTTTTCTTTACCCGGGGATTCAAATGAAATTACTCAAGAAAATTATGCTTCTACATGTATCTCAATTCAAAACATGGCTCTAGTCAGTTACTTTTTTGATATTTCTATAAGTTGGTCAACTGGCAAGCCTACAAAAATCTCAAATCTCAACAAAATACTTGAAGTTCCTAATGAATGGAATATTGTTGGTGCTCTTTATATTGGGTTTTCAGAAAAACCTATGAATCAAATAAAAGTTTCACGTGAAAATCATTCTGAATATACAACATGGTATTAAAATTAATCAGTAACTACTACTTCGGAATAATCATGCCTCTTAGAGATCGTTTTATTGAAACTGAAAACATCTAAACTAGCTTCATATGTTTCTCTAGAAATATTTGTCTCTAAAGACCAACAACCAAGATCTCTATAAGTTTGCAATGTGGTTTTGATTACTTCAAATGAAATTTCATCAAAAAATGAACTTATTTTTTTTGCTACTAAATCTAAATTCTCTGTAAGTACCCATTTTTTAGCTTTTTTAAATGCGTCTAAAAATATTAAGTATTCATTTTTATCTCTAAATTCTTTGGTACAACATATGCTACTAAATGCTACAGGACCTATAGTTTCACCTACTGAAAAAACAATTTCCCCATATCCCTCTAAAGCTAATTGCTGTGGATATGGACCTTGAAGATGAATAAAATCAGCATTACCTTGTTTGAATAATTCAATACTTGAATCTAAAGATTCTGCTTGAATCCAATTAATTTTATCTATATCAACATCTTCCTTATTCAAAGCAAATCTCAGCATGTCAAAAGGTTGTGCTCCTAATTGAGCAATCAAAGAACAGTTTTCTAAATTTTTCCAAGATGTTATACCAGATACTTCTTTAGATAATATAAAAAATCCATCTCTCTGATTAATTTCTGCAAAATGAATGATATTTGTATTTTTATTCTGTTCCATAAAAGACCAATTTGCAGATACTGCAGCTTGTGCTACATCTACTTCTCCAGATAGAAGATAAGTAGAAACTGTTTGGTTTTCAGGAACAATAGAATAATTTGCTTCATATCCATGTTCTTTCAAAAAACCTCCAGCAATAACCCCAATAAGTGGAGAATAAAAAACTGAATGTTTAGATACCATAATATTTAAATGTTTCATTTCATTCCCCTAATCCCCTAACAAACATATTAATTCTTTACATGTAAATTAGTCTTATGATCATCCTCAAATGGATTGTTACCTTTTCCTGAAGCATTGGATAATTTTCCATCTTTAAAATCTTGTTTAGTACGATCCCAAGCATTTTTTAAATCTTTTGTGTGTCCTCTAAAATGAGGCATAACATATCTAGCAAATAACTCTGCGGAATATTTACTCTTTTTATCACTTGCCCATTCATGAGTAGTAATCATCATTCCTCCTATCCCTCCAGCTTCTTGGTCAAGTTTTTCTATCGCTTCAATAGCATCATCAGGAGTTCCTATAATCCAAGATCTCTGATTAGCGACGGAAGCTACTGTTATATCTTGTTCTTCTTGATCAGGAAATGATTTATAACCTTCTCTAGCAGTTTCTGAAATATTAAAAAAATACTCGTGAATATCTCTATAAGCTCCTGATTCTATATCAGCCCATGCTTGTTCTTTTGAATCAGATAAATAAACATAAGTAACCAATTCCCAATTTTTTCTATCAATCTTTTTTCCTGATTTTTTTGCTGCTTCAGACATTACTTTCCATTGATTAGAAATAGGCACAGAATATGGACCTGGAGGGTGAGCCAAAGAAAGTGGCACTAAACCTTTTCTTCCTGCAAATTCTAACGAACTTTTTGATCCAGAACATGCTATAGCTATAGGTATTTTTGGTTGATATGATTTTAATTGTAAGTACATATCATTAATATCCCAATATTTCCCTTCATAACTTACAGGTTCATCATTTTCTAGTAATTTTGTGATAATTTCCAAAGATTCTTCCATCATAGGTTGCAAATCTTGATATGGAATCTGAAAAAGTTTAATGTCTGTTGGTAAACTACATCTTCCTATTCCAAAAATTGCTCTACCTTCTGTTAAATGATCGAGAAACGCAATTCTTTCAGCTACATGAAAAGGATGGTGGAAAGGAAGACTTATCATTGAAGTTCCTAATTTTATTCTAGATGTTCTTTGACTTGCAGCTGCCAAAAACATTTCGGGGGATGGAATTGTTTCCCATCCTGCAGAATGATGTTCTCCAACCCAAAATTCATCGAAACCTAAATCTTCTGCATAACTAATCCAATCTAAATCTCTTTTAAAAGATAGAGAAGGATTTTCTATAGGAATATGCAAAGGCATCATAAAAAATGAAAATTTCAACTTATCTCCAGGTATTGAATAACATAATTGAAAAGTATATATCTGTTGGAAAAAGAAATCACTATGGCACAGATAATTGGAAAAATTACACCTAATTATATTAAAATTTAATTGAGATACTGATAGGATAATTTTGTATCAACTTTTAAAAGATCCATGTTAATTAAAAGAAAAATAAAAATAAATTACTACTTATACATTTTTTTATCTACTGTAATCTTTTTGCTTATTTTTTCTGGATGCAGTACTACAGCAGGAACTCAAAAAGATCCAATTTATATACTTAATGAAGATGGGAATGCTGAAATTTATATTTCTTCAACTGATGGAGAATCAGAAAAAAGACTTACTAATTCAGATGGAAATGAATATTCTCCTAAATGGTCACCAGATGGAAAAAAAATAGCATTTATTTCTGATCGTAATGAAAAGCTTCAATTATGGGTAATGGATCCAAAAGGTGAAAACGAACAATTACTAGTTGATCTTATAGGAGAAAATGAACAATCTTTAGTCGATCTACAAAACCCTGATAAATCAATTATTAAAAAGCCCCCTGATTTCTTTTGGGCTCCAGACTCTGAAAGAATTTCCTATGTTTCTTTTTTTAATAATCAAATTGACTTAAGAGTGATTGATCTTACGACTAAAACAGTTCTCCCAGTAACAAAAAGTATTGCAACTGAAGAATTAGGCAATTGGTCTTCTGACGGAGAGTGGATAGTTTTCACAGTAAAATCAGGTGGTGAAAAACTTGGTATTTTTAAGAAAAACCCTCTAGGAGTTGATGAGATAGAATTATCAACTGATATTGGTTCTCAACCAAGATGGTGCCCTAAAGGAATTAAAATCGCATTTATATCTAAAAGAGATGGTCATGAAGAAATATACACCATGGATAAAAATGGAGAAAATGAAGAAAACATCTCTACAAATGATTCAATAGACATTGACTTTAGTTGGTCTCCTGATGGAAAAAGATTAACTTTTATTTCTGAAAGAGATGATAATCCCGAAGTTTATATCACTACAGTAGATGGTTTAGAAAAAGTTAGATTAACAAGTAATTCTGCTTCAGAATCAAATCCTGTATGGTCTGGTGATAGAATACTATTTCTTTCTAATTCAGATGGAGATAATGACTTGTATTCTATGAAACCAGATGGAACAGATCAATTAAGAATCACCTCAACTGATGGGGAAGAATCAGAACCTAATTGGTAGTATTTTAATCAAGAAAAATTTCATCTAATTCATTAGAAAATGTTATTTTACCGGGAAAAATTTTCTTCATTTCTTTCAAACTTTTTCTTTGCTCTGATTTCTGATTAATATTTGGGCCCATATGAGTTAGAACTAGATGTTTCACATTTGCTTTAGAAGCCATCATAGCTGCACCTAAAGTTCCACACTGTCCTTCATTTTCACCTATTTCATTCATTATTTCTTGATCATCCCAACACATACATATCATTACGTCTGCCTTATAAGATAATTCAATTACATCTTCACATGGAGAAGTGTCTCCAGTATATACAACACTGCTGTTTTTATAATCCAGTCTATATGCTAATGAATCTAAATATGGCTGTACATGTTTCCCTTCACGAGAATGAACCTCGAATTTATCAAATACTTGAGTAGATCCTGGTTTAATATCTTTAGATAAAATACTTGGGGGAGTTCTTGGAAGAACTCCTCCCCTATTTTCATAAACTTTTTGGCTCAAAGGGTGATTAACTCTTGCTTTCCAATCATAGGAAAACACTCCATCTGGCCCTATCAATTGTTCAGTTATTTTTTCTGTAAGATTTGGGCCAAACACTTTAAGTTTTTCTTCTTTTCCAGCTCCTTGATCCCATCTTGAAAGTAGAAAACAAGGATAATCAACATTGTGATCGAAATGATGGTGAGAAAAGAATAATGAGTTTACTTGAGTAGGTAAAATTCCTTTCTTAATTAGTTTATGAGTAGTAGCTGGACCACAATCAAACATTACAAGTTCATTTTCTATTGATAAAACAATTGAAGATCCAAACCTTTCTTTTGTAGGAGTAGGTGTACCTGCTCCTAATACAAATAATTTATTCATTTTAACCTCATGATATAAATAATTTAAAATCCCTATTACACTAGAATATAAGAAAACTATACTTTTTATTATTTATAGAATGTCAAAAAATTTACTTGAAATAAAAAACCTTCAAATCTCATTTAGAACCTCTTCTGAAAAAAACAATATTATTAAAGCTGTATCTAAAATAAATTTAGATATTCCATCAGGAAAAACTATAGGGTTAGTTGGTGAGAGTGGATCTGGAAAAAGTGTAACTGCATTAGCAATAATGGGTTTATTGCCTAAAGATATTTGCGAAATATCAGGGGAAATAAATTACTTGGGGAGAAATCTATTAAAACTAACAAATTCTGAATTAAGTATTCTCAGAGGAAAAGAGATATCTATGGTATTTCAAGAACCTATGACTTCCTTAAACCCAGTTTTGAATATTGGGAAACAAATAGAAGAAATATTAGAAAAACATCTTTCTCTAACAAATAATCAACTAAAAAATAAAACTGTTTCCCTTTTAGAAATGGTTAGAATAGCTGATCCTGAATCAAGAACTAAGAACTATCCACATCAATTTAGTGGAGGACAAAGACAAAGAATCATGATAGCTATGGCTTTAGCTTGTAACCCTAAGTTACTTATTGCTGATGAAGCCACAACTGCTCTTGATGTAACTATTCAATTACAAATACTTGAGTTAATCAAAGATCTAACAACTTCAATGGGGACTACATTACTTATGATTACACACAATCTAGGGATAATTGCTAGATATGCTAACCAAGTCAATGTCATGAAAGAAGGGAAAATAGTAGAAAAAGGATCAGCATTAGAAATATATTCTTCTCCAAGTCATTTTTATACAAAAAATCTACTTAACTCAGTTCCAATCATTGATGTTAAAAACAAAAATATAAATAGCAAAACCATAGATAATTCTAATAAAAACCCTCTGATTTCAATAAAAAATTTAAATGTGGAATTCCAATTAAAAAATAATCATTTCTTTTCTAAATCATCAAGCACTATAAAAGCAGTAAAAGATGTTTCATTAGAAATATTCAAAGGAGAAACATTTGGACTAGTAGGTGAATCTGGGTCAGGAAAAACTACCATAGGAAAATCTATAGTCAATCTGGTTCAACCTAAATCAGGAATGATATTGTTAAAAGAAAATAAAAGTGAAAAATTTTCTCAAAATATAAAAACTATAAGAAAAAACGTTGGAATGGTCTTTCAAGATCCTTATGGATCTTTAAATCCTAGAATGAGAATAAAAGAGATTATTCTCGAACCAATTAGAGTTCATAATCCTAAATCCGATAATGAAAACAACGTTGTAATATCTTTGCTACAAAAAGTAGGGTTACATAGTTCAATGATGTATAGATATCCTCACGAGTTTAGTGGAGGACAGAGACAAAGAATATGTATTGCAAGAGCGTTAGCTCATAATCCTTCTCTATTAATTTTAGATGAGCCATTATCAGCACTAGATGTATCTATACAATCTCAAATAGTTGATTTATTAAAAAATTTACAAAAAGAATCAGATATATCTTATCTTTTCATATCACATGATCTTGCTACCGTTCAAAATTTAAGTCATAGAGTAGCAGTAATGTACTTAGGAAAATTAATCGAATATGGATCAAAAGATTCAATTTATTCGAATCCATTACATCCTTATACTCAAGCACTCTTAGATTCTGTTCCAATTCCAGACCCATCTATAGAAACAAAAACAAATAGAACAATTATTCAAGGTGAGATTCCAAGTGCTACAAATCCTCCATCTGGATGTGTATTCAGAACCAGATGTCCTAAGCCCACTGATGATTGCAAAGAAGGAACTTCAGAAATGGGTTTGATTGAAATAGAAAATGAACATTGGGTAGATCAGTGTTGTGTAAATTGTAAATAATTAACTATCCGTAATATTTTTTATTTCTTCAACACAAATTTTTTCTACAATTTCAGCTGATCCCGCTGCAAAAGGAGTATTATTTGGCTCATAACCTCCTTCCTCATAAGCATCTATAAGAGGTAAATATCCAAATGATCCATTAGAATATCCTGAAAATAATATTTGTATCCCATTTACATTAGTACCTTTAATGCCAATTCCTGTTTCTGCAAAAGGTTCAACAGGAATACTTTGCAAAATCACATCTCCTACTCTAAAAGTTTGAATCCATAATTCAATTTTTCCTGATTGAGCAATATTGGAAAGATTTTTTATAAAATTAGCCCTCTTTGTTTCAGAGACTATAGATTTTACAAGAGATTCATCTCCTGATTCTCTAGCATTATAAAGTTTTTCTAGAGATTTTTGATATAACTCTTCAGCTTTTATTACATCTGGAAACTCAAGAGAATCTAAATGAATTTTTTTATTCCTAATATTTATAACATCACTAGGTTCACCTAATGATACGTCTTCATACATTCCGAGATCTGCACCTGAAGGTACTATATCAATCAATTTTTCTTCTCTCTTAAATGGATCCAATTGAGTTCGAAGCTTAGAAGCCTCTAATCCCAAAATCTTCCCAGCTTTTCTAGCAATTTCAACATCTCCTAAAAATGTATGCACTGGGCCTTGATTACCAGCAGCTCCTTGAAGAAATAAACATAAACCACCAATATTTTGTTCTACTGAAAATCGCATATGACCAGGGTAATCAGGAGAGATTAATTTATTTTCTGGACCTAAAATTGTAGGGTGGCAAGCATAATCTACGATAGTAGCTATAGGTTTACCATCTACGTCATCAAATCCTATTACAATTACTTCTCTATCTACTACACCTTCCCAATTTCTCCCAGTAAAAAAATTCCCTTTATTATCTGCAGGTCTTCTATTGATATTTATATCACAATGACCTTTTTTAACTCCTATTCTAGCGGGAATAGCATTTTTCACAGAATCATTTACTGATCTTAATATCAACTCGGGTAAAAGAATTTTATAAGATTCAAGATATTCTTTTCCTCCCTCAAGCCATACTCCATCTCCTAAAGCAGGACCTGCATGTGTATGAGAAACTGAAATTCTAATATTTTCCTTCTTTATTGGAAAAAAACTAGTAATCTTATTTCTTATTTGATTATCAAGATCACTAGTAAGGATACATAAGTCTAAATCAATAATTATTATTTCTTCTTCAGTGCTCTCTGATTTCAAATATAAAGAAGTACTATATAAAGGCATATCTATTCCCTCCGCCTTTTCATGTAGAGCAGCACCCCAGCCCGCATGTGATATTCCAATAGGTGGAGTAATATCTACTCTTGCTACACCTGTGAGAATCATAATAACCTTTCTTACTATATTATTTTTAATATCTAGTAATATTAAACATATTTATTTTTAAATGAATCATACAAAGTATATGTAATTACTATAAATAACCCCAATAAAGATAATGATACAGTAAAAAATATTAACCCATCAAACCCCCATCTATCGAAAAAAAGTCCTGCTAAAACAGGAGCGATTGCTCCAGCAATAGAACCTCCTGTAAACAAAAATGCTATAGAACTCCCTTCATTCATTTTTCCTGCAGTATCCATTGCATAAGCTGAAATAATCGGCACAATTGAAAAAAGAACTGAACCTAAAATAAATAGCATAACTATTAAAGAAATCCCTGAATTTAAAAATAAAATCATAGCTATCAATAAACTTGTCATTGCAAAACCAAAAATTATTATCGGTAATCTCCCAATTTTGTCAGAAAGAAAACCAAGTACTGGAGTAAAAACTATTCCAGCTATAGTCAATAATGCAAGATGAATTCCAATTAAAAATGAAGAATATGACAAATATTCTTTCAAGTATATAGCTAAATACACTAAAAATGACTGATGTGTTGCTCCCCTAAGAGCATGTAGTAAAACCATAACTAGAACACCTGTCTTTTTTAAAGAACCTAATACATTTTGAAAATAATTTGAAAAATTTACATTTTCAATTTCAGGATTCATTAGTTTTTTACTCTTTAATAATAAGAATAAAGAAATTAAGAAACATGGAATAAAATTAATAAAACATATACTTTTCCAACCTAAACCACCCCAATTAAATGCTCCTAAACTTATTCCTCCTAATAATAAACCTCCTAATAATGGACCCAAACTATTACCAGCAGATGCGCCTGAAATATGTACGCCTAAAGCATAAGCTTTTCTGTCTGGATATCTATTTGAAAGTATAGAAAATGCAGGTGCATGCCATAAAGAAGCTCCAATAGACATTAAAGAAGCTCCTAAAAGAATAAAAATATAATAATTAGCAATACTTAAAAAAAGAAACCCTATAGAAACAAAAAACATACTCGCAGCTAGCATCAGACCTAGTGTTTTTCTAAAAGTATCTGTAATAATTCCCGCAGGAATATTTGAAAGTCCAGAAAACACTTGCTGTACTCCGACTAATATGCCTACTTGAATATTGCTTAAAAACATACCCTCCTTAATATAAGGAATAAGTATTGAGAAGGAACTATTAAAAATATGTTTTAAAGAATGAGATAAAGATAAAGTGTAAATCAATAAATCAGACTTAGGAAATGATTTTGAAAAAACTTTTAAAAACAAAATTCTTTAGTCTGGGAGTAGACCTCTTAATTCATTTGCAACTGGAGAAGGATCACTTATCTCTTCCATTTTAATAGTCATCCTAGCTCCTATACCACTTGATACAACAACACTACCTCTTCCAGTAATTATTTCGAAAAAGCTTCTAGCTTCCTGAATTGAAATAATTCTTCCTACAGGTATTTCATTTGTGTATAACCATAAGAATTTATACATATGAATTATTCTTCTATCAGTGACCAAATAAGTAATACATAAATTTCTCAAATATCTTGTAACACCTTTGAAAAATAACCATAACCCAATTAATCCAACTACAAATGCATAAACATAAGGTGATTGAGTTCCTAACGCTAGATATGCTGCGGCTCCAAAGAATGGAACAGAAATAGCCATTCTGGTGTAAGCAGGCCTCATAGTAGGATGACGTAATATTAATTCTTTTTCACCTTCAACTAACATTGGCATAGGGAATGAAGCCACGAAACTTAAAAGAAAACCTACAGTTAAAAGAAATCCACCAATTCCTAGACAGATTCCAGAAGCATATACTGGAATTGCATCAGGATTAAGTAAAAATCCGTATATACCGAAACCTAGAAAAGGCAATGAAACAACAAGGTTAATAAGAAGTTTTCTAATAAATGTAAGAATACCTTTAAGTTCAGTCATTTCTATTTAACCTCTTCGTATTATTTATTTCTTTTAATATAACAATCATAATGCTTGTTGCCAAGCTTACATTTTAATTATTTACCTCTAGCCATCTGCAATAGAGTAGCTCCTACTGTAACAACTAAACCAGCCATAGCTAACATAGTAGGATCCTGCATCATTTCTTCAGGACCACCAGTCTTAAGGGCTCCCACTTTAGGNTTACCAAAGAATCCTCTTTCATCATCTCCATATACTTCTTGACCAAATAACTCTGGTACGCCTTCACAACCATTGTTGGTCAATCTTTCATATTCTTCTGACCTTGGATCTCTAAAATTAAATTGCTCTACTACAGGCTGACCAAGAGTTTTAACCATACAATTATACTGTTCTTCAGAAGCTCCTCTAACATAAAAATCCGGACCACTTGGACCATCAGGACCAGGGCCAGTACCACCTCTAGCTGCAGCTTCTTCTCTCATCATTCTCCTCTGCTCTTCCATCATCCTAGCCTGCTGCTCCATCCTTTCTTGCTCATCTTCCCTTTCTCTCTCTCTCCTCTCTTCTTCCATACGAATCTGCTCTTCTCTCATCTCTCGCTCCATCTCCATCTCTTCCCTTCTTTGCTCTAANTCTCGCATCCTTCTTTCATCTTCCATAGANANTCTATCCTGTTCAGATTTAAGCTCTAATGCTCTCCTCTCTTCTTCCATTTTGAAACGCTGTTCGTCTTCTTGCTGTCTTCTTTCTCTTTCTTGATCCTGTCTTCTTCGATCTTCTTCTTCTCTTTGTCTGTCACGCTCACGCTGTTCTTCTTCCATTTTTCTCTGTTCATCCATCATCCTACGCTGCATTTCTTCCTGTTCCTGCATCATCTTTCTACCTTCGTCCATCATCCTATTGTCCATATTGTTTCCACCACCTCTGTTATTACCACCAGGAACCATATCTCTCATCCTATCCATCATGCCTCCACCACCACCAGGTGGTCGGTTACCTCCTCCTCCCATTCCCATGAAACCACCACCAGGTCCTCCATGACTACCCCATGGACCCCAATCCATATCTTTTATTCTACCCCTATGTTCACGAACATCAATCATGCTGGGGTTATCTCTATCATAAAAATTAAAAGCCATTATTTCGCCTTTCTTAGTAACAAATCCTATTGTCTCAGGTGATAATCCAAAACTAGCACTAATTACAGNAATATTTCTAGGATTCTGATCTTTAGTTTTAAGTAAAGGCCCTCTATTTCCACCATCTAAACCTGACCACATTAGTCCCGGTTTGTTTTTCTCTTTATAAATTAAAGCAGGCCCTCTACTGTTAGGAAAAATATCGTCTCCTGGATACCACAAAGGCATTACTTGTTCTCCACCGCCTGAAGCAGGAGTTCTAAATTCCTGTCCCATATTATCATCAAAAGCCCATATGTCCCCATCTCTAACATAAGCTATCATGCTTGCATAATTGTATCTTCCCCAAGCTGGATTTGTTTCATTTTGAGGTGAGTTGGTAATTTCCATATCTGGAGATGTGCCTCCGTCCCATTCAGGTCCAAATGCATCTTTCCACATAATATCCCAATTTCCATATTTATCGGATTGATATGCAATTCTATCCCAATCAGACCAATCAGGATTTGTTTCATTATGAGGTGAATGAGTAAGGTTCCATCGATGTTCAGTATCTATTTCCATAACAGTGATATTCCAATCACCTTCATTATTTTGAGCATACGCAACAAAATTACCATCTGGTGAAATAGAAGGATTAATTTCATCACCAGGTTCATGAGTAATTTCATGTAAATCTCCACCACCAGCATCTGCAACATACAAATTGTAATTATTACCACGAGCATTTGAAGAAAACACTATCCTACCGTCATAATTGGGCCTATTNAGGAATGCAGGTTCAAAATTAGTTAATTTATCATCGTTAGCTTTTACTACAATGGAATTGAAACTTCCATGAGAAGACAAGAAAATAAATAAAAGTACTATTAAGAAAAATTTATTTTTTAACATAACTAATAACTACAACTAATTTATCAATATTAATATCTTAACTTTTTAATTTTTTCAACTATCAATTNCTCTTCTTTGGTCCAATAAATCGAAAGCAATATCAAAATCACCAGGTAACATTCCTAATCCACCTGCTGGTAATATTCTATAAATATCTACAACTACACCTGTAACAGTAGAACCTTTTAATAACCCATCAACTCCTTCTCTTGCAGCACTAGCTGCAAACGTTCTAGCCATTTGTTTCAAAACATCTTCACTATAAACTTTATCTCCATCCTCTACTACATAAGCATACCTAGCACCAGCACCTACAACAGCTCCAATGATTATCACACCAGCTACAATTCCCAATGCAACACCTCCAACCTTATCTACCCATCCAAGCAATACTACTTTTAATCCAGCTTTAATGCCTTTAGCCAACATTCTGGCAAGTATAAATACAACTACATATATAGCTACATAAGCAATCGCTGTACTCAAAGCTTCACCTTCAACACTATTGGAAATAAGACTTACTAATCTTTCTGAAAATTGTCCACTGATTATACTCGCTACGAATAAGGCAATAACTGTAAGAACCCCTGTTATTAATCCGGATTTATAACCCCAAAATCCACCTACAGCAAATAAAATAATTAAAATCCAATCTAAACCATTCATAATCTTATTTCTCCAATTTAGGCTTTATTTGTTTAAAAGTTTACACTTTTGTTTATAAAAGAACTATATGTACATACAAAAAATAATACAAAATTCAAAAACAATTTTATTTATTTTTGAGTATATAAAACTCCCAGAATTCTAAAAAGGGGTAATTTTGATGGTCGGGGCGAGAGGATTCGAACCTCTGACCTCCTGCTCCCAAAGCAGGCGCGCTGCCAAGCTGCGCCACGCCCCGATGAATCTAAATAATAATCAACAATACTATTGATTGTCTATCTATTTTCTTAGATCATTAACAATTTTTTCACATGACTGCATGTAAATAGTGGCGTCTGTATTTATTGATAAATACTGAACTCCAATATCTATTAACCATTTACCCATTTCTACATCTTTGGCATAAGAACCAACATATCTACCCAAAGATCTAGCTTTGTCTGTTGCCTCTCTTATAGCTTTTTCAACTTTGGGATCTGTTACTTGGCCAGGAATTCCAAGACTTTGAGATATATCATAAGGGCCTAAAAATAAAACATCAATTCCATCTACTGACATTATTTCATCTAGATTGTTTAAACCTCTTTGTCCTTCAATGTGAACTATTACTAGAGTATTATCATTCTGGTTATCTGTATGATCTTTGCCAGCATGTTTAAAGTATTCACCAGCTCTAGTAAAAATAGATAAGCCTCTATGTCCTATCGGAGAATATTTTGCAGATTGAACTACATCCTCAGCATCAGATTTTTGATTTATTTGAGGTACCTGAACTCCTGATGANCCTACATCNAATGCTCTTAAAATTAACCTTTCATTATTTTCTCCTACTCTTACGATAGGAGATACTNCTGTTCCATCTGCAGCAATACATAAATCTGTAATCGTTTGCATATCCATAGGACCATGCTCTGTATCCAATATACAAAAATCCATTCCAGAGTAACCTAAGGTATCTATCATTGTCATAGATGGAACAATACAAAAAGGACCTATAACAGTTTCTCCACTTTCTAATTTTCCCTTAAGCAAGTTTTGCTTAACCATTTTGCCTCCAATTATTAAAAACAGATTACGAATATAGATATAAAGTAATAAAATACAACTTTAACGATTATATATGTTTAAACAAACAACAATCAAAAAATATATTAGAAATTGAAGATGAAGGCGAATAATAAAATAGTGTTTTTGGGCACAGGCTCTTCTGATGGAATTCCCAGAGTAAGTTGTCTAACAAAAACAAATGATATTTGTGAAACATGTGTTTCTTCCATAAAACCTAACTCTTTAAATAGAAGAAGAAATACTTCTCTACTAATTCAAAATTATTTCCAAAATAAAATTCATAACACCGTTATAGATATTGGAAAAACTTTTTGGGAAGGTGCAATCCAATGGTTCCCAAAACACAATGTAAGAAAATTAGATGGAGTAATTATAACTCACTCACATGCTGATGCAGTGGGAGGATTCGATCATCTTAGAGACTGGACCAATTGGATTCAAGATCAAGTAAAAATTTTTATTAGAAAAGATGATTTAGAAATGGTTAAAAAGATGTTCTTTTATATCTTCGACAATAATCCTCCTTCCAAATATGCAATTCCACAACTAGATTTCGAATTAATTGATAAAAATAACTCATTTACTATAAGTAATATTANCTACGAACCAATTCCTGTTTTTCACGGTAATAACTATATTACTTTTGGCTATAAGTTTTGGAATATTGCTTATATTCCTGACATTTCTGGTATACCTGAAGAATCTGAAAAATTATTTAAAAATTTAGATATNCTCATCATTGATGCCCTTAGACCTCAAGGTTTNCACAGGTCTCATTTCACACTAGAACAATCATTAGAAGTAGTAAGAAAATATAAACCTAAAAAAACTTTTCTTACTGATATTACCTGCAATATTGAGCATCAAACATTAAATAACTATCTAAAAANNTTAAATCTTAATGTTGAATTAGCTTATGATGGCTTATCNATTGAAGTATAAAAATTATTTTGTCCTTCTAAANTCCTCGAAGGTTTCTTCATTAGGGGGATAATATTTTCCTGGAGACAAATTTTCCTCAGAGAGTTTTTTCTTGATCCATCCTTCTAATTCTGTATATTCTAAAGCTTGTTCTGCAACTAATTTCGCAACAGTTCTAGGGATAACAACTACACCATCATCATCTGCCACCATATAGTCTCCAGGCCTTACAAGGACTCCATCAATTCTCACTGGTTCATTAGTAGAATAAGGAGTTCCTACTCTAGTTCCTAAATTAGAAGTTCTTCCATATCCCCATATTCTTATTCCATATTTATCAACTGATTTCATATCTCTCACCCCTCCATCACAAATCAAACCATCAATATTTCTCTGTTTCAATCTTAAAAACTTTATATCTCCACCTATACTCATTAGTTTTGTACTCATAGATTCCATCACAATCACATCACCAGGTCCTGCTGCTTCAAAAGCAGCATATTCAGGAGATTTTTCACCTGAAGGTTTTTCGGAGTCAGCATCAGGACGAGAAGGCAGATATCTTACAGTAATTGCTCTAGATACTAATCTTCTTCCTTCATTCAAAGGAAAAATGTTATCCATTAATATGTGTCTAGCGTCATAACCGTTCCTAGAAAGGACATCTACAAAAGCAGAAGTATTAACCTCTTTTAATTTTTCTAGTGTATCTGCACTCAATACATGTTCCGGTGCTTCAAAAAATATNTCTTTTTTCATTATTCCTCATTATAAAATTTATTTAATCACTTGGTCTTCCTGCTAAACTACCAGTCGCAATCATTCCACCATCTACTAACAAAGTTTCTCCATTCACATATTCACCCATTTTTGAAGAAAGAAAAACAACTGCATTAGCTATATCACTAGGCAACCCTTGTCTTCCTGTAGGAACCCATGGNGCACTAAAAGAGTCTGGCTCAACTTGGTCATCGTTAGGAGGAATAGTATTATTTATCCAACCTGGAGCTATACAATTAGAGTTGATACCTGTATTTACTAAATCTGCAGCCAGACCTTTCACCATCCTCCTTAAACCCATTTTTGCTATACCATAAGGGGTCCAGTTTTCTGATGCTCTATATGAATGGACACTAGAAATACAAATTATAGAGCCTGAAATTTTTCTTTTTACCATTTCTTTTGAAACTTTTTGTGCAGCAAAAAAATAACCTTTCAATGACAAATCCATCATATAATCCCACCATTCTTCGTCTATTTCAAAAAATGGTTTATTTTGAGGTTGCATAATTGCATTATTTACCAATATATCTATCTTTCCATGTTCACTTATAAAATCATCCACCATTTTGTCTATATTTTCTTTTTTACTTACATCTTGGATATGTATAGAAGATTTCATTCCTAAGGATTTTACTAAACCAGCAGTTTTCTGAGTCTCTTCATCATCTATATAATCATTAATTCCTACATCAGCTCCTTGTTCTGCTAACCTGTAAGCTATTCCTCTTCCTATACCTTTTCTAGCACCTGTAATCAATGCCTTCTTTCCATCTAACAATTTCATTATTTCTCCTTTAAATTTAGCCATCTCCATAAGGGCAAATATTCCAAAAAGAACACCATTTTTCAGAACAATACCAAGAGCCTTCTGGAGCCGGTAAAAATACCTTCTTTTTTATCCCGTTTCTTACTGATTTTATTCTTTCCCTTACAAGACTCTTTGAAGAATCTGATATTTGAGCTGTATAAATTTCAGCTTTCGGGTTTTTATTATCAGTTACTAAAGCAATACCAACTTTACTAAAATTTCCTACGTCAGCATANGTTACTAGTTGAATATCTTTGGTTAAATCATTAACTCTATTTTGCTTTCTAACTTTATTGTCAATTACAACACCATCTTTTGTAATTAAATCTGCAAATCCTAATACTGGAATATCTAAACCAATATCTCCATTAATTTTTAATTGAACAGCATTTTTTGATAATGGAGTTAATTTTTGAGCATGTGTAACATGATACTTTTTAGAAATCTCTGCCAATCTATCCCTACTGGTTTGCTTNGTAATATCCATTTCTGCAANCTCAGCATTATTATCATGTTCACTAACAGCAAGATCAACAAAATCATTCCTTTTCAAACCTACGCCATTATCCGCCTTGATATCAAAATGATCATTAGCTGCCTTATCTACAGAAGATCCACGAATCATTGGTCCTGTAGGAAAAGTTTTGATTTTTTCAAAATATTGAAAATAATACTTCATTCCACATAGAAGATATGTTCTAACCTGAGAAACAGATATATATGGAGGTGGTTTTTTATCTTCTTTTTTCTTCATGTATCTTAGTTAAGATAACATAATTTTGATCATTTTGAGAAAATAATTTGAGAAAATAAAGTTTATCTCAAACCTGATTTATCAGATTTAAAAGCAGGAGAAAGTAGAATAGGAGCAATTATCGTTGTGATAATTGTCATAAAAATAGTTACACCAAAAACTTGTTTATCTATTACTCCTGACACAAGACCTATTCCTGCAATAATTAAAGCCACTTCACCTCTAGGTAACATTCCTACTGCAATACGCCATGATCCAACTCTGTTAAAACCAAAAAGTAAGGCTGGAATTCCACAACCTACAAATTTACTTATAATAGCAAAAATAGTTAAAATCACTACAAAAGAAATAGTTAAAATCAAACTTGCATCACCTGAAAATATAGCACCAAGATCAACTTGCATTCCTATAACACAAAAGAAAACAGGAACTAGAAAATAATTTATTTTTTGCAAAGATTCTTCTATTTCTTCTTTCAAGTTAGTCGAAGACAAAGCTAAACCTAAAGAATACGATCCTATAATCATGGCTAACCCAAAATAAAGCTCAGCTATTCCTGCAGCAAGAAATGCTAAAGATAAGCTCAAACATACTCTTACACCAGATCCTTTAAACAAGAAAAGTATTCTTGAAATCCAAGGAGCAACCAAACTTTCAAAAAATGTTAATACAAACCAAAAAGATATGGCTTTAACAGCAATCAAAGTTATTCCTCCTATTGAAACTACTCCTGTAGTTTCAATAGCCACGATAATAGCCAAAATTAAAATCCCTAATACATCATCTACTACTGCTCCTGCTAAAATTGTTACTCCTTCTTCAGAATCAAGTTTTCCCATATCTCCTAAAACTCTTGCTGTTATTCCTACAGATGTAGCAGTCATTATAGAACCAACAAATAAAGCAGGAATTAATTCAGAGAGTGAATTGAAACTAGCAAATCCCGTCAATACCGTAGCTATAACACCTAATAAGAAAGGTAATGAGACTCCGCCAATTGCCACAGCAGTTGCAGGTTTAAGATATTGAAAAAACCGTTTTTTATTAGTTTCTAAACCAGCCTCAAAAAGTAGTATCACCGCTCCAAGTTGGGCTAAAAAATACAATGATGAATCAACAGGTATCATTGATTCTTTACCAGAATGAGTATCTAATGGAATTTCAAATAATGGTCCAATACTACCTAGTATAATTCCACCAAGTGCAAATGGACTTATTATTATTCCCATAATTAATTCCCCCAATACAGGAGGCATTTTCAGAATCCTTTCAAAGAATTCTCCTCCTAATTTCGCAAAAATCAATATTATAGAAAGAGATAATATTAAACTGGCTACTAAATGTAATGGTGAATCATGCATTTGAAAATATTTTATTTATTTTAATTAGTAATACTAATATAAATAAACCCCAATTATTTATTCAACATTATTGAATATCATTCTTGAAAGTTTTTAGAAATTCAATTAAATAATCTCTTTGATCATCATTTAAATTTTTATAATTATTCTTTGATTCTTCAGCATCACCAGAGTGCATTAAAATTGCTTCAGATAAAAGCGTAGCTCTTCCATGATGAAGAAAAGGAGGTTCATCATAAAAACCCCAAAGTTTTTTTGTAATCCAAACATCCGTGGGAATACCTTTCTGTTTCAACCTCTCATTGTCTAATTCAAATCCCATTTTATGTCTTTTAAGATCAGAGTATAAAGGGACTAAATATTGTCCTTTTTCATTCTTTTTTAATTTCCCTACATAGTCTAAAAGGTCAAATATTAAAATTTCATTAGCTTCAGATAATTTCATAGTATTTTCTGGATTAAAAGGCCCAGGCTCATAAAACATTGTGCTTTCCAAAGGTAAATTTGGAATATGACAACTTGTACATCCTATTTGATCAAAAATTTGTTCTCCTTCATTAATAACTGATTTTAAATAGTCATCTTTTGGGATTACTCTTTCTGGTAATGGCAAAGTTGCTTGAAAAACTGTTAAAGCAGTTATATCTCCTGAGGTTAATTCATTCACTATACCATCTTTATCAAAATCAGAATTTTCTCCGAAAAGTTCATCAGATTGAATCCCATGGTGATGATTCAATGCAGTATTAGAAAATTCTCTTAGTGACACTATTATTCCTTTCTGGATAAAAGGCTTGACTATAAAGTCTGTATCAACTCCATTAACTCCTGAAACATCCAAAAATCCATCAGCAGTCACTCTGATAGTTCCAAAGTCTATTCCTTTAGAAGATAGAGATTCAATAACATCTTTTTGTGATTCATTTGCATTTTTTTTGGTTTTTTGAACAATTTCAAGTAAATCTCTAGATATTTCTCTTGCAAGTAATTCTACTAAACCGGAACCAAACATTCCTAAAGTATTTCTTTCATTAGTAACATCAATCAAACTAGGCTCATTTTCTTGACTTCCAACATTTCCTTCCAGAGTAGCAAAGGACACATCAGTTACAAGACCAAAAACATTTGCAGCATTATCACCACCTCCACCAATCTTAGGTAGATTATGACAACCAGAACAAGCATTGGCATCTGGACCTGAAATTCTATTAAAATTATGAGGACTTTCTCTTCTTAGTCTTTTTTTATTTGAACCTGTTGCCTCAGGTCTACCTGCACCATCTAAGGTATTAAAAGAAATCACAAAAAGTTCTTTTCCATGTTGAATAATTTCTTCTAAAGATAATTCTCCTTGATCGATAGAAGATTGATCTAAATGATTTGTAACTGCAGGTAATTCCCCTATTTTTTGAACATCAGATGTTTCACAACTTAGACAAACAAAAAACACAATAATCATTAAGTAAATTTGAATATTTAAAAAGATTTTAGTTTTCATGAAAAACTTTTTCAGGTTTTAGAAATTTTCCATCTTCAGAAACTCTCAGGATAGCAAAAAATCTTCCCTGACTATCATATGCTTTAATTAAATCAGAATATTTATCTGAACACGGTTGATAAAAAAAATTAGAATCTTGAATATCAATTTTAATTCCATTTTTTAATTTCATAGACTCATCTAAATTCATATCTATTCTTTGAATATTTTTCAAAACATAATCAAGAGAAAATATATGAGATTCCAATTTTTCTTTTTTCATTAAATCACTTAATTGATTTAATTTTATAGCTTTACTTAAATGAAATTCTCCAACTGAAGTTCTTTCTAAGCCTATCATATGAGATGGACAATCCAAATTTTCACCTAAGTTATGTATTAAAGATCTAGCATAAAAACCACTAGAAACTAAAATATCTAACTCATACATTGGAAATTCAAATTTAATAAGACTTATGTCAAGAACTTTTACTTTTCTTTTTGGAGGAATATAATTCCCTCCTTTTCTCGCAATATTATAAAGACGTTCACCTTTAAATTTAAGAGCACTAAACAAGGGAGGTCTTTGATTTATTTCTCCTTTAAAACTTTCTAATGCTTTTTCCAATTCATCTCTTTTTACATTTTTATTTGAATGATCAATTGTTTTACCTGTTGAATCATAAGTGTCAGTTGAAAATCCAAATTTTCCTCTAACTTTATAACCTTTATTTTCTAAAAGAAGAAATTCACTTAGTCTTGTTGCTCGCCCGATACAAATAGGTAGTACACCAGAAGCAAGAGGATCTAAAGTTCCACAATGTCCAACTTTTAACTTAGGTTGAATCATTTTTTTTATAGATGAAACTACAAAAGAAGATGTGGGGCCTGATTCTTTGTTTAAATTTATAAAACCATGGAAATTTCTTTTTATAGACATTATCAAGGATTAAAAAAATTATTTTTGAGAAATTTCTAAGTTTTCAAACAATTTATTCATTTTTTCTACTTTATCTAAAGTATCATCAATAACAAAAATTAATTTAGGCACTTTTTTCAAATAAATTTTCTCTGACAATTCCTTCCTAAGAACCTTAGAATTATTTTTTAAAGACTCTAAACTCAGTTTTACAGAATTTTCGTCTCCCATTATAGAAACAAATATTTTTGCTATAGCAAAATCAGGACTTATCTTTACTTGTGTGACAGAAACTATTGGAGATAACTCTTCTCCTTGATTTTTAATGTTGATTAAAGATCCTAAAATACGTTGAATATTTACATTCACTTTTTCAAGTCTTCTATTAGTCATAATTATCCAATAAAATTTAAGATCTTTTTAACTCGTAGCAATATATAACATCATTTTCTTGAAAGTCTTTAAAGTTTTCTAGAGTCACTCCGCCTTCCATTCCATTTCTAATTTCTCTAACATTTTCTTTGAAATGTCTTAAGGAACCAACTTGTCCATTAAATAATTCTTTATCATCTCTAAGAATTTTCATATATCCATTTCTTCTTATCACACCAGAATTTACTCTAAACCCTGCAGCTTTTCCTTTTTTATCTATTTCAAAAACTTCTAAAATTGTAGCTTCTCCTAACTTGCTTTCTACAACAATATCTTCTCCCAGTTTTGATACAATTTCTTCGATTTCTTCAATCATTTCATAAACAATATCATATCTTTTTACTAGAATATTATTTGCTTGAGCTTGTTTCAATGCTCCAGGTTCTACATCAGATTGAAATGCAACAACAGTAGAAAAAGAAGCAGTTGCAAGCATAATGTCTGATTCATTAACTGAACCAATATCGGAATGTATAATTTTGATATTTTTTTTATCAATAGCCATGTTTTCTAAAACTTTTTTTACTGGCTCCATAGTACCTTGAGAGCCTGTTTTAACAATTAAATTAAAAGTTTCAGAGGAATCTGAATTCATATTTGATGAAAGGAAATTATTACTGTTTAAAGGTTGATTTTTCTTCTTCTTTCCAAGAAGTTGTTTTGAGTCTTTCTCTTTCTCAAAAACCTTGAAAATATCTCCGGGTTTAGGAGCTGGATTAATACCTAAAATTTGTGCTGGAGCTCCTGGTTCAATGAATTCTACAGGATTTCCAAATCCATCAATCATAGATTTTATTCTCCCAGAAGAACCTCCTGCTACCAAATAATTACCTAGAAAAACTTTCCCATTTTGAACTAAAATTGTAGCTAAATTACCTTTCAACTTGTCTGTTTGTCCTTCTAAAATTACTCCAACACCCAAATCATTAGGATTAGACTTTAACTCCGAAATTTCAGCAACTAAAGAAATAGATTCAAGAAGATCATCTATTCCTTCTTTTTTAATAGCAGAAACATTTACGCATAAAATATCTCCACCTAATTCTTCTGGAATTACTTCATGTTCAACTAATTGTCCTTTTAATCTATTGATATCAACACCAGGAACATCTACTTTATTAATAGCAATAATCATTGGTACATCCGCAGCTTTAATATGATTTATTGCTTCAACTGTCTGTGGCATTACACCATCATCCGCAGCTACTACTAATACAGCAATATCAGTTACCTGTGCGCCTCTAGCCCTCATATTCGTAAAAGCTTCATGTCCTGGAGTATCAATAAAAGTAATCAAATTATTATTATGACTTACTTGATAAGCTCCAATTCCTTGAGTAATACCTCCGTGCTCTGAGTCTACGACTTTAGTTCCCCTAATTGAGTCTAAAAGAGTAGTTTTACCATGATCAACATGACCCAATATAGTTACAATTGGAGGCCTTACCACAACCTCAGAATCAGAAAGAGTTGGCTTTGCAATTGAATCTGACTGATTGTCCTTGGGTTTTAAAACCGGAACACCAAAAGTAGTTGATATTATAGCTGCCATTTCAAAATTGATAGTTTCATTAATATTTGCCATGACTCCTCTTCTCATTAATTCCTTAATGATTTCAGAGGGGCTTATATCAATTATTTGAGATAAATCTCCTACCGTAATCACTGGAGGCAAATTAACTGCTTGAGCAGTGCTTTCTATTTTTTCAATTTTTTCATTAACCATTTATAGAAAAAAATATTATTTATTATCTTGATTTATTAGAATTACCTTTACGATTCTTTGCTTTAGTTCTTTCTTTCTTACCTTTCTTAGTAGAGGATTCATTAGAACTTCGAATCCCCTCAATATCTTCAGCAAATCTTAATGTTTGAGAACTATCAGAAGATTTTCTTCTAGAAATTTTCCCAATATTCCAAATATCATCTTGAGGTACAGTCTCTTGTACAGTATCAATTTTATTTTCTGAAATTTTCTCTTGAGATTTCTCTAAATTTTCTAATTCTAATATTTCATCTTCTGGATTCAATTCATCAATTGATTCTTCTTTGATATTTTCTGTTTCTCCTTCCAAAACAGTATCTTGAACATTTTGATTTGGCTTTTCATCCTTTTTAGTATCAACTTTAATTTTTTCGGGAGTACCTTTAAAAGATTTTAAAACAGAATTCACTTCTTCAAGAGATTTAGGACCCAAACCTTTAACATCTAATAAAGATTCTCTTTTCAATGCTAAATCACCTAATGTCTTTATACCTTCTGCAACTATTAATTTTTCAGTCCTAGATGCAAAACCAAGATCAGAAACAGATGTTGAGTTTTCAAGTTTTAACTCAACAAAATCTTGATCAGAAGAAATACTACCCTGATGTTGAATATCTAATTTCCATTCAGTTAATTTTGCTGCTAATCTCACGTTTTGACCATCTTTTCCAATTGCTAATGACAATTGATCTTCAGGGACTATTACTAAAGAAGACCCAGTTATTTCATTTAAAACAACTTTTTGAACTTCAGCAGGGCTTAGAGATTTTTTGATGAATTCAGCATCATCTTCATTCCATTCAACCACATCAATTTTCTCTCCCAAAAGTTCATTTACAACATTCTGAATTCTAAGACCTCTTAAACCTACACATGCCCCTACTGCATCAACACCCTCTTGGTTAGAAAAAACTGCAATTTTACTTCTGGAGCCAGCTTCTCTAGATAAAGCTTTAATTTCAATAACACCATTAAAAATTTCTGGAACTTCTGTTTTAAACAATTCTCTTAATAACCCTGGATCATTTCTAGACAATATAATTTCAGGACCTCTAACAGAATTTTCAACTCTTTGAACTAAAAATTTTAATTGTTGACCTACTCTATATCTTTCACCATTAATCTGTTCAGTTATTGGCATAATACCTTCACCTTTACCTAAAGATATTACAACATGTTTAGGGTCTACACGTTGAATTGTGCCATTTAAAATTTGTCCAGTTTTATCAGAAAATTCCTTTAGAACTAATTCTCTTTCCGCTTCTCTTAATTTTTGAATAACAATTTGTTTTGCAGTCTGAGCAGCAATTCTTCCTGGATTGTGTTCTATAAAACCAGTTGTGATTTCATCTCCAACTTTCACTTCTTTAAACTGTTTTTGAGCCTCAGAAAGTGCAATTTCTTCATCAATGTTTTCTATAACTTCTACTACTCTTCTAACAGTTCTTACAACAGTTTCTCCTGTGGTGGGATTTAAATCCACTTTCACATCTTGACCTTTCGCAAGTTCATCTCTTTTATATGCATTTTCAAGTGCAGATTTTATTGCAGACACAACTACAGAATGAGATAAATTCCTCTCTGCTGCTAATTGCGTAACAGCTAATAACATTTCATTTTTCATAATTAATCCTTTTCCAAATTGTAGACAAGAAAAAAAGTGGGCACTGCCCACTTCTCCCTTTACTTATTCCAGATTATACTTGGTTTATTCTAACATTTTCGAGGTTAAGTATCAATCGAGTTATAGAATCTATCAACTTCTTGAAAAATCTCTTCAATACTAATTAATTTGGATTGTTCAGCATCTCTAGGTTTAAATTCTACAGACTGTTCACTCAAAGTTCTTTTACTAACTAATAATCTCAGAGGAATTCCAAGTAAATCAGAATCATTTAACTTAACTCCTGGAGTTTCATTACGATCATCAAATAAAACATCATAATTAAGCTTTTTAAGATTTTCATACAAATAATTCGATTTATCCAAGACTTCTTGAGATTCATTGTTTAGATTTATTAAATAAATTTGAAAAGGTGCAATTGTTTTAGGGAAAATTATACCTTTTTTATCATGTCTTGCTTCAATAACTGCAGCTAATAATCTTCCTACACCTATACCATAACAACCCATTACAGAAGGCAGAGAATTACCTTTTTGATCTATAAAATAAGCACCTAATTTTTCACTATAGCCTGTGCCTAATTTGAATACATGACCTACCTCAATGCCTCTTTTCTCATTTAAAAAACCTTTGCATCTTATACAATTAAATCCTTTTTGAGCCAAAGAAACATCAATAATTTCATCATAATTCAAATCTCTTTTAGGAATAACATTTTTTAAATGATAGTTTTCCTTATTCGACCCTGTCACATACGATGAATCAATATCAATAGAATCATCTAAAATACTAGAAATTTTGATATTTCTTGCTGAGAGATACCCTTCTATAAGACCATGATTTTCTAAATCTTTTTTAGTTGCTGGTTTAGGGTCTTCATTCAAATAATTTCTAAGTTTTGTTTCATTAATATCTAAATCTCCTCTAATAGATACGGAAATTAGACCTTTACTGAATTTATAAACTACCGTTTTAATAATTTTATCTTTACTTAAATTTAAGAATTTTGATAACCCTTTAATAGTTGTAATATTTGGCGTTTCAATATCTTTAATATCTTCATTTCCAGATAATTTGTCAGCATCTAATTTAAAAAATTCTGCTTTTTCTGAATTTGCAGCATAATCACATGAATCACAAGAAAATATCGTATCTTCTCCACTAGAAGCAATGGAAATAAATTCAGAGGAATCCTTTCCTCCTATAGGACCACTATCTGCTTCAACTTTAATAACATCTAATCCACATCTTCTAAAAATATTTTCATAAGTCTTTATCATAGTTCTATAACTATCATCCAAACCTTCTTCATCTTTATCAAAACTATAAGCATCTTTCATTTCAAATTCTCTTACTCTCAATAATCCTGCTCTAGGCCTAGTTTCATCTCTAAACTTAGTCTGAATATGATAAATAATAAATGGAAGATCCCTGTAACTATCTAAATATGAAGCAGCTAAAAAAGTTGCTGTTTCTTCGTGAGTAGGAGCAATAACCATTTCATTACCTCTTCGATCCTCAAATGAAGCAAGAGGAGGAACAAAAGTTTTAGATCTTCCACTTTTTTCCCATAAATCTATAGGCTGATTAACAGGCAAATTTACTTCAAAGGCACCAGCTAAATTCATCTCCTGAAAAATAACTTCTTTTATCTTAGAGATAGCCTTCCAACCAATAGGAGTATAATTAAATATTCCAGATGTAACCTGCTGAATAAAACCAGCTTTTAGTAACAGTTTATGGCTTTCCATTTCTGCATCTGAAGATATTTCTCTGAGAGTTTTCCAAAAATATTTACTTAAACGCATATCTAAAATTAAGTTTTAACTTTCTTCCCCCATCTTTTTTGAACATAATTATTTACTAAATCAATAAAATCTTTTGCAATATTTGGTCCTTCTAGAAACATCTCTCTTTCACCATCAATAAATACTGGTGCTTTAGGTGACTCTCCTGAACCAGGTAAAGAAATCCCTATATCTGCATATTTTGATTCACCTGGCCCGTTAACTACACAACCCATAACAGCAACTTTCAATTCTGAGGAACCAGGATATTCGACATTCCAAATTTTAGAATATTTTTCTAAATATATTTCTATTTCTTCACTTAATTCTCTAAAAAAAGATGAAGTAGTTCGACCACATCCTGGGCAAGATGTGACTGATGGCCTAAAACTTCTTAAATCTAAAGATTGTAATATTTCTTGACATAATTTCACTTCCTTAGCTCTATCTCCTTTAGGTTCTGGTGTTAAACTAGCCCTTATAGTATCGCCAATACCTTGAGATAATAATAATCCTAATGCTATTGAAGTTGAGGTAGACCCTCTAGAGCCCATTCCAGCTTCTGTTAATCCTAGATGTAAGGGGAAATCACATGAAGATGAAAGTATTTTATATGATTCAACCATTTGAGAGATACGTGAAACTTTACATGATAAAACTATATTATTTTCAGGCAGCCCTATACTTAATGCACGATCAGCACTAAGAAGAGCACTATCTACTAAAGCTTCTCTTTCCACTAACTCAGAATCACGGGGTTCAGATAATCTTGCATTTTCATCCATCTTCAATTGCATTAATTCAGGGTCTAGGCTTCCCGAATTAACACCAATTCTTATTGGCTTATCTAAATCTCTTGCAACTTTAATAAAGGTTTCAAAATTTAAATCACGTCTAGATCCTCTTCCTACATTTCCAGGATTAATACGAAATTTATCTAGTGATTCTGCGCAATCAGAGTATTTAGTTAGTAACCTATGTCCAATAAAATGAAAATCTCCTATTATAGGAATATTTATTCCTCTATCAATTAATTTTTTCTTGATATCAAAAACAGATTTTGCAGCAAGATCGTTATTTACAGTAATCCTAACCATCTCACTACCAGCCAGCACCAAATGTTCAATCTGAGAAACAGTGGCTTCTACATCTGTAGTGTCTGTATCAGTCATTGATTGCACCACAATAGGGTTAAGATCTCCTATCGTTAAATTTCCTATTTTTACAGATAATGTTTTATTTCTCATTTTTTATCCTATACATGATTATATTCAATCAAAAATAGAACCTCCATCAAATATCCTAGCAACATCAAAGAAGGAAATAAATAATGCTAAAGAAATAAGAAACACAAATCCTGCAGCATGAACCATTCCTTCTTTCTGAGGTGAAATTTTTTTTCCGTTTCTCAAAATTTCTATAAATACAAATAAAATTCTTCCTCCATCAAGCGCTGGAATTGGAAGAATATTTATAATTGCTAAGCTAAGACTTAAAATACTAGCAAGATTAACAAAAGTAATTAATTTATCAGAAATACTCACATTCGCTGTTGCTATAGTTCCAGTAATTTGTCCTATTCCAATAGGACCTACAGTTAATGGACCTTGAAATTGAGGATGAGTACTGCCTGAGAAATATCCCCAAAACGCATTCTTGCTTATTAAAAGAGTCTGCCATAAATAATCAACCGATCTTTTAAATGAAGATAATAAATTTATCTCATTCTGAACTAATCTATCATTAGTTATTGAGACTATTATGCCAACAGCTCCTTCAGTAAAAGTATCATGAGTTCCAGATAAAGGATTCAAAGCTCTAGCTTGTTCAAGAGAGATTTCATTTTTGCTAATATTAACTTTGTTAACAATTTTTAACTTATCACCTATCGAAATTTGTGGATAATTTTCTTTGATACTCTCGAATTTTATTTGATCATCTTTGATTATTGTTTCAACTACTTCAAATTGATCAAATGTTCCTACGTATGGATCATATAATCTAGCTTTACTTATTGATATTTCATTAGGTCCAGAGGAACTTTGAACTACTTTTAAAGATGGAGGATTCCATCTAGGAATTAAATTAACACTTGAAGACTCTTTATATTGATATTGTGGTTCATTTAATTTAGCAAAAGGATCTGGAATACCTTTTTTCAGTTCCCAAATAGTATCTTCACCAAGATTCGAAGTTAACTCTTGATGAAGATCATTAATTGATGTAATAACTTTCCCATTTATGGAAACAATTTTATCTCCAGATGATAATCCAGATTTTTCAGCAGGCGAATTAGGCATAACTGTTTTTACTATCAAATCACTTTGCACCACATCATGAGGGTATAAAAATAAAAAAAACAATAAAATTATTGGAAAAATTGCATTAATAAATGCCCCTGAAAATAATATTAATAATCTAGAAAATGGATTTTTCGCTGAGAATGATTCTGGATCATCATTATCTTGTTCTCCAAATAATCTTACAAATCCACCCAATGGTAAAAGATTAAATGACCATTGCATGTCTCTGAGTATAATATGATCATTTTCAAAATGTGCTATTTTACCAGTTAATAATTTGTCTTGATCTTGATTTTTTTTAGAATCTTTTAATGCTTTTTGATAATTGATTTTCCTAGCATAGATATCTTTAGACATTCTTTTGAAACTTATTTCAACTATTGTGTTTTTTGATAGCAGTAAAGTTTTTTCATCTTGAAAATTTGTGTTTTCATCAATAAAAACCTTAGTTTTACCAGTCCAAAGTGAATATAACTTTGGAGGAAAACCAAAACCAAATTCTAAAACCTTAACTTTCATTAGCTTAGCAGTAAAAAAGTGACCCAATTCATGTACCACTACTAATGGAAACAACAAAGCTAGAAATGTAATAACACTTATAAAAAAAGAATTCATGTTAAATATCAATTAACTGATGGACATTTTTAAAACCCCACTCTGAAGCTATTTTTATATCTTCTAAAGAAGGGTTTTCTATAGATTTATGGGATTGAATAGTTTTTTCTATTAAATAATTCATATCTAAAAATTCTATTTTACCATTAATAAAGAGATCCACTACAGCTTCATCAGCTCCTACTAAGACTGACATAAGTGAATTATTATTATGTGCAATTGACATAGCCATATCAAAAAGAGGATATTTTCCTGAAATTACTGGACTAAAATTCAATGATCCAACTTCAGCTAAATTACATTCTGGTAATTCAATATTAGCCTTCCTTTCAGGAAAAAACATAGCATATTGAATTGGAAATCTCATATCAGGTATACTTAATAATGCTTTCAAATTTCCATCTATAAACTCAACTAAAGAATGAACTATACTTTCAGGATGGATCAAAACATCAATATTATTTAAAGGAATCGAAAATAAGTTACTTGCTTCTACGACTTCAAATGCTTTATTCAATAAAGTAGCAGAATCAATTGTAATTTTAGCACCCATATTCCATGTAGGATGTTGTAAAACTAATTCAGGGGATATATTTTTTAATTCATCAACAGAATAATTTCTTAACGAACCTCCAGAAGCTGTCAAGATTAATTTAGAAATATTTTTTCCTTCTCCCAACATACATTGCCAAATAGCAGATGGTTCAGAGTCTACAGGTAAAATTGTAGCTCCAGTTAATTTTGCTTTATCAACAAGTAATTTTCCTGCCATTACAATAGATTCTTTATTAGCTAAAATGATATTTTTTCCAGAATTTACTGCTTCATACATAGGAAGCAAACCTATAGATCCTGACAATGCCATAACCACTAAATCAGCATCTTCCAAGGAAGCCATCTCTTCAAGACTAATTTTTTTTGATTCTTCAATCTTTTGCTCATAATTGTCAATAAAAAAATATTCAGGTGTGAACTCTTGAATTTGTTCTTTTAATAATTTGAAATTTTTTCCTGCTGATAATCCTAAAACAGAAAAATCATCAGGGAATTTCCTAATTATTTCAAGGCATTGTGTGCCTACTGATCCAGTAGAACCTAAAATTACAATTTTTTTACTCACTATATAAATACCAATATCCAATAATATGAAGCAACAGATAATCCTAAAGAATCAATCCTATCCAAAAAACCTCCATGACCTGGCAATGACTCTCCTGAATCTTTCACTCCAAAATATCTTTTTAATGCTGATTGTAAAAAATCTCCTATTACAGCGAAAAATGGTATCAAGAAAGAAATAATAAATAAAGAACCCCAATCACCATTAATATCCAAAATTCTACTCAAGAGTATTGAAAATAAAAATCCTACAAAAAATCCCCCTAAAGTACCTTCTATAGTTTTATTAGGACTTATTAAAGATAAAAAATTGTCTCTTTTTTTACCTATTAATGATCCTATAAAATAAGAAAAAGAATCAACTGAAAAAGTAATTATTAAAACAAAAATCAAAAATCTAAAACCTTGTTCTTCATTTCTTAAAAACACTAAATGAATCAAGATTAATGAGAAATAAAGGATAGAGATAAAAAAAATATAAAAGGTATTATTTTTTGAAGATGAAGACTCTAATTCAGATTTTCTAAATTTCCAGTTTGTACAGACAAGATATATTAAATAAAAAAAGGATAATAAAGAAAATGTTCCTACAATATAAACTGTAAATGACCAATCAATCCACACAGTTAATGTAAAGATTATAATTATTATGAGAATAGAAGAAATTAAATATTTTTGTTTTTTCAAATTACTCATTTGAAATATCTCATATGATGACAAAATCATTAAAATAAAAACCAAAATTTTCAAAAAAACAAAAGAAAGTAAAAAACTGAATATTATAGGAACGCCAATTAAAGATGTAATAATTCTTGATTTCACATTACCTCAATGAAACATCAAACATTTCCAAATTTCCTTTCTCTTTTAGAATAGTTAAAAATAGCCTTATCTATTTCATCTTCACCAAAATCAGGCCAAAAAGTTTTTGTAGAATAAAATTCACTATATGCTGTTTGCCATAATAAAAAATTACTAATCCTAAATTCTCCAGCTGTACGAATAACTAAATCAGGATCCGGAACTTGATCAGTAAAAAGAAATTCAGAAAAAGATTTTTCATTAATTTTCTCTAAAGAAATCCCTGAACTCAATAGTTTTTTAGTTGCATGAATTATCTCTTGTCTTCCTCCATAATCAAAAGCTACTTGTAAAGTGATATTCTTATTGTTTTCGGTAAGCTTGATACCATCATTGATTTTAGACTTTAATTTATTATTAAGGTTGTCTTGATTTCATAAATGAAGAATTTTCACTCCCGCATTATTCAATTTTTCTATATTAGATGTGATTGATTTTGCTAGAAGTTGACCAGTTAAAAACTCTACTTCTTTGAAAGGCCTAGTCCAATTTTCAGTTGAAAAAGCAAACAAAGTTAGAAATTTAATTTCTTTTTTTATCATTATTTCAACAACTTTGCTTATATTCTCAACCCCAGCTTGATGACCTTCTGCTCTAGGTTTTTTTCTCTGAGAAGCCCATCTTCCGTTTCCATCCATAATTATTGCAATATGTTTAGGAATCAATATTAAACCTATAAAATTTCATAAAATGACAAGATATAAAATTAATCATTCAAAACTTCTTTTTCTTTATTCAAAGAGTTTTCTTCAATAATTTTTATATTATCATCAGTTATTTCTTGAATCTTAGACTGAGCTCTCCTACTCTCATCTTGAGATAATCCTGAATTTTTCTCTAAATTCCTTATTTCCTCTATAGAGCTTCTTCTTACATTTCTAACAGAAATTTTCCCTTCTTCAGTTCTTTTTCTTACTAACTTTACAATTTCATTACGTCTTTCCTGAGTTAATGCTGGAACAGTTAGTCTTATTAAATCTCCATCTACGTTAGGTTGCATACCTATATCTGAAGTAGATATCGCACGAGCAATTGTTTCAGAAATAGATTTATCCCAAGGTTGGATTATCAACATCTGACCATCGCTAACACTCACTTGAGCTAGTTGAGAGATAGGCATCTCCATGCCTTGATAGTCAACAATTATATTTTCCACTAGACCCGTATGAGCTCTGTTAGTCCTCATAGAAGATAAAGCTTTATCTAATGATAATATAGCTCCATCCATTCTCTTTTTCATTTCACTTAAAATGGTTTCTGGATTCATAATAAGCCTCTATTTATTAAAAACTATTTGGAGTTAGAAATTAAAGTGCCTACTTTTTCACCAAGCAAAATTTTCTCTAAGCTTCCATTATTAAATATATCAAAGACTATTATCGGTAAATCGTTATCCATACACAAGGATAGAGCTGTACTGTCTAAAGCTTGAATCCTTTTTGCTAAAGCTTCTATAGGAGTAAGATGATCAAATTTTTTAGCATCATCATTTTTATTTGGGTCAGAAGTATATACTCCATCTACATTGTTTTTTGACATTATCAATAATTCTGAATTCAATTCTAATGATCTCTGAGCAGCAGCAGTATCTGTAGTCATATATGGATTCCCTGTACCACCTGCAAGAATAACAACTCTACCTTTATCTAAATGTCTTAATGCTCTTCTGCGTATAAATGGTTCTGCTACAGAAGGTGTTGATAATGCTGAAAGAGTTCTTACAGGAACTCCTCTTCTCTCTAAACTATCTTGAATAGCCAATCCGTTTATCATAGTTCCTAACATACCAGCAGAATCAGCAACTGAACGATCCATACCTTGTTCTTCATAATCTG
>sequence04
CTAAAAAGGTATCTACTGCTAAAAAGGTATCTACTGCTAAAAAGGTATCTACTGCTAAAAAGGTATCTACTGCTAAAAAGGATGAATCTATTATTTCCTCTAGATTGAAAGGAAGATTAGAGAAATTTTATGATAATGATGTTGCTCCTGTTTTGTCTAAAGAATTTGGTTACAAAAACAGTATGCAAATTCCTACTTTATCTCAAGTAACATTGAATATAGGTTTGGGGGAAGCGATAACTGATAAAAATGCTATTGATTCAGCAACAAAAGATCTTCAACTTATTAGTGGTCAGAAACCTGTAGTAACTAAGTCTAAGAAATCAATTGCTAATTTTAACCTAAGAGAAGGGATGAGAGTAGGTATGAAAGTTACTTTAAGGAAAAGTAGAATGTGGGATTTTGTCGATAGACTGTTAAATATTGCATTACCTAGAGTTAGAGACTTTAGAGGAGTTAGCAAGAATTCATTTGATGGAAGAGGTAATTATACTCTTGGTATTACTGAACAAGTAATCTTTCCAGAAATTGAGTATAATCAGATAGATAAAATTCGTGGATTCCAAGTAACTATAGGCACCACATCTATCAATGACGAAGAAGCTAGAAGATTACTTGAACTTTTGGGTATGCCTTTTTTTAGGTCAAATAATTGAATTAGGGAGAATAAATGGCTAGAAAATCTAAAGTTGAAAGAGAAAAGAAAATAATAAGGACTATAGAGAAATATAATTCTCATAGAGATGAATTGTTAAATCAATGGAATGATACTTCTCTGACATTACAAAAAAGGAGAGAAGCTAGAAGAGCTTTAGGTAAATTACCTAGAAATTCTAATCCTAATAGACTTACAAATAGATGTTCAATTACTGGAAGACCCAGAGGTTATATAAGATTTGTAGGGTTATCTAGAATTGTTTTTAGAGATAAAGCTCTTTTGGGAGAATTTCCTGGAATAAGAAAAGCGAGTTTATAGGAAGTTGGTATGACAGATCCAATATCAGATATGTTAACAAGAATAAGAAATGGTCATCACGCAAAAAAGATGTTTGTGGAGGTACCTTCATCTAAAATAAAAACCAACATTTTAAAAATTTTTCTTGATGAAGGATTTATAAATGGTTATGAACAAAATGAAATAGATAATAAAGGTGTCACAAAAATTAACTTGAAATATGGTAAAGATGAAGAACCTATGATTTTAGGTTTAAAGAGGGTTAGTAGACCTGGATTAAGAAATTATGTTAAAAAGGGAGAAATTCCTATCTATTTAGGCGGAATGGCTGTTTCTTTAGTTTCTACTTCTAGAGGTATAATGACAGGCAAAGAAGCTTTCAAAAATAAATTAGGTGGAGAGCTAATTTGTTACCTATGGTAATTTAAGGAGAATATTTATGTCTAGAATAGGAAAAAAACCGATATTAATTCCCTCTGGTGTTCAAGTGGACATTGAAGGTAATAATATTAAAGCAAAAGGCCCACTTGGAGAGCTTAGTTTAGAATTTCAGGATATGATAAATGTAACAATAGAATCAGACAACATTATTTGTAAAAGAAAAAATGATGCACCTGAATCTAGATCTATGCATGGATTATACAGAAGCTTGATATCAAATATTATTGAAGGGATAACTTCAGGTTTTGAAATAAAATTAGAAGTTGTTGGAACGGGTTATAGAATTGAAAAGAAAGGAAATAATTTAGTTTTTAATTTAGGCTATAGTCATCCTGTAAATGTGGAGCCATTAGGTACAAATAAATTAGATGTAGAAGGGCAAAACTTGGCTATAGTTAAAGGGATAGACAGACAATTAGTAGGTCAACAAGCATCTGATATTAGGAAACTTAGAAAACCTAATCCTTACACTGGAAAAGGTGTGAAATATCAAGGAGAAATAATAACCAGAAAAGCAGGTAAAGCTGCTGTGACAACAGCTTAATTTATATTATGAGTAGTAAAAAATATTCAAATAACAAAAGAATAGTTAGGCATTTAAGGCTTCGTAAAAAAATTTCAGGAACTTCTTTTGCTCCAAGATTAGCTGTATTTAGAAGTAATAGAAAGATTTATGCTCAAGTAATTAATGATGATCAGAATAAGACATTAATTTCTTCATCAAGTTTGGAAATTAATTCTAAAAATAAACAAGATAATGTTGATTATGCAGGAAAATGTTTTGAAGCTTATCAGGTAGGAGTAAGTTTAGCAGAAAAATGTAATAAGTCAGGCATAAGTAAACTGGTTTTTGATCGTGGTGGATATAAATTTCATGGTCGTATAAAAGCTTTAGCAGAGGGTGTTAGAAAAGGAGGAGTGAGTTTCTAATGACAACTAATTCAAATGAACGAAATAATTCTAGAAATTCTAGAAATTCTAGAAATAATCCTAGAGATAATGATGGTATTGTTGAAAAAGTAGTGCAAGTAAGAAGGGTAACAAAAGTAGTTAAAGGGGGAAGAAACCTTAGGTTTTCAGCTATGGTTGTTGCCGGTGACAGAAAAGGCAAAGTAGGAGTGGCCTCAGGAAAAGGTGCAGCTGTCCCTGATGCTGTTAGAAAAGCATCTACCAACGCTAGAAAGAATATGGTAAGTGTACAAATGAAAGGTACTACTTTACCTTATGAGGTGAATGCAAAATATGGAGCAGCAAAAATAATGTTAAAGCCTGCTTCTCCAGGAACAGGAGTAATAGCTGGAGGAGGAATAAGAGCTGTTATGGAAGCAGTAGGAGTTCAGGATGTGTTATCTAAAAATTTTGGTTCTAATAATCCTGTTAATACTGTGAAAGCTACTGTGAAAGCATTAGTTAGTCTAAAAGATCCAGATCACCATATATCTTTAAGAAAAAATAATCCTGAAGATAAAGAGGTAGATCATGAGTAACATTATGATTGTTCAAACAAAGAGTTATATAGGTTCTAATAAGAAACAAAGAGATACTTTAAAAGCATTGGGTCTAGGTAAAATAGGAGATTCTGTAGTTAAAGAAAACTCGAAAGTTATATTGGGTATGGTTTCAAAAGTTTCTCATTTATTGAAGATAGAAAATATTAAATAGGTATTCCAGATGGTTGAATTACATAAATTGAAGCCACCAGTTGGTTCAAAATCTAATAGAAAAAGAAGAGGTAGAGGAGATGGAAGCAATAAAGGTTCTTATTCAGGTAGAGGTTTAAAAGGTCAAAAAGCTAGGTCAGGAGGATCTTTACCATTATTTTTTGAAGGTGGACAGTTGCCGTTAGTAAAGAAATTACCTTTTATGAGAGGTTTTCATAACCGGTTTCGTAAATCTTATGTTCCGATTAATTTGGATAAATTAGAACTTTTATTTGAATCTGGAGATAAAGTGAATCCAGAAATACTATATGAGAAAAATGTAATATCTAAGAATAATTCTTTAGTGAAAATTCTTGGGGAAGGAGATTTAACTAAAGCTCTTGTTGTTTCTGCTCATGGATTTAGTAAAAGTGCTAAGAAAAAAATAGAAAAAGTAGGCGGTTCAATAGAGAAAATAGATTCTCAAGATGGAGTGATTGATGAATAGTTCTTCATCTTATCAAGGTAAAAAAAATACATCTAATAAGCCAGCTTTATTACAGGCTATGATTGATGCATTTAGAGTTCCAGATCTTCGATTTAGAATTCTATTTACCTTAGGAATTTTAGTTATCTTTAGATTTTTTGCTCATGTTCCAGTTCCTGGTGTTAATAGAGATGCTTTAGCCTCTGCTTTCCAAAGTAATCCTCTTTTGGGATTCTTAGATCTTTTTTCTGGAGGAGCATTAAGAAATTTAAGTATAGCAGCTTTAGGTGTTTACCCTTATATTACTTCATCAATAATTATGCAGATTCTTACTCCTGTAATTCCTACTCTAAAAGAAATGTCTCAGGAAGGAGAATCTGGTAGGCAAAAAATTAATCAATATACTCATTATTTAATGATTCCTATTGCTTTTGTTCAAGGATGGGGTCAATTAACGGTTTTGCAAAATTCCTTTGGTGGCGTTCCAGTGATTTCTGGAATAGGGTTTACTGGAGGTAACGCTATTAGCACATTATCAATATTATTGGCGATGACTGCTGGAACAGCGATACTTGTTTGGATGGGAGAACTTGTAACTGAAAAAGGTATTGGAAATGGTGTTTCGTTAATAATATTTGCTGGAATTGTTTCTTCTATCCCTCAGCTTTTAGGTCAAGGTTTGTTGTTAAGAAATCAAACCTTTCAATTAATTCTTTTAGTGGTAATTGGATTAATAATAGTATATTTAATTGTTGTTTTTACTGAGGCTCAAAGAAGAATTCCTGTTCAATATGGAAAAAGTATTTTTAGAGGTGGGAAGATGTATAGACAATCGGGTGCATCTTTTATTCCTTTGAGAGTAAATTCTGCAGGTATGATACCTTTGATTTTTGCTTTTTCTTTATTAATACTCCCTGCTACTGTTGCTAGTTATTTTGTTAATCCTTCTAGCGATTCGTTTGGTTCTAGAATTGCAGAAACTTTAACAAACTTTTTAGGTCCCGCAAGTACAGGGTATTGGATTTTGGTTTTTATAATGGTGATGGCATTCACTTTTTTCTATGCATTAGTAATGTTTAATCAACAAAATATTGCTGATAATTTACAGAAAAACGGAGGTTTTGTTCCAGGAATTAGGCCTGGAAACCCAACTCATGAATATCTTTTGAAGGTTATGGTAAGGATTACATGGGCTGGTGCTATTTTTCTTGCATTTGTTGCTGTAATGCCATTTTTAGCAGGATTAATTACTAATCTTGGTGCAGCAGCTAGTATTATGAGTAGTACTAGTTTGTTGATAATGGTAGGTGTAGCATTAGACACATTACGTCAGTTAGAATCACAGCTTCTGATGAGAAATTATGAAGGGTTTTTGGATTAATATTTGTGGGGTTAATGTTGTGATTGTAATTTTTTTAGGCCCCCCAGGAGCAGGTAAAGGTACCAAAGCTAAGAAATTATCTGATTATTTTGAGTGGAGACATTTATCTACAGGGGATTTGTTACGTAATGAAGTAAAAAATGAAACTGAATTAGGATTATTGGCTAACGAATTTATGAAAAAAGGAGATTTAGTTCCAGATAAGATCATCATAAATATGATTTCTAATATCTTAGTAAATCAAAATGCTGGTATTGTATTAGATGGTTTTCCTCGTACTATAGATCAAGCTAGATCTTTGAGGCATTCTCTAGAAGATATAAGTAAAAAGATTGATAAGGTGTTGTTTTTAGATGTAGAAGAATCAAAGATAATTTCTAGATTGACTAATAGAGGAAGGAAGGATGATGATCCAAAAGTAATTGTGAATAGATTGAAAACTTATGGTGATTTGACTCAACCATTAATTTCTTTTTATGAGAAAGAAGGATTAATAGAAAAAATTGATGGAAATGGAACTGAAGAAAATGTTTTTAACAATTTATTAAAAGTTATGGCATGAATTTTTATGGATTTTATCTAAAGGAATATATATAATTTTGCATCGCACAAAAACTAAAATTGAAAATATAGGAATGGTAGTGAATAATTCAATATCTTTGAAATCAAATAAAGAATTAGCTTTTATGAAAGAAGCTGGTGCTATAGTTGCAGATGTTATGCAGACAGTAGTATCAAAAATTGATCCAGGGGTAACTACTAAGGAATTAGATGTTATTGCTTCTAAAGAGATATCTGCTTCAGGGGCTAAACCTGCATTCTTAGGATATTTAGGTTTTCCTGCTTGTTTTTGTATTTCTGTGAACGATGAAATTGTCCATGGTATTCCTAGTGACAGAAAATTATCTGAAGGAGATATAGTTAGTATTGATGGAGGAGTAATTGTAAATGGATATTATAGTGATCATGCAGTTACTGTTCCAGTAGGAAAAGTAACTAAGGAACTCGATAAATTAATTTTTGACACTAGAAATTCTCTTTATAAAGGAATTGAAATGTGTAAAGAGAATAATATGATTGGAGATATTGGAAATGCTATAGAATCTTATATAATGCCCAAGAAATATGGTTTAGTAAGAGAATATGTAGGCCACGGAATTGGTAGAAATCTACATGAAGGTCCCCAAATACCTAATTATGGTAAAAAAGGAACAGGAATAAAATTAAATAATGGGATGGTAGTTGCTATAGAACCTATGATTAATATTGGTGGTGAAAAAACAGTATTATCAGATGATGGTTGGACTGTTAAAACAGCTGATGGTTCTCAATCTGCTCATTTTGAACATACAGTTGCAATTACAGAAGAAGGACCAATAATTTTAACTGAAAATGGAGAAAAAAATGGCTAAAAAAGAAGCCATAGAAGTAGAAGGAAAAGTGACTGAAGCTTTGCCAAATGCAAATTTTAGGATAGAGTTGGCAAACGGACATAAGGTTTTGGCTCATGTTTCTGGAAAAATAAGGATGCATTTTATAAGGGTAATTCCTGGTGATCGTGTTTTGGTAGAGTTGTCGCCATATGATTTAACTAGAGGTAGAATTACTTATAGATTTAAATAGAAGATCATTAATATATTAGGTGATTAAGTGAAAGTAAAAGCTTCAATAAAAAAAAGATGTAATAATTGTAAGATTATTAAGAGAAGAGGTTCTCTAATGGAGATTTGTAAAAACCCAAAATGTAAACAAAAACAAGGATAGAAATGGCTATAGTATTAGGTGTAAATATTCCCGATAATAAAAGAATTGAAAATGCTTTGACTAAAATTCAAGGAATTGGCCCAACGATATCTAAAAATATTCTTAATAATGCTGGAATAATCAACAATCCTAGAGTTCATGAATTAGCTGAAGAAGATTTAGCGAGAATCAGATCTTCCATTGATGGCTTGAAGCTTAATCTTGAAGGAGATTTGAAAAGAGAGATTAGAGATAATATTAGAAGATTAGTCGATATTAAAAGTTATAAAGGTTCAAGACACAGGAAAGGTCTTCCTGTAAATGGTCAGAGAACTAAAACAAATGCTAGAACTAAAAGAGGCAGAAAAACAGCTGTAGCTGGTAATAAACAAGCGCCCAAACATTAATTAATATGGAGAAAGATATTTATGGCTAGAAAACCTAGAGATAGGAAAAAAGAAAAAAGATTTATTCCAAGGTGTAAAGCTTACATTTATGCTACTTTCAATAATACTATTGTAACTATAACTGATCCTGGTGGGAGCGTACTTGCAACTTCTAGTGCCGGAGCAGTTGGTTTTTCTGGATCTAGAAAATCTAGTGCATTTGCTGCTCAAAGAACTGCAGAAGCTGTGGTTAAAAAAGCAGAAGGATTCGGTGTTAAATCTATTAATATCATCGTGAAAGGTCCTGGTGCAGGTAGGGAAGCAGCAATAAGGGCATTACAAGCAAATGGAATGCATGTGGTTAGTATTAAAGATGTTACTCCTATACCACATAATGGTTGTAGGCCTCCAAAGAAGAGAAGAGTTTAACCAAAATATATAAGGAACTTAAATGTCAAGAGATATATCACCAAAATGTAAATCATGTAGAAAATTTGGAATGAAAATGTGTTCTAAGCCTCCAGGTAAATGTGCATTTGAAAAGAGAAGAGGAAATAGGAACACTTTCACTAGAAGACTTTCCGATCATGGAACTCAACTTAAAGAGAAACAGAAAGCCAGAGTCACTTATGGTATTCAAGAACGACAATTCCGAAGATATATGAATTTGGCTGGAAGAGCAGAAGGTATTACAGGTGATAATTTAATACAAATACTAGAAAGCAGATTAGATAATGTTGCTTTTAGATTAGGTTTTGGTGAATCAAGGCAACAAATTAGGCAATGGATTAATCATGGACATATTACTGTTAATGAAAAAAAAGTTAATATTCCGAGTTATCAGATCAAACCAGGAGATAAGGTATCCTTTAAGGAAAGTTCTAAAAAGAAAACTTTCTTTGATACAGTGACTCAAACAATGGGTTCCCGTACAGTTCCTGATTGGCTTCAGTGTGATAATGGTGATATTTCGGGCGTTGTTTTAAAAATGCCTGAGGTTACAGGAACAGATATAGGAATAGACACTAGACTTATAGTTGAATATTATTCAAGGAGATAGATGTAATAATGCAAGAAGAAATAGAAAAACTTTATGGATTAAATACTGTAGAAGATACTACAGAAGAAGAAAAAGAAGAACTTAGTATTTCCTTTAAGATAATTGAAGAGAATGAAAAATATGGAAAGTTTGTTCTTGAGCCATTGTCAAAAGGTTGGGGTGATACTTTAGGTAATCCTTTAAGAAGAACATTGTTAAATTCACTTCCTGGAGCTGCAATTACATGGGCACGTATAGGTGGTGTTGATCATGAATACTCTTCACTTGATGGCATTAAGGAAGAAGTACTGGAATTATTATTAAATTTAAAAAATGTTAGAGTAAAAGCTTTATCCGAAAGGTCAGGAAGACTTAGGCTAGAGGCTAGTGGTGTAGGTGAGGTTACAGGAGCTGATATTATGTCTAGTTCTGATTTTGAAATTATTAATGGAGATGTACATTTAGCTTCTTTGGATTCTGCAGACTCTATATTAGAGGTAGAATTGAATGTAGAGACAGGAACAGGTTATATTCCTGCGGACAAGGAAGCTCAAGAAGGATTACCTATAGGAGTTTTACCTGTAGATGCAATTTTTACTCCTATTAGAAAAGTTAATGTTGATGTAGAAAATACTAGAGTAGGAAAACGATCTGATCTAGAAAAATTGACTCTTGAAGTTTGGACAGATGGTACTATTGATCCTTTGAATGCGGTTAAAAATTCATCAGATCTACTCATGGATAGATTTTTTCAAATAAAAGAAGCTAAAGATAGAACTGAAGAGATTCCGACTGCTGTTTCAACAGGAGTAACACCTGAAATTTATAATACTTTAGTTGAGAACTTAGATTTATCTGCTAGAACGTTGAATTGTCTAAAAAGAGCTAATTTAAATAGAGTTGGAGATGTGATTGCTGTACCAAGATCTGAATTATTGAAAATAAGAAATTTTGGTCAGAGATCAATTACAGAGTTATTTGAGAAACTTGAAGGTCATGGTGTTACTGCCGAAGGTTCAGAAAAAAAATCGGAAGATGAAAATTAATATGATTGGAGAAATAAAATGAGACATAGAGTTTCAGGTTTTAAATTAGGAAGAAAATCTTCTTCAAGAAAAGCATTATATAAAAATCTAGTAACAGATTTTATTAAATATGGTTCTATTAAAACAACTTATGCAAAAGCAAAAGCTATTCAACCTATAATAGAGAAAATTATTACTCTAGGTAAAAAAGGTACATATCAAGATAAAAGAATAGTATCTCGATTTATTATTGATCCTCAAGTCCAAGAGAAAGTTTTTGGAGAAATAAGTGTAAATCTAAAAGATCGTACGAGTGGTTTTACAAGAATAACTAAATTGGGTTTACGTAAAGGAGATACAGCTCTTATGGTAGAGTTAAGCCTTGTGGATTCTTTAGAGGGATAAATTATTATGTTTTTTGCATCTGTTTTAGAATATGATGGTACTAATTTTTCTGGTTCACAATATCAGAAAGGATCTCGAACAGTTCAAGGAGAATTAGAATTAATTCTTAAGAAAACATTTAACATTTCTAATAGAGTAAAATTCGCTAGTAGAACTGATTCAGGAGTACATTCATTAGGTCAAATAGTTTTGATTAATACTGAAAATGAGATTCCCGTTGAAAAAACTTCTAAAGTTATTAATGATAATTTACCAATAGATATAAGAATAAAAGAATGTAAATTGGTTAATAAGACTTTTAATCCAAGAAGAGATGCTTTAGCTAGAGAATATATTTATAAAATATCTTTAAAAAAATATCTATCTCCATTTGAATCAAGGTTTGTGTCTAATTATGGATCAAATATAGATTTTTCACTTTTGAAGGAAGCATCCTCATTATTTGAAGGAGAACATGATTTTAAATCTTTTTCTGGAAGTGCTCTGCCTAAGAATGGAGAATCTTCAGTTAGAAGAATATTAAATATTACTTGTGTAAAAAAGGAAACATTGATANAAATAAGGGTTTTAGGAAACTCTTTTATTCATCAACAAATAAGAAGGATGGTTGGTTTAATGGTGAAAATTAGTCAGGGAGAATTTGCCCTTTCTAAAATACAAGATATGCTTTTTTCAAATGAAAGAAAAACTTTGTCATTAATTGCTCCATCTAATGGTCTATATCTGAGTAAAATTTTATATCCTGATGGACTACTTGATATTGATTATAATAACCAATTCACTGAGGTAAAAAATGTCAATTCATTTAAATAGAATAAATTTAAAAGGCAAAGATNTTTCATCTAAATGGCATTTAATTAATGCTGATGGAAAAATTTTAGGTCGATTAGCATCTGAAATAGCAAGATTGTTGATGGGTAAAGATAAACCAACTTATTCTACAAATTTATTATCTGGAGATTTTGTTGTAGTTATAAATTCTCAAGGAATTCGTTTAACAGGTAATAAATCTGAAACAAAAAAATATTGGAGACATAGTGGATATCCGGGTGGATTGAGGGAAATTTCTTTTAAAGAGATGAAAGAAANAGATCAACAGTTTATTATCAAAAATGCAGTTAAAGGAATGTTGCCTAAGAATAAAAAGGGAGATAAAATTCTATCTCGTCTTAAAGTTTATGGAGGGAATGATCACCCTCATGAATCTCAGATTATTGCATCTGATAAATCACAAGAAGAAAAAAATACACAATAAAACAGATAGTTGTAAAAAGGTGCTGAAGTGACACAAGGAAAATATTATTACGGAACAGGAAGGAGAAAAAGTGCTATTGCTAGAGTGAGAGTATTTAATACTCCAGGATCTGTTACTGTTAATGGAAAATCTTTAGAGAATTTTATTACTGTAGATGCATGGAAACAACATGCTATTAGACCTCTTGTAGTTACTGATATGGAAGGTTCTTTGACTGTGAGCATTAAAAGTCATGGGGGAGGAATATCTGGTCAAGCTGGAGCTATCTCTTTAGGAATAGCTAGAGCTATTATCAATTTAGATCCTAATCTAAGAAAAGCACTAAAATCTGCAGGTTTGTTGACTCGTGATTCTAGAGTTAAAGAAAGTAAAAAATATGGTCTTAAGAGAGCTAGAAAGGCTCCTCAATATACTAAGAGATAGTTTCTTATTTGATGTTGGATATTTCTACTATTCTGTCTTTTCCTGAAAGATCTTTTAAAGAAAGTATTTTTGCTGATTTTAAATAAATATTGATGATATTTTTTACATATTTTAATTGAGTACTATCTATTTCAAGGATTACTTTACTATCGGTTCCTTTAACAATTTTCGGNAGTAACTTTATTAAATCTGTGATTAATTCTATTCCGTTTTCGCCTCCATCAAGAGCCAATCTGGGTTCGAATTTTAATTCAGGCGGTAAACTAGGAAACCTATTTTTAGGAATATACGGAAGATTAGCTAAAATAAAATCATATTTCATCGATAAATGATCACGAAAATCTTCATTAAAAAGATTTATTTTCCCATNTAAATTATGTAATTCAATATTTTTTTTAGTTAAATTAATTGCTTCTTTAGAGATATCTAAAGCATTTACAGTCAGTAAAGGTGACATTAACTTGAGAATTATAGCTATTATCCCACTCCCAGTACCTATATCTAAAACAGATAATTTAATGTTTGAAGATTTTGGAATATTGTATAAACATCTATCTATCAATAACTCTGTCTCAGGTCTAGGTATCAAAATGCCAGAATAAATATGAAATTTTTTCCCATAAAAATAACAATTTTCAGTAATGTAAGGGAGAGGGATTCTTTGTTTTCTTTTTTTTAATACTTTAATTATATTTTTATATTCTTTTTCAGAACATTGTTTATTTATATTTGAATATAATTTTTCTGTAGAAATACCAAGTACATTTTCAATAATTATTTCAGACTCGATTTGGGATTCAGAGATATTTTTTTTGAATAATTCATCTCTTATTTCTTTAAGTATCTCTCCAATAGTTGGCATAAATACTAAGAGTTAATTAATTTTCTAGCTTGAAATTCTTGAATAAGAGGATTAATAATTTCATCTAGATTGCCATCTAGAATTGATGGTAAATTATGAGATGTGAAATTAATTCTATGATCAGTAACTCTTCCTTGTGGAAAGTTATAAGTTCTAATTTTTTCTGATCTATCACCTGTTCCTACTTGTATTCTTCTATCTTTTTCTAATTGTTCTTGTTGTTTTTTATATTCTATATCCCATATTTTAGCTTTCAATAAGTCCATTGCTATTAGGCGGTTTTGACTTTGAGATCTTTCTCTTTGGCATGTAACTATTATTCCAGTTGGATTATGTGTTAATCGTACTGCGGTAGCAACCTTATTAACATTTTGTCCCCCTGCTCCACCAGAATGGAATATATCAGTTCTTATATCTTCTAGATTTATTTCTATATCTATCTCTTCTAATTTTGGCAGTATTGCAACTGTAATAGCAGAAGTATGGATTCTACCTTGTGATTCTGTTGAAGGAACTCTTTGGACTCTGTGCGTTCCAGCTTCGTGTTTTAATCTACTAAATACTCCTTTACCTTTTATTTCAAAAGTAACTTCTTTTAAGCCTCCTAGTCCTGTATCATTTATATTAACAATTTGAGTCTTCCAACTATTTAATTCTGAGTATCTTTGATACATTCTGTATATTTCAGCAGCGAAAAGGCCTGCTTCATCTCCGCCTGTTCCTGCTCTAATTTCAACTATAGCATCNGCTTCATCTCTTATATCTTTGGGTATGAGTTCTTTCTTTAAGTTTTCTGAAATCAATTTAATTTTTTCGGAGATTTCTTTTTGTTCTATTTTTGCAAGTTCTATAATTTCAGGATCTGAATCTGTTTCTTCAATATTTTTTGAATTGATAAACTCTTTCTCAAAATTATTATATTGATCAAATAATGAGACAATATTTTTTAATTGATTATGCTCTTTGGCTAATTTAGTGATAGTGTCTGGGTTTGAAGCATTTTTAGGATTAGCCATTAATTCTTCTATCTCTATAAAACGAGTTTTAATATTTTTTAATTTTTCAATGGTTTGTTCATTCATAATAGATTTGTAGTGGAGGAGTTTACTTTTCTTTTAAGATCTTAAGTATGTTTTTTGATGATAACTCTACTGTTTTTTCTGACGAATCATTTAAGTTTTTTATAGAAGCANATTTTTTTTCTAATTCGTTTTTTCCTATTATCAAAACATTTTTAGAATCACATGAGTTAGCATATCTCATTTGACCTTTAATGCTTCTATTTTTGGGAGCTAATATTACTGAGATATTATTTTTTCGTAGAAAAGTAGCTATTTCTATGGAAGTATCAGTAATATGTTGACCTCCAACACTAATAATCATTAATTCTGGGCCTTTATTGTCATAAGAATCAGGGAGAAGAATCTTTTGATTTTTTAGATTTAGAATAATTCTTTCTATGCCGCTCCCAAAACCTACTCCTGGTACATCTGGACCTCCCAGTAAACTCATCAAACCATCATATCTTCCTCCGGACAATATACTGCTTTGAGATTTTTCCTCATTAGGATGTATTTCAAAAACAGTTCTATTATAATAATCTAGGCCTCTCACTAATTTGTGATCTATTTCTATATCAAATTCATTATAAGTTTTTGTTAATTTTTGAATGTTATTTAGTACTGAATTCCAGTGTGTTTCACTTTCTTCATCTAAATAATCTATTGATTTTGGGGAATTTTCTTTTAAAGTTAGTAATTTTTCATCTTTTGAGTCTAATAATCTTATTGGATTTGTTTCAAGTCTTTTTTTATCTACGGAATTCATTTGAGATTTATAAGGGNCAAAAAATAGTTTTAAGTCTTCGGAAAACTTAGATCTTGTAGTTACATCTCCTATACTATTAATCTTAATTTTAAGATTTTTTAAACCTAAAGAATTAAGATAATGTAGTGCTAGTTCTATTAACTCTGAATCAATTTCTGGAGATTCATCTCCAAAAATTTCTGCTCCAAATTGGTGATGTTGCCTTAAACGTCCTGATTGAGGTCTTTCATGTCTATACATTGAACTTATATAAAATAACCTTACAGGTTTTGAAAGGTTATTCATTCCATTCTCTATAAATGATCTACAAGTAGCAGCTGTTCCTTCTGGTTTTAGTGTAAAACTTTTTTCACTTGAATCTGTGAAAGAGTACATTTCTTTTTGAACTATGTCAGAATCTGATCCTACTCCCCTCTTAAAGAGTTCGGTTTCTTCAAAAGTAGGTGTGGCTATTTCTTTAAAGCCAAAAGTTTCAGAAGATTTTTTTGCTATATCTTTAACAAAATTCCAATTATTTTGTTGATCTGGCAAAATATCTGATGTTCCTCTGGGTGCTTGATACATATTAACCTTATCTTTGCTGGAATATTTTACCCTCAGTTTTGATAGAGGGAGCTAGTACAAGTTCAGAATTGTGCATTTGTTTTATGTTTTTAGCTCCAAGCATTCCCATAGATACTTTTAGCGCTCCTACTAAATTCAAGGTACCATCTGTTGATGACGATGGGCCAAATAAAAGAGTTTTTAATTTTGTTTTTCTTCCAACATTAATTCTAGTTCCCCTAGGAAGAGAATCGTGAGGTGTTGCCATTCCCCAGTTATATCCTAACCCAGGAGCTTCTAGTGTTTGAGCAAATGGGGTTCCTATCATTACCGCATCTGCTCCTGAGGCGATAGCTTTACATACATCTCCTCCTGTTCTAATGCCTCCATCAGTAATAATTGGAACATATCTTCCTGTTTCATCAAAATAATTATCTCTTGCTAATGAACAATCTAATGTTGCAGTTACTTGAGGTACTCCTATTCCAAGTACCTCTCTACTGGTACAAGCGGCACCTGGTCCTACCCCTACTAAAATGCCATCTATATTTTCTTCCATTAAGGCTTTTGTCACACTATAGCTTACAGTGTTCCCTACTAAAACAGGCATTTTAAGATTTTTCTTAATTTCAGAAAATATTAAACCTACTGGACTGTTGGAACGATGTTGTGCAGTAGTGACAGTACTTTGCACTATCAATATATCTGCACCTGCGTCTTTAATAATTTTTAGAGTTTTTTTTGTATTTGCAGGAATGATAGAAACTGCACACTTAGAACCAGAATCTTTTATTTGTAAAATTCTTTTTTCTATCAGGGAATTTTTTACTGGTTCAGAGTAGATTTTTTGCATTAATTCCGTGGCTTTTTCTTCCTTAGCTTTAGAAATATCTTGAAAAATTTCTTCCGTATTTTCATACCTACAATAAATTCCATCTAAGTTTAAAACAGCTAATCCTCCTAATTTATCAAGTTGTTTAATAAATTTTGGAGACGAAATAGCATCCATGGCAGAAGCAAAAAAGGGTATTTTAAGAGAAATATCTTGAATTTCTATTGATGTGTCTGTTAGTTCTGGGTTAATAGTTATCTCGCCAGGGCTTATTGACACATCATCAAAACCATAAGCTTTTTTCATTTTTCTTGAATTATTTTTCATGTTAATAATTAATTTATTTTAGTATGAATAAAACATAATGAAATAGATTTGTAAACATATCTCAATAAAATTTGTGATAATCTTTCTTGGCTATTGAATATTATAGAGTTCTTAGAAATTTAAAATAAGGGTTTAAAAATGAGTGGNAAAATTAGAAGGTTTTCTTCGATAGGCATTATAGGTGCTGGTCGTTTAGGATGTAGTTTGGCTTTAGGTCTAATTGAAGAAAAATATAATTTGACGGCCGTATCTTCTAGTAATTCAAAAGTTAAAAAAATCTTAGAAAAAGTTTCTACTTCTACTGTTGTTTTTTCAGATCCTCAAGAAGTGATAGATGCTTCAGAAATAATTTTTTTTACTACTAAAGATGACAGTATATCTTTACTCATTAACTCATTATCTATTCCTAGAGAAAAATTTTTGATCCATTGTTCAGGATCTCTAAGCTTGAATGTATTAGAGAAAAATAAATCAGGATTTAAAATAGGCAATTTTCATCCTATTCAAACATTTCCTAACATTACTTCTCAGAAGAATCTTAGAAATATATATTTTTCTATTGATTCATCGGATTCAGATTTAGAGAATTGGTTAAAAAAGGTAGCTATTAGTTTTAATAGTGATGTGATCAAAATTCCNCATCAAAATAAAGATTTATATCATGCTATTTGTGTTTTGAATTGTGCTCTTTTAGTTTCATTAATAGGACATTCTTCGAAATTGTGGTCAAATATAGGAATAAATTCTGAAACAGGAATTAAGATTACACTTCCAATGATAAAAACAACGCTTCAATCAATATTGGATTTTGGTTCTTTTGAGGCTCTTTCTGGACCTCTAATAAGAGGTGATTTAGAAACTATAAAAAGAAATATTACCGTTTTAGGTGAACATTCTGAATATAGTAAGAAAATTTATATTCTCTTATCATCTATGGCTCTTGATATGGATAGTAGTAAATTTAATCTTTCAAAAGAAAAATTTGGACAAATTAAACAAATTTTACAATTAAATGATTAAAATATATGAAATCTTAATTTTTATGAGGAAATAAGTGGAAATATTAAGGANCATAAAAGAGTTAAAATCAAAATTAATTTTGACTGATGGATCAATAGGTTTAGTTCCTACTATGGGGAGTTTGCATAAAGGTCATTTATCTTTATTGGATTATGCAAGAAAAGAGAATGAAATTTTAGTTGCATCTCTATTTGTTAACCCTAAGCAATTTAGTCCACAGGAAGATTTTCAAAATTATCCTAGAGATGTTCAAAAAGATATTTCAATATTTTCAGATTCAAGTGTTGATTTTGTTTTTATCCCTGATGAGNATCAAATATATCCTAAAAATTTTTCTACATATATTAATAATCATTTTGAAGGTGAAACATTTGAAGGAGAATTTCGTGATAGTCATTTTGAAGGTGTTTTAACTGTAGTAGCAAAATTGATCAACATTGTTAATCCAAAAAGAATATATTTTGGAGAAAAAGATGCTCAACAATTATTTTTAGTTAAAAAGATGGTTTCAGATCTAAATTTTGATGTGATTATAAGATCTGTAGAAACAATTAGAGAATCTAATGGTCTTGCTTGTAGTAGTAGAAATTCTTATCTTTCGAGAGAAGATTTCATTGGTGCAGGAAATATATATAAATCTTTATTAAAAGTGTCTACTTCATGGAAAGAAGGAGAAAATAATTTTTCTATACTTAAAAAAAGTTTTTTAAAGAACTTGGAAAATATGGATGGTATGGTAATTCAGTATGCTGAAATTTTAGATCCAAATACTTTTAAATCTATAGATTCTATAAATGAAATTAAGGAAGCTATTTTTATTGTTGCAGTTATTTTCAAGGGAATAAGGTTAATTGATAATATAACTTTAGATTAAGTTTTCTTATATTGTTCTACTTTATCTACATAAATGTTAAAAGATAATTTTATTAATTCTACGTGTCTTTCAGTCAATTTACCTCTAATCCTTGCTGGGGTACCAGTAATTAAAGAATTGGACGGTATTTTCATGTTTTCTAGTACTGTAGATCCTGCTGCTACTAAGCAAAAATCTCCTATTTCTACTCCTTCATTCAAAATACTTCCGTTTCCTAAAAGACAATTGTCAGAAATTTTTGTAGCGTGACAAATTACTCCATGTCCAATAGTCACGTTATTTCCTATTTTAGAGTTTCCATCCGAATGAATTACAGAGTTATCTTGGATATTTGTTCTTTCTCCTATAGTGATTTTTCCATTATCAGCTCTAATTACTGCACCAGGCCAAACACTTGATTCTGCTCCAATCTTTACATCTCCTAACAATATAGATGTTTCATGAACATATGCTTGTGAATCTATTTGTGGATATTTTCCATTGACTTTAAATAACATTTTTAGTTGTTTCCTCTAATTAGCAATTTATAAAATTATGATTTCTTACGATAGATCCAAAGATTTATTTTATTATATTGTTACTAAAAAAAAACCTTTTTTCTTATTTTAAATATCTTCCCAATAAATAAGAAATTCAACAATAAAAANGGTTTATTATGGAAGTTCNGGGAAATTCAAATCAAACTTGATTGATATAGGTGTATCAGACTCCAACATCTTGTATTTTTCTTTTGCTTGTACTGATTTTGTATCAGGAGAACCTATGTGAAAAGTGATAAATTTTCCATAATCAGAATTTTTTTTCGCTCCAATCACTACGTTCATATAAGTTCCAGATTGTGTCTCTGCAATTAAAGATCTATGATCGCCTAATTTTGCATATATTGGTACTCCCGCAGGTATATCATTCCCATCAACTCTTGCAAAACCTTGAAAAATCACAGGCCATCCTGGTTTAGAAAGTTCATTTTCAATGGTTTGAGAATTGTCTTGGTTATCACTACATGAGAGAGAAATTAGAAATAATATACTTGTTAATAAAATTTTTTTATACATATTGTTTAAATTTTTGGTTTTTGTTTATGCCAGTTAGAAATTTTTTGTATTGAATTTCCAACATTCATAATTTTTGATTCTGAGAAATGTGGACCCATTATTTGTAGCCCTACAGGGAGATTATCTGAAAAATTACAAGGAATTGAAATAGCAGGAATTCCAGCTATATTTGCAGGTATTGTACATATATCATTCAAGTACATTGCTAAAGGGTTATCTACTTTTGATTTTAAGTCAAAAGCTACGCATGGGGATGTAGGAGAAATAAGAACATCATATTTTTTAAATTCATTAAGTATGGATTCAGTTAGAAGTGTTCTTACCTGTTGAGCCTTCTTGTAATATGCATCGTAATATCCTGATGAAAGAGCATATGTGCCTATTAATATTCTCCTTTTGACCTCATCGCCAAATCCTTCTCCTCTAGTAAATTCGATAGTTTCCCAAATGGTTTTTGATGATTTATTAGAAAATCCGTATTTAAAACCATCATATCTTGCTAGATTTGATGAAGCCTCTGAAGGAGCTATTAAATAATAAATTGATACAGCTTGTTCCAATAAAGGTATTCTTGTTTTTGATACAGTAGCTCCGAGATCTTTAAGTATAGAAATACTTTCATTTACAGAAGTGTTTACTCCTTCCTCAACACCTTCCCCAAAAAGATTTTCAATTATTCCTATTTTCATACCTTTGATTTCTTTATTAATTTCTTTAGAGTATTTTGGGATTTCAATTTTTGAAGAAGTAGAATCTGCATTATCATAGCCGGCAATTACTTCAAGTATTTCAGCACAATCTTCCACATTCTTAGTCATTGGCCCTATTTGATCTAGAGAACTTCCAAATGCAATTAATCCAAACCTACTTACTAATCCATATGTAGGTTTTAGTCCTACAATTCCACATAATGCAGCTGGTTGTCTAATACTTCCACCTGTATCAGATCCTAGAGACCCAATACACAATCTAGATGCAACAGATGCTGCTGGCCCGCCACTACTTCCACCTGGAACTTTTTTCAGATTCCATGGGTTTTTTACTGGTCCAAATGCTGAGTTTTCATTAGATGAACCCATTGCAAATTCATCCATATTAGCTTTTCCAATTATTATTGCTCCTGCATCTATCAATTTTGTAATTACAGTCGCGTTAAAAGTAGGTTTATAGTTGGATAAAATTTTTGATGCTGCTGTAGTAGTGATATCTTTAGTAGAAATATTGTCTTTGATTATCAAAGGAACACCTAGTAATGGGAATTTATCTAGATCTTTATTGTTATTGACAATAAATTCTATCTCTTCAGCTCGTTTTAGAGATTTTTCTTTTTCAATGGTTATGACGCTATTGATTTTAGAGTCAATATTTTTTATTCGTTCAATAAAATATGTTGTTAAATCTGTTGCTTTTATTTGGCGAGTTTTTACTTTGTTTACAACATCTTTAATAGTGGTTTCTAGAATTTCATCTCTCTCTTGTAACATTGCAGTATTATTTATCTAGAACTTTTTTAATTTTGAAGAACTTTTTTAATTTTGAAGGAGCATTTTTTAATACTTCTTCAGTATTCATTGATTTTGAAGTTATATCTTCTCTTTGACTATTAATAATATTCAAAGGATGTCCAGTCATTTTTATGCTTTCTGTATTTATGTCCTCTAATGAAGAAAAATATTCCAAAACTTTTGATAAATCTAATGCTAACTTGTCTAATTCATCTTCATCCAATTGTAAATGAGATAACTTTGCAAGATTTTGTAATTCTTTCTTTGATAATAGTTCCATAGGACCCTCTTTAAAATACTAAATTTAACATTAATTTTCCCTTTAGTAAAAATGGTTATAGTTAAAAAAAGTTATTTATTTGACTAAAACTATTCAGGTTCCTAGAATTGTTTAATTGATTTATTGTTTGTTTCAATAAATGAAATTAAAAACTGATTTAAGAGTACTTAATATAGTATGAGTAAATACATCTTTGTGACGGGTGGAGTAGTTAGTTCTCTTGGTAAAGGGATTGTTTCAGCATCTATTGGAAGGATATTAAAAAGCAGAGGATTCTCAGTTACTATTCTTAAATTAGACCCCTATTTGAACATTGATCCTGGTACGATGTCACCTTATCAACACGGAGAAGTTTTTGTTACTCGAGATGGTTCTGAAACAGACTTGGATTTAGGTCATTATGAAAGATTTATTGATGAAGAATTAACGAAAAACTCCAATGTCACTGCAGGTCAAATTTATAGTGAAGTGATTAAGGAAGAGAGACAAGGGACTTACTTAGGTGGTACTATCCAAACAGTTCCCCATGTTACTGATGTTATAAAAAATAAGATTTCTCAAATATCTAATAAAGGAAATGTAGACGTTGTAATTCTAGAAATCGGAGGGACTGTTGGAGATATAGAAGGGCAACCTTTTCTTGAGTCAATCCGACAAATAAGAAATGATATAGGTTCTACAAATACGTTTAGCCTTCATTTGACATTACTTCCTTACTTAGGCGCTACAAAAGAATTAAAAACTAAACCTACTCAACATAGTGTTAATACTTTAAGAGGTACAGGTATTCAACCTGATGCAATAATTTGTAGGAGTGATTTTCCAGTAGAATCTGATGTTAAGAAAAAGATTTCTCTTTATTGTGATGTTCCTGAAGAAAATGTTTTTTCTCTTGAAACGTTAGATACCATTTATGCTGTTCCTCTTGTTTTAGAAGAACAATTTATGGGAGATATATTAGTTAATAAACTGAATCTAAAAAAGGCTGAATCAAGTCAAGGTCTTTTAAAAGATTGGAACAATATAGTTGATTTAATTAGGAAACCCAAGGATTCTGTAAAAATTGCTGTTGTTGGTAAGTATGCAGATTTACCTGATTCATATCTTTCTGTTAAAGAAGCATTAATTCATGCTGGGATACATAATGGATATGATGTGGAAATAGAATGGGTAACCTCAGAAAGGCTTGAAGTGGAAGATCCGGAAAAGTTGTTATCTTTGATTTCTGGCATTGTAATACCTGGAGGATTTGGGCCTAGAGGAATTGAAGGTATGATAAGAGCTGCTAATTATTCTAGGGTTAAAGGAATTCCTTATTTAGGCTTATGTTTGGGAATGCAAATCATGGTTGTCGAATTTTGTAGATCAAAACTGGGTTTGGATTTAGCGCATTCTATAGAATTCGATGAAGATACGCCTCATCCTGTTATTTCTTTTTTACCAGGTCAAGAAGATATATCTCAAAAAGGTGGAACTATGAGGTTAGGAATATATCCATGTAAGTTGCAAAAAGGCTCTATTGCAATGAAGGCTTATAAAAAAGATTTTATTGAAGAAAGGCATAGGCATAGGTATGAGGTAAACAATGAATATAGATCATCTATGGAAAAATCTGGATTATTAGCTAGTGGAGTATCGCCTGATAATAAATTAGTAGAAATTTCTGAGATAGTTGATCATCCATTCATGATTGGGAGTCAATTTCACCCTGAGTTTCTATCTAGGCCTAATAACCCCCACCCTTTATTTAGAGAGTTTGTTAATGTTGCTAAAGGGATTATAAGAGAGGGTTCACAGCATAAATTAGTATAATTTTTATTATTTCAGAAAATTGTATTTATTTAATGTTGCAGTAATTGATCTAATCAGTGTATGATAGTGATGTTTTCAAATACACTGTCCAATTTAGGGCAAATTCCAATAGTAATTCTCATAGTGTAGAAATTCTCTTATTAACTTAATTTTGGTTAATTAGATTTAGAGGGTTATTTTTATAATGAAATTAAAACCTAGAAAAATTCAATTTTAAGATATATTCATGGAGGTATTGGCTTGGCTGATACAATTGATAAACCTATTAAAAAACCAACTACTAGAACCAGGAAAGTAACTCCTAGGAGAAAACCTGTTTCAAAACCTAGTATTGTGAATTTGGATAATTTGGATAATGGTACAAGCTCCATAAAACCTAGAAATGGAAAAGTTCCAAAACCTGAAGTTGAGCAAGAAGAGAATCAATTTTCTGGTTTATTTACTAAGTCCCCAGAAGAATTAATGCAATTGGCTACAGAATTAGGAGTTGATCCTGCAAAGATTTCTAGAAAGATAGACTTACTTATTTCATTAATGTCAGTTATAGCTGAAAGATCAGATGTTTTAATAGGAGCCGGTGTTTTAGATGTTCTCCATGATGGTTTTGGATTTTTAAGAAACCCAGAAGGGTCTGATAAAAAAGAAGATATTTATGTTTCTCAAACTCAAATTAGACGTTTTGGTTTGAGAAAAGGAGATTTTGTTGCAGGTCAAGTAAGACCACCTAAAGATAATGAGAAATATTATGGATTAATAAGGGTGGAAATGGTTAATGGTGATGGACCAGACTCTTCTAAGAATAGAGGTAGATTTGAAAAATATACTTCTATATATCCTAATGAAAAATTAGTTTTAGAAACCGCAGTTCAACCTTTTTCTACTCGTTTAATTGATATTATTTCTCCAATAGGTAAAGGTCAGAGAGCATTAATAGTTGCTCCACCAAAAGCTGGGAAAACAGTTCTTCTCAAAGAAATTGCCTCTGGTATTTCAGAAAATTACCCTGAAGTAGTATTAATAGTTGCTCTTATTGGTGAAAGACCTGAAGAGGTAACTGATATGAGGCGATCTGTTAAAGGGGAAGTCTATAGTTCAACTTTTGATGAACCTGTGGAAGATCATTGTAGAATGGCTGAACTGGCTCTTAATAGGGCATATCGTTTAGTAGAATCCGGACAAGATGTAACTATATTGTTAGATAGTTTAACTAGATTAGCTAGAGCATATAATTTGAAAATCCCTAGTAGTGGAAGAACACTTTCTGGTGGAATGGATCCTCTGGCTTTATACCCTCCTAAGAAATTTTTTGGTGCAGCAAGAAATTGTGAGGAAAGTGGAAGCCTTACAATTATTGCTAGTTGTTTAGTTGATACTGGAAGCAGATTAGATGATTTAATTTATGAAGAATTTAAGGGTACAGGTAATATGGAATTACATTTAGATAGAAGATTAGCAGAACAAAGAGTTTTCCCTTCTATTGAAATGTCAAAGAGTGGAACTAGACACGAGGAACTACTTTTGGATGAGTATACTTTAAAGCAGTCTACTTTGCTTAGAAGGATGATGGCTTTATCTAACTCACATTCTGATGCCACATCTGACCCTTCAGATTTTGCTAAAAGAATTTTAAGAGAAATGGGGAAAACAAAATCTAACGAAGAGTTCTTGAAGTTTGATTTCTTGAAAAAGAAAAATGGTTATTGAGTAAAAATTTACTAATAATCACTGTTTTTTTGTTAATTTAGAGTAAATTTTGTTGTTTTTAAGCACTTTTATTAAAAAAAAGACTCGAAATGACGTTGACAGTTATAGCCTCTTTAACTTATATTCTGATTCAAGTCTAAATACAAATAGGTCAAAATTCTAATTTGAAAATTGATTTTAGTTGTAAAATAGGCAAATTAAATAGAAAAACTGCAAATAACATCTTGACATCGTGTGTTTAGAATGAAAAAATTTGGTAGTTAGTATAAATATAACTGGATAAAACTATGGTCTGTTTTATCTTGTTGTGCTAATCTTACATAAAGGTTTTTCTTGAAAACTAAATATAAGACCATTTAAAATTAATTAATTACAAAATTAATAAATTGAAAAAGTATAAAAAAATTAAGACCGTACCGCTGTCCGAATTCGAGGCAGCAGAGGTTCGAATGCCTTCAAGCATTCGAATTCGGGATAAAAGGGGGATACACGCAGTGAAAACATTAGTATCTGCGAAGACCCTAACAGCCTTAGCAGCAGGAATGTTGCTTATTGTTGGTTTGTTGGGGATCCAGAATTCAACCGATACGGCTCAGGCTGCTGCAACAGGATCAGTCAACCTTACTAATGGTTGGTCGAACCTAAGCACTGCTGCGAGCCCAGCTAAATTAGCTGCCGGAACTACTCCTACATATGTTGGATCAGGGAAGAGTTTGTATGTTACATTCACTTCTTCGGGAAGACTTATACAAAGTGGTTCTAACCAGTTAATTGTTTCAGTAGTAGACTCAGACTTAAATGCTTCTATTACTAAAAGTACAGTTGTGGTCCTACATGCTGACCACAGTTCATCTTCTACACTTATAGCAGCCACCATTGGTGGAACTGGTACAGGTGACTCAAAGATGATTCCTATTATTGATAGTTCCGGTAACGGATCTGTTGGTGGAGAGGATATAACTACTGCATGTAAGTGGATTGGACATGGTTCATATAATAACCTTGGTGCAGCCGCTACAACTGCTACTACAAAATTAATGAATATAGGTAGTGATGGTGACTTCAACCTGAAACTTGACAACACAGCCTACGATGCAGCTTCAGCAGGTCAATTTAATGATTTGCCAGACTGTAGTACTGCAACTGCTGGATTTATTTCAGTAGATGTTAATAATGCAGGTGATGTTGCTAATAACCAGGCTGCGAAGATCACAGTCTCAACTGCCAACAACAAATTGAACGTTGTTAACCCACCTGTGGCTGTGGACAATGCAGAAGGAACTAATGCAGAGTATCCAGTTGTTTTGATGTCTCTATCATGGAGCACAAGTCAGGTGAACACTACTTCTGTAACTGCATGGAGTGGTGTAGTGACTTCAAGTAATGCTATATCTATAGTTCTTGAAGAAACTGGTAGAAATACCGGAGTTTTCGAACAGTTATTTACAGTGTTCGATAACCAAAATACAGAAATGCCTCTAGGAATGATCCAGAGCGTAGCTGATGGAACAGGAATTGTTTTAACAGCAACCGGTGATCAGACTACATACCCTGTAGGATCTTTTGGGCATGATATTCCAGCAACTTGTGCTAATGATTGTGCAACTCCTACTGGAAGAAGCGTCACTTCTGCTACAAGTACATTAGCAGTTAAAGATGGCGGAACAGTATATGTTAAATACATAGATGCTGCTACTAAAGATTCTACTAACGTGTCAACTACAGTTTCGGCTAAAGTTGATGCTACGATTCCTACAGTAGCTGTTAATAGCCCAGCTCATTCTTCTGAGAATCAGACTAGAGTACCTACTATTAGTTTGACTGCTACAGATGCAGGTGCAGGACTTGATGTGTCACAGGCTATACTGTTATTAGATGAAGAAAATGATGATACTGAAGACAAAGCATACTCAGATGATAACGATGGAACCTCAAATGGTGCTGACGTTATAACTTCTGACAGTGCAGCAAGTATCAATAGTAATGCTACTGGAGTAACTGGAGTAAATGCGAGCCAGGCTGAACTTCTTGTTCTTTATGGATTCTCTACTGCGGGTGCTCTTAATGGTGGAAGCCACGACAGCTACACTGTAGCTACTGGTGGTGTAACAGTTGATAGAGGAACTTCAACAGATGGTTCAAGTTCAATGACTTACACTCATACTCCATCAGCTAGTTTACCTATAGATGGAAACAGTAACTTGACTCTTCCAGTGAACCACTGGGTAGATTTCATTGGTGTTGCTTCTGACTTAGCAGGTAACGTTGGATTCTCTGACTCTGACTCAACTGCTAGTGTTGGTATATTAGGTAAATACGCTCCTCACCACATTAAGATTGACCAGAAATTGCCTTCTATAAGTAGTGCAAATACCGGTTGGTGGTGGGACACAAGTCTTGACGTAAGAGACAAGACTCACAAGAACACAACAACTAAAGCTACGGCTGTTGTTGTAAACTTTGACGGAAACGTTACAGATGTTGATGCAACTGACTTCCTAATCACTTATGATGACGGAACAACGCATACTCCATCTTCAGCTGTAGTTTATGACTTTATTCCAGATGCTGGTGACAGTTCAGTAAGTGAAGGAACTCAAAGAGTATTCCTTACTTTAGACTCGTCAATGGCTGCTAATGATACTCCAAAAGTTGCATTAGCTGGTTCAGTGTCTGATAAAGCAGGAAATGCTACGGCAACAGGTTCATTAGGAAACGCTACTGATACCATTGATCCTACTATCACGGCTATATTGTCTGGTGGTTCAGGAACTGGTACTGGCGCGGAAGGTGCATCTGGTCTAACTAAGAATACAGTTACATTAACAGTAACAACTGATGAAGAGTTAATCTCTAACCCAACTGTTACTGTACATGACCTTGGAATGGCCAAGGCTGGTGGTGGAGATACAGCAACAACTGCTGGTAATGCATACTTGGGTCCTTGTGGTGCTGTTAGCACTTGTGGATTCGGAGCATCTAGAGTTGAAATAACAGCTTATGGTTCAAGTGCAGGAGCTACTGACTCAGCAGACTGGGTTGGTGCTTCAACTACAGCACAAGGCGCTAAGAGCTTCACTCTATCAATAGCTAAGGGAACTCCAGGTTATGATGGTACTAAGACTGTAATAGTCTCAGCTACCGACAAAGCTACTGCTGGAAATACTAAAACTTCTGGTACAGCTTCAAGTTCAACTGATCAAATTAAGTTCGTGTTTGACACAACTGCTGCAACTCTAGTGATTTCGCCAGCGGCGGCATCAACTACAACGCAGAGAAGGCCATACATTGTTCTTGATTACAGTGATGACTTAAGTAAAGTAACAATTAGTAAAGCTACTTTGGACGGAGTAGACATTAGTGGTGATCTATCTACTACTGATAACAAGAAATTCTACTACGTACCATCTGCAGACCTTACAGCTGCTAGCCATACAGTTATTGCTAAAATGACTGACTATGCTGGTAATGCAACGTCTGAAGAATCTAAATCCTTTACTGTGGCTGCTAGAAAAGACTTCAAAATCACATTGTTAGCTGGTTGGAACGCAGTTTCTATACCTTCTAATCCTGTAACTAGTGATATAGATACAGTATTCAGCAATGCTGGTGTTGACCAAGTCTTGGCTTATCAGAACCACGCATGGCATATTGCCACCAAAGATGCATCATCAGGAACATTTGCTAGTACGAGCGAGTCTCCACTAACTAGTGTTTCTCAGGGTGTTGGTTATTGGGTACACAACAACAACTTTGAAAGTCAAGCTGTGGCTCTAGTAGGTCCAGTAGAACCTTCAGCTGGTACCCCTCCAGCGGTGGTCACTATACCTACAGTTGCTGGTTGGAACTTCGTAGGTGTTGTAGATGTGTCTAGAGCTAATACTGAAGGTGCTGATGGTACTACTATCACTACTTCCAACTTATACTTCGGTGACTTGGTTGATGGAAATGCTGGTGGACATGATATTGTCTACAAGTATGACACAACTAACTTGAAGTTCGTTGAAGTAGCTGAAGGTACTAACGTAACAACTGGACAAGGATTGTGGATATACGTGAAACCTCAATCTGATGGATCAGTGTTAGCAATCGTACCACCTAGTCCATAAACAGAATTAGGTAAAAACGAGTAAAAATAATATGGCCTCCTGTAGAAATGCAGGAGGCCATTTTTATATACTTTAGGGGAATTGTTATTATATGAATATTATGTTTATGAATTTTAAAACATTATTAATAGGAGTTGTGACATCTTTTCTGCTTACTGCAGGACTATTTGTTACTTCAGATTTTGTGAAAGCTGATAGTCACGGGGAATTTAATTTTATACCTCGGATTATTGTATTTCAGGGAAATGTATTTATTAATGGTAAAAGAATCAATGAGTATGAAACTGATATAACTGATGGCATTACATTAATTGCTAAATCAGGTGATATTGAACTTACAACTGAAGTAGGTTCATTTACTGCTGGCAGATATCATATCCAACTTGGGCCTAATTTAGATGAAAATTCAACTTTTGAAATTTGGCTTGAAAATCAAGTTAAAGCTGAGGAATCATTATTTTATGGTGCTGATTCTAATGGCAAATGGAGTTTATCTGTAATACAAGATCTTCATTTTTCAGAAATGCCAGTCGCTACTCCTACTCCTACACCTATACCTCCAACCCCAACCCCAACACCAGTTGTTGTGCAGCCTTCATTTTTAAGTGGTCAAATAGTATCTGGTAGTTCAGGTGAAAATGCAGGTGCAGGTTTAAAATTATATGCAGTTATTAATGATTACACTTCTGAAACTGTTGAAATAGAAGATGGTTTTTTTAAAATTGTTGTTGACCCTAAATATGATTATTATGTAGGGGAAGATATTGTATTTATACTAGAAGGCATAAAAGCTTTAACCACTCATAAGTTTTTAGCAGGTGAATTTAATAAGGAAGTTAATTTAATTTTCCCAAATATTCCAGCTACACCTGTCCCACCAACCCCAACACCAATTCCTCCAACACCAAAACCTAGTGTTCCTGAACCAACAAGGACACCTGTTCCTGCAGTAATAGAAAAAATTATTGTAGAAGTTACTTCTACACCTACTCCTACACCTTTACCAGTCATAGAACCTAAAGAGGAGAAAGTTGAGGAACAAAAAAGTGAAATTGTAGTTGTAGAAGAAGAATCTAGTGGAGGAGCATGTGGTGCTAATATCGATCCCAATGCACCAATATCTTCAGGTCATATTGCAATGTTATTATCTCCACTGATATTTATTGGTTTTAGAAGAATTTTTGGAAGAAACTAATTATTTACTGAACTACACAGGCTTAAGGTAAATTACTTTTAATCCATCAGAGCTGTTAAGGTTAGATCTCGTCAAAGAGGCCTTAGTAATGCTTTCTTCTATCTCTACACCTAGTTCAGATGAAAAAAGCTTCTGTGTGGGCGTTGTTTGTTCAGAGAATTTGTAATTCATTGGGATCACTACTCTAGGATCAATAGATCTAATTAAATTCGTTAACTCATCCATATTAAAAGAGGAAGTGTTTAGTGGAATGAAAAGAATATCTACTCCTGAAATATTTTGAGCAATTAATGATGTGGATAACATCAAATTAAGATTTCCTAAATGACATATAGATAAATTTTCACATTCGGCTACTATAATGTTATTTATTGTAGATTCATCCTTAGTTTCTGGATTTCCATGAGCTACACCTTTTAATCCTATCTTGCCAAATTCATATTCTCCAGGTCCGAAGATTGTTTTAGATTCTTTGGCAATTTTTCCTTTTGTAGATTCATAAAGTGATTCAGAACTAAATGTAAGTACAGTATTTGGATCTTTTTGATCATCTGTAGATAAATTATCTATTTTAGGATCAAATATAATTTTTCCAGAATTTGTATCTGTTACTATAGTGTTGCCACTTTTCCAGCTTATTTTCATGATCACCTCATTATTTGATCATTGGTACTTTTTTAGATTTTTTATAGAATTACCAATATAAATAATTTTAATATATTTACTTTAACATTGCGTATAATGGTAACAAAATTTATTAGATATTTTTTTAAGAATTAATTTTTAATATGGACTCATTAAATACAAGAACAAAAGAAATTTTGAATATATTGATTGATGAATATGTCAATACTGGTTTTCCAGTGGGCTCTGAAACAATTGTTCAAAATAGTGAAATAGAAGTTAGTCCTGCTACTGTAAGAAGTGAAATGGGATTATTAACTAGAGAAGGATATATTTCTAAATTACATCAATTTTCTGGGAGCATTCCATCTCATAAAGGATATCAATTGTTTATTGAAATGATACCTGATGATGAACCTCCAGAAATAAATGATTTTGTTACTTTGAAAGGGAAATTAAATGTTTTACCAAAGACGTTTGAACATGTTTGTGAAAATGCTATGGCTGTTATTTCTGATTTAACAGGAGGAGTAGCTTTTAGTAAGGTGTACTCTTCTAGATCAATCTTAATTGATTTTAATTTTTTTCAAATAGATAACGAACTTGTAATTAGCTCTAAATTATCTAGTGGTACTGTTTTAGAAATCAAACTTCCTCTTATTAGAGAATTGAATTCTAATGAAATACAATTTTTAGATAATTTTATTAAGTCAGAAATATTTGGAAGAACAATTGATCAAATAGAACAATCTAAATACTCTGTATTTTCAACCGATTCGTTGTTACAACAAATTTGTTTGGAGATTTTTGAAATTTTTCTAGTTCGCATTAGAAGATCTGAAGAAGGAAAATTCAAGGGAGCTAATAGAGTTTTTGAACATCCAGATGTGATTTCTCAACCTATAATTGCTAAATCTTTGTTGGAGATGATTGATGATCCTTTGTTATTTGAAGATTTGATAGATTTATCTAATTATGAAAGTAATTTTAGAGTAATAATAGGAGAAGATAATATAGAGAACAATTTGAAATGGTTCTCTATAATTATTGCCCCATTTGGACTTAGTGATAGTTTAGGTGGATCTATTGGCTTGATAGTGCCAAAAAGAATTCCTTATAAAAGAATATTACCAATTGTAAAATATGCATCCATCTGGATAGATGGATTAATTAAGAGAAATATGGGAGAAAAATCACTGATTTTAGAATAGAATGTGATTGTATTTCCATATTTATATATCTAAGTTAATTGTGTATGAGTTCAAAGAAAGATTATTATGAAATATTAGGTGTTAATAAAAATTCATCTATTGAAGAAATTAAGAAGAAATTTCGTAAACTTGCTTTAGAATTTCATCCTGATAGAAATAAAGCCCCTGATGCATCAGAAAAATTTAAAGAAATAAATGAAGCATATCAAGTATTGGTAGACCCTGAGAAAAAGAAAATTTATGATCAATTTGGGCATTCTGGTTTAGACGGAAAATTTGGAGGATTTCAGCAAGGTGGCTTTGAAGATTTAGGTGGTTTTGGGGATATTTTTGAAACTTTTTTTGGAGGATCTTTTGGTTCTTCTAGATCTTCTTCGAATCAAACTTCACAAGGTAGAAGTCTAGAATATAGAGTTAAAATAAATTTTTATGAATCAGCATCAGGAAAAGATGAACCTTTAAAAATTGAAAGATTAGAGCAATGTATAACCTGTAAAGGTTCTAGAGCAAAACCAGGAACTGAAGTAGATTCTTGCTCTTCTTGTAATGGTTCTGGTCAAGTTAGAAGAATTCAAAGGACTATTTTTGGTCAATTTGAACAGAGAACTACATGTTCATCTTGTAATGGTTCTGGACAATTAATTAAAGTTTTGTGTTCAGATTGTAGAGGGAAGGGCCTATCGAAAGTTATGAAAGATTTGATAGTAAAAATACCTCCTGGGATTTCTGATGGTGATATAGTAAAGCTGACAAATCAAGGAGATCCTGGAATAAATGGAGGTCCGAATGGTGATATTTTAGTACATATTAATGTTGATCCACATGAGGTATTTGTAAGAAAAAACATCAACATTTTGTTAGGAGTAGATGTAGATATAGTTCAAGCATCATTGGGTAGAGAAATTACTATTCCTACAATTGAAGGTGAGACAATTATACAAGTTAAACCAGGTACTCAAAGTGGAGATCAGTTGAAGTTGTCAGGATTAGGATTTCCTGAAATAAATAATCCTCGTAAAAAAGGAGATATGATTGTTATTTTAAGAGTAATTACTCCTACTAAATTATCAAAAGAACAAAAATCACTTTTTGAAAGTTTAGAAAAATCTTTTGGTCATCAATCTAATGGAAAACTAAAAGAAACAGACCGTAAAAGTATATTTAGAAGAATAAAAGATGGTTTTCTTCAGGATGAATAAGAATAACTAAAGAATAGGATTTGAGATGAGTGAAAGAGGAAGTAAATGGGTAGAGTTGAAGATCAGAGTGAACTCAGAATATGTAGAACCTATTGTAAGGTTGTTTAATAAATATCTATCTGGAAAAGTTTATACTCAGATTATTGATTTTCAAGAAGAAGAAGAACATGCTAACTCCAGAGATTTAGATGTTGAGATAATAGGATATATTATTTCTAATGATAATATTTCAGAATATTTAACTAATATTGAGGTAGGGTTAAAGCTTTTTGAGAAAATTTTTAAAATTTCTGATTTAAAAAAGAGAGAAGTTTTTTCTGATACTTGGGAAAAACAAAAATTTCCTCCAATCAGTTTAGGAAAGGATATTGTAATAGTACCAAAAGAAAAAGACAAAATTAATTTTCTCCATAAAAAAACATTAGTTATTGAACCTTCTATGGCATTTGGTACTGGCCATCATGTAACAACAAAAATGTGTATAGAATTATTAGAAGATTTTATTGAAGGTGAAGAATCTGTAATTGATTTTGGCACAGGTACTGGGATATTAGCTCTTTGTTCTCTCTTGTTGGGGGCTAAAAGTGTTTTTTGTGTTGATAATGATATTGAATCTATATATTCATCTAAAAAGAATTTTGAAAAATCAGGTTTTATTTCAAAGGCTGAGTTCTTTCATGGAGATTTATCTACTATTCCAGAAAAAAATAAAAAATTTGATATTGTTTTAGCTAATTTGACTTCTCATATATTAATTGAAAATTTTGAGCATATATTTAGAAAAGTAGATCAAAATGGATTTATAATTATGTCAGGAATTTTAGAAACTCGAATAAATGAAGTTATAGAAACATTTCTTAATAAAAAATTGAAATTATTGAAAAGGTTACAATATGATAATTGGGTTTCTTTAGTTTTTCAGAGAATATAAAATGCATAGATTTTTTGTTAATCACATAAAAGAAAAAAAAGGTGAAGATGTTTCTTTAGATTCTTTAAGGCATCAATTGAAGAATGTTCTTAGATTTCGAAAAGATGATTTTATCGAGATATTTGATGATACTTCTTTTGAATATTCTATAAGAATATTAGATGATAATTGTGATTTTGGGGAAATAATATCTAAGAGAATTAGAAAAATAGAAATGTATCCTGAAATTATTTTATGTCAATCTTTTATAAAAAATGATCGGTTTGAATTAATTCTTGAAAAATCATCTGAACTTGGTGTTACGCAAATAATTCCAATGATTACAGAGAGAGTTCAATCAGGTAGCAAACTAAAAAATTTTGATTCTAAGCATTCCAGGTGGAGAAAAATTATTCAAGAGGCTGTGGAACAATCAGGAGGCAATGTTATCCCTACTATTGAATCATTTCATACATTTAAAGATTTATTGAATTTATTTGATGATCAATATGAGAAAATTTTATTTTGGGAAAAATTTGAAAATTCTATAGATTTAAAAACCTGTTTAAATTCTTATCAAAATAATATCAAAAAATTAATTATATTTATTGGTCCTGTAGGTGGTTTCTCAGAATCAGAAGTTTCAATAGCTAGAGAAAATAGATGTAAGATAGTTACTCTTGGTGATAGAGTTTTAAAATCTGAGACAGTCGCAATTTCCTCACTTTCAATAATTAGATATCATTTTCAAGGTCTTGTTAGTGGAAAATATAAAAATTAATTCATTATCTCTTCTTCGGATAAATTTCTAGTCATTAATTCTTTTATAGCTGAATCTATAGATATTTCATTATTTAATACTTTTGCAGTAGTTGTTGTGATAGGCATAGATACGTTAAGTTTTTGGCTTAATTTTTCTGCTTGAAAAGTTGTTTGAATTCCTTCTAAAGTAATTTTTGATTTATTTGAAAATTCTTTCGCTGATATTCCTTGAGATAAAGCTATTCCTAGTTTCCAGTTTCTACTAGAGTTCCCGAAACAACTTGTAATTAAATCACCCATTCCTGATAAACCAGCGAATGTAGATTTTTCTGCTCCTAGTTTAAGTCCGAGTTTTGTAATTTCATGTAGTCCTCTAGTTACGAATGCAGATTTTGCATTAGTGCCTAATTTCAGTCCATCTATAATTCCTGCTCCAATAGCTATGATATTTTTTAATGCTCCTCCTAATTCTGTTCCTATGACATCAGTTCCGCTGTAAATTCTGAAACTATCAGATGAAAAAAAATCTCGAAAATCATTCGATTTATTAATATCTCTGAAGGCAATAGTTGAAACTGCAGGTTTACCTTCTGATATCTCTGAAGCAAGATTAGGGCCTGATAATGCTCCTATAGTATTTATAGATGATTTAGTTAAATAAGAATTTATTACTTCAGACATTCTTTCTCCTTTAACTGAAATGCCTTTAGTCGCACTAATGATCATTTTATCCGGAGTAACATATTCTCTAATTTTCATTAGATTTTCATTTAGTGTATGAGAAGGAACAGCTATTATAATTGTATTAGATTCCTTAATAGTTTTTTGAATATTTGATTCTATTTCAATTGTTCTAGGTAATTTCATTTTATTTGATAAGTTTTTATGAATCCTAGATTTATCAAGTATTTTTTTTTCTTCCTCAGATCTAGTTAATATAGAAATATTACTAACTTTTTTAGATATTAAAAAAGTTAGAGTAAACCCCCATGTAGTGTTGCCGATGACAGTAATTTTTTTCATATTTTATTAAAGACTATTAAGGTTTTTTCTTATTTTCTATTTTATTTTCTTCACCTTTAATTAATCTTTGGATATTTTCTTTGTGCCGATAGAATATCACACAAAAAATAAATAAAGTAAACAATATATCTGTAAGTGATGAGTTTCCTATAGAGGTAAAAAAAGAAACTACTACATATATTAATGCTACTGATGCTCCCATAAGAGAACCTAGAGAAACATATTTAGAAATTGTTGCTATTATGATGAATGTAGTTAATGCAATTAGACATGCTATAGGACTCACAAGTAAATATACGCCTAAACTTGTTAAAACACCCTTTCCCCCCTTGAATTTATAATATACTGGCCAACAATGTCCCAAGATAGCCATAGATCCTATTATAATTATGCTGTAAGAAGAAATTTCAGCATCAAAAAATTTAAGTAAATTAGCAAATAAGAAAACAATTAGAAATCCTTTTGCTATGTCTATTATCGCTACGCCTGTAGCTATTTTAACACCTAGTGTTCTTCCAACATTTGTCGCGCCTGTACTTCCACTTCCGTGTTCTCTAATATCTATTCCTTTGATCAATTTTCCAGATATTAATCCAAATTGTATAGAACCTAATAAGTAGGCGAGTATTCCAGTAAATATATTTAAACTTAATTGTAAAATCATTATTTAATATCTAATTTTATCGGAACCCCATTTAATCCGAATTTTTTTCTTAATCCATTTTCTAAATATCTTTTATAAGTAAAATGTAATAGTTTTCCATTTTGGAATTTAATTTCGAATGTTGGTGGTTTAGTTGATTTTTGAAAAGCATTTTTGATAATAATTTTTGATCTTCCTTTTGATGGAGGTGGATGTTTAGATATTGTATCTATAATATTAGTCCAAATTTTATCATCATGAATAGTTTTATTATATTCTTCATACACTTCAAGGATTTTGTCAAAAATAGTTTCAATTCCTATTTTTGTTACATTAGAAGTAAAAATTATAGGAGATCCATTTAAGAATTTTAATTTATCCATCGTAACATTAGATATATCATCTTGTGTTAATGATAATTCTTCATTAAGATCCCACTTATTTGCAATTACTATACATCCTTTTCCAGCATCTTTTATCATTCCTGCTATATGTGAATCTTGAGAACTTATTTTTTCAGTTATATCAGTCACTAATAACGATATATCAGATCTTGAAATAGATTTGATACTTCTTATAACACTATATTTTTCTATTCCTGGTTCTATGCTTCCCCTTCTTCTTAAACCAGCAGTATCTATAAAGTTAATTTTTTTATTTTCAAAAACAATTTCTGTGTCTATAGAATCTCTAGTAGTTCCTGCTATAGGATTAACAATTGATCTATCTTCACCAATTATTGAGTTAAATAAAGAAGATTTTCCTACATTCGGTTTTCCTACAATTGCGACATTTATAGAATCTGATTTTTCAGGTTTCTCATTAAATAAGGGTAATTGTTTAGAAATTTCATCCATAACATCTGAGACACCGTTACCATGATATGCGCTTAAGGTAACTACTTTTTTCAATCCTAATTTATAGAATTCTGAAATTCCTAACATTCTATTAGGATTATCAACTTTATTGATTGCTAAAACACAGGGTTTATTAGATTTTCTAGCTAATTGAGCAGCATAGGAATCTAGTACATTTAAACCTTCTTTGGAATCCACTACTAAAATAATTGCATCAGATTCTTTTAAAACTTGTTTGGTAACTTCAGAAACTTCATTTGAAATTTCTTCCTGAGGAGTTTCATCTATTCCTCCTGTGTCAATTAGTATAAATCTGTTATCATCTGACTCCACATTTAGAGATATCCAGTCTCTCGTAGTGCCTGGAACGTTGCTAACTATTGAAATACGTGTTCCCGCTATTCTATTGAAAAGCGTGGATTTTCCTACATTAGGTCTTCCGAAAATTGCAATTACTGGGATACTCATAATAAATATTGAGAAAAGTTGATATTTTTATAAAAACAATTGATCTAATAGAGAGACTTGGGACCAAACTCTATTTTCTGCTTGGTCAAAAACTATTGATTGTGGATGCTCTAGTAAGTTTTCTGAGATCTCTTCTCCAGGATGAGCAGGTAAGTCATGCATAAATAGAGCTTCAGGAGATATAGAAAGTAATTTTTCATTTACTTGAAAATTTTTAAAAATTATTTTCCTTTTAGATATTTCTTTTTCCTGGCCCATACTAGCCCAAACATCTGTATAGATAATATTAGAATTCTCAACAGCTTTTTCAGGAGAAGACTCTATATGGAATGATCCTCCATATTTCTTAACTAATTGTTCTGTTTTAGTAATATCGGTTTTTCCAAATCCGAATTCTTTAGGAGTGCAAATCACGAATTTTCCCCCTAAAGATAGAATAGCATGAGATAAACTGAGCGCTACATTATTTCCGTCTCCAATGAAAGTAATTTTGATATCTTTAAAATTCAAAGACGTTGATTCATATATTGTTAAGAGGTCTCCTAAAGCTTGACATGGATGTTCTACATCACTTAAAGCATTTATTACTGGAATATTAGAATAATTAGAGAATTCTTCAATAGTGGAATGTGAAAAGGTTCTTAGAATAGCTATATCAGCCATTCTTGAAACTACTTTAGAGATGTCTTTAATAGGCTCTCTTTTTCCCATACCAATTTCTTCAGGACCAAAATATATAGGGGAACCTCCAAGTATATTAATAGCCTTGAAGAATCCAAGTTTTGTTCTTAGAGAAGGTTTTTCAAATAATAAAACTACATTCTTCCCTTTTAGTGATTCTGTCCTTAACCCTTTTTTAAATTCTAAAGATTTTTCTACAATCTTTCTTATTTGTTTTGGTTCTAAGTCAGTGATATTCAATAAATTCATGATTTTTAATCCAAGTTGTTCTATAAATGTATATTAAATCAAAATATTCTTTAAAAGAAATAATTGATATCTACATCTTGTTTGGCGATTCCATTCCCATGATAGATAATGCTTCAGAAAGAATTAATTTAGAAGCTTTAATTAAATATAATCTACTATTTGAGATTGGATAATCTTTTTGTTTTTCAGGCAACACTCTGCATTTTTCGTAGAATTTTTGAAGCAATTGAGATAATTCCAAAGTATATTGAGGCAACCTATGAACTTCCAATTTTTCTGATGAGAATCTTAGAATTTCGGGAAATTCTGAAAGTTTTTTCATTACTTCTATTTCTGTATAGTGTGTTAATAGGTTTAGGTTAGAAGTTGATTTTGAAAGATTTAAATCTCTACTTTTTTCTATTATTGAATTCATTCTCGCATGAGCATATTGGACATAATAAACTGGATTTTCACTAGAACTTTTTTTTGAAACATCTATGTCAAATTCCATTTGACTGTCTGGAGATTTGCTTAAGAAGTTATATCTACAAGCATCTTTTCCTACTTCTTCTATTAAGTCTTTTAATGGAATTGATGTGCCTTTTCTTTTACTAAATTTTGTCATTGAAGATTTAGTTTTTAAAGAAACAATTTGGTTTAAAATTACTACAAATCTATTTCTTTCTACACCCAGTGCTTTTAATGCATCTGATAATCTTTTTATATGTCCATGGTGATCAGCACCCCAAATATCTATTACCATGTCGAAATTTCTCGTAAGGAATTTATTTTTGTGATAAGCAATATCAGTAGCAAAATATGTAGGTGCACCTCCTTCACTTTTAATTAGAACATTATTTTTATTATCTCCAAGTTTTTTTGAATCAAGCCATGTAGCTCCATCTTCTTCAAATACTAAATCTTTCTTTTTTAAAATATTAATTGTTTCTGTAAATTCACCATTTTTAATTAGAGATTTTTCACTAAACCATGAATTGTACTCAACTCCTAGTTTGATTAGATCATCCTTGATATTATTTAATATTTGTTTGATGCCTATTTCTTTGAGATGTATTAGAGCCTCTTTTTTAGAGATTTTGGTGAATTTTTCATAGTTTTCTGATTTTATTTGTTCTGCTATTTCCTCTAATTCTTTTCCTTCATATCCGTTTTCAGGTATAGGTAAATTATTATTAAATAAGTTCATATATCTTACATATAAAGATTCAGTGAAAAGGTCTATTTGATTTCCAGCATCATTAATGTAATATTCTCTGTTTACTTGAAATCCTTGTGTCTCTAATAAATTAGATAAAGTACTTCCAATTACTGCACCTCTTGCATGTCCAATGTGTAAATTTCCTGTAGGATTTACACTAACAAATTCAACTTGAATTTTTTTATTGAAATTCTCTTTTTTAGAATAATTATTTTCTTTATTTAGGATAGATTTTAAATTTTCTTGTAACCACTGATCTGACAAAAAGAAATTTATAAATCCAGGTTTTTTGAAAGATACATTTTTTATAAAATCAGGAAGTTCTAGATTTTTTATAATTATTTTCGCTATTTCTTCAGGATTTTGATTTAATTCTCGGGAAACTTGCAGTGCAATATTTGATGAATAGTCTCCATGTTCTTTTATTTGAGGTTTTTCTACTACAAAATCAATTTTCTTGCTCTTTTTAAAGTATTCTCCATTGAATGATGAAAGAGCTTCATTTAAATATTTTTTCAGAACAAATGAAATTTCCATAGGCTTAGATTAGCATAAAAATCATCTATATTAACTATAGTGAAGGATAAATAAAATTCATGTATTCTTATTCATAAGTCGTAATAATATATGGGATCTTTATGGACAAGTTAAAAACAGATTTTTTTAAAAAGTTATTTAAGGATTTTAATTTGTCTTCCTCAGAAATTCATAATCTTGAAAATAATATCAATGTAATAAAGTCACATTTAGAGATATTAAAAAAAATAGATATAAATCAAAGATAAAAAGGAAAACATAAATAACCAAGAATTAACTCTATATACTATAAAAGATTTATCACAAAAAATTCATGATAAATCTATATCTCCTGTTGAATTAACTAATGCTTATTTGGATAAAATTGAATTACTTGATAAAGAATTAAATTCTTTCATGGAAGTTTATAAAGATTCTGCTTTAAAAACAGCAATTAGACTTGAGAAAGAACTATTATCTGGAAATACAAGGGGCCCTCTTCATGGAATTCCAATAGGATTGAAAGATATTTTTGATATTAAAAATAAAATTACAACTGTAGGATCAAAGATTTTAAGGAATAATTTTGCCTCTTCTAATGCTACTGTTGTAGATAAATTAGAATCATCAGGTGCCATAATTATAGGAAAAACTTCTTTAGTAGAATTTGCATTTGGAGCTACAGGTTTGAATCCACATTATCCTCAAACTGTAAATCCTTGGAATAAAGAAAAAATTCCTGGAGGATCAAGTAGTGGATCCGGGGTAGCAGTTTCTTCAAAATTATGTGCTGGAGCATTGGGTACAGATACTGGAGGATCTGTAAGAATGCCAGCTTCTTTGTGTGGTATTTCTGGCTTAAAACCATCTTATGGATTAGTTTCACGAACTGGTGTATTTCCATTAAGTTGGACTTTAGATCATGTAGGTCCTTTAGCAAGTACTCCTTACGATTGTGGTTTGATAATGAATAGTATTTCAGGTTATGATTCGACTGATAAAGACTCTGTTTTTTTGGAAAATTTTGATTTTAATGGAAGAATTGGAAAATCTATCAAAGGAATTAAGATTGGTGTTCCACAAGAATATTTTTTTGATGATTTAGATTCAGAAGTTGAAGAAAAAATTAATAATTCTATTAGCTATCTTGAAGATAATGGAGCAATAATCCGAAAAATTTCCTGTCCTTGGGTAAAATTTGGAAGATCTATAAATTTAATTATTAGTTCTTCAGAAGGATTATCTATACATGAAGATTGGTTGAAAAATTATAGAGATCAATATGATCCTAAAGTGAAATCTAGATTTCTATCAGCTATGTCTATTAGTTCAAATGATTATATAAAAGCACTAAAATCTAAAGAATGGTTTACTGGAAAAATGAATGAAATTTTCCAAGAAGTAGATTTAATTATTTCTCCCACTATACCTATTTTGGCGACAAATATTGAAGACGATTCTAATGTTGGAAATATAAAAAACCCATTATTTACTGGTGTTTTCAATGTAACTGGGCATCCATCATTAAGTGTTAATGCTGGTTTTTCAAAAAATAAACTTCCTATTGGATTAATGATAAGTGGTAGACATAAGGAAGATGATTTAGTTTTACAAATAGGTGAGATTATTGGAGGAACTGAATCAGAATACTTTAGAAAGAATAATATTCGAATTCAGGAAATAATATGAAACAGATTTTAGGATTATTTGAAATTTTTCGTTTGAGACAGCAAATAAAAAATTTTCTTGTAATTGTTCCATTTTTATTTTCCTTGAACTTATGGTATTCCAACAATGAATTAGGACAATATTTGTTGATTTTTTCTTCTGTAGTAGGAGGAGTTTTGATTTTTTCTTTAGCTTCTTGGGCTGTATATCTTTTGAATGATGTAATAGATGCTGATATGGATTTAATTCATGAATCTAAGAAAAATAGGCCAATAGCTAGAGGTACAGTATCAAAAAATTATGCGTTAGTAATGTCTTTATTTCTTATAATAGGTGTCCCTATATTAGCATTTTTTCTTAGTACAGGTTTTTGTGTATGTATCGCTATATATTTATTGATGAATATTTTTTATTCTCTTTTATTAAAACAAATAGTTATTATTGATGTTATTACTGTAGCTTTAGGGTTTGTTATTAGAGCTCTCTCAGGCGTATTTATACTTAGAGATAGTGGTGTAGAAGTATTATCTAATCTTCAAGTATCTCCTTGGTTTTATTTATGTACAGGATTCGCAGCCCTATTCATTGTTTTGATGAAAAGACACGGAGAATTAGAAGGTTCAGAACAAACATTTGTTACTAGGCCAACTTTAAGAATGTATTCTTCAAATTTGCTTTTAAGTTTAATTAATATATCTTGTTCTGCTACTATAATCACATATTCTCTATATACTGTTAGTGGGAAATTTGGATGGGAAGTTAATGTTCCTTCTGATAACTCAATGATTATTACTGTCCCGTTAGTGATTATAGGTATTTTCCGATATATGTATCTTTGTTTTGAAGAAAAAAAAGGAGAAAGTCCAGAAAAAATTATCACTTCTGATATATTTTTAATTATTGTAATTTTAATCTGGTTAATTACTAGTATTTTTATATTGTTATTAAGGTGATAAATGAATTATAGGAATTATCTAGAGATTGTTTACCCCATAGAGAAAAGAAAAATAGAAATATATATGCCTTGGGTAATTATTCAGAGAATAATTTCATTACCTTTTTTGGGATTGAGTATATTTTTAAAAATTTCTCCTAATTTTATTTCCTTGATTTCTATTTTTCTTATTCTTATAGCTTCATTCTTGATTGTCTTAAATTTTTTGGTTTTTGGAATATTAGCATTAACTTTAGCAGTGATATTTGACTGTGTTGATGGAGAATTAGCAAGAGTTTCAAAAAAAACAAGTATATTAGGTGAAAGATTGGAGTTTCTAGGGGCAGATTTTTTTACTATGATTGGAATTCCATCAATAGCAATTTGGTTGTTTGTTTACAATGATTTATCAACTTTTATTTTATTTTTATGTTTTTTATCAGCTAGTTTGTCTGTTTTTGCAAGAAACTATTTTGAATTTGATTGTAATTTTGATTTGAAAAAATTAAATTTTACGGAAAAAATTATTATTTCTTGGTCTAAAAATCAAATAAATATTAACCACACATCTTTATTAGTATCAATTATGTTTTTTTTAAGGATGAATTTGACTACTCAAGATGGAATTTTGTTTTTAGTAATTGTTTTATCTGGATTTTTTTATCCACAAAATATTTTTTATTTAGTAATTTTTGTAAGTATTTCGCAAATAGTATTTGTGTCTCTAATAATATTTGCAGATATCTTAAAAAATAAAATCACTACTAATTAATGATCAATTTTTTAGCATCTTCGTAATCTTTAGGGAAATCTATTTCTATCCATTTTTTTTCTTTTATAGAAATGAATCCTATATCAATGAATTTGACTAATTTGTCCAGGAGGTCTTCGTATCCAATAGTCTTGGAATTCAATAAAATATCTTCTTCAATAACTTCAAAGAATTTCATCATAGATTTTCTATTTAATCTCATGAATCCTATTGATTCTCCGAAATTTTTGAATTCTCCAGTAAGTCCACGTTTTATAGAAATGATTTTTTTTGTAGAAGCTCCAACTAAAATTTCTTCTCCAGTATTACTTGATTTTGGATCAATTAAAATTGTATTTTCATTTAAAGAATTGAAGATTAGAGAAATAATACTTGATTCACAAAAAACATCTCCATCCATAATTATGTTGTGATCATTAATGTGATTTCTAGTTAAATTTAAACTAAATATACTTCCAAGCTCGTAATCTTTATTAAATATAAAATCACAATATGAAAAAAGTTTATGTTTGGAAATATGGGTTTTAATTTTTTCAGATTTATATCCTGTTACAAAAATAATTTTATTAATTTGTTTTTCATAATCAGATATTTGATCTAGAGTTCTATCTATTAGAGTTTTACCTTGAATTTTTAATAGGCATTTGGGGTCTTTTGTTACTTCTTCTAACCTAGAACCTCTTCCAGCTACTAGAATTATGATGTTTAAGTTTTTATTATTTTTATACATTAATTTTCCGAATTTCCTTTTGGTTTTTTGGCACGTTCAACCATTTCAATTACGTTACCATCAGGATCTTGTATATATATTGCATATCTAGCCCAAGGATAAGGTTTATCTCTTAATGTTGGTTCTCCATTACTGAGAATTTTTACATTATTTTCTTTTAATTTCTTAAACCAACTTCTTATATCATCTACTATGAAAGCACAATGAGCAGAACCTGGAAGGAACACTTTATCCATATCTTCTCGTTTTTTACCTGTAGGGTTAAGGTATTCAAATAATTCTATAGAATGCCCATCTCCAGTTCCAACAAAAGCCATTTTAAGTTCTATATTTTTTAATCCAACAACATCTGATATCCATTCTCCAGATTGAGTTGCAGGTTCTCTTTCTATTTTTAATCCTAAAATGTCAATATAAAAATGTAATGATGCCTCTAGGTTTTCTACGACAAAACCAGTATGATATTGTCCAAGTATATTCATGATTAACCTCCTTAGTTTATTTTAATCAAATCAATAATAATTGTTAATAAATAATTAGTTCATTTAAAGACAGATATTTTTATGAAAGACAAAGTACTATTTACACCAGGTCCTTTAACAACAAGTTTAGATGTTAAAAGATCAGGATTGAGGGATATTGGATCTAGAGATGAAGAATTTATTCAATTATGTAGAGACTTAAGAAAAAATTTATTATTGTTAGCTAACCTTAGTCATGATGAATATGAAGTGATTCTTCTTCAAGGTTCAGGCACTTATGGTTTGGAGGCTGTATTATCTTCATTCACTCCACCAAATGGAAAATGGTTAATAGTTTCAAATGGTGATTATGGCCATAGATTAACTTTGATAGCTAAAATCCTTAATATTGATTTTATAGAAGCTTCTTTTCCTTGCCAAAATATTCCAGATAAAGAAGTGATAAATTATCATTTAGAGAATGATGAGAAAATTACTCATGTTTCACTTACCCATTGTGAAACCACTACAGGAATTTTAAATCCAATTGAAGATCTTCTAGAGCTTCCTTCAATGTCAGATAAGAAAATTTTTATTGATGCTATAAGTTCTTTAGGGTTGTATGAAATTTCTAATCAAAATTCTGTTATTGATTTTTTAATAGGTTCTCCAAATAAATCTTTAGAGGGTATTCCTGGGTTTTCTTTTGTATTTGTAAAAAAAGAAATTCTAAATAAATATAATTATCCACCTAGAAGTTTTTCTTTAGATTTATTGGGACAGTATAGAGAATCAGTGAAAAGCGGACAATTCAGATTTACTCCTCCTGTTCAATCTATATTGGTTTTGAAAAAAGCTTTACAAATATATTTTGAAGAAGGGGGATTAAAATCGAGATTTAAAAGGTATAAAAATATTCAATATTCTATAATTAATGGAATGAAAAAAATGGGATTTGAAACGATAGTTGCAAGTAAGGATCAAAGTGTTTTAATAACTAGTTTTAAAATTCCTAATTTAAAAAGTTTTGTTTTTGAGAAATTTTACAAATTTCTAAGTGATCATGGACTAGTTATTTATCCGGGGAAAATTGAGGGAATTAATTCATTTAGAATTGGTCATATGGGACAAATAAAGGAAAAAGATGTTGATAACCTTCTCAAAAAAATTAATCTTTATTTAAAAAAATGTGAAAGTGATAATGAAATCTAAAAATTTTGATATAAATACGATTCTTTCAGAAACTGGATCTTCTTTATTAACAATAATTTATAAATCTCTATTAAAAAGAGAAAAACAGATAATTTTAGAATGTGGAGTAAACAAAGGTTATTCAACTTCGATGTTTTCCTATTATTCAGAGAAAAGTGATAGTTATTGTTTTTCTATAGATATAAATGATTGCAAAGATGTTGTGACCTCTGAACGTTGGACTTTTATTCATAATGATGACTCTAAAGTATTAGAAATTATTAATGATTATCCAGTACTTCAAGATCAAGGAATAGATATTTTATTTATAGATAGTTTTCATCGTGCAGATCATGTAGAGAAAGTGTTATATGGTTGGTATCCCTACTTAAATAAGGATTCATTGATATTTATTGATGATATTGATGGAAGAAATTATAGAAAAGGAAAAGAGAAAGATAGTTATTATAATGAATTGAATTGGGAAGAAATTAATAGGTTTACTAGGGATTTCTCTGAAAACAATTCTTCTGACACAATTCTAACTCAATATTTCGGTAAAACTGGATTAGCAAAGATAGTTAAAGTATCTGAAAAAGGCTCACTTCCTAATCGTATAGTAAATAGGGAAAGATCTTTATTGTTAAAATTAATTACTTTATTTAATAGAAATTTAAAAAATTTATTTAGAAGTAGGTGAAAATGAAGAATAATGAAAAATATGAAGTTTTATTTAAATCTGCTTCAGAACTTAGACAATTAATTTGTTCAAAAAAAATATCTCCTGTTGAGATTACTAATTTAGCACTTGAAAGAATTGAACAAATTAATCCTAAGACTAATGCATTCTTAACAGTTACTGCTGATAGTGCTTTAGAAAAAGCAAAAGAAGTAGAAAAGAAAATTTTAAATCAAGAACCATTGGGTTTATTAGCTGGAATTCCTACATCTATAAAGGATTTAGAGCCTATGAAAGGCGTAAGACAAACTAAAGGTTCACTTATTTTTAAGGATTTTATTGCAGATGTAGATCAGATATCTGTAGAACGTATTAAAAATCAAGATGGAATAATTTTAGGAAAAACAAATACTCCGGAATTTGGACAAAGTGGTACCACTGAAAATAAATTAGGGGATCATTGTCGTAATCCTTGGAATCTTGAATATGTTGCAGGTGGATCTAGTGGAGGAACTGGCTCTTCTGTTGCTTCAGGAATAACACCTGTTGCTCAAGGATCAGATGGTGGTGGTTCTATAAGGATTCCTGCGGCTTTTTGTGGAATATATGGAATCAAGGCTACCCAAGGAAGAGTTCCAAGAAGAAATATAAGTAATTTAAGTTGGCATCCAGTTAATTATTCTAGTATGGGTCCTATTAGCAGATATGTAGTTGATAGCGCTTTATTTCTTCAAGCTTTATCAGGACCTCATCCTGAATCTGAATTTGGAACTTTAACTAATTCTCCGCCGAATTTTTTGATTGATATAGAGAAAGGTGTATCAGGAAAATTGATAGGTTGGTCTCCTGATTTAGGTTCTAGAATTGTAGACGATGAAGTGAAAAATGTTACAGAAAATGCAGTAAAAATTTTTGAAGACTTAGGCGCAAATGTAGAAGAGTTGAATTTTGATATTGATCTTGATGAATTAGAACATCCATTACATAATGTTCTGTCTTTTGCACTTGCATATGCCACTAATGGATATTTACTTGAGGAAAATTCTGATTTTCTTATGCACTATGTAAGAAATACTATTGAAAAAGGCAAAAATATTTCTGCAGATGAATATCTTCAATCTTTGACAAAATTATATGAATTTAGAAGTAAGATCGAACGAATTTTTGATAGATATGATTTTATTTCAACTCCTACTATGGCTATTCCTGCATTCAAATGTAATGAAAGACCATTTTTTGAAAATGGGAAAATTAAGTTCAAAGATTTAGATGATGGGTATTATGACTATTCTAATTGGAATATTCATTTGACTCAATTTACAGCATTGTTTAATTGGAGTGGAAATCCTGCGGCGGCATTACCATGTGGGTTTTCATCATCTGGACTTCCTGTATCGTTACAAATTATTGGGAAAAAAGAAGATGAGGTAGGAGTTTTACAAGCCTCTAGGGCTTTTGAGAAGGTAAAGCCTTGGCATGATTATTATCCACATATATAAAATATCGAAATTTGATATTAAATATTTTTAGAAAACCATATAATAATTAATACGTTCCTGATATTTTTTTAAATGATATATTTTTTTAATCAATATGAATGCTAAATTACATGTTTTGGGTTCTGGTACTCCGACTCCTACAAAAGAAAGATGGGGATCTTGCTTTGTTCTTGAAATTCCAGGAGAACAAATCATGTTTGATTGTGGTCCAGCATCAACTTATAAGATGATTTTGATGGATTTGGATCCCAAAAAAGTTAATAATTTATTTTTTACTCATCATCATTCTGATCATGATTTGGATTATCCTTGTTTTCTCCTCACAAGATGGGAAACTAGTATAGGAAATGAAGAAAATTTGAATATTTATGGTCCTCCACCTACTGAATTATTGACTACTAGATTGATAGATTTGGATATTGGAGCATTTGCTCATGATCTTATAGCTAGAACAAATCATCCTTTAAGTTTAAACGCTTATCAAATTAGAGGTGGAGTTTTACCTAGACAGTTACCCAAGTATATAGCTAGAGATATATCACCAGGTGAAGTTATAAATACGAAGAATGCTAAAGTGACTTCTACTTTAGCTGAACATGTAGAACCTTATTTGGATTCTTTGGCCTACAAAGTTGAAACGGAAGGTTTAAGTATTGTATTTACTGGTGATACAAGACCTTGCAAAACTGTAGTAGAATTAGCTAGAGATGCTGATTATTTAGTTTGTATATGTTCTGGCTTACAGAGTGATATTGAAGGTACACCAGAAGATGATTATATGAGTGGTAGTATTGATGCAGGAATGATGGCAAAAGAGGCAAATGTATCTAATTTGATGTTAGTTCATGAGGGTTATAATTTATCAGATCCTAAAAACCTAAAAGATGCTATAGATGGAATAAAGAATATTTATGATGGTAATGTTATTCAAACTAATGAGTTAAAAACATATGATTTACAAGTAGGTAAATAAGTGAGTAAAGAATTAATAATTATGATTGTTGTGATGTTATTAGTAATAGGTTTGGGTATTTTTTATATGGGCTTTGCTCGACCATATTAGTATTATTTTTTATAGATTCCACAGTATTCTATAGCAGTTAATGCATATATTTTTGAAGCTTTATATAGGCTGTCTATAGAAATTTTTTCATGATCTGAGTGTGCAGTTTTATATTGTGGACCATATCCAATTGTTGGGATTTTTGTGTGATAAGAATAAAGATTTGCATCAGTTGATAAAGCCATACCAATAATTTCTGGTGACTTTTCAATTATTTTTTCACCAGAATTTTTTAATGAATTTATAATTGGATCATCTAATGATGTTTGAAAAGGTTGTTTTGTTGCATTTTCTTCTATAGAAAAATTAGTTTTTAAATTTGATTTTTTAGATATTTTAGAACAAATATTTTGTAATTTTGAAAGCATATCTTTCATTTTATAATTTGGATTCCATCTTAAAGTCCCATTTATAGTTACCTCTGAAGGTAAGCGGTTGAAATAATCCCCTCCATTAAGTTTTCCAATATTTAACTGGTTTCTTCCACATAATTTATGATATTCAGAATTTTCAAATTCAACTTCCAAGTTTTGTAACTCAAGAAGTGTTTTTCCTGCCCAGTAAATTGGATTTTCTAAAAAAGTCGTATTGATTGTATGCATAGAACCTTTTTCACTATGAATAGTAATAGTGAAATTTATAAATCCCATACCTGCTGTCCATATAGCGTTTGGCCCTTCGGTTATTACTATTGCATCTGGAGTCATTTTTTTTAATTTTAATAACTCTATTAATCTTTTTGGCCCCTCTTTTTGTCCTATGGGTGTTTCATGTCCTATTACAGAAGTCAACGAAAGATCTCCTGATAAATTAATCTTTGACTTTTTAATAGCTGAAATAGCATGTACTACTGAAATCAATCCACCCTTCATATCTTCAGCTCCCCTTCCAATAATAGTATTGTTTTTTATCTCAGGGGGATCACTTATTCCAATGGGAATAGTATCTATATGACCATTAAACATTAAAGATTTTCCAACTTTCGGATTACTGCCAGAAAGTAAGGTGTAAACATTAGGTCTTTTATCAATAAATTCATCTACTAGAACATCTAAGTTTTCACGTTGAAGAATATTAACTAAGAAATCACATCCTTTTTTTTCATCTCCAGTTTCACTTTTTACTTTGAGAAAATTCAAGGTATCTTCAGCTATTTTTTCTTCATCAATTGAATCTAAAATTGTTTGTATATAATTTTGCATATTTCTACATTAGTTTATTGATAATTATAATCATACTCTCTATAGTCTAAAACAATGAACAAATTAATTATTATATTTTTAGGATTACTTTTTATTTCTGTAGGATTATTATTGTATCAATCTAGATTAGAAAATGATTTTCAAGTTCAATCTGATGAAAACAGACACACTAATATTAGTTATTTAAAAGTAATGAAAGAAGTTGAAAAAGAGTTGTTTGATTGATAGGATATCTAGTTAATTTTAGGAAAAAATCATAATTTTATGGCTACTTTAACACTAGAACATAAACAACATTTTGAAGAATTTGGTTTTGTGAAAATTCAGGGATTGCTTGATCCTAAAGAAGTGATTGATCCAGTAATATCTGAGTATAAAATTGTTTTAGATAATTTAGCAGATCAATTATTTGATAATGGAAAAATACAATCCAAATATGAAGATTTAGAATTTGGTGAAAGAGTAACTAAAATTTATTCAGAAAGTGGAGAAGTACATAATCAATTTTTTGATTTTTCTTTACCCCAATCTAATATAAAAAATGATACGCCATTTTGGACTGGACCTGCTGTTTTCAATGCAATTAGAAATCCTGAATTATTGGATATTGTTGAAGGTTTTATTGGTTCAGAAATTTATTCCAATCCAATCCAGCATGTAAGAATTAAAGTTCCTGAAAAAGATTGTCCTAGAGATAAGAATGGAAATGTAATTTTTGGTGCTACACCATGGCATCAAGATGCTGGTGTAGCTACTGAGGAAATTGATAATACTGATATGCTTACAGTCTGGTTTCCACTGACAGATGCAACAGAAGATAATGGTTGTTTACAGATTGTTCCTGGAAGTCATAAAGGAAAGGTTTTGACTCATTGCCCTGGTTTTGATTTAAAGACTAAGAAAAAAATTTCTAAATTGGGTCCAGGGGGTTTGCAAATCCCAGAAAAATTATTTAAATCAGAACATGCTATGCCTATACCTATGAAAAAAGGAGACGTGTTGTTATTTTCTAAGAAAACAGTTCATTCAGCTTTGCCAAATTTAAGTGATCAAATTAGATGGAGTTTTGATCTTAGATATCAACCTGTAGGTCAACCTACAGGAAGGGATATGTTTCCAGGTTTTATAGCTAGAAGTAAAGAAGATCCAGATGCTGTGTTAGAAGATTCTAGCACTTGGAATCAAATGTGGATAAAAGCAAGAGATTCTTTGGCAAAGACCGAACAATTTGAATTTAATCGTTGGGATGGTAATGATATTGCATGTGCTTAAATTACATTTTGACTTCTATGAAAAATGAATAAAAGATTAATTTTTGGAATATTTCTTATCATAGTAGGTTTAATTTGGCTTTTGAATATAGGTGAATCTTTTGGGCAACTTTTGATTCTTTCCATAGGGATATATTTCTGTCTTATAGGAGCTTCACAAAAAATTAGATCATCAAAGAAAAAAATACCTGAAGAAGAGGATAATCTACCAATCAAAGATGATTCGTAAAGATAAAATTAAGTTTTTAGGATATCTTTTTTTGATACTTTTGGTTTCATTTTTTTTTACTTTATTGATTAGTCCAAATACTATTCAAATAGGATTCGTTCCATCAATAATTATCTTTTCTGGAATAATATTTCTTGTTCAATGGGTTTTTTTTATTCATTCATACCTATTAAATTCAGAATATTATTTTGATCTTGTTGGATCCATGACATTTATCTCTATTATTATTTCGGCATTTTTAATTTCAGATATAAAAGATTTTAGATCAATGGTACTTTTTTTTATTGTCATTGTTTGGGCTATAAGACTGGGGTCATTTCTTTTTTTTAGAATAAGATTAAAAGGTTTTGATAATAGATTTTCTTCAATTAAGAATGATTTCTTTAAGTTATTTTTTGTTTGGAATCTTCAAGGAATGTGGATTTTATTTTCAATTTCACCTGCTCTAATTTCTTTACTTTCTGAAGCAAAAAATTCTATGGGTATTTTAGGTTATGTCGGTATTTTAGTTTGGGCTTTAGGATTTTTAATTGAAATAATTGCTGATTACCAAAAAATGATTTTTAGATCTAAAAAAGAAAATGAAAAAAATTTTATAAATTCTGGCTTTTGGGCTTGGGTTCGTCATCCAAATTATCTGGGTGAAATTATTCTTTGGTTTGGAGTAAGTATCATTAGTTTTCCTGTGTTGATAGGTTGGCAATTTTTATCTTTATTGTCTCCAATTTTTGTAGCCATATTATTAATTAAGATTAGTGGAGTGCCTATATTAGAGGAAAATAACAAGAACAGATGGGGTGATAATCCTGAATATTTAACTTATATTAAGAATACTCCTATGATTATTCCTAGAATACTAAAAATAAAAAAGTAGGGGCTTTATTGAATTTTTTTATTTTTTTATAATGTCGATATAAACAATTCGGTTTTTAATAAATCTTTTGTTTTAGTAGATTATGAAAAAGAAAATTAAATAACAGGTTTTCAAATGATTTTAATCTTTTGGATATTAGTTGCTTTTTTTCTTTCCAGTATTCCTTGGGCTATGGTTTTAGGTTTCTTATTCTTGAACCGTGATATTAGAGAAGTTGGTGATAATAATCCAGGTGGAGCTAATGCTTGGAAAATGGGAGGCTGGAAAATTGGATTGTCAGCTGTACTTCTTGATTTAGCAAAAGCTTTTGTGCCAATCTATTGTGCAATAAATTTTGCAGGAATTGAATCTTGGGGTATAAGTGCGTTAGCAGTTGCATCTTTGCTTGGTCATGCATTTACTCCTTTTCTAAAATTTAGAGGGGGTAAATCTTTAGCTGTAACTGCTGGAATATGGGCTGCAATATCAAATGGATGGTTAGTTATTCCTGTGATGATATCATTAGCAACTTTTCATTCTTTGCAGAGAACTCATGTTTGGACAATTATTTTGACTATGATTGTAATTCTTTCTTGGGTAATTTTAAGATACTTTTCTCCATCTATGATTATTCTTTGGGTGTTTAATATGAACTTAATAGTTTTAAAACATAGGAATGAAATAAGAGAAGGTGTTATTCCAAGAAATTGGTTGATCAATATTGTTAGGAAAGAAAATGATTAATTTTATATCTTTTTATTATTTGTATTTTTTAGTTGTTTTTTCTTTACTGCTTTTGTTTGTTACTTTAGTGAATATTTTATTATCGTTTCTTTTTACAAGGAAAAATAAAAGACAGGGATCAATAGATTTTTCATCTAAGAAACCTTTGATTTCAGTTCTGATCCCAGCTAGAGATGAAGAAGAAAATATTTATAGATGTATAAATTCATTGCTGAAACAAAGCTATTCTAATATAGAAGTAGTGGTTTTAGATGATGATTCTGAAGATAATACTTTTGCTTTAGCTAAAGAAATTTCTGATTTGGATTCTAGAGTAAGTGTTTATAAAGGAAATAAGGTTCCATCTGGATGGTTAGGCAAAAATTGGGCTTGTCATCAGCTTAGTGAAAAAGCAAATGGAGAATTTCTTTTATTTCTTGATTCAGATACAAAGTTAAGTCCCAATGTTCTTTCTGACTCTATGAATATGCATATAAATGAAGATTTAGATCTTCTTACTTTGTTCCCTAAAAGAAAAGCATCTACTTTTATAGATAAAATTATTTCAGTAACAATTTGATGGATGATTTTTTCATGGATTCCAATATTTTTAGCCAACACGTCAAAATTTCCATTTTTCTCTGCTGCTTTTGGTCAATTTTTATTGTTTAAGAGAGATTCTTACAATCTAATAGGGGGGCATAAAACAATTAAAGTAGAAATTCTAGATGATTTCGAATTAGGAAGGAATATAAGTAGGAATAAATTAAAATTAAAAATGATAAATGGAGTTAAAGATATAGAGACTTTTTCATATAATTCTGAAAAAGAAGCTTTAAGAGGTTTTTCAAGGACTATTTTCCCTTTCTTTTATCAGAGTTTAATAGGATTTTTAATATTATGGTTTTTATTTATTTCTATGACTTTTATACCCTTTCTTATGATATTTGTTGAATTCTTCAATATTACATTAGACGAAAATAAAAATTCTTTAATCTTGTTAATTTGGACGTTACTTTCTTGTTCTTGGGTTTTGGCTGCTTTAAGATCTAAACAGAGTATTTTTTTAGCAATCTTGTTTCCTTTTGCAATGTTAGTAACTTCAATAATAGGATTCTATTCAGTTGTTTCATTTTTGATTGATAATATACATTGGAAAAATAGAAATGTAATTTTTCAAAAAGGAAATAAAGATAAATAGATAATTAGGAGCAATATGGATATAAAGATAATTGATCAATATAGAATAACGAATAATCAGGTTTTAAATTATATTGATGATGTTACTGATGAAGAATCTAAACTTATTTTTGAACCTTTGAATTGTATTAGCTGGACTTTAGGTCATTTAGCAAGATATAACAATCTTACTTTCGCAGCTAGATCTAGAGGAGTAGAAATCCCTAATGAATTTAAAGATTTTGAAAATGGTGCACCACACTCTCAGAAAGATTTATCTTATGTTAAAGGTTTGTGGCATAAAACATTAAGTGACACAGAGAAATTTTTAGATGGACTTAATGAAAATGATTTAGTTAAAGTCTTAGATAACGATTCATATAATGTTGATAATCTTGGAACAGTAATGACTAGAATGATTTTTCACTCGTGGAACCATTTGGGAGAAATTGCATCTGTAAGACAATTGATAGGGAAAAATCCTGGAAATCCCGGATATGGAAAATGGGATTGGAAATATTAGTTTTTTTATTCTATTTACCAAAAAATTAGTTTAAAGGAAAAGATGATATCTGAAAATAATGATCATACTTCTTTAGTTCCAAAGTATATTTTTTCTGAAATAGAAGAAGAACAGTTAAAACAACTTGAGAATAATCCTTTGATGCAAAGACTTATAGTGTCTAGGGAATCATATAAAAATGATCCTCATAGGCCCATTTATCATTATGTTAATCCAGAAAGTAATCTCAATGATCCTAACGGACTTTGTTTTTGGAATCAGCGTTGGCATTTATTTTATCAAGGTTATCCACCAGAGGATCCTAGAGTACATTGGGGCCATGCTATTAGTGATGATTTAATACATTGGCGTGACTTACCTTACGCTATATACCCAGATCCAGAAGAAAGTTGTTTTTCTGGTGCAACTCTAGTAGAAAAAAATAGAGTAATAGCTATGTATCATGGAACTAAAGTTGGAAATATGATTGCTACTTCTTCCGATCCGCTTTTACTTAATTGGGAGAAATTAACTAATAAACCAGTAATTCCAATTTCTAATCCTGATGGTACACCGTTACCTTATAGGGTATTTGATCCATGTATATGGAACAAAGATGGAGTTTATTATTCTTTATCTGGTGGGACACTTCCCCATGAACCTTCTGGAAAACGTACCAGAGCTAATTTTTTATTCAAATCAAAAGATTTAATTAATTGGGAATATCTTCATCCATTTATTGAAGGAGATAGGTTTACTTTAATTGGAGATGATGGAGCATGTCCTTATTTTTGGCCAATTGGAGATCGTCACATTCTACTTTTCTTTAGTCATATGAGTGGAGGGCAAGCATTATTGGGAGACTATGATTCTTCTAGAGACAAATTCATTGTTACATCTCATCAGGATTTTAATTTTGGAGCATATGGGCCATCTGGGGTTCATGCTCCTTCAGCAACTCCTGATGGAAAAGGTGGGGTGATTGTGATTTTTAATATGAACCCAGGACTTGATACTAAAGGCTGGAATCAAATAATGAGTTTGCCTCGTAGATTATCATTATTAGGAAAAGATAAATTAGGACGAGATTTATTAGCAGTTGAACCATCAGGTGATGTTGAATCTTTAAGAATGGATCATAAGAAAATTTCTAATCTTACTTTATCGGCAAATGAAGAAGTGGTTCTTGAAAACATTAATGGCAATTCAATGGAAATTATAGCTCAAATAGAAACCAATAATTCTCCAATGATTGAATTAAATGTATTAAGATCACCTCATAAAGAAGAATTTACTCGTATTGCATTTTATAGAGCTAGAGGATTCAGAGACTGGGAAAGATATTCTATGGAAGAGATAAGAGCTGGAACTGCTACTTCTAATAGTCTTATTACAATTGATTCTTCTTATTCTTCCTTACTTCCTGATGCTCTTTCACGTGCACCAGAAACAGGTTCATTATTTATGGAGCCCAACGAATTGCTTAACCTAAGAGTTTTTCTTGATAAAAGTATTATCGAAGTTTTTGTGAATGGAAAATTATGTGTATCTACGCGTGTGTATCCTTCTCTTAAAAATAGCACTGGTATTTCTTTACGTGCTCAAGGATCAGATGCGAATCTTTTATCTTTAGATTATTGGAATATGCAAAATATTTATAAATAAAATTACTTTTATTTTTTAAATCATGGAAAATGTTAAAGAATATATTGAAGGAATAAAAACAATTCCATGGATTTCATTTGATGAATTAAATAATCAAATATTTTTTCAACAAACTTCAGTAGATTCAAAAACTAATCAAAGACTTTCTCAAATATTTAGTATCGATTTAATATCAAAAAAAATTGAAAAAGTTACTTCTGGATTTAATGATTCTATTCCGAAAATTTCTCCTGATGGAAAATTTTTAGCATTTATACGGACTAATGAAAAAACTAAAAGTAACAAGATAAATTCTATTTTTATTAAAGATTTTTATAAAAATTATGAATTCCAATTAACGGAAAATTTTAAATCTGTGAAGTCTTCTGAAGATAATTATGGATTGTTTAATTGGGACAATTCTTCTTCAAGATTAGTTTATAGTTTTAGAGCTTCAAATCTCAATAATCTTGATTTGAAACCTTTAGTTGTTAAAAAGATAAGATATAGACACGATGCTTTAGGTTGGATAGGTGATATATATAATCAGGTAGAAATTATTAATATTTTTGATAAATCTATTATTTCTGTACCAAATTCTGAATGTGACCATTTAAATCCCGTATTTTCTAACAATGATAAGTTGATAGCATTTATTACTGATGCAGGTGATGATAGGGACACTTCTTGGACTCAAAGTATAGAAATTTTCAATATTGATTCAAGTAAAATCTTAAAAATAGATCAAAGTTTTGGTGGTTTATTTTCTTTAATTTGGACAGAAGACGATTCTAAGTTGATAGTATTTGGTTCAAATGACAACAAATACTCTGATAAAAGAGTATCTTCCTTATTTTCAATAAATTTAAAAAATGGAGAAAAAGTTGATTTGAATATAAATCAAGTAGCTTTTAACTCACAGCCAAATTTGAATTTCTTATCTCATATGACACTTCCTTATACATCTAGAGGTGTATCTTTTATAGCAGATATAAGTCTTAAAAATAGTAAATTAAAAGTTTTGTACGGAAAAGAATCTAAGATAAATCAGATAGCTTACGGGAATTCTAATGAAAAAGTGTTCTTTGTTGAAAATTCAAGGAATCATCATGAAAGCATTTGTCAATATGATAGAAGTTCTAATAATTATGAACTTTTATATGATTCCAATGATGACTTATTCCAAAAAATTAAAGTTTCTAGAATGGAAAAATTTGAAATAAATAGATCAAGTTATCAAATTGAATCAAGAATATTTTTACCTAATGATATTGATAAAAACAAAAAATATCCTGTGATTATTGATATTCATGGAGGTCCTCATGGAAGGTTTGAAGATCAAATCTCTATTAGTCAGGAACTTTTTACATCAAATAATTTTATTGTACTTGCTGTAAATCCTAGAGGATCTTCTTCTTATGGGGATGATTTTTTGAACGAAGTATTAACAGATTGGGGTGGAGAAGATTATTTAGATATTTTGGATTCTATTGATGAACTTTCAAAATTTAATTTTATTGATCCTAATAGATTAGGTTTATATGGTCACAGTTATGGTGGATTTATGTCATCTTGGATTATTGGACATTCCAATAAATTCAAAGCTGCTGTAATTAGTGCCCCATGTATAAACTTGAATTCAATGTCTGGAACTTCAGATATAGGAATTAAATTTGGAGAAGAACAATGGGGAGGAATAAGGACTTTTAATGTTGAAAAACATTTATTTAATTCTCCTATTTCTTATGTGGAAAATGTGGAAACACCTGCATTGATTTTATGTGGTGAACTAGATTATAGATGTCCTATTGAACAAGCTGAACAATATTTTGTTGCATTGAAAAGGTTAAATAAAAATGTTCAATTTGTGAGATATCCTGACCAGAATCATCAGATGCTGGATCAGGGAAAACCAGATTTTGTAATAGATTATTGGACTAGAACTATAAATTTTTTTAAAGAATATCTGTGTTGATATTTTTTTGGTTCTTCAAAATCATTTACCATATATTTCTACTTTAGGAGTGAATTTACAATTCTTTTCCATTGGGAACATAGGTCTTCGGCAATTTTTATGTCCTAGGCTGGACAAATTAGCACTTGTAGCTCCCGGAGCGTCAACATTAAAGTTTTCTTTAACCCAATTGTCGTAAAATTCTGGTTCACAATGAGGAGATTTTATTATTACTGAATGAAAATCTTTGGGGTTTAATTTATTGACTAAGTATATTGATCTATCTACTTGCATAACAGGATTACTAGTTACAACTACTGTTAAATTCCCAGATTTTAGAACTGCTGTTAACCCAGGAGTTTGTAAAAACCCCCACTTTTCTAACATAAAAGGTTCATTAGAAACAGAAATTATTTTCCATTCTAAGTCTAGTGGTTTGAATCTTTGGTCGAATGCCCCTCCAAGAGGGATTTTAATTTGAGATCCTTGACCTTTTTTATGAGCGAATTGAGCAGATTTTGGGTCAAGTAAAGTAGATAATATAGAATGAGGATAATTTTGTTGGATCATTTCTGAGATAATAGCATTACTGTCTCCCAAGGCTCCAGAACTTGGTGCATCAGCTGCATCTGTATATGCTATTGTGCCTTCCATCTTTGATCCTAACTCCACAGATTTTTTAATACTTATTAAATTTGCTTGCATTTTTTTTCTATTAGGCCAAAAATCATTTGCCATATTTAAAGCTGACTTTGAAGCTAGTTGTATATCATTATCAGTAAAGACATAAGATTGACTACAAAGTTCTGGAACATCTGTAAACGGATTACCTATAAAAAAACCTGCAGATAATATTTTGTTATTAGAATTTAGAGATTTTGCATATTTTACCTGTTCACCAAAGACACCTTTTTCAGTGATTAATTCTTCTCCTCTAACTAATGTAGGGATTCTCACTCTTGCACATAATGGTTTTACTTCTTCATTCATGATCCTTTTCAACATCTTAAATGCTCTTTTTCCTGTATCAGCAAAATCAATATGTGGATAAGTATGTAAAGATGTGACACCATTACAATTTTCCAGCATTTTTGTTGTAAGTACACCATGTAAATCTAAAGAAATTACTAAAGGAATATCGTATCCAAGAATTTTTCTAATTTCTTCTAAAATAAAACCTTCTGGATCTAATTCTTCAGTAGTAGCCATAGATCCATGTAGAGAGATATATACTCCGTCTACTTTTCCTTTATGTTCCTTTATAGAATTGATAAGTTCGTTAGAGATTTTTAAAAAAGAAGTGTGTTCTAATATTCCTGCTGCATGTCCTTGAGCATTGTATGTGAACACAGGATGCATATTTTGTGTCTTCTCTATCTCTTCAATTACTCCTCCGATATAAGTATTTAACCCTTTATTGAACTTATATATTTCATTTCCTCTAGATATATCAAAAAAATCATATTTACATGTAACAGGATTGAAAGAGGAGATTTCTTGAGTGCATCCAGCAATTAAAATTTTTTTCATATTTTAATATTCAATTGTTTTTAATTATCTTTATACTAGATTGTCACACCTAGTTAATTTCTGTGCAATATTAAAAATATGATTATTGTATTTGAAAATTTTAGAAATTTTTAACTTTATCTGACAATGAATTTTCCAACTGTTCCACTAGAATAATGACCAGGAATATTACAGATAAATGCATATGTTCCAGGTTGTAAATCAGAGATTGCGCCTTTTCCATTTTGTCCTGGTTGCACATCAGATATTTCTAATAATACTTCTATTTCAGATAAATCAGCAGTTTCATCATCTAATATAGTGAAATCGTCATAACTACTCTGATTTAAAACATACATATTATGAACAAGTTTCCCTGCATTAGTTAGAGTGATTTCTATGTCACCAGGAGGAATGTGCTTTCCCATTTTATAGTTTGGAGTAGGTCTAACCTCCCATTCATTCATAATGACTGATAATCTATTCACGGATTTTTCTGATATTTCTTTGCTTGATGCTTCATCAGAACTAGCTTGACTACAAGAGATAATAGTCATTGAAATTACCAATAAAATAGTGTAAAAAATTTTCATAATCATCCCCAGTATTTAATGTTTTCCTTGATATTAATAATAATTTTTCAACAATGTGTAACAAAAGTGTAAATATGATTAAAATAGTCAAGAATTCTAAGTTTAGAAAAATTTGGTTACTTGGTTGATTTTATAAGTTTTGTATAGAATACAATTAATATGAAAATCTATTTTAAATATTTTGTTCTCCTCTTAGGTATATTTTTTATTATGCCTGTGATTGAAATTAAAGCTAATGAAATTGAAATTAAAGATGATCAAGTTCACTTTTTTGATTTACCTACTTTAGAAGGAAGAATGGTTTTTTCCGTCAAAACAGAAGGCCAATCTAACCATGACCTTTGGATAATGAATGCCGATGGAAGTGATATACGTTCCCTTACTCGAACAAATTATAATGAAATAGAACCTACAATATCACCAGATGGACGACAAGTTGCTTTTGCACATGATAGAGAAGGAGATTGGAGAATAGGAATAATGGATCTAGATAACCCCACACCTACAGATCCCTGGCCAATTACATTTTATAATGACCAAAGAAATCCAGATTGGGGAGACAATGGATTGATTGCTTTTCAGTCAAATCAAGAAGGAATGTGGAGCATATGGTCAAAAGATCCATTTATGAAAGGTGATCTTTACGGGCAAGATCTTCAAGAACAGTCTAATATTTCAAAGTGGGGTGATGTGGAAATGCAGAATGATGTAAAGCAACCCTCCTATAGTAAAGATGGTAGGTATTTAGCTTTTGCTACAAATAGAGACGGCCAAAATCCTGACAATAGAATAAATAGAATCTGGGTCTTGGACAGACAAACTCGTACATCAAAATCAATTCCTCGTAATATGGTAAAACAGGGTGATGATCCTGAATTTTATAAAGGAAGAAATTGGTATCCAGATGCTTTTGGACTTCCTGTAATTGCGTTTGTACAAATTAAAGATGGAAAACCAACTATAAGATGGTCAAATATAGATGGATCCGGAGGTGGAAAACTTACCGATAGAATGCCTGGAAATATTGCAGCAAAAAACCCTAAGTTTGGTCCCGAAAGATCACAAGAAGTATTGGCTTTCTTAACTGAGAAAAGTCCTAATGCTGGATGGAAAATTGCAGTAATGGATATTCACAGAGGTCAAAACATGCCTCCTGTTATTGTTACTCCACCTTCAATGGGAGCATCTATAGATTCTTTTGATTGGGGAATTCATCCTGGTTCTGGTGGAGGCATGATGGATAGGATGAGAGATATGATGCCTGGAGGTAATAACAGAGGTGGTGGAAACAATATGGACAATAGGATGATGGAGGAAGGTAGAAAGATGATGCAGGAACAGGAAGAAATGCAGCGTAGGATGATGGATGAACAGAGAGAAATGGAAGAAGAGAGAATGAGGATGGAACGTGAAAGAGAGGAAGAAGATAGAAGAAGACGTGATGAAGAGAATGAAAGGAGAAGACAGGAAGATCAGGAGCGTTTCAAAATGGAAGAAGAGAGGAGAGCATTAGAGCTTAAATCTGAACAGGATAGACTGTCTATGGAAGATGAAAGAAGG
>sequence05
