##gff-version 3
sequence1	MetaGeneAnnotator	CDS	196	405	.	+	0	ID=MGA_1;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNFVEKDIDILFLTSDEFKKEKKIKDIITKKNKTNISQDYLFDNFISGSSNINALNASIGIAENLGTK;locus_tag=LOCUS_00010;note=MGA_1
sequence1	MetaGeneAnnotator	CDS	475	1332	.	+	0	ID=MGA_2;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNSNLALNVKYYTSLDFRKEILESLMDGFKEIESTKEKMNSIDVLLIDDIQFLANSGKTNEIFFNLFNSFIENNKQIVLTSDKFPEHLNGFDKRLISRFSQGLSVKIESPDLQTAINIIEYKIKIANIFLSPESIKYIASYFGTDVRKLEGIINKIEFYIIQDKQESTNRIELDKILKILEDYSFAPSGEVTIQKIKSVVALNYGINIKAIDSNLRLQNVVKARHVAMYLTGEILKKNYSEIGIAFGGKDHTTVINAYNKINKFLKEDKLFKNTLKKIKKEIIS;locus_tag=LOCUS_00020;note=WP_039275826.1 chromosomal replication initiator protein DnaA (Mycoplasma mycoides) [pid:43.9%25%2C q_cov:97.5%25%2C s_cov:61.8%25%2C Eval:1.7e-60%2C partial hit],internal stop codon at [403:405](+),MGA_2
sequence1	MetaGeneAnnotator	CDS	1451	1909	.	+	0	ID=MGA_3;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFSINRNIFLEEINKCNRIIDYKSLTPSITGILLEIEVDKISLISTNSSISIKSTIFSGTNDLIIKETGSILIKGKYFLEILRRMEDEIINISSVENNIVSLSGEKSEFSLNTLDFNDFPLIGFREKGTVIKINNIELKKSLNQTIIAVNE;locus_tag=LOCUS_00030;note=WP_011166213.1 DNA polymerase III subunit beta (Mycoplasma mycoides) [pid:40.1%25%2C q_cov:100.0%25%2C s_cov:40.5%25%2C Eval:2.3e-29%2C partial hit],internal stop codon at [1907:1909](+),MGA_3
sequence1	MetaGeneAnnotator	CDS	1958	2575	.	+	0	ID=MGA_4;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYITGTDGFRVSRKRILIEEQIPEKFETNIPYKSILEIIKLLPEKGECKIVIIDSFATFIINDTLFQTTILEGQFPNVNAVFPTDFNTTIYVNNKKFFKLISRADIRSEDNSSTVVNFILDNDRIFIKSNINQIGSFEEEFREFELKGIDEQNICFNSKYLIDSLKTFETKNIELNFIDSKKPIVISSDEDLNLNQIILPMFSN;locus_tag=LOCUS_00040;note=WP_011182899.1 DNA polymerase III subunit beta (Mesoplasma florum) [pid:34.3%25%2C q_cov:96.6%25%2C s_cov:53.1%25%2C Eval:1.6e-34%2C partial hit],internal stop codon at [1907:1909](+),MGA_4
sequence1	MetaGeneAnnotator	CDS	2639	2764	.	+	0	ID=MGA_5;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNNKYGADQIQVLEGLEAVRKRPGMYIGNTNKTGLHHLI;locus_tag=LOCUS_00050;note=WP_000255578.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Staphylococcus) [pid:73.2%25%2C q_cov:100.0%25%2C s_cov:6.4%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [2762:2764](+),MGA_5
sequence1	MetaGeneAnnotator	CDS	2771	4384	.	+	0	ID=MGA_6;product=DNA topoisomerase (ATP-hydrolyzing) subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166217.1;translation=MDNSVDESLAGFCNEITIIITEKKEIIVKDNGRGIPIDIHPKTNKSTLETIFTVLHAGGKFDESAYKVSGGLHGVGASVVNALSLYVKTIVMRNNKIYEQIFSKGGTEASKLSEIGVSDINGTIVKFKPDPEIFKETIDFDFKIIQNKIKQLAFLNKGLKLNLYDEIKDKTLSYCFEDGIKDYIKEINSGKEKINEEIFYISNNLNEIDVEISIQYNESYDENVFSFCNNIFTSEGGTHEEGFKNALIKSINSYANELKNFKGNKFSWDDIKEGIVSVISIKHRDPIYEGQTKSKLSNIDAKEVVTNILNDAFKEFLLKNPTDAKKIIEKILVSQKARKAAQRAREDTRRKSAIDNFSLPGKLADCESKNIDECELYLVEGDSAGGSAKTGRNRKFQAILSLRGKVLNVEKVKQSKAFENTEIQSIIAAIGAGVKKDLNLKKIRYGKIIIMTDADVDGAHIRVLLLTFFYRYMKDLIINGNVYIAQPPLYKIEAGKNNIDYAYTDNELEKLKIEKYSNLKYIIQRYKGLGEMDPIQL;locus_tag=LOCUS_00060;gene=gyrB;EC_number=5.6.2.2;note=WP_011166217.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Mycoplasma mycoides) [pid:64.7%25%2C q_cov:100.0%25%2C s_cov:84.9%25%2C Eval:1.2e-202],internal stop codon at [2762:2764](+)%2C[4382:4384](+),MGA_6
sequence1	MetaGeneAnnotator	CDS	4394	4546	.	+	0	ID=MGA_7;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDPQRRTMIQIKVEDVFLANEVFSSLMGENVELRKRFIVDNAQFVENIDI;locus_tag=LOCUS_00070;note=WP_011166217.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Mycoplasma mycoides) [pid:73.5%25%2C q_cov:98.0%25%2C s_cov:7.7%25%2C Eval:1.3e-13%2C partial hit],internal stop codon at [4382:4384](+),MGA_7
sequence1	MetaGeneAnnotator	CDS	4571	6991	.	+	0	ID=MGA_8;product=DNA gyrase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182904.1;translation=MSEVFNKGRILEIDIKNEVEKDFLEYSMSVIVSRALPDLRDGLKPVHRRIIYAMNDLKITADTPHKKSARIVGEVIGKYHPHGDSSVYEAMVRMSQDFSYRYPLVEGHGNFGSIDGDGAAAMRYTEARLSKISSMLLKDIDMNTVPYIDNYDASEQEPKYLTGYFPNLLVNGATGIAVGMATSIPPHNLIEVINATIEYIKNNNITIEEILKFIKGPDFPTGALMTNGKNMIEGYKTGKGNLTIRAKIDIEETNKNQKIIISEIPYQTNKLKIVEKIAELYKNKIITGISDIRDESNYEGIRIVLEFSKNSNPQLIIKRLYKFTNLQSNFTINMLSLHNGIPVVLNIKEIIKFYVKFQIEIILKRSIFEKEKLEAKLHILNAIRTAVDHIDEIIKIIKNSNTTEIAYKKLFDNFNFDEKQSKAILDMRLQRLVGLEREKIENDINNIELRIKELIKILESKEEQNILLIDQLEYIKNKFGDERRTKIIEEDDIQIDDEELIQDTQMILTLSEEGYIRRLQPEEFKTQKRGGKGIIINSNLDDNILIAKMGKTKDDVLFFSNEGKVYKLKGYNITQFLRTSRGVPIINFIGINFSEKVSSVLTFRNKKNNYKYLVFVTKKGIVKKVNLEEFNKINNFGKIAIHLDKEDSLISVIPTSGLDKILIATKNGKVSKINESDFRPMSRSSRGVKGITLDKTDEVISSCTDFKNDCVVTISEKGIIKKTLISEYNNFNRGAKGVVGMKLNDKTGKLKSVLAIRETDEVLMISSKGKIIKIHSQEIKMQSRNTSGVIGFNLEDDEKITAVTLE;locus_tag=LOCUS_00080;gene=gyrA;EC_number=5.6.2.2;note=WP_011182904.1 DNA gyrase subunit A (Mesoplasma florum) [pid:59.4%25%2C q_cov:99.4%25%2C s_cov:97.3%25%2C Eval:1.4e-275],MGA_8
sequence1	MetaGeneAnnotator	CDS	7008	7391	.	+	0	ID=MGA_9;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDISKIETNFEEICLRLKTRQKDYTKELQNIVNLNFERKNIISKVENLKSQKNIISKEVGLLTRENNNSEKLKKEVLKINKEVEILDENLKKIIEQLNLKLSFIPNIPNKEMPIGVNENDNLEIKK;locus_tag=LOCUS_00090;note=WP_011182914.1 serine--tRNA ligase (Mesoplasma florum) [pid:47.3%25%2C q_cov:100.0%25%2C s_cov:30.6%25%2C Eval:2.3e-26%2C partial hit],internal stop codon at [7389:7391](+)%2C[7428:7430](+)%2C[7587:7589](+),MGA_9
sequence1	MetaGeneAnnotator	CDS	7617	8018	.	+	0	ID=MGA_10;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGSGQLPKFEEDAYKIDNQYLIPTSEVSLVNTVRDKIYESNNLPIYLTAFSQCFRKEAGSAGRDTKGLIRLHQFNKVELVKITDKNSSYDELEKMLEDAEQCLQIFNLPYRVVELCTGDVGFSSEKTYDLEV;locus_tag=LOCUS_00100;note=WP_011182914.1 serine--tRNA ligase (Mesoplasma florum) [pid:73.1%25%2C q_cov:100.0%25%2C s_cov:31.8%25%2C Eval:1.9e-49%2C partial hit],internal stop codon at [7389:7391](+)%2C[7428:7430](+)%2C[7587:7589](+)%2C[8016:8018](+),MGA_10
sequence1	MetaGeneAnnotator	CDS	8399	8860	.	+	0	ID=MGA_11;product=nucleoside deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862455.1;translation=MPCTMTFYLGEYMNIFFKQIIKELEKCKKSQDVPVSAVIVDKNNILVSKGYNTRQKKYNFCNHAEINAINSLFKKNKNKNLSDYKLIVTLKPCLMCITVIEQANIKKVYYYLENIKCDYSKYITSIIFLKINDEEQKKIIEKKLKSFFLNLRK;locus_tag=LOCUS_00110;note=WP_020862455.1 nucleoside deaminase (Mycoplasma mycoides) [pid:37.2%25%2C q_cov:86.9%25%2C s_cov:93.2%25%2C Eval:1.7e-19],MGA_11
sequence1	MetaGeneAnnotator	CDS	8894	10198	.	+	0	ID=MGA_12;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKKSLYREYRPKNFDQVAGHEGIKEILISQIESGNFPHALLFSGQRGTGKTSIAKILSKIMNCENLKKYNPCENCISCKEFNNNSHADIFEIDAASNNGIEEIRNIKANISMLPTFAKYKVFIIDEIHMLSNSAFNALLKTLEEPPKYVIFILATTEFSKIPETIISRCQLFNFKKISQKSLEEKINEISNKEGKEITEDALNEIYYMSDGSLRDALNFLEQSLIVSNEKVTVDDLKKIFYISTKNEKLSIIKNVLDGNSEEIINYFEKSNEQGIDFQMMSLSLLDILKEIIEVKLTSNQKFLNNLNMEEFNKFKKYDVSIFFDLSDNIAESYTKSKNSNISFQYILINILKTLNNKTLISLQENKKINFSNSDNFLIKEHKNEEKIDQNKILEVLENNLIKDSLSLSNKNEENSFLKIQIKLLLEETKGNN;locus_tag=LOCUS_00120;note=WP_020862454.1 DNA polymerase III subunit gamma/tau (Mycoplasma mycoides) [pid:51.0%25%2C q_cov:92.9%25%2C s_cov:59.4%25%2C Eval:1.3e-114%2C partial hit],MGA_12
sequence1	MetaGeneAnnotator	CDS	10708	11274	.	+	0	ID=MGA_13;product=recombination mediator RecR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862453.1;translation=MEKLIEYLKNINGISSKSAEKIIFDLIINKNKLLNLEEFLKKIKLDYDECGECFFYRENRTCLFCDNDQRDKKIICVVSTKIDAKKILNSNYKGIIHVLNGEINLNKNIDPEKLTLNKLFARINMDTELLLALNLTFEGEVTANFIYNKVKSNCSKISRIARGIPLGGVLDYIDQETLNDAILNRKKF;locus_tag=LOCUS_00130;gene=recR;note=WP_020862453.1 recombination mediator RecR (Mycoplasma mycoides) [pid:44.7%25%2C q_cov:99.5%25%2C s_cov:95.9%25%2C Eval:2.5e-41],MGA_13
sequence1	MetaGeneAnnotator	CDS	11286	11468	.	+	0	ID=MGA_14;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFISLEGIDGSGKTTISKMIKNNLIQKGHKVLLTREPGGEPLAEELRRIVLDKNTSITP;locus_tag=LOCUS_00140;note=WP_013385182.1 dTMP kinase (Ketogulonicigenium vulgare) [pid:60.8%25%2C q_cov:85.0%25%2C s_cov:24.9%25%2C Eval:2.8e-11%2C partial hit],internal stop codon at [11466:11468](+),MGA_14
sequence1	MetaGeneAnnotator	CDS	11487	11915	.	+	0	ID=MGA_15;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAARKQHLESIIIPALKEGTIVICDRFMDSTSAYQGYGRNIGMADVTELQNIVLGATKPDLTIFFDITPKEAQIRLLNRKRNIDRLEQEDQKFHEAVYEGYQMLISENSDRIKVVDSRKPINEVLQQVDFLIDNVLSERMKK;locus_tag=LOCUS_00150;note=WP_011166257.1 dTMP kinase (Mycoplasma mycoides) [pid:46.2%25%2C q_cov:100.0%25%2C s_cov:67.1%25%2C Eval:4.5e-28%2C partial hit],internal stop codon at [11466:11468](+),MGA_15
sequence1	MetaGeneAnnotator	CDS	11916	12089	.	+	0	ID=MGA_16;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKEKLFELLNNLISANKMYHSIIVVNTNQNLLEEISIEISRQIFCENKALSNDNCK;locus_tag=LOCUS_00160;note=MGA_16
sequence1	MetaGeneAnnotator	CDS	12288	12662	.	+	0	ID=MGA_17;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEPPKNTYAILLSNDKNQILSTIKSRCKIFSIFSQKNNLDQLNDFFDLFLEKNKENLLLYLIELKQKEKFEIVQILENTFNKSINLLNSNIHEILLDALTEIKTSNHINLILENLFIKIHEVI;locus_tag=LOCUS_00170;note=WP_011183571.1 DNA polymerase III subunit delta' (Mesoplasma florum) [pid:33.9%25%2C q_cov:100.0%25%2C s_cov:49.8%25%2C Eval:1.1e-12%2C partial hit],internal stop codon at [12087:12089](+),MGA_17
sequence1	MetaGeneAnnotator	CDS	13157	13390	.	+	0	ID=MGA_18;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIHLSERVEEIIILLNKNNFAIKKIRFIYSKKGQAAKKVLIESINDGNKGTKILDPLYVHNEDGTYTEEVLKMFGD;locus_tag=LOCUS_00180;note=WP_012544975.1 methyltransferase (Thermodesulfovibrio) [pid:44.6%25%2C q_cov:96.1%25%2C s_cov:31.1%25%2C Eval:1.2e-14%2C partial hit],MGA_18
sequence1	MetaGeneAnnotator	CDS	13391	14377	.	+	0	ID=MGA_19;product=tRNA lysidine(34) synthetase TilS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166253.1;translation=MKLEKKEKYIVALSGGPDSIFLLNYLLQKKITNLIACHVNYNFRKDSLNDQIICENICKLNNIKLETLNIISNYKNLTFNFESWAREKRYNFFQEISYKYNINKVLVAHNLNDHVETFLMQKQKKSLVNYYGIEEKIFFDNLLIIRPILKIKKKSILKYLSDKKIKYAIDSTNTDLNFLRNKIRSNLKNNQLKKFILIIKKENKKLKKIKKSIQKKINKGFLQLNDFVENEEYNLRLLFNFFEFKKVGSFFYKTKKAIIKEILKQIMSKKSFIKIQLDFFVIIKDYNFIYIFEKNKLNIFEKTLVSTEKKMKFNINLNRNFDIIITND;locus_tag=LOCUS_00190;gene=tilS;EC_number=6.3.4.19;note=WP_011166253.1 tRNA lysidine(34) synthetase TilS (Mycoplasma mycoides) [pid:35.8%25%2C q_cov:99.4%25%2C s_cov:86.0%25%2C Eval:5.0e-54],MGA_19
sequence1	MetaGeneAnnotator	CDS	14974	16464	.	+	0	ID=MGA_20;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKGGMGGGMFGGKSTRPREIKSDVKFSDVAGIDEEKTELVELVDYLKNPNKYGMMGARVPKGVLMEGPPGTGKTLLAKAVAGEAGVAFFTMAGSEFEEMFVGLGASRVRDLFSDAKKSAPCIIFIDEIDAVGRKRNNSMGSSTNEQTLNQLLVEMDGFGSNSGVIVMAATNRVDVLDPALLRPGRFDRTIQISLPDIREREAILKLHSRNKAISPEIDWKRIAERTPGFSGAQLENVLNEAAILVVRNKRKMITINDIDEAIDRVVGGPAKKSRAMTVQDKQVVSYHEAGHALIGLKLDSASKVQKVTIIPRGNAGGYTIMTPKDESNFSSKEDLYASIAGYLGGRAAEEIIFGKNKITTGAHDDLDKATNIARRMVTQFGMSTLGLTKFLTMQEESYGQTKGVYSDEIAFKIDMEIHKILDDCYKISIETISKNRELLELIAESLRILETITAEQIDYINKNNKLPDEVIKEKNRKQEEEKKKEAGEILEFEPD;locus_tag=LOCUS_00200;note=WP_011183568.1 ATP-dependent zinc metalloprotease FtsH (Mesoplasma florum) [pid:76.2%25%2C q_cov:98.2%25%2C s_cov:74.9%25%2C Eval:6.0e-212%2C partial hit],MGA_20
sequence1	MetaGeneAnnotator	CDS	16557	17420	.	+	0	ID=MGA_21;product=Hsp33 family molecular chaperone HslO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182915.1;translation=MEIRATSNKNNVKISIVDITEELDKIVKLQKTNPLASFALGRTIINTALISLSVKDGSKVTTNINGMGLGGSIIAEFQNNSIKGYIEKPNFEINKILNDKESESALSQVVGTQGFLQISRDNGKKQPYTSRVELISGEINLDFMYYLQQSDQINSLISSNIDFEEDGSIKKACGVIIQLLPGFTEENIDFIEEKIGSVEHLIKTLMESTNYEALIKEICEDAQVVGINQLFFKCTCSEEKVLNTLKLLEKEEINKAINDGEEIEVVCDFCKNIFIIIPEQLKKLIIC;locus_tag=LOCUS_00210;note=WP_011182915.1 Hsp33 family molecular chaperone HslO (Mesoplasma florum) [pid:39.9%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:3.3e-59],MGA_21
sequence1	MetaGeneAnnotator	CDS	17461	17739	.	+	0	ID=MGA_22;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEINNSGFENEKNMKIKKINKEEIKNSERVFEEVDITEIVEEGVKGLKQKIRLQKQLTSKYSKKILEGTIVSTTKNKPNIEKNVIELYNVKK;locus_tag=LOCUS_00220;note=WP_011182916.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:58.2%25%2C q_cov:71.7%25%2C s_cov:11.1%25%2C Eval:1.5e-12%2C partial hit],internal stop codon at [17737:17739](+),MGA_22
sequence1	MetaGeneAnnotator	CDS	17755	18417	.	+	0	ID=MGA_23;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTPVLRGVDLKLEKGKFIVILGPSGSGKTTLLNTISGLDKTSEGDVFVLGNNLSLLKDSHLTKFRRENVGFIFQQYNLLSNLTAKENAEVGENLSRSKENKMSIDEIFKTIGMEEQMNKYPHQMSGGQQQRVSIARALAKNPEILFGDEPTGALDEEMGRKVLEILVDVKNKYNTTIIIVTHNPNISEIGDTVIHVRNGLIDEIKQNLNPKRPSDIDWS;locus_tag=LOCUS_00230;note=WP_011182916.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:75.7%25%2C q_cov:99.1%25%2C s_cov:36.1%25%2C Eval:6.9e-95%2C partial hit],internal stop codon at [17737:17739](+),MGA_23
sequence1	MetaGeneAnnotator	CDS	18809	19363	.	+	0	ID=MGA_24;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKDIKIKGKVFLGPMAGTTNAAFRIICKEKGASLVYAEMVSTEGLVHNNKKTKTMIEVSNLEHPISLQIFGFDTNSFVEGAKIVEEFSKCDIIDINMGCPAPKVALRSQAGANLLKFPERVGEVIRAVVDNTSKPVTVKMRIGWDDENRNVVELAKIAEKNGASAIAVHGRTRNQFYTGKAD;locus_tag=LOCUS_00240;note=WP_011166279.1 tRNA dihydrouridine synthase DusB (Mycoplasma mycoides) [pid:61.4%25%2C q_cov:100.0%25%2C s_cov:56.8%25%2C Eval:1.9e-62%2C partial hit],internal stop codon at [19361:19363](+)%2C[19367:19369](+)%2C[19508:19510](+)%2C[19577:19579](+),MGA_24
sequence1	MetaGeneAnnotator	CDS	19792	20763	.	+	0	ID=MGA_25;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDIFERNFSEQELVRRKKLEKLIEKNRNPFIENSFEKNYTISELFEKFNNFSKEELNLKDNENILIAGRIRLFREAGKKAIFANIQDQNSIIQIYIRQDEIGEEEFEYFRDLDLGDIIGITGTMMKTDHGELTVRIKKYILLTKALKPLPDKHAGIVDVEEKYRRRYVDLIMNPETKKIFIGRNKIIRTIQTYLDNKGYMEVETPILQSLRGGAAAKPFITHYNALDNDFYLRIATELHLKRCIVGGFEGVYEIGRLFRNEGISTRHNPEFTSIEIYVAYKNMIFLMDLCEELFRKCSLEVRNTTKINYGGFELDLSKPFKR;locus_tag=LOCUS_00250;note=WP_011182927.1 lysine--tRNA ligase (Mesoplasma florum) [pid:67.6%25%2C q_cov:98.5%25%2C s_cov:63.7%25%2C Eval:1.6e-124%2C partial hit],internal stop codon at [20761:20763](+)%2C[20806:20808](+)%2C[20953:20955](+),MGA_25
sequence1	MetaGeneAnnotator	CDS	20815	20955	.	+	0	ID=MGA_26;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYQEALKIAKKHNINVEKHHFSVGHIINLFFEEFVEQKIIEPTFI;locus_tag=LOCUS_00260;note=WP_011182927.1 lysine--tRNA ligase (Mesoplasma florum) [pid:71.7%25%2C q_cov:100.0%25%2C s_cov:9.2%25%2C Eval:1.5e-14%2C partial hit],internal stop codon at [20761:20763](+)%2C[20806:20808](+)%2C[20953:20955](+),MGA_26
sequence1	MetaGeneAnnotator	CDS	21028	21303	.	+	0	ID=MGA_27;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIIKREYANAFAELNNPIEQFDRFVDQIKEAEAGNDEATDMDIDFIEALEYGMPPTGGIGIGIDRLVMLLTNSESIKDVLLFPQMKPRGK;locus_tag=LOCUS_00270;note=WP_011182927.1 lysine--tRNA ligase (Mesoplasma florum) [pid:79.8%25%2C q_cov:97.8%25%2C s_cov:17.8%25%2C Eval:3.5e-35%2C partial hit],internal stop codon at [20761:20763](+)%2C[20806:20808](+)%2C[20953:20955](+),MGA_27
sequence1	MetaGeneAnnotator	CDS	21303	21461	.	+	0	ID=MGA_28;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFGITLGYVSKLNIGETIEGIEIINELLNSNLKKQFSLISVKSGLVTNKQT;locus_tag=LOCUS_00280;note=MGA_28
sequence1	MetaGeneAnnotator	CDS	21570	22256	.	+	0	ID=MGA_29;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMLLENINPKKGIITNFTTVNRDVKVDNVNSIVFEEVGLEILANDINIEILNDYLISIYKLFCKIDNHISSKFSSLSNFHFSKKLTFITYKKLKELYPLLTFNERLNKFAKDNGSFVIQDYAEKVLGQKNMTQFSEDVFNLKTYSKLYIYNGECEKAISLVYAGYQVDRKILKEQNKILKENSKNMNEYNHLIKSNELPLTLSIGILTNRFIMTLLEKQHIGEVHSSI;locus_tag=LOCUS_00290;note=WP_010922500.1 aspartate--ammonia ligase (Streptococcus pyogenes) [pid:24.5%25%2C q_cov:96.9%25%2C s_cov:70.0%25%2C Eval:5.1e-11%2C partial hit],MGA_29
sequence1	MetaGeneAnnotator	CDS	22331	22831	.	+	0	ID=MGA_30;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISLIIVANGSSVRFGENKMLVKLKDEFLILKTIKNFLDFNEIDQIILVSNDQIFNVVNLKEVEKVYGGLTRSESVQKGLEKVRNDFVIIHDGARPFTSKKLIKKLIQNLKPNIAVIPILKITNCLKKISNNKIKTVDREQYFISQTPQGFYTKLIIDCYKNFNRD;locus_tag=LOCUS_00300;note=WP_011860629.1 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase (Clostridioides difficile) [pid:35.6%25%2C q_cov:97.0%25%2C s_cov:73.4%25%2C Eval:2.4e-20%2C partial hit],internal stop codon at [22829:22831](+),MGA_30
sequence1	MetaGeneAnnotator	CDS	23065	23193	.	+	0	ID=MGA_31;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMIRKYEVMYIIDKDATDLKGVQKKLNDILTANNGKILESEE;locus_tag=LOCUS_00310;note=MGA_31
sequence1	MetaGeneAnnotator	CDS	23251	23553	.	+	0	ID=MGA_32;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVETDSANINEFERVSRIDKNIVRNLVINTENEKKYIQSTKLSKTDMSKFKEEKRPSRGFEKRMSPKRENNTGDSETKTPATNSEEKSLKKITTSKVEE;locus_tag=LOCUS_00320;note=WP_011182977.1 30S ribosomal protein S6 (Mesoplasma florum) [pid:43.0%25%2C q_cov:100.0%25%2C s_cov:39.3%25%2C Eval:9.6e-17%2C partial hit],internal stop codon at [23191:23193](+),MGA_32
sequence1	MetaGeneAnnotator	CDS	23570	23719	.	+	0	ID=MGA_33;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSVILIGRITQDPELRNSSNGKSFVAFTLAVNEFSEGNQFTQFIPCFA;locus_tag=LOCUS_00330;note=WP_011182978.1 single-stranded DNA-binding protein (Mesoplasma florum) [pid:64.0%25%2C q_cov:100.0%25%2C s_cov:33.1%25%2C Eval:1.4e-10%2C partial hit],internal stop codon at [23717:23719](+),MGA_33
sequence1	MetaGeneAnnotator	CDS	24037	24258	.	+	0	ID=MGA_34;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182979.1;translation=MKKFVRRKKVNFFAKNNIDYIDYKDVELLKKFISSNGQILPKRITGTSPKHQRMLAIAIKRSRSMGLLPFVVQ;locus_tag=LOCUS_00340;gene=rpsR;note=WP_011182979.1 30S ribosomal protein S18 (Entomoplasmataceae) [pid:79.5%25%2C q_cov:98.6%25%2C s_cov:96.1%25%2C Eval:1.0e-26],MGA_34
sequence1	MetaGeneAnnotator	CDS	24319	24765	.	+	0	ID=MGA_35;product=50S ribosomal protein L9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182980.1;translation=MKVILLNDVKNYGKKDEIVDVADGYAQNYLIPKKLAIIATKDDLSHLNVRKNKEEEEKRKQFEEVKKVKEKIDLIQLNFKIKVKDNKTFGSISLIQIEDRLKKEFDLDIDKRKFEKHEALNKIGLFYLKIKLNFNLIAILKVLIEGIE;locus_tag=LOCUS_00350;gene=rplI;note=WP_011182980.1 50S ribosomal protein L9 (Mesoplasma florum) [pid:43.5%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:5.6e-27],MGA_35
sequence1	MetaGeneAnnotator	CDS	24768	25367	.	+	0	ID=MGA_36;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSNIEFNNMESVLIDSEKAVLAIAMHSPKASFDILTQLNAEDFCLEKHALLFEAINAVSQNSQSISITKIADYLEEKKILEKIGGIAYLSDISGYFYTDEGFEDYVQIVFKNSIGRQLDRAIIHIKQLRESHSPIDEVFLVAQQKILNIKTDIKKDDATEIKQTVIEVIKKIQFLEKNGGLINGIPSGISDLDQITNG;locus_tag=LOCUS_00360;note=WP_011182981.1 replicative DNA helicase (Mesoplasma) [pid:39.4%25%2C q_cov:96.5%25%2C s_cov:42.2%25%2C Eval:2.6e-31%2C partial hit],internal stop codon at [25365:25367](+)%2C[25584:25586](+),MGA_36
sequence1	MetaGeneAnnotator	CDS	25407	25586	.	+	0	ID=MGA_37;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKTAFALNLAVNAAERQKGVAFFSLEMPREQLVQRILSSISGIDSSSLRNAQGLTQEK;locus_tag=LOCUS_00370;note=WP_011182981.1 replicative DNA helicase (Mesoplasma) [pid:61.4%25%2C q_cov:96.6%25%2C s_cov:12.7%25%2C Eval:1.5e-12%2C partial hit],internal stop codon at [25365:25367](+)%2C[25584:25586](+),MGA_37
sequence1	MetaGeneAnnotator	CDS	25623	26123	.	+	0	ID=MGA_38;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIIIDDSPGINVLQLQSKLRKMKRDFNVEICFIDYLQLISSISNKLDSRQNEVAAISRQLKKIARELNMPIICLSQLSRSVEKREEKTPLMSDLRDSGAIEQDADIIMFLYRDAYYKSKEYNMESDNPTDETDIIISKHRNGATGVVKVNFLRSYGKFIEQSKNS;locus_tag=LOCUS_00380;note=WP_011182981.1 replicative DNA helicase (Mesoplasma) [pid:65.0%25%2C q_cov:96.4%25%2C s_cov:36.2%25%2C Eval:1.5e-54%2C partial hit],internal stop codon at [25365:25367](+)%2C[25584:25586](+),MGA_38
sequence1	MetaGeneAnnotator	CDS	26173	26667	.	+	0	ID=MGA_39;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSIFAISTIISPGIVAVASCSVPTSSVSTLVDGKEKFKIKSGDDIKEISSIDLFSNEKSKMLSIFTMQILEALTFSETKYQSSEKLNAKKKSLGINGLNLSLEKLINESFTEENNLPKFTDNTNGSFKEAYFSTNDTKFLSVNYNMNINLSEDALDENGK;locus_tag=LOCUS_00390;note=MGA_39
sequence1	MetaGeneAnnotator	CDS	26854	27165	.	+	0	ID=MGA_40;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESFKDKGVYTLEESQANELYEVLKNLTDPVAQELISIDKDVFKTIHSQLRTVKTKLKNGILMLSKFDESLVNNDKETKIIPYEKDSEGNQTNKTEFFNLQEG;locus_tag=LOCUS_00400;note=MGA_40
sequence1	MetaGeneAnnotator	CDS	27602	27895	.	+	0	ID=MGA_41;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYYIKLENNYYEIVDGNTNKIIASFVAEVDAHNFIQSLFSTLNNPLQRQQQFINPYFQFPMVAPFAPGQTLQHNKHFPFMDRNLENGGFIDSNIRN;locus_tag=LOCUS_00410;note=MGA_41
sequence1	MetaGeneAnnotator	CDS	28289	28474	.	+	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEPININSNFEDNLKDIKNDFLENNSNFAKEKNFKSKNKKNEIFNFYNNKIEEEKDSIGF;locus_tag=LOCUS_00420;note=MGA_42
sequence1	MetaGeneAnnotator	CDS	28535	29059	.	+	0	ID=MGA_43;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIDTTLFGDDKIGAIIQQSKIIVNNTDDDSLGETSAYNKIKNKKLDFKNKKDFSLDLNNITLPEENFIFNSDDIPFTTETKITSNVGSGIREDFSEIQSSNTLKKEVFKIKKNSDLIDLGPVEEEDELYSTPRKDAEKDDFENFSLSKKEKKELKKIKKKEEISKKRYEKLLK;locus_tag=LOCUS_00430;note=MGA_43
sequence1	MetaGeneAnnotator	CDS	29270	29494	.	-	0	ID=MGA_44;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITLFQPKFLCEFGNPFSTVNEVFNKKTPCFTHIDKSLFSKWLIPKSFFNSLKIFLKLGGVFTLFETLNAIPFA;locus_tag=LOCUS_00440;note=MGA_44
sequence1	MetaGeneAnnotator	CDS	29748	30206	.	+	0	ID=MGA_45;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKISKWLLEGNNLAYAMSAFIAFFIFLYFIYNAGSYLILKERYHGIRFTTKNIAYITMFTAINVSVTVVISLTIPITVFPPIRIAFEGVMVKITGFIFGPIIGVLVALITEVLVMIFVPSFIHPAFIIVIICYGFIAGIGSSFLRLGKGYN;locus_tag=LOCUS_00450;note=WP_011182983.1 ECF transporter S component (Mesoplasma florum) [pid:54.6%25%2C q_cov:96.7%25%2C s_cov:49.2%25%2C Eval:7.7e-38%2C partial hit],internal stop codon at [30204:30206](+)%2C[30306:30308](+)%2C[30330:30332](+)%2C[30493:30495](+),frameshifted%2C insertion/deletion at around 30380%2C30326,MGA_45
sequence1	MetaGeneAnnotator	CDS	30670	31209	.	+	0	ID=MGA_46;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLYDSLTTELKMIDVPKVCIYTCGPTVYDYIHIGNARPLILTDLIIKYLEHREIKYKYLLNITDIDDKIIKKSMEMNISEENLSQKYTKAFLEDLEALNITKPTDIIPISSKINEILKFINELIEKDYAYEIKGNVYFNIARWEKKYGNLSKQNINQLEIGNRVEEDLNKKNPQDFVL;locus_tag=LOCUS_00460;note=WP_011182984.1 cysteine--tRNA ligase (Mesoplasma florum) [pid:48.6%25%2C q_cov:98.9%25%2C s_cov:40.1%25%2C Eval:1.6e-44%2C partial hit],internal stop codon at [31207:31209](+)%2C[31234:31236](+)%2C[31246:31248](+)%2C[31267:31269](+)%2C[31414:31416](+),MGA_46
sequence1	MetaGeneAnnotator	CDS	31545	31793	.	-	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLVISFIKDIIKGVFKSSLIKALKRVIYLCELKLSSIGVLLVNITSPIFVNQLIVLNKLSTFSTHSDDCKINSLVIFNGCL;locus_tag=LOCUS_00470;note=MGA_47
sequence1	MetaGeneAnnotator	CDS	31780	31923	.	+	0	ID=MGA_48;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKNINKQLKNKMVDLTYIKLLTLLKILGFSFEIPNLSKNDVEMIRK;locus_tag=LOCUS_00480;note=MGA_48
sequence1	MetaGeneAnnotator	CDS	32002	32145	.	+	0	ID=MGA_49;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNYIYGKKIVENVIKNFSNQIVKIYILKGHSFEQEIYSIIKKNNIK;locus_tag=LOCUS_00490;note=MGA_49
sequence1	MetaGeneAnnotator	CDS	32170	32502	.	+	0	ID=MGA_50;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIKEKIKHQGYIAEVKEYQYCELSNIYNNSKERQVILIIDQLQDPQNFGAIIRTASLFNVDGIIIQENNQVKVTPAVVKASVGTIYNIPIVKVSNLKDAINSLKNQGF;locus_tag=LOCUS_00500;note=WP_011182985.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Mesoplasma florum) [pid:47.3%25%2C q_cov:98.2%25%2C s_cov:45.5%25%2C Eval:2.6e-22%2C partial hit],internal stop codon at [32143:32145](+)%2C[32500:32502](+),MGA_50
sequence1	MetaGeneAnnotator	CDS	32518	32721	.	+	0	ID=MGA_51;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKDSKSINEINFDKKTAIVIGNEATGISKKILSVSDFNFKIETSNVIDSLNVSVATGIILFKISAI;locus_tag=LOCUS_00510;note=WP_011182985.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Mesoplasma florum) [pid:40.0%25%2C q_cov:97.0%25%2C s_cov:26.9%25%2C Eval:7.4e-09%2C partial hit],internal stop codon at [32500:32502](+),MGA_51
sequence1	MetaGeneAnnotator	CDS	32741	32959	.	+	0	ID=MGA_52;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFSVENIIYVISKKLFKEQAEKVEIQMLSRIIVSIINKEFVKMDFLRIDKEDLITNVYLALCEVKKDLIHN;locus_tag=LOCUS_00520;note=MGA_52
sequence1	MetaGeneAnnotator	CDS	33559	33918	.	+	0	ID=MGA_53;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSNDKNEILKDDSLNNLSDKDKRAKQRKLKLETKIEKKASKVAIKLERKKEIKELFNKFEGHDGTQEGKVKAAKDKKIKKHKNKVDYKLTFKEAPVKFLKEINKIKWSSRQNLGTKFL;locus_tag=LOCUS_00530;note=MGA_53
sequence1	MetaGeneAnnotator	CDS	34126	34278	.	+	0	ID=MGA_54;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKIETSGLEDRIFDIRISKGPIVGSNNKVTEKNKFPGYLFINMNMTDET;locus_tag=LOCUS_00540;note=WP_011182988.1 transcription termination/antitermination protein NusG (Mesoplasma florum) [pid:54.2%25%2C q_cov:96.0%25%2C s_cov:23.0%25%2C Eval:5.8e-09%2C partial hit],internal stop codon at [34072:34074](+)%2C[34276:34278](+),MGA_54
sequence1	MetaGeneAnnotator	CDS	34345	34644	.	+	0	ID=MGA_55;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLTSEEVSRMLEQNNQSSKNKKNSKGNANQPKKEKILYEANFNSKDVVLVKEGPFVGTEGQVIEMDLEKGIAIVNIELFGRITPTEFEFSNLEIAYKG;locus_tag=LOCUS_00550;note=WP_003726896.1 transcription termination/antitermination protein NusG (Listeria) [pid:36.6%25%2C q_cov:93.9%25%2C s_cov:42.9%25%2C Eval:2.1e-08%2C partial hit],internal stop codon at [34276:34278](+),MGA_55
sequence1	MetaGeneAnnotator	CDS	34698	34943	.	+	0	ID=MGA_56;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKVKIVLEGNREINVDLFPQLAPISVENFVNLIKINFFDGLIFHRVIKNFMIQGGGMDLNLVEKGNLSPIKGEFLING;locus_tag=LOCUS_00560;note=WP_010966054.1 peptidylprolyl isomerase (Clostridium) [pid:50.6%25%2C q_cov:100.0%25%2C s_cov:46.0%25%2C Eval:4.4e-14%2C partial hit],internal stop codon at [34941:34943](+),MGA_56
sequence1	MetaGeneAnnotator	CDS	34989	35210	.	+	0	ID=MGA_57;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARTNIFDSATSQFFIVTGDAKFLDGQYAAFGKVNDQESMKVILEIENVETETKNFFDDVPKKPIIIKTINLI;locus_tag=LOCUS_00570;note=WP_011072524.1 peptidylprolyl isomerase (Shewanella oneidensis) [pid:44.4%25%2C q_cov:100.0%25%2C s_cov:48.2%25%2C Eval:1.3e-08%2C partial hit],internal stop codon at [34941:34943](+),MGA_57
sequence1	MetaGeneAnnotator	CDS	35311	35745	.	+	0	ID=MGA_58;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183506.1;translation=MAKRITRIAKLEFMAMQAKPGAELASLGINMPQFTQQFNEATKERAGEIVPVVITAYDDKSFDFVLKTTPAAFMLKKAVGIQKGSSKSGSEVIATITADEIKKIAEYKMEDLNANTIDAAMRIIEGSARNMGIKVTGMPEKEGK;locus_tag=LOCUS_00580;gene=rplK;note=WP_011183506.1 50S ribosomal protein L11 (Mesoplasma florum) [pid:75.0%25%2C q_cov:97.2%25%2C s_cov:98.6%25%2C Eval:9.8e-58],MGA_58
sequence1	MetaGeneAnnotator	CDS	35748	36071	.	+	0	ID=MGA_59;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKLSKKTKEVNKKVDKAKLYPVTEAIKLAKETSITKFDATVEIAFNLNVDPRHADQQIRGALVMPGGTGKTQRVLVLTKTKIKEAQEAGADFVGAEDLIQKIAKEN;locus_tag=LOCUS_00590;note=WP_011183505.1 50S ribosomal protein L1 (Mesoplasma) [pid:70.1%25%2C q_cov:100.0%25%2C s_cov:47.1%25%2C Eval:5.4e-36%2C partial hit],internal stop codon at [36069:36071](+),MGA_59
sequence1	MetaGeneAnnotator	CDS	36105	36434	.	+	0	ID=MGA_60;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMAELGKIGKVLGPKGLMPNPKTGTVTVDVTKALDEIKKGKVEYRTDKEGNIHSILGKVSFKEENLMKNFSAILDVIKKAKPAAVKGTYIKNISVSTTMGPGIKVLIEN;locus_tag=LOCUS_00600;note=WP_011167141.1 50S ribosomal protein L1 (Mycoplasma mycoides) [pid:73.3%25%2C q_cov:96.3%25%2C s_cov:46.5%25%2C Eval:3.6e-40%2C partial hit],internal stop codon at [36069:36071](+),MGA_60
sequence1	MetaGeneAnnotator	CDS	36516	36677	.	+	0	ID=MGA_61;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRAIIVSKNKEKIVELIEKENITKINNDEVIVKTLYCSLCHSDLTTASGILGD;locus_tag=LOCUS_00610;note=MGA_61
sequence1	MetaGeneAnnotator	CDS	36690	37541	.	+	0	ID=MGA_62;product=alcohol dehydrogenase AdhP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000649180.1;translation=MGHESVGEIIKLGNEVTNLKIGDIVAFPAGLHNACGKCYFCINEEEVFCENATFTSSRGYGTMQDECIEKASFCVKVPDGVNLAQACVITCAGLTVYKGLKIAQPKQGDFVAIYCIGGLGNIAIEYAKNIFKTKVIAIGSNKKSLEIAKEKGADYIINWKEENVDYAIKKITNNGVAVALVTSSTSDQFEMAYRNLKSVGKLIAIGLPKAKLEIDIIDLVLTAKQIIGTLVGTRKDLEESLDYFSKGLINPDLVVEPLIKAPEYFKLMEENKLHTRIVFDFNK;locus_tag=LOCUS_00620;gene=adhP;EC_number=1.1.1.1;note=WP_000649180.1 alcohol dehydrogenase AdhP (Streptococcus mitis) [pid:40.8%25%2C q_cov:99.3%25%2C s_cov:82.9%25%2C Eval:2.1e-55],internal stop codon at [36675:36677](+),MGA_62
sequence1	MetaGeneAnnotator	CDS	37583	37729	.	+	0	ID=MGA_63;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIYLNEIAKHFNIPEHVIRFYHKKGLIPYMKMDLNNYRYILEKDID;locus_tag=LOCUS_00630;note=WP_011183148.1 MerR family transcriptional regulator (Mesoplasma florum) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:40.7%25%2C Eval:2.6e-09%2C partial hit],internal stop codon at [37727:37729](+)%2C[37901:37903](+),MGA_63
sequence1	MetaGeneAnnotator	CDS	37763	37903	.	+	0	ID=MGA_64;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLKEIEKYIKLAEIGDTTVLERQNMIIVQKEIVNQKIKELEKQKN;locus_tag=LOCUS_00640;note=MGA_64
sequence1	MetaGeneAnnotator	CDS	38194	38802	.	+	0	ID=MGA_65;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVCNNGAVVYEKGVGAILNASIPMNLRTEIIELFEAIRNKYILGYCIKDQRRDYSKVSTKEIDNNEFLSKYAPKENNFEIGKNEILNSPDLNLLYFYINEDQVEEVKELLKNKLIGCKAVRTHKNVIEIMKEEVSKAQAIREIQKLKNFSLNDLLTSGDGENDIEMLSMTKNSFAMNGHQPGVEKHATFLINNVFEIKNKIN;locus_tag=LOCUS_00650;note=WP_170324993.1 Cof-type HAD-IIB family hydrolase (Clostridioides difficile) [pid:22.3%25%2C q_cov:89.1%25%2C s_cov:67.0%25%2C Eval:6.0e-07%2C partial hit],MGA_65
sequence1	MetaGeneAnnotator	CDS	39070	39420	.	+	0	ID=MGA_66;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVRKILLEKIDLLEGICGIKIATANDRLTLSGIEEKHKIENSFMFDFWYDVKNQYKELRNLIVEEKTLNNIAFYSYEENMEYIRSLFQNIPGIKILRTAHIVLKIMNEEVSKKLV;locus_tag=LOCUS_00660;note=MGA_66
sequence1	MetaGeneAnnotator	CDS	39662	40081	.	+	0	ID=MGA_67;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVSEIGLGCMGLSQSFPTEEEAINFLQEAYKRGVTFFDTAEIYGPFDNEEIVGKALKPFRDKVIIATKFGFEYDEVSKKSIGICSDPKYIKERIEGSLKRLQTDYINLYYQHRVDSQTPIEDVANLMKELIKSGKIRY;locus_tag=LOCUS_00670;note=WP_011183149.1 aldo/keto reductase (Mesoplasma florum) [pid:65.7%25%2C q_cov:98.6%25%2C s_cov:42.1%25%2C Eval:2.1e-46%2C partial hit],internal stop codon at [40079:40081](+),frameshifted%2C insertion/deletion at around 40168,MGA_67
sequence1	MetaGeneAnnotator	CDS	40240	40419	.	+	0	ID=MGA_68;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRGLLTGSISLNQEFAPDDFRSTISRFQNKDYLAANLKLADYVIELAKKKTLLLLSLH;locus_tag=LOCUS_00680;note=MGA_68
sequence1	MetaGeneAnnotator	CDS	40449	40604	.	+	0	ID=MGA_69;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIPGTKKISRLEENLSAGEIIFSQEELNEIKKELEKIELLGERYNETTMK;locus_tag=LOCUS_00690;note=WP_001172285.1 aldo/keto reductase (Escherichia) [pid:52.2%25%2C q_cov:90.2%25%2C s_cov:14.0%25%2C Eval:2.4e-07%2C partial hit],internal stop codon at [40424:40426](+),frameshifted%2C insertion/deletion at around 40168%2C40387,MGA_69
sequence1	MetaGeneAnnotator	CDS	40991	41491	.	+	0	ID=MGA_70;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183500.1;translation=MTNARPAHAKKSEIVKEISEKIKNSKGMVIAEYKKLTVAQMTSLRNKAREQGIFIKIYKDSLVRRAVEELKIQGLDAFLIQQNIYIFSEEEALLPAKLVADFAKKNPDLKLKAGIYEGNVMDTAAITEIALLPSKEDLYSMFASSLIYPLRQFMLTVKEIAKTRSE;locus_tag=LOCUS_00700;gene=rplJ;note=WP_011183500.1 50S ribosomal protein L10 (Mesoplasma florum) [pid:61.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-52],MGA_70
sequence1	MetaGeneAnnotator	CDS	41551	41919	.	+	0	ID=MGA_71;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183499.1;translation=MAITKDDIIKALEEMKLTELNDLVKSIEEYFGVVAAAAVAAPADGGGASAAPTEVSVMLTNPGGNKVSVIKLVKEMTGLGLMDAKKLVDGTLPVAIKENVKVEEAEEMKKQLVEAGASVDLK;locus_tag=LOCUS_00710;gene=rplL;note=WP_011183499.1 50S ribosomal protein L7/L12 (Mesoplasma) [pid:70.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-41],MGA_71
sequence1	MetaGeneAnnotator	CDS	42028	42318	.	+	0	ID=MGA_72;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLEYTYFYSFKNEQGIIKFQNKNGLYHFPQINNDKLIIGKFCAIADEVKFIMNGANHRINSFSTYSFEIFNKFSINEKILTQSVSKGDTIIGNDV;locus_tag=LOCUS_00720;note=WP_001181527.1 CatB-related O-acetyltransferase (Leptospira interrogans) [pid:50.0%25%2C q_cov:96.9%25%2C s_cov:41.3%25%2C Eval:1.7e-16%2C partial hit],internal stop codon at [42316:42318](+),frameshifted%2C insertion/deletion at around 42050,MGA_72
sequence1	MetaGeneAnnotator	CDS	42340	42501	.	+	0	ID=MGA_73;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGVKIGNGAIIATKSVVVNDVEPYTIVGGNSTKLIRKRFDQETINKLEKLKW;locus_tag=LOCUS_00730;note=WP_014205889.1 CatB-related O-acetyltransferase (Acinetobacter pittii) [pid:66.0%25%2C q_cov:94.3%25%2C s_cov:20.1%25%2C Eval:6.5e-13%2C partial hit],internal stop codon at [42316:42318](+),MGA_73
sequence1	MetaGeneAnnotator	CDS	42625	43137	.	+	0	ID=MGA_74;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAPNKKNNINDNADTRVKVNFFSKLIWYLFFILIIPIIIHIVNLNSIKRIEVKVNEAESGIDVQLKRRRDTLLKLMESVEGIINFEKETLTQITNMRMGGGVPEMIKNNKIMDKASRDFMIQVENYPNLKSSEVIQTMMDSINDIEENIAASRRIYNSNVSIFNQKIVA;locus_tag=LOCUS_00740;note=WP_010871101.1 LemA family protein (Methanocaldococcus jannaschii) [pid:39.3%25%2C q_cov:76.5%25%2C s_cov:71.4%25%2C Eval:1.7e-16%2C partial hit],internal stop codon at [43135:43137](+),MGA_74
sequence1	MetaGeneAnnotator	CDS	43937	44092	.	+	0	ID=MGA_75;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDRGTFIINGSEKVVVSQLVRSPGSYFKEEMNRKNGEMIYFADIIPSRGT;locus_tag=LOCUS_00750;note=WP_011167152.1 DNA-directed RNA polymerase subunit beta (Mycoplasma mycoides) [pid:82.4%25%2C q_cov:100.0%25%2C s_cov:4.0%25%2C Eval:1.0e-18%2C partial hit],internal stop codon at [43739:43741](+)%2C[44090:44092](+),MGA_75
sequence1	MetaGeneAnnotator	CDS	44210	45877	.	+	0	ID=MGA_76;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKDEILDLFDNNEVLTSSYEIDTLSGDLDIDFENQVQEIYKKIRQGETATPDGASKYLYGLLFDKRKYDLTKAGRFKLQQKLSVKNRLIGRVLAEDIVDVNGKIAFEKGTEITKDIHEEVERVLDNGAMIKKINFNDVIVSGKELQVVKVYKDNDLRDETATIIGITKNSKDEFINIPDIIASISYAINLMDGIGEIDDIDHLGNRRVRTVGELLQNQFRIGMMRIEKNVREKLATSNPFKMKPSSIINNKPLTAIIGEFFNLSQLSQFMDQTNPLAELTNKRRLTALGPGGLSRDRAALEVRDVHPSHYGRICPIETPEGPNIGLINNLSTYAKINEYGFIETPYRKVRNKQVILGKYEYLTADKEKEYVVAEANIKMSEDGTILDDQVIARYRGDDIMVNPADVDYVDVSPKQIVSIATSCIPFLENDDANRALMGANMQRQAVPLINPESPIVGTGVEFEAARDSGDAVVATQDGIVKYVDSKKITIEQKDGIKIYDLNDFSRSNNGTAITHLPIVKIGDKVKARDILADGPSMENGELALGQNVVVAFTT;locus_tag=LOCUS_00760;note=WP_011167152.1 DNA-directed RNA polymerase subunit beta (Mycoplasma mycoides) [pid:65.8%25%2C q_cov:100.0%25%2C s_cov:43.0%25%2C Eval:3.5e-216%2C partial hit],internal stop codon at [44090:44092](+)%2C[45875:45877](+),MGA_76
sequence1	MetaGeneAnnotator	CDS	46280	47194	.	+	0	ID=MGA_77;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPADILEIIKVYVVQKRKIQEGDKMAGRHGNKGVISKILPIEDMPHMEDGTPVDIMLNPQGVPSRMNIGQVLEIHLGMAAKKLGLKINTPVFEGVKEKELLEIMEEAGMDNYGKVILIDGKTGEPFDKPISVGVMYMLKLSHMVDDKLHTRNIGPYSLITQQPLGGKAQNGGQRFGEMEVWALEAYGAAYTLREILTIKSDDIKGRIKTYESIVRSKPIPKPGIPESFNVLTKEIMGLGFDMHMIDEEGNKVQINAYDDNDIDVDIENSLDDTAISFNVSDLEDFSETGEDDEIIFDDEIEEME;locus_tag=LOCUS_00770;note=WP_011167152.1 DNA-directed RNA polymerase subunit beta (Mycoplasma mycoides) [pid:83.8%25%2C q_cov:87.2%25%2C s_cov:20.5%25%2C Eval:4.2e-129%2C partial hit],MGA_77
sequence1	MetaGeneAnnotator	CDS	47322	47522	.	+	0	ID=MGA_78;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTEKEGLFDERIFGPTRNYECSCGKYKKVKNKGKICERCGVEITESIVRRERMGHIELEEPVTHI;locus_tag=LOCUS_00780;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:76.5%25%2C q_cov:100.0%25%2C s_cov:5.4%25%2C Eval:8.2e-24%2C partial hit],internal stop codon at [47274:47276](+)%2C[47520:47522](+)%2C[47757:47759](+),MGA_78
sequence1	MetaGeneAnnotator	CDS	47523	47759	.	+	0	ID=MGA_79;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKVAPSRIASILDLKTKEVEEVVYFVSYIVLDPGNSKYLKKGQVLDLGNAKATIKTRERLTKTLEDIKNNLDADTFA;locus_tag=LOCUS_00790;note=WP_011183495.1 DNA-directed RNA polymerase subunit beta' (Mesoplasma florum) [pid:63.2%25%2C q_cov:87.2%25%2C s_cov:5.3%25%2C Eval:2.1e-16%2C partial hit],internal stop codon at [47274:47276](+)%2C[47520:47522](+)%2C[47757:47759](+)%2C[48033:48035](+),MGA_79
sequence1	MetaGeneAnnotator	CDS	47814	48035	.	+	0	ID=MGA_80;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEAATFISRHINAKFGIGASAIEELLKGIDLDKEIGKIKEDLKEKKGSTEQNKMMKRLEVLDSLKKSNSRPE;locus_tag=LOCUS_00800;note=WP_011183495.1 DNA-directed RNA polymerase subunit beta' (Mesoplasma florum) [pid:56.2%25%2C q_cov:100.0%25%2C s_cov:5.8%25%2C Eval:8.3e-16%2C partial hit],internal stop codon at [47520:47522](+)%2C[47757:47759](+)%2C[48033:48035](+),MGA_80
sequence1	MetaGeneAnnotator	CDS	48036	48554	.	+	0	ID=MGA_81;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLHVIPVIPPDIRPIIQLDGGRFTTSEINDLYRRIIIRNERLKKVKLMGAPSIIVNNEKRMLQEAVDALLDNERKPRPVTGKDKRALKSLTSILKGKQGRFRQNLLGKRVDYSGRSVIAIGPDLKMYQAGIPRDMAITLFKPFVIRRLQEKNLAENVKVAEKMILTNDSKV;locus_tag=LOCUS_00810;note=WP_011183495.1 DNA-directed RNA polymerase subunit beta' (Mesoplasma florum) [pid:87.8%25%2C q_cov:100.0%25%2C s_cov:13.7%25%2C Eval:8.5e-80%2C partial hit],internal stop codon at [48033:48035](+)%2C[48552:48554](+),MGA_81
sequence1	MetaGeneAnnotator	CDS	48723	49106	.	+	0	ID=MGA_82;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIHLPISDEAVAEARALMLGSKAILGPKDGKPIVTPTQDMILGNYYITTEEKSSSSNVINGQATIFSSTEEVKIAYETDSVSLNAIVAIPVCELKNKMFEKADEDKFLITTVGKILFNQMFVEEFP;locus_tag=LOCUS_00820;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:53.5%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:1.7e-32%2C partial hit],internal stop codon at [48552:48554](+)%2C[49104:49106](+),MGA_82
sequence1	MetaGeneAnnotator	CDS	49290	49490	.	+	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDNMKDLGFKFSSKSGTTISAADVVAYTEKFEEFKVADERVAKITEFYNMGMLTKTEKKRRVINV;locus_tag=LOCUS_00830;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:72.7%25%2C q_cov:100.0%25%2C s_cov:5.3%25%2C Eval:3.4e-22%2C partial hit],internal stop codon at [49104:49106](+)%2C[49488:49490](+),MGA_83
sequence1	MetaGeneAnnotator	CDS	49566	50786	.	+	0	ID=MGA_84;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADSGARGNVSNFTQLVGMRGLMNDPKGDIKEIPIKSSFREGLTVSEYFISTHGARKGMADVALKTADSGYLTRRLVDISQEIIVTEDDCKATKGFEVHSIIETKHDNIIVPLKDRLVGRFTFEDVLDKSNNLIVEANTLISSKIADQIITAHIDEITIRTVLTCDTNRGVCRKCYGVNLATGQVVTLGEPVGVIAAQSIGEPGTQLTMRTFHTGGVAGGADITQGLPRIKELLDVTTPKGSIAIISQIDGVVKETKEEEGIITILVVSDQDERRYKSQYGAILRVHEGEHVTRGQKLTEGAINIKELLEVARLEDVQNYILKEVQKVYRLQGIEISDKYIEIIVKQMLNKVKIIDSGETDLLPGEIISSRTFRAEVKKAILAGKKPPLAKHVIFGIKKAPLESDS;locus_tag=LOCUS_00840;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:70.3%25%2C q_cov:100.0%25%2C s_cov:32.4%25%2C Eval:2.2e-166%2C partial hit],internal stop codon at [49488:49490](+)%2C[50784:50786](+),MGA_84
sequence1	MetaGeneAnnotator	CDS	51042	51467	.	+	0	ID=MGA_85;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862995.1;translation=MKIVIGNDHTAIEMKEKIVEHLKLKGFEIINVGTNNFASVDYPDFGKEVAKKVTKLNCFGIVICGSGIGISIAANKVKGARAALCYEDQTTQLARQHNNANILALGARIIAIEKAIHLVDIFLETEFEGGRHSNRVQKLNF;locus_tag=LOCUS_00850;gene=rpiB;EC_number=5.3.1.6;note=WP_020862995.1 ribose 5-phosphate isomerase B (Mycoplasma mycoides) [pid:59.3%25%2C q_cov:98.6%25%2C s_cov:95.2%25%2C Eval:2.8e-38],MGA_85
sequence1	MetaGeneAnnotator	CDS	51483	51926	.	+	0	ID=MGA_86;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFTVIKHPLILDKLTRMRKIETASKDFRENLNEISQLMVYEIFRDVPLQEIDIKTPVIEAKGYTIDMPVVLIPIIRAGLGMTEGIQRLVPTSRIAHVGLYRNEETLEPVQYFAKKTSDIEKSYVIVVDPMLATGGSASKAISIAKN;locus_tag=LOCUS_00860;note=WP_015545345.1 uracil phosphoribosyltransferase (Mycoplasma mycoides) [pid:74.7%25%2C q_cov:99.3%25%2C s_cov:70.5%25%2C Eval:3.5e-58%2C partial hit],internal stop codon at [51924:51926](+),MGA_86
sequence1	MetaGeneAnnotator	CDS	51987	52106	.	+	0	ID=MGA_87;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDHPDVEIYSASLDPILNEQGYIVPGLGDAGDRIFGTK;locus_tag=LOCUS_00870;note=WP_003699935.1 uracil phosphoribosyltransferase (Ligilactobacillus) [pid:86.1%25%2C q_cov:92.3%25%2C s_cov:17.2%25%2C Eval:4.2e-12%2C partial hit],internal stop codon at [51924:51926](+),MGA_87
sequence1	MetaGeneAnnotator	CDS	52251	52370	.	-	0	ID=MGA_88;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRVVKKNPNKYPKVQEKFIYFKLFKTDNINKTNKNNNK;locus_tag=LOCUS_00880;note=MGA_88
sequence1	MetaGeneAnnotator	CDS	52610	53197	.	+	0	ID=MGA_89;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLLADSGQTGMFDSLYSVTPQLLSILVTFIIICTFCIVYNVKIRNFKEDKQLTGFLVLTEIFISKVENMVITIMGKKHRKLTPYVMYLFMYIAISSIISLLGIESLSTSYTVTFSMGFVTFLGVYYYGLRYQKLAFFRRYLNPIELIAQFVPLISISFRLFGNILGGSIILGLLYAALINFQGNIFDGNRTTTA;locus_tag=LOCUS_00890;note=WP_011183006.1 F0F1 ATP synthase subunit A (Mesoplasma florum) [pid:51.1%25%2C q_cov:89.2%25%2C s_cov:61.3%25%2C Eval:4.6e-49%2C partial hit],internal stop codon at [53195:53197](+)%2C[53219:53221](+)%2C[53333:53335](+),frameshifted%2C insertion/deletion at around 53356,MGA_89
sequence1	MetaGeneAnnotator	CDS	53429	53761	.	+	0	ID=MGA_90;product=ATP synthase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183007.1;translation=MFTEMLTNAYLTIGGNFISLLPFYSIISQLLVDEDLKKGLGFLGAGLTGVGMIGASVGQGLVGYGACIAIGRNPETAPKITSTLIITAGFCESGAIYALVIAILLIFVAS;locus_tag=LOCUS_00900;note=WP_011183007.1 ATP synthase subunit C (Mesoplasma florum) [pid:46.8%25%2C q_cov:85.5%25%2C s_cov:84.6%25%2C Eval:5.2e-15],MGA_90
sequence1	MetaGeneAnnotator	CDS	53772	54305	.	+	0	ID=MGA_91;product=F0F1 ATP synthase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183008.1;translation=MLLFLAEGTAGIPNVVENLFPNLPNFIAHILSTVVIILLLSKLVYKPFRETIKERRRKINELLDEASSKQAIANKNNKEAVTFLDSAKEESKEIISVAKIEADKLKIGIIDDARKEATNIQLHAKQTIEFERKQAQDEIRKEVIDLAFSAAEKLIETNISKDKNQKMIEDFLNSLDK;locus_tag=LOCUS_00910;gene=atpF;EC_number=7.1.2.2;note=WP_011183008.1 F0F1 ATP synthase subunit B (Mesoplasma florum) [pid:46.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-42],MGA_91
sequence1	MetaGeneAnnotator	CDS	54483	54854	.	+	0	ID=MGA_92;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFIDLIFANKIEAELLNTLKLLVERNYFGSIIYILSEAIKKIYEQLEIQNGVIYSTQKLDDKLIKKIEKKIELKINQKIKLENKIDNNLLAGIRIEVLNKKYDFSLKGKIEDMKSIILTNRN;locus_tag=LOCUS_00920;note=MGA_92
sequence1	MetaGeneAnnotator	CDS	54865	55611	.	+	0	ID=MGA_93;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLKINEISEVIKKQIKQYGKDVIESEEGTVASIGDGVTLLFGLDKVMMGELLVFPNNIFGMALNLEDGAVGAVIIGDDSQIVQGDKVMRTGKVVETPVGDELLGRVLNGIGNPIDGNGPLNNKKFTAVEKIASGVMSRKSVNQPLETGILSIDSIIPIGKGQRELIIGDRQTGKTAIAIDAIINQIGKNVKCIYVAIGQKESTVAQVVEKLKQAGSMEYTTVISASASESAPMQYIAPYTGVSIAEE;locus_tag=LOCUS_00930;note=WP_011183010.1 F0F1 ATP synthase subunit alpha (Mesoplasma florum) [pid:71.8%25%2C q_cov:100.0%25%2C s_cov:47.2%25%2C Eval:1.0e-100%2C partial hit],internal stop codon at [55609:55611](+),MGA_93
sequence1	MetaGeneAnnotator	CDS	55612	56205	.	+	0	ID=MGA_94;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKGDDVLIIYDDLSKHAIAYRTLALLLRRPPGREAYPGDVFYLHSRLLERAARVNEKFGGGSITALPIIETQAGDISAYIPTNVISITDGQIFLSEQLFNSGIRPAVDTGLSVSRVGSSAQIKAVKQMGGTLKLELAQYYELQSFAKFGSDLDETTKATLDHGSKIVELLKQRQYKPISQIDQAIILLAIKDRLIK;locus_tag=LOCUS_00940;note=WP_011183010.1 F0F1 ATP synthase subunit alpha (Mesoplasma florum) [pid:81.7%25%2C q_cov:100.0%25%2C s_cov:37.5%25%2C Eval:1.8e-88%2C partial hit],internal stop codon at [55609:55611](+)%2C[56203:56205](+)%2C[56389:56391](+),MGA_94
sequence1	MetaGeneAnnotator	CDS	56221	56391	.	+	0	ID=MGA_95;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILFKESIIKHFNSDNKAMALRKLLETEKEFSSELEKDIKIELVKILKDITSKIKG;locus_tag=LOCUS_00950;note=MGA_95
sequence1	MetaGeneAnnotator	CDS	56438	56671	.	+	0	ID=MGA_96;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNLSELKIEISSIKDIGKITGAMELVATAKLKKISKRMENIQTYLNEVYDVFNYIISHSEDSIYLKKENKPIHNTL;locus_tag=LOCUS_00960;note=WP_011167039.1 ATP synthase F1 subunit gamma (Mycoplasma mycoides) [pid:50.6%25%2C q_cov:100.0%25%2C s_cov:27.5%25%2C Eval:7.7e-14%2C partial hit],internal stop codon at [56669:56671](+),MGA_96
sequence1	MetaGeneAnnotator	CDS	56984	57289	.	+	0	ID=MGA_97;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPITKKLGEESSFEDVTLEPDPETLLTTSVSMYLNTILFGTIIESLVSEHASRRMAMEAATKNGRDLSDSLTKLFNRKRQENITQEISEIVGGANAQNDN;locus_tag=LOCUS_00970;note=WP_011183011.1 ATP synthase F1 subunit gamma (Mesoplasma florum) [pid:55.7%25%2C q_cov:96.0%25%2C s_cov:34.5%25%2C Eval:5.2e-23%2C partial hit],MGA_97
sequence1	MetaGeneAnnotator	CDS	57305	58705	.	+	0	ID=MGA_98;product=F0F1 ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183012.1;translation=MQLKITEGKVVQVLGPVVDIKFNPNEMPTLYNIIELDNRGVKLVLEVVQHIGDDLVRTIAMGPTEGLVRGLIAKNTGKPISVPVGEKVLGRMFNVLGEPIDDKPPVTDSKFMPIHRLAPPFDELATSAEILETGIKVIDLMMPFSKGGKIGLFGGAGVGKTVLVQELINNVAKAHGGISVFAGVGERTREGNDLYYEMIDAGVIDKTSLVFGQMNEPPGARMRVALTGLTIAEYFRDEKNQDVLLFIDNIFRFTQAGSEVSALLGRMPSAVGYQPTLSTEMGALQERITSTQKGSITSVQAVYVPADDLTDPAPATTFTHLDARVVLDRTIASLGIYPAIDPLNSSSRMLDPEIVGEEHYQIALKVQEALQKYKELQSIIAILGMEELSEEDKIIVNRARKIRNFMSQPFTVGEKFTGRSGKYVTISDTIKSFKAILNGELDDVPEVLFMYAGSIDEVILKYKESK;locus_tag=LOCUS_00980;gene=atpD;EC_number=7.1.2.2;note=WP_011183012.1 F0F1 ATP synthase subunit beta (Mesoplasma florum) [pid:76.7%25%2C q_cov:98.5%25%2C s_cov:95.6%25%2C Eval:3.6e-203],MGA_98
sequence1	MetaGeneAnnotator	CDS	58705	58989	.	+	0	ID=MGA_99;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183013.1;translation=MERIKLKIITPEGIYIDDLDVDYVSVRTTAGQIAIYANHTPIVSTLIIGDMKYEREKDKKYIHLHRGIIQVSKKQVKILTQRLYEVDERGKKIK;locus_tag=LOCUS_00990;note=WP_011183013.1 hypothetical protein (Mesoplasma) [pid:41.1%25%2C q_cov:95.7%25%2C s_cov:90.9%25%2C Eval:7.0e-15],MGA_99
sequence1	MetaGeneAnnotator	CDS	59081	59569	.	-	0	ID=MGA_100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTISRIAVKLGYKVDIISNDKDTYQLVSKDVCIISQQSKKTKKEIITEKDVFEKFGCKPCQIPDMKSLLGDHSDNIKGVKGMHYNTAVKLITKYGCVENIFKNLNDFPYDHQKKLEQCKEQVLMNKKIAKILKNVDIGKINFRPLKINYIRFMGFLKREKM;locus_tag=LOCUS_01000;note=WP_011182952.1 5'-3' exonuclease (Mesoplasma florum) [pid:43.2%25%2C q_cov:100.0%25%2C s_cov:51.1%25%2C Eval:5.0e-36%2C partial hit],internal stop codon at [59081:59083](-)%2C[59603:59605](-)%2C[59714:59716](-),MGA_100
sequence1	MetaGeneAnnotator	CDS	59714	59923	.	-	0	ID=MGA_101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKRKVVIIDGYHLLHKGYYGSLKRKKIAINREGVLINAVYVFVANIYQMIQSNEYYTIIVTFDVGKEC;locus_tag=LOCUS_01010;note=WP_011182952.1 5'-3' exonuclease (Mesoplasma florum) [pid:67.6%25%2C q_cov:98.6%25%2C s_cov:21.5%25%2C Eval:2.6e-22%2C partial hit],internal stop codon at [59603:59605](-)%2C[59714:59716](-),MGA_101
sequence1	MetaGeneAnnotator	CDS	59940	60539	.	-	0	ID=MGA_102;product=YigZ family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164919770.1;translation=MVYLNVLENDFVLKDEKTIKKSKFITYIAKINNKKELIFFINQYKDPKASHNCYAFRYGRDKLNYGYNNDGEPKGTAGEPLLKLIEINNLTNIIIFVIRYFGGIKLGTGRLQKAYNNSAIEIIKNNNIKELKILLYIKISFNISNIKTIKMYFKKIDAKDILYEFNNETVFFSGKINNIKQLDPIISKIKVLETEKNYF;locus_tag=LOCUS_01020;note=WP_164919770.1 YigZ family protein (Mesoplasma florum) [pid:39.6%25%2C q_cov:84.9%25%2C s_cov:90.9%25%2C Eval:1.7e-30],MGA_102
sequence1	MetaGeneAnnotator	CDS	60680	62818	.	+	0	ID=MGA_103;product=preprotein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166299.1;translation=MARDKSIIKKHGKIADQIISLESEYEKLNDEQLKTKTSEFKERIANGESLDSILVEAFATVREAANRILGMKTYRVQLIGAIILHQGDIAEMKTGEGKTLTGLFPAYLNALSGLGVHVVTVNEYLSKRDSEINGQVYNLLGLTVGLNGRDLTKDAKRRAYAQDITYTTNSELGFDYLRDNMVYKFEQKVQRKLNYAIIDEADSILIDEARTPLIISGGSQNRINMYKAADSFAKTLNQMDHVEIDLESKQVYLSDKGIHKAQSYFSIDNLFDFRNTGVFHLIMNALKANFTFKKEVEYTVQDNEIILIDQFTGRTMPGRAYSDGLQQALQAKEGVSIEEETATLATITYQNFYRLYNKLSGMTGTAKTEEEEFIKIYNTRVICCPTNKPIIRVDEADLTFGTINAKLKKLIVDLKELNEIGRPVLIGTTSVESSEQVARYLENANLKFEMINAKNHHREAEIVEKAGNLGAITLATNMAGRGTDIKLTDETRKLGGLFVMGIERNEARRIDNQLRGRSGRQGDPGNSRFYISMEDELMVRFTAPKVREMFLKLGDDHIKSKMFTRAITNAQKKLEGLNFDQRKNVLDYDNILSQQREAMYSQRDGILQQEDLKVVLSRFHYTIAFEMVERNSELVRGEGTINLKSLIDSVDGQLIPKNSLSEDDLAGLEKGQIAKLISEKMMIFYLAKISDVPENVISELERRTILQAFDKH;locus_tag=LOCUS_01030;gene=secA;note=WP_011166299.1 preprotein translocase subunit SecA (Mycoplasma mycoides) [pid:69.5%25%2C q_cov:100.0%25%2C s_cov:75.4%25%2C Eval:3.0e-287],internal stop codon at [62816:62818](+),MGA_103
sequence1	MetaGeneAnnotator	CDS	62933	63085	.	+	0	ID=MGA_104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVAIAEESVEKLNNSFIKEVSQEYLNQSMDIGKRVINITDKDIDVILEE;locus_tag=LOCUS_01040;note=MGA_104
sequence1	MetaGeneAnnotator	CDS	63173	63580	.	+	0	ID=MGA_105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERLGYQFTVLDGLMKKLDEMFMAKNKQTLKVSQEGIDKIIAKFGLTQKLFTAEEVKLKFEELSKSADQSEINNLLIETQILLAIANQLKEQKSEFVITDKEGKVEKKFKTNDDGSISEDDIKDTEQVQTKIKIG;locus_tag=LOCUS_01050;note=MGA_105
sequence1	MetaGeneAnnotator	CDS	63714	64340	.	+	0	ID=MGA_106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEFKKFNLVTEFTPGGDQPKAIKDLIEGIKANKKHQVLMGATGTGKTFTMANIIKDLNKPTLVLAHNKTLAMQLYIELKELFPNNRVEYFVSNFDFYQPEAYIPSRDLYIDKDAKRNNDLEMMRLSAMNALMIRQDTIVVASVAAIYATQDPKEYGNVFFELNVGQILSKKQLLTFLIQTGYTRNETNLDMGCFSAKGDVIKIAPS;locus_tag=LOCUS_01060;note=WP_164919771.1 excinuclease ABC subunit UvrB (Mesoplasma florum) [pid:71.3%25%2C q_cov:97.1%25%2C s_cov:30.3%25%2C Eval:7.4e-80%2C partial hit],internal stop codon at [64338:64340](+),MGA_106
sequence1	MetaGeneAnnotator	CDS	64368	65699	.	+	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGDEIESLDLIDVLNNTVEERLHMFTIFPAAAYVTNFDKMKLVVENIEKELILRVKELEKEGKLIEADRLTKRTKYDMETLTEFGICSGIENYSAHLDFRPKGVPPFSLIDYFGDDFLTIIDESHMMIPQIRGMFNTDRSRKETLVAHGFRLPSALDNRPLNFEEFAGKLKNVIYTSATPGDYELNLVENKVVEQIIRPTGLIDPIIEIRGTMNQMNEIVQNVNQIVEKKQKVFITTLTIRASEDITTYLQSRSIKVAYLHSELKTLERNQILIDLRKGVYDVIVGVNLLREGLDIPEVSLVCILDADKQGFLRNTRSLIQTVGRAARNAEGRVIFYADSVSPAMKEAIEETDRRRNIQIEYNLKNNIIPKTITKKISDFGMDINIRNKIDELSKLNKKDKIKNKEKLIEDLRKQMLFAAKEQNYEKAAELRDLILEIQSEE;locus_tag=LOCUS_01070;note=WP_164919771.1 excinuclease ABC subunit UvrB (Mesoplasma florum) [pid:61.7%25%2C q_cov:100.0%25%2C s_cov:66.6%25%2C Eval:1.6e-157%2C partial hit],internal stop codon at [64338:64340](+),MGA_107
sequence1	MetaGeneAnnotator	CDS	65709	66683	.	+	0	ID=MGA_108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKIIVKGAREHNLKNVNIEIPKEKLIVFTGLSGSGKSSLAFNTIYAEGERRYIESLSSFSRQFLKSVEKPDVDEIEGLSPAISIDQKTTSHNPRSTVGTTTEIHDHLRLLFASIGTPVCINGHGQIKASSLKEIIETLKKETRDNEQIFILASLVRDKKGTHKEIFQKLKKENFLRVQVNGEIKNLEEEIILEQNKRHNIDIVVDRLIFKNEDEDLQSRIYSAIEIGLTYSNGLIKILYPNKNNTTKLFSTKYSCSECGFAIPNLEANLFSFNKKNGACETCSGLGVNLEADPALIIPDLSLSINSGGILYYKNLVDSQNIE;locus_tag=LOCUS_01080;note=WP_011182956.1 excinuclease ABC subunit UvrA (Mesoplasma florum) [pid:66.5%25%2C q_cov:100.0%25%2C s_cov:34.1%25%2C Eval:2.5e-122%2C partial hit],internal stop codon at [66681:66683](+)%2C[66774:66776](+),MGA_108
sequence1	MetaGeneAnnotator	CDS	66927	67394	.	+	0	ID=MGA_109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMSKVCKTCDGKRLNEIALSVKINDISIADFVEMTIEDEFNFLLNLKLTEQQEKIASLVLNQLLSRISFLNEVGLNYLTLSRSATTLSGGESQRIRLAKQLGSKLSGVLYVLDEPSIGLHQRDNDKLITTLKKLRDLGNTLIVVEHDEDTMKEAD;locus_tag=LOCUS_01090;note=WP_011167092.1 excinuclease ABC subunit UvrA (Mycoplasma mycoides) [pid:72.3%25%2C q_cov:100.0%25%2C s_cov:16.4%25%2C Eval:3.7e-59%2C partial hit],internal stop codon at [66681:66683](+)%2C[66774:66776](+)%2C[67392:67394](+),MGA_109
sequence1	MetaGeneAnnotator	CDS	67485	67757	.	+	0	ID=MGA_110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGKYLSKQLSIPIPKKRRGGNGLKIEIQQANENNLKNIDVTLPLGKFITITGVSGSGKSTLVEEIIYKGLRKELNKELIKPGKYKRIKG;locus_tag=LOCUS_01100;note=WP_011167092.1 excinuclease ABC subunit UvrA (Mycoplasma mycoides) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:9.5%25%2C Eval:1.9e-28%2C partial hit],internal stop codon at [67392:67394](+)%2C[67755:67757](+),MGA_110
sequence1	MetaGeneAnnotator	CDS	68091	68549	.	+	0	ID=MGA_111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVQEANLFFENIPKIKEKLETILAVGLGYIKLGQNATTLSGGEAQRVKLSTFLLKKSTGKTLFLLDEPTTGLHIDDVRRLIDVLNILVDQGNTVLTIEHNLDFIKVSDYIIDLGPEGGSGGGTILATGTPEQIIKVESSYTAKYLKEYLND;locus_tag=LOCUS_01110;note=WP_011167092.1 excinuclease ABC subunit UvrA (Mycoplasma mycoides) [pid:76.0%25%2C q_cov:98.7%25%2C s_cov:15.9%25%2C Eval:1.3e-61%2C partial hit],internal stop codon at [68076:68078](+),MGA_111
sequence1	MetaGeneAnnotator	CDS	68542	68880	.	+	0	ID=MGA_112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISVKDEIFEQKILFKKNYNLNKLLDSLKNPQDNFKVINVVGTNGKGSTSNFIFSGLKTKYEKVGLFTSPAFLYHNERIKFNNDYISDEDLKRILNDNKEIIKKFELTFFEI;locus_tag=LOCUS_01120;note=WP_011182957.1 Mur ligase family protein (Mesoplasma florum) [pid:56.2%25%2C q_cov:100.0%25%2C s_cov:30.4%25%2C Eval:1.6e-27%2C partial hit],internal stop codon at [68878:68880](+),MGA_112
sequence1	MetaGeneAnnotator	CDS	69274	69495	.	+	0	ID=MGA_113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRFTILKEKPFLILDGCHNMDGAKKLIKNIKNIKNIKIIFGSSLNKEQLKIIKILKKASKKIYLTEFEHPKS;locus_tag=LOCUS_01130;note=MGA_113
sequence1	MetaGeneAnnotator	CDS	69670	69858	.	+	0	ID=MGA_114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGISTLLILLISLSIENFSFKKISIRHLTIIALFASCSAIMTGLSYKIPPIFGNISIALGD;locus_tag=LOCUS_01140;note=MGA_114
sequence1	MetaGeneAnnotator	CDS	69931	70113	.	+	0	ID=MGA_115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVLLPSSYGYHAGYMFGKCLLGFFGALVYLTKSENKILLKIIILYSLSYIFQSLVLNQI;locus_tag=LOCUS_01150;note=MGA_115
sequence1	MetaGeneAnnotator	CDS	70368	70784	.	+	0	ID=MGA_116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISYYEIIENISKGDKNSNNALIAKNIVENFLKGVVLPQNELAIKCYLSKSSITKFCKKINLDGYRKLTYHLKNEIEKFLEHNNNIPKVEGISYCELYFYGIKEIIDNNIDFMQEIINKINEYRKITIVFSYSLFSYE;locus_tag=LOCUS_01160;note=MGA_116
sequence1	MetaGeneAnnotator	CDS	71562	71861	.	+	0	ID=MGA_117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAIVGVIQPAIALIIVGGMLVALYSLLSLDGGPLKSSIIDPNGATDLNGNSIMIAISMQTLYLFNIWDSLFFILANTIMPSIGIFFIYNVSRYFNSNS;locus_tag=LOCUS_01170;note=MGA_117
sequence1	MetaGeneAnnotator	CDS	72128	72454	.	+	0	ID=MGA_118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVALAIITKNMSLRKMAFATVPAGIFGITEPIIYGVNLPRVKPFIYGCVAASVRRFLIENLDLDMDIMGTFGILSILRFNDSAWSINPEFNHAINYSQGAEIGLVFLT;locus_tag=LOCUS_01180;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:59.6%25%2C q_cov:48.1%25%2C s_cov:6.1%25%2C Eval:1.4e-12%2C partial hit],internal stop codon at [72110:72112](+)%2C[72452:72454](+),MGA_118
sequence1	MetaGeneAnnotator	CDS	72683	73012	.	+	0	ID=MGA_119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLAIIEEKKSKIRNNIFKKLNQLKLKLQFKENEKLYNKFQILNNKYSTFGYDTEKNKLQNELTSVISDYKQNLNDFNNFKEEIILETKQILKKFKLNKNQSEQVQNIM;locus_tag=LOCUS_01190;note=MGA_119
sequence1	MetaGeneAnnotator	CDS	73342	73476	.	+	0	ID=MGA_120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLIKKGIDFYNNLINELIKYNIEPIITVYHFDPPLELEKQGG;locus_tag=LOCUS_01200;note=WP_211477783.1 glycoside hydrolase family 1 protein (Bacillus cereus) [pid:61.9%25%2C q_cov:95.5%25%2C s_cov:9.0%25%2C Eval:1.5e-09%2C partial hit],internal stop codon at [73119:73121](+)%2C[73317:73319](+)%2C[73474:73476](+)%2C[73558:73560](+),frameshifted%2C insertion/deletion at around 73358,MGA_120
sequence1	MetaGeneAnnotator	CDS	73582	73815	.	+	0	ID=MGA_121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIQVEHVLGMVDSKEKDIFKKLYQINHNMLIAQAMIMKIYHDMNLGGKIGSAPNISLVYSETCKPEDYDAAYKENA;locus_tag=LOCUS_01210;note=WP_010890696.1 glycoside hydrolase family 1 protein (Clostridium) [pid:54.5%25%2C q_cov:71.4%25%2C s_cov:11.7%25%2C Eval:2.3e-10%2C partial hit],internal stop codon at [73317:73319](+)%2C[73474:73476](+)%2C[73558:73560](+)%2C[73813:73815](+)%2C[73822:73824](+)%2C[73870:73872](+)%2C[74107:74109](+),frameshifted%2C insertion/deletion at around 74088%2C73361,MGA_121
sequence1	MetaGeneAnnotator	CDS	73879	74133	.	+	0	ID=MGA_122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKNGYDPEIREGDLEIMKLGKTDFIAFNYYNTFTVKASTKIDAIKFSASDQQTSYDIPEMFDISRNKYLKKHNLVEKYTHKVF;locus_tag=LOCUS_01220;note=WP_010890696.1 glycoside hydrolase family 1 protein (Clostridium) [pid:46.2%25%2C q_cov:77.4%25%2C s_cov:13.9%25%2C Eval:2.6e-09%2C partial hit],internal stop codon at [73813:73815](+)%2C[73822:73824](+)%2C[73870:73872](+)%2C[74107:74109](+)%2C[74152:74154](+)%2C[74326:74328](+),frameshifted%2C insertion/deletion at around 74088,MGA_122
sequence1	MetaGeneAnnotator	CDS	74166	74327	.	+	0	ID=MGA_123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLMVTENGLGAYDTLEKDGTMHNQYRIEYLREHIKYIREAINEGIDVIGYHP;locus_tag=LOCUS_01230;note=WP_009931832.1 glycoside hydrolase family 1 protein (Listeria monocytogenes) [pid:58.8%25%2C q_cov:96.2%25%2C s_cov:10.5%25%2C Eval:3.5e-14%2C partial hit],internal stop codon at [74107:74109](+)%2C[74152:74154](+)%2C[74326:74328](+)%2C[74449:74451](+),frameshifted%2C insertion/deletion at around 74100,MGA_123
sequence1	MetaGeneAnnotator	CDS	74658	75587	.	+	0	ID=MGA_124;product=HPr(Ser) kinase/phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182959.1;translation=MSKLYASKLIEQFNLEILSGKGKIKNLIEVYGINRAGLELTGFFEDGEKSHRIIVMSTKENSYVLNFSAEERREKYKKLFSQNIPLIIITQKFEDKIVIDVAKELNILLVKTKNNSTSDFTQNILEFMDDYFAPVIEIHASFISIFGKGVLLIGESGIGKSEITLDLLKANHLFVGDDRIVVTKKFNEIFGKSHEILKNLVEVRGIGIIDVSKTNGYQVILDKSKIDIVIELLKFKKDGIDYSERLGADFEKYELLGVQVPYLKIPVTSGRNIPNIIEAAVAKLKIKESGLYQDEATLLTERALKFNND;locus_tag=LOCUS_01240;gene=hprK;note=WP_011182959.1 HPr(Ser) kinase/phosphatase (Mesoplasma florum) [pid:53.6%25%2C q_cov:97.7%25%2C s_cov:98.1%25%2C Eval:3.4e-89],MGA_124
sequence1	MetaGeneAnnotator	CDS	75580	75852	.	+	0	ID=MGA_125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINFLSDIWVNGNPIPDYYDYGSGKYADPLSFLYSIFVLIGVFSVIITSAIRLHMRGIPLKEFLNGIYIALPLGVIGASIFGKLGSSGED;locus_tag=LOCUS_01250;note=WP_011167088.1 prolipoprotein diacylglyceryl transferase (Mycoplasma mycoides) [pid:52.9%25%2C q_cov:56.7%25%2C s_cov:9.7%25%2C Eval:7.4e-09%2C partial hit],internal stop codon at [75850:75852](+)%2C[75877:75879](+)%2C[75937:75939](+)%2C[75943:75945](+)%2C[76033:76035](+)%2C[76102:76104](+)%2C[76114:76116](+)%2C[76120:76122](+),MGA_125
sequence1	MetaGeneAnnotator	CDS	76480	76965	.	+	0	ID=MGA_126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENQQNYIYDQKIKRVKANEKFNQIKLKKHQEFEKIKLKFKKNKIGKEKYKEDIKILNDKYKNDLSKFRKNKSILISFLKRDSKKLYNLNNPNNYFVIHCGFLTGIYICAYTIIRFILDKFRNPYEISVKMNPLLNYLSLTGILIIGIIIMVCAQFIAPKK;locus_tag=LOCUS_01260;note=WP_011182960.1 prolipoprotein diacylglyceryl transferase (Mesoplasma florum) [pid:27.1%25%2C q_cov:100.0%25%2C s_cov:31.0%25%2C Eval:1.8e-09%2C partial hit],internal stop codon at [76231:76233](+)%2C[76270:76272](+)%2C[76288:76290](+)%2C[76432:76434](+)%2C[76438:76440](+)%2C[76963:76965](+)%2C[76978:76980](+),MGA_126
sequence1	MetaGeneAnnotator	CDS	76985	77920	.	+	0	ID=MGA_127;product=thioredoxin-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182961.1;translation=MKNLINNLDYDLIIAGAGPAGLSAAIYAGRAGLNVLVLEKEAPGGKVIKTGEIENYPGFTNIQGPDLAMHFFEQATSMGAKYEFSGLKSFEKKEIFYVLLENKKTITSKALIIATGTKENLLGVPGEIELYGKGVSYCAVCDGSFYKEKPVVVVGGGYSAIEESIFLTRFVSKVYLIHRRKDFRVDNKTLNKAKSIEKIEFILDSIVESIEGTNKVESVKIKNLLNNEIKKLEVNAIFPFIGQYPITNFISQNEILDENKNIIGDENMRTKIEGLFVAGDVRVTPFRQIATAVADGALAGQNAVNYIENLE;locus_tag=LOCUS_01270;gene=trxB;EC_number=1.8.1.9;note=WP_011182961.1 thioredoxin-disulfide reductase (Mesoplasma florum) [pid:51.0%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:4.0e-90],MGA_127
sequence1	MetaGeneAnnotator	CDS	79301	80248	.	+	0	ID=MGA_128;product=DNA-binding protein WhiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182963.1;translation=MSFSLEVKEEILNHTFTDKQKNMLISGFIKYNGDLIFGNDGAALRLTSNSNNIIRNIYSILKYVYKKNINISIIQTQNLSKKKIYQLLLIEDIMAFLKNYLIYDDEKLEKIVEIPLFQKNLKEKQSLIRAYVSGIFIAIGSVNSPDTTNYHLELQFKDEFSAIYFCEITNLFNFNFKIFRKKNTYMCYIKKSIEISDFLKFIDASRAVLKFETTRINRDFNNNINRMMNIDIYNQQKTLFAGAKQIEQINIIIQKGLFNELSEKAQLLATIRLENPDSSFSELEIILNDRNVKITKSGISNLFKIISRLAESIGV;locus_tag=LOCUS_01280;gene=whiA;note=WP_011182963.1 DNA-binding protein WhiA (Mesoplasma florum) [pid:48.2%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:1.1e-74],MGA_128
sequence1	MetaGeneAnnotator	CDS	80241	80477	.	+	0	ID=MGA_129;product=helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182964.1;translation=MYNIMKREKLITIFSSNMKNIRQRQELTQEELSFRCGLHRNYISDTERGKRNVTLKAIEKISSGLNVKVIELFKEIEK;locus_tag=LOCUS_01290;note=WP_011182964.1 helix-turn-helix transcriptional regulator (Mesoplasma) [pid:52.9%25%2C q_cov:89.7%25%2C s_cov:89.7%25%2C Eval:1.1e-15],MGA_129
sequence1	MetaGeneAnnotator	CDS	81025	81315	.	+	0	ID=MGA_130;product=preprotein translocase subunit SecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182965.1;translation=MLFLATASERELANQIIFGFEIVALIAAFLMIVVGLIQNKSSQTGLSALNGGNDELFSNSKERGTDKTMSIWMFSLGICLFIITIVIGIISNTVLK;locus_tag=LOCUS_01300;gene=secG;note=WP_011182965.1 preprotein translocase subunit SecG (Mesoplasma) [pid:56.6%25%2C q_cov:86.5%25%2C s_cov:94.3%25%2C Eval:1.4e-20],MGA_130
sequence1	MetaGeneAnnotator	CDS	81341	81484	.	+	0	ID=MGA_131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCMKDLIIKKLNIQNKIHFNELFKFFSKDYEKLTNCLKEMQEENIIA;locus_tag=LOCUS_01310;note=MGA_131
sequence1	MetaGeneAnnotator	CDS	81812	82501	.	+	0	ID=MGA_132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINAKDFKLEKDLILKVKILDVRDKKLFVKIQKIIGNSNKATDRILSIAYEYDIKSEFSKNVINNANEVAKPINYNEPLIKRRLNNLIKDKNLVTIDGEDSKDLDDAIYVEKTEKGYKLLVAIADVSYYVTPFSDLDNSALFRGNSVYLANKVIPMLPEKLSNEVCSLNPNEEKLCMVAEVEFDFNGAIINKRVYESIMISKARLTYKEVNELYKNNNSLIDKEIIDML;locus_tag=LOCUS_01320;note=WP_011183106.1 ribonuclease R (Mesoplasma florum) [pid:53.9%25%2C q_cov:94.3%25%2C s_cov:30.8%25%2C Eval:5.4e-61%2C partial hit],internal stop codon at [81788:81790](+)%2C[82499:82501](+)%2C[82766:82768](+),MGA_132
sequence1	MetaGeneAnnotator	CDS	82589	82768	.	+	0	ID=MGA_133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKDSNVIDIIKRERGISEKLIENFMVSANECVASLIFDKELPFIYRNHDDPKEKNLLE;locus_tag=LOCUS_01330;note=WP_011183106.1 ribonuclease R (Mesoplasma florum) [pid:63.8%25%2C q_cov:98.3%25%2C s_cov:8.2%25%2C Eval:2.4e-15%2C partial hit],internal stop codon at [82499:82501](+)%2C[82766:82768](+),MGA_133
sequence1	MetaGeneAnnotator	CDS	82814	83443	.	+	0	ID=MGA_134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKINPKTIKKALNQIENQISDETEREVINIILLKFMEKAAYELDNIGHFGLASDCYTHFTSPIRRYSDLIVHRYLKQYLIDKDLREFKLEQNKKFILKACSIINDTERNAVSAEREVNKVCMAEYMKSKLNQEYEGIIAAVLKFGVFVQLSNCVEGLIHISELPDFTFDEKTNILVNKQNKIFRLGQKVKIKVKNADVKKRIIDFTLK;locus_tag=LOCUS_01340;note=WP_011167012.1 ribonuclease R (Mycoplasma mycoides) [pid:59.7%25%2C q_cov:98.1%25%2C s_cov:29.3%25%2C Eval:1.6e-66%2C partial hit],internal stop codon at [82766:82768](+),MGA_134
sequence1	MetaGeneAnnotator	CDS	83635	83901	.	+	0	ID=MGA_135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKNYEFSHNIFLNPTRNRILLLNKKEIEKILKRVKLENLTIVPLKLYLKNNFAKLEIGLGKGKKLIDKRETIKKRDIERKLKKVYK;locus_tag=LOCUS_01350;note=WP_011183107.1 SsrA-binding protein SmpB (Mesoplasma florum) [pid:58.0%25%2C q_cov:98.9%25%2C s_cov:59.1%25%2C Eval:1.4e-20%2C partial hit],internal stop codon at [83521:83523](+),MGA_135
sequence1	Aragorn:1.2.38	tmRNA	84154	84565	.	+	.	ID=Aragorn_1;product=transfer-messenger RNA;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_tm00010;note=Aragorn_1
sequence1	MetaGeneAnnotator	CDS	84722	84901	.	-	0	ID=MGA_136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVNIPIDENIEIKNIEIQYRKVGSNTVSSRFFCSSLIKLIIKIEKHEKNPKTNPKNNS;locus_tag=LOCUS_01360;note=MGA_136
sequence1	MetaGeneAnnotator	CDS	85575	86555	.	+	0	ID=MGA_137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVNTKFKIKGYKISVKLKSICSYYGLHSNNLETLLDYNRYVEQNLVLNKDQNNVIVNPIEILNEQNKNKKIISLNEVANLNQFVTLFEPIFNLSINDFDSYFLNGLIDGVEINSDLFEEKFKLINDMGLTSLFLRFISLQALKKLSKQNKNILGKQIFLNYDSDFLSSTEFNVDEFILKLKTLKLDLSKLTFNFNLNKEVNDKVNLEKNIIKLKKYKIKISAFNFGSVDSDFTFLNIYKPEFIFLEADICKKINSIKENELIIKDCINISNKIEAKLIAINVDNYISYKKLKELGISLFTGELIGSSIEPKEIISEELKFLLSK;locus_tag=LOCUS_01370;note=MGA_137
sequence1	MetaGeneAnnotator	CDS	86571	86813	.	+	0	ID=MGA_138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDPKEAEELFIKIEKLINENNIKELRKLSEDHYPQDIADALEQLEDKQIILALRVFTTDISSEIFPFLDNEIQEEIITK;locus_tag=LOCUS_01380;note=MGA_138
sequence1	MetaGeneAnnotator	CDS	86883	87023	.	+	0	ID=MGA_139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSNIVKKILRASTPESRLQINEILKYNDETAGSIMNVDYTKLRTE;locus_tag=LOCUS_01390;note=MGA_139
sequence1	MetaGeneAnnotator	CDS	87180	87413	.	+	0	ID=MGA_140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDERVLYSYTTDDQEVVVELFKKYDITTLPIINNQQKLVGIVTVDDIIDVIEEEATEDIHKMAGINPIENEYFKTSI;locus_tag=LOCUS_01400;note=WP_011986205.1 magnesium transporter (Clostridium botulinum) [pid:40.3%25%2C q_cov:100.0%25%2C s_cov:17.3%25%2C Eval:2.5e-12%2C partial hit],internal stop codon at [87021:87023](+)%2C[87411:87413](+)%2C[87438:87440](+)%2C[87543:87545](+)%2C[87696:87698](+),MGA_140
sequence1	MetaGeneAnnotator	CDS	87561	87698	.	+	0	ID=MGA_141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTMLLTPLLTVISGTAGNAGSQSSTMVVRALSLKQVDTSDFAKVL;locus_tag=LOCUS_01410;note=MGA_141
sequence1	MetaGeneAnnotator	CDS	87800	88054	.	-	0	ID=MGA_142;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNFYFLVSFLTPIFYIKNINPTEKNTAVDNASTNVVNNGAAITAGSIFIFLATIGKLPPINFEHINAIYIAIDNVAIEYHNSI;locus_tag=LOCUS_01420;note=MGA_142
sequence1	MetaGeneAnnotator	CDS	88222	88389	.	+	0	ID=MGA_143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKEATVIGVALKKAITTKELELNNLLFLNSYAEKLQDILEPNCLDGIYLNFSDP;locus_tag=LOCUS_01430;note=WP_011183115.1 tRNA (guanosine(46)-N7)-methyltransferase TrmB (Mesoplasma florum) [pid:53.4%25%2C q_cov:100.0%25%2C s_cov:26.0%25%2C Eval:1.1e-09%2C partial hit],internal stop codon at [88048:88050](+)%2C[88387:88389](+)%2C[88447:88449](+),MGA_143
sequence1	MetaGeneAnnotator	CDS	88516	88677	.	+	0	ID=MGA_144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQIELSNFKLLEKTNDLYKNQRLLKDNVATEYEEKFHKMGKNINKIIIKKED;locus_tag=LOCUS_01440;note=MGA_144
sequence1	MetaGeneAnnotator	CDS	88674	88805	.	-	0	ID=MGA_145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINFIYIYLFIEITKYLIQNNNDFKKEYLEQYNKKEENLKLKD;locus_tag=LOCUS_01450;note=MGA_145
sequence1	MetaGeneAnnotator	CDS	89560	89691	.	+	0	ID=MGA_146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKLCLKGENNMKKLLSSLMAAAIVTSSAATVVACGGGSGEKI;locus_tag=LOCUS_01460;note=MGA_146
sequence1	MetaGeneAnnotator	CDS	89773	90285	.	+	0	ID=MGA_147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGIKREINKTEPQELTELEAAYENAKADGAQVLILPGFHHALEGQNKAADIMGESGSTIILDSTHAGKTNQIGVMFRGDVSGFYAAFSSLVQLAENKANVIKMATYGGTHNAGAVDNFMVGYLAAIEVFNKINSEDAYSEIKTSLGLDENLVTAERIQKEAPTADDDSK;locus_tag=LOCUS_01470;note=WP_011183565.1 xylose ABC transporter substrate-binding protein (Mesoplasma florum) [pid:42.1%25%2C q_cov:99.4%25%2C s_cov:38.1%25%2C Eval:2.7e-30%2C partial hit],internal stop codon at [89689:89691](+)%2C[90283:90285](+),MGA_147
sequence1	MetaGeneAnnotator	CDS	90361	90687	.	+	0	ID=MGA_148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVAGPQTKDTLDVISQKNASTMVIGVDTNQAQQYSDATYAGKFLTSAEKSLKDATIISLGHTKSFISEEGVQDKTLEYATNNNATFTIENSEGNFESYDLTKNKAET;locus_tag=LOCUS_01480;note=WP_011183565.1 xylose ABC transporter substrate-binding protein (Mesoplasma florum) [pid:42.9%25%2C q_cov:84.3%25%2C s_cov:21.9%25%2C Eval:7.1e-12%2C partial hit],internal stop codon at [90283:90285](+)%2C[90685:90687](+)%2C[90703:90705](+),MGA_148
sequence1	MetaGeneAnnotator	CDS	90706	90918	.	+	0	ID=MGA_149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGKASTGEGNLVTSENYSKVTSQISSEVLEKVSIELFKEIAKDSSAKNILSDETIINYANTILKAIENK;locus_tag=LOCUS_01490;note=MGA_149
sequence1	MetaGeneAnnotator	CDS	91020	91316	.	+	0	ID=MGA_150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNNIIEMKNITMIFNKKIIANENIDLEIKEGEIHALIGENGAGKSTLMSILFGIYNPTKGTIKIRNKEEVISNPIKANRLGIGMVHQHFKMVDIFPL;locus_tag=LOCUS_01500;note=WP_011183564.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:75.8%25%2C q_cov:96.9%25%2C s_cov:18.6%25%2C Eval:2.0e-38%2C partial hit],internal stop codon at [91314:91316](+),MGA_150
sequence1	MetaGeneAnnotator	CDS	91329	92087	.	+	0	ID=MGA_151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSEKRLGKMFIDSKTIKEDISNIMKKYNLNVDLNINAEHATVGMKQRAEILKILYQENDILVFDEPTAVLTLQEIDGFLEVLLELQKNGKTIILISHKMNEIKKVANRATVLRRGKAIGTYDLKNTSIDILSEAMVGRKLVEIKNNFTNKNKTKLLELRNISVHKKGYKKIQALKNISFEVKRGEIVAIAGVEGNGQLELAEAISGMTRPFQGEIFINEEDITKKGISQRFIKYKMSHIPEDRHKHGLALD;locus_tag=LOCUS_01510;note=WP_011183564.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:56.0%25%2C q_cov:100.0%25%2C s_cov:49.3%25%2C Eval:5.8e-75%2C partial hit],internal stop codon at [91314:91316](+)%2C[92085:92087](+),MGA_151
sequence1	MetaGeneAnnotator	CDS	92166	92549	.	+	0	ID=MGA_152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKHAQEIIEKFDVRNADFGFSIARQLSGGNQQKLIIGREMSRESDFYLIFQPTRGLDIGSIEFIHSEILKLKNENKGILLISYELSEIISLADRILVVNSGEIIGEIEGVNADRTVIGKMMMGVKN;locus_tag=LOCUS_01520;note=WP_011183564.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:70.7%25%2C q_cov:96.9%25%2C s_cov:24.1%25%2C Eval:8.5e-45%2C partial hit],internal stop codon at [92085:92087](+),MGA_152
sequence1	MetaGeneAnnotator	CDS	92582	92785	.	+	0	ID=MGA_153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFNAQLNSSETKKTASYFKASIISILIGIILTMILISFLGANPFEFFIKTFNVVFTRNINLQNALS;locus_tag=LOCUS_01530;note=MGA_153
sequence1	MetaGeneAnnotator	CDS	92801	93070	.	+	0	ID=MGA_154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGLGLAIGFKIGLFNMSGSGQAIISMGITGIMLIKLFGKQPDINSANGSIIFLILITMIFVSVLLSSITGILKVFFNIHEVATSILLN;locus_tag=LOCUS_01540;note=WP_011183563.1 ABC transporter permease (Mesoplasma florum) [pid:53.9%25%2C q_cov:100.0%25%2C s_cov:14.4%25%2C Eval:6.2e-16%2C partial hit],internal stop codon at [92783:92785](+)%2C[93068:93070](+)%2C[93077:93079](+)%2C[93092:93094](+)%2C[93113:93115](+)%2C[93146:93148](+)%2C[93170:93172](+),MGA_154
sequence1	MetaGeneAnnotator	CDS	93191	93373	.	+	0	ID=MGA_155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIVFVSVWLILTYTTIGYKFKLVGTQKDAAKYIGINYKKYIISATAIQGLCIGLGSFVY;locus_tag=LOCUS_01550;note=MGA_155
sequence1	MetaGeneAnnotator	CDS	93518	93889	.	+	0	ID=MGA_156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTAAIPSFSELGREISPLVFGFVVYSSTFVSLFIRFKPIEIIKFNIYYYYFDLKTRKIVQEKNIEIKKIKEEIKKIKNNNFNTDYQNLISLYNEVLQYKNNLQKMPKEISGKFLLEKNESILL;locus_tag=LOCUS_01560;note=MGA_156
sequence1	MetaGeneAnnotator	CDS	94368	94553	.	+	0	ID=MGA_157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVASLFQYTAEFFIILSLAALAGMISERAGVVNVAIEGFMTLGAFLISTFGSLTYSQNNN;locus_tag=LOCUS_01570;note=WP_011183562.1 ABC transporter permease (Mesoplasma florum) [pid:45.6%25%2C q_cov:93.4%25%2C s_cov:19.1%25%2C Eval:9.9e-09%2C partial hit],internal stop codon at [94551:94553](+)%2C[94566:94568](+)%2C[94749:94751](+),MGA_157
sequence1	MetaGeneAnnotator	CDS	94581	94751	.	+	0	ID=MGA_158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIGAVISLMHSFVSIKLKCDQIISGTAINLFMQGFALFMVTSGVIGGDKNFIDGK;locus_tag=LOCUS_01580;note=WP_010964024.1 ABC transporter permease (Clostridium) [pid:60.5%25%2C q_cov:67.9%25%2C s_cov:12.3%25%2C Eval:2.4e-07%2C partial hit],internal stop codon at [94551:94553](+)%2C[94566:94568](+)%2C[94749:94751](+),MGA_158
sequence1	MetaGeneAnnotator	CDS	96293	97102	.	+	0	ID=MGA_159;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002356180.1;translation=MKEIREVEKFLKSEFNEKIGIAIILGSGLSNLTMDLEIIKEIDFEKIPHFTKSNIIGHDSKIILAKYKEKIILALKGRFHFYEGYDISKVVLPVRVFALLGIKNLIVTNACGGISDYLNPGDIMLIEDQISMFCPSPLRGENINELGTRFPDMTEAYNKDLLEKTLDIASKNNILLKKGIYAFFQGPMYETPAEIRAYKNLGADAIGMSTVPEVIAANHANIKVLGISLITNKAAGLGGKLSHNEVLEIAQASENKLKELVKLIIEKVF;locus_tag=LOCUS_01590;EC_number=2.4.2.1;note=WP_002356180.1 purine-nucleoside phosphorylase (Enterococcus) [pid:47.1%25%2C q_cov:96.3%25%2C s_cov:95.2%25%2C Eval:6.8e-64],MGA_159
sequence1	MetaGeneAnnotator	CDS	97141	97845	.	+	0	ID=MGA_160;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183561.1;translation=MTPHISAQKNQIAKIVLMPGDPLRAKKIAETYLENPKLVSQVRNMLFYTGNYKGIEITVAGSGMGCPSIGIYSYELFKFYDVDYIIRIGSAGSYSENINVYDIYNVKEAFGESDFAKICAGVDSRILSSGKDLFEKIEEIAQKNEIKTFTGIAHSSDVFYRLENSVEFAKKNNLDVVEMESYALFATAIATNKQAACLLTISDSFITKEVTTAEERQNNFMKMVELALATAIEL;locus_tag=LOCUS_01600;gene=deoD;EC_number=2.4.2.1;note=WP_011183561.1 purine-nucleoside phosphorylase (Mesoplasma florum) [pid:70.8%25%2C q_cov:99.6%25%2C s_cov:99.1%25%2C Eval:4.2e-93],MGA_160
sequence1	MetaGeneAnnotator	CDS	97984	98151	.	+	0	ID=MGA_161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILAIESSCDEFSVSIMINGKIFSNIISSQIDDHAKYGGVIPELASRLHVKNFH;locus_tag=LOCUS_01610;note=WP_011166293.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Mycoplasma mycoides) [pid:74.5%25%2C q_cov:100.0%25%2C s_cov:17.2%25%2C Eval:2.5e-17%2C partial hit],internal stop codon at [98149:98151](+),MGA_161
sequence1	MetaGeneAnnotator	CDS	98155	98946	.	+	0	ID=MGA_162;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183382.1;translation=MSKALKESDVKLEEIDQIAYTSNPGLIGSLIIGKLVAQTIASYLNKPIMDLNHIQGHIYAANIDEKFDYPVLALVVSGGHTQIQYIKEPLNFEIIGTTQDDAVGECYDKVARVLGLEYPGGPKIDELAQIGNSSKYTLPIPKQDGSLDFSFSGLKTASLNLINKLKLNNQEININDFCASFQKTAIASLINKLEKAIIKYNPKTLTVVGGVSANKSLRIDFFSIGKKYNINKLILPNLSYCTDNAAMIAELCNQYLMKKINIK;locus_tag=LOCUS_01620;gene=tsaD;EC_number=2.3.1.234;note=WP_011183382.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Mesoplasma florum) [pid:60.2%25%2C q_cov:97.3%25%2C s_cov:80.8%25%2C Eval:1.5e-84],internal stop codon at [98149:98151](+),MGA_162
sequence1	MetaGeneAnnotator	CDS	98964	99353	.	+	0	ID=MGA_163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSFLSKLTTIDEKDLTIKEKKIVEYIKNNLKEIVDTNMKIERMAQEAGTGYSAIYGLLKKLNIKGFRDFAISLANDAENQEINVAKNDENVVAGYINIIKQNYALIEKRSIFDTLNVIKNANRIFFCY;locus_tag=LOCUS_01630;note=WP_011183381.1 MurR/RpiR family transcriptional regulator (Mesoplasma florum) [pid:59.7%25%2C q_cov:100.0%25%2C s_cov:49.6%25%2C Eval:6.3e-40%2C partial hit],internal stop codon at [99351:99353](+),MGA_163
sequence1	MetaGeneAnnotator	CDS	99891	100091	.	+	0	ID=MGA_164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFLKSNKNISFKNFFEENRSLFGNIKGDFPLLSKIITANDFLSVQVHPNDDYAIKKHNSFGKPES;locus_tag=LOCUS_01640;note=WP_011166679.1 class I mannose-6-phosphate isomerase (Mycoplasma mycoides) [pid:58.0%25%2C q_cov:100.0%25%2C s_cov:22.3%25%2C Eval:2.2e-16%2C partial hit],internal stop codon at [100089:100091](+)%2C[100185:100187](+)%2C[99801:99803](+)%2C[99864:99866](+),MGA_164
sequence1	MetaGeneAnnotator	CDS	100287	100499	.	+	0	ID=MGA_165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRSSDITYRLYDYDRVDNEGNARELHIKEIIDNISIPDSKDIIIKANKNLKFNCDFFSIEKIKVSQFLE;locus_tag=LOCUS_01650;note=WP_004454782.1 mannose-6-phosphate isomerase%2C class I (Clostridioides difficile) [pid:40.8%25%2C q_cov:91.4%25%2C s_cov:22.6%25%2C Eval:3.6e-08%2C partial hit],internal stop codon at [100089:100091](+)%2C[100185:100187](+)%2C[100497:100499](+),MGA_165
sequence1	MetaGeneAnnotator	CDS	100852	100986	.	+	0	ID=MGA_166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFYKRSELIVNNFEQIYAFTFKSRDGLNLSGFTYEVNPNSNK;locus_tag=LOCUS_01660;note=MGA_166
sequence1	MetaGeneAnnotator	CDS	101203	101718	.	+	0	ID=MGA_167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTSMGGFVVNFASLRYAKEFEKLNLKFIISDSTYVSVYSLILHTKNIYLKFLSKKRIKQIANKVIDKNNKYEDAFDFYDVNILKTIDKMKNPVFFPTLFFHSIDDKVTAVSDTYELIIKRKFQEDDHLIFNYCMHTQCMRIHFKIMNYKIAEFILKFNKDKTLFDKVVSD;locus_tag=LOCUS_01670;note=WP_011387583.1 prolyl oligopeptidase family serine peptidase (Mycoplasma capricolum) [pid:33.1%25%2C q_cov:99.4%25%2C s_cov:46.6%25%2C Eval:4.5e-17%2C partial hit],internal stop codon at [100984:100986](+)%2C[101002:101004](+)%2C[101023:101025](+)%2C[101164:101166](+),MGA_167
sequence1	MetaGeneAnnotator	CDS	101956	102162	.	-	0	ID=MGA_168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRPSNEFHSIAFLVLIQIIEGSLIEFNFAFGIANSSSKAVEISSSLFKKPLNKSSSFKTISNSKAFL;locus_tag=LOCUS_01680;note=MGA_168
sequence1	MetaGeneAnnotator	CDS	102167	102826	.	+	0	ID=MGA_169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIALIIPNNAVAQHLEILSKTAVKLMNDELRNKLKIAKTPKKFVDLLSYKKEEINLKINLNENKLKIIAVTSCVVGVAHTYMAEDKLLRELSKKGHNIRVETQGSKGVGTELTQQEIKEADIVIIIAADTKVDLSRFSGKRLYSTNVARTIKEPLKLLEDALKKGTIQEKIDFTNSRGTSKTKQGTLQHILAGILYMISIIILGGICLAFSLGIAKAI;locus_tag=LOCUS_01690;note=WP_009932214.1 fructose-specific PTS transporter subunit EIIC (Listeria monocytogenes) [pid:34.1%25%2C q_cov:96.8%25%2C s_cov:34.7%25%2C Eval:2.5e-28%2C partial hit],internal stop codon at [102137:102139](+)%2C[102824:102826](+),MGA_169
sequence1	MetaGeneAnnotator	CDS	102902	103141	.	+	0	ID=MGA_170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAILEMIGGASFTLMIPILSGFIGNSIAGRAALTPAMLGGFIGNSASNFMPMPGMENVQTPMGFIGAILTGLLVGYYVR;locus_tag=LOCUS_01700;note=WP_000609957.1 fructose-specific PTS transporter subunit EIIC (Vibrio cholerae) [pid:49.4%25%2C q_cov:97.5%25%2C s_cov:10.9%25%2C Eval:2.4e-12%2C partial hit],internal stop codon at [102824:102826](+)%2C[103139:103141](+)%2C[103151:103153](+),frameshifted%2C insertion/deletion at around 103255,MGA_170
sequence1	MetaGeneAnnotator	CDS	103267	103887	.	+	0	ID=MGA_171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKFSNFIENSYTNPNFEVGIALILGILICAMASFDMGGPINKIAFVTCSALITQKIYYPMGTMAAAIPVAPLGMGISALVFKRFFSQEERGMGTAAIIMGTIGISEGAIPFAIRDPKKAIICNVLGGMVAGAIAGAFKIEDFAAHGGPYCCIFRSRSLWFSNCNLFHFGGCRSCFNSIFIWFTFNSKSRKNRLCKRSTPKKYRKN;locus_tag=LOCUS_01710;note=WP_002456327.1 fructose-specific PTS transporter subunit EIIC (Staphylococcus) [pid:44.0%25%2C q_cov:67.5%25%2C s_cov:21.8%25%2C Eval:2.4e-27%2C partial hit],internal stop codon at [103139:103141](+)%2C[103151:103153](+),frameshifted%2C insertion/deletion at around 103255%2C103711,MGA_171
sequence1	MetaGeneAnnotator	CDS	104129	104356	.	+	0	ID=MGA_172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFKKNELKLKNELIQNLVKQKTEKISNLDKYQKKEYLSKFKNNIEKIKEKYNSNIINKNISLRKEFVNSYNNKF;locus_tag=LOCUS_01720;note=MGA_172
sequence1	MetaGeneAnnotator	CDS	104434	105132	.	+	0	ID=MGA_173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDIKEIFESYLKLVENQITFIGRVRSHRQSKVVSFLVLNDGTTINDIQVVYKNDIENYDLVSQGRVSSIFEVTGNLILTSGKPQPFEIQATKINLLDQSIEEYPLQKKEHSQEFLREIAHLRARTKTFQAIFKIRSSAAFAIHKFFQEKNFVYVNSPIITENDAEGAGEAFVVTTRTDGKYSQDFFGKKAALTVSGQLNAEAYAQAFKNVYTFGPTFRAENSYTSKHAAEF;locus_tag=LOCUS_01730;note=WP_011183378.1 asparagine--tRNA ligase (Mesoplasma florum) [pid:70.9%25%2C q_cov:99.1%25%2C s_cov:50.7%25%2C Eval:4.3e-90%2C partial hit],internal stop codon at [105130:105132](+),MGA_173