TTCTAATTCAGAAACATCATATTCTTTATTGACTTTGAATCCTGTATTTATGAAATCTTCGATAGTATATATTCCACTTTCATTAGAGATCTTTTCTAGAGAAGTTTGATCTGAATCTGAAGAACTATCTACTCCACATGCTCCGATTAGAGATAATAGTATTACAGATAAAAATATCAATTTTTTCAAAATATTAATCCTCAATTATTGATTTCTAAATCTTAGATTATCTCTATTGAGATCACTAAGTTTAGTGCAACCCATCAATTTCATGTCTCTCTCTAATTCAGCTTTATATATATTTAATGCTTTCTCTACTCCAACTTCACCAGCAGCAGCTAAAGCATAAAGATATAATCTTCCACCACTACAAGCCTTAGCACCTAATGATAATGCCTTTAGCATATGAGTTCCTCTATGAATACCTCCATCAATGATCACATCTATCTTATCTCCTACTGCATCTACAATTTCAGATAGTTGATCTAAAGAAGATCTTGATCCATCAAGTTGACGACCTCCATGGTTAGATAAAATAATACCTGTACATCCAATATCAACAGCTCTTTTTGCATCTTCAACACTCATTATTCCTTTAAGAGCAAAATGACCTCCCCAATCAGAAGAAAGTTTTTCTGCGTCATTCCAATTCATAGACTGATCTAAGAATTTAGAAAAATAGTTTCCAATTGACATAGCGACATTTGATAATTCATTCACATGATCTTTAAGAAGTGGTAATTCAAATTTACCTCTAGTCACATAATTAATTCCCCACATAGGTTTAGTTAAATATTCGAAAAGACTAGACAATGTGATTTTGGGAGGAGAAGTAAAACCAGTTCTTAAATCTCTTTCTCGGTTACCAGCTACTATAGTGTCAACTGTAAGTGCTAAAACATCAAATTTTGCTTCCTTTGCTTTTTGTAGAACAACATCATTAAGACCTTTATCTTTATGATAATAAAACTGAAAAAGCTTAGGGGTATTAATTTGAGATAATTCCTCTACTGGAATTGTAGATAATGTAGATACACCAAACATCGTATTCAATTTTTTAGCTGCTCTTGCTACTGCCCTTTCACCATCATAATGAAATAACCTTTGTAATGCTGTAGGAGAACAGAAAAAAGGCAAGTCTAGTTTTTTCCCAAATATAGTTGTCGATAAATCTATATTCTCAACTCCTCTTAAAACATTTGGCACTAAATCCACGTCATTAAATGCACTAGCATTTCTACGATAAGTCACTTCATCCTCTGCAGCACCATCTATGTAATGAAAAATAGGTGAAGGAATTCTTTTTTTAGCAAGTTTTCTAAAGTCATAATAATTATGACAATGCTTTAATCTCATAATGATTTTAATAGTTTTAAAGATGTTATTCTAAGATATTAGAGTAACTTTGGATATATCCAAAGACATATTAAAAAAGCTTCTCTAATTTTTTTTCATCAAGTTCAAACCCCAAGCCAGGATTATTATTTAGGTGAAATTCACCATTAATAATCTTATAAGGCTCTTTTAGATAATTATTGTGCTTAGGTATAAGAGATAACGAGTGTTCCAATCTGTAAAAATTAGGAATCGCGCTTACAACATGAGCAGCAGATATAAGTTCTATTGGTCCTCCTGGAATAACGTGAGGAGAAACAGGCACATTATATGCTTCAGCCATGTTTGCTATCTTAATAGTTTCAGAAATTCCACCAGTCCATACCGTATCAGGCATTATGTAATCTGCTAATCCATTTTCAAGAATAGGCAAAAAATCATATCTAGTATAAAGTCTCTCTCCAACACAGATAGGAGCATCAGTATTTTCTTTAACCTGTTTTAATCCCTTTATGCTCTCTGGAGGCAAAGGTTCCTCAAACCATCCTATTTTAAATCTATCGTATAGATTATTTGCTAACCGTATGGCATTTGGTACGTTATAGTGACCATGTGCATCTATTAAAATTTCAAATTTAGGACCAACAACATCTCTGACTGCAGATACAATATCATAACCTTCTTCTTCTCCAGCTTGTGAGATAAATCCATCTTGATACATTGTGTGAAAAGGAACCATCTCCAAAAAAGGATCTAGTTTACATGCACTGTATCCTTTATTTAAAAGATTCGTTTTTGCTGCCTTTGCATAATCTTCAGCGGTATCACAACCATCAAACCACGAATTGCAATAAAGTCTTACAGTGTCTCTGAATCTTCCTCCAAGTAAATCGTAAATTGGCATATTACTGTATTTACCTTTAATGTCCCATAACGCAATATCGAAACCCGAAATTAAAGAAGTAGTAAATCCCCTGGAGCCTACGTAGGAAAATTTTCTAAAAAGCTTATGCCATAATCTTTCTGTGTCCATTGGATTTTCACCAATAAACAGATCTGTTACTTCATTAACTGCAGTACTCATTAACTTTTCACTAACAGAAGATCCTGTGCCAATCTCTCCCCAACCATGAATTCCCTCATCTGTCTCAATTTTAACAAATACCCATTTTTTAGGATGTGATTCCGCAGATTTAGATAAAGATATAAATTGTGCAGCAAAAGGTTTTATATTAGTAATTTTCATCTGATTAAATTCATTTGCAAAAATTATTTAAAACTATTGTAAACTATCTTCCAAGTGGAAAACAGATGATTGAATTAATTGATTTAATCCTAAAATAGAATTCAACATATTATGAAAATCACACATATAGAAACAATAAGAGTAGATGAAATACCACAAATTATCTGGGTAAACATTCACACTGATAAAGGCATTATAGGATTAGGAGAAACATTTTATGCTCCTACAGTAGTTGAGTCTGCGATACATGACCATTTTGGACCGTTATTAATAGGAAGAGATCCCAGAAAAGTAGAATTACATTGGAATTCAATGTTTACCCTTTCTGATCATGCAGGTTTTGGTGGTGCAGAAATGAGGGCAATTTCAGCCTTAGATATGGCTTTATGGGACATAAAAGGTCAAGATGCTGGTGTTCCAATTTATGAATTACTCGGGGGTGCAGTTAGAGAAAGAATTAGAGTTTATGCTACAGGTTTGCCCTATTCTGGATTCATTGAATATGTTAACCAACTTCTAGATAAAGGAATTACAGCAATGAAATTTGGCCCAACAATTCCATTAGCACTTGCATCTGATGGACAATTTCTATCGCCTAAAGATCTAGATATTGCTATACAACCAATAAAAGAAATTAGAGATGCGATAGGAAACAAAATTCAAATAGCTAATGATGGCCATGGTAAATGGACTTTACCTGTTGCGATTAGGATTGCTCAAGCCATGGAACCATATGAAATTATGTGGCAAGAAGACTTAATGCCAGTACATAACCCAAATGCATTAAAAGAATTGCAAAACTCGACTAAAACTCCCGTTTGTATTTCAGAAAGATTACTGAGTAGATGGCAATTCAGAGAATTCATTGAAAACGGTTCCGCAAGAATAGTAATGCCAGATCTAATATGGACAGGTGGAATTTCTGAAACAAAAAAAATTGCAATCTTAGCTTCAAGTTATCAAGTTCCTTTTGCACCTCATGATGCTAGTGGACCAGTTAATATATTTGCTTGTGCTCAAATCTGTATAAGTTCAATAAATGCTATGATCCAAGAATTCGTACCACCTTATCATGAAGGATGGTATGGAGATTTCGTAGATCCTAATCTTGATATAGTAGATGGATTCTTAAATGCTCCTCAAAATCCTGGAATAGGAACAAAACTAAAAAAAGAAGTTAAAGAAAGAAAAGATGTCCACTTAAAGATTAGTAGCACAGCAAAAGAAAACCCAATAGATGATTGGGAGACAGTAGATTTTCTAGGTAAAAAAAGCACTTTTAGAAGTAATTCTATGGAAGAAGAACTTAAAATTCTCAGAAAAGAAAGAAGCCCTCATTTATACGATAAATAAGTTGTCTCTTAATATCTAATATCCATGATCACTATATGCTTCTCCATAATCAGGTAATCCTGATTTAGAAGCAGAAATCAATTTGCCTACCAATTTATATTTAGCCTCTTTGTAGTTATTTTGAGCAAATCTTATTGAATAACTACCTGAACTCAATTTCACAGGAACTTTGTTTTTGAATTCTAAATTGTCAGAATAAAACAATACGTTTCCAGATTCTGGACCAAAATGACCCCAAGCAACCATCTTAGATATATCATCTCCAGCAGTATAAGTTGAACTTTTTTGTATAGCAAAGAAAGCTATTTTGTCATCTCCTTCATATTTTTTCACAACTAATTCTTTGAGAACAAATCCTTTAGGAACATCTAAATTTAAATAAAGATTAACTTTGTCCTTAAACACAACATCTAAATTTATCTCTTTATTTCTCTCTGGAGATGGTTCTGGCGTTTTAGTAACAATAGATTCAATTTCAGAATCTATATCTAAAACTGAATCAGAATTCTCAGATCCTTCTACTGAAAAACAAGAAAAATTTATTCCAATTAATATTATGAAAAAAATCTTTTTCATTTCAAACAATACTCCAATGTTCACATTTATTGTTTATATGAATCTAAACTTCGAAATGATGAAGAAAATACATAAAGTACAAAGTGAGTAGCAAATAATATAAATCCAGAAGCTGAAGCAACAACAATTGAGTTAAATTTAGTTCCTAAAAATCCTCCAAGAATAAATCCTATTCCTACCAATCCTAGAGTAGCAAAAAAGAAGCTTATCACTCTTCCTTTAAATCTTTCCTCAGAAATTATTTGTAAGGATAATAGTACTCCTGCCCACCAATAAGCATGAAAAACTCCTGATAATAAAATCATAAAACCTGCTATATAAAAATTTGGAGAAATAAAAAATAAAATAACTGAAATCAAATATAAAATTATGAACAAAAAAATACTTTTTGAATTCAATACATATTTTTTTAGATATGGAAGAGAAATTGAAGCAATCATTGCCCCTACAAAATAAACACTGGAAATAATTGCATACCCTGAACCATCTAAACCTAATTTATCTCTACAATATTCTGGAATTAATGGTTGAGTAATGCCCCATCCTAGAATAGTCACAGAACATATTAATAAACATCTTATCTGAATGTTTTTATAACTATATATAACTGCATCTCTAATAGATGAATTATCAGAAGTTTGAAGAATTTCATCTTTTTTATTTTCCTTAAAAATCAAAAGAGTAATAAAAGCACAAATAGAACTTAATAAAGCAATTATAGGTAATGACCAAAACATTAAAGTAATACTCAAAATAGTAAGTAAAAACCCTGCTATAGCTGGCAAAGTTGCATTAAGAAATTGATTAAAAAATTCTTGAGCTGCATTACCTTCAATAATTTTTTCTTTTCCTAAAATATCTGCAATAAGTAACCTAGCGGAAGGCCCTTCTAGGCCAATAAAGGCACCCATAAAAATTGAAGTAATTAGAATTATTAAAATTACATTAAAGTTATAGGTAATTGATAATGCCATTGCAACAAAAATAACTATACTTAATGTTCTAAAAATGAAGAAAATGTGTTTTCTTGAAAAACGATCTGCAAACTTACCCCCATAAGGAGCCAAAATAATATTGAATATTGCTGGCAAACCAGTCAACAAACCAATTAAAAAGGTAGAATCAGTTTCTTCTAAAATATACCAACTAATAAGAATTAGTCTTATAAAAAAAATAGAAAATGCTAAAGCAGATGACCCTAATAAAAACACAAAAGCTTTATTTTTAAAAATTGACATATTTATGTTTATTTTTTGAGAATTAATATAAAGCTTTCATGTTCCATTTTTTAATGTGTATCAGTAAAAAGATTAACAGTCTAGTTAAATCAATAATTATTTTCCGAAATATATTCTTAATTGATTTTATACTAATTTTCTTTTCCCATTTTAGTTTTTTAGTTAATATGAATTGAATAAATTTCAGATAAAACTATGGCTAGTACTGATCAAAATAGACCAAATATATTATTTATACTGAGTGATGATCAAGGTCCATGGGCAATGAACTGTTCAGGGACAGAAGAACTTATTTCACCAAATTTAAACCGCCTCAGTGAAACGGGAATAAGATTTGAAAATTTCTTTTGTGCATCCCCGGTTTGTTCTCCTGCCCGTGCAACTATTCTAACTGGTCAAATGCCATCACAACATGGTGTGCAAGATTTTTTACGTTCAGGAAATTCCGAAGAACTTTCAGAAGAAGATAAAAGCATCCAATATATAAAAGGAATACCTACTTACATTGAACTACTAAAAGAAAGAGGATATTCAACTGCTCTAAGTGGGAAATGGCATCTTGGAGATTCAGTGACACCTCAAGCTGGTTTTGATTTTTGGGATGTATTCGCTACAGGTTCTGGAGATTACTACAAATCACCCATGTTTAAGGATGGAAAACTTTACGAAGGAGATGGTTATATTAGTGATGTAATAACAGACAATGCTATAAAATTTCTAGATGAGCAATTTAACGAAAAAAAACCATTCTCATTGAATGTTCATTACACAGCTCCACATGCGCCATGGGATAGACATCAGCACCCAAAAGATGTTTACGATGATTATTTCAAAAATTGTAAATTTGAATCGGTAGATTGGGAATCAACTCACCCCAACCATTTATCAAAAGAAGGGGCTTCAGGAAGCATAGGTCATACAAAACTAGAAAGAAGACAAATTTTAAGTGGCTATTTTTCTGCAATTACTGAGATGGATAAAAACATAGGACGTTTATTAGATTGGCTTGAAGAGAAGAAATTACGTGACAACACATTAATTATTTTTACCTCAGATAATGGTATGAATATGGGACATCATGGAATTTGGGGTAAAGGAAATGGTACTTATCCTCCTAATATGTTTGATACATCGGTAAAAGTTCCTACTATAATATCTATGCCTAACCATTTACCTCAAGACATCGTTAATTTTGACTTACTAAGCCACTATGATCTTATGCCAACTATTTTAGAATTTTCCAATATAGAACATTCTGAAAATCATCAAATGCCTGGAAAAAGTTTTAAGAAATTAATTCAGGGATCTAAGAAAATAGACCAAAAACCAATAATGGTATATGACGAATACGGTCAAACTCGAATGATTCGAAATAATAATCACAAATATATCCATAGATATAACGGAGTTGAATGCGAATTTTATAATTTAATGGCTGATCCCAAAGAAACAAAAAACGAAATAAATAATCCGGATTTTGCTGAAATTATTATTAAAATGAAGAGACAACTTTTTGACTGGTTCAAAAATTATTCAAAGCCAGAGCATGATGGATCAAAACAGTTGGTCAAAGGTAGAGGTCAATTAGATATCATTAACTCAAACAGAGAAGCTTTCGCTCAAGATGTGACATTTTTATTAAAATAGAAATTTTAGTTCAATCTTCTTCATAAGATGAATTTTGGAAATTTGTTTATGCAAGGATATAATTTGATTGTTTGGAAACCATTAATATAGTTCACAAATCCTTGAATTCATTAGAGTCTATTTTAGAATAATGCTCAGGCAATAATTCAAAAGCATTAATGATATTTTCATGTGTTAAAACATCCTTAGTTTTACCGAAATCTACGATAACTCCATTTTTTAATAAACATAGAAAATCAGAAATATCTTTTAAAATTCTGAAATCATGTGAAGTTACAATAGTTTGTATTCCATGGGAATTTAATTTCTTTATTAAAGATGAAACCTTATGAGCATTTTTTAAATCTAAATTCGATGTTGGTTCATCAAATAAAATAACTTTAGTATTTTGAGCTAAAACTCTTGCTATTCTCAAAATTTGCATCTCTCCTCCGGAAAGATTATCAACCAATTCATCTTTTCTATTAAGAAGTCCTACAATATCTAAGGCCTTATCAATAACTTTAGAATCCAGATTGTTTTTAAAATCAAGAATGTTTTTATTTGGAAAAGTCCCTAATTCCACATATTCATATAATGTGAACCCAATAACATATTCTCTGTCCTGCTGTACATATCCAATATTTTTAGCTCTATCTAAATCAGAAATATGTTTAAGGTTTTTTTTATCAAATTCAACTTTACCACTGGTTGGTTTTGTTATACCTGAGAGAATCTTCATTAAGGTTGTTTTACCTGAACCATTATGACCAAGAACACCTATAGACTTTTCAGTAAAATCTATTGAAATATCATTAAGGATATTCTTGTTATTATTTTGGTAATTAATATTTAATAATGAAAAAGACACAGTGAAATTAGTAATTTATCTACCGAAATCAATAAATTTTTTTGTTCTCAAATCATCCCAAACAATTTTCATTAACTCTTCTGTTCCTCTTAAATTCCAATGAGACAATGTAGTGAAATATCTAGGATCAACTAAATACACTTTATCATTTTTTATAGCTTGAATTTCTTTTAATGTATTGTCAGAAATTAAATCATTAAAAAATGATTCACCTCCCCATTCTTTAGACTGAGGAATAATTATCACATCTGGATTCATAGAAATTAAACTTTCCTTAGTAATCATGTCATTTGATTGTACACCCGATTCAGCAGCAATATTTATTCCACCAGCTAAATCTATAATACTCCCCTCTGTAGAGCCTAGCCCTCCTGTCCAATAAGCATCATAATATGTCAAAGATAAAATTTTTGGTTTTTCATTAACATCTTTAGTTTCAGTATAAGAATTAATAAATTTGATTCTTTCATCCAATATATTAATTAAATTTTTAGCTGATTCAAGTTCTCCAAGGGCATAACCCATTAAAAGAATATCTGCTCTTCTTCCTTCTACATCATTATGTAGAGTAGTTTGAATTACTGGTATATTTAAATCTGATAATGCATCTAAAAGATTTGGGTTTGCATAAGGATCTGCAAATACAATATCTGGATCTTGAGCAATAATAACTTCTGGATCTGCTGTAATCACTGGAAGACCATTAGAAAACTCAAAAATATTCCCTCCAGGGTCTTGTGAAAATGAAGTAGTTGCAACTATTTTATCTAATTCTACAAATCCAAATAACATTTCATCATGACCTAAAGAAACAGTTAAAATTCTTTGAGGCTCTTGATTTATAACAATATTTCCATTCATGGCTTGAATTTCACGAGGCCAAGAAAAATTTTTTGGATTAACAATTCCTTCTACCTTAGATAAATCTATCAAAGAATCAGATTTTTGATCTATATATACTTCTACAGTTTTAACAACTTCTACTACTTCTCTTTCCACAACAGGAACTTCTTTGATAATTTCCTTTTCTTGAACAATTATTTTTTCAATCTCCACTTCTCTAATAACTTCTTTTTCCACAGGAACTTCTTTAATTACTTCTACAATAGTTTCTTCTTTGATTGTTTTAGACTCAGTATTTGCACAAGCTAAAAACAAGTTTGGAATAATTATTAGAATTAACATAAAAAAGCGAATACTCATTGGACAACCTCCGTTGTTCTTTGTCTTATTAATAAATAAATAAAAAATGGAGCTCCAACTAAACTAGTAATAATTCCTAACCGAATTTCTGTTGGAGAGAATATTGTTCGTGCAAGATAATCTGTAAACACCAAAAATAGAGATCCTAATAATGCTGAAATTGGTATCACAACCCGATTATCAGGACCAGTAATTAATCTAACAATATGAGGGATTATAATACCCACAAAAGCTATAATTCCACTAACTGCAACAGCCATTGAAGTTAATGCTGTAGTGGACAATAATAAAATTAATCTAGTTTTACTTACATTTAATCCTAGAGATTTTGCAGAGTCATCAGATAAAGCTAAAACATTTAGTTTATTTGAATAAAAAATTAATATTGGCAAATTAATTAAAACTATTGGAAAAAGCAAAAAAACATGATCCCATCTTGTTGACTCTAATCCACCTGCTAACCAAAATAATATGGATGACATCTCTCCATATTCTGAACTAGCCAAAATAATCATTGAAATCACCGAGTTAGCAAATAATGATATAGCAAGTCCACCTAGAATTAATGAAACTAAAGAATTTCTTCCTGAAACAAAGGAAATAAAATACACAGTAAATGCAGCAATTATTCCACCTAAAAATGCCATCAAAGGTAATACAATTAGAGATAACGAATATATACCTAATGCTATTGAACTCACGGCTCCAACCGCAGCTCCTGATGAAACTCCTATAATACTAGGATCAGCCATAGGGTTTCTGAATAATCCTTGCATAATTGCACCAGAAACAGAAAGCGAAATTCCAACTAAAATCGCAAGAATTATCCTAGGTAATCTGATATTTAAAATTATCTGAGAATTCATATCAATAGTAGATTCAGATGAATTCAAAATATTGATAAGAATATTTAGTATTTCAGCAAAATTTATACTTACTGGACCTGATCTTACTGAGAGAATCACTAATAATAAAGTGAAAGATAAACAAAGAATTGATAAAAGCAAAAGCTTATCAAAATATGATAAATTTCTTAATTTATTTCTATTGCGTCTTGATATAGATAACATAAAATAACGCAATAAAATATCTAATATATTGGATTCTTATTGCGAAAACCCTCGTAAAGATTTTGAGCAGGTCTCCTGACTTAAGGTTTTTCTTCAATTAATCCTTCCCAATTACTCAGTGGATTAAAAAACAACCTTAACAGTGGCGCAAACCGTTCAGCTATAAACTGATTCCCTGACACTCAATTTTTAAAATATTAATGTTTTTATTTTTAGCATTCCCCAATATATTTAGTCAAATGAAATATTAAGATATCTCTTTAATTTATATCGTGGCTTTTCTATAGAAATATTAAAACAAAAATTTTTTAATCTTTATAAACAATATAATTAGGAAGACTAATCTTTAGACAATTCTTGAACTCTATTTATAGGGTTTTTACCTTCGAAAAAATTATTAATATTCTGAGCAACTACCTTCATTCTTCTATCAAATGTTCCAAAAGTTGATCCACATACGTGTGGAGTTAATATCACATTATTTAATTCATTGAATGGAAAATCAGAAGGATTTGGGTTTTCATCCTTAGTTTTCGGATAAGTATACCAAGTATCTAGTGCAGCACCAGCTATTTGATTAGTTTTAAGAGATTCAAATAAATCTTTTTGGTTAACTATTGGGCCTCTAGCAGGGTTAATAATAAATGAATCTTTTTTCATCAAACTGAGTTCATTTTTTGTGATTAGCCCTTCAGTAGATTTTATAAACGGAACACAAATAATAAAAAAGTCTAAGATTGGAAGAACTGAAATAATATCTTTTGGTTTTACTAAATCTACTAGTGAAAGGTCTTCAATAATAGATTGATCTATAGGATTTACTTCAATACCATAATTTTTCATTCCAAATACTTTTGTCATTTCTAAAACTTTCCTACCTATTCTACCTAAACCCAACACTCCAACAGACCTACCATGCAATTCTTTGCTAGGGCCACTTCTTTGAGGCCAATAATCCCATTTATTTTTAGAAAAATTATTGTGAACGTTTATTAAATTTCTATCTAAAGCAATCATTGACATAATTACATATTCAGCAATTCCTATTTCGTGCTCATAACTATTTGTTACTAAACATCCATCAGGTACAGCTTCAGGAGAAACTTTTTCCCATCCAGCACCTGGCATAAATATACCTTTTAAATTTTTGGATTCATTCTTGAAAGAATGATCTAATGAAGTACTTACTAAAACATCTTGATGTGGAAGAACATCTGCAATAAGTTTTTTATCCATAAAATCTACAATTGTCCACTCAACAGGAACATGAGTATTTTTCTTTAATTCCTCTATTGAGCGATCTAAAGAATTTGCTCTTAACACCAATACATTTAATTTATCTTTATTAATACTCATATTTCTTTAATTAATTATGATCGTAAGTTTTAATAGAACTAAACTAACCTAAATACATAAAAAAGAAAATAGAAAAAGTTAATTAGTATTTAAAATCTCTTCAAAAGTAGCTTGAAAAACTTCATTCTTCGCCCTACCAGAGGCTTTAAATATAATTTCTCCTTGACTATCTTCAATTATAAAAGTTGGAACTGCCCTAATACCATAATCTAAAAAAGCGTCTCTAGATTGATAATCAGAAGTACTCAGAGAAAAGAAATCAAATTCTTCTCCAAAATCTTCTTTTAGACCATGTACAACTGGTTTGCTTGCTAAACACGTCATACAGGTAGGAGACCAAAACTCTATAAATCTAGGTTTTCCAGAAAAATCATTTAATTTTTTTTCTTCAACAATAGGCTCATTAATATTATCTGATTCAATTTTTATGGTTTCTGGGTTTTTCAAAGATCCTGAAAGAGGTTCAGCTTTATATAAACTACCTACATAACCCTTAGGCATTTTTGAATCAGAATTTTCAGAACTTGCCAATTTATCTTCAGAATCACAACTAATTACTGAAAAAAACAATATATTTACAACAACAATAATTAAGAATTTGCTCATAATTTCAACAACGATTTTCCATCACACAATTTTTAGTAAAACTTTTTATTTCTGCTTTAGGGGCTATAGTATTCAAAATAGAAATTTCCAAAACAACAAATATCAACAATGTAATATTAAGTATAATTAATAAATATTTTCTTCTATTCTCAAGTTTATTATTGATTTCATTAAATAAATTCATAAAGTAATTATACAGAACTATTGATAACACTATTAAATTGAATTAATTTTACAAATAATTCTTATGATAGAAAAGATAATTATAATTACATTAATAACAGCAAACATATTTTCTTTTCTATTGATCCTCATAGATAAATATTTATCAAGAAATCAATTAAGAAGAATTCCCGAAAATCAATTATTTTTATTAGCTCTTTTTGGGGGATGGCTTTTAGGAATAATAGGAATGACATTGATAAGACATAAAACTTCAAAAAGAAGCTTTCAAATAAAATATTTCATCTCATCATTATTAAATATAGCTGTAATCACCTTATTGTTTTTTTCTATCCAAATTCGGTGGTGGTAGAATATTTTTTGAAAATTATTAGAAAATATAAAACTAATCTAACAACTTTTCTTTTATAATAAATTATTATAGTTTTATACTTTTAACTTATTTAGCATTCTTAGGATAAATATTGGTTCAATAAATGTAGCAATAATTGGTGTAGGGAATTGTGCGTCTTCACTTGTTCAAGGTATTAACAAATACAGTGAAGCTGATCCTGAACATGAAATTCCAGGAATAATGAACACTTTAATGAGTGACTATCATATTGGAGACATAAAAATTGTTGCAGCATTTGACATAGATAAAGAAAAAGTAGGAAAAGATCTTTCTGAAGCTATATATATGAATAACAATTCACTTAAATTTCATGAAGTACCACTCACTGGAGTAAAAGTTCAAAGAGGAATGACACATGATGGATTAGGGAAATATTTATCCGCACTTATTTCAAAGGCACCAGGAGAAACTTCAAATATAGTAAAAATCTTAAAAGAAAAAAAAGTGGATGTAGTTATAAACTACCTACCAGTCGGCTCTGAACAAGCAACTAAATGGTATGTTGAACAGGTATTAAAAGCTGGATGCGCATTCGTAAACTGTATTCCGGTGTTTATTGCTAAAGAGAATTACTGGCAAAAAAGGTTCCATGAAGCTGGTCTTCCAATAATTGGAGATGATATAAAATCTAAAGTAGGAGCAACTATAATTCATAGAGTTTTAGCTAGATTATTTCAAGATAGAGGAGTAAAAATCAATAACACTTATCAACTAAATTTTGGTGGAAATACAGATTTCCTAAATATGCTTGAAAGAGACAGGTTGATTTCCAAAAAAATTAGTAAAACAGAATCAGTAAAATCTCAATTAGAACAAGAAATAAATTCAAAAAATATACATATTGGACCAAGTGATCACGTACCTTGGCTAGAAGATAGAAAATGGGCATATATTAGACTAGAGGGTACATCATTTGGAGATCTTCCCCTTAATGCAGAAATTAAACTAGAAGTAGAAGACAGTCCTAATTCAGCTGGTGTAGCTGTTGATGCTATAAGATGTGCAAAAATCGCAAAAGACAGAGGAATTACAGGACCTGTAGATAGTGCATCTTCTTATTTTATGAAATCCCCTCCAAAACAATTCACTGATGATGAAGCAAGACAAATGGTAGAAGAATTTGTTAATGGAAATGAAAAAAAACAAACAAAAACAAGGTTAGATGATTAATTGATATTCATCAGAAAATCAGGAGAAATGTTATGTCAAAAAAGAAAGTTTTAGTTACTGGATTAAATGGAGTTGTAGGTTCTGCCCTCAAATCAGATTTTGAAAAAAAATATGAATTATCATCTTTTTCTAGATACGGATGTGAAGATATCCCTGATGAAAGAAATCATAAAGGTAACTTAAAAGACTATGATTCAGTGCTTCAAGCTTTTAAAGGTCAAGATGTAGTAGTACATCTAGCAGCAGATAGAAGTATGAAAGCAGAATGGGATACAGTTCTACCTTACAATATTGTTGGAGTTCAAAATGTCTTTGAAGCTGCAAAAGTAGCTGGAGTAAAAAGAGTAATTTTCGGATCATCCCAACATGCAGTTGGAGGAAATTATTTAGATGAACCATATAAATCTATTCTTTCAGCAGATTTTTCTAAAGTTAAAAGACCTTACAAAAGAATTGACGAAAATACTCCCATTAGACCATCTGGGTTTTATGGAGTTTCCAAAGCATTCGGTGAAGCTATAGGATCTATATACAATGAATATTATGGCCTCCCCTCTATTCATCTAAGAATAGGATATACAGCCTCAAACGATAATCCAGGTAAAGGAATGAGTTTATGGTTGTCTCATAGAGACTGCACACAAATTATTATGAAATCAGTAGATGCACCTGAAAGTTTAAAATATGGTGTTTATTTTGCCATGTCTGATAATTATTGGAATATTTTTTCAATTGAAAAAGCTAAAAAAGAATTAGGTTATAAACCTCAAGATGATAGTGGTCAAGTATTAACTCAAGAACTAAATACTCCTCAATTAGAGAGAGACAGAACAGAGTTCAAAGTTAATCCATATTCTAATAAAGACTAATTTAAAAAATGACAAAAACTTTATTTACTAAAATAATTGACCGTGAAATACCTGCAGATATAGTTTACGAAGATAATGAAATTATCTCTTTTAAAGATATTAATCCCCAAGCACCTATTCATCTTTTAATTGTTCCTAAAAAAGTTATTCCAACCTTAAATGATTTAGATGCAGAAGATTTTGAACTTATTGGTAAAATGTTTAAGGTTGCACAAAAATTAGCAAAAGACAATAATTTAAGTGTATCTGGATTCAGAACTGTTTTTAATTGCAACGAAGATGGGGGTCAAACTGTATACCATATACACTTACATCTTCTTGGAGGAAGGCAATTTCAATGGCCTCCAGGATAAAAACCGTTAGGAGGATTTATGAGAAAATATGATAGGTATAGAGGGGAAAATTTATTAATTAATGGTCTTTGGGGAGTATTATTTGGAACTTTCCCAATAATTGCGATCTTAATTTATCTAGCAGTAGCTAAAACTATAGAAGGTTTTTCAGTTGCTCCAAATGTACTAGTCATATTAATTCTAGTTTCATGCTTTTTAAGTGTGCTTTTAAATACAGCTCGTATAAATTCAAAATATAAAAACAATGAACCTATTTGAAGATCTAATTATTTAATGAGATTTTCATTCGGAAACACCTTTAGATCTTTAAAAGAAAGACAATATAGAACATATTTCATAGCTTTATTACTTATGATGGCTGCAGTTAATATGCAAATGGTAGCCAGAAGTCAACTTACATATGATATTACTGGATCTGCATTATATGTAGGAGTTGTAGGAGCAGGTTTTGCTCCCCCGATATTATTACTAGCAATTTTTGGAGGTAGCGTATCTGATCAATTTAATAAAAAACATATCCTCCAAATAAGTCAGTTAGGGATGATAATTTTATGTGCGATAATAGCCTTTTCAATTTTTTTGAATGTACTTACAGTTTTCCATTTAATAATAGCTGCATTTCTTCAAGGTTTTCTATGGGCTTTCCTTGTACCAGCAAGACAATCTCTTATTCCTGAATTAGTAAAAAAGGATTTGATCGTCAATGCAATCGCATTAAATGGATCAGGAATGGCATTGATGACTTTTTTAGCTCCTGGGTTAGGAGGATATTTATATTCAGAACTAGGACCTCTTGCAGTTTATATAACTATAATGAGTTTATTCTTGATCTCTTGTTTAATTAATCAATCATTACCATCAATAACACCAGTAAATAGAAAAAACCAACCTAGGGTAACGCAAATCAAAGAGGGAATAAAATATGTTTTTCATGATAATGCTTTGAGACTATTAATCTTGATTGCTTTAGTGACAACACTTCTTAGTATGCCTGTTAGAACTTTAATGCCTGTAATAATGGATGAAATTTTTTCTAGAGGAGCTGATGCAGTAGGTTTAATGTTGAGTACAATTGGTTTAGGGACAGTTCTAGGATCTCTTTTTTTTGCAGGATTACCCAAAGGAAAAAGAGGAACAACTTTAATAGCAACATTATGCATATCAGGTATTTCTATACTTTTGTTATCTCTATCTCATTATTTTTGGTTAACCATAATTATCATGATTTTAATGGGAATCGGAGATGCGGGAAGACGATCTTTAAACGTTGCACTTCTAATGCAAAAATCTAAACCAGAATTTAGAGGTAGAGTAAATGGGATTTACACTATGAATTTTGGGTTTATTCCATTAGGAGCAATTCCTATAGCCTCTCTAGCTTCCTTTATGGGAATAGCTAATTCTTTAATGATTACATCAATATTATTGATTTTTATCTCAATAATATTTTTTATACTAAGAAAACCTATAAAAAATTTATAATCAATTAGTTTGATCTGAATAAATTTGTTCTAATTTTGATATTAAATCACTTGATTGAGGTACACCTGAAGATCTAAATAAAACTTCTCCTTTTTTATCTAATATCACAAAAGTAGGAACTGTTTGAATTTCTAACTGAAACACTAAATCAACATATTCATAATCTTTCACATTAAGATAAACAAAATCATATTTATCATTAAATTCTTCTTCTAAATTCTCAATAATAGGTTTACTGATCATACATGCTAAACAAGTAGAAGAAAAAAACTCTACAAACTGAAGTTTCTCAGAAACGTATCCAACTTCTGCTTCATTTGAATTAACCAATAATTCATTTCCTTCTTGTTTAAAAATAAAATACGATGTAATCAAGATAAGAATTATTGAAATCAATAAAGCAAGCAAATAAGGAGATTTTTTACGAAAATAAAGATAAGAAAATCCCCCAATTAGGACACATCCTAAAATAATCAAAGAATAATGATTTATAATTGTTATCATTCTAAAAAATTAACCTTATTTAAAAATATTGTAAAATAGTGATCTATTAAAATTAAATCTATTACCATGTCTAAAAAAAACAATGTAATCTCGGCTATAAAGTCTTCATGGAAAGATTTACAAAAATCTTTAACAGAATTCTCATACGATAAACTTGCACAGCAAGATTCAAGTTTTTCAAATCAAGTCTTAAATACATTATACGAAATAAGTTTAAAAGAGATCTCTGTAATTAATAACATTTCATCAGAAAACATGTCTAATAAAAAACCATTAAAGATCAAATCAAATAAAGAAAATATCAGAGTCTCATTTAGAAATTCCCTTATAAGTCTTAGTGAAACTCACGACACTTTAATAAAAATGTTAACTTCACAAGAAGAAAATATATTCACAAACAATTCTCCAAAACGTTTAATTATAGATCAAGGGACTTTCTATAATTATCTTCAAGCGAAAAAAGACATATCAGAATTATCAGAAAATATTTCCTAGTGATATTTTGGTTTCCATTTCCTCAGACTGACTACTTCTTGAGGAGGGTTAAGTTTAGAACCATATGCAGTATAAGAAACTTCAGCCACATAAATATTTCCATCATTATCCTGAGTGATTCCATGTGGAGAAATAAATTGATCAGGTAATTCTCCACCAAGAGAATTTCCAAATCTACAAATTTCTTTCCCATCAAAATCAATTATCTTGATTAAATTTCCTAAATTTGGAACATTACTTTGATTTAAAGAAGGAGATCCTGCTTCAGATATGATTAGTTTTCCAGAAAAAACACCTTTTCCAGAACAAATAGCTTGAGGTCTATGAAAATGAATTTGTCGTACAAAACTTCCATTAGTATCAAAAAACTGAACTCTAAAATTCTCTCTATCACATACAACCAAAAATCCTTCTTCATGAAAAGTTATATTATGAGGAAGACTAAATTGTCCAGGATCTGAACCAGATTCACCCCATGACAAAACATGATTTCCAAAATTATCAAATTTATGAATTCTTGAATTTCCATATCCATCAGAAACATATAGATTTTTATCTGAATCAATAGCCAAATCAGTTGGTCTATTAAACATTCCGCCTTCTTGCCAAGGAGATGGGTTACCAGGTATCCCCAAAGTAAATATTAAATCTCCATTTGAAGTCATTTTATAGACACAATGCCCTCCATCATCTACGAGATAAAGAAAATCTTCATCATCTATAAAAATACTATGAGGTCTAGTAAATTTTCCTTCTCCCCAAGTATCAATAAAATCTCCATCCTTGTTAAAAATCATTATTGGATTAATTCCTCTATTAAAAACATAAACATTATTAACAGAATCAACTGCGACTGAAGTTGCCTCAATAAATTTTAATGGATGAGGAATTTTAGCCCAATTATTTACTGGTTCAAAACCATTTAAATCAGTCAATTCAACCATCAATTAAAATTATTCCCCTTCTAGATTTAACCAAAGGTTTTTACAATAATCTAAACTCAATTTATCTGAATAAAATTGATCTCCTGTAAAAACTCCTTCAATGGCCATCATTCCAGAATAATTAGCTTCATGCATAGCTTCAACAGAAAACCTATAATCTATTTCTCCTCCAACAATATTCTCTCTAATAAAAAGAGTTCTGTTGTCTTCAGGAAAATTAATTCTGGTTAAATTTTTACAATGCCAATAATTGGATATTGGAGCTAATTCCTTTATTGCATCTTCGCATGATTCTTCTTGAATATCATAATTCCATATAATATTTCCTAAATCAGGATTTATTCCAAAATTATCTTTATTTACTAAACTATTTACCAGTTTTGCAGACCAACTATTATCTACAGGAGAATTTTGGTGAACTTCACAAGATACGTTAAGTCCATGCTCTTCTGCAAATTCAGATATTTCTACAAATTTTTCTGCTAGCATTTCATACTCTGGCATTGTAGTATCTCTACTAGAATCTTGAGATTTAAAATAACCCATTGGCTGTGCACCAATTAATGCACTTCCTGACTTAGGGATTAATCTAGTACCAGTATCTATATAAGGAGATTTACTAGAACCACTTATTGCACCATTAACTACTTCTGAACCTAAAATTTCCGCAAAAATAACTGCTCGCTTTGATCTCTTTAAATATTCATTTCCTTTTTCTGGGTCTATCATTAAACCTCCTGCTCTAATAGCTAGTACAGGAGTTCCTAGATCATTTAATCTTTTCCCAAATTCTTTTAAACCTCTTTCCCCTCCTTCAATCCTATCTAAGCATTCCATTCCTAATTCAATACCATCAAAACCCATTTCATTAACTCTATTAAGGAATTTATCAGTTAATTTACCCGGATCCATATCAAAAGCATTTCCTAAATAAGGATAATCAGAGAATCTTCTAAATGCATAACAAAATCTCATAGCGCCTCCAAGAATAATTATTTATTCTAGATGATATATAATCTTTGAAAGTCTAACAAATTCGAAAATTTCAAGATTGAAAAACATTTCTTGAAATCAAATTTATTTTCTTAGTATTAATTTGAGTAATAAAGAAAAAAGATCAATATTTTTTGTACTTGGAGCCATAGTTTGCTTTTGGTTTAATCTTTATTTATATGTACCAATTCTTCCACTTCATGCTCAAAATTTAGGAGCTGACCTAAATTTTGTAGGTTTAATAGTTGCATCTTATGCTATAGGGCAAATCATTTTAAGAATTCCAATAGGAATTGGATCAGATGTTATAGGATCTAGGAAATTATTTGCTTGCATTAGTACTATGTTTGGGACAATTGGTTCTCTAGGATTAGCAATATCCACAAACGAAACGAGTATGTTAATTTCAAGAACTTTAGTAGGTATAGGTGCTGCTGGATGGGTTGCAATAAGCATTTTATATGCAAGTTATTTTGGAGATGGAGATAAAAGTAAAGCTATGTCTTATTTAATGTTTATTCATAGCTTTGCTGTTCTTATTGCTACTCTTATTGGGGGATATATTGCTGAACATTTGGGTAATATTTCTACCTTCTGGGCAAGCACAGCTGTTGGAATAATCGGAACAACACTACTACTTTTTACTCAAGAAAAAAAGAGACCAGAAAATTTAAATTTTTCTTTAAAAGAAATTTCCAAAATATTTTCATCAAAATTTCTCATCAAAATTTCCTTGATTGGGATACTTCCCCAATTCGTAACTTTTTCTATTCTATTTGGTTTTTTACCAGTATTTCTAAAAACTATTGGGGCAACTAAATCTGAAATAGGACTTATTACGTCTATCAGCTTATTCTCTAGTTTAATTGGAATATTAATCACTCCATATATAACAAAAAAAATAGGTCTAACCTACTCAATATGGGTAACTGCTATCACGATTAGCATTGGAGCTCTTTTAGTACCCTTTGTATCAAATTTAATTATTATTACAATTACTCAGATTATCAGTGGATTGGGTAGAGGAATGATAAATACTATTCTGATAAGTGCAATAGTAAATAATTCTCCAAAACATGAACAAGCAACATCAATGGGATTTTATCAAGCTATCTATGCCTTAGGCATGTTCCTAGGACCAGCATTGTCTGGTAATGTAGCAAATATATTTGGAATAAATTTTGTTTTTTACCTTTCTGGATTATTAATGTTAACTACACCTTTAATAACTGGTTTTAAAGAAATTTCAAAAGATAAATAAGGAGGAATTTATGGAAAAATTCGAAGAACTTAAAAATAAATCTCATAAATGGAGAGAATGGTACTATGATGGAGAGCCTGAATTAGATCCAGTAGCTCAACCTGTAAAAGAAGCATTTGATTTAATCAATGCGACTTTATTTGGTCATATTTATCAACGTCCTGAATTGGATACTAAAATTAGAAGTCTTTGTACAATAGCAGCGTTAACTGTCCTTGATAAACCTAAACAACTTCCTGGGCATATTACTGGTGCTTTAAATTCTGGGGCTTCTAAAGAAGAAATCATAGAATTAATTACACAAATGTTGTTTTATGGAGGATATCCATCAACTGTAAATGCTCTAACTGCAGCATCAGAAACTTTTAAAGAATATGAAAAAAAACATTGAGAAACTATATGGAAAATCAATAAATTTAATCTTTAATAGGCTTCATTATTTTAATGATTATAATTGATTAAAATAGTTACTTTTCTTGAAGAATTTTTGTTCATTGAAATGATATATTTAATAGATGAACACTGAACTTATTAAATTTCCATCTAATCTAAAATTCACTCTACTGAATTGTATTGTAATTATCTTTCTAATTTTACTAAATTTTTCTCCAAAAAATTTTTTTATTATATATCCTTTGGAATTTTTCATCGTTCTATCTGTAATTTACCAATTTTTTCTACTATTTAGCACGTATATTTTTAAAAAAATTAAACTTAATCAAATATCTACAATTTTATTGTTTTTAACAGAATTTTCATTTCTTTTTATTATTTCTTTAGAATTTAAAAATCCCCAAAGTGTCATTCTCCTTTTTTCAATTCCATGGGTGAAATGGATAATAATCTCTCAAAAAAAATATCATATTTTAATAAACATTTGTGTTCTATTAGCTTTAGTAAGTTATCAAACAAAATTTTTATATTTTCCTTCTTTGTTTAATCTATTTTCATGGATTTTCATCAGCTTAGGATTAACTTTAATTTCGAATTTTCTTAATAATTTAAAAGAAGAAAATAAAAAACATTCTAAAAATATTAATAATTTAAAACTTGATCTAGCTATCTCTAAAAGAGTTATTGAGGGATTAAAATCTCTGTCTTACTCTACAAAATGGAAATCAACTATTCAAAATTTTTCAGAAAATTTTAGAAACATAGGAGGATTTGATTCTTCAATAATATTTATTAGAGAACAAGGAACTGAAAATCTAAAATTAGAAATAAAAGATGGGATCACGATTAATTCAAATACTATAAATATTGAAAATCATCCAGAATGGAATAAATTAAGACAAGGAAATTCTGTATTACTAGATCCTGATAATCATGTTTTACCTCAATGGATAAATGAGAATAAACAATATGGAATAATAATTCCATTAATAAATGAACTTAATTTTTTTGGATTAGTTTATGGTTTTTTTGAATCTAAAGATCATGTTCAAGAAAAATTTTTAGAAGAGAGTAAAGTATTCTGCTACGTGTCTTCAAAATATTTGTGGCTAGTAAAAAACACAAATAAACAAAACTCATTAGATATAATTTTGTCTGATGCAGGAAGAAAACTAGAAGAAAATAGTCAGTTAATGAATTTAAAAGATTTATCTTTAGATTTAGAGAAAGAATCTATCAAATTCAAAGATAGAAATATCCCAATATCTTCTCAAGAATTCACAGTAATGAAAATATTAGCAAAAAATATTAACTCTTATATAGAAGATTTTGAAATAGAAGAAAATGCTCAAAAAGAAAATTCAGAAATTTTGAAATCTTCAGTTCCAATAACTATTTATAGGTTAAGAAAAAAATTATCAAAAATTCCAGGTGGAACAAAATTAATAAAGTCTAAAAGAGGAAAAGGATATTCTCTATCCATAAATTAATTGTCTAATTTAAAAAAGATTTTATTCTTTTTATAGCTTCATTTAAATTTTCTCTGGTGTTAGCAAAAGAAAGCCTTAAGTACCCCTCTCCAAATTTACCAAACGCAGTACCAGATAATAATGCTACTCCATAATCAAATAACAATTTATCTGTAATCTCTTTACTACTATAACCAGTCTCTTTTATATTAGGAAAAGCATAAAATGCGCCTTTAGGATTTCTACATGAAATTCCATTAATGCTATTCAATCCTTCTACAATGAGCTGTCTTCGTGCCTTAAACTCATCTACCATATTTAAAACACTATCTTGTGGTCCATCAATAGCTTCTATAGCAGCTATTTGAGAAAAACTAGAAGTACATGAAACACTATTAGTAATTAGCCTAGATATTGGTTCTACTAATTTTTCTGGAAAAACACCGTATCCTAATCTCCATCCAGTCATAGCAAAACTTTTGGAAAAACCATCTAATATAATTGTCCGTTCTTTCATACCTTCAAATTCACTTATAGAACTATGTTGACCTTCAAAATAAAAATTTTTATAAACTTCATCGGTAAGTACAATAGCATTACTATTCTTGATTATTTCAGAAATTTCTCCTAACTCTTCTTTAGGAATCACACTTCCACATGGATTATTAGGTGAATTCAAAATTATCAATTTAGTATTTTTATTAACTAGATTTTTAAAATCTTGAATATCAGCGTTGAAATCATTTTCTTCTCTCAACTGTAAAGGGACAGCTTTACCTCCCATAAAATTTATCATTGATTCATATATAGGAAATCCTGGATTAGGATATATAACTTCATCTCCACTCTCAATTAAAGCCATAATGGAAAAAAACATTATTGGTTTAGCTCCTGGAGTAATAACAACGTGATCAGGAGACACATTAAAACCATGAGTCTCACTCTGATGTTCTGCAATTTTAGCTCTTACATGTGGTAAACCTGGTGAAGGACCATAATGAGTATATCCTTGATCTAATCCTAACTTAGCAGCATTTATGATATTTTCTGGAGTATCAAAGTCTGGTTCTCCTATTTCAAGATGGACAATATCTTTTCCTTCTGCTTCTAGAGCTTTTGCTTTTGCTAAAGTTTCAAATGCAGTTTCCGTTCCTAAATTTTTCATCCTAGCGGCTAATTTCATATTAATCTCCTTTTTTCCGATCTAAGTAATAAATCGTAACTTTATTTTGGGAAAATTCAAACAAATTATCAACAAATTAAGATTTATTTGTTAATTTGTTGAATCACAAGATCCATTTCAAATAAAATAATAGATGATTTATAGTAATATTTATCAAAGTAATAAAAGGTAATAAAAATTTGAAATATTTAAATCCAATTTATTTACTAAAACTTCTTTTTATTAGATCTGAATTTAAATTTGAGAAACGAAACAATATTGTAGCCAAATTAGATAAGATTACAGAATTGCCTTTAATAGTATTTGCCTTTGCTATGGTTCCTTTATTGATAGGACCTTTATTATGGGATTTAACACCAGAAGAAGTAGAAACTTTTAGTAGATTAGATAATGTTATCTGGTCGGTATTTGTAATAGATTTTTCTATAAAACTACTTATATCACCTCAAAGATTACTGTTCATCAAAGAACATTGGCTTGAAGCACTTTGTTGTCTACCAAACCTTCAACCAATCAGAGTATTAAGAATAATTGTAGTAGGCACAAAAGCCGTAAGAGGTTTTACTCGATTAGGTAAAGCAGATTTCCTATTCGTTTGGGTTGGAGCATTAGTAATCGTAGGTGCTACTATTATTACAAGTTTAGAAAGAGCTAGAAATCCTGAACTAGGATCTTTTCCAGATGCTTTATGGTGGGCAATAGTTACTATTACTACCGTGGGATATGGAAATCAAGAACCTATTACATTTTTTGGAAGAATTGTAGCAGTTTTTTTGATGGTTTCTGGAGTAGGATTCTTTGCAGCATTAGCAGCAAACTTAGCAGCAGTTTTTGTTAATAAAGATGAAACTTCTCAATTAGATAAAGTGGAAAAAGAAGTATCACAATTGAAGAAACAAGTGAAAGATCTTATTAAAGAAATTCAGAATAATTCCAATTTATCTAAAAAGAAATGATCCTTTAAATAACTAATGCCGAATCAATTACAATTTGAAACCAGTGCTTATTTATTACAACACAAAGATAATCCTGTTGATTGGTATCCATGGAATGATGAAGCCTTAAATAAAGCAAAATTAGAAAATAAACCAATATTTTTAAGTGTGGGGTACTCATCTTGTCATTGGTGCCATGTAATGGAAGAAGAAAGTTTTGAAGATCTAGAAGTAGCAAAATTATTAAATAAAAATTTTGTAAGCATTAAAGTTGATAGAGAAGAAAGACCTGACATAGATTCCATTTACATGGCTTCTGTTCAAATAATTACTGGTCAAGGAGGTTGGCCAATGAGTGTTTTCCTAACTCCCGAAGGAAAACCATTTTATGGAGGAACTTATTTTCCTAAAAATAGTAGACATGGAATGCCTGGGTTTTTAGATTTAATAAAATATTTATCTGATATTTATTCAAACAAGAATGAAGATGTTCTAAAATCCAGTGAAAAATTAACTGCAATGCTAAAAATCCAGTTAGAAGAAAAAATAAAATCAGAAAAACCAAATTCAAAAATATTTAACGAAGCATTAGAATCCTTGAAATCAGAACATGATGATATCCATGGAGGATTTGGATCATTCCCTAAATTCCCTCAACCTTTATTACATAACTTATTATTAAATATTTGGAATGAAAACTCTGATGAAGAATCTTTAAAAATAGTCACAAAATCACTTTTATCTATGGCTAAAGGTGGAATATACGATCAAGTGGGTGGAGGATTCCATAGATATTCTACTGATTCTGAATGGAAAGTTCCTCACTTTGAAAAAATGCTATACGACAATTCCCTACTAAGTTATTTGTACTTAGACTGTTGGAAAATAACTAAAAATATTCGATTTAAAGAAATATCTGAAAATGTTCTTGAATATTTAAATAAAGAAATGCTTAGTAAAGAAGGATCTTTTTTTTCTTCTCAAGACGCTGATAGTGAAGGAATAGAAGGGAAATTTTTCGTATGGAGTAAAGAAGAGATTTTTAAAACATTGGGGAAAAAAGATGCTGATAAATTTACTGAAGTATTCTTAATTTCTGAAGAAGGAAATTTTGAAGGAATGAACATAATTTTAGAAAGAAACGATCTAAATTTATCTTTTAATGAAAGAAAAGAAATAAACCATCTTTTAAAAAAATTATATCAACAAAGATTAAAACGTATTCCACCTGAAACTGATAAAAAAATTATCACCTCATGGAATAGCCTCGCAATAAAATCTTTTGCCTATGCAGGAATATTGTTGGATAGAGAAGATTTTATTGATACAGCAGTTAAAGCTGCAAATAATTTATTAGAATCAAATACTTATAACGAAAATTTATTACGTTCATCATACGAACATCAAAATTCTAATAAAAAAAATAACCCACCAGGATTCTTAGAAGATTATTCTTTCTTAATAGATGCGTTATTAGAAATATATCAAGTAACTGGAGAAAAAATTTGGTTAGAAAAAGCATTAACACAAACAGAAAAAATGATAAATAATTTCTGGGATGAAAGCCAAAATTCTTTTTTTGATACTTCAAAATTCTCGAACACTTTGATATTAAGACCTAGCGTACTACAAGATAACGTTGTACCTTCAGGTTCATCTGTAGCATGGAGAATATTAATTAAACTTTTCTCAATAACAAATGATAAAAAATATAAATTAATTGTAGATAAATTTATATCTACTGCATCAAATCAAATAACTCACTTCCCTACTAGCCATGCATATTGGTTAAGTAGCTTAAATATGTATTATTCAACACCACTTCACTTATGCATAATAGGAAATCCTAAAGATAAAAAAACACAAGAATTTTTAAAAATAGGCAATCAATCTTATAAACCAAACAGAATTATTATTACAGCTTCAAATGATACTGAAGGTAAAAACTTAGATATTACTAACGAAAAAATAATGCTTAACAATCTTCCTACTGCATATGTTTGTGAAAATTTCAGTTGTAAAAAACCTACAAATTTGTCAGAAGAGTTAAATGTTCAGTTATCATAATGTAATAACCTGAAATTAATTTAATAAATTATATATTATTATAAACATATGAGTAGTTGACGGAGATCACTCTATGACTAATAAAAATACAAGAATAGAAAAAGATTCTATGGGGAATCTTGAAGTACCCTTTGATGCGATGTATGGAGCTAATACACAAAGAGCAGTGTTAAATTTCCCGATTAGTAACTTAAAATTAAGCAATTCATTAATAAATGCAATTACACAAATAAAATACTCTGCTGCAAAAGTAAACATGGATTTAGGACTTTTAGATCAAAAAGTTTCTTCCTTAATTCAAGATGCTTGTAAAGAAATTTTAAATGGAGAGCATTATAAAGAATTTGTTGTAGATGTTTTTCAAACTGGATCAGGTACGTCAACTAACATGAATGTGAATGAAGTGATATCTAATATTGCTATTAAATCAATTGATGGAAATATTGGTTCACGAGACCCAGTTCATCCTAATGACCATGTTAACAAAGGACAATCTTCTAATGACGTTATACCAACTGCAATTCATATTGCTTCTTCTATGGAGATAAAAAACACTCTTATACCATCATTAAAAAAATTATCTTCGGAATTGGAAAAGAAATCTAGAGAATTTTGGCCAATAATTAAAACAGGAAGAGCTCATTTACAAGATGCTACACCAATAAGACTTGGACAAGAATTTGAAGGTTATAAAGGACAAATAGAACTAGGAATTGAAAGATCTAAGATTGCCTTAAGAGAATTATCTGCACTTGCTCTGGGGGGAACTGCAGTAGGAACAGGAGTGGGAATGCATCCAGATTTTGCAAAAAAAATGATTAGAGAATTAAATAGTGAATATGACCATGAATTTGAAGAATCTCCAAATCATTTTCAAAGTCAAAATTCTTTAGATGGTTTGGTTCAAGCATCTGGATGTTTGAAAACAATAGCAGTGAGCTTAATGAAAATAGCAAATGATATCAGGTGGTTAGGTTCAGGGCCAAGGGCTGGAATTGGAGAAATAGAGTTACCAGAAGTTCAACCTGGAAGTTCTATAATGCCAGGAAAAGTTAATCCAGTTATTGCTGAATCTGTAACAATGGTATCTGCTCAAGTAATAGGAAATGATACTACTATCGCAATAGCAGGTCAGTCAGGTAACTTTGAATTAAATGTTATGATGCCAGTTGCAGCATACAATATTCTCCAGTCAATAGAATTGTTATCATCTTCCGCATTGAATTTTTCAGAACAATGTATTTCAGGACTAAAAGCAACAGAAAATGGCCCCAATCAAGTAAAAAATGGATTAGCAATTTGTACTGCTCTCGCACCGATAATTGGATATGATAATGCCGCAAATATTGCTCATATAGCATCAAAAACTGGTGAAAGTATTTTTGAAGTAGCAATTAAAGAAACAGATTTATCAAAAGAGGAATTAGAAAAAATTCTTGATCCTGAAGCTATGACTGAACCCAAAAAATGATTTCTCAAAGAAATCAAGAAATTAATAATTCTTACAATTTCAAATTTTATAAATTTATATTACCGGTCTATTTTCCTCTACTATTAATATCGATCTGTATAGGAATATTAGCTCCTGCGATTCCTGCAAAAGTAAATTGGATTGGTGGAAGTATTTTTTTAATAGGACTAATAGTAGGTGCGAGAAATTTAGGAGAAGCAATATTTGCAATTCCTGTAGGAATAGTAATTAACAAGTTAGGCACCAGAATTACAACTATTACTGGTTCGCTTGGAGTCTCGTTTTTTGCTTTAATAGCTGGATTGAGCCCAAATGGATATCTTTTATATTTTTCGATTTTTTTTCTTGGAGCATTTTTAGGATTATTTGGAATTTCTAGACATTCTTACCTTTCAAAAGTAGTTCCAATTGATTATAGAGGAAAAGCATTCTCTAGGTTTGGAGGTGTGAGTAGAATAGGTTATTTTATAGGACCTTTAATTGGAGGATTATCTGCAAAATACATAAGTTTTGACATACCTTTTTATATAGTATTTGTAATCAGTGCTATTGCTACTTTATTAATGTATTTCATATCATCCCCAGAAGAAAAATATTTGAGTCAAGAAAATAAAAATACATCTAAAAAGGTTACTCAAATAATTAAAGAAAATAAATATAGCCTTGGAGTAGTAGGAACCGGTTTATTTGTACTTAATTTACTTAGAGAATCAAGACATATAATCATTCCTCTATGGGCTTTTAACATAGGCCTTGAAGTAGATGATTTAGGCATAATTCAAAGCATTAGTTCTGCAATAGACATGACTTTGTTTTATCCTGCAGGATATGTAATGGATAAATTCGGAAGAAAATGGACATCAGTACCAAGTATTATTTTACTCTCATTAGCATTTTCACTAATAAGCTTTGCTGATTCTTATCAAAAATTACTTTTAGTTGGTTTAATTTTAGGAATTTCTAACGGGATAGGCAGCGGAGCTATGCTAACATTAGGATCCGATTTAGCACCTGAAGATTCTAACGGACCTTTTTTAGGAATTTGGAGATTGATATCTTGGTCAGGAAGTGGATTAGCATCACCGCTTGTAGGAACTATAGGACAATTTTTAAGTTTAAGCTTAGCTTCTTTTTCAATTACTGGAATAGGTTTTGTTGGTATAGTATTTTTTATTTTTCTAGTGCCAGAAACACTTAAAAAAAATCATAACCCATGATTTTTCAAATGATCATGTAATCTCTGAAGACAACTTGAATCATCATCTAAATTTCTACCATCTACACCATAATATTTTTTACCCGACATCCCCTCTACAGCCCCACTATCTACTAATTTCATAATATATTCTTTACTTAGATCTACCGATGGCAAAAGATTTTCTCCAATAAGTTTAGATATAGCAGCAATTAGTCCATAAGCTCCCCAATTTGAACAACTAGAAATTATCAAATTAGATACTGTTGTAATACTTGGGTTATCAGGTAATCCAGAAGTTTTAATTATTTCATTATATAAATTACCCATACCTATCTCATTTCCCCCATCTCCTATGCCAATTGATTTTGGAAATTGTTCAAAAAGATGATCTATTTTTGCATTAAATTCAGATATGTCTTCATTTTTCCAATTCCTATAAGTTCCATCATTCATTAAACCGGCTCTTTCAATTGAAATAAGTAACTCTGGAGAAAAATCCTTGATCAATTTATTACCAAATTCTAAAGATTCAATATGAGATGTGATAGGAAATTCAATTAATTCATCTTCATCTTGAAGAATACTCTTAACAACATCATAAGACCACTTATCCGTGATATATGTTATAGAAAATCCTAATTTTTTAAGTGCATTTCCTAAAGCAACAGAACCAGGAGGACCATCTGTTTCAGTAGCACCAGCATATACAATATAAAAGCCAGTAGTAATGAAGATATTTCCTTTACTCTCTAAGAGAAATTCTGCAGATTTATTTACAAAATCTTTATCAATATATTTCTTCAATTTTGAAATATTTCTAGTATCTTTATCTAAAATAATATTTTCTATTTCTGCCATATCAAATATCTTTATTCAAATTTAAAATCATCATCTTTGAGATCAGTAATAAACATGTGTCCAGGAGAGTGGGTAATCATTATTGGAATTTTTGATTTTAAAGCCACAACCTGTGGAGTGACACCACATGCCCAAAAAACTGGAGAATAATTATTAGAATCAGGTTCAAAAAAATCTCCAAAATCAGGCTTAGAAATATCTGAGATACCTATTTTTTCAGGGTCACCTATATGTATTGGCTCCCCATGCATTGAAGGATATTTTTTAGTAGTCTCTATTGCTTTTTCAATATCTTGATTTTGGATCCACCTCATAGAAACAACCATGTTTCCTGAAAAAAAGTCCGAAGGTACAGAATTAATATCAGAAATATACATTGCAACATTTTTCTTGAGATCATAATGTTTTAACTGAATTCCAGAATCTATAAGTGCTCTTTCAAAAGTAAAGCTACAACCTAAAAGAAATGTTACAAAATCATCACTCCAATAATCTAATATATCAGTAACTTCATCAATCATTTTTCCAGATTGAAACACTCTATATTTTGGAACATCAGTCCTGATATCAGAATTAGGAGAAGAAATTTGAGCCTCAAATTTTCCAGGAGTCAAAACTTCAACTAATGGACAAGACTTAGGATTTCTTTGACAAAATATCATAAAATCCAAAGCATATTGACTAGGTAATATTGCCACATTAGTTTGTGTATATCCTGGATTAAGGCCTGATGTTGTACTAGTGAAACTTCCTTCTCTAATCTTATGCCTAATTTCTTTTAAATTATTATTAAATTTCATCAAGGTGTTTAAATAGTTCAATTCCGTTGATATGCTTATAAATTAATATCCTACTAAAAACGGAAGATTAAAAAAACTAATAGCAACAGGAAGGAATATGCCAACTTTAGAGACTCTAGTATCTTTAGCTAAAAGACGTGGTTTCATTTTCCAAAATAGTGAAATCTATGGAGGCCTTGGAAGTGTTTGGGATTTTGGTCCTATAGGTGTTGAACTTAAACGAAGAATAAAAGATTTTTGGTGGACATCTATGGTCCATAACAGGAATGACATTGAAGGAATTGACTCATCTATACTTATGGATCCTGCCGTATGGGAAGCAAGTGGTCACCTTAAAGGTTTTTCAGATCCTCTAGTNGAATGTACAGAATGTCATAGGAGATTTCGAGAAGATCAAATAGAATCAACTTGTCCAGAGTGTGACTCTGAACTTTCAAGCCCTAGACAATTTAATTTAATGTTCAAAACATTTATGGGACCTGTAGAAGAAGAAGCAGCAACAATCTACTTAAGACCTGAAACTGCTCAAGGAATATTTGTAAATTTCAATAACGTACTCACTACTAGTAGACGAAAGATCCCATTTGGAATAGCACAAATAGGAAAATCTTTCAGAAATGAAATAACTCCTGGAAATTTTATTTTCCGTACCAGAGAATTTGAACAGATGGAAATGGAATATTTTTGTCATCCAGAAGATTCAGACAGATTATTCAAAGAATGGATTGAATTCAGCATGAATTGGTTTAAAGAAATAGGAATTCAAGAAAAAAATTTAAAAACCAGAATTCATACAGATGATGAAAGACCACACTATGCCAAGTCTGCTACAGATATTGAATACAATTTTCCATGGGGTTGGGGAGAATTAGAAACCATTAATAACAGAACTGACTATGATTTAAAAAATCATATGGAAAAAAGTGGAAGAGACCTTTCATATTTTGATGAAGCTACGAAATCAAGATATGTTCCATATGTTATTGAGCCAGCNATGGGAGCTGATAGAACTACTCTTGCAGTTTTTTCAGATGCTTATCATGAAGAAAAAGTAAATGATGAAACTAGAATAGTATTAAAATTTAATCCCAAAATATCTCCTATTGAAGTCGCGGTTCTTCCACTTAGTAGAAATGAAAAATTAGCCTCAATTTCTGATAAAGTTTTTAACTTAATTAGAAATTCTTTTAGATGTCAATTCGATGATACCCAAAGTATTGGAAAAAGATATAGAAGACAAGATGAAATAGGCACCCCTATATGCGTTACTATAGATTTTGATACTTTAGATGACAACTCAGTAACAATCCGAAATAGAAATACCATGAAACAAATTAGAGTAGAAATAAATAAAGTTAATCAAATAATTAAAGATCACTTAGAAACTCAGTTTTAACAAATAATGCTAAAAAACATAATTAAATTTCTGGTTTTATTATCTTTATTCACCCTATCTTGTAATAATATCACTGATAAAGAATCGATTAACTTTTCTGGAATAACATTAGAAAAAGAAAATTTTGATTTAGAAGAATTTAAAGGATTTCCAGTGATCATAAATTTTTGGTATCCCTCATGCCCACCATGTGTAAAAGAAATACCTAATTTAGTAGAATCTCTAAAGAAGAATCCAAATAAAATCAAAGTTCTTGGAGTACTACATAATTCACCTTTTGATTCTGAGGATACAGCCAAAGAATTATTAGAAAATTTTAATGCAGATTATATAAATGTATTTGATCAAGATGGAAAAATTGAAAATCAATTTTCTATAAAAGTATTTCCAACTTCTATTTTTTTAAATCATGAACATCAAATAACTAAAGAATGGTCTGGGTATTTAGATAAAAAAAAATTAGAAGAATTAATCAAAGAAATAATAATACAATAATATGAATTTCCTAGATGCTATTTTATTAATTTCAAAATTTCTACATGCAGTATCTGCTTCAGTTTGGCTGGGTGGATCAATAATTTTATTACTTTATGGAAAACATGTTAATCAATCATGGAAAGATCTAGGATTCTTTTTCAAAGATATAGTTAATGCTTCAATAATATTAATATTATCAACAGGAATAATTCTTTCAATTGAAAGGTTATCTACTGAAAATGTTTCAACTACTTATATAATACTCCTCGCATTAAAAATCATTTTAAGTTTATGGTTATTCTTTTTGGTATGGAAGTTTAGAACTAATAAATATGAAAAATTAATAAATACTAAGAACAAATTTTCTTGGGTTTTTTCTTATACTTTCTTCGTGATTTCAGGAGTTTTAATTTTTTTTATTGCCGAAATACTTTCTACATTAATAGAAAAACAATTTTAGGTTTTTAAAATATCTCCACCAATGATGAATCTAATTCACCTGCAATTTCTTTTACAGTTTTATTATATCCATGAATTATTAAGTCAGGAGCAATTTCTGCTAATGGAATCATTACAAAAGCTCTTTCTGTCATTTTAGGATGAGGAATAATTAAATTTTCATTTTTTTGGGAAAAATCTTCGTATATTAATAAGTCAATATCAATAATTCTAGGACTTAGATCACCTTTATTTTCTCTACCTAAAATTTTCTCAATATTCTTTGTTCCTTCAATCAATTTTTCAGGAGAAAGTTCTGTAATTAATTGACAATTTTGATTCAGATAATCAGGTTGTTTTTCTTTAACATCCCATGGTTTTGTATTATATATATTGGAAACTTTCTGAATATCACCCAATTCCTTTAAATAACGAAGAGAATTTTTAATATTTTCTAATCTGTTTCCTAAGTTACTACCTAGGCTCAAATAGACTATTTTCATTATTAAAACCCTCTAGAAATAGCATCTGTCATTTTTGCGACTCTTACCATTTCTTTTACATCATGAACTCTAATAATATCAGCTCCTCTATCTATAGAAATTGAAACAGTAGCTGCCGTTCCTTCCAGTCTATCGGAAATAGGAAGATCCAATACATCTCCAATATGAGATTTTCTAGAAGTTCCAATTAAAAGGGGAAATCCAAATTTTAATTTATCCAATTCTCTTAAAATTGAAATACTTTGTTTTGATGATTTATTAAATCCTATCCCTGGATCAATAATTAAATTTGATAAATCGAATTTTGTGTTCCTCAATTTCGAAATACTATCTTCTAAATCTTTCTTTATATTATTAACAACATTTCCATTTTTGATTTTTCTATTATGAGTAAGTACAAAAGGAATGGAAAGATCAGAGACTACATTAATCATATCTGAATCATAATTCATCATTGAAACATCATTTATCATATCCGCTCCTGCATCAAAGGCCTCTCTAACAACAACTGCCCTTCTTGAGTCTATGCTTATTGGAACATCAAAATGTTTTTTGATTTGAGATATTACAGGAACTACCCTAGAAATTTCTTCTTGAATAGTTAGAGGCTTGACATCATTATAGATAGAACTGGGCCTTGTTGATTCCCCACCAATATCTATAATATCAACTCCAAAATCCTTAAAATTAGATACCAAAGCTAATGCTTCATCAACATTTTGAGAAACTCCATCTCCAGAGAAAGAATCAGGAGTAACATTTATTACTCCCATCACATAAGTTCTTTTTCCCCAATCGAAAATTTTTGACCCTATTTTTAAAATTTTTCACCTCTAGTATTAATTTCAAAATAAATTAAAGATAATTATAATAAATAAAATCTAATTATTGATTATCTCATTAATTAGATTTGATCGTATATTAACTCTGAGTTACGATCTATGTAATAATTTATTGAAGAAATTTGGAGAGTAAAATCATTTCTGATTCAGATAAAAAAAATACTAATATAAATAAGGTAGAAGAACTAGAAACTAGAAGGTCACTTGCTAAACTAGGTGGTGGTGAAGAAAAAAATAAAACTCAAAAAAAGAAAGGGAAACTATTAGCTAGAGAAAGATTATCTCTACTATTCGATAACGGGAAATTTGAGGAATTTGATCAATTCATTACTCATAGATCACAGGAATTTGGTTTAGATAAACAGAAATTCGAAGGTGATTCAGTTGTATGTGGAGTTGGTCAAGTTAACGGAAAACAAGTATTTGCTTTCTCTCAAGATTTTACTGTTTTAGGAGGTTCTTTATCAGAAGTTGCTTCAATGAAAATATGTAAACTTATGGATCATGCTGTAAAAACAGGATGTCCTGTAGTAGGAATTAATGACTCTGGAGGAGCAAGAATTCAAGAAGGAGTTGAGTCACTAGCAGGTTATGGAGAAATATTCAGAAGAAATACTATGGCTTCAGGAGTAATCCCTCAAATAACTGTTATTGCTGGGCCTTCAGCGGGTGGTGCTGTCTATTCTCCAGCACTTACTGATTTTATTTTTATGGTTGAAGAAATAGGCCAGATGTACATTACAGGCCCAGAAGTAATTCAAGCAGTAACAGGAGAAAAAGTGAATCATCAAGAATTAGGTGGTTCGAAAACTCACTCTCAAAAAAGTGGAGTAGTTCATGTAAGCACAAAAAATGAGACTGAATGTTTTAATAAAGTTAGAGAATTATTGTCTTACTTACCTTCTAATAATTTAGATGATCCAGAAAATTTAGAATCTTCTGATTCAGAAAATAGAATTTCTGACAAGTTAAAATCAATTATCCCTGATGAAGCAAATCAAAGTTATGACATGAAAGAAATTATTAGAGAAATTGTAGATTCAGGAAAAATATTTGAGATTCATAAAGATTTTGCTACAAATATAATCACTTGTTTATCACGCTTCGATGGACAAGTAGTAGGAATTGTAGCTAACCAACCTCTATCTGTAGCCGGAGTTCTTGATATAGATGCTTCAGTGAAAGCTGCTAGATTTGTCAGGTTCTGTGATGCATTTAATATTCCTATTCTTACATTAGTAGATGTACCAGGATTCATGCCAGGAGTTAATCAAGAATTTGGAGGTATTATTCGTCATGGAGCAAAATTACTCTATGCTTATTCCGAAGCGACTGTTCCCAAAATTACAATAATTATTAGAAAAGCATACGGAGGAGCATATATTGTTATGGGAAGCAAAGAACTTAGATCTGACGTTAATTTAGCTTGGCCAAGTGCAGAGATAGCAGTAATGGGTCCTGAAGGAGCTGTAAAAATCATTTCAAGAAAAATAATCCAAGAATCAGAAGACAAAGTAGAGACACAAAATAAGTTAGTAGATGAATATAAAGATAAATTTGCTAACCCATTTGTTGCTGCTAGCAGAGGTTATCTAGATGATGTGATTGACCCTTCTACAACCAGATCAAAGATTATATCTTCTCTAAGAATGTTAAAAACAAAAAGCGATAATAATATTCCCAAAAAACATGGGAATATCCCTCTTTAATACTAAAAATAAAGGATTAATTAAATGATTGATTTATTGAAAATCGCAAAAATCGAAGCGGGCGGAGGTAATTTATTTAAGGAACTTTCAGATTTATTCGAAGATGCGAAAATAAAACCAAGTGGTTACCCTGACGCTGTAGTATGGCAAGGAGGAAATCACAATGGGAAAATAAACCCAGTTGCACATTCCTTAACAGATGCTTATGCCCTATTAGGCACTATAGCCGCAATAGATATTTTAGGCTTACCTTTTTATGCAGTTCCAATGTGGTCTCAATTTCGTCACGATACTAAGCTAGAAGCTTTAGCATGGTTTGGAAATATACCTTCAACCTCTATCAAATGGTCAACTGCAGGCGATGCTTACGTGAATGACGAAAAAGGCAATAAGGTTGTTGTTATGGGAAAATCAGGAAATGCACATCTAAGAACTCAAGCAGGTGTTTACTGCAACGTTAGACCTTATGGACCTATAACTGTTGTAAGAAGTATGCCCTGCCTTCCCTACTCACAGAATAAAAGTAAATTTTCAGTGAATGACGAAGGAATAGTACATTCTGAAATGAATTCCCCAGGTGTACAAATGGCTTATGCAAATAGATTATTTCTTAAATTAGTAAATGACAGTGGTGCTATAGGAAGAATTGCTACTAAGCCAACTCAGGCAATGGAAGATGGTATCAATGCAGGTTTACATTCTTGGTTGATTAAAGACACAAATTTTGAAGTTGGAAGAAAATATGCAGTAGATCCTTATGAAGAACACAAAGAAAGTATTGAAAAAATAATTAAATTATTGCCTTCTGATTTTAAAAATGGAATGGGAAATTGGTCAGGCAGGATAGAACAACATATTGCTGATACAAATTATGGACTTTTAATTTGGGATTTAATTAATAAACAAAACACTGTTGTTTTATCAACTGACCTTGATGGTGANAGNCTNACAGANTTANTAGCTGATATATCTGATCCNTTANGAGCTNATTCGGNGGAATGGTNGCAAGTNANNTAGGNAANNANATNNATANNAGNGANNTNTGGNNNGAAATGGGATANACNACTGGNAANGGNAGAGATATGACNTCNGTNATGNATAGNATGGATGGACCTCCNATNCATGAACAAACTNTNGGNTCNGCAGANGCTATGTTATTAAGNNTNNTNNATGGAGANGAATGGGTCGGAGGAACTAAACAGCCATATGATCCTAGAATACACTTTGTATTGATTAGAGATGCATATATTGATGCAAATCCAGATAATAAAAATTTACATAATTGGTTGGATAATGCTTTGAAAAAATTTGATGAAGTATATGAGGGCAATAGACCTGGATTCTTAGAAGGATATAAATCTCTTAAACAAGAAATAACCCCTTGGGGAAAATAAAAATATAACAAAAGGATAATTATGGCAAAACACAAAGTTACAATAATTGGTGCAGGAAATGTAGGTGCTACTACAGCTCAAAGAATTTTTGATCAAGGATATGCTGACGTAGTATTAATAGATATTCTAGAAGGAATTCCTCAAGGTAAATCTTTAGATATTTTAGAAAGTGGCCCTGTGGTAGGATCAGACTCTAAAATAATTGGTGACAATAATTATGAATCATCAAAAAATTCAGATGTGGTAGTTATTACTNCAGGTATAGCAAGAAAACCTGGAATGAGTAGAGACGATTTATTATTGACTAACATGAAGATTGTTGGAGAAGTAACAAAAAATGTCTGTAATTATTCTCCAAATGCAATTCTAATTGTAGTTTCAAATCCTTTAGACGCAATGGTTCAACATGCTCATAAAATATCTAAATTTCCTAAACAAAGAGTTTTAGGAATGGCAGGAATTCTAGATACNGCTAGATTTAAATCATTTCTTGCAGATGAACTAAAAGTTTCTGTGAATAGCATATCTGCATATGTTCTAGGAGGTCATGGAGACACAATGGTTCCNGTAATAAAATCTACTACAGTAGGAGGAGTACCTATTTCTGACTTAATACCTTCAAATAGATTAGAAGAAATAGTTCAGAGAACAAGAGATGGAGGAGCAGAAATAGTTGGATATTTAAAAACAGGAAGTGCATATTACGCTCCCTCTGCATCCATAGTACAGATGGTAGAATCAATACTGTTTGATAAAAAAGAGATTCTTCCTTGTGCTGCCTTTTTGGAAGGAGAATATGACATAAATGGATTATTTGTTGGTGTTCCAATAAAAATTGGAAAGTCAGGAGTAGAAGAAATTATAACAATAGAATTAAGTTCATCAGAGCAAAAAGCGTTAAAAAATTCAGCTAATTCAGTTAAAGAACTAACTGAAATTATGTATAAAAATGACTAAAAGGCTTCTAAATAAAAAAGCGTTAGTTACTGGTGCAGGGCAAGGAATAGGTAAAGAAACAGTAATTCAATTCGCAAATGAAGGTGCTAAAGTTTTTGCTACTGATAAAAATGAGAAGGCTCTAGAGTTTTTTAATGATAAATCAAACATTATTCCATTAAAACTTGATGTAACAAGCTACTCAGAAATCAAAAATTTAGTAGAAATTACTGGATATGTAGATATTATTTTCAACTGTGCTGGCATTGTTCATGAAGGCACAATATTAGATTCTGATTTAGAAGACTGGGATCTTGCTTTTGATGTTAATGTGAAATCTATGTTTAAGGTTATCAAAACATATCTCCCTCTAATGTTGAAACAAAATTCTGGAAGTATTATCAATATGTCATCCCTTGCATCTAGTACTTTAGGTGTTCCTAATAGATTTGTTTATACCGCAAGTAAAGCTGCAGTAATTGGATTAACAAAATCTATTGCAAAAGANTTTGTAGCAAAAAATATTCGATGTAATGCTATCTGCCCTTCTACTATAGAAACTCCTTCATTACAAGATAGAATAAATAAATCTGAAAATCCTTCTGAAGAAAGGAAAAAATTCATTGCCAGACAACCCATGAAAAGAATTGGAAAACCAGAAGAAATAGCTAAACTTGCAGTTTACTTAGGTTCAGATGAATCATCATATACTACTGGAGTAGCTCATATAATAGATGGAGGAATGGCTATCTAATTAAAAACCCAAAAAACCCAAAATAGAACAGATATACTTTCCTATAAAATAAATACCTTCAAAGCTACAGGTATCAATATAATGAGTAAACGAATTATCTCCCCATTCATATATATATATAGCCCTCAAAACAAAGAATGCTCCTATAGCAGTAATTAATGCAAAAATCAGAGAGCCAAAACCCATCATTCCAAGAAGCATTGCAATGTTGAAATTTTGTGGATCTGAATGACGTTCTCCGGGAGAAATTGAAGAAATGAAATCTTTAGTAGAAACAATATGACGGGCAAAACCCAATCTATAAGGTTCAATACCCATTGCAAGACCAAGCAATTGAGGTAAATGAATTATAGGTAAATCTCCTTTATCTCCTCTATTAGCTTTCCTAGCTTTCCCTTGATAACCATCAAGATTCAAATGACATAAAGGGCATGGAGTAACCATTGCATCAGCACCTTTATCTTTTGCTTCTCCAGTATGATTAGAAACCATTTTTAAAGAATTTTTCTGATTAATTAATAAAATAGGAAATCCACAACATTTCGTTTTTCCAGAAAAATCTGTAACTGATGCTCCAGTGGAATTAATCACCATATCTAAAGAATGCTGTCTTTCAGGATTTTCAGAAAAACCTAATGCATCTGAAGGTCTAACAATATAACAACCATAAAAAGGGGCAAAATTAAATCCTTTTAACTCTTTTTTAAATGTTTTTTTAAGTTCATCAAGACCGATATCTTCTATTAAAATCCATAATAAATGTTTGACGTCAGTTGAACCTTTGTATTCTAAGCCTTCTTCTTTAAGTTCAGCATTTATTTCTTCCAAATACTCAGGGCTTTTTAGAACTCTATGGTTTGCCTGAGAAATAACACCTTGGCAAGTAGAACAAATAGTAATTATTGGAAGATTCATTTCTTCTGCTAAAGCTAATGTTCTTATATTTAAAACATCTCCTAATTTCTGATTCTTCTCTTGAAGAACTCCAGCACCCGTACAAGCAGCTTTATCCAATTCAATTGTTTCAATACCTAATTTATCAAGAACTAATAAAGAAGATTGATATAGTTCAGGAGCACCTCCACGTGCCACACAACCAGGATAAAAAGCATATTTTTTCACAGTCATACCTTTTTCTTTTCTATTTTGTTTACGATTTTTTTAATGTTTTCACTGCTCTCAGCTTTGTGAGGTAAAATAGGAGGTAATTTTCCTCTTACTAATGCTTTTAATCCTACAAATGCTAAATCTATTAGTCCGAAAATATTAAAGAACCCAACACTAGTTAGAGCAAGCTTAGCCTCATCTAATCTACCTAATCTACCTACAGAATTTACAAATGATTTAGTATGCCTATACCCAGATGTATTTTTAAATCCTTCCTCTATGGCCAAATCTCTCATTTTCATTATCCTTTCCATAGGAGCGACTCCTTTTGGACACACCTCAACACATGCATAACATCTTGTACAATCCCAAACACCAGAATTTTTATTTAAATACTTTAATCTATCTTTAGATTTATCATCTCGAGGATCAGCAACAAATCTATATGCTTTTGCTAAAGCTGCTGGCCCAATAAAACTTTCATCTACTTCTAAAGCTGTACAATCTGAAACACAAGCTCCACACATAATACAATTCATTACATCTACCAAATGAGTCATTGACTCATTAGAAGCTATATATTCGCCTTCTGGTTCAGTATTCTCAGGCATCATAAAAGGCCGAACTTGTTTAACTTTATTCCAAAATGGATTCATATCCACTACTAAGTCTTTTATTACAGGCATGTTTCCTAATGGTTCTACTTGAACTTTTTCTCCCTCTGGAGATATATCAACAAGACGAGTCTTACATACTAATTTTGCAGACCCATTAACTCTCATGCCACAAGAACCACAAATAGAAGCTCTACAAGAACACCTCAAAGCTAATGTTCCATCTAAATCCTCTCTGATTTTGATTAAAGCATCTAAAATGGTTGAACTTTCATCAACATCTAACTCATATTTTTGGAAATATTCTTTAGAATTATTTTCAGGATCAAATCTTTTAACATCAATAACTGCTTTCATTAATAAACTCTCTCTTCTGGTTCCCAATCTGTAATTTTTACATCAGATGTTTTAACAATAAAACCATCATCATTCTTTTCAACTAAAGTATGTTTTAGCCAATTTTTATCATCTCTCTCTTTTAAATCAGTTCTAAAATGAGCACCTCTACTTTCTTTCCTAGCTTTAGCTCCTGCACAAATTGACTCTGCAACATCAATCATAAAGTCTAATTCTAATGCACCGATTAAATCAGTATTATAAATCTTTCCCTTATCATCCAAGTAAATATTGTCATAATCAGATCTAATATCTTTAACTTTTTCCCAAGCATTGTTTATACTTTTCTCATCTCTCCAAACCCCTATACCTTTAGTCATAGCCTCAGCCATTTCTAGACGAATTTTTCCTGGCCTTATACCACTAGAAGGTTTATCAAACAATGATTGAAATCTATTCTTCTCACTAATTAAAATTTCATCTGGAATTTCAATAAACTCATTCGATTTTACCCATTCAACACTATTTACTGCAGATCTTCTCCCAAAGACAACAGTATCTAGAAGAGAATTAGCTCCTAATCTATTAGCACCATGAACACTTACATTTGCACATTCGCCTGCGGCATATAAGCCTGGCACTGAAGTGGCTCCATTAAAATCTGTCTTTATTCCGCCCATTATATAATGCATACCAGGTTTGATAGGGATAGGTTTTTCAGACAAATCAATTCCCATGAATTCAGTCGCTACTTCTTGTAAATATCCTAATCTTTCTTCTATAAAATTTTTCCCCAAATGTCTCATATCTAATAAAACACATCCATCTATACCTCTACCCTCATCTATTTCTATCTGCTCTGACCTTGAGACAACATCTCTAGAAGCTAATTCCATATAATCAGGTGCATATTTTTCCATGAACCTTTCATTTTCACTATTAATCAAATATGCTCCTTCACCTCTTGCTGCCTCAGATAACAAGATCCCATTACCAGCCAAAGTTGTTGGGTGATACTGAATCATTTCAGTATCCATTAATTCTGCTCCTGCTCTCAAAGCTAAACTCAATCCATCACCTGTACAAATAATTGCATTAGTAGAAGGCTCAAAAACTCTACCTGCACCGCCAGTCGCAATTACAACAGATTTTGCTGAAATAGATTCTACTTTTCCAGTTTTCATATCAATTGCTATTACTCCAACACATTTTCCATCAATTTTCACGAGTTTGGTTACAAACCATTCCTCATAAATTGAAAGATTATATTTCACTGATTGTTCGTACAAAACATGTAACATTGCAGAACCAGTAATAGCACCAACAAAAAAAGTTCTGGCTTTTTTCTGTCCTCCAAAAGCTCTCGTGCCTAATTTCCCTTCATCATCTCTACTAAAAATTACTCCCATGTGCTCAAGTTCTATTAATGCATCTCCAGCTTCTTTACACATTATCTCCACTGCATCTTGGTCAGCCAAATAATCACTACCCTTAATAGTTGAAAAGGCATGATCTTTCCAATCATCACCCCTATCAGTTAAAGCAGCATTTATTCCACCTTGAGCAGCATTAGAATGACTTCTAACTGGATGAACTTTCGTTATAACTGCTACACTTAAACCTTGTCGAACTCCTTCAACAGCAGCCCTTAAACCAGCTAGTCCTGCACCAATAATTAATAAATCGTGTTTACTCATATTTTCAATAAAGTTATATTTAAAAAAATATTACTATAGTTTCATTGCAATTTCAGTTCATTTTTGTAAAAAATCATAAAAGTAGAAATAGTTTTTGAATCAACTATTTTTTTGTCCATAATCATTTCATATATTTCTAACTGCTCAAACTCTAAAACACTAATTTTTTCATCTTTATCAGGTTCTAGCTGTGAAGGAATTAAATCTAATGCTAAAAAAGAAAAAATTTTTTCGTTACACCATCCAGGAGCTATCCACATTTCAGATAGTGAAATCAATTTACCAGGCTTATATCCAATTTCTTCTTGAAGTTCACGTATTCCTGCTTCTTCAGGAGTTTCGCCATCATCTATATGTCCTGCAGGCAATTCAATTAAAGTTTGTTGGATAGCATGTCTCCATTGTGAAACCATCAAAATCTTGCCATTTTTAGTTTTAGGTATTATTACTACTGATCCAGGATGTTCTACAATATTTCTTTTGATATTTGTACCAGGATCTAGTTCAATCAAATCAGATCTTATACTTAAAATTTCACCAGAATATTCAATTTTAGAATTTATTAGTTTTTGATTTTTATTTTGATTTGAACTCAATTCAGAATCCTAAATGATGTTCCCTTTTCTCATACCTAATTTTTTTGTAATTAAAGACCAAAAGTCTTCTTCAAAACTCTTATGTCTTAGAAATTTTACTCTTTGTTTACTTACTTCAACATTAATTTTGTCAAAATCAGACATTGGGAGATCTATAAAACCATCTATACTTACAGTAGCAGAATTTTCAGATCTTATAGTTAAGTCAATTTTTGAATTTAAATCTAGTACCACTCCTCCATGTAAACTCATGTGTGAACCTATTGGCTTTAATAAAATCAAATTACTTGAAGGAGAAACTACTGGTCCACCTAAAGATAAACTATATCCAGTAGATCCTGTAGGTGTAGATAATACAACTCCATCTCCTCTATAAGTGGCAAGATGAGTATTATTCAATTTCACAGAAATCTCAATTACACGAATTTTAGATCCTCTAGCTAAGACAATATCATTTAATGCATCATATTCTACTTTCTTTCCCTTTCGAATTATTTCTGCCTTTAACATCATTCTTTTTTCAATAATTGAAGATCCATCTAAATAATTTGGAAGTTCTTCTATGCAATCAGAAGCTTCAATCTCACACATAAATCCCACTGTACCCATGTTTATACCCAAAATTGGAATTTCTTTTAAGGCTGAAATATGAGCTGCTCTTAATATTGTCCCATCTCCTCCTATAGTGATTATTAGATCAGTTTCATCCAAATTATTTGAAATTCCTTCTAAATCATTTATATTTTTTATCCACCAAGAATTTTGGCTATCTAAATTAGTTTTGAGAACTTCACCTAATTCCATAGCCTGAGGAATCATATGGTTTGCAAGTATCCCTACTCTTTTAGGAGAATTAAAATTTTCTATATTAGAATTCATATGTAATCACATTAGGTCAAATAAATTGAATCGCGAGATTATCTTAATATTTAAACTAAATATTGACAATCGACATTACTGCAATTTCTGCAATTTCTAAAATTAAACTAGGAAAAATTCCTAATAGAAGGATTCAGATTACACCTACAAGTGTAATTAAAGATATAGCCTTACTAATTTTTATTTCAGATTGATTTTCTTCAGGATCTACAAATGCTATTTTCAAAATTCTCAAATAATAATAAGCAGAAATCACCGAATTTATTACCCCAACTATGGCTAACCAAGTCAAATTGGTATTCACTGCAGCAGAGAAAATAAATATTTTCGACATAAAACCTACAGTAGGAGGAATACCTAATAATGAAATAACACTGACTGCAAGAACAAAAGAAGTTAGAGGAGATTTTTTTCTGAGACCAGCAAATCCCGAAAGTTCAAAAGTTCCAATAGATTTAGATACACCAATAATTAATAAAAATGCAGTTAAATTAGTAAAAGCATAACCCGCCAAATAATATAACACCCCTTGAGGACCTGAATATAAATTTTCGCCAATTCCAGAAATATTTAAAGAAGCTACTCCTATTAATAAATAACCAGCATGAGCTATAGTACTGTAAGCTAATAGTCTCTTTATATCATTCTGTCTTAATGCCATCACATTTCCTATAGTCATAGAAAAAACAGCAATAATAGCAAATAGATTTGAGAGGATAACTGAAAAGTCGTTACCTCCCAAAACTGAATAAATAATTCTTAATAAAACTGCAAAACCTGCTGCTTTACTTACTACTGAAAGATAAGCCGTTATTGGAGTAGGAGCACCTTGATAAACATCAGGCACCCACATTTGAAAAGGAAAAGCAGCTAATTTAAAAGATATCCCTAGAACCAATAAAATTATTCCAATCAAAAGACCATAGTTCAAAATCATTAAGTCTCCTGGAGAACTGTTTGAAGAAGAAATATAACTTAGCATATCGTTAAAATAAGTTGATCCTGAATATCCATATAAAAATACCAATCCATATAAAATTACTACAGAACTAACAGCACTAAGAATTAGAAATTTCAGGGATGCTTCTAAAGAAGTATCATTTTTTCCTAATGCTACAAGAGCTACTAAAGGAATAGCAGTTAACTCTAAAGAAACCCATACAGTGATTAATTCAACAGAGGAAACTAATAGAAGCATACCTGTTATAGAAAGTAGTAAAAGTCCTAAAAATTCTCCTTTAGATTCAATATTCGAATTAATATATTGACCTGAAGATCCGATGACTGCAACTGCGGAAAGAATTATTAAAACTTTAAAGAACAAAGAAAATTCATCTAACTTAATTGATGAAAAAAATGCATAGATTCCAGGAGATTCAATTAACCATCCATTCCATAATCCTAAAGTCAAAATAAAAGAAATCACTAATCCACTAATAGAAACAGGAACTAGAATTTTTTTATCATTTATAAATAAATCAAGTAAAAAAACTAAAATTGCCGTAAAAGAAATTACAATTTCAGGAGATATAATAAGAAAATCTTGAAAACTCATAATAGGAACATCTCTCTTATTCCTATTTCAATAATGTCAGTCAATAACCTAGGATAAATCCCAACAACAAAAATAGGTATTGTTAATACTAAAACAGGAAATACATCAAGAATATGCATATCAGAAAGTTCTTCAAAATCTTTTGACACAGGACTTTCTTTTGAAGGTTTATTACCGAAAAAAGACCTCTGAATCATCCATAAGGTATATCCAGCTGCTAAGACTACTCCAAAGACACCGATAACTGTAGCTATTGCAAAAATATTTCCTACCTGAAATGTTCCAAGAAAAATCATCAACTCAGCTACAAATCCACTCAATCCAGGTAAACCTAAAGAACCGAAACCTGCTATTAAGAAAAATATCGCTATTATTGGCATTTTAGCTGTAAGTCCTCCTAAGTCAGGTATATATCTAGTATGTGTACGATCATAAACTAAACCAACAAGTAAAAATGCCAATCCTGTAATAGTTCCATGAGTAAATAATTGTAAAGCTGCTCCATTTAAAGCAAGAGTATCATTTATAGAAACCACACTAATCAACGACGAAAATCCTATAATCACATAACCCATATGACTGACACTGCTAAATGCAATTAATCTCTTCAAATCAGTTTGTCTAATGGTAAGTATGGCTCCATAAATCACACTAATGGCTCCTAAAATAACTAAAATAGGTGCGGCTACATCAAAGTTAAAACTACTATTTTTAAAAAATCCTAAAGATATACGAAAAATTCCATATCCACCCATTTTTAAAAGTATCCCCGCTAACATAACACTTACAGCAGTTGGTGCATCAGTATGAGCATCTGGCAACCAACTATGTAATGGCCAAAGAGGTAATTTAATAGCAAAACTTATAAAGAATAACCAAAAAATTACACTAACCGGGATTAAGAAATTAGCTCCTGTCATTAACTCTGGAATCCCTTGTAAATTTAATTCAGGAATGCTAACCATAGTAAAAGAATTTATGCCTTGAGATAGATAAATAGCCAAGATTCCAATTATCAATAATGCACCAGCAAATAAAGTAAATATTACGAATTTAGCTGCTGAATAATGAGCTCTCCCTGAACCCCAAATTGATATCAAAAAATACATTGGTATCAATTCAGCTTCCCAGAAAATAAAGAAAAGAAGTAAATCTAAAGAAACAAAAACACCTATTACTACACCTTGAAGAAATAGTAATAAAGCAAAATATTCTTTTACTCTATTCTTTATTCTCCAAGATCCCCAAACTGCAGCTGCGCCTAAAATCCCACTTAAAAGTACAAGCGGAGCACTCAACCCATCTATTCCTACTAGATAATTTGCATTAAAACCTTTAATTGGTATCCAACCTTCAATAAAATCTACTAGTTGAATCCCTCCTTTTGCTTTGTCGTATAGAGAAAATGCAAAAATTGTAAGGAGTAATTCTATTGATACTATGGAAAATGAAAATCTACGAATAAATTTATCATTTCTTAATAAAGCCAAAATAATTATAGAGGCTAAAATAGGTATAAAAACAATTATGCTTATTAATCCATTCATTTTATTTCTTTTCCAATTCTAATTACCATTAATAAATTTCTGAATTAAGTTTATCTATAAGATCCAACCAAGAATCACCTGTATTAAGATTAGAAATAAAAAATACTATCATTAAAACAGTTAAAGCCGTAAAAAACACAAATCCGTAAGACTGTAAATGTCCATTTTGAATTTTAGACATTTTTTTAGATAAATATATTGTGAAATCTGAAATTTTTGCATTTGATTTATCTACGATATTTTCATCAATCCAGCTTATGAAAGAACCAATTTTATTGTAGAAAAATTTTTTCACAATTAAATTTTCGTAAAATTCATCAAAATAATATTTGTTAATTAATATTTTATAAACAAAATTGTTTTTAATATTTAATTTTCCTTTAACAACAAGAATTGCAGTAACAATTCCCATAATTGCTAATATTGTGGATATGATGGCTACCTCAAAAACAAAATGAAATTCTTTTGGATCATCAAAAAACAAATTATGTTCTAAGAAATGACTAAATGCATGTTTACTCACAAATCCTAGATCTAAAAGAGGATTAACTAAGAATCCAACCACTACAGATAAGAAACCTAAAATTATCATTGGAAAAAGCATTATTCAAGGACTTTCATGGGGTTCAGCAGGATGATCATTATCCTCAGATTTAGAATTGGAAGAATTTTCAGAAGATATTCCTACTTTATAAGATCCATGAAAAGTTAACATTATCACTCGAGTCATATACAAAGCAGTTAAGAAAACACCTATACTAGCTAAAATAAACAAAACTAAGGAAAGAGGACTACTTTGAAGATAAATATGTCCTAATATTTCATCTTTACTCCAAAAACCTGAGAAAGGGAAAATTCCTATCAAACTTAATGCTCCTAACAAAGTTAAAACATAAGTTATTGGCATATGTTGCCTCAATCCTCCCATAAATTTCATATTAAAAGTGCCTGTTGCATGACTTACAGATCCAGCAGATAAAAATAATAATGCTTTAAACCATGCATGAGTAAACAAATGGAAAAAAGCAGCTGCATAAAAACCAGATCCTAAAGCAAGAACCATATATCCTAACTGACTAATAGTTGAATAAGCCAAAACACGTTTGATATCATCTGAAACAATTCCCATAGTTGCAGCAAAGACAGCAGTAAAACCACCAATAATTGCAATAATTACCATTATTTCAGAAGAAGATTCAAATAGAGGAAATAGCCTACCTATTAAAAATACTCCTGCCGTAACCATTGTTGCTGAATGAAGCAAGGCTGATACTGGAGTAGGTCCTTCCATAGCATCAGGTAACCAAGAGTGTAGAGGAAATTGAGCAGATTTTCCTACAGCTCCAAGAAATAAAAGAATACACAATATCAATAATCCTGACCCTTGAAACTCTCCAGATGATACCCCTTTATAGAGAGTAGGAATATCTAAATATTGTTGTCCTTTAGAAAATATAAATAAAATACCTACCATTAACCCAAAGTCACCTACCCTTGTCATTAAAAAAGCTTTTTTAGCAGCAACAACAGCGCTATTTTTCTTAAACCAGAAACCTATCAATAAATATGATGAAACACCTACTAATTCCCAAAAAATGAAAAGATGAATTAAATTTTTGGATAAGACTAGTCCAAGCATTGAAAAAGTAAATAATGCCATAAAAGAGAAGTACCTAGAGTAACCTTTGTCTGATGCCATATAACCGATTGAATAAATTTGAATCATTAAACTTACACCGGTTACAACAATAAGCATCATAGAAGTAAGGGGATCTATTAAAAATCCTGTCTTTATACCTATATCACCAATCATTAACCAATCAAATGAATCTAATAGTTGAACTCCTTTATCATTAAAATTAATTAATGAAAATATCGATAAAACTAAACTAATAAAAACACTAGCTACGGTAATAAAACCTGAAATTTTAGAATAATTTTTGAAAAATATAGAAATCAGAATCCCATTAATTAAAAATCCTGTAAAGGGAATCAAAAGGATCAACCAATATATAATCTCCAATGACATTTATAATTTCCTCAAAATTTCATCTGCAACATGTTCTCTTCCTCTGGGTACTAAAATTCTAAATTCAGAATATTCAGACCAATCTAAAATATCATTTCCTTCGGGAATAATTTTTGCAGGCAAACCTTCACCTTCAAGAAGATTTTTCCACATCTCAGCAGTTATTAAATTTTTAGTTTTTCTATAATCAATCCACATAATTAATTCTTTAAATTATTTAACCCAGTCAATTCTATATTTCCTTTTACTTTGTATATTGAAATAATTAAAGCTAATGCTAATGCTACTTCTGCAGCTCCTATTGCAATCACAAAAACAGCCATCATATGTCCAGATAAAACATTTAAAGGACTTAATACATCAGTATCTACAAGTACTTGAGGCGGCCTGAATCTTGAAAACCCTATTACTGCAATAGCTACAGCATTAAACATTAATTCTAAGCACATCACCACAACAATTGCATTTCTTTTAGTCAAAGATCCATATAAACCGATTGTAAATATTATTCCAGATAGTATAAGAATTGCTTCTAAATTCAATTTATCTCTCCCTTCTCAATAATGCTAAAGCTCCAATTAAAGCAGCTAGTAGTATTAAACCTGCTATTTGGAACGAAATAAAATATTCTCTTATTAACAATTCACCAATCCAAGAAACATTAGAAACTACAATTTCGCTGAGAGGTTCTTCATAATCTATAGAAGTTTTTGTTATCCAATTTTCTGCACCTACAGAAAAAGCAATTATTACTAAAAATATAGTGCTAGGAATTATTGATAAATTAATTAAATTATTGGCACTATTACTTTTTGGAACATCTTTTACTAGCATCACAGCAAAAGCAATAAGAACAGAAACAGCACCTACATAAACTAAAATTTGAATAACACCTATAAAATCAGCACTTAGTAAAAAGTAAAGAATAGATATAGATACCATTGTAAGAGCTAATAACACAGCCGATTTAAAAACATTATTTACAGTAATAATTGCTATTGAACCAAAGATTGTGAATAAAGCTACAATCCAAAAGACAATATCTACAAGTGTTGGGAGATCAGCAAATTCCATTATCTTTCGTTAACCCACCTTTCTGTTAATTCTTCTTTTGAAGGTTTCTCATGACGCCCTACATCGTGAGAATCTTCAATTTCTTCATTTCTTGGTTTATATGATGAATTTTCTATTTGAGGCCTAAACCAAGTACTAGGTCTTTTTTCAGCAGACCTTAATTCATCAATAGAGATCACTAAATCTTCTCTCTTTTCAATTGCTCTTTCAAAACCACTTCCCATATGTAGAGCATCAAATGGACAAGCTTCCACACAAATACCACAAAACATACATCTACCTATATCTATATCAAAAACATCAATATCGTAAGACGTACCTTCCTGAATATTATTTTCTCCAGGGTGAGTTTCTATCTCTATTATTCCTAGAGGACAATATTTTGCGCAACTAGCACAACCAGTACAACGATCTTCAAACCAATTAAATTCTTGACCTCTAAATCTTGGAAATTGATCAGGAAATTCTTTAATTACAGCTTGCCCTACAATTGCCTTAAATCCTTCTAAAGGACGGCTTTTAAATAAGCTAAAAGGATTTTTATTATAATATTTCGAAGCTTTTATTAAGCCTACTTTTTTATTAGGATATTGAACAGTAAAAGTAGGGCCTATTAAATTTTTAAAAGTTACGAACAATCCTTTTATTAAACCTAAACCAAACATTTATCACCTACTTTTGTAGAACTATTTTTCTTGTAACACCATTTTTTTCTAGAGGCTTAGGGCCTAATAATTTCCCGAATATCCATAAAGAAGCAAAGAACACTATCCAGTTAACACCAGTCATAATCCATAATTCTGTTATTGATGGATCAGGCCAAATAAGCATCAGTATAGCAATAGAAAGTATATTTATAAGTGTAAGCTCAAAAAGTCCTTTCCAAGCTAATTCCATAATTTGATCTACTCTCAAACGTGGAAAAGTAGCCCTAAACCAAATAAAAACACAAATCATTAAAATCCACTTAATCATAAACCAAAAATGTGAAGGAAGAATTTCTGGACCTTTCCATCCTCCTAAGAACAAACATACAATAATTGCTGAAGAAGCAATTGTAGCCATAAATTCTCCTAAATAAAATAATCCAAATTTCATACTACTATATTCAGTCATGTATCCAGCGATCAATTCTGACTCAGCCTCAGTAATATCAAATGGACTTCTATTCAATTCAGCAGTTGATGCTATTAAAAATGTTAAGAATCCCAAAGGTTGAAAAATAGCATAAGGAATTTGTTGAGATTCAATTACTTGAATAATAGATAATGAACCAGCCATTAAAATAACTCCTACTGCAGCCAAAGCCATTGGAATCTCATAACTCAATAGCATAGCTACTGCTCTTAATCCACCTATAATCCCATACCTATTACCAGAACCCCAACCAGCCATCAGTACCGAAAGAGTATTTGTAGAAGTGATGGCTAACACAAATAAAACTCCAATATTTAAATCAGTTAAAAAAGTTGCTTCTCCAAAAGGAATTACTGCAAAAATCAAAAGCACAGGAACAACCATTAAAATTGGAGCAAGAACAAAGACAAATTTATCAGAAAGAGAAGGAGAAATATCTTCTTTAAACATTACTTTTATAGCATCAGCTACAGGAGTAAATATTCCCCAGGGCCCCCATCTATTAGGACCTACCCTTGCTTGAAATCTTCCAATAAGTCTTCTTTCTCCCCATATAAGCGCTAAAACACCTACTAGAGCACCGTTAATTACTACAAAAATTAAGAAAAATGCGGTAATTAAAAAACCAATGATTGCATATTTTTCACTAATGAATCCAGATCCAATAATTTTAAATGAATTTGCACATTCATCACTTGAAACAAGCATACAATAAATAAATTTAAATACTACGCTATCCATAACTGTATTCATTATCTATCTACCTCACCCATATTCACATCAATAGAGCCAAAAGTAACAAATAAGTCAGCTATTTTATCTCCTAAAACCATCTCTTTCAAGAGTGTCAGGTTTATCAATGAAGGAGCTCTTACGTGACATCTAAATGGAGATATTCCTCCATCACTAACAAGATAAAAACCTAACTCTCCTTTAGGACTTTCAATTGGAACATATGAATCTCCTTTAGGAGGTCTAACTAAGAATGGAACTTCTTTAGGTCTAACAGGTCCAGGTTCAATATTTTCTATGCACTGGCGAAGAATTTTTAAACTTTCTCTCATCTCAAATATTCTTATAAGAAAACGATCATGATTATCCCCTATTTCTCCTAAAGGTCTAGAAAATTCAATTTGATCATAATAGTCGTAAGGATTTTTTTCTCTTAAATCCCAATCAACACCAGAAGCTCTCAATACAGGACCAGTAATTGAAGCATTTAGACATTCTTCTTTTTTCAAAACACCTACATTTTGAGTCCTTATTAACACAATTTCATTTGTAGTAAGAAGTCTTTCTATATCATCTATTCTATTTGGCATTTCATCTAAAAATCTATTTAAAGCAGGCCAAAATTGATCAGGTGCATCCATAAATACTCCTCCCGGCCTTAAATATGAATTAGTAATCCGTGCACCACAAAGCATTTCAAACATCTCAAGAATTTTTTCCCTTTCTCTCAACATATAAAGTAAAGGAGTATGCCATGCCCCTAAATCATTTATTAAAAAACCATTGGCTACAGCATGACTAGCAATTCTTTGAAGTTCTGCAGCAATCATTCTTAACCAGACACCCCTAGGAGAAGGTGTTATTCCAGCCAACTTTTCAACCGATAAAATATATGATTGATTATTTGTCATAGAAGCTACGTAATCCATCCTATCTGTTAATGTAACTACTTGAGTGTAAGTTCTTTCTTCAGCTAATTTCTCTGAACCTCTATGTAAATATCCTATTACTGGTTCCACATCTACGATTTCCTCACCATCGAAAGTTACTCTCATTCTAAAAACACCATGAGTACTAGGATGAATAGGGCCTACATTCATAGTTACTGGTTCAGTTCTTAAACTCATCTCAAATAATCCTTTCTAAGTGGATGTCCTGGAAATTCTTCCCAAAGCATAAGTCTTTTAAGGTTTGGATGATTTTCAAATGTAATTCCCATTAAATCCCACACTTCTCTTTCTTGTAAATCAGCACCTTTCCAAATGCTGACCACACTTGAAACTTTAGGTTCTTTTCTTCCTTCACCACATATAATTTTGACTACTATTGAATGATTATGAATAGTGGAAGTTAGATGATAGACCATCTCAAAATGATCAATATAATCTACTGCGGTTAAAGAATTAAGAAGATTAAATTGACAATTTTCTTTATCTTTCAATTTACTAAAAATATTTATAGCATTTTCAGGTTTGATATGAACACTGTCTAAATTAGTTGAAACTACAGACTTAGGATCTATCTCTTCAATTAATTCATTAATTTTTTCTCCTGAAAAACATTTAGTCATTTTGACCAGCCGCAGCTCCCCATATGCTGTATTTCTTTATCTTTTCATGTAACTGCATTACACCGTATAAAAGAGCATCTGGTCTAGGCGGACAACCTGGAACATAAATATCAACTGGAACAATATGGTTTACTCCAGGAACTACAGAATAAGATTCAAAATAAGGCCCACCACTAGTTGCACAAACACCCATTGAAATAACCCATTTAGGGTCACTCATTTGATCATACATAGTTCTAATAGCAGGTGCCATTTTCCAAGTTACTGTTCCTGCTACTATCATTAGATCAGCTTGTCTTGGAGTAGCAGAAAACCTCTCTGCACCAAAACGAGCTAAATCAAATCTTGAAGCAGCAGAAGCAATCATTTCAAAAGCACAGCATGCCAAGCCAAATTGTGCAGGAAATATAGAAGATTTTCTTGCCCAATTTAAAAGAAAATCTACTGATGTCACAAAAGCCGTCTTATCAATGTCATCATTTTCAGATAAATCCTTAACTGGTATTGGACTTTTATGAGTCGCTTTCATAGCGTTTATTTCAATACCCTCTTCCCTATCTAAATCATCAGTTGTTTGATAAAGAGGTATTCTTTCTAGAATATTTTCTGATGTATTATTTATTTCCACTGAAGATCTCCTTTTTTCCATGCATAAACGTAACCAATAGTAACAATGAACAAAAATAATATCATTGCTAACAGAACACTTACTCCAAATTCCTTACTCAAAACACCATATTTTACAGCCCATGGAAAAAGAAAAACTGTTTCAATATCAAAAATTACAAATAGTAAAGCATAATAATAGTATCGAAGGTTATAGCCTTGCCATCTTTCAGAATCAACCCTCATTCCACACTCATACATACCTTCTTTTATTTCTGAAGGATTATGAGGTCTAACTTTAATATACTGAGCTAATTTAGATACGAGCAACATTCCTAAAGGAACTAAAGTAGCCGTAACTAAAAATAATCCTATTATTCCGTATTGATCAAAATAATTATTCAACATCACATATCAATTTTGATTTAATATTATAATTTTAAGCAAAACATCTTATAGAAACAATTATTTCTTAGTTTTTGTCTCTCTAGTTAAAATACTATTACCCCTCTTCCATCTTCTCCAGCTTCAATAGCTTTAAAGCCTTCATTAATTTGATCTAGCCTATATGTTTCTCGAATCATGCTATCAACATCTATTTTTTGGGAAATATACAAATCAACAATTGTTTTAAAGGTCTCATGAGGAGTTTTTGATCCATAAAAAGCTGAATAAAGCTTTTTTTCACCACGAATCATATCTACCATATCAACCGAAACTTTTTCTCCAAATGGTGCTACCCCTACAATAACTCCGGTGCCTCCCATCTTGATAGAATCCATAACTTGTTCCATAACTTTACTACTTCCAAAGCTATCAAAAGCATAATCAACACCACCCTTAGAAATTTCTTTTATTGTTTCTACTGCATCTTCATTTTTAGCATTAATAACATGAGTGGCTCCAAATTTATAAGCAAATTCCAATTTATGATCATGAACATCTACAGCAATAATTTGAGTTGCATTTAATAATTTTGCACCTTGAATAACATTCAAGCCCACTCCACCACATCCAAAAACAGCCATAGTGGAACCTATTTTCACACCAGGAATATTTATTACTCCTCCTATTCCTGTAGCTACACAACAACCCATTAAAGCGCCTACTTCTGAGGGAACTTCATCAGGAATTTTAAAACAAGACTGCTCTGAAACAACTTGTTGTTCAGCAAAAGATCCTAATTTGTGCATCTGATGAATTTCATTACCAGATTTATCTTTTAATCGAAGAGTACCATCATAGTGTCTGTTTGCGTCTTTTCTATGATTTGTACATAAATGACCTATTCCTGATCTACAGTTAAAACAAAAACCACAACTAGGAATAAAACTAAAAATACATCTATCTCCCACTTTTAAATTTGAAACTCCCGGACCCAATTTTTCTATTGTTCCTGAGGCTTCATGGCCCAATACTATTGGAGTAGGATATGGAAGAACTCCTTCAATAACATGATGATCACTAGCACATAATCCAGTGGCATCCATTTTCACTAAAACTTCTCCTGCCTTAGGATTTTCGATATTTAGGTCAACAATTTCTAATGGAACTGATGGCTTATACATTACTGCGGCTTTCATGTGTAAATCTCCTAATTTTAAATATGACAAATAAATATTTATATATGATAATAATTTGTAAACAAATTAATTGCTATTTTCAATAATGTTAAGAAAAAATTTACCTAAAACATTTTTAAGAGATGTATCAAGGGATGATGTAAAAAGAGTAATGAACTGGATTGAAGATGAGGAAGTATCAGAATCTTGGTTTGGAAGATATAATTATGGGGATCCAGCCCATTTAGGGTATGATCCTAAGAAAATGATTGATTCCTCAGAAACTGAATGGGATAGAACATTCAACGATCCTAATCATGAACCTCACAGAACAATACTTTCTATTAACAATGAAAATGATGAACACATTGGAGAAATTCAACTTTCTATTGATGAAGCATTAGGAGATGCCCAATTATCAATACTTATAGGTAGAAAAGACCTTTGGCATAAAGGTTATGGTAGTTCGGTGTTACTTACTGCAATGCAATATGTATTTGAAAAATTAAAACTATACAGAATATGGGTGGATATTCCTGAGTACAATCAAAACGCAAGGACTTTATTTGACCATGCAGGATTTAAACATGAAGGTACTTTAAGAAAAAGTAGACCTCATGAAGGTGCCAGATTCAATTCAGTAATAATGGGAATTTTATCTCAAGAGTATAAAACTCTTTATCAAGCAGGGATTTCTTCATATTTTAATTAGTCATCAAAAAATGGACTTAGTTTATCTAAATATTTAAATCCAGAGCCAGTAATCAACAATAAAACTTTGTTGTTCTCATTAATCTCACCTCTATCTAGAAGTTTTTGCAAACCTGCTATTGTAGCTCCACCTTCAGGAGCAGCAAATATACCTTCGTTTTCAGATAAATATTTTACTCCTTTAATCATTTCTTCATCAGAAACTTTTAATCCAGTACCACCACTTTCTCTTAATGAGCGTATTACTAAATAATCCCCTATTGCTGCAGGTACTCTCATTCCAGAAGCTATAGATGAGGGGTTTTCAAAAGGATCAGCAAAATCATCTCCCTTCAAAAATGCATCAACTATAGGACTACAACCCTGAGCCTGAACACAAATCATTTTCGGCATTGGGCCCTTTATCCACCCTAATTCCTTTAATTCATGCAATGCTTTCCATATTCCCACAATTCCTGTTCCTCCACCCGTTGGATAGATAATAAATTCAGGTAAAGTCCAATTTAACTGTTCGGCTATTTCAAAACCCATAGTTTTCTTACCTTCAACCCTATAAGGTTCTTTAAGAGTAGAAACATCAAATACTCCCTTAGAAGTGACTAGACTTTGAGAGAATTTTCCTGCATCAGTAATATATCCATCTATAAGTTGTACATTTGCCCCGTAAGCTTTTGTTTCTATGATATTTGCTAAAGGCGTATCTTTGGGCATAAAAACATATGTATCTAATTTAGCTAGAGCACCATAAGCAGCCATTGCGCCCCCAGCATTTCCAGCTGATGGAATAGTAATAGATTTAGCACCTAATTCTTTTGCTTTAGAAATAGCTGAAGATAAACCTCTAGCCTTAAATGAACCCGTGGGATTCATAGTTTCATCTTTTATAAAAAGATTCTTTAAACCTAACTTATCGCCTAGATTTGAAGATTTTATTAATGGTGTAAAGCCTTCACTAAGAGATACAATATTAGATTCTTCTATAATAGGCATCAACTCCCTATATCTCCACATATTCGAAGGTCTATTAGAAAAAACATTGGGGTCTACTTCTTTCTTGATTAAACTTAGATCATATCTAGGAAAAAGAACTTTTCCACATTTTAAACATACATTGATAAGTTCATTCACAGGATACTCTTCAAAACAATAGGTACACTCTAAAGTAGTTAAATAACTTTTCAAGAATTCACTCCTAAACCAATAATATTATCTTTATAGCCTATTTCCTTAGAGAGGTTTTTCATAAATTTCATTGAAAAGTCTTTTAATTCAACATTTAAAGATAACTCTTTTTTTAATGATGTTGATTCAAGTTCCGGCATTCCACAAGGAATAATATGATTAAAATCAGAAAGATCATTAGAAATATTAGCTGAAAAACCATGCATAGTAACTCCATTAGATATTCTCACGCCTATAGCTGCAATCTTTTTACTTTTTTTATCCCCAGGTACCCATACTCCTGTTTTCCCCTTCAAAGTGATTGTTTTAAGACCATAATCTAAATAAGATAAAACTAACATTTTTTCTAATAACCTTACATAACTTATTGGNGTTAAGTTTAAATCCTTTATTTTGATGAAAAAATATCCTATTAGTTGTCCAGGCCCATGAAAAGTTGTCTCTCCTCCTCTATTAGTGTTAATAACTTCAATTTTTGATTGTTCTAATAATCTAGAGTCTGAAAGAATATCTTTATTTGAACCCGTTCTTCCTATTGTAATAACCGGATAATGTTCTAAAAAAATTACTGAATCATTAATATGACCAGTAACTCTCTTCTTATGATATGTTTCCTGAATATTTAATGATTGAGAATATTTTTGAACTCCTAACCATTCATACTCTATCTGATTTTTTAATCTCATAATTAACCAATTATTAAATCTGATTATAATTAGAAAGAATTTTGTTTTACTTAACTATACAATTGTTGCATAATTTATTGACTTAGAGTTAAAGAAGGTTTTTTAAATGCCAATTTTTAATGTGAAGTTAAATTTTAAACAAACAATTTCTATTTTATTATTAAGTTTAATCATTTGGAGTTTTTCTATGGCTTGTGCAAAACAAACGGGTCCCCCTACTGGAGATCTAGATACTTCTAAAGACTATAGTGCTGTCCTGTATACAGAAAAAGGAAATATTACAATAGATCTTTTTGAGAAACAGGTACCATTGACAGTAGAAAATTTCATCAATCTTTCTAAATCTGGTTTTTATAATGAAGTTGGTTTTCATAGAGTGATTCCAGGTTTTATGGCTCAAACAGGAGATCCTACGGGAACAGGAACTGGTGGACCAGGATATACATTTGAAGATGAGTTTCATCCGGAGCTTCTACATAAAGGAGAAGGAATTGTCTCTATGGCGAATAGAGGACCTAACACTAATGGAAGTCAATTCTTTATAACTTATGGATCTACAGAACATTTAGATGGAANACATTCAATATTTGGAAAAATAACATCTGGAATGGAGATTGTTTCACTTATTTCTCCTCGTGATCCAAGAAACACTTCCGCACCTCTTTTCAAAATTGATAAAATTGAAATAGTAGAAAAATAAGTATTAAGTAGTCTTACTGGCCCACAGCTCTGAAGATTCTGTAACTGTAGGAGAAAAATAATATAGTTTTCCACCCATTCCTATTGATGTATCTTCAGTTAGTAAATTTTTCATTCTAGCTGGCTTACTGTTTATTCTTAATCCCAAAGAAGAAGTTTCAGAATCAAAAATTAAATAATTAGAGTTATCTGTAGAAAATAAAAATTTAATGTTTTCAATTGCTAAGTTGTTTAACTCACTGGAAAAAACAATATTTGGATAAATCATTTTTCTCCATAATTTCCTTTTCAGATTTGAAAAATCTACAATTAATTCTCCATTACTGTCTATTAACACACCCCTAGGATCNGGCTGTCTNAATCTCCAAAATCCATAAACTGCAGAAGAAATAACAATTATAGTAATTAATATCCATAAAACATATTGCATATAAGGAACAGAGGTTTCTAGAATCTTTAATTCAAAACTTAATGGAAACTTAGATGTATCAAATTTATAATTTCTTCCAAGATATTCTTCATTTAAACTTACTTGAAGATCAAATTGACCAGATTTTTTAGGAAATGCTTGAATAAAAAATTCCCATGCTTTCTCTTGATCTATATTCCTTACAGGAGAAATTATCACTTCCACATTTTCACCAAATTCATCTTTAAGAGTAGCGTTAATATTTTCTGATTTTGTTAAATAAGGATAACCATCTTTTGTAATATTTATTTTGGCTATTTCAACTTCATTATCAGCAAAAAAATCAACTTTTTCGTTTGTTTGAATTTCTACTACAGGATAATATTCAGTTTTAAATGAATCAGAAACAACCAGAATTGTTCCAATATCAGTCCAATTTAAGTTCAATTCCACATTATTGATTCCTTGAATCTTCCTTGTATCTATTACACCTGAATAAATACCATCATTTGATTTTTCATCTGTTAATAAACCATCATCTTTCAACTGAAATACTTCTGTAGCGTTATCAGACCATGTCACAACTGCATCTATCCAAGAACCATTAAGACCTGAAATTTCATTTCTAATTTTTAATTCTGCTGAAATTCTATATTCTTCACCAACCGGAATAGGAGGTTCATTCAATAAGTGTAAACTCAAATAATGTTGAACTTTTGAAAAAACTGAAATTCTAGAATTATCTT
>sequence06
TTGAAAGTAGGTTCCATTTCTGGAATGTACTGTCATAGTACTAGTATGTACTCCTTTCATTACTCCAGCCTCTTGAGCTTTATATAAAAATAAATGTAAACCCAAATTATTTAATTCATAGTTTTCCTTAATTTGTGTGATGTCTTGAGTGGTTTCAGAACCTCCTTGAGGGCTTTTCATTGTAACGTTAACAAAAGCATCAATTCCATCTAATGCTTTCTCTATATCATTAGGTTCAAGCATAGAACCTTGAATAAATTTAACATTGTCATGTTTTGGAGGAGCTATATCAAAAACTGTTACATTATGTTTCTTTGTTAAATAAGGTGTTATAAATGTTCCAACCATCCCAGATCCACCAGTAATTAAAATATTCATTTATGTTCTAAATTAATCATTTGTTAACTCTTTATTTAAATCATGCATTATTTGATGATGATCTATTCCTTTTTTTCTTAATGATTTAAATTTTTCTTCATCAATATTATTTCTATTTAAATATCCTCTAATATCATATTTTCCTTGATTTTTGACTTTTAGTTTTTCTTCTTCAACCATTAAATCTAATGGATATTTATTCTGAGAAACTGGGAAAGAAATCTTTTGATTAATTCGAGCAGATTCATATATTGACATCATAATATCTAATGTTACCTTGGCTTTTTTTGCAGAACCTCTATGTTCAGGTCCACCTTCAATCCATTTAATTAATTCAATTATCTGATCAGCATTTGTCTTTCCACCAATAGGTTTAATGTTTTTTTCGTCTNCACCTAATGAGATTGATGACCATCCAGNAGTGTTTTTTGAAAATAATAAAACTTTATTTTCACTAACATTTAACATTCCTTTTGTGCCTATTACAGAAAAATAACCAGCATCATTATTGAAACCAGTAAATTCTTGATCAGATAAATCTGATTGGATAAAAAGTTGAGATGAATTATCAAGTTGAACTAAGCCAATACATGAATCCTCTATTCTTACATTTCTTTCATATCTATCTGTATTTCTTTCTACTGATCCCATGACCCAAATAGGAGAAGGGTCATCAAGACTAAATAATGCACCATCAATTGTGTGGGTAGCCCAATTAAGTAGACCTTGTTCAACTCTAATATCTATCATCGAAACAGAACCAATTTCCCCGCTTTTGATTATTTCACGAGCTTTAATCCATCCAGGGGTAAATCTTCGTTGATGACTAATTATTAATTTACAGTTGTTTTCATTAGTAATGTTTATCATTTCAGAAGCATTACCTGAACCGATTGTCATAGGTTTTTCACATATAATTCCTTTTACACCTAGTTTTGAAACATCTATAGTATTTTGATGATGATGAAGATGAGGTGTACAAATACTTACAATATCTATGTTTATGTTTTTTAAATCAGATATATTTTTAAATCCGTAGGGAATCTTATATTCATCTTGATAATTTTCTCTTGCAGGATCATATGGATCAACTACAGCAGTCAAATTAATGTTTTCTAGTAGTTGATATCCTTCAATATGAGCTCTTCCAATTGCTCCACACCCAATTATTGCTACGTTATATATTTTTTTCATTGGTTGATATTAGTGATAAAGTTATTAAAAATTATAAATAATTTTATGATTATCCCTAAAAATATTGAAATAAAAGAAGACGGACTTTTAATAGATTGGACTAATGGAAAATCACATNTTTTCCCATTTCTTTATCTTAGGCTTCAATGTCCCTGTGCACATTGTGTTGAAGAGATGACTGGTAGACCATTACTTGATGTATCAACAGTCCCTGGAGACATAACAATTTTAGAATATTCATTAGTTGGAAAATATGCTCTACAATTTCTTTGGTCTAATGCTGATCCTTGCTCAACCTCAGGAATATACCCTTTTGAAATGTTATTAAAATTAGCTGAATTAGATAAAACTATAAAACATCTGAGTTAGAATTAATTACCCAAAATTGAACAAATATATTTACCTATAATATAGATACCTTCAAAACTGCAATTATCAATATAATGTGTAAATGAGTTATCTCCCAATTCATATATAAATATAGCTCTTAAAATAAAAAATGCACCTAAAGCAGTAATTAAAGTAAAAAGTAGAGAACCAAAAGCAATCATTATTAACAATAAAACTATATTNTTATTATTTTCATTATTTTTAACAGAAAATGATGAATTGAAATCTTTTGGAACAACATCATTAATTAAATTATCTGCTAGGTTGGCAATATAATCTCCAATTATTAAAGATGAAGTTGCCCCAGGAGAGGGTGCATTNAGAACATGAATACTTCTTGATCCCATTTCTATAGCAAAATCATCAATCAATGAACCATCAGAACCAATAGCTTGAGCCCTAACACCAGAACCTCCTTTAATTAAATCAGAACTATTTAATGATGGAACCATTTTCTGAAGATCTTTTAGGAAAATTTTCTTTCGAAAAGATCTGTTAATTTCCATTAAACCAGTTTTTAAATTTTTTGAAGAAAATTTTACAAAACCAGGATATGTAAGTGTGTTAATAACATCATATGGATTTATATCAATTTTCTTATAACCTTCACGTGCCCATGCTAAAACAGCATTTGGTCCTGCTTCGATAAATCCTTTAACGTTTTTAGTTAAATGTACTCCTAAGAATGGGAATTGAGGATCAGGAACGGGATAAATTAAACCATTAATTAAATTTGATTTTTCTGGAATTAATGAAAAATATTCTCCTCGGAATGGAATAATTCTTAAATTAGGATTTACTCCCATATTTTTAGCAACTCTATCAGAATATAAACCTGCACAATTTATAACATATTTGGTTTCAATATCTCCATTTGAAGTTTGGATAATAGTAGATTTATTTTTTGTATTCGAATTTAAAAATTTCGTATCTAATAAAATATTTGCACCATTATTAGTAACATTTTTTGCAAAAAGTTCTGAAACTTCTGTGTAATCTACTATTGCAGTATTAGGAGCATATAAGGCTTTTAAACCAACAGCATTAGGTTCAATTTCTTGNATTCTCTCAGGNCCAATTAATTCAAGTCCTTGAACTAGATTTGCTTTTCCGCGTTCCATTAATGCTTCTANTCTAGGAAATTCTTCTTCTTTATAAGCGACAATTATTTTTCCACATTTATCATATTTTAGATCATTTTCAATGCAGAATTGAGCCATTGATGCTCTTCCTTTTACACAAAATTTAGCTTTTAGTGAACCAGGTTTGTAGTAAATCCCTGAATGTATAACACCACTATTATGACCAGTTTGATGAGCAGCAACTTGTTTATCTTTTTCCAAAATGCCTAATTTAATTTTAGGATGTTTTTTTAAAATAGATATTGCTGTACCTAAGCCAATAATACCAGCACCAATAATTGTCACATCAAATTTTTGTGTCATTTTAAAACTCTTTTAAATTTAGTCGAATGCCGATTTTTATTGCTCTCATAAGTTGATCTGATGCTTGAAGAAGTAGTTCAGGAGCATTTTTAATAGCTGATTCAATATTCATAGGTTTATTAATTATTGATGAAATTGAACTTATTCCATTTTCATGTATAAGATGAAAACCTTCACCAATTGAACCAGATATTCCAACAGAAGGAATATTATATTTCAATCCTAGTTTTGCTATTCCTACAGGTGCTTTATCAAAAATAGTAGATTTATCAAATTGACCTTCACCAGTAATAATAAGATCAGCATCTTTAATTCTTTGTTCTACATTAAGTGTGTCAAAAACTATAGAGATACCTGGTTTTAATGTTGCTGATGTGAATGCCATTAATCCAGCACCTANACCTCCTGCAGCACCTGAACCAGGGATATCCAGNACATTTATTCCTAATTCTTTATTAATAACCTTAGAAAAAGAATAAAGTGAATCNTCTAAAAATTTTACTTGTTCTGGAGAAGCTCCTTTTTGAGGACCATATATATAAGATGCTCCGTTTTCTCCACACAAAGGATTATTAACATCACATGCAACTAAAATTTTATATTTAGAAAAATCTATTATATTTTTAGGTATGATGATGTTTTTTATTAATCCTATTTCTGAAGCTCCAGAAGAAATTGGATCACCATTATCTTTAAGGAATTTGAATCCCAATGCTGAGGCCATTCCTACTCCAGCATCATTAGTAGCACTACCTCCTATACCAATAATAATTTGTTTATGATTGGTATTTATTGCCTCTAGAATTAGTTGTCCTGTTCCAAATGTAGTTGTTTGAAGTGGATTCAATTCATTATTGTTTAAAAGTGCTAGCCCAGAAGCTCTAGCCATTTCAATAACTGCAGTTGTTTTATCACCTAGAGAACCCCATTGAGCTTGAATATTTCTTTCTAGAGGATCTAAAACATTTAATGATTTTAAAGTTCCATTAGTAGCATCAACTAGAGTTTCTAAAGTGCCATCTCCTCCATCAGCAATGGGAATAGTGATTATTTCTGAATCAGGAAAATTTTTTTTAACAGATTGAGCTATAATATTCGATACTTCTAATGCTGATAAACTTCCTTTAAAACTTTGTGGAGCAATAATTATTTTCATAGTAAATTATAGTATCATTATCCCCAATAAGATTTAATTTTTACTAGTTTTATTAATTATATCTTCTAGTTCAAAAATAGCGTTATCTAATTGATTTTTAAAGTTGATAATTTCGTAATCAAATATAGTAGTGTTTTCCATTTCAGAAATAGCTGATTTAAGTCTTNTAGTCATTTCTTTTTTAGTGTTAGTNCCTCTCTCTATTAANCGATCCTTAAGATCATCAATAGTAGAAGGTTTTATCAATATTAGAGTTGCAGCTGGATATAATTTCCTTAATCTTTCAGCACCTTGTATATCTACTCTTATTAATACATTTTGACCNGATAAAATTGGTTCTTCAACTTGAGTTTTAGGTACACCGTAATAATTACCATAAACAAATGCTGATTCTATTAACATATTTTCTTTTTTCATTTTCTGGAATTCTTCTTCGGATACAAAAAAATGATTAACTCCTTCTTTTTCACCAGTTCTAGCTTTTCTCGTAGTAACAGTAATAACAAAATGATATGGCATACCATGGTCAGCCATTTTTTCTAAAATGGTATCTTTTCCTACACCTGATGGACCAGAAATAACAAAAATATTTGATTGTAGTTTTAATGGGATCATTGTTCTGAAATTATTTTTAAGTGAGACCAAAAATTTTTATATGAAATAGATGCAACTTCAGCATTTTTTATGGTAATTGAATCTTCAGAAACTAATCCGGCAACGCCAATAGCCATTGCAATTCTATGATCTCCGAAAGTTTGATGAATTCCACCACTTAATTTTTTAGATCCGAAAATCAAAATTCCATCATCATTATTTATATGTTTTACTTTTAATTTAGATAAAACATTAGAAATAGCTTTTAATCTATCAGATTCTTTTACTCTTAATTCACTTGCATCTTTGATAAGAGTTTCTCCTTGTGCTAATGAAGCTGCNATACAAATTATTGGTATTTCATCTATCAATAGAGGAATTTCATTTCCTTCAATAATTGTTCCAATTAGCTTGCTAGATNAAACATTGATATCTGCGACAGGCTCATTTCCAATAATTTTATTATTGGTTAAAGAAAAATTAGCATTCATTCTTTTTAATACATTAAGAATCCCAATTCTACTTGGATTAACTCCAACATTTTTTATTGTTAATTCAGCATTCCTATGGATTAATCCAGCAATAATCCAATATGATGCTGAACTTATATCACCGGGAATCTCAAGATCAATTGAAGAAAGTAATGAAGGCTTTATATTAATAAAATTCTTAGTTAATTTAATTTTGGCACCCATTGAAGTTAACATTCTTTCAGAATGATCACGTGATAAAGAAGGCTGAGATATAGTAGTATCATTTTTGGCATTCAATGCCGATAGAATAATAGCACTTTTTACTTGAGCACTTGAAATGGGCATAGAGTATTGAATTCCATTGATAATTTGTTTATTTGATGGGAAATGAAGAGGAGGAAATCCATTTTTTGATTTTATATTAGCTCCCATAAGGTTTAGTGGAGATATAACTCTTTCCATNGGCCTTGAGCATAAAGAATCATCTCCAGTAAGNATATATCCTTTTGATTTAGATGATAAAATTCCAGACATTAACCTCATGGTAGTGCCACTATTACCTGCGTCTAGTTCTAAATTAATATTTGGAAAGAGATTATCTCCTATTCCTTCAATTCTTAAAGATAATCCAGAATTATCTTGATCTAACTTTGAAATCTTTACTCCAAGTTTTTTTAGGATTTTCAATGTGCTAATACAATCATCACCATCAGAAAAATTTTTAATATTACTAATACCTTTTGAAATAGAATTGAATATAGCAGATCTATGCGAAATTGATTTATCACTAGGGGTTATTAATTCTCCTCTAATAGAGTTAGGAGGGGATACAATAATGTTCATTTTTTATCTTTTTTTTGGTTATAATTTTGAATATTGCCACGATTTTTAAAATATCCTGTGAGTTTAGAACCAAGAAATAGTTCGAGCATACCGCCACTTAGATCATTCGGATTTATTGAAGCATCGGAATTAGGATTGATACCTTCTTTGAATTTAAAAAATTTTTCTCTATATATTTCAGAATTATTTATTACATTTTTATAAGAATTAACTGATGGATCTGTAAGATAGGAGAAATTTTGATTAAATCTTTTTATCCAATCTGCTGGCAATTGTTCTTTTAAAAATAGAAGATCACTTTCATCTTCAGGTTCTTTTAATGATAGTTCTGATAATTTCATGAAACTTGAACCATATAATTTTTTTATCTCTCTCCAAGAAGGGGATTCCATCATTAGATTTCGATAAGCAGTAGAAATTAAATTTGGAAGTCCATATAGGGCAAACATAAAATTATCGTATTCATCTATATGAAAAAATAAAGGAGAAAGATTTATAGATTTTAAAAGATTTACAACTATTTCCATACTTTCAGTTGACGTTTTAGAAGAGGGAATTAAAACAAAATGATTTTGTGAAGGTTTTGAATTAATATCTTGATCAAATATTATGCTTCCACCAATAAAAGAAATGGAGTTTTCAAATAATGAATCAGCATAATCTGAAATCTCTTTTTTGAAAATACTTGTATCTATAATTACACAATCTTTTTTAACAAACTCATTTAAATTTTTTAATAAGTCATTGATTTCTACTTTTGGGACACAAATAAAAATTATATCTGCATCACTTGTAGCAGTTTTTAAGTTCCATTCTGTAGCATCTAATATATTAGATTTCTTCATCTTAGAATGCGTATTAGTGTCAGCATCATATCCTATTAATTGATAATTTTTAGATGTAGAAGAATAGAGTAATTCTGATAATGTTTTTCCAAATTCGCCTAAACCTATTACGGTAATTTTATTAATTTGAAGTCCGTTATAATTATTCATCATAGTCATCTAAGTCTTGATTTTCAGAAAAATTTGGTAAGAAAGGAGTATTTGATGAAGTGTCATTGGACTTTAAAGGTTTTAATTTCTGTATTTGATTTTTTAAAGATTTAATTTGATATAAAGAAATGCCATTACCATCTACAGCAAATCCAGAAACATTTGTTTTTCTTAATAATTCTAAATCAGAAAAAGAAGGTAAAGAATTAGAATACATAAAAATAGTTCCTGAATTTTTTAAAACCATTTCTTGAATTTTTAATAGATCTGAAATCTTTAATGGAAAAGCTATAGAGTCATTTTTTATAAATAAAAAATCAAATCCAACTTCTTCAATACAAGCACCTTTATCATCACTAATTAATGATGAAATAAAATATGCAGATGATAAATTTTCTGATAATAATAATTCTGCATTCACATTATCAGAAGCATATACAATGAAATCAAACTCATTGTTTTCTAAAAATTTTAAATCAGTATTAGAATTATCATATAGTTCTAATCCAATAATCATTTTTGATTTTTTAATTGAATCTAAAGAATTATCATTATCAAAATTTTTTAGAATAATAGCATCAGAATATTTTAAAACTTTCATGTCAAAAGGTTTATTTAAATCAACATAAGTAAGTAAGATCATATTGGGGTTTTCTTTAATAGTTTTATTAGAATTAAATCCAATTGAAGTTGAGTCAGGTATATTTAAGTTTTCAATTAATTCAGTTATTTTAGTCATTGTTTTCCTCATCAGACCTAGATTTTTTTAAAAAGTTTTCTAGATCATGAAATAATTTGACATCTTCTTCTGTATTTTCAAACGTAGGAAGAGATGAATCGTACCTTTCTTCAAGATTATTGACATAATTTTTCAATTCAGTGTCTTGAAGAATTGCGTTATCTAATCTAGCTCTAAATTTAGCAGCTTTTGTATTAAGTTTTGTTAAGTCAGATTTTATTCCAATTTCAGAATCAAGTTTATTTAATAAAGCTAATGATAAAATTGGATTAGGTGAGGCTTGAAGGTAATGAGGTGAGTGTGCCCAAATACTTAAACATGAAATATCAATTTTAGAAAATTTATCTAATAATATTGATGTAATACCAGTAGGGCCTTCATAAGATGCTCTTTCGAATTGTTTAGATGTAAATTTATCAGGTATATCATTAGTAGAAGTAAGAGTTAATTTTGGAACTCTGGTGTGAGGAATTGCATCTAATAATGCTCCTAAAGTAATTACTAATTCAACATTAAATTTTTGAGATAATTCTATAATTAAATCTCCAAAAGTATTCCATTTTAAGTGGGGTTCTATTCCATTAAGAATAATCAAATCGTGATTATTCTTAATTTTAGGAACAAAGGAAAAATCATTACTAGGCCATTTTAATAATCTTTTATCATCTTCTGTATAAACCATAGGTCTTTCTCTAGAAAAATTAAAGAAATCTTCAGATTGAATTTCTGCAAATTTTTTAGCATCCAAATTTTCTGATAGAGTTTTTAAAGCATTAGTAGCTGATTGACCTGCATCAGGCCATCCAGCAAAAGCAAATATAAGAATAGAAGAATCAGATTTTATATCATTGTTATTATTTAAATAATTAATCATTCAACCTCAAAAATGTGTTTTTTAAAATATTAACATTTTAATGAATAAGAAACTAAAATAATTACATGAAATTAATTGCACATAGAGGAAACTCTTCAAAAGCACCTGAGAATACAGTAAGAAGTTTTAAAAAATCTCTTCTCTCTGGATTTAATATTATTGAATTTGACGTTCAATTATCCAAAGATAATTTTCCCGTAATTTTTCATGATGAAAGGTTAGAAAGAACAACAGATGGAAAAGGCTTTTTAAGAGATCACTACTGGAATGAATTAAAAAAATTAGATGCAGGAGAATGGTTCGGAGAAAATTTCAAAGAAGAAAAGATACCTTCATTTGATGAAATTTTAAAAAAATTTTCAAGTAATACGCACTTACAAATAGAAATAAAATCCAATGAAGAAAACATATCTCAAATAATAATTAAATCTTTAGAAAAATATTCATTGATAAAAAATTACAAACAAAAAGCATATTCTATACCTGGATTTAGTATTACATCATTCAATATAAATCAGATAATTAAAACAAAAAGATATCAACCCCAAATAAATGTAGGATGGCTAGTAAAAGATAATGAAGATGAAAATAATCTTATTGAAAAGCTTTTAGATAATAATATAAATATGTATATCCCTAATATTAATTCAGAATTTTGGAAAAAGATTGAACTAAAGAAATCTCTAAAAGAAAATAATATTACAGTTTGTGCGTGGGGAGCTAAAAAATTTAGTGATGTAAAAAAAATGTTATATTCAGGAGCTGATGCTATGACTGTAGATTGGCCTGAAGAAGCAATAAAAATTATTTGAGTTTATAATTATCTTTATCATGTTCAAGTGCTACTTTTCTTCCATCTTCAACATTTACATATTTTAAAATAATTACTCCGATAAAAATTTGAATTGCTAATGAAATTATTCCAGTTCTTGGAGTAAAAAACCCTGCTAGTAAGGCATATGTTACTGGACCAATAACTGATACTGCTCTCCAAGAAAAAGAAAAGAATCCAAAAAACTCACCACTTCTTGATTTTGGTACCATGTAAGCAAACAGACTTCTTCCTAAAGCTTGAGATCCACCCATTACAATACCTACTCCTATTCCCAATATAATAAATTGAATATCTTGACTAAAACCTAATGGTGCCCAAATAATCATTCTTAAAAACCTAGGCCACAAATCTATAAAATTTTCATTTAATTTTGTAGGATGAGTATCACATATTGATGATTGATTATCTAAGTTACCACCTAATACAGACGCACTAAAACGACATCCATCTAGTCCAAAATTATCAAGAAATAAAGAAACTTGATTTTCATTTAGAAAATTTTCATCTTCATTATGATCTATTAAATCAATATTAAGATTAGCCCATTCAATTTCATTTTTATTTGTATCTGAAAGTGTAGGTTTAGTAGTAAGTTCGTAATTGTCTTTAGTCTTATCATAATTTAATTGATAATCATATTGTGTATGAGTAGATAAGTTTAAGGGAGCAAAGCCTACTGCTAAAATTGTTATAAAACCCCAACCTAAAACTGCAGTAATTAATGATTTTTTGGTACCAATTTTTTTAGATAAATATGCAAAAAACATTGCTCCAGGCGTAGCTACAAATTGAACAATCAAAATTGTAAGAATATTAGTTTCAGCGGAAATTCTCAGTACATCAAGACCAAAAGCTCCAGCAACTCCAAGGGCTGTTTGTATTGCATCATTAAAAATAATAAATGCCAATAAAAAAATTAACAGAGTTTTAAATTGTTTAAACTCTTTAGCAGTTTTACGTAATTGTTTAAATGCTTGTGAGATAGAATGGAAAAGTTTAAATTTACCAGAATCTTGTATTTCAATTTTTGGTTCAGGTACAACTAGTATTGTCCATATTGCCCAACCAAATGCCCACAGGCCAGTAGATGCTATACAGGATCTAATAGCAATATCTGAATAATCAAAAAATATAAGAAATATTACATGAACAAGTAAAAGAAGTCCGCCACCCAAATATCCATAAGCATAACCTCTACTACTAACATCATCTAATAAATCTTCAGGAGCAATATGCGGAAGTAGGGAATTATAAAATACATTAGAACCAGCAAATCCTATAGCAGCAAGAAAATAAAAAGCTAAACTAAATAGCCATGGAGTAGATGTATATGCAGATAAAAATAGTAATAAAGTACAAAATGATCCAGTAGCACATAAAATAGTCAAAAGTTTTTTCTTAAGTCCAGATCTATCTGCAATAATCCCAAAAATAGGACTGCTTAATGCAACTATAAAAGTAGCTAATGCACCAGTAAGAGCCCAAACAACTGAAGCAGAAAACTGAAAGCCCCAAAATACAGCTCCTGATCCCATTTCTGCTTTGTAAAGAGAAACAAAATAAACAGGCATAATTGCAACAACTACACTTGTATAAAAACCAGAATTAGCCCAATCATACATACACCATGCTCTAATTATTTTTCTTTCAGCATTTGAAAGTTTACTTAGAGGAGAATTAGATGATTTTAAAATTTTTGAAAATAAAGACATTTTAATTAATTTATAATACTATTTGTTGCTCTCAATAATGTTTCTTGAACTAGAACTTCATGTTCTAAAGTTCTATCAGGTTTTTTTAATCCTTTTATAGACTTTATAAAAGAATCAAAACTTTCAACATATCTAGGTTTATCAGTAAGTGTAATAGAATCAGAGTAATATTCTTCTTCTATAGGCAATGAATCATTAGATTTTTTTAAATTAATTTGTAAAAATTGTGCTGGTTCAAATGGTTCTAGTATAAGAGTTCCATTTTCACCATATACTTCAAATCTTCTAGTTTTCATATGATTTATAGTTCTTGAATTGATTTCAATAGTAGCTATAGATTTATCAAACTCAAACACTGCTAAAGTATTATCAGAGTAATTTTTTATTGATGAAATATCTCTTCGTAAAAATGAATATATTTTATTAGGACGACCTAAAAAATAAACTATTTGATCAATCATATGACCTCCTAGATCAAATAATATTCCTCCTTGATGTTTAGAAATTTGTATTTCTCCGTTTAAACCTTCAGGTAAAATATTAGTAGACATATTAGCTCTAATATTAAATACGTTCCCAATTTTGCCTTGAGAAATAATTTCAGCAATCTTAGTAAAACCATCATGCTTTCTAAACATATAACCCATCTGAATAAACAAATTTTTTTGTTTAGCGATTTTTATACATGAAAGGAAATCGTCAAAATTATCTCCTGCAGGTTTATCATAGAAAACGTGTTTTCCAGATTTAAGAATTTCATATGTTTGAGCTAAACTTTCAAAATTATTACCTTCTGAAGCTACCGCTTTAATAGTTGGATCTAAAAAAACTTGATCTTGATGTTCAAAAAAGATCACTTTATTCCATGGATATTCATTAAGATTTTTTAATTCTTCAACTCTATTTATATCTGGTTCAAAAATTCCCTTAACTTCAACATCATCATTCTCTAACATAACTTGCAAAACTCCTTCAGCATGACCATGTTTAGTTCCAATTTGTGCCACAGAAATTTTTGAATTTTTAGAGTTCATAAAAATACCTAGTTTTTAAAGAATAAATTCAGTGTATTTTTTTCCTGTTCACTAAGCAATAAATATTTTATTAAATATAAAAGTAAAAATTCTTAAGTATCATTGTGTTATCATTCTTTAATATTTTTAATATTTGGAGGTTAAGTGGCTAACTATAATAAAAATTCCAATCCATCAAAATTGAAAATAACAGATATGCGAATTGCTGTTGTTGGTCATGACAATTGGAGATGGCCAATTATAAAAATTCATACTAATCAAGGTCTAATAGGATTAGGTGAAGTTAGAGATGGTGCCAGTGCTAGATATGCCTTAATGTTAAAAAGTAGACTTTTAGGAGAAAATCCTTGCAATGTTGAAAAGTTATTTAGAAAAATAAAACAATTTGGTGGCCATGGAAGATTAGGAGGAGGAGTATGTGGGGTAGAAATGGCATTGATGGATTTAGCTGGAAAAGCTTATGAAGTACCTGCATATATGATAGCCGGTGGAAAATATCGTGATCAAATAAGAGTTTATTCAGATACACCATCAAAAAAAGATCCTGTAGAAATGGGTCATGCACTTAAAGAAAGAATGGACAGAGGTTTCACTTACTTAAAAATGGATATTGGAATTTGGATTGCAGAGGAAATTGATGGTGGAATAATTTTCCCTAATGATTATCATGAAACTGAAATTCAAGAAGGATCCACTGGAGGATCACAAAAAAGTATGATTAATGAGTCACAAAATGTAATGCACCCATTTACAGGCATTCAATTAACTGAAAAAGGTATAAAAGAAATTTCAGAATATGTTAAAACTGTAAGAGATATTGTGGGTTATGAAATCCCTATTGCCACGGATCATTTTGGACATATAGGTCTTGAAAGTTGTATTAGGTTAGGTAAAGAGTTAGATAAGTATTCGCTTGCATGGTATGAAGACATGATTCCTTGGCAGTATACCCAACAATGGAAACAATTGAAAAATTCTGTTGATACTCCAGTATCTACGGGAGAAGACATATATCTACTTGATGGTTTCAAACCTTTAATAGACAATGATGCAGTTTCTATCATTCATCCAGATTTAGCTACATCAGGTGGGATTTTAGAGACAAAGAGAATTGGAGATTATGCTCAAGAGAAGGGAATACCAATGGCATTACATCAAGCAGGTTCACCTGTAGTAGCAATGGCTAATGTACATTGTGCAGCTGCAACAGAAGGGTTTATAGCCCTGGAAATGCACTCAGTTGACAACCCATGGTGGGATGATCTCGTTAATGGTGAGACCGATAAAATAATAAATAATGGCTTTGTTAAAGTTCCTGAAAGTCCAGGTTTGGGAATAACGTTAAATGAGGATGCTGTTGAAAAACATTTAAACACTAATGCTAGTGGTTTTGCAGGAAAAGGAAAATCAATGGATATATATCCAACAGGAGCTTTCGAGCCTACTGATGAATGGGACAAATTAGATTCACATGATAGAACTTGGAGTTAATAATTTATGGAAATTACTCTTTTTCAATTAATTGTTTTTCTATTATTAGGAATTATTGCGACATCATATGGAGTGTTAGTAGGCGCAGGAGGAGGCTTCATAATTGGGCCAGTATTAATTCTATTATTTGGCTGGGATAATAAAACAGCTGTAGGAACTAGTTTAGTATGTGTTTCAGTAGCATCCATTTCAGGAGCAATATCATATTTAAGATTGAAAATTGTTGATATTAGGAGTGCAATTCTTTTTGGAATAGCAGCAATGCCGGGAGCAATATTAGCAGTAATTGGATTAGAAAAAATAGATAGTGCTATTTTTAATATTCTGTTTGCAATTATGCTTTTATTAACTGGATTCTATGTGTTTTGGAGTCCATCAAAATCTAAAAAATCATCCACTAATGAAAATGAAAATGAAAAAAATAAAGGATACTGGAGAGTTTATAGAAAAATCACACCAACTATTGGAGATAAATACACATATAATTTTATTGAACCACTGGCTACTGCATTGAATACAATTTTTGGTTTTATATCTAGTTTTTTTGGTATAGGAGGGGGTCCTTTACGAACACCCTCATTAATATATTTTTTTAATTTTCCTGTAAAAGTAGCTACCGCAACATCTGTAGCTACAATGTCTATATATACTATATTTGGATCTATAGCTCATTTATACAATGGGAATGTTGAAATTCAACCAGTTTTACCATTAGCTATAGGAGCAATAATAGGTTCTCAATTTGGCGTTATTATTTCAAAGAAAATTAAAGGAAGACTTATGATGAAACTATTATCATTTGCAATGATAGCTATAGCAATACAAATGGGAATAGAAGGGATAAACGGTCTATAAGGAGTAAAATGAACAACGAATTTAGATTACAGAAATCAATAGTTCCAAGTCATTATTCAATTTTTATTGAACCCGACTTAATAAATGAATCTTTTTCAGGAAATGAAGAAATTTCCATATCTGTTTTAGAGACAACAAAATCTATAAAAATTAATTCTATTGGATTAGTAATTGGAAATGTGAAATTAACTGGCAATATTGAATTAAATTCCACCAAAATTGAAGAAGACAAAAAACATGAAACAATAACTATTCATTTTAAATCTCTGATAGATCCAGGAGACTATAACTTAAAAATACAATTTTCAGGTAAATTAGATAATTCTCTTAGAGGTTTTTATCTTTCTAAATATCGAGATAATCAAGGTATTGAGCATAAGATAGGAACTACACAGTTTGAAAGTACAGATGCTAGAAGAGCTTTTCCATGTTTTGATGAACCAGAATTCAAATCAGTATTTTCAATTTCACTTAAGTTAGATCAAAGTCTTATGGCTATATCAAATTCTCCAATAGAAAGTGAAATAACTAATAGTGAAGGGAAAAAAACCATTATTTTTAAAGACACAATAAAAATGTCTACCTATCTAGTAGCATTTATAATCGGACCATTTGAAGAATCAGAAACTGCTGAAGTAAATAATGTTCCTATAAAGATAATTTCTGTGAAAGGGAAAAGGCATTTATCAAAATATGCGTTAAATTGTGGAAAGTTTTTTCTTGATTATTTTAATAATTATTATGGAATTAATTATCCTGGATCAAAACTTGATTTAATAGCTGTTCCAGATTTTGCTTCAGGAGCAATGGAGAATTTTGGATGTATAACATTTAGAGAATCATTATTGTTAGTAGACGAGACACGAGCTACAGAAAGTGAACTTACCAGAATAGCAGATGTTATTGCTCATGAAATTGCACATATGTGGTTCGGTGATTTAGTAACCATGAAATGGTGGAATGGAATTTGGTTAAATGAAGCATTCGCTACATTTATGGCTACAAAAGCAGTAGATAAATTTAATCCAGATTGGGAAAGATGGGTGCAATTTGGTTTTGAAAGATCAGCAGCATTTGATGTAGATTCATTAGAAGAAACAAGGCCAATAGAATATGAAGTAATATCTCCTGACGATGCATCAGGAATGTTTGATCTTTTAACATATGAAAAAGGAGGATCTGTCTTAAGAATGCTAGAACAATATCTATGGGAACAATCATTTCAAAATGGAGTAAAAAAATATCTCAAGATTCATCAATATTCTAATACAGACACAAAAGATCTATGGGAAAGTTTAGAAAAATCAACCAATGAACCTGTTGAAAAAACAATGGAAAGTTGGATTTTTCAACCTGGTTTTCCACAATTAATGGTTTCAGAAGAAAATAATTCCTTAAAATTAGAACAAAACATATTTAAATATGAAAACACATCAAATAAAAATCAAGTATGGAAAATTCCTATAGTTATAAAATCATTTACTGAGTCTGATAAATCTATATATAAAACTTTGATGGAAGAAAACAAAAAATATATTGATTTAAACAATTCACCAGATATTTTCCATCTAGTTAACGTCGGAGGTGATGGTTTCTACAGAATTCAATATTCAAATAATCTATTAACAAAAATTTTAAAAAATTTAAATCCAGAAAAAAATAAATTAACTAATATTGAAAGATTTTGTCTGTTGGATGATTATTGGAGTGATATTCTTAGTTGTAATAAGACTGTAGATGTTTTCTTAGAAGATCTTCAATTCTTTAAAGAAGAAAATGATCCAGAAGTATTAAATTTAATAATTAGTTGCTTATCATTTATTGATAAATTCGTAGATGAAAATCATTCAAATAATTTTAAAAGTTTTTCTGAAGGTTATTTTTCCCATTTATTAAAAAAATATGGTTTCAAAAACAATAATAATGATACCAATAAAATTAAAGAATTTAAGGCAGCATTAATACGTGGATTAGGAAACATATGTGCTGATGAAAAAATAATCAATTATTGCGGTGAACTATTTGAAACTTATAGAAAAAACCCTAAAGATGTGGAAGCAAATGCATTAGCAGCTACTATATCAGTGCTCTCAAATAATGGGGATTCGAACTTATATAATGAATTTCTTGAATTATATTTAAATTCATCCACTCCTCAAGATGAAATGAGATTTCTTTTTGCATTATCTTCATTTCAAAATATAGATAATTTTATAAACACATTAGAATTATCATTATCTGAAAAAGTGAGAACTCAAAATGCTCCATATCTTTTGGGTCAAACATTAAGAAACAAAAAACATTTTTCAGTTTCATGGGATTTTATAGAAAATAATTGGGATAAAATAAATGATAAATTTCCTGAAAATTCGATACCAAGGTTACTAACTGGAATAAGAGCAATCACAGATGTTGAATGCTCTGAAAAAATAAAAACTTTTTTAAAGAATAATAAGGTGCCTCAAGGACAAAAAACAGTGGATCAACATCTAGAAAAACTTAATATTAATGTTAAATTTGCTGATTTTAATTTAAAATATTTAGAGAAATTTTTACTTAACAATAATTAGGAACTTTATGACAATTAAAGAAAATATCAAAAATCTGAAAATAACTCTGAAAGATTTAATTTTTATACTGCCATTAGTTTTTGCTTTTATCCTAATTGTTTTTATGATTTTCGATACAGCAAGCACAAAATGTGATTGGTCAGTAAGAGATAGATGGGAGTGTTATTCAGACGCTGATAAAAATTCTTAACTAATATTATTTTGGTAAATTTGGAGAATTATATTTGTGTTGAGATAAAGTATGAAAATTAAACTCTAATTTACCTTTATCCTTAGTTAAAATAATTCCAGATTCAATCAAATTGTTAAATATAATATTAAAATTTTTTTCATCTAGAGTTGAATAACGAATTAAAGTAGATAAAGGTGTTTCAGAAATATAATTTCTTGATTTTGTATCAAATTCACAGTTTGTTGCTATAGAAATGAGGACAAGCTTTTCTGATGAATTTAAATCAGAGCAAATAATTCTTTTAATATTGTGGTAAGAATCCCAAACCTGATTTTTCATTATTTCACCTTCCTGATAAATTAAAAATATTAATAACTATTGTCTTTAAGGAATATCATCATGTCAAAGCCAATTTTCTGGAATCAAGCTTGTGAAGATTTATCTAAAAAAGATAAAGTAATGAAATTAATTATAAAAAAATATAATAAAGACTATCTAATAGAGTCCAAAAATCCATTCAAAACATTATGTAGATCTATAATTAGTCAACAAATTTCTACCACAGCTGCAAAATCTATTTATGAAAGATTTGAATCTATTTCTTCATTAATTCCTCAGAAAATTATAAAAATATCAGATTATAAATTTAGAGAAATAGGATTATCTAAACAAAAAATTTCTTATATTAAAACATTGTCTGAAAAAGTGAACTCAGAAAAAATTGATTTGGTTAAGTTAAAAACATTAGAAACTGAAAAAACTTTTAAAACACTTACAGAATTAAAAGGTATTGGTCCATGGACTGCTAACATTTTTTTGATGTTTTACTGTTTAAATTCAAATATTTTTCCTTCTAATGATTTAGGACTAATAAATGGATTAAAAAAATTCTATGGAAACTCAAGCCAAATAAATACAATAAAAAATCTTTGGGATCCTTGGTGTTCAGTTGGAACTTTTTACATATGGAGAGCCTTGGACGGAGAAGCATTAAATTATTAGTTAAATTTTTCAATTTTTAGGTATGATATCCAAGTAAATAGATAATTAGGAGAAGAAATGAAAATCAGTGAACTTTTTATGAATATAGCAAAAGAAAACTCTATTGATCATTTTTTTGGGATCCCTGGAAGTGGAGTACCTTTAGATTTAATGGATAGTGGCAGGGAAATCGATTTACATTTCGTAAACGTAGCACATGAGTCAACTGCTGCAATTGCAGCAGGAGCTTATGGCTTATTAAAAGAATCATCAGGACTATCTTTAGCTGTAAAAGGTGTAGGGGCAGCAAATCTTACAGGTGGAATTGCAAATGCTTACTTTGAAAGAATGCCGGTTGTTGGAATTTGTGAAACCACTCCAAATTATTCATATGAAAATGAAATGGTCCAACATGCAGATCATTATGCAATGATGAAATCAGTAACAAAAAAAATGTTAACTATTTCAAATGATAATCCAGGAGAAACAATAAGAGATGCTTTTTCTACATCAATGGAAAATAGACAAGGACCAGTATTAATAGATTTTCCATCAGATATGGGATTAGTAGATGTAAAAGATAAATTAAACTCTCCATCTAAACCTAAAAAATCTAAAGAAACTAATAAATCAGAAATTAAGAAAATTTCTGAAATTATAAACAAATCAAAAAAACCTGTTGTAATAATTGGAAATGACGTAAAAGCAGATAATGCAATTGAAGAATCAATCAAATTCGCAGAAAAATGTGGCGCTGGTGTAATATCCACAATGAAATCTAGAGGAGTATTTCCAGAAAATCATGAAAGATGGGTAGCTGTAACCACAGGATTTCCAAGTCAAAATACAAAAGCAGGAGATTTAATGCTAAGTTCAGATTTAATAATTTTGATTGGCGTTGATCAAATGATGACCCATACTCCTTGGCCTGAAAATACACTTCAAACCATAGAAATAATTTCAGACTCACATTTCAAAACAATGTCTTCAGATCCAATTTTTACAGAAATAGGAAATATAAAATCTACACTTAATAAATTAACAAAATTAATTATGAATCCTGGATGGAAAATTCAAGAATTATTAAATATATCTATAAATCTTGAATCAAGATTTAAAAGACCATCTAATGCAATTTTTGCTACACAAGACATATTTGAAATTTCAAAAGAACTTTTGCCTAAAGAAGGTTTGGTTTATAGCGAAACTGGAGCTTTTATAACTCTGTTAGAAAATACTTGGAAGTTTGATCAACCTTCAAAATTCTTTGGTACTTCGGGTGGAAGAACAATGGGTTTAATGATCCCTTCATTTATTGGTGGATGTTTGGCTACAGATAACTCAATACCATCAATAGGGATTGGAGCTGATGGAAGTTCATTAATGAGAATGGGAGAATTTGAAACTATTAATAGATGTAACCTTAAATGGCCTATTGTAATTATAAATGATGCAGCTTTATGAACTATGAAATACAGACAAGGATTTCGAAAATATCCTGATTATGGATTAGATTTAACTATGGTTGATTTTGCAAGCGCTGCAAAGTCATGTGGTTTAAAAGGAATAACAACTAATACTCCAGAAAGTTTTAAAAATGCCTTAATTGAATCATTTAAAGAAGATACAACAACAATAATTGATGCAAGAATAGATCCCAAAATTTATCAAGACAGTTTTGGATTAACTTTAGGAGACTAATTAAATAACACTACCCCAGGATCTTGAAAGATATTTATCAGGAGTAATTTTTAATAATACTCTATCTTCTTTCTTGATTTGGGAAACTCTATCTTCAACTAAATCTTTCGGGACATAAAGTTTTACAATTTCTTCGGTAATTGGAAAAATTTTTTGTTTAGGCAAAATATCACATTGTCCTTCAATCACAACATAATCAGTAGCTAATGGTTCAGAATAAATACATAAAGAAACTCTATTGTCTCGAGAAATATTCCAATACTTTGCTCTATTTTTAGTAGTAGAAATATAGATTGAACCATCTAAATAAATATACCAATTAGGAGAAAGTTGAGATGTTCCATTTTTTTTAATTGTAGAAACAACTGCAATCCTCGGATGATTTAAAAAAGCTTTTATATTTTCAAAATTTTTATCAGACATAATATATTTTCTTTGATCTAGTATATATAATTTATTTAAGTAAAAAAAAATATATATAAAAATTGTCATAATGAGAGAAATAATAAAAGAAACAAAAAATGAAATAGATAGTTTTATTGAAGAACACAAATCTATTGATGAAAGACTTTTAAGATCTCAAAAAAATTTAGCTTTTTTAATTAAAGAATTTGAAAGATTAATAGATAATTTTTATAAAGAAAATACAGAAAAAATTAATAATGAATAATTGATCTTAAAGGTACTGTAAAAGGTTTTTTATATAATTTAAGATCAATAACACTTAAAATCCCCAAAACTTTATTTCCAGTTTTCTCAATTAAATCTATCGAAGCATTCACAGTACCTCCAGTAGCTATAATATCATCAACAATTAGTATGTTTTTCGATTTTGGAATTACTGAAGAAGAAACTTCTAAAGTATCCTTTCCATATTCGAGATCATAATCAATACCTATTACAGGTGGTGGCAATTTACCTTTTTTTCTAATTAAAATTAATGGAATTTTAAAAATTTGAGAAAGGGGAGAAGCAAAAATAAAACCTCTTGACTCTACAGCAGCTAAATAATCAGGATTAAATTTTTGAATATTTTTTCCTAATTCATTTATTGTAAAGGAAAAAGCATCGGGATTTGCTAGTATTGTAGAGATGTCTCTAAATATGATTCCTTTTTCGGGATAATCTTGAATTTCTCTGATAATTTTTTTTAGGTCCATATTATTTAAAATGATGTTATTCTCAAATTATTATTATATGGTGAATATTAGAATGAAAAAAGTATCAAGACTAGGAATAATAGGCGGAAGTGGAGTATATGACCTTCCAGGAATACAAAATTCTGATTGGATAAAAATTCAAACAAATTTTGGTGAACCTTCAGATAAAGTATTAATAGGAAATTTAAATAATATCCCAGTAGCTTTTCTTCCTAGACATGGAAAAAATCATCAATTTTCACCTTCAAAAATCAACTACAGAGCAAATATTGAAGCTCTTAAAATATGTAATGTAACTAAGATAATATCTGTTAGTGCTGTAGGTTCACTTAGAAAAGATTTACATCCAGGAACAATAGTTTTATCTGATCAATTTATCGATAACACAAAGTTTAGAAAAAACACTTTTTTTGATGATGATATAACTGCACATATCTCTATGTCAGATCCTACATGTAGCAACCTTAAAAATGAAATAGTCACAATAGCAAAGCAATCAAAAATAAATGTTATTGATAAATCTACATATATTTGTATTGAAGGCCCACAATTTTCCACAAAATCTGAATCATTATTATTTCAAAAATGGGGAGCAGATATTATCGGAATGACTGCAATGCCAGAGGTAAAATTATCTAGGGAAGCAGAAATGTGTTACGTAAACTTATCTTTAATTACAGATTTTGACTGTTGGAAAGTAGAAGAAGAACCAGTATCTGCAAAAATAGTAATTCAAAATTTTAAAAAAAATTTAAAACAAATTCATTCTATTATTACAAACCTAACTAATAATAAAAATTTAATAAATAAATGTACTAAGGGATGTCAAAACTCTTTAGAAAATTCAATAACTACAAAACTAAACAATAATAATAAAATAACTCAAAAAAAATTAATAAATATAATAAAAAAATACTATAATGTTATTTAATGAATAATAAGAACGTAGAAGAAAAAAAGAAATTATTTTATAGAATAATAGATGTAATTAAAGTTAGAATGATTGCTGGTATTATAATTTTAATACCATTACTAGTTCCTCTTTATCTTCTTACTTTCGCTTTTGAAACATTAGATGGATTTTTTGCACCAATTTTTACTCAATTATTTGGAAGAAAAATACTAGGGGTTGGATTCATAGTATTACTGTTATTAACATTCTTACTAGGAACAATAAGTAAATTTGCTATTGTTACAAAAATAATTCAATGGATTGAGTCGTTAATCCTTAAAACACCATTATTTGGAGCAATATACAACACAACACGTGAAGTAGCCAGTTCATTTCAAGGTGGCAAATCTACTGGTTTTACTACTCCAGTAACAATTGAATATCCAAAAAGCGATGTATGGACAATGGGATTCTTAACTAGAACTATTGAATTTGATGAAAAAGGAACACATGGAATAGTTTATATGCCATCAACACCTGTACCTAGTACTGGTTGGGTAGTTCTAGTCCCTATTGAAAAGATTAATTTCCTTGATCTAAAAGCAGATCAAGCAATGAAATTGATTGTCGCTGGAGGAATTGCATCATCTGGAAAATTAAAATTCAAGAATATAAATCAATAACATCCAAATGACAAATCCCAAAATAGTTTCAGTTTGTTTAAGTAAATTAAACGGAATTCCTAAATATCCTCAAAAAATAGTTGAAGTAGGTAAATTTGGTATCAATGGAGATTTCCATTCAGGTGAAACCAATAAACATGCAAAAAAAACCAATTATGATAGACAACTTTCATTAGTATCTCAAAATGTAATTGACGAATTGTCTGAAAAACTTCAAATAGACTTATCAGCAGGAGATTTAGGAGAAAATTTTTTAGTCGAGAATATGGGTGATCTAACTACCATAAAAGCAGGAACAAGATTAAAAATTGGAAAAAATGTAATTATAGAAATAACAAAACACAATACACCATGTGTAACACTAAACAAGATTCATCCCTTACTCATGGAGAGCATATTAGGAAGAAGAGGTTTATTAGCTAAAGTAGAATCTATTGGAAAAGTAAAACCAGGTGATTCTATTGAGATTTTATGAAGAAAAATAAATGTTTAGTTTGCAAATATAATCATTGGCACAGAAAAGATATTTTGTCAGATATAATAATTTTTTTTCTATTAATTATTGGATATAAACATAACCATAAATAAACATGTGTGGTAGATATAACTTACATCAAACTGATCAATTAATAGATAGGTATAATACTGTAAATCAAATTTCTATTTTTCCTGATTACAATAGAAGTCCAGGTACAATAAATCCAGTAATAATATCAAAATACAATGAAAATTGGATTTTGGGCTTTGAATGGGGTATACAAAAACAAAATCAACTAATTGCTAATAAGAGAATTGAATCAATAAATAAAGAATTAGGATCATTCAATAGATGCTTAGTGCCAATAAATGGATATTATGAATGGAAATCTCATCCTAGCGGAAAAATACCATTTTATATTTTCCCAAAAACTGAAAACTTAATCTCACTTGCTGGAATTTATTATAAAAACTCTGAAAGTAATGTATCAAAGTTCTTAATAGTAACTAAACCTGCAGATAAAAGTTTAGAAAAAATTCACTCTAGAATGCCAATGATGATATCTCAAAATGAGGAAAATAATTGGTTAAATGAAAATAATAATACAGATTTCAATTTTTATAATGTGAAACTAGGAATAATTCCAGTATCCCAGAAAGTTAATAATCCTCAATATTCTGATCCTTCATGTATAAAAAAAACTGATGAATATCAAATATTTTTTAATTAGATTACAAAAGAAAATTTTATATAATAAAAACATAAAAATTATAGAAGGAGGATAAATGCCAGTAGTAAACATTACTTGGAAAGAGGGCAGAAGTAGAGAACAAAAAGAAGAGGTAATAAAGGACATTACAAAAACACTAGTAGATAAAGCTAATGCTAGAGAAGAAGATGTAGTTATAATTTTCAACCCATTAGAACCTTCAAACATGGCTCATGGAAAAGAGTTATTAGGATAATTAATTCATTATATTTTAATTAATATTAGATCTGTTTTTTCCAATAACATCTCTATTAATTAAATTTTCAGGAAAATTTCCTTGTAAAACAGTTAAAGCTTCTCCAACGACTCTTTCTTGTAATTCTTCATTGGATTCCTGTGAAAAATAGGCAGTATGAGGAGTTACAATGACATTTTTAAATTTGAATAACTCATTAGAGGCTTTAGGATTAGGGTCTTCCATTACATCTAAACCTACTCCTAAAATTTTCTCTGAACTTAGACCTTTAATCAAAGCATCTTCATCAATCAAGCCTCCTCTAGCAGCATTAATAATAATGACATCATCTTTCATTATTTGAATTTGATCAAAAGAAATCAAATGTTTAGTTTCTTTTATTAAAGGAATATGAAGAGTAATAAAATCAGAATTTTTAAATAAATAATCTAAAGTTACCGATTTAACATTATTTTCTTGATCGTCATCTTTTAATAATGGATCAAATGCTATAACTTCTATACCAAATACGTTAGCTTTTTTCGCAACATTTTTCCCAATTCTTCCATAACCAATAATACCCAAAGTAGATTTATTCAATCTCCGTATTCTTTCTACTTTATTTACTTCATGCCACAATCCTTCTTTAACTTTTTTATCATGAGGCATTATAGATCTATTCAAATTTAAGAGCATAGCTAAAACATGATCTGACACTTCATCTAAACAATAATCAGGAATATTTGTAATTATTATTCCTAGTTCTGTAGCTTTTTGTATGTCAATATTGTCTACTCCTATACCATATCTGCAAGCTACTTTACATTTTTTCGCAGCTTCTAAAACATCTTCATTAATATCAGCAAAACAAAATAAGATAGCATCAACATCTTTAATTAAATTTATTAAAGTGGATTGATCAGAATTTGGAGCTACTATCAACTCATGGCCGTTATCTTCTATAATTTTCTTCTCTATATCAATATTAGGCCAAACATAATCAGTTATTAGAATTTTCATTATTCTGACTCCATAAGTTCATTTTCTATAGGTTTAAATTGACAACCTTCAACAAAAAAATTAAAAAAATCGTCGGTTGTTTCTAATTCTACATGTTCAATAGTTTTTACCAAATTTTCCATTGAAATTCTGAGTTTTTTGGATAATAACATTATAGTAGCACCTTCTAAAGAACCATTACCAATTTTTATCACTTCTGTGTTTGGTAGATCTACTATAAATCCAATTTTCTTAGCATTTTCAACATCTATATAATTAGCAAAACCTCCACTAAGATAAATTTTTGAAAAGCTATTCAAATCAGCAGGATATTTTCTGATTACAATAGCTTGCCCACATGAATTGGCAGCTTTAGCTTGTGCTAGAGCACTCACATCTGCTCTAGATAAACTAATGCCTTCATCTTTTGAAATAACATATTCTTGAGCATTTTTTTCAAAAACTCCAAGTTCATTCATAATACCATTTGATTTAAGTTCAGAAAGAATATCAATCAAACCAGAACCACAAATTCCTTCTGGCTTTGAATTGCCTATAATTTTAATTTTTGATTGATCATTATCAAAAACAAATGCTTCAATAGCACCATCATAACCTGGCATAGCATAAGTAACTTCCCCACCTTCAAAAGCAGGTCCGGCAGGACAAGAAGCAGCCATTAATTTATTCTTATTACCAACTACGATTTCAGTGTTTGTTCCAATATCAACTAGTATTACATTTTTTTCTTCATTATCCATTGATATAGTTAAAAGATCAGCAGTAACATCTGATCCCACATGTGAACCAATTAATGGTGCTCCATAAACATTTGCATTCGGATTAATCCTTATACCTAATTCTTTAGCAGTAGTATATATGGCTGTAGAATCTCGTTTTCCTTTTTCTGTTTCTAATTCTGTAAAAGATTTATATGGTTTTTGTCCTATAGAAAAAACATCAAATCCAAAACAAATATCTCTCATTGTTGAATTTCCAACGATTACAATTTCATAAATCCACCTGCGCCTAATATTAAATTCTTTACATAATTCACCAATTTCAAAATTTATTCCAGAAATAAGTACTGATTGAAGTTCACCTTTAAATTTTCCAGTTTCATAAGAAATTCTATTCATTACATCGCTACCACCAAAACGTTGAGGGTTTTCAAAAGAAGAAGTACCCAATATATTTCCGTCTTGCATATTAACTAAATTCATAACTATCGTAGTTGTTCCAATATCTATTGAAAGACCAAAAATATAACCTTTAAAATCATCAATTTTTTCTGATTCATTATAAATTATTGAATCTCCTTTTTTTACTGTAATAGGATCAAATTCAAAATCTCGTTTTAGTCCTTTATCTAAAATTTTTGGTTGTCTTCGAAGAACATTAAACCTAATGTTTTTGTTAGGGTCTTTTACAATTGCTTGACAAGCTAAACGATAATTTTCTTTTAAAAATTTTTCTGATTCAGTTTTTTCAGAAAGTCCTTCAAATCCTTCTATTAGTTCAACGATACATTCATGACATTCACCTGTACGGCCGCAGGATGTAGGAACTCTTACATTTAAAAAATCAGCATAATCAAAAATAGATTTATTTTTTTCTGATTCAATTTGAAATTTTTCGAAAAATATTGGAGACATTTTATAAATAGAAAATTAGATATATAAAAATTATATCAAATTTCCCAAGCCGTCCTATAATCTAATAAATCAGATCCAGTACATACAGGTAAGTCTTCTTTTTTTTGTGTAAAGAATTGATTTTTACAACTAAAATTAGCAGTACATCTAGATTTTGCATCTTTATATGGACAACGTTTTTTACTAATCTCATCAGCATTAAAAGAAATATCTTTATAAATTAAAAATAATTTTTCAAGACTATCTTTAGCCTTTTCAACATTAATTTTTTTCCTTAAATTATTACCATTAGTATTCAAAGTTATCCTTTATTAACACCTAATATATCTTTAGCAATCTGAACACATTCAACCGCATTTGAACCATATCCATCTGCCCCCATTTCATCAGCAAAATTCTTTGTTACAGGAGCGCCTCCTACAAGTATTTTTACTTCTTCTCTAAGACCAGCTTCTTCGAAAGCTTCAATGGTTACTCCCATATTAGGCATAGTAGTAGTTAATAATGCAGACATACCTACAACTGTTGCTTCATGTTCTAATACAGCATCTATAAATTCATCAGGTTTTGTGTCAACACCTAAATCATGAACAGTAAAACCACCACCTCTCAACATCATAATACATAAATTTTTTCCTATATCATGTAAATCACCTTTTACTGTACCCATTATTACAGTTCCTATAGGCTCAACTCCTGATGCAGAAAGTATTGGATCTATATGTTCCATTCCTGCTTTCATTGCTCTGGCAGAAATTAAAACTTCAGGTACAAATATCACATTATCTCTAAATTTCACTCCTACAATTGCCATACCAGCAATTAGACCATCATCTAGTACTGTATTTGCCTCATAACCTTCATCTAATGCTTTTTTGACTAAATCATATACGTCATTATTTTTACCTTTAATTAAATTAAAAGCTATCTGTTGCATCAACAAATCAGAACTATCAAACATAGAACCTATATGTTCTTGCTCATTCGGTTTTGTCACATATTTAAATTCTTCAGATAATCCTTCGTGAATAATCGCCATAAAGTCTCCTTATATATTGAAAAGAAAGTTTATATCTAAATTCAATTTAATGAAATAGTTAATGCTTTTTTAAAGTCCATTCTTCAACAGCTTCTGGGATTGCTAATAAATTTTCAATTTTAGTTTTTAAAGGAATTGCACATTCTGGTGCAATCAATTGAACTCCTGCATCTAGAGCTTTAAATACTTCTTGTTTAACATCACTAACACCTTTAGAGTATAGAGTCTCTGGATTATTGATGTTTCCAGCTAAATTAATTTTACCATCAACTGCATTCATAGCTTCTTGAGGATCATTTTTTGAATCAAAATGAAAAGCAGCCATTCCACTTTCTGCAATATAAGGCATTCTATCAATCGTTTTACCACAGATATGAAGTATTAGAGGAACAGGAAGAGTCTCTACTAATTCTTGATGAATTTCTAAAAGAAATCTTTTATAGTATTCACCACTTACCAGATCTCCAGTAGCATGATCAGGTACAACTAATACATCAGCACCAGCATCAATTTGAGCTTGACCAAATAAAACAGTTATTTCTCTTAATTTGTATAAACATTCCATAGTTTTTTGTGGATCATCTATAGATAAAAGTAAAAAAGGCTCTACTCCAAAAACATGATAGGCAAGAGTCCATGGACCCATGGTTTTACCAATTATAGCTACTTCATCACCAACTTCTTTTTTTAATATTTCAATTGATTTAGTAATAGCCAAATTATCTTGATGTTCCAAAAAACCAGAAGGGATTTTAATATCATCGGGAGTTTTCCAAATAGGGTTACCCATTCTTACAGTAGGCCAATTATCTTTTTGTTCCCATTGCATTTCACATCCTAAAGCAGAGGATTCTTGGATTATCGAAAAATATGGAGCAATAGAATCAAAACCTAGTTCTGTATAACCTGTTACTGCTAATTTAGCATTTAATTCTGGATCTCTACATGCATCTGGAAAAGGTGCATCTACTAAATCCATTAATTCAACAGTAGCAACATTTGTTGGATTAGATACAGGAGTTCTATCTACTGGTTTTCCAGTTAAAGCATTAATTACTCTTTCTTTCTTTTTCATATCATTAAAAAATTATTTATGTTGATGAAAATCCCAATGTTTGAGTGGTCATTTGCCCAGCCATATCTTCTGCTGCAAGAGAATCTTCAGTTGCGCTAATATTTCTTGCTATAGGAAGTATTATTTTCATTATTGCATCGTTTCTTCTAAAACATTGTAGGGATACTTCAGTATGACTTACTTTTACACATCCTCCATATCTATTTAATCCATTCACAACAGCTCTATATCGAATTTCAGGTTTTTTAGCTTCTCCTTCTCCAGAAACAGTGTAAATAGTTTTGCCTTCAACTTCTTTTGGAGTTAGATATAATTGCATCTCAGATCTTAAATCTTTCACAGTAATTTTAGATTCTGAATCATAATTATCATTTTTCATTACAGCTCTTTTTAATAGAAATCTTAGTGGAGAAGTACAACAACCATTTTTCATTCCGCAATCATAAGTAGCTTGATTGTAAGAGCCCTCTAATGGTTTAGCTCCACCAAATAAGACAATCCTGTCTCTAATTTGAGTTAACCTTTCTTTTACACCATCTTTATTTCTGTAAGAATGAACAGTTAAAGTTGAGTCTTTTAAAAATAGCCCTACTGTAATTTCATGGAAAAAAGGATCCATAGAAATAAGCTCTAAGCATGTTCCGTATTTCTCTATAACTTCTTGAGGTTTCATAATTAATTCACTAAATATACTTTAATATAATAAATTATTTAATTATTTGAATCTATCATTTTTCTAAATTCTTTAATATGGAGTTTATTTGTCCCACAACATCCTCCGAGAATACTTACACCTAAATCTAACATTTTATTGTAATTTTTAACCATAAATTCAGGTTTTTCATTATATACAATTTTTCCTTTGATTATTTCAGGAATTCCTGCATTTGATTGAATCATAACAGGTTTTTCAGAATATTTTGTCAATTCTGAAGCAACTTCAAGCATAATATCAGATCCATTACCACAATTAGAAGCAACAACATCTGCTCCAGAATTAATCAAATCTTTTACAGCTTTTTCTGGCGTAATACCCATCATAGTAAATAAACCTCTAGGGCCTTTATCAAAAACCATACTTCCTATAACTGCTTTATCAGTAATCTGTTTGGCAGTTTTAATACCTAATGTGATTTCTTCTATTGCTGTCATAGTTTCAAAAATTATTCCATCAACCCCTCCTTCTAATAAAGCAGAAATTTGTTGGTGAAAGGCTTCACCCATTTCTTCTTCAGAAATATCTCCTAAAGGTTGTAAAAATTCACCTGTAGGGCCTATTGAACCAATAACAAACTGGTTATCTTTTGCTTCAGATTTTGCTAATTGTGCAGCTTTAATATTTAAAGTTTTGATCAGATCTTTATGTCCATATTTCTCTAACATAAAAGAATTGCCACCAAAAGAATTTGTTAAAACAAAGTCTGATCCATTTTCAAAATAATTTTTTGCCATACCTTTGATAACATCAGGGGCAGTATGACACATATATTCTGGACATCCACCTGGTTCAAGTCCTTTAGTTTGCAAATAACTCCCAGTAGCACCATCTCCAAGAAGAGTAATACCAGATTTTATTGAGTCTAAAAAATTCACTCTACTCATTTTTTATACCACAAATGATCAATAGACCCTGGAGTTTGATCTCTATTGTTTTCTTTTATCAAATCTCGAATTATTGAAACAAAGTTTACAGGCATACCTTCATTGATTTCTTTCAATTTAAGATTTACTAACGTGTCTAAATCACCTTCAAAAGTACCATGTTCTTTCCATTGAAATCCATCCAAATAAGCATCAGATCCATAACTTCCATCGTGCATAGCTATAGCATCTGCTGCTTCTTGAAATCTCGAATCTAATGTGAATGAACTTCTGTTAGATCCTTTAACACCTTCAACTTGAAGTGGAATTTCTTTCCAGTACATTATTCTGATATGGATTTTCATTTTTTAATCAAGATCTCCAGATCTGAAAGAATCTAAATAATTCATACAAAAATCATCATTACCTAAAAGCATTTCACTTGTAATCTTAAATGCATTAGAAGATAAATCTAATTCAAATACATTTCTAATATTTGTCTGAACTGGATCAATGATTCCACTATCTATTCCATTTTGAATACAAAGATAAATAAAAACATCATTTATTAATTTTCTTTTTGGTAAACCGAATGAAACATTACTTAAACCTCCTGAAATATGAATTTCACCCCCAAAGGATTGTCTTATTACCTTTACTGCATCAAGAAAATGAGGTCCATATGTAGGAGATACAGAAATAGGGAACACTAAAGGATCAACATGAACTTTTCCATAATTAATATTAAGTTCATCTACTTTTTTCATTAATTCATTTACATTCTCTACTCTTTGAACATCATCGTCAGGCATTCCATCTTTACTAGCAGCAGTAATTATCACATGTGTATCAAATTCGTTAACCAAATTTATTGTTTCAATTCTTTCCAATGCTACTGAATTGATCATAGGAGATCCTTGTTTTCCTGAATAAGCTTTTAAGCCTGCTTCAATAATTTGTGAATTTGAAGAATCAATACTAGGAGGAACAGTAGATAAATTCTCTACAACATCGACTAACCAATTCATTGAAAGTATTTGCTCATCTAAATTGTAGGAAACTTCATCAACATTTAAATCTAAAAAATTAGCACCAGCATTGATTTGTCTATCTACTTGATATTTTATATAACTGATTGCTTGTTCTTGTTCTTGAGATGAACCATGAACTCCTTTCCAGATAGCAACCATAAGATGTTTTACGGTTCCTTGTTGATATGGTTGAGTTTCATGAAAATGTTTAGGGATTTCTAAAAACATTTTTTCACCATTAGGATCAGAAAATAAAACAGATTTTACTCCTTTTTCATTTTCCCCAATTCTTTTCCCATTCAGTCTTAAAACTCTAGTAGCATGAATGTTTTCACCTACTATAATAAAATTATTATGACTATTTAAAGGAATTGACATCAAAAAACCTCTTTAATATTTGTATTTTTATACCACTTAAGAAATTCATTAATTCCACCGAAAGGATAAATATGTAATTTATCATATCCAATTAAAGAATTTAGAATATTATCTGGGTTGTGATTAATAATTTTTCTAATATCTAATCCTTGTTTCATAAAAACTGATGTAGTAGCAGATACTCCACAAATTTTTGCATATTTTAAAATGGTTGTTAATTTTGCAGGACCAGCAATACCTAAATGAATTTCAGATTTTACACCTATTTTTCCCAAATGACTTTTAGTTTTATTAATCCACGAATTTGTTATATCTGGAGACAAACACCATTGAGTAACAATATTAGATTGAATGTTATTTGTATTTAACCATTTAGATTTTTCAATCATATTTTCAAAATGATTTTTATCATCAGGATTTCCTTCAGGATGACCAGCTATATTTACAGTTTTTATTTTTGACTGTTGGATCAAACCAGTATTAAGTAAATCTATTGAACTAGAAAAACGACCTTTGGGGGTAGATATACTTCCTCCAATAATTAAAATTTTGATCACCCCAATTTTTATTAAACCATCTAAATAATTTATAAAAAACTCTTCGTCTGGAATAGTTCTTGCCGGACAATGTGGTATTGGTGTAAATCCATAATTCAGAATAGTTTCTGATGCATTAATGATATCTTGAGGAGAAGCTCCCGGAATATATGTAATGTATATATCATCAACTATATCTTTAGGAAGATCTTTTATTTTTTCTACTTGTTTTGGAATTATTTCCAAAGAAAATTTTGCTTTCATTAATCTTATCTATTTATAAAAATCAATATATTATAATAACCCTATTTTTTACGAATAAACAGTTTTATAATCATTGAATAAATATTTTAGTATAAAAGGAATCAATTAATGAATATAGGTTTTATAGGTTTAGGAAATATGGGAACGGGAATGGTAAGGAATATATTAAAAAATATGGGTCAAAATAATAATTTAAACGTGTATACAAGAACTAAATCAAAAATCGACTCTATGGTTGAAGAAGGAGCTACTGGTTGTTATTCACTTAAGGAACTAACTACAAATTCAGATATTATTCTAACTTGTTTACCAAATGTTGATACTAGTAGAGATCTTATATTAGGATCAGATGGAATTATAAATCATGCTAATTCTAATCAAATTATAGTAGATCATAGTACCGTGGACATGAAAACTTCTCAGGATTGTTCAAAGGTAGCATCTGAAAAAAATATTCCTTTTCTTGATGCTCCAATAAGTGGAGGTCCAACAGGGGCTGCTGAAGGTACATTAACAATAATGGTAGGAGGAGATAAATCTGCATTCGAAAAATCAACTTCAGTTTTCGAAATGATGGGTGCTAAAATATCTCATATGGGAATAAGTGGAGCTGGCACAGCCATGAAATTAGTCAATCAACTTCTAGTGAGTACTAATACAGTAGCAGCAGCAGAAGCCTTCGTACTTGCAGAACAAGCTGGAGTGAATTTAAATTCAGCTATAGATATATTAAGTACAAGTTGGGGCAAAAGCCAAATGATTGAAAGAAATGGTCCTATTACAGTTGAAAAAAATTTTGAAAATTCAGCTGCACCACTTAGAAACTTAATAAAAGATCTCAATATTATAGAAGATCTAAGACTACAGTTAGGACTTGAACTTCCAGTTACACAAGCAAGTTCTAAAGTAGCTAATGATACAAATAATATGGGTCTCACAGAGCCAGATATTGCTGCAACTGCTTTAACAATAAAAAAACTATCATCAATAGAGTAGCAATATGTCCAAAGAATATAATATTGCAGTTATAAAAGGTGATGGAATAGGAACTGAAGTTGTAGAAGAATCATTAAAATTTCTTAATCACATTGAGAAAAAAACCAATATAAAATTTAACTTTCAGGAATTCCCTTGGGGATCTGAATATTATTTTTCTAATGGTGTAATGATGGAAGAAAATGGGGAAAAAAAATTATCTTCATTTGATTCGATTTTTCTTGGTGCAGTAGGACATCCAGACATTCAAGACCATATTACATTAAATGGATTATTATTACCTATAAGAAGATACTATGATCAATATATATGTCATCGTCCTTCAGTTCTTTACAAGGGAGTTAAATCACCACTTTCTGATAAGAAACCTGGAAGTATAGATATTATTGTTGTAAGAGAAAATACAGAAGGGGAATATGCAAATATAGGTGGATTTCAATATAAAGATACAAGTGATGAAGTAGCTGTTCAAACTGCAGTATTTACAAGAAAAGGGTGTGAAAGAGTAATGGAATACTCTTTTGAACTATCATTAAAAAGAAATAAAAAAGTATGTTCAATTACTAAAAGTAACGCACAAGGTTATGGAATGACTTTGTGGGATCGTGTTTTTGAAGATGTATCTAAAAAATATCCAAATGTAGAGACTGAATCATTACTAATAGATGCAGCATGTATGGACTTCATAAGACAACCTGAAAAATTTGATGTAGTAGTTGCAAGTAACCTCTTTGGAGATATCTTAACAGATATAGCAGCTATGATTACAGGTAGTTTAGGATTAGCTTCAAGTGCGAACATAAATCCTGATAAAACAAAACCATCAATGTTTGAACCAACACATGGTAGTGCACCAGACATTGCAGGTAAAGGAATAGCAAACCCAATGGCTCAGATACTGACTTCAGGGTTAATGATGGATCATCTAGGAGAACCTGAACTTGCTAGAAAAATAGAAAACAGTGTGAAAGTTGTATTAGAAAAACAAGAAATAAGATCCCCAGACATAGGGGGAAACAATTCTACAACTGAAGTAGGAAATGCAATTGTTAATGAATTGAATTTATAATCATTTCAAAATCATAAATTGATAAATCCCTTTGAAAAAACACAACTAAATTCAACCGGAATATATTTACCTAGATTAGGTTTTGGAGGAGCTCCGATAAGTGGTATATCCATGAAATCATTTGGAGGAGTAGAAGAAAAAGAAGCTCTGAAAATCATCAACTTAGCTTATAACAAAGGAATAAGATATTTTGATACAGCTCCACTTTATGGAATAGGAAATGGAGAAAAAAGATATTCCAAAGTTTTAAGTAAAAAACCAAGAAATGATTTTGTGATATCTACAAAATGTGGAAGGGTAATAGATGTTGAAAAATATGAAAAACCAAAATTCTCATCTGAAGTTGAATATACAGAAAACAAAACCATAAAATTTGATTTTTCCAGTGATGGAATTAAAAGATCTCTGGAAGATTCACTAAAAAGATTAAATCTTGATTATATTGATATTTTATTACTACACGATTCAGATGTAGAAAATCTTGAAACTAAAGCCAAAAAAACTGCTCTACCAACAATGATGCAATTAAAAAATGAGGGAATAGTAAAAGCTATAGGATGTGGAATGAATGAATGGGAAATGCCTTCAAGGTTTATTGATGATTTTAATATAGACGTGGTTTTATTAGCTGGTAGATTCACATTATTGGATCACTCATCATTCGAAATATTTTTGCCTAAATGCATAGAAAATAAAGTAAAAGTAATTATAGGGGGGCCATATAATTCTGGAATATTAGCTGATGATAATTTAAATAAAAACAGTCTATTTAATTATGAAAATGTTCCTCAAAATATACTTAAAAAGGCTATGAAACTTAATAAAATATCTAAAAAATATAACATACCTCTAAAAGCAGCATCTCTTCAGTATGTTATGAATCACCCTGCGGTGATTTCTACAATTCCAGGATCACAAAGTATTTATGAATTAGAAAATAATATAGAAATTTGTAATATAAAGATTCCTGAAGAATTTTGGAAAGACTTAATTCAAAATTCTCTTATACCTAAAAATGCTTTTTATCCTAAATAATCAAAAAGATTAAAGTAAAACTTAAAATTAATAACAACAAAAATATTTCTAAACAACCATTAAAAATCTTAAAACCTTTTTTGGGAGATTTTCTTTTTACAGTACAATTAACACATGTACAATATGGTGGATGTCCACCTCTATATGATCTTTCATCCATTTTAATATCTAGTTTCTATATTTATATATCTAGTTTATACTTGTTCTTTATTTTTGTAGAAAATTTATATTAAAAATGATACAAATTATCGATTTTAATAAACAATAAAGTTAAAATCTTCATTAAATAAAAATTTAGGAGTTATAATGTTCAATCCGGAAGAAACTGAGAATAATTCAGAATCAACTAATTTAGCTCTATGTATATTTCCTCATCTAAAAGAATTTGCAGTGATAGATTTCACAGAATCTAATAATGGTGATCCCATTAAAATTTTTAATTCTAATAAAATTTTAGATGAAAAATTTTTCACACTAATTGAAAATGAATTTAAGAAAATGCTAAAAGATGATGATTTTCCTTTTTTAAATTTAATAGGATTACCCCAAAATATAGAAAATTTAATACGAACACAGACATTAGCATCTATTTTAGAAATTCTAAAATCATCCAATAATGAAATTAATGACATGAACAATATAGCCATTTTATTCTTTTCAGGAAAAATATTAGAAATTTCTAAAGATGAATTAGAAAAAATACTAAATAATTTATTCCATGAAGAAATAGAATTAAATAAAATTAAAGATTCAGTAGATAAAATTTTAGAACTAATGGCATCTGAAAAATCTGCTCAAAAATCTCTTATAAAAAATGACTTATATGGTATTATCACTGGAAATAATGAATCATATGCAACTTTATGGGAACGAAGTAATAATTAGTTGAAGAATTAACTATATTTACTGTTTAATAGATACATGACTATTAATAAATATCTTTCATCAGATGAAATAAGGGATTCTTTTCTTAATTATTTTGTTAAAAAAAAACATATCACTCATCCAAGTTCATCATTAATTCCTGCTAACGATCCTACGCTATTACTTACCAACTCAGGTATGGCTCAATTTAAATCATATTTTTCAGGTGAATCAAAACCACCAAAACCAAGAATTACAACATCACAAAAATGTTTTAGATCTACCGATATTGATGAAGTAGGTGATAACACTCACTTAACTTTGTTTGAAATGCTGGGAAATTTTTCATTTGGAGATTACTTCAAAGAAGAAGCATGTAAATGGGGTTTAGAATTACTAATAAATGAATTTGGATTAGAAGAAAATAGAATTTTTGCCACTGTACATTCAGATGATAGTGAAGCTAAAAAAATATGGTTAAATTTGGGAATGCCAGAACACAAGATATTTTCTTTTGATGATAATTGGTGGGGACCAGCAGGATTAGAAGGTCCATGTGGTCCATGTAGTGAATTACATTATTATACAGGTGATTTGCTACCAAATGATTATAAATCAGCATCTAAAAACAAATCATGGGGACCCAATGTATCAGATGAATTCTTAGAATTATATAACTTAGTTTTTACTCAGTTTTACCACCATTTAGATGGACGAAAAACTGAGTTACCCAAAAAAAATATAGATACTGGTATGGGACTAGAAAGATTAACTTCTGTTATTCAACAAGTTGATAGTTGTTATGATACTGATCTATTTACAGAAATTATAGAAAAAATTGAAAACTTATCAGGTATTCAATGGAAAAAGTCTAAATCTTCAGACAAAGCAATTATCATTATTGCAGAACATGTAAGATCAGCAACATTTTTAATTGGAGATGGTGTAATACCTGAAAATACTGGTAGAGGTTATATATTAAGAAGAATAATAAGAAGAGCTATGAGATATGGAATGACTCTAAAAATAAAAGCACCTTTTATGGGTCTTATTGCTGAAGAAGTTATTAGAAAAATGGGTCATCACTATTCTGAATTAATAGAAAATAAGCCTTTTATATTAAAAGTTTTAGAAGTAGAAGAAACTAAATTCTCTTCTACACTTCAACAAGGTAATACTCTATTAAAAACTTTAATAAAAGATAGAAATCTAATCCAAGAAAAATTTGATCAAATAAATAAAAATTTAATAAAAATAATATCCAAAGAAAACTTCAAAGATAAAGAATTATTTGATTTATTTGAAAAATCAAAAATAGGACCAGAATCACTAATATCGAATCTAATAAATAAAGCTATAGATTTAGAAAAACATATTGCTAAAGAAAAAAATGATCAATTAAAGCTATTAATAAAAAATATCACAAAATTAAATTGGAAAAACAATATATCTGGATTTGAAGTCGCTTATCTTTATGACACTCTTGGTTTTCCAGCAGAAGTTACTTCTGAGATTGCTGAAGAATCTAATCTTAAAATTGACTTAGATGAATTCAATAATATCATGGAAAAATTAAAACTTAGAGCAAAATCTTCTTCTCAATTCAAAGGAGATTTATCCCTACAGAGATTATTTGAAGAAATGGGAATTAGTGAAACTACTTTTCAAGGTCATAACAACTTAAAAACTGATTCTTTAGTCATAGGTATTTTAAAAAATGATAAACCTACTAAAAAAGCTAATTCAGGAGATGAAATTAAAATAATATTAAACCAAACACCATTTTATCCAGAAGGTGGTGGACAAGTATGAGATTCAGGAAAAATATTACAAGAAAAATCTACAAAAATAACCATTTCTGATACTCAAAGTCCAGTATCTGGAATAATAGTTCATGATGGGAAAATAATAGAAGGCTCTCTAAAAATAGGTGATAATGTAAATGCTGAAGTAGATATTTTATCAAGAGAAAAATCTAAAAGAAATCATACAGGAACACATATTCTTCATGCTGCTTTAAGACAGGTACTTGGAAAACATGTTAGGCAACAAGGATCTCTAGTTGCTCCAGAAAGACTAAGATTTGATTTTACCCATGTTAAAAAATTAACTGAAAATGAAATTAATGAGGTTCAAAATCTAGTTAATGAGAAAATACGTCTTAATTTGCCAGTACATAAACATATTACAAGCTACAACGAAGCTATAGAATCTGGAGCATTAGCTTTTTTCGGAGATAAATATGATCATGAAGTAAGAACTGTTGAGATATCAAATGGTTCTAAGTTCAGCTATGAACTATGTGGAGGAACTCACTGTAATTATACTGGAGATATTGGATCATTTTACATTATTTCTGAATCAAGTATCGCTTCAGGTGTAAGAAGAATAGAAGCAGTAACTGGAGTAAATGCAGAAAAATTAGCAACTAACCATTTATCTATATTAAATAGTTTATCATCATCTCTTAATGTGCCCATATCTGAAATAAAAAATAAAATTAATGATATTACTAATGAAATAGAAAAATTAAATAAAAACTATAACAAATTAGAAAATAAAATTCATTCAGAAAATATACTAGATATTGAAAAAACCTCAATAAAAATAGGTAATTCAACACTAGTTTCAAGTGTGTTAGATGTACCAAATCAAGAATTATTAAGACAAACAGGAGATCAAATAAAAAATAATATTAAAAGTGGAGCAATATGTTTAGGTTCTAATATTGAAGGAAAAGCAACACTTATTATTATGGTTACTAAAGATCTTACCAATAAAATAAATGCTAAAGAGTTAATACAAAGTATCTCACCAATTATTAATGGAGGTGGTGGTGGTCGGGAAGAATTAGCTCAAGCTGGAGGTAAAAATCCTGAAAAATTAACAGAAGCTATTAAAACTTTTGAGAAAATCGTAAAAAACATTCTTTCAACAAACTAAATGACTATTTTAGCAATAGATTATGGAGAAAAAAGAATTGGGATTTCTATTAGTGATCCAGGAAAAATTATTAGCTTACCCCAAGAACCTATTATGTCAAAAGGGATTAAAAATGATTCTCTAACCATTTCAAAATTAATAGAAAATAATAATATTGAATTAGTAGTTTTAGGTTTACCATTGACATTAAATGGTGATTTCGGTTTTCAGGCAAAATTCACATCAAATTTTGAAAAAGAATTAAAAAAGCAAACTTCAACACCTATAATAAAATTCGATGAAAGATTCACCACTAAACAAGCTAAAGATATATCTAAAAATTCTAAAAAAGCTAATTCAAAAATTGATTCTATCGCAGCTTCAATTATGCTCCAAACATATTTGGATTCTCGTAGAGATGAGAAGCTAATATGATTATAAAATTAGGTGTAATAGGGTATCCATTAGGTCACACATTATCTCCTGTATTTCAACAGGCAGCACTCGATCATCTTAAAATAAATGGTCAATTTAAAGCTATACCTATTACTCCAGAACAATTACCAAAATTTATTAGAACTATGGATAAAAACAATATTAAAGCTGTATGTGTAACTATTCCTCATAAAGAATCAGTATTAGATTTAATAGATGAAATTGATCCAGAAGCTTTAAAAATTGGTGCAGTTAATTGGATTGTAAATAATGAAGGTAATTTAAAAGGATTTAATACAGACTATAAAGGTTTCTTAAAATCATTAGAATTTGAAACAGGGTTTTCACCATATAAAAAAACTGCAACGATTTTTGGTAGTGGAGGTTCTTGTAAAGCTGTTTCTCACGCATTGAATTTAGCTGGATTATCAAAACTTTTTATCATCAACAGAACCAAAAAAAAGGCTGAAAATATAGCTAATGATTTAAAATCAGAAAATTTGGATATTATCCCATTAGATTTTAAAGATTCTATAATTAATAATGTTTTACTAGAATCAGAATTAATCATTAATTCTACTTCTTTAGGAATGTCAGGTGGACCTGAACCTAATAATGATTTAATAAATAATTATGATATTAATCCAGGTACTATAGGATATGATTTAGTTTATTCTCCTAAAGAAACTCCTTTTTTAAAGAAAATTATTGAAAAGAAAGGAATTCCCGCTTCAGGATTGTCAATGTTGGTATTTCAAGGAATTGAAGGATTTAAATTGTCCACAGGACAAGATGCGCCTGAAAAATTAATGTTAGATATCACAAATTCCATTTCATTGTAAAATTTTTGTATTGATAAAAAATGGTTAAACTATAATCATATATATAATAATATTATGAATTAATATCTCTTTAAGGAGTAGGGTATGTTTCGTTTTATTACCGCAGGAGAATCTCACGGGCCATCATTGTCCGTTATATTAGAAGGTTTACCAGCAGGTTTAAAAATTAACGAAGATAACATCAAAGTTGATTTACAAAGAAGGCAAAAAGGGTTTGGAAGAGGAGGAAGGATGAAGATAGAAAAAGATCATGCTGTTATTAAATCCGGTGTTAGACACGGGATAAGTATGGGATCACCAATAAGTCTATGGATAGAAAATAAAGATTTCGAAAATTGGACTGAAGCAATGTCACCTTATCCAGTAAATGAATCGGTAGACAAAAAAGAGTTCACTAAAATCGTACCTGGTCATGCAGATTTCGCAGGTGCTTTGAAATATAAACAACATGACTTAAGAAATGTTTTAGAAAGAGCTAGTGCCCGAGAGACTACTGCTAGAGTTGCTGCGGGAGCACTTTGTAAATCAATGTTGAAAGAACTAGGAATAATCATAAGAAGTAGGGTTATATCTATTGGAGACTCAGTTCCTTCGAATACATTAGATTCTAAAGAAATAGAATCAATTAACTGGGAAACAATTGAAAAATCGGAAGTTAGAACAGATTCAAAAGATCTTGAAAAAAAATTTATAGATTCAATACTTAAAGCAAAAAAAGATAGGACTACTGTTGGAGGAATATTTCAGGTTATTGCTTTCAATATGCCTGTAGGCCTTGGAAGTTTCTCTCAGTGGGACAGAAAACTGGATGGAAAAATTGCACAGGCAATGATGAGTATTAATGCTGTAAAAGGTGTAGAAATAGGTTCTGGGTTTCTAAATACAAGAAAACCTGGACGTAATGTTCATGACGTAATTATTCCGGACAAATCAGATATAAGAAATTTCAATCACGTATCTAATCATGCTGGAGGACTTGAAGGAGGAGTAAGTAATGGAGAGCCAATTATTGTCAATGTAGCAATTAAACCTATAGCAACTATGACGAACCCACTACCATCTGTGGATATTAATTCAGGTGAAATAGTAGAAGCTCAATATAATAGAAGTGATATATGTCAAGTTCCACCAGCATGCGTTATAGGAGAGGCAATGTTAGCTCTATCTTTATCTGAGGTGGTAATAGAAAAATTTGGTGGTGATCACATAGATGAGATGCTCGCAAATTTTTCAAATTATCAAAAATCTCATAAAGAATTTGGAATTTAATCAGATGAAAGATAATCATGAATTTGATTACAACTTATATCTAATAGGATTATCAGGGACAGGAAAAAGCACTTGTGGAAAAATGTTATCTCAAAAGCTAAATCTGATTTTTATTGATTTAGACAAAGAAATAACAAAAAAAGAAAAAACTCCAATATCTGAAATATTTTTAAAAAAAGGAGAAAAATATTTCAGAAAAACCGAGACATCTTTACTGGAAAAATTTTCTAAAAAAAAGAACCATATTATATCTACTGGGGGAGGAATAGTAGAGAATAATTATAATATGGAAGTAATGAAAAATAGTGGAAAAGTTATTTGGTTGACTGCTTCTCCAATCAATATAACCAAAAGGTTAAATTCAAAGTATGCTGAATATAGACCATTACTTGGTAATTCTCCAAATGTTAAAATAATTTCACAAATGCTAGAGAAAAGGAAACTTGTATACAATCAAGCAGAATTTAAAATCAACACAAATAATAACTCACCATCAGAAGTGGTAAAAAAACTATCAAAATTATTACTAAAAAATGAATGATAACAACGATAATTTAGCAACTATAGTAAAAACTTCTCAAAGAAATTATAAAGTTTTAGTTGGATATAAAAGTATTGAAGCATTAGGAAATGAATTAGAATCTCTTAATGTAAATGGGAAAATCTTTTTAATATCTGATAATTCAATCTTCCCAGAATTTATACTCAAAATTCATCATATTTTAGAAAAATCCAAATATAAAACTAATATATTCACACTAGACTTTAATGAAAAAACAAAAAATCACTCCACATTAAATGAATTATACAGATGGTATGGAGAACAAAAAATAGAAAGAAATGACACAATTATTGCAGTAGGAGGCGGAGTTACAGGTGATATAGTAGGTTTTTCTGCATCAACTTGGCTCAGAGGAGTTAATGTAGTCCATATTCCTACTACTCTAGCAGCAATGGTAGATGCATCTATAGGTGGTAAAACAGGAATCAATCTAAATATTGGTAAAAATTTAGTTGGAGCTTTTCATCAACCAATTTTAGTATTATCTGATACTGAATCTTTAAAAAGTTTACCTAAAAGAGAATTAGCATCAGGTTGGGCAGAAGCTATAAAACATTCATTATTATATGATGAGAAACTTTTAAATATTTTCATAAACAAATCATCAGATATTAAAGAACTCAAACATCCTATATCTACAAAAGTAATAAGAGAAAGTGTAAAAATTAAAAGTGAAATAATATCTCAAGATGAATTTGAAAAAGGGGATAAAAGAATTTTTCTAAACTATGGTCACACAGTAGGACATGCTATAGAGTCAATATCAAAATACTCAAAATTCTTGCATGGGGAAGCTGTAAGTATTGGAATGTGTGTTGCTGCAAAAATTTCTGAAATGAGTGGATTTTCTAATCCGAATTTAACTAAACTTCATCAAGAAATTATGGAATTGTATAATCTTCCTATTACTATTTCAGATATAAAAGAAGAAGAAATAATTAAATCTATAAAAATAGATAAGAAAGTAAAAGATGGAAAGGTAAGATGGATACTTCTGAAAAAGATATCTGACCCTTTCATTAATAATCAAATAGATGATGAAGTATTAATTAAAGCGTTAAAATCTTCTAGATAATTCCTCCAGCAACTGCTGGGACAATACTTATTTCATCTGCAGAATTAACTTCAGTTTCAACTCCATCTAAATATCTAGCATCTTCGCCATTAATAAATATATTCACAAATTGCTTCAATTCCCCAGAAGTATTAAAAATTTTTTCTTTAAAACCAGGAAATTGAGTATCTACATAATTTAAAATAGATCTTACATTATGATCATCAAATTGAGATAGATTAATTTCTATCTTATTTTTTTGACCAGTAATACTCCTAAGAGGAGCTGGTATTCTTACGTAAACGATTTCTTCATTTACCATTATCTGATTTTCCTTTTATACTTTATAAAGATTAATCGATTATACGGTTTTATTATATGAATCTATAAATTGCAATATATTAAAATGTTTTTTAATAAAAATATAAATGATTGTAAATTATTAGTATTTGATCTTGATGGAACAATATTAGATAAAAAATCAAATATCTCTAATAAAATGATCCAATTGTGCTCCAAACTAAAAAAACAAAATATTTTGTTTACTATAGCTACAGGAAGATCAGCAAAACCAGCATTAAATTATGCAAATATTCTAGGAGTAAAGATTCCCATAATTTGTCTAGGAGGATCATTAGTAATAGATCCAATAAATAATAAAATTATTCGGGAAACAAAAATTGATAAAAATATTTCAAAAGAGTTAATAAATATTTTAGATGAAGAAAAATATGAATCTGCCTTATATTATGGAAGAAATATATACATCAAAGAAATTAGTGAATGGTCAAAAGGTTATATTGAAAGACAAAGTATCCCATATTTCATTGATAAAAATTTTTCTAAAATATTAAATAAAAAACCTACAATGATTTTAACTGTAGGAAAACCTGATGAAATGGATGTATTAGAGAAAAAACTACGTGAATTAGTTGAAAATTCATTATGTGTAGTTCGTTCTATGCCTCATTTTTGTGAATTATCTAATTTAAAAGGAAATAAGTTTTTTGCATTAAAATTTTTACTAGAAAAATTGAGTTTAAATTTTTCTAATGTAATTACTTTTGGAAATGGTGAAGCAGACATAGAAATAATTAAAAAATCCCAAATTGGTATATCTATTAACAATAGCCCTGAAAAATTATTAGAAAACTCTAATTTTTTAATAGCTCCGCCTGAAGAACAAGGCGTAGAGAATTTCATAGAAGAATTTATTTTAAAATAAATATTATGTTTAAAAAGAACAAAATAATTGTACTAGGATCAATAAATACTGACATAAGTATTAAAGGAAAAAGATTACCTAAACCTGGAGAAACTATTTATGCAGAAAAAATTTCTTATACTGGAGGTGGTAAAGGGGCCAATCAAGCAATAGCTGCTTCAAGATTAATAAATAATGATTCAAAAGTAGATATGATAGGCTCAATAGGAGATGATATTTTTTCTAAAAAAAATTTAGAAAAATTAAGAACAGAAGGAATAAATACAGAGGGAATAAGATCTATACCAAATACTTCTACAGGCACAGCAGTTATATTTTTGGATCAAAAATCTGAAAATTATATACTCATCGTAGAAGGAGCAAACTATAAATGCAATAAGAATGAACTCAATTATCTAAAGAGAATTATAAATAATAATTCAATTCTACTTCTTCAACATGAAATACCTATAAATATAGTTCATCAATCTATGGAAATAGGGAAAAAACAAAAAGCTCTTATTATTTTAGACCCAGCTCCATATATGAAAATTGATATAAAAAATTATTATCAGAATGTTGACATACTAACTCCCAATAAGATAGAAGCTGAGAATATATCTAATATAAAAATTGATTCATTGGAAGATGCTTACAAAGCAGGAGAGATAATTCGTTCTTTGGGACCATTATTTGTAATAATAACATTGGGAAAAAAAGGATGTGTATTCATCAGTGATCAAGAAAAAATTCATATAGATACACCAAAAGTTAATTTAGAAAATTCAGTTGGAGCAGGAGATTGTTTTAATGGAGCTCTAGCTGTTGGAATAAAAAATGGACTATCAATAATCGAATCAATTAAATTTGCAAATAAATCGGCATCCATTAGTGTTTCTAAAGAAGGAGTACAAGAGTCAATGCCATATTTTAAAGAAATAATAAATTAATATTTAGAAGGAAAAGGTGATTCACTACAAAATAATTCTTTCACAGAAGATATTTTATTAGATAGAAATATATTTTTTAATTCTTTATTAATCTTATAAGCAATAAATGGTCCTTCATAAACTACTCCAGAATAAATTTGAACAGCATTAGCCCCTGAAGCAATTAATTTCCATACATCACTTGTAGTACTCACGCCACCTGATCCTATGATAGTAAAGTTATTATCGACGATTTTTCTAATTTTACTTACCATTTTCAGAGTATGTTCATATACTGGCTTTCCACTCAAACCTCCAAATCCAATATTAAGTTTAGAATCTTTAATTGGATGAGAATTGGAAATCACTACACCTTCAGATCCTGAATCTTGAACACATTTTACCATTTCAATTAAATCGTTTTCTTGTTCAAGAGATGGAGGCAACTTAACTATTAGAGGTTTAGTTTTTTTATTGTTAAAAATTTTTAATAATTTTTGTAAATTCTTTAAATTATGAAAATTTTTTAATCCTTGGGTATTAGGGCTACTAATATTTAACTCTATACCTACTACTAGAGGTGATAATTCATTAAAACATCTATAAATATCATCAATATTCAATCCAGAAATAGATGCAAAAATTCTATTTTTCTCAATCTCTAAATTTGAAAATTTATTCTTAATTGTATTTAAGCCTTCACTTGGAAACCCTAGAGAATTTACTATAGATTTATTATTTAAATATCTAAGTAATCTAGGTTTAGGATTACCAAAATTTTGATTAGTCAAAATAGTTCCTGTTACAGCAAAACCAAATCCAAAATTTAAATAATTAATTGAAGTCTTATAATTTTTATCTAATCCCGCTGCTAAACCTATAGGGTTTGGAAATTCAATTTTCCCAATATAAGATAATAAAGATTCATCTTTAATCTGAAGAAATTTTAAAAAATGATTAAATGGTGAAGTAAGCTTCAATGAAGTTTCCGCCAAGTTATGAGATATCTCAGGATCAAGTTTGAAAATTAAGGGTCTTATTATTGACTTATAAATGATAATATCTCCAAATCGTCAAATTTTATAAAAAATTAATGAATCATATTAATCATATAAAATGTTATTTAACTTTAATAGGAATAAATTGAAAAATCCTTATTCAAATGATAATCCTACTAGTGAATCTGATATCAAAAAAGTACCTTACCTTGCTTCATTATCAATAAGTAGTTTTAGATGGTTATGGTTTGGAACAATATTGCAAATGGGTGCTGTTCAAATGGGAATGACAGCAAGAACAATGGTAGTTGATGACATTACTAATAGTGCTTTCTTATCAGGAGTTGTGGCAATGGGATTTGCTCCTTCTCTTTTAGTTTTTGCAATTATAGGGGGATGGGTATGGGATAAGTTTGATAATAGATCTATAATTCAATTTTGTTTGATATGTTTTACTTTAGTTTCTGCTAGTATCGGTTTATTAATTGCTTTTGAAGTAATTCATTGGATTCACTTATTTATTGCCTCATTGTTTCAAGGAGCATTATTCTCACTTCAAATGCCCTCTAGGCAATCTTTAATACCCAAACTAGTACCCAAAAGTTTAATAGGAAATGGAGTTGCATTAATAGCGGCATCAATGGCTACTATTTCTATTTTTTCAGGGGCTGCTATAGGTTTACTTTATGGATCATTAGGCCCAAGCTATGTATTTTTAATAATATCTATTCTTTATGTAATTTCTTTTATTCTCACATCTCAAATTCCATCAACGAAACAAATAAAAGAAAATCAAAATAATCAAGGTCTATTAGGTTCTACTAAAGAATCTATTACTTATCTATTCTACAATAAAATGATTTTAGGAATTTTTCTTTCAAGCATTTTAGTATCATTATTTGCACTCCCTGTGAGATTACAACTTCCTATCATAGCAAGAAGATTATATGAAGCTTCATCAAATGAGATAGGTTTACTTTTATCTATAAGTTCTATAGGCGCAGTATTAGCATCATTATTTATAGCAAGCTTAAGTAAAAGTAAATTAAGAGGTTTCATTTTTCTTTTGGGGATTTTCGGATTAAGTGCATGCGTTTTCTTATTAGGATTTTTTCCATATTTTATAGCAGGTATAATTATATGGATCTTATTTGGTATATTTGAGAATATCAGAATGACTTTATCCCAATCTTTAACCCTTGAATATGTAGATGAAAATTTTAGATCTAGAATTATGGGGCTTTATATGATGAATTACGCATTTATTCCATTGGGAGCATTACCAATAGGAAAATCAATTGATGTCTTTGGAGCAGAAAAAAGTCTCCTAATTTTTTCTTTAATATTCTTTATTTCAAGTGTTTTAGTTTTAATATCTTCAAAAGAGCTTAGAAAAATAAGATAATGAATTTATGGTTAAAAATAATCGAAACTCTAAAAATCTTCAAAACACAAGAGTAAAACTTCTTGGTGAAAATACTGCTTCAAAAATAGCTGCAGGCGAAGTTATAGAAAGCCCTTTATCAATTGTAAAAGAATTAATTGAAAATTCCCTAGATGCTAACTCTTCAATCATCAACATATCTATCGAGAATGGTGGTATTAACAAAATTTCAGTTATAGATGATGGCGATGGAATTCACCCTAATGATCTAGAATTGATTTTTCAAAGGTTTGCGACTAGTAAAATAAATTCAATAAATGATTTATTTCAGTTAACAACATTAGGTTTTAGGGGAGAAGCTCTTCCTAGTATTTCTGCAGTATCTAAAATAAATCTAATTTCTAAAAAAATAGACTCTTCTGGATTTGAAATAGAATTTTTCAATGGAAAAAAAATAAAACATAAAGTATCTGCAATATCTAAAGGTACTAACATTAACGTAACAAACTTATTTGAAAATATTCCAGCTAGATTAAAATTCTTAGGAACATCAACTCAAGAATCTAGTAAAATTAAAACGTTAATCTCTGATTATTCAATTATTTATCCAAATGTTAAATTCGTTCTTATTTCTGATAGCGTAACAAAAATATCAACACCAGGTACAGGCGATATACTAGAAGCTTATTCTTCAATTCATGGAAATGAAATCACTGAATCAATGTTAAAATTGGAACTAGATAAAATGATCTCAGGAGTTACCAGTAATACTTCTATAGCAAGAGGAAATAGATCAAATATTAAGTTTTCTGTTAACCAGAGAATTATAAAAAATTCATCCTTGGTTTATGCTGTAGAAACTGCTTATAGTGGACTAATTGAGCCTAGAAGATTTCCATTTACATTCATTAATATAAAAATAGACCCTAAATTAATTGATGTAAATGTACATCCAGCAAAAACAGAAATAAAGTTCAGAGATGAACGTGAAATATTTAGGACAATATTAGATGTTGTAAGAACTACAATTACACATCAATCATCTATACCTGAAATAAATTATAAAAAAAATAATTCCTATCCTGAAAACTTTAACAAAATTAATTCTAATTTGTATGATTCAAATATAAAAACCCCAAAATCTTTTTTTGATAAAAATGATGATTTCAAAAATAACAAAGAATTAAATAATAATTTCAACTTAACTGAAGAAAAGATATCTTTAGAAGAATCTAAAGTAATTGGAGTTCTTGATAATACTTTCATCATATGCACTCACAAATCAGGGATATTAATAATTGATCAACATGGAGCTCATGAGAGAATAAATTTTGAATCTATTTTAGAAGATTTGAAGAAGAAAAAAAACATTGGGCAAAGTCTTCTGGAACCTATAATAATTGATATAAATGAATCAAAATTCACAAAATTAATATCACACAGATTAACATTTAAAAAGTTTGGATTAGATTTTGAAGAATTAGATGATACTTCAATAATAATCAGATCTATTCCTTCTATAATTTCAACATCTAAGGACATATACGGTAAACTTATAGAAATTATAGAAGATATAGATTCAAAAAAAATCACTGATTGGCAATATTGGATTTCAGCAGAAATAGCTTGTAAAGCATCAGTAAAAGCAAGAACTAAATTAACTATTAATGAATGCGAAGAATTAATAAAAAACCTTAGTAATTGTAAAGAAATTCATGATCCACATGGAAGACCAGTTATCATGAGATTACCTATAAATACTATAAAAAATCAGTTTCACAGAAGTTGATATCTTCAAATTCCATTAATAAGTTAAAATTATCTTTAATGGGAATAAAAAACAAAATTATTTATAAGATCAAAACTTACAGTGATTTAGTAAAATTTGAACATTCAATTTTTGCATTACCTTTTGGAATAGCTGCTTTTTTTCTAGTGGTAAAAAATACAGAAATTTCATATATAAATCTGATAAATATTATCATCTCAATGATTTCCATCAGAGTTTTTGCTATGACAATCAATAGAATTATTGATAAACAAATAGATCTTCAAAACCCTAGAACAAAAAATAGAGAAATTCCTTTAGGTATTGTAAGTATAAAAGAAGCTATATTAATTTCAATAATTAGTCTTATTGTGTTTTTAGGGACACTTTTTACATTTCATCCAATTTGTTGGGCACTTTCTCCAATTGTAATTTTAGTAATGATTATTTATCCATATACAAAAAGATTTACCTGGTTATGCCACTTTTTTCTGGGTTTAATTTACTTAATTGTTCCACCTGCAGTAAGTATTGCTTTAACTGGTACTTTCTCTATTGAAATGGTCTTATTAGGATTAGGAGGATTATTCTGGGTTACTGGATTTGATATCTTATATGGTATATTAGATTTTCAGTATGATAAAACTAACAATCTTAAATCAATTCCAGTAAAATTTGGTTTAAAAAATAGTATCTTAATCTCTCGATTATTACATTTAATAACATTAATATTTTTGTTACTTATGGGAATAAATCTAGAGTTACAATTAATTTATTGGATAGGTTTTAGTATTATATCGATATTATTTATATGGGAACATAGTCTAGTGAAAGTAAATGATATTTCTAAATTAAATATATCTTTCTTCACTATGAATGGATTAATTTCCATAGTATTTAGTATTTTTACAATATCTGAAACATTAGTTATATGAGAAAAATGAGAAAATTTATAGTAGCAATATCAGGTGGAAGCGGAGCATTATATTCATTAAAAGTTTGTGAATCCATACTTGCTAATGGAGATGAACTGTTTTTAGTGACTTCAGAACCAGGAAGAAGAGTTTTATCACTTGAAACTTCGATTAATCTTTCTGGAAAAACTGAAAAAGATTTAAAAATTTTATTGGAAAAATTCGGAGCCAATTATAAAAATCAAATTCATATACATCATGAAAATGATGTAGGGGCTTCTATAGCTAGTGGTTCATTCAAAACTGATGGAATGGTAATTATTCCATGTTCAACTGGCACTCTAGGAAGTATTGCAAATGGAATATCCAGAGGTTTAATTGAAAGAGCAGCAGATGTTGTTCTAAAAGAGAGAAGAAAATTAATCATAGTACCCAGAGAAACTCCTTTAAGCTTAATTCATTTAAAAAACATGGTTAAATTAACTGAAGCAGGAGGAATTGTTATGCCAGCTTCTCCAGGTTTTTATCACATCCCTAAATCTGTAGATGATCTTGTTGACATGGTTGCATCTAGAGTTTTACAACATTTAGAAATCGAATCATCAATAATAAAACAATGGAAAGGATAAAACTTAAGAATGACCCCCAATAATTTTCAATCTTTTATACATCTACTAGAAAAAGAGGGAGAATTACATAGAATAAGAACAGAAGTAGACCCTTATCTAGAAATAACTGAAATCTCAATTAAAGCTCAATTAGAAGATAAACCTGCTATATTATTCGAAAATGTAAAAGGATCAAAATTTCCTTTGGCAATAAATACAATGGCTTCAGCTAAAAGAATTGAACTTGCTTTGGGTGAAGATCCTTCTAAAACAGGGGAAAACCTTGTCAATTTTGTTGATTCTTTAAATCCACCCAACATAAAATCATTATGGTCTAATAAAAAATGGATTCCTAACCTATTATCTACTTTTCCTAAAACTAAAAGAAAATCTGAAGTTTCTGAAAATTTTTTATCAAATCCTAATCTTTCAGATCTACCTTTACTTCATTGTTGGCCTGAAGATGGGGGCAAATTTATTACTCTTCCTTTAGTGGTAACCCAACACCCTGAAAATGGTTCTTATAATATTGGAATGTATCGTATGCATATGTATGACTCTAAATCTACTGGTATGCATATGCAAATTGAAAAAGGTGGAGGATTTCATCACTATCAAGCTGAACAAATGGGACAACCATTAGAATTAGCAGTTGCTATTGGAGGAGATCCTGCTCTAATTTTAAGTGCAATCATGCCCCTTCCAGAAGGTATAGGAGAAATGCAATTTTGCGGTATGTTAAGAAAAAGTAGAACTAAATTAATAAAATGCAAAACTATAGATTTAAAAGCTCCAGCTGAATCTGAATTTATATTGGAAGGATATTTAAACCCAAATGAAAGAAAACTTGAAGGACCTTTTGGAGATCATTTTGGTCATTATTCAGAAGCTGCAGAATTTCCTGTATTCCATATAAATGCAATCCAACACAAAAATAATCCGATTTATCCAGCTACAGTAGTAGGAAAACCTCCTCAAGAAGATAAATTTATGGGAGATTGTACACAAAGTATTTTAGGACCACTTATAAAACTTATTCATCCAGAAATTAAATCAACATGGGCATATTTTGAAGCTGGGTTTCATAATTTACTAGTAGTTTCAACAGAAAATAGATATACCAGAGAACCTTTTAAAACTGCTTTGGGTATTCTAGGACAAGGGCAATTATCACTAACTAAAACGATCATTCTAGTAAATTCTAATGTTGATGTAAAAAACAAGTCTCAGATTCTACAAGAAATTAGAAAAAACTTTAATCCTCAATCAGATTTTCTTCTTCTAAGTAAAACTCCTTTAGATACCCTTGATTTTACAGGAGAATCAATGCATAAAGGTAGTAAAATGATCATTGATGCAACTGGTTATAATACAAATACTGTAAATCCAGTCCCAATTCCTAAAGATATTCGCACTTTTTCCAATCAAATAATTGATTGGAGATTTATTGGAAATACTCTTCTAGCAATTTCTGTAAAAGAAATTGGGAGAAATGTTATAAATAATCTACTATCAAATAAGTTACTAGAAAATGTAAAAATAATTGCATGCGTTTCAGAAGATGTAAACATTCACAACGATGTTGAGCTTCTATGGGGAATTTTTACTAGATTTGATCCTGCTTCTGATGTAACTTTCAGGGAAGCTACTATAAAAGGAATAAATCCTTCATACGAAGGGACTATGTTTATAGATGCTACATGGAAAAAAGGTTATCAAAAACCTTTAGTAATGGATCAAGAAATAATTAATAAAGTAGAATCAAAATGGGAAACTTATTGGAAATGATAGATTTATCTACTAGTGATACTAAATTAAATGAAATTTCAGAAAAAATAATTAATAATGAGCGCCTTACTTTTGATGACGGAGTTTATTTATTTGAATCTAATGACTTCTATTCACTAGGAAAAATGGCAAATTATGCTAAAAATAAGATTTCTGGAAACAAAGTTTACTTTGTTTTAAATAGACATATTAATCCCACAAACATATGTGTTTTAAGTTGTAATTTTTGCGATTTTGCTAAGAAAACTGGTGATCCAGATGCTTATGAGATGACACCTGAGGAAATACTTGGAAAAATAGATAAAGATATTTCTGAAATTCATATAGTCGGAGGGCATCATCCTACATGGAAATTTGAATATTATGAAAATATTGTTAAAGAAATCCATCAAAAATTTCCTCATATCCAAATTAAAGGTTTCACTGCAGCAGAAATTGACTACTTTTGGAGAAGATGGAAAATAGATCCAGAAGAATCATTAGCAAGACTAAAAGAAGCTGGTTTAGCATCAATGCCAGGGGGAGGCGCAGAAGTATTTTCTCCAAGAATTCATAAAATGTTATTACCAGGTAAATCTAACAGTTCTAGATGGTTAGAAATCCACAAAACTGCCCACACTATGGGAATAAAATCTAATTGTACTATTCTTTACGGACACCTAGAAACATATGAAGAAAGAATAGACCATCTTATACAACTAAGAGATCTACAAGACGAGACTGATGGATTCCTTGCATTCATTCCTCTCCAATATCAAATAGGGGATACCCATTTACGTAAAAATAAAATTTCTCCTATTGAAGATTTAAAAATGATATCAGTTTCTAGATTGATGTTAGACAATATTCCTCATATAAAATCATATTGGGTTACGATTGGAGAATCCACTGCATCAGTAGGATTAAATTTCGGTGCGGATGATTTAGACGGAACTATAGGTGAAGAGAAAATAATGCATGCTGCAAGTGCATCATCTCCTGCTGGTCTAGCAAGAACAAAAATGATTTCACTAATAAGTGAAGCAGGTAAAATACCTGTTGAAAGAGATGCCCTCTATAATGAGGTCAAAACATATGCATACTAAAATTGGCAGAATGCCATATTTAAATTCAGAAATTTTCTACCTGAATATTGATAATAATTATTTTGATTTAATTTTCCATACTCCTAAAGAAATGGGGAAAGAAATTAATGAAGATAAAATTCATGCAGGACCATTATCATTAGTTGATTCAATAAATTGTAAAAAATCTATTGATTTTCTACCTTTTATAGTTTCAACTGAGAAAAAATCTAATAGTGTTTTACTATTTTCTAAAGTTCCATATCAGAAACTGGATAGAAAAAAGATTTCAATTACTGATGATACTTCAACTTCAGTAAAGTTACTTGAAATAATATTAAATAAATTTTGGAAAATTAAAGAGATTAATTTTGCTAATGAAGATGAAAGAACATCAAATGCAGAATTGTTGATCGGAGATAAAGCTTTAAAACAATTATATATTAATAATTCATGGCCTTTCGTTTACGACCTTGGACAAATTTGGCATGAAATGACTAATTTACAATTTGTGTTTGCTAGATGGGCTATACTAAGTTCTGTAAATAAAAATATTAAAAATACTCTAAAAGAAAATATATTCAAAAGTTTATCTGAAAAATTAATATCTATAGAAAAAATTGCAAATAATAATAAAAGAAATTTTATGCCAATTAAAGATATAAAAAAATACGTTTCAAGTTTTACCTATGAATATAAAAGCAAACATAATGATTCAATTATAGAATTTCAAAAACTTCTTTCATCAAATCAACTAAAAATCAATTATTAAATTATGTTAAATAATATTAGAGAAAAAGTTCTTAACAACGATAGAATCACATTTGATGAAGGCCTATATCTACTTGAAAAAGTAAGTATCTATGATTTAGGTAAATTAGCTAACAATATTAGAACAAAAATCAACCCATCTAATACTGTTACTTTTGTAATAGACACTAACTTAAATTACACAAATATTTGTGATGCCTTTTGTAGTTTTTGTTCATTTTATAGGACTGACCCTAAAGATCCTTCAGCATATACATTCTCAGTAGAAGAAATGATGAAAAAAATAGAAAAAGCAAGAGATAAAGGATGCACTACTGTTTTAATGCAAGGAGGGTTAAATAGTGAACTTCCATTTGATTATTATAAAAATATGGTTTCAGAAACTATAAGACTTTATCCAGAAGTTACTCCACATTATTATTCAGCACCTGAAATAATGAAAATGTCTGAGGTCTCAAATAAATCTATTAAACAAGTTTTAATTGAATTAAAAAAATCTGGTCAAAGAACAATTCCTGGTGGAGGATCTGAAATTCTTTCAAATTCAATAAAATCTCAAATTAGTAGATTAAAACCGAAAAATAGTATAGATCAATGGACAAAAGTTCATAGTATAGCTCATGAAGTAGGATTTTTTACAACAGCAACAATGATGTATGGACACATAGAAAAGTCTAATCATATTATTGAAACTCTATCTCATATAAGAAATATCCAAGATGATTCTAAAAATAAACAAGGATCATTTACTGCTTTTATTCCTTGGTCTTACAAAAGAGAACATAATCCATTATCTAAAAAAGTTTTAAAAGAAGCAGGAGCAAATCAATATTTAAGAATTATAGCACTTTCAAGAATTTTTTTAGATAACATTCCCCATATTCAGGCAAGTTGGTTTTCAGAAGGATATTCAACAGGGCAAATGGCTTTACATTATGGAGCAGATGATTTTGGAGGAACACTTTTTGATGAAAATGTAATGTTAGCTGCAGGATTCTACAATAGAACAACAGTGGAAGGAATAAAATCATTAATTAATGATGCAGGATTTAATGCTTCACAGAGAACTACTGAATATGAAATAGTAGGGGAGAAGACGAAAGTTGGATAAATATAAAATAAAAAGTCTCAAAGATTTCAATGTCACTTTTGGTCATAGCCCTGATGCTGATGATGCATTTATGTTTTATGGCTTGGCAAAAAATAAAATCCCAACAACTTTTAAAGTCAATCATCTTATGGACGATATAGAATCATTAAACAAAAGGGCAACATCAGGAAAATTAGAGGTAACTGCAATTTCTGCAGCTCATTATCCAAAAGTTTCTAATAATTACCAAATAATGTCATGTGGTTCGTCTGTAGGAAGAAACTATGGTCCTCTATTGGTTTCGGAGAAAAAAATTAATGAAAAAAAATTATCTGGATTAAAGATAGCTATTCCCGGAAAATTCACCACATCATATTTACTTTTTCAAATTTTTATTAACCAAAACATTGAACCTGTTTTTATGCATTTTGATGAGGTAATTAATAGTATTAAATCTGGATCGACTGATGCGGGAATATTATTACATGAAGGTCAAGTGACTTTTCAAGAATATGGATTAAATAAAATTCTAGATTTAGGAGAAAGATGGTTTGAAAAAACATCTCTTCCTATTCCACTAGGATTGGATTTAGTTCATAAGAAGTTCTCTCCAGAACATAGAAAAGAGATAACTACTGCATTTTATAAGAGTATTAAATATGCTATTGAAAACGAAGATAAAGCATTAGATTATGCTCTTAGTTTTGGAAGAGGAATAGAGAAAAATAAAGGTAGAAAATTTGTAAGAATGTATGTAAATAATGATACTTTAAATATGGGGCAAGAAGGATTAAATGCTTTAAATAAATTATTTCAATTCGCTAAAGAATCAGAAATAATAGATAAACAACCTAACATAGAATTATGTGTACCAGATAATTAATATATATCCTAAAAATGAACATTCTTATAACAAACGCCAGTAATAATTTATCTCAAATAATTGGGAATCATTTCTCAAAAAAACATAATATTGAATATATTGAAGATCCCTCAAAGAAAAATTCATTAAACAAATTAAAGGGAATAAAATTCACATCTTTGAATGCTAGTAATAAAACTAATCAAATTATTAAAGATATTGATTTAGTT
>sequence07
TTTATACGGATTAAGACCTGTGAGCAATGATGTTCTAGCAGGTACACATACTGGAGATGCTGTATAAGCTTTTTCGTATAGCACTCCATTTTCTGCGAGGGAATCAATATTTGGTGTTTTTAAAAAATCAGCTCCATAACAACCCAAAAAGTCAGCTCTCAATTGATCTGGAAAAATAAAAACTATATTAGGTTTATTCTTACTCATATTTATCCTTTATTTTGTTCTTTAACATTAACTTTCTATGAATCAGAGTCAGTAGTTGGATGATTAACTATCATGCCAAATTTGCTGATAGGAGATGCTGGATAAGTCCATTCCCATCCTTCCTTTCCAAAATCATCTGATTGACTAAGTGAATTATTAGTATCTTTATTATCTAATATTCTATCAAAAACTGAAAAATTAATTGAATCCATTATTTCAGTAGAAAGTTTTGCTTCTAATTCACTTCTTAAAACAAAATTTTCCGGGTTATCATATAAATTTTTAGCTTCATTCTTATCATCATCCATGTTAAATAAAGTTCTAACTCCATTACGATATTTAGAGAGTTTCCAGGTTCCATCATAAGCCATCCAACCATGAGGCTGAAGTCCAAATAATATATCCCTATTACTTGAATCTATTCCAGGAATATCTGGCAAAGGCTTAGAATCATAATAAGAAGGAATTTCAGCTCCAGCAAAAGTTAAAATAGTTGCAGTAATATCATAGAGATAAACTAATTGATCACTTCTTTTAGGATTATTAACAGTATCAGGTGTTCTAACAATTAATGGAATGTGCGCTGAAGCTTCATGGAATGTACCCTTCCCAAATAAGCCATGATCACCTAAATGATCTCCGTGATCTGTAGCAAAAAATATTACAGTATTATCAATTAAATTATTCTTCTCCAAAGATTTGATTATTTCACCCACTTCGTGATCTATCTGTTGAACCAATCCTGCGTAATGAGCTCGCATTTTTCTTTTCTTTTTAGCATCTTGCCTATTGATATGATTGAAATTCAAACCAGCCCATTCTGCCCTACCAGCATCTATTTGGCCATCTACATGTGGCTCATCATGTTCATATATTGGTATTGGTTCTGGAACACTATCTTCTGATGGAATATCTCCAAAATCTTCTGAAGGATCATATGGATCATGAGGACCAGGAAAACCTACCATCATTGCAAATGGACCATCTTTTCCATAATTATCTATAAATCTACANGCTTCTTTACCTACAAAATGATCCCATGAATATTCATAAGGAACAATAGATTTTATAGCTCCGATGTTTTCATGATACCCATCATGTTCATTTCCATGATATTTACGGTAACCAGCAGATCTAAGATATTTAAAATAATCATCCCTTACATGAAGATGCCTTTTATCCTCAGTTATATTTCGATAACTAAATCCATGNCTTGCATCCCANGGATAAAAATGCATTTTNCCAACTGCAGAAGTGTAATAACCCTGATCGTTAATTATATCTGCCCAAGTTTTTATTCCCGTTGTTTTATAGTCAGGTCNNATAGCNTNCCAATTNCCTGTTATTCCATGTTTATANGGATTAAGNCCTGTGAGNAATGATGTTCTAGCAGGTACACATACTGGAGATGCTGNATAAGCTTTTTCGTATAGCACTCCATTTTCTGCNANNNNNTCNATATTNGGNGTTTTNANAAAATCAGCNCCATAACAACCCAAAAAGTCAGCTCTCAATTGATCNGGAAAAATAAAAACTATATTAGGTTTATTTTTTGTCATTATTGATTTTCAAATGCTAGTAATGATAAAGAATACAACAATTTAAGTTATTTTGTAGTAGATTCAGGATCTACAAATTTCTTTGCTGGAAAGGGGATCTCTTTAATAGTTGATGTAGTGGCAGTATAGTTATCTGATTTCTCATCTTCAGTTGAAACAGGCCACCAATCTACATATCCAAATTTTTCTTTTTCTTTTGAATCATCCGAATTTGTTTTTTTTATTTCTTTGACTTCTTCTTTAGTCTCATCCAAACTATTTGGAGATGGTAATTCAGNATTAGAATTACATGAAAATATAAAAAACATCATCAAGAAAATAATAAACCTTCTATCTAAAATAATTTTATTATCCAAAAACTTTAAATTCATAAGATTAAATGCACAACTATAAGTTTTTTTTCAAGTTAATATCAATGTTATTAATCCTATCAGTTTTAATAAGTTGTAATTCAGACACCAAAAGTATTTCTGAAAATCCTATTGTAACTCAGAATGAAAATATATTAATTCCATTTAGAGATATTTCAAAGGAAGCATTAGGAAAAGATAGGATGATTGAGAATAGATATCCCGGAGTAGCAATATTTGATTTTGATAGAGATGGAGATATGGATATTTATGTAACTTCTGCTGAAACAAATTCATTAATAGAAGAAACAAGAGGAGGAAACAATAAATTATTTGAAAATCTAGGCAATGAAAAATTCGCTGAAATTTCCGATTCTGCAAATGTTACACTTCCAGAAAGTAACAGCACAGCAGTTGCAGCATGTGACTTTAACAACGATGGCTACCAAGATTTATATGTCGCTTCTTATGGAAGAATAGGAGATGGTTTAGACTACAGGTCAGTATCTCCCAAAACCGATTTATTCGACATAGTTAAAGACAGATTACTCTTAAATAATAAAAATGGAACCTTCACTGACATTACTTCGGAAGCTTTTGGTGATGAAATAAATATTCGTTCAGGTATTAGTGTTTCATGTGGAGATATAGATAACGATGGATGGATAGATATATTCGTAGGAAATAGAGCTGATCAAGATTACATAGCCTTTAATAACCCAAGACACCATGGTCACTACAATGTTTTATATAAAAACAATGCAAATCTTACTTTTTCAGACATTACAGAAAAAGCAGGTTTAAAGGGGCCAAATATTTTAATGAGAATGCCTCACGGAGAACCAATAAAATGGTTTGATGAAGAATCACAAAGATGGAATGAAGGTTATGATCCTAATTTCAAGGATATAAATGAAGAAAAAGTTGGAGATCCTACAGGACAAACTCTAGCTGCAGTTTTTTGGGATCATGATTTAGATTCAGATATAGATCTTTGGATTTCCGATGATGGAGATAGGTTAAAAGTTTATAGAAATGATTCTGATTTAAATAATATTAAATTCACACTAATTACAAGAGAATTAGGAATTGACAAAGTAGGAGCATGGATGGGTTTTTCTATTGGAGATATAGATTCTGATGCTGATTTAGATGTTTTTGTTACTAATATAGGTTTTCACCCACTTACTCGAACACCTCCAGAAATCCCAGGTGGTGATTGTGCTTATGGACATATATTTAGTTGGGGAACTTGTTTTCATTATTTATTAAGAAATGATAGTACTCAAGATGAAAAAAGTCAGATATTCAATTCTGTTTTTAATAATATCTCTGATTCAATAATCATTACTCCTGATAAATATCTTCCAACAGAAGGGTTAAATATTTTTAATATTCTAGAAGACTGGCAGATTCCTAAAGGTTTAGATGCATATGAATTTGGATTTGGATCTGCACTTTTTGATTATGAAAATGATGGTGATATTGACCTATATTGGTTGGGATCAATGGGTGGCAGAGGAGAAGGACCTGGAGGATTAAGATATCCTGGACCAGGAAGAATGTTCTTAAATTTACCTGAAAATTTTGAAGATATTACTACTGAATCTCATCTACTTGATATTGATAATGTCAATTACGAATTAGTAGATGCATCTGATGAAAATATAGATTTAGAATCAAATAGAATAGGAATAAAATTTCATGAAAATGGAAAAGGATTAGCTAAAGGAGATCTTAACAATGATGGATATATAGATCTAATTGCTACAAATAGTAATGGTTACATCTTTAAAAATGGAACAGGAGAAATGAATGGCGGACCATTATTTTTATGGATTAATGGAGGAGGAAATAACAACTGGATTTCATTGAGGTTAAAAGGAAGAATGAGCATAGATGGAACAGGAAGCAATTCTGATGCTATTGGTTCTATAGTCACCATTAAATACCTGAATGAAGGGGAAGAAATCACACAAGTTAAGCAAGTTACTAGTGGAGAGAGTTTCATATCTGCTAATTCTTTAGATGTTAATTTCGGTTTAGGAAAAAGTACAGAAATAGATGAATTATTAATTACTTGGCCTAATGGAAATTCTCAAACATTTGAAAATGTAAAAGTAAATCAGATATTAGAAATCACTGAAAAAACAGATTAAAGTTGATTCGCCCATTCTGGTCCTACAGATTCTGGAAGAGGAACAGGATTTGGATCTTCAGTCTCAATCATCCAATCTAATAAAAGTGACTTTAGTTCATTTTTCTTTTTTAAATATTCTATTTTAGATGCTAAATTATAATGTTCCCATGGATCATTTTTCAAATCATACAATTCATCTTTATCGCCCATAGAATCAAAAACATATTTCCAATTTTCTGTTCTTACCATTTTCCTTCTGCCTTCTGCTTCTCTAGCCCATAAGCATTCAATCAAAGTCTTATATCCATATGGTTGATTTAAATTTTTCAGATCATTTAATTGATAAGGTTTGCCGCCAGTACCATATTCAGAAAAGCTAGCCTTTTGTGGTTCTACATCATCACTTATTGGTAATAAATGCCCTTGAAATGATTCTGGTATATTCAAACCTTGTAACTCTAACACAGTAGGCATAATATCAATTGTATTTACTGGATGATCAATCATTTTATTTTTTGAAATAATATTTTCAGAAGAAATAATTAAAGGCACTCTTGTCAAACAATCATAAAATACTCCCCCTTTGACAATCATGTCATGTTCACCAGCAAAATCCCCATGATCAGCTGTAAATACAATAATTGTTTTTCTTTTTAAATTTAAATCCTCTAATTTATCTAAAATAGTTCCTATAGAATCATCTACAAATTTTACCATTGCCATATAAACAGTAATTAAATTTTGTTTTTCTTCAATTGATGCATTATTCATATTCAAAATTTTATTTAAAAGAACATTTCTTTCAGGAGCTGTTCCGTCAGAAAACTCATCACTTCTAAGTTTAGGAAACTCAAAAGTACCTTTTACTTCATTAAAGTATTTTTTAGGAACCTCATATGGTTCATGAGGATCTGGGAATGAAACCCACAACGCAAAAGGATTATCTTGATTTTTTTCTAAAAAATTAAGTGTTTTCTCTGCAATTAAAAATGATCCATATGTTTCAATAGGATCCTCTGTGATTTTATATGATATTTGAGGAGTTACCCAAGGCATATCTGTTCTATTATCATTGGTTCCAAGATGATCATATTCTATAAAAGTATCAAAATTTGAAATGTCTTTTTTAGTTTCAAAACAATGATTCTTTCCTATCAAACCAGTTTTAAATCCATTTTGTTTCCAAATATCGAAAACATGCAATTCTTTATTAGGCATTAATGTTTCATTTCTTCTACAACCATTAGTATGAGGATAACGTGAAGTCATTATAGCTGTTCTAGCAGGAACACAAAGAGGATGAGGAGTAACAGCATTATTAAACAAAATGCCTTCTTTAGCTATTCTTTTCAAATTAGGGGTATCAACTCCCATTTTTGAATATAAATTAGAAGCAGTGGCTTTCATTTGATCAGCCATAATAAAAATTACATTATATGAATCAATTTTATCTTTATGCATTGAGAGATAAAATATAGTAATTAATTAATAACCCTGGTATTGATGCTATAAGAACAACAATAAAAGCCCTAAGATTTCCAGACATTCCCCTTTTAAAATCTAGAGCTTGCCTTACTGCAATTACCATTGTAGCTATCAACCAGAAAGTAACAATCATTGTTATAAAACGATATATATCTTCAGAGAAAAAGCCTAAACTCACAATAATAGCTGGAGTTTGAGCAAAACCCATAGTACGAGCTAATTGTCCCCACGTAACATCTGTTTGATCTGTCTTTAATAAAATGCTTCCCACAAAATAAGTTATCAATGCAAGAAAAGCCCATCTGATTAATGAAGTAAAAGATGACAATGTGAGATCTAAAATTGAAGGATTAACAGAATATAATGAAAAAGCTCCAATTCCAGCAGAAAAACTAGCTAATATTACTATTAGAACTGCCTGAAAAGTTGCTTTTGGATCAGCCTCAATTTCTTCATAAACATTTACATTAAGTAATGCCGCTCCAATCATTCTTCGAATCATATTATTTTTTTTAGGGATAACAGTATTATTATTTTCATAATCCTCAGATTGAATTATTTCTATATTATCGGTGTCCGAATCGTTATTATTGTAATCACTATTTTGATTCAAAATTTCCTCCCAATTTTTCCTTACTCATTATATTACTCTTTTTTTAACTAAACTATTATCTTTTATTCTTCCACAAATACTCAAAACTATACCCAAAATACTAAAACTTGCTAGCATTACAAATGCATATCTCATAGCATTGGCTAATATCAATATCTCTGACTCAGAGCCTGTTTTCAAGTCATTAATTTCAACATCTAAACCATTACTAATTAAGATGAAAGTTATCAAAGTTGTAGAAATAGATATTCCTATCACACTTCCAACATTTCTTATTAGAGCGTTAAAAGCACTTATAATTCCTTGGGAATTTCGATCAATATCTTCTAAAGTTTCACTTGTATTAGGAGCCATCCATAATCCATTAGAAGCACCATTGAATAATGAAATAAAAGCAATATAAATCACAGGAGAATTAGAAGGCAAAAATATCAATAAGATCCAAGAAATAGTAAGTGCTAATAAACCCGTTAAAATAAATTTTAGAGTGCCAAATTTATCTGATAATCTTCCTCCTATAGTTCCAGCAAATGACATTCCTACTGCATTAAGAAATATTAAAATTCCAGTTAAGCTTATACTGTAACCAAGTACAATCGTTGCATAGAAAGGAATAAGAAACCAGAAAGGTGCATTAGACATGAAACCAGTCAATCTAGCAGCAACAGCAAAAGAAAATCTCCATTTCGTGAAAAAATATAAATTAAACATTGGAAAAGGGTTAGTTAATTGAGATCTTACAAATATTATAAAAATTGAGATACATATTAACCATAAAGACCAATATATTGGTGATGAATAAGCAATATTCAGAGGGTTAATAATATTGATTATTAAAATTATTATAAAAAATGCAGAATATGTAGCGCCTTTCCAATCATATCTTTCTTTTTCACTTGATTCTGGAGAACCAATCAATGTGTCTTTAAGGACTAAATAAGCAAGTGATAACGCTAAAAATGTGGGAAAAAACATTATTAAGAATACAAAACGCCATCCTATAAGCTGTGAAATTTGTCCTCCTATTAACGGTCCTGCTATTGCGCCTAGTCCAACAGCAAAAGTTATCATCCCTAATCCTTTTCCTCTTTCATTTTTAGGAAATACAGCTAAAACTATAGCCATTACAACAGCTTGATCCATAGATGAACCTATGGAGGATAAAATTCTTCCAGCCAGCAAGGTAGAAATGTTTGAAGAAAAATAACATATTAAAGAACCTATTCCAAATAATCCCATTCCTATAATATGAACTTTTCTTCTTCCCATTATATCTGCTAATTTACCCAAAGGAAGCAACGTACTACTTATAGTTAAGCCACCAATTATCGTAACCCATGAGACAATACTTAGACGAACTGAGAAACTTTCTGCTATTTCAGGGAGAATAACATTTAATGCAGATTGATCCATTACCATTACAAATAACGATAATGATACTGCTCCAAAAGCTTTCCATTTATAAGGTATTAGCATTTAAAACAAACACCTAAAAAAAAGAATAATAAACTCAAACTAAGCTTTCTCTAAAACTTCATCAATCTTAGATTTTATTGCACTTTTAGGTACTGCTCCAACTATCTGAGACACAGGAGAACCATCTTTAAAAATTAACAATGTAGGAATAGATCGAATACTAAAAGAAGATGCAGTAGTTGGATTTTCATCAACATTAAGTTTTGCTACATCAATTGAATCCTTATAATCATTAGCTAATTCTTCTAAAGAAGGAGCTATCATCTTACACGGACCACACCACTCAGCCCAAAAATCTACCAATACAGGCTTTGATGATTCAATTACTTCTTCATTGAAATTTTGATCAGTGACTTTTTTAGCGTTAGACATTTTAACTCCTATTAATTTTCTTTACACTTACTGTTTTAAATTCTAAATCTGGAATTGTAGGTGCCCAATCTTCTCTAGATTCTGAATAATTTGTCATTATTTCACCAAACAAAGAAGTGTATCTTATAGTTCCTTCAAGTTCCTGTTCTAATTTTAATTTTCCCTCTATTGAAAAAGATGAACCATTAACTATATTTATTAAATCACCTTCTTTCAGATTAAGGTTCTTAACATCATTAGGATGCATTTTAATTATATTTTCTTTACTAATAATATTTTTTTGATTTCCCTTTATAATTTCAACTTCTTGATTTGTTTGACTCAATACTCTTCCATGTAAAAACAATAAACCATTTCTATCATTATTTAACTGATCTTTGGATAAGAATTTTACTGGTAGCAATGAAACTTTTTTCTTCAATAATTCCCATTTTTCCCCACCATCATTTAATGTTTTATAGTCTATTTTTTCATATTCTTTTATTATTTCTTTTATTTCATCAAAAACAGCCTCAGCTGATTCATAATTAAAGTCATCAAAACCTATAGTTTGAGCAAGATTAGAATAAAACTCCCAAACACTTTTATAATCTTTTTTTGAATTATGAGCTTTTGGTGATAATTGAACTCGTCTTTCAAGATTTGTCATTGTTCCTTCTCTCTCAGTAAAATTGGATATAGGAATAACCACATCTGCCAAATCTGATAAAGAATTTTTCTTGCTTGTACCTACTACTAAAAATTCAAGTTGTGAAATAGCATCTAGAACATCTTTATTCATTAAATCTTCAGCAAAAGCATCATTCATAACAAACAATGATTTAATTTTTTTATCTTTTATACCTTGAATAATTTCTTCATAATTCATTCCTTTTTCAGTAGATAAATCAGAATCCCAATATTTATTTAAAAAATCTACGTCTTTTTTGTTTTCTAAATTTCTAAAACCAGGTAACAAATTAGGAGAGTGACCCAAGTCTAAACTTCCTTGAATATTGGCTCCTTTATATAAAGGAAATACCCCAGAACCTTTTTTAAATAAATTACCTGTAATAGTTGCAAGATTAATAACAGATTTAACTAATTCAGAAGATTGAAAATCATTAAGTCCATCAACTCCTAAGATAAATGATGTAGATCCTGATGAAATAGTTTTAGCAAGTTCTGTAACAAGATTAGCGTCAATTCCAAATTCAGATTTAATTTTTTCTAAATCAAAATCCCACAAAGAAGTTTTAAAATCATCTAAACCTTCTCCATGATCTTTAATAAAAACTTGATCTTCAATTCTTTGATCAAATACAGATTTAGAAATAGCTGAAATAAGATTAGATTGAGAATTAGGTGTATTTTTAATCCATTTATTAGAATATCTAGTCATTTCAGTTTCTCTAGGATCAATAACTATAATATTTGAACCATTTCTAGCTGCTTTTTTAGCAAAAACAGAAAGAACATTCTGTTGTTCAGTAGGATTTCCAGAAATAATTATTACGTTATCAGCATTTTCTAAATCTAAAATTGTTCCAGTTCCGCCAGGGTATTTTAAGGATTTAGAAAAATAATTCAAAATCTGATCTTTGTTAGTTGAATCTACATTGTTTGTTTTCAACACTAATCTAGCGAATTTTTGGGAAACAAAATAATCTTCATTAGTAGACCTTGGAGAATTCAATATAGCTATTTCAGAAGGATTAAAGTCACTAATTTTTTTACTAATAAGAAAGTTAACTTCCTCCCAATTACTTGAATTCTGAGAAGTACCCTGTTTAATTTTAGGATCTTTAATATTTCTAAAATTAACATAGTCATTTCCAAATTTACCTCTGAAACAAGTTTGTCCAGCATTTGATTGTCCAGAATAATCCCCTATCATCCTAATAGATTTTTCTTGTTCATTTGATTCCATGATTAATTGACAACCTACTGGACAATTAGAACAAATACTTTTAGTCTTTTTTGCTGCTTTTTCCCATTTATAATTTCTTTCTACAAGAGCTCCTGTAGGACAAACATCTATACAAGCTCCACAAAACTCACAACCTGATTCTAATAAAGAAGTTCCCTGAGAAGTTCCTACAATAGCAACACCAGATCTAGATTTTAAAGTAATGGCATTATCGAATCTTATTTCATCACAAACTCGTACACATCTTACACAAACAATACATAAATTATAGTCTCTATCATAAAAAGGATCATCCGTATGAATTGGCAATTGTCTTCGGTTATAAGTTAATGGAGTAGTAAGATCCATTTCTGTATCTCGAATTGTATCTTTCAATTCACATCTTTCATTTTTAGGACAGGTAGTACATCTATCTGTCACAGAAACATGTCTTTGACATACATCTTGAGGGCCACACAACTCTATTCTATGGCAAGTTAAACAGCCATGTGGATGTTCTGACATTAAAAGATCCATGATTCCTTTCCTTAGATCTCTTATATCAGTAGAGTCACTTGAAACAATCATTTCATTTGATACTGGGGTAGTACAAGAAGCTTGAATCATTTTTCTACCATTAACCTCAGTTTCCACAACACACATTCTGCAAGCTCCATAGGGATCCATTCCAGGGTGATAACATAAATATGGAATGTAAATTCCAGCATCTTGAGCTGCTTGAATTACAGTTTGACCCGGTTTAGCTGGAATTAATTTCCCATCAACTTTAATTGTTAATGTTTCTATTTTCCTCTTTTCTTCCGTAGTCATATTAAGGTCTAGTCCTAGTAGGTAAAATCATTTCTGGTATTTTGCTTTTTTCATCTCTAATTGTATGAGTAGTCATTTTATCAATAAATTCTTGATCAAAAAACTTTAATGCCGATGAAATAGGATTATATCCGAGTTGACCATGTCCGCACAATGAACCAACTTTCATATTTTCCCCAATCTTTTTAACTACATCAAGGTCACCTTTAATAGATTTTTCATTGCAAGCTCTATCCAAAATATCAAGCATATGAGTGTTTCCTAGTCTACATGGAAAACATTTCCCACAAGATTCAAATTGATTAAATGCAACAAGATTCCTTATTAAATCCACTACATCAACATTTTGATCACCAACAATAATACCTCCAGATCCCAAGATTGCACCTGCTTTAGCCATTTCATCAAAGTCCATCACTACATCAAATGCTTCTTTGCCTAAAACTCCACCTAAGGGACCACCAGTTTGAAGAAGTTTTATCTGTTTTCCTGTAGAAGATCCACCTCCAACATTCTGTAATAGATCTCCAAGGGTAATACCAAAAGGAATTTCATACATTCCTCTATTATTTATATGGCCAGACAAACATATTATTGCTGTACCAGAACTTTTTTCAGTTCCAATTTTTTTAAATTCATTCGCACCATTTTCAATTATCCAAGGAACATAACTTAATGTTTTTACATTATTTATATTGCTAGGTTTTCCCCACAAACCTGCTTGTGCTGGGAAAGGAGGTCTAAACCTTGGCATAGATCTTTTACCTTCTATAGCTTCCATTAAAGCAGTTTCTTCTCCTGCTACATAAGAATCTCCAGTTAAAGACACTTCCACCTCAAAATTAAAATCTGATCCAAGAATATTTTTACCTAGTAAACCATTCTCATAAGCATCTTTAACAGCTTTTCTTGCATTTTCTATAGGTATTGTATGACCTTGCCTAATAAATATATGACCATGAGAAGACTTTGTGGCATAACCAGCAAGTATCAATCCCTCTAAAAGAGTATGAGGATCATTTTCCAAAATCCCTTTATCATTGAAGGCCCCTGGATCACCTTCTTCACAATTACAAAGAACGTATTTTATTGGAGAATTATTACCAGCTAAAAAACTCCATTTTATTCCTGTAGAAAATGCTGCGCCTCCCCTACCTCTAAGACCTGAATTTTTTACCTCTTCTAGAACATCTTCAGGAGTCAAACTATTTAAAGCTTTATCTAAAGATTTATAACCTCCAGTTAAAATATATTGTTCAAAACTTTCAGGATCAATTTCTCCAAAATTTCTAGTAGCTATCCTTTTTTGATATTTGAAAGGTGAAAAATTATCTAATTCAGGAATATTATTAAATATTTTTTCTCCATCTTCTGAAATCTGTGCAAATGCATATTCTTTTAATACATTTTGATTATGGATATATTCATCAGTAATTTTTTGAATTTTTTCAATATCAACATTTGAAAATAAAACTCTAGGTTTATCTTTAATTTTAATATCTACAATAGGCTCAAGATAAGAAAGACCTAAAGCTCCTACCATCCTAATATCAGTATTAGACTTTAAATTTTTTTTCAGCCAATCAAATATTTTTTTAGAACCTGATGCTTGTCCTGATGCTCCATATCCTACTCGAATCAAAATATCTTCATCTGATTGTTGTGATTCTATTTTTGAAACTAATTGATTAAAAATTTCTGACAAAATTACCTCTTATTTTAATTCTTTAATTGTATCCATAATCTTTTCTACTGAAGCATTACCTATTAATTCATGATTAACAGCATATACAGGAGCTTGTGCACATGCGCCTAAACAAGTGCTATACCCTAAAGAAATTTTCCCATCTTCAGTTTCAGTCTCACTATCTATTCCAAGCTTTTTATGGATTCCTCTTAATATTTCTTGTGCTCCAGAAATATGGCAAGTGGGCCCCCAACATATATCTAAAGAATATGAACCTGGTGGAGAGAATCTGAAATTAGTATAAAAAGAAGCTACACCCCAAACATCATTAATAGTTTTGTCCATAAAATCAGCAATTTCTTCTATAGCTTCATCAGGAATATAATGAAAATTATCTTGAACAGATAATAAACAAGATAGCACTGTTACAGTTTTGGGAGGTGACGAATCCTGAGATGATTTTTTATTCTCAGAGTTAAGTAATTCTCTAATATTGGATCTCAAGTCATTATTTTTTGAATTTGTATTCAATAATCAACCTTTCTTCGTTGGATATTTGAACTTTTTTCATTATAAATAACTGTAGCAAAGGTGTGTATCATCCACAACTATATAAGATAGAAATTTTTCACTTTGTTCTATTTTTAGCAGCTTCTAGATCTTTAGCTACATCTCTTTTATTAATAGGACTCATGACAATTTGTTCTATAACGGTTCTCTGAGGTAGTGATGCACATAGGAAAACGGTATCTGCTAAATCTTCAGGTTTCATCATAGTGTTTCTGGCATCTTGGTTAGGAGGAATAGCTCTGTTTTTTAGTATAGGAGTATCTACTTCTGCCGGCATAATTGCTGTAGCTCGAATTCCTTGAGAATTCAATTCTGAATTTATATGTCCCATTAAATTTGTCACACCAGCCTTTGCTGCACCATATGGAGCTCCTCCAAGCAAACCTGGATTAAGAGCAGCCATAGATGAAATCGTAATAATAGTTCCCGATTTATTTTCTAACATTAATGGAATTAATTTTTGAGATATTTGATATACAGCTTTAATATTTAGGTCAAATACATTGTCCCACATTTCTTCTGTAACATGAGAAATTGTTCTTACAGCACTACTTGCTCCGGCATTATTAACCAAAACATCTACTTTTCCAAATTCATTTTTTATAAAAGTAACTAAATCGTCTAAATCTTCTTCTTTAGTAATATCACATTGTTTTATAAAGACATTATTTTTTTTCTTTGGGTCACAAATTTGTTTTGTTCCCTCTAATTGATCAGATCTACGTCCAATTATTATAGTTTTTGATCCTGCGTCTACGAATTTCTTTGCTATTTCTCTTCCTATTCCAGAGCCAGCTCCGGTAATTAAAACTATACTTCCCAACATATCTGTCATCATTACTCCTGAATACTAAAAATGCTTCTCAATTAAATCTACAACTTTTTGTGACATTTTAACACTATAATTTGTTCCTCTATCTTCTGGATATATCTGAGTTGTATTTGCTAAATATACTCCTTCTAAAGGTGTTGAAATTTCTGGGATAATATTTCCATAGTTTTTACCAATTATTGGTTGAGCTGCACTGATTTTGTTATATGTATAATCTATAATCCAATCCTTATTGAATTGAGGATTTATTTTTTTTAAGTAATCACAGTAAATATTAAGTAATTCTGATTCTTCAAGTTTATATCTCCAGTCATTTCTATCTAAATAATTAGTCAGATAAAGAAAATTTTTATTTTTATAATATTCAGAACTCAAAAGATTAGATTGCTCAATAACACCTAAAAAAGGGCTGTTTCTATCAGCAATATTCAACCAATAAAAAGGAGTAAGTTTTTCTTTTAGTTCCATAATAAAAACACTTGCACCTAAATATTTTGATGCTTCTAATTTTGATTTATATTCATCAGGAAAATCACAAATATTAAGCATTTCAAATGATGGAACTGTAGATAACACAACATTAGTGTTTTTTGTTTTTTGTTTAAAATTATTTTCAAGAAATTTAATTTGTATTTCTTTCTTATCATTAAAATATATTTTTTTTACAGGTGTATTCTTATAAATCACCCCTCCAAGAGAGTGAATTTTCTTATCTAAAGTGTCTAAAATGATTTTAAAACTTCCATTTGGATAACCTAATACTTCTTGGTTAAAACGTTTTCTAGATCCAAATCTTGTTTGAATTTTACCCCAAAACCATGGCATTCCTATCTCTTCAGAATAGTCTCCAAATTTGCCTCTTAATAAAGGACCCCATATTTGATCATAAACATTCTTTCCTGCCCAACTTTTTATCCATTCAGATGCAGTCATAGATTCTAAAGATTTCCAATTTTTTTTGTATTTTAATAATAAAGTGATGAACCCCAACCTTAATCTGTCAAAAAATGGAATTTTATTAAACTTTATTAAATCTAATGGAGACTGGAATGAAAATATTTTTTCTCCATCAAAAATTCCCACTGAAGATTGATGCCATTTCAATTTTTCCTGCAACCCTAAATCATTGATTAAATCAATTATCTGAGAATCTCCAGTGAATAAATGATGATAACCCCTTTCTATTTCAAAACCAGATAAATTTATTGTAGAAGCTTGGCCACCTATAAATGGTGCAGATTCAAAGATTTCTACATGATAACCTTTTTTCAACAAATAATAGGCAGAAGAAAGACCAGTAAAACCAGCTCCTATAATCGTTATATTTTTTCCGTTGGAAATCATTTATCTATATATTTTTTATTTTTCTCAATGGAATCCAATCTTTAAGGAAAATGAGCATACCAATTAATGTTACAGGAGCCCAAAGAAAAAAATGTGTAAATATTACAAATCCTAATGATAATTGTTCATCAATACCAAATGAAATTAATACTAAAACTCCAAAAAAATCGAATGATCCCCAACCTCCTGCTGTAGATGGAAATATTCCAGCTAAGTTAGCCGCCGTACCAAAAAAAAGAACAGTCAATATAAGTAGGAAGAAACTGTCTAAGGTTAAATTTACAGAAACAGCTATAAAAAAATACATAGTAATCTCTAAAATCCAAATTAAAAATGAGATTGATAATAATTTAATTAATTTAGATGAATTATTTATAGAAAAATATCCATCGAAGAATTGTTTAATAAAATTAAATATTTTCTTTATAAAAACATTAGAATTACGTGAAAAGTAATCAAAAATTTTATAAATTTTCAGCCTAAAGAATGGAGCTATAATTAAAAGTAAAGAAGCTAAAAATATTAATAAAATAAACAAAATAAAAGAATATTGATTACCAGGTAAATAATTAATAAATTCTAAAGATTCTGAATTTATATAGACTAAGATTAAAGTTAACCCAAGTATAAGAGATAATGCTATTACATCTGAAATTCTTTCTATTGCCACTGTACCTAAAGCAAATATTTTTTTTACTCCTAGTTTATGTTCTAAATAAAAACATCTTGCAATTTCTCCAGTACGAATAGGTAACAGATTATTAAACATATACCCTACTATTACTATTGGAGTTAATTTTCTAGTGGATAACTTAGAAGAGTTATTTTTCAAAAGATAATTCCATCTAAAACTTCGAAAAAGTAAAGAAAAAGAATAAAAAAGAAGACCAATAAATACCATAAAATAATCCGCATTTTTAGAAACTTCCCAAATACCAGAGAAATCATTAGAAATCCAATAAATAGACAGAAAGAAAAATCCTGAAAATAATAAACCAACAAGTAATTTTTTATAGCTGAAATTCATAATTGAATTTAATTATATTAAATATATAAATATTAGTTACATATCAGATTTAATATAGACAATAGTATTAACAGAACCAATTGAAGTTTCTAGATCTCTAAAGAAAAAATAATTCATCATATTTTGAATATTTTCAAAGTTCGAGATCTTATCAATAAAATCATCGTAATTGCTCATTCTATAATTTTCAGGATACCACCACCTTAGAGGAATTAAATTTTGATCATAATCTTTTATATTGTCTCCTAAAGCAATTTCGATTGTTTCTTTATTTCTCTGATGAACAATTAAAATATCAGATTGTAAATTTAAATTATCATCATAATTATCAAAATTTACATATTCTGTATTTTCAAAATCTCTTAAGTACCAAGCCCAAGGCCAAGTGTAACCATCAGATGTATCAATGGATATTTTTAAATTTTTATTTCCAAGTTTATTGAGGCTTTCAGAATAAATTCTTTTTGACATAGCATGTACATGAGGAGAAGTTTGAGTATAAACAATCATCTCATCTGGAACATCAGGATCATCAAAACTACTTTGGGTGGAAATCCTTATAGTAAGAATAATTAATATTAAAGAAATAGATAAAAAAACTCTTTTAGAAGTCCAAGATATACCGTTTTTATAAGTATAAAATATCAAATAATAACAAGATAGAAGAATCAAGGTTATATATATCCAAATACTTATAAATGATTCAATATTTAAATTCGTCCAATCAGTTATAAAAAAGGAAAAAATAGAAAATAAAATAATTAATGGAATAAGAATAAAAATTATATTTGAAAATAAAGATCTTTTTTCACTGTAAATTTTTTTAATAATATCTGAAGTGAAAATAGAAGTTAAAACAATAAATGGAACAACTATATTGACTGTTAACCAAGGCATCTTCTCTCCTGCTAAAGAATATAGAAGGAATGTAGCAATTACCCAATAAACAAAAAATTTTCTAAAAGAATCACCTTTAAAAATATAATAAATTAATGCAATAAATGAAGAATAGAAGGGCAAAAATTCATAATTTATAAAAACAATAAAATAATAATACCAAGGTTGACCACCACGAGCTACTTCTTGCTGAGATATCCAATATCCTAATGATTGCCATACACCTGTACTAATTCCAGAAACATTAGTTAAAAAAGTTGAATAAAACAAAATATAAATACCCCAAAATAATGAGGCAATCAGCAACCATTTTTTACCTCCCCACAATAAACCTATTATCAAAGAAACAAGAAAAAACAGTGCAGAAACAATTACAGCAACTATGTAACCATTAGATCCTGATGGGAGACCTGTTGAAACACCAACCGTTCCTTCTTTAGCTACCAAAATTAGATTGAAATAATCTTGAAATATTCCTATTAAAGGAGATGCAAGTGGAAGAGATAACGTAAAAAAAACTATAAATAAATCAGTATGAGGTTTAATTTTTTTCATACTCATCTTTGAAAAAATTAATCCATAAAAGTCAGATCTAGATTTAAACAATAACCACAACCCAATAATAAATACAGTGATGTAACTGGTTTCCTTAGTTATAAAACCTAAAACCAAAAAAATCACTAGCATATATAAACTAGAATTTTGACGTTTCTCTAAGTATCTCCATAAAAATACAAATAATCCCATAGTCCAAACAACAATAATAATGTCATTTCTTGCAAACCTACTGAAATATAAAAGATGCGGAGAAATTGTAAAAAGCAAAGACATAATAAAAGAAGGAAGAAATCCTATCTTATCTTTTAACAACAAAATAGGAATTAACACCAAAATTATCCCAAATATTGCAGACAATACCCTAAGTGTAAAATCATTATCTCCAAATAAAAAAAAGATAGTACCATTAGCTAAGAACCAAAAAACCCCATGCATTAATGGATTATGCTCAAAGCCCATCCCGTTTGAAAACTGCCATGAAAAAAAACCATGAAGACTTTCATCATGGTGAATTGATCTTGAAGAAAGGTCATAAAAACGTAAAAACCCGGCTAGAAATATTAATAAGGAAGATATTAATAATTCTATTTTATTCAATCCGATTTTTCGAAACATAATATTATTTTTAACTAATAAAGTTTTATTATTTTATTACCTTTTTCATTAAATACCACATCTCCCAATTGCTCCAAAATTAAAATGTTAGCTACCTGATAATCAAGAATTTCTTTTTCACCTATTATTATGTACTTAACATCATATTTATTTAGCAAGTTAGAAATTACTTCTAAATTCTCTGAAGTATATATTTTTATAACATCTTTATTTCTTGAATTAATTAATGAATAGTCTCCTCTCCATTGATGTTCATGTCCTGTCCATCCTAATACAGTAGGTCTACCTGAAAAAGTAGAAATCAATGATGATTTAGTATAATCCTGCCCTACTGATTCTAATATCACATCTCCCTTTTCAGTATTATTTTTAACCCAATCAATAAGTTCATATTCTAAAGGATTAAATACTTTAAGGTAGTTGGTGCCATCTAATGTAAGTGGATTATTAAAACCATTAGTTCTATTGTGAATTGAAGATAATAGATAGTAACTTGAAAACACAAAAATTATAGATAATGAAGATGAAATAAAAATTTTAATAGTCTTAGAGTTAATAAAAGTTTTTTCAGATGTAAAAAAAACTTTCCAAAAAATATAGCCTGAAATAAAACTAAATAATATCCAAACCTGATAATATATTTTAAATATTGTATTCATTCTATTTCCAAAAAAATCGTTTACCCTAAACATCTCGACTCCCAATAAAAGAATTAATGAAATTACAATTAATCCATTAAAAAAATATTCAGGATTAGGACAGATACTTTTAGATTTTTCAAATATATTTCTTGAAAAAATCATAAGAATTCCAAACAAGAAAATAATAATAATTGAATTATGTAATATCCTAGAAAAATTTATCAGATCGTATGTCAAAAAATTAATAATAATCCAAATAACGAATATCAAAACAAAAAGTATTATAAAAATTTTATAAAAAGAAATTTCATAGGATCTTTCTTTATTAGATAAATCTTTAATAATTAAGNTTAAATTTTTGAGAAAAAGAGGCATTATTATCAGTATAAATACTCCCCATATAGTAAAAAAGTGGATAATTCTTGATGAAATTTTCACCGGTAAAATTGGAGGGAACTGAACTTGTGTCTGAAGATGTAAATAATATTGTGAAAAAAATATTAAAGTACTTCCTAAAGTAATAATTAATAAATAAATTATAAACTTTTTTGGAAACACATATTCAGTAAAAAAATATCTTATAAGAGGAATAAAAAAGTAAAAAATAAAAAATATGAGTATTATTACTGGAAAATCCCATCCATTTATAAAACCTAAGGAACCAACGATTAAAGTAATCAAAAATAATTTAGTAATAGCCTCTAAAGAATATCCATGAATGTTTTTTATATCTAAAAATTGCAAAATATAAACAGTAGCTAAAGATAAAATAAAAAAAGGAATAGACATTAAATGAGGATGCAAATCACCAAGAATAAAACTAAATAATGGGAACTCTGAAATNGTATAATCTAATGATTGTCCATTTTCGAAAAAATTTATTATCCTAGATGATCTCCACCAACCACCATTTAAATACCAATCCCCTATATTTCTTTTTGTTAGTCCATCAATAGATAACCAATTTAGAAATCCCTCATTAAGAAAACCTGTTAATGTCAAAGTTTCCCAAATAATATGGAAATTTGTACAGAATAACACAAAGAAAAGTGTAACAATCCCTACAATTATAGAATCACGTGTAGAGCCTTTGTTCTCTCTAATCATCATAGATATCAACCCAAATACTGAAGATGATGTTAAAGCTGCTACAGTCGCAATACTAAGGTTATAAGTATAGTTTGGAGCAATATTTGAAAGAATAGAGATAATGCCCCAGATCCAATATCCAAAATAATAATAACTAATTACTTCTCCTGAATACCATAAGTCAGTAGGAGGAAAAGTAGAAAAATTCATCATAGAATTGAGAATCATAAAGTCCATTGGTTTTTCTGTACCCACGATATTCGGATCTAAAAANCTGATAAATATCCAAAAGAAAAATACTAAGAAAAAAATAACTTCTATTGTTAAAAAAAGATATTTATTTTGTTTAATGATTAATGTAAATTCTTTTCTATTAATAAACAAAAAAATCAAAGATAACGATAATAAAAATAAACTCCATATAATTAATGACGTATATCCNATAGGAAAAACAGGAATATTAGAAATAAGCCAATAACTTGAACAAAGAATTATTATCCCAATTGGCTTAGAAAACCCTATACCTACACTTCTTAAATTTTTAAATAAAAAGTAAGATAATGGAAATCCTATTATTCCAATAATCTGTAAAACTAGTATCCATTTTAGAAAAATCAAAACCACTTAATAATCTCACCTTTTAGGTTTTTTTCCTATAAAAGAATTTTGAAGATCATTTAAAATAAACTTCAATCTGGATTTAAATTTTGCTCTGACTCCAAAATNAATATCCTGATTTTCAATTATTTTGTTATAAGCTAATTCCGCTGCTCTCATTTCAGCATCAATTTTTCTATACCCTGAACCTAAACTTAAAAACACTCCGTTTAATATAGCAGCAGTTTCAAAAATTGGCTTGTGAGATGGGCCCTTCCTTGAAATTAATTTATAAAGAGGAGTGCCTAATCCTCTACTTTGAGTTAATTCTTGTAAAGTAGATTTGAAATCTTTAATTTTATTCGATATTAATGCTTCATAAATTTGATCCTCTAAAGAAGTAATTATAAATCTAGAAACAAAATTCATCCCTTTATCTAGATAAATTGCTCCGACTAAAGCTTCAAATGCGTCTNCCAAATTAGATTTCTTATAATTTCCTTTTCTTTCATTTTCTTCTTTACTCATTATTAAATTATTGTGAAGATTGAGTTTTTTTGCTGCTCTAGATAAGGCATTACCATTAATAACTAATGAACGACGAGTAGTTAATGTTCCTTCATTCCAATCAGAACTATAATTGTAAAAAAATTCTGCAATGACCAAACCAACTACAGCATCTCCAAGAAATTCTAATCTCTGATTAGATTCATTATAATGACGTTCTAAAAATCTTATCCCGGATGGATGAGATAATGCTGTGATTAATAAATTTGTATTTTCAAATTCAAATCCGAGATCTTTTTGAAAACTTTCAACTCTTTTACGTAAAAAATCAAAATCCATATAATAATTAAATAATTAAATATATTTTCTTTTTCTAAAAACAACTCCATAATTTAAGTTTAATTCAATTTTTATTAGTTGAAAATGATTAAATAATTTTTACTGTATGAATATAAATAATTTATTAACTAAACATCTTTCTGAATATCAGGTAAAAATCCTTATTAAGAGTGGATCAGTTGCCGAACAACTCAATATGACTTTATATCTAGTAGGTGGTGCAGTTAGAGATATCTTAATAGGAAACACACCCAACGAATTAGATCTTGTAATAGATGGCGACTTAAAAAAATTCATAAATGAATTACAGAAAGAATTACTAGTAAAGATCCATGAAACTTCAAAATTCATGACTATGACTACAACTATTGAAGATATTAAAATTGATATAGCTAGGGCAAGAGAAGAAAACTATTATCCTAAAGGTTCATTACCTTCAGTCTCAATATCTAATATAAAAAAAGATATTCAAAGACGAGATTTTACTATTAACAGCATCTGCGTAGATCTTAGTAACAATTCATTTGGCGAAATACTTGATCAACAAAATGGCCTCAAAGATTTAATGGAAGGGAAAATTAAAGTAATACATGACGAAAGTTTCCTTGATGATCCTACAAGAATTTTTAGAGCTGTAAGATTTTCTAAGAGATTAAACTTCTCGATAGATGAAAATACTGAAATGCTTATAAAAAAATATTCAGAAAAAATAAGTGAATTAAGTGGGTCAAGAATAATAANTGAACTAAAAAAAATATCTCTAGAAATAGACCCTTTTGAAATTTTCGAAGAATTAAATAAGAAAAATATTCTATCCGTAATTTCTCCTCATCTTTCAATTAATTATAAAAATNAAGAAATTGAAAAAATTCATAATTTAGTGAANTTTGANGATCCTCTTGAATTTTGGTTTAACATAATGACTAAAGATAAAACAAGAGAACAATTAGAAAAAATTATATCTCGATTAGATTTAACAAAAAATATAAGAATTCAATTATTATCAAAATGTGATTTAACCAATTTGTTAAAAGATTGGANNAGTGAAAAACTTTATAAAAATCCACCTATATCAACAATTCAAAAAATTCCTAATAAAATTCTTGAATTTGAATATATTACTACTGACAACTCCGAATATAAAAAAATATTATCGCAAATCATAGAAAATATACGAAAAATTGACCCAATTTTAAATGGTGATGATTTAATATCATTTGGTGTATCTCAAGGAAAAGATGTAGGGATTTTTCTAGAAAATATTAAAAAACAAAGATTTTTAGGGCTAATATCTACTAAAGAGGAAGAAATAAGATTTGTAAAATCATCATTAGAAAATTAATTTTTTATATTATGAAATAGATATTGTTGAACATAAGATCCGTCATCTTTGAACCTCTTTCTTGCCCAGTCTCCTAATTCATGATTATTAAGCTTTTCAGAAAGATTATATTGATTTATTAAACTTCTCCTTACCCATCTATCAACTGGGAATGCATTAGAGAAATTTAATGAAAATGCTAGTACACAATCTGCAATTTTCTCTCCTACTCCATTAATCATCATCAGTTTTTTCTTTGAAATATCGTAGGAAGAAAATTTTAATGATTGTAAATTTATTTTTTCTTCAATAATTTTTAAAGCAGCATCAATAACATATGGAGCTCGAAAACCTAGACCTAAGTTTCTTAACTTGAGTTCTCCAAAAGTTAATATTTTTTGTGGAGAAGGAAAAATATAATCAATTTCTTCTGGACCAATCTTTTCTCCTATTTTCATAATACTTTGTACATTTTTTGTTATCTTATTTAAGTTAGAAGCAGCAGAACATATAAAACTTACTAAACATTCCCAAGGATCTTGATTCAAAATTCTAAGACCATAATATTTATCTAATGAACTCTGTATAGCAATGTCTTTAAGATTTCTTTCAGAAAATTTTTTTAAATCAAAATTTAAATCTAAATATTCAGCAATTATTTGATTAATAAAATTTAAATCATCATTGTTGTAACTATTCCAACAAATCCCTCTATCTTTTTGTTGGAATTCTATAATTACATTTCTTATAACTCCTCTAAACCGTTTATTCTTAATCATCCACCGAAAACTTTGTCCTCCACATAAAGAAGATTCCAAATCTATTGGAGTATCTATGTATCCAGATATTTGGTTCTTTGTCATTTTTATTTTTGATCTATCCAAGATTTAATTTTTTGTCCCAAATTATTAGATCCAGTTTCCAACCAATCATATCCAGGAATAGATTCCACAAAATCCTGCCCATATCGTTTAGAGATAATTCTATTATCTAAAACAACAAATGCCCCAAAATCTTTATTAGACCTTATCAATCTTCCGAATCCTTGTTGGAATTTTTTTACAGCATCAGGAACTGCAAACTCTATGAAAGGTTGGATATATTGTTCTGATCTCGCTTCAAAGATCGGATGTGTTGGTACAGAAAAAGGAAGTCTAGGAACTATCACTACTTTTAAGGGTGCTTTTTGAAAATCAACTCCTTCCCACATAGGACCAGTACCTAAAGCTACTATCTCTTTTGCATTTTCTAAAGATTTCACAATTTTCTCTGCAGGACCATTAACTCCTTGAGAAATCATTCTCATATCAATTTCCTTCAACGGTTCTTGAATATGTTTCCTAACAGAATTTAAGGCTGAATAAGAAGTAAAAAGTACTAAAATTCTATCTTTTACATTTTGAGATATATTAATTATCGCTTTAGATATATCTTCAATGTATCCATTATTATTTGGAGAGGTAATATCTGAAACTACAGTAAACAATGCTGAAGAAGAATAATCAAAACTAGGACTCATTTTGGGAACAGATAATCCTTCATAAAAACCAATCGAGTTTTTAAAATTTTGAAAACTTCCCCCTTCTCCTAAAGTAGCACCAGTAATAATAGTGGATCCTTCACTATTAAAAAGAATATTTGCCAGTTTTTCTGAGACCCTAATAGGAGCTCCATTTATTGAAATTCTTTCAAAATTTCTATCAGTCTCTAACCAAAATACATCAGTTTCAGGTTTTTCAACTAATGCCATATGAATTTTACTAGAATAATCTTCTATTAATTCAAAAGAAGTTTCTGATCTAAGAAGTATTTCATTTGCTCCTTCAAAAAAACCTTCAATTTCTTGAATCAATAATCTGGTGGACTCCCATTTTTTTAATAATTCACTAATATTATTATTTAGCTTGACCCACAAATCTGTATTAATTAACTCTTCATTAGTCTTCAACCTTAAAGTTCTATCATTAAATTTATCTTTTAAATAAATCCCTAAAGTTTCAGTAAAGGATTCAAATAAATTAATCGCAGATTCTCTAATCAAAATTAAATCAGATTTAATTTCACCTAACATTTTTATGATATTTTCCACATTAATAGAACCTAGAGAATAATCATTCTTATTTTTGTTAAATAAAGCATTTAATTGATTTAAAGAATTATTCTCATCTACTAAATCTTTGAATATTCCTAGAAACTCAAGTTCATGAATGTAAAAACCAAATATTGAAGTCGCAACATCTTCTAAATGATGTCCTTCATCTATTATAAAAACATCATGTGGAGGAATATATTCTTTTTCTGAATTCATGCCTGTAATTGCCAAAGAATGATTAACGATTAAAATATCTGAGTCTTGAGCATCTTCTCGAGCTTGTCTTAAAAAGCAATCGGGATAATTATAAACACATTGCTTAGAACCTTCTGCAGATATTCTATAAAAAAATTTTTCTAACCCTTTAAAATTCACATGTGATCTATCGCCTGAATTTTCATTAGATAGCCATAAAGCTGATTTAGCAAATACTCTTAATTCATTAATATTTCTAGGTATAAATTCATCAGATTTCGATCTGCAAAGATAATTTGACCTTCCTTTTAAAATTTTAATATTAATTTCTTCATGAGATATGCCCATTTTCTCTAACAATGAACATACTATTGGCCAATCTTTATTAATAATTTGATTTTGTAAACTTATAGAATTAGTAGAAACAATAACTCTTGGATTCAAATTACCTGCTTTTTTTGACTCAAGAATATATTTCGCCGCAGAGATTAAGTAAGATAGTGTTTTACCAGTTCCTGGATAAGCTTCAATAACTAAATTTTCTTTATCTTTAATAGCCTTTTCAACATGTTTAAACATTTGTTCTTGATTACTTCTTTTTTCATAATTCTCTAAAACATTTGATAAAACACCATCTTTGGAAAAAATTTTATCTGCAGATATATCAAATTCAGAAGTATCAAATTTTTCAAATTTATTTTGATTAGATTGTTCTTGATCTTTAATTACAACTTTTCTCTTTTTGACTGTTTTAGAAAATAAATCTGATAAAACTGATGGAGCAAAATGATAAGGAGGCTCAAAAACATAATTAAATTTAGAGAGTCTTATGATTTTTTCATAAGAAAGTTCATATAGTTTTTCTGAAAGAATTAAAAATAAATTCATAGTAGTTTCAGCATCAGACAAAGCCCTGTGTGCTGTCCCAGAGTCTATATTAAAATCAGACGCTAAATCTTGAAGACTATATCCTGAATCAGAAATTAATGTGAATGCAAGATCATATGTATCAAAAACTGATCCTGAAACATCTATACCATTTCTTTGCAAGAAACCAATATCAAAAGGTGCATTATGTGCAATAACTGAATGTTGAAGACCGTTATCATCTACTAAAAAGTTTTTTATTTTATCTGAAACTTCTTCAAAAATTGGCGACCGATCTAATTCTTCTTGAGAAATCCCAGTTAATTCTTTAATAAAATCAGATATTTCAAGTTTAGGATTAATTAAAATTGATAATTTCTCAGTTTTTTTAGTTAAAGGACTGAATTTTATACAGCCAATTTCAATAATTCTATCTTTATCTTTATCTACACCGCTAGTTTCCAAATCTAAAGCTACATAAGATCCTGTAGGACTAGCTTTAGACAATAATTTTTCAAACAATATTACTCCTAATAAATAGTAATCAGATACTATTTTAATTATATTCTATTATTTTATTTGATTGTTTATTTAGTCAAAATATTAAAGTACAATCAATTTTTTAATCATTCGAAAGACACTTAAACATGAAAGCAGCTAGAGTTTACAATAAAAGGAAAATAGAATTCTTAGAAATACCCCAAGATCCTATCGTAAAAGGATCTTCATTAATAAAAGTAAATGAAATATCTATTTGTGGTTCAGACATAAAAGTTCATTTTGATAGTGATTTATCATTAGATAAATATCCATTCTCTCCAGGAACACCTTGTCATGAAGTTACAGGAATTATTGAAGAAAGTGGAGACCCAAAAATTCCTAACGGAACAAGAGTATTAGTAATTCCCAAGAATGATGATGGAATGAAAGAATTTATAGTTTCAACCTCAGACAGGATTATACCTTTACCAGAATGGGGAGGATTAGATGAATGGGTAATGTGTCAGCCAATAGGAACAGTATATTATTCATCTAAACAATGGGGAAATCCTAAAGATAAAAATATTGTTATTTTAGGACAAGGGGCAATAGGACTTGGATATACAATGATAGCTTCCAAACAAAACCCATCAAAAATTATTACCATAGACCCTTTAAATTATAGATTAGAAAAATCTCTAGAATTGGGAGCCACACATACAATCAATCCGCTAGAGAATTCATTAATAGAAGGAATAAATGACCTAACTAAAGGAAAAGGAGCAGATATAGTTGTTGATGCCTCAGGAAGTAAGAACGCATTAAATCAATGTATTTCAATCACAAAAATTCAAGGATTAATTATCTGTTTTGGAATTATTTCGGAAAAACATTCTAGAATTAATCATAATGAATTTATAAAAAAGAATTTAAATATTAAATCTACTCACCTAGCAACTACTGAAAACCCATTAGTAGAAATTAAGGAAGTCGTAAAATTAAAAAAAGATGGTATTTTAGATCCAGGAATTCTAAAAACTCATAATCTTGATTGGGAAGATGCTCAAAAAGCTTTTGATATGTATTCTAATTATGAAGACAAAGTAATTAAAATTTCTTTAAAAGTTTCTTAATTCAAATCCATAAAGGAAGCATAGGCATTATCCAAATATAACCTATAATAAATAAAATCATCTGAATTATAATATGCTTCCAAAAAGTCCTGAATAAATAACAAATAATAATTCCTAAAAAACCCACAAATATTGTGAACAATATTTGTAATAAATTCCCCGAAATTAAAAAAAATATAATACTTAAAACAAACCCACAAATTAAATGCGTTAAATGAATGAGAAATACAAATAAAAGAAATCTATTAGATTTAACTTTTTTATTTATCATTACTTGAAAAAAATTTCTATCAGATATCATAGCTATAGAAAAATGCCCTATTGTAATTAAAGACATTACTGAAGAAATTATTATTCCAAAAACTATACTAATTATCATATAAATATTTATTACTTATCACATGTATATGTATTTAAAAAAGGAAGATTTATTTCTGAAACATCATCAGGTTTTTTTATTACACTAAAAATAGATGGACCTGCTCCACAAAGAATCGATTTTGATCCTGTAATATTTGAAAGATCCTTGAACCTTTCATTGATATTAGGAAATGATTTTTCTGCAATTTTATTAAAGACATTATAGAAAATATTGTCATCAACAGGATCTTGATTCTTTAAACATTTCACCAAATTATCAGTATTTTCTCCATTAGAAAAATTATTTTCTGTTAATTCTTGATACATATTCTTTGTCTTATTAAAGCCTGAATAATTAAAAAATGACAACATTATTGGAGTTGTTTTAATTAAAGGAAGTTTTTCTACGATTTCACCAACACCAGAAATTCTAGCAGTACCACCAATTATAAAAAATGGGACATCTGATCCTAATTCAACTGCAATTTCAATCAACTCACTTCTAGTCAATTTTAAATTCCATAATTTATTTAAAGTCATCAAAGTAATTGCAGCATTACTTGATCCTCCTCCAAAGCCAGATGAAACAGGAATATTCTTAGAGATTTTAATATGAACTCCTTCATTTTTAATATTGAATATTTTTTTCAACTTTTGAATAGCAATGAACACCAAATTAGATTCTTGAGGTATGTATACATTATTACAATCTACTTTAATAGAAGTTGCACTAGAAAATTCCATCTCATCATGTAAATTAATTGTTTGAAAAACACCTGTAATTTCATGCAATGAATTTTCTGTTTTTCTTAATACCTCAAAAGTTAAGTTTATCTTAGCAAAAGATTTCAATGAATAAGAAGAGTTTTTAGAATGTTTTTTTATTTCTTTCATATAAATCAATCCAATCATTTATTGTTAGTAAAGATGGCCTAGAATCAGGATCCACATTAGTATTTTTTAATAACTCAATTATCTGTTCTTTAGGGACAGATAAGCCAAAAGAAAGAGAATTGGAAATCTTTTTTCTTGGAGAATTAAATCCAGACTTAACAAATTTAAAAAAGTCATTTGATGAATCTACATTATAAAGAAAATTTTCTCTAACTTTAATTTTTACTACTGAAGAAATAACTTTAGGTGGAGGAGAAAAACTTTCAGGATAAACATCGAATAATTTAAAAACATCCCCATAAAATTGAGTAGCAACTGAAAGCAACTTCATTTTTCCCACTTTAGCACTCATTGATTCAGCCACTTCTTTTTGTACCATAATAATTAATTCTTTTGGTCTAACAGAAGATTCTAAGAAATTTCTAACAATAAAATTAGCTGAATAATAAGGCAAATTACCAATTAATTTATAATTAAAATCTTCTAAATCTAATAATGAAGGGTCAAAATATCTTGCATCCTCATTGAGAATTTTTACCGAAGAATTAAAAGAATATAATTCCTGTAATTTTTTTGATATTTCTTTATCTATTTCTATTGCAAAAAAATTAGAACAACTTTCAATAATTTTTTTTGTTAAAGCTTGATGGCCAGGGCCAATTTCAATCACATTATCATATGAATTGATTTTAGCTTCTTCTAAAATTTTATTTCTTACTTCATTATCTATTAAAAAATGTTGCCCATATATTGGGGTTCCAGTTCTAACCATTACTACTCTTGTTTATCACTTTTTAATATAGACATAAATGCTTCTTGGGGTACTTCCACACTTCCAACTTTTTTCATTCTTTTTTTACCTTCAGATTGTTTAGCTAAAAGTTTTCTTTTTCTAGTTATATCTCCACCATAACATTTTGCAGTAACATTCTTTCTTAGTGCTTTTATGGTTTCTCTTGCTATAATTTTTCCTCCTATTCCACCTTGAAGAGGAATATCAAACATTTGCCTTGGTATCAATTCTTTTAATTGTTTTACCAAATCTCTTGCCATAAAAACAGATTTCGTTCTATGTGTAATCACAGATAGAGAATCAACTTTTTGTTCATTAATAAGAATTTGAAGTTTTACTAAATCTGAAGGTCTAGAAGAAATTTGAGTATAATCCATAGATGCATATCCTTTAGAACATGATTTTAATTTCCCATGAAAATCAACTAAAATTTCTGATAGTGGAATATCAAATTCCATTAATACTCTAGATCCAGATAACTGACTTCCTAATGTATTAGATTGAATCCATTCAGTGTTAATAAATTCTCCTCGATTAGATGTAACTAATTCTGTAATTGGACCTATATATTCAGAAGGAGAAATAATAGAGAGCTTAATCCAAGGTTCAAATACTTGATTAATTTTTTGGTTTTCTGGCCATTTCGATGGATTATCTACTTCTATTGAAGAATTATCAGTTAATTCAACGTTGTATTTAACTGTTGGAGCAGTTCCTATTAATTCAATATTATATTCCCTTTCTAATCTTTCTTGAACTATATCCATATGTAATAATCCAAGAAAACCACACCTAAAACCAAATCCTAGAGCTCCTGATGTCTCAGGTTCAAATATTAAAGAAGCATCATTCAATTGTAATTTTCCTAAAGCATCTCTTAAATTTGGATACTGTTCTCCATCTACAGGATATAATCCACTAAAAACCATTGATTTAAGAGTTTCATATCCGGAGAGACTATTTTTTGCAGGATTTTGAGAAGATGTTAAAGTATCCCCTACTCTACAGTCTCTAACATTTTTAAGACCCGTTGCTATATATCCTACTTCACCAGTAGATAAAACATCTTTTTTAATTAAATTGGGAGAAAATATTCCTGTCTCTAAAACATCACAATCTTTATTAGTGCCCATTAAATTTAATTTTGATCCTGCCTTTATTTCTCCATTCACTACTCGAACATAGGCTAAGACACCTTTAAAAGAATCATATTTAGAATCAAATATTAAAGCCTGTAAAGAATCATTAGTTTCACCTTCAGGAGGAGGTATATCATTTACTATTACTTCCAATAATTCTTTCACCCCTTCACCAGTTTTTGCCGAAACAAATAAAATTTCTTCTTCTTTAAAACCAAATGTGTTTTGTATTTCTAAAGAAACTGCTTGAGGGTTTGCTAATTTAGAATCGATTTTGTTTATAACAGGAATAATCTGTACACCTTGATCTAAAGCAAGATAAATGTTTGCAAGAGTTTGTGCTTGTATGCCTTGAGTACCATCTACGAGTAATAAAGCTCCCTCACAAGCAGCTAAAGCTCTGGATACTTCATAACTAAAGTCAACGTGTCCTGGAGTATCAATTAAATTCAACTGATAAACGATATTTTCTTTTGACTTATAACTCAATCTTATAGCTTGAGCTTTGATAGTTATTCCTCTTTCTTTCTCCAAATCCATAGTATCAAGTAGTTGATCAGAATCACCTCTTACAGAAGAACCTAGAGTAATATCTATCAATCTATCAGCTAAAGTAGATTTACCATGATCGATATGCGCAATTATTGAAAAATTTCTGATTAACTGTTTTTTCATATTTCTGAATGGTGGGGGAGAGAGGATTCGAACCTCCACGCCTTTTGGGCACATGCTCCTAAGGCATGCGTGTCTGCCATTTCACCACTCCCCCTATTAATTTAATAAATTTATTCTATCGAATATTTTATTACCTTGACTATAAATACTTTTACAAAAGTTATTTCTTAAATGTTTTGTACCACAATTGAAACTTTAACAACATCCAAATTGTTTCAGCACCATAACGTTTTTGAGACATATGATCATCAACCATAGCATTGATCTTTTTAAAATTTAAAATATTTTTTAAATCAGGGTTATAGTTTTCATGTAAAGTTTCATTCACTAAATCTCTAAGACCTTTTCTTATCCATTTAGAAATTGGACTTACCCACCCTTTTTTAGGATGATTGAGAACATTTGAAGGGATATACTCTTTCATAGAATCTACAAGTAACCTCTTACCTCTTTTTCGATTCAATAAAGAATATTTAAAATCTGGTCTTATTTTCGATGATAGATCAATAATATCCAAATCTAGATAAGGTACTCTATTTTCTACTCCATGAGCCATAGACATTTTATCTGCTCTATTAATGTAATCATCTAACATCCAACTATTCATTTCTGCATTAATTAAAGAATCAAAAGTTGATTTTTTATTAAGAAACGGAGTAATAAATTCTTGCATAAAATTCAAATAACTTGTTTCACTATATAATTCTGGGGTTAAAAATTCTGATGGAATATATTCTTGATTGTTTGCAAATGATAAATATAAATTTAATAAATTATCATAGTTTAATCTATTTATTTTCCGACTTTGATTTAAAATATCAAATAATTTAAAAATTAATTTATTGTCCCGAAATATTTTTGGGATTTTCTGCCAATAATCAATGATTCTATAAGAATGATATCTATGGTATCCTCCAAAAACCTCATCACCTCCCTCTCCACTCATTATAACTTTCACATGCTCAGAAGCTTTCTTGGCTAAAATATAATTAGTTATTAAAGTAGAATTTGAAGCTGGTTCATCCATATGCCATACTACTTTTTCAATATTTTCAATTAAATCAAGTTCTGTGATCTTAACTTCATGGTGAATTGATCCAAAATGTTTTGCAGTCTCTCTTGCAATATAAAAATCAGAATTAAATTTTTTATTATCATAATCAGAATCCAAATCAAAAAAGGATGAAAAAGTATTAACAGGAGATTCGCTATATTTAGACATAATAGCCAACAGTAAAGAAGAATCAATTCCTCCAGAAAGAAAAAGTCCTACAGGAACATCTCCCACAAGTTGATCTTTTACAACATTATGAATTTTTTCAGAGATTTGATCTCTAATTAAATTTTTTTCAATATATTCTGTTTCTAAATTATTAGAATAGTATTTATTAATCTTAATATTCCCTTTACTGAAAATAAGGGTATGACCTGGCAATAATTTTTTCACTCCCTTCCATATAGTATTGGGACCCGTAATATATCCAAGATTAAAATAAACGTTAAGAGAAACTTCATCTATTTCTAGATTAGGAACCACAGAATATATAGCTTTTAATTCTGAAGAAAAAATTAAATTATTTTCATGAAAGAAATAATATAATGGTTTTACTCCTAGCGGATCCCTAGAAATAATCAATTTATCTTCTTTTTTATCCCATATTGAAAATGCAAATATTCCTCTTAATTTTTTAAAACTATTTAAACCTTCTCTTTCATAAAGTTTCAATATTACTTCTGTATCACTATCAGTATTAAAATTAACTCCTTTATTCTGAAGATCAGCCCTAATTTTTAAAAAATTATATATTTCTCCATTGTAAGAAATAATCAATGAGTCATTATTATTAGACATAGGTTGATTTGCTTTTGAAGATAAATCTATTATTGAAAGTCTACAATGACCCAAAGTAACCGAAGTATCAGAATAAATACCTGAATTATCAGGTCCTCTATGACTTGTATTTAGAATCATCTTTCTTACTAAAGATTCATTGTTAGTAGTTATTCCTGATATTCCACACATATAAGTAAGTTTATAAAAAATTCTTTAGGTCTACTAATAAGTAAAGGTAATAAGAAAATATCATTTCTGTTAATATCTGAAAATATAATTATTCTAGGAAAATTTATGAAAAAATTAGTTGATGAACAAGCAAACGTTGGAGAAGGCCCTCTATGGGATCCCAACACCCAATTACTATATTGGACTGATATAAGATCTGGAAGACTATTTAAATTCGACCCATCTGATAACAGTAATAAAACAATTCATTCGGGAATATTCATTGGTGGATTTTCAGTCAATTCTCAAGGAGGACTTCTATTAGGAACATGGAGAGGTGTTATGTTGTGGGAGTCAGATGAAAAATATAAATGGATTCATTACGGAGAGTTTGAAGGTGAAACTTTACAATTTAATGATTGTATTGCTGGTCCTGATGGATCTTTTTATGCAGGAACATTTTTTGATAGTTCTATAGAAGGAAAAGAAAAATTAGGAAAACTATATAGATTTTTTCCTGATGGAAAAATTGAAATTGTTTCTGAAAACCATGGTTGTTCTAATGGAATGGGATTTTCTCCTGACCTAAATTGGTTTTATCATACTGATGCAGCAAAAAAAACCATATATAGACATCACTATGACAAAAAATCTCATGAAGTAGGAGAATCAGAAGTTTGGTTCCGTTATGAAAAAGAAGGTGGAACAGATGGAATGACAGTTGATTCTGAAGGATTTGTTTGGAGTGCCATATGGGGTGGTTCTAGAATTATAAGAATTGATCCATCAGGAAAAATTGAAAGGGAAATTTTAGTCCCTGCAGTACAAACATCAAGTTTGATGTTTGGAGGAAAAGAGCTAAAAGATATTTATATTACTACAGCTGCATCACCTCAATCTAAACATGACTATGAACCAGATTCTTATTTAGGCGGATCATTGTTTTTAGAACAACAATCAATAAAAGGAAAACTTGAATTTGAATCTAATTTTAGTTGGGAGTGAATAGAAATTATTATTTTTCAAAACAATGTTCTGAAAATCTAGAAGAGATTATTTCTGGTTCTATAGAAACTCTTGGAACTTCTAAGTTTTGATCTTGAGAAACTTTAATATTTACAAAACTTAAAGATTCAGGAATTGATCTAATAAGATTACTTAATTCATCCTGATTTCCCTCAATAAGATAAGAATTTTCATATCCCATAGACTTAGTTATAAGTTTGAAATCTAATGAATTAGAAATTGTTTTTTGACTTCCAGTAGATTGATAAAGTCCATTGTCTAAACATATGTGTAAAAAATTTGAAATCCCCAAATATTTAGGTAGTGGTAATGTATTTAAACTCATAAGAAGACTCCCATCTCCATCCAAAACAATGACCCTTTTACTTTTATTGATCATCGCAATTCCTAAACCAAAAGATGAGGCTAAACCCATTGAACCTATCATATAAAAATTACTTGTTCTTTCTTTAATATAAAAAACTTCTCTAGAAATCATTCCTGTTGTAGAAATAACTAGATCATTATCATTTATTTCAGACATAATAATTTCTATAGCTTCAAGACGGGTAAGAAGACTCATTTTATCACCCCTTTATTTATAAGAATTATTCCAGGAATATTTTCGTTATAAATTCTTTCTATCAAACCATCTAATTTATTAAGAAAATCTTGGTTTTCGATATCTTGATTCTCTATAGATGTAAAGGGTAATTCTAAATCTTTAATAATTTCTGTAGTTTTTTCACCCATTATCCAATGCTCAGGAGCGTCATTAGGTTTTCCGCCATAACCTCTCCATCCTATAACTATTAAAACAGGGATTTTATAAATTCCATTAAAAGAAGTAACAGCATTAATAATATTGCCTAATCCTGAGTTTTGCATTACCACACAAGATTTTTTTTTGGAAATTGAAAAACCGCTAGCTATTCCTATAGCTACATCTTCTTTTGGAGCAGGAACATAATTCAAATCTTGATCATTTTCTAAAACACTAAATAAAGAACCAAATGTAGAATCAGGAACACCAGAAAAATATAAAAAATCTCTTTCTTTAAGTGCTTTAACAAAATCTTCTGGTGACATTTTAAATCTTTAATTCATTTTGAGCTTGCTTCACATCATCCATAGAATGTATTTCAATCCAACCTTTATATGTTCTTCTAGCAAATACTTCATTACCCCTATCAATTAATTCCTGAATTACATCAGTAAGATCAGCGGTTTCAAAAGATTTCGCTTCATGAAATTTATTTGAAGATTCATTTAATTCATCAACAATTTTTAATAATTTTTGGGCAGCAGATTTAGAAAAATACCCCATTCCTATAAACTCTCCGTCTGCTTCATTTATAGAAATAGATTTTCCTATATTTGTTATCCTTTCTAATGAATTAGTATTTAAACTTCTAAATTTTGTTTCAGAAGATTCTTCAGTAATTATTAAATCTAATTTTTTATCTTGATTATGTTTATGAAATTTATAAGAATTATCTATTCCGAGAACAATATCCTTATCAGAATTTATCAAAGATATTAAAAGTTCTTCATTAAATATTATGTCTCCAAATATAATCAAAAAACCATTTTCCATGCTTTCTCTTGCAGAAAGTAAAGATTTAAAAAGTTGATTTGATTTAGAAGAGTTGGTCTTACATAGATTAACTCCATTCTTTTCAAAAATTTTGAAGTCATTATTATTCTGAGGAGTAATTACAACTATTTTATCTAATCCAGCTTTATGAATTGATTCTATTTGATGTTGAATAATAGGAAAATCATTGATTTGTAAAAATGATTTCGAAGTATTATCAAATTCTTTTGAATCACCTGCAGAAGGAATAATAACATTTAAGTCATCTAATTCATTCTTTTCATTTTCTCTCTCAACAATTTTGTCATATCCCACAATAGAAAATACTTTTTTCACGGAAACTATTTGATCATCCACTTCTTTACTTCTATCAGAATCAATAATTTTAGAAGCGGTTTCAGACATAGCTTCAAAAGAAGCTCTTAGGAGATGATTTGCGTGAATAACAATATTAAAACCTAAATCTTTAAGTTCTGAATCTTTTATAGAATTATATGTTGTAGGTACAGAAATCAGAAAAGGTCTTTTATTTAATTTTTCACACAAAACTTTAAATTTTTTAGAAAAAGTAATTATTTCTTCAGGATTTTTTAACTTAGAATGTATCATAATCCCATCTGCACCAGCTCTCATATATTTTTCTGCACGTAAAACAGTATCATTCATTCCGATTCCTGCAACTAAGCTTTCCAGTCTTGCTATTATAAGAAAATCATCCGTGGCTCTAGCATTTCTACCCGCCACAATTTTCTTTGAAAATAACTCTGGATCTTCCATTGAAGAAGCATCAGTCCCACCAAAACTATTTCTTTTTGGGAAAACTTTATCTTCAATAATTACTGCTGATACACCAAGTCTCTCTAACCTTTTCACTAAAAATCTAAAATTATCGGAATCTCCACCTGTATCACCGTCAACTATCATAGGTTTAGTTGTAACATTTAATATTTCATTAATAGTATGTAGTCTACCTTCATTGCCTACTATTGAAGCATCAGGTAAACCTTTAGAAGCTGAATCTGTAAGACTGCTTTCCCAGATAGCATCAAAACCAGAAGATTCAACTATTAAACCACTTAATCCACTATGAGCTTCAATAGCTCTAATAAAACCAGTTTTATTAAGAGTGTTTTTTAGTGATCCTAATCGTTCCCATGGCAATATGTTAGATTCAAAAGTCATATATAATAAATTATAGAAATTAGACTAATTGATTGTATATGTTGAAAAGATAATTGTCATACATCTGAAAGAATTTAATAAAACAATTATAATTAAATTAATTTATCAAATGAATACTATAAATAAGGAAGATATGAATATTACAAAAAAAACCTTTACATTAATTATTCCTTTGATTTTTATTTTAATAATCATAAGTGGTTGTAGCGAATCAGATGAAAATGCCAATAAGATAGATAAAATTACTGATACTGAAAAAATCTTCACAATAGATGATTTAACTAAAACAGGATTTAAGAAAAATAAAACATATAAAACTGATGATCTACCTGGTGCAAACTCAGCTTATTATGGTTTTACTAGTAAGAAAGATTCAAATGGAAAAAGAGTAAGCGTTGATTATGAAGTAAGATTTTTTGATTCACATGAAGATGCTAAAAACATAGGGGTATCATTAGTAGAAGAAAGAGTAGGAAAAGATNCAAAACTTACAAAAAATGATGCTACATGGAAAGAAGGTGTTAAAGAAGCTCGAACTTGTGGAGGAGATTCTGGACATGGAAAAGGGTATTCTTTAGTAGTAGCTTCATCAACTTGTAATCTAGCAAAATATAATGATTATTATATTTACGGAAACATGATTTTATTATGTCAAGGAAAAGATGATTTAGAATCTCAAAAAAATTGTAACGAAATTTTATTAATTTTAGAGAATCCTAGTCCTTAAAAATAACTTTTACCATAAACTCATAGAGTCAGAAAATAATCCTTCCAATTCTTTTTTTCCCACTTTTAAAGGAGATAATTTAGTAACTCTATGTTGTGGTAAAGTTGCTTCTACTAATTTAGGTATATCATCATGATTGTATCCCAATTCCTGAAGACCATTAGGCATATTTAAGTTTCTTAATAAACTTATAATTTTCGATGATAAAATTTCTCCAGGTTTATCATTAGAAGACAATTCATCAGAATCCATTAAAGAAGCTGCATTTAAATGCCTTTCAGGATTAGATTCAAAAGTAAATTTAAAAACTGCAGGGGCATTAATAATTACCGATAAACCATGTGGAATTATTGGTTTTTCATCAGGGTAACCCTCTGGTAAATATTCCTTAACATAACCAGATACAGCATAAGACATACCATGAGGAAGATGGACTCCAGCATTTCCAAATCCTACACCTGCCAAAGTAGAAGCTAATAACATATTTTCTTTATATAAAATGTCTTCTGGATATTTGATAGCGCTCTCAATATTTTTAGAAACTAACTCTATCGCTTTTAGGGCAAATATGTCACTGATAGGATTAGAACCTTGATAAGCAGGACGAGTAAAAGGGTCACCAGAATATTCTCTCTCTGAAAAAGCTAATGCAGTGTAGGATTCTAATCCATGACATAAAACATCAAAACCACTACAAGCAGTTACCATATTTGGCATAGTCATAACATTATTTGGGTCAACAATACCTATAGAAGGTCTTAGATATCTATCTGAAAGACCAGTNTTTGCATTAATTTCCTCTAAATCAAAAATAGCTCCGCCTGAAGTTTCACTTCCTGTGCCTGATGTAGTAGGAATTGCTATCAAAGGTTTTAAAGGACCAGGAATTCTTTTTCCTTTTCCTATTGGAGAATTAACATAATCAAGAAAATCTGCAGGATAAGTTGAATATAAGTTTGCAGCTTTAGCAGTATCAATAGTAGAACCACCTCCTACTGCTATAAAACCATCGAATGAATCTGAGTTAGCTATTCTAGATGCATCTTTAAAAGAAGAATCAGTAGGTTCTATTTTCACATCTTTGTAAATTGTAAAATCTATATTTTCTGACTCTAAAGATTTGATAACATTTTGTACAACTGGTAATTCAAAAATATTTTTATCTGTCAAAATTAAAACTTTCTTAATTTCTAATCTTTTAGCTTCATAACCCACATCTAGAGTTGCACCTTTTCCAAATTTAATAGAAGAGTTCTCCATAGCAAAAATTTTCTCAAAATCAATTAAATTCAATTTCCCTCCTATAAAAAAATAATAAATTGCAATTATACTTTATATTAATTTTTCCTAATAATTATTATGTATATATAATATGAATTATTGATCTTGGTAATAAAAATTGATTAAAACCTCTAAAAATACATCATCTAATCAGACAAAAGTTTCTTATCTTTTCCCTTTATTGTTTTTGATAAGAAAATTCTTGTTTCCAGTAAAATTTTTTATAGAATCATTTAAAATACCATTAATTCTTATTAATATTTTTTCATTAATATTATTAATTATTGCTACCATTTTATTTTTAATTGATCTAGAAATATCAGGGTTTATCATTCTTTTATCAGGTTTTCTATTAACAATTATAGTAGAAGATTTACACTTTAAAAAACATCGAATATCTTATTTCAAAACAAAAAATCAACTAACAATAGTTGGNTTGTTTTCTATTTTTAGTCCTCCTTTATTATTAATAGGTTTACTAAACCAAGAATCAATATATTTTCCTTGGTTAATACTGTTGTCTTTTTGGAGTACCATATTTTATTCAATTCGGAGAAACAGTTTATTTTCAAAAACAAACCCAAAAAAATATACAAATAATTGGATGTCAAAAATTTTCTTATCTCAATTAATTATTAACGATGAAATAAGACAACAAAGTAAGTTTTCATCTATACTTTTTTTTATTCAAATGAATATTAGTTCTAATTATGGAATAATATTTTTTAGTAGTTTAACTTTATTTCTTTTTTACAAAAATTTATCTGTACTTTTATTAACAATAATGATCATAACTCAGCTTTCTTTGAGTGTATTTTTGACATTAGGATTCTTGTTTTTCAAAAGATCTATAGAAAATGAATAAATTGAATAATAAAAAACCATATCAAGTATTATTATTTTTAACTATTGGCATAATTTGTGGATCTTTAACCGGAATAATATTTGTAATAATACAAAGATTATTAACTTTTGATTCAGAACTTAATCTCCCAGAGTTTTTCATACTGCTATTGAGTCCAATTATCGCATCATTATTAATATTCAAACTTTTTAATAACTCTCTTGTAAAAAATTGTTTAATATCATTTTTAACCTTGATAATCCCAATACTTGGGGTTTCTTTTGGTTCAGGAAATTACTCATTTTTTAATCAATTAGGAATATTTTCGTTATTGGGAGGAATAGGAGGATTATTTTGGAGCATTCCTTTATCTTTACCAATATTATTTAAGAAAAAGAAAATTAATAATTAAATGATAAAATTTTATTATGTCTAAGTCTGAATTAATCAATTATTTTCAAAATAAAAGAAACACAAAAAATCCCATATTGCTAATTCATGGATTTTCTTCAGGATGGGAAGAATGGTTAGAAGTAATTAAAATTCTGGGCAAAGAAAAAACTATTATTGCTGTGGATATTCCGGGCCATGGAAAATCTTTAAAACTAGAAAAATATTCCCTTGAAAATTATTCTGAACCATTAATTGATTTTTCATATAAACATTTTAAAGAACCTTTTGATGTTATAGGTCATTCTCTAGGTGGATTAATTGCTATTTTTGTAGCTAGCAAACTTAATAATTTAGTAAGAAATCTTGTTTTAGAAGATCCTCCAATTATAGAAAAAAGAAATAACAAACCTTCTATAATAGATTTACTTGATCAAGAAGCAAAAGAAAAAATAAATTGGAAAAACTTGAATGATGCAGAAGAATATATTAAAAAAATTGATCCAGAAATTTCTGAAAACAAATTAAAGATTAGAAGTAAAAATAAATTTCTTGCAGATATAAAAGCTTATGATTTCACTTTTTTAAATGAAAACATATCGACTCCCAATTTACTTAAAAATATTAAATCGAGAACTTTGTTAACATTTGGAGACCCTGAATTTGGTGGAATTTTATCAGCGGATGATGCAAAAACAATAAGTACACTTATACCAAAATGTTCAATAAAAAAATGGCAACTAACTGGTCATGGAATACATAATGAACATACTAATAAATACTGTGAAATGATAAAGAAATTTATTGTTTAGGTAAATTATTTTTGGTTCTCTATCTCTAATTCCAATAAAAAATCATCCAAAAATATGATATCTTGAAATTGAAGTAATATGTGATCTTGTTTCCATTTATCAACCCATTTTTTTGCTTCTAGAAAATCCATCCTAACTAAAGCTAATCTGATCATAGATTCTTGAGCATTAATATGTTCAGGAGACAATTCAATAAGTTTTTCAGCATGTTTTTGAGATTTTTTCAAGAAAGATTCATCCAATCTTGATAAGTTAAAATAAAAATTAAATAATGCCTGATGAAGTAAGAAATTTTCAGGTTCATCTTCTAAGAGTGAAGAAGCTTATATCAGTTTTTGAATCCTTTGAAACATTTTGCACTATCATATCAACAATTATTCCACCTTCAGATAAAGGACCA
>sequence08
ATATTTAATTGCTCCATGAATATTCTGAATCCCACTCTATCAAACTATAGATTCTGCCCAATAAGTGATTGGTGGGCCCGGCAAGACTCGAACTTGCGACCAATCGGTTATGAGCCGATCGCTCTGACCACTGAGCTACGGGCCCCACATAACAATGTTACTATTTTAAGATAAACTTACGGAAATACTAGTATTTGAATAAAATAGTTACATAAGACAACAATAATAATGCGGGAGAAAAGTTTTGCAAATAACTGATATTAAATTTGAAGCTTACAGATGGCCCAGAACTAAACCTATTACAAATGGCCTTTATACCTACACCCATGCCGGGTTAAACGCAATAATAGTTGAGACCGATGAAAATGTTCAAGGGTTAGGATTAACAACTGATCTTGTATCTGCAAATATAATATCCGCAATAGTAGAAGGATTAAAACCTGCTTTAATAGGAAAGGATCCTTTTGATAATGAAAGACACTGGCATGAGATGTGGAGACCTAAACTAGTTGGAAGAAGAGGCCTTACCACCCGTGCAATCGGGGGAATAGACATTGCATTGTGGGACATCAAAGGAAAAGCATTAGGCATTCCGCTTTATAAGCTCCTTGGAGGTTTTACAAATAAAGTAGAAGCGTATGTTGCCGGCGGTTATTACGAAAAAGGAAAAGGGTTAAAAGAGTTAGCTGATGAAATGAAATCCCACCTTGATATTGGAGCAAGAGCTGTAAAGATGAAGATTGGCGGTGTTCCCATTAATGAAGATGTTGAAAGAGTAAAAGTAGTTCGTGAAGCTATAGGAAAAGACATAAAGCTCATGGTTGATGCAAATAATGCATACAGGCATTACCAGGCTATGGAAGTAGCTAGAAAGATAGAAGAATATGATGTTTTCTGGTTTGAAGAACCCGTAGAGCCAGATGACTACGAAGGCTCGGCAATAATAGCAAGATCGACATCAACACCTATTGCAGCTGGAGAAAATGAATATACCAGATATGGATTCAGAGACATGATAAACGCAAGAAGCGCTGACATTCTTCAGCCTGATGCGCTAGTTCTTGGAGGAATAACCGAATTCATGAAAATAGCTGCACTTGCACAAGCAAATGATTTAGACATTTCTCCACATGGAGCACAGGAAGTACATATTCACCTTGTAAGTGCAATTCCCAATGGATTAATTCTTGAATTTTATAACGACACACTTGATCCTATGTGGGGTAAAAGTTATACCGAAACAATAAATATTAATGATGGTTATGTTTCAGCCCCAGATCTTCCAGGATTAGGATTGGAATTAAATAAAAAAGAATTGGAAAAATACAGAGTACTCTAATAATTATGGAAGAAGTTTACGCTGCAGCAAATAAGGAATTAAAAAGTAACAATGACTTTGTTATTGCTTCTGTTGTCCGAACATCGGGATCTACTCCACAGAAACCCGGAGCTAAGCTCTTAGTAAAACTTGACGATACGTCCGTAGGAACACTCGGAGGAGGATGCGTAGAAGGAGACATATGGTTTGCCTCTAAAGAGATATTGAAAAGAGGAGGAGTATCATCAGAAAAAGAATATTATCTAAATGAAGACATAGCAGCACAAGATGGTCTGGTGTGTGGTGGAACTATGTATTTTCTGATAGACCCTGTAAGAAAAAAAGAAGAAGATTCAGTACTTTCAGAAAAAATTATAGATGAAGTCAATTCTGCATATGCCGGAGGAGAGCCAGTAGCTCTTGGTACTTTAATAAAATCTTCAAATCCTGAACAATTCCCTACTGGAAAAAAAATATTAGTAAGAAATGATGGCTCAATACTAGGAGATTTAGGAATTCAAGAATTAAATGAAAAAATAATTTCAGAATCAAAAGACATTATTCCTTTAGGTAGAAATAAATACCTAAAAACAGATGAAGGTAATGAAGTATTCATAGAAGCTTTTATTTCTCCTCCTACTCTAATTATTGCTGGAGGAGGTCATGTAGGAAAGGCTTTAGCACCTATCGCATCTTCTGCAGGATTTAGAATTTTTGTAAATGATGACAGAAAAGAATTTGCCAACAAGGAAAGATTCCCAATGGCTGAAATAATCTGCAATAAAAATTTTGAAACATGTATAGAAGAACTTCCAGTAAACACAAACACATTTATAGTAATTGCAACCAGAGGTCATAGATTTGATGATGTTGCACTAGAAGCTGCTGCAAGAACAAAAGCCAGTTATGTAGCTTTACTCGGAAGCAAAAGAAAAACCATCCTGATTTTTGAAGAATTAATTAAAAGAAACATCCCAATAGATCGTTTATCAAATATCAAGGCTCCTGCAGGATTAGATATCGGAGCTAGAACTCCGGAAGAAATAGCAATCAGTATAGTAGCTGAAATGGTAGCATTCAGGTTTGTAGGAACAGGAAAACCAATGCAATTAGATCAAAAGCTAATAGATAAAATCAAAGAAAAAACTTTAACTGTTAAAGAGAAAAATTGACCAAAGACTCCCCTATTACTTCTATATTATTGGCTGCCGGTATTTCTTCTCGTATGGGTTCTATAAAAGCTCTTCTTCCATGGGAAAACAAAACATTAATAGAATGGCAAATTGAAAAGATTCAAGAATCTGGAATTCAAGAAATCATTGTTGTGCTAGGAAGTAATGCAGAGAAAATCAAGAATAAAATCAAGAATCTAGATATATCAATAGTTTTGAACCCTGATTATGAAAAAGGGAAAACCACTACAATAAAAAAAGGTCTTAGTGGCGTAAAAAACACTGAATCTGACATTATGCTTCTTGCTGTAGACCAGCCAAGACATGGATGGATATTAAAGAAAGTCATAGATGATCACATTAAAAATCAAACATTAATTAGCTGTCCAATTAACAAAGGATCAAAAGGACATCCTATTATTTTTCAAAACCAGTTAAGAAAAGAATTATTAGAGATAGAAGAAAAAACTCAAGGTATTAGAAAAATCACCACAAAATATTCTACTTCAGTTAATACAATTGAAGTAGATAGTGATACTGTAAACATAGATATAAATACTCCTGAAGAATACCAAGAAGCAATAAAGATTTTTTCAAGAGAAATAAACTTTGAGTAGTATGAAAACAGAATTAATCAAAAAAGCTAAGAACCATTTAAGACAAAACAAATTATCTTCATGGCTAATTTATAATTATAAAGGATCAAATCCATTCTTTGAGAAAATTATAGGTAAAAAAATAGATGGTTTGACCAGACCAATATGGTTTGTCATTAAAGTTGATCAAGAGCCTCTGATAATCACCCATAAGCTTGATTCTAATTTTGTTCGTGAAGAAGGACTAATTATAGAAGAATATACTGATAGAAAATCAATGATGAACTTATTAAAAGAAAAACTTCCAACTGGCTCCAAAGTGGCAATGGAATATTCCCCTAATGGACTTATTCCTAGAACCAGCTTTGTAGACGCTGGTACTATAGATATGTGTAAAAATGAGCTAGGTCTTAATATTATTTCTTCGGCTAACATAATTCAGGATATAGCAGGAAAATGGACAGAGAAACAATTAGAATCTCATCTTATAGCTGGAGAAAAACTAAAAGAAATACTAGAAGAAACTTTTGACTTCATTGGATCAAATATACATTGGAAATTAACTGAATTTGATATCGCAGAGTTCATAAGAGGAAAATTTGATAGATACGAATTAGAAACAGATCATGGTCCTGTCGTAGCAGTAAATCAAAATTCATCCCTGCCTCATTATGAACCCAAAGAAGAAACCTCAAGCATCATCACTAGAAACAGTTGGTTGTTAATTGATCTTTGGGCAAAAACAAAAACAGAAAATTCTGTTTACTCTGATATTACTTGGGTAGCACAATTGGGTGACACAATACCCGATGAAAACCAGAAAATTTTTGAAATAGTAAAAAATACTAGAGATTTATCATTTAATTTCATTAAAGATAATTTCAAAAACAACAAACTCGTAAAAGGTTTTGAGGTAGATCAATTTGCTAGACAGCATATTTCGGATTCAGGATATGGAGAATTTTTCATACATAGATTAGGCCATAGTATTGGTACAGATGTTCATTCCGTGTCTGTAAATCTAGACAGCTTTGAAACAGTTGATGAAAGAAATATAACTGAAGGAATCGGATTCAGTATTGAACCAGGAATATATCTTGATAATTTTGGAGTTCGAAGTGAAATAAATGTTTTCATTAATGATCAAAACCCTGAAATAACCACTCCTATACAAAATGAAATTATAACTATAAATACTAAAAGCCCCAGAAAAAACAACTGATGATCGGACTTGGAGAATCTTTGGCATTATTGTCTGCCTTATTTCATGCATCAGGTGGAATTTTTATCAAATCTATAAAATCAAAAATAAGTGCTTTTCAAATAACTGCATTTCGATTTTGGATCGCAACTCCATGTTTACTTTTATTGACATTTTTCTCGGTAGAAATATCTGAATTACCCAACATTCCTTTAATACCTCTATTGTTAATAGTTTTAGCAACGATAATTAATACGGCTGGAATATTATTGTTTACAACGGCCATAATGAAAGGAAGAGTAGGAATAACCTATACTACGTCAACTAGCATGATGATTTTTTTCTCTTTATTATGGGGAATACTACTAAAAATAGACACGATTTCTCTATGGGCAATTATTGGATCAATCTTTATTTTAACAGGAGTATATCTGGTAAACAGAACTAACAATTCCAATGAACCTAAAATAGATAAGAAGATTATGTTTCTCCCAATAATGGCTGCATTATTATGGTCAGTAGGGTTGATATTAACCGATTTTTCTCTAAAAGAAATTGAACCAATGATTACCGCTACTATTAGAGCATTAATTCCAGCTGTAGGATTCACTATATGGATCTTGATTACTAAAAAAGAAATAAGCATCTCAAATTTAACATTTAAAGATAAAAGCTTTATGGGGGCTAGTAGTCTTCTTGGTCTTGGTTCTTCTTTAAGTTTTATATTTGCTCTGTCTTTAACAAGACCAAGTATTACAGTAATACTAAACAGTGTGAGTCCAATTTTCGCAGTGTTGTTAAGTTTTATTTTTCTAAAAGAAAAACTTTCTTTACATCAAATAATTGGAGTGTTAATAAGTATTTCAGGAACTATGGTGATAGTGATAATGATTTAACTTAATTCAGTTCCAATATTTTCATTATTTGCTTTTTGAAGCAATTTGAAACCTATAGCAATATCCTCCAATGCTATTCCCTGAGATTCAAATAAACTTATATTCTCATTAGATCTTTTAATCTTTCCAGAAACTATATCTTCTAACAAAACCACGTTACTCCAATCAAAGCCAACTCCAGCCTGAATTAAATCTCCACACTCAGTTTTAGCCTGATTTAAGTCATCTACTACTATCAAATCACTTTTTTCAACCACTTCAAGATCTATTTCTTTTTTCGAAGCAATATTACTGCCGGCAGCATTAATATGGGTACCCGAAGATATCCAATCACCCATTAAAACAGGTTCAGGTGAATTTGTAACAGTAACTATAACATCCTTATCAATGGCAGATTCTTTTGGATCATCAGTAGGTTCAAGAGAAAACCCAAGTTTCTCAGTCATTTTTTCACAAAATTTTTCTCTGTTATCTGAATTTCTAGAATATACAATACAAGATTTGATGTTTTTTACTCTTGAAATTGCTTCAATTTGAGTTTCAGCCTGAAAACCAGATCCGTAAACACCTAAATCAATTGAATCATTAGTAGACAAATACTTTGTAGCAATACCAGAAGCTGCACCAGTTCTCAATTGACCTAGTCTATTAGCTTCAATCATAGTTAAAAGCTGATTGTCTTCCAGACTGTAAATTAACACATGGAAACTAAGTCCTTTTGAACCAGCAACATAGGATTTATAACCAACTATACCTTTCTCTTCCCAACTAGCAGCCATAAAGTTAAAACTAGAACCTTCAATGTTAATTCGTTCTCTAGGTAAATTAATTATTCCGCCTTTGGAACTTGCTAAGAATATTTCTTCCAAAGAACCTAAAGCATCATCCATTTCAAGTAATTGATTTACATTCTCTTCTGTTAAAAACTTAGCCATCTCTCACCTTTTATAATCATTATGGAATAAATTAATATCCATAACTATAATATGATAATTAACAAAAATTAAGTAAAAAGGGTAAATTAAATTTTGTGGAATTTTGAAGAAATACTACCAGAAAATGGTGATCTTACAGAAGGACCAGCATGGACTGGAAAAAGTTTATTAATAACTGATGGAAAAAGTGACAGAATCTTGGAAATAGATCCTAAATCAAAAAAATCATCAGTATGGTTTCATGGTACTCAAGGAGTTAACGGTTTAAACTTTAACTCTAAAGGAGAATTATTTGGATGTGAGCAACGTGGAAGAAGAATTGTTCAATACCTAGAAAATAATGAAAAAAAGACTATAGCAGAAAGGCTTGATGGAAGAAAAATCAACCACCCAAATGATCTAGCTATCGATCCATCAGGAAATATTTGGTTCTCTGATCAAATATCTACAATTGATGAACTTCCTCAATTAGATCACGCTTCAATTCTAAAAGCTACTCCACAACAAGATGGTTCATATAATTGTGAAAGAATGACTTTTGATACTACGTCTCCTAACGGATTACTTTTTTCAGAAGACTATAAAACTCTATATGTAGCTCAAAGTACTTTTAACGGCTTTGAAAGAAGGCAACTAAGAGCTTATCCAGTATTAGAAAATGGGAAATTGGGTGAATACAAATTACTTCACGATTTTGGCCCCCACAGAGGAATAGACGGCATGACTCTTGATTCAGAAGGAAACATCATTGCTACATGTGGATGGGAAATTTCTGGACCGGGTGGAATGATCTGTGTATTCAGCCCTAAAGGAAGAATTATTGAATCTCATTCTGTTCCTTGCAAAAGACCTTCTAACTGTACTTTTGGAGGAGAAAATTTAGATATACTTTATGTAACAACTTTAGAAGGACACTTATTTATGGTAAAAAACACAGGTAGACAAGGATATTTGCTCTACCCTGAAAAATAAAAAGAGAGGAACTAAATGAACGAATGGAACTGGGAATTAATCGTAAAACAGGAAAGTCTTACCGAAGGACCAGCATGGAACGGAAGTGAATTATTATATTCACAATGCCCTGCTAGTCTAACTTGGTCATGGAACCCTAATAACAATAAAAATACAGTTTGGAGAGAAGAAACTAACGGCAGTAATGGAATGTTATTTGATCAAGAAGGAAATTTGTATGCATGCGAGGGAGAAGGAAGGAGATTAGTTCAGTATTCTAAAGGAAAAGAAACAGTAATAATAACTGATAATTTTGAAGGTAAAAAATACAATGAACCCAATGATCTAGCTATTTATCCTGATGGTAGAAATATCTGGTTTTCTGATCCAAACTATGGTGGAAGAAAACCTTTTCTTGAACATGAATCTGTTTATCTAGCACAAAAAACATCAAATGACTCTTGGAATATTTCAAGAGCAACATTTGATACTACTAGACCTAACGGGGTCTTATTGTCAAAAGACACAAAAACTCTTTATGTAGCAGAAAGCCCATATGGAAATGATGTAAGAAGACAATTTAGAGCTTATCCAATAAATGAAGATTACTCTTTAGGAGATCATACCGTACTACACGATTTTGGAGACGGAAGAGGTATAGATGGAATGTGCTTAGACACAGAGGGTAATATATTGGCTACTGCTGGTCATCATGAAGGAGGACCCGGACCAATGATTTATCATTTTAATACTTCGGGAAGAGTATTGAGAACTTTTGAAGCACCTGCAGACAAACCTACAAATTGCTCATTTGGAGGAGAAAACCTTGATATTCTTTTTATTACTTTTGTAGGAGGAGAAGTTTATCAGGTTAAAAACACAGGATTAAAAGGACATTTATTATTCCCTTAATCTAAATTTTCTACAAATGTTGGATCATATGCCTTACTAATATCAAGATTTTTATCTATTAAATTTTTATCAATCATCCATTGAGCAAAACCATCCCAAACACTTTTTTCTTGACTTCCAAATTTTGGTTTTGAAGCACTCCAAATGGGAATCAGTAGATCTAATCCTTTATCTTCTAATTCTGAATTCATTTCTGGATTTGCTTTAATCAAGTAATCTAATGAATCATCAGGATGATTAATAGAATCTTGATATCCATTTATAAAGGCCTTAACAAAGTTTTCAACAAGTGATTTATTATCCTCAATCATTTTTTCATTAGTAATTAAAATTAATTCATAGTAGAGAGGTACTCCCCAATCTTCTAATTTCATTATGCTTACTCCTTGTCCTTCCATCTCAATCAAAATAGATTCATGAGTCCAATAAGCACCTATAACAGCATCTACTGTTCCACTCAATAAAGCAGGAACTAAATCAAATCCTACATCAAGTAATTCAACATCAGAGATTGTTAATCCTTCACTATCCAATATAGATTCTAATATTCCTATGTTTAAAGGAATTCCAGGATAACCGATTGTTTTTCCTTTTAAATCTGAAGGGTTAGAAATATTTGATGAAGATAATGACATTATTGAATTCAATGGTATTTGAACAATTGAAGCGATCGAAACTACAGGAATACCCTGAGATCTTGCTAGTAATAAATCAGGTTGATAGCTTATTCCAAAATCATCTTGTCCAGCACCAACAGTCTGTAAAATAGTAGAAGGGTCAGAAGGAATATAAACATCCACCAACAAACCTTCATCCTCAAAATATTTTTTTTCTAATGCAGTATACACTCCTCCATGATTTGAATTAGGATACCAATCCAAAGCAAGTTTAGTTTCAGAATTTTCTTGGCACGAAATTATCAATAAAGAAAATATCAATAACATTATTATTTTTTTCATAAATTTTCTCCAAATAAATATTAATAATTTCTCAATAAAAATTTTTCCAAAAGCCAACTAAGTGAAAACAAGATTATAGCCATAAAAGATAAAATTACTATAGAAGCGAACATCCTTTCTGTGAGAAATTGTGGACTTGAAACCTTTATAAGCCAACCTAAACCCTCAGTTGACCCAACCCATTCTCCAATTACTGCTCCTATAATTGAAGATACAGAAGCAATTTTTATTCCTGAAAGTAGATAAGGTAATGCAAATGGAAAATGAATCTTTAATAAAATTTGAATTTTAGAAGCATTGAAAGTTTTCAACATTTTTTCATAATCTTTATCAGCATTTTTAAAACCATCAATTAAGTTCACTACAACAGGGAAAAATGAAATCAAAACTACAACAATTATTTTAGATAGGATACCTGGACCAACCCATATTAATAGAAGAGGAGCAATAGCAATTATTGGAATTGTCTGAGAAGCAATTATCAAAGGATAAACAGATCTTTCAGCAGTTTTAAATGAAAAAATAATTATTCCAAAAATTACTCCTAAAATTATAGCTAATAATAACCCCCAAAATGATTCGTTTAAAGTAACTAAAGAATGTTTAAAGAGAATATTCTTAGAATCAATAATTTCTTGAAAAATAGCTACTGGAGAAGGAAGCATCCAATTAGGAGTATCAAATATTAAAATTCCAATCTGCCAAATAATTAATAAAAGAAAGATTAATATCAAAGGCGAAATAATTGAAAGAAACTTTCCATATTCAAAATATTTTTTAACTGTTTTAAATATTATTTGGAACATGCTTCAATAACTCATCAGAAATATCTTTTTCATACTTCGAAAAAATTTTTTGATTATTTGGAGATTTAAACCTAGGACGATTAATATTAATTTCAAATTCCATACAAATATTTATTGGAGATCCTCCCATAATTAATACCCTGTCTGAAAGTAGAACTGCTTCATAAATATCATGAGTCACTAGAACAACAGATTTTTTATTAATCATCAAAATCGAAGAAACCCATTCATGCATCTTAGATCTAGTAATTGAATCTAAAGCACTAAATGGTTCATCAAGTAGCATTATTGGCCTTTCAAGCAAGATAGATCTCAAGAATGAAACTCTTTGTCTCATACCTCCAGACAAATGTCTTGGAAACATATTTTCACTCCCTTCAAGACCGAACTCTGGTAATAATCTTAAAGCATTTTCTCTAGATTTATTTTTGTTTAGTTTATTTATCTCAAGACCCAATATTGAATTTTCCAGAACATTTCTCCATGGAAGCAAAAGATCTTTTTGTTGCATATATGAAACTTCAGACTGATTTTTTAGAGATGAATTTTGACCTTTTATAATTACTTCACCTTGAAAATCTGACTCTACGCCTGAAATGATATTAAGAATAGTACTTTTTCCACAACCACTAGGACCTATAATAGAAATAATTTCTTGATCAAAAAGATGAAAATTTATATTGGAAAAAATAGTTTTCTCAACATTTTTACTTTTAAATGATTTACCTAACGATTTAACTTCTAACAATTTATCCATTTTAAAATTTTCGGATAAAACTGTGGCATCAAAGAAAAAATCCCTTCGCCGGAATTATCCGTATCAGGTTCAGGGGTCGGTCCTGCCCTCTCAGCCAATTATTAGCTCCCCCATCTTCATATAAAATAGTATCTTTTAAAGACAACTTTTTCAAACTTCAATTTATTACCTTTAATCTATTCAATAAATTTTATAAACTTAAATTAATATTATTAATAAATTTCTCAAAACACATGAACTATACTGAATCACAAAAAAAAATTGAACAGAATTTTATTTCTGAATTAAATCAGGATAATGAAAAATTCATACATGTGCCTCTAATGATTTTAAAATTAGAATCGATGGAACATGAAGTAGATATAATTGAAACCTTAGGAAAAATAAGCAACATAGTTAAAGAAATTAAAGACCTTAGTAGTTCTTTTGATACATTTTATGACATAATTCAGATCACTAACAATTTCCTCTTTGATGTTGTAAAAATACAAGGTAATCCTTACGACTATTATCATCCTAATAACAGTTTCTTAAACAAGGTTCTAGAAACAAAAGCTGGAAACCCTGTTTCAATTTCAATTATTTATCAGGAAATTTGCAGACAACTTGGATTTGATCTAACAGGAATAGGAATACCAGGACATTATTTATTGAAATACGGACATGGAGAATCTTTAATATTTTTAGATCCATATAACAAAGGAGTACTCTTAACTAAGAAAGAAGTTCTCCAAATTACTAATAAAAAAAATAAACAATCCAATACTAATATAAAAGTTGCTGAAGACAGTATAAAAGAATATGGACCCAGAAAAACAATCCTGAGAGTTTTAAACAATTTAAAATACAGTTATTCATCCATAAAAAATTTTGAAAAATCTTTATTGATCTCAAATATGATTTTAAAAATTCAACCTAATAACATAGAAAATTTAGTACATATGGTTAGCCTTCACAAAGAACTTAATAATGAATCTGACGCTTTAGAATTATTAGATAATTTTATAGAAAAATCACCTGAAGACAGCCCTATAACTATTAACCTACTTAATATTCGAAAAAAACTATTCAATTAAACATAATGAAACTAAATCATTGCCTAGAATCCAATTCAAATAAATGTGAATTATGTTCTGGGAAAGTATTGAATATACATTGTAAAATAATATGTCAAAAATGCGGATTCATTAGAGATTGTTCTGATCCATAATTTAAATAAATTTAATAATAGGAAAAATTTTGAAAATTTATAAAACAATAGTTCTTTTAATAGTTAATTTATTTTTATTATTATTTTTGGGATGTCAAAACAATCAAGAAATTGATGCAAATCCTCAAACAGTATTAAACGATTCAACTAACAGGATGAATGATTGGGAATCTTTCAGATTCAGATTAGAACATGAAAAAGGAACAACCACAATTTCTAATGGTATGGAACTAAGAATTATTGAAGGCGAAGTAATTCTACCAAGAAGAGTAAAGTTAACAGGAAAAGCTACTGTAGGAGGACAATTTATTGCCCTTGATATAATTCTTATAGATGAACAAAGTTATATGACTAATCCATTAACAGGAATATGGAATCATATAGATCCTGAAGATAGTCCTTTTGGAAACTTCGATGTCCGAGAAGTAATAGCTAATATTTTAAAAATGATGGAAAACCCTGAATTTATTACTCCTCCAAAAAATGAAGAAGACTTAAAAGTCAAAGGTAATGTAATATCTACAGTTTTCGAACCCTTAGTAGGATCAGTTGATGCCAACTTAAATGCTGAAGTTCATCTAGAAATAAATTTTATGAACATGGATGTGAAATCAGCGAAAATAATTGGAAGAATTAATCCTCTAGATCCGCAAGAAGTAATAAGAGTTATTAAGATTTGGGATGTAGATGGAGACATTGAAGTTAACCCACCTATTGATCCTCTAAAATAATTGTTATGAAAAAAACCTTTGAAAGCATCAAGCCTTTCCTTCTTTTTTTACCATTCTGTGCGGGCGTATTCCTGGGTGCTGATGATCAAACAAAAGTCGTCACAATATTACCTGAAATAATGATTGATTTTGAGATCCCTATCCATGAATTGGGAAAAGCATCTTGGCTAGTCACTGCTTATCTAATAGGTTATACAGCTATAATGCCATTTATTGGAAGAGTATCTGATAAGTATGGATATAGAACTACTTTTTTAGTAGCTTTAATAATATTCATGATAGGATCTGCAGCAACTGCAATTAGTCCAGAATTATCTAGAATAGGCGGAGGATCTCCAAGTATGGGCTGGATTATAGGAACCAGAGTATTACAATCTTTAGGAGGTGGTGCTTTAATTCCAATATCTATAGCTGCAGCAGGATATATAATACCACGTAATAAACATGCTATAGCTTATGGTTTGATAGGAGCTAGTGCTGAAGCAGGAGGTGTAATAGGCCCTTTATTCGGAGGAGCAGTTACAGAATTTCTCAATTGGAGATGGGCATTTTGGTTAAATATTCCATTAACACTAATAACAATTATTTTCTTGTTCAAATGTCATAAAGGTAATAAATATCCTGTTAAGCTTGATTTCTTAGGAGCAATAATTTTTGCAAGTTTTTTGGCCTTTCTAACTGCAGGATTATCTCAAATAGGTGAAAATAATAACATGGCGATAATGCTAATAATTATTTCTATAATATCCCTTATCCTAACAATCGTGAGACATAGAACAACTGAATATTCAATTATTCCAAGAAATCTTTTAAGTAAACCTGGGTTTTCAGCTTCTAATATTACTCACTTATTCATAGGAGCAGCCTTAATTATTGCAATGGTAACTGTACCTGTAATGGCACAAACTCTATTCTCTGAATCACCTCTTGAAGGAGGGTTAAAATTATTAAGGCTAACTATAGCATTGTCGATAGGAGCATTTCTTGGTGGAATATTAACTCAAAGATTTGGAACAAGAATTCCTATAATTATTGGACTTATTATGACAACAATAGGATTTTTCTTAATGTCCACCTGGGGAATAGATCCAATAATAAAAGATCCATGGGTATCAATACATTTAAGCATTACTGGATTTGGATTTGGACTTTGTATAGCCCCAATAATGGAAGCTGCTTTGGATAAAATAAGATCTTCAGAACGAGGATCAGCTTCTTCCATTTTAACAGTATCAAGAATGATGGGTCAGACATTTGGTTTAGCTATTTTAACTGCTTGGGGAACATCTAGATTTGCTAAATTAACTAAAGACATGCCTGAGTTTTCATTAGATCCATTTGGGCAGCAAGAATTTACTGAAGCAGCTCTTGCTGCAGGAGAAAAAGTATTCCAAGGTTTCTTTTTAGCAGGAGCAATTGTTTCAATAATTGGGATAATCCCTGCAATTATGATGAGTAAATCTAAGAGAAAAATGAATTAATATTACTTTTGATTTCTTTTTTTATCCGTATTTCTAGAAGATTCTAATCTAGCTAAATTATAATCATTATGATCCACAAAATTCATTAAATCAGCAATTACTCTATGGCCTGCTTTTTCTTTGATAAGTTTATGCATTTCTTGGCACACAACCCTATAATTCGGATGACCTTGTCTAGTAGTTCTTAACTCAAGAAGATGAAAGGCAGCTCTAGCGTTCAATTGAATGGTATATCTGATATTATGACCAAATAAAACAGGATATTGGGCAACTTCAGGGCCATATGAAGATAGTAAAGAAAAAAGTTGATCAGAGATTTTTTCAGCTTTATTCCAATCAGATTTCAAGTTAGTTTCAATAATTTCTTTAGGTATTTCAAATCCTAAATTAGGATTCAACAATTGCCAATCAATAGTCATAAGCCTATGCCTTTGAAGATCTCTAAATGAAGCAAAATCAGATTTAATATCAAACTTATAAAAAACTCTTTCCATCCCTCTACCCGGTTTATGTCTTCTGTTTTCTCTTTTTCCTACATAATTACGAAGAATATTCTCTATTTCTTCTTTACTCATTTTTTTAAGAAATTCCAAAATACTATTTTCAGAATAGCTAGTATAGGGATATAAACTTGCTGCGGCCACTTTTAGTTCTGCATCTTCATCCCAATCTATCAATTCGACATCCATAATTTTTTTATCTGAAGATTGGATATTATTGCTAATATTTTTCATGTTTTTATAATTATCTTCAAAATATGAACTCCATTTCAAACCTCTTTCTGGGACATCAACTCTTTTTAAGAAAGAAGGAATTATTTTTCTTAATTCAGTTAGCATCATTTCTGCACAATCTCTAACTTCTTGAAGAGGGTGAATTCGCATTCTCATTATCATAAGTTCATATGATTGACCTGTAGCAAATATCCCTACATTAGATATAGTTGAAGCAGGTAACACTCCTCTAGCGACATCACAAGCTTGAGCTCTAATAGTAGAATTATAAACAAAGTTTGAATCAGAAGATTTTTTCGGAAATAATTTCTGAAAATAAGGAATTAATTCACCTAATGATTTTTTATATATCCCAAAAAGCTCTTCCATTCCATTTAAATAAACAGCTTCATCCGGAGAATTCAAAATTTCTGATGGAATAGTATACCTATATCTATCACCTAATTTTTGATCATAAAAAATATATCTCGTACTTTGTTCTAAGTAAGATGCTAAACGACTCCACTCTAATATTTTTGTTAGAATATTTGAAGATTGTTCACATGCAATATGAGCTCCTCCCAATTGAGCTACAGAATCATCTCCGTATTCGTTAAACACACGATCATATAATTTTTCCGCCCTAGAAACATCAAGGAGTGATTCTTCTTTCCCATTTGATTCTTTTTTTTCAATATGTAAAAGAAATTCATCCAAAAACAATCTACGAAGAGATTTTGGAGATCTACTATATCTAGCGAAAAGAGCTCCTTTTACTACTTCAGGAAGATTAATCAAAGCAAAAACTGGCTTATCAATATTAGAAAAATATTTATCTAAAATGACCTGTTCTTCTTTAGAAAATTCTTCCTGGTAAAACAATTAATCCTACTTAATAAAATTAGACTTTTTTATAATGATAAATCCAATTTACTTAAGAAAACAAATTATCAGGATTCTCTAGGAAATTTTTTATTTCTCCTAAAAATAGTGCAGCTTCTGCACCATCTGCAACTCTATGATCAACAGATAAAGTAGCTTTCATTTGTTGAGAAACAACTATTTCAGATTCATTAACAACAGGCGTAGGAACTACTTTACCTGTGGCTAAAATTGCTGCTTGAGGAGGCACAATAATTGCAGTGAAATTTTCTACATCAAACATTCCCAAATTACTAATACTAAAAGTACCAGAAGTATTCTCTTCTTGAGATAATGAACCTCCATTTCCTTTTGCTCTATTAACTAAATCTTTAGCAGATGAAGAAATTTCACCAAGAGATTTATTCTGACAATCGATTAATGCTGGAACAATTAATCCTGCTTCAAGAGCCATGGCAATACCTATATTAATTTGAGAATAAACATTCAAACTATCATTTTGAAAAGATGAATTAAATTTTGGAAACTTTTTTAATGCATTTACAGAAGAAAAAATTATCAAGTCATTCACACTAACATGAACATCTGATTTATCATTGAATTCTTTTCTTTTCTCTAATGTATTAGTCATATTTACTGAAGAAGTAATATAAAAATGAGGAGCTTCTGTTTTACTCCTAACTGTTACCGATGCAATAGTTTTCCTCATACTACTTAATGGGGTCAAATTGCCTTGAACAGAAGATTCAACTTCATTATTTCCTGAACCACTTCCTGAACCTGCTGCTTCAACGTCTTCTTTAGTAATTCTGCCCCCAGGACCTGACCCAGATATTGAAGATAAATCAACACCTAATTCTTCTGCTAATTTTTTAGCTATAGGAGAAGCTTTTACTCTTCCAGTACTATTAGAAATTTTAGGGTTAGAATTTAAAGAACTATCTTGCAAAGATGAAGATTTCGAGGTTGACTCTGAAAGAGTTTCACTTTTACTAGGAGATTCATCTTTTATTTCAGGAATTTCATCATCCAATGCACCCATAAAAGCTATAACAGTCCCAACTGGAACTTTTTCACCTTCAGGAATAATTATTTTCCTTAAATATCCATCTCCATAAGCTTCCATTTCAACAACAGTCTTATCAGTTTCAATTTCAGCAATCTTATCCCCTTTTTCTATTTTTTCATCTTCTTTTTTCAACCATTTAACTATAGTGCCCTCGGTCATATCGGCACCCATACTTGGCATAGTTACTTCAGTAATCAAAATATTCCTCCAAAATTTTAAAATATGAAATATTAAATTTTATAGCCCTCTCTAAAGGACTCTATCACATTATTAACATTAGGAAGAGAAGATTCTTCTAAATTTCTATTATAAGGCCAAGGTGTATTTTCAGATCCTACTCTGACTATAGGGCCATCCAAGAAATCGACTGATTGTTCTTGAATTCTAGAAACAATTTCAGGCATTATTCCGCCTAATTTTCTAGAAGTATCCAAAAGAACAACTCTCCCAGTCTTTTCAATCGAATTATTAATTGTGAGCATATCTAAAGGATTCAACGTCCTTAAGTCGATTATTTCTGCATCAATGTTTATTTTAGTTAACTCTTCTTGTGTGTCTAGTAAAATTGGAATCCCATGCCCGTAAGACACAAAAGTAACATCTTTTCCTTCCTTAACTACAGAAGCTGAACCGATAGGAATCTCATAATATTTATCAGGAACATCCCCTTGAACTCCATATAAACCTGCTGGCTCTGCAATAATTATTGGATTAAGGTCTTTAACAGCACTTCTTAATAATCCTAAAGCATCAATCGGATTAGAAAAAGTAATTACTTTTAGTCCTGGAACCTCAGATAACCAAGTCTCAAAACTTTGAGAATGAGTAGCTCCAAGTTGCATTCCAGCACCAGTAGGAGCCCTAATAATTAACGGAACAGAAATTTGACCACCAGACATATACCTTAAATTAGCTGCCATATTCACTATTTGATCAAAAGCTACCAAAGAAAAACTCATAGACATTAATTCCACAATAGGTTTTAATCCTACTGAAGCCGCGCCAATTCCCGCGCCTATAAATGTAGCCTCAGAAATAGGTGTATCTTTGATTCTTTCAGGGCCAAATTCTTCTAAGAATCCTGATGTTATAGCATATGCTCCACCATATTCTCCTATATCTTCTCCCATCAAAAAAACAGAAGGATCATTTTGTAATGCTTCTCTCAAACCTTTTTGAATAGATTGTCTGATTGTCATTAAAGTCATAATTTCAAGCGTAAATATCTTTTTTAAGTTCTTCTAATGAAGGTTCAGGGCTTTTAATAGAAAAATCCACAGCTTTTTCTATTTCATTAATTGCTTTTTCTTTAATCTTTTTTAACTCGTCTTTAGTACAAATATTCTCTCCAATCAAATATTTTTCAAATGATTTTATAGGATCTTTTTTCAACCAATAATTCAATTCATCTTTAGATCTATATTTTGCTGGATCAGCCATAGAATGACCTGAAAAACGAAAAGTTTTTGCTTCAATTAAAATCGGTTTACTATTATTTCGTATACTTTCTAGTGATTTTTTTGTGATATCTAATACTTCCAATACATTCATTCCATCAACAATTTCTGCTTGAATACCATAAGCATCAGCTGAAGAATAAATATCTCTACCTTCAGCTCTAGTATTTTCAACATGAGAACCCATACCATAAAGATTATTCTCCAAGAAAAATAGTACCGGAAGTTCCCAAAGTGAAGCTAAGTTCAATGTTTCATGGAAAGTTCCTTGGCTTACCGCACCATCACCAAAAAATACTAAAACAACATTATTTTCTTTCTTATATTTACATGCTAATGCAATGCCTAATGCTAAGGGCAATTGAGCACCTACTATTGCATGTCCACCCATAAAATTTTTTTCAACATCAAACAAATGCATTGATCCTCCTTTCCCTTTACTTACACCAGTAGATTTCCCGAATAATTCTGCCATAACAGATTCAGTACTTAATCCACGTGCTAAAGCATGCCCATGATCTCGATAATGTGTAACAACATAATCTTCTTTTTCCAATGAAGAAATAGCACCTACTGCTATTGCTTCTTCACCTATATAAAGATGAAGAAATCCTCTAATAAAACCTTTTGCATAATTCTCACCACAAGCTTCTTCAAATTCTCTAATTAAAATCATTTTCTCTTGAAGCTTCAAAAGTTCTTTTTTACTTAAATTATCTTTACTCATATATAGAAGAATACACTGAAAATATTGTGATTTACAATTTTATTTAACTAGAAGATTTTAAAACATTTTCTAATAACATAGCTATAGTCATGGGACCTACACCACCAGGTACTGGAGTAATCATAGAAACCTTATTAATTACAGAATCGAAATTTACATCTCCAGCTATCCTGTATCCTTTTTTATTTGAAAAATCTTTTACTCTATTAATTCCTACATCTATAACTATTGACCCTTCTTTGACCATACTTTCATTAATAAATTCAGGATTACCTACTGCAACTATTAAAATATCAGCGTTTTTTGTGTGATTAATTAAATTATTGGTTTTAGAATGGCATAATGTAACTGTTGCATTAGAATGAACTTGGTCATTTGAAAATAAATTAGATAAAGGTCTTCCCACTATATTACTCCTTCCGCATATAACAATATGCTTACCTTCAATTCCAACTTTTGATTCAATTAAAAGTTTTTGTATACCTAGAGGGGTAGCAGGAATAAACTTAGGTCTATTTAAAGCCAAAAATCCTGTATTCAAGGAAGTTAACCCATCTACATCTTTAAGAGGATTTATAATATCTAATATTTCCCTTTGATGAAGATGTGATGGTAAAGGCAATTGAACTAAAATACCATCATAATCAGGATGATAATTTAATTCTTCGATTTTTCCAGTAACTTCGCTACTTTTTACATTACTGTCAAACCTGAATAATTGTGTAGATATACCTACCTTTTCACAAGTTCTAATTTTTGCTGAAACATATGTTTCAGAAGCATAATTTTCACCAATTAGAATTATTGCTAATTTAGGAGCACGAAAACCAGACTTAAGTTTTAATTCAACTTTTTTTTGAATATTTTCTATGATTTTATTAGAAATATTTTTTCCATCAATAATTTTCATTTTTTAATAGTATTGGAGTTAAATATCTAGTATGTGATTTAATTGATATGACTTCAAAATAGTAACATGTTAATTATAAGGGGGCTAATTTGATTAACGTCGGAATAGACATCATCGAAATAGAAAGAATACAAAATGTAAAAATAAGATATCCAAAAAGATTTCTGAAAAAAATTTTTACTCAAAATGAAATAAATTATTGCCGTGACAGGAGTCCCCAATTAGCTGCTAGATTTGCTGCAAAAGAAGCAATGATGAAAGCATTAGGTACAGGAATTAGAGGAGTAGGATGGAAAGATGTGGAAGTAATAAGAAATAGAGGACAAGCTCCCCAAATAAAACTATCAGGAAGAGGAAAAAAAGTTGGTGAAAGCATAGGACTCAAAAACACTTCTTTAAGCATTTCTCATTCTAAAGATTATGCAGTTGCTTGTGTTACTATTGAAACTTCTAAATAGATTTTGATCTCAATAAAATGAACAGAGTAGTTACATCAAAAGAAATGAAGCTAATAGAAGATCAAATTTTTCTTTCAGGTATCACTTCAGAGGAACTTATAGAAAAAGCTGCAAGATCAATTTCAGACTTCATAGAAAATAAAATCAAAGACTTGTCTAATAAATCTATATTAATTTTAGCAGGATCTGGAAACAATGGACTTGATGGAATTACTACAGCAAAAAATCTAAATAATAAATTAAAAAAAACAGAAATATGGGTTTTCTCAAAAAGTAAAAAAATAACGAAAAATTTAAATATTATTAAAAAAAATAACTTGAAATTTAGAATTATTGATTCTTTAGATGAAAAAAAATTATTAAAATTAAAAGAATTTGATCTGATATTGGATTCAATAATTGGAATAGGAGCCAATTTTCCCTTAAGGAAAGATACTATAGATCTCTTAGATAATATAGGAAGATCAATTAATCATAAAAAACAAATAGTAATTTCTATAGATAATCCTAGCAATTTAGACAGTGACAAAGGTAATGTTTTAACAAAATATTTCAAATCTGATTTCACTCTGATGATTGGATATCCAAAACTAGGATGCCATATAGCTTTTCAACCTGAAATAGTAGGAAATCTAATAACTTTAGATATAGGCATAGATGAAAAAACCATTAATTGGAAATTTCCTAAAAGACATTTACTTGATAAAAAATGGGCTAAAAAAATATTACCTAAGAGACCTTTAAATTCTCATAAAGGAACATCTGGAAGCACATTAATAATTGGAGGATCAATTAATTATCCTGGAGCTGCATTTTTTACTGGTTCTTCCGCAACAAAAACCGGTGTAGGATTAGTAGGATTGATGATTCCAAATAGCATCTATCATATTATTGCTAAAAAATTACCAGATGCTATTTTTTTTCCCATAGAAGAATTCAAAGAACAAGTCCCTTTAAAATTTTTATCAAAATTCACATCAATAGTTATAGGGCCAGGAATGGGACTAGAAGAAAATACAAGAAAATTTACTCTATATACATTGAAAAAACTATCTGACAATGATTTCAAATCCAAAAAAATAATCTTAGATGCCGATGCTCTTAATCAAATATCATCTGAAAAAAAATGGTGGGACAAAGTCCCTGGAGAATGTATTTTAACTCCTCATTTTGGTGAAATGTCCCGTTTAACGAAAATCTCCATACAAGAAATTCAAAAAAATAAAGTTGAAATCACACAAGAATTTAGTTCAATATGGAATCAAATAATTGTATTGAAAGGTTCAAATACAATAATATCTCATCCTAATGGAAATTTATTAATTAGTCCTTGGTCAAATAGTGGACTATCAAAAGCCGGATCAGGAGATTTATTAACAGGAATTATTAGTGGATTATCAGCACATACCCAGTTAAATTCTTTCGATTCAGCATCATTAGGTGTATATTTACATGGTTTATCAGGATATCTAGCAACAAATAACAAAGGGGTATATGGTATGACATCAACAGATATTTTAGAAAAAATCCCAGAAGCATTCACAGAAATACTACTTAATTAATTATGTTAATGACAATAGATATTGGAAACACAAATATTTCTATGGGAATATTTCAAAATGATTCTCTAATAATTAAAAGATCATTAAGAACTAATTTAAAATCATCTCAGATAGAATACCAAGATAAAATATTCGATTTCCTAAAAAAAGATCTTCAAAATTACAAAGATATTAATGGAGTAATTATTGGATCAGTAGTCCCTTCAATAACCAATCATATAAAAATTTCGATTCAAAAAATAACAAATTTAAATGTACATGTAATGAACTCCGAAACAAAAACCAATCTAGAGATACTTTATGAAATTCCATCAGATGTAGGTTCTGATCGAATATGTGATGCTGTAGCTGCAAAAACTTTATACTCCAATAATAAAATTATAGTAGATTTTGGAACAGCAACAGTTTTTGATGCAATCACAGAATCTGGAAAATATTTAGGTGGAGCAATATCACCCGGAATAGAAGTAGCATCTGAAGCTTTATATATTAACACTTCTCTATTACATAGAATTGAAGTATCTCCAACAAAAAATATTATCGGGAGAAATACTAATGATTCCTTACAATCAGGATTATTCTGGGGATATCTTTACCTTGTAGAAGGAATGATAAAAAGTTTCAAAAAAGAACTCGAAGAGTATACAAATAACAATAAAATATTTGTAATAGCTACAGGTGGTTTAGCTCCATTAATGTCTTCATATACTGACTATTTCGATAAAGTAGACCAAGATTTAACACTGAAAGGTCTAAATTTTATTTATAATTTGAATTTACGATAAAATATCATTATGAAAAAAATAAAAAGAAACCCTCTTGAAGGAAAAAATATAACAGTTGGCGTTACAGGAAGTATTGCTGCTTACAAAAGTGCAGATTTAGTTAGCAAACTTGTTCAAGTAGGAGCTAATGTATCTGTAATTATGAGTAAAAATGCGGAAAATTTTGTTGGAAAAAATACTTTCGAAGCATTAAGTCATAATCCTGTAATCACAAACTATTTTGAAAATTTTAGTGATATGAATATTGATCATGTACATCTTGCTAAAAATTCAGATTTAATAATAATTGCTCCTATAACAGCAAACTCTATAGCTAAAATTTCACATGGAATTACTGATGATCCTATAACAGGAACCATTTCTGCAAGTAAATCTCCCGTTATATTGGCACCCGCAATGGATGCAGGAATGTATGAAAATAATGTTAGTAAAAATTTAAAGTCCTTAGATAAAAATAGATTCTGTATCCTTGAACCTCAAATAGGAAGATTAGCATCTGGAATTACAGGAAAAGGTAGAATGGTTGATCCTAATTTTATTTTAGAAAATGCCATGCTATTAATGTCTAAAACTGGAGATTTAAAGACAAGAAAGATAATTATCTCAGCAGGAGGAACTAGAGAATTTATTGACCCTGTAAGATATATAGGCAACAAATCAAGCGGTAAAATGGGTTACGCAATTGCAACTGCAGCTAGAGATAGAGGAGCAAATGTTTCACTTTTTTCTGCTAAAAACATTTCTCTCCCAGTTCCATTAGGAGTAATAAATCATTATATTGAAACTTCTTCAGATTTAGAAAAAACAATTCTACCTAACGCTGAATCATCAGATATAATTTTCATGGCAGCGGCAGTTTGTGATTTTAAACCAAAAAACATAGAAATCAATAAAATTAAAAAAAATCCCAAAGAAAACAATTTTAATATTGAATTAGAAAAAACTTCAGATATTATAAAACAATTAAAAAACAAAAATATCACAAAAATAGCTTTTGCTGCTGAAACTGAAAATATTATAGAAAATGCAAAAATAAAACTGAAAGAAAAAAATCTTGATATGATTATAGCTAATGATGTGTCAAGAGAAGATATTGGATTTAATAGTGACAATAATCAAGTAACATTAATACAAAAAAATGGATCTATTACTGAATTGCCTGTAATGCCTAAAACTGAATTAGCTCATATTTTATTAGATGAAACAATTTCATTAATTAGTTAAAATCATACAAAAAGGAAAACAATGAAATTAATTTGGAAAAAAAAGAAGAATGGTCTTGACCTAGTAGTTATTGAAGATGGAAACACTATGATATTAGGCGGAGTTAGATCTACTAAAAGAGGTGTAGAAGCAATGGCTAAAGCAAGAGGATATGACCAAGGAAGATCTATAAAAGGTTTAACATCTCTAGAAGAAGGGAAAAAATTTGTAGAAGATTTTAAACCTTGGATTGAATTCTGTGGTGAAGATCTTCAATTAGAATCAGAAATACTAGAATAATCTAATCGATTATTCTAGCTTCTATTTCTTTTCCTAATTCTAAATTGAGAATTTCACATCTTGCAGCAGTAACTATATCATTCTTAGCTAGTTCTAAAAGTTTAATATCCTTTTCAGTACCAACCAATGATATAGATTTAACTTCAGCACCTAGTCTGAATCCATTTTGTGTTTTTGATCTTCTAATAGCACGAATAGCATCACATGTTGTAAGAAATAATTTTTTTTCTTCTTCTTTAAAAGAATAATTTAATATTTCTTCTTTGGTAGGCCATGTTGAAGAATGAATAGAATCAATACCAGTTTCTTTTGCAAAAACCCAACTCCATACTTCATCTGTAATTATTGGAAGAACCGGTGCAAATAATCTTAACATCACATTCAAAGTTAATCTCAATGTAGCAACTGAAGAAGTTTGTTGTTCTAAATCTTCATTTTGTCTTGCTCTATTCTTAACTAATTCTAAATAATTATCAGTAAACATATTCCAGAAAAATTTTTCTGCTACCATCATTGATTCAGCAAAATTAAATTTATTGTAATTGTTGGAGCATATATCTACATGTTCGATCAAGTTTGCTAAAAAAGATAAGTCTAAGGGATTTTTCACTTCTCCTTCCAATGCATCTTGAGACAAAACAAATTTACTGGCATTATATATTTTGGTAGATAAACGTTTACCTATTTTAAATACTTGCTCATCAAATGCAGTATCAGTTCCTAATCTTGCGCTAGCTGCCCAATATCTTACAGGATCAGTTCCATATTCTTGAATTAAGTCTGAAGGCGTTACAACATTTCCTTTACTTTTACTCATTTTTTTTCTGTCTGGATCTAAAATCCAACCACTTATAACTACATTTTTCCAGGGTATAGAATCATGGTGTAAAAGAGATTTTACGATTGTATAAAATGCCCAAGTTCTAATAATTTCATGACTTTGAGGTCTAATATTATTTGGAAAAATCTGATGCATTTTATCTTCTGATTCATCCCAATGAGCAGCTATCTGAGGCGATAAACTGCTAGTAAACCATGTATCGAAAACATCTGATTCTCCTATAAACCCATTGGGTTTGCCTCTTTGTTCTGGTTCATACCCTTTAGGTGTATCTTCCATTGGATCAACGGGCAAATCTTCCCAAGACGCAATAATAGGATTTTCATAGTCTGGATTACAATCACTATCTAACGTATACCATACAGGAAAAGGGACCCCAAAAAATCTTTGTCTACTTATACACCAATCAGCTTGCAAATTTTCTGTCCAATTTTCATATCTTTTTCTCATAAATTCAGGATGCCAAGAAATTTCTTTACCTTTTTGAATAAGATCTGATTTTTTATCCATTAACCTTACAAACCACTGTCTTGTATTCAAATATTCTAGTGGTACCTTACTTCTCTCATAAAATCTTACAGAATGAGTAATATTTTTCAGGTCACCAACTAATGCAATTTTAGAATCTTCAAAATTATTGGGATTTTTTAAATTCTCCACAACAATTTCTCTTCCCTGTTTAACTGTTCTACCTATTAAAAGTTTATAAATAGAATTTGCTTTTTCTGAATTTGAAGACTCCCATTCTTTTTCTCCAAATTCAATTTCTTTAAATCTTCCATAAAAATCTAGCAATTGTCTTAAATCTAAATTATTCTCTTTCCACCATTGAACATCGACTTGATCTCCAAAAGTACAAACCATTAATATCCCTGTCCCTTTTTCAGGATCAACTAAGTCACTAGCAAAAATTGGTACTGAAACTCCAAATAGAGGAGTAATAGCCTTTTTTCCAAAAAAACTTTTGTACCTTTTATCATCTGGATGTGCAGTAATTCCTACACAAGCAGGAAGTAATTCAGGTCTTGTAGTAGAAATAGTAAACTCCTTATCGATTTCAGGAATTGAAAATTTTATATCATGAAAAGCTCCTTCAACTTCTCTATCTTCTACCTCAGCTTGTGCAACAGCAGTTTGAAATCCTGGATCCCACATTACTGGAAAATCAGTATTATAAATATGACCTTTGTTAAAAAGATCCAAAAAGCTTTTTTGAGCTAATTTCCTTGGCAATTCTCCAATAGTTGAATATTCTTGAGTCCAATCAACAGAAAGTGCTATTTTTGTAAAAACATCTTTGAAAATCTTTTCATCTTCTTGGGTAACCAAATGACATAATTCAATAAAATTATTTCTAGAAACTTTCAAAGGAGCACTTTTTTTATCTCTAATTTTCACAACTTCTATAATGTTTTTTATAGAAGTTTGAGATGGATCACATCTCACATTAAAATAATCTTGTACTCTTCTCTCAGTAGGTAATCCATTATCATCCCACCCCATTGGATAAAAAATATTTTTCCCAATCATTCTTTGAAACCTAACTATAAAATCTTGATGAGTATAAGAGAAAATATGCCCCATATGAAGATACCCGCTAGCAGTGGGAGGAGGAGTATCCACAGAAAAAATTTCTTTTTTTGAAGTTTTAGAATCCCATTTAAAAATTCCAGAACTCTCCCATTTATTAATAATAGTTTCTTCTGATGAAGAAAAATCATGATTTTTAGGAAAATCATCCATTTTAATATTTAAAAATTTCTTTGTCACAACGATTACAAATCTAATTAATAGATATCCTCATCATATTATTCATTTTGACATTATCCAAATATTTCAATGCTTCATTAACTCTACTAGCAAAAACTTCAGGCGTAGAATTCATTAATCTATTTTTAAACAACCAGTATGTAAATTCATCAATTTGAGATTGACCAGTAGTTTTAGGTAAATAATATTTTTTATTACGATTTCCTTTTTGATCATAAAAATTAAATTTTTCCCATAAAACCTCAAAAATATCACCATAAATTTCTTTATAAATTTCATCTAAAATTTTCTCAGAAATATCAATTCCCGAAGAAAACACTTTTTTCATAAATTTTAATTTTGATAACTCAATAACACTTTCTTCTACAATTACACCGTAAAAATAATTTTGCCAACCTCTAAATTTCACATCTCCAATCTTAGATTTAAATTTATTTTCAGAAAAACCAAATGGTAGAAAACCCTTAAAAAGGAAATCATTGATTTGTTCTCTAGGTGGTTGAATATTAAAAGAACTAATTATCCTTGTTGCTAATCTAATCCAATTAAATGCTTCTCCAGAAATTAAATAAATTAATTTTTGATTTCCAAATTTTTCTTCTGGTATTTTCCAAATTTTTATAGTACCCAACACAACCTCTCTCCAATCTAAACCATCTTTCAAAGATTTTTCAACAAGTTCAAAATAAGAATCAGTAGAATAATTTTCTTTTAAGAATTCATCATGATAAATTTTTCTGTCATTCTTTAAAAATTCCTCAAAAATATCATCCATTATCTAACTTAGACTTTCGCACCACATGTTTCTGTTTCTGAACATTTTTTATATTTTTTCCCACTTCCACAAGGACACGGATCATTTCTACCAATTTTTTTCCCAATAATTCTTTTTTCTCCATGACCTGAATTAACATTATCCATCATGGAACCCTTAGAAGTTCGGAGAGAATCATTAGAATTTTTAGTAGAATTATTAGATTCAAAATTAACACCTACATTAAAAATTGTCCTTGAAATATCCCTATTAATTCTAAACATTAAATCTTCAAACATCTGAAAACCAATAGTTTTATATTGCACTAGAGGATCTCTTTGACCAGCAGCTTGTAACCCAATGCCTTGTCTCATATTATCCATGATAGTTAGATGTTCTACCCATTGAGAATCTATAGATCTTAATAAGACAAACCTTAACCAACCATTAAACTGATCAAGTTGCAAATTTTCTTTTAATAAAACAAATTGATTATCAATTATTTCATGAAGTTTTTCAGATAGAATAGAAGAGTCTCCAGTAATATTTTCTATATCTTCAAGATGAGATTTTGAAGAAGGAATGATTTTTGAAAACTCTTGAGAAAATAAATCAATATCTTCTTTATTTCTATCATTAAGTGAAAAACCGGTTACTAAGTCCTCAACTTCATTATGAATAATATCAAGAATTTTTTCTTGTAATAATTCATCACTAAATGCCTGTTTTCTTAATTGATAAATTATTTCTCTCTGTGTATTTATGACATCATCATAATCAACTAAAGTTTTTCTGATTTCAAAATGAAACCCTTCAACTTTTGACTGAGCTCCTTCAACTGCTCTAGTCAAAAGTTTATTCTCTATAGGAGTTTCTTCATCTAAACCAACCATATTCATAATAGATTGAATTCGATCTCCTCCAAATCTTTTCATCAAATCATCTTCAGCCGATATATAAAATTGTGTGCCTCCTGGATCACCTTGTCGACCTGCACGACCTCTCAACTGATTATCTATTCTTCTAGATTCATGTCTTTCAGATCCTAAAATTACTAATCCTCCTAAATTCAAAATTTTCTGATTATGAATTTCCCATTCCTTTTCTCCGACACTCTTACTGCCTCCTAATATAATATCTGTACCCCTACCAGCCATATTAGTTGCTACAGTCACAGTACCTTCTTTTCCAGCATCAGCAATAATTAAAGCTTCTTTTTCATGTTGTTTTGCATTTAAAACTTGATGATTAACATTATTTTTTCTTAACAAATTACTTAACAATTCTGATTTTTCTATGCTTGTAGTTCCAACTAGTACAGGTTGACCTAATTTTTGAAGATCTCTAATTTTTTTTACAAGCGCATTAAATTTTGATTTTTCACTATTAAATATCAAATCAGGAACATCTTCTCTAATATTTGGTTGATTAGTTGGAATCTGAACAACATCTAAGGAATAAATTTTATCAAATTCTTCAGCCTCAGTAGAAGCAGTACCCGTCATTCCTGATAATTTAGAATAGATACGAAAATAATTTTGCAAAGTAATAGTAGCGTACGTAGCAGATTCTCGTTGAATTTTTAAATTCTCTTTTGCTTCAATTGCTTGATGTAAACCATCTGAATATCTTCTCCCCTGCATCAATCTACCAGTAAATTCATCTACAAGAACAACTTGTCCATCATTTATCACATATTCTCTATCTTTTATGTAATGAATATTAGCTTTAATAGCATTTTCTATAAAATGAGTGACCCCAAAATTTTCTTGATCATATAGATTAGAAATATTCAGAGTTTTTTCAATCTTATTTATTCCATCTTCAGTTAAATTAATTGATCTGTTTTTTTCATCACTCGTAAAATCTTCATCTACATGCAATGTTCTAGCTAAATGAGCAAATTTTTTATAGTCCTGTCCTCTGTCTTTCACGGGACCACTAATTATTAAAGGGGTTCTTGCCCCATCGATTAAAATATTATCGACTTCATCGACTATAGCAAATGCATGTTCTTTCTGTACTATTCTTGATTTTGAATCAACCATATTATCCCTTAAATAGTCAAAACCAAACTCATTGTTAGTTCCATAAAGTATGTCACATGAATAAGCTATATTTCTTTCAACCTCAATTAATTTTTCAAAATCCCCATCAAAATTTTCTCCAGGAATTTCGGGTAGAATAAAAGATTTTTCTTGTTGTAAACATCCTACTTTTAATCCAAGAAATCTATGAATCGGCCCCATCCATGATGCATCTCTTTTTGATAAATAATCATTAACAGTTACAACATGAACACCATGACCTGACAATGCATTTAGATATGAAGGAAGAGTAGCTACTAAAGTTTTACCTTCTCCTGTTTTCATTTCAGCAATTTTACCTTGATGTAAAACTATGCCTCCAATTAATTGAACATCAAAATGTCTCTGACCTAAAATTCTTTTTGATACTTCTCTAACCAATGCGTAAGCTTCAATAAGTATATCGTCTAGAGTTTCTCCATTTAAAACTCTATTCTTTAATTCTTCAGTTTTATTAATAAAATCATCTTGACTAGAAAAGCTTTCAAAAACTTTTTCCAAATCATTTATCTCAGAGACAATTGAAGAAAGATTACGAATAATTTTCTTATTTGGGTCTCCAAATATTTTTGATAAAATTTCTACCATTTATAAAATATTTTTATTTTTTAAAAAGAGCTCCAACTGATCTACCAGTCTGTATTCTTGAAATTGCTTCTCCTAGTAAAGGGGCTATAGATAAAACTTTAAGTTTACCTGAAGAAGTCTTTTGAGTAATAGTATCTGTAACTATTAGTTCTTTTAAAATACTATGAGCAGATAGTCTTTCCAATGCACCATTTGAAAAAACTGCATGTGTAGCACAACTATAAACTTCCTTGGCGCCCTGATCTTCTAGTGCAGCTAAAGCTTGAATTAAAGAGCCTCCTGTATCTATTTCATCGTCAAAAGTTATTGCAATTTTATCTTTCACATCACCAATAATATTCAATGTTTGTACATTATCATCATTACCAACTCTTCTTTTCTCAACTATTGCTAATGGTGCTTTTAATCTCTCAGCAAAGTCTCTAGCATCCTTACTAATGCCTACATCTGTAGCTATTACTACTATATTTTCGAATGATTTTGTCAAAAAATAATCTGCAAACATTTGTACAGCAGTCAATTCATCAACCGGAATATTAAAAAATCCTTGAATTTGAGCAGCATGTAAATCAACAGTTATTACTCGATCAGCACCAGCAGTTGAAATTAAATCTGCAATTAATCTAGCAGTAATAGGAACTCTAGGTTGATCTTTTTTATCGGTTCTTCCATAACCATAGTAAGGCATTACTGCAGTTACTCTAGCAGCAGATGCTCTTCTAGCAGCATCTATCATTATTAATAACTCCATGATGCTATCATTAACATCACCGCTAGTTGGTTGAACTAAAAATACATCATGTTCTCTAACATTTTCTAATATTCTTACAAAGCTATTATCATTTCGAAACTTAAATACTTCTATTTTTCCTGGTTTTTCGTGTAAATATTCACAAATTTTTTCCGTTAATAATTTATTAGCATTACCAGAAAAAATTTTTAGATTCCCAAAACGTCCTTGCATATTACCCCCCTAATATCAAGTAGCTTAATGAAGAAAATTATACTTCAAATAAATATTTTAATTTAGATATTTTCAAACTCTAGTAATAATAATACTAAAATTAAAATATGACATAAAATAGTTATATATTCAGATTAATATATTATTTGAATAAACTAAATTCTAATTATCACACAACTTAATGAAACAGATTTCTAATATTTTACTCAAACCAATAATTACTGAATTCAACAAAGGATCTAATAGCTTATTAAACTTAAGTTCTTATGTTTTTGGGATTTCTGGAACATTAGTTACTCTAGGCGCAATAATATTACCCTACAAAGTATTAGATATTTTAAATGCTTCTCCCGTAACTATTTTAGGAATGAATCTAGGAAAAAATGGTCTTTTGGGATTAATCTCTCTAATTACAGGTTTAACTGCAAGTCTAATACAACCCTTAGCTGGATTTTTTAGTGATAAAAATATTAAATCTGGATATGGGAAAAGACTTCCATTTTTAGTGGTGGGTGGAATAGGAGTTTCATTTTTCTCACTTTTTCTAGTTCCAGTACAATCTGTTTTAGGTTTAATGATCATCTTTATGATTATAAATGTCTTCGGTAATTTGGGTGAAGGCCCTGCTAATGCATTAATAAAAGATCATATCGAATCAAAAAGTTTTGGTTCAGCATCTGGAATTTTTAATTTTTCAAGAGTATTAGGAGCAGCAATAGTTCTTCTAATAACTTTACAATTTATGAAAAATTATTCGGGGCCTGAAGATTCTCAATGGTTTTGGGCTTCTATAATTCTTATTTCTATCATTATGTCTCTTTCAACTCTTTGGAGTTTTTTCAGCTTGAAACCTCAAAAAATAAATCAAATCCCTCAAAAAATAAATCAAAAAAAACATATTGAAAAAAAATGGTCAAAAAATCAAAGAAAAAGATTTATTTGGTTTATAATTGCTTTTAGTATAAGTGTAACTTCTTTATCAAGCTTACAAACATTTGCTATTTATTTTGTTAGTGATGTAGTTATACAAAGTAATCCTGCTCAGACTACCACTTATATAATTTTAGTTTTATGCTTAACAATTGGAATTATTGTAATACCTGCAGGATATATTTCTGACAAAATAGGGAAAAAGCCTTTATTAATTTTAGCAAGCATTTCAGGAATATTTGGCCCATCTCTGATGATTCCATTTCACACTGTGATTCCAGTACTAATTGGTTGTGCTTTAATAGGAATTTCAGTTGGATTAATAATAAGTTTATTTTGGGCTATAGCTAATGATTTAATCCCAAAAGATTTTGCTGGTAGAACTTTAGGTTTTACTGCAATTGCTTTTCTAATTGGAAGCGGATTAGCAAGGAGTTCAGGCTTTTTGGTAGATTGGCTAAATATTCAAAATCATAATTGGGGTTATTATTTCCTCTTACTTCTATCATCTTTTTCTTTCTTTATTTCACCACTTATAGTTTTAAAGAATTCAGTTGAAGAAGATCAAAATTTCTGACAAAATCATATTAAATGAAAAATAAATTATAAAAAATGAAAGTAATTCTAAGTAATCCAAGAGGATTTTGTGCAGGAGTTGTGAGAGCAATTGATATTGTAGAACTCACTTTAGAAAAATATGGAGCTCCTGTATATGTAAAACATGAAATTGTACATAATGCAAAAGTTGTAGAAGAAGTCGAAAGAAAAGGTGCAATCACAGTTGAAAATGTTGAAGAAATACCCAATAATTCTGTAGTAATTTTTTCAGCTCATGGTTCTGATCCTAAAGATTTCATAAAAGCTCAAGAGAAAGAATTAAAAATTATTGATGCTACTTGTCCTTTAGTAACTAAAGTTCATAATGAAGCAAAAAAATATTCACAATCTGGAAAAAAAATAATTCTGGTTGGGCACAGAGGTCATCAAGAAGTGAAAGGGACTATGGGACAAACAGCATCTATGACTCTAATAGATGAAAGAGAAAAATGGACTCTAGATAATCTTAAACCTGATGAAGAAGTTGCTGTTCTTACACAAACCACTTTATCAGTTGAAGATACTTCAAAAGCAGTAAAGCAAATTAAAAGAAAATTCCCAAAAGCTTTAGTAAGAAATGATATATGCTATGCGACTACTAATAGACAAGATGCTGTAAAAGAATTAGCTCTAAAATCAGATTTGGTTCTTGTAATAGGTTCTCAGAATAGTTCAAACTGTAAGAGACTTCAAGAAGTATCAGAATCTTTCGGAACTCCTAGTTTTTTAATTATGGAACCCAATGAAATTCTTCCTGAATGGATAGAGGGAAAGAAAGTTGTAGGAATTACATCAGGAGCTTCTACACCAGAAGGCATGGTACAGAAAGTTGTTCAATATTTAAATCCATCAAAATTAAGTAGTATAGATGGAAATCCAGAAGACATTACATTCAAACTTCCTAAAGAATTGCAAAAATAAAATTATATTATAAATATTTTCTACTTAAATATAATCCGTTTTTAAATTTCATTAGAATAGGTTTTCCCGTAGGAATTTCTAATTTTAAAATATCTTTATCAGAAATATTTTCAATAAATTTTATTAATGCCCTTAAAGAGTTTCCATGAGCAGAAATTATCAAATTTTTATCTAGTGATACATCTTTTAGAAAAACATTTTCAATAAAAGGGGTCATCCTTTCTATAGTATCTTTTAATGATTCTGATCTTGGCAATTTCTCATGTGGAATATTCTTAAAAAGACTATTTTTTCTCATAGAATTAAAATCAGTTTCATTGATTTCTGGTGGTCTTAAAGAATAACTTCTACGCCATTCAAAAACTTGTTCTTTACCAAAACGTCTAGAAGTATCTTCTTTATTTAAACCTTGGAGATTTCCATAATGTCTTTCATTAAGTCTCCAATCCTTAAAGACAACTAATTTTTCTTGATGAATTTGATTAAGAATTACTTCTAAGGTACGAACTGCTCTTAACAATATAGATGTATATGCTATATCAAATTTTATATCTAACTGACTAATACTTTTTCCAGCATTCAATGCCTCTATTTCACCATATTTAGACAAATCAACATCTACCCAACCAGTAAACTTATTTTCAAGATTCCAAATACTCTGTCCATGTCTAACTAAAATAATTTTTGCCATTTTATTGAGCTAAAACCCCTCCATCAATAACTAATTCAGAACCGGTAACCCAATTTGACTCATCACTTCCTAAATATAGAACTCCGTAAGCAATATCTTCTGGTTTTCCTATTCTACCTAAGGGTGTAATTTCTTCTCTTCTAGAGCCTTCATCAGTACGTTCATGAGTGGAACCATGAAGATCCTCAGTCATTGATGTATCGGTAAAACCAGGATGTATTGAATTCACTCTTATTCCATATTCAGCATATTGTATTGCTGAAGCCTTAGTAAAACTCCTCACAGCTCCTTTCGAAGCATGATAAGAAGCACCTCCTTTACTTCCAGCGATTCCAAAAATAGAAGAAATATTCACAATAGATCCAGATTTTTGATTCTTCATAACAGGTAAAACAGCTCTAGTACCTAAAAATACTCCTGTAGAATTTACTTTCATAGATAATTCCCATGCATCTAAAGATGTTTCTAAAACTTGTTTTCTAGTTTCCCAAGTTGAAACACCGGCATTGTTTACTAAAATATCCAATCTTTTTTTAGTTTTCATTATTTGATTAATCACATTTTCCCAATTATTTTCATTTCCAACGTCTAGTTTTAAAAATTGAACAAATCCTAAATGTTTCAAATCAGCAGCAAGTTGATTACCTTCTTCAACATTTATATCTCCGATAAAAACTGAAGAGCCATGCTCCAATAACATTCTTACAGTAGCTGCTCCTATACCAGCACTACCACCTGTGACTAGTGCAACTTTGTTTTTTACTCTTTGATTTTTTTCTTTTTCAATCAATATTCAAACTCCTTAAGAATATTTTTCAAGTACATAATTTGATTCTGTATACTTATAATCTAAAAACATCATACTGAAATTAGATAGCTATGAAAAATTTATCAAAAAACAATATAAAAATAGATGAAATATCAATAGACGTCGTAGAACGAGAATTAGAATTTGTAGGATTAAAAGATAATCGAGGTGATCGAGGTTTAACTGGAGGAGTTGTACAGCAAGGCATAATAAGAGTAGTTACGAGTACAGGCATAGAAGGAAATTCTATAATAGGCCAACATAGGGGAAACTCTACTGACAAAATCAAAGAAATTATAAAAACTTTCAAGCCTATATTGATAAATTCTAAAGAAAAAAATTGGGAATCTATATGGAAAAAATTATTTGAATTAGCAAAAAATCATAACATTAATAAAACTTTATATCATGAATGTTTAGCTAGTATAGATGTTGCTATTTGGGACATAATAGGAAAAATAAATGACTCCCCTATCCATAAAATTCTTGGACAAATCAGAAATTCTATTCCAGTTTATGGAACATACCAACCAAGATATGAAAATCACAAAGGTTATTTAGAAGAAGCACTTGAACTTAAAAGCAGAAATTTCAAAGCTTATAAAATTCATCCTGGAGTAATGTCTACAAAAGACACAATAAAAACCATTGAAGAAACTAGAAAATTTCTTGGTCCTGAATTTACTTTAATGTTAGACCCTAACAATGGTTATGATTATCAAAAAGCTTTAGAAGTTGGAAAAGCTTTAGACTTAAATAATTATTATTGGTTTGAAGATCCTGTCCCATGGAATAATTTTGACTCAATCAAAAAACTATCTAATAAACTAAAAACACCTTTAGCTATGAGTGATAAACCAAGATTTTTGTTTGAAGAATTTTCAAACTATTTGAGAGATGGAAATCTTAAATTAATCAGAGGTACATCAAAAAAATTTGGAATAACTGGATTAAAAAATTTATGTGAACTGGCAAAAACATCAAATACAAATTGTGAAATTGGAACAGGAGGTAATATCTTCATGAATATGGCCAACTTACATGTAATGATGACTATAAAAAATTGCAATTTTTATGAATACTGGATGCCAACTTGGGCTCATGATTTTGCTTGTATTGAAACAATAGAATTAGATGAAAACTCTGAAATTACTGCACCGATTAAACCTGGAATAGGATTAACCTTAAATGAAGACTGGATAAAAAATCATAAAGTGGCTACATTAGTCTAATGATTAAATTAAGTTTACAATCACTTTCTTATAAGAACTCCTTTAACGAATCATCAATAGACTTAGATGGCATAATACAAAAAGCATCCAAAATGAGAATGGATGGAATAGATATACATTACAATCATTTTAAAACAACAGACCCAAAATATTTAGAAAAAATTAGATTAGATTGTTTAAAATTAGGACTAAAAATTTGCTATATAGGATTGAGTAACAATTTNCTACTTCCTCCATCTGAAATATCATCTCAAATCAATATGATAAAAAAATGGGTAGACATAGCATATGAAATGAAAATTCCTATGGTTAGAGTTTTTGGAGGATGGTTAAGTGAAAACCAAACAGATGAACAAGCTTGGCCTCATTTAGTAGAAGTGACTAGAGAAGCTGTTAATTATGCTTCTACAAAAAAAATTATCTTAGGTNTACATAACCATAATCATGGATGTATACCTGCAACAGGAGAACAGGTAGTAAGGCTATTAAAAGATATTAATAGCCCATATTTTTCACATATTTTAGATACTGGTCAGTTTAGAGGGTCTCCTGGAGCATCAATGGGGGAAAGAGGTAAAATTGATTCAAGTTATAATTTTTATGAAAGTATTGAAAAAAGCGCTCCTTTTGCTACACATATAAGAGCAAAAATTTATAGAATAGGTACTGGAAAAGAAGTATGGTTAGACTATGATAGAATCATGAAAATATTTTCTAAAATTCAATATAATGGTTGGTTGAGTGTTGTATATGAAGGACAAGATGAAGAAAATGAAGAAACTGCGATTCCTAAATCAGTAGTTTTTTTAAGAGAAATGATAAAAAAATATAACTTATAAATTCAAAAGGAGAAAAAATGGGGAAATTTTATGAAGATTCTATAATTCCAAAATCGTTTAGAAGGAATTTTAGCGTTTATGAAAGGATTAATGATCTTGGAATTGATCTTGGAACATTCGAAGAAAATGTTAAAAGTATTCAAGGAACTGGTTTAGCAGGAGTAATTTTTAATGAAAGTGGCTTAGTTTATCTATCTGGTCAATCAGGTGGAACACTACAAATGAATGATACTGAAGAAAGAGTAAAACATGGACAAGATGGTGCCCAAAATGTCGCAGATAATATGATCAAAAGACTTCACTGGGCTATTACATGTGGAGGAGAAGGAGGAGACTTAGATGATGTACTATATACTGTAAAAGCTCTAGGAATGGTTGTTTCTACAGATGTAGATTTTGATTCTGGGCCTGCTGTAACAAACGGTTTTTCATTTAGATGGCATTCAGTTTTTGGNGGNGGAATGGGAGATTATTCACANAANGGACTTGATTCNGGAGGATATTCTGGNGTTCATGCAAGAAGTGCTATAGGAGGATTTACCGGAAAATTTTCTATAGAACCTGAAATAATCGTTGCAATTCCAAAAGAATTAAGTACTGAAATAATTTCAAACAGAGGATGGATATTCCCTCTTATTCCTGAAGTATTTGAAAGAATTAAAAAAAATAATTAATGCTAAAATTTTCTCATGAAAATAGCTATATCAGGTTCCAATGGTTTAATTGGAACTGAACTTAAACAATACCTAGAAAATAATGGCGAAAAAGTTACTACTATTGTCAGAAACCCAACCCAAAAAGGGATTTTATGGAATCCAGAAAATGAAGATATAAATTTGGACTTATTAGAAGGTTTTGACTGCATAATAAATTTAAATGGGAAAAAAATTGATAACTTACTACCTATTTCAAATAATTATGAGATAAAGAAATCAAGAATATCAAGTACAAAAACTTTATCAGTTTCAATAAGCAAATTAAAATATCCACCTAAAGTATTTTTGTCAGCATCAGGATTTGGCTATTATGGAGATAGAGGAAATGAAAATTTAACTGAGAAATCTACTCCTGGAAAAGGATTTCTTTCACAATTAGCCATGGAATGGGAAAATTCAGCTACTTCTTATATTCCTTCAAATTCCAATACTAGGATAATTTTAATGAGATTTGGATTTGTTTTATCAAAAAATGGAGGAATTTTACCAAGATTAAATGTTTTGGGTAATTTAGGATTGGGCAAAATGTTTGGAAATGGTTTCCAATTCTGGCCATGGATTAGTATGGAAGATACTATTTCAGGTATTTATCATGTTCTACGGAGTCCAGTTTTAAATGGACCTGTTAATTTTGTTGCCCCTCAACAAACTACAAACAAAGAATTCATGAAAATTTTCACTAAATATTCTAAAAAATTCTGTTTTTTACCTATTCCAAAATTCTTGATCTCAAATTTTTCTACAGAAACTACAAAAAAAACTCTCCTTAATAGCACAAAAATGTTGCCTGAAAAATTAATCTCTTCAGATTTTAAATTTAATTTTGATACATTAGAAAAAACTTTTGAAAAATATTATTAAAATATTATTTTTTCAGCATTTG
>sequence09