sequence1	MetaGeneAnnotator	CDS	105133	105654	.	+	0	ID=MGA_174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEPEMAFVDLSINLEVIEELIKYIVNYLFDNNIDELKFCNDNLEAGLIEKLNILRNSNFAVNSYEQVIEILKDAVKNGYVFEENNIEFGLDLGTEHERYICEVVNKKPTFVTNYPKEIKAFYMKQNSDNRTVAAADLLVPGIGELVGGSQREDNYEKLIKRSEEMGMNPKDL;locus_tag=LOCUS_01740;note=WP_011166290.1 asparagine--tRNA ligase (Mycoplasma mycoides) [pid:71.0%25%2C q_cov:97.7%25%2C s_cov:37.4%25%2C Eval:3.8e-67%2C partial hit],internal stop codon at [105130:105132](+)%2C[105652:105654](+)%2C[105655:105657](+),MGA_174
sequence1	MetaGeneAnnotator	CDS	105927	106073	.	+	0	ID=MGA_175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLISFVLVYQEFGNKVKETIDSIKKQTDNDYEIILVCDRTIEDNSKDE;locus_tag=LOCUS_01750;note=MGA_175
sequence1	MetaGeneAnnotator	CDS	107166	107345	.	+	0	ID=MGA_176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFHLKLVNIQNQKIKISNIFLRELYFLYIPLLFQLVCQIISIIIFANFSPGNNNQNENG;locus_tag=LOCUS_01760;note=MGA_176
sequence1	MetaGeneAnnotator	CDS	107400	107618	.	+	0	ID=MGA_177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIPLTIYLQKDKLSSIDLKLKLRVFFLEKILVKNQKVDIEGKKVNHIHLENDLPGNVNIKEIEKLIGENNE;locus_tag=LOCUS_01770;note=MGA_177
sequence1	MetaGeneAnnotator	CDS	107611	107958	.	+	0	ID=MGA_178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNFYNTNQKINELIEKKYFTGAVLKVAKHGEIIFENEYGINDVDKNTKMKDNLIFRAYSMTKPVTVVAALILVDRKIININDKVSKYLPEFENVLVLKEQNSKETENTKKDLRI;locus_tag=LOCUS_01780;note=WP_011167017.1 serine hydrolase domain-containing protein (Mycoplasma mycoides) [pid:45.1%25%2C q_cov:79.1%25%2C s_cov:28.1%25%2C Eval:1.4e-20%2C partial hit],internal stop codon at [107956:107958](+)%2C[108136:108138](+),MGA_178
sequence1	MetaGeneAnnotator	CDS	107971	108138	.	+	0	ID=MGA_179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSGITYAGNKNDTQLQTSFLLKEFHKKNNGKYMNYETFIKLLSKIPLSFNPGEN;locus_tag=LOCUS_01790;note=MGA_179
sequence1	MetaGeneAnnotator	CDS	108235	108552	.	+	0	ID=MGA_180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEMNDSDFYLKDKNREACVYNWTLNENDQVELTKVENFNFFIQDYEKVPPMPMGGAGLFTTAKDYLNFLNFLIDGKDKKQNQLLSMNLIRDMSSNQLGDLKKNFI;locus_tag=LOCUS_01800;note=WP_011167017.1 serine hydrolase domain-containing protein (Mycoplasma mycoides) [pid:51.9%25%2C q_cov:99.0%25%2C s_cov:32.4%25%2C Eval:1.1e-23%2C partial hit],internal stop codon at [107956:107958](+)%2C[108136:108138](+)%2C[108550:108552](+),MGA_180
sequence1	MetaGeneAnnotator	CDS	108823	109266	.	+	0	ID=MGA_181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDLLKQLNDEQLDSVITTDVPLIIIAGAGSGKTRVITYKIAYLIEKLNILPYKILAVTFTNKAAQEMKQRIGNILPNLESKPLISTFHSLCVRILREDGEYIGLEKNFTIIDSSDQFKIVRQIMKDLGIDIEKEKVERKIILKISK;locus_tag=LOCUS_01810;note=WP_011183464.1 UvrD-helicase domain-containing protein (Mesoplasma florum) [pid:58.5%25%2C q_cov:98.6%25%2C s_cov:20.3%25%2C Eval:8.7e-41%2C partial hit],internal stop codon at [109264:109266](+)%2C[109285:109287](+)%2C[109330:109332](+)%2C[109450:109452](+),MGA_181
sequence1	MetaGeneAnnotator	CDS	109657	109902	.	+	0	ID=MGA_182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNENYRSTKSILDLANNFIENNKNREKKDIFTKKDAGEMVYLKEAASRNFEAKYVALKIKELIKQKNYNYSDFFVLFRMNA;locus_tag=LOCUS_01820;note=WP_011183464.1 UvrD-helicase domain-containing protein (Mesoplasma florum) [pid:64.2%25%2C q_cov:100.0%25%2C s_cov:11.1%25%2C Eval:4.0e-23%2C partial hit],internal stop codon at [109450:109452](+)%2C[109588:109590](+)%2C[109900:109902](+),MGA_182
sequence1	MetaGeneAnnotator	CDS	110023	110979	.	+	0	ID=MGA_183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNDIALERVLAFTPKVGAVTIDKLFKAASENNVSLFDFLLYDQEKVLQISKNLKDLIFCLLKGRQLFEKNSKIVDIAQTLVAISGYNDRLDLKIKEDEEALQNLKAYYDKMEKFDFEYETEKNSENRLILFLQNEALTNVQDDLKSINKVALLTIHAAKGLENKIVFIVGLNKDVFPSKMSFNSIDQLEEERRAFYVAITRAQELLYISYVTGGYSYISNGELGASRFISELDPNLYEIEKNIYFHSLTEKSSSFKGNGSLLIKKQEKYEAGVVKGDKINHMMFGEGIVVKVVDKFISVAFSNPTYGVKSLPIKTNA;locus_tag=LOCUS_01830;note=WP_011166937.1 UvrD-helicase domain-containing protein (Mycoplasma mycoides) [pid:41.2%25%2C q_cov:100.0%25%2C s_cov:43.5%25%2C Eval:8.5e-67%2C partial hit],internal stop codon at [109900:109902](+),MGA_183
sequence1	MetaGeneAnnotator	CDS	110976	111347	.	+	0	ID=MGA_184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKNVKFFQKIYLNWKKSIVYKKDLYKIIMSRRNKNMTSFTAKVIDPVGLHARPASVLTKEASKFASEIKIKSGEKEGNLKSIMNVMALAVKSGAEITIEASGDDEKEAIAAIEQAMKDNSII;locus_tag=LOCUS_01840;note=WP_011166936.1 HPr family phosphocarrier protein (Mycoplasma mycoides) [pid:64.4%25%2C q_cov:70.7%25%2C s_cov:97.8%25%2C Eval:1.5e-25%2C partial hit],MGA_184
sequence1	MetaGeneAnnotator	CDS	111478	111966	.	+	0	ID=MGA_185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYKKEQINNLNNNIKKYFNHLYEIEDTDKMFFDGVSRMVMLDRYSQKDKNLISLQIGDLIITTVKADSVFPSRAIGYVKEIRENNNYLIEIEENYINSIDHELLKQTNSENLIIKQKYELEKPLELFFEQIAKRVGHNLAKVEKEELREEIGHKFAKELEN;locus_tag=LOCUS_01850;note=MGA_185
sequence1	MetaGeneAnnotator	CDS	112041	112205	.	+	0	ID=MGA_186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFIKDDRMGISSHRSQVTEIMSRGGGVGTNGSTLRPKGAPAKSVGGRSSEAVS;locus_tag=LOCUS_01860;note=MGA_186
sequence1	MetaGeneAnnotator	CDS	112709	113134	.	+	0	ID=MGA_187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKTWISFKKYKKIRAKDLGDLINFCATYLAEPGIFFLDAANDMKNAKSYGQKIVATNPCGEQPLAPYSVCNLSAINLSNFVNKDTKEILYDKLKNTVEVCVRMQDNVIDSTPYFLEENKKPALGERRVGLGVMGLHDLLI;locus_tag=LOCUS_01870;note=WP_012583735.1 vitamin B12-dependent ribonucleotide reductase (Dictyoglomus turgidum) [pid:47.0%25%2C q_cov:92.2%25%2C s_cov:17.5%25%2C Eval:5.0e-24%2C partial hit],internal stop codon at [113132:113134](+),frameshifted%2C insertion/deletion at around 113233,MGA_187
sequence1	MetaGeneAnnotator	CDS	113293	113499	.	+	0	ID=MGA_188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKMSKEIQDCIIKFGLRNSHLITVAPTGSTGTMVGCSTGLEPYFAFSYFRSGRLGKFMEVKAKIVED;locus_tag=LOCUS_01880;note=WP_003438236.1 adenosylcobalamin-dependent ribonucleoside-diphosphate reductase (Clostridioides difficile) [pid:45.1%25%2C q_cov:75.0%25%2C s_cov:7.0%25%2C Eval:2.8e-08%2C partial hit],internal stop codon at [113132:113134](+)%2C[113498:113500](+)%2C[113609:113611](+),frameshifted%2C insertion/deletion at around 113224,MGA_188
sequence1	MetaGeneAnnotator	CDS	113683	113964	.	+	0	ID=MGA_189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLYKGGAKGWTVYVDGSRDSQVLSLESTDTEEVIEEKLLPINEQDIPKKITKEQKIGNDVGYLCPMCTIGTLIESAGCITYANCGAQLKCGL;locus_tag=LOCUS_01890;note=MGA_189
sequence1	MetaGeneAnnotator	CDS	114732	115007	.	+	0	ID=MGA_190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKYFSLKLSFKDDEINFFNIVGKIYNYNFVPIEILNKDTFIELNKNIEKAQNKFISQEAFITIAFNGNEKQNIICTKENIGSQIGEEGCD;locus_tag=LOCUS_01900;note=MGA_190
sequence1	MetaGeneAnnotator	CDS	115346	115648	.	+	0	ID=MGA_191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYKIAVNILTIFLVFFIILSSIFIYKFFTFKNDVVNSENNSFLKVKVFNQDEIILEERKENVIGLSLLNVLKNDSRFVFSAQNFLKKILEIENANNFF;locus_tag=LOCUS_01910;note=MGA_191
sequence1	MetaGeneAnnotator	CDS	115740	115958	.	+	0	ID=MGA_192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILFLNSKNFSSNFRATFNITVLALYLVLVFISQIVLFFVPNVELVTLLIAYSVVIFKFGFSLSISLIFCFL;locus_tag=LOCUS_01920;note=MGA_192
sequence1	MetaGeneAnnotator	CDS	116269	116604	.	+	0	ID=MGA_193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIILELKNISKKINGKKILDNSSFKVNQGAIVGFLGNNGSGKTMLMKLIFGEIKKDFGEILYFGNSIFLNNFLQEISFFPDLNNINLNFTVKEYLFYIEKLLNKKCVTIF;locus_tag=LOCUS_01930;note=WP_002984437.1 ABC transporter ATP-binding protein (Streptococcus pyogenes) [pid:36.5%25%2C q_cov:86.5%25%2C s_cov:40.9%25%2C Eval:1.5e-09%2C partial hit],MGA_193
sequence1	MetaGeneAnnotator	CDS	116586	116801	.	+	0	ID=MGA_194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCNNFLTTHLIEELEDLINYLIVIDNGRIIYENHFDFKKQKIKNIYNKLINFNKIDMNKIESALKEIKNEN;locus_tag=LOCUS_01940;note=MGA_194
sequence1	MetaGeneAnnotator	CDS	117157	117525	.	+	0	ID=MGA_195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFSLMDNLPKDIYLTKLILPFAFYFLYDVFIFSIILFLIFIIHQIIVIFIPLLMSFLIILNPLIFNYKYFNNYEGKVEYELLKNQTILTAKIFLGKNFNNFIKKNYEYSFLNKEYLGFNIS;locus_tag=LOCUS_01950;note=MGA_195
sequence1	MetaGeneAnnotator	CDS	117760	118197	.	+	0	ID=MGA_196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCSISDFSIYLKNKNINHGLYNNLLIHISNSSILFQFLNEMNSVISFAPGTKGGLIFKYGHTDNKEVTLNSLTLNYKTSIQLVFNWYFLNLLRSSLNFDTQQLIAIKKQSEIMDKFKIQNNLNLFNHFSLLRMGENHLNKTLDDI;locus_tag=LOCUS_01960;note=MGA_196
sequence1	MetaGeneAnnotator	CDS	118467	118676	.	+	0	ID=MGA_197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRYLHIYCGEGKGKTSILNGTAIRAIGAGLKVKYIRFLKNRETSENKVLEKIGIKIENYYHFSKKFV;locus_tag=LOCUS_01970;note=WP_012546229.1 cob(I)yrinic acid a%2Cc-diamide adenosyltransferase (Thermodesulfovibrio) [pid:44.6%25%2C q_cov:81.2%25%2C s_cov:33.7%25%2C Eval:8.1e-08%2C partial hit],internal stop codon at [118674:118676](+),frameshifted%2C insertion/deletion at around 118700,MGA_197
sequence1	MetaGeneAnnotator	CDS	118696	118986	.	+	0	ID=MGA_198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYLKKETLKGYEKFTNLLQDDNVDLVLADEILGAIGNGFINKEEIIQVLLNRKQHIEVALSGRYSFKELNDIADLISEITPRKHYFEKGVISRRV;locus_tag=LOCUS_01980;note=WP_011015829.1 cob(I)yrinic acid a%2Cc-diamide adenosyltransferase (Fusobacterium nucleatum) [pid:39.6%25%2C q_cov:94.8%25%2C s_cov:52.6%25%2C Eval:1.9e-12%2C partial hit],internal stop codon at [118674:118676](+),frameshifted%2C insertion/deletion at around 118977%2C118700,MGA_198
sequence1	MetaGeneAnnotator	CDS	119786	119923	.	+	0	ID=MGA_199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNSLTDHEQVIYTNFAFMVAVHARSYGTIFSTLCSSQQIEEAHE;locus_tag=LOCUS_01990;note=WP_011183428.1 class 1b ribonucleoside-diphosphate reductase subunit beta (Mesoplasma florum) [pid:93.3%25%2C q_cov:100.0%25%2C s_cov:13.2%25%2C Eval:1.7e-18%2C partial hit],internal stop codon at [119582:119584](+)%2C[119618:119620](+)%2C[119642:119644](+)%2C[119684:119686](+)%2C[119705:119707](+)%2C[119921:119923](+),MGA_199
sequence1	MetaGeneAnnotator	CDS	120020	120511	.	+	0	ID=MGA_200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGFLLYGGFYLPFYLSARGKLPNTSDIIRLILRDKVIHNYYSGYKYQRKIEKLEPKKQEEMKKFVFDLLFELIDLEKDYLNELYAGFGLAEEAIKFSLYNAGKFLQNLGYDSPFTDEETRIEPEIFTQLSARADENHDFFSGNGSSYVMGVTEETQDEDWEF;locus_tag=LOCUS_02000;note=WP_011183428.1 class 1b ribonucleoside-diphosphate reductase subunit beta (Mesoplasma florum) [pid:85.3%25%2C q_cov:100.0%25%2C s_cov:47.9%25%2C Eval:3.4e-80%2C partial hit],internal stop codon at [119921:119923](+),MGA_200
sequence1	MetaGeneAnnotator	CDS	120499	120657	.	+	0	ID=MGA_201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVLIMHSDVIRVSREKILKPMGEIIVVYFSSPSNNTHRFIQKLEFENYRIP;locus_tag=LOCUS_02010;note=WP_011183427.1 class Ib ribonucleoside-diphosphate reductase assembly flavoprotein NrdI (Mesoplasma florum) [pid:68.1%25%2C q_cov:90.4%25%2C s_cov:31.1%25%2C Eval:3.6e-11%2C partial hit],internal stop codon at [120655:120657](+),MGA_201
sequence1	MetaGeneAnnotator	CDS	120980	122617	.	+	0	ID=MGA_202;product=class 1b ribonucleoside-diphosphate reductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183426.1;translation=MNEKNFSTLSGSEESDEYIKLNARSKLFVKDQDNFKLDIEAAQLYMKEHIVPNTKKFKDVKERINYLVENQYYDEKIVNQYNINEIEEITKIAYDYNFKFPSFMGALKFFNAYALKSFDGKQYLENYEDRVIMNALFLAGGNFLKAKKIMKQIITGRFQPATPTFLNAGKKQRGEYVSCYLLRVEDNMESIGRAVTTSLQLSKRGGGVALCLTNIREFGAPIKNIENQATGIVPIMKILEDSFSYANQLGQRQGAGAVYLHAHHPQILDFLDTKRENADEKIRIKSLSLGIVIPDITFELAKNNEQMALFSPYDVEKEYKKAFSDISVTEEYQNLLNNPKIKKTFIDARKLFQAIAELHFESGYPYLLFDDTVNNRNAHPGRIVMSNLCSEIVQVSTQSEFSSDLSFKKIGEDICCNLGSINIAKAMESGTEFEELIYNSILALDHVSRNSDLSSAPSIEQGNKKNHAVGLGAMNLHGFLATNFIYYNSSDAIDFTNMFFYTMAYYCFKASNKLAKEFSPFEGFSKTKFADGKYFEKYTKCEENK;locus_tag=LOCUS_02020;gene=nrdE;EC_number=1.17.4.1;note=WP_011183426.1 class 1b ribonucleoside-diphosphate reductase subunit alpha (Mesoplasma florum) [pid:73.5%25%2C q_cov:100.0%25%2C s_cov:75.9%25%2C Eval:1.8e-241],internal stop codon at [122615:122617](+)%2C[122687:122689](+),MGA_202
sequence1	MetaGeneAnnotator	CDS	122741	123139	.	+	0	ID=MGA_203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVAPTGSISYLSSCTPSLQPVVAPVEVRKEGMLGRVYVPAYNINFDNMGYYSLGAYEVGPDPIIDIAAAAQQHVDQAISLTLFMTDQVTTRDLNKAYIRAFKKGCASIYYVRVRQEVLEDSENYECDACVI;locus_tag=LOCUS_02030;note=WP_011183426.1 class 1b ribonucleoside-diphosphate reductase subunit alpha (Mesoplasma florum) [pid:88.6%25%2C q_cov:100.0%25%2C s_cov:18.3%25%2C Eval:2.6e-62%2C partial hit],internal stop codon at [122615:122617](+)%2C[122687:122689](+),MGA_203
sequence1	MetaGeneAnnotator	CDS	123248	123649	.	+	0	ID=MGA_204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEIKNISRKLGNFSLSNVTFTINDGAVVAFVGDNGAGKTTTIKALFGELKLDSGEILINGQNLFLNNNLKRIAFFPDSNNIPLNIKVHDYLVYICAANGFSKEETELNVDNAYRLLELRPYKDKKIKELSSG;locus_tag=LOCUS_02040;note=WP_002357699.1 ABC transporter ATP-binding protein (Enterococcus) [pid:34.3%25%2C q_cov:100.0%25%2C s_cov:44.5%25%2C Eval:1.9e-17%2C partial hit],internal stop codon at [123647:123649](+),MGA_204
sequence1	MetaGeneAnnotator	CDS	123665	123994	.	+	0	ID=MGA_205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASVLVRAPEYIIFDEPTANVDVESKLYFMDIIKLLSKAGITILITSHIIEELQEIANYLVLIKKGEIVHAQNFDNKKNHIMDIYKQHMKNPIKDLQILRWLYGNGENN;locus_tag=LOCUS_02050;note=WP_002990429.1 ABC transporter ATP-binding protein (Streptococcus pyogenes) [pid:31.8%25%2C q_cov:79.8%25%2C s_cov:28.7%25%2C Eval:7.1e-12%2C partial hit],MGA_205
sequence1	MetaGeneAnnotator	CDS	123994	124353	.	+	0	ID=MGA_206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVSLNLKDKSKDKSKGNKKELRNYFVLYGINLNLTFKNVGVVLSGLLFLLMAIIFFSLETFSAVKQNNLKNYSLYKNLSYIFLSGTIIFQVLLTSLYLFKRQFKNGITAIELRAGYKA;locus_tag=LOCUS_02060;note=MGA_206
sequence1	MetaGeneAnnotator	CDS	124426	125073	.	+	0	ID=MGA_207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFLNLISGANMEIFASLLYAQIFYLYFLSLISILIISALMIFFSTAISTSLGMVFICLVSLSPVFGSLKYIISSSGQTNYLANIKLKAGYDFYNNFKYDQNLFDDNAEKSETDLYEKSKTLSNISENIEKIINPLVDTGEFNFSNFFSYFDNKSYLSKVPLHLDSYDIGNETLNLVRIQNILTKNLTAGQILYNYNLYNHSSNDPIYIFEGNPI;locus_tag=LOCUS_02070;note=MGA_207
sequence1	MetaGeneAnnotator	CDS	125113	125349	.	+	0	ID=MGA_208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNYSSYNETKLPDIFSYTNYSNQNKLREFLNIKEIIEQLSAKIPEYKDLLKYIENFYKEYSLILASSTRNNNFYNSA;locus_tag=LOCUS_02080;note=MGA_208
sequence1	MetaGeneAnnotator	CDS	125461	125613	.	+	0	ID=MGA_209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCEKIIVNENGEKIVENICNEEVIDKNDKISKMYRKFPELAIINVLAINL;locus_tag=LOCUS_02090;note=MGA_209
sequence1	MetaGeneAnnotator	CDS	125623	126042	.	+	0	ID=MGA_210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFDIPNFNIVNNVNDINEGLYNYFNEGETSNTLTTDIFRHFSVMSSGVFTSPLINDSYNSQSSLIFQGQTIKIKNIFNFENQAPINKKEFQALEPVYKDKKFEYKNAFIIPLAYFIYLLLVSPLSYLSYFTFNRKSKL;locus_tag=LOCUS_02100;note=MGA_210
sequence1	MetaGeneAnnotator	CDS	126055	126456	.	+	0	ID=MGA_211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIELKKITRDLGGFVLNQVSFKIKKGSVVAFVGDNGAGKTTTIKALFGELRLEQGKILIEGESLFENENLKRIAFFPDSNNVPLNMKLKDYVSYLCAVNGMSKQEAKAKSEAVFKMLGLEKYINKKMKSLSAG;locus_tag=LOCUS_02110;note=WP_010868120.1 ABC transporter ATP-binding protein (Pyrococcus abyssi) [pid:31.4%25%2C q_cov:100.0%25%2C s_cov:44.6%25%2C Eval:2.4e-15%2C partial hit],internal stop codon at [126454:126456](+),MGA_211
sequence1	MetaGeneAnnotator	CDS	126472	126810	.	+	0	ID=MGA_212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASVLVRSPEYIVFDEPTANVDVEAKLSFMNILHELSRIGVTILITSHILEELQEVANYLVLIRDGEIVYEDDFDNKKQKIADVYSKVMAEKINNIKILKELYKNSALEKEE;locus_tag=LOCUS_02120;note=WP_003594351.1 ABC transporter ATP-binding protein (Lacticaseibacillus paracasei) [pid:36.7%25%2C q_cov:70.5%25%2C s_cov:26.8%25%2C Eval:6.1e-11%2C partial hit],internal stop codon at [126454:126456](+),MGA_212
sequence1	MetaGeneAnnotator	CDS	126815	127180	.	+	0	ID=MGA_213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNIEINQNESKINLNAEIKLQKKNGIRILYLINLKRIISNKGIIATSLVFLIIALIFNIICSSFLKRNDTVEIGIIVLSIGFFFELFTFVIFLTIASVDLIKKQMLDGIQHIETRSGIPM;locus_tag=LOCUS_02130;note=MGA_213
sequence1	MetaGeneAnnotator	CDS	127457	128038	.	+	0	ID=MGA_214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSSLFSPDEMQNSIYVMKKNLKLDITNSFYNSLKNDQNINEIFNDVGVNEKSLIFNKLNDKFIALNLTNFNLSELSYLSVKSNLNDTNFQSKKTLIKYSLYGGMPNISLNPYIEYLEENTNLAARMENETFLLEGIPIFNILNDIYNTVNANMKSDNNKPPVNKPGYIGGVIIQKNQYESKATLHDLKPIIE;locus_tag=LOCUS_02140;note=MGA_214
sequence1	MetaGeneAnnotator	CDS	128516	128677	.	+	0	ID=MGA_215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSNSPIMYSGLTSGYKNYLDLAKVDLRKNQNNNPLTPIFNEISLKRKFGSSP;locus_tag=LOCUS_02150;note=MGA_215
sequence1	MetaGeneAnnotator	CDS	128905	129618	.	+	0	ID=MGA_216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKLSGIGASNGISIAKVYILNEQPIVISNSNVSDVQKELEIIENSIIKAKKDLEGLQKIALEKLGEEKAAIFEAHASILEDPAMAEEFTALVKDKKYNAAKAIKEVADKYIVMFQSMDDAYFQERAADVKDVTERLIRYILNLPVADLATINEEVIIVAEDLTPSQTAQLNPKFVKGFACNIGGRTSHAAIMARSLEIPAVLGLKTILNSVKENDILAIDGESGEVEVNPKNKED;locus_tag=LOCUS_02160;note=WP_100609812.1 phosphoenolpyruvate--protein phosphotransferase (Entomoplasma freundtii) [pid:55.1%25%2C q_cov:99.6%25%2C s_cov:41.1%25%2C Eval:2.8e-68%2C partial hit],internal stop codon at [129616:129618](+),MGA_216
sequence1	MetaGeneAnnotator	CDS	129715	130398	.	+	0	ID=MGA_217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGNIGSPKDIESVLENGGEGIGLFRSEFLYMDNDHFPTEEEQFIAYKQVVEGMQGKLVIIRTLDIGGDKKLSYFKFPEEMNPFLGYRAIRFTMDRKDIFKDQIRALLRASAFGPVGIMFPMIATVDEFLAAKKFTLDCKADLEKDGHKIGKDLEIGMMVEIPAAAVNAENFAKHADFFSVGTNDLIQYTMAADRMSENVTYLYQPYNPSILKLLKMTIDGAHKHGK;locus_tag=LOCUS_02170;note=WP_011183417.1 phosphoenolpyruvate--protein phosphotransferase (Mesoplasma florum) [pid:75.3%25%2C q_cov:100.0%25%2C s_cov:39.6%25%2C Eval:2.9e-99%2C partial hit],internal stop codon at [129616:129618](+)%2C[130396:130398](+),MGA_217
sequence1	MetaGeneAnnotator	CDS	130405	130620	.	+	0	ID=MGA_218;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCGEMAGEPQAIPLLMGLGLDAYSMSATSILKARSIMSKLTMSETQELAKNALDCETAEQVLELVSNLLNK;locus_tag=LOCUS_02180;note=WP_100609812.1 phosphoenolpyruvate--protein phosphotransferase (Entomoplasma freundtii) [pid:67.6%25%2C q_cov:100.0%25%2C s_cov:12.4%25%2C Eval:4.6e-22%2C partial hit],internal stop codon at [130396:130398](+),MGA_218
sequence1	MetaGeneAnnotator	CDS	130703	131179	.	+	0	ID=MGA_219;product=glucose PTS transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166471.1;translation=MGLFTKNKSLEVYAPVDGEIIELSKVQDEVFAEKMLGDGFALVPENGIFHAPIDGKLVTVFPTGHAYGILNKNGVEILLHIGLDTVSLNGEGFDIKVKQDQSISQGDLLVNVDIDNVSKKVPSMQTPLIFTSDSMEGKSFELVKTGKVKQGELIALVK;locus_tag=LOCUS_02190;note=WP_011166471.1 glucose PTS transporter subunit IIA (Mycoplasma mycoides) [pid:59.9%25%2C q_cov:96.2%25%2C s_cov:97.4%25%2C Eval:4.1e-48],MGA_219
sequence1	MetaGeneAnnotator	CDS	131327	131536	.	+	0	ID=MGA_220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVNLMKNKNVKINDFRNKYFSLSVETEFKFNSLNYKADGLIFLTTVLIIPLAISIIATLFFNLKQTNS;locus_tag=LOCUS_02200;note=MGA_220
sequence1	MetaGeneAnnotator	CDS	131632	131913	.	-	0	ID=MGA_221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVEKNKVEIKISKTRPTTEIIKIEIFLNLNDSLILFKILLSYKKTNNKIIISVINCIKIDKKDKKVFESSTFIKEANRLTKIPIIFGPNAKK;locus_tag=LOCUS_02210;note=MGA_221
sequence1	MetaGeneAnnotator	CDS	132319	133212	.	+	0	ID=MGA_222;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084322414.1;translation=MTILKVNQNDVNQTIFNFVKKNFKSTKLSIIYKLFRKGKIKINDSKVKDMKLKIQINDIIKIFDSTESVKRDLFEKVNFDDLDIIYEDQNILIVDKNSNIEIHSHVNISVDQKVKSYLREKSEYVPEKENSFVVSHVHRLDKLTKGLVIYAKNKMTLDSLLFEINNKNKIEKFYLVKLPNLNLPEGKISGYIKYDSELQKSIFKEKEFKNSKIVFQENTIIDEKNCIYEIKLLTGRKHQIRAVCSYFKSPIEKDFRYGSIKTKEKVIELIAYKLVFNNFDNHLSYLNKCEFKSKYCF;locus_tag=LOCUS_02220;EC_number=5.4.99.-;note=WP_084322414.1 RluA family pseudouridine synthase (Mesoplasma) [pid:47.1%25%2C q_cov:96.6%25%2C s_cov:90.4%25%2C Eval:2.8e-69],MGA_222
sequence1	MetaGeneAnnotator	CDS	133974	134165	.	-	0	ID=MGA_223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFVIISFVFKATTKYRERDDETLSPSNIAAIAISVFNKRVGPIVEKKILLLVVFNLKLLKSL;locus_tag=LOCUS_02230;note=MGA_223
sequence1	MetaGeneAnnotator	CDS	134188	134667	.	+	0	ID=MGA_224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLVTKRGRIHWESYAKYELYTYLVAAFTFINMSILAPYFVSSLYGELASSSISNDDFASINALDFMFYTSKFSILYASIALLAILCDAQMTLIHAKGRYGEVSKFQNIVGVLYLLTAIFITFLIVTLKIGGEQNYLVTGIIVLFSLKLLFMFIRYIYL;locus_tag=LOCUS_02240;note=WP_011166933.1 hypothetical protein (Mycoplasma mycoides) [pid:29.7%25%2C q_cov:99.4%25%2C s_cov:23.2%25%2C Eval:1.9e-21%2C partial hit],internal stop codon at [133963:133965](+)%2C[134665:134667](+)%2C[134677:134679](+),MGA_224
sequence1	MetaGeneAnnotator	CDS	134691	135035	.	-	0	ID=MGA_225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTISSASIPYFLSLFFLASTDFFKNILLINGSLCIISFIIFGAHIYAKITKIISDKIIAPKNKAINGAIEAEADVDSLISNFLFITSTFNNIVKITGKNKIKKLLKIYFLFEL;locus_tag=LOCUS_02250;note=MGA_225
sequence1	MetaGeneAnnotator	CDS	134917	135162	.	+	0	ID=MGA_226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEIMQRLPLINKIFLKKSVEARKKRLKKYGIEAEDIVDNSNKITHLMIDIDEVEPIIELGTELKLDINSQNENIYIVKGK;locus_tag=LOCUS_02260;note=MGA_226
sequence1	MetaGeneAnnotator	CDS	135928	136125	.	+	0	ID=MGA_227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNYLINFWKTKKDFKYFFKIINLNDLLEVKVDNPNINYNNLLLISDKEVFGFESKLIVFSPKDE;locus_tag=LOCUS_02270;note=MGA_227
sequence1	MetaGeneAnnotator	CDS	136730	136900	.	+	0	ID=MGA_228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLKTKYNRFSRALYNFKKGNYRNPYLALALTKPEIVTIGDNFNDFELLKINDQQK;locus_tag=LOCUS_02280;note=MGA_228
sequence1	MetaGeneAnnotator	CDS	137300	137563	.	+	0	ID=MGA_229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNMNADIELTMANYVIEYFLNTNVETIINDSNENNEEIIKFIIKTERRKYYNKNLKNHLDTFLKTNEKILNLFGKNFIDIIGTIIN;locus_tag=LOCUS_02290;note=MGA_229
sequence1	MetaGeneAnnotator	CDS	137563	137952	.	+	0	ID=MGA_230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLYSEIYIKRKNEKVLFKNLLHDIYEKFKKDYSRNIFDEDIKLFSKKLFENNLINILGLTTTAKQKINFNEFKKELFIDYPINYQIMDEVSKSSTIDVINTVLLSHKIMLAGDYKQLTLIYELNRKKY;locus_tag=LOCUS_02300;note=MGA_230
sequence1	MetaGeneAnnotator	CDS	138147	138302	.	+	0	ID=MGA_231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIVNEVYDKNEKLKVPNNYNEKKFRKYNLNYNNDVIFLDTSFISKNFYDF;locus_tag=LOCUS_02310;note=MGA_231
sequence1	MetaGeneAnnotator	CDS	138504	138683	.	+	0	ID=MGA_232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTSQKAIIKQFLKIFKISEKIINKIKIDTVDNFQGREKRIIIVDLIKAKNSLKEKGEL;locus_tag=LOCUS_02320;note=MGA_232
sequence1	MetaGeneAnnotator	CDS	138877	139167	.	+	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDINISIDYPIPYTLNKLKYEVSSYIPLKLIQSIFLSIIICESEFRDDLKIFDKVSEVIEKILKIKSKNLLLIREELQELLDTSTVINKSNEKIF;locus_tag=LOCUS_02330;note=MGA_233
sequence1	MetaGeneAnnotator	CDS	139236	139478	.	+	0	ID=MGA_234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFQKKKHEKSIIFFKPFFPSFEIKDKLLLLNSNELKTKYIKKINLINSNELTAIIDGEKFLYLSEESGVVNSLLEETKIV;locus_tag=LOCUS_02340;note=MGA_234
sequence1	MetaGeneAnnotator	CDS	139564	140139	.	+	0	ID=MGA_235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKLLKNCFDLVVNKIDVNDIVFHETDFNSELKELTFDEIKYELINNKFLNDLNYQIVKYKLSFKNKIEDYFYYNGGLLKLDLEKFIFSNLEKIDFELFNLIKNNNLLKILKKHIIQNMHIKKFEDIIIKNFGKFNLSYEEFLKLASKLSYEDIEYYCFTNKIIFSNKENVYKLMKILSYTEEKIYTLIK;locus_tag=LOCUS_02350;note=MGA_235
sequence1	MetaGeneAnnotator	CDS	140280	140522	.	+	0	ID=MGA_236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNYHPIQDKTLENEIKKINSMKYLKSNFSIEEFIKLIDISFINLKNFIFSKLNDKNLDLEKAIKKLNISVRGKKDILQI;locus_tag=LOCUS_02360;note=MGA_236
sequence1	MetaGeneAnnotator	CDS	140660	140821	.	+	0	ID=MGA_237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHTAIVIVGICTKVERIILEDLNNNLEEILKNKKITENLSMKINELKFQILY;locus_tag=LOCUS_02370;note=MGA_237
sequence1	MetaGeneAnnotator	CDS	140833	140970	.	+	0	ID=MGA_238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSNFEMLSTENENFTKNINLKIDQITKKIVNLNELLDYHKVFLI;locus_tag=LOCUS_02380;note=MGA_238
sequence1	MetaGeneAnnotator	CDS	141102	141419	.	+	0	ID=MGA_239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQNYSNLNLIEKCKSEILEKLANEKISNEYKLAIANLVNTFTTMQEISDYEIYLKSLKQNEVRTKFLVENQIVALKEMKFELKSVKNLIMEEKGNQLKLIFKKG;locus_tag=LOCUS_02390;note=MGA_239
sequence1	MetaGeneAnnotator	CDS	141446	141655	.	+	0	ID=MGA_240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIILDLGGTFEYEMGNYQGHLCFEDSDKLKTLLMKKGIHYSSLKITRTTSEARPLLKTAKILERKNNK;locus_tag=LOCUS_02400;note=MGA_240
sequence1	MetaGeneAnnotator	CDS	141655	142242	.	+	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLEQLKIKFQQKNILIVTGNVYDTYISDKNVESLIKNLDAYISKYSIEAGYTSVLKYSPSKKIIPLIGHYSQENQENSDYEINNDYSIIDFIEQVYKEISDKENVRRVYIMDFSNIYFNSNNNIEILVKIAELLSALLEEKISSPYEVSMLKKQSKLILIARDGVHIFGDITEKNIEYASINIKKPNIEERQ;locus_tag=LOCUS_02410;note=MGA_241
sequence1	MetaGeneAnnotator	CDS	142582	142902	.	+	0	ID=MGA_242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHSENLTKPKGILFFAGPTGTEKTELSKAIAKFIFKDETKLIRFDMSEYSAEHSEPRLIGAPPGYIGYDNGGELTNSVKEKFFSILLFDKVEKANAKILDKFFTNT;locus_tag=LOCUS_02420;note=WP_010895630.1 AAA family ATPase (Pseudomonas aeruginosa) [pid:63.2%25%2C q_cov:89.6%25%2C s_cov:15.2%25%2C Eval:1.6e-32%2C partial hit],frameshifted%2C insertion/deletion at around 142884,MGA_242
sequence1	MetaGeneAnnotator	CDS	142988	143293	.	+	0	ID=MGA_243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSSSNNQEITRKNFIRAVEDHFTNNLKRPELLNRIGIKNIVPFNFINDKKIIKKITLNKLDRLFDYIYKKHNIKVILSNEELIMELISAYYDSKMEEGVL;locus_tag=LOCUS_02430;note=MGA_243
sequence1	MetaGeneAnnotator	CDS	143526	143804	.	+	0	ID=MGA_244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSISIIVPIAVCALYLFTFYTSGSILIELFKFKIKNSFVAIATGFFTFFTFISICTFPLQLIPGLPYVFYIYYIFAISIIYLVFSFIFMRF;locus_tag=LOCUS_02440;note=MGA_244
sequence1	MetaGeneAnnotator	CDS	144054	144245	.	+	0	ID=MGA_245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGAETYQYQNMLVPFMLIIDAFLAASIFLTIMESLSNIKFVKNKAFLFFTSLVFFSATRIIL;locus_tag=LOCUS_02450;note=MGA_245
sequence1	MetaGeneAnnotator	CDS	144492	144824	.	+	0	ID=MGA_246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGLFPLIDFLFYNIILQLYFQVILFGALLLFMFFVSYLMSKKYSAITKFELFLEQRSIFAILIVPIILIIISIAIALGLNQNFISEEYNTLNFLYIWYSFIKNEIARQ;locus_tag=LOCUS_02460;note=MGA_246
sequence1	MetaGeneAnnotator	CDS	144843	145145	.	+	0	ID=MGA_247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILALAFAWVIFRKNLRSNILTSAVDLTLISYLTFYNPIVMNFIRYIYSNMIVSNELAIISLVICLTNSLPFYIFNKIDNKKVNPLEIKIIKKYSRLKI;locus_tag=LOCUS_02470;note=MGA_247
sequence1	MetaGeneAnnotator	CDS	145155	146063	.	+	0	ID=MGA_248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKVKIEIEKLKIKLNEWGNAYYVLDKPLVEDSEYDRLLNKLKILEDQFPELITEDSPTQRVGGKVLDKFEKYKHKTAMLSLSNAFNKEDLLNFNDQIHKEIENLNYTFFVEPKIDGLSISIIYKNGILFKAVTRGDGVFGEDVTSNVKTIKSIPLIIPDKSDYFEIRGEVFLSKTEFEKINYQRQENDENLFANPRNAAAGTLRQLDSSIAASRKLDAFLYYFMNRELYDTHEKSLEYLKSLNFKINNLSKICKNIEDVYKHIQYIQSVRENLDYEIDGAVIKVNEFDFYEKVGYTSKYPK;locus_tag=LOCUS_02480;note=WP_011183057.1 NAD-dependent DNA ligase LigA (Mesoplasma florum) [pid:57.8%25%2C q_cov:97.7%25%2C s_cov:44.3%25%2C Eval:9.5e-89%2C partial hit],internal stop codon at [146061:146063](+)%2C[146340:146342](+),MGA_248
sequence1	MetaGeneAnnotator	CDS	146178	146342	.	+	0	ID=MGA_249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGTTVQAATLHNADFIIQRDIRVNGDVKVKKAGDIIPEIIEAVKNDRFKLLRK;locus_tag=LOCUS_02490;note=WP_011183057.1 NAD-dependent DNA ligase LigA (Mesoplasma florum) [pid:61.5%25%2C q_cov:96.3%25%2C s_cov:7.8%25%2C Eval:6.5e-13%2C partial hit],internal stop codon at [146061:146063](+)%2C[146340:146342](+),MGA_249
sequence1	MetaGeneAnnotator	CDS	146478	146828	.	+	0	ID=MGA_250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIEGLSIKIIEKLFENNFISNIADIYSLKLHKNQLINLEKMGEKSVSNLLNAIEISKQNSLEKLFFGLGIRHVGKKTAKIISLNFKNIDNIFKLSFEELENIYDIGPIVAKSICD;locus_tag=LOCUS_02500;note=WP_011183057.1 NAD-dependent DNA ligase LigA (Mesoplasma florum) [pid:52.2%25%2C q_cov:99.1%25%2C s_cov:17.3%25%2C Eval:2.7e-27%2C partial hit],internal stop codon at [146340:146342](+)%2C[146826:146828](+),MGA_250
sequence1	MetaGeneAnnotator	CDS	146994	147149	.	+	0	ID=MGA_251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEYGAKIIDTVSKKTDFLLAGEEAGSKLDKAQKLGIKIITEIEFNGMIGE;locus_tag=LOCUS_02510;note=WP_010965961.1 NAD-dependent DNA ligase LigA (Clostridium acetobutylicum) [pid:57.1%25%2C q_cov:96.1%25%2C s_cov:7.3%25%2C Eval:1.5e-09%2C partial hit],internal stop codon at [146826:146828](+),MGA_251
sequence1	MetaGeneAnnotator	CDS	147151	147441	.	+	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINIELIKALEQDAMLDLSDEELNKILKFENDILEKFEKVFSINTDNVKELYYPFEIYNTYLREDDNTSVISKEAILSNAIDSDEDFIVIAKVVK;locus_tag=LOCUS_02520;note=MGA_252
sequence1	MetaGeneAnnotator	CDS	147443	147646	.	+	0	ID=MGA_253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKNITIRELHDKLVNKEISPKELIKSTIENAKKHLGSNFLITLCEKEAIENVEKFSSKIDEKNFL;locus_tag=LOCUS_02530;note=MGA_253
sequence1	MetaGeneAnnotator	CDS	147692	148906	.	+	0	ID=MGA_254;product=amidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183059.1;translation=MTTSGSKILSNYYPPFDATITEILNEKNSVMIGKTALDELGMGGTGLFSFNGEVRNPYDNERLIGGSSSGSTYAVCEGIVPFSIGTDTGDSIRKPASFAGIVGFKPTYGSISRYGVAPYAPSLDHVGFFTNNIEDMAVICDSTFKYDLKDFTSIDNSIKFLDNLNNKKKVKFGFIKHVEKFMEGKVKRSYEKFFNYLKKDGHKVIKVDFDKKLLDAIPAIYMMISFAEGVSTNANLDGIKFGLRQPGEDYKQIITNSRTKGFGDTVKRRFIIGSYQLKSENQELLLAKSKKVRRLIVNELNKIYEQIDILIFPPSLKPAPLVKNVLGTDVEEREDNDAAFLDDLLILSNLNGMPSITLPFIKENELPIGINLNAKPKEDLFLLQISKYVEDLINKLNKGGEFDE;locus_tag=LOCUS_02540;note=WP_011183059.1 amidase family protein (Mesoplasma florum) [pid:58.5%25%2C q_cov:98.3%25%2C s_cov:81.7%25%2C Eval:1.7e-129],internal stop codon at [147644:147646](+),MGA_254
sequence1	MetaGeneAnnotator	CDS	148899	149756	.	+	0	ID=MGA_255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNFEVIIGIENHVELKTKSKMFGMGPVSFGKEPNTQVSEVDMGYPGAMPSVNKEGVRLALLACNALKMKIDSLLRFDRKNYFYPDLVKGFQITQQYHPIGRDGYIKINTESGSYKNIEIERLHIEEDTAKQTHKGNFTYIDYNRSGVGLIEIVTKPVLRNANEAMEYVTNLKEILLFLGVSDVKMNEGSLRCDINISLRPYGFNGYGSKVEIKNLNSINNIKKSIEFEIKRQSAILLSGNKVDQETRRFDENLQETILMRKKTDAIDYKYFREPNLFPIQLDKK;locus_tag=LOCUS_02550;note=WP_015545356.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Mycoplasma mycoides) [pid:69.8%25%2C q_cov:100.0%25%2C s_cov:59.5%25%2C Eval:1.3e-113%2C partial hit],internal stop codon at [149754:149756](+),MGA_255
sequence1	MetaGeneAnnotator	CDS	150349	151044	.	-	0	ID=MGA_256;product=NAD-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183062.1;translation=MARKKSFAIFGANYFGLSVAQTLDEKKQLIKIFDYDEEKINLHINEFESVEGIILDATNKNALEKNGITQFDGVIVCFGGNMESSILTVLNLIDLGVENIIVKARDERHKRILLALGLEEDQVIIPDVTTGKMVATKALFDIESEVQTADGEYVFTSIQVEEEEIFDKSIFDAGLNSNKDFIIIQVKRNGKIILPDEYTILKKGDILVVFAKNNIVNDLILKVRGEQEIEY;locus_tag=LOCUS_02560;note=WP_011183062.1 NAD-binding protein (Mesoplasma florum) [pid:53.1%25%2C q_cov:97.4%25%2C s_cov:75.0%25%2C Eval:1.4e-64],MGA_256
sequence1	MetaGeneAnnotator	CDS	151381	151647	.	+	0	ID=MGA_257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTASSAISDTGITILQTNTNYSFIGELLIIIMCQIGGIGILTVKIVLMVMLGRKISLDDQSVAQTERGNSALSNTVEMIRDAFIFLL;locus_tag=LOCUS_02570;note=WP_164919774.1 TrkH family potassium uptake protein (Mesoplasma florum) [pid:52.9%25%2C q_cov:98.9%25%2C s_cov:15.6%25%2C Eval:6.5e-21%2C partial hit],internal stop codon at [151249:151251](+)%2C[151363:151365](+)%2C[151645:151647](+)%2C[151801:151803](+)%2C[151933:151935](+),MGA_257
sequence1	MetaGeneAnnotator	CDS	151648	151803	.	+	0	ID=MGA_258;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIIGVFFLFFGFYFTPMDLGTVYNEKFQPLENLINENSVTNPYHDFSKSL;locus_tag=LOCUS_02580;note=MGA_258
sequence1	MetaGeneAnnotator	CDS	152023	152172	.	+	0	ID=MGA_259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTKLNFIMYSILFILGPLLVFMTEHFTVEESKILLDGKYIKDTEGNIN;locus_tag=LOCUS_02590;note=MGA_259
sequence1	MetaGeneAnnotator	CDS	152314	152802	.	+	0	ID=MGA_260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIGAAPSSTAGGIRTTTFAICILAIYSIMRNKKSVEAFKKKIPDDTVKRAFAVVFLSFFIVVTSIFVVYLDSNKMLYATDTTKHTESTIIKLIMYVCSAFGTVGFQPFSNEQIIQLGVISKLMLVITMFVGQLGISNTLLAFVKPRNKQNFGYLEEEVVIG;locus_tag=LOCUS_02600;note=WP_164919774.1 TrkH family potassium uptake protein (Mesoplasma florum) [pid:49.4%25%2C q_cov:100.0%25%2C s_cov:30.5%25%2C Eval:3.0e-41%2C partial hit],internal stop codon at [152170:152172](+)%2C[152188:152190](+)%2C[152206:152208](+)%2C[152311:152313](+),MGA_260
sequence1	MetaGeneAnnotator	CDS	153201	153815	.	+	0	ID=MGA_261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFAGLLQIIVFSIAKEITAPDIAGVVIICLIVLTNSIIATIQEVKSINQISSLNENKQYAIVLRNSEKMEIDIEKLVPGDIVFFNSGGFVPADIRIIQNQVFKIDESALTGENEPVKKVSDPLFEKSLMLGDQKNIAFMSTLVIGGKLIGVVFGTGNNSEIGKIASKITKNNTIKTPLKKVIKLTAVIGLTSIFLGLILFLTS;locus_tag=LOCUS_02610;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:39.3%25%2C q_cov:99.0%25%2C s_cov:21.6%25%2C Eval:6.9e-35%2C partial hit],internal stop codon at [153154:153156](+)%2C[153814:153816](+)%2C[153853:153855](+),frameshifted%2C insertion/deletion at around 153102,MGA_261
sequence1	MetaGeneAnnotator	CDS	153936	154307	.	+	0	ID=MGA_262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVATKKMAAKKVIIKNPKSIETLGNVNVICTDKTGTLTENKMLVDKIFLNFSELELKDFNPKISETLINCISLCSDAVVENEKIGSAIEIATLDFIKKFDINYISLRKNIKDLMKYLLIQKEK;locus_tag=LOCUS_02620;note=WP_011949094.1 cation-translocating P-type ATPase (Clostridium botulinum) [pid:43.4%25%2C q_cov:83.7%25%2C s_cov:12.1%25%2C Eval:2.8e-16%2C partial hit],internal stop codon at [153828:153830](+),frameshifted%2C insertion/deletion at around 153812%2C153854%2C154263,MGA_262
sequence1	MetaGeneAnnotator	CDS	154307	154807	.	+	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTVNEVNGEKIVYTKGAVDYLLKKCKYKLIDNKVSELTIDDKKKIEEHLYYFAKKGLRVLGFAQKKCEDRKSNYESNLTFLGCVAIIDPPRQHVKESIEVAKEGGIRVIMITGDHKITAFEIATRLGIADEKFDSVISGSEIEELSREQLKNRLRTTNVLARVNP;locus_tag=LOCUS_02630;note=WP_009902789.1 cation-translocating P-type ATPase (Clostridioides difficile) [pid:45.3%25%2C q_cov:100.0%25%2C s_cov:19.1%25%2C Eval:4.6e-32%2C partial hit],internal stop codon at [154806:154808](+),frameshifted%2C insertion/deletion at around 154253,MGA_263
sequence1	MetaGeneAnnotator	CDS	154859	155212	.	+	0	ID=MGA_264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGDGVNDSPSLVKADVGISMGITETEVAKEVSDVILADDNFKSIISGVNSGRNVYEKIKYFISFLVAANLSQVLTLLMILAFYQDLALNSVNILFHIFVVETIVAIPIGMQREKKE;locus_tag=LOCUS_02640;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:56.8%25%2C q_cov:94.9%25%2C s_cov:11.4%25%2C Eval:1.3e-29%2C partial hit],internal stop codon at [154805:154807](+),frameshifted%2C insertion/deletion at around 155191,MGA_264
sequence1	MetaGeneAnnotator	CDS	155515	155697	.	+	0	ID=MGA_265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVALVLTVITLVSVDSINLFFDFKTKNIPAGLVSIFIINAILPTLFIFAFYKLNNIIFK;locus_tag=LOCUS_02650;note=MGA_265
sequence1	MetaGeneAnnotator	CDS	156112	156393	.	+	0	ID=MGA_266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIVLFYCIISFLFDYIAYIMGRKIEISLRNRCLENLVRQDISYYSNKKIGEILTKIVSDTQIVGDQAVQIPLQLGISFFEMIGSTLLMILLA;locus_tag=LOCUS_02660;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:56.0%25%2C q_cov:97.8%25%2C s_cov:14.8%25%2C Eval:7.0e-23%2C partial hit],internal stop codon at [155926:155928](+)%2C[156076:156078](+)%2C[156088:156090](+)%2C[156391:156393](+)%2C[156664:156666](+),MGA_266
sequence1	MetaGeneAnnotator	CDS	156433	156666	.	+	0	ID=MGA_267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTMLFCFVVTRKKVSKVRESITEINGNVTDRVATVRLIKSTGSENYETDRFKEVHKDYYKKSKKVGVSHSLMLTTM;locus_tag=LOCUS_02670;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:44.9%25%2C q_cov:100.0%25%2C s_cov:12.7%25%2C Eval:1.4e-10%2C partial hit],internal stop codon at [156391:156393](+)%2C[156664:156666](+)%2C[156916:156918](+),MGA_267
sequence1	MetaGeneAnnotator	CDS	156709	156918	.	+	0	ID=MGA_268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIYGNVANPENGLIFFKTTFTSYTLAQGMMIGPLFQVMNALFGLAQASVASQRVQNTIKSKSIMNPHF;locus_tag=LOCUS_02680;note=MGA_268
sequence1	MetaGeneAnnotator	CDS	156967	157329	.	+	0	ID=MGA_269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFAYPEKPEKIILPKFNFIFEESKSYAFVGETGSGKSTIAKLLLRFYDPTKGKVIINKNLNLKDAKLSSYLNHVGYVEQDPQILFGDVFENVKYGKFDATNEEVIEACQKAELHELVMT;locus_tag=LOCUS_02690;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:81.4%25%2C q_cov:98.3%25%2C s_cov:19.2%25%2C Eval:1.7e-53%2C partial hit],internal stop codon at [156916:156918](+)%2C[157327:157329](+),MGA_269
sequence1	MetaGeneAnnotator	CDS	157369	157692	.	+	0	ID=MGA_270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSGGQKQRLIIARMFLKNPQILILDEATSALDNIVEKEIQKKLDLLMKGRTTITIAHRLSTIKNVDEIIVLGANGKGIVQRGKFNELKNEPGHFQKLYNAGLLESN;locus_tag=LOCUS_02700;note=WP_011183431.1 ABC transporter ATP-binding protein/permease (Mesoplasma florum) [pid:78.8%25%2C q_cov:97.2%25%2C s_cov:16.4%25%2C Eval:5.6e-41%2C partial hit],internal stop codon at [157327:157329](+),MGA_270
sequence1	Aragorn:1.2.38	tRNA	157869	157944	.	+	.	ID=Aragorn_2;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00010;note=Aragorn_2
sequence1	Aragorn:1.2.38	tRNA	157952	158027	.	+	.	ID=Aragorn_3;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00020;note=Aragorn_3
sequence1	Aragorn:1.2.38	tRNA	158045	158120	.	+	.	ID=Aragorn_4;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00030;note=Aragorn_4
sequence1	Aragorn:1.2.38	tRNA	158129	158204	.	+	.	ID=Aragorn_5;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00040;note=Aragorn_5
sequence1	MetaGeneAnnotator	CDS	158240	158563	.	-	0	ID=MGA_272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKINENKNITPIIIIIIELINEVLILLIIKNNNRITNQIKVIVSKIYTIISPDEINSKLSLFVFNEISCIKIKVNKLFNNNIDSRIYEIIAKLFFIFFSPYNNFIT;locus_tag=LOCUS_02710;note=MGA_272
sequence1	Aragorn:1.2.38	tRNA	158707	158782	.	+	.	ID=Aragorn_6;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00050;note=Aragorn_6
sequence1	Aragorn:1.2.38	tRNA	158787	158871	.	+	.	ID=Aragorn_7;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00060;note=Aragorn_7
sequence1	MetaGeneAnnotator	CDS	159191	159418	.	+	0	ID=MGA_273;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILSLQHVFAMFGATVLVPMIINQTANEEVINISMVLFCSGIGTLIYIALTSAKVPIYLGSSFAYMSVMGIGYSQ;locus_tag=LOCUS_02720;note=WP_011183554.1 solute carrier family 23 protein (Mesoplasma florum) [pid:72.2%25%2C q_cov:96.0%25%2C s_cov:15.5%25%2C Eval:8.2e-24%2C partial hit],internal stop codon at [159188:159190](+)%2C[159416:159418](+)%2C[159488:159490](+)%2C[159503:159505](+)%2C[159602:159604](+),MGA_273
sequence1	MetaGeneAnnotator	CDS	159665	159844	.	+	0	ID=MGA_274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTFLIAAIFMLKAKSFLKVIPILAALAFGYFICIILHFSLKAVGYNIMDTSLITDTSS;locus_tag=LOCUS_02730;note=MGA_274
sequence1	MetaGeneAnnotator	CDS	159938	160135	.	+	0	ID=MGA_275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEHLGDHINIGTLTNKDFIKEPGISRTLIADGVAMSFAGLIGGPANATYSENTSVVGITKVASV;locus_tag=LOCUS_02740;note=WP_011183554.1 solute carrier family 23 protein (Mesoplasma florum) [pid:67.7%25%2C q_cov:100.0%25%2C s_cov:14.0%25%2C Eval:5.0e-21%2C partial hit],internal stop codon at [159842:159844](+)%2C[159848:159850](+)%2C[159872:159874](+)%2C[160133:160135](+),MGA_275
sequence1	MetaGeneAnnotator	CDS	160241	160516	.	+	0	ID=MGA_276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFGMISSNGIKIMLDNKVDFKNARNIIIVSVVLAVGVGMAITGSDIQIGNSFKITGMFLATMLGILLNLLLPEHNNLGIFQKLKIKKENK;locus_tag=LOCUS_02750;note=WP_003641437.1 solute carrier family 23 protein (Lactiplantibacillus) [pid:40.5%25%2C q_cov:81.3%25%2C s_cov:16.2%25%2C Eval:8.7e-10%2C partial hit],internal stop codon at [160133:160135](+),MGA_276
sequence1	MetaGeneAnnotator	CDS	160717	161262	.	+	0	ID=MGA_277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKKELKAEKSLYNKQASNSKIGKFFGFGNFNTTFKKEIIGGVSTFLSMIYILSVEPAILGQAQSIENSQELMNSGRVFVATAVASFLATFIMGISANVPIGLAPSMGLNAMFSFNIANQGDIGYEGALIATTISSIIFCIMSVTKLRAILIKSLPHSIHLAIGVGIGFFIAYVGLVNMG;locus_tag=LOCUS_02760;note=WP_011183312.1 NCS2 family permease (Mesoplasma florum) [pid:47.1%25%2C q_cov:92.3%25%2C s_cov:34.2%25%2C Eval:9.0e-38%2C partial hit],internal stop codon at [161260:161262](+)%2C[161491:161493](+),MGA_277
sequence1	MetaGeneAnnotator	CDS	161639	161971	.	+	0	ID=MGA_278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLEHLTSINIEINRASGTNNEIPHKALVIDAGATVVGSVLGVSHMACYTESCVGIMQGARTGFSSIITSLGFLLSLALFPIFKMMPDCLSGAATVFIGTVMMKSITEIE;locus_tag=LOCUS_02770;note=WP_064496463.1 NCS2 family permease (Methanocaldococcus jannaschii) [pid:47.1%25%2C q_cov:77.3%25%2C s_cov:19.6%25%2C Eval:2.3e-15%2C partial hit],internal stop codon at [161969:161971](+),MGA_278
sequence1	MetaGeneAnnotator	CDS	162017	162175	.	+	0	ID=MGA_279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVTYSIANGIAIGIIAYSIGSIAVKKTKEVHLLVWVLNVIFILYFIAYAFM;locus_tag=LOCUS_02780;note=MGA_279
sequence1	MetaGeneAnnotator	CDS	162281	162538	.	+	0	ID=MGA_280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKKNVLIFCDLDGTALASDHTFSQITKEVVKKVYGKNYYFIPVTARSTKDAIDFQSIHLELDKLGGIASGNNGSHIYDFKNKT;locus_tag=LOCUS_02790;note=WP_011166283.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:49.4%25%2C q_cov:92.9%25%2C s_cov:27.9%25%2C Eval:2.0e-14%2C partial hit],internal stop codon at [162536:162538](+)%2C[162677:162679](+),MGA_280
sequence1	MetaGeneAnnotator	CDS	162689	163129	.	+	0	ID=MGA_281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQMDYKIIEKLSDINEKINHLVVILEKNPSEQIQNNFLEKFKIISNELDIIKYTDRVYELAVKGINKGSVIRKVQQYLNLDNSNTSVFCFGDSFNDIEMFKEAEFPVAMENAIDELKQIAKFITLSNDNDGVAKFIEKNILKEEKE;locus_tag=LOCUS_02800;note=WP_011183066.1 HAD-IIB family hydrolase (Mesoplasma florum) [pid:33.8%25%2C q_cov:97.9%25%2C s_cov:51.6%25%2C Eval:7.5e-16%2C partial hit],internal stop codon at [162536:162538](+)%2C[162677:162679](+),MGA_281
sequence1	MetaGeneAnnotator	CDS	163231	163434	.	+	0	ID=MGA_282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAPIYEQLSNEVTNVNFVKVNTDEQQEIAKKYNIMSIPTLIFFKDGEVVRQNSGFMPKEVLKEFIK;locus_tag=LOCUS_02810;note=WP_011392444.1 thioredoxin (Moorella thermoacetica) [pid:55.4%25%2C q_cov:95.5%25%2C s_cov:60.2%25%2C Eval:5.0e-13%2C partial hit],MGA_282
sequence1	MetaGeneAnnotator	CDS	163436	163978	.	+	0	ID=MGA_283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSIKLIVLDIDGTLVGKNKQVPKININAINEARNNGIKICIATGRNLSRAEKIAKSIELDKNQEYLICLNGGAIYKYDENKNPILIEEHLFNQEDFEFIYENAKKNNVNCFSYAQNPEFAFVLKKDLFTFVLKKVSGRKLMKFEKNINEKSYKIIAFGNEKKISLLKKALSIKKYEMFS;locus_tag=LOCUS_02820;note=WP_010963948.1 sugar-phosphatase (Clostridium) [pid:30.4%25%2C q_cov:97.8%25%2C s_cov:64.9%25%2C Eval:8.1e-15%2C partial hit],internal stop codon at [163976:163978](+)%2C[164129:164131](+),MGA_283
sequence1	MetaGeneAnnotator	CDS	165074	165772	.	+	0	ID=MGA_284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDKNNILEIRNLTKSYDGKVVLKGVSFNVREGEFITLLGPSGCGKSTTLNLIGGRKKQDSGQLLFEGKDLTPIPSNKRQINTIFQNYALFPHYDVYDNIAYGLRIKKMKEDLVAKEVMNYIKKFSLEGMENKRVHELSGGQKQRVAIARALILKPRILLLDEPMSALDVQLRKRMQDELKELQEEIGITFILVTHDQEEALTLSDRIVVMNDGNIQQIGTPEEIYNEPENR;locus_tag=LOCUS_02830;note=WP_011166424.1 spermidine/putrescine ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:72.4%25%2C q_cov:98.3%25%2C s_cov:65.0%25%2C Eval:2.3e-96%2C partial hit],internal stop codon at [165770:165772](+),MGA_284
sequence1	MetaGeneAnnotator	CDS	166125	166595	.	+	0	ID=MGA_285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNLDNQKDLTEAQNAEVEKELFDIENIESEGSEIEVEIPKIKFKDKIEEFKVVKALKGKVWPILLPFMVVMGFLVVLPLLGIIIFSIVEPTSNSIKFEFDFTNFVKLITSGSIILVLGLSILYAFVASVVTVIMAYPIALIMANLKSKFLAKNI;locus_tag=LOCUS_02840;note=WP_011183408.1 ABC transporter permease (Mesoplasma) [pid:36.4%25%2C q_cov:98.7%25%2C s_cov:43.2%25%2C Eval:2.1e-25%2C partial hit],internal stop codon at [166593:166595](+)%2C[166617:166619](+)%2C[166830:166832](+),MGA_285
sequence1	MetaGeneAnnotator	CDS	166626	166832	.	+	0	ID=MGA_286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKILGLQSLFLLISPSALGTPIAIIIGMVYMFIPFAISPIYNALENQDPSYYNAALDLKASKTKAF;locus_tag=LOCUS_02850;note=WP_011183408.1 ABC transporter permease (Mesoplasma) [pid:63.2%25%2C q_cov:100.0%25%2C s_cov:20.5%25%2C Eval:8.7e-18%2C partial hit],internal stop codon at [166593:166595](+)%2C[166617:166619](+)%2C[166830:166832](+)%2C[167100:167102](+),MGA_286
sequence1	MetaGeneAnnotator	CDS	166881	167102	.	+	0	ID=MGA_287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLIQAATSLLIVRYMGDGKINLITTIIENYFFKGTDFSFGATVAVVLAILLFILMGVMKLISNKFEVRGSKK;locus_tag=LOCUS_02860;note=WP_011183408.1 ABC transporter permease (Mesoplasma) [pid:63.9%25%2C q_cov:98.6%25%2C s_cov:21.8%25%2C Eval:5.0e-21%2C partial hit],internal stop codon at [166593:166595](+)%2C[166617:166619](+)%2C[166830:166832](+)%2C[167100:167102](+),MGA_287
sequence1	MetaGeneAnnotator	CDS	167441	167830	.	+	0	ID=MGA_288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILFVLAGAKFGILTLIAAHVSFNVPYVIITVLPFMNRIDKNILEASKDLGGSSRQTFYKVIFPILMPCIITAAAICFAMSFDDFIISYFTGGDQTNVSTFIYTAKRMQPYINAFGTILVAVIIFVILV;locus_tag=LOCUS_02870;note=WP_011183407.1 ABC transporter permease subunit (Mesoplasma florum) [pid:65.8%25%2C q_cov:90.7%25%2C s_cov:10.8%25%2C Eval:3.7e-40%2C partial hit],internal stop codon at [167210:167212](+)%2C[167231:167233](+)%2C[167381:167383](+)%2C[167828:167830](+)%2C[167996:167998](+)%2C[168077:168079](+),MGA_288
sequence1	MetaGeneAnnotator	CDS	167849	167998	.	+	0	ID=MGA_289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRRKDIKFQIKNGDYKLKRRSNLEKDIEYFQNCILNNSSIKLSKNPNN;locus_tag=LOCUS_02880;note=MGA_289
sequence1	MetaGeneAnnotator	CDS	168491	168691	.	+	0	ID=MGA_290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRQKNEEQAREKYLLFKEAEKKVYINTSLVKKLNNKIKKMQELNEISELEKSNLVKFEKRRKEKID;locus_tag=LOCUS_02890;note=MGA_290
sequence1	MetaGeneAnnotator	CDS	169532	169753	.	+	0	ID=MGA_291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGFEKLYGNVGTKNDLTVNDVKLTKKEQIDNVAEEINKLISKNNVGLYGDQLLDKVHNKEFDIAVMYNGDLL;locus_tag=LOCUS_02900;note=WP_011166426.1 extracellular solute-binding protein (Mycoplasma mycoides) [pid:43.7%25%2C q_cov:97.3%25%2C s_cov:5.8%25%2C Eval:7.5e-09%2C partial hit],internal stop codon at [169289:169291](+)%2C[169295:169297](+)%2C[169430:169432](+)%2C[169460:169462](+)%2C[169472:169474](+)%2C[169751:169753](+)%2C[169943:169945](+),MGA_291
sequence1	Aragorn:1.2.38	tRNA	170301	170375	.	+	.	ID=Aragorn_8;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00070;note=Aragorn_8
sequence1	Aragorn:1.2.38	tRNA	170558	170634	.	+	.	ID=Aragorn_9;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00080;note=Aragorn_9
sequence1	Aragorn:1.2.38	tRNA	170687	170763	.	+	.	ID=Aragorn_10;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00090;note=Aragorn_10
sequence1	Aragorn:1.2.38	tRNA	170786	170861	.	+	.	ID=Aragorn_11;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00100;note=Aragorn_11
sequence1	Aragorn:1.2.38	tRNA	170867	170943	.	+	.	ID=Aragorn_12;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00110;note=Aragorn_12
sequence1	Aragorn:1.2.38	tRNA	170962	171038	.	+	.	ID=Aragorn_13;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00120;note=Aragorn_13
sequence1	Aragorn:1.2.38	tRNA	171086	171178	.	+	.	ID=Aragorn_14;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00130;note=Aragorn_14
sequence1	Aragorn:1.2.38	tRNA	171188	171263	.	+	.	ID=Aragorn_15;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00140;note=Aragorn_15
sequence1	Aragorn:1.2.38	tRNA	171268	171344	.	+	.	ID=Aragorn_16;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00150;note=Aragorn_16
sequence1	Aragorn:1.2.38	tRNA	171352	171427	.	+	.	ID=Aragorn_17;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00160;note=Aragorn_17
sequence1	Aragorn:1.2.38	tRNA	171577	171653	.	+	.	ID=Aragorn_18;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00170;note=Aragorn_18
sequence1	MetaGeneAnnotator	CDS	172046	172279	.	+	0	ID=MGA_293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYTAGQIGVNGVAASNQLFIIMFCMVSGFCYGSGIFSAQFFGASDYQKLKQVTALKLYLCLFISIVFMLFAIPGIT;locus_tag=LOCUS_02910;note=MGA_293
sequence1	MetaGeneAnnotator	CDS	172520	173110	.	+	0	ID=MGA_294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAIALCSNLVCNTFLTSPTFLGNFQGLGITGAAVGTVVSRILQTLFILSLLFIKKFEFIPHFKNFIVSKFVLRLALIKTIPILINETLYAFGQVLQVKLKAMYSVEALTANAMFETVLMAFFSPMYHGLNAGISTLVGNELGANKFENAKYNSTHLMRLSFIIGICFFAIFSGLSFVIPNTIFPNTLPEANRIGV;locus_tag=LOCUS_02920;note=WP_003425390.1 MATE family efflux transporter (Clostridioides difficile) [pid:30.7%25%2C q_cov:80.1%25%2C s_cov:36.0%25%2C Eval:9.4e-10%2C partial hit],MGA_294
sequence1	MetaGeneAnnotator	CDS	173491	174732	.	-	0	ID=MGA_295;product=serine hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167047.1;translation=MIKNIDNKILNSLKKELNRQQTHIELIASENYVSKAVLELNGSILTNKYAEGYPSKRYYGGCEFIDEIESYGIELAKKLFNAEHANIQPHSGSQANEAAYKALLEPGDKVLSMSLDAGGHLTHGYHINFSGQLYNFIFYKVNPKTEEIDFEEIERLAFEHKPKLILAGASSYTKIINFKKFREIADKIGAFFMVDMAHIAGLVAGGVHPNPVLYADIVTTTTHKTLRGSRGGMILSKKEYAKKIDAVVFPGVQGGPLENQIGGKVQALSEALTQDFKDYAKQVILNAKALANSLKNKGFRLIANGTENHTVIVEVKDSIGLTGKQAETILETVGIIVNKNMIPFDKEKPVNASGIRLGSPAMTTRGFKEDEFIKVADIIQSALNNHAEDNLSKLRNEVIELCKKFPIYDYIKY;locus_tag=LOCUS_02930;note=WP_011167047.1 serine hydroxymethyltransferase (Mycoplasma mycoides) [pid:70.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-169],MGA_295
sequence1	MetaGeneAnnotator	CDS	174940	175521	.	+	0	ID=MGA_296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRANQNKNNKNNKNTRLIEYIDLNQQQILKKLEISQFGLTPDEVITQRERFGDNNLKAHKMNVLSAFIKSFFSPFNLILIIIDTFSFYTYATEGKNPFDLFGALLVLIMILLSGTIYFVQEIRSFLVIKKMKYENKQMCKVIRDVNFKINDIDNANSIKLIKEYISLENSELVQGDLIYLSNGDLIPADIKVV;locus_tag=LOCUS_02940;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:51.9%25%2C q_cov:94.8%25%2C s_cov:20.5%25%2C Eval:4.0e-50%2C partial hit],internal stop codon at [175519:175521](+),MGA_296
sequence1	MetaGeneAnnotator	CDS	175609	175860	.	+	0	ID=MGA_297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFENICYMGTEVVSGSALGIVLSTGQNTYFSEMNDKVTEKRPVNSFEKGIKRITLLLISFMLATTPIVFLVFGLRTDDFDHR;locus_tag=LOCUS_02950;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:61.2%25%2C q_cov:96.4%25%2C s_cov:9.0%25%2C Eval:1.7e-21%2C partial hit],internal stop codon at [175519:175521](+)%2C[175858:175860](+),MGA_297
sequence1	MetaGeneAnnotator	CDS	175912	176235	.	+	0	ID=MGA_298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPIIVTANLSRGYSKIKKEKVLVKNLNAVQNMGAIDILCTDKTGTITSGEINLDKVFDIKNQKNPYIEEILYLNSYFQTGFQNPIDQAVLLSKNIKHIDVEEYKKE;locus_tag=LOCUS_02960;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:68.5%25%2C q_cov:100.0%25%2C s_cov:12.1%25%2C Eval:1.2e-35%2C partial hit],internal stop codon at [175858:175860](+)%2C[176233:176235](+),MGA_298
sequence1	MetaGeneAnnotator	CDS	176566	177348	.	+	0	ID=MGA_299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRGITTKILTGDDEVITRAICKKVDFKIEKLYTGKEIEAMDEQQLAKAVIRANVFVKLSPMHKSLIIKTLKSQQHVVGFMGDGINDAPVLRESDVAISFKEASNIAQEAADLILLEESLLPISAAVYEGRVSLANILKYIKVTVASNFGNVLSVLIALFLTLAEPMQPLHLLAQNLLYDIVMFAFIFDKVDKNFTDKPRPLKTKNIIWFTIINGPVSSIFDIVTFLVLLYAFRQQIGLEPGISANIEIPKEAIAKFNAS;locus_tag=LOCUS_02970;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:71.6%25%2C q_cov:89.2%25%2C s_cov:26.2%25%2C Eval:1.6e-91%2C partial hit],internal stop codon at [177346:177348](+)%2C[177433:177435](+)%2C[177529:177531](+),MGA_299
sequence1	MetaGeneAnnotator	CDS	177369	177593	.	-	0	ID=MGA_300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTCAKQTYARTKLIATPKKAHGGVCIAKTLFIGVNGIIIAIKQTNTVDKLTCQDPFDCKNGIFSVLYICITAV;locus_tag=LOCUS_02980;note=MGA_300
sequence1	MetaGeneAnnotator	CDS	177854	177976	.	+	0	ID=MGA_301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPYPSGAGLHVGHPKGYTATDIFARMKRMQGYDVLHPIG;locus_tag=LOCUS_02990;note=WP_003246072.1 leucine--tRNA ligase (Bacillus) [pid:90.0%25%2C q_cov:100.0%25%2C s_cov:5.0%25%2C Eval:1.3e-16%2C partial hit],internal stop codon at [177779:177781](+)%2C[177791:177793](+)%2C[177974:177976](+)%2C[178151:178153](+)%2C[178211:178213](+),MGA_301
sequence1	MetaGeneAnnotator	CDS	178814	178996	.	+	0	ID=MGA_302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIKFVLETKDKSKAFVGESEHINSDFLNGLDRKNAIKLVIDKLEKENNGKKQINYKLRD;locus_tag=LOCUS_03000;note=WP_015545302.1 leucine--tRNA ligase (Mycoplasma mycoides) [pid:61.7%25%2C q_cov:100.0%25%2C s_cov:7.5%25%2C Eval:1.9e-15%2C partial hit],internal stop codon at [178715:178717](+)%2C[178790:178792](+)%2C[178994:178996](+)%2C[179162:179164](+)%2C[179222:179224](+)%2C[179237:179239](+),MGA_302
sequence1	MetaGeneAnnotator	CDS	179465	179608	.	+	0	ID=MGA_303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILTDKGEKMSKSKGNVINPDEIIESHGADTLRLYEVFMGPLEASLP;locus_tag=LOCUS_03010;note=WP_003246072.1 leucine--tRNA ligase (Bacillus) [pid:78.3%25%2C q_cov:97.9%25%2C s_cov:5.7%25%2C Eval:4.2e-15%2C partial hit],internal stop codon at [179222:179224](+)%2C[179237:179239](+)%2C[179324:179326](+)%2C[179393:179395](+)%2C[179606:179608](+)%2C[179639:179641](+),MGA_303
sequence1	MetaGeneAnnotator	CDS	179642	179899	.	+	0	ID=MGA_304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRVYRLIEDIKLTDENNGNLDFIYNDVVKKTTQMIEDCKFNTAVSQLMVFINAVYKENSAIYKPYIFNFVKMLSLYAPHLAEEL;locus_tag=LOCUS_03020;note=WP_015545302.1 leucine--tRNA ligase (Mycoplasma mycoides) [pid:62.8%25%2C q_cov:100.0%25%2C s_cov:10.7%25%2C Eval:2.3e-26%2C partial hit],internal stop codon at [179393:179395](+)%2C[179606:179608](+)%2C[179639:179641](+)%2C[179897:179899](+)%2C[179939:179941](+),MGA_304
sequence1	MetaGeneAnnotator	CDS	179963	180163	.	+	0	ID=MGA_305;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLSNVVIAVQINGKLKSTFEVEKGTSIEELIKLAKNILNVKETIHGKTIIKEIAVLDKIVNIVIK;locus_tag=LOCUS_03030;note=WP_011183388.1 leucine--tRNA ligase (Mesoplasma florum) [pid:62.1%25%2C q_cov:98.5%25%2C s_cov:8.2%25%2C Eval:6.5e-13%2C partial hit],internal stop codon at [179897:179899](+)%2C[179939:179941](+),MGA_305
sequence1	MetaGeneAnnotator	CDS	180289	180849	.	+	0	ID=MGA_306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANIIENNNGKEIVLDFSFLQNVQFKENISGLDQIIEKLEIKGIISYNDFHNFLRNSLVKKAFLCLIDNKTRQLSKKDKTKETYDGIIRVELDSRNQSLLLNGTYLGFFVNIDSKNATLIISSIFLTRLKPIAQEFETVLNECQILLIRNQGQIKEEEILRRNILNSSTIQKIGRLISTFEEEKNN;locus_tag=LOCUS_03040;note=MGA_306
sequence1	MetaGeneAnnotator	CDS	180904	181311	.	+	0	ID=MGA_307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPYFNSILSTVLRIDINNSNSELHNFELHNLKSYTYKYLKLDSENILKKLNIQYDKKIVVCLEILVDDIEKLNKLKKMQDLSIVPFKFNRNISTTHELLKDIKEIFNFDFEKNHEVSQIVNLSTMIGVNETNLNF;locus_tag=LOCUS_03050;note=MGA_307
sequence1	MetaGeneAnnotator	CDS	181471	183573	.	+	0	ID=MGA_308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFLTSGYLAYTGIGEEVLIERGRQVLKRISEGNTKNPYLINYLFNTKLIELSENSNELYLKDFNFNLNKEQKDAVQKAINSKDIFLLQGPPGTGKTQVICEIIFQLSKLNRKILISSQNHEAIKNVIDRLPIGPNLNKIRLTNNIDFNSSLVNNFSPDRVLYNYYKSIGKKIFDDVNNDENLITEFQEIKNKLEELIISNKSYHKNNTQIRNIQKDIDEINRQINLINEKEINKIKRKNFIKENLLNINNLVDSLNEKEFISVLNFSEIIQEFFDSSIKFELYNYIFRYLKFNPEDFSNKISLLKEVVNEIFIKNEIFMEIKNIEKKVLNYKRQAEFDLANEEESRKKGLLQILNRDVKINELNQIFKNFISELTNQKNKLEVELISLSEKNIYEDSLSNLEIDKNKLLVVKNNLMENIGDGTRKLRELIKLINFKFNLDLGITDVDLEENLKKELIIIEKKLLESKKRKTDFSDIYKNITDYLSENYKISNSTLEELPTREFSIQMFKESQRYIQTVLDKLINVYSMTLTSSNIFRFSKDKISAKLGLEELNLKTMDVDVVIIDEASKATLLEILMPLVYGKSLILVGDYRQLPPILKLQNADIEEVNELFKKDYNYNDFYELLDFSVFKKLISANNKNVTSILKTQYRSHEQIMEIVNKFYDNQLRMETQVSEQKKHDLIISNSLKKEIINSRSSVY;locus_tag=LOCUS_03060;note=WP_164930803.1 IGHMBP2 family helicase (Aquifex aeolicus) [pid:35.8%25%2C q_cov:19.4%25%2C s_cov:24.5%25%2C Eval:5.4e-15%2C partial hit],internal stop codon at [183571:183573](+),MGA_308
sequence1	MetaGeneAnnotator	CDS	183718	184131	.	+	0	ID=MGA_309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKPSLAIISFYGLHVSKLKKFIKLSNFKNLNIVINTVDDFQGKEADYVIVNLVRNPKKLSSKTGREFLKKYERINVALSRARELLIIIGSERSVEDITVKIPTVGNPNLSNSYEVYSEIIAKLKFNNSFLIPIEID;locus_tag=LOCUS_03070;note=WP_164930803.1 IGHMBP2 family helicase (Aquifex aeolicus) [pid:35.6%25%2C q_cov:73.7%25%2C s_cov:19.0%25%2C Eval:4.4e-09%2C partial hit],internal stop codon at [183571:183573](+),MGA_309
sequence1	MetaGeneAnnotator	CDS	184142	184570	.	+	0	ID=MGA_310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFDKLEIIYDKQYIPLKIKYSETRKPTFMEFLLLLILIDYPDKTQILKEALKSFFDVENISLFEKALRDLINYKILDINKNKTGLGILNMDSPIEYFEVNDKIKFNFVKSNYSISNENKSQDIKYYYDPILNVEEILKERT;locus_tag=LOCUS_03080;note=MGA_310
sequence1	MetaGeneAnnotator	CDS	184610	185038	.	+	0	ID=MGA_311;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNSNFEKNISQSKINLMIKKFININKDIFGEECLLKEITIDEYNSLEKLNFFNEYIKYDSVAIEIMIEIFENESFKIKSENKEFENYLRNNSNIAKEILIDICNQYEKKLKNKFRPEQKIMKLEKYNSELDLISNINIKTN;locus_tag=LOCUS_03090;note=MGA_311
sequence1	MetaGeneAnnotator	CDS	185258	185896	.	+	0	ID=MGA_312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGFLIGIKNLTTINKKIPVVYSYKNPKINLNLIEIFETSINSLLETYKISLKKLDYKKAAEIFTVLERIGLEKEVEEISFSYILDDLEYGEKYNSIKEFLIEEDYKNYLIILERIVTKCIIEISMKKNDDEIFDIISKFNFLNTKNIIKIFNEINISESFENILILNKYLKSLKIDGWRINIRNSLIKLTEYFKNNNRAELFNLDDFNSET;locus_tag=LOCUS_03100;note=MGA_312
sequence1	MetaGeneAnnotator	CDS	185969	186259	.	+	0	ID=MGA_313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNFEEFLSSLIDLIKSNVEIEQYDKYLLNISEALIDFYKNFYKYKTKTLSIESQEVVNYKITLMAMNYLSKLEEKTNSLISSKYYNMPIEIKLE;locus_tag=LOCUS_03110;note=MGA_313
sequence1	MetaGeneAnnotator	CDS	186417	187334	.	+	0	ID=MGA_314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMSAEEILINCEKQFSFLKKDIEVLISYINELLAQCKKIDNSNFFQQQINYFLEKLKIENKELIENAFEKEISSDVHVEIEKYHEIQRFAEKKRNNITDLKTKIFLLKSDIIKKEQMQIKKSLEKNYFSNILDLKKQLIMNYKDDQDKLFIKKLFEDKEHLFINKKKDKILSYIFIELEKYKTSNKIIFEEIISNSIELYKDDQDVFAIVKNEMKLLSENKDNENINEIISKYLYNSSKLAEQEVIRKDNVLKIVNAIRKVGYIVNPNNIRKIKQKNLIIIHGEKITGETADFAVRHDGSFIYN;locus_tag=LOCUS_03120;note=MGA_314
sequence1	MetaGeneAnnotator	CDS	187514	188233	.	+	0	ID=MGA_315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTKKKLNQLKNLIGIKKAIIVEGNIDDIYEYKGRYINIHEIIFNIFDEKKYSDKFIFDQNSGLRGSKFSNLLLNDNQISNQQSLNDFEELFSDNTQSSSEDSIKFKKPIDFFSILNKNLNRIDNKKIVFLADYTNFVFADNSLELEDRIVLTEFSKSLKESEFSISKIDELSNCIIFLTKKINQLPPNLYLDNPEILILTIPKPNREERREFLSTLKSLISVTDISLEFENIVDATEG;locus_tag=LOCUS_03130;note=MGA_315
sequence1	MetaGeneAnnotator	CDS	188366	189316	.	+	0	ID=MGA_316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSIKDVLSSKVIGQEDAISKVIKIIYKAYTGLSGVTYSSKRSKPKGTLFFVGPTGTGKTELAKAITTFLFNDETNLIRFDMSEYGQENSDQKLIGAPPGYVGFEGGGQLTNAVKEKPFSVILFDEIEKANPKIFDKFLQILEDGRLTDNTGQTVSFSETFIIFTSNIGAAEVSPNQESTLIYNEFIRKVQNHFTNELNRPELLGRFGNNIIPFNFIKDLSLKAKIIKQKVKPLQIAIYEKYKAKLYIDLNDQNIIEIILQNADERRGGRDVLNSLETNLVDPLSEFIFKNLQNIKPGVKIQVFVQQGKINFNING;locus_tag=LOCUS_03140;note=WP_010895630.1 AAA family ATPase (Pseudomonas aeruginosa) [pid:43.4%25%2C q_cov:94.3%25%2C s_cov:47.8%25%2C Eval:3.3e-63%2C partial hit],MGA_316
sequence1	MetaGeneAnnotator	CDS	189699	189905	.	+	0	ID=MGA_317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLLDRKRRLVGSKNQRVIKITDKYKDCDYFEQPHSEAEIQIYNNRLSLNGDGVIFDNEEGEFNFKLK;locus_tag=LOCUS_03150;note=MGA_317
sequence1	MetaGeneAnnotator	CDS	190110	190304	.	+	0	ID=MGA_318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKSLELLKKRRSAKRFVNDFKIDDSKLNELLESIRMAPSSFGMEPFRVIYIENKEIRDELFQA;locus_tag=LOCUS_03160;note=MGA_318
sequence1	MetaGeneAnnotator	CDS	190350	190499	.	+	0	ID=MGA_319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFKEEYITKTLIPEQNQRNIPEQFANIRTQMVGGLTSALAVHGMNYEE;locus_tag=LOCUS_03170;note=MGA_319
sequence1	MetaGeneAnnotator	CDS	190524	190757	.	+	0	ID=MGA_320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTVLNTAEELGIDLCPSEGFDPNEVAKVLEKHNLIDIKSEKVMVGSFVGKVDTSQDFHHFFEKTRKPMELAAKVVK;locus_tag=LOCUS_03180;note=MGA_320
sequence1	MetaGeneAnnotator	CDS	190912	191286	.	+	0	ID=MGA_321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSTNSSRYQLIFDITISAIFISLAISLKIIFFFIPRFDLSIYILCISALFLKNKIALLVTIGVSLLSFFVEKSIIEWASYMLVSMLICTIFILIRKFIFKNKIILYALLPVLVLLYSTVSLFT;locus_tag=LOCUS_03190;note=MGA_321
sequence1	MetaGeneAnnotator	CDS	191650	191937	.	+	0	ID=MGA_322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFVTPLWMKMAKRKGNKNVLQVNSIGILIAIIFTFSSFSTTNILFSNISIFVGIILFGSFIAGFLPINIEAIKSYEKRNNLKNKTSKYNALFEF;locus_tag=LOCUS_03200;note=MGA_322
sequence1	MetaGeneAnnotator	CDS	191934	192398	.	+	0	ID=MGA_323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYSLAFFIRIIYKINICYVFIYVYSILIPILIICNKNIMSEKNVLIFDKKAINTLKQNKDFFIQVFIQNYFIGFIKFLEISLSIFFFINLYQNEITFNFDIKQNYVYLFIIFSFVLKYLSQEIFKLFNYNNPKINRVGIFFSIFWNIYFINNL;locus_tag=LOCUS_03210;note=MGA_323
sequence1	MetaGeneAnnotator	CDS	192936	193067	.	+	0	ID=MGA_324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKEFVDETNYLTEAEKVGYSYVFHLQLTEETKKNNEKLAGLD;locus_tag=LOCUS_03220;note=MGA_324
sequence1	MetaGeneAnnotator	CDS	193299	193427	.	+	0	ID=MGA_325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNIFQGNFPYENTLEDGYLGTSPCTAFPPNSYGIYQMLGNV;locus_tag=LOCUS_03230;note=WP_026311868.1 formylglycine-generating enzyme family protein (Bradyrhizobium huanghuaihaiense) [pid:64.3%25%2C q_cov:100.0%25%2C s_cov:12.7%25%2C Eval:3.0e-10%2C partial hit],internal stop codon at [193188:193190](+)%2C[193221:193223](+)%2C[193296:193298](+)%2C[193425:193427](+),MGA_325
sequence1	MetaGeneAnnotator	CDS	193693	194544	.	-	0	ID=MGA_326;product=bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013447977.1;translation=MSDKILDGKFLSQKLNSALKNSIEQLGKKRLPKIAIIQIGNNSASNKYIKNKIKACNDVGMLNTLIKLEENIKENELIEIINKLNNDETVDGIILQLPLPLNINENKITKLISPEKDADGFSPITLGNVILNNSNIFPATPFGIIKLIEHKQINIVGANVVIIGRSNIVGKPLANMLINKSATVTVCNSKTKNLSKICKAADILISAAGSPKFVNKKFVNKKMTVIDVGANFFEGKYCGDVDFKKVYPIVKYITPVPGGVGPMTIACLLQNVFQLYKNKNSNQ;locus_tag=LOCUS_03240;gene=folD;note=WP_013447977.1 bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD (Mycoplasma leachii) [pid:45.8%25%2C q_cov:96.5%25%2C s_cov:96.2%25%2C Eval:1.5e-61],MGA_326
sequence1	MetaGeneAnnotator	CDS	194585	194992	.	+	0	ID=MGA_327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIKKILNKLKINDDDLKFYGNNITKIDYENYFCNKKKGKLILMTSINPTQAGEGKTTTAIGLADGLNYLKKSVILALREPSIGPVFGRKGTATGGGESEIEPMSEINLHFTGDIHAISTANNLVSATIDSEIY;locus_tag=LOCUS_03250;note=WP_005809880.1 formate--tetrahydrofolate ligase (Desulfitobacterium hafniense) [pid:57.0%25%2C q_cov:93.3%25%2C s_cov:22.9%25%2C Eval:1.2e-35%2C partial hit],internal stop codon at [194990:194992](+)%2C[195029:195031](+),MGA_327
sequence1	MetaGeneAnnotator	CDS	195041	195679	.	+	0	ID=MGA_328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLNDRALRNMEIQISKNVSRKEEFTITAASNMMTILSLSKSEEDLRDRINDSLIAYDKNGEPIFLKSLEITGSLMVLLKDAIKPNFVLTKNDTPALVHCGPFANIATGTNSIISTNLALNLADYCIVESGFGSDLGFEKYMNIINNENDLIPDCVVMVITLRALNLHKDFENNFTHLEQHLKHVRLYNLNLVVAINFINGDSEKQLIALQD;locus_tag=LOCUS_03260;note=WP_000845308.1 formate--tetrahydrofolate ligase (Streptococcus) [pid:43.6%25%2C q_cov:99.5%25%2C s_cov:40.8%25%2C Eval:5.0e-47%2C partial hit],internal stop codon at [194990:194992](+)%2C[195029:195031](+)%2C[195677:195679](+)%2C[195701:195703](+),MGA_328
sequence1	MetaGeneAnnotator	CDS	195743	196150	.	+	0	ID=MGA_329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLANRVIENSNRQFKFKTLINSQDSIKEKIKKIVNNFYYLNEINYTENAENSISQINLSKYKEYPICMVKSSNSIDGNDFNQKNYKLIIDKVIVNSGARFILVFTNNVMSMPGLNKNPNSKIIDLVNKKVCGLK;locus_tag=LOCUS_03270;note=WP_012048375.1 formate--tetrahydrofolate ligase (Clostridium botulinum) [pid:30.3%25%2C q_cov:94.8%25%2C s_cov:23.7%25%2C Eval:1.3e-13%2C partial hit],internal stop codon at [195677:195679](+)%2C[195701:195703](+),MGA_329
sequence1	MetaGeneAnnotator	CDS	196180	196332	.	-	0	ID=MGA_330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYMFALAIQKGLTIDELPLVDIFFLPHFNKPYNFITLASLEVLGLNYFKK;locus_tag=LOCUS_03280;note=WP_011182934.1 FAD-dependent oxidoreductase (Mesoplasma florum) [pid:88.0%25%2C q_cov:100.0%25%2C s_cov:11.1%25%2C Eval:1.2e-19%2C partial hit],internal stop codon at [196396:196398](-)%2C[196531:196533](-),MGA_330
sequence1	MetaGeneAnnotator	CDS	196396	196527	.	-	0	ID=MGA_331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASVGISMESCKRFGIDAEEVIFKDSDRPEFMSSFKEVSIKII;locus_tag=LOCUS_03290;note=WP_011182934.1 FAD-dependent oxidoreductase (Mesoplasma florum) [pid:53.5%25%2C q_cov:100.0%25%2C s_cov:9.5%25%2C Eval:1.8e-07%2C partial hit],internal stop codon at [196396:196398](-)%2C[196531:196533](-),MGA_331
sequence1	MetaGeneAnnotator	CDS	196531	196986	.	-	0	ID=MGA_332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVYYDHEFTGLVEKTMQEKGVHLALGQKVVKFEGENGKVKKVITDKGEIEVDYVVFSVGVKPQTDLLKGIIELDERGAIKTNEFMQSSNKDIYSVGDCAQVYNCSLKQDTQIALATTAVRTGIMAAVNIVKGNELSSPGFTGANGIEVFG;locus_tag=LOCUS_03300;note=WP_011166460.1 FAD-dependent oxidoreductase (Mycoplasma mycoides) [pid:64.2%25%2C q_cov:100.0%25%2C s_cov:33.3%25%2C Eval:2.0e-54%2C partial hit],internal stop codon at [196396:196398](-)%2C[196531:196533](-)%2C[197197:197199](-),MGA_332
sequence1	MetaGeneAnnotator	CDS	197398	197538	.	-	0	ID=MGA_333;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIVIGTNHAGTTTVRTLRRLDPKMEITTYDANDNISFLGCGIAL;locus_tag=LOCUS_03310;note=WP_011166460.1 FAD-dependent oxidoreductase (Mycoplasma mycoides) [pid:80.4%25%2C q_cov:100.0%25%2C s_cov:10.1%25%2C Eval:2.4e-15%2C partial hit],internal stop codon at [197197:197199](-)%2C[197302:197304](-)%2C[197398:197400](-),MGA_333
sequence1	MetaGeneAnnotator	CDS	198008	198361	.	+	0	ID=MGA_334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKEKINLLQTNVNVHIFKKDLIEKKVVQLGKFDFYFSNKNLFFTNSFQKIQRIINYEEIKSVTAEIYGIIIETEDNKYLIRGKNKLLTYVLLQRMVPKLNLNINNISKIYNYFDF;locus_tag=LOCUS_03320;note=MGA_334
sequence1	MetaGeneAnnotator	CDS	198413	198586	.	+	0	ID=MGA_335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVIKVINNNKAGEVAGDIILNIVKNKANAILGLATGSTPISTYKYLIEKTKNQKVD;locus_tag=LOCUS_03330;note=WP_011166981.1 glucosamine-6-phosphate deaminase (Mycoplasma mycoides) [pid:46.4%25%2C q_cov:98.2%25%2C s_cov:23.0%25%2C Eval:1.4e-07%2C partial hit],internal stop codon at [198584:198586](+),MGA_335
sequence1	MetaGeneAnnotator	CDS	198662	199063	.	+	0	ID=MGA_336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNTFFDHINIDKKNTFVPDGLIETNEQAAKYDKDIKMAGGIDIQLLGLGINGHIVFNEPGTLFDSITSIVDLTQSTIEVNSRFFKDKKDVPNQAISMGLNSIMKAKEIVLIATGKSKAEAVKHLIEGPISKD;locus_tag=LOCUS_03340;note=WP_011166981.1 glucosamine-6-phosphate deaminase (Mycoplasma mycoides) [pid:56.8%25%2C q_cov:99.2%25%2C s_cov:53.3%25%2C Eval:1.7e-34%2C partial hit],internal stop codon at [198584:198586](+)%2C[199061:199063](+),MGA_336
sequence1	MetaGeneAnnotator	CDS	199262	199648	.	+	0	ID=MGA_337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKNNSEAVQFVKSIEEKIVKNENLIAGIAVPSVMLSDVKKIAKNIIIAAQNCYFEKEGAFTGEISIPMLQDLSINYVVIGHSERRNIFGETDEMINKKLKALLSANMTPILCCGESLKTYEKGKTVD;locus_tag=LOCUS_03350;note=WP_000087897.1 triose-phosphate isomerase (Streptococcus pneumoniae) [pid:53.1%25%2C q_cov:100.0%25%2C s_cov:51.6%25%2C Eval:1.3e-32%2C partial hit],internal stop codon at [199256:199258](+)%2C[199646:199648](+)%2C[199730:199732](+),MGA_337
sequence1	MetaGeneAnnotator	CDS	199987	200331	.	+	0	ID=MGA_338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKESKFKLVALDMDGTTYESLGNIVEENIEPINNTIKNGVKIVFVTGRPVHSKINRLELFNFDNDEETLFAGFNGALIFDITNNLKIDEQPISKDTAKAAFDLLKLEKFKDCNL;locus_tag=LOCUS_03360;note=WP_011166984.1 HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:43.0%25%2C q_cov:100.0%25%2C s_cov:40.6%25%2C Eval:8.5e-21%2C partial hit],internal stop codon at [200329:200331](+)%2C[200536:200538](+),MGA_338
sequence1	MetaGeneAnnotator	CDS	200641	200817	.	+	0	ID=MGA_339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIGDGANDIPMFEFAGHSIAPANAHADVKKKAIEVSDFKNTEGVVAKALKKYILGEN;locus_tag=LOCUS_03370;note=MGA_339
sequence1	MetaGeneAnnotator	CDS	200981	201655	.	+	0	ID=MGA_340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEGQMGNSEVGHIHLGAGRIKYESLSLINKAIKDNVFDSNLEIQNAIKTSKDNNSAFHIMGLFSDGGVHSHMQHMFATFEAAAKAGLKEIYLHLFTDGRDTKPTVALDYLEKLYNLFDEYKVGEVGSISGRFYSMDRDKRMERTAEGYNSLVDRKCKNSFTNPFDYIKSQYELGKDDEGILPAFNKTCKNGFIKPKDTLVFANFRPDRAIQMASTFTNKDYSA;locus_tag=LOCUS_03380;note=WP_011183400.1 2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase (Mesoplasma florum) [pid:53.1%25%2C q_cov:100.0%25%2C s_cov:42.5%25%2C Eval:1.1e-63%2C partial hit],internal stop codon at [200861:200863](+)%2C[200945:200947](+)%2C[200972:200974](+)%2C[201653:201655](+)%2C[201791:201793](+),MGA_340
sequence1	MetaGeneAnnotator	CDS	201986	202405	.	+	0	ID=MGA_341;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAIEITDKLVERINSEEFDLIVLNYANCDMVGHTGVLKAAIQGVKVLDDQLKRVYEACTNHGATMIITADHGNAEVMIDNDGRPNKKHTSQPVPIIITDKNLKLRKDDAAIADVAVTICEMMGIEIPSEMTQPSLIEK;locus_tag=LOCUS_03390;note=WP_011183400.1 2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase (Mesoplasma florum) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:26.3%25%2C Eval:1.3e-45%2C partial hit],internal stop codon at [201791:201793](+),MGA_341
sequence1	MetaGeneAnnotator	CDS	202420	202746	.	-	0	ID=MGA_342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLFSFCFIISIILLTKTKNYQFIEDNLFLYNLFYLILYLITLSISFIGIVLIILKFIAKKENKTFDFILQFFCAFFLIHIYFITILFFIPIIIARKFENKLNNEKEI;locus_tag=LOCUS_03400;note=MGA_342
sequence1	MetaGeneAnnotator	CDS	203611	204012	.	-	0	ID=MGA_343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLEQAKSKGVNFLTPYKFSEITGEKLNNAEKLKVIQVETNEEKEICFDKVIVQFGYTIEKEKFENLNLEINKLKKIIVKSNMESSVEGIYAAGDCCHYDTKVRNLLAGFYEAMIAVVNIEKKVNKRKILNSG;locus_tag=LOCUS_03410;note=WP_002287165.1 NAD(P)/FAD-dependent oxidoreductase (Enterococcus) [pid:33.6%25%2C q_cov:99.2%25%2C s_cov:39.2%25%2C Eval:2.6e-14%2C partial hit],internal stop codon at [204085:204087](-),MGA_343
sequence1	MetaGeneAnnotator	CDS	204280	204528	.	-	0	ID=MGA_344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAADLKLSGTVVEAKSTYGGQITSSYPEKYIHNFPAIDKILGNQAVQKMYECIKKDNNINFFLNTIVTSINIIKPDCDEFEN;locus_tag=LOCUS_03420;note=MGA_344
sequence1	MetaGeneAnnotator	CDS	204628	204960	.	+	0	ID=MGA_345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGKYNRITVFKVKNINELVEVAQKLALFFKKNTCLLLDGEMGAGKTTFTKIFLKELGVKEVVTSPTFVIMNQYFSNEIKINHIDAYRLNQNEEFEMYLDEMIDSFNVIE;locus_tag=LOCUS_03430;note=WP_020862622.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE (Mycoplasma mycoides) [pid:50.0%25%2C q_cov:90.0%25%2C s_cov:73.9%25%2C Eval:4.3e-25%2C partial hit],internal stop codon at [204958:204960](+),MGA_345
sequence1	MetaGeneAnnotator	CDS	205068	205634	.	+	0	ID=MGA_346;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183392.1;translation=MNFFIDTSNTKLVLILEHNNIIIDSLIMENQFKVSDIVFTEIEKFLQKNNLTLKNLKNLYTTRGPGSYTGIRVAITILKTLKLINPFYNIFLISSLAFQAELNDSISILDAKGNKSYIGIYSKGENIILDQLVPNELIEEFKQQFPNYQVKKDYENINFEQYFLKLKNYFKNIENIENIEPLYIKHFI;locus_tag=LOCUS_03440;gene=tsaB;EC_number=2.3.1.234;note=WP_011183392.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB (Mesoplasma florum) [pid:43.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.7e-39],MGA_346
sequence1	Aragorn:1.2.38	tRNA	205675	205765	.	+	.	ID=Aragorn_19;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00180;note=Aragorn_19
sequence1	MetaGeneAnnotator	CDS	205862	206170	.	+	0	ID=MGA_347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNNKKEKSILSENQPKKSFLKKIFNFKEGQKKVFQIIKNKKNNHLYFYTDVSNIFLILENGIRLLKDQKLKKDEEYIVWTYLENENSVGLEFDSSTRAHF;locus_tag=LOCUS_03450;note=WP_011166522.1 hypothetical protein (Mycoplasma mycoides) [pid:39.2%25%2C q_cov:99.0%25%2C s_cov:45.1%25%2C Eval:5.6e-12%2C partial hit],internal stop codon at [206168:206170](+)%2C[206174:206176](+)%2C[206261:206263](+),MGA_347
sequence1	MetaGeneAnnotator	CDS	206312	206449	.	+	0	ID=MGA_348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEAIEFIMIKDKANLNRIQTYVDANDIEIDVFFGETGNIEKKERK;locus_tag=LOCUS_03460;note=MGA_348
sequence1	MetaGeneAnnotator	CDS	206973	207230	.	+	0	ID=MGA_349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLDILEIYKYIANEILLLPVIFGKKTEKEKFAGAKETYTIESLMYDGQALQCGTSHYFEDNFSKVFNIKFQNKNQEEENPYSTS;locus_tag=LOCUS_03470;note=WP_011166523.1 proline--tRNA ligase (Mycoplasma mycoides) [pid:75.9%25%2C q_cov:97.6%25%2C s_cov:17.5%25%2C Eval:2.6e-30%2C partial hit],internal stop codon at [206862:206864](+)%2C[206925:206927](+)%2C[207228:207230](+),MGA_349
sequence1	MetaGeneAnnotator	CDS	207264	207875	.	+	0	ID=MGA_350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTHSDDFGLVLPSKIAPIQISLIAINDFVEVIQTCEKLKSMFELKYRVELDKTDKSFGFKISEAEIKGVPIRIEIGPRDLKNGVATVSRRDLRTKEQVEIEKINDYIEKQISEYDKNLYNKALQHRKNLTFKANTLEEYISIIDKNPGYVLVPFCGEIECETDIKHKTSTNSRCIPSDIEQINSICFNCSKKSSLMVYFARAY;locus_tag=LOCUS_03480;note=WP_011183374.1 proline--tRNA ligase (Mesoplasma florum) [pid:59.6%25%2C q_cov:100.0%25%2C s_cov:42.9%25%2C Eval:4.7e-68%2C partial hit],internal stop codon at [207228:207230](+),MGA_350
sequence1	MetaGeneAnnotator	CDS	208712	208909	.	+	0	ID=MGA_351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLISGKDDPVGNFSKKVKKTYRIFKNKKLDVKIKLYDKLRHEILFDLSKEQVYIDILEFLKKLLK;locus_tag=LOCUS_03490;note=WP_011182996.1 alpha/beta hydrolase (Mesoplasma florum) [pid:52.3%25%2C q_cov:100.0%25%2C s_cov:21.0%25%2C Eval:2.9e-13%2C partial hit],internal stop codon at [208493:208495](+)%2C[208556:208558](+)%2C[208610:208612](+),MGA_351
sequence1	MetaGeneAnnotator	CDS	209037	209198	.	+	0	ID=MGA_352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTKPGDLVLVHAYKHNGNLYRSWENVIVFENNEDCLILINEEVLITEFNGRR;locus_tag=LOCUS_03500;note=MGA_352
sequence1	MetaGeneAnnotator	CDS	209259	209426	.	+	0	ID=MGA_353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKERGINYYCNLASPYIVEENTIKYIDYDLDFKVFNDYSYKILDLREFNRNRIS;locus_tag=LOCUS_03510;note=WP_003130958.1 DUF402 domain-containing protein (Lactococcus) [pid:54.7%25%2C q_cov:96.4%25%2C s_cov:30.1%25%2C Eval:2.9e-13%2C partial hit],internal stop codon at [209196:209198](+)%2C[209220:209222](+)%2C[209241:209243](+)%2C[209424:209426](+)%2C[209457:209459](+),MGA_353
sequence1	MetaGeneAnnotator	CDS	209644	210423	.	+	0	ID=MGA_354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKTKIRNFSIIAHIDHGKSTLADRILELTGALEKREMQAQILDSMDIERERGITIKLNSVQLKYKAKDNEEYIFHLIDTPGHVDFTYEVSRSLAACEGALLVVDASQGIEAQTMANVYLALDNNLEIVPVINKIDLPAADHQRVKEEIESVIGIDCTNAPMISAKTGLNVEDVLEAIVNFVPFPLEADDSKPLKALIFDSYYDKYRGVMVSIRIVEGTVEVGQSIRMMQSNAVYEVTELGVKSPFEVKKTKLEAGEVG;locus_tag=LOCUS_03520;note=WP_011183371.1 translation elongation factor 4 (Mesoplasma florum) [pid:78.0%25%2C q_cov:100.0%25%2C s_cov:43.2%25%2C Eval:1.1e-113%2C partial hit],internal stop codon at [210421:210423](+),MGA_354
sequence1	MetaGeneAnnotator	CDS	210532	211446	.	+	0	ID=MGA_355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYCGIYPIDTAKYKDLKEALEKISLSDASLVYEAESSQSLGFGFRCGFLGLLHMDVIQERLEREYDLTLIATAPSVIYKITQTDDQIIEIDNPALLPDPQKIKFIEEPYVKVTIMTPDQYLGDLMGLCQDKRGNYLNIEYIDDSRRTLTYEMPLNEIVFDFFNKLKSISKGYASFDYDLIDYKQSKLIKMDILLNGDIIDALSTIVHKDFAYHRGKILTKKLEEIIPRQNFEVPIQAAIGSKIIARETIKAMRKNVLAKCYGGDISRKKKLLEKQKEGKKRMKAIGSVEVPQEAFIAVLKLDD;locus_tag=LOCUS_03530;note=WP_003229999.1 translation elongation factor 4 (Bacillus) [pid:67.8%25%2C q_cov:100.0%25%2C s_cov:49.7%25%2C Eval:3.5e-123%2C partial hit],internal stop codon at [210421:210423](+),MGA_355
sequence1	MetaGeneAnnotator	CDS	211479	211883	.	+	0	ID=MGA_356;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986713.1;translation=MMFFLEAKKIRDVVFVKEQECPINEEFDKYDNVSYHIVGFLNKKPVCCAKILKKKDEKWYLGRIAVLKENRDQNLVFDLMKYLIEFFIKNINQKELYLNAQIYALNFYKKLNFNEIGETFFEANIEHIKMVRFF;locus_tag=LOCUS_03540;EC_number=2.3.1.-;note=WP_011986713.1 GNAT family N-acetyltransferase (Clostridium botulinum) [pid:37.5%25%2C q_cov:94.0%25%2C s_cov:85.2%25%2C Eval:2.1e-19],MGA_356
sequence1	MetaGeneAnnotator	CDS	212037	212366	.	+	0	ID=MGA_357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQIKIWRFLIIFVTSIFLIVFLPFFSILVVEDLVTISISTVFIKTSIFTVLLMTFGFFYLISGILTNSFKNKPMKIFGSINGVIITFTIILLTMDMYMSPFSNITRII;locus_tag=LOCUS_03550;note=MGA_357
sequence1	MetaGeneAnnotator	CDS	212379	212921	.	+	0	ID=MGA_358;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFLILDFAIEIIQISINFNFLGQNTSINNSLNQSSNNIVESVEFANVNPLVDVKDSTELKNKILNMRSGLNKPYDQAIEEIEQTGALNGLDMSNLLLKSDEQELESKIVPKKVLKEDIKDKNLNYEEAFNSKTEPFLEDPLANLSEDYESIHSTGLSRQDSRPEYKYISRRSNRKDNKH;locus_tag=LOCUS_03560;note=MGA_358
sequence1	MetaGeneAnnotator	CDS	213225	213404	.	-	0	ID=MGA_359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAINNRDQKIKLNERYAFFLQEDFLKKGITTKNNIIKTLNTQKNGAIIQITKLFIPTS;locus_tag=LOCUS_03570;note=MGA_359
sequence1	MetaGeneAnnotator	CDS	213541	213873	.	+	0	ID=MGA_360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIALQSIYVVLFIFGIFLIFESDMLRKLKLDYYRFTVNRKNNSLMNQVLEGKINFGDYEAKDLNSEIKRLKNELTIEAREQRVQKRLNELEERANRKNAKKFKNKKETKL;locus_tag=LOCUS_03580;note=MGA_360
sequence1	MetaGeneAnnotator	CDS	213803	213982	.	+	0	ID=MGA_361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNWKREQIEKMQKNLKIKKKLSYKGKEIEYFLVLKNQKYIRLKIIDESIIVSAPTIAND;locus_tag=LOCUS_03590;note=MGA_361
sequence1	MetaGeneAnnotator	CDS	215009	215152	.	+	0	ID=MGA_362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRTGLDSIENILEKILLIIDNKKIDLYKQHLIVEEIIDLGDDFTYH;locus_tag=LOCUS_03600;note=MGA_362
sequence1	MetaGeneAnnotator	CDS	215159	215509	.	+	0	ID=MGA_363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDQVIDLTVETFLFQNKYGKTTSSTYSNIFEEEKDFEDFFEKTKTMVFNDEVNEAFAYFEITKMAKPDEFKKIYRKYAKKFHPDVNSDPNSSNEMKKINVFKTIIEQYYEKYEII;locus_tag=LOCUS_03610;note=WP_012775428.1 molecular chaperone DnaJ (Streptococcus suis) [pid:50.0%25%2C q_cov:32.8%25%2C s_cov:10.1%25%2C Eval:9.0e-07%2C partial hit],MGA_363
sequence1	MetaGeneAnnotator	CDS	215544	215819	.	+	0	ID=MGA_364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLINSSNSIINNFSSDQKVIIETVKNFSDNLVLFSQIYLSDRESFFRFLKGKYNYFYLQATSIISSADSVSVIMQLNEGVKDYLIYLDSY;locus_tag=LOCUS_03620;note=MGA_364
sequence1	MetaGeneAnnotator	CDS	216462	217034	.	+	0	ID=MGA_365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMAMCDAFTDFEEIYNISYNLFVEKNKELLENLKLYDYAFKKYFDFLLGIFKEELEETLIPVKYKIVVEDIQKSILRLEELNEFNFIIKENYRLNDLISDLLDLLEETNDEVQEFETDNEVILYNFSIYYSTKFYFTLLFREKILLQIEKETNVIIENNKPLIEEEEMRLSETTLSSEQSKEIFYKILKN;locus_tag=LOCUS_03630;note=MGA_365