ATTAATTAAAGTAGGCATTTTAGCAACTGCCCTAGTGACTAAAAAATCGTAATTGCAATCTAAATCTTCAGCTCTTGCCCTTTCCAACTCTGCTTCCCATTCCATTTCAGCTCTTTCTATTTCCATTTGAATTTGCTGCATTGTATTATCGTAATCATATTTAGCACTTTCCAATTCCATTTGCTTATTATTTTCAAAACCTCTCTTGTTACTCTCCCATCTATCTTCTAACTGTTGTAGTGAGCTTTCATATTCTCGTTTCCTATTTTGAACGTCTCTCACTCTATCTTCCCTTTGAGAATTCCAATAATAAAGAAATTCTTCCATCTCTCTTTCTTTTCCAAATTTATCATTTTCAATATCTCTGTTTAAAGTTTCTAATCGACTTGAATCTTCAAATTCCCAATTCATCTGTACATCTTTCAATTCTCTTTCTTTATCTGCAGCATGATTATTTATTTCTTCTTGTTTTTCGAATTCAATATCCTGTTTCCTAAACTCTCTATGCTGAATAAGATCCTCTATATCTTCTCCATTAGCGATTCTCCAATTAATCTCATCTTGAATTTCAAGTATTTCACGATCAAGTTCTTGGTCATACCATCTAGTCATATCTTCAAGTTCTCTTTCTTTTCTTATATTAAATTCTGCTAACCAGACATCACGATCAAATTTTATTCTTTCAGTATCGGAATCATATTGAATTTGCCATTGAGCTAACCCAAAAGCATGCTGTTCTTCAAGATTTTTCTTTTCTCTCTCAAAATCTTCATCATGTCTCAATAAGTTATTTTCAACCTCTTTCATTTGCATACCCATGTTTCGTTCCAACTGTTCACGATCCATTTCTTCAGCTCTTTCAAAATCTTCAGTTGCTTGATCTCCCCATCCTTCTGTTCTCTGTTGGTAAACATATTCAACATCCATCTTCTGCATTTCTATCTGTCCATAAAATTGTTCTCTTTCAAATTCTATTCTTCTTTCCTCCATCGCTACTGAATTAGCAGCATCTGCTTTGTAGGCTTCTAACCTTCGTATTTCCAATTCTATTTCCCTGTCTATACGATCAAATTCCTGTTGATTTCGATCTTCTCCAGAACCGAATAGTTCTCCTGTATCAAGTTCTACTGAACCACCAAAAACATTTACTGATACATCTGGATCATCTTCTTCCTCTCTTCCTAAATCTAATTCTCCCGATGAGTTAGACCATGAAAAGCCTTCCATTACTGTGTCAGACCAAACTCTATTATTGTCTCCTGAAGGACCAGTTTTTATGAAAATTGAAGCTTGATCATCAGTGAAAAAAGCTAAAGAATTCGAACCAGGCAATAATTTGGGATGCCATCCGTTATAATCTCCGTTGTCATCACCACTAAGCCAATTACCAAAGATAAAGTTATCATCATCACCACTTATACAAGCAGCTACTAATTTTTGACCTCCCTCACCATTCATACGATTATCAAGAACCCCATTAGTAGAATAGAAAATTAACGGACTATCTTGATTACAATTTAACTCAAATTCTCCATAATCTCTGTTAAAAACTGCTAATTCGGGATTTACATTATTGTCCGAATTTGCAGTTAAATGATTGCTTACCCTTATCTCTTCAATACCTCCCAATCCAGGATCATCACCTTCTATTCCTATACCCAACAAAAGATAAATTTGAGATCTTTCATCTCTATCGCTAGTGTAAGCTATTGAATCAGCAGATTCATGACTCCATGAAGGTTCCCAATTTGATATCCCATCTTCTATTACTGTAAGACTGACTTGTACAGGAGACTCTGTATTCCATCTATCAAAGTCTGTTTCTTCAGGACCATCGTACCAAGATATTGTTTCATAGAAGTCACGGTAATATATATCTGTTTCGCCACTCCATTTATGATCATTCCACTTTCCATCAATATTATAAGCAGTATAGGCGATTTTTCCTCCACTAGGATCCCATGTAGGATGAAATTCATCTTTTTCTATTCCATTCCATTGCATTGTAGTAATAGGATAAAAACTTCCAGCAGAACTACCTTCCAACATAAAAACTAAAATGTTAAAAGAATCATCATTGGGGAACAAATCATTATTATTAGTGGAGAATGCAATCATTTTTCCATCTCTTGAAAGAGAAGGATGAATTTCATCAGAATCGTTTGANCCTGGAAATTCAATAGGAAAAGCTTCACCTGTATTCAGATCGCTAACAACAATATCTAAGCTGTTATTTTGTACAACTAAAGCTAACCTACCTGAATTTTCATCTGCAAATACTTTTTTAGAATCAAACATCAAAGCTGAAGAAAGAATTATCAGGGAAAAAATTAATGAAACATTAAAACTAAAATTAGTTTTGAAAACTTTAAACAATTTTATCTCCAATCAGACAATAATTATAAAATTTAACATATATCGTATTATAACTTATAAATCATATGATTAAAGAAAAATTTGGAGATTATGATGAAAAAGTTTGATAACTCAGTATGTTTAGTTACAGGTGGAAGTTCAGGTATAGGAAGAGGAATAGCAATAGAATTTGCTAAAGAGGGTGCATTTGTTGTTGTAACAGATATTCAGGAAAAACCAAAAACTGGAAAATATCATGATACCGACTTGTCGACAACTACATTGGAAGAAATACAAAATATTGGAGGAAAAGGAATTTTCATTAAAACTGATGTATCAAATGATAATGAAATTATAAATTTAGTAGAAAAAATTAAAACAGATTTTGAAAAGCTGGACATATTAGTTAATAACGCTGGAATACATATTCCTGGTTCCATAGAAGATTTATCTATTCAAGATTGGGATATAGTTACAGGAGTTAATATTAGAGGTGTATTTCTTCTATCTAAAAATTGTATTGAANTATTAAAAACATCAGATAGAGGAAGGATAATTCACATTGCATCAGTACATGCTTTTGGAGGAGGAAATGGCCCTGCTTATGCTTCATCAAAAGCAGGGATTATCAATCTAACTAAAGATATGTCACTCTCACTTGGACAATATGGAATTACTGTAAATACTATCTGCCCAGGATATATTGAAACTCCGATACAAGATTATTTGAAACCTGAAGAAATAGAATCNTTTAAAGAAACTTTATCNATAAAACGATTAGGAAAACCTAAGGATATTGCTAATGCAGCACTATTCCTTGCATCAGAGGAATCAGAATGGATTACTGGAACTTCTATAGTAGTAGATGGAGGAGGCATTGCAGCAATTTAATTTTTCAAAAATTAACCCTGAATTTCACCCAGTTGTAATCATTGGAGCAGGAGTAGCTGGATTATGCTCTAGCCTTCATTTAACCAAAAAAAATATTCCTCATATTATTATTGAAAAAGGAGAAATAGCTAACACTTGGGAAGATGAAAGATGGGATAATTTTTTTTTAGTTAATCCTAACTGGGCAATTAAAATTCCTGAATTTGGATTTGGCAGTAAATCATTTCCTTCAAAAAACCCAGATGGATTTTTAAACAAATCTGAGATAATTAATCTTCTTAAAAACTTTGCATCCCACATAGGTTCTAAAATATTCACCCATGAAAATGTGATTTCGTTATCAAGAAAAAAAAATNATATATATGAAATAAAAACTAATAAGAGAAAAATTCACTCCAATGTAGTGATTATAGCTTCAGGTGCATTTGGAGACCCTCATATCCCAAAACTCTCATCAAAACCTCAAAATAAAATATTTGAAATTCATTCATCTCAATACAAAAATTCAAAAATTTTACCTGAAGGAGCAGCTTTAGTTGTTGGCTCTGGACAATCAGGTGCTCAAATTACTGAAGATTTAATTGAATCTGGAAGAAAAATTTGGCTTTCAGTAAGTAAGTGCGGTAGAAGATTACGTAATTACAGAGGACATGATTCTTCATGGTGGAACAATGAAATGGGTTTGTTTGATAAAACAGTAAAAGATGTTCCATTTAATGAAAGATGGAAATGTAGTTCTCACACATCAGGTTCAAAAGGTGGCCATGAAATAAATTTAATGGATTTACATGAAAAAGGTTTAAATCTCTGTGGCTCAGTTTCAAATTATTCATCTGAAAAAATTTTCTTTGATAACAACTTATTTGAAAATCTTAAATTCTCAGATAATTCTGCATTACAATGGTCAAAAAATGTAGACAACTACATTAAAAAACATAATCTGATATTGCCTGATCAAAACATTTATCATGATCCAAGAATTATTAAAGAGAAACTAATTTCACCGAAATATATTTCTTTTAATTCATCAAAAATTTCTACAATTATTTGGGCTACTGGATTTAGATTTAATTTTGATTGGATCAAATTAGATATAACTCAAAAAAATGGACACCCTATTCAAGAAAGAGGAATAACTAATTTCAAAGGGCTTTACTTTATGGGATTACAATGGATGCATTCTTCTAAATCTGCTCAATTTATAGGCGTGGGAGAAGATGCTGAATATGTGACTAATGATATTGAAGAAAAATTTAATTTTTAATTAATCTATTCCAGGAACTTCAACTTCAACAACTCTAACTCTTCCATCACCTTTATCTCGTGGTTGACCTAGTATTGAAGCTTCTAAAAGAAATAAATGTTTTTTTTCTGGTCCACCTAACTGACAATCAAAAGCTCCATGAGTGTTCGTAACTACTTCATCTAAAATTTCTCCACCATCTTTTACTCTTACCCAGCCTCCATGTCCTCCAAATTTATATGATGGTAATGCAACCCAAACACATCCTTCTTCATCCATCGAAATTCCATCAGTAGGAGCTCCAATATCAGCAAAAATTCTCTTATTTTTTAGAGATCCATCAGAATTTATGTCAAATGAAGTTAATCTGTTAGCAAATGTTTCTGCAACTACTAAAGTTTTTCCATCAGGAGAAATAGCCATTCCATTAGGGAAAGTCATTCTATCTGAAGCAATTTTTACAGTTCCGTCTGGATTTACTAATAAAATATAACTAAAACTTGGTTTATTATGGGGTCCAATAGGTTCATTTTCATCAAAATCTACAGCATCAATACCTATGTAAGCCTGACCATCATTATTAACAATCATGTCATTGACAATATATTCTGGCGAATAACTAGACAATATTTTTGAAAAATCACAAAATGTTGATATTTTCCCTGTTTCAGGATCTCCTAAAAGTACTTTCTTGCCAAACAGTGAATTTATCAACATTTTCCCATTGGGCAACAGTCCTACTCCAACAGGGTAATCATCTTGTAAGGAAAAAACAGTTTCTCTTTTACCTTCTAAAGATAAACTAACAACTTCATGAGAAAAAATATCTGAAAAATACAATAAACCATTATTCCATATAGATCCTTCAGGAAAAATNAAATCACNTAAAATTAAAATTGGTTTTTTCATATTGTTGTAGATTTATATATCAATTTCTCTATAAAATATCAGAAATATGATTTATAAAAAAGATTAAAATATAGATAATTTGTTTTTTCATTTAATCATTGATAAGTTATTGAAAAATAAATAGGTAGGCAATATGAAAAATCTAGCTCTGATAATAATACTAATATCTTCATTAATTATAATTTCAGGATGTTCTGGTGATGAATCAACTGCAAGTGACTCAGAAACTCAGTCTAGTGGTGACACTAATTATATCATCACACTACCAAACTATATCTTTACTTTAGACCATGCAAAAGAAACAGGATGGAAGTCTTCAAAAACATTCGACCCTGCAGCTGTTGATGATGAAGGTAATCTCTATACTCCCGGTGCAACTGAAATTCATTATGGATTCAGACAAAGAAAAGACATAGAAGTGAGATTTTATGAATCTCATGAAGATGCACTTAATTTAGGTGCTCCAGTTGCTGCTACTGCTACAGAAAACCTCCAGGAAACAGGTGGTGCACAATCTGTTACTACTTTAGCTGATGCAGGAGTAGGTGTACGTGGAGGAACAAAGTATGCTGCTTATGCTGTAATAGGAAACTTGGTAGCTTTATGTGAATTGAGTGTCGAAACTTGTGAAAGTTTTTCTGATGCGCTACTAATAGCAAACCCTTCCCCATTCACATCTGGAGAGGGCGAAGCAAAAGGATTAAAAGGTAGTGGGAATTAGCTACTTAAAAAAGTTAATATTAACTTGATAATCAAAAAATTATTTTTATTTTTATTAATGGTTACAATTGCCTGGACATTAATGTTCAGCAATATTATTCATCAAAAATCATTATTGCTTTTATCAATAGTTTTGTTTTCAACTTTCCTAGGAATTTTTATGATAGTAAGTGGTATAAAGGCAGAAAAAAAGAAATCTGAAAAATCAGTAGAAGAGTCAGAAATTTATGATGAAAGTTAAAATGGGATCTTATTTGTAATTTTAGCATCTTTACAAGGATCATGTCCTTCTGGATGTAAATCTTTTAGCATATTATTAAATTCTTCAGAAGTTACATGACATAAAAGATGAATCCCTGATTCTTCTAGAAATTTCATTACATCATGATGAATATCTCTTTCATTAGGATTTTTTGCTAATTCAAAAATCCCTTCTCTACTATAATAGTTATCTCTTGGAGTAGGTCCTCCAGTATAAGAAAAATCCTTTATATTTCTTTTTTCAAGTTCAATCACCAAGCTATTCCAATATGAGAAAGTAATTTTTTCAATATCATACATAAGAGCATTTCTGATAGGAAACATTATAGCCATAACTTTATGAAAAGATTTCTCATCTTTAGTCATATCTCCTAATGAGGATTCAATCAAAAAATCCCNATCTGAAGCTGGTTTACCAGATGGTTTTAATACTTCAGAAGAAGAATTTACAGCAATTGCATTATTAACTGAGAACAAAAAATCTCCTTTCCTATTTACTATTTCTTCTGAATTAGGATTTAATCCATTTGGATGAGGTGTACCAGTAAAAACACAGAAACCTTGAACATTAATTTCACAAGAATATTTATCAATTGGCCTATTCAAATTTCTATCTGGTGGTGGACCTCTTCTTTCGCCACCTGGTGGTGGGCCTCTTCTTTCGCCACCTGGTGGTGGNCCTCTTCTTTCGCCANCTNGTGGTGGACCTCTTCTTTCGCCATCTGGTGGTGGACCTATTCTATTCATTTCCGATTTTTGAATATTATTTTTTTCTTCAACTTGCTCGAGTTGAGAATCTGAAGAACAACTTAAAGATGTGAAAATAAAAATAATAAATATTAAAAAAACAAATCTTTTCATAAGTACATTTTACATAAAGAAATAAAGTAAATGAAAATTAGAATATTGGATTTATTATATCTAATCCAAATAATCAACTTCAGTTATTTCACAGTTTTTATGCCTATCTGCTAAAGTCCTTGACCATAAATTCATTCTTAATTGACACAACAATGTAGCAAACAAACCATTAGTTATAGTAAGAATTAAAGCCGATCGAGCTTCAGTGAGAAAAAAAGAATTTGTAATAAGAAATATTAAAGCAACAAGTAGCAGAAAATATAAATTCTTTTTTCTAAAATATACCTTCAACATATTATTCCTCCATTTTTATAAAAAACACTTTTTAAATTATATGGTGGGCCCTCAGGGATTCGAACCCTGGACCTACTGATTAAAAGTCAGTTGCTCTGCCGGGCTGAGCTAAGGGCCCTCTAAAAAATGAAAAGTGCTTTAGCAAGTCTAATAAATCTACTCTTGCGTTTCAACTAAAAAATCAATTAGCCAAAAATTCTGAATTCTGAAAAAGGCCAATAAGTAACCCATACTCTTCCAATAATTTCATCAGAAGACACAAAACCAAATAACCTTGAATCATTAGAGTAATTTCTATTATCTCCCAACACAAAATACATTGATTCTGGGACTTTCATTTTTTCATCAAAAGAAATAGAAGAAGTAAAACCAAAATTCTCTGAAGTTGGTTTACTATTAACCAATACTATTCCGTTTTTTATTTCAATCCAATCTCCAGGAAGACCAATAATTCTTTTTACTATCGCTTCTTTTTGAAAAAGTTGAGGAGATTTAAAAACTACTACTTCATCTCTTTTAGGCCCTCCAAAAATAAATTTATCCCCTATCACAATCTTAGAATTATCTAAAGAAAAAATACGAAAATAAATAAATTTATTAACTAACACTCTTTGGCCATCATCTAAGTTAGGAAACATACTTTTTCCTTTAACTACATAATTTTGGGTAAGGATTATTAAAATTATATAAATTAAGGAAGCAACAATAATACTTCTTCCTATTTCTCTTAAATCTTCTATCATAGATTTATATTATCTTTAACTTACAGAATAAAAAATAAGTTAATAAATAATTTATTGTAATATTCACTGATAATTCATTATAAAATATTATTCAATAATAAAAGTTATAGAAAAGGAACGTAAAATGGTCTTGAGTGATAAAACTATCAAAGAATACTTGGATAATGGTGCTTTAATTATCGATCCTTTAGATCCTAAAGATATACAACCAGCAAGTGTAGATCTTCATTTAGATAACAAAATTCTAGTTTTTAGAAATTCTACTGAACCATTTATTGATTTAAAAAAAGATTTACCAGACTTAACTGAAGAACACATAATTAAAAAAAATCAGCCTTTCATTTTGCATCCAGGTGAATTTATTTTAGCTTCTACAATAGAGAGGATAAAAATTCCCACAGACATTGTTGCAAGACTTGAAGGAAAAAGTTCTTTAGGAAGAGTTGGATTATTGATTCATTCTACAGCTGGTTATGTAGACCCAGGTTGGGATGGAAAATTAACATTAGAGCTTACTAATGTATCTAGATTACCTATAACCTTGTATTACGGAATGAGGATAGGACAAATAAGTTTCCTCAAACTAACTACTCATGTGATAAGAGAGTATGGATCTCCAGAGCTAGGAAGCAGATATAAAGGACAAAAAGATCCTACAGCTAGCAAAGCACATTTAGATTTTGATAAACAAATAAAACATACTGAATAATAATGACATTTTTTAAAGAAGCTCTTTCTTTAGCTGAATCCGTTAAAGGAAATGTTTCACCAAGACCTCCTGTTGGAGCAGTAATAGTAAAAAACTCAAAAATTGTAGGAAGAGGTCGTACAACTTCTAAACCTATAAAACATGCTGAAATTATGGCTATGGAAGAAGCTGGAGAAAATTGTCAAGGTAGCGTTCTCTACACAACATTAGAGCCTTGTTATCATCATGGAAGTACTCCTCCTTGTGTAGATTCAATCATAAAGTCTGGAATACATAAAGTAATTACTCCTTTGAAAGATCCTAATCCAGAAGTGAATGGAAAAAGTATCGAAAAACTCATAAATTCTGGTATTGAAGTTTCTACAAATTTAAATAATGATGAAATTCATCAAGCTGAAGAATTAATAGAAGGTTTTAAACATTTTTTAATTACGAAAAAACCCTTTGTTACCGTAAAATATGCAATGACTTTAGATGGTAAAATTTCTTCTAAAATTGGAGATTCTACTTGGATTTCTAATGATCAATCAAGGAAAATTGTTCATAAATTAAGATCTCAATCAGATGCTGTACTTATTGGAGTAAACACTTTATTAGTTGACAATCCTAAATTAAACGCCCGATATGGCTTTAGTGGTCCAAAATATAGAGTTGTATTAGATTCAAATTATAAAGCACCTAAAAATTCAAATTTATTCAAATCTCCAGGAAAAATTTTAATTTACTCAACTAAAGTAACTTCTCAAAAACAAATTAGTAATGTAGAGCATATAAAAACTAATTCTAGTAATGAGGGCGTAGATATAACTAGTGTATTAGAAGATTTGGGGAAAAAAGGTTGTGTAAATATCTTAGTTGAAGGTGGAAAAGATATTCTAGGAAGTTTTTTTGACTTAAAACTAGTAAATAAAGTAATCATTTTCATTTCTCCAAAAATTTTAGGAGGAAAAAATGCTATTACTGCTGTAGGAGGTAATGGTTATAGTTATATTGATGAATCTCCAGAATTAAAAAAAGTAAATATTTCAAAAATTGAAAATGATATTATGATATCAGGGTACTTAAATTAATATGTTCACAGGAATAATTCAATCTATAGGTGAAGTAATAGAAATATCTAATGAATCTTTAACAGTTTCTTGTAAAGATGTTATAAATGAACTGAATATCTCAGATAGTATTTCTATATCTGGTACCTGTCTTACTATAATTGAAAAAAATCTTGAAAAATCCACTTTCAAAGTTAATGTAATTCCTGAAACTTTACAAAGAACAAATTTAGGACACCTAAGTAATAAATCTAAAGTAAATCTTGAAACATCAGCAAAATTAGGGGGAGTTATAGGAGGACACCTTGTTCAAGGTCATATAGATTGCACTAGTGAAATCATAAATATAAAAAATGAAGGGAATTCTTATGTAGTTTCTATTAAAACTCCAAAAAATATAGCAAGATATTTAGTTGAAAAAGGTTATATTGCTTTAGATGGAACTAGTCTTACCATTGTTGAAGTAAATGATGAAAATTTTATTGTATCAATCATCCCTTATACTTGGGAAAACACAATTTTTAAGTATTCTGAATCTTCTAAACTAGTTAATATAGAAGTAGACTTAACAGCAAAATATTTAGAAAACTTCTACAAATTCTATAAATAAAAAATATTCACATATTATTAACATCAAAAGACTTAATAATTATAAAATTAACTTTGCAGTTATAATATATAGATTTTCAAAAACTAAATTCTTATAAAATGAAAAAATAAAAACAATGAAATTAAATACTATAGAAGAAGGAATATCTAGCTTCAGTAATGGAAAACCCGTAATAATAGTAGATGATGAAGATAGAGAGAACGAAGGTGATTTAACAATTCCAGCTGAATCAATAACACCTGAAATCATAAATTTCATGGCAACAAATGCCAGAGGACTAATTTGTGTAGCAATAGATAAACAATATCTTGATAATTTAAAGATTCCTCCTATGGTAAACGGTATAACTTCTAACAACCACACAGCTTTTACTGTTTCAGTGGATTCTTCACAAGGGATTACTACAGGTATTTCATCATTTGATAGAGCAAAAACTATTAAAGACTTAATTGATGAAAAATCCACAGCAGAAAGCTTTGTGAAGCCAGGTCACATATTCCCTATTCAATATAGACCAGGAGGAGTATTAGTCAGAGCTGGACATACAGAAGCTTCTGTAGACCTGTCTATATTAGCAGGCAAACAAAAAGCTGCAGTAATGTGTGAAATATTGAATGACGATGGTTCTATGGCAAGAAGAGATGACCTAGAAAAATTTGCAAAAAAACATGATATAAAAATTATTTCCATTGAAGACTTAATTTCTTATAGATTTAGTCATGATAAATTAATAGATAGAATAGCTGAAACTACCCTTCCTACCAAATATGGAAAATTTAAAGCTATAGGCTACAAATCTTCTCATGAATTAGAAGAACATTTAGCTTTAGTTTCAGGAAACATTTCTAAAGATGAACCTGTTTTAGTTAGAGTACACAGTGAATGTTTGACTGGAGATTTTTTTGATAGTTTAAGATGTGATTGTGGAGATCAATCTAAAGATTCACTAAAAAAAATAGGTTCCGAAGGCGGAATATTTGTCTATATGAGACAAGAAGGTAGAGGAATTGGGCTTCATAACAAATTAAAGGCTTATGAGCTACAAGATTCAGGAAAAGACACTGTGGAAGCTAATAAAACTTTAGGCTTTCCACCCGACTTAAGGCATTATGGTGTTGGAGCTCAAATCTTAGTCGACTTGGGAGTAAAGAAAATAAAACTACTTACTAATAACCCTAAAAAAGTGGTAGGTCTTGATGGTTTCGGACTCGAAATTGTTGAAGTAATCCCTATCTTAGGTAATGAAAACGAACATAATAAAACTTATCTCAAAACTAAAAAACAAAAACTAGGCCACTCTTTCTAAGGAAAATTTTTTGAAACCTCCTTCATCCAACAAAAGTAATTTCGACAATCTTGTTAACAACAACTTTGACTTCTCCAAAATTAAAATAGGATTAATAATTTCTACTTTTAATAAAGAAATTTCTGAAAATCTTAGAACTAATATATTAAAAGAATTAAAAAATCATAAAATCCAAATCAAGAATTCAAATTATTTTATAGAGAAATTTGTACCTGGAGTTTTTGAACTTTCCCAAACAGCATATCATCTAGCAAAAACATCAAAATTTGATGTGATCATTTGTATTGGATCAGTAATAAAAGGTGAAACTAAGCATGATGAGTACATTTCAATGTCTACAGCACAAGGTCTAACCAATGCAAGTATTTTAACAGACACTCCTATAATATTTGGAGTTCTAACTACTCAAAATATTCAACAAGCTGAAGAAAGAATTTCTAATGGCACTTATTATGCTAGATCAGCATTAGAAATGGCAGTTTTAAATTCTTCTTAGTTGAAAAAATTAATCACATCTATTCTAGTTAATCTCCTTCTGCTAGAATTTCGCTATTGTATGGCGATTCGTCTAGCGGTAGGACACCAGACTCTGAATCTGGTAGCCCAGGTTCGATCCCTGGATCGCCAGCCAATATAAAATTTAATATGAGCCCCGTTGGTGTAGTGGCCTAACACGATGCCCTCTCAAGGCATAGATCACGAGTTCGAATCTCGTACGGGGTACCAAAATAGGAGGAAAAATGTCTAAATTTAAAGTTGCTTTCATAGGATCTTCAGAAATAAATTTAGAACCACATAACAGAGCCATAAAATTAGCAGGTGGAGTTTTAGAAAGAGTTGATGATTCAAAAAAAGAAAAAGCATTCAATGAATTAAAAAATTACAATGTGATAATTGTTGAGCAATCACAACTTCCATTAAATTCTGATTTTTTTTCTAACTTACAAAATAGTTCCTGTAAAGGAGTAGTTTGTTTTGGTCATGGGTATGACTCAGTAGATATGAAAGCTGCTACAGATAACAAAATAATCTTTGTTAATGGAGCTTCTTTCGGAACTGAAGAAGTATCAAATCAAACTATGATGCTTTTATTAGTTTGTGCAAGAAAATTTGTTCTTCATGACAAATTAATGAAAAGTGGTACTTGGACCAGAGAGTATCTCTCACCAATGGGACATATATCCGGAGAAACTCTTGGGTTAATTGGAATTGGAGATATAGGAAGAGCAGTTTCAAGAAAAGCAAAAGCTTTTGGAATGAATGTAATAGGCTATGATCCTTATCTATCTTCTTGGAATTTCAAAGAATATGGAATTGAAATAGCTACAAGCATTGAGGAAGTTTGCGAAAAATCTGATTATGTTTCATTACATACAAATTTAACTGATGAAACATATCAACTTGTAGGAGAAAAACATTTTAAATTAATGAAAAAAACAGCATATTTAATCAACTGCAGTCGAGGACCTGTTGTTGATGAACTAGCATTAATAGATGCTTTAAAATCACAAGAAATTGCTGGGGCAGGATTAGATGTGTTTGAACAAGAACCTATTGATCCCGAGAATCCTCTTCTTTCTATGGATAATGTAGCAACAACAAATCATTATGCTAGTTATTCAGAATTAGCATGGGAAAGAGCTCAAACACAATTGGGTGAAGAAGCAGTAAGGATTGCTACTGGTACATTACCTATGTCTTTCATCAATAAAGAATTAATCTCAGAAATTCCTGAAATGAAACAGGCACAAGTATGGGAAATCTATAAAAATAATTTTAATAATTCTTAAAGAAAAATAAATATAATAAATCAACTAAAATTTACAGAACTAAATTCTGGAAAATTCATGTTACATTTTTGTAACATTTTGATAAAATCCTTTTGGTAATCATATTATTCGGAAAAATATCTTAATAATTCTTATATAAATGTTGAAAGAAAACCAAAGAAATAATTTTTCAAAAATTAATGCTGGAATCATAGCAGAAATTCTTGAAAACTATTTTAACGATCCTTCTTCTATACCTGATAGTGATAAAAAAATTCTCTCAGATTATCTAAAATCTATAACTGGTCAAAACTTAACTACTGAATCAGTATTAGATAAATCAAATGATCAATCAGAATTTATTAGAAAATATGGATATATATATGCTAATACTGATCCTTTAAATATAAATAACGTAAAACTTCCAGAAAATTTTTCTAGTAATAACAGTAATGATAAATCTCCTTACATAAAATTAGAGTCTATATATTTAAAAAACATAGGATATGAATGGGAACATCTTAGATCTAGAGAAGAGAAAATATGGTTTGAAAACAAAATAGAAACTGAATCAAAAGACCTTGATACTACTAAACAAGAATTAATAGATTCAACATTTGAATTAATTAAAGCAGAAGATTTTGAAAAGTTCATCCATAGATCATTTCCTGGTTCAAGATGGTATAGCTTAGAAGGATCAGAAGCATTAATTCCTTTGATAAAAACTCTCATTACTAAAGCATCTCAAACAAATATTGAGAGAATTTTAATGGGAATGCCACACAGAGGAAGATTGAACACCTTATCACATATTTTCAACAAACCATATGAGTTGATCTTTGATGAATTTAAAGAAGAAAATCTTAAAAAAATAGTTAAAAATATTAACTCTGATGAATTTTTGCTTGATGTAAAATATCATTTGGGAGCAAAAACTTCCATAAAAAACTCAATCGGTAAAAACCTTGATTTATTTATGCTTCCAAATCCAAGTCATCTAGAAATGATCACGCCTGTAATTAGTGGTGCAACTCTAGGAATAAAAGATAAAGAAAAAATTTCTTCTGAAAAAACTCTCTCTATAATTATTCACGGAGATGCTGCTTTTGCAGGACAAGGAATTGTTGCTGAAACTTTTAATTTATCGGGAGTCGAAGGATATAATACTCAGGGAAATATACATATAATAAATAATAATCAAATAGGATTTACTACAGATCCTAAGAACGCTTTTTCAACAAAATTTTCTAGTGACTTAGCAAGAGGTTTTGATATCCCTATACTTCATGTTAATGGTGATGACATAGAATCATGTATCAAAATCGCAAAACTAGCTGTCCAATATAGAAATTCATTTTCTAAAGATATTTTGATCAATTTAGTCGGATATAGAAGATTTGGACATAATGAAATGGATGAACCTTCATTCACTCAACCTTTAATGTATAAAAAAATTAAATCTCACCCTACTGTTAGATCTATTTGGGTGAAAGAAATTCTTGAAAGAAATATGATTTCTATAGATGAAATTTCTCAATTTGAAATAGAAAATAATGAAAAATTAAGGAAAGCAAACTCCAATTTAAATACTGTAGATCACCAATCACTAGCTTGGCCAAATAATTTTCCAAATAATAAAAAATCATCTGAATTTATAAAAACAAAATTAAGTGCATCTAATCTAATTAGCACTAACAAATCATTATGGAGTGTTCCATTAGATTTCACTTTACACCCTAAATTAAAAACATTAATTGAGAAAAGAAGAAACAGTGACCTTGATTCTAAAATAGAATGGGGTCATGCAGAAATATTATCATTAGCTCTTTTGTCAGAAAAAAATATCCCAATAAGACTAACCGGACAAGACTCTTCTAGAGGAACATTTAATCAAAGACATGGAGTATTAATTGATATTGAAGATGAATCAAAACTCAATGTATTTTCAAATATCAATAAAAAAAATCTGCCTTATTTAATTAACAGCCCTCTTTCGGAAGAAGCAGCTTTAGGTTTTGAGTTTGGATATAGTTCAATGTTTTTAGATTCATTAGTTATATGGGAAGCTCAATTTGGAGATTTTGCAAATAATGCTCAATCAATTATTGATGAATTAATTTGTTCTTCTCAAGCTAAATGGGGTCAAAACACTGGGCTAACATTACTACTGCCTCATGGTTTTGAAGGAATGGGGCCTAATCATTCAAGCGGACATTTAGAAAGATTTTTAAATTTATCAAGTCAAAATAATATCACCATAGCTAATTGCACTAATACTTCTCAATATTTTCATTTACTTAGACAGCAAGGTTTAACACCTCCTAATGAGAAAAAGCCACTAGTGATAATGACTCCTAAAAGTCTTTTGAGACATCCTTTAGCTTCTAGCACTTTAAAAGAAATTCTTGAAGGACAATTTGCTCCAATATTAGAAACTAGAAAGGATAATATTGATCAAATAAACAAAGTAATTATTTGCTCAGGAAAAATATCAATAGAATTTTTATATAAAGATTCAGAAAAATTGCTTAAAAATAGTGTTTTAATAAGAGTAGAACAATTATATCCATTCCCTGAAAAGATTTTTAAGGATATCATTTCTAAATATAAAAACATTAAAAAAATTATTTGGTTACAAGAAGAACCAAAGAACAAAGGTGCATGGCAGTATATTAATGATACGATTTCACCTATGGTAAAAAAATTAAAATTTGTAGGAAGAAATTTTTCACCTAGTCCAGCTAGCGGATCTAGTACTGTTCATAAACTTCAACAACAACAAATTTTTGATGATATTATAAAAGAATAAAATGACTGAAGAGATAAAAGTTCCAGAAATGTCTGAATCTACTGTTGAAGCAACAGTAGGTATTTGGCATAAGCAAGTAGGAGATACAGTTAAAGAAGGAGATCCATTACTTGAGCTTGAAACAGATAAAGTAAATTTAGATATTAACTCTCCTGTAGATGGAACATTAACTACATTAGATAAACAAACTGGAGATACAGTTATTGAAGGTCAAATACTAGCAACTATCTCTACGGAAGAAAATTCATCTGAAAAGACTGAAGTCAATTCTCGTGAACCCGAAAAAGAAGAAAATTTAGTAAAAGAAATTGTTGATATTACTCCAATAGCAAAAACAATAGCACAAAAAAATAACATAGACATTTCAAATATTAAAGGTTCAGGAAAAGAGGGAAAAATAACAAAAGAAGATGTAGAAAACTATATAGATAAAAACAATAATTCTTCTAAAATGATTGAGCCCTCTTCTGAAAAATCTAATGAATTTGAAAGTGAAAATTCTTCAGAAACAAGAATAAAATTATCTAGAAGACGTTTAACAATTGCTAAAAGATTAACAGAAGTCCAACAAGAAACTGTTATGACTACTACTTATAATGAAGTAGATCTTTCAAAAATCATTGAAATCAGAAAAAATTTTCAAACGAAATTCTTTGAATCTTATAATGTAAAACTAGGATTTATGAGTTTCTTTGTTAAAGCGGTAATAAACAGTTTAATAAAATTCCCAGAAATTAATTCAGAACTTCAAAATCAAGAATTGATTCTTAAAAAATACTATGATATCGGAATTGCGGTTTCTACAGATGAAGGGTTAGTAGTTCCTGTGCTTCGTGATGCTATTAATAAATCCTTTTCTGAAATAGAAATATCTATTGGAGAATTAGCAACTCGAGCTAGGAAAAAACTTATATCCTTAGAAGAATTACAGGGAGGAACATTTACTATCACGAATGGCGGTATTTTTGGATCAATGATGTCTACGCCTATTTTGAATCCTCCACAAGTAGCAATACTTGGAATGCATAGAATAATTGAAAGGCCAATAGCTAAAAACAACAATATCGTAATAGCACCAATGATGTACTTAGCAGTCACTTATGACCATAGAGTAATAGATGGATCTAGTGCAGTTCAATTCTTAGGACATATAAAACAACTCATCGAAGATCCGAATGCCCTACTTATAAACCTATAAAATGCCTAAACCTACTACAATAGAAAAGATCGAAACTTACTTATGGGATAGATGGTTAATTGTAAGAGTAATATGTGAAGATGGCACAATAGGAATTGGCGAAGGTGGAGTTCATGGATGGCAATTTCCCACAGAAGCAATGATAAAAACAATAACTCCATACTTAATTGGGAAAGATCCCTCAATAATCGAGCATCATTATCAATATTTATACAGAAACTCTCATTTTATGGGTTCTATAATCAATGGAGCATTGTCAGCTATAGACATTGCATTATGGGATATTAAAGGAAAAAGACTTGGAGTCCCTATTTATGACCTAATGGGAGGCAAGACAAGAAATAAAGCACGATGCTACATACATGTCGAAGGAGAAACTATAGACGATCTAGTATCTGATTCACTTGAAAAAGTTAAAGAAGGATTTACAGCTATCAGATTTCAACCCTACTCATCGAACTTTTTTACTTATGATAGTGTGTCTGAATGGATAGATGATGCAGAAAACCGAGTATCAGCAGTAAGGGAATCTATAGGAAACAAAATTGATTTATGTATAGAAATACACAGACAAATGTCACCTTCAGAATCAATAATGTTAGGAAAAAGATTAGAAAAATTTAATCCTTTTTTTTATGAAGATCCAATGTTACCTGACAGTCCAGAAATAATGAAAGATATTCAAGAAAAATCTAACCTCCCTATTGCTACTGGAGAAAGGTTCACTACAATTTTTGAATTTCAACAATTATTACAACATAAAGCATGCTCATATGTGAGACCTGATCTTTGTCTTGCCGGAGGGCTATCTGGTTCTAAAAAAATATCTGCAATGGCAGAATCACATCATATAAAAGTGATACCTCATAATCCTTTAAGTCCAATCAGCACTGCAGCTTGTTTACAATTAGATGCATCTATACCTAATTTTGCTCTTCAAGAATATACTCCCACTGAAAAATTACCTCCAAAAAGTGAATTGTTAGAAACACCTCTTAAATTAAATAATGGTTACCTTGAAATTCCATCAGGACCTGGTTTAGGAATAGAACTCCGTACAGAAACTCTTAAAAAATATCCTCGAATAGAAAAAATTCTTGATACTCCACTGAAAAATGATGGATCAGTAGCAGATTTTTAACTATACAAGTTGTAAAGCTAGGGTAAAAAGACCAAAAACAACTCCATAAAATCCAAATAACCAGAATTTAATTTTTTGAGCCCATTTTAATGTAAAATTTATTGTAATTAGAGAAATTATCATAGAAACGAAAAATATTAAAAATAAATTGCCCCAATCCGATGATTTTACAGAAGAACTAATTATCTCTAAAAATTGAAAAATATTTGCTCCTAAAATAACAGGAATACTAAGCAAAAATGAAAACTCCACAGTCTTTTTCTTATTGATACCCATCAAGATACCTGAAGAAATAGTCATTCCTGATCTAGAAATCCCAGGAAATATAGCAAAAGCCTGAAATAAACCTATAAACATTATCTTTTTTATTCCCAATAATTTATTTTGATTTTTAATAATATAGTTTATATAACTGGAAATAATTAAGAATATCCCTGAAACAATAAAGCAAACACCTACAATTATTGAAGTTCTAGCAGTGGTTGCCAAAGTATCTTTTAATAAATACCCAATAATTCCTATAGGAATAGAAGCAATAAAAAGTTTTATAAAAATGCTTTTCATTTTTTCATACTGTAAACCTGAAATTTTAATTTCTTTAAAACTTTTAACACCAAAAAAACATATAACAGCAATCAATGAACCTAAATGAGCAACTAAATCTACACTTAAAGAAGGAGTTTTTAAGCCAAAAATATCTGAAAGCACAACCATATGTCCACTACTACTAATTGGAAGAAATTCAGTTATGCCTTGAATAAAACCTATAATTATCGAATTAAATATATTCAAAAGATTTTTCCTTTATCTTGTTATTGACTATAATTTATATTTTAGACACTTCTATTACACAAACCAATTTTTAAAAAATTATGGCTAAAATCACGAAGATTGAAACATTAACAAATTCTAAATACTCAAAAATCATTTGGGTAAAAATTTATGATGAATCTGGAGAATATGGTATAGGAGAAACTTCTTGGGGACCAGAGACAGTAGAAACACACATCCTAACAGATATTGCACCACAAATAATTGGAGAAAACCCTCTTAACATCGAAAAATTATGGGTTGATATCTGTAAACTTGGAATTACCGTGAGGCCCAATGGTGCAGAAGTTAGAGCTCTCTCAGCTATAGATATAGCATTATGGGATTTAGCAGGAAAATTAACAAACCAACCTTTATATCAAATGCTAGGAGGATTATTCAGAGAAAAAATAAAGATTTATAATACCTGTGCTGGTTATTCTTATGGCGTTAATAGACCAGGCACATATAGAAATATTCCTGGTAGCATAGACTACAAACCAGAATCTCAATATGAAGATCAGCATGCATTCATGACTGATGCAGGAAAATTAGCAGAGAGTCTTTTAGAAGAAGGTGTGTCTGCTATGAAAATTTGGCCTTTTGACCAATTTTCTGGAAAAACAAATGGTCAATTTATCTCCTCTGAAGATATTGATAAAGGCTTAGAACCTTTCCAAAAAATTCGCGATGCTGTTGGAAGAAAAATGGATATTATGGTCGAATTACATTCAATGTGGAATTTACCATCAGCAAAAAGAATAGCTAAAGCTCTTGAGCCAATAGAACCACTCTGGTATGAAGATCCTATACCAATGGATAACTTGGATGCATTAGCCGACTATAAAAGATCAACAAGAATACCTGTAACGGCCAGTGAAACACTTACGCTTAGATGGAGTTTTAGAGAACTTTTTGAGAAAAGAGCAGTAGATATATGTATGTTTGATATATGTTGGGTAGGTGGAATATCTGAAGCTAAAAAAATATCTACAATGGCTGAAGCATATCAATTACCTATAGCACCACATGACTGTGTGGGACCGATAACATTTTTGAGTGCGATTCATATGAGCCTAAACGCCCCAAATGCTATGATTCAAGAAACAGTTAGAGCATATAATAACACTTGGTACAGAGATATTATCGAGACAATGCCTAAAATAGAATCAGGGTATGTGTACCCTCCAAAAGGAATTGGTATTGGCACAATTTTTACTGAAAAATTTATAGAAAGTAAAGATACAATAATTAAAACGGTTGAATCTTGACAAAATCATATAAAAAAGAAGAACTAACTGGAAAAGCTTTAACAGTTTTAGGCCCTAAAGACACAAACCAATTAGGGAAAGTAATTTGCCATGAACATTTATTAATAGATTTTAATGTTGTATTTCAAAATCCCCCTAATCCAAAAGAGTTACATCTTAAAGATGAGAAACTAAATCTTTCAAATCTAGGTTGGATAAAAAAATTCTGGGTTTCTAACAAGGATAATTTACTTATTGATGACATTGAAATTTCTATAAATGAACTAAAACATTTTTATAAAGCTCAAGGAAATACAATAGTTGATGTTACATCTATCGGTTTATCAAGAAACCCTTCTGCTCTGAAAATCATTAGTCAGAGAACTGGAGTAAATGTAATTATGGGCTCAGGATACTACATAGAAAAAACTCATCCAAATTATTTTAAAACAGATAGCGTTTATCAAATCGCAGAAAAAATCACAAATGATATTCTTCATGGAGTAGATGGAACAGAAGTTCACAGTGGCATTATAGGTGAAATAGGTTGTGATTTTCCTTGGAGTTCTGATGAAAGAAAAAGTGTGCATGCTGGAGTACTAGCTCAAATAGAAACAGGAGCACCTATATTAATCCATCCAGGAAGAGACGAAAATGCTCCATTAGAAATCGTTAACTCTATAATGAAATGGGGTGGGAACACATCTAGAACTATTATGGGTCATATAGAAAGAACTATATATTCAAAATCAAAATTACTAGATTTAGCTAATTCAGGAGTATATATGAATTTCGATCTTTTTGGTCATGAATCATCGTACTACCCTTTGGACGATTCTACATATATGCCTAGTGACCATCAGAGAATAGAGATAATTTCAGAATTAATTGATTCAGGTTTCTCTAATAAAATCTTAGTAGGTCATGATATATGCTCTAAACATAGATTAAAAAATTTTGGTGGTCATGGATGGGATCATATTTTAAAAAAAATTATTCCCAAAATGAAAAAGTTTGGAATAAAAACAAGAGATATAGAGAATATTCTTATAAAAAACCCAAGAGAAATTCTTAAATTTTCTTAAATAATCTATCCTCTTATGAATAAAAAAACCTTAAAGTTTCTAAAGATATTAATCAGGCAAACAATTCTTTTATTAATTCTAATTTTAGTATCTTGTGGAATTGATACTAATTCTGATGAAAATAGTTTGAAAAACCAAAACTCTCTATCTGTAATAATTATTTCTTCTGACATTTCTATAGGATTAAACAAAATTAAGTTTGCAGTATTAAATCTTGAGGGCAATCCTATCTTGAATCAAGAGAAAAACTTAAAAGTATTTATTTCACCATTAGAAGACCCTCAATTTAAAAAACCAATCTCGATTGAATGGGAACCTTGGCCTATTTCTGGAGGAGTATATAAATCTAATATAGAATTAAAATCTTCAGGATTCTGGAAAATCAATGTTTTATATGAAGAAACTGAAAAATTAACTGGAGAAGCTATTATTCAAGTAAATAAAATTCCCCTGACTCCAGAAGTAGGAAAAATTCCTCCAAAAATACATACTAAAACTATTTCAACACAATTATCTTTAGAATCTATAACTTCAGATATTAATCCAAAATCAGAATTATATAGATCTGATTTTTTCGATGTTCTAGGAACTAAACCTATCGTAATAAATTTTTCCACTCCCTCTTTTTGTAAATCTGGAACTTGTTCACCAATGATAGAAAATATCAAAAAACTATCTGATATTTTTCACGAAAATATAGTATTTATACATGTGGAAATTTATGATAATCCTGAAGAAATAAGAATTTCTGGAAACCCTAATATAGGGAAAATTTCAGAACCTGTAAAAATCTGGAACCTCCCTTCAGAACCTTGGACTTTTTTTATAGATAATTCAGGAAAAATAGTTTCAAAACATGAAGGTTATGTAGAATATGAAAATTTAGAACAAATAACATCTACATTGAAATAATATTCAATGACCATTTTCATCTCCATCTTCTATAGATACTATTGATAATTGTTCACCTATTTTTTCATAGATAATAATTACAGGATGTCCTGATACCTGATGCTCTTTTAAATGATGGGATGTAAAATGAGAATAAGATTTATTATTACCATTAAATACCCAAATTTCTCTATCAAAATCCTTCAATGTCAATTTGCTTATTTTATTTAATTCACTTGATTCAATACTGATAATCTGGCCAGTCACTTCTTGAAAATTATTAGTACAAGAATTAAGAATAAGTATTAGAAATGATAAAATAAATATTTTCCGTAAAAAAAATTTCAAATTTTTCCTTTATTTTTCAAATTGTTTCAACAGTCTTTTTGCTTCCTTGTATACGGTAGGTAATCTTGGTTCTTTTGCTAAACTTTCGGCCTCTTCTAAATCAATAATGATTTTTTCCAGATCTTGATCATAATTAATTAAAATTTTAGCTCTATCTAAATACAATTTGGGATTATTAGGATCTAGAAAAATAGCTTCTTTAAAATCCTCAATAGAATCCTCTAAATTATTAAAGTTCGCTCTAAATTTTCCTCTCCACCAATAAGCTAAACTAGGATTAGAAGCTAAAGATATACTTTTAGAAAAAAGATCTTCAGCTTTTTGAAATTCTCCTCTATTTCCATAAATTCTGGCTTTAATCAAAACAGGCCATTCTGGAGAAACTAAATTGTCAAAATTTATAATTTGTTTTTCAGAATTTTCTAAATCTTCCAACTCTAAAAATATAATTGATTTTAACAAATATGCTTCTCCTAAATCATTCTTCAATTCTATAGATTTTTCTAAATCTGAAAGTGAAGATTCATACTTTTCTTGATAGAATTTTGATGTAGCTCTACCCAACCAAGCTCTAGAAAAATTAGGTTCTAATTTTATAACAGTGTCAAAAAATTTTTCTGCATTAAGAAAATTTTTCTGTTCAAGATAATTATGAGCTCTAACATAATACATTATACTTTCAGTTTCATTATTATCGTTGGTGATTTCAGTTTCTAAAGATGTAGATATACCCTCATTGTCTTCAGAATTAGGAGTTACAGTATTTTCAACAATTTTTGGAAGGTCATTATTAGAACAAGAAAGTAAAAATAAAAATAATATAAAAGTAATTAAATATTTTGAAATCACTATTTTCATATCTTATACCGAAATAGAAGAAAGTTTAACCAAAAATAGTTCAAATTCATCTTTTTCATCTACAGCTTGAGTCTTCAATTTTTTTTCAAAAACAAATAATTCTTCTAATAAAATGAACAAATTATTTGTTGTTTTTTGGAAAGCTTGTTGCATAAGTTTTTTAAAATAATAATTATTAGTCAAACCAACAGTTGAAGAAATACTTTCCCCATCTTTTATTCCTTCATCAATAAGAGATCTAATCTGTAAAATTCTATGTAAAGAAGATATTAACAAAAATACTAATTCTCCTGATGTTACTCCTTGAACATACAGTTTCCTGATGATAGGAATAGCTTTTAAATAATTTCCATTAATTATTTGATCTAGAACATTAAATATTATTTCATTCTTTGATCCTGATATAATATTTTCAATATCATCATCTTTTACATTCCTTCCTTGTGTATAAAGAGCCAATTTCTTAAGTTCTTGATCTATAGAAAAAAAATCTCTTTCTAACATATTTTCTATTTTAGATGATTGTTTAGAATTAATTTCCATACCTAATTCTTTAGAACGTAAATTGATCCAATTTAACACCTGAGCTCTACTTCCTCTTCCTTTAGGTAATAAGCTTTCATGAATTTCTGAGATATCATTAAGTTCTTTAAAAAATTTCGATTTTCTAAATTTATTAGTAAGAGTATCATCTGTAAAAAAATCACTAAATAATAACATCGAATTTCCTGGTACTTCTAATGATCCTTTTAATATAGGAATCCAATCCAATGAGTTTGATTCATCAAAAATTCTGCATAATAAATTTTTTACTAATACAACTCGTCCATCATTAATCAATGGTACATTGTAAATAATGTTTTGAAATTCTAATAAATCTATTTTTTCATTATCAATCATCAAGACTTCTTTTCCAGAATCATCAATAATTTTTTCAATGGATTTATTTATCGAAAATTCATTATTTCCAAAATATACTAAAATCATTATTTGCTTCTATAAATTGATTTAAAAAAAAATTTTATAAGTAACATTTACATCATAAAGATATATAATTCATTTAGAATACTCAAATTTAAATATTTCAAGCTTATACAATATGAAAATAGCGATTTTAGGACTACCAAAAAGTGGCAAAAGTACTATTTTCAATTGTTTAACAAATCAAATTGATCAAAAAACAAATTCTTTTGGAATTATGAAAGTTCCAGATAATAGAGTAGAAGAATTAAGCAAACTATCATCAAGTATTAAAACATCCTTTGCTGAATTGGAAATAATGGACTCTGAATCTAGTCAGATATTTAATGATTCAAGCGAATTTTTTTCAGATGAAATAGTAAATTCTTTACAAGAATTCGATGCCATTATTCTTATAATCAGATCATTTAATGACCCTTCAGTCCCTCATCCTTTTGGATTAGTGGAGCCAGAAAAAGATCTTGAGCATTTTCTTTTAGAACAAAGATTTAGAGATATAAATATGATTGAAAAAAGAATTGAGAAGATTGATTCTGAAAAAAATACTTTGAACAAAAAAAACCAAGAATTATCAAAAACACAAACAGATCTTTTAAGATCTTTAAAAAATGAATTTGAAAATGGTATTTCATTTGAAGAAATAAATAATAATAATGAATTTAAAAAAATATTCCAAGAAAGTTTTTTCTTAAGTTCAATTCCAACAACTATAGTTTTCAATATTGATGAAAATCATATTGATGAAAACTTAGAAAATTATACTAAGGACATCTTCCAAGCTAAGATATATGGGAAATTAGAAGAAGAATTATTACTTCTAGATAAAAAGGAAGCTGAAGAAATACGTCAAGATTTAAAAATCAATGATTATTCTATTCAAAATTTAGTTAATCAGATCTTAAAACAAAATCATATTATCCATTTCTTAACTACAGGAGAAAAAGACACTAAAGCATGGCAGATAAAATCTGGATCTACTGCAGTAGAATCTGCTCAAAAAATCCATTCAGATATTTCTAGAGGATTTATTAGAGCAGAAGTGATTCATTATTCAGAATTATTAAAATCAGGAAGTTTCTCAGAAGCAAAGAAAAAAGGAATATTAAGAACTGAAGGTAAAGATTACATAGTCAAAAATGGAGATGTTATAAATTTTCTATTTTCAGTTTAATATATTTTAAAATACAGTAAGGAGTTTTTATGTCAGCAGAAGAATTAGGAAAAATAAATAAACCTAAAGCAGATCATGCTCAAAAAAGTAAGAAAATTTATCTAGTACCTTTAATAATAAACTATTTTCCAGATATAGAAGAATTCACATCACTTTTAACAGAATACTGGAAAGCATGTGATAATCAAATAAATAAATTAGAAACTCAAGCTGGGACGGTTTCAAAAATTTTCCATGAAGGCGTATGGTCAGATGGGAAAGAAGGTTTAAATCAAATAGGTAGTTTAAATAAATTCTGTCTAGATTTAGTTAATTCTAGAATTAATACTGGTTCAAATCTTGTTCCAATAGAATCCGAAGAAAACTATAAAAAACTTATGGATTTAACTCGGATAGTTCAATTAGGTTTTGCTAGCGAACAAATAAGAGATCTTATATTAAATGAATACAATCAAGTTGTAGAAACTAGAAATACATTCATAACAAATCAGTTAAAAAAAATTGGTGATACTGAAGCCGGACTATTAATTGGTTCAGTACAAAATTTTAAGATTCCTGATGAAATAGAATTATTTAATATCATTCCTCCCGAGCATGATAAAATTTTCAGATGGCTCTCTGAAAAAGAAAAATCTTTAAGATCTCAAGTAAACCCAGAAAATAGTCAGGAAAATGTTCAAACAGAAGATTCTTCTAAAGATAGCGGATTATGGACTCCTTAGAAATTAACAATACCATTTCTTTTTATATTCATATTCCTTTTTGCCAGATCAAATGCCCTTATTGTGATTTCAATACATATGAAAATATAGAAAATTTTATTCCAAATTATATGAAAGCTATAAATATAGAGATCAATAATTGGAAGAAGATATTATTACCATATACCATCAATAGCATATATTTTGGTGGAGGAACTCCTTCTTATATAAGCAATTCATACATCAAAGAAATAATAAATTTACTAAAATCTAAATTTTCTATAAATAAAAACTCTGAAATTACATTAGAAGCTAATCCCGTAGACTTAAACCTTAATAAACTTTCTTCATATTTAGATATTGGAGTAAACCGTTTAAGTATAGGAATTCAGAGCTTTAGTAATTCTTTATTAAAAAAATTGGGCAGAAATCATGATCAAAAAAGTGCAATAAAATCTATAGAAAACACATTTAAAGCAGGATTCAAAAATTTTAATGTAGATTTAATGTATGGAATACCTGATCAATCAATTAATCAATGGAGAAGCTCATTAATAAAGATAAAAACATATGAGATTAATCATTTATCTACCTATAACTTAACTTTTGAACAAGGAACACCATTCTACAATTGGAAAAAACAAGGAAAACTAATTGCCCCTAAAGATAAAAAAGTTGAAGACATGTATTTATTGCAAAAAGAGTTGTTATCTGAAATGGGATATATTCATTATGAAATTTCAAATTGGTCTAAACCAAAAATGCAAAGTAACCATAATTTAAGATATTGGTCAGGCAACAATTATATAGGTGTAGGGGCAGGAGCACACTCATATTTTAATAACAGAAGATTTTCAAATATAAAGTCCCCTAAAAAATATATTGAAAAAATGATATCTCGAAATATTAGTCAGTCGAATAATTTTTTCAAAGAAATGTCAAATATTGGAATAATTCATGAACAAGAAATTCTATCATCTAAAGATATTCTTTTTGACAGAATAATGCTAAATCTCAGATTAATTAAAGGAATTAAACACAAAGATATCAATAAAGAATTTAATATAAATTTTTCTAGAAAATTTAAATATTTATTATCTGAACTCGTTGATTTAGAATTAATAGAAGAAAATTCTAAAATAACTAAATTAACTGATAAAGGTATCCTTCTTAGTAATGAAATAATTTTAAAGTTTTTTCAAGAAATTTCTAAACCCCTACCTCTAAAGATAATGTAATGAATAAAATAGGAATATTAATTTTTATCATTAAAGAATCCAATTTTTCTTTATCTAATCTGTCTAATTTTCTTAGATTATTACAAGCTAAAATTCGAGAAGATTCTATAAAATCAGATTTTGGGGGAAAGTTTTTTGAAAATTCCAGCAAACCCACATTAAAATTATATATAAAAAAAGAAACCACAAAGTCAGAAAAAATATCATTTGAGATATTTTTTTCAAAGGATAATACTGGAATACACTTAACAGAATTGTCTGAATATGCATTCAATCATTTCTTTGAAGAAATGATTGTAATGTTGAAATCAGACCCTTTACAAAGCACACTATGGGGAATTTCATCTAAATCAATTTTAAAAACTATTAAAGAAGAGTCTAATTCTAGACTAATAAAAATCTGGGAAAGTATTATTCGTTTAAATGTTGAACAAATAATCTTTAGCAATTCTATTATTGAAATAAATGGTGATTCTATAAAAATCACTAGAAAATAACTTCTATTTTTTCCTAAATCCTTCTTCCCAAAATACAAGAAATTGAGCAGCTATAAAGATAGAACTATAAGTTCCAATTATTACTCCTAGTAATAATACAATTAGGAAATCTCTAAGTGAGTCTCCTCCAAAAAGCAACATAGCTAAAATCACTAAAGATGTAGTCACGCTAGTATTCAATGACCTTCCTATTGATTCATTGATTGCAAGATTTACAGTTTCAGAAAAAGCCCTGTTTGGCAGACGTAGTTGATTTTCACGGATACGATCAAAAACCACAATAGTATCATTCACACTATATCCAATTACTGTAAGGATCCCTACAATGAAAATAGCATTTACTTGAATTCCAAATATAAGACCTAATATAGCAAACAACCCTAAAATTATAAAAACATCATGTAACAAAGCTATTATCGCACCAAGGGCATACCTGAAAGAATTCCCTACAGCCCTAAATGCATACATTATATAAGCCATAACAAATATTGATGCTACCGCAACAGCAATTATAGAGTTCTGTATAGTTCCGTCAGCAATCTTCTTGCCCACTGTCTCAACGCTAAGAATTTCAAAATTTTCATTAATATTCGAAAAACTCTTTTCTAAATCATCTCTTGAAAGAAGAGATCCATCTTTATTATTAGAAGAATCTCCAGAATCTTTCAATTCCTGAAGTCTTATAAAATAAGCACCTTCTCCCATTGATTGTACTGAAAAATTATTAGCACCTATATTTGACAAAGAATTTTCTATTTTTTGCGAGCCTGGATCATCATAAAAATCAACAGTTACTGTAGATCCAGAAGTAAAATCAATACCTAAATTCAAATGAGGGGGTATAGCAATTACTATCAATCCTACCAAAAGTACGCTCAAAGAAATTCCCAAAAACCAAAGTCTTTTTCCTACAATATTAATCATTTGATTTTCCTCGTTCCGGATTATTAATTTTGCCTGTAGGCACAAACAATGACAACCATCTTCCTAAAGGACTCATACCTATGACTCTCATCAGCACTCTACTAACGAAATAAGCAGTGAACATACTTAAAATCACTCCTATTCCTAGAGTTAAGGCAAATCCTTGAATTACACTAGTGCCAAATCTGTCACCAAACCAATATAAAACCATACAAGTAATAATTGTAGAAATATTACTATCTCTTATTGATGGCCATGCTCTTTGAAACCCTTCTCTTATTGAAGACAATAACATTCTGCCAGACCTTATTTCTTCTTTTATTCTTTCAGAAATTAAAATGTTAGCATCAACAGCTACACCTATTGATAAAATAACTGCAGCTGCCCCTGAAAGTGTCAATGTAACAGGAACAATTTTAAAAATTGATAAAAGGAGTATTCCATATAAGATTAGTGCAGTAGAAGCGACAATTCCCGGAGCTTTATAATAAGAAACCATAAAGATAAGAACTAAAACTAATCCAATTCCTCCTGCTATAACACTTTTCTGTAAAGAATCTTCTCCAAGAGTAGCATTTACATTTCTTTCCTGGATTAATTTCAGTCCAACAGGAAGAGCACCAGATTTTAATTGAATCGCAATAGTTCTTACTCTCTCTGAAGTAAAAGTAGGACCATCAATAAATGCTCTACCTCCAGATATTCCAGAACTTGCTGTAGGGGCAATCAATTCTTCCCCATCTAAGAAGATAGCTAAGGCATCTTGATTATTTGCTATTCTACTAGTAATACTAAAGAAATCATCTCCACCTTGTTCATCAAATACTACACTTACAATAGGTTTTGATAATCCTGGCTGAACATCTGGATATGCATCAATTAGATTTTTCCCACTCAAATTCACTGCCTTATCTTCAAAATATTTAGGATTTAGACATCTTTGGTTTATCCAATCATTCTTAGATAAACCATCTGGAGGCCAATCAGTAACTGTAAGATTATCTACAGGTAAACAATCTCTTTCTTTAAATTCTAGCAGTGCTGTTTCTCCAATAAGCTTCTTTGCTTCTTCAACACCACCAGTAATACTAAACTTAACTACTCCTCCAGTTAATGATGCTTGATATATTGAACCCAAAGAAAAGAAAGGATTCACAATATTTTGAAGATCTTGGGAATCAAATTCTCTGAAGTTTTTAGAATCAAAATTATGTTTAAATTCTGTTAATGTTATTTGATATACGCCTTGTCTTAAATCTTCAATTTCAAAAGATCCTACTCCTAAAGACTCTACAATGCTTTCAATTTGTGAAATATCTGGCAAATCTTCTTCTTGAGTTTCTTCTTCCGATTCATTTTCACCAGGAGAAAAAGCTAAAACTAGCTTTACTGGAAATTCTTTATCAAATACATTCAAAATATCAACAATAGCAGGATCAGCTAATTTTTCCACCTGATTATTTGAATTTCCCGAAGAACTCAAATCATCAATCAAAATAGAAAATGTTCCATCTTCTAATTTAGAAACCTTTGCTTTTTCATATCCTGGAAATTCTGATTTTAATAAACCTTCTACTTTTTCTACTGATACATCAGATGCAATAAATAATTTTATATTTGTTTTATCTAAACCTGGTAATTGTATAAGAATACGATCAGGAGTAGATCCAGATGCACCTAATAATTGAACTGATGGTTCACTAATACCAAAACTATTGACTCTTTTCTCAAGGATTTTTCTTACTCCCTCCATATCATCAGCAGTAATTTTTTCTCCTTCTTTTGGTTGTGCTTCATATACTAGATGAGTACCACCTTTCAAATCTAAACCTAAAGATAAACCTAAAAAGCTTCCTTCTTCTCCCCTTTTGAAATCATATCCCCAAAGATTAAAGTTAATTTGGGGGATAGATATAGCCATCACAGCCATTACAAAGATCAACAGAATGAATATTATTCCTCTAAATCTCAACATTATAAATTACCTACCAATTTTTCATCTTCTTTTTCTTGTTTCAAAGAAGATAAATCAACTAATAAATTTCCTTTTTCCAAAGCTTCTAACATTTTTTCTACTTTTATTTCAGAATATAATTTCTCATTATATTTGTTCTGGTTTTCATTTAAATCTTCATCTTTTATAACTTCTACTTCAACTTTCAAATCATGCTGATGAGTCTCTTTAGGATATTCAAACTTCCTAGCATGTAATTTCTCATGTTTTTTTAAATGATCAATAAATAATATTCCATTTAAATGATCTATTTCATGTTCTAAAACTTGAGCAAATAACTCCTCACTATCAAAATACAACCTACCTCCATGTTCATCAAGTGCTTTTGCTTTAATTTTTAGAGATCTTTCTACTACTCCAGTATGATTGGGAAAGCTTAAACATCCCTCCTCTACTGTTCTTTTACCCATTTTTTTTGTCACCTCTGGATTAATTAAAGCTATCGGTTTCTTCTCAGGAAAATTAAGAACTACTATTCTCTTTAAAACTCCTACTTGATTCGCAGCCAATCCAAGACCTTTAGCTTCAATAAGAGTTTCAATCATATCAGAGGTTAAATTCTTGATATCACTGTTAATTTCAGAAACCTGCTTAGCTCTAGATCTTAAAATAGGATCTGGAAATGTTCTTATTTGTAAAATTGACATATTTTATTACTACCTTAAATAGAAGAAATAAAAAGTTTTGAATTATCTACGCTCTTTTATTCTTGCACTCTTTCCAGTTCTTCCTCGTAAATAGTAAAGTTTACCTTGTCTAACTTTACCTTTTCTAGTAACTTTCAATGAATCAATTATTGAAGAAAAATAAGGAAAAATTCTTTCTACTCCAATTCCACTAGAAATTCTTCTTACAGTAAAAGTACTTTCTACAGAAGGAGGACTAAGTTTATTAAATCTACCTTTGATTACATTACCCTGAAAAGCCTGAATTCGTTCTCTATCTCCCTCTTTTATTTTTATATTTACAACTACAGTATCACCTGGTCTAAATTCATCTAACTTATTAGATAAATAATCAACGACAGGTTCTTCTTCCTTTGGAGTCTCTGCTACAGGTTCTTCTTCCTTTGGAGCCTCTGCTACAGGCTCTTCTTCCTTTGGAGCCTCTGCTACAGGTTCTTCTTCCTTTGGAGCCTCTGCTACAGGTTCTTCTTCCTTTGGAG
>sequence10
CTTGCATCATCATTTTTAAACCAGGGAAAATGTCTTGCTTGCTGACCCTGTTCAGAACAAATAAGGTCTATTTCTAGTTCTGTTGCTCTTCTATCGAACTTTGCTACTATTTCATCAAGTTCTGTTATCTTATTCTCTAACTCTGCTACTTTTATATCTTGCTTAGATTCTCCACAAGCTACAGTTAATGCTAAAAGTGTTATTGATAGTAATAATAATTTTTTCATAATAAGCCCCCATTAATTTCATCATACCTAATGTAAATCTTTATGTGGAGAATGATGACACCAATTTTGACACCAACCGACAGCGCACAACAAATTACAATAAACGACGTCATATGACTTAGTTTAAATTAATCTTAATTAATAGAAGACTTCAGGGGACAATAGATTACAAAATTATCAGAAATTGGTTAAACCTGGAATTAGTACCCCAATTAGATTTGGTTCATTATAAAATATGTGCCAATCGTCAAGTTCAATAATTACCATGGATGTATATATGAGATATCTACCACAAGAAATGGAATATGAAGTTGCTGATGTAACAGATAATTTCCTCTTCTAACTTAAAATTATGATAATTTTTATGATAATTGACTCCCAAGTGACTCAAAATTGCTTGGGAGTTTTAAGTTGNAGANTNAACTTAGAGTAAATGGTGACCCGCCTCGGGCTCGAACCGAGAACCTATTGATTAAGAGTCAATTGCTCTACCATTGAGCTAGCGGGCCTAAAAAATTATTATTCCATTCAAAATTAAACTTGTCCATTAAGAATTATTGGTATTCCTTAGGAGTAACCCTAATATATCGGTTAGGCTCATTTCTGGATAAAGATAATTGTATCTGTCGTTTTCTTTCACGTAGATTTTCTTTTTTCTGTTCTGACAAATGATCATAACAATTATCACATGAAACAGAATCTTCATATTTATAAGATGTTCTATCAGTTGGAGTGACTGGATANCTACAACCAGGACATATAATTGCTTCACCTTTAACTAACTCATTTTTCACAGAAATGCGATTGTCAAAAACAAAACACTCCCCTTCCCATTTACTTTGTTCAGCAGAGATATTCTCAAGATATTTTAAGATTCCTCCTTTTAGTTGGAATACATTTTTCATACCATTTTCTATCATATACGAACTTACTTTTTCACATCTTATTCCACCNGTACAAAACATTGCGATTTTTTTATCTTTATTTTCCAATAATTTTTTATCAACAAGTTCTTTTAGTTGAGTAAAAGTTTTAACNCCCAATATTTCTGAATCAGAAAAAGTACCTATTTGTGTTTCATATAAATTCCTTATATCCAATAATGTAACTTCAGGATCTTCAATCAATTTATTCCAATCTTCAGGACTAACAAACTCACCAGTTTGTTTTTCTACATTTACTTCTTCNCCCGCAAATGTGATTATTTCTTTTTTTAATTTAACTTTCATTCTGTGAAAAGGCATATATGAAGAATAAGCATATTTCTTCTCAAGAGTTGTGAATCCTTCTTTTTCTAAATATTTCTCTAACTTTTTAATTCCATCAATAAAACCAGAAACTGTTCCATTAATTCCCTCATCAGCGATCAAGACAATACCTTTTATCTTTTCTCTCTTAGATAAATTATTTAATTTTTCCNGAAGCTGTAATTTGTTAGTAGTTGTNTTAAATTGATAAAAAGCAAAGATGCAAAATTCTTGTTCTTTCATGTNTGCTCCAAACTTAGATTCCAGTCAATTAATTCTTTAGATGTTTTAGGTAAAATTATTACTATAAAAGCCCCAATTAAACTTGATANACATGAAATTAGTATCGCAATATCATACGAATTAGATAAGTCAAAAACTAATCCTGGAATTATTCCTCCAAGAGCCATACCTAACCCTGCTCCNAATAATTGCCANCCATAAGTTCTTCCCATTGGGAATAGTCCAAAATATTGTCTATTAATTACTGGATGAACTGTACCTTCTCCACCGTAAGGAATTCCAAAAGAAACAGCAAAGACATAAAAACCAAATGTAGAATCAGTAAATAATAGAATCAATACACTCAAACCTTGTCCTAAAAATGAAATAAATATAATGAATCTACTACCAAATTTATCTCCTATAATAGGAAAAAAGAAACGACTTAAAATACTTACGGTTGCTATAGTACTNAATACACCTGCAGCTTGGATAGGACCAATTCCTTTATTAATAGCTAAGGGAATAATGCAAACTAAGATAATTGCATGACCCACACAACCCCAAAAATGAATATTTACTAAATGCCAAAACGCATCTGTTCTATAAATTAACTTTTGTTTATTCAAATCAAATGAACTTAATAAATTATTTTTAGAATTTTCATCTTCTTCTAACCATCCAAATGGTTTCTTTCCAGCTTTTTCAGGGCTATCTTTAAAAAATATTAATAATAGGAATGTGATAATTGAAATTAAAATCCCAAAGACCAAAAATGTGTTTCTCCATCCATAATTAACAAAAGATATTGCTAATATTTGAATGGTCAAAGCTGGTCCAAGGCTCCAAGAAACCATTAAAGCTCCAGTTCCTAAGCCAACATGCCTTCTAAACCAAGAGATAACAGATGGTACTATTGGTACACCTATTAGAGACTGAGCAAAACCTAAAACAAGTCCATAGGCTAGATAAAACTCCCATAAATTATTCATAAATGAAACCCATAACATTCCTAGTAAGAATAAAATTGTTCCAAAAAATATAGTTTTCTTTGCTCCAAATTTATCTCCTAACCATCCAGAAAATGGAGATGATAAAGCAGATGTTATAGACATTACTGCATATGCTATTCCTATCTCTCCTACAGACCAATCGAAGTTTACATTCAAAGGGTCAACAAGAATTCCAAANATATTTCTTAGTGCACTTCCTATCATCTGAACAAATACACCAATAGAAACTATCACCCAGACATAATGTTTTAGATAACTTTTCAATGTAAAGGACATACCCATAAAACTGTATTTTCCCACCAAACTGGGTTTTTTTGCTCTCGAACTTCTAATCTTTTTTCAGTAATCCACGCACCAAAATAAATCAAAAAAGCTAAACAGATTATAATTGTAAATCCCATTAAAGATAGACCGATAATTGGATTTGATTTATTTTTTTTATCAATTATTGAAAACATTAATAATACTTCATGAAGAGTTCATCAGTCTTGGATGCCATAATGAAATCATTCATATGTAAATCTTTAATTTTATGTGTCCACCAAATTACACTAACTTTTCCCCATTCTAGAGTTAATANAGGATGATGTCCCTGTTCTTCTGACAATTTTCCCATTTTAATTGTAAAACTTAAGGCTTCTTGAAAATTAGGAAATTTAAATTGTTTTTTAATTTTTCTTATTCCATTTTCATTTAATAGTTCCCATTCTTTAAAATTTTCAGAAAAAATTTTTAATTCTGAATCTGTCACAGGTAAAGATCCTACTCTACATGCCTCACAATGTCTTTTANTTAAATTATCCATATTTAACTTTCTGAAGCCATCACTCCACCATGTGCCCAATTTGATTTTTCCACATCATGAAATATTATCTGAGTATCCTCAGCAGTTGTATTTCCTATTTCTGCAACAGCTTTTGTAATCACATCTGCTAATTCAGATTTTTGTTGTGTAGTTCTTCCTTTGTACCACATTATTTGAANCGTAGGCATCAATTTTTCTCCTTAAGACTTATAATTGTTACATTAAATAATATTTTAAACTTTTTATTAAGTTAAGAAATTTCATGATGAAGTCAAGTTTTTCAGAAAAAGAACTCATAAAAGATTTTTGCAATATTTTAATCAATAATCCTAATGAAGATAACCTTTTAATAGGAATCGGAGATGATGCAGCAGTTTTCAGATCACATGAATTCGCTACTCAGAGCACTGATGCTCTTGTTGAAAAGATCCATTTTGATCTTTCTTACACATCTTTCTATAACTTAGGATGGAAATCTATTGCAGTTAATCAAAGTGATCTTGCTGCTATNGGTTCTTCTTCAAAATATTTTCTTGTTACAATCGGAATGCCAAAATCTATTGAAAGAAAAAATTTAAAAGAATTATATTTAGGTTTTAATGACATTTTAAAATTATATGGAGGTGAAATAATAGGNGGAGATTTAGTTAGAAGCAATGAACTATTTATATCTATTGTAGCTACAGGATTCTGCAAAATTAATAATAACAAACCACTAATTATGAAAAGAAACTCAGCAAAACCTGGAGATGTAGTTGCAGTCACAGGATTTCTTGGAAATTCAAGTGGTGGACTAACACTTTTAAAAGAAAATTTAACTAACTTTGATTACTTAAAAAATGCTCACTTAAAACCACTTCCAAAANTAAAAGAATCTCAAATATTTGTAAAAATGGGAATAAAGTCTTGTATAGACTTAAGTGATGGTCTTATTGTAGATGCTACAAGAATTTCTGAAGCAAGTAATGTCTCAATGATTATAGATTTAAATAAAATTCCAGTTTCCCAAGAATTAAAAAATGCTTTTCCAGATAGTTGGAAAGATCATGCATTAAATGGAGGAGAAGATTTCCAACTACTTATTACTGGAAAAAAAGAATTAATTACTAAAATTAAAAATGAAACTAAATCAAATTTAACTATAATTGGAAAAGTTAAAAAAAAATCATCTAATTATTTAACCGTATTAGAAAACAATAAACCAAATTCTAGATTTCTATCAAAAGGGTGGGATCACTTCGATGACAAATAATTCACTTCAAAATCCTGATATTACAATATCAAGCTTATCGGAAGAAGAAACTCGAACTAAAGGTAAAATACTTAGCAAAAATATTCAAATAGGAGATTTAATATTTTTGATTGGAGAATTAGGAGCAGGAAAAACACGATTTGTACAAGGCTTAAGTAAGGGTATTAATTCTCCTCAGATTGCTAGAAGTCCTACATTTGTTTTAATAACAGAATACATAGGAGACATCATTTTATATCATTGTGATTTATATAGAATTAGTATTCCTGAAGAAGTAATAAATCTAGAATTAGAAGAATTATTAGATAAAGGTGCATTAGTTGTTGAATGGCCTGAAAAAGGTGGAGAATATATGCCTGATCCAGATTTAATAATTTCTACAGAAATAAATCAAGATAATTCTAGAAAATTACTCTTTTTTTCTTATTCTGAAAGAGGAAAAACTTTATTAAAACATATGAAAAAAAATATTTAAAATGAAAAAAAATATCCTCTTAACTATAGACACTTCAACTAAATTCTCAAGTGTCTCATTATCAGAGAATTATAAAATTCAACATGAAATACATTGGGTATCTGATCAAAACCATAGTCTAGAACTTATGCCGAATATAAAAAAATGCTTAAATNTTTCTAAGATAGATATTTCTGAAATCACAGATCTTGCAGTTGCTTTAGGCCCTGGAGGATTTAGTTCATTAAGAGTAGGAATAAGCACTGCTCTAGGAATTTCATTACCTAACTCAATGAAAACTTTTGGCATCCCCACTTTTTTAATAGAATTTTTTGAACACAAAAACTTATACAATAATTTATTTGCATTTCTACCAGCAGGACGAAATAAGTATGCGTGGAAAAAATACGAAGACTCAATGACTTTTTTTCCAGATGGAGTGGATTCTGCTGATACAATATCTAAAATGTTAACTAAAAACTCATATATTTGTGGAGAATCCGCAAAAGAATTGTCGGAGATAATAGAATTTGATAATGTTGTTTCTAATCAAACTCCAACAAGATCTTCAATAAATTTCATAAAAACATTAAAAGAAATAATTGAAAAAGATTTACTTAATGAGTATCAACTGATAGAACCTATCTATTCAAGACCACCAAATATTACAAAAACTAAAAAACCACTACCTAAATGGAGAATTAATTAATGTCCTTTGAAACCACATTAGTATTAATAAAGCCAGATGCAATTCAAAGAAATTTATCAGGAAAGATAATTAATAGAATCGAAAATACTGGTTTAAAAATAGTCGGATTAAAAATGATAAAAATTGATAAAAAACTAGCCAAAAAACATTATCAAGAACATCAAGAAAAGCCATTTTTTGAAAACTTAGTTGATTTTATATCAAGCTCTCCAGTATTAGCTATTGCAATAAGTGGTCCTAATTCAATACAAAAAATAAGAACTTTAATGGGTCAAACAAATCCACTAGACTCACCTCCAGGAACAATAAGAGGAGACTATGGAATAGATCTTGAAAGAAATCTTATTCATGGTTCAGCAAACGACTCTGATGCCCTCAGAGAATTAGAGTTATTTTTTGATAAAAAAGAAATCCAAAACTTTAAAAAATCTATAGATGAATGGACTGGATGGACTACTGAAGCCTAACGATTTCTCGTCCACCGCCTAATAAATTTTCTATGTCATATTTTTTTCTGGATTCATCACTGAAAATATGAGTTACAAGACCTAAAAAATCTAAGAGAATCCAACCACCTGAACCACTTCCTTCTTTATGATGAACTCTTAGCCCAGCATTTCTTAAATCTTTTGTAACTCTAGTAGACAAAGATTCAAGATGTTGATCTGTTTTTCCAGAAGTAATTACCAAAAAATCTGAATAGTCACTGTTACCACGAACATCTAATAAAACAACATTATCTCCTAAATTATCAGATAAAATTTTTACAGCAAGACGTCCAAATTCTTCTATACTCTTATGTTTTGTATTTGCTGNATTCATATATTTTAATAATAAACAATGTTATAAATATTTCCTTGTAATATATTAACGTGATATTTTAATAATATGAATAGTAAAAAAACTAAAAGAATAGTAGTTGCAATGAGTGGAGGAGTAGATTCTTCTGTTGCCGCAGCNTTATTATCTAAAAAGGGATATGAAGTAATAGGGATCACAATGNGATTATTCGCATACCCTGATGAAAAAGTCAGTAAACTTAACAAATCTTGTTGTTCACTAGAAGATGTTGAAGATGCACGTTCAGTATGTAGAAATATAGGAGCTAAACATTATTTTCTAAATTTTGAAAAAGAATTCAATGAACATGTTGTAAATTATTTTATCTCAGAATATGAGAAAGGAAGAACTCCTTATCCATGCTTAGCTTGCAATGATAGATTAAAATTCGATTTTCTACTTAAAAGAGCTGAGTTTATGAATGCAGACTATATTGCTACAGGTCATTATGCTCAAATAAAAAATGAAAATAATGAATGGCATTTGATTAAAGGAAAAGACGAAACAAAAGATCAATCATATGTTTTATATAATTTAAACCAAGAAGTTTTATCAAAATTAAAATTACCTATTGGAAAATTTTTAAAGTCAGAAATCAGGGAAATCGCAAATNATTTAGGTTTAATAAATGCTTCTAAACCAGATTCTCAGGATATTTGTTTTATTCCTGATGGTAACTACAAGAAATTTCTTGAAAAAAGAATTGAAAAAAACCCAGGAAAAATTGTTGATTCTTCAGGGAATACCATAGGAAAACATGATGGTGTTTACAATTTTACTATAGGACAAAGAAAAGGATTAAATTTAGATAAAGGATTTAGTGAACCAATATTTGTTACTTCAATAGATCACGAAACTAAAACCGTTGAAGTAGGAACATCAAAAGATCTTTTAAAAACAAAAGTAATCGCATCTTCAGTAAATTTTCTGTCTGGAAAAACTCCGAAAAAACCTATTAAAGTTACTGCAAAAATCAGATATCACAGTAAAAATTCAACAGCTATTGTGAAAAAATTAAAGACTCATACAGAAATAACTTTTGACGAACCTCAAAGAGCAATAACGCCTGGACAAGCCATAGTTTTCTATAAGGGAGATGAAGTTATAGGTGGAGGAATAATTGAAGGAAACAAAATAAAAGAAAAAATTCCAGCATAATTCTATCTGGGAGAAAATTATTAATTTTACTGAACTAGAAAAAACACCTATACCTTTATCCAAAACAACATTTCCTCAAGGTGAAATTGAGAGGAAATTATTAAAATGGGGAAATAAAAAAATAGTAGGGATAGATGAAGTAGGAAGAGGTCCTTTAGCTGGCCCATTAGTATCTGCAGCAGTATCACTAGATGAAAAGTTTTTTTTTACTAAAAATAACCTATTTAGAGACAGTAAAACATTATCAATAAATCAAAAAAATAATGCTTTTAAAAACATANTATCAAAAAGTTTTTTTGGTATAGGAATATCAACTGCAAAGGAAATTGATGAAAAAGGAATAAATTATTGCACAAAAAAAGCTATGTATCAGGCTATTCAAAATCTAGATATTAATCCAGATTTTATTATTATTGATGCAGTAAAACTCGAATCTCTTAAAATACCCAATATCTCCTTAATTAAAGGAGATCAAAGATGTTTAAGTGTTGCTGCAGCTTCTATAGTTGCAAAAATCTCAAGAGATAGAATGATGCGAGATATTTATGAAATAAAATTTCCTAAATATGGTTTTGCATCTAATAAAGGCTATGGATCCAAGAAACATATTGAATCAATAAATACTTTAGGGCCTTCTAAAATTCATAGAATGTCTTTTAAACCTCTTAGTGAGATGAAGATAAATTGAGTAAAAGTCACAAAAATAAAAAACCAAAAATAAATAAAATAAAAGGCCTATATGTAATTGTAGACCCTGAACACATTTTAGGAATGCCTCTTCATGAAATGTGTGAGTTGATTTCTGCTTCAGGTGCTAATGTACTTCAATTAAGAAGTAAAATACACGATGATGGAGATTTTCTAGAACACGCGAAAAAAATTAACTCTATTTGCAAAAAAAATAACACTTTATTCATTATTAATGATAATTGTGTTGTTGCTAATTTATCCGGAGCAGATGGAGTACATGTAGGAAGAACAGATCTTCCTATAAAAGAAGCGAAAGTTATATTAAAAGATAATCAAATAATAGGAAATTCAAATGCAACTATAGAAGAAATTCAAGAATCATCAAAATTGGGTGCAGATTATATTGCTGTAGGATCAATTTTCATTACAAAAACTAAAACTAACACTATACCTTCAAGTATAGAAATTATTAGAAAAGCTAAAGATCTTGTAACTCAACCAATCGTTGCTATCGGAGGAATAAATTTAAGAAATATTAAACACATTACAAAATCTGGAGCAGATGCATTTTGTGTTGCTAGCGCAATTACTAAATCAAAAAACCCAGAAAAAGTTATTAAAGAAATGAAACAATTTATAAAATAAATGGAGAATCAATGAGTTATCAAAAAAACAATCTTTCAATAATTATCAATCAATCTATAGAAAATATTAATGAAATTCATTTAGGACGAGAATCAGCTCTTGCAAACTGTAGAAAAAGTATTCAAAAATCTTCTTCTTCTATTAGAGCTAGCCACAGAAATCAATTTGATGAAGCCTTAACTCTTGCAAATGAATCTAAAGAAAGTTTAGAAAAAGCTAAAGAAGCTCTTAAAAAGTTTCACTTAAATATTAATACTGTATTCTTTCTAGATACAGAAAAAGAATTTTGTGAAGCAATGTTGGTATATTCATTCCTTTCAGAGTCTAATATCCCTACACCTGAAGATCTTCAAGTAACAGTAAGTTCTTATTTAAAAGGTTTAGCAGAAGCTAGTAGTGAACTTAGAAGAACATCTCTTGATAGTATTAGAAAATCTAATTATGAATTAGCTGATAAGTATTTGGGTATAATGAATGAAGTTACTGATTTACTTGAAACAATAGATTTTCCAGAAGCTGTGACTGGAGGATTAAGAAGAACAACTGATCAACTAAGATCTGTTGTTGAAAGAACAAGAGGAGATGTAACTCTATCATTAGATAGAAAAAAGCTAGAAAATCAACTTGAAAATTTAAAAGAAACTCTAAAAAACAGTTGAACAAAATTTTTAAAAAACAAAAATGGTTTGACTGATCAATAAATTAGATGATAGGTTTTTTAGAATTTCATTTGTAAAAATCTTATAAAAGGAAAAACATGAATATCATTATAGTGAGTATAATAGCTGGAATTCTAGCACTTCTAACTGCCCTATTTTTAGCCTTCAAAATCACAAGGCAAAAAATTGAAAATTCAAACCTCTCTGAAATTGCTAATCTAATACAAGAAGGAGCAATGGCCTTCTTAAAAAGAGAATATACAATACTATCAATTTTCGTCATTTCAATGTTTATAATAATTTTACTTTTCATAGACTTAAATGTTCTAAATGTTTCTAAAATTAAAGAATTACAATCAGATGGAAATATTACTAGTTCGGGTCCATGGACAGCTTTATCATATCTTTTTGGAGCAATTGGATCAGGACTTGCGGGTTTTATAGGAATGAGTATTGCAGTAAGAGGAAACTCTAGAACTGCTGAAGCTGCTCAAAAGGGATTAAATCCCTCATTAAGAGTAGCATTCAATACAGGCACAGTAATGGGAATGACAGTAGTAGGAATTGGAATACTAGGAGTATCAATTCTTTGGTTAATATTTGGGAATGCAAATATTATTGCTGGATTTGGTTTTGGTGCTTCATCTATCGCATTATTTGCAAGAGTCGGAGGTGGAATTTATACAAAAGCGGCTGATGTAGGCGCAGATTTAGTTGGAAAAGTAGAAGCAGGGATTCCAGAAGATGATCCGAGAAATCCTGCAACAATTGCAGATAATGTGGGTGACAATGTAGGAGATGTTGCTGGAATGGGTGCAGATCTATTTGAATCATATGCTGGATCTATAATTGCTACTATTGCACTAGCATTATTTGTTCCAACCTTAAATAAAGGTTTATCAACTGAATCAGCAATAGTATTCCCTATTCTCATAGGAGGAATTGGAATTTTTTCATCTATAATTGGAACACTGCTAGTAAGAACAAAACCAAATGCAAATATGAGTTCCCTATTATGGTCTTTGAGAATAGGTATTTTCGGAGCAGGAATTATTAGCCTTATAGGTACTTATATTGCAACAATTTATCTAGACATACATATTTACTATTTTTATATAATTGTTATTGGCATAGTTGTGGGACAAGTAATAGGAACTGCAACAGAATATTTCACATCTTATGAATATAACCCAGTAAAATGGATAGCCAAGCAATCACTTACTGGTCATCCTTCAAATATAATTGCTGGAATTGCAGTTGGTCTTTATAGCACATTGATACCAGCTTTATCAGTAGTGATTGGAATATGGGCTGCTTATCAATTAGGGGGATTATATGGCATAGGATTATCTTCTGTTGGAATGCTAGCAACACTCGGAATCACTCTATCTACCGATGCATATGGTCCTGTTGCAGATAATGCAGGTGGTTTGGCNGAGCAAGCTGGACTAGACCCAGAAGTAAGAGAAAGGACAGATGCACTAGATGCTCTTGGAAATACCACTGCAGCAACAGGCAAAGGATTTGCTATAGGATCAGCTGTATTAACTGCTTTAGCTCTTATGGCAGCATATGCAAATGTTATTGGTGTAAAAAACTTCAATCTTTTAGATCCATCAGTTCTTATTGGAGTATTAATTGGATCTACTTTACCTTTCATTTTTTCTGGAATGACTATGCAGGCTGTTGGAGTAGCGGCTGGCGCAATGATAGAAGAAGTAAGAAGACAATTCCGTGAAATACCAGGTCTCAGAGAAGGAAAAAAAGGAGTAAAACCTGATGCTGCTAGAGCAGTAGAAATTAGTACTACAGGTTCTCTCAAAGCTATGATTTTACCAAGTTTAACAGCCATTATAGCCCCTATAATAGTAGGAATCATTTCAGAAAAAGCCCTAGGTGGTTTATTAGCAGGATCTATAGTATCTGGATTCCTTTTAGCAATATTTATGGCTAATGCTGGTGGTGCATGGGATAATGCAAAAAAATATATTGAACTAGGAAATCATGGAGGAAAAGGATCTGACGCTCATAAAGCTGCAGTAAGTGGAGATACTGTTGGCGATCCTTTCAAAGACACTTCTGGNCCTGCAATAAATATATTGTTAAAACTTATGGCGATAGTATCATTAATCTTTGGTCCTCTATTTTTAGGAATAAATATATTTTAAAAACCAATTAAATAAGATAAGGGTTATTATTATTTTCGGAACCTATTGTAGTAGAGTCACCATGACCTGGAAGAACAATACAGTCTTGTTTTAATGTTAATAATTTTGTTTTTATACTAGATAGTTCCTTATCTTTATCACCTCCAGGTAAATCATATCTTCCTATAGAATTCTTAAACAAAGTATCCCCAGTAAAAATATAATTTTCTAATTTATAACATAAGCTACCTAAAGTATGTCCTGGAGTAACAATCACCTCTATATTTAAGTGATCAATTTTTATTTTCTTATCATCACNAATAATGGAATATTGTTTTGGAGGAGATTCAAATTCTGGAAAGAAATCAGTTATCCATTTATCAGGATTTTCATATAAATTTTGATCTCCATCCCCTAAAAACACCTGAATATCATATTTTTCATTAAGCTTAGCAATTGCTCCGGTATGATCAGCATGACCATGAGTAACAAGTATATATTTTAATTCAAATCCATATGAAGAAATTTTATTTAATAACTTTGATGATTCATAACCAGGGTCTATTAAAAAACATTCTTTACTATTTTTTCTATTAACCAAATAACAATTTTCAGAAAATGGACCAACAATAATTTTTTCTATTGAAAAATTTTTATCTTCAAATATTTTTTTCATCACCTTTAATTTCTTGAGATTTTTTCTTAATTTCTGATAGTTTATTTAATGCTTCTAATGGAGTAATTAGATTAACATCTATTGAAGATATTTCTTCAGAAATCCAATTTTCTTGTTGATCAATCATAGGAATTTGAAAACCATAATAATTATTGTATGTAGTTTTTTCTTGATTATTTCCTTCGTAATCAGATAATAAATCATATGCTCTATCAATAACTTCTTTAGGGAGACCAGCAAGTTTACCAACATGAATGCCGTAACTCCTTTTAGATGCACCAGGAACAATTTTATGGAGAAACGTAACGTCTTTCCCTGTTTCATTGACATCAACACGTGAATTAACACATCTATCTAAATATTCTTCACAGTTAGTTAACTCATGATAATGTGTAGCAAAGAGTGTCTTACAACTTTTTTGAGGATTATTATGTATATATTCTACTACTGCTTTAGCTATAGCTAAACCATCATAAGTACTAGTTCCTCTACCAACTTCATCTAAAATAACTAATGATCTTGAAGTTGCTCTTCTTAGAACATTAGCTGTTTCTACCATTTCTACCATAAATGTAGATCTACCTGCTCCTATATCATCACTTAAACCTGCTCTAGTAAACAGTTGATCTACTAAACCTATTTCTGCTTTTTCTGCAGGAATAAAACAACCTATTTGTGCCATTAATGTAAGCATAGCTACTTGTCGAATATATGTAGATTTCCCAGACATATTAGGACCAGTAATCACTAATATTTGCCTTTTATCATTTGAAAGATCTATATCATTAGGAATAAATTTACCAAAAGGCATAGATTTCTCTATTACAGGATGCCTTCCAGCTTTTATATCAATCTTGTTTTCTTTAGTAAATGTTGGGCATGTATAATTATTTTCCACACTTATTTCAGATAAATTAGATAAAACATCTATTTGAGAAATAATTTTTGCTACTTGTACTACATCATTTTGATATTCAGAGAGAGAAACACATAACTCATTAAACAATTCAGTTTCCATAGATGAAACTTTATCTCTAGCATTAATTATCTTANATTCTAAATTTTTTAATTGAGATGTTGTATATCTTTCTGCATTTACTAAAGTTTGCTTTCTATGAAAATCTTCTGGAACTTGATCTATATGAGATTTTGAAACTTCAAAATAATAACCAAAAATTTTATTGAATCCTATTTTTAAATTGTTAATTCCAGTCTTTTCTTTCATGTTTCTTTCAATGCTAGCCAATTTNTCTCTAGATTCGAAAATATATCCTCTTTGAATATCTAGTTCCTTATTTAATCCTTTTTTAATAATTTTTCCTCCTCCAACTAAACCTATAGGTTCTTCTTCAACAACACTTAAAATTTTTTTAGAAAAATCATTTAAATCTATTATTTGATTAGATAAATCTTTTATTTGTGGCAAATCTTGACCAATTTCTTGAATTATCTTTCTTATATTGGGGATTACTTTTACTGCAAATGCTAAAGCAACAATTTCTTTAGGATTAATTCTATTGGTAATAATTCTATGAATAAGCCTTTCCATATCAGGGATAGAACTTAATATTGATCTTATTTCTCTTCTTTTAAGATTATTATTAAAAAATATTTTTATTAATTCCTGTCTATCTTGAATTATTTTCAAATCAGCTAATGGTTTTGAGATCCAATTTCTTAACAATCTTGCTCCCATTGAAGTTCTTGTAGAATTTAAAACTCCAAAAAGAGTAAGACTTTTTGAAGAAGGGTTTAAAGTTTCAAATAATTCAAGATCACGAGAAACTTGACTGTCAAATAAAAGAAATCCATCTCTGGAAAGAACTGAGACATTATTGAATTTTGGCAAAATTTGTTTTTGAGTTTCTGAAATATAATTGATTAATTCACTTACTGCAAAAAGAGAAGGTTTTCCTTCTACACATCCCATGCCTTTTAAATTCTTAACTTTTAAAAAATTTTTAATTTTTTTAGAAGATGTAGAAATGATTTGATCATCCGTAGATACAATTCTTAAATTAGTTGGAAGTTCCCCATTTTCTTCAAATAACATTCTCACTTTATTATCACAAATCAATTCAGACACAGAATGTCTACTTATCTCATCAACAACCAAGTGCTCTGGAAAATCTCCAGCAAAACATTCACCTGTACTGATATCAGCAATTGCGATGCCTACTTCAAATTGACCTGAAATAGCAGAACATAAATAATTATTTTTATCATTTTGAAGTAGATCTGGTTCTATAATGGTTCCAGGCGTAATAATTCTTACTACTTCTCTTTTAAATATACCCTTATATGAAGTANGCTCTTCAGTTTGTTCACAAATAGCNATTCTATAACCAGAGTCTACCAAGTCTTTTAAATATGAATCTATCGAATGATATGGTATTCCAGCTAATGGAGCTCTTAATCCTTTCCCTACATTTCTAGAAGTTAAAACTATCCCAAGAATCTTTGAAATTAATTTTGCATCTTCATCAAAAGCTTCATAAAAATCTCCAACTCTAACCAATAATATTTCTTCGGAATAATCTTTTTTTAATTCTAAGAATTGTTTTCTAGAAGGAGATAAATCTGAAATATCTTTTCCCATTTTTCACTCTTTATATGAAATAGTAATAGAATCTGATCCTAGCCAAGCAAACTGAGAAAAATCAAGATTTGGAGGAACTTCAAACACTAAAGATCCCTTTATAATTTCATTAGATAACAAGTCCACTGAACCCCATAATGGAGAAAATTCTATTGAGTTATTAGAATTTTCATTACTGATGAGCTCTGAAGTAGAAACAGAATTTATAGGTTCAAATCTACCTTGTTTTGTAGTAATTAGTTCTGCTGCCTTTTCATCTATCAATGTTTTAACNATGGACTCAGAATGATTCGTTAATTCTACATCAATTTTCGCTAATTTATAATTAGGGTTCACAGGTTTAATACTATAGGTTTTAACGTTTCCTGATTCAGTTGTTTGTGAAAAGACAATTTGATCTAAAATCAATGGTTCTGTAATTCTTAAATAAAATATTTTTCCAGAAACATATAAAGGATCTATGGGAATCCAGGGTTTAAAAATTATCATAGGGATTATTATTACAGCTAATAAAATTGATCCTAATGCAGTTAAAAATAATATTTTATTAGTATTCATATATTAAGTTGCCATTTCTCTAAGGTTTTTTACTATTTTAGATAATTCTTTTACCACATAATCAATTTCTTCTTCAGAATTAGATGGACTAAAACTAAATCTTATTGACCCAACGGCTAATCTAGGATTTAATCCAGTAGCTATAAGTACATGAGATGGGTCTAAAGATCCTGAACTACAAGCACTTCCACTAGAAGCATAAATACCAGCAAAATCTAATCCAACTAGTATAGGTTCACCTTCAACACCATCAAATGAAATATTAACAATATTTGACAACCTATCTGTTGGATGTCCATTTAAAAATGATCCTGGAATTAATTTAAGGATTCTGTTAGTCAATTGATCTCTTAATTTTGAACATTTTTCATTAAAATATCCTCTTTCTGAGTCCGCTAACAATAAGGCTTCAGCAAAACCAACTATAGATGCAACATTCTCAGTTCCAGATCTTAATTGTTTTTCTTGTCCACCTCCAAAAAACATTGGTTTCATAGGAGAGCCTCTTTTGATAAATAACCCCCCTATTCCTTTAGGACCATTAATCTTATGAGCTGAAAATGAAAGTAAATCAATATCCATATTTTTCACATTTATTTCCATTTTACCTAAAGATTGAACTGCATCAGAGTGAAATAAAATTATATTATTATTAGAATTTTGTTTTTCACGTACGACCTTAATTAAATTGTTCATATCTTGTATAGTACCGATTTCATTATTGGCCATCATGATGCTAACCAATATAGTGGTAGGTTTTATGGCATTCTTTAGATCTTTTGGAGAAACTAATCCAAATTTGTCAACTGGAAGATAATCGACTTTAAATCCTTCTTTTTCAAGTTCCTCACAAGCATGAAGGACAGCATGATGTTCAATAGATGAGGTAATAATATGATTACCAAATTCTTTCATGGCATATGCAGAACCAAAAATAGCTAAATTATCTGATTCTGTGCCACCACTAGTAAATATAATTTCATTCGGCCTACAATTTATAATCTTAGCTATTTTTTCTCTACTTTCTTCAATAGAATTCCTTGATTCTTGACCAAAAGAATACAAGCTTGAAGGGTTACCAAAATTACTTTCTAAATGAGGTACCATAGAATCTAGAACTTTCTTTTTAATTTTAGTAGTTGCTGCATTATCTAAATATATATAATCATCCATATTTTAAATATTTTAGTTTATTACTATTTACTTTTTTTAATGATAACGTATAAATGACCTTAATATTATTGAAGAATTTAAATGTTTTGGCTATCATCTTTTCTTGAATTGATTTTATTATTTTAAATGTTTAATTCAATCTTACTATGATTAATGTAAAGAATTTATCTAAATATTATGGAGATTACCCAGCAGTAATCAATATTTCTTTTGAACTCAAAAAAGGAGATATAGTGGGTCTATTAGGACCTAATGGAGCTGGAAAAACTACAACAATGAGAGTTTTAACAGGTTTTACTCCTCCGACTGAAGGAGATGTAACCATTGGTGGATATGATATTATCAAAGATTCTTTAGAAATAAGAAAACTAATAGGTTATTTACCTGAAAGCGTACCTCTATATTTAGATATGGAAGTTACAGATTATTTAGAATTTATGGGAAAAATCAGAGGTATGAGTAATTCACAAATTAAAAAACGTCTTCCTGAGGTTATCGATACAATTGGACTAGGTGAATATAGAAATGTTTTAGTAGGAAAATTATCTAAAGGATATAGGCAAAGAACTGGAATAGCACAAGCAATTTTACATGAACCAAAAATATTAATTCTAGATGAACCTACAATAGGAATAGATCCTGTTCAAGTAATTGAAACTAGAGGATTGATAAAAGAATTAGGTGGTAATCACACATTAATTCTAAGTTCTCATATTCTTCCTGAAGTTAGTATGATATGTAAAAGAGTTTTAGTTATTCATGAAGGGAAAATAGTAGCTGATGATAAACCATCAGTGCTATCTGAAAAATTAAAAACATCTGAACAAATTGAACTTACAATCAGATCAAAAAACATTACTGAAATTTTAAAAGAATTAAGAAATTTCAATTTTATAATTGATGCACGAGAAAATATTGTCAATCAAATTACAAATAAAAATGATGAAACTATTAATCTTATCGTAGAAGTTAAACCAGAAAATAATGCTCAAGAAATTATTGCAAAAAGTGTAATTGAAAAAGGTTGGGGATTAGTTAGATTGAATTCTGTCCCTATGACACTTGAAGAAATTTTCATGCAAGTAACTACAGATGAAAAACCCAAAGAATAATGAAAAATATATTCCTTATAGCTAATAAAGAAATTAAAACATATATAGCATCTCCAATGGCCTATATTGTTGCAGCTTCTTTTTTAGCTGTTACAGGATTTTTCTTTGTTGCATCAGTATCAGATGCATTTGCTGAAGCAAGTATTAGAGGATTTTTAGCAGGTGCAGTATTTTTTCTTATTTTTCTTTCTCCTGCAATTACCATGAGATTATTATCAGAGGAGCAAAAATTAGGAACATTGGAACTCCTTTTAACATCTCCTTTAAAAGAGACTGAAATAGTTGTAGGAAAGTTCATTGCAGCTTTTTCAATAATACTGTTAATGTTTCTACTCACAATATTTTACACGATAATTCTTTTGATTTATGGAGTACCTGATATTGGTCCTATTTTCACTGGTTATTTAGGTTTGATATTATATGGTGCGGCTACATTATCTGTAGGATTATTCGCATCAGCATTAGGTCCTAATCAATTAGTGTCACTAGTTGTGGGCTCTGGAATATTAACAACTTTGACATTTATTGATTTCATAGCCAATAGATTAAGCCCAAATGTTGCTAAAATTTTAAATCATTTACAGCTAGGAGGCTCTTTTTCTGTTTTTGATCAACAAAGTTTTGGGATTTCTGAAGGAGGACATTTTGCTGATTTCGCACGAGGAATCATTTCATTAGGAGATATAACATATTATTTTTCAATTACCTTAATATTTTTAATGCTTACAATTCTTATTCTTGAAAGTAGAAGGTGGAGATAATGAATAAGAAAGAATCAAGGTCTCCTAAAAAAAACAAATCTTGGAATATGTTTGCTTGGTTGAAAGATAATTCTAGATCTTTCACCCAATTATTAGTTCTATTTGGTTCCGGATCATTAATCATAGGAATACTTGTTTATGTCTTCTTTAGAGACATCCAGGATGCAGGAATAATAGTTTCTGGAGTAGCAATTTTAACCTTATTTATTGCAGCTATATTAAACAGAAAAAATGTTTTCAGAAGTATTTTGGGGAGACGCGGAAAATACAGTGCAAATACATTTTTTATAGTTTTTGGAACTATACTACTTATGATAGCTGGAAACGTACTTTTCTTTTGGTTAGAAACAAAAAATTCTCCCCCTAGTTGGATTAGAAATGATTTGACTGCTACAAAAGAATATGAGTTATCTGAACAATCAGGTGCTGTTTTAGATCAATTAAATGAAGATATAGAAATATTTATTTTTATCAAAAATAATACCCAAAACAGTAATCTTGCTATAAGACGTACAGAAGATTTATTAAGTGAATTTTCTAAAAGATCTACAACTAAAAATTTAACATATAAACTTATTGATCCAGATCTTGATCCAGATATAGCTCAAAAATTAGGAATAGATAGATTTTTAGCTGGAAGAAGCCTTCCTTCATTAGCATTTAAAGGAAGTGAAACACAAAGAATATCCTATTCTATAGGTATTGATCCTAGAGAAAACCCTGATGTGTTTTCCGAACAAGACATTATTACTGGATTATTAGTCGTAACTCAATTAAAACAAAAAATCGTCCTATTTCTTTCAGGTCATGATGAAAGAGATATTACTGATTTTGACCAAAACTCAAATGGATATGGATTAGCTGTAGATGCTCTAGTTAGAGATAACTATATAGTAAACAATGTTACAGTAGCAGAATTAGGTAATATTTTAGCTAGTGGAGATCTTGAAAATTTCCCTGCGGCTGTAATAATTGCTGATCCCAAAGAACCTATTTCTCAACCTCAATCTCAATTATTAACTGAATATATAAATTTTGGTGGAAATGTTTTTATATTGATAGAATCAGATGTTCCAGAAGAATACCTTACTTTTCTCGCTCAATGGGGAATAATAGTTGGAAATGGAACATTAGTTGATACCATCAGTTACGTTGCACCTAGCTTAGATTTCTTGCAAGTTAAAAATACAAACTTACAAATTCCAGATCATCCAATTACTCATAATTTTGATGTTATGTATTTTCCTGGAGCTTCTTATATAGCTATGTCATTATCAAAAGAAGAAATGCCTATAACGCCAGAAGGGGTTTTATATGTTAACTCTCAACCTTTAGCCTTTACCACAATAAATAGTTGGTCAGAAACTGATCTAGAAAAACTTTCCTTTGATAATAAAGTAGATACTCCTGGGCCATTGCCAATAGCTATGGCTAGCCAGATTATAAGCACTGTAATAGGAGAACCTTTAGATCAAATAGATGGAGGATATTCATATTCTCATTTAGTTGTAATTGGAGACTCTGATTTTGCTAGTAATAAATATATAACATCATCACGTAATCAAGATTTTTTTGCTAATTCAGTTAATTGGTTAACAAAAGATACGGATCTTATTTCTATAAGAGTAAAAGAAAGTGTTTTTAGAGAATTAGTGCTTACAAAAAATGAAAGAGCTTTTATTAGGTGGAGTGGATGGTTATTAATGCCATCCGTTATAGGATCACTAGGAATATTAGCTTGGTGGAGGAGACGCTAAAATTGAGTATAAGAGTATCACTAATACTAGTGATTTTATTATCTTTAAGCTCTATTCTGGGGACATGGGTTTATATTGAATTTTTAAATTCAGAAGATACTGTTGAAGAATCACCTTATCTATACAGAATATCTAATAAAGATATGATTACAGTGGATATAAAAACAAAGCAAAAAGAACTATCCATTGAAAAAAGAGATGATCGTGATGGACTTTGGTTTTTCAAAACATTAATAAATACTCCACTTAACTTAAATAGATGGGGAGGTTTTACTTTCTTACTTCAAGGTCCGATAACTGACAGGTTTATAGATGATTCAGAAACTAATAGATCAAAGTTTGGATTAGATGATCCTTCATTATTTCTTAATATAGGCTTATCAGATGGAAGTAACATAGAACTTGAATTAGGAGATAAAACTCCTGATGGAGCATATCATTACGCACTAGTAAAAGGTAGATCATCAATAATGACCGTTGATGTAAGTTGGGTAGAAGTAATTCAAAAACTAGCTAATATTCCTCCCTTACCAGACTGGTATTATTCATTAGATCCAATTACAGTTACCGAAGTTGTTTTCTATATTAATGGAAAAATTTTAAAAGCATATGGATTTGTAAAATCTAACCCAGATGAAAATTTTAGAAAATGGGAAGAATGCAAATTACTTATAGATCAAGAAACAAACCAACCATATTTAGAAATAGAACCATGTGTAGGTAAGAAAATTGATGATCAAAAGTTATTAATAAATCTAGTTAAACACATTTCAAAGCCTGATTTTGATGGAGTTGCATTAGATGGAACTGGTTTAAAATCTCCTCAAGAATTTGCAAAATTTGGAACCACGTCAGATTCTCCTCACATATTTTTAAGAACTGAAGGTTTTGACTCTAGAGGTAGAAAAATTCTTTCTAGGGTTGCAATAACTTTCGGATCAGATACTTCAGATGGAAATCATGTTTATGTGGTTCCACAAGATGGTGAAGACGTGATTTTAGCTGATAAAAAATGGGTTCAAGAAATAATTAAAAATTTTTATTAAGTCATTGTTAATGCCTTATATAATTCTGGCAACCTTGAAGGTAAAAGAGCAATATTATCTAATACTTCGTAACTCATATCATCCATCATATTCTTCATATAATCATGGCCTTGCTTATCCACAGTTAAACAGAATGGAGTCACTCCTATAGATTTAGCTTCTTGAAGAGCTTTTTTAGTATCATTTACCGCATATTCTTTTTCAACACCTTCCCTACTATAACCTCTATCTTGAGGTCTTCCATCACTTATTAGAAACAAAAATCTTGATTTAGCTTCTACTTTTTCTAATTTTTTAATCGTATGGCGAATCGCAGGACCCATTCTAGTTGCATGTAATGGACTTACACGATCAATTCTTCTAGCAATCTCAGGAGAAAATTTTTCTTCAATTTCTTTCATCACAAAAAACTCTACATTCTCACGTCCATATCCTGAAAAACCATAAATACCATAAAAATCCCCTAAAGTTTCCAAGGCTTCAATTAAAAGTATCATGCCTTCTTTTTCTAAATCTACAATTCTCTTGTAACCTCTTCTTAATCCTTGAGATCTTCTTTTTCTTAACCATTCCATATATTTCTCTGGATCATCTGGAGCACCCCAATCATCTCTAGAATATTTAGTGTCTTCAATAGCTTCTGCAGTAGAAGCGCTCATGTCCAATAAAAAAGCTACAGCAATATCTCTCTCTATTTTATTTCTTCTCCAAAATAATTTTTCTGAAGGTGTAATCCCAGCTCTCAAATCTGTCATTGCTTCCACAACAAGATCCAAATCTTGTTCTTCTCCATCTTCTAATCTTTTAATTTTTCTATAATTTTCAGGAACAATCATTTCAAATTGTTTCCTGATTTCTTTCATTAATCCAGAATAATTTAATAAAGTTTCATCATAAAAATCAGATTCACCTTCAGACATTTTCTTTTCATTCACTAAACACCAATTTTTTTTATATTCTTTTGCTCTAAAATCCCATTCATCATATACATATTGATCTTTTCCAGTTGGCACAAGTGATTTACCATTCTCATCAACATGACCAAATGAATCAGAAAACATTCCACCAGAATTTGAATCTTGGCCATCAAGAGTATCTAATAAATCAGCTATGTTTTTTGCAACATTACCATCAGCTTTTTCAGATTGATCGCCTTCAGAGTCTTGAATATCTGGAAAATTTTTTATCATTTCCTCTAATTCATTTTCATCAAGATTTAAATCTTCAAAATTACCATCAGAAATACCATCAGAAAGTTGAAAATCATAAAGTAATTGAGATAATTCAGGCTTAAAATCTCCTCTATATTCTACTTCTTGAGGTGATTGATATTTTGATTCTTCCAAAACATTTTCTGATTCATCTGAATCATTGTTTTTATTAGAAGATTTAAATTCTTTTACTAAAGATTGGAAATAATCCAAAATATTTTTTAAATCATCTTCATTTTCTTGGTTCTCAGTTTCATCTTGAAAATTTTCATTAAGATCCAATTCTTCAAATTCCATATTATCTTCTAAGGTATTGTCTATTTCAGACAAAATTTTATATATCCTGATAGTTGCTTCAGCAGTATCTTCTACTATAGCTTTTAAGGAATTCATCTTATCCACCAATACAAACAATGTTCTTATAATATCTTTGTACTTAGAGGGAATATTCACTTTCAAATTAGGATTGATACTATACCTAATTAATATTTCTACAAGGGCTTCTCTTGTGGGCAATTCTTCAATTTTAGGCCTGTTAATTAATGCTGATTTTTGTACATCAAGATAATCATCTCGAATTCCTCTATATACATTTAAAACTTTTCTATCAATTCTAGAAGCTTCCAATAATGTAAAAATATCTAATGCAAGTTTTGAATCATCAAAAATATTCAAGAATTTACTAATATCCGTCAAATATGATTTAGAGTCTTTATTAGTATCTTTCAGAGTATCATCTATATTTTCTTCAGATTTTAAATTTAATAATTGAAATCTTAAATCAAAAAACAAAGAAGATTTTCTTTCGAAATTAAATTCAAAACTACCAAATTCTACATGACCTGTTTGATGAGTTGCTATTACTTTGTACCATGCAAAATTTTCTTTCTTAGTACTAAATCTTTTTACTGTTTGAGGCAGAAATATTGTTGTCCCTTCTGTAGTAGCTAAATTCGAATCTAACCATCCTATTTCTTTTTCTACTAATTTCTCTGAAGATTGAATTTCAAGATCTTTTCCAGATAATGCTGCACAATAAATTTTAAATAATTCTTTTTCTCTTTCAATATCCACAGAAAATGAAAGAGTATCAATTAATAACTGAGATTGCTCAGTTTCAATAAGAAAAAACAATTCTCCTAAAGTTAAGTCTTTCTTTAAAATTTCAATACCTGTGTTAAACCATTCTAGTAATTGAGTATCAGTTAATTTTTCTAACAAAGAGTCGACAGAATTATTAAAATTATAAGCTGATTGAGAAGAAAATTTTATTAGATTTAAATTGAAGTTAAATATTCGAGAAAGATCTAAATCTCTAAGTTTTTCAGTATTTTTCAAAAAAGTTTTTGCAAAATCAGTAATTTTTATATCAGCATTCTCAGTTTTATTTTTATTAGATTTTTTTTCTTTTTCTAAGTAAAAATTTAATAATAACTGATTTAAATATTTAATATTTTCAACTTTATTTTTCTGAATATTTAAATCTAATAATTCAAAAAACATGTTTATTTCACGCCAATCAGAGGTAGTCATTTTTTTTAAAAGAATTATGAAATCCCCACTTTCTTTACCTAAAATAGGCAAATTCTCACTAAACCAATCTAAATTATGAGAAGCTAAATCACATGATTTTACAGATAAATTTTTACAATATTCAGATATTTTTTTTAAATCATCAAATGAAATTATTTCAAGTAATAAAGGAGATAATTCTAAAAATTTTGAAGCAAGTGAATTAGATTTCCATGATCCAGAAAAAATACTTTTACTTATCTCTCCCCATTCTTGTAAGTATCTTGGTCTTAAAAATTTTAAAACAGATGGAGAAGAAATTAAGTAAGAATAACCTAATGCAGTAGATTCTAAAGAAATTTTTTCTACCATTAGCATCCAAATCTTAAATGTAGAAAGAGGAATTTTTTCATTTATCAAAGAACTAACTTGAAAAAACTTTTTCCCAGTTTTCAAATTTTTTTCAGAACCCTTAGAAATATTCAATCCAATTAAAGCCCAATCAACAAGTGTCTTTTCATCAAAATATTTCCTTAAATCATTCTTATTATTTAGAAATGTTAAATACAATTCTTGAGAAATTAATTTTAATTCATTTCCTATTTTAGATAGCTTACTATTGTAATATTCTGAAGTTGTCATGATTTTTTACTGATGTATTCTTTCAAGTAATTCATTTGTTATATTTGAAGTTGCACCCCATACTAGATAATTATTAAGCAAAAATCCGTTTCTCTGAATTCTAGATTTTTTAGATAAAAAATCTATAGTTCTTTTTCTTTCAGGATCTTGAATATCATCCAAAGTAATAAACATTACCTTTTCAATTTCTCTTTTATCAGGCTTAATGTTGCTATCATCAATTAAATGAGCAACATAAGGAAAAATAATATAACCAGTTCTAGTAATTTCAGGACTTAAAGAGCAAATTATTTCTATTGATTGTTTAGTAACTCCTATTTCTTCTTCAAGTTCTCTATAAGCTGTGTCCAAAAGAGATTTATCAAAAATTTCTTTTTTACCACCAGGAAAACATATTTCACCTTTATGATTTGAAACTTCATTAGAACGTTTTACGAATAAAATACTTGGCCCATCATGTTTCTGAGTTAACAAAACAAAAACAGCAGCTTTTGGAATCCCAGAAGATTTTTTGTCAGAAAATTCTTGAACCTTTAAAAGTTTTAACCTTGATTTTATTTTAATTATAGAATTATGGATATTTTCCATTGAATTTTTTCTAGTTAGGAAAAATTGCTGAAATAACTTCTTCAATACTTTTATGAAGTTTTTTATCGTCTGTAATCCCCCAGGATATAGCCACCTGACATGCTCTTCTTGCTGGAATACCGTCTTTAATTAAACGTCCTGCGTATATCAGTACTCTTGGACTAGCTGCTTCAGTAAGTCCATAGTCGGTAAGATTACGAATTTTTTCTCCTATTGTAGCTAAAGAAGAGGCTATAGAATCATTAACTCCTGATTCCGTTTTAATAATTTCTTTTTCTACTTCAAATGGAGGAAAATCAAATTCAATCGCTATAAATCTTTGTCTAGTACTTTGTTTTAAATCCTTTAAAGCATTCTGGTAACCAGGGTTGTAGGAAACAACCATAAGAAAACCTTCAGATGCTTCAATCAATTCACCAAGTTTATCTACAGTAAGTAATCTTCTATGATCAGTTAAAGGATGAATAATTACAGTTGTATCTTTTCTCGCCTCTACAACTTCATCAAGATAACATATTCCTCCAACTTTAACTGCTCTTGTTAAAGGCCCATCTACCCATCTTGTACCTTCTGGATCTATTAAATAACGACCTACTAGATCACTAGCTGTAAGATCTTCATGACAAGCTACTGTAATTAGTGGAACTTCTTTTTGAACATCTGATTTCTTCTTATGATTTGTTGAAGCAATATTCGAAATATGCCAAGCCATATATTCAACAAATCTAGTTTTCCCTGTTCCTGTAGGTCCTTTAAGAAGTACAGGGATTTTTTGTTTATATGCAGAATGAAAAATATCAATTTCATCAGCAACTGGAATATAAAATGGCTTTTCAGAGATTTTAAACTCTTCAATTCTGATATTTTTATAATTAGTTTTATCTGAAGACAATATTATCTCTCTCCTAAACTACTTTTAATTTTCTTTTAATTATATCTTCCAAATTTAGTAAATTTTTATTATTTATTATAACTTGATCAACTTGTTTTTTATTTTGTTTTATAAATGATTGAAGTTCCAAAATAGAATCTACTTTATCTTCTCTCATGCCACGAAAATTAGTTAATCTTAATTTGATGTTTTTTTCTGAAGATTCTACAAACCAAATTTTATCGCAAAAGTTTTCCCATCCTCCACTAAAAAGCAATGTAGATTCAATAGAAATTTTTTCATAAGAATATTTTTTATATGTTTTTAACTTTTTTTTAACTTCAATAGTAATTTTAGGCCAAACTAAATTCTGAAGAAAAATTAATTTATCCTTATCTTTAAAAACAATATCTCCTAATTTTTCTCTATTAATAGTCAAATCGGAATTTAAAACCTCAGATCCAAAAAAATTAATTATTTCTTGATATATATTTGTACCTACTTCATAAGATTGGTGAGCTAATTTATCTAATTCTATAATTTGAAAACCATAATTTCTTAACAATTTACAAACTTCTGATTTACCACTTCCTATCAAACCTGTGATTCCTAATACAAGCA
>sequence11
AGAGGCAAAGGAATACCAATTATAGAAGATAATCCAAAATATTGGTTTGGTGATTTTCAAGAAGAACAATTGAACGAGTTTAATAAAATATTAGATTCACAAAAAGGAATTGATGAGGGAAAATAATATGGAACTATACGAATCAAAAATTTTATCATTAGTTAAAGAAAATGAAAAAATTGTAGTTTTAACTGCAGAGAACAGAGTTTCATTAAGGAATGTTCCTGAAAAATTAAATCAAAATTTTATTGATGTTGGGATTTCTGAACAGAATTTAATTGGGATTGGAGCGGGTTTGGCTAAATTAGGTTTTTTACCAATCATGCATGGAATGTCCACATTTCTAACTATGCGTGCCTTTGAATTTATTCGCACAGATCTTGGTTATCCAAAATTACCATCAATACTTGTTGGAACATTTAATGGACTTTCAGCAACAGCAAATGGAACTGCAAATGGTCCAACCCATCAGGCTATAGAAGATATTGCACTAATGAAACTTGTACCTAACATGACAGTAGTTGCACCTTCAGATAGATTGGAAACATTACAAATTCTAGACAATATTTCAAAATTAGAAGGCCCACTATACATTAGAGATTCAAATTTTGAATCTATGGAAATAGAAAGAGAACCGTTTGTATGGGGGAAAAATGATTGTATTGTCAAAGGTGATGAAATTGCGATTTTATCTTTTGGAACAATGTTAGATATTTGTCTTAAAGCATCAAAAAAATTATCTGAAAAATCAATTTCACATGCCGTTTATAATATGAGATTTCTCAAACCAATTGATAAGAATTTACTAAATGAAATATTTTCTAAGTTTGAAAAAATCATCGTGGTTGAAGATCATATTGACACAGGAGGTTTATCATCAATCATTAGAGAATTTGCATGGGAAAATGGAAAAGATAAAAAAATAATATTTATGAATTTAAGAGATAGTTTTTTCCGTCCAGGAAACTTTAATGATGCAATACAAAATACTGAATTAACAGTGGGAAAAATTATTGCAAAAGTAATTAATTCCTAAGATTTCACAATTGATTTTTCAACTATATCACACAGACAATGAATAATTACTCTATGACTTTCTTGAATTCTAGCAGTATCATCTGAAGGAGCATTGATTGTGATATCAGATATTTCCTTCAATTTACTTGTAGATTTTCCAGATAGCCCAATTACAAAAATTCCTTTTTCTTTTGCAGATTTAACACCGTTGATAACATTCTTTGAATTACCACTTGTAGAAATTGCTATAACAATATCATGTTCTCCACCAAGAGATTCTATTTGACGAGAGAATATATTTTCAAAATCATAGTCATTACCAATCGAGGTAATGATAGATGAGTCAGTAGTTAATGAAAATGCCGGAATACTAGAACGTTCGATCTTAAATCTACCTATTAATTCTGCAGCCATATGTTGTGCATCAGCAGCACTACCTCCATTACCAAATAAGATTACTTTACCGTCATTTTTTAATGAAGTTATGATTTTTGCTGCACACTCGTCAATAAGATTAGCCAAGCCTAAAGTTTTTGTTATTACATCTGTACTTTGAGAAATAATTGTTTCAATTTCATCAACAAAAGAATTTGTCATGATATAATTTTCTTAAGGGAGTTAATACAAAAGATTTGCTGTGCTCAAGTAAGCGTATAATTCATCATAAGTATTATTATATTTAATAATTCCAGATAGTTTATGATTAATGATTTATTTTCTATAAAAGACAAGGTCATAGTCATTACAGGTTCCAACCAAGGAATTGGAGAAATTCTTGCAAAAAATATGCAAAAAAAAGGTGCGATTATTTATAGAATTGATAAAAGATTCTCAAAGACGAAAAAAAAAGATGATAGAATTTTCAACAAAGTCTGCGATATTACAAACTTAAAACAAATCAAGAATGTTTGTAATGATATTTTCAACGAGAGTAAGAAAATTGACGTCTTAATCAATAATGCAGGAATTACATTACCAGGAAAACCTGAAACATATTCTTTAGATTCATGGATCAAAACTTTGGGAGTAAATTTGACTGGGTCATTTCAGATGAGTTTAGAAATTCTCAGATATATGAAGAAAAAAAGAAGAGGTTCAATAATCAACATTACAAGTATTAATGCAGAGTTTGGATTTCCAAATAATCCAGCTTATGTAGCTTCTAAAGGAGGTTTGAAATTACTTGGAAAATCTTTAGCAAGAGATTGGGGAAAATATGGAATTAGAATAAATAATTTAGGCCCAGGATACATTATCACAAAAATGACAGAAAAAAGTTTTAAAAATAAAAAAACACGTTTGGATAGACAAAAAAATACTATGCTAAATAGATGGGGGGAACCAGAAGATTTGGTAGGTCCATGCATATTTTTAGCATCAGATGCATCATCATATGTTACAGGTCAAGACATCTATGTTGATGGAGGATGGACAGCAAATGGAATACAAATTGAATAGTAATTTTTAGAGTGAATTCTTAGTAAGTTTATTAAAAGTTAGTTAAAAAATTGATTTATGGTATTCATCATTGGAGAGATTGGAATTAATCATAACGGCGATATTGAAATTACTAAAAAATTAATACAAATTGCTAAAAAAGCAGGATGTGATGCAGTAAAATTTCAAAAAAGAACAATAGAAAAAGTCTACACAAAACAAGTTTTGGATTCTCCGAGACAAAGTCCATGGGGAACTACAACTAGAGAACAGAAAATGGGTTTAGAATTTGATAAGAAAGAATATGACGTGATTAACAATTATTGTTTAGAGAATAAGATTGAATGGTTTGCATCAGCTTGGGATATAGATAGTCAATATTTTTTACAAGATTTTAACTTGAAACATAATAAAATCGCATCAGCAATGCTCACAGATATTGAATTTTTAAATTTAGTTGCTAATGAAAAAAAACATACTTTCATATCAACAGGAATGAGTACAATGGAAGAAATTGAACAAGCAGTAAAGATATTTGAAGACTCAGATTGTCCATTCGAACTAATGCATACTAATAGTTCATATCCCATGAAAATTGAAGAAGCTAATTTGCTATGTATACCAATGCTAAAAGAAAAATTTGGTTGTAATGTAGGATATAGTGGACATGAAGTTTCTGCATACAGAGTGTCATTGATTGCAGTAGGTTTAGGTGCAACCTCACTAGAACGACATATCACATTAGATAGAACAATGTATGGTTCTGATCAAGCTGCATCATTAGAACCAGCAGGATTATACAGATTAGTAAGAGATGTTAGAACTGTTAATTCAATTTTGGGAGATGGAAAAAAGCGGGTTTGGCCTTCCGAGGTACCTATAAAAGAAAAACTAAGAAAAAAGTGAACAATGGATAATTTACTATTTAAAGAATGATTTTTTACTATAAACATGTCTAAGAAAATACTATTATTTTTGACAAATGATTACACACATTATTGTTTGTCATATGCATTCCAAAAAAAATATGATCATAAGTTATACGCAATTTCAGAAGTGACATCTACGCCTAGAAAATTTTTTGAAAACCAAGAATTTGTTAGATATGAAAAATTATCATTCTTCCATGACCACATAAAGAAAAAAAATACGCCACCAGATATGGAATATCTAAAAAAATTTGAAGATAAATATGGAATAAATCTATGGAAATTAGTTCAGAATGAAAGAATTTTTTTATATTACAAAAATTTTCACAAGTTTTCAAATGATGAGATTCTAAATATTTTAGAACAAGAATGCAGATTTTTAGAAGATACATTAGAGGAAATAAAACCTGATTACTTTTTCACTAAAATGCCAAGTTTACATCACCAGGAATTAATTTTTCAGATGTGTAAAAGTATGGGAATCAAAGTCATAGCAATGAATTTTACTCTATTAGCCCAAAAATGTATGTTATCTCAAGATAATTCAGAATTAGATTTTCACACTATTCAGAATATACCTGATGAAAAGATTATGAGTTTTGATGAGATACAAAATGAATTAAAAACATCTAGTTTAGTTAAGCAATTAGATACAAAACTTGTAATACCACAAAATTCATTATTAAATAAAATTAATTCAATGTTTGAATATGTTTTGAAATTTGAATCAAATAATACAAAAACACATTATACATATTATGGAAGAAGTAAAAAGAAAGTTCTATTTTATTACATAATAGATTTCTTAAGAAATAAAAAAAGGAAAAAATTTATAGAAAAAAATCTTATTAAAGATTCAAAATTTTCTGAACCATTTGTTTATTTTCCATTACACATGGAGATGGAAAGAACCACTCTAATCGGAGCACCATATTTTATTAATCAGATAGAGATTATTAGATCTGTAGCAAAGTCATTACCAATAGATTTTAAATTATATGTTAAAGAGCATCCAGGTCAAATTTTAAGAGGATGGCATTCAGAAAAGGAATATGAAGAGATTATGAATATTCCAAATGTTCGACTTTTCCATCCAGACATTCCAAATGATGTTCTCTACAAAAATTGTTCAGTAGTATTCACCATTGCAGGTACTGCAGGATTTGAAGCAGCATGTTACGAGAAACCATCTGTAACAATGGTAAGACTGAATTATTCGGATTTACCATCTGTAACATTACTGGATAATTTTAGTGAATTACACGATTTGTTTAAAATTAAATTAAAAGAGAAAGTGTTTGCAAAGGACGTATCAAAGTTTTTAAATTTATTTAAAGCAAATGTTTCTAATTTTGATTGGGCAAATTTTTCTAAAAAGTTATCTGAAGAATTTTTTGTAAATAATACTCAAGACGCTCATATTTCTAATGACAAAATGGGATCATTTTTGAAAGAAAATTATCATATACTAGAAGATTTTGCAGATGAGCACTTTAAAAAAATTCAATTTTTTGAAAAAGGAAAGAATTCTAATTAAAATCATTCCAAGGAAGTTTAATGTCTAATAATTTTTTTAAAGAGTCAACATCATCATTATAGATTTTTTTTAAACGATTTCTCTCTTCATGCGGAACAGGAGGTCGCTTTGATTCTTTTACTAGAAATTTATCTCCAAATTTTTGTCTAGTAGATGTGGGGATTAGTCGTTTAGATAATTTTCTAAAAGTAGAGTTGTTCATGAGTAATTTACTTCCTTCATTTGTAGGAACACGATATGAGTTTTTTGGGGGATCAATTAGGTTAGGAAATTCCTTTAGACCTAAAAATGAAAAAATTGATTGTATTATTTTTTGAGGAGTTTTGATATAATCTTCAAATATAATTATTTTAATTTGATCTGCAGGAAATTCATTCATAAATGTGCTTAGATGTTTATAGTAGAAACCAGATTCAAGAATACTATCTATATGAAATTCATTTTTTTGTAGTTGTTCTTCGTTAAAATCAATTGTTTGTTTGAATGTAAGATTTTTTTCAAATTTCATAAATTTTAAGGATAAATATTCAGAAAATGCAATTTCAACTGGATTTCTTAATGAAATTATAATTTTTGCAGATGGTAAAAAATTTTTGATTAATCTTGGAGAATTAGGACAATAGAGGTAAACTGGGCTAGATTCTCCCACCATAGTTGCATTATTTTGATTATTAAATAATTTCAAATATTCATCTTCGTTGGAAATAATGTCACGTTCATATTTTTCGGGGACATCTAATCTTGCAAAATAATATGGTTCCAAATTATCCGGCATGAAAACATTAGAATGTTGACTCAGATAATACGAAATATTTGTAGTTCCACTTTTTGGTGCACCTGCAATAAAGAAATTTGGTTTTACCAGGCGGTCCATCCGCCATCAATAATTAAATTGGAACCAGTCATGTACGATGATGCATCCGATGCGAGAAAAATTAATGCTCCAACATACTCATCTTTTTTAGCCATTCTTCCAATCATTGTTTTTTCAGAATATTTTTTTACAAAAGTCTTATCTTGATTATTCTCTACACCACCTGGTGAAAATGTATTAACTCTTATGCCAGTCCTATTCCAATATGCAGCTAGATATCTCGTGAGATTCAAAATGGCACTTTTAGTTGCTGCATAAAATACAGCAGAATTCTGTCCGCTTTTTCCATAGATTCTTTGATCTGCACCAACAATTCCGTATGTGGATGAAATATTTATGACATTTCCATTTTTTTGTTTTATCATTATCTTTCCTATTTCTTGACTTAATAGAAAAACTCCTGTCAGATTAACATCAATAGCTCTATTCCAGGTTTTAAGATCAAGACCATCAAATCCATTAGTTCGGATTTTATTATTTCCTTGATATGCGGCATTGTTAATTAATACATCAATTGTTGAATATTTTTTTAAAATTTTAGCGACCATGCCTTTAATGGATTTTGGATCTGTAAGATCTACCTTAACAGATAATGAATTTGTATCATATTTTTTATTAATTTTTTTTTCAAGTTTTTTGCATTGTTGAAAATTAATATCTGCAAGAACTACATTTGCACCAGCTTGAGAAAATCCTTCAACATATTTTGAGCCTAAATTTCCTGCGGCTCCAGTTAACACTATTGTCTTTCCGGATAGATCAAACAGCTTTTGTACATTCAACAAGATTATGTAATTTTTTTTATTAAAAAACAGTTTGTTACAAATAATAGAATTATCTATATAATAACAATTAGGGGCATTATTAATGAAAAAAATTATGATTGATGGCAAATTTATTGGAAATGGATGTCCTTTTTACATAATTGCTGAAGCAGGAGCAAACCATGAAGGGGAACTTGATAAAGCACTTCAGTTGATTGATTCTGCAATAGAAGCAGATGTTGATGCGATAAAATTCCAAAATTATACAGCAGCAAAACTTACAACAAAAACTGCTCAAAAATATTGGGATGATGGGAACAAAAAGGAATCACAATTTGATGTATTTGATAAATTAGATAAACTTTCAAAAGACGATTGGAAAAAAATATTTGATTATGCAAGACAAAAAGGAATTACATGTTTTTCAACTCCTTTTGATTTAGATTCTGTAGATTTGCTTGAATCATTTAATGTACCTGCATATAAAATCGCTTCAGCTGATATAACGCACATTCCATTAATCAAAAAAATTGCTTCAAAGAAAAAACCAATTTTTATGTCAACTGGGATGGCATCTTTCTCTGAAATTCATGATGCATTATCAGCTATTCATAATGAAGGGAATAATGAAATTGTTTTAATGCATTGTATTACATCTTATCCAACAAAACCAGAAGATGCAAATTTGGAAATGATAAAGAAACTTAGCAAAGAATTTCCAGAATGTGTCATAGGATATTCCGATCATACACTAGGTACAGAAATTGCCGCACTCTCTGTATTCTATGGTTCAACATGTATTGAAAAACATTTTACATTTGATAAGAATCTAAAAATTAGTAGAGACCATCGTTTATCACTAACTTCAGATGATTTTAAAGAATTAAGAAATAAAATTAATTTAATTGAGATGTCACGTGGTTCTGAAATTGAAAATTATATTCATGTTGAATCGGATGCTGTAAAGTATGCAAGAAGAAGTGTAGTATCTAAATGCATAATTCCCAAAGGAAGTGAAATTACTGAAAGTGTGATAGATGTTAAAAGACCGGGTACTGGAATTGCACCAAAATATTTCTCCAAGATAATTGGTTCAAAAGCAGTAAAAGATATTCCAGAAGATTCGACTATCCAGTGGGATGATATCGATTATAACCAATGACGAAAAAAATTTTGATTAGAGTTGACGGTAGTAAGAAAATTGGTTTAGGCCATGTCTATAATATGTTAACAATTTTGCATTTCCTTAGAAATGAACAAATTCTTATTGTTATGAATGAGGAAAATAAACTAGGTTCAAGTAAATTTAAAGAACAAAAGTATAAGATTAAATTTTTTAAGAATAATTCAGAGTTATTAAAAATTATTTCTAATTTTGAGCCTGATATAATTTTCAATGATATTTTAAATACCAAAATAGATTATATGAAAAAAATTAGAGAGATGTCATCAATGATTGTTAATTTTGAAGATGTTGGTAAAGGAAGAGCATATGCGGATTTAGTTTTTAATCCAATTTTTAATAAAAAAAAGATGTTAACTAAAGAATTCTACGGGGGAAAATTTGCATGCGTTAGAGATGAATTTAGGATCTGGACAAATAGTTCACTTAGAAAAAATGTAAAAAAAATACTTGTTAGTTTTGGAGGTACAGATCCTACACAGATTACTACTAAAATTTTTAGGGTAATTGAAGAATTATCATTGAAAAATATTGAATTCATCATTATGTTGGGATTTGGTTTTGAACATAAAGATGAGATAAAAAAGGCTGCCAATCATCTAATCAAAGATGGATATACCATTAAATTAATTGAAAAATCTGATTTTCTAGCAAAATATATCAGATATGCCGACTTTGCAATTGTTTCAAATGGAAGAACTGTTTTTGAAATTGCATCTATGCAAGTTCCAATTTTATCTGTAGCAGTTAACGATCGTGAAAAATCACATACGTTTGTGAGAGATGAAAAAATTGGAAAACACATTAACTATAATCCAGTATCGTTTACTAAAGAATTATCATTTAACATTAAACATTTGTTAGAATATGAAAATAGAAAAATATTCAGAGCAAGATTAAAAAAAATAGAATTACTTTATGGCGTAGAAAGAGTAATCGATATAATATATGATGAATTTAAATTAAGAACTTGAGTTACGTGTGAATTCTTCATCATCTTTCAATGATTTCATATAACCTTCATTAGGTTTATGGTCTTGATTAATTTTTTTTAAATTTGGTTCACTCTTAAATAAATTTAATATATCTTCTAGATGAATTGGGCGTGTATTAATTTTTAATATTATTTCATTAATTAATTTTAAATCAACATCATAATCTAATGTCCATCTTAAATTTGAGATATTTTCAGAATAGGAAAAATTATATATTTTGAATTGTTGTTTATTATTTCGAATATAGGGTGTAACATGTTCACGTTCAGACGGTAATCTTGCATTTTTATGAGCTAATTCTAATGTATCAAAAGAGAAAATTTCTGTTTCATTTCCATCAGGAAAACTCCTAGGAAATGTATTTGTAACATAATCATATTTGTTTTCTAAAAATTTTGAAATTCCTTGATCAACTATTTTAGGATCAATTAGAGGACAATCACCTGTAACTCTCAGAATGGACGAAAGATGAAAGGATTTTGCACATTCATAATATCTGGATAATACATTTTCAGGATCACCTCTAAAAATATCAATATCTATTTTCTGACAAAAATCAAAAATTACATTATCTTCCGGATTAGTGGTTGTTGCAACAATAATTTTTTTAAGATATTTAGATTCCTTAAGTTGATTAATTGTGTACAATAAGCTTGGATTTTTTCCATCAACTAATTCCAAGACTTTTCCTGGTAAACGTGTCGAACCCATCCGAGCTTGTATTATACAACCTAACAATAATATGAAAAAATACAATTTGGAAATAAGTTTAATGAATTTAATAGTAATGTATTATATTAATAACCAAGGATCTTTCATGGAAGAAGAATTTTGAGAAAATTATACCTTATTGAAGATATTGATAAAAATAGGATTGAAGAATTAGAACAAGATGATTCAGATTTAGTAACACTTGATTATATTTCACATATACGTTTGAACGAAAATGGTATTGTCCACAAGACTATGGATGAATATCTAAATGCAAAAGATAGAAAAATAGTTTTTGAGCATTGTAGTGAATACTTGAAAAAATTGGAAGAATATAAAAATGAAAAATCTTCATTTCATGGAATTAATTTGATTGGTATAATCGATAGAAATGAATTATTAGAATTTTTAATGGATAGAATTCCTAGAGTAATTGCAATTTCTAAAATTTTAGAGGATTCTAAATATGAAACTGTTTTTCTTTCATCTGACTTGTATGAAATATTTCAGAACACAGACTATGATTCAAAATTTCAAATATTCAATACAATAGATAAAAAGGAGTTAACATTTGAGAACATAACTATTCCAATAAAAATTGGGAAAACAACATCAAGCATCAATGTTAGTAGAAAAAATTATCAATTTATTAAAAAAACCATTGAGGGAATTATAGGAAAATCTTTTCATCTAACCAACAACAATTCTGATGTAAAAAAGATAATTTTGGTAGAATTTGATCCAGAATTATATTTTGAATTATTACAAGAAATAAATAAAAATAATCTTCAAGCAATTTTAGTTAATTTCAGAAAAAGTGCAGTATATAGTAAAAAAACACTTCAAAATTTAAGAAAGACAAATTCAGTATTTATTACTGGAAAGGAATATTTGGATAAATCCAAACTTGAAGAAATTAAAGATAGAAAAAATATAATTCTAGATTATTTGAAAAAAAATGATAATAAGGAATTGATTCCAAAATTAAGTTTAAACTATAAGATAGATACAACAATTCTTTTAAAAAGAAAAATTATCAATATTATAATTCAGAGAATTGATGAATATTTGAATTGTATTAGTATAGCTGAAGAGATTAATTCTAGTAAAAATAATTTAGGAGTTTTAATGTTAAATAATTCAGGAGAAACAGAAAAAATTTTTGATAGTGTTTTTAACAATAGACTAATTTTCCTTCTTCAACATGCATTTGCTAACTATACAAAAAATATTTCTTACATTGATTTATTGGATGATTACCATCATACAAAAAAACAATTTATCGTATGGGGAAATTTTGTTAAGAATTACTTGACGAACATCAAGAATATAGATAAAGATCAAATTATTGTGGCAGGAAGTCCAAAATATGATTCATTTGAATCAATTAATAAAAAAAATAGTAAAAATAAAAAGATCATTATCACACTACGACCAATAATTTTCCATGTAGAGGGATTCAAGACGGAGCTCTACAAAAATTATGAAAAAGCCTTGAGTAAAATAATTTCTTCTTGTAGAGATTTTTCCAATGTTGAGATTATTTTCAAACTACACCCACAACAGAATGTAAACAATGAATTTTTAGAGAAAACAATTAGAACTAATTTTCCAGAAGCAAGAATTGAGCAAACTATTCCAATCAAAGAGTTATTTTATGAGAGTGATTTACACATAAATATCGCTTCAGATAATTTTGATATTTCAAGTGTAGTTTTAGAAGCAATGATTTTGAAAAAACCTACACTAAACATTCAACTTCAAACTAATAAATTTAATTTTGAAATTTTTCAGATGAATGCAATTAGAACTATGATGTATGACGAAGATATTAAAAAAGAAATTAATGCTCTGTTGTATGATAAAAAGATAATCGGACAGTTACTTTCAAATTCAAAACAGTATCTAAAAGAATATCTTTCGAATCACGGAAAAGCATCAGAATCAGTGATTAATCAGATCATGAAAAGGAATTCATCAATTAATTTTTGATTTCTTATATGCACTTAGTTTTTTAATGAATTTTTTGTCATCAGTATTTTGTTTAATTCCTACAAAATAATTTAGACCTATACCCATGTAACCTTTTTTAATAATTTCTAAATCCTTTTCTCTAAAAGAATTTTTTTTAATTTTTTGTTTTAGTTTTAATAATTTTTTTTCATCATTTTTAACTTCTTTAATAATATGTTGTAGATCAAAAGTTTTCATTGTTTCAGAAATTTTTTCTTCACCACAAGTCATCCAAATTTTTTCTAAGAGGCCATAATATTTTTTATAAGAATTATAATTAAAATAATTTTCCCGTTCTTGATTCCAAGGATTTGTGATGTAAAAAAGATCTAATTTAGGATATGAAGATAAATAAGATATTTTATTTTTGAGAAATGTTGCACAAATATCCTTTAGATTTGTACTTTCATCTTGAGGATTTACATAATTATCTTGAATGACAGATTCAGCATTACGTAAATCATGATTAGTTGCTCTTTTTAGATGTTCAGGAAATAATTTTTTTACGTAAAATGATATTTTCATAGGATCATTATTTGCTAGTTTTGTTACTGCTTCTTTTTGTAATTCTCTTTTTAACATTCCATGACTTTCACCAATAGCAATTAGTATGATTTGATTTTCAACCATATTTTTTAAAACCATATTCAAATTCTCCATTGGTTTAAACGTATGATGTAATACACCTTCTATGGAAATCATATCAAAATTTTTAATTATTTTAAGATCAACATCAAATATACTTTTATTGATTATTGACAATTTTTTTATTAAATTAGTTTTTGAGAAAATTCTTTGAGCAATTTTACAACTATTTTCATTTGGTTCAATGATTGTAACATCAGCACCATAAAACGCATAAAATAATGCTTTTTCCCCAGTTCCACCACCTATTTCAAGAATTTTTTTATTTTTAAAATATCCAACTGGGATTCCTAATGTATTCATTAGATTGGCCCTTTGATAAAAAAATTGACTCTTAGTTTTATTATTAATTAAATTTCTATGACTAGGGGAAACTTTTCTATAGATTTTTAGTACTTCATTTTCAATTTCTTTACGCTTCTTATAGTTTTTCAATAAAAGAATCGATTAAGATTCATAATTAAATTCTTTGAAATTTTTCCTACTCCTTATCATAGATTTCTTTTAACAAATCATGGATTTGATTTCTATATTCACTGTTTTCTTGTATCCACATAGCTCCACGAAATTTTTCACATGTTTTGTCAAATTCATCTCTAGAAATCTCCACATAATTACAAAATTCTTCAATATATCGTTCTTCACACTTTCCATCATATTTCAAAACTAATTCAATGGCCTTTTTTTTATCGATTAATCCATCACGTAAATCATAACATACATGATCCATACAAAAACCAAATCCAAATTTTATAAATTTAAGCATCTGATTTACAGGTACAATATCTGAATCTAATGCTCCAAATGAAACATAAGTTCCAATATCTTCAGGTCTAAAATTATCTCTTCCTTTAAATCCAAATTTTGATGAAAATTCTGCATTTCCACGATAAGACCATTCCTGAAGAAAGTATTGTAGCCAAATCCCTTTTGCATTTTGATTAATTAATTTTGAAACATCATAATGGAATAAGAAAAGATCTTTCTCTGAGACTCCTTCAACTTGTAGATACTCTTTCCAGCCATTAGATAATGTTTGTAGTTTGTATGCTTTGAGTGCATCCGCATCTTTTCCGACACCTGTAAGACTAGTACCAACAGTCAATCCAGGATTTTCACCTTGGATTACAAGTGGGATATGAAATTTCTCAGCAATAATGTATGCAGATGAGTATAAGGAGAATTCTGTTGCCTTAACCGGATTCAGGCGTTCAAAGAAATCAAATTTAACCAGTTTTTTCATAATCTTTGGATTTGGCCTAATACTAATTACATCAAACCCAAGTTGTTTCAGATTTTCAATATTATCCATACCAATTTTTGTTATATCTTCAGGTTGATAATTTACCAAAAGGCATCTGAGACCTAAGGTATCTCTAGCAGTAATTGCCTGTTTCGTACTATCTTTTCCACCACTAACTCCAATAACACAATCATACATTGCATTTTCTTGTTTAGCATTATGAGCAATCTTATTTAATTCCACAATTCTTTCTGACCAATCAATTTTCTTTTTTTCTTTTTCCCAGAGACATGCACCACATACCGAATCTTCATTAAAGAATATTCCAGGTCTGGTGTTAGGCTGAATACATTTAGTACAGATTTTTAGATTTTTCAATAATACGTCATTGATTTTTTTATAACTTTACTATTAAGAATTTTTAGGCAATTCTTCTTTGAGTATATATTTAGGTATGAAATTATTAATTCATGAAAATTTTAGCCGTCACACTTGAAAAATGTTCTGGATGTGCATTATTAATAAACGATAAAATTATTTTTTCAACAAGTGAAGAACGATATAGCAGAATTAAATCAGATTCATCATTTCCTAAACAATCAATATTACACGCATTAAAATTTGCAAATATTCAAGGTAGTGATTTAGATCAAGTCATAATTTGTGGGAATAAATTGAGCCTAATACCATCATTAACAAATGAATATTCAACATTAGATGTTGATGATCAATTAAAAATAATGAAAAAATATTGGTACCCTAAATTAGTTGAAAAAAAATCAGTATCATTTTTAGAAATAATCAAAGATAAAATTAATCTAGAGCAATTCCCGTTTAATACAAAATTTGCAAAAGGTTTTGATTATTTTAGTTTAGAAAATCCATATACTGAAAATGATGCAAAACGTGTATCAGTATTCTTCAAGGATATTCTAGCAGATTTATTACAAATAGATACATCAAAAATCTCTCATATGGAACATGATTGGTGTCATGCTGCATATGCGTTTTATGCAAGTCCAATTAGAGATGACAATACACTTGTAGTAACTGCAGATGCCTGGGGAGATGATCTGAGTGGTTCCATATCGATTTTTGACAAAAAAGAAAATCAACTAAAGAGAGTAAAAGAATACGACCACAGAGATTTCCAATTGGCAAGAATCTACAGATACACTACATTGTATATGAGACTCTTAGCTAATGAACACGAATACAAAGTTATGGGATTAGCACCATATTATACAGGACCAAAACGTGAAGAAGTTGAAAAGATTTTTGACAAAATGTTAGAACTAGATGGGTTAGAATTTAAATTTAATAAAGAAATACCAGATATTTTTAATTTCCTTGAAAATAATTTAGACTCATTCAGATTTGATCATATTGCATCAGGATTACAAAAATTTACTGAAAAAATTCTAGTTAATTGGTTCACAAATTTAATTACAGAATATCAATGTACATCGGTTGTATTTTCCGGTGGAATTTCTATGAATGTTAAAGCAAATATGTTAATTTCTGAAATTCCACAAATAAAACATTTCTTTGTTCCTGGAGCAGGCACTGATGAAACTCTTCCTATCGGAGCATGTTACCATCATGCAGAAATAAATGGGATCAGTCCACAATCACTGAATACCATGTATTTAGGTGAAAATGCATCATATACTGAAAATGAAATTAATAAAATACCAAATTGTAAGATTACAAAATTTACTGACGTTGAACAAATTCTATCTCACCTACTAAACAACAAGATTATTGCAACATGTAGAGGTCGAATGGAAATGGGTCAAAGATCATTAGGAAACAGAAGTATTCTTGCAGACCCTAGAGATGTTGAGAATATTCAAAAAATTAATCATTCAATAAAAATGAGAGACTTTTGGATGCCTTTTGCACCAGTAGTGTTGTTTGATAAACAAGATGAATTATTAGACAACCCAAAAAAAATTGATTCCCCATTCATGACCATAGCATTCAATACAATTAATGGTCGAAATAAGATCCCTGTTGGCGTTCAACAAGCAGATGAAACTGCCAGAGCTCAATTACTCAAAAAAGAACAAAATGCCATATTGTGGGAACTAATATCTAAATTTTATGAAAAAACAGGAATACCAGCATTGGTGAATACATCTTTTAATCTACACGGAGAACCTATTGTAAGAAATATTGATGATGCAATCAGAGTTTTTAAAAATTCAGATCTCGATATTCTTTGGTTAGAAGATCACATTATAGAAAAAATATAACAAAAATTACAAGTGGTATTTTTGAGAAACTTGGTCATCTATGTAAAGAGTTCATCATCAATCATTTTAGAACCAAACGCCATCAATAATTTATCAAAAGGTGATGCATGTAATGGAGCCATATTGAGAAATGTTATTCCAGATAATATTCTAATCTTAGTTAAATCAAGATTTTTTGAAGTTATGAAATCTTCCAAAATTTGTATTAATGAATCACGTAAGTCCCATTTTTTAAATTTGATTTTTACATTTTCATTAGATTCATTGTATTCGAAATTATTATCTCGAATATCTTGAAAGTTTATAGAGAGTCCAGCATAAAGTTTTGCTAAATCATAATATAGATCACCAAACTCTACAATTCCAGCAAAATTAGGTCTACAGTCAATTAAACAAAATTTTTCATCATTTTTATTATAAAGTATATTTCCAAAATTCAAATCACCATGAATAAAGCATGATTTGCCATTGAAAAGGTTCTCCCAAGGTATTTTTTCTAATATTTCATCTAATGAATGAATATTTTTTTCATTTACTAACAAAGGTAGTTTATAGTCCTTGTATTTTTTTTTAAAGTTATTTATTCTCATAACTGTTTTTTCAAAATAAAAATTTTTACATAATGTTTTCATTTTGTCTTCATCAATATGGACTTTATTCCATAGATTTTTTTCTAACAAATTCAATAATGATTGAAATTTATATGTATTATCAATATTATAAAAAACATCACCATTAAAATATTCATAACAAAGAAAATTTTTTCCATATGATTTTATTTTAGGAAAAA
>sequence12
TCTTCTGGCTTTGACTCTTCTGTCTTCGCCTTAACTTCTTCTGGCTTTGACTCTTCTGTCTCCGCTTTAACTTCTTCTGGCTTTGACTCTTCTGTCTCTGCCTTAGCTTCTGAAATATTTTTGATTACTGTTACTACTGATCTTAATTGAGCAGAAAGAACATAAGCTAAACCTGATACTGGGCTATACATCTGTCCAAGAAGTTTAGACATTAAAATATCTTTTTTAGGCAATGATGCTAATTTTAATACATTCTGAGAATCAAGTATTTNATCATTCATCAATGCGCCTATAATTTCTATGGAAAGATTTTGATCTTTAACTTCTTCTAATAATTTTTTAGAAGTTTCTGCAGGATCTCCTTTTGTTACTACAATTCCACAAGGACCATTAATAATGTCTTTTAAAATAGTTTTCCCAGAATTTTCTGCTGCTAGAAAAGCAAGATTATTTTTAACAATACGAAATGAGGAACCTGAAGAGCTAAGAACTTTTCTTAAACTAGTCATTTGATTAGCAGAAATATTTTTAAATTCAGTAGAAATGAAAAAATCATTCTCTTTAAAAATATTTTCTAATTCTTTTACTTGATTTATTTTCTTTTCGTTAGCCATATTACAATAAGTTATACAAAAAAAATTTGACCTCTAATATCGAAAACAGAGGTCAATCAAGATTCTTAGTAAACCTAGGCGGGAAATTAAGACTCTAGAGACACCCACTGTCTTCGGCCAAATTATATTATCTCAATTTTTAATTATTTTCCACCATATTTTCAAGATCTGTAATATCAATTTTAATTCCAGGACCCATAGTAGTTGCCAATGTGGCTTTTTTAAGAAATCTTCCTTTCACTCCATCAGGTCTAGAAGATATCAATGTTGTCATAATACTTTTGAGGTTATCCTGAAGCTGTTCTTCAGAAAAACTAACAATTCCAAATCTTAAATGGATTATAGAAGTTTTATCCATTTTTATTTCTAACCTTCCTTTTTTAGAAGCATTGATAGCTTTAGAAATGTCTTTTCCTTGTACTACTGTCCCAGTTTTAGGATTAGGCATTAAACCTTTTCTTCCAAGATATCTACCTAATTTTCCTATTTTACTCATTTGATCAGGTGTAGCTATTGAAACATCAAATTCTGACCATCCTGTTTCAATTTTTTTAATAACATCTTGATCGGCAATAATATCTGCTCCAGCTTCTTTAGCATCATTTGCAACATCACCTTCAGCAAAAACTAGAACTCTCACTTGTTTTCCAGTTCCATGAGGTAATTCAGCAAAACCTCTAACTTGCTGATCAGCATGTTTAGGATCAGCTGAAGTTAAAATGTGCAACTCTACTGCTTCATCAAAATTTCTATTAGAAACTTTCTTCGCTAAAGCGATTGCATCATCTGGGCTATAAAAAGTTTGACCAACTTCTTCTATAGCATTTCTATATTTCTTACCTTGCTTGACCATAATACCTCATTAATAATTAAAGTTTTATTTATCTTCTACTAAAACTCCCATACTTCTTGCAGTTCCTTCAATGATCTTTGTTGCAGCATCAAGATCTACAGCATTCAAATCTTGTAATTTCTCTTTAGCAATCTCTTTAGCTTGAGATCTAGTGATTTTACCAACCATTTCTACTCCAGATTCACCAGAACCTTTATCCAACTTTGCCATTTTTTTTATTAAGGCAGATGCAGGAGGGCTTTTTAACTCAAATGTAAAAGATTTATCAGTATAAATTGTGATCTCTACAGGAATAATATTTCCAGACATTTTAGATGTTCTGTCGTTATATTCTTTTACAAAACCCATGATATTTGCACCATGTTGCCCTAAAGCAGGTCCTACTGGAGGAGCAGGAGTTGCTTTTCCTGCTTCAATTTGTAACTTTACTAATGCTTGTACTTGTTTTGCCATATTATTATCCTTTATCTAACTGCAAGAAATCTAATTCCACAGGCGTATCTCTTCCAAAAAAAGAAACTAAAACTCTTGCTTTGCCTTTATCTTGATCAACATAATCAACAGTTCCCATAAATTCAGCAAATGGTCCATCTTTAATTCTTACTGAATCTCCTTTAGCAAACCCAACTCTTACTTTAGGGCTATCGGATTTCATTCTAGAAAAAATTTGATCCACTTCTTTATCTTCTAAGGGGACTGGCTTTGGTCTTCTTTCTTGTTCATCTTCTGNAGAAATAAAACCAGTAATTCCTGGAGTATTTCTTACTGCAAACCAACTATCATCATCCATAGTCATGTTTACCAATAAATAACCAGCATACATCTTTTTCTTAATGATTTTCCTTTGACCGTCTTTAACTTCTACTTCTGATTCAGTGGGGACTACACAACCAAATATCTTATCTTTAAGATCCATAGTCTTCACACGTTGATCTAAATTCTTTTTTACTCTATCTTCTTGACCTGAATAAGTATGAAGAATATACCAATCTCCAGAGTAAGAAGATAAATCCATAATTTCTTCTTCTTCTAAAATTTCTTCTGTTAAATCAATTTCTTCAATCATATTAACCTNCTGANATAATCTCGAATAGTCTGGAAAAACCCATATCTATTATTCCCAAAATAATCCCTATNGCACCAGNAATTGCCAANACCAACAATGTTAATCTAGTAGCCTCACTTCTACTGGGCCATCTTGTTTTTTTTAATTCACTTATAATTTCTCCGATCCGACCAAGCTTTAAACCTGATAATCTAGATGGACGGACTTCTGAAACCTTCGGACTTTGCTCTTTAGCCAATTTTCACCTTGTTTCTCTATGAATAACTCTTTTTCTACACTTTTTACAAAATTTAGTAAGTTCTATCCTTTCAGTACTATTTCTTCTGTTTTTTTCACTATGATAGTTCCTGTCCTGACATTCTGTACAAGCAAGAGTTATCAATACCCTAGCTCCAGTTTTAGCCATTATTACACCACCTTATTTTATTTTTTCTATTAAACAGCGATGAAAACACCAGATCCCACAGTTCTTCCACCCTCTCTAACAGCAAATCTCAATTCTTTTTCTAATCCTACAGGGTACATAAGTTCAACATCCATTTCTAAGTTATCTCCAGGCATCACCATTTCGGTTCCTTCTGGGAGAGTAACTGTTCCAGTAACATCTGTTGTTCTTATATAAAATTGCGGTTTATATCCACTAAAAAATGGTGTGTGTCTTCCACCTTCTTCTTTAGTAAGTACATAAATTTGAGCCTTTCCTTTAGTCAATGGAGTTATTGTTCCAGGTTTTGCTAATACAGCACCTCTTGCAATTTCTTCACGTTCTAGTCCTCTCAATAAACAACCTACTGCATCTCCAGGAATTCCTGAATCTAGTGACTTGTGAAACATTTCTACACCTGTAACAGTTGATTTTTCTGTACTTCCAAAACCAACAATTTCTATTTCATCACCAACCTTCACCTCACCTCTCTCAATTCTACCTGTTACAACAGTACCTCTTCCTTTAATACTAAACACATCTTCCACAGGCATTAAGAAAGGCAAATCAGTAGGTCTTTCAGGAACAGGTATATATTCATCTACCTTAGCCATTAATTCATTAATTTTGTCTGCCCATTCTCCTTCTCCTTCAGATTCTAATGCTTGTAATGCACTTATTTTAACTACAGGCACTTCNTCTCCAGGGAAACCATATTCTGTCAATAATTCTCTAACTTCCAATTCAACCAATTCTAATAATTCTTCATCATCCATCATGTCACATTTATTTAATGCAACAACAATTTTAGGGACATTAACCTGTCTAGCTAAAAGGATGTGTTCTCTTGTTTGAGGCATTGGCCCATCTGGAGCACTTACAACTAAAATAGCTCCATCCATTTGAGCAGCACCAGTAATCATATTTTTAATATAATCAGCGTGGCCTGGACAATCTACGTGAGCGTAATGTCTTGTCTCTGTTTCATATTCTACGTGTTGAATTGCAATAGTAACTCCTCTTTCCCTTTCTTCAGGTGCATTATCAATAGTATCAAAAGCACGAAACGAAACATTATCATTTGCCTTCGCTAATGTAGCAGTGATAGCAGCGGTAAGAGTTGTCTTCCCATGATCAACGTGGCCAATTGTTCCAACATTCACATGAGGCTTACTTCGATCAAAAGTTTGTTTTCCCATTTTTTGGATCCTCCAAAATATATTAGATTATTTTAAATACAATTTATAAAAATTTATTTTTGTTTATTTTAACCACAAATTTTTAAAAAGGCTATGGAGCCCACAACCAGATTTGAACTGGTGACCTCGTTCTTACCAAGAACGCGCTCTACCCCTGAGCTATGTGGGCATATCAGTTGGATCAAAATCCAACTGGTGCAGGGGGAGGGATTCGAACCCCCGTAGCCCAAAGGCGCCAGATTTACAGTCTGGTGGTATTAACCGCTCACCCACCCCTGCTGCCCTGCGTGATTCTAGCATAAAACATAGTACTTTTTCTACTTCTATACAAAAAAAATATTATTGAAGATTTTATATGGTGATNAATAATACTTAAATTAACTTATTAGAATGAATGTTTATTAGAAATATAGGGAAATTAAAAAAATAAATATTTAAAATGTAATTATGAAAAAAGAAAAACCGTTAAATGAAATTTCTCTAGATGAATTAGTAGAAAAAGCTATTTTAGAAAGAGTAGATAGAAGGAATAGAATATTTCGCCTAATAAATCTATTAATTCTCGGAATTATAATAGGAACAATAATATATTTTTTCTTCTAGTAATTAATCAAGAATTAAATGAAAAAACATACTAGTAAGGGTACCAATTAATATTAGAACTCCTATAATATTTAATACTCTAGTATCCATGGATATATTTTAATATCACAGAGTTTCTAAAATATTAAATTATTGGCTAAAGATATCTTTATATGTTACAAAAACAAAATGATGAAAACATTAAACTCATATTTTAATAACAAAAGAATTCCTCTGTTATTATTACTTAATGTACTTTTGATAGTATTTGTAGTCCTTGAATTTTCAATACTTAATCAAGGTAAAGTCACTCGAGACATTTGGGATGCAAAAAGAGAAGCTTCTGAAAGAGCAGGTAGAATTCTTAGAGCAGAAAGAGCTGATAAAGAACAAGAAATTAAAGAGCAAAAGTTAAAAGAAGAGAAAGAAGAGCAAGATTCTGAAGAATAAACAACCTATTCCTCGTTTCACTTATCAATTCCAAATAATTTGTGAAACATAATATATAACTAAATGAATGATAAGACTAAAATTTTTATAACCTTACTAGTAGTAATTGTTATATTACTTATCTGGGTTGGATATACTTTTGCGAGTGCTTCAGGTGTAGTACCTGCAATAACTGAAATTTAACTTCAATCTTCTACTCTAATTAACAAAGGATCCTTCTGTACAATTTTTAATAATGAAATTTTCTTCATTACATTTTGAATATTTTTCTCAATAGAAGAATGAGTCATTATTACTAAATCAACAAACTGATCATCTGTATAATTATCTTTTTGAATTACTGAAGCAATACTAATATTTTTGTCTGAAAATATTTCAGCAATTTGAGCCAAAACACCTGGTTTATCCACCACAACTAATCTTATATAATACTTATTAACATTTTCATCTATAGTTCTAATTTTCAAATTTTGATTGAGTGATTGGATTTCTAATTGTCTTGAGTCAAATAAACTCATAAGATCTCCCAAAACAGCACTAGTAGTAGAGTTACTTCCTGCACCTTCACCTTGTATCCATAGTTTTCCTATTAAATTACCTTCTATCTCTACTACATTATAATTTCTGTCTACTTTTGCCATAGGATCATTAATAGGAATTAAAATAGGGTGTACTCTAGCTGAAATTGTTGATTCTTCTTTTTCAGCAAATGCTAGTAGTTTAATATTTAAACCAAGTTCTTTTGCATATTCAAAATCTTTATTAGAAATTTCTCTTATTCCATCAACATAAACCGATTCAAGTGGAATTTCTGATTTAAATGCTAATGCTCCCAANATAGTTATCTTGAATTTTGCATCTAATCCATCAACATCATTAGTTGGATCTGATTCAGCAAAACCTAAATCCTGAGCTTCTTTTAACACATCTTCAAACTCAGATCCATCTTCTGACATCTTACTTAAAATATAATTTGATGTGCCATTGATAATGCCTCTAATACTCCGGATCTGATTTTGTTTACTTAATCCAAGTAATAATTCAATAATTGGTATTCCAGCTCCCACAGAAGCTTCAAATTTAATTTTTGAATTATATTTATATGAAATATTTAATAATTGCTTTATCTCTCTTGAAATCAAGTCTTTGTTTGCTGTAATTACATCCTTACCTGCAATTAGAGATTTTTTTACATATTCAAAAGCAGGATTTATTCCTCCCATTAATTCTATGACTACATCTATATCTTCATCGTCAAAAATTTTCTCTGGANCATCAACCAAATTAAATAAAATTTTATTGTTACTCTTAAATTTTTTATTATTGAAAACAATATTTTGATATTTTTTCAAATCTCGAACTAGAACTGTTTTAAGGTTAAATATTTGATTGAATTTATTATCTTGTAATAATTCCTCAGCAACTTTAGTGCCTATATTACCTAGACCTATGAGGCCTACATTGAGTACTTGTTTTTTTGTATTATCCATTTTGATTTTCTATTACTTTAGATCATTAAACTATTAAACTATTTTGAAAAAAAAATTAGCAATTATTTTACTTAAATTTAATCTTACTTTTCAATATATTGATAAAATTAACTAATGAAATGTTAAAAAAGAAATATCTAATATTAGTTTTATTTTTATCAATAATAGTGATTGGTTGCTCAAAAAATCAAATAAACAACGATAAATATTATTATTCAGAGAGTAATCAAGAAATATTTTATTCAGAATATGGAGATGACTCCAACCCTCAAATTCTATTAATACATGGACTTATGGGTAGTTCAAGTTCTTATAATTATATAATTGAATTTCTATCTAAAGACTATAAAATTACTGTAATAGACCTACCAGGTCATGGAAAATCAAACTTGGAAATTAAGTTTGATGTTACTAACCTCTCTAAAGTAATAGAAGAGTTTATAGAGAAAAAATTTTCAACACCTATAATTTTAGTTGGATATTCATTAGGAGGAACGATAATAAATGAAATTGTCACAAATTCCAATGAATTAACATCTTCAATCATTTTTCTAGACCCTTGGTTCAGTAACAATTCTTCTTTAGATTCCTTAGCTTTCAAGTTTTTATCTGTTGTAGAAAAAAATGCCAAAAATTCTTGGGTTGCTCCAGAAGATTCATTTAAACATATTGAAAAAATGAGTACAAAGTTAACAAAAGAACAAATTGAATTAATAGGTAATAACAGATTAAATTATGATTTAAAAATTTGGGACAATTCTATACAAAAAGAAACTCTAATAAAAGATTCTGAATATCCTATTGAAACTCCTTCTTTAATACTTAAACCCAGTTCAAGTTTAGTTAAAGAGTCTCAAATAAAAAAATTATCAGAAAAATACTCCTCTTTAGTTGTCAAAGAAATTGAAGATACCACTCATATGTTTATTTTCGAAAAACCTGAAAAAATAAGTAAGCTTATTGATGAATTTATAAAATGAAATTATTTTTTGTCTCTATTCTTTTTCATAATTCTCATATCTTGCGAAAATGAAGAAAATTTAGTCATGAAAACTAGATGATATAAATACTAAACTCGTAACAATTTAAGCAATATATTTATAATTCGGTAATCATAAATATATTAGAAACCGCATAACATTTTTTATTAACCATTCATGAAAAAGCTTTAAATGAAAACAAGCATCTTTTTAATGGATTAAATATTAGAGACGGAGTAATAGTTCATTCTTGAGTAAAAGAATCTTTTTGATTTCTGTAGAAAATGGAGCCTCAGCGAGGAGTCGAACCCCGGACCGGCTGATTACAAATCAGCTGCTCTGGCCACTGAGCTACTGAGGCTATTTTTCCAAATATAATTTAATTTTGTTTTGTACCTCTTGATAAACTTTCATCAAAGGAACATTTTTCTGTAAAGCTACTTTACGACATTCTTCATATTCAGGAAAGTAATCTTTTCCATTGGTATTAAATCTTACTTTAACTTGAATAATACCAAAAATAGTTTTCAATTTTATAATCTCTCGCTTAGATTTGTATCTCTTTACCTCTGATACTCTTATCCCGAATGTAGATGTTTCGCTCATCAATATTTCTGTCAAGGAAGCTAATTGTAGTGGGTCAGATAAAACAGAAATTTTATAAGCTGGTCTATTTTTTTTCATAAATATAGGCGTAACCCATACATCTAATGCACCATTATTTAATAATTTTTCAGTTGTAAAACCAAAAATTTCACCTGAATTATCATCAATATTGGACTCAATTAGTAATACGTTATCAATATCTTTGTTTTCTACTTGTTCTCCCTGCCAAATAGAAACAACATTAGAATAACCATCAGGATTTTTTACTCCTGCCCCATAACCTACTTTGTCTAATCTCATTTCTAATTTATCAAAAACACACAACTCGGTTACCAAAGCAGATCCAGTAGGTGTGACTAATTCACCTAAACGTATATTAGTTTCTACTTGAGACAAAGGAGCATTAACGGAAGAAATAATTTCTGACGTAGCAGGAGCTAATGAAGAAACAATACCATGGTGGGTTTTTATGGTACCTGTATCAAAGGGAAATGGAGATGCATAAATAATATCAGCTTTTAGAATTTTAAATCCTACAATTACTGAAATAATATCAACTAAAGTATCTATACTNCCTAATTCATGGGGATTCTCTTTCCCACCATGAACTTTTTCTTCTGCATCAACTAATTTATTTAAAACTCGTCTAGTTTTAATCTTAATATCATCATCTAATTNAGAATTTAAAATCAAATCAAAAAAATCATCCCAAGAAAAAGTGGTTTTTAACAAATTTTCATCAAATATTGGTTCTGCTAAAACTGCTTCTACTGGCCCCCTCTTTACATTCTTTTTGGTTAATTCAATTCCTTTTAATGGAAGTAATGATAATGTTTCATTAATTTTAGAAATTTGAACACCTAAACTCAAAAGTCCTCCAATCAACATATCACCACTAACACCACCAATCATATTTATAAAAAAAATATTCTTAACCTCTTCTTCATTAAACATGATTATTCAAACTTCCTGTTCTAAATCCCAAAAGATCAAAAGTTATAAATTTAAATCCAATTTTTTTTAATTCTTTAACAATTAAATCTCTAGATTGATTANCTAGAAGTTTTTCAAAATCTTTTTCTGGAACTTCAATTCTTGCAATTGAACCATGATGTCTTACTCTAACTACTTTATAACCTAATGATTTCAAGAATTTTTCTGATCTAGATACTTCTTCTAATATCTTGGGTGTAATAGTAGTTCCATAAGGTATTCTAGATGATAAACAAGGTTGAGAAGGCTTATCCCAAGTAGGAATATCAAAATGCTTTGAAATAGTTCTTATCATTTCTTTAGTTAAACCTACTTCAACTAAAGGACTCTTGACACCGTATTTCGAAGAAGCCTTCATTCCAGGTCTAAAATCATTTAAATCATCTAAATTCGAACCATCCAAAACAAAATTAAATCCCTNTTGAATAGCAATATCAGAAAGTACTTTGAATAATTCTTCTTTACAAAAAAAACATCTATCTAAATTNTTTTTCGTATAATTTGGATTACTAAATTCTTTAGTATCAATTATCCTATGATTCCATTTCCAATTTTTTGCTAAGTGTAAAGANTTTTTTAATTCTTCATTATCAAGACTTGGAGATTTAGCAGTAATCATTAATGAATTTTTACCCAATACCTTATTAGCAATAAAACCTAAAAAAGTAGAATCAACACCTCCACTAAAAGCAATTAAACATCTTCCATAACTAGAAATTAAATCAGATAAATTATCCAAATATGATTTAGATTCTGTAGTTAATAAATTTTTCAATANAATGCTCAGAGTTTATTTTTGTTCAAATTTTACAGTTTTGTCCTGCTTCAAAGCAATTTGATCATTTATTATATCTAATTCAATAATATCTCCAGGAGAAAATTTATCCTTAAGAAACTCTTCTGACAATAGGTCTTCAATATCTTCCTGAATTAACCTTCTCAAAGGTCTAGCACCAAATTTTGCATCATATCCAGTTTCTGCAAGGTAAGTACGAACCTCATCAGTAACTTGAAGAACATATCCATTATTTAACATTACACTTTGTAAATCAGATAATAACAAATCTACAATTTCAAAAATCTGAGTTTTATTTAGAGGGTGAAATACTATAGTTCCATCTATCCTATTTAAAAACTCTGGTCTAAAAAACTTTTTAACTTCTTCTAGAACCTTACCTTTCATTCTTGAATAGTCTCCTAAAGTATTAGATTCTTCAGTTGAAGAAAAACCTATTACTGAATCATCTCTTATCAAATCTGAACCTAAATTACTTGTCATAATTATTATGGTATTTTTGAAATCTATTTTCCTTCCTTTTGAATCAGTTAAATGCCCATCTTCAAAAATTTGTAAAAGTATATTAAAAACATCTGGATGCGCTTTCTCTATTTCATCCAAAAGAATAGTGCAATATGATTTAGTTCTTACTATATCAGTAAGTTGTCCACCTTCATCAAAGCCTATATAACCCGGAGGAGCTCCAACTAAACGAGATACTGAATGACGTTCCATATACTCAGACATATCTAATCTTACTAAATTATCTTCAGATCCAAATAAGAATTCCGACAATTTTTTTACTGTATGAGTCTTTCCAACACCTGTAGGTCCTAAAAATAAAAAACAACCTATGGGTCTTTTGGGATTTTTTAAACCAGATCTAGCTCTTCTTACAGCTTTAGATATTAAAGAAATTGCCTCATCTTGACCAGAAATTTTTTGTTTCAAAGTTTTTTCCATGTCTAATAATCTTTTCTTCTCTTCTATACCTAACCTAGTAACAGGAATTTTGGTCCACATACTTACAACTTGAGCTATATCCTCANAGGTAACAAGTTTTTTGTTACTCTTCTTTTTTTCCCAAGAAGAATTCATCTTTTCAACTCTCTCAGCCTGTTTTAATTCTTCGTCTCTTAAGTCTGCAGCAAAGTCATATTTTCTATCACTTATAGCTTTAAACTTCTTATCCTGAATTTTATTTAATTTATCTACAGCTCTCTTCAATGTAATCGGTTGAGTACCATTTTTAATTCTTACTTTAGAACCAGCTTCATCCATAAGATCAATAGCTTTATCAGGCATATTTCTATCAGAAATATATCTTTCAGCTAATTCTGCTGCAGCCCTTACGGCATCATCAGTAATCTTAAGTCCATGATGTTCTTCATATCTAGGACGGACACCTTTTAATATATCAATAGTTCCATCTATATCAGGGGGATCAACACTTACTTGTTGAAATCTCCTTTCTAAAGCAGGGTCTCTCTCCACATTTTTTCTATAATCATCAATCGTAGTAGCTCCAATAATTTGCAATTCNCCCCTAGCTAATGCAGGTTTTAGAATGTTTGCAGCATCAACTGCTCCTTCTGCAGCACCAGCCCCTACTATTGAATGCATTTCATCTATAAAAAGAATAGAATCTGAACTGTCTTTTAATTCCTTAATAACTTTCTTAAGCCTTTCTTCAAATTCTCCTCTATATTTAGTCCCTGCAACTAATGAGCCCACATTTAAAGTAATAACCCTTTTGTTCAACAAAGTGTCTGGAACATTTCCTAGGTTAACCATTTGAGCTAATTTCTCGACTATTGCTGTTTTTCCTACTCCAGGTTGGCCTATAAGAACAGGATTATTTTTAGTTCTACGACTTAAAATTTGAATTACTCTCTCTAATTCTGAATCTCTACCTATAACAGGATCTAATTTTCCTTTATTAGCTAATCTTGTTAAATCTGAACCTAACTCATCTGTCAAAGGAGTAGAAGTTTTCTTTTCTTTTAATTTAGGTGAACTTACAGTTTCAGAAATTAACTTATCTGATTCTTTCCTTACGGCATCAAGGGTAGCGCCTAAACTTTCAAGTACTCCCGCAGCAATTCCTTCTCCTTCTCTCAATAATCCAATTAAGATATGTTCTGTTCCAATATATTGATGATTAAGCCTTCTTGCTTCATCTACGGATAATTCAATTACTTTTTTTGCTCGTGGTGTTAACCCCAAACTGTTATGTGTCTGCCTATCTCCTTGGCCTATGATAAATTCTACTGAAGATTGAATTTTACTTGAATCTATTCCTATAGAATCTAAGACTTTTGCTGCAACACCCTCAGACTCTTTAGATAAACCAAGTAGAATATGTTCTGTACCGATATAGTTATGATTAAATCTTTGGGCTTCTTCTTGAGCCAAAGATAATACTTTTCGTGCACGTTCAGAAAATTTTTCGAATCTACTAGGCATACAAATCCTGAAATAATTTATAATTCAATACTCTTATTAAAATATATCTTCTTATTAGTGGAATTTCAAATAAAATTTATCTTTTTAAGATCTTAAAAATTTAGTAATGATATTGAAATATCATCTTAATTATTCACTTTTTTTAGAATCCTCAGAATTCTCAACTTCATCTACATTTTCTTCTTCAGAATTCTCAACTTCATCTACANNNNCTTCTTCAGAANTCTCAACTTCATCTACNTTTTCTTCTTCAGAATTCTCAACTTCATCTACCTTTTCTTCTTCAGAA
>sequence13
AGAACAAATTATCAAATCTGCAACAGAAGCTGCATCTATGATTCTAAGAATTGATGATGTAATTGCAATTTCTGGCGGTTCTGGCGGTGGTATGCCTCCTGGTATGCCTCCAATGGGATAAATTCCTAAAAAGCGGTTCTTAACAAGAAAAAATACCTACATACAAAATGACAATTCTCGTAATGGTTGGCTATACCGGCAAAATTTTGTAGGCTGTTACTAGAACCGCTTTTCATATAACCATGAACTAATTTTTAGATATAAAATCCACTAAGAACTTATCTTTTATTCATTTTTCTAAAAAAAGTCATAAACACTATTCAATAAGGAATCATAATGAAAGCAATAATTCTTGCTGCAGGATTAGGTTCTCGGTTAGGAAGTCTTGGAAAAAATACTCCTAAAGGTATGATTACAGTATTTGGAAAAACGCTACTTGAAAGGCAGATTGAAATTTTTCAAAATTGTGGAATTAACGATATTACAATTGTTACAGGTCATAATAGTAACTCCATAAACTTCCCAAATGTTAATTATATCAAGAACAATAATTACGCTACTACAAATATGAATGAAAGTCTCTTTTGTGCTAGAGAAAAATTTGATGATTCTATTCTTATATCTTATTCAGATATTATCTATGAACAAAAAATTATTGAGCAATTATTACAATCTAAATTTGACTTTTCCATAGGAATAAGATTAAACTGGAAAGAAAGCTATGAAAATAGACTTCAACACCCGTTATCTGAAGCAGAAAATGTCATCATAGAAAACCAAAAAATAATTTATTTAAGAAAAAATTTGTTAACTTGTACACAAGATCAAAAAATTGGTGAATTTTTAGGACTAATGAAATTGACGAAAAAAGGAAGTAATGAACTTCTAAATAAATATCTAGAACTTAAACAAAATCATACAAAAACATTTCATAGTTCTGAATCACTAGAGAAAGCATACCTCACTGATATGTTACAAGAAATGATAGATTCTGGTTCTACTTTAAATCCCGTCATACTAAATCATCTATGGTTTGAAATTGATACTACCGAAGATCTAAAACGAGCTGAAAAATCACTTAAAATCTAATTATGACCTTTTGGATCAAACCACTGCATAGATTCATCTACAGCTCTCTTTACATTTTCTTTGCCAATAACCGATAATTCTCTTTGAGAATCTCCAACTACCTTTCCACCTAATCTTAAAACTAATAATTTACCATTACCTCTAAAGTTATGACTAACAAATGGTTTTATGTAAACTGAATCTCCTGGTCTGATTATTTCACAATATTGTTTATTACCGTACAACCAGTTTAATGAAATATTTTCTTCACTAACATTGTATATGTATTGGTGTAGCCCCATTCTAAGATCCAGTATATCTTTTTTATCATCATAGCAAACATCAATTTCAAAAGATTTTGAATATGGAAGTGTAGTTGAATTGGCTAGTTCAGTAAAACTATATCTTTTTTCATCTTCTGGAAAATCCCAACTATTATTTTCATTATGATGACTGATGATTACTTTATCTTCTATCTTATCATTAGGTAACAAATCTCTACTATTCACATTCAGTATTTCTGCAATCTTATTGATCTCTTGTTTTGCAGGTTCAACTTGACCTGATTCTATCTCATTAATCTTTTCTTCATGAATACCCGTTCTTTTGGATAATTCTTTTATTCCAATACTGCACATATGTCTATGAAATTTTATCAGTGATGCAACTGTTTGTCTATTCGATGAAAAATCTAGAGCAAACTCTCGTCCAAGTTCTGAAGAAATAGCAGATAATTCTTGTTTCACATCTCCCAAAATCTTATTTCCAAATGTTAATGCAAGAATCAGCCCATTTTCTTTTGCACCTTTTCTAGTAGCAAAAGTGTGAGGAGTAAAAGGTGTAATGTACATGGAGTCTCCTGTATTCATTACCGCTACTTTTTTTACACCATCACTTTTTTGATAGTAAAAATTCACTTCACCAATGAAATACGTGAATTGATGCATAAAGTGTCCATGATTCCATTGGATCTCTGAATTATTTGCCTCGTTATCTTCTACATAACATAATTCCATAATCCATTCTGGTCTGAATGGCGCTAATGTACTAGAAACTGTATCTCTGTATTCGTAATATGGTTTACCAGCTCTCTCCATAATTCTACTAGATTTCTCAGACTCTTCTGATCTCATTATCTTCACACCAGTCATACAATCATCAGAAATTATGTAGAAGTCTCGTTCATTTACAGGCCAAATCTTTACTGCATTTTTTACAATTTCATTTGGTAATTCTATTTCACCTGAGATTATTCCATTAATTATTTCTAGCTCTACATGTAATTCTCTAGCTGCATCCTCTGGTCTTCTTTTCAAATCATTTAAAATTCCTAGAAAATTACTTCCTATTCGTTTTGATTCTTTAGTAATTTCAATTGTATTCTCGAGAGATTCCATTATATCACATTCTATATCTTAACATAAATGGTTTATGATGAAAACCAACTAGAAATCTTTACTCCAAGGTTTTTTCTGAGTTAATAATATCTAATAACTTGATAATATCATCCTTTGTAACTAATTTAGGATTATTGTCTAAATGTTTCCTATCATCTAGAATCAATTCACTAGCATCTTCTAAATTCATTTTTAATTTTATTGGTTCAAAATTTAATTTCTTAATTAAATTTTTAAATCTAACAAAATATTTTGAATCATTAAATTTATGTGAAACTGTTGTTGTAAAAGCTAATGCATGACCATGAGAAATTCCTTCATTAGAGAAAACATATGAAAGTGCATGTCCTAAAGTTGTCGAACAATTTCCAAATCCTATACCTGAAAAAAATGATCCTAGAACAACACTTTCTTTATTTTCAGTTATAATCCCATTTTCAAGATATCTAAATGCCTCTTCACAGAAAAATTTTGTATATTCATTTCCTAATTTACTATCATATCCTTCACTACATTGTGCTAAGGCATCAACAAATGAATTCTTAAAAATTTTATCTGGAGTATTTTCAATAAAATATGAATCAATAATTGCCTTATCTGCAAATAATCTGTCATCATGAAAGCTCTGTTTTTTGTTGTCCACTTTAAGAACTGCAATTCGTGTAACTTCACTTCCACTTCCAAATGTAGTTGGAATCAATATCTTTTTTTTATTCATTTTAAACCCGCAATATTTTGCTACATCTAAAACACTCCCTCCCCCTAAACCAATCACGTTGGAAATTTTCTCATTAGAAAAATCTCTAATTATTTTATCAACTGTTGTCATTGAAGGATTATTCTCAACTTGATCAAAAATGAAATAATTTTTCAATTTTATATAATCTAGCCATCCTCTTTCATTAGCCCCTCTAGATGTGATTAATAGACAGTTATCTGGAAAATTATTTTTTGGTACGGAATATTTCCCATACACAATTTCAGATGGCTGTTTTATTGTAAACATAAAATATCATTGTTAAGTAAAAATTAATAGTTAACTTATCATCAAAAATATCGTGAATTCTAATTCTGATAAATTAAGAAGTATTATGCAATCAAAAGAAATCATTAAGGTTGGTGGTGCATTTGATGCTATGTCTGCAAAATTAGTTGAAAATAGTGGTTTTGATGCAATATGGGCTGGAAGCTTTTCTATATCTGCAATTAATGCTGTTCCCGATGCAAGCATTTTAACAATGACCGAATTTTTTGATGCTGCTTCAAAAATGGCGTATGCATGTAATATTCCTGTAATAGCAGATTGTGATACTGGATATGGTGGTCCTGACAATGTCAGACATTTAGTAAAAAAATATGAAAATGCAGGAATTGCTGGCATAAGTATAGAAGACAAAGTATTTCCTAAACAAAATAGCTTACTTGAAAATGCTTCACATGAACTATTGTCTGAAAAAGATTTTGTTGAAAAAATAATTGCTGCAGTAGAAAGTAAACAAAATGAGAATTTCCTAATTATAGCACGAGTTGAAGCTCTAATTTCTGGAATGGGAATGGATGAAGCACTAAAACGTGCATCTGCATATGAAAAAGCAGGAGCCGATGCTATTTTAATTCACTCTAAACAACAAACTCCTGATGAAATATTTCAATTTATGGAATTATGGGATGGCGATATACCAATAGTTGTTGTTCCTACAACTTATGATAATGTAAAAATTGATGAACTAATCTCCCATAAAATTAAATTTGTTATATATGCAAATCAAACTTTAAGGGCATCGCATGCTTCTATGTCAAAATTACTTTCTCGATTAGTTAACGCTAAAAGTATTAATGAAGTGAATGATATGATGTCTACCATGAATGATATCTTTAAACTCCAAGATATGTATGATACTCAACAAAATATAGATCAAAAATCTAATCAATAGGATACCAAATTGAATGAAAAAATACAGAGAGAAATTTTCCAATATTTAAAAAAAAATTATATAAAAAATTTTGTTGGTGTTCCGGATTCAACATTGAAACATTTTATCGATGAAGGTTTGAAAGATAAAAAAATTCTAATTGCAAATAGAGAAGAAGAAGCAATAGGAATTGGAGCTGGAATGACTCTCGCTGGAAGTCCTACATTAATGTTCATGCAAAATGCAGGATTTGCAAATTCTATCAGTACTATCACATCCCTTATTCAATTATATGAAATTCCGTTATTATTTTTGATTGGTTGGAGGGGATATTTGAAAAATGATGCACCTGAACATGAAAAAATTGGACAAATTCAACCACACTTATTAAAAAATATGGATCTCGAAAATAAAATTTTAACAAATAAAACTTGGAAAAAAAACTGTGATTGGGCATTATCAAAACTTAAAAAAAATATTCCAGTTGCTTTAATAATTAGGAGAGAATTTCTTGATTAGAAAAGAAGCTATAGATATAGTTTGTAATTATATAAAAAATGATATTATCATTTCTGCAAATGGATTCATTAGTAGGGATGTCTATTCTAGTTTAGAAAAAAATACAAATTTCTATATGATAGGCTCGATGGGACTAGCATCTTCAATTGCATTAGGAATTGCTTTAAAAAAACCTAAAAGAAGAATTTTTGTTTTTGATGGAGATGGAAATATCCTAATGAATCTAGGATCTTTAGTCACAATTGGTACATTACATCCTAAAAATCTAATTCACATAATTTTTGACAATAAAATTCATGAATCAACCGGTGGCCAACCTACACAATCAAAAAAAATCAATATATTAAAAATAGCTAAAGCAACAAATTATTTGACTTATTCCGTGAATACAAAAAAATCACTTGAAAATGTTTTGAAAAAAATATCAAAATCCAAAGGGCCTATACTCATACATGTGTTAATTAAAAAAAGTAATGCCAAAAGTTCCCGTGTTGATATTAGTCCTAAGTTGATAAAAAATAGATTTATGAATGCAATTAACAAATAATTACTTTTTAGTCCTACTTATTATTCTGAATTTTATTTTTTCCCAATAAACTTTGATTGTAATTCCTACTCCTACTAGTGCTCCAACAATTACTTGCAGAAGCATACTTGATGTACCTGGATCAATATATGCATAAGCATTATTCATAACTATACCTGAAAATAAAATTATCCCTGACAAAAAAAATATTCTTTTTAACATAATACAAAAAATGAATTCGTGAGTATTAATGTTTCACTAGCTTTTAATAAAATACTATTTGTGAATCATCATGAAAATACTAGATTCTGGCCTAATTCACCCATTCATGTTTGCTTTGTTTCCCATACTCTTAATCTATGTAAATAATATTGCAGAAATTTCTTTAGAATCGTTATTTCTCCCAATCGTTATCATCTATGGCGCCACAATACTGCTTGTTATAATAATATCAAAAATTATAAAAAATTTAACAAAGTCTACGCTAATCGTATCATCATTTCTATTAATTTTTTTCACAATTGGTCATATTCAACTATTATTACGTGGAAATGAAGTGTTTGGATTAAGAGCTGACAGTCTTACAGTGATGGGAATTCCATACGTAATCCTATTATCAATTATACTATATGCGATTTATAAGAAAACAAATGTAACAAAACCTAATAAAATAATTAGTGTAATATCAATTGCCATAATACTTTCATTTGTGCCTACTGCAATCTCTAACTCCTCTGAAGTAGTAACGAATCAATTCTTTGAAAAAATTGATTTTGATACTGATAAAAAACCTGATGTATATCTCATTGTCTTAGATGGCTATGCTGGTGCTAAATCACTAGAAGATAATTTTGGATTTGATAACTCAAACTTCTTGAATTCTTTATCCAATACAAATTTCTATGTCTCTAAAAATAATTTTAGTAACTATGAATGGTCAAATCTATCAATGAACGCATTATTAAATATGAACTATCTTGATACTTATCCTGACTATTCAATTGATGATTATCTACTACTCCGAGATCTCTATAATAGTAATCTAGTCATGAAAACTTTTCAAACTAATGGCTATGAAACATTCTTTATTGATGGCGGTGCCCCATTTAGAAACATACATGTTAGTACAGAAACTTTATGCCACGCTACCGATAATGGATTATTACAAAATCTGATTGATACTAGCATGATCTCATTGGTATCGAAAAAATTCTCTACAATAAGTTGGAATGAAATTCGAACTTGTGCGTTTGAAGAATTAGAAAATATTCCAAATAAATCAAATAAACCCATATTTACCTATGCTCATATCAATTTACCACATCATCCTTACACTTATGATTCTGATGGTAACTTAATCGAATATCCTGAAATTGATGAAGAACTAACAGAAAAAGAATCTAATCATAGATATGTAAATCAAGTTAAGGTTGCTAATAAAAAAATCTTGGAAATTTTACCGAAACTTATCTCATCTTCAGAAATTTCCCCAATAATCATCCTTACTTCTGATCATGGATGGGGATTTTTTCATCATTTTGAACAACCTTTAGAAGAAAATAGAACTTTCTTACTTCAGAGACATAATAATCTCCAAGCATTTTATCCTTCAACAGATACTGAATCATATGATGATTTAACTTCTGTGAATGTCTTTCGTCAGATATTTAATGATAATTTTGGAACAAATTTACAATTATTAGAAGATAAAGCAGTTTTTGTTAAAAAGGATTCTGTTACGTCAAATTATGTTTCTCAGACTGATGTTACAGAAATAGTAAAACCTAAAAACTGATAATAAATCTAAACTAAATTCTGTCTAATTACTTTAATAACAAAATCTTGCTCAGCCTTTGTTATGTTTGGATATAACGGTAATGATAGAATCTCTTTGAAAAGCTCTTTTGATCTAACCAGTTTACCTCTAACTTTTGCTTTCTCTTTAAAAACTGTAAATGTATCTAATGGTTTGTAATGAACAGAAGTTATAATACCTTTTTTTAATAAACTTTCATAAAGCTTGTCTCGATTAATTTTTGCATTTTTTGAAATTCTTATAATGTACAAATGACATGAATGATCTTTGAAATCTAAACCTGCTGGAGTTGACAGTCCATTAATTCCTGAAAGAAATTTGTTATAGTATACAAATGCATTTTTCCTTTTTTGATTCAACATATCTAATTTCTTTAATTGACTAATTCCTAGCGTTGCTCTTACTTCATCTAATCTATAATTGTAACCTGGCTCTCTAATGTCGTATTCCCAAGGTTTACCTTCTGAATATCTGTTCATTAATGTCCTTGTTATCCCATGATTCCTTGCTAATTCTACACTCTTTGCAATTTTTCGATCATTTGTAATCATCATTCCTCCTTCAATTGTTGAAATATTCTTTGTTGGATAAAAACTGAAACAACCTGCATCTCCAATTGTACCTACATGTTTAGACTTGAATTTTGTACCTATTGCGTGTGCACAATCTTCAATAATTTTTAACGAATTTGCTTTAGCAATATCTTTAATCTCATCCATCTGACAAGATAATCCTGCAAAATGAACTGGCATTATTGCTTTAGTTTTTTTTGTAATTGCTTTTTTAATAGAATTAGAAGAAATATTCATTGTTTCATCTACATCAACAATTACTGGCGTACCTCCTGCCAGAATAATTGAATTTGCACTTGCTGCAAATGTTAAATTAGGAACTAGAACCTCATCTCCCCGTTTTATCCCAATTGCATTTAATGATAAATGAAGTGCAGCTGTTGCATTAGATACCCCTATTGCAAATTTTGCTTTTGTTATTTTTCTAAATGCAGTTTCAAATTGTTTTAGTTTTGGACCATTAGTAAGAACTGTAGAATCTAATGTTTTTTTCATCTCTAAAATATCACTTTTATCAATAAATGGAACAAAAAAAGGAACTTTTGTTGATTTCCCATAAAATGAATAACTCTTTTTGTCTCTCATACAATTTACAGACTCTATGATGTATTAAATTATCTTATCAATTTCTATCATACAATATTTATTCTACAAGTTAACTAGGAAAATTATAGTAATCATATTAAATTAAGAAAAAATATAAAAATTCATAAATGAAAAGATTATACATACTCGATAATACCACACAATCTCAGATTGAGGAAATGGTTATCGATGATAGTTCAAAATTTATTACGTTTGATTTTGTCTCACATGAGAATCTACTAAAAAAAGGTATCAAACACGAGATCATCGATGAGTTTCTCACAGATGATACTAGAAAAGAAATTTTCATATTTTGTTCAACATGGTTAAAACGACACGAAGAAGATAATCGTTCAGAGTTTAAAATTCATGATATAGATCTTACTACAATAATTGATAGAAATGAATTACTAGAATTTTTAATGGAAAAGATACCTAAAACTGTGGCGTTTTTTAATATAATTAAAAATCAGAAATTTGACACAATTTTTGTTCCGTCAAATATGAAAGATGTATTATCTAAAGTAGATATTGATTCTGAAGTTAGGTTCATGGATATGATGGATGAGGAATTAATGAGTTTTGAAACAATAAACATTCCAATAAATTTTAAATTTTTTAAAAAAAAATATTCTATGAAAAGAGAGAGATATTATTTTATAAAAAAATTTCTAGAGAGGATCTATGGAAAAATTTTTGGTATTAGTAAGATAATTCCAAATAACAAAAAAATATTATTATTAGAATTTGATCCAGAAATTCATGAAAATATCTTGACAGAAATAAATAATCAAGGTTTTCAAGCAATTCTTTTGAATAATCGTAAAACAGTGATTTCAAGTTTCCAGTCGATAAGAATACTAAAGAAAACAAATTCATGTATGATGATTCCTAATGATTGGTTAAATCAAGATATCATGAATAAAAGAGATAAATTAAAGAGACAAATTTTAAAAAAAATTTTTCAAATTAAGATGTTTAAAGCTCTTATTCCTGAATGTAAATTTCAAGATATTGATTTTAATGATATTATGAAACATAAGATTGCAAGCATAATAATTCAAAGAATTGATGAATGTTTGAATACAATACTAATCGCAGAGTCAATAAACCATAGAGATGATTTTCTAGGCATTATGACGATGAATTTTTCAGGTGAAACCGAAAAGATATTCTTGAAATCTAATAACAGAATTCCTATAATTCTTCTCCAACATGCATTTGCAAATTATACAAAAGAAATATCGTATTTTGATATTCTGGATGATTTTCATTGTATTAAGAATAAAATTGCTGTATGGGGAGATGCAGTAAAAGATTATTTGGTAACTGTTAGATCTATACCCGAAGAAAAAATCTTAGTATCTGGTAGTCCAAAATATGATTCACATTCACTGATTAAAAATAAAAAAAGTGGAAAAATTAAATTATTGATTACATTAAGACCTATAATCACTCACATGGAAGGCTATAGATTAGATCTCTATGATAGATATGAAAAAGTGATTAAAGATTTAATTTATTTCTCTAATGAAAATAAAAAAATAGAAATAAAATTCAAGCTACATCCACAACAAAATAAAAGTAATAATATTTTAATAGATATGATTAAAAAAATATCAAATGTAGAAATTCTACAGTTTGAGTCTATAACGGATTTGTTAAGTGAATGTGATTTACATGTGAATGTGGCAACAGATAATTTTGATGCTAGCAGTGTTATTTTAGAATCAATGATTTTAGGTAGACCGACTGTAAATATTCAATTACAAAAGAATGATATTGATTTCGAGTTTATAAAATATGATGCAATTAAATCAGTATACTATGATGAGGATATAGTTAAAAAAATATCTGATTTAATTAATGATGGAAATCAGAAAGATGAATTATTAAAAAACTCACAATTATTTTTAAAAAGATATTTGAAGAATAGGAATAATGCATCAAAGAGACTAATTGATTCTGCTTTTAGAGATTAATTATATTCGGAATTTTCTGTTTAGTATGAATTATGTTCGTCTACTTGATTGATAAATAAATATCACTCACATTTCTTTGCATAAATATGACCGTTCAATTTATTTGATAATCTAGAAAACGGTGTGGGTCTGTATATCTCATATCTAAATCCTGATTCCTCTAAAATATTTTTTAAGTCATCTAATTTTGAAGAAGTAAACTGACCCATGTACTCTATCTTCAGACTATTCACATGTTTTAAAAATTCTTTATCAAGATAAATTTCACATCCTTTACAATCCAACTTCAGTAATTCAATTTCATTAATATTGCATTCTTCAAGTAATTTCGAGAAACTTATTCCTTTCACATTAACAGTTTTTCCCTCATTTCCATATCTGTTATAGACAAATGACGAACCATATGTAGGTGAATCTGGTGATTGAAAAAATTTTAGAATTCCATTTTTTCCAACGGCTGCATTAATTGGAATTATATTTTCTGCTAACTTTTCATTCAAAGAAAAGTTTCGCAACATTGAATTAAAATTTTCAGCAATTGGTTCAAATGCGAATACTTTTGCACCTAAACTTGCATAGTATAATGGTGTATCACCACACTCTGCACCTACATCAACTACTACTTTTCCAGTAAAGTCATCGGAATGTTGGATTGAATGTATATCATTCACAAAACATTCATCTATTGTATTTCCTGGATGCATTGAATCAAGAAAAAATTTTATTCCTGAAAAAGTTTCCACTATCTGTTTTTCATTCTTCTTGTAAATCTTTAAAGTTTTGAATCTATATTTTCCTAATTCAATATTTTCATTAGTAACAAAACTTGTACCATCTCTTGAACATAAATATAATAACTCGACTAAGTTTTTTTCTTCCTCTGTATTCTGTTTTAATGGAATTTCAAATTTATTAATATAATCAAATGTTAATGTTATTTGATTATTATTTAATTCATATTTTATTGAATAAGTCAAAACCCCTACTAAATTCAACATTAAATAAAATTCATCTCTTTGAAATGAAATTTTTGGTAAATCCTTGATTTTTAATGTTAATGTTTTTGATCCTAATAGAATATTGATGATGAAAGATGTCTTATTTTCTATTATTGATGGAGATGCTAAAAATGGGATGAACATATACACTAATCCAATATTTTTTACAAATGACATATCTATTTCAAATTTTATTTGTTTTTTGGTTATTAATATTAGTATTAATCTATCACCCACATCTATAAAATAGAGAAAGTACAAATAATTCATAATTTTTTAATTTTTATGAAATTTGAAATAACACTTGAATGTGAACAAAAAAACCTATTGA