sequence1	MetaGeneAnnotator	CDS	217058	217228	.	+	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFIFKNYSINLNNTFDFEIKNLILIKLKLSNVNYINFKNNIYYYFFVIKLGEQHE;locus_tag=LOCUS_03640;note=MGA_366
sequence1	MetaGeneAnnotator	CDS	217221	218948	.	+	0	ID=MGA_367;product=translational GTPase TypA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183367.1;translation=MNKKIINIAVIAHVDAGKSTLVDAFLGQAGVFRANEEIKEQIMDSNDQERERGITIYSKNCAIEYNDYKINIVDTPGHADFSSEVERIMKTVDTVILLVDSSEGPMPQTRFVLSKALELGLRPILLINKIDKKDQRALEVVDEVLELFMELDANEEQIEFPTLFGIARDGIVQYSIEEKSENLTPLFETIIKQVGNYPIELAKEPIQLQISSLAYDSFIGRLGIGRLFKGILKEGQQVAISKNDGSIVKGKVSGLFIYQGLKRVAVKEVQAGEIVVISGISDLTIGDTVCEIDKIVALPPIVIEEPTMSMNFLVNTSPFAGRVGKFVTTRNIKERLDKELEVNVGLRVEALTDSSADGFKVLGRGELHLSVLIETMRREGFELGISRPEVVIKLDENGNKLEPMEKVIIDVPSEFSGTVINKLNLRKGIMLDMDSDGIRDKVTYQVPTRGLIGFKSEFTNDTRGEGVMVKSSIGYEPYKGTIEGRQNGTLVSMANGVTLPYALNNLEERGILFVGPQVEVYDGMIVGLHSRNNDLNVNPTTGKKLTNTRASGSDDSVKLTPPKKFTLEEALEFIE;locus_tag=LOCUS_03650;gene=typA;note=WP_011183367.1 translational GTPase TypA (Mesoplasma florum) [pid:75.4%25%2C q_cov:99.8%25%2C s_cov:93.8%25%2C Eval:1.7e-253],MGA_367
sequence1	MetaGeneAnnotator	CDS	219139	219681	.	+	0	ID=MGA_368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIVNILAREVLDSRGFPTVQVDVTTEFGGFGTAKVPSGASTGSREALELRDGDKKRFNGKGVLKAVANVNEKIAPEIIGLEVTDQVMIDSLMCKLDGDDFKKNLGANAILGVSLAVAKAAASELEMPLYRYIGGTNARRLPVPMLNVINGGEHADSAIDFQEFMIMPVGAPTFKEALR;locus_tag=LOCUS_03660;note=WP_011183366.1 phosphopyruvate hydratase (Mesoplasma) [pid:77.8%25%2C q_cov:100.0%25%2C s_cov:39.7%25%2C Eval:5.3e-75%2C partial hit],internal stop codon at [219679:219681](+)%2C[219778:219780](+),MGA_368
sequence1	MetaGeneAnnotator	CDS	220111	220281	.	+	0	ID=MGA_369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGHKIQIVGDDLFVTNPKITAEGIEKKAANSVLIKLNQIGTLTETIETIQMAQKAN;locus_tag=LOCUS_03670;note=WP_011166450.1 phosphopyruvate hydratase (Mycoplasma mycoides) [pid:72.7%25%2C q_cov:98.2%25%2C s_cov:12.2%25%2C Eval:2.8e-16%2C partial hit],internal stop codon at [219985:219987](+)%2C[220081:220083](+)%2C[220279:220281](+),MGA_369
sequence1	MetaGeneAnnotator	CDS	220342	220491	.	+	0	ID=MGA_370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALNTGQIKTGSMSRSDRIAKYNRLLEIEDELGDAAIYDGLKSFYNLTK;locus_tag=LOCUS_03680;note=WP_000103949.1 phosphopyruvate hydratase (Bacillus) [pid:73.5%25%2C q_cov:100.0%25%2C s_cov:11.4%25%2C Eval:2.4e-15%2C partial hit],internal stop codon at [220081:220083](+)%2C[220279:220281](+),MGA_370
sequence1	MetaGeneAnnotator	CDS	220822	221022	.	+	0	ID=MGA_371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFQIFALVTILVTYFSSDLLLISNNPTKIEKIELICSIIYFMLTIFAIIYINIIVFYKKYYKNIY;locus_tag=LOCUS_03690;note=MGA_371
sequence1	MetaGeneAnnotator	CDS	221032	221286	.	+	0	ID=MGA_372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKASYYALAFLILTLLSTQLLKIIFGRNRPESVIDYQNDFQYIFQINFSKQRGTSFPSGHTVSSATLLCFSYFFYLKSKKTKI;locus_tag=LOCUS_03700;note=MGA_372
sequence1	MetaGeneAnnotator	CDS	221462	221884	.	+	0	ID=MGA_373;product=Holliday junction resolvase RuvX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183362.1;translation=MAKYVGLDLGSKTIGIAVSEGYFANSKETIKFLENDFNQAVNLLNSFLKKETFEKVIIGYPKNMDGTIGHRVEMVENFIDIAVRKNVFSLNDIIKVDERLTTKMAKSIMISANLSRQKQKENKDQFAAKLILETFLNTIK;locus_tag=LOCUS_03710;gene=ruvX;EC_number=3.1.21.10;note=WP_011183362.1 Holliday junction resolvase RuvX (Mesoplasma florum) [pid:54.6%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:6.4e-35],MGA_373
sequence1	MetaGeneAnnotator	CDS	221919	222362	.	+	0	ID=MGA_374;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183361.1;translation=MNHPLVKKILFSEDQIDKRVSELTDEIAEYYKKNNLKENTVLLIGLLKGCVPFMANFLKHFKYECQTEYMVVSSYLGGTKTSGEPKINLDLNISVKDKHILIVEDIIDSGITLDYIKKYLYFKGAKEIKIVTLLDKPEGRKIELKAD;locus_tag=LOCUS_03720;gene=hpt;EC_number=2.4.2.8;note=WP_011183361.1 hypoxanthine phosphoribosyltransferase (Mesoplasma florum) [pid:55.9%25%2C q_cov:98.6%25%2C s_cov:76.7%25%2C Eval:1.5e-45],internal stop codon at [222360:222362](+)%2C[222474:222476](+),MGA_374
sequence1	MetaGeneAnnotator	CDS	222600	223109	.	+	0	ID=MGA_375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFKQKSENKEKLLLLKSCLGDLKKIENVNHCSTRIRIKVLNIDEINLEKIKEIDFIQNALVNENMVHLLINKNIEKINIEFLGILGIDVSKVANLFDVKINQKKKIMQTIFDGISLIIGPIIPFLITLALVSTITNVIAMIDTDNVVYKMFKVLQKELVLGFSIIIH;locus_tag=LOCUS_03730;note=WP_011183425.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:36.2%25%2C q_cov:89.9%25%2C s_cov:32.0%25%2C Eval:1.3e-24%2C partial hit],internal stop codon at [223107:223109](+)%2C[223230:223232](+)%2C[223287:223289](+),frameshifted%2C insertion/deletion at around 223340,MGA_375
sequence1	MetaGeneAnnotator	CDS	223565	223966	.	+	0	ID=MGA_376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVTGVIQVFVVMNLQQFTIYQATTIMPMFTQLNIAVATSVLSLSILNRKNKELQKNAIPAYLIAFIGGSTEPALFGVSLRFVFPVIAASIGTALGIVITTASGVVATMGNASLLIFLSVIPNANTTAFNLTT;locus_tag=LOCUS_03740;note=WP_011183425.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:67.5%25%2C q_cov:90.2%25%2C s_cov:23.5%25%2C Eval:7.8e-43%2C partial hit],internal stop codon at [223287:223289](+)%2C[223500:223502](+)%2C[223563:223565](+)%2C[223965:223967](+)%2C[223986:223988](+),frameshifted%2C insertion/deletion at around 223340,MGA_376
sequence1	MetaGeneAnnotator	CDS	223988	224128	.	+	0	ID=MGA_377;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIAMVVTFGTTFLLTMIFASFGKYKKSTQEILNRDFTKVAEIINN;locus_tag=LOCUS_03750;note=MGA_377
sequence1	MetaGeneAnnotator	CDS	224589	224846	.	+	0	ID=MGA_378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDYKIKNKRTAVKHDKNIFTPHARDPKILDYNGKQYMIFGVQTKDDMQGGLAIYELITPEKFNYIDTLKPNWMKLMDICENVQT;locus_tag=LOCUS_03760;note=WP_011183424.1 glycoside hydrolase family 32 protein (Mesoplasma florum) [pid:56.3%25%2C q_cov:83.5%25%2C s_cov:14.8%25%2C Eval:2.0e-17%2C partial hit],internal stop codon at [224358:224360](+)%2C[224394:224396](+)%2C[224475:224477](+)%2C[224829:224831](+)%2C[224892:224894](+)%2C[225078:225080](+)%2C[225123:225125](+),frameshifted%2C insertion/deletion at around 224804,MGA_378
sequence1	MetaGeneAnnotator	CDS	225739	226710	.	+	0	ID=MGA_379;product=6-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183071.1;translation=MIKKIGVLTSGGDAPGMNASVASVIKSAISKGIEPYIIRDGYKGLVNNLIEKVDINFASDIISRGGTVIGSARLPEFKEESIREKAVKNLKLLEIEALVVIGGDGSYQGAEKLTKMGINCIGIPGTIDNDIISSDYTVGFDTALNTVIRSIDSIRDTMQSHNRCSVVEIMGNACGDLTLYAATGTGAEVISTKESFLTEEEIIKQVKDLAQKNKRSVIVAVAEKIYADVHKLAEKIEKESGYVTRATVLGHIQRGGNPTGMDRYLAVTAGIFAVEQLVSGKGGLYIGISENKLVARDINSILNMPRPDKSKEYDSIRNINKAV;locus_tag=LOCUS_03770;gene=pfkA;EC_number=2.7.1.11;note=WP_011183071.1 6-phosphofructokinase (Mesoplasma) [pid:65.8%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:1.5e-122],MGA_379
sequence1	MetaGeneAnnotator	CDS	226727	227560	.	+	0	ID=MGA_380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNLEIEFYEPSKINKKIKRTKIITTIGPSTHSKEDMRKLYEAGMNVVRLNFSHGSQVEHEEKIKSCMELREELEKPISIMLDTKGPEIRIGKMIDGAQEIKAGTEVRIYSNESEYKTKECKLTEMTVSYDMSVDLKPGDTVLVDDGKLTLNVINVDPGIIFCKAFNSHVVKTNKRVNLPGVDFSLPFLSQKDIEDIKFGAKIGVDYIAASFVNSADNVNEIRKILKDAKNENVQIISKIESKIGIFNIDSIIEASDGIMVARGDLGLEIPYYEVPY;locus_tag=LOCUS_03780;note=WP_011183072.1 pyruvate kinase (Mesoplasma florum) [pid:65.6%25%2C q_cov:93.5%25%2C s_cov:54.2%25%2C Eval:4.1e-96%2C partial hit],internal stop codon at [227558:227560](+),MGA_380
sequence1	MetaGeneAnnotator	CDS	227570	228016	.	+	0	ID=MGA_381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRKCRKAGKIVVVATQMLESMTDNPQPTRAEVTDVYYATELGTDATMLSGESAVGIYPFITTETMATINKRAELGFYGKIYYDRALEIAKSSSSGKRAEIADELANITRNGKYEFAVVLSRTGELLKTISKFRPNVTILGVCEDESL;locus_tag=LOCUS_03790;note=WP_011183072.1 pyruvate kinase (Mesoplasma florum) [pid:77.0%25%2C q_cov:100.0%25%2C s_cov:31.0%25%2C Eval:2.8e-58%2C partial hit],internal stop codon at [227558:227560](+)%2C[228014:228016](+)%2C[228032:228034](+)%2C[228116:228118](+),MGA_381
sequence1	MetaGeneAnnotator	CDS	228272	228445	.	+	0	ID=MGA_382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFNLQDKMKRTKVITTIGPSVHSKEAIHELFNKGMTTIRLNFSHADFQEHGERFE;locus_tag=LOCUS_03800;note=WP_011166458.1 pyruvate kinase (Mycoplasma mycoides) [pid:71.9%25%2C q_cov:100.0%25%2C s_cov:11.9%25%2C Eval:5.6e-17%2C partial hit],internal stop codon at [228014:228016](+)%2C[228032:228034](+)%2C[228116:228118](+)%2C[228443:228445](+),MGA_382
sequence1	MetaGeneAnnotator	CDS	228527	229081	.	+	0	ID=MGA_383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINGKQEIKAETEVIVYTNPDDFGSKECSGTELQMSYDMSQDVKAGDIVLVDDGKLTMHVIKVEKFKVICKAFNTHLVKNNKRVNLPGVEFTLPFLAEKDYNDIYFGIENGIDYIAASFVNSADNVKEIRKILKEKKAEHIQIIAKIESQVGCDNIDSIIDEADGIMVARGDLGLEIPYYDVPY;locus_tag=LOCUS_03810;note=WP_011183072.1 pyruvate kinase (Mesoplasma florum) [pid:63.4%25%2C q_cov:99.5%25%2C s_cov:38.3%25%2C Eval:1.7e-63%2C partial hit],internal stop codon at [228443:228445](+)%2C[229079:229081](+),MGA_383
sequence1	MetaGeneAnnotator	CDS	229091	229537	.	+	0	ID=MGA_384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRKCREKGKIVIVATQMLESMTDNPQPTRAEVTDVYYATELGADATMLSGESANGDFPFITVETMSAINKRAEVEFYAKLYYEKQLENARKTTSGKRAEIANQLANTTIDGKYEFAVVASRTGELLKTISKFRPNVTILGVCDKPNL;locus_tag=LOCUS_03820;note=WP_011166458.1 pyruvate kinase (Mycoplasma mycoides) [pid:80.3%25%2C q_cov:95.9%25%2C s_cov:29.7%25%2C Eval:3.0e-60%2C partial hit],internal stop codon at [229079:229081](+)%2C[229535:229537](+)%2C[229553:229555](+)%2C[229637:229639](+),MGA_384
sequence1	MetaGeneAnnotator	CDS	229938	230750	.	+	0	ID=MGA_385;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKITLLDGQVIKYDEPKTIKQIADGIAVSLGKKCVGAVINGKEIVPVGAIIDRDCKLEIITDRHELYNSVINYTAKVITSLALKTVFPDGNAVPKMDDLSTTEFFAYFDIEKKLKLDDLKLVEQKANEIIAMGLDILYISGSEEQYRKQMQSMNVNPKYIEDLLIENKTRYIKFATSSLAGVEFLPRFAILSNTKKLFKIELSELTGVYYNNDSNEKMVYRVHGIAASSEESFEKKKEVLEDIKNRDHKTIAKNLEIYHLDPLIGQGLPI;locus_tag=LOCUS_03830;note=WP_011183074.1 threonine--tRNA ligase (Mesoplasma florum) [pid:34.1%25%2C q_cov:100.0%25%2C s_cov:41.0%25%2C Eval:1.7e-38%2C partial hit],internal stop codon at [230748:230750](+),MGA_385
sequence1	MetaGeneAnnotator	CDS	230796	231269	.	+	0	ID=MGA_386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKEFEYDFIQIETPVIGTTELYKMSGHWDHYRDEMFAPMVLPKEEMVLKPMSCPHHISVYKYKQRSYRDLPLRFAEHATQHRYESSGSLTGIERVRSMELTDAHIFVRPDQIKEEFIRCFNLISEVLKTFDIKVSYLSLSLRDPKDKTKYFNDEKM;locus_tag=LOCUS_03840;note=WP_011183074.1 threonine--tRNA ligase (Mesoplasma florum) [pid:67.3%25%2C q_cov:99.4%25%2C s_cov:24.7%25%2C Eval:1.8e-61%2C partial hit],internal stop codon at [230748:230750](+)%2C[231267:231269](+),MGA_386
sequence1	MetaGeneAnnotator	CDS	231288	231575	.	+	0	ID=MGA_387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENVLKEFNIEYKKMIGEAAFYGPKLDIQAITALGHEITISTIQLDFLLPQKFDISYIDKNGNEARPIMIHRGLASTYERFIAILLEQTLGILPL;locus_tag=LOCUS_03850;note=WP_011183074.1 threonine--tRNA ligase (Mesoplasma florum) [pid:72.6%25%2C q_cov:100.0%25%2C s_cov:14.8%25%2C Eval:5.1e-34%2C partial hit],internal stop codon at [231267:231269](+)%2C[231573:231575](+),MGA_387
sequence1	MetaGeneAnnotator	CDS	231911	232156	.	+	0	ID=MGA_388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNKIKKIEEEIKKLKEFDYSLIEAEHSFMVNGTLGGFKSAVQKLEYTFFKQILLGIMSGVIIGFGYIACITAMVSLPES;locus_tag=LOCUS_03860;note=MGA_388
sequence1	MetaGeneAnnotator	CDS	232208	232678	.	+	0	ID=MGA_389;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITFLGGGLFTSHVFSTIPVLKKCASSNAYFKGIFGVLLGNILGTLVFVLIFAGAGGLQNIDKGSLANKVYDMAMHKLYLVTDEISTKKSITAVSVILTIGIGICSGILCNIMVCATLPLTNSTKNPVAVFLFLIFPIAYFAIGGFQHGPANTFFL;locus_tag=LOCUS_03870;note=WP_011183083.1 formate/nitrite transporter family protein (Mesoplasma florum) [pid:34.6%25%2C q_cov:98.7%25%2C s_cov:43.9%25%2C Eval:1.9e-18%2C partial hit],internal stop codon at [232154:232156](+)%2C[232676:232678](+)%2C[232802:232804](+),MGA_389
sequence1	MetaGeneAnnotator	CDS	233576	233806	.	+	0	ID=MGA_390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEEALGFHMIVIPLMLVAGFDSFTAILTVLLGGGIGPMLATFDPFLIFTAVDASNAAIGSEVVTSTDGLIFRAIS;locus_tag=LOCUS_03880;note=WP_011182912.1 YfcC family protein (Mesoplasma florum) [pid:53.2%25%2C q_cov:100.0%25%2C s_cov:14.6%25%2C Eval:4.5e-14%2C partial hit],internal stop codon at [233498:233500](+)%2C[233804:233806](+)%2C[234062:234064](+)%2C[234077:234079](+),frameshifted%2C insertion/deletion at around 233421%2C233950,MGA_390
sequence1	MetaGeneAnnotator	CDS	233840	233965	.	+	0	ID=MGA_391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYAYKVKKNPERSYTFSTLEEDKKFFLKEQVEKVELTKKE;locus_tag=LOCUS_03890;note=MGA_391
sequence1	MetaGeneAnnotator	CDS	234223	234465	.	+	0	ID=MGA_392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEGAKDIVGVGFIISIAGAITILLKETYIQSLMLNARPTQNGSSSMNPFLFILMTFFIFLPLSFALPSTSGFSYAVFPV;locus_tag=LOCUS_03900;note=WP_020862985.1 YfcC family protein (Mycoplasma mycoides) [pid:40.5%25%2C q_cov:98.8%25%2C s_cov:15.3%25%2C Eval:5.1e-10%2C partial hit],internal stop codon at [234061:234063](+)%2C[234076:234078](+)%2C[234193:234195](+)%2C[234463:234465](+)%2C[234640:234642](+),MGA_392
sequence1	MetaGeneAnnotator	CDS	234484	234642	.	+	0	ID=MGA_393;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTSTGVSMVSGSITAFAFANGMANMISPASGIVVGAAQIGRTSYANIMKGT;locus_tag=LOCUS_03910;note=WP_020862985.1 YfcC family protein (Mycoplasma mycoides) [pid:52.4%25%2C q_cov:80.8%25%2C s_cov:8.2%25%2C Eval:7.0e-07%2C partial hit],internal stop codon at [234193:234195](+)%2C[234463:234465](+)%2C[234640:234642](+),MGA_393
sequence1	MetaGeneAnnotator	CDS	234819	235052	.	+	0	ID=MGA_394;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKKFQSDKAFSKKKFIDSLLTIFEGIKKFPITFLGLFFFIIFDSLLFSSTAVIVNKMISNIQNTGGQFFLDLKMT;locus_tag=LOCUS_03920;note=MGA_394
sequence1	MetaGeneAnnotator	CDS	235146	235409	.	+	0	ID=MGA_395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVYLRIRALRKLIEIDISYYSKTQIGLIMSRIMTDSQGVGDAFNEFLLNFIYTLVSLISTLIVLYLIDVKLASIILGLFIFMVFVV;locus_tag=LOCUS_03930;note=MGA_395
sequence1	MetaGeneAnnotator	CDS	235644	236618	.	+	0	ID=MGA_396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTIVIISAVLIYNDINPAELSVLIISFSSACYNILYSILSLPMCMRGLTKLSNCVMRLNYINNAKSLIEFKKTGTEIEKIDTVEFKKLSFSYPESPSKLILPEINFIFEKGKSYAFVGETGVGKSTIAKLILRFYDPTHGSVLINGIDLKTLKMSNYLGHVGYIEQEPQILFGTVMQNIKYASFQKTDQSAIEASKKAKLHDYIMSLPDKYDTILGERGFMLSGGQKQRLVIARFFLKNPELLILDEATSALDNVIEKEIQAELDELMIGRTTIIIAHRLSTIKNVNQIIVLDKKGIVQTGSFQELKEISGRFQKLYKIGLMK;locus_tag=LOCUS_03940;note=WP_011183431.1 ABC transporter ATP-binding protein/permease (Mesoplasma florum) [pid:52.2%25%2C q_cov:99.7%25%2C s_cov:53.7%25%2C Eval:3.0e-91%2C partial hit],internal stop codon at [235407:235409](+)%2C[235638:235640](+),MGA_396
sequence1	MetaGeneAnnotator	CDS	236628	236948	.	+	0	ID=MGA_397;product=PTS lactose/cellobiose transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000134124.1;translation=MEKINLEEVSMFIISSAGIAKSNAILAIKAAKKLEFEKAEELLKIAEQEMINAHHAHFEVVSREATGKQLDFKLLFVHAEDQFLTTQAMIDLSKEMIEMYKIVHKK;locus_tag=LOCUS_03950;note=WP_000134124.1 PTS lactose/cellobiose transporter subunit IIA (Streptococcus) [pid:30.2%25%2C q_cov:90.6%25%2C s_cov:94.1%25%2C Eval:5.1e-10],MGA_397
sequence1	MetaGeneAnnotator	CDS	236970	237233	.	+	0	ID=MGA_398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMAKVFAIDLGATSAKCAFFIDDEVVANFNYDTTRRENLLENIAKKATEIAKENNIIMDEVDFVGIAVCGIVDNLKGSVVYSANLG;locus_tag=LOCUS_03960;note=MGA_398
sequence1	MetaGeneAnnotator	CDS	237360	237890	.	+	0	ID=MGA_399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALFTIGTGVGGGAIFNRKLVFGDNTGFPSEPGHGGGFQDEVQCICGLKGCIEPVSSATGIEKKLNEVAKNSTGKLGKVYNELNRVIHIKDIAFLVQENDSEVMEIFNSCLEPLAKCISVLIHFFDISMIVIGGGPSNLGDPLIKIIREKLKNYVLPEFYKRLNLRKAILGDLVGA;locus_tag=LOCUS_03970;note=WP_011183395.1 ROK family protein (Mesoplasma florum) [pid:44.4%25%2C q_cov:99.4%25%2C s_cov:55.8%25%2C Eval:9.6e-34%2C partial hit],internal stop codon at [237231:237233](+)%2C[237327:237329](+)%2C[237888:237890](+),MGA_399
sequence1	MetaGeneAnnotator	CDS	238107	238412	.	+	0	ID=MGA_400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCFYEKILSLISAISLSIFATVQTLFVVGCEKKYSTQIQEILKKDVEGLTGEKYFEQVDTETFSLQLNPNIYENREKLNLIIEESLILYEEVSTYFNSSIS;locus_tag=LOCUS_03980;note=MGA_400
sequence1	MetaGeneAnnotator	CDS	238479	238604	.	+	0	ID=MGA_401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYEAEQNFLNFLGDIIITPEFQLNTAKLAVLKNNYKYIQK;locus_tag=LOCUS_03990;note=MGA_401
sequence1	MetaGeneAnnotator	CDS	238667	238990	.	+	0	ID=MGA_402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANVINNDYFVPFFKFIQLEKVKSHGVSRTSIIFDTNLNKYLKVGIHSVSEFASINKFIDENNNSYEILDQDDEDETTKIRNSLAQIINNFEMSIIYMYGFNLEEIL;locus_tag=LOCUS_04000;note=MGA_402
sequence1	MetaGeneAnnotator	CDS	238993	239376	.	+	0	ID=MGA_403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYEKFSEIFNLYNSLNIYKNLMKDLKKEVNSAKSELHNKKVKLKEIKPIFNKIEKDKLKELNTSLNISLLNAKYSKTNINQLYEDFNNDKEKLKNEYIKKKQKRIEKTMSEIEMIKVKNKTLLQQ;locus_tag=LOCUS_04010;note=MGA_403
sequence1	MetaGeneAnnotator	CDS	239727	239852	.	+	0	ID=MGA_404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKLKVKNEKLELRYNKGKAEPISFDVIINQVIYGSGKLSN;locus_tag=LOCUS_04020;note=MGA_404
sequence1	MetaGeneAnnotator	CDS	239859	240125	.	+	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIALKNGFFSLMPLVIVGAVFILINNILLSAGNGGIFNFISLTIDQLDILNKFKNIGSYIWNGTYAFFAFLLSGAIAFHLAPYYKVSQ;locus_tag=LOCUS_04030;note=WP_013097022.1 PTS N%2CN'-diacetylchitobiose transporter subunit IIC (Enterobacter) [pid:41.9%25%2C q_cov:95.5%25%2C s_cov:19.0%25%2C Eval:2.5e-12%2C partial hit],internal stop codon at [240123:240125](+)%2C[240177:240179](+),MGA_405
sequence1	MetaGeneAnnotator	CDS	240210	240542	.	+	0	ID=MGA_406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTAIVISFLSTILYGNLSKNEKLKIKMPDSVPEGVAKSFNVLIPYAITFSIFGLVAFGISEIGDLVGAIQVGKNSVTFSSINGLIVVLIQKPLVNVVSGFGGMIVIVFV;locus_tag=LOCUS_04040;note=WP_003733949.1 PTS sugar transporter subunit IIC (Listeria) [pid:31.8%25%2C q_cov:100.0%25%2C s_cov:21.6%25%2C Eval:1.6e-11%2C partial hit],internal stop codon at [240123:240125](+)%2C[240177:240179](+)%2C[240540:240542](+)%2C[240552:240554](+),MGA_406
sequence1	MetaGeneAnnotator	CDS	240582	240851	.	+	0	ID=MGA_407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPIIEPIQLDGLTQNQQALAEGANPEYVFTNSFMNNFIHIGGTGGTITLIIAIFVFSKRGDYRTMAKMIIIPALFCVNKPSIVAYLLY;locus_tag=LOCUS_04050;note=WP_013097450.1 PTS transporter subunit EIIC (Enterobacter) [pid:34.1%25%2C q_cov:92.1%25%2C s_cov:18.6%25%2C Eval:1.6e-08%2C partial hit],internal stop codon at [240540:240542](+)%2C[240552:240554](+)%2C[240960:240962](+)%2C[241008:241010](+),frameshifted%2C insertion/deletion at around 240836,MGA_407
sequence1	MetaGeneAnnotator	CDS	241034	241168	.	+	0	ID=MGA_408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAILFGCYSPFVLLANKIEQKELLSKFTKTQNIEEKSINRSILN;locus_tag=LOCUS_04060;note=MGA_408
sequence1	MetaGeneAnnotator	CDS	241183	241329	.	+	0	ID=MGA_409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRILLACNAEMSTSILLKKMQDYIFEDDLDLEVKAVSINEAKLIGNE;locus_tag=LOCUS_04070;note=MGA_409
sequence1	MetaGeneAnnotator	CDS	241536	242120	.	+	0	ID=MGA_410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKIGISIYPEQSSFKEDKKYLDFAKSLGYEFVFTSILHFVGTEKEKEKANMVLKPLKYAKEIGFYTILDVEYKSMKLIEISVNDLSKCIQYGIDCLRLDSPSLPAEISNITHNKYKINIQLNMSNNDNLITNVMDYQPIKNRLSGCHNFYPLEYTALPFDFFTEANQKYLKYNIETSAFVGSHFGEMTTAIG;locus_tag=LOCUS_04080;note=WP_020862965.1 MupG family TIM beta-alpha barrel fold protein (Mycoplasma mycoides) [pid:38.9%25%2C q_cov:97.9%25%2C s_cov:51.0%25%2C Eval:6.3e-35%2C partial hit],internal stop codon at [242118:242120](+),frameshifted%2C insertion/deletion at around 242186,MGA_410
sequence1	MetaGeneAnnotator	CDS	242216	242614	.	+	0	ID=MGA_411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGNAYATEEELKKLAQINRYEITFDLNIEKNLTKEEIDILQFEHYRRKDITKFFIRSTFSRVAFKNSQIPLKNGKKIFNKGDVVIINDNDQKYKSECHIILKDGFEDKNSKYNYVGKIESYENRLIDFIKP;locus_tag=LOCUS_04090;note=WP_020862965.1 MupG family TIM beta-alpha barrel fold protein (Mycoplasma mycoides) [pid:43.9%25%2C q_cov:99.2%25%2C s_cov:36.6%25%2C Eval:4.6e-27%2C partial hit],internal stop codon at [242118:242120](+)%2C[242613:242615](+),frameshifted%2C insertion/deletion at around 242186,MGA_411
sequence1	MetaGeneAnnotator	CDS	242628	242804	.	-	0	ID=MGA_412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGVTLKESLSKFFFFLNLRKKIVEKIPNSSPKIPNVNNSHDDTLVVSVNISIITFLF;locus_tag=LOCUS_04100;note=MGA_412
sequence1	MetaGeneAnnotator	CDS	243444	243722	.	+	0	ID=MGA_413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFKDTGGEAFSELIYVPVYGDDGKTITGVNYVLNIGVLGGIVAGCMSAYFYNKLKDIKLPTAFFFFFGGRRFVPMVALAASIPMAFGFSIV;locus_tag=LOCUS_04110;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:52.4%25%2C q_cov:68.5%25%2C s_cov:11.1%25%2C Eval:3.9e-13%2C partial hit],internal stop codon at [243249:243251](+)%2C[243423:243425](+)%2C[243720:243722](+)%2C[243726:243728](+)%2C[243873:243875](+)%2C[243933:243935](+),MGA_413
sequence1	MetaGeneAnnotator	CDS	244026	244436	.	+	0	ID=MGA_414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLLAALAGVTYYFIFYVVIKKLNLPTLGRKVNTSGQVGELNKVKISESANKKIKVNKFENMAIEIIDAIGKENFVSIDNCATRLRLILKDNSTIDDKKIKAAGTFGIKRLGTESLQIVIGPDVEHVANEMRKLLI;locus_tag=LOCUS_04120;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:46.0%25%2C q_cov:91.2%25%2C s_cov:21.5%25%2C Eval:2.8e-24%2C partial hit],internal stop codon at [243873:243875](+)%2C[243933:243935](+)%2C[244023:244025](+),MGA_414
sequence1	MetaGeneAnnotator	CDS	245071	245400	.	+	0	ID=MGA_415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEAISKGYHHIGCKHIDLDFFPGTTIIEKNEFSEDIQKKNHNKVLGLYKLENEIRNLKYEFDNMKKTKDIPFKIEKKENEIIRYCLKNNLLRNFERQNPYIKYIDKFR;locus_tag=LOCUS_04130;note=MGA_415
sequence1	MetaGeneAnnotator	CDS	247396	247926	.	+	0	ID=MGA_416;product=translation initiation factor IF-3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183085.1;translation=MAENKNIKTEFVNKEIRAKQILIIKEDGEKIGPLNKFDALKLAEENNLDLLQVGIQDNSTVIAKMLDHGKFKYEQKRKQRENKKNQVKVENKEIRLTVGIGEHDLDTKARKAREFLEAGDRVKISLKFKGREIVYQEFGKVTLDNFFAKIEDIAKIEKEAKLNTRFLDMYVVPKKG;locus_tag=LOCUS_04140;gene=infC;note=WP_011183085.1 translation initiation factor IF-3 (Mesoplasma florum) [pid:66.5%25%2C q_cov:93.2%25%2C s_cov:91.1%25%2C Eval:6.8e-56],MGA_416
sequence1	MetaGeneAnnotator	CDS	247944	248138	.	+	0	ID=MGA_417;product=50S ribosomal protein L35;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183086.1;translation=MPKMKTKSSLAKRVKKNGAGKLKRGQAYRSHLAQNKTTKQKRHLKKATFVSAGDMKRLKGLLQN;locus_tag=LOCUS_04150;gene=rpmI;note=WP_011183086.1 50S ribosomal protein L35 (Mesoplasma) [pid:71.4%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:1.2e-17],MGA_417
sequence1	MetaGeneAnnotator	CDS	248392	248520	.	+	0	ID=MGA_418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGLKLAGIEINRKMLSELAIHEPKQFEALVETSKKSLDSKK;locus_tag=LOCUS_04160;note=WP_011183087.1 50S ribosomal protein L20 (Mesoplasma florum) [pid:68.3%25%2C q_cov:97.6%25%2C s_cov:34.2%25%2C Eval:9.7e-09%2C partial hit],internal stop codon at [248203:248205](+)%2C[248335:248337](+),MGA_418
sequence1	MetaGeneAnnotator	CDS	249019	249630	.	-	0	ID=MGA_419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRMTQFKDKTNNLKLDNGTQFIPTGLLVYPALMAADILLYDAQFVPVGKDQKQHIELARNIAERMNNKYGEMFTIPEEYTPKIGSKIMDLQNPEKKMSKSSNNPKSFIGLLDNINEVKNKIKSAVTDSENVIKFDTEKKPGISNLITIFASLKNINLETAEEIFKNKDYGFLKEKVTEVVVELLEKIQIKYNKLLNSEEIDK;locus_tag=LOCUS_04170;note=WP_011166551.1 tryptophan--tRNA ligase (Mycoplasma mycoides) [pid:59.0%25%2C q_cov:100.0%25%2C s_cov:60.1%25%2C Eval:2.5e-61%2C partial hit],internal stop codon at [249019:249021](-)%2C[249661:249663](-),MGA_419
sequence1	MetaGeneAnnotator	CDS	249661	249942	.	-	0	ID=MGA_420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDKKRMVSGITTTGTMTLGNYIGAMKNFVALQDEFEMYIFVANLHGITKPIEKEILRKNIKSMVALYFACGIEPSKATVFVQSDVLEHTELG;locus_tag=LOCUS_04180;note=WP_011166551.1 tryptophan--tRNA ligase (Mycoplasma mycoides) [pid:60.0%25%2C q_cov:96.8%25%2C s_cov:26.8%25%2C Eval:1.2e-27%2C partial hit],internal stop codon at [249661:249663](-),MGA_420
sequence1	MetaGeneAnnotator	CDS	250352	250846	.	+	0	ID=MGA_421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVQNNGDSYLVANELKILNEKSALYIEIFINDEFLEKFHGTGLVISTSNGSTGYMKSAGGAIILPKNSKIFQMQELIPVSTNKFRTLNAPLILNDSHFLTLKLEEKSKEIMIIDTIEVPIIDKYISIKVSNKIIKVITSLEGKKNSKVEILRDIFIKDKEIIE;locus_tag=LOCUS_04190;note=WP_011166499.1 NAD(+)/NADH kinase (Mycoplasma mycoides) [pid:47.8%25%2C q_cov:95.7%25%2C s_cov:58.5%25%2C Eval:9.0e-33%2C partial hit],MGA_421
sequence1	MetaGeneAnnotator	CDS	250846	251112	.	+	0	ID=MGA_422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTTVLILVAILFVVCSITLLIYISTRKIVIQKNSLDKLENIPSVFTFKNIVKALGGFENIVEVKDKKVKIVVLSLINKKHLKILGIK;locus_tag=LOCUS_04200;note=MGA_422
sequence1	MetaGeneAnnotator	CDS	251249	251401	.	-	0	ID=MGA_423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKFNPNNKPIITVCNAGNRSGQTAQFLLDHGYNARTLSGGVYKYYKKIK;locus_tag=LOCUS_04210;note=MGA_423
sequence1	MetaGeneAnnotator	CDS	251763	252839	.	+	0	ID=MGA_424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEIKFMALGGQDERGKNIFIININEELFIFDAGIKFPEKSVLGIDVIIPSFEYLKSNVKKIKGIFLSNPSSNNAGAISYILREMDIPVYCNELTSTLLKYRNLKYRIKNRDNNFKIINDKDIIKFGNISIEAFRTTASFPESYGYAVHTTDGTIVYVGDYIIDGNEQANFSTDMKHLTQISKKGVLTLISDAEYASRIGYTVPNHKIEKYISAPMKDKKRRLIIGMFEEDVFKLFEIIKQAKQNERKIAIYGKTIVKVVESKIIQQSIQISKDDIFSLEEFMKSNDGILLITGAGDLLYSRLAKITAGNDEIIEFTENDTIILATPPAAGVEKRHAEILDELARSNAKLISLSDRNI;locus_tag=LOCUS_04220;note=WP_011182989.1 ribonuclease J (Mesoplasma florum) [pid:57.1%25%2C q_cov:100.0%25%2C s_cov:61.5%25%2C Eval:2.2e-122%2C partial hit],internal stop codon at [252837:252839](+),MGA_424
sequence1	MetaGeneAnnotator	CDS	252843	253478	.	+	0	ID=MGA_425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRASYEDIKLMTRIMKPKSFIPIKGLYKDFLNAERAAIEAGVSKEHIQLINNGQVLKISNSGKLVISTEVVKTADVYVDGIGVGDIGAVVLNERKQLATDGAVIIGANINEKTKDLISLIDIQMRGVIYITDENPIFKLMQKYIVDILEKHKLQIKENPKSFDINIIKKEIISKIRTTLKQETGKQPIVLVVINEIGSFAYQPKNNKIKNS;locus_tag=LOCUS_04230;note=WP_011166497.1 ribonuclease J (Mycoplasma mycoides) [pid:55.1%25%2C q_cov:98.1%25%2C s_cov:35.3%25%2C Eval:3.5e-61%2C partial hit],internal stop codon at [252837:252839](+),MGA_425
sequence1	MetaGeneAnnotator	CDS	253581	253748	.	-	0	ID=MGA_426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNCPTIVILPTDITLIKNKINAVTIQEIESAFLSFFWTVKAIVLSLSFELLFCPL;locus_tag=LOCUS_04240;note=MGA_426
sequence1	MetaGeneAnnotator	CDS	254359	256545	.	+	0	ID=MGA_427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDDDTFDEKQILASMKESDITIELPSYNKHYNYNIYDDVKEDFYHDNFESNFFDENQFSNDHQNQSLNNSNLDFYNQNKGYIESNRGFSKVTEFDHDQKIYEAQERVANNLQKQESQNYVPRRSRLFENDLPAESKYGQISTEEARKEFEKESSVTPFGANGKTQEIISSKLNKDKKNSTLNNQITLEQFINEVEQEKQLEKRYENFQDYTSPMQDNFAKTIINNSNNNFYSRSQNNRTIEVNTSKAIEKEQYVNLGYQLPSIDILNPDLNNEKDQIELKTQADLKATTITNTFNQFGVKATVNHMNIGPSVTKFEILPAPGTKVNSITSLENDLKLALANQNVRIEAPIQGKAAVGIEVPNDKSLVVPLRSVIEKTPIQKMNSKLLFAIGKTVTGDLLFGELDKMPHLLVAGSTGSGKSVMINGIISSILMRAKPHEVKFLMVDPKKVELSIYSSIPHLLAPVISDMNIANNALKKVINEMERRYALFTQHSVKNIDGYNSKQKKPSTKLPYYVIIIDELADLMMTANKRDVEDSIMRLTQMARAAGIHLIVATQRPSTDVLTGVIKSNIPTRIAFAVASSIDSRTILDSTGAEKLIGRGDLLYMPPGSSSLTRAQGAYISDDEIEKLVKYCSNQQQQIFDEEFMRSNDEIQNNYTQSGNKDSMLEEIKLFVIKEQKASTSLIQRRFSIGYNRAAKIIDELEENGVIGPQNGAKPREVFIKNEDIY;locus_tag=LOCUS_04250;note=WP_011182997.1 DNA translocase FtsK (Mesoplasma florum) [pid:45.2%25%2C q_cov:98.6%25%2C s_cov:70.3%25%2C Eval:1.0e-157%2C partial hit],internal stop codon at [254095:254097](+)%2C[254203:254205](+),MGA_427
sequence1	MetaGeneAnnotator	CDS	256614	258371	.	+	0	ID=MGA_428;product=excinuclease ABC subunit UvrC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182998.1;translation=MEEIISNLPQKPGCYLFKNKLNKIIYVGKAKNLKKRILSYFNKAHNFKTTKLVREIFDLEVIITDNEKESLILEQNLIKKYKPRYNIVLNDDKKYPYIAITNQKDPTYIYTRNFDEKNLISFGPLPDGTSARNILKALERIYPLRRCKGNLKKPCIHYHIEQCSGACFKNVDKKYYDNQIEKIKNVFEIKNDEFKKKLEEKMFIAAENLQFEEAQRIKEIINHLDFSITQQFVDFNDNLNRDIFNYYEFEKKLCFAVLFYRSGKLIMKDQIVLENENNQIIELFESFVTQIYSKNMLPDYIVIPEIFKESSLKLLFFDKLTFEDTIVNKNLLQLAKQNAEEYLKQNQIYKNQISLTRDELLEKLQKTLNLKTYPYHIEMFDVANILDEFVTGAMVVFKGGQPSFNDFRKYNIAIDHASDYHRMQNMIYRRYQKDLNNFSNLPDLIIMDGGKIQISAAKSQLELLDLNIEIIGLVKNEKHKTDYILNSNLEEVRLEKNDEIFKFLELIQNRVHNFAITGFRNRQAKAIINDELITIPGIGKKTIEKINEAFPNRKDLFNAKKEELGKIIKNNEVLSNLINYFNLKE;locus_tag=LOCUS_04260;gene=uvrC;note=WP_011182998.1 excinuclease ABC subunit UvrC (Mesoplasma florum) [pid:49.2%25%2C q_cov:98.5%25%2C s_cov:98.1%25%2C Eval:5.1e-157],MGA_428
sequence1	MetaGeneAnnotator	CDS	258398	258517	.	+	0	ID=MGA_429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKGKKMYLRKATIQDFKKVIELLNKSINLLKSENIDQ;locus_tag=LOCUS_04270;note=MGA_429
sequence1	MetaGeneAnnotator	CDS	258527	258667	.	+	0	ID=MGA_430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNEDTFKEDIEKQRLYVLVFDGQVVGMATIHEEIEESYENLNSGK;locus_tag=LOCUS_04280;note=MGA_430
sequence1	MetaGeneAnnotator	CDS	258767	258925	.	+	0	ID=MGA_431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVSKGFKTIKIDTHKDNLRMQYLIQKNDFKYCGNFYIDGVNDEKNFRLAYQ;locus_tag=LOCUS_04290;note=WP_010966038.1 GNAT family N-acetyltransferase (Clostridium) [pid:46.2%25%2C q_cov:100.0%25%2C s_cov:28.7%25%2C Eval:2.4e-07%2C partial hit],internal stop codon at [258515:258517](+)%2C[258665:258667](+),MGA_431
sequence1	MetaGeneAnnotator	CDS	259024	259497	.	+	0	ID=MGA_432;product=transcription elongation factor GreA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182999.1;translation=MTDKDIILTAEGLQELKDELTHLINVIRPQVIEELVEARAQGDLSENADYDAARNRQAEVEARIKEVEAMLSKAKLIEDNKSKTKEVKIGSQVTFTSHKSKNDMTIKIVGAIEADPFENKISNESPLAKAMMGKIEGDSVEVRELKEPYKITLKEIK;locus_tag=LOCUS_04300;gene=greA;note=WP_011182999.1 transcription elongation factor GreA (Mesoplasma) [pid:66.0%25%2C q_cov:97.5%25%2C s_cov:98.1%25%2C Eval:5.9e-52],MGA_432
sequence1	MetaGeneAnnotator	CDS	259545	260420	.	+	0	ID=MGA_433;product=16S rRNA (cytidine(1402)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183000.1;translation=MKIQKTFRNQLSTIYLVGTPIGNLEDVSTRVIKTLNESDVIYCEDTRVSLKLFEKLNIKKKLKSLHKFNELLMVNEILNDIKIYNKISIISDAGVPCISDPGALVISKILNSNVDLNITSINCGPAYIHAIVSSGFVASQNLFLGFLDKKNIQKNLVNYLNNFKNSNILITFYESVHRIESSLNLLSTILEDDTNIVIAKELTKINEEYIRGEIIDVCKYISSTKFTKKGEFCIIINPNYKLKNEIEIDMKKIIFEVNKLILEKYSKKDAIKIISKKYSINKNELTKIFYK;locus_tag=LOCUS_04310;gene=rsmI;EC_number=2.1.1.198;note=WP_011183000.1 16S rRNA (cytidine(1402)-2'-O)-methyltransferase (Mesoplasma florum) [pid:46.3%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:1.3e-63],MGA_433
sequence1	MetaGeneAnnotator	CDS	260451	260624	.	+	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEVNMEKLNNKQKREIIGGKGVTGSLLGGIADIVKQTGGFLQICLELYQRQFLQIK;locus_tag=LOCUS_04320;note=MGA_434
sequence1	MetaGeneAnnotator	CDS	260582	260746	.	+	0	ID=MGA_435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGAISTTVFANKMKNKSDKFELSIGDSTLKVDNSVSNKTKIDSKSSYNIIDLI;locus_tag=LOCUS_04330;note=MGA_435
sequence1	MetaGeneAnnotator	CDS	260873	261337	.	+	0	ID=MGA_436;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAIIKTGGKQIKVSSGDEIYIEKVSVEEGKEVIFNEVLMIDSNVGNPFIKGAVVIGTVIKQSKEKKLCVVRYHPKKNVNKVYGHRQPFTKVKIETISASGVKTTKVSEPKEISTTTKTITNANAAKTTTVAKTTTVAKTTTAAKKPVAKKIEE;locus_tag=LOCUS_04340;note=WP_011166743.1 50S ribosomal protein L21 (Mycoplasma mycoides) [pid:66.7%25%2C q_cov:64.3%25%2C s_cov:99.0%25%2C Eval:4.1e-34%2C partial hit],MGA_436
sequence1	MetaGeneAnnotator	CDS	261342	261653	.	+	0	ID=MGA_437;product=ribosomal-processing cysteine protease Prp;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166742.1;translation=MILAKIFKTNNEIISFNISGHAESNKFGEDLVCAAVTGIINGALNALDLKFGNNLELIVKKNEIVINVKENNNLIQELLEFLMIQLETISIQYPKNFKIEGMI;locus_tag=LOCUS_04350;note=WP_011166742.1 ribosomal-processing cysteine protease Prp (Mycoplasma mycoides) [pid:50.0%25%2C q_cov:88.3%25%2C s_cov:88.5%25%2C Eval:7.3e-20],MGA_437
sequence1	MetaGeneAnnotator	CDS	261655	261945	.	+	0	ID=MGA_438;product=50S ribosomal protein L27;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008362816.1;translation=MRFLLGLQYFASKKGVGSTRNGRDSESKRLGAKKADGQFANAGSIIFRQRGTKIHPGANVGRGGDDTLFALVSGIVKYQKFGKNRTRAVVIPQEAK;locus_tag=LOCUS_04360;gene=rpmA;note=WP_008362816.1 50S ribosomal protein L27 (Mycoplasma mycoides group) [pid:88.0%25%2C q_cov:95.8%25%2C s_cov:98.9%25%2C Eval:3.0e-42],MGA_438
sequence1	MetaGeneAnnotator	CDS	262000	262296	.	+	0	ID=MGA_439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIYVSLGLLLLVALIVTIVMIFKSKKTEANKLKQQLYNFKKIFQNQENKKIKLKKFEYIEVFNKFPFLSNFSETSIRLENKNIKEILLRMQGNFYNY;locus_tag=LOCUS_04370;note=MGA_439
sequence1	MetaGeneAnnotator	CDS	262354	262848	.	+	0	ID=MGA_440;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLNQEEILKIYNVFAQESFEIFKKTFISEVMPALICKSQNKVYKSFNENEINNFVDSQFLFFCKEIDNLFKKIEEDIIFEDNKKSSSNNQYFKKETNLSINNAYKILGLKPSDSDEKVKKTYRKLAKEFHPDRNKNESAKKKMAEINDAYDKVISDRTKNRKG;locus_tag=LOCUS_04380;note=WP_084322466.1 DnaJ domain-containing protein (Mesoplasma) [pid:31.9%25%2C q_cov:90.2%25%2C s_cov:51.0%25%2C Eval:1.6e-13%2C partial hit],internal stop codon at [262294:262296](+),MGA_440
sequence1	MetaGeneAnnotator	CDS	262857	263033	.	+	0	ID=MGA_441;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIDKEKLLGEYFNNVLIETKKLIAIPSYRKDLTKGAPVDKDIRNALKHCINLCKSFG;locus_tag=LOCUS_04390;note=MGA_441
sequence1	MetaGeneAnnotator	CDS	263430	263654	.	+	0	ID=MGA_442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLIGEFNSEFTITGGEVYNAVNDLVKYEGPKINEIQNFLKSNNIQTYIEKESLFVKGISAHGSLPFKGVAASS;locus_tag=LOCUS_04400;note=MGA_442
sequence1	MetaGeneAnnotator	CDS	263655	264206	.	+	0	ID=MGA_443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKAINEVGINHPLALFISKYFHLNYDMSDIFGDLTDETGSLTTCNGIINVSKKDFRFTLNFRVPCTKDPQKDIMDVLNNSVKNYNLKTKLISIEDRVYFPKDSDVVKNIMQVYREVTGDNNAEPIAIGGGTFAKSMPNMIAFGAEFDLNESTMHAYNEYVKIDDLKKMMEIYAKSLIKLTKF;locus_tag=LOCUS_04410;note=WP_011183336.1 M20 family metallopeptidase (Mesoplasma florum) [pid:51.4%25%2C q_cov:97.8%25%2C s_cov:39.8%25%2C Eval:5.2e-49%2C partial hit],internal stop codon at [263418:263420](+)%2C[263652:263654](+),MGA_443
sequence1	MetaGeneAnnotator	CDS	264267	264581	.	+	0	ID=MGA_444;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKKIQKDLQKYIDEHAIMQNKCFNLSKNCNELGYPGFTHFFQVQAQDEFLHQRRIMNYLLGRNSTYIMNTLDLQYKNFDSIIEIIEEYKKCREHFALISNEF;locus_tag=LOCUS_04420;note=MGA_444
sequence1	MetaGeneAnnotator	CDS	265180	265377	.	+	0	ID=MGA_445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDVKKIVTSIGQRKEKIIFVGTKRSAKSAVKEAALRSGNFFVNSRWLGGTLTNMKTISLRIKTL;locus_tag=LOCUS_04430;note=WP_013729687.1 30S ribosomal protein S2 (Mycoplasma mycoides) [pid:63.1%25%2C q_cov:100.0%25%2C s_cov:22.3%25%2C Eval:2.1e-19%2C partial hit],internal stop codon at [265060:265062](+)%2C[265099:265101](+)%2C[265174:265176](+)%2C[265375:265377](+),MGA_445
sequence1	MetaGeneAnnotator	CDS	265462	265899	.	+	0	ID=MGA_446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSLGGIKQMHKLPAAMFVVDPKTDEIAVKEARKLRIPVIAICDTNVDPDMVDYVIPANDDIQESVNIITNYVVDVYADAAGIKMQPSNLKIIAPKKEDRPVRDENRSFSNRGERDSKYSGPKKTFDKRPESKEVAKQEKVGEE;locus_tag=LOCUS_04440;note=WP_013729687.1 30S ribosomal protein S2 (Mycoplasma mycoides) [pid:73.1%25%2C q_cov:71.7%25%2C s_cov:35.6%25%2C Eval:1.4e-38%2C partial hit],internal stop codon at [265174:265176](+)%2C[265375:265377](+),MGA_446
sequence1	MetaGeneAnnotator	CDS	266166	266777	.	+	0	ID=MGA_447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLIEDISNSLLNSNASTLEEALNVKLSTNQSIAEACVEATATIGEKIELRRMETTENGVLSIYNHANKRIAVLLKFDGSISNEDAYNICMHVAAMAPKYLSSDEVPQEFKDQEMHIIKETTDLSDKPANVAENILKGKLNKRIAEVTLLEQLFVIDDKQTVGNFIKSKNSTLVKMFRFEVGEGIEKVTTDFAAEVAAQLKGN;locus_tag=LOCUS_04450;note=WP_011166783.1 translation elongation factor Ts (Mycoplasma mycoides) [pid:60.4%25%2C q_cov:99.0%25%2C s_cov:70.2%25%2C Eval:4.6e-63%2C partial hit],internal stop codon at [266016:266018](+),MGA_447
sequence1	MetaGeneAnnotator	CDS	267150	267539	.	+	0	ID=MGA_448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTIGDTLKFLKIRKIIDDEEKGIVYINYSEGKKTLKKLKFSKKTEIGLNFIRLADKTGVKIEKGNQIEYFKEELLKLKGININNDSKIIEDNSKQKDSTNLEKENKNSEKNTIKNEPKKSKDVEDKKD;locus_tag=LOCUS_04460;note=MGA_448
sequence1	MetaGeneAnnotator	CDS	267852	268049	.	+	0	ID=MGA_449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASVIFTTILILILLLLFNILATILNVYSEITNKKSYIIISLLALNIENLFFIKLNFYQKHNFMK;locus_tag=LOCUS_04470;note=MGA_449
sequence1	MetaGeneAnnotator	CDS	268068	268283	.	+	0	ID=MGA_450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGLLLALFCSINLITDIIPPMPFFVTLSFKFLPLFFGAYILTFSQTTLLCFIAAIFTFIFPGTYKISFEQ;locus_tag=LOCUS_04480;note=MGA_450
sequence1	MetaGeneAnnotator	CDS	268740	268907	.	+	0	ID=MGA_451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALKFKRVLLKISGEALKGNDDIYAKDKLDDVAKQIINLSKEGLQVGVVIGGGNI;locus_tag=LOCUS_04490;note=WP_011183454.1 UMP kinase (Mesoplasma florum) [pid:61.8%25%2C q_cov:100.0%25%2C s_cov:23.1%25%2C Eval:5.9e-14%2C partial hit],internal stop codon at [268905:268907](+),MGA_451
sequence1	MetaGeneAnnotator	CDS	268959	269453	.	+	0	ID=MGA_452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMLATIMNALAFEATLRKLGFDKVKVYSSLEIKTVTSSYNYRNAREKLEEGYIVIFAGGTGYSYFTTDTGACIRAIEIKADALLMAKNGTKGVYDSDPNINPKAKFLENLTHDDLVVKNLQVMDSTAAMLSRDGKLEIVVFDMNGKDNIVKVAHGNLEATKIN;locus_tag=LOCUS_04500;note=WP_011183454.1 UMP kinase (Mesoplasma florum) [pid:65.0%25%2C q_cov:99.4%25%2C s_cov:68.5%25%2C Eval:8.9e-57%2C partial hit],internal stop codon at [268905:268907](+),MGA_452
sequence1	MetaGeneAnnotator	CDS	269455	270015	.	+	0	ID=MGA_453;product=ribosome recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183453.1;translation=MEFFMQKEILEMTELDMQETIEHFKDYLLKIRTGRANSNMLSSVMVDFYGTLTPINQTSQISSPEPQQLVIKPYDRSQIANVVAGINKAALGLNPIGEGDLIRINIPPLTEEIRKDLVKKMLKELEQFKIRVRNVRRDSNDKIKKDNSIPEDAKKDLENEIQKLTDKYISLLDQFSKEKEKELMKI;locus_tag=LOCUS_04510;gene=frr;note=WP_011183453.1 ribosome recycling factor (Mesoplasma) [pid:60.3%25%2C q_cov:96.2%25%2C s_cov:98.9%25%2C Eval:3.4e-56],MGA_453
sequence1	MetaGeneAnnotator	CDS	271798	273087	.	+	0	ID=MGA_454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFKIGVIVNYNNENYIIIDVINKETSSGKITFLKIKNILNQEIFTVDSRNVKEIKLRNNKIKEENITDTGYIESLFDSVGNFEDKQESIFDLSGENTYTLDDTFLEEEIETKRLEQFSNLIQSFQKPEHNTQLTPRRKKEQIAFESSPVINETFSNLNVIGEIETTEIIPRRVLEEKKEKNFNFNNDQNNIYISRNTQNETLLSEIKNNQVLEKLEDTADFNNDILKNSNSKINIEGTNNSFKNDVNTNQIKINDLEEEKLELDMLNQKHKAIDNSVINLVQKINENSNINEEYSRKIAVNMEYEKNLTETLDSNEVEQEILRDNLKHNNRYLDSKQLDTLETGPLNTKKFMVSFTKQQSIQQNLKNNFENNNDTNTLFGLTAGFDKETLKKSKIYKKFKVMNSWLIILFTLMILTPLLNYFAKTVLV;locus_tag=LOCUS_04520;note=MGA_454
sequence1	MetaGeneAnnotator	CDS	273088	273462	.	+	0	ID=MGA_455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDENLEFSLINIFSLFKLEQFFINDILLIALSLLFMLVFLVYLIIYLILVGDKQYKKIAYYNFQLENKIEVIDSIQNYNSESSLYLIKVHNEIKKMRKEIKELKRNKISSDFLSSKKEISKVSH;locus_tag=LOCUS_04530;note=MGA_455
sequence1	MetaGeneAnnotator	CDS	274074	274634	.	+	0	ID=MGA_456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLNILNFEIISLKFNMAIPIFLILLLIICFLFSFLQKENKNLVGSFDTEVISQLPKKNNLIFISIYLLVFLTSITGALNNSLIIKIYMALNFMKLDYLNSDIEIFLRINNFIYLIPSIIVSYFLYKYALNFLTQRDFLFINIFLLFIFYTILAFANNPFIFIAVNFFTGICINQILYSLFSICMF;locus_tag=LOCUS_04540;note=MGA_456
sequence1	MetaGeneAnnotator	CDS	274848	275039	.	+	0	ID=MGA_457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLACVFSLIVLLIFYFRNAQIFADFLNYRLAIQNLKIILKKRVIEKTKTQMKISIENFEESS;locus_tag=LOCUS_04550;note=MGA_457
sequence1	MetaGeneAnnotator	CDS	275371	275715	.	+	0	ID=MGA_458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIINNQINFDITIENIDNKKMFFSFGHHPGFIINDNTEIIFNKKQQYCSDFKRGLIISKQSNFFEIEKLNKNDLSFKNSDSYLVRENNCDRVSIKNDFVEYELIFENYKSLIL;locus_tag=LOCUS_04560;note=MGA_458
sequence1	MetaGeneAnnotator	CDS	275907	276251	.	-	0	ID=MGA_459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEIKVAKRLLNSMGLFENMVEVIACPTCGRLEFALRDVVKEIEEFVEKLQFPLKVAILGCVVNGPGEASQADIGIAGGNKGGIIFKKGKIYKTVSQDLLVPELKELILEYYDI;locus_tag=LOCUS_04570;note=WP_010886567.1 flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase (Bacillus) [pid:48.1%25%2C q_cov:94.7%25%2C s_cov:28.6%25%2C Eval:5.1e-26%2C partial hit],internal stop codon at [276387:276389](-),MGA_459
sequence1	MetaGeneAnnotator	CDS	276387	276515	.	-	0	ID=MGA_460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVESLRTHIEILEKYNFTNIIYSLKATDPLMAIEAYELASQY;locus_tag=LOCUS_04580;note=MGA_460
sequence1	MetaGeneAnnotator	CDS	276528	276965	.	-	0	ID=MGA_461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLRKNTKPVMVGNVQIGGNDKVVIQSMTTTKTHDIEKTVDQINELFKEGCQIARVAVLGIDDANALSEIVKKSPIPVVADIHFNYKFALIAADAGCAKIRINPGNIGIEENTIAVVEKCKEKNIPIRIGVNSGSLPKNMVAKYG;locus_tag=LOCUS_04590;note=WP_003732336.1 flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase (Listeria monocytogenes) [pid:61.3%25%2C q_cov:97.9%25%2C s_cov:38.6%25%2C Eval:7.7e-42%2C partial hit],internal stop codon at [276387:276389](-)%2C[276528:276530](-),MGA_461
sequence1	MetaGeneAnnotator	CDS	277088	277747	.	+	0	ID=MGA_462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEKTTLKDIVEINKVLTIKKYDSYKEFLVYTDIIQEYIDDTFFRNDVIIERLVEYAQKSARYLDITFKEKSDIKLTVENIHDYMLHTKRAVEKALFIEDEAFNFSIFVEIRSIVRYFLEKTYEFESLRNYEILYGINTMEFHQQNESFKYLYTVFDKFTYISKHLNEKYVKKNEKLSYQDVQLKFFTHFLKDISFLSKSTSDFQKLSDIIELITYSKA;locus_tag=LOCUS_04600;note=MGA_462
sequence1	MetaGeneAnnotator	CDS	278008	278694	.	+	0	ID=MGA_463;product=segregation/condensation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183448.1;translation=MLHLIKEKEINIMDINLLELSNQYVNYIREIELLDLEIASEYLVMSAYLIELKSKLLIPKEEVNIDDNYEELERQDLIRRLIEYHKIKEVTNFFKTKQEDYLKGFSKIKTIIRIAKIDDNELPLAENNINIDKFSNIFLKAIEKNKFKKMEINTIKAEEISPEKISEEIKLFLKNNNVSEIDLVKLIELKEFSIKVMVATFLAVLDLAAKKIITVSQNENEVIVKYIG;locus_tag=LOCUS_04610;note=WP_011183448.1 segregation/condensation protein A (Mesoplasma florum) [pid:35.4%25%2C q_cov:98.2%25%2C s_cov:85.2%25%2C Eval:1.4e-32],MGA_463
sequence1	MetaGeneAnnotator	CDS	278705	279262	.	+	0	ID=MGA_464;product=SMC-Scp complex subunit ScpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002939233.1;translation=MDNIKKISVIEGLIFVNGDEGTTMDDLKIILEESNEQLIEKLIEEITQKYKNDKSCGLEIQKFAKNKYRMITKKENADFYSKLANVKTESKLSTASIETLSIIAYKGPITRADVEDIRGVNCESIFHKLKLRNLIIDAGKSMELGKATLYKVTDDFLKYFNLNSLDELPKLKEVIDEEKEIFNRG;locus_tag=LOCUS_04620;gene=scpB;note=WP_002939233.1 SMC-Scp complex subunit ScpB (Streptococcus) [pid:42.0%25%2C q_cov:96.8%25%2C s_cov:94.7%25%2C Eval:2.2e-31],MGA_464
sequence1	MetaGeneAnnotator	CDS	279265	280017	.	+	0	ID=MGA_465;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183446.1;translation=MIEERLQKIIASRGYCSRRQAEKLIEQGRVKVEGKIIKELGTKFESNVEISINNKPLLEVKQKVYYLFNKPRLVLTTMDDPKDRKTVADFFNDSKIRVFPVGRLDYDVSGALIMTNDGEFANFVMHPKFEFRKTYQALCNGKVTKYQIRDLINGVTIDDDYKTKAIYAKLLKYDDEFNESVIELTIAEGRKHHVKKMLVAVNIYLKKLKRTQIEFLEINDIEIGKFRELKPHEIKQFYGIYNSLKNRKGN;locus_tag=LOCUS_04630;note=WP_011183446.1 pseudouridine synthase (Mesoplasma) [pid:64.5%25%2C q_cov:98.0%25%2C s_cov:97.6%25%2C Eval:2.2e-90],MGA_465
sequence1	MetaGeneAnnotator	CDS	280022	280486	.	+	0	ID=MGA_466;product=deoxynucleoside kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183445.1;translation=MRIAIFGTVGAGKSTISEKISKKLNYEIFPEPIDNNPYFDDYYKDMETNVFKMQIYMLTARSQQLIKANSINNVIFDRTILEDPIFVAVNHDLGTMNDIDYKTYTDFYEQVVIPNLTHRVEFDLVIYLKVSTDKAIERIKERGRIQELETPRIY;locus_tag=LOCUS_04640;note=WP_011183445.1 deoxynucleoside kinase (Mesoplasma florum) [pid:61.8%25%2C q_cov:100.0%25%2C s_cov:76.2%25%2C Eval:4.4e-52],internal stop codon at [280484:280486](+),MGA_466
sequence1	MetaGeneAnnotator	CDS	280493	280630	.	+	0	ID=MGA_467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKRYDDFFNIRKDMFNFLVIDAETDDIDLKINQILDKINELEKL;locus_tag=LOCUS_04650;note=MGA_467
sequence1	MetaGeneAnnotator	CDS	280648	281364	.	+	0	ID=MGA_468;product=YebC/PmpR family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183444.1;translation=MGRAHEVRKQSMEKTAAMKSAIYGRASKEIYMAAKNGSKDPEANLALRSAIDKAKSKQVPVDVIQRAIKKAEGMDGEIFFSNRYEGYGPGNSMIIVDSLTSNVNRAIAEIRDAFNKNGGKIATSGAVSHSFQATSIFALEGQTVEEILEFLMIEECDVNDVFEDEEMLLVYAPFQEFNKVKITLDKFGIKDYKMAETTMLADENIVITDNEAKIKFDKLINRLNELEDVQDIYHNVEN;locus_tag=LOCUS_04660;note=WP_011183444.1 YebC/PmpR family DNA-binding transcriptional regulator (Mesoplasma) [pid:58.1%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:1.1e-69],MGA_468
sequence1	MetaGeneAnnotator	CDS	281805	282014	.	-	0	ID=MGA_469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYPQTVNAYYNPTSNEICFPAGILQAPFYDINEPKAKNLGGIGAVIGHEVSHGFDDEGSKFDKDGNFEN;locus_tag=LOCUS_04670;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:88.4%25%2C q_cov:100.0%25%2C s_cov:10.9%25%2C Eval:3.1e-31%2C partial hit],internal stop codon at [281589:281591](-)%2C[281802:281804](-)%2C[281805:281807](-)%2C[282018:282020](-)%2C[282153:282155](-)%2C[282231:282233](-),MGA_469
sequence1	MetaGeneAnnotator	CDS	282231	282584	.	-	0	ID=MGA_470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILSEPKFLKKLGEMLENIKLDDLKDILKIKVIMVFSFLLTENLYKISFEYSSVFSGMKEMKPEIDRAVEFTNSHLGEILGKAYISKHFSEKAKEDVLKIVNDLIKVYSKRIQNLE;locus_tag=LOCUS_04680;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:54.3%25%2C q_cov:99.1%25%2C s_cov:18.4%25%2C Eval:2.6e-30%2C partial hit],internal stop codon at [282018:282020](-)%2C[282153:282155](-)%2C[282231:282233](-)%2C[282624:282626](-),MGA_470
sequence1	MetaGeneAnnotator	CDS	282624	282893	.	-	0	ID=MGA_471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLGMSNRDFYDESHPRHKEIKSGYQKYINDLIKESQIKFSNENVFNLIYKFEEEISHAMLKQEELRSPENIYNVVTLDKLNELCNFID;locus_tag=LOCUS_04690;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:59.6%25%2C q_cov:100.0%25%2C s_cov:14.1%25%2C Eval:1.9e-28%2C partial hit],internal stop codon at [282624:282626](-)%2C[283086:283088](-),MGA_471
sequence1	MetaGeneAnnotator	CDS	283436	284137	.	+	0	ID=MGA_472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKDIVLLRTVEVAAIASYKYIGKKNKDLVDQAAVEAFEVMLKNEKGFKLKVVNGEGELDMLYVGQILGDTTDPSVNTFDVSVDPVEGTNPAAYNFAESISTIAISGENTMLQLPEMYMEKLFVSDEFRDVINLNNGIIEVVREMQIFARRKDLKCIILDKPRHQKIIAKLNDMGIITRLIQDGDVLAAIDVVNGTADFVYGIGGAPEGSLMAALSISSGCKMQCKLISYKEV;locus_tag=LOCUS_04700;note=WP_011016951.1 class II fructose-bisphosphatase (Fusobacterium nucleatum) [pid:36.1%25%2C q_cov:100.0%25%2C s_cov:71.7%25%2C Eval:4.0e-35%2C partial hit],internal stop codon at [284135:284137](+)%2C[284183:284185](+),frameshifted%2C insertion/deletion at around 284245,MGA_472
sequence1	MetaGeneAnnotator	CDS	284238	284447	.	+	0	ID=MGA_473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIKEHVFFAAGLTAGGSLKPIDYKGEKFYVNAFMSSHGITRNIKTVYDVKKVNDLKPGIKYLFDKYKR;locus_tag=LOCUS_04710;note=MGA_473
sequence1	MetaGeneAnnotator	CDS	284481	284774	.	+	0	ID=MGA_474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFVESLTKILLIALILAFLTLLTIKILNTLFCSKVEIREIQSADSNISSSKIEEIIKKFQHYLKIDDLKVNYADTDTYIRITDILRKRNKEINIPK;locus_tag=LOCUS_04720;note=MGA_474
sequence1	MetaGeneAnnotator	CDS	284952	285227	.	+	0	ID=MGA_475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYISFFTSTYPGEFLLFLFRIPIFEVFGLVSFLILITIIFFLNNIKSHLELKYEREIISFVNNECAGYKSDISAARVYATGFEKLIFKIFR;locus_tag=LOCUS_04730;note=MGA_475
sequence1	MetaGeneAnnotator	CDS	285448	285699	.	-	0	ID=MGA_476;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVISLATHPTLPGVAVNVRILGSIKMIDAGEIDTKLFGVFSDDPRFKEFTTLKDVPQHLKDEIENFFLQYKALQKKEVKING;locus_tag=LOCUS_04740;note=WP_011166592.1 inorganic diphosphatase (Mycoplasma mycoides group) [pid:81.9%25%2C q_cov:100.0%25%2C s_cov:44.6%25%2C Eval:1.4e-34%2C partial hit],internal stop codon at [285337:285339](-)%2C[285448:285450](-)%2C[285712:285714](-),MGA_476
sequence1	MetaGeneAnnotator	CDS	285712	285873	.	-	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSNIIKMIVEIPKGSSNKYEYDINSNQISLDRVLYGANFYPGEYGFVPETLD;locus_tag=LOCUS_04750;note=WP_011166592.1 inorganic diphosphatase (Mycoplasma mycoides group) [pid:71.7%25%2C q_cov:100.0%25%2C s_cov:28.5%25%2C Eval:7.4e-17%2C partial hit],internal stop codon at [285448:285450](-)%2C[285712:285714](-),MGA_477
sequence1	MetaGeneAnnotator	CDS	286743	287111	.	+	0	ID=MGA_478;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDNKHSVPDHLDEKENKKDHYHNEHHYDNKGNHDDIIDDDFNFKYSIYINKKNLLYRLAAAGVFLALASICTFFDSMLERIFTLPLDGVILSVRYLDIFVITLSIGVLGPVFSSLIAFIVP;locus_tag=LOCUS_04760;note=WP_011183441.1 ECF transporter S component (Mesoplasma florum) [pid:33.6%25%2C q_cov:92.6%25%2C s_cov:39.8%25%2C Eval:1.0e-13%2C partial hit],internal stop codon at [287109:287111](+)%2C[287187:287189](+)%2C[287196:287198](+)%2C[287274:287276](+),MGA_478
sequence1	MetaGeneAnnotator	CDS	287648	288658	.	+	0	ID=MGA_479;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003428483.1;translation=MANKKPVYISMDLGTASTLVYISGQGIVYNEPSIVAYKVKENRIIAVGEEAYKMIGKGNKTLKIVRPMVDGVITDIKATQAQLKYIFARLRLEKTLKGCVMLLACPSVITELEKSALKKIAESLGATNVFIEEEVKMAALGGGVNINTPSGQLIVDMGGGTTDAAVISSGDIVLSKSIKIAGNYLNEEILKFTRAQYGLEIGIKTAETIKIKVGSLAKFPDEKTMKVYGRDIVSGLPREIEITPQELREVLKIPLSRIIDLVVQVLEETPPELAGDIFRNGITLCGGTALIKGIDKYFGDTLQLPTKVGEQPLLAVINGTKKFESEIFEQLRNRQE;locus_tag=LOCUS_04770;note=WP_003428483.1 rod shape-determining protein (Clostridioides difficile) [pid:44.4%25%2C q_cov:97.9%25%2C s_cov:93.8%25%2C Eval:9.1e-75],MGA_479
sequence1	MetaGeneAnnotator	CDS	288830	289015	.	+	0	ID=MGA_480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDVKKFVSIDLGTSNTLIYIENQGIVYNEPSIVAYKFKENRIVAVGESAYKMIEKGIKH;locus_tag=LOCUS_04780;note=WP_003644658.1 rod shape-determining protein (Lactiplantibacillus) [pid:53.1%25%2C q_cov:80.3%25%2C s_cov:14.7%25%2C Eval:3.4e-09%2C partial hit],frameshifted%2C insertion/deletion at around 288994,MGA_480
sequence1	MetaGeneAnnotator	CDS	289030	289878	.	+	0	ID=MGA_481;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000457980.1;translation=MVDGVITYIKSTEAQLKYIFSKLRINKFLKDSVMLLACPSAITELEKSALIKIAQNLGASNVFIEEEVKMAALGGGVNIFTPSGKLIVDSGGGTTDVAVLSAGDIVLSKSIKQAGNKFNDEIQKFMRSQYGLDIGIKSAEIIKVTIGSLAKYPDEKRMKVYGRDIVSELPREIEITSQEIREVLKVPASRIIDLIVQVLEETPPELAGNIFKNGLILCGGNCLIKGMDKYFADTLQLPTKVGEQPLLAVINGTKKFESYIYDLYLRKMKIKKGFLKTFFNFH;locus_tag=LOCUS_04790;note=WP_000457980.1 rod shape-determining protein (Bacillus cereus) [pid:44.6%25%2C q_cov:89.0%25%2C s_cov:75.4%25%2C Eval:1.9e-56],frameshifted%2C insertion/deletion at around 289003,MGA_481
sequence1	MetaGeneAnnotator	CDS	289865	290005	.	-	0	ID=MGA_482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MACVEMDETETLFMDDDGFAEAKENDLELFECQMVCPTGAVKVNEN;locus_tag=LOCUS_04800;note=MGA_482
sequence1	MetaGeneAnnotator	CDS	290135	290719	.	+	0	ID=MGA_483;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNLAIEARMERNKALHEKIKKEIIYKRTIQDEKSIINSTFEKLKQIDLNFFKEKLDIFDKKHQIEKPYLDKDKSNTLFPEELKYDIKREISELKKIKLVEPLQENHDDEEEKIYFKNEKYARYFNELQKNELNFQKNISKLKEKQSKKNIINNDDIPMTIVQQIRSKDNRTTHQMLVEVQDKVEKSQNRLLKT;locus_tag=LOCUS_04810;note=MGA_483
sequence1	MetaGeneAnnotator	CDS	290838	291428	.	+	0	ID=MGA_484;product=(d)CMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166595.1;translation=MLKKINIAVDGTAGSGKSSVMNEVAKVLKMNFIDTGVIYRAFTKFCVKNNINFFEPKEIESQIDLFSYKYINENEILVNGEDYGPYIFDYDVVENIKYIAQNVKVREYMVNLQRQMVIEKNNIVIGRDITTVVLPDAELKIYFDCSVEARAKRRFEQNIKNNILPNVYEDILRQIKQRDDFDKNRSTGPLKIDKGA;locus_tag=LOCUS_04820;gene=cmk;EC_number=2.7.4.25;note=WP_011166595.1 (d)CMP kinase (Mycoplasma mycoides) [pid:45.0%25%2C q_cov:96.4%25%2C s_cov:84.7%25%2C Eval:9.3e-42],internal stop codon at [291426:291428](+),MGA_484
sequence1	MetaGeneAnnotator	CDS	291517	291663	.	+	0	ID=MGA_485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRKGIVAVVGRPNVGKSTLFNRIIKEKKAIVEDKPGVTRDRMYGNTE;locus_tag=LOCUS_04830;note=WP_011183096.1 ribosome biogenesis GTPase Der (Mesoplasma florum) [pid:78.7%25%2C q_cov:97.9%25%2C s_cov:10.8%25%2C Eval:1.1e-15%2C partial hit],internal stop codon at [291661:291663](+),MGA_485
sequence1	MetaGeneAnnotator	CDS	291670	292404	.	+	0	ID=MGA_486;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFIIVDTGGITLQNTIFSKEIKMQAEIAIKEADVIVFVINYKEGITIEDEMVAKILYKTNKPVILTVNKYDKKEQYDESYSFMSLGFGEPFLISSTHGIGIGDLLDKIINSIPKFSNQLNENDLKLAIVGKPNVGKSSLVNSMIGEERMIVSEIAGTTVDAVDSKVKFNNNEYIIIDTAGMRKKKKIYENLEKYSYLRSLSSINKSDIVLLVLDSSQPITDHDTNIGGFAFEENKPIIIIGNK;locus_tag=LOCUS_04840;note=WP_011183096.1 ribosome biogenesis GTPase Der (Mesoplasma florum) [pid:66.1%25%2C q_cov:99.2%25%2C s_cov:55.6%25%2C Eval:8.9e-89%2C partial hit],internal stop codon at [291661:291663](+)%2C[292402:292404](+),MGA_486
sequence1	MetaGeneAnnotator	CDS	292435	292830	.	+	0	ID=MGA_487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKEEEIKAYFKYLSYAKVLFLSAKENKRVHKIYEIVELVKTNIKKRIRTSLLNEIFNKAQLINPAPNHNGGRLKIYYASQVEAYLPTFVLFVNNPEYVHFSYKRFLENQIRSQFDFTGVPITIIFRERK;locus_tag=LOCUS_04850;note=WP_011183096.1 ribosome biogenesis GTPase Der (Mesoplasma florum) [pid:72.9%25%2C q_cov:98.5%25%2C s_cov:29.7%25%2C Eval:1.6e-51%2C partial hit],internal stop codon at [292402:292404](+),MGA_487
sequence1	MetaGeneAnnotator	CDS	292835	293839	.	+	0	ID=MGA_488;product=NAD(P)H-dependent glycerol-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183097.1;translation=MIKEKIAIIGTGAYGTVLANVLADNGHDVIMYGIEETQVDDINNNHLNSMFFSDLLLNTEIKATMDFAEVMEKAQIVILGVPTFALNSAIENIIKYGKREMHIINVAKGLDEENLDVLSKKIKKKFEGTGVMKSYGAIYGPSVAIEVIMRKPTCVMSCNENEQIALYMANIFSNEYFIVKISTDVIGCEISAALKNTVAIAAGMLHGFAGADNAKASLITIGNAEIYTIAKSFGAKLETFMNFATLGDLILTASSSKSRNFSLGVEIAKLDSAEKVLKSHKKTVEGVAACKLGYEIARKQKINAPIFEIMYRILYNNDKPSVLINEFFKCAKVV;locus_tag=LOCUS_04860;note=WP_011183097.1 NAD(P)H-dependent glycerol-3-phosphate dehydrogenase (Mesoplasma florum) [pid:56.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-100],MGA_488
sequence1	MetaGeneAnnotator	CDS	293859	294134	.	+	0	ID=MGA_489;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166598.1;translation=MTKKELSEKLSVEFGSTKSEAEKMINFIFEEMTDALVKKDEVSIAGFGKFVTSERAARDGVNPATGAKIKIPATTVAKFKVAKQLKDAVAK;locus_tag=LOCUS_04870;note=WP_011166598.1 HU family DNA-binding protein (Mycoplasma mycoides group) [pid:53.9%25%2C q_cov:97.8%25%2C s_cov:98.9%25%2C Eval:8.3e-21],MGA_489
sequence1	MetaGeneAnnotator	CDS	294186	294737	.	+	0	ID=MGA_490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLELFQSGIINKKSLLILNYSKINLNEKQLAIVLIIMELSSYEQRNFTPSQIENYMNITKQEIEQEIADLLKNRFIKIDQKGKKTVLDLSPLFNRLLVKLEEEHSILKVDSEYNFLEKIFNNKLVKEEILKFDEYIESGISKPKILEYIHQYSITNVKDLLLKLEEKSKKSSVKITMYNWLND;locus_tag=LOCUS_04880;note=MGA_490
sequence1	MetaGeneAnnotator	CDS	295014	295199	.	-	0	ID=MGA_491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKNKGMFLETIINNTIEKLLIENTAVIQKMPLNSSIISIKNNIVESKLNKNFFCDYIDL;locus_tag=LOCUS_04890;note=WP_011183100.1 Holliday junction resolvase RecU (Mesoplasma florum) [pid:44.8%25%2C q_cov:93.4%25%2C s_cov:34.9%25%2C Eval:3.2e-07%2C partial hit],internal stop codon at [294975:294977](-)%2C[295014:295016](-),frameshifted%2C insertion/deletion at around 294815,MGA_491
sequence1	MetaGeneAnnotator	CDS	295293	295622	.	+	0	ID=MGA_492;product=DivIVA domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013447854.1;translation=MADYIKLSKQEILDKDFEVEYKGYKVEEVDSFLDMIAEDYRIFLERDRQKDKKISDLENNLKVLSNELNETLATLKLSESQMEQLARAGLNSSAIIQRISKLEKENFNK;locus_tag=LOCUS_04900;note=WP_013447854.1 DivIVA domain-containing protein (Mycoplasma leachii) [pid:32.1%25%2C q_cov:90.8%25%2C s_cov:79.2%25%2C Eval:4.8e-08],MGA_492
sequence1	MetaGeneAnnotator	CDS	296158	296493	.	+	0	ID=MGA_493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSFVCYSNDFKNNILNIDIEIIKKYSAVSFQAINLMLDNTFKLLNTEVVFAFTGYATPIDITNGNSGLSYIGFRFENKNHIYKFEIKKNISRKRYKKMAIKFIIKKFLYK;locus_tag=LOCUS_04910;note=WP_013447851.1 nicotinamide-nucleotide amidohydrolase family protein (Mycoplasma leachii) [pid:46.2%25%2C q_cov:95.5%25%2C s_cov:67.9%25%2C Eval:4.3e-20%2C partial hit],internal stop codon at [296152:296154](+),MGA_493
sequence1	MetaGeneAnnotator	CDS	296541	297464	.	+	0	ID=MGA_494;product=recombinase RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166605.1;translation=MLEQELNKNKNEVILNMDRENIYDDPAFKSVLKDIEKTFGKGSIMKLGDDNIVSIETISSGSFLLDRAIGIGGYPKGRIIEIYGPESSGKTTLSLHAISEAQKNNGRAAFIDAEHALDPRYAKNIGVDIKNLVVAQPDSGEQALDILEMLVKSNTMDIIVIDSVAALVPKTELDGEMSDQQIGLQARLMSKALRKLNGIISKTNTTVIFINQLREKVGVIFGNPETTPGGRALRFYSSVRLEVRKGEIITNNGEATANKVKIKVVKNKVSSPFKTCQITIGYNRGIERDLEIVEMATIYNVLSKSGV;locus_tag=LOCUS_04920;gene=recA;note=WP_011166605.1 recombinase RecA (Mycoplasma mycoides group) [pid:65.8%25%2C q_cov:95.1%25%2C s_cov:84.6%25%2C Eval:1.1e-108],internal stop codon at [297462:297464](+)%2C[297516:297518](+),MGA_494
sequence1	MetaGeneAnnotator	CDS	297844	298320	.	+	0	ID=MGA_495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIADAKAEAAILKLNLENEMKVKNESLLLLEKELKNKKDELYLEIDEINKKEQDFINEKVELNKLKKQFELGKKNIQILLEEISGMSFLEAKKELLDLVESRYLKDLSEELKKAEENLKYQSYKRASRILIDAMQKSVVEVTTDKNTTFFEIEDDS;locus_tag=LOCUS_04930;note=WP_010941798.1 ribonuclease Y (Geobacter sulfurreducens) [pid:28.0%25%2C q_cov:90.5%25%2C s_cov:28.8%25%2C Eval:3.0e-11%2C partial hit],internal stop codon at [298318:298320](+)%2C[298417:298419](+),MGA_495
sequence1	MetaGeneAnnotator	CDS	298555	299217	.	+	0	ID=MGA_496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIGYKTVSDLKIYDLPEEIVYLLGKMKFRHSYGQNALQHSLEVARFSSYIAGQLNLDENIALKAGLLHDIGKAVDFEVEGTHVKLGVNILKKYNIDNLIINAVEAHHNDVEKESFYAEIVAIADTMSAARPGARNNDANEYFSRMKQLEDTCLGVEGVLKAYVLQSGRQIRVMVNPSIIDDYKLKKLAIILKQKISSINKTPGEIVITLIREKRESIKL;locus_tag=LOCUS_04940;note=WP_011183104.1 ribonuclease Y (Mesoplasma florum) [pid:52.3%25%2C q_cov:98.2%25%2C s_cov:42.9%25%2C Eval:6.7e-58%2C partial hit],internal stop codon at [298318:298320](+)%2C[298417:298419](+),MGA_496
sequence1	MetaGeneAnnotator	CDS	299284	300630	.	+	0	ID=MGA_497;product=signal recognition particle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183377.1;translation=MGFGDFLSNRMKKSIEKNLKKTTLNEENIKEVLREIRLALLEADVNIEVVKKFIKNIETKALGKFIEQGVRADQQMVKLVHEELVEILGKTNKPLEINKKHSIIMMVGLQGAGKTTTVGKLSNLISKKHKKKTLMVGLDIYRPGAIDQLLELGEKNNLDVFEKGKQDPVKTAKQAIDFASENGYEVIILDTAGRLQIDKELMKELNNIRKICSPQEIILTVDGMTGQDIINVSQEFNKLLKLSGVIVTKLDGDARGGATLSITDITNLPIKFIGEGEGINALAEFHPKRMADRILGMGDVETLFEKAADVVDQRTMEKTMKRMFAGQFDLEDLRNQLEQVAKMGNLGGIMKMMPGMNGKISEQQINQAQDRLRVATILMSSMTIKERRDPRLLKAITRKQRIIKGSGRTEKEYNELINQFDKGKKQVLEMAKTLKSGRMPNLGGFGKF;locus_tag=LOCUS_04950;gene=ffh;note=WP_011183377.1 signal recognition particle protein (Mesoplasma) [pid:70.5%25%2C q_cov:99.8%25%2C s_cov:98.9%25%2C Eval:1.6e-181],MGA_497
sequence1	MetaGeneAnnotator	CDS	300694	301104	.	+	0	ID=MGA_498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLVVITGASSGIGMQLAKKFAKEGHPILLLARRKEKLLELEISNAICESVDVKNFNDFKNAIDRAEKKYGDVDLLINNAGIMPLDKIYSLAIETQHEMVDINVKGVLNGINIVIKKMKEKKTGTIINVSSVAGR;locus_tag=LOCUS_04960;note=WP_011166492.1 SDR family oxidoreductase (Mycoplasma mycoides) [pid:54.4%25%2C q_cov:100.0%25%2C s_cov:56.7%25%2C Eval:9.4e-36%2C partial hit],internal stop codon at [301102:301104](+),MGA_498
sequence1	MetaGeneAnnotator	CDS	301225	301413	.	+	0	ID=MGA_499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTNLINTTENSEIIENYYDFKNKLEGGLTAEQVANIIIYMYNLPQSVSLKEVVLSSTQQEI;locus_tag=LOCUS_04970;note=MGA_499
sequence1	MetaGeneAnnotator	CDS	301571	302026	.	-	0	ID=MGA_500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYILPLRIKKYICAMNYKFIETETATKKPVLKLVSTTSRIVTEELIDQYHDDRLNNIIGQFRSSAKHEIEHKLTLFKNIALFLREGEALLFQKFGKEFAEEYFKNVKILMELKSDKLTPKDKKFVEKNIDDLFNIAMLMVLLMSDTMKMEL;locus_tag=LOCUS_04980;note=MGA_500
sequence1	MetaGeneAnnotator	CDS	302054	302374	.	-	0	ID=MGA_501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKYKYDFGGNTMAEKKQFQSILDYRPQFENIMDALVPDIQFSYSAIMNNSTIQTYFNMIAMEYYGYEYFQLLRLNNLEFKLNERSLNLTVLEMVYNIITQIVSRK;locus_tag=LOCUS_04990;note=MGA_501
sequence1	MetaGeneAnnotator	CDS	302430	302894	.	+	0	ID=MGA_502;product=23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166608.1;translation=MKIKIVCFNKISKEFKDAYNMYLEKLSKHSKIDVIQIQEVDFGDIKSNRVRNEQNILEKLNILNGFEIFLLDINARQYSSEDIVSILKRNQNYNSAKLCFIIGPSDGFSSEFRIKWQNKLSFGPLTLPYNLVRIILLEQLYRGFKISKNQKYHK;locus_tag=LOCUS_05000;note=WP_011166608.1 23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH (Mycoplasma mycoides group) [pid:46.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-35],MGA_502
sequence1	MetaGeneAnnotator	CDS	302982	303167	.	+	0	ID=MGA_503;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKSIKEIESKISIVDLVIEIVDARSPFSTQNSLFRKLLNKRPRLIIMSKFDLADVEVTNQ;locus_tag=LOCUS_05010;note=WP_011183436.1 ribosome biogenesis GTPase YlqF (Mesoplasma florum) [pid:51.8%25%2C q_cov:91.8%25%2C s_cov:17.8%25%2C Eval:1.4e-10%2C partial hit],internal stop codon at [302967:302969](+)%2C[303165:303167](+),MGA_503
sequence1	MetaGeneAnnotator	CDS	303261	303896	.	+	0	ID=MGA_504;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKENQNKQIKRGIEKPQLNVLVVGIPNVGKSTVISKLSKGKTVKIGNKPGVTRGLQRIVMTPNITLIDTPGILPSKFENETIACNCAATNSIKLEVVPKERLATKLMRYIYNSYPDLIENTYKINKNILRPINYDDTFIIFEEIAKRNKFTIFDNMADVERAIELFVHDIINNNLGRISFEKPIEISEINKKTIDETDLDFTVESDLTVE;locus_tag=LOCUS_05020;note=WP_011183436.1 ribosome biogenesis GTPase YlqF (Mesoplasma florum) [pid:54.3%25%2C q_cov:88.2%25%2C s_cov:59.0%25%2C Eval:2.3e-52%2C partial hit],internal stop codon at [302967:302969](+)%2C[303165:303167](+),MGA_504
sequence1	MetaGeneAnnotator	CDS	303893	304525	.	+	0	ID=MGA_505;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183435.1;translation=MIENLRYLFDKNIKDKYKVKLVSGSYEVGRSAMAGPIVVASVILKLDYSNLLIRDSKLLSEKQREKLYDEIIDNCISYSICEYDSEFVDKFNPKQTSRIGMIETIKNLKVKPEFCLIDGESIELPEYKCLKIIKGDNLSLSIAAASILAKVYKDRIMINYHSKYPDYNFIKHKGYCTIEHQLKVQQFGILNFYRLSYKLIMKIKGENNEF;locus_tag=LOCUS_05030;EC_number=3.1.26.4;note=WP_011183435.1 ribonuclease HII (Mesoplasma florum) [pid:56.2%25%2C q_cov:99.0%25%2C s_cov:99.5%25%2C Eval:6.9e-57],MGA_505
sequence1	MetaGeneAnnotator	CDS	304569	305081	.	+	0	ID=MGA_506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METELKEELLNATDEELNAAFNINLEFGTAGIRGILGAGPGRFNLYTIKLVTISYAKLLISKYPEELTRGVVIGHDNRKFSKEFSQLAAEILTSFGIKAYLFEDNKMKPTPVVSFSTKDLNAIGGIVITASHNPAIYNGYKIYDEFGCQLIDEETEIIANHMSEISNILN;locus_tag=LOCUS_05040;note=WP_011166989.1 phospho-sugar mutase (Mycoplasma mycoides) [pid:70.0%25%2C q_cov:100.0%25%2C s_cov:30.5%25%2C Eval:7.5e-65%2C partial hit],internal stop codon at [304551:304553](+)%2C[305079:305081](+)%2C[305352:305354](+),MGA_506
sequence1	MetaGeneAnnotator	CDS	305103	305354	.	+	0	ID=MGA_507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENINNNVLKNYKKMISNLQFYKDQSRDGFKMIYSAVNGTGTEFTPPLLKKFGYEVIEVEEHAFEDSTFKNVGNPNPEFEPA;locus_tag=LOCUS_05050;note=WP_011183017.1 phospho-sugar mutase (Mesoplasma florum) [pid:62.4%25%2C q_cov:100.0%25%2C s_cov:15.2%25%2C Eval:1.2e-25%2C partial hit],internal stop codon at [305079:305081](+)%2C[305352:305354](+)%2C[305460:305462](+)%2C[305505:305507](+),MGA_507
sequence1	MetaGeneAnnotator	CDS	305520	305651	.	+	0	ID=MGA_508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNNSTPQNPAMYSSFVTSDLGDRIASETYGVKVIKTLTGFK;locus_tag=LOCUS_05060;note=WP_011183017.1 phospho-sugar mutase (Mesoplasma florum) [pid:74.4%25%2C q_cov:100.0%25%2C s_cov:7.7%25%2C Eval:3.2e-12%2C partial hit],internal stop codon at [305352:305354](+)%2C[305460:305462](+)%2C[305505:305507](+)%2C[305649:305651](+),MGA_508
sequence1	MetaGeneAnnotator	CDS	305652	306062	.	+	0	ID=MGA_509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSEILKEPERLLNFVFAYEESYGYVLDSSTRDKDGIQATVMLAEAAWYYKKQNKTLIDVLDDLYKKYGYYYTYTENLNFKPEEIKSKVEPIMKKLRDNSFDHLGDLELKYAEDYIYGLFGMPGQNLLKFYFTDGS;locus_tag=LOCUS_05070;note=WP_011183017.1 phospho-sugar mutase (Mesoplasma florum) [pid:60.3%25%2C q_cov:100.0%25%2C s_cov:24.2%25%2C Eval:7.9e-43%2C partial hit],internal stop codon at [305460:305462](+)%2C[305505:305507](+)%2C[305649:305651](+)%2C[306060:306062](+),MGA_509
sequence1	MetaGeneAnnotator	CDS	306313	307536	.	+	0	ID=MGA_510;product=CoA-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023905986.1;translation=MRTIIIGGSATGMGVAARLKRNLPDSEIIVFQEKKYVSLGACGLPYFVANNFTDENILIARTKDDFEKTGIKIYSNINVNTVDFENKKVFFNNQQLEYDNLVIAVGAKPIIPNIKGINGKSVFTLTTLEDGIMLKKKMEEDNKIKKIAVIGAGFIGLEMCETFRELNKEVYLIEMEKRISSKAFDEEFSDLILEKLNQKSINVLLNHQVSEILLNTNDEVNGILLKNGEKINVDAVLMAVGFKPNTEIFNNSKLAINSKGAIIVNTKGETNISSVYSAGDCTTSKNYLTDEDIYSPLATVASKFARVIADNISGRNENFVGSIQSAMIRIFDLEVARTGLSENDAKERNINFKSVLIKDKDHTAYTTNQKDLYLKIIMNNDSKEIIGAQMAGSNNSILRINALSALI;locus_tag=LOCUS_05080;EC_number=1.8.1.14;note=WP_023905986.1 CoA-disulfide reductase (Mycoplasma mycoides) [pid:46.0%25%2C q_cov:100.0%25%2C s_cov:91.5%25%2C Eval:3.7e-100],MGA_510
sequence1	MetaGeneAnnotator	CDS	307801	307944	.	+	0	ID=MGA_511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFRVISGMVIGLVYGIILQAIIGFPTGDEFSSLTNEDNSINYDNRLY;locus_tag=LOCUS_05090;note=MGA_511
sequence1	MetaGeneAnnotator	CDS	307948	308247	.	+	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELNIWASLFKNIFINGVYLLTVPIVFLAIFKITSKPGETGLARITLKGVGLLLFNVALMFTITFFLGVVFKIGNGFDLEEGASITGAGRDNVPIPQLI;locus_tag=LOCUS_05100;note=WP_011183548.1 dicarboxylate/amino acid:cation symporter (Mesoplasma florum) [pid:49.0%25%2C q_cov:100.0%25%2C s_cov:16.9%25%2C Eval:1.5e-22%2C partial hit],internal stop codon at [307717:307719](+)%2C[307768:307770](+)%2C[308245:308247](+)%2C[308401:308403](+),MGA_512
sequence1	MetaGeneAnnotator	CDS	308410	308565	.	+	0	ID=MGA_513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMSVLMTFMKIMPLAVMSMMTVSLTSREIGALITIGKIIGLGYLGVFIAIG;locus_tag=LOCUS_05110;note=WP_011183548.1 dicarboxylate/amino acid:cation symporter (Mesoplasma florum) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:8.7%25%2C Eval:2.3e-13%2C partial hit],internal stop codon at [308245:308247](+)%2C[308401:308403](+)%2C[308563:308565](+)%2C[308608:308610](+)%2C[308611:308613](+)%2C[308623:308625](+)%2C[308809:308811](+),MGA_513
sequence1	MetaGeneAnnotator	CDS	308683	308811	.	+	0	ID=MGA_514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTLNEEMKVGSKPTNTIAPLSTTMGLIACAGVQSGLATSIL;locus_tag=LOCUS_05120;note=WP_011183548.1 dicarboxylate/amino acid:cation symporter (Mesoplasma florum) [pid:59.5%25%2C q_cov:100.0%25%2C s_cov:7.2%25%2C Eval:6.3e-08%2C partial hit],internal stop codon at [308563:308565](+)%2C[308608:308610](+)%2C[308611:308613](+)%2C[308623:308625](+)%2C[308809:308811](+),MGA_514
sequence1	MetaGeneAnnotator	CDS	308845	309426	.	+	0	ID=MGA_515;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLFTFFILALFVTVIASIGIAGVPGTATVVTVGVLGGLGFGSYTSSVLNIILPLDGLFDMGRTGANVLGGVAVSTVVAKSEGLIEEGSQLLNELGIAKQKAIKMLKESRDIYIEKIQTMKNEIFKKIRIKGIEIEEKKQLNLNLKENLKKSKEEFLAKKIEISESFKSFKKQFNLNKKNSIKSIDTKSKREN;locus_tag=LOCUS_05130;note=WP_011167177.1 dicarboxylate/amino acid:cation symporter (Mycoplasma mycoides) [pid:48.8%25%2C q_cov:63.7%25%2C s_cov:23.3%25%2C Eval:1.8e-21%2C partial hit],internal stop codon at [308608:308610](+)%2C[308611:308613](+)%2C[308623:308625](+)%2C[308809:308811](+),MGA_515
sequence1	MetaGeneAnnotator	CDS	309878	310141	.	+	0	ID=MGA_516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKEKITYKELEDVTTRISSDFITILSPLYPNYLKNTHKPPFVIYYKGDISLLSKYTKTVAMVGGSEINDYSKNNIEKLIKDFSKN;locus_tag=LOCUS_05140;note=WP_011183433.1 DNA-processing protein DprA (Mesoplasma florum) [pid:40.7%25%2C q_cov:98.9%25%2C s_cov:33.2%25%2C Eval:3.4e-14%2C partial hit],internal stop codon at [309857:309859](+)%2C[310139:310141](+),MGA_516
sequence1	MetaGeneAnnotator	CDS	310157	310567	.	+	0	ID=MGA_517;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERIGINLEILNYSIENKNQIILVLKSDMQSYVEKNLDLKEKQNFLVITEIYESGKDFTNQIDDYSSRLICGISKGIVFIHIKNNDSLNKLFSFAINEGKEIFAIPDSLNGLDGTNKMIKNGAKLIENAKAVLNDL;locus_tag=LOCUS_05150;note=WP_011183433.1 DNA-processing protein DprA (Mesoplasma florum) [pid:33.6%25%2C q_cov:94.1%25%2C s_cov:52.5%25%2C Eval:8.3e-16%2C partial hit],internal stop codon at [310139:310141](+),MGA_517
sequence1	MetaGeneAnnotator	CDS	310759	311058	.	+	0	ID=MGA_518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNSEINNLNETINTEKNLKNNQEPNFNSKKNKGKTFNGIIFDYLKKHPFLAFFLVFFTLASSFTTILGPKIIENMMSLLMAPGSLPQEGATEETIKQ;locus_tag=LOCUS_05160;note=MGA_518
sequence1	MetaGeneAnnotator	CDS	311242	312387	.	+	0	ID=MGA_519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKNIEISLRNRALEKLVKQDMSYYSDKKIGEILTKIVSDTQIIGDQAQQVPVTLMSATFTFFGALIMMTTINTNLTLVVVVTMSIIIAIMFLTFGVVKKLLFRTRDSITSINGDVTDRIGTVRLIKASGTESYETKRFKEIHEDYYKKSSSLIKLQSTVITVMVAGVSSIQMVIVIAAALLYNDEPHQLSIVLSSFISSVGTMVGPLMQVARVTAGLAQASTSSTRIDQILVSVPRIDPHYNDNEGIYIDSIDGDIKLEDIEFRYPEKPSKVILPKFSFTFEKGKSYAFVGETGAGKSTIAKLLLRFYDPYEGKVLINGNIDLKDIHLSSYLDKVGYVEQEPQILFGTVIDNIKYGRFDATDEEAQEAAKKAELHDLVMT;locus_tag=LOCUS_05170;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:52.0%25%2C q_cov:100.0%25%2C s_cov:57.5%25%2C Eval:2.3e-109%2C partial hit],internal stop codon at [312385:312387](+),MGA_519
sequence1	MetaGeneAnnotator	CDS	312427	312741	.	+	0	ID=MGA_520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSGGQKQRLVIARMFLKDPQLLILDEATSALDNIVEKEIQVKLDALMGGRTTVTIAHRLSTIKNVDQIIVLARDKGIAQIGTFDDLKSKPGHFKKLYDAGLID;locus_tag=LOCUS_05180;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:83.2%25%2C q_cov:97.1%25%2C s_cov:15.3%25%2C Eval:2.8e-40%2C partial hit],internal stop codon at [312385:312387](+),MGA_520
sequence1	MetaGeneAnnotator	CDS	313026	314150	.	+	0	ID=MGA_521;product=methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183430.1;translation=MGTLKEEMGLFNSLILEAAQFAQIPAGGSLAVDREIFSKYITDKINSHKNITVLQQDVEKIDKSKLTLIASGPLTSKKLQKEIINLIGEEYFYFFDAVAPIVKKDSLNMNIVFRKNRYDKGETKDYINCGMNKEQYEKFYNELINAELAKMHLDSEKQMKYFEGCMPVEAMAKRGYDTLRYGPLKPAGLKNLDNTENFAVVQLRQDNAIDDLYNMVGFQTNLTCSEQKRVFKLIPGMENAEFVRYGVMHQNNFINSPKLLNHFNQLKNNENIFFAGQITGVEGYIESTSSGIIAAINIEKFLNNENLVKFPLDTVMGGLQNYIISTNSKNFQPMKANWSIVENLELFNKIKKEEKKELYSKRAISSMKKFIKNI;locus_tag=LOCUS_05190;gene=trmFO;note=WP_011183430.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mesoplasma florum) [pid:62.5%25%2C q_cov:100.0%25%2C s_cov:85.4%25%2C Eval:1.1e-132],MGA_521
sequence1	MetaGeneAnnotator	CDS	314281	314499	.	+	0	ID=MGA_522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKLYPIVYIGVTQYTLYRGITINEIPVDELNTYTSYIMENYEQIYKIKYRFVKEKPKKLNFKEKQIYDLS;locus_tag=LOCUS_05200;note=MGA_522
sequence1	MetaGeneAnnotator	CDS	314938	315765	.	+	0	ID=MGA_523;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTILMKDEISAVTMLDDGAELYELIENYLPLFIFEDKIKNSSNNLNQEYKNSKIKVLSPFNYQNINIETLIPYVCSKGERFVEIDKEQLKSCSEIIASVFSNLRMTLLIHEYLPQFIDSRIIVQKKLLVNVLKIFEEVKENRFKRKIDVENLLESDFFISEEEIIDIIELHRKNLPEFGENSSLLKVGKIMSLMLGIEPKTASSVNYDLRQLIKNILIIFGPHPLDHTVQTRENINFISTIFEKICREYEKKMNLNDLDNQFSNAFELPLKLLN;locus_tag=LOCUS_05210;note=MGA_523
sequence1	Aragorn:1.2.38	tRNA	315828	315904	.	+	.	ID=Aragorn_20;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00190;note=Aragorn_20
sequence1	MetaGeneAnnotator	CDS	315992	316168	.	+	0	ID=MGA_524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRISSRVIENKKFNIAATVYLNYYVDPLHKTIEEQSFENFIFLKFFTYPSIIALTN;locus_tag=LOCUS_05220;note=MGA_524
sequence1	MetaGeneAnnotator	CDS	316304	316771	.	+	0	ID=MGA_525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALNLKQLKKFVIDEKPSLDILEVNDEENLNEFVKVISDTTTLQVSDKEKFFGMFELNKEEKINYLLLAKYNSEYSGVGHLIYYNEKIGMIDDISVKEDFRNNGIATIIMKSLINKAIDDGLDELYLFASEQAIEIYKKLGFIEDDFWLEQYNIL;locus_tag=LOCUS_05230;note=MGA_525
sequence1	MetaGeneAnnotator	CDS	317072	317239	.	+	0	ID=MGA_526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKLRLKRAGKKRAAFYRIVAADSRIKRDGEYIELVGTYNPINGEVNVKNEIALK;locus_tag=LOCUS_05240;note=WP_011183440.1 30S ribosomal protein S16 (Mesoplasma) [pid:61.8%25%2C q_cov:100.0%25%2C s_cov:61.8%25%2C Eval:4.5e-14%2C partial hit],internal stop codon at [317237:317239](+),MGA_526
sequence1	MetaGeneAnnotator	CDS	317240	317476	.	+	0	ID=MGA_527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQGAQPTETVRNIFSKQGIMTELHNVKLENKKNEPKTEKKIKKVASKLTVAKKQVSGKSAVAKKPSATKKTEITSVE;locus_tag=LOCUS_05250;note=MGA_527
sequence1	MetaGeneAnnotator	CDS	317488	317748	.	+	0	ID=MGA_528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEVFNSVNTLLNNIVPKEINYVFKEKFETENTFEFILLIEKNNLNFFGKNQSEGLLEIILTILNSEIGKFKKEIIITLEVFEDYV;locus_tag=LOCUS_05260;note=MGA_528
sequence1	MetaGeneAnnotator	CDS	317741	318151	.	+	0	ID=MGA_529;product=ribosome maturation factor RimM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081983.1;translation=MFDNLIKIGKIVSTHAIRGEVKFLLDNKYLLLKEIKNIKIFLEDKQGKIDVYEIEKSYFINKKQILKLKNINNINEAKPLINNIVYIIKNDELIEIKETFIEFEAFYKESKYGIIIDEMYNGAQDLVKVKNQKNEF;locus_tag=LOCUS_05270;gene=rimM;note=WP_004081983.1 ribosome maturation factor RimM (Thermotoga) [pid:25.9%25%2C q_cov:99.3%25%2C s_cov:80.1%25%2C Eval:3.2e-07],internal stop codon at [318149:318151](+),MGA_529
sequence1	MetaGeneAnnotator	CDS	318235	318507	.	+	0	ID=MGA_530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSIITLFPNLIENYISQSIIKRAIQKKFIDIEILDIRNFTNYSHNQVDDYQFGGGKGMVLMVEPIVNAIESCKTIDSLIILTTPQGKT;locus_tag=LOCUS_05280;note=WP_011166611.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Mycoplasma mycoides) [pid:70.0%25%2C q_cov:100.0%25%2C s_cov:37.5%25%2C Eval:4.7e-32%2C partial hit],internal stop codon at [318505:318507](+),MGA_530
sequence1	MetaGeneAnnotator	CDS	318550	318966	.	+	0	ID=MGA_531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIICGHYEGFDERILKYIDLEISIGDYILTGGELASLCLIDSITRVVDGVISNESHLNESFENNLLDYPVYTKPLNFRNQKVPEVLTSGHHAKIEKFRQEGRIKNTYIKRPDLLKENQLSKNELTFLKELKKSKGEN;locus_tag=LOCUS_05290;note=WP_011183438.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Mesoplasma florum) [pid:66.4%25%2C q_cov:99.3%25%2C s_cov:56.4%25%2C Eval:3.0e-50%2C partial hit],internal stop codon at [318505:318507](+),MGA_531
sequence1	MetaGeneAnnotator	CDS	318968	319366	.	+	0	ID=MGA_532;product=50S ribosomal protein L19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183437.1;translation=MNMLTKNTKSLIDEQLNSNIPDFSSGDTIKVNVKIKEGEKYRIQAFEGVVIKTQGSGISYSVCVRKNSGGIFVERTFPIHSPIIDSIEVIKRGRVRRARIYYIRKLSGKAARIKEVINNKTKEVSVKKAIKQ;locus_tag=LOCUS_05300;gene=rplS;note=WP_011183437.1 50S ribosomal protein L19 (Mesoplasma) [pid:73.1%25%2C q_cov:87.9%25%2C s_cov:93.0%25%2C Eval:1.4e-44],MGA_532
sequence1	MetaGeneAnnotator	CDS	319473	319670	.	+	0	ID=MGA_533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYYEELIKEIDLEIANKNFENALNLINEELNAPYIPVEFENYLNDKYIAILENTENNNFINER;locus_tag=LOCUS_05310;note=MGA_533
sequence1	MetaGeneAnnotator	CDS	319728	320216	.	+	0	ID=MGA_534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFDALRTMNIRKILQNLKEYLLNEKIKPSNKSFLLLILIEQSINQEIFVNKNGNTISINPSNFDLMNSQKILKNIELKLENLVYDTNPSLFKISKHIANNYFYYVFPNLNFKNYSLNDLCAAIIIKANEALGTTLEKEIEEKIIFNKENTMLLLNELTEVV;locus_tag=LOCUS_05320;note=MGA_534
sequence1	MetaGeneAnnotator	CDS	320228	320461	.	+	0	ID=MGA_535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKIVFTEEDFIKFEDRKNIMMQIFGITCSACGIDEIAYVAKNAPQTLGNVAENLIKQNPNISDDELDLLLKSPIKE;locus_tag=LOCUS_05330;note=MGA_535
sequence1	MetaGeneAnnotator	CDS	320594	321607	.	+	0	ID=MGA_536;product=GTPase ObgE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166623.1;translation=MKFVDLAFFNIKSGKGGDGAVSFRHELYVANGGPNGGDGGKGGDIILIADEGKSSLLDLKLQKFYTAQDGFKGDIKNMHGKNGKDTIIKVPIGTVIFNADTNELLADFTKNNQTEIIAIGGKGGKGNARFVNSRNKAPTIFEAGDLGQDFNIKAELKVLADVGFVGLPNAGKSTLLRTISNSKPQIADYSFTTLNPQLGVSRDKQGRTFTVADLPGLIEGASLGKGLGHEFLRHIERCKIICHVIDMSGNYATEDVIKNYELIRKELIEYNLNLEKRPEIIVANKMDIEDSNINILYFKEKYFNKKIIEVSGLNKMNIDKLLFSIGSLLEEVKNIPL;locus_tag=LOCUS_05340;gene=obgE;note=WP_011166623.1 GTPase ObgE (Mycoplasma mycoides) [pid:66.4%25%2C q_cov:98.8%25%2C s_cov:77.4%25%2C Eval:1.3e-124],internal stop codon at [321605:321607](+)%2C[321698:321700](+),MGA_536
sequence1	MetaGeneAnnotator	CDS	322052	322303	.	+	0	ID=MGA_537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPCDSSKLDEECKEELVNTLKLKSVTVDLAKTFLTLKEDLNFSGITQSKLALANTKARLRMTTLYSMAQTHEYLVLGTDNADE;locus_tag=LOCUS_05350;note=WP_011183419.1 NAD(+) synthase (Mesoplasma florum) [pid:54.2%25%2C q_cov:100.0%25%2C s_cov:34.0%25%2C Eval:2.8e-19%2C partial hit],internal stop codon at [321923:321925](+)%2C[322049:322051](+)%2C[322301:322303](+)%2C[322448:322450](+),MGA_537
sequence1	MetaGeneAnnotator	CDS	322690	323139	.	+	0	ID=MGA_538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEIQANEISEFIDQLHDETADKMFEELIAGMSLYFAVVLFGEEIDKNYESLIKEGKSIEEISTVVKNSELGEEEIYSALMGSLQEESDAENFAADCVQSIAFSPEYPQEVLKKLTELEIELSDFSANLIVTFKDQFIDFFVNDLDVIE;locus_tag=LOCUS_05360;note=MGA_538
sequence1	MetaGeneAnnotator	CDS	323582	324709	.	+	0	ID=MGA_539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGLFNPFKNNFKNNDQQNAGDFNVQSSQQPVMTQNSYNNNNLDEYQRNLINKKNQNENFIRPRKIEFENSYLNQLNQTPQFSRQNREIIQTNYINSNDPQFMNNQNRFMNQNQNIRQSANQQFMQNNYYPQNNAQNYNLRQEYLDFENQNYFDYGNYRDENQNNRMIYNFQQQSNSNFYNQHNNFYNEQPIYEEFSNYNNNMHFGYSDFSNNNQFYNSNDRYNYNPNVNYSLNSANQYNPYSQSSYRNRLQSSNIIPKPISKEIRSEKFRLFFMFIFGTVGIITSSLMLAVYYKTVGTENKIIGLDYTSVMYPFFSILLLIIAIAFFGVSLTDYTLLYSNVKKYERELLLGNESVPYFITRNYRSLISRAVYLN;locus_tag=LOCUS_05370;note=MGA_539
sequence1	MetaGeneAnnotator	CDS	325105	325692	.	+	0	ID=MGA_540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNKELVKRDIDSLYVHIPFCEHICFYCDFVKVKKPKDPIVIDKYLNILEKELVDYKNRLESIKSIYIGGGTPSCLDNEQTKRMCKILNKYVNEKNVEFSIELNPESVTEEKLKIYKSYNINRLSIGVQTFDNNLLKKIGRIHDNSIALNAFKLARKVGFKNISIDLMYNLYDQTKENILVDLEYINKLKPDHIS;locus_tag=LOCUS_05380;note=WP_004398764.1 radical SAM family heme chaperone HemW (Bacillus) [pid:43.3%25%2C q_cov:93.8%25%2C s_cov:48.8%25%2C Eval:3.0e-40%2C partial hit],internal stop codon at [325690:325692](+)%2C[325723:325725](+)%2C[325873:325875](+),MGA_540
sequence1	MetaGeneAnnotator	CDS	325738	325875	.	+	0	ID=MGA_541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVPENDELFDDIVNDGLEKLGYIRYEISNYAKKLETKSIHNISY;locus_tag=LOCUS_05390;note=MGA_541
sequence1	MetaGeneAnnotator	CDS	325924	326217	.	+	0	ID=MGA_542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDNKYFLTRNEGNILNYKKEFEELSIEEYYFQVIMMSLRLVNGLNLLEEKNKEIFIFFKEKINLKISQNLLEIVDNHLKCTKRGFNILNEILIDFL;locus_tag=LOCUS_05400;note=MGA_542
sequence1	MetaGeneAnnotator	CDS	326204	326410	.	+	0	ID=MGA_543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFYKMKKALIVVDYQYDFADPKGTLYVPNGETLKKGIQKKIIEYKNNNNFVIFSGDFHPKNHVSFKV;locus_tag=LOCUS_05410;note=WP_011167163.1 isochorismatase family protein (Mycoplasma mycoides) [pid:55.7%25%2C q_cov:89.7%25%2C s_cov:36.7%25%2C Eval:1.1e-12%2C partial hit],internal stop codon at [326408:326410](+),MGA_543
sequence1	MetaGeneAnnotator	CDS	326540	326728	.	+	0	ID=MGA_544;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIESELDSFLKRNNIKEIEICGLALDVCVKDTYEDAKNKKYNVKVNLDLSKSIDQNFILEN;locus_tag=LOCUS_05420;note=MGA_544
sequence1	MetaGeneAnnotator	CDS	326780	326977	.	+	0	ID=MGA_545;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKKILTQDDNLIFLKFINETGIINLKEYIYNFLNEKPTKIKEKYSFLISEAIKKIVLKRLFQK;locus_tag=LOCUS_05430;note=MGA_545
sequence1	MetaGeneAnnotator	CDS	327219	327479	.	+	0	ID=MGA_546;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMSLLIVDFSIFEKSTLIFSNEQKEILSLILKSENIEDFMELKKYLKINVFKYLPLRIMLLQREIIKQKNKLSVRENSKITYNTFM;locus_tag=LOCUS_05440;note=MGA_546
sequence1	MetaGeneAnnotator	CDS	327664	328620	.	+	0	ID=MGA_547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFLQKPDPLNDPEILSKYTRDLTLDAKEGKIDPIIGRDDEIMRVIRILSRKTKNNPVLIGEPGVGKTAIAEGLAQRINKGDVPSVLKNKKILELDMGSVMAGASFLGDYEARIKGIINAIQKENGEIILFIDELHLIVGAGKTGNGGGMDVSNLLKPALARGGIKVIGATTLKEYREYIEKDAALERRFQKVYVSEPTIDETISILRGLKERFETYHGVRIHDNALVAAAQLSDRYISDRFLPDKAIDLVDEASATIKTELASVPTELYQIDRKVMQLEIERAALSQEKDDKSKEKLQICEKELVSFKIKQKELNDK;locus_tag=LOCUS_05450;note=WP_011183317.1 AAA family ATPase (Mesoplasma florum) [pid:78.7%25%2C q_cov:99.1%25%2C s_cov:43.9%25%2C Eval:2.7e-137%2C partial hit],internal stop codon at [328618:328620](+)%2C[328855:328857](+),MGA_547
sequence1	MetaGeneAnnotator	CDS	328678	328857	.	+	0	ID=MGA_548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIELEQAQNEGNYQRAGEIQYSLLPALEKKLNNALSENAEKLISEEVSENEIASIIAK;locus_tag=LOCUS_05460;note=WP_011183317.1 AAA family ATPase (Mesoplasma florum) [pid:62.7%25%2C q_cov:100.0%25%2C s_cov:8.3%25%2C Eval:1.2e-14%2C partial hit],internal stop codon at [328618:328620](+)%2C[328855:328857](+),MGA_548
sequence1	MetaGeneAnnotator	CDS	328882	329811	.	+	0	ID=MGA_549;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESEIQKLLGLSTTLKRMVKGQNEAIELVADAIMRSRSGIKDPSKPIGSFLFLGPTGVGKTEVAKSLAKNLFGSEKKMIRFDMSEYMEKHSVSKLIGSPPGYVGYEEGGRLTEAIRRAPYSIILFDEVEKAHPDVFNIFLQIFDDGRITDSLGKTVDFKNTIIIMTSNIGSEYLMSTPSELINQEVIDEQLKKFFRPEFLNRIDNIINFNPLSKDNIKEIIVKTLNELKERVFEKNEFIINFTNQTIKKILDEGFSKEYGARPIKRYIEKNIETLIARAIVAEDIEPKRNYVIDVENDIFRITNSNKLN;locus_tag=LOCUS_05470;note=WP_011183317.1 AAA family ATPase (Mesoplasma florum) [pid:67.4%25%2C q_cov:98.1%25%2C s_cov:42.8%25%2C Eval:3.0e-114%2C partial hit],internal stop codon at [328618:328620](+)%2C[328855:328857](+),MGA_549
sequence1	MetaGeneAnnotator	CDS	329872	330663	.	+	0	ID=MGA_550;product=heat-inducible transcriptional repressor HrcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183316.1;translation=MLTNRQELILQAIIEEYIKTAFPIGSKRIQEVLEIEISSATIRNESAFLEEQGFLEKAHTSSGKVPSTKGYRYYVDNLMKSNNIDDIKLQIEEIFKKRGASIDEILEQTSVILSEMTKLATIVATSNELEELLLSKVELVPISNQKAIILFVLSNGQIQNKTISLDKISLEELRISIDLFNERLINSKISEIETKSQVIIPILKQQVKKYEFILQTLVNALLHTDSNKSKTRGVKYLLENPEFNDPLKIKKVIEFIENASPFS;locus_tag=LOCUS_05480;gene=hrcA;note=WP_011183316.1 heat-inducible transcriptional repressor HrcA (Mesoplasma florum) [pid:49.8%25%2C q_cov:99.6%25%2C s_cov:76.9%25%2C Eval:5.2e-69],internal stop codon at [330661:330663](+)%2C[330847:330849](+),MGA_550
sequence1	MetaGeneAnnotator	CDS	330896	331522	.	+	0	ID=MGA_551;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKEKKIIFDLLDDIKINLNIDLKSDDKDKKLKKDKKNEDEIEIDIEKKELSSVEKLELEIANLMNEISKLEEAKLMAIADNQNTVRRFQNETMLIKKYGGEKLAIELLPAIDMFRTVLKSSPDNPEIKNYLMGFEMIISQIDQALSNSGIQIIEVKSGDEFNPELHTAIEQIETEEFESGKITSVVSNGYKLHDRVIKHAAVKVAK;locus_tag=LOCUS_05490;note=WP_011183315.1 nucleotide exchange factor GrpE (Mesoplasma florum) [pid:44.2%25%2C q_cov:74.0%25%2C s_cov:80.7%25%2C Eval:1.8e-30%2C partial hit],MGA_551
sequence1	MetaGeneAnnotator	CDS	331543	332175	.	+	0	ID=MGA_552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEKIIGIDLGTTNSCVAVMEGGQPMVLENPEGQRTTPSVVAFKNSDIIIGGAAKRQAVTNPNTAISIKRDMGTSKKVNLEGKDYTPEQISAEILRYLKKYAEDKIGSKITKAVITVPAYFNDSQRKATKDAGKIAGLEVERIINEPTAAALAYGIDKQDKEMKVLVYDLGGGTFDVSLLELADGTYDVLATSGDNELGGDDFDKKIMD;locus_tag=LOCUS_05500;note=WP_011183314.1 molecular chaperone DnaK (Mesoplasma florum) [pid:81.4%25%2C q_cov:100.0%25%2C s_cov:35.5%25%2C Eval:1.8e-97%2C partial hit],internal stop codon at [332173:332175](+),MGA_552
sequence1	MetaGeneAnnotator	CDS	332227	333339	.	+	0	ID=MGA_553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALQRFKDEAEKAKINLSSQLETEINLPFIAMNQNGPVNFSTKLSRAEFEKMTKDLVERTRKPVEDALKEAKLKAIEIDQVLLVGGSTRIPAVKELVTSLLGKEPNRTINPDEVVAMGAAIQGGVLAGDVTDVLLLDVTPLTLGIETMGGVMTPLIQRNTTIPTEKAQVFSTAVDNQPAVDINVLQGERPMAGDNKSLGQFQLTGIKPAPKGVPQIEVTFKIDVNGIVSVTAKDKDTNEEKTITISNSGSLSESEIERMVKEAEENQEADNKKRKNIELKNKAESYLNIIEDSSKDSGAQMTDEQKKQSEDLAKEIRELIAKEDYDTLDKKMTELEQAMKMASEMAAAQAQQTQEAKPEENKDQSQEENK;locus_tag=LOCUS_05510;note=WP_011183314.1 molecular chaperone DnaK (Mesoplasma florum) [pid:71.9%25%2C q_cov:100.0%25%2C s_cov:61.5%25%2C Eval:2.6e-142%2C partial hit],internal stop codon at [332173:332175](+),MGA_553
sequence1	MetaGeneAnnotator	CDS	333395	334537	.	+	0	ID=MGA_554;product=molecular chaperone DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183313.1;translation=MAKKRDYYEILEVAKSATEDEIKKAYRKLAKKYHPDISKEHDAEEKFKEATEAAEVLLDKNKRQTYDQFGHDGLNGMGAGFGGFGGSGSEFSDFFSNMGGASDFFSDIFSSFFGGSRTSSRENRRGTSRGRDIVIEVILELKELLFGIDKEVKLDLISKCDDCNGIGVKSKADIMECDVCHGMGKVFVIQDMGIAKFQTEKICPKCKGIGEITLNPCKICRGDGTTLKKETIVMPIPKGLIPGQQIVLRNVGNYSKDGGEKGHLYANINLKASKNLKIVNEYDIKFKFNLNYIDALLSNEISIDTLDGVINVKIPKGIKNGDLITVKNHGLYKGVKSSHRGNLLLEVNIVLPNEVSKSEKISLELIQKDSNFKVNNNLKE;locus_tag=LOCUS_05520;gene=dnaJ;EC_number=1.8.4.-;note=WP_011183313.1 molecular chaperone DnaJ (Mesoplasma florum) [pid:44.9%25%2C q_cov:98.2%25%2C s_cov:98.7%25%2C Eval:1.0e-88],MGA_554
sequence1	MetaGeneAnnotator	CDS	334941	335327	.	+	0	ID=MGA_555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGFKNKKPSSIREEILILRRQSYKNEQIEKEKLLEKLNVDLNFKDNFKNYNLVEQNSEFIINSNDSNDSNDSNDSNDSNDSNDSNSNTNSSLKTSFEPKQYPFIDPNNLFLTKKTKVSNLKFFSKNN;locus_tag=LOCUS_05530;note=MGA_555
sequence1	MetaGeneAnnotator	CDS	335331	335885	.	+	0	ID=MGA_556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNSSQQKNENSTKINLNEEKEVFSSTNSRFMPEEKQKFLEKTKTETTFLNNLESKNMEKIIPNRLKEQTEQNQAENKKNIDINFNKKPIEKEMNLNELNNFLDNSHNLSLPVINDFNYTVANMTDDLQRAINKLEESSEKIRERERFFEQKNNTTQLINNLVQDAKKIQNHQVDPSNFDDFES;locus_tag=LOCUS_05540;note=MGA_556
sequence1	MetaGeneAnnotator	CDS	336356	337105	.	+	0	ID=MGA_557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGADFIAMGHYAGVNYNNEQKYYELLKGFDENKDQSYFLCQLNQKQLSKTIFPLHKFKKDEIRKIAKKYNLITADKKDSTGICFIGERNFTEFLQNYIPNKPGDIIDIKTGKKIGTHIGVMYYTIGQRKGLNLGGQKEPYYVALKDVDKKIIYVSPLSDTKYLESKKCIVSNFNFILDYKKIFNSEKFNCKAKFRYRQKDINVSVIVLEKDKIEIIYNEPVRAVTEGQEAVLYLNNICIGGGTIEQVKI;locus_tag=LOCUS_05550;note=WP_011183311.1 tRNA 2-thiouridine(34) synthase MnmA (Mesoplasma florum) [pid:62.3%25%2C q_cov:98.8%25%2C s_cov:66.0%25%2C Eval:1.6e-85%2C partial hit],internal stop codon at [336092:336094](+)%2C[336236:336238](+),MGA_557
sequence1	MetaGeneAnnotator	CDS	337162	337506	.	+	0	ID=MGA_558;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSIVIGVVVVIVLIFVIVSSITSKKAQKVEQQKRKKVVKEEIKNYLSKSQNIKNVKLEYEKVYARKGVEYKYRDVFDVVVQIFEAKTNKLITTTAYEVEGITTKTAKNSYTTA;locus_tag=LOCUS_05560;note=WP_011183310.1 membrane protein (Mesoplasma florum) [pid:56.1%25%2C q_cov:86.0%25%2C s_cov:47.8%25%2C Eval:9.7e-25%2C partial hit],internal stop codon at [337504:337506](+),MGA_558
sequence1	MetaGeneAnnotator	CDS	337528	337773	.	+	0	ID=MGA_559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDETKKRIAIAEKKIKLTRQEKIVLKKEEKIKALDHKNQVKQELKVLKEEKKEQKKEINSSVEIDKAIKSTTVKFIPRRNK;locus_tag=LOCUS_05570;note=MGA_559
sequence1	MetaGeneAnnotator	CDS	338050	339258	.	+	0	ID=MGA_560;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKNENELDENQIIQREILKKQLNDTNGFEIIGIPAETIVDGNEVGLAAREYFIEKLYKENLKNKTNYKYFDLSNLNYEESIEKTKELLKDLNYKYLFEPTFEFMNSKLKIRCDVLINHGNNRIEIIEFKASTSSKVVHFFDVFYQKKVLEKNNYIIDDIKIGLIEKNYLRGVGIISERDHFEVIEEDISFENDIKLFIEKLVLPNLGESDLNYNQLIKITNQLENTVTKPNLLDLINKFEESGFDFDEIIIEISNSFKDDEFLFKRYCKKFHLKYKASQIIEETPFCKTTVPYYDKKEFNLYELTRFKKEATIINNLFEKQQEIYIKNLQDLDDSKYIYMNKNIFGADQKRIIKVVKKYLETGINVPANLIKEEGYDRLLNLLKDYYKFPVYMYDFETVK;locus_tag=LOCUS_05580;note=WP_011166633.1 DUF2779 domain-containing protein (Mycoplasma mycoides) [pid:30.9%25%2C q_cov:98.8%25%2C s_cov:58.3%25%2C Eval:1.1e-37%2C partial hit],internal stop codon at [337903:337905](+)%2C[339256:339258](+)%2C[339283:339285](+),MGA_560
sequence1	MetaGeneAnnotator	CDS	339367	339609	.	+	0	ID=MGA_561;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHMNFIANKQEDPRPEFLVNFVRDCFKYGPGIYVAYNKSFEKMVLKNLIFLYPEFEKPLKYIYQNTIDLMNFFKKSKDN;locus_tag=LOCUS_05590;note=WP_011183309.1 DUF2779 domain-containing protein (Mesoplasma florum) [pid:58.7%25%2C q_cov:92.5%25%2C s_cov:10.6%25%2C Eval:4.4e-22%2C partial hit],internal stop codon at [339256:339258](+)%2C[339283:339285](+)%2C[339607:339609](+),MGA_561
sequence1	MetaGeneAnnotator	CDS	339793	339930	.	+	0	ID=MGA_562;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKYCDRDTLAMVVVLQKIIELVTQYDCNFKEKIDRLLREEENDV;locus_tag=LOCUS_05600;note=MGA_562
sequence1	MetaGeneAnnotator	CDS	339920	340555	.	+	0	ID=MGA_563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMYKIIYCGTPDISVEILKGLEKLNLNIVGVITQPDKAIGRKREVIFSPIKQYCLLKGYKIFQPNKILTILDELKKLNPDFLVTCAYGQFIPQNILDLFKNAINVHASLLPKYRGGSPIQFALINGEKKTGISLMKMIKKMDAGEIYFQDEIEIFDEDDSGTLFNKLAIFGRKAVEKYLINIFEKKILGSSQNEEKVTFAYNLSSDQEKID;locus_tag=LOCUS_05610;note=WP_011166634.1 methionyl-tRNA formyltransferase (Mycoplasma mycoides) [pid:51.0%25%2C q_cov:98.6%25%2C s_cov:66.2%25%2C Eval:3.4e-56%2C partial hit],internal stop codon at [340553:340555](+),MGA_563
sequence1	MetaGeneAnnotator	CDS	340537	340743	.	-	0	ID=MGA_564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSLSKKIISPGSKILSKVVIFSSTLINLVFLILILSFSKKENATGEGLNALIKLLISYADFDQSIFS;locus_tag=LOCUS_05620;note=MGA_564
sequence1	MetaGeneAnnotator	CDS	340670	340870	.	+	0	ID=MGA_565;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEKITTLDKIFEPGEIIFLDNEGIVVYTKNGLLKILELQREGKKMVRAGTFNGQNSIVKVGSKFR;locus_tag=LOCUS_05630;note=MGA_565
sequence1	MetaGeneAnnotator	CDS	340930	341226	.	+	0	ID=MGA_566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVNDLRPGSTFLYEGNIFVVLENSFSKTGRQQGKVTVKVKNLRTGARVEITFTGGEKVDKALIEKKDIQYLYNDGTNCVLMNTETYEQVEISSAKLE;locus_tag=LOCUS_05640;note=WP_011183306.1 elongation factor P (Mesoplasma florum) [pid:76.5%25%2C q_cov:100.0%25%2C s_cov:53.0%25%2C Eval:4.8e-40%2C partial hit],internal stop codon at [341224:341226](+),MGA_566
sequence1	MetaGeneAnnotator	CDS	341230	341487	.	+	0	ID=MGA_567;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLTDGVMVKMTEYDGEILGISIPEKIELTIIEAEPAVKGDTTSGAQKKAKVQTGFEITVPLFIKEGEKVLINTNDGKYSGRAN;locus_tag=LOCUS_05650;note=WP_011183306.1 elongation factor P (Mesoplasma florum) [pid:72.0%25%2C q_cov:96.5%25%2C s_cov:44.3%25%2C Eval:3.8e-29%2C partial hit],internal stop codon at [341224:341226](+),MGA_567
sequence1	MetaGeneAnnotator	CDS	341511	341801	.	+	0	ID=MGA_568;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183305.1;translation=MYISMERNSRGNLEIEEQILNKIIEFYVINNIKGFEKIEPLITLHQENHIFITIKIYVKKRDKLVIDEVKLSEIISNSIENTLNLKPKNIAFAFIK;locus_tag=LOCUS_05660;note=WP_011183305.1 30S ribosomal protein S20 (Mesoplasma) [pid:39.8%25%2C q_cov:97.9%25%2C s_cov:98.0%25%2C Eval:2.2e-13],MGA_568
sequence1	MetaGeneAnnotator	CDS	341931	342161	.	+	0	ID=MGA_569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAQKKVNNSKEKSKSITLTKPGTEYVFQKFSPKALALINKYNLQTDDSYKKLISSFERIESLPKDDPRRPNLVEL;locus_tag=LOCUS_05670;note=MGA_569
sequence1	MetaGeneAnnotator	CDS	342279	343784	.	+	0	ID=MGA_570;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPDQKRKDLMSRLSPNGISVNRTTKEQILTKAGYQQNIKTDQFNFTAMPKTGQNIFEIENILSSSDNKEFGEPESILSNNYAVSNGNKDINLSQEEINNIDQLVSNLEIDEETELMTSEPVRDPGLLEFVSDGKIVSSNEEQITNNENKELNSYSKEYIVNEKMKRDEFNRTNNIEINEEQLEEENYAFLELGTDFFQEYIGTEGLPAKEITKNGSLNFEYTKKDEEINPEKRNILSKEGFEININSEKTDLMGKPAYSVQNGKVGSKPFHEIHPIGYYPMNYEASKRPSMQDLMLSNKREGNSLDEMSQKIEFLRELRNERRHRINMMKIERANSYILARARRLAENRELRRIKRREDLNLKSIEKAERMRRLQERQKLIELMKERQLKRTEEKRVATVLRLERERRMERDAKYRSEIALIDSQIKHEQEMIKRTELKMKAYFTRVHDDQLFDESLKIAKDINEFKSLEEKANILKSIEEQKRADKIEKISRKFIKNIK;locus_tag=LOCUS_05680;note=MGA_570
sequence1	MetaGeneAnnotator	CDS	343881	344114	.	+	0	ID=MGA_571;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKIEKKSDMDFTLISNKTKQRIRGLIEKRLTPKTIILFAQEYESYEKAVREELIKYIEFLLKQEEENFIRESSSY;locus_tag=LOCUS_05690;note=MGA_571
sequence1	MetaGeneAnnotator	CDS	344198	344404	.	-	0	ID=MGA_572;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFVLFFFTVGIVVLFTFEGASLVFLFCSLILLAISYLLKIGVTSIFLISLFLIGSGATNFFIFVEIK;locus_tag=LOCUS_05700;note=MGA_572
sequence1	MetaGeneAnnotator	CDS	344379	344888	.	+	0	ID=MGA_573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNNTKVKNKQVNLKNISATSLKSSSVEPKKITKSKPTIIDNNKNSKIDFLLKEAQQREAEEIRIKKEQEEKNKQAEEQKNKEILEQNAIREKLLKEKQESAKLAKQKKLVKKVNSENIIKLEKQKKPEIIIKPVKSKYEQKLLASSFKESNSQGRNYLKEQEEKEKL;locus_tag=LOCUS_05710;note=MGA_573
sequence1	MetaGeneAnnotator	CDS	346313	346780	.	+	0	ID=MGA_574;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNKYFPKTFRKGLIEFLENIENYKKQIADLENNFKFSNKDFNNNPEIIYNSIEISLIAKLLSFVNILDLYIEICNLFLEIMYFEIVNLTYTNLFNFLENIDNTIPYLVKIFLGLSKKIKNSIEFSTLMNKMISFDNNLVKLSEELNIKIVNYK;locus_tag=LOCUS_05720;note=MGA_574
sequence1	MetaGeneAnnotator	CDS	347143	348114	.	+	0	ID=MGA_575;product=trigger factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183304.1;translation=MQFIFDLKPEIKIGDYKGLKNKDLVKEEIKATSEEINKAIDQYRNRFVMEKEKPNGSKIEKGDVVILDFEGFIDGVAFKGGKELDFKLVIGSGQMIPGFEDSMIGKKVGETFIQATFPEDYIKELSGKTAEFKLNIKEIKERILPNKDDELVKDLNLPGIKTFKELEKSVKTQIIDQKSIQLKNEFVNKVIDLIREKSVIEIPQSAINKEIENLYKEFEAKVQSQKITMKEYKKQTGMTDEAIRLELFDDAKKRIESYLITDKVRNTEKFEVSKEELEEKYLKLAKSFGVEPDYIRNSLLPEANIKEEIIREKIIDFLYVNNG;locus_tag=LOCUS_05730;gene=tig;EC_number=5.2.1.8;note=WP_011183304.1 trigger factor (Mesoplasma florum) [pid:49.8%25%2C q_cov:100.0%25%2C s_cov:75.1%25%2C Eval:2.4e-85],internal stop codon at [346870:346872](+)%2C[346897:346899](+)%2C[347053:347055](+),MGA_575
sequence1	MetaGeneAnnotator	CDS	348216	348452	.	+	0	ID=MGA_576;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTKRLPMLVTRGSYIYPTFEQVLEIGRDKTTVAVKEAVEKYKGNILIISQKKPLEDEPKIDELFLFGVLAEVKIKKE;locus_tag=LOCUS_05740;note=MGA_576
sequence1	MetaGeneAnnotator	CDS	348612	349094	.	+	0	ID=MGA_577;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISSQDEFPSEIDEIIKSASVDADPNFIVDSAAHLMPFMPIDKKQLILEELDPVKRIEIINEFLDEKRQSADIESSISKKIKSKVDEQQREFYLREKLKAIKEELGDMDGEGDDLKKYRTRLENEPFPENIKKRILQEIDKCEALPAASSEANIIRTYID;locus_tag=LOCUS_05750;note=WP_020862721.1 endopeptidase La (Mycoplasma mycoides) [pid:32.2%25%2C q_cov:84.4%25%2C s_cov:18.6%25%2C Eval:6.8e-22%2C partial hit],internal stop codon at [348450:348452](+)%2C[349092:349094](+)%2C[349110:349112](+),MGA_577
sequence1	MetaGeneAnnotator	CDS	349320	349847	.	+	0	ID=MGA_578;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGREFVKMALGGIKDESEIRGHRKTYIGAMPGRVIQGMKRAGVKNPVFLLDEIDKMASDYRGDPASAMLEVLDPEQNSKFSDHYLEEEYDLSDVVFIATANYPENIPEALYDRMEIIELSSYTEIEKMKIAEEYLVPKVLSDHAVSKEQVTFTKEGISEIIKHYTREAGVRQLER;locus_tag=LOCUS_05760;note=WP_011183303.1 endopeptidase La (Mesoplasma florum) [pid:77.1%25%2C q_cov:100.0%25%2C s_cov:22.2%25%2C Eval:6.9e-77%2C partial hit],internal stop codon at [349092:349094](+)%2C[349110:349112](+)%2C[349845:349847](+),MGA_578
sequence1	MetaGeneAnnotator	CDS	349881	350597	.	+	0	ID=MGA_579;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKEIEKLKVTPEVVNELLRKRIFEHTEKEQEAQVGVVTGLAYTQFGGDILPIEVNHFPGKGGLILTGKLGDVMKESATIAYDFVKSNYKVFNIPKEVFVENDVHIHVPEGAVPKDGPSAGITITTAIVSALTNRPVPKEIGMTGEITLRGLVFPIGGLREKSISAHRSGLKKILIPYKNQKDIDDIPEEVRKDLEIIPVQKYSEVFENVFDSKLDELIRELPISNLKDSETELKSI;locus_tag=LOCUS_05770;note=WP_011183303.1 endopeptidase La (Mesoplasma florum) [pid:69.2%25%2C q_cov:89.9%25%2C s_cov:27.2%25%2C Eval:3.4e-82%2C partial hit],internal stop codon at [349845:349847](+),MGA_579
sequence1	MetaGeneAnnotator	CDS	350693	350836	.	+	0	ID=MGA_580;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIETVSGGMNPINDAATHNSSDLAKKNTFDADKKIYEYIKKRKKLSF;locus_tag=LOCUS_05780;note=MGA_580
sequence1	MetaGeneAnnotator	CDS	351101	351733	.	+	0	ID=MGA_581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAVRIEVELRNLTIKRLLEQDISYYSDKKIGKLMTKLVGDTNVVGNEIAGLLSMVVQAPLVIIFGTVVLFTIDIPLAGVASASVYLLALFVVLLALSYQKKVTVVREVISDINGDVIDRISSIKLVKSSSTRVYEEERIEQIHKPYIKVFKPISKIDGELLAILIASDVIINLLVIVSAVLIYGTSNPENFIILITPISTALVSLTRPL;locus_tag=LOCUS_05790;note=WP_011166618.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:34.4%25%2C q_cov:87.1%25%2C s_cov:29.5%25%2C Eval:4.8e-26%2C partial hit],internal stop codon at [351731:351733](+),MGA_581
sequence1	MetaGeneAnnotator	CDS	352049	352243	.	+	0	ID=MGA_582;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNDKNLKEFNLRSYLTHVGYVEQEPSIIFGDVYDNVKYGYFQATDEEVHEACKKAQIDKIIMS;locus_tag=LOCUS_05800;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:73.8%25%2C q_cov:95.3%25%2C s_cov:9.9%25%2C Eval:2.5e-20%2C partial hit],internal stop codon at [352241:352243](+),MGA_582
sequence1	MetaGeneAnnotator	CDS	352265	352594	.	+	0	ID=MGA_583;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGERGLLLSGGQKQRLVIARILLKNPELLVLDEATSALDNIVEREIQSQLNELMKDKTSVIIAHRLTTIKHVDQIFVLEPGKGIVQSGTYEELIKIPGKFKDLHDAAVA;locus_tag=LOCUS_05810;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:74.5%25%2C q_cov:97.2%25%2C s_cov:16.1%25%2C Eval:4.0e-39%2C partial hit],internal stop codon at [352241:352243](+),MGA_583
sequence1	MetaGeneAnnotator	CDS	352651	353412	.	+	0	ID=MGA_584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQALSFLLRPKTINDIIGQSHLINQKYGLVSKMIKNNFLTNLIFYGPPGIGKTSMAISLANDLNFKHKFFNASKDKKEKLQSIINLSNHEEQLILIIDEIHRMNRNIQDYLLEFIESRKVIVFLTTTENPYFVINPAIRSRCNILKLKEITNQEMEKGINRVLQNHNINLDIEKDAYQMMCSFANGDLRIALNSVELLVNLYKDQKINKEIIFSIFDEASYKGTGEGDEYHDLKSALQKSIRGSDVDASLHY;locus_tag=LOCUS_05820;note=WP_011183302.1 replication-associated recombination protein A (Mesoplasma florum) [pid:52.6%25%2C q_cov:100.0%25%2C s_cov:61.5%25%2C Eval:2.1e-72%2C partial hit],internal stop codon at [353410:353412](+),MGA_584
sequence1	MetaGeneAnnotator	CDS	353422	353772	.	+	0	ID=MGA_585;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIGDFETLMRRMVIMAYEDIGLANPTIPIRVFQACQVFRQIGMPEGRIILGLAIVEMALSEKSNSAYLAIEKVLEEVKNGITPPIPAHLRDTHYKSASKFGSGIGYKYPHDYKND;locus_tag=LOCUS_05830;note=WP_011166639.1 replication-associated recombination protein A (Mycoplasma mycoides) [pid:66.4%25%2C q_cov:100.0%25%2C s_cov:28.2%25%2C Eval:9.0e-39%2C partial hit],internal stop codon at [353410:353412](+)%2C[353770:353772](+),MGA_585
sequence1	MetaGeneAnnotator	CDS	354096	354515	.	+	0	ID=MGA_586;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGVVFITSKRTFTLEVVDNNINSQIRYLPFDSYSLQKIQLQLSKTDNALSYVSLQNDSFGNGITFGTPNKKVAQHFVDTLRSKTNGKIEILPESDNPLLAENEKEQLIDEDLNKAKQVVPHKFEEKHEEIKPMKEHDG;locus_tag=LOCUS_05840;note=MGA_586
sequence1	MetaGeneAnnotator	CDS	354724	355083	.	-	0	ID=MGA_587;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQAIGVKYKTNGSSETKFREDSLLNGLNIIFDQKIVKNLTDEILNGFKETTEIKNEVANNLFKPFIKEENFKNNIENYYGIESSTSEAGITYTTTFIDPISKTKFNYQIKLKLEENELN;locus_tag=LOCUS_05850;note=MGA_587
sequence1	MetaGeneAnnotator	CDS	355501	355665	.	-	0	ID=MGA_588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKSALLDGISENKNLSGLPSLLKEITKLVSIDIPISLSDAVANDLKNAFSGI;locus_tag=LOCUS_05860;note=MGA_588
sequence1	MetaGeneAnnotator	CDS	355810	356751	.	-	0	ID=MGA_589;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDSVKSPNGPLDSIGGLLTLGISTIKSSGGINSSLVGTIEGALPLIASNDLANSLNPDSLEPIAKVLEDNAYMFSQTIANLSDSNVVYSLIANLLNVNFINAIKEFNFSTIIEGIVNFFKAIDSNSLYSLVDNLGNSILTMDKKENLTYGDITNSVIVRLNNVFARLANKTDQIESDLYKTPDLEFSKKIGTTSGEFLKNLNNISVSSILPSIFDILYIVFGLLQMISSVDFNSFVPTSSQNLFNETQNNSEFLKKLRTTDYEKLDSKQTIKNIFTATSISNNEKGFQLEKLISLLFYSGGEITEIIEPNNG;locus_tag=LOCUS_05870;note=MGA_589
sequence1	MetaGeneAnnotator	CDS	356767	357114	.	-	0	ID=MGA_590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSALGVIAIAASTTSVASCSLVNNTKQYVKNKVLNLVNISSTLLRGAIIQNATQDLNRGLALDNDYLSSMILGNNALNLMKDFKTSPQTTMESLKNSYFPGQQLDRATINT;locus_tag=LOCUS_05880;note=MGA_590
sequence1	MetaGeneAnnotator	CDS	357211	358092	.	+	0	ID=MGA_591;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKATFFLYLKQGIKGVLKFRIQFYVIIILTFLSTLILTISISTSERLNQNYNQTMNKYEKFDYINQKAVGIPSDGKEAVTVTPLIDFINDEFLAVYDSTDLNNPANNKGIEYNFNLSYFNNQYTDYGYKETFLTKAFEDQEVESKLFDMLKNENYYNNIASFIFDSARVYRDHQFIGTPFGDFQKLLIEKSKNYFLDDLFLSDGTSKEYLFTTPFYKLKQKNLISREDFTLEIENYNDRNQYNRYFYFAIDNLAGQLNEMISNYINYFINQSKKEFELQTEITDMEQFFNEN;locus_tag=LOCUS_05890;note=WP_011183158.1 FtsX-like permease family protein (Mesoplasma florum) [pid:25.8%25%2C q_cov:100.0%25%2C s_cov:17.8%25%2C Eval:3.7e-13%2C partial hit],MGA_591
sequence1	MetaGeneAnnotator	CDS	358297	358536	.	+	0	ID=MGA_592;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAEVKNNEILNSKFQLYQFGARGSITQLYGKIATEGDNINKLIDIPKRTINPLFLKHENSTNFIADIGSGSNFSDLTA;locus_tag=LOCUS_05900;note=MGA_592
sequence1	MetaGeneAnnotator	CDS	358732	359202	.	+	0	ID=MGA_593;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPRNKNEIIINSQFARKNNLKLGSNITIGGGNFTISAFGVDPLSYYPITDLLTPIPNNEKSAIVFADNSVISDQMITFDFSKYATNYAYNILKSSDSQNAQKGVAAFVAHSFSSIKNLLYNYNFLYNKNEIDQNFYDSSKYNENYTSFNNSPLSYN;locus_tag=LOCUS_05910;note=MGA_593
sequence1	MetaGeneAnnotator	CDS	359206	359655	.	+	0	ID=MGA_594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPKITEVFNIISILFSSLICLITLIAVVVAVKKTIHLNSGEIGILKSMGAKSSEIASSYLSYGVIVMFIVIPIAWIIGSFLQEPVASFFLQFVSGQYNLAIFKYLPFVLGFLIFGVFLAIVSYFTAFLLIRKPTLEILKRKDSQKTIL;locus_tag=LOCUS_05920;note=MGA_594
sequence1	MetaGeneAnnotator	CDS	359671	360096	.	+	0	ID=MGA_595;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALTNKSRFSIRFSSELAISSFSKTLLTAATIFFAGFFVSGSLAIPGIVDNFVNSYNRNINYSNNSRNIELIGNAPLAKTSLSPTQEVDEYEENLFNTNNIFGSEIEQISKSVSQIGPSPDSSVIPQILISPENNNQFSTS;locus_tag=LOCUS_05930;note=MGA_595
sequence1	MetaGeneAnnotator	CDS	360553	360840	.	+	0	ID=MGA_596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNLYTSINIKSQNDKNLPIIGLNSSQSAYNIEKVNSDKIFKSEYQAQLINKVLYGNTLANEDYELISDIYDKETKQLSVPVISNEQTDFNINNN;locus_tag=LOCUS_05940;note=MGA_596
sequence1	MetaGeneAnnotator	CDS	360991	361278	.	+	0	ID=MGA_597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSLQGSKFTYAPIFDYKNGSTEVNDFSKYKYADLKNNSYAFYNLTSTFNKDGSEDLNLEIRPYYQYENIVLFLPKKFQLDFEKIKNLGNSDSSA;locus_tag=LOCUS_05950;note=MGA_597
sequence1	MetaGeneAnnotator	CDS	362089	362328	.	+	0	ID=MGA_598;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILTVTLINDLFVNQYKRFMIVMKSLGYSNFEIIYYTFGFVTGFSILTYISGVSLSYVAIYAIVKIINSIIGIIPFGMT;locus_tag=LOCUS_05960;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:38.7%25%2C q_cov:94.9%25%2C s_cov:4.3%25%2C Eval:3.3e-09%2C partial hit],internal stop codon at [362326:362328](+)%2C[362329:362331](+),MGA_598
sequence1	MetaGeneAnnotator	CDS	362784	363005	.	+	0	ID=MGA_599;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPGIETMREAMFEKYGHEEFKDKTGVELIEDGYDFLAVTIGHICLRFNKMHFYFNGLHVSTRTVDKFLAVNF;locus_tag=LOCUS_05970;note=MGA_599
sequence1	MetaGeneAnnotator	CDS	363083	363505	.	-	0	ID=MGA_600;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLIRKIYFLFRLAKKENRKDISRENFSNKLVHNQVIIDINVRTIRNSTKKFNSLIFKEKISSENGFRLIYTKGFNSFGFKEDVDLVFCDIHNQVIAIYSNFKPNKMTSFNQEARSIFVLANNTNKYLNIKKNDLLKIYK;locus_tag=LOCUS_05980;note=MGA_600
sequence1	MetaGeneAnnotator	CDS	363579	363737	.	+	0	ID=MGA_601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKVAIFVANGFEDTEMVATCDVLRRAEKMFSGSFPVVDIVSINDSKHVKGA;locus_tag=LOCUS_05990;note=MGA_601
sequence1	MetaGeneAnnotator	CDS	363855	364154	.	+	0	ID=MGA_602;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNALENHAKQNKIIAAICAAPEILGKLKLVDNVEITHYPGCDKDLDNAIKKPHIAAISDGNFITGSSIGAALQFGLQIVDHFTSTEQMLKLHDSLVFNY;locus_tag=LOCUS_06000;note=WP_011166642.1 DJ-1/PfpI family protein (Mycoplasma mycoides) [pid:46.2%25%2C q_cov:88.9%25%2C s_cov:48.1%25%2C Eval:2.8e-16%2C partial hit],internal stop codon at [363735:363737](+),MGA_602
sequence1	MetaGeneAnnotator	CDS	364253	364411	.	+	0	ID=MGA_603;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGKQKNGKKIYSPVNGEVDLIENLNDGVFSEKMLGDGFYIKPKSNHFLFSN;locus_tag=LOCUS_06010;note=MGA_603
sequence1	MetaGeneAnnotator	CDS	364428	364673	.	+	0	ID=MGA_604;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFDTKHAYYFEINEEVNFLMHIGLDTVTLKGKPFNVKAKVGQNLDINSQIVEVNFEMIKQMDNTISIATPIVMDFNENLG;locus_tag=LOCUS_06020;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:44.9%25%2C q_cov:96.3%25%2C s_cov:9.0%25%2C Eval:1.4e-12%2C partial hit],internal stop codon at [364671:364673](+),frameshifted%2C insertion/deletion at around 364396,MGA_604
sequence1	MetaGeneAnnotator	CDS	364980	365108	.	+	0	ID=MGA_605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIIIGGEIYKVREAVEDYVVKTTSGNNENIKIINLQLEEDY;locus_tag=LOCUS_06030;note=MGA_605
sequence1	MetaGeneAnnotator	CDS	365138	365527	.	+	0	ID=MGA_606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPILMAGGLLMRLKTILVVSGAIQDLSVSDSSGIQPDLFSYAFNIVAETKIKLFGIYMGYNTMKYLGGPTLLAIFMSLALAGATSVQFLTQMSAFDLFSIGTLSIKTGIFTNSVLPHIFAAIGLFYLDK;locus_tag=LOCUS_06040;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:42.5%25%2C q_cov:100.0%25%2C s_cov:15.3%25%2C Eval:2.7e-22%2C partial hit],internal stop codon at [364965:364967](+)%2C[365526:365528](+)%2C[365538:365540](+)%2C[365718:365720](+),frameshifted%2C insertion/deletion at around 365546%2C365099,MGA_606
sequence1	MetaGeneAnnotator	CDS	365524	365718	.	+	0	ID=MGA_607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNLNAPSIDILFKPFIVLFVVFMSMFFIAGPILSLIEQTIGLGVGYLSKIPYGIGTGIMALT;locus_tag=LOCUS_06050;note=MGA_607
sequence1	MetaGeneAnnotator	CDS	365740	366378	.	+	0	ID=MGA_608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHVPIVMPVAIGVSQGIYTTLMFPLNIATFTQVGVAIAVGIRTKNMKLRQAAFAALPGGFVGVTEPIIYGVNLPKVKPFIIAIISALFLGILAGILGIEARTPGGLGIFGILGTLMEPRLAEEVVSGQTLLPSTINLFTGEANSMLLNAILYGLMLFASIAVSCKIGMLFYTERVKESKQIKRNNELLVKMYALSKKISIEDAKNKIEKNLK;locus_tag=LOCUS_06060;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:28.4%25%2C q_cov:99.5%25%2C s_cov:21.7%25%2C Eval:9.9e-19%2C partial hit],internal stop codon at [365525:365527](+)%2C[365537:365539](+)%2C[365717:365719](+)%2C[366377:366379](+),frameshifted%2C insertion/deletion at around 365548,MGA_608
sequence1	MetaGeneAnnotator	CDS	366415	366564	.	+	0	ID=MGA_609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQVKKNYVQIIKTTTKLDSLIKSNENKKQFIANRVKKYSSNIQKNEKN;locus_tag=LOCUS_06070;note=MGA_609
sequence1	MetaGeneAnnotator	CDS	367051	367731	.	+	0	ID=MGA_610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIKVYASVDGEIDLIENLNDGVFSEKMLGDGFYIKLSSQIFKSPIENGKLSLITDTKHAFFFEIEKEISVLMHIGLDTVSLKGKPFNILSKLNQNVNLDTKIVEVDLELIEKSGLSSICPITINSEKIAYKFNLLTKTKNVKTGDLIGEFEQVDQKELEKPVISMEDFFSSDNTYRKVAKKLIVGSSNYDEVFNCMTILRFKIRDTQKVDVEKIKKVDLVKGII;locus_tag=LOCUS_06080;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:44.3%25%2C q_cov:99.1%25%2C s_cov:26.7%25%2C Eval:6.9e-45%2C partial hit],internal stop codon at [367729:367731](+)%2C[367831:367833](+),MGA_610
sequence1	MetaGeneAnnotator	CDS	367873	368028	.	+	0	ID=MGA_611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTGIMAPLIPIFIGTGLFQALIGILSSDMAGNLMPTITGNILDTAEYGVG;locus_tag=LOCUS_06090;note=MGA_611
sequence1	MetaGeneAnnotator	CDS	368068	368199	.	+	0	ID=MGA_612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIVIAYNAGNYFNLNRPISVGIGIIMSSPLLFGTGGPALMGN;locus_tag=LOCUS_06100;note=MGA_612
sequence1	MetaGeneAnnotator	CDS	368804	368968	.	-	0	ID=MGA_613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPKLPASLKNPNNSNIPTPEVTLEVTPNALNILDTKNTLITPAIKGLFFGKFI;locus_tag=LOCUS_06110;note=MGA_613
sequence1	MetaGeneAnnotator	CDS	369009	369458	.	+	0	ID=MGA_614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYMVAGSFGSFALAFVICMFLYKERILEKKQFLKEEKKLVEYLVLKNLVKKEEAEALLKKFSEFSNTVPILEFKKIEKKYQKILLLIEKINVLDSKEIKYKDKIINKGKELLAKNDREKAEILYKKFNIDKFTKMKKEHQIKLTELQKL;locus_tag=LOCUS_06120;note=MGA_614
sequence1	MetaGeneAnnotator	CDS	370321	370476	.	+	0	ID=MGA_615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVAQAKVINLLHSIYPNSKIGPAPNIAYVYPATSNPLDSIAANNANLIRN;locus_tag=LOCUS_06130;note=WP_010890696.1 glycoside hydrolase family 1 protein (Clostridium) [pid:62.7%25%2C q_cov:100.0%25%2C s_cov:10.9%25%2C Eval:3.6e-11%2C partial hit],internal stop codon at [370135:370137](+)%2C[370216:370218](+)%2C[370306:370308](+)%2C[370474:370476](+)%2C[370528:370530](+)%2C[370753:370755](+),MGA_615
sequence1	MetaGeneAnnotator	CDS	370573	370755	.	+	0	ID=MGA_616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEMQSCKVDFIAFNYYSTMTAKVSVKNSEFKMGNQQQAFNIEGLFQIIENPNLEKTQYG;locus_tag=LOCUS_06140;note=WP_011183210.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:45.9%25%2C q_cov:98.3%25%2C s_cov:13.0%25%2C Eval:3.4e-09%2C partial hit],internal stop codon at [370306:370308](+)%2C[370474:370476](+)%2C[370528:370530](+)%2C[370753:370755](+)%2C[370972:370974](+),MGA_616
sequence1	MetaGeneAnnotator	CDS	370780	370974	.	+	0	ID=MGA_617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSRALHERYGLPIIITENGLGAKDILTEDKKVHDQYRIDYLKKHIEQIPKIISDGIKLFGYNP;locus_tag=LOCUS_06150;note=WP_011183514.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:63.5%25%2C q_cov:98.4%25%2C s_cov:13.5%25%2C Eval:4.0e-18%2C partial hit],internal stop codon at [370528:370530](+)%2C[370753:370755](+)%2C[370972:370974](+)%2C[371095:371097](+),MGA_617
sequence1	MetaGeneAnnotator	CDS	372141	372443	.	+	0	ID=MGA_618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKNFSNTKNLGNSFLIEYEAKKAILIDTAMNSEEILSYLSQNQIELTDIFITHGHFDHLIGLEKILEKFENVNVYIGQKDVMCLYNSKKNLSMLKKNN;locus_tag=LOCUS_06160;note=WP_011183552.1 MBL fold metallo-hydrolase (Mesoplasma florum) [pid:48.3%25%2C q_cov:85.0%25%2C s_cov:37.2%25%2C Eval:3.2e-12%2C partial hit],internal stop codon at [372441:372443](+)%2C[372582:372584](+),MGA_618
sequence1	MetaGeneAnnotator	CDS	372639	372791	.	+	0	ID=MGA_619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPRCSQNRFRQSIKNIYQNNDKHTLIFPGHKDFGMKLESIKNKYHKYLKQ;locus_tag=LOCUS_06170;note=MGA_619
sequence1	MetaGeneAnnotator	CDS	372947	373168	.	+	0	ID=MGA_620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDGAQLLDAIYEIVQDKKIEKSIIFEGIKEGFQKAYEKFFDPEAIVRVDIDENTGQIKVFKELTVVQKIEDE;locus_tag=LOCUS_06180;note=WP_011183189.1 transcription termination factor NusA (Mesoplasma florum) [pid:52.6%25%2C q_cov:100.0%25%2C s_cov:16.1%25%2C Eval:7.5e-17%2C partial hit],internal stop codon at [373166:373168](+),MGA_620
sequence1	MetaGeneAnnotator	CDS	373169	373444	.	+	0	ID=MGA_621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIGINAAKEKYGEDVSIGNNVYEPVEFTLDFSKLAVMQVGQIIKQKIREGEKNKIYQEFLEKNHEIVGGFVKDITETSYLVDIDGSIVPI;locus_tag=LOCUS_06190;note=MGA_621
sequence1	MetaGeneAnnotator	CDS	373808	374014	.	+	0	ID=MGA_622;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLAPVKVISIEIDEENNEGFIVVPNEQLSLAIGKKGMAARLVANLVNMKINIFSLESANERKVAVH;locus_tag=LOCUS_06200;note=WP_011183189.1 transcription termination factor NusA (Mesoplasma florum) [pid:65.0%25%2C q_cov:88.2%25%2C s_cov:12.3%25%2C Eval:4.9e-13%2C partial hit],internal stop codon at [374012:374014](+),MGA_622
sequence1	MetaGeneAnnotator	CDS	374308	374580	.	+	0	ID=MGA_623;product=YlxR family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166544.1;translation=MENKYISLRKDVSSNKMFPKIELIRIVKTKAGEVFIDNSKKANGRGVYIRPTIEAINKVKKTKSLERGLKTNLDDSIYDMLIKEVETNWD;locus_tag=LOCUS_06210;note=WP_011166544.1 YlxR family protein (Mycoplasma mycoides) [pid:48.1%25%2C q_cov:90.0%25%2C s_cov:85.3%25%2C Eval:2.8e-16],MGA_623
sequence1	MetaGeneAnnotator	CDS	374571	374879	.	+	0	ID=MGA_624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLDVQKLLNSLGLASSASKLVYGEKLFENIKQKKIGLVLTTSDMGISQLKKINNKCVFYKIKIINNLFNSEQLNQAIGKKNIKSIGISDRNFIKLVLKNIE;locus_tag=LOCUS_06220;note=MGA_624
sequence1	MetaGeneAnnotator	CDS	374902	375102	.	+	0	ID=MGA_625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKEKNNNQKQVAKNKSKAHTANLKNQLRETKETGLIDGVFIYTEPLSIADFAKKLNKGPAEIVK;locus_tag=LOCUS_06230;note=WP_011166542.1 translation initiation factor IF-2 (Mycoplasma mycoides) [pid:51.8%25%2C q_cov:84.8%25%2C s_cov:9.0%25%2C Eval:7.9e-11%2C partial hit],internal stop codon at [375100:375102](+),MGA_625
sequence1	MetaGeneAnnotator	CDS	375121	376764	.	+	0	ID=MGA_626;product=translation initiation factor IF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166542.1;translation=MVTQNQILSEEQMGELCLEFGYYFKKEMSVTKENIFETFEQKDDPKDLKTKPPVVTIMGHVDHGKTTLLDSIRDANVTEGEFGGITQHIGAYQTSIKGEKITFIDTPGHEAFTEMRARGSEVTDIVILVVAADDGVMPQTEEAIDHAKAADVPIIVFVNKIDKPDSDPERVKIELMKFGIVAEEYGGDIPFINGSAKTKIGLDSLLETILLVSELKDLKANPNKFATGTVIEAKLDKNRGPIATILVQNGSLNLRDILIAGATFGSIKDIENENQSKIQKVKPGQPALIIGLNEVPKAGDKFIVVSEEKIARDIAKAQFEKQTNDARQKNNSFTLDSIKNQIEAGELKSINIILKADAQGTVEAVRNSMLKINIEGVKINVIRATVGAISVSDVTLAMASNALIYGFNVRPTSQVRQKAEDDGVEIRLHNIIYKLIEEIAEAATGMLDPVFEEKTFGEAEVRQLFRHSQVGTIAGCRIMSGLVPRNSKVHILRDGIVIYTGEISSLKNKKDDIKEAKEGQECGITIKNFNDLKENDIIEAYKIEEVK;locus_tag=LOCUS_06240;gene=infB;note=WP_011166542.1 translation initiation factor IF-2 (Mycoplasma mycoides) [pid:63.0%25%2C q_cov:100.0%25%2C s_cov:89.0%25%2C Eval:1.2e-205],MGA_626
sequence1	MetaGeneAnnotator	CDS	376769	377113	.	+	0	ID=MGA_627;product=30S ribosome-binding factor RbfA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166531.1;translation=MSKDIKIERTQSTILRELNLILQREFPDSEYLNSLIIHEVRLTNDMSHAKVFYSFLDTTANVEEVEDELKQNLKEIRKLLASKVEMRSVPELNFELDKTLENANKIEKILKEVK;locus_tag=LOCUS_06250;gene=rbfA;note=WP_011166531.1 30S ribosome-binding factor RbfA (Mycoplasma mycoides) [pid:51.4%25%2C q_cov:93.9%25%2C s_cov:92.3%25%2C Eval:1.5e-22],MGA_627
sequence1	MetaGeneAnnotator	CDS	377329	377556	.	+	0	ID=MGA_628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIILANVEATALPYLFSILYILKTFSYSNQNKTTQIINPIADVSLNKGLRPQIKNCNKPSNKPRVIPQYIPTT;locus_tag=LOCUS_06260;note=MGA_628
sequence1	MetaGeneAnnotator	CDS	377487	377807	.	-	0	ID=MGA_629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTDELNQDIVAINTIDLEYEISKLNKTNKRARIKSETLKIALVSLLLSMSTAVSFINVIIPLFITSVNVGFALKYYIIAISFQVVGIYWGMTLGLLDGLLQFLI;locus_tag=LOCUS_06270;note=MGA_629
sequence1	MetaGeneAnnotator	CDS	377914	378288	.	+	0	ID=MGA_630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNYFTDNLKGDIFELSEKNYHHLKNVIKININEKIVCVYNSNKYLCKIVEISNEIYYAKIEKKLEFEESYIEINLIVGIIREQKWDFILQKATELGVTKIVPVEFKRNVVKIDFKKEENKISR;locus_tag=LOCUS_06280;note=WP_011183200.1 16S rRNA (uracil(1498)-N(3))-methyltransferase (Mesoplasma florum) [pid:42.9%25%2C q_cov:100.0%25%2C s_cov:52.9%25%2C Eval:8.4e-21%2C partial hit],internal stop codon at [378286:378288](+)%2C[378409:378411](+),MGA_630
sequence1	MetaGeneAnnotator	CDS	378611	378940	.	+	0	ID=MGA_631;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVNEGKLMKNEKNVNFIIEDVKLINDQLKKVELDYNLKKFIDKNIYFIKKQLSDFLIVKKHGSYAIDSIYNFDKKINVDLLAIKYVSKKMYKIYESEISTKEHFADC;locus_tag=LOCUS_06290;note=MGA_631
sequence1	MetaGeneAnnotator	CDS	378974	379375	.	+	0	ID=MGA_632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKKYEISDNVKVEWKTKKYKLLNNKELFIFNDSIEISFYKNNLIGFSIIIRTVLLHKDYPLIICSKNKYKRSFSLEFVKTFRILNKLLMKKMQILFYIIKLKNINKKQRLIFKINIMSDIQYQLLKNEYFRV;locus_tag=LOCUS_06300;note=MGA_632
sequence1	MetaGeneAnnotator	CDS	379643	379795	.	+	0	ID=MGA_633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQGTTNISIKKSSKKYDNLEMEIISRPIYPLNKENGIFLVFLQYYNFEIN;locus_tag=LOCUS_06310;note=MGA_633
sequence1	MetaGeneAnnotator	CDS	380006	380392	.	+	0	ID=MGA_634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAALRYFSKINSKPVDLQEEVLNICKDSKIINEIHTDKNYINIIFNFKNIIINFRIISLIFLKKDKTKFYIANGNKNLQEDLAIQLTRDFKYANKLSSGLLFSLKRLINYVMKNEFCYTYNIDILILR;locus_tag=LOCUS_06320;note=MGA_634
sequence1	MetaGeneAnnotator	CDS	380519	380776	.	+	0	ID=MGA_635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFYDLITFIIHKFNQTNTYYFNSFNFQNEEIFENISRYSINTNSNFKMPLDYLTNINIFDTNDYDQKTYIQNNLSNVEGLSGIS;locus_tag=LOCUS_06330;note=MGA_635
sequence1	MetaGeneAnnotator	CDS	381147	381284	.	-	0	ID=MGA_636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFCDEELKKLRIKASRDLYHHIGKVEKDYVKKRTEILKSKKDEEK;locus_tag=LOCUS_06340;note=MGA_636
sequence1	MetaGeneAnnotator	CDS	381387	381671	.	-	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVKSDFYKEIEAEFKIISEKEHLGSGGTPVNNLNTKMFYLSKHQFNSYLEFDQAIVTEIASTLQSLEDIIVKKALTYQELARDSFNEDIDPQK;locus_tag=LOCUS_06350;note=MGA_637
sequence1	MetaGeneAnnotator	CDS	381790	382653	.	+	0	ID=MGA_638;product=tRNA pseudouridine(55) synthase TruB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166532.1;translation=MFQKSGVFLVNKPSGITSNDLIQKIKKKFDLKKIGHAGTLDPLASGLMVVLVNQATKISNYLLSSDKSYIVTMKLFLQTDSQDITGKIVEEEEYKKISKSLVKEILNKYDGYIYDQYPPMYSAVKIEGKKLYEYARNNQEISITPRTVTIKKCNLIDFNQKQGTIKLFVNSSKGTYIRSLVTDIAKGLGTSATVLELERIGSGNFELNQAKNIEEIQESDLLSMYDSLMQNEHDLIEYHKIKDIKQGRAINLPGINVPLIFIIDDNKEVIAVYKHIAHDLYKCQRGL;locus_tag=LOCUS_06360;gene=truB;EC_number=5.4.99.25;note=WP_011166532.1 tRNA pseudouridine(55) synthase TruB (Mycoplasma mycoides) [pid:45.8%25%2C q_cov:99.0%25%2C s_cov:97.3%25%2C Eval:2.9e-68],MGA_638
sequence1	MetaGeneAnnotator	CDS	382703	383449	.	+	0	ID=MGA_639;product=FAD synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166533.1;translation=MVKINSDLSDHQNFNFDNTKTIICIGFFDGFHKIHQKIIQKTKTLAIQENKKSIVITFSQKVNDFLKKINNNIQSQKIKYKLIEDNVNPDYLLEIQVNNHTLMISPNDFCNFLLNKLNASKIIVGSDFKFGYMGKGNADFLKQYFGSENIIIFKRNKDISSTQLKNLFEQGEIKKLNKLLNYNFLLEIKRESDNIYLIDKISIKLANGKYKINILNQSYIVNIINNSIFFNEITNFNKEIIEILEKIE;locus_tag=LOCUS_06370;EC_number=2.7.1.26;note=WP_011166533.1 FAD synthetase (Mycoplasma mycoides) [pid:36.7%25%2C q_cov:75.4%25%2C s_cov:100.0%25%2C Eval:2.0e-27],MGA_639
sequence1	MetaGeneAnnotator	CDS	383484	383837	.	+	0	ID=MGA_640;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198401953.1;translation=MFLRCYDFPKIITLLKQFQSRINRENFKRMVSKSQIEKIVKDYGDNGKDTGKAEVQIAILTVDIQNLTEHLAIHKKDITSRRSLLKKVSQRRHLLNFLLSKDVNRYKTIIEKLGLRK;locus_tag=LOCUS_06380;gene=rpsO;note=WP_198401953.1 30S ribosomal protein S15 (Mesoplasma florum) [pid:64.8%25%2C q_cov:75.2%25%2C s_cov:98.9%25%2C Eval:1.0e-26],MGA_640
sequence1	MetaGeneAnnotator	CDS	384105	384272	.	+	0	ID=MGA_641;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANSKKGPDKVAVKKAASNAKRSEHIQTRKKVTDPKPTKIVDKSIKLSEGQEKFI;locus_tag=LOCUS_06390;note=MGA_641
sequence1	MetaGeneAnnotator	CDS	384792	385265	.	+	0	ID=MGA_642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHFIAGGNIFFIINSFNFGGVFCLQKIILIVGPTASGKTDLSIKIAKEFNGECINSDSTQIYKGTDIATNKINSDEMQGIKHHLLSIREVNETYSVADFQKEARGKIRDIISRNKNPIIVGGTGLYVNALIMDYNFTSKDHISNFNNKFLHLSNQEL;locus_tag=LOCUS_06400;note=WP_002366931.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Enterococcus) [pid:54.7%25%2C q_cov:74.5%25%2C s_cov:37.9%25%2C Eval:6.2e-33%2C partial hit],internal stop codon at [385263:385265](+),MGA_642
sequence1	MetaGeneAnnotator	CDS	385290	385679	.	+	0	ID=MGA_643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEAKKIHPNNRNRIIRALEINKLNDNIKSNIIKNNKNYIYDNLLIIGLIPNRSDLYNKINNRVLQLTDRGLFDEIRSAYIKNNFNKSAQALKCIGGPEIIKFIEKEIDYEQCIELMQKNNRHYARRQIT;locus_tag=LOCUS_06410;note=WP_003245569.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Bacillus) [pid:33.1%25%2C q_cov:98.4%25%2C s_cov:39.8%25%2C Eval:7.0e-15%2C partial hit],internal stop codon at [385263:385265](+)%2C[385677:385679](+),MGA_643
sequence1	MetaGeneAnnotator	CDS	386215	386448	.	+	0	ID=MGA_644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSAKFLEDALTNLGIQAKLIDLSINLEIAKHVDFRNELIVVLLTGRDTETTIRTLEYLIQFKNEVFIITTPSNIIE;locus_tag=LOCUS_06420;note=MGA_644
sequence1	Aragorn:1.2.38	tRNA	386636	386709	.	+	.	ID=Aragorn_21;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00200;note=Aragorn_21
sequence1	MetaGeneAnnotator	CDS	386810	386953	.	-	0	ID=MGA_645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKPIGDGNLKFIENEKSNPIKNQIANPGIIDSTKRKKLLIKNGVLF;locus_tag=LOCUS_06430;note=MGA_645
sequence1	MetaGeneAnnotator	CDS	387117	387485	.	+	0	ID=MGA_646;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIVKFLIVTLLVVFLIPLFVFISIFFRNQELRKQEDLEKIYNAFKNNEIIPTKELLKAQRYEKYLIKKMKEKEELAQFKLELDEKLEKELNKKELLKKEKFKKINEKLDKKEQKLRDKETK;locus_tag=LOCUS_06440;note=MGA_646
sequence1	MetaGeneAnnotator	CDS	387577	388263	.	-	0	ID=MGA_647;product=phosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183275.1;translation=MKFKGLTNEITVEKNILIKKEKAVNKLYLDKKNEFIILKEFKQNYQKIMIKSFDFYFQDGLLISKFKILKNFKSINEIDITDDILDLVIYGIKKFHKIKIKSKIKKFNYSNYLDIFKNNIDNFLYDFSNEYEKLIKKIAFTKNLKQVISHNDLVPGNILIKNKKIKLIDYDFVMLNNIFFDIASFITETLNDNNLLINSFIKKCIEKKLIKKEDINYLKIIIEYQDLL;locus_tag=LOCUS_06450;note=WP_011183275.1 phosphotransferase (Mesoplasma florum) [pid:29.4%25%2C q_cov:98.2%25%2C s_cov:86.6%25%2C Eval:5.1e-19],MGA_647
sequence1	MetaGeneAnnotator	CDS	388376	388588	.	+	0	ID=MGA_648;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLFPEIEIKSIKNFNSNIDIPENEPTFEGNSLYKAKFLANLVGEPVIADDSGICIEGLNNFPGIYSAR;locus_tag=LOCUS_06460;note=WP_011166792.1 RdgB/HAM1 family non-canonical purine NTP pyrophosphatase (Mycoplasma mycoides) [pid:44.8%25%2C q_cov:95.7%25%2C s_cov:33.5%25%2C Eval:2.7e-11%2C partial hit],internal stop codon at [388340:388342](+)%2C[388586:388588](+),MGA_648
sequence1	MetaGeneAnnotator	CDS	388625	388933	.	+	0	ID=MGA_649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLDKMLENNLINQEDRKAYFISVTSFVDLKNNIEEIFIGKTEGIIVKEQLGENGFAYDKIFKPLNCELTYAQMSKEEKSKISHRRKSIDLLKKFLKDHKYL;locus_tag=LOCUS_06470;note=WP_010868811.1 XTP/dITP diphosphatase (Pyrococcus abyssi) [pid:45.9%25%2C q_cov:83.3%25%2C s_cov:44.8%25%2C Eval:1.9e-12%2C partial hit],internal stop codon at [388586:388588](+),MGA_649
sequence1	MetaGeneAnnotator	CDS	388957	389151	.	+	0	ID=MGA_650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKINIVLYQPEIADNVGAIMRTCALINAKLHLIEPFGFIFDKRNFVRSSANNFESCEYIRYDD;locus_tag=LOCUS_06480;note=WP_011166791.1 tRNA (cytidine(34)-2'-O)-methyltransferase (Mycoplasma mycoides) [pid:69.8%25%2C q_cov:98.4%25%2C s_cov:34.8%25%2C Eval:1.6e-19%2C partial hit],internal stop codon at [389149:389151](+),MGA_650
sequence1	MetaGeneAnnotator	CDS	389194	389475	.	+	0	ID=MGA_651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRYGKKPISDFNFSKENDEIFIMFGKESTGIAKDILKKNINYCFRIPMVPTGRSLNIANSVGIAAYEVLRQWDYLNLSKVEVEKGEDFLEKD;locus_tag=LOCUS_06490;note=WP_011166791.1 tRNA (cytidine(34)-2'-O)-methyltransferase (Mycoplasma mycoides) [pid:65.6%25%2C q_cov:96.8%25%2C s_cov:49.7%25%2C Eval:4.5e-30%2C partial hit],internal stop codon at [389149:389151](+),MGA_651
sequence1	MetaGeneAnnotator	CDS	389511	390179	.	+	0	ID=MGA_652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSDFGFKKFINDALEEIDFIYPTSIQEKVIPLIKKHKSVIAQSHTGTGKTHSFLLPILNNINYEVDNKIQCVIITPTRELARQILDNTKDLLKFNSNGNVSLFIGGDDIEKQKDNLKNKQPMIVIGTPTRLKKLYEENFLQLTTTKYLVIDECDMIFDLGFIDEVDFLISKINKDVNISLFSATINNSIKPFLRKYLSNSIFIENIDKNPTNKNIEHVLI;locus_tag=LOCUS_06500;note=WP_011183170.1 DEAD/DEAH box helicase (Mesoplasma florum) [pid:60.4%25%2C q_cov:99.5%25%2C s_cov:48.3%25%2C Eval:1.6e-75%2C partial hit],internal stop codon at [390177:390179](+)%2C[390291:390293](+)%2C[390396:390398](+),MGA_652
sequence1	MetaGeneAnnotator	CDS	390633	390878	.	+	0	ID=MGA_653;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVEIIDKTKKKEYIASLPVNVETNKIVNKYKSKKVKPGYKKKRKAEIEKVKKDIRRKHIKESIAKIKKEKYKKRREELFDN;locus_tag=LOCUS_06510;note=MGA_653
sequence1	MetaGeneAnnotator	CDS	390948	391283	.	+	0	ID=MGA_654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDITERINKLIDQISYQVYEKETIFRLAMLALLAEESIFLLGKPGIAKSLISRRMKFAIKNGTNFEYLMNKFSTPEEIYGPVDLKLLKEGKYIRVVQDYLPSANVGFLDEI;locus_tag=LOCUS_06520;note=WP_000941295.1 DUF3763 domain-containing protein (Vibrio) [pid:55.5%25%2C q_cov:98.2%25%2C s_cov:19.9%25%2C Eval:3.3e-28%2C partial hit],internal stop codon at [391281:391283](+),MGA_654
sequence1	MetaGeneAnnotator	CDS	391377	391574	.	+	0	ID=MGA_655;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLISASNELPAEGEGLEALFDRFIIRFIAEGLKDVNNFEQLLDGESSLDVEVDPELQLTLDELSV;locus_tag=LOCUS_06530;note=MGA_655
sequence1	MetaGeneAnnotator	CDS	391881	392060	.	+	0	ID=MGA_656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNQLDLINSQIGQIEAQYLRLTPYDNPFKQKINPGTYYFINFTDGGDEYKVCLISAAD;locus_tag=LOCUS_06540;note=MGA_656
sequence1	MetaGeneAnnotator	CDS	392247	392486	.	+	0	ID=MGA_657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNLSQKITEIETLVKEVSAKMFKEYKKYTNMNCIFFKDIYDEKIAEAFDTKPKNKLSDSSLAENEVQEFEDLDINMKV;locus_tag=LOCUS_06550;note=MGA_657
sequence1	MetaGeneAnnotator	CDS	392510	392917	.	+	0	ID=MGA_658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFDLQKPVNEIKNEIEKLRKKDFHNSDFLLFKKNHEYAAEQLDDKINNFYSASNLSIIKQVKIPEPIRKEIVYYNYISEKFDEVSFSQNLNLIQSKLIEFDSPFSTYIDTMKWKIDNGYFELKGREWYTEFFRT;locus_tag=LOCUS_06560;note=MGA_658
sequence1	MetaGeneAnnotator	CDS	392924	394165	.	+	0	ID=MGA_659;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTKRIVDFRMKAVEDLRYNYLVEIYSIIKNYGKYAKIYKTIYDVFGKIANVEDELKNQNIESIARFAEFLYKDPSILRIAELLGRLNGEDDLMEVNITEQIVTYPTEVKLPYNPEEIVGLTVSKDLERLLLMEFANLFDEELEVIFYKKYIESQLQTFLFESNEQIIEHEIEEVEYEAPIPLEQGKFIICIDTSTSMEGAGEYIAKALSIAVAKVALKEERDLVFINFANEHVDEFIINARTVNVQKMLDFLAKSFYGKTNARPAFQKVIEKMHSQDFKRADLLMISDFMMDSVSNSIRVKIADLKDNYNRFHSLVIGTMPNVETQDIFDNVMYYDPNDPYATTQIVKSLNETLRDLRELKEEELAYRDEQLAEINTIRDKKRMREVHKDDPKSKKLEKKKQQLRKLEKQNQ;locus_tag=LOCUS_06570;note=WP_000899954.1 ATPase RavA stimulator ViaA (Vibrio) [pid:31.6%25%2C q_cov:69.0%25%2C s_cov:58.8%25%2C Eval:1.1e-35%2C partial hit],MGA_659
sequence1	MetaGeneAnnotator	CDS	394183	394545	.	+	0	ID=MGA_660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVNEKSNLLIVYFETGEEVINQISNIIREYKLIDAKISGYGYLERIEYGVLSQIDPFFLSKHLQEGLITVTDFLGMIENREFNIMVSSVDSNFLRHQGKLISGIVINSFTLILEILTTE;locus_tag=LOCUS_06580;note=MGA_660
sequence1	MetaGeneAnnotator	CDS	394732	394890	.	-	0	ID=MGA_661;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIQLKKGILEMIVLYFLNKKDYYTYELNKAISEFVQINESTAYAIFKKLIK;locus_tag=LOCUS_06590;note=WP_010963892.1 PadR family transcriptional regulator (Clostridium) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:48.6%25%2C Eval:2.4e-07%2C partial hit],internal stop codon at [394623:394625](-),frameshifted%2C insertion/deletion at around 394734,MGA_661
sequence1	MetaGeneAnnotator	CDS	395153	395374	.	-	0	ID=MGA_662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIILEFTMGFAYKNGYIDYIVHNRYKKSQELINFNNQEEFIEKINLDNNFIDENKINKEKLMHYFQEINQTS;locus_tag=LOCUS_06600;note=MGA_662
sequence1	MetaGeneAnnotator	CDS	395401	395586	.	-	0	ID=MGA_663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYINYDPYFGTSISLLLIAIVPFATVLVFFLTTILYKSSLKLSNFFKIRKNQKQFSIKFE;locus_tag=LOCUS_06610;note=MGA_663
sequence1	MetaGeneAnnotator	CDS	396347	396862	.	+	0	ID=MGA_664;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIQHVKYRGKFFVIATIGYGKANAAMAITYLMEEYPTLETVLNVDLALSTNDKFDTTDTVMATKFIYRDADLTVFKDIKYGQIVHEPEAFAFNTELETQVKNFKLGVSDGIIGTADMLIYNSKQFKEMVDKYGQTIDVIDSEAGALAQVAKKSSVNFVAMKIMYNNALSP;locus_tag=LOCUS_06620;note=MGA_664
sequence1	MetaGeneAnnotator	CDS	396892	397188	.	-	0	ID=MGA_665;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLGPSSSIFVFITSTISTASGVAALLSTNINEGPNPESNEETFFLKRFVQASCSISNNSLITSNSSIVLFEKSINNFDDNRLNNLATKYFNVFVVS;locus_tag=LOCUS_06630;note=MGA_665
sequence1	MetaGeneAnnotator	CDS	397595	397804	.	+	0	ID=MGA_666;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIKIPAIGASKLPVFIQTKSKANTPIVFGGYSAKEQKTYTVVDITRNDYDPLKVGSFKVTIRLKNELK;locus_tag=LOCUS_06640;note=MGA_666
sequence1	MetaGeneAnnotator	CDS	397981	399324	.	+	0	ID=MGA_667;product=SGNH/GDSL hydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183222.1;translation=MKRILSFLMSSTLVITSTSQIIACTNPLNSENSKSNIDYLNIGKDIDTKYAYNDGVNSEEHEGFTNYYIIGDSLSDMDGLTTFFSDYLGETGKTKQSSNKIKEFNLKFKGGYGFDENEKRRNPFTNGEPAGYVIAKELHFDNLEASNYYKKIDLDIKTDYGNNYAVGGATAAKFDSPTSKLLFNNFIIVEQTKALIEQHKIGANDFTLFQIGPNDLFAINEMTDDKDIDKSIQDVMDAITYSFFSLLNNGVKNVLFMTPPTLDTIPLYNSYSEEQINKIKEIGEKFNTNLIKVINLVMKFYPENVQYYDLYKDFENVKREYKDSDLNTSENSNKLILDKGYSKEKQLLLTTPDKKQNGQDYKFEINSFDVNDLTEFLQEVSKISEELKGKSIDINGTMTMAYNSENGDENIENYFFVDDVHPSKGVHKYVAMKKILPIIKDKFIKKS;locus_tag=LOCUS_06650;note=WP_011183222.1 SGNH/GDSL hydrolase family protein (Mesoplasma florum) [pid:33.2%25%2C q_cov:96.4%25%2C s_cov:96.3%25%2C Eval:4.5e-62],MGA_667
sequence1	MetaGeneAnnotator	CDS	399408	399683	.	+	0	ID=MGA_668;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKRKLTRDEIEKSIELAFQELLELSTMDLENNSFQLEEDKQKFKKNIKENPIKSNSIEKVNSIQKNSKQTDLKAIISLAKQKGKEINTGK;locus_tag=LOCUS_06660;note=MGA_668
sequence1	MetaGeneAnnotator	CDS	399943	400554	.	+	0	ID=MGA_669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METKDLVNKQLADELETTLEAVEEYNDEFYSSDEKKAIKKKAKELSRNHTEYLNTIENKLLSKREQTLLVQEYFKTKFLKELRNVALAALFITIAFDYFITTTGRSGLFPAGLGALARFFAILTFPDDSQLQSSFYFIYYFALNVPLIIFGYIKLGKKFTFITLLFIILQIGFDQIIQNLPVINPTDFHIIINYKLLQQMPNS;locus_tag=LOCUS_06670;note=WP_011183171.1 YitT family protein (Mesoplasma florum) [pid:38.8%25%2C q_cov:86.7%25%2C s_cov:34.4%25%2C Eval:9.3e-32%2C partial hit],internal stop codon at [400552:400554](+)%2C[400567:400569](+),MGA_669
sequence1	MetaGeneAnnotator	CDS	400597	400884	.	+	0	ID=MGA_670;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLGSSYSLVYKIGSSTGGLDFMTIYYSKIKNKPIGSINRNVNLIILATVITLNTIILPAGLINSDIKINVLNNLGVDNAYKHFLSDGKSIVQSM;locus_tag=LOCUS_06680;note=MGA_670
sequence1	MetaGeneAnnotator	CDS	401047	401235	.	+	0	ID=MGA_671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFMFLFGPSLFASIVLVLCSSVATNFFYPKYKVRTYLITTNHPKEVNSLLLENGFQNDILT;locus_tag=LOCUS_06690;note=WP_011166655.1 hypothetical protein (Mycoplasma mycoides) [pid:45.0%25%2C q_cov:96.8%25%2C s_cov:23.7%25%2C Eval:5.8e-09%2C partial hit],internal stop codon at [401233:401235](+)%2C[401308:401310](+),MGA_671
sequence1	MetaGeneAnnotator	CDS	401659	401952	.	+	0	ID=MGA_672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSGDLMNKNSLEKIIYKMLDLKLLEVKREIKNISFNDLYGYLMDVILKKNSVKDLNDISFYIMNIKINKLFEYMNLVEITQKNDTVINDLKSILEG;locus_tag=LOCUS_06700;note=MGA_672
sequence1	MetaGeneAnnotator	CDS	402231	402785	.	+	0	ID=MGA_673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNNQIIIETAGKNYLKVLSPVDAYENETIFKNQIQRNGGIVLLSGGSTDTPFKDLQITGEGSSITRKGINDYFSSAVSSAVTGSNQKVPAINYDLNGDTFKSLLTAGQTEEQQGSGSLDLTILLDADGFYNDIRNYYNIVSGDDFDQKIEDFYANVLEYFKNIYRSSTDQVVKDALYDLFYGR;locus_tag=LOCUS_06710;note=MGA_673
sequence1	MetaGeneAnnotator	CDS	402909	403490	.	+	0	ID=MGA_674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSETSKYVYDSNAVTEDFTDENGKYSSNVELYKESSSSSTQPSVRVDKLFNSLNPEMIKFFSDKSQGSIESTFIDHLRSNYFLFSGSVSETESQTSAGYIKDNSLVTKVETYTKAQVGASLFNASGKGFVFTVNSIATLSGQVTNVMLMIGIIFMAIVTICIMIYMIFFYRLLGLFSMVITLAIIGLTLLSTV;locus_tag=LOCUS_06720;note=WP_020862734.1 protein translocase SecDF%2C variant type (Mycoplasma mycoides) [pid:26.2%25%2C q_cov:97.4%25%2C s_cov:14.9%25%2C Eval:2.3e-13%2C partial hit],internal stop codon at [403488:403490](+)%2C[403707:403709](+),MGA_674
sequence1	MetaGeneAnnotator	CDS	403415	403702	.	-	0	ID=MGA_675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIPGIINETTRSKTRPKFSLIEILKLVFKPRCLSKTLCFIFSKISEKISTFKAIIINIEIIVSGPIVKPNQTVDNKVKPIIANVITIENNPNNL;locus_tag=LOCUS_06730;note=MGA_675
sequence1	MetaGeneAnnotator	CDS	403734	404402	.	+	0	ID=MGA_676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIVLSMGSLFTLAFSMIIGMIAFKIIVNAKFFTKNIKLFALDTSFSKEGNFLLTYKISKIKNKIQKLNSKDLNNKVKPLEEKLLSLNNKLEIIKDKKLKKLELKNNKIQQKLTLKIEKLNKKISILDSEKNANKIQKLNFRINEINYLLTDQTQEIIEAESIIVTSKQEKVKVKTVEKNIYHGLKTISIFGIIMILLSVGISFIFGMNFDYTFGGRTDYTF;locus_tag=LOCUS_06740;note=MGA_676
sequence1	MetaGeneAnnotator	CDS	404433	404747	.	+	0	ID=MGA_677;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTFAEDEDAINQNPDLKPLYDYANVLIDEVNNLPIGTSDTDKTLKRTESVYKFIDLSFSNDIYLNYFATASNVKSYQKHKFSVSFGENYNFSSSANQSSNIAN;locus_tag=LOCUS_06750;note=MGA_677
sequence1	MetaGeneAnnotator	CDS	404988	405611	.	+	0	ID=MGA_678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVAIVLAPTITAAIIITLQIPLGNSAIIGIVATIVFASVSAFVIFGKARSFISSRNEKSLINFFKKEIEILNDIKLAKKRIKDELFFARSDLKLLFKSNDFDLAEKRKKILDFRELRHQKKLEYKNIKKENKIKINRVSKENNYLSEVLVETFRFGVKRSILLSVFYISIALLISFAIAPIISFGITTAVGVLIANLVILFVALPI;locus_tag=LOCUS_06760;note=WP_020862734.1 protein translocase SecDF%2C variant type (Mycoplasma mycoides) [pid:25.3%25%2C q_cov:94.2%25%2C s_cov:16.0%25%2C Eval:2.2e-20%2C partial hit],internal stop codon at [404892:404894](+)%2C[404970:404972](+)%2C[405609:405611](+),MGA_678
sequence1	MetaGeneAnnotator	CDS	405963	406250	.	+	0	ID=MGA_679;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRKPGKLPREVYDVEYELEYGKGHIQMHIGDLKENDQVVIVDDVLATGGTMKAIVKLVEDSKANINGIVFVADLSFLHDSELFAKYDPSSLVTY;locus_tag=LOCUS_06770;note=WP_011166658.1 adenine phosphoribosyltransferase (Mycoplasma mycoides) [pid:63.2%25%2C q_cov:100.0%25%2C s_cov:55.9%25%2C Eval:5.9e-30%2C partial hit],internal stop codon at [405759:405761](+),MGA_679
sequence1	MetaGeneAnnotator	CDS	406406	406624	.	+	0	ID=MGA_680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNQEKNDFLFVECRDVEVLINEMKKYIKNKKIIEEVKRAYYYAEDKHRNQKRKSGDPFIIHPLSTAYYLAQ;locus_tag=LOCUS_06780;note=WP_011183175.1 RelA/SpoT family protein (Mesoplasma florum) [pid:57.4%25%2C q_cov:84.7%25%2C s_cov:8.0%25%2C Eval:2.7e-14%2C partial hit],internal stop codon at [406622:406624](+)%2C[406712:406714](+),MGA_680
sequence1	MetaGeneAnnotator	CDS	406787	407290	.	+	0	ID=MGA_681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKANYLRKLFLSMIRDIRVIIVKIADRMHNLLTLGFMTLEKQKIIAKETLEIYSTIAHRIGMKSAKNILEDYSFEFLDPTEYQKIKNLLEEDKESRNEIIYDMIEDINKRLKNEGLANSTSVFGRCKTIYSIYRKISQFGKSFTDINDILAIRIITSRVEDCYRVLG;locus_tag=LOCUS_06790;note=WP_011166659.1 RelA/SpoT family protein (Mycoplasma mycoides) [pid:58.7%25%2C q_cov:100.0%25%2C s_cov:22.3%25%2C Eval:4.5e-51%2C partial hit],internal stop codon at [406622:406624](+)%2C[406712:406714](+)%2C[407288:407290](+)%2C[407468:407470](+),MGA_681
sequence1	MetaGeneAnnotator	CDS	407300	407470	.	+	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTPLSGRFKDYIATPKNNLYQSLHTTLANKDGVIFEVQIRTKEMDDVAEHGAAAH;locus_tag=LOCUS_06800;note=WP_011183175.1 RelA/SpoT family protein (Mesoplasma florum) [pid:81.8%25%2C q_cov:98.2%25%2C s_cov:7.2%25%2C Eval:1.9e-20%2C partial hit],internal stop codon at [407288:407290](+)%2C[407468:407470](+),MGA_682
sequence1	MetaGeneAnnotator	CDS	407540	407881	.	+	0	ID=MGA_683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTRLMNLEKLASEGVEVEYEENQLLDFENEVEETFKSDYLAPLIYILTPDGNVVTLPFGSTVIDFAYKIHTEVGNKTIGAKINGVFSPYNTTLNSGEMVEVQTSKEAVPNEK;locus_tag=LOCUS_06810;note=WP_011166659.1 RelA/SpoT family protein (Mycoplasma mycoides) [pid:47.8%25%2C q_cov:100.0%25%2C s_cov:13.2%25%2C Eval:2.8e-24%2C partial hit],internal stop codon at [407288:407290](+)%2C[407468:407470](+)%2C[407879:407881](+)%2C[408041:408043](+),MGA_683
sequence1	MetaGeneAnnotator	CDS	408212	408430	.	+	0	ID=MGA_684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTRKYKSVKGRDDLKINGIDKVNCTLAQCCFPIPTEPVTSFMSKTKGIQVHRSECSNILNIRKVKNLLKTE;locus_tag=LOCUS_06820;note=WP_011262544.1 GTP diphosphokinase (Aliivibrio fischeri) [pid:35.1%25%2C q_cov:79.2%25%2C s_cov:7.7%25%2C Eval:2.4e-07%2C partial hit],internal stop codon at [408428:408430](+),MGA_684
sequence1	MetaGeneAnnotator	CDS	409337	409516	.	+	0	ID=MGA_685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSSQIRMQLASLVQTGIRPEDPYLTIEQAMKIEQGANPETIAQEQKEVNLSKEVINPI;locus_tag=LOCUS_06830;note=MGA_685
sequence1	MetaGeneAnnotator	CDS	409765	409923	.	+	0	ID=MGA_686;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASATLITSTSVTVIACGDNDLSNPEPEKPESGFQELINDFKKDLTTIKDEY;locus_tag=LOCUS_06840;note=MGA_686
sequence1	MetaGeneAnnotator	CDS	410652	411119	.	+	0	ID=MGA_687;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKTLVQNEKKLKNALENYQDELLFNSIFNKITENDEALIFEKSNKNINSPIYKEISSSFMNVNNEYEKQFASEITNFEALTGDKLDDSVKAVVNNSIKYYEVKLKNLSIKIGTAYENPINNLSFFSSLQLQMMKLQKIEKILQNLIYLEQCITT;locus_tag=LOCUS_06850;note=MGA_687
sequence1	MetaGeneAnnotator	CDS	411104	411244	.	+	0	ID=MGA_688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYNVISGIKSYQNIFGILDSNESEGIPIASFTGMSANSENELENL;locus_tag=LOCUS_06860;note=MGA_688
sequence1	MetaGeneAnnotator	CDS	411428	411592	.	+	0	ID=MGA_689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKKGLEVLELQDPPGPVLPSIGFSLNFIDINFEINNNDLITKNTTIIKRVNI;locus_tag=LOCUS_06870;note=MGA_689
sequence1	MetaGeneAnnotator	CDS	412214	412387	.	+	0	ID=MGA_690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLCFLGSFTILTSTSISVIACNSDLKDLDENNQFDFQKLVEDFLKDLTTIKNKF;locus_tag=LOCUS_06880;note=MGA_690
sequence1	MetaGeneAnnotator	CDS	412448	412663	.	+	0	ID=MGA_691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKENIIKLVNQNNNKPVDNLSESDKTLLIQDIKKLLSEDELKSKFDSLLNKEKYSLLISNSNYFLSFDFD;locus_tag=LOCUS_06890;note=MGA_691
sequence1	MetaGeneAnnotator	CDS	412760	413140	.	+	0	ID=MGA_692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHFKYYDNNFEQKFFDLNQKFVFTLTTDGSFMESIKNFEKNIKYNYFLSGQKYSFLDKDNFGIELDKNSDDIFDKKINFRNVYENQEFKNNIINFIKKKYFQNFENIPLIFKESNIFGEFILLEEF;locus_tag=LOCUS_06900;note=MGA_692
sequence1	MetaGeneAnnotator	CDS	413237	413407	.	+	0	ID=MGA_693;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFNTNSSQINLFIYNELNSIYIKNYEVYTEKLNKLVIELQEASNIFLSEAAKDFL;locus_tag=LOCUS_06910;note=MGA_693
sequence1	MetaGeneAnnotator	CDS	413489	413710	.	+	0	ID=MGA_694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFYTSIAVTNDETEDSRENPVRSNLFGAVYYNTITGIKSFQDVFGIVDRKKNETFSPLAIFTGKTNDFSENL;locus_tag=LOCUS_06920;note=MGA_694
sequence1	MetaGeneAnnotator	CDS	414584	414739	.	+	0	ID=MGA_695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFQQANEKKLTINFKKNGSEIQIRLPELYDSFYLQKYVNEEKMKYKNISK;locus_tag=LOCUS_06930;note=MGA_695
sequence1	MetaGeneAnnotator	CDS	415166	415438	.	+	0	ID=MGA_696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINTSKDYSEITFKKEYLKSIYNYRLDGSYNGDYFTFTDNSVTNLVRNDLNFELMIVALILEQYFIKYTSNYLNAINNSVSISSGDFENI;locus_tag=LOCUS_06940;note=WP_011183358.1 ABC transporter permease (Mesoplasma florum) [pid:47.4%25%2C q_cov:84.4%25%2C s_cov:12.1%25%2C Eval:6.0e-11%2C partial hit],internal stop codon at [414932:414934](+)%2C[415493:415495](+)%2C[415538:415540](+),frameshifted%2C insertion/deletion at around 415432,MGA_696
sequence1	MetaGeneAnnotator	CDS	415407	415589	.	-	0	ID=MGA_697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFCSSKAILESDEDKNQKSSYEKPEYSVYADHIPLYKFIYESIFKLFLEFIYFQSLLKK;locus_tag=LOCUS_06950;note=MGA_697
sequence1	MetaGeneAnnotator	CDS	415898	416080	.	+	0	ID=MGA_698;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGVSGSGKSVLINSIVGCYKKYSEDIKINKKSIKSQGGYKQNINIGFYTQIDFFFKLLL;locus_tag=LOCUS_06960;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:48.1%25%2C q_cov:90.0%25%2C s_cov:5.7%25%2C Eval:3.8e-08%2C partial hit],internal stop codon at [416153:416155](+)%2C[416210:416212](+)%2C[416306:416308](+),frameshifted%2C insertion/deletion at around 416062,MGA_698
sequence1	MetaGeneAnnotator	CDS	416921	417121	.	+	0	ID=MGA_699;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLNLLATTSLVASTSLTVIACGNNSNSNETVPDPNEKEPEPEVVYEDVLRDFESDLTSFKDTY;locus_tag=LOCUS_06970;note=MGA_699
sequence1	MetaGeneAnnotator	CDS	417422	418597	.	+	0	ID=MGA_700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYTNDALGGETSNFISYTSVDVKFVFNYKDKIGETQKFEITQKYIFTLTSDNYLIQAIQEMENKIQTDYFLANEKYSILDNSNFDLKDENLGNIFGTSNDDMKTAFEKTYSSDDFKNNITSFITTNYFENLQNIPLEFAPGSLIFQSYSETDYLKTDTSYNKQLSTPAGLNIYNNIFNNMKTEGSTTLMGATVNNVNNIIHADLRSNYTNYLSSFNTKINNFVETLKNSSEIVPTETFSENLSNSFSYGIVKLKGLEIISGDYHHPINELSIYTSLAVKKDETKENREAATVSNIFAAMYYNTIAGIKKFQEIFGIVDRTDTGEVSPLVRFTGTRQGTEYDSNQNIWSQGFTADNNQYLNKLKQSMSLTTTNLKKFRDYILNESNQRIFN;locus_tag=LOCUS_06980;note=MGA_700
sequence1	MetaGeneAnnotator	CDS	418818	419153	.	+	0	ID=MGA_701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKLFLYKSIPFRVLLLFNIKNIFHELVFLILNTLLIFSSLVFGIISRFFDTQVSLLVAFNFYILFFISCLLFILILRMVQFFFHNKIEDKTTFITLSNQVSRTKLFLST;locus_tag=LOCUS_06990;note=WP_011183358.1 ABC transporter permease (Mesoplasma florum) [pid:45.5%25%2C q_cov:99.1%25%2C s_cov:18.2%25%2C Eval:1.3e-21%2C partial hit],internal stop codon at [419151:419153](+),MGA_701
sequence1	MetaGeneAnnotator	CDS	419160	419564	.	+	0	ID=MGA_702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIVCIFNFLLSFIFINFLNFSLNKFKLNELLLNITLVFLIYGSICSILLVNFIIFLIFVFSLQTTTVICTLLLSLNFLANLPTSFQTANEKDMTIYIEKNSTPIAIKLTDIQDAFSLQKYVNEGKIKYSHLSK;locus_tag=LOCUS_07000;note=WP_011183358.1 ABC transporter permease (Mesoplasma florum) [pid:40.3%25%2C q_cov:100.0%25%2C s_cov:21.7%25%2C Eval:2.6e-22%2C partial hit],internal stop codon at [419151:419153](+)%2C[419562:419564](+)%2C[419652:419654](+)%2C[419757:419759](+),MGA_702
sequence1	MetaGeneAnnotator	CDS	419787	420245	.	+	0	ID=MGA_703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLDYSFVNIDELNRMANEESDLEIKLILEDLFNFANYIKKQFASDLQIEKYNLFSDFIFVNSNSKIINKSKNNVTIPIKKDYLKTIFEFYLKGNYSSGYLTLDPTTARQFVTNDLNFELLFITRILENYFIKYTSHYLNTVNYKLLLNSGD;locus_tag=LOCUS_07010;note=WP_008363812.1 ABC-2 transporter family protein (Mycoplasma feriruminatoris) [pid:34.8%25%2C q_cov:90.8%25%2C s_cov:23.0%25%2C Eval:7.5e-17%2C partial hit],internal stop codon at [419562:419564](+)%2C[419652:419654](+)%2C[419757:419759](+)%2C[420243:420245](+)%2C[420312:420314](+)%2C[420357:420359](+),MGA_703
sequence1	MetaGeneAnnotator	CDS	420598	420954	.	+	0	ID=MGA_704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTIIEVSKYNKKFKKNSVGEFSFMIKKGEITALLGVSGSGKSVLINSIVSCYKKFSGNIKINEKSIKKAGGFKQNMLVGFYTQIDFSLQSFSLIQFLLNMSMIMGLKKKDAKERINY;locus_tag=LOCUS_07020;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:46.5%25%2C q_cov:96.6%25%2C s_cov:11.9%25%2C Eval:1.5e-22%2C partial hit],internal stop codon at [420952:420954](+)%2C[421105:421107](+),MGA_704
sequence1	MetaGeneAnnotator	CDS	421126	421542	.	+	0	ID=MGA_705;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIQYKSQGKTIIITSHNIDEISEIIDNYLVIENGKLLFEGTTKQLNIYTKYKIYVKEEYEVENFREFLNQRNIKSFKYDNIENSLTIAIANYKELNYIFLYLIKNNLPMKNLVKLPTNMESIHKALEDSAAKEKNNK;locus_tag=LOCUS_07030;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:38.1%25%2C q_cov:100.0%25%2C s_cov:14.2%25%2C Eval:1.1e-20%2C partial hit],internal stop codon at [420952:420954](+)%2C[421105:421107](+),MGA_705
sequence1	MetaGeneAnnotator	CDS	421670	421849	.	+	0	ID=MGA_706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFENNRDRDRSRDRNRSGFSGNRSQGSQNNGRIENFEKPLIQLLKEINEKLDILIEKK;locus_tag=LOCUS_07040;note=MGA_706
sequence1	MetaGeneAnnotator	CDS	421965	422669	.	+	0	ID=MGA_707;product=DeoR/GlpR family DNA-binding transcription regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183076.1;translation=MLREERLKLILDFVNERGYCTNELISKELAIPFTTLRRDLTDLHDDSKLKRVHGGAKSIREKSILEAKLDEKLVLNIEAKKIIAKKAFDCIKPFETIFLDAGSSTYFLAELIKPDYNNKVYTNSVINAQVLANNSICNIYLLPGKLKLSTGAICGVETIQALSKYNFDLAFLGINAVDNTFNFYTTDEDEAEVKKMAIEYSQFAFGLADNSKMNSKSFVKFSDKSQIALINEEV;locus_tag=LOCUS_07050;note=WP_011183076.1 DeoR/GlpR family DNA-binding transcription regulator (Mesoplasma florum) [pid:43.0%25%2C q_cov:98.3%25%2C s_cov:100.0%25%2C Eval:1.2e-47],MGA_707
sequence1	MetaGeneAnnotator	CDS	422672	423550	.	+	0	ID=MGA_708;product=1-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183077.1;translation=MIYTLTLNPAVDHIILTDKKIELCITNYYHDEYKVVGGKGINAGIILKNLDTEIMVIGILGEQNKEIFTNKFSEINLNNKFFLNNGLTRVNYKIKNLNSKQETELNGLGFETQDEVLKELISFLEDNLKKEDIVLLTGSVARGISKNIYQKIGQIVNDKQAILICDATNELLLNVLKEKPFLIKPNLEEICSTLNLEYKENISFDEIKKLIIELQKLGAQNILLSMGSNGSIYFDSKNNIYKVGIAKGNLVNSVGAGDSMLAGFIYGLYKKLNIEKTLQYAAASGAATAFTE;locus_tag=LOCUS_07060;gene=pfkB;EC_number=2.7.1.56;note=WP_011183077.1 1-phosphofructokinase (Mesoplasma florum) [pid:55.0%25%2C q_cov:95.9%25%2C s_cov:89.4%25%2C Eval:3.3e-83],MGA_708
sequence1	MetaGeneAnnotator	CDS	423620	423886	.	+	0	ID=MGA_709;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKDLFSKQISFFEEDLNSKDEVIEFLSKKLQEQKFVKSAEDFKAAVYKRESEGSTGVGDGIGIPHVLNKTVLKSAIAFVKLKNKID;locus_tag=LOCUS_07070;note=WP_011183078.1 fructose-specific PTS transporter subunit EIIC (Mesoplasma florum) [pid:56.8%25%2C q_cov:100.0%25%2C s_cov:12.3%25%2C Eval:1.5e-22%2C partial hit],internal stop codon at [423884:423886](+),MGA_709
sequence1	MetaGeneAnnotator	CDS	423923	424630	.	+	0	ID=MGA_710;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMTNGVDSDEHLTALAELSGFLMKSEIQTKLRNAKSIKDIETAFTKKEVKEVKTSKNGHFDVIGITACPTGIAHTYMAAEKLEEYAKSLNMSVKIETQGRRGTENKLTDEDIKNAKVIILAHDKALQGMSRFNGVEVIDTHTKEAIFKGKELISGFSRNPDKKVINVADDGSSSNDEFSLRKFLDFKGNLLAGVSRMLPFVVAGGIILGIAFLIDFIAGTPGGKDFGTVNEAAG;locus_tag=LOCUS_07080;note=WP_011166991.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:60.3%25%2C q_cov:100.0%25%2C s_cov:35.0%25%2C Eval:2.9e-73%2C partial hit],internal stop codon at [423884:423886](+)%2C[424628:424630](+)%2C[424787:424789](+)%2C[424799:424801](+),MGA_710
sequence1	MetaGeneAnnotator	CDS	424655	424789	.	+	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIMVPVLAGYIAYTIVGPQGLMPGFVAGLLADGSGFAYGGVGS;locus_tag=LOCUS_07090;note=WP_011166991.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:75.6%25%2C q_cov:100.0%25%2C s_cov:6.6%25%2C Eval:2.4e-12%2C partial hit],internal stop codon at [424628:424630](+)%2C[424787:424789](+)%2C[424799:424801](+)%2C[425027:425029](+),MGA_711
sequence1	MetaGeneAnnotator	CDS	424832	425029	.	+	0	ID=MGA_712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSGFIGGMVGAYVAALIIFGLMKLFSKFTKSFHGVRDIVLVPVLSLLLTALAMFVLNIPLGYTM;locus_tag=LOCUS_07100;note=WP_011183078.1 fructose-specific PTS transporter subunit EIIC (Mesoplasma florum) [pid:70.8%25%2C q_cov:100.0%25%2C s_cov:9.1%25%2C Eval:1.5e-17%2C partial hit],internal stop codon at [424628:424630](+)%2C[424787:424789](+)%2C[424799:424801](+)%2C[425027:425029](+)%2C[425285:425287](+)%2C[425321:425323](+),MGA_712
sequence1	MetaGeneAnnotator	CDS	425090	425287	.	+	0	ID=MGA_713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIALMMCVDMGGPINKIAYTLGTLSVGGGLGDDPKLTIIMAASMAGGMIPPLGIALCNVLFSKV;locus_tag=LOCUS_07110;note=WP_011183078.1 fructose-specific PTS transporter subunit EIIC (Mesoplasma florum) [pid:73.0%25%2C q_cov:96.9%25%2C s_cov:8.8%25%2C Eval:6.5e-21%2C partial hit],internal stop codon at [424799:424801](+)%2C[425027:425029](+)%2C[425285:425287](+)%2C[425321:425323](+),MGA_713
sequence1	MetaGeneAnnotator	CDS	425327	425614	.	+	0	ID=MGA_714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAFFITEGAIPFMITDAKRISISALISGAITGVLVGLFGITLGAPHGGVAVFPLLEFTAFDVASGTALAKGLGVSLYILSIIIGTVIMALILGF;locus_tag=LOCUS_07120;note=WP_011166991.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:63.2%25%2C q_cov:100.0%25%2C s_cov:13.6%25%2C Eval:4.7e-27%2C partial hit],internal stop codon at [425285:425287](+)%2C[425321:425323](+)%2C[425612:425614](+),MGA_714
sequence1	MetaGeneAnnotator	CDS	426159	426431	.	+	0	ID=MGA_715;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSRVKSLTKFTIIFMSFVTIFGFRNIVNNQNQFGLLACILFLIGGAIYALPMVFISSELGSVKKLKDQEAGLGSFCVFTLGQKNGFIAA;locus_tag=LOCUS_07130;note=WP_011704221.1 amino acid permease (Aeromonas) [pid:33.0%25%2C q_cov:100.0%25%2C s_cov:18.6%25%2C Eval:6.2e-08%2C partial hit],internal stop codon at [426429:426431](+),MGA_715
sequence1	MetaGeneAnnotator	CDS	426705	426827	.	+	0	ID=MGA_716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLGFIVIALVFTLPVLGVQSDFNSQQLDPLNDPSMFDGD;locus_tag=LOCUS_07140;note=MGA_716
sequence1	MetaGeneAnnotator	CDS	426885	427031	.	+	0	ID=MGA_717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCVFIKDTKGGAKTFKVATFIGMIIVIALMVLGSLLLSLTISQNAINK;locus_tag=LOCUS_07150;note=MGA_717
sequence1	MetaGeneAnnotator	CDS	427251	427472	.	+	0	ID=MGA_718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVNALFIQAVIVSIILMIVGATTTGTLGQGSSVFLEKIMQATTSTAIIQMLYLFVGYIKMRIKDNDVERDYI;locus_tag=LOCUS_07160;note=MGA_718
sequence1	MetaGeneAnnotator	CDS	427481	427672	.	-	0	ID=MGA_719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIHQIIYPKAIKKINPPNINKKSIKAFNQSVFHFSGLGMVPKINATPSKMTVTEEIAITIFL;locus_tag=LOCUS_07170;note=MGA_719
sequence1	MetaGeneAnnotator	CDS	428395	429630	.	+	0	ID=MGA_720;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166530.1;translation=MIQKPRGTEDLIDLKAKEFFALEMIIRNIVDLFNFNEIKTPIFESSDLFKRGVGEQTDIVSKEMYSFLDKKNRELTLRPEGTAPIVRAVIENKLYINENLPLKFFYFGSMFRYERPQNGRTRQFNQFGVEAFGPKSAEMDNEIICLASTILNTIGIEKYTIHLNYLVNGEERKKYIEDLKKYLATKKLCDDCNRKLNTNPLRILDCKIDSPNFKDVIDMKDYLSSDDKNYFEELIFNLKNIGINPVIDKMLVRGLDYYTGFVFEIKDANNLTLLGGGRYDNLVNQLGEIDLPAVGFGFGLERILLSLSDINASLSQPTYLDVYIIGLSKKAKQFSSILLLMIRTAGLKADFDFMNRSMKSAFKQSEKLNSKNIIIIGDNELKENVVIIKKQETKKEQKVTFEKIVETLMKG;locus_tag=LOCUS_07180;gene=hisS;EC_number=6.1.1.21;note=WP_011166530.1 histidine--tRNA ligase (Mycoplasma mycoides) [pid:49.6%25%2C q_cov:99.3%25%2C s_cov:99.8%25%2C Eval:4.2e-112],MGA_720
sequence1	MetaGeneAnnotator	CDS	429735	430442	.	+	0	ID=MGA_721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFVDLRDRYGITQLVLDDSINLENIKSEYVIEVTGIVIERKSKNLEISTGEIEIKVSEINLINKSELTPFEIKNNIDSQEETRLTYRYLDLRRPEIQQKIITRSKMNHVIRNFFIENDFIEIETPIFGKSTPEGARDFLVPSRLNENKFYALPQSPQLYKQLFMISGFDRYFQIVKCFRDEDLRIDRQPEFTQIDMEMAFADKEDVMQIMEDLIKKVILEIKRIEIKDSIQRIT;locus_tag=LOCUS_07190;note=WP_011166529.1 aspartate--tRNA ligase (Mycoplasma mycoides) [pid:65.3%25%2C q_cov:100.0%25%2C s_cov:41.3%25%2C Eval:7.0e-88%2C partial hit],internal stop codon at [429705:429707](+)%2C[430440:430442](+)%2C[430686:430688](+),MGA_721
sequence1	MetaGeneAnnotator	CDS	430956	431147	.	+	0	ID=MGA_722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSKSSLQNFEEEKASALAEAYDLVLNGFEIGGGSQRITDPIIQQKMFDAIGLTQSQVEQNFG;locus_tag=LOCUS_07200;note=WP_011166529.1 aspartate--tRNA ligase (Mycoplasma mycoides) [pid:64.5%25%2C q_cov:98.4%25%2C s_cov:10.8%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [430686:430688](+)%2C[430881:430883](+)%2C[431145:431147](+),MGA_722
sequence1	MetaGeneAnnotator	CDS	431196	431354	.	+	0	ID=MGA_723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLDRICMILTSSNNIREVIAFPKNSSGVDSMTNAPDIVTQEQLDELSIKLK;locus_tag=LOCUS_07210;note=WP_011166529.1 aspartate--tRNA ligase (Mycoplasma mycoides) [pid:68.0%25%2C q_cov:96.2%25%2C s_cov:8.7%25%2C Eval:5.9e-14%2C partial hit],internal stop codon at [431145:431147](+),MGA_723
sequence1	MetaGeneAnnotator	CDS	431848	432273	.	+	0	ID=MGA_724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTNKFQNRLFYNSKDNSKSFKTMIDKLTNFLIEQSPELKYVFDEYITEINQYQEGLNQINETNSEDYVHNALYGNDGLYSRLGNHILKTIYKLKSAEENLSLFSDQLDKQKMSIIEKLLYMIKGFLYKEYHLTKKMRERT;locus_tag=LOCUS_07220;note=MGA_724
sequence1	MetaGeneAnnotator	CDS	432555	432674	.	+	0	ID=MGA_725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDDRGKDIYSGKPINKSLLTHGLGYLREYDFARAFNGQ;locus_tag=LOCUS_07230;note=MGA_725
sequence1	MetaGeneAnnotator	CDS	433757	434107	.	-	0	ID=MGA_726;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDIQKKEISNKKEYALLLLNSIIFKNFEIYKKEIFNILKEDDYIKILFERVFIPKNFILRIDIVCRNILKYAKILKKKNKITEDEFIGISVSTIELIIFALSFSNFGSIFFESIY;locus_tag=LOCUS_07240;note=MGA_726
sequence1	MetaGeneAnnotator	CDS	434520	435053	.	+	0	ID=MGA_727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGKYDFNDNDIKKIMKFFEPSLHTIKVLLEETKIDLQKFNLLNDNFLKIYHNFENLVFFDNFLEFKDSFIYFYEYILNTLIIKNKTEIIDRHIVMPNIVQLLEIVLLVDYLIKKSFENVRNNNNVLDIKEIKIIILEKINTYYFQLTELNKNYSQMFCQQIKDLLLFLEKKDDFKI;locus_tag=LOCUS_07250;note=MGA_727
sequence1	MetaGeneAnnotator	CDS	435701	435916	.	+	0	ID=MGA_728;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHRTISTNLKAVLNYNVETVFNKFLQLAAKDINRNLTNDDLIEDAYFYSKRGGKQILLLSELTKNESITIE;locus_tag=LOCUS_07260;note=MGA_728
sequence1	MetaGeneAnnotator	CDS	436010	436186	.	+	0	ID=MGA_729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEAVWGFMSNYRKATYQLEVKKTFNIQILQIRINLEEDENKKQKFIGRVKFLGGKKNK;locus_tag=LOCUS_07270;note=MGA_729
sequence1	MetaGeneAnnotator	CDS	436954	437145	.	+	0	ID=MGA_730;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKSNVNIDHDLEYKNFEKLYPYFINKNLSNLKIKGIYIYGISGVGKTMFLNKLKKISTKSIE;locus_tag=LOCUS_07280;note=MGA_730
sequence1	MetaGeneAnnotator	CDS	437215	437553	.	+	0	ID=MGA_731;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISANRAAIKEILFIDDLGAEFFHPSTMHYIYELFEKRFSYKKQVPNIITIFTSNYSLLQLEQKYTKQLGKTDTERIISRIKSLVDCEILFEGIDKRSTSTINTKFINEIEF;locus_tag=LOCUS_07290;note=MGA_731
sequence1	MetaGeneAnnotator	CDS	437568	438293	.	+	0	ID=MGA_732;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIIFLVGVGGTGGLLAGKLAKFLAQEDKIYLIDGDKVEYKNVVRQPFQIHDIDAFKAESLARKINSISQFKNCYSVNKFLNKEDSLFKIVKSVQEQTNSLVIISCVDNHKTRLLIEKSIQLLKEFLKKMDYSYVGYPKPSDLFYIDSANEDDYGDILINEFRSKIYKLKIEKTDELLLTEDSCENLINDGVIQQFATNDQASNLILRFLFDIEYFKNKKCHIKFDKYNSKIDILKGINK;locus_tag=LOCUS_07300;note=MGA_732
sequence1	MetaGeneAnnotator	CDS	438293	438796	.	+	0	ID=MGA_733;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIHHLEYFFQGLEIINNVNLDRIKTLRREILTSNIYLLPYQRNRLIKRIVCFNEIFPKNEDRFHLHETILLNFYNYQFEPRFLFKNTFVSSTHLQKLPKYKKRYILEKFKNTKNIVIHNIDNEVYFEINYVLEITNNKDLLFLKELAVKSKEILFLINEAKNIRRT;locus_tag=LOCUS_07310;note=MGA_733
sequence1	MetaGeneAnnotator	CDS	438768	438929	.	+	0	ID=MGA_734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKILEELNLLSENPLKSKKIDKKEYDVFLEKNKEKQYLSDQIKKIRSISKT;locus_tag=LOCUS_07320;note=MGA_734
sequence1	MetaGeneAnnotator	CDS	440009	440305	.	+	0	ID=MGA_735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISTQESKDKVLKENKVEKTKIDEILNIPAGSILRIDGEEYQIHISISPGQEVTKDYIHKKVIDPNGLINKWEYKNASLSYDKEDNIFYYVIESPKKG;locus_tag=LOCUS_07330;note=MGA_735
sequence1	MetaGeneAnnotator	CDS	440312	440713	.	+	0	ID=MGA_736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKTELIEIARIQPNPSQPRKTINRDSIIELANSILKVGLLQPIIVNINTKNEVSLIAGQRRLEAYKYLNKKHIECILVPGDASQKDFKQASIIENVQREEMTNYDTALPLKELRNDGMNLEEISSQLGKSIS;locus_tag=LOCUS_07340;note=WP_003429290.1 ParB/RepB/Spo0J family partition protein (Clostridioides difficile) [pid:40.5%25%2C q_cov:94.0%25%2C s_cov:43.2%25%2C Eval:1.7e-18%2C partial hit],internal stop codon at [440711:440713](+),MGA_736
sequence1	MetaGeneAnnotator	CDS	440723	441073	.	+	0	ID=MGA_737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSVLELNNDVQQQVIDGSLDISKAVIIASQHDLSDQEKTILANDVVENKITKKTLEDKVKKIKNYIDPEIIQMQNHIQQKLGTKIEIKEKKLIMHYLGIEDLNKILEVLNLNYKD;locus_tag=LOCUS_07350;note=MGA_737
sequence1	MetaGeneAnnotator	CDS	441540	441896	.	+	0	ID=MGA_738;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSVNLIGRITKDPELRKSSGGKDYVAFTVAVNEFSGGNQFTQFVPCFAWEKTAENMAKYVKKGAQIAVEGNLNVRQDNNNGQFSTVISVRANRIQFLASRHNDENQPHDYELVEEDT;locus_tag=LOCUS_07360;note=WP_011182978.1 single-stranded DNA-binding protein (Mesoplasma florum) [pid:49.0%25%2C q_cov:87.3%25%2C s_cov:68.9%25%2C Eval:1.2e-24%2C partial hit],MGA_738
sequence1	MetaGeneAnnotator	CDS	441901	442077	.	+	0	ID=MGA_739;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMILFYERTNYEKTLVKICTKCLLKIKENQRINSFKNIDIFGNDIYEYVHESCTSIID;locus_tag=LOCUS_07370;note=MGA_739
sequence1	MetaGeneAnnotator	CDS	442106	442294	.	+	0	ID=MGA_740;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKIINKTFIKLNKKAKLKLLNAHGNYRKTLKHKVQNQKMHKINFKVKKNIQKSYGIARQN;locus_tag=LOCUS_07380;note=MGA_740
sequence1	MetaGeneAnnotator	CDS	442474	442641	.	-	0	ID=MGA_741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTEKENLLNRVKKDIKKKVLQKFKELEPIFDEDTLKITQILFNKTNEDQTIETI;locus_tag=LOCUS_07390;note=MGA_741
sequence1	MetaGeneAnnotator	CDS	442698	442991	.	+	0	ID=MGA_742;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKLVILESPGKIKKVNQFLNEIDKNNNYIVKASVGHVRELSQENEYNMGLKLNSMEPIFKVSLDKKTIVNQLIEYSKKAEQIIIATDPDREGEAIA;locus_tag=LOCUS_07400;note=WP_011167080.1 DNA topoisomerase (Mycoplasma mycoides) [pid:42.3%25%2C q_cov:100.0%25%2C s_cov:15.1%25%2C Eval:8.8e-18%2C partial hit],internal stop codon at [442989:442991](+),MGA_742
sequence1	MetaGeneAnnotator	CDS	443037	443744	.	+	0	ID=MGA_743;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNAITKECVQKEILNLGSIDQNYVKSALTRQIIDRIVGFRISPVLQKTIGAASAGRVQSAVLRILCDRQNEIDNFSKKQYFYLQDEVIDQLIFKNCIYNEHNKLVINKIYDKSKILELKNNLDIKFLIQDIKETKFEENHYKPFSTADMLKASKSKLKLKANVTTNIAQSLYEKGLITYIRTDSNNLDKETKNSLINFIISYYGENKLGKLIKTQIKETDQEGHPAITPTHFE;locus_tag=LOCUS_07410;note=WP_012047858.1 type I DNA topoisomerase (Clostridium botulinum) [pid:35.3%25%2C q_cov:100.0%25%2C s_cov:35.6%25%2C Eval:1.2e-31%2C partial hit],internal stop codon at [442989:442991](+)%2C[443742:443744](+)%2C[443808:443810](+),MGA_743
sequence1	MetaGeneAnnotator	CDS	443961	444512	.	+	0	ID=MGA_744;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEENIKFNYSKNSFINVNNIKIVEDYDKPPSKLNEITLIEQLQKLEIGRPSTYKNAIEINVLRGYVDVEKNKSESMTVNDLGLKVNDFLVKNFIDVINLDFTKNMEKDLDLIATGQISDFKGYLKTFYTKLDKITSDYNYDGMKCLKCNKGYMIERSYIDKKTKNTRKFLGCSNYPECKNAEF;locus_tag=LOCUS_07420;note=WP_010931749.1 type I DNA topoisomerase (Chlorobaculum tepidum) [pid:37.0%25%2C q_cov:85.8%25%2C s_cov:19.4%25%2C Eval:6.4e-23%2C partial hit],MGA_744
sequence1	MetaGeneAnnotator	CDS	444852	445262	.	+	0	ID=MGA_745;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIWNLNPEYIYKEFKIHLLLELRPNFVESYNLFEYSINKTQNYKLTPSIFIKQLEVFNLEYSFGIRNENTNTYIKYPDLFHLSAIKILQNKNWKSPKILMKSTKKYLTKINKLLKNNKDIKQNYIKICIEFKSPI;locus_tag=LOCUS_07430;note=MGA_745
sequence1	MetaGeneAnnotator	CDS	445628	445984	.	+	0	ID=MGA_746;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKDAPGVIFKVLKYNKSTNSNQSKKSRDHYYKNGSYLDYILRPDAIFNLDLTDEEVTKLYNLRNGNNSQKNEYRKILKGINSKFKSTGLYGKNGIMNEDQVKDLRKNMKKLDDNQII;locus_tag=LOCUS_07440;note=MGA_746
sequence1	MetaGeneAnnotator	CDS	446507	446821	.	+	0	ID=MGA_747;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSYSLKEKLLLNFETFKDIPIKKIGYGSKFLTETDREMIDEITKDFINSDLNLKNTYDSFINENNERADKISKIYAMYEFDELKIEEQPISLTTEDLLKNEKD;locus_tag=LOCUS_07450;note=MGA_747
sequence1	MetaGeneAnnotator	CDS	447558	447770	.	+	0	ID=MGA_748;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKYRFDYKKIIDVVFNLNFENESTLLILVAIIIIAIHIIAILVLIHLKGKVKDTRLIREAKEKSFGKAS;locus_tag=LOCUS_07460;note=MGA_748
sequence1	MetaGeneAnnotator	CDS	447907	448191	.	-	0	ID=MGA_749;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKGFQEFEYIGSRKFRINTSYPSVISFEDNSVCNSPFGSENTIHGFFSNSKRALITADGIITLWDFPLPVEPIVIVCTAFFTGIPQNNIFLVL;locus_tag=LOCUS_07470;note=MGA_749
sequence1	MetaGeneAnnotator	CDS	448469	448603	.	+	0	ID=MGA_750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPNLAKELISGEINKLKNLAYGEINDLAATLLNPGADDKNKQ;locus_tag=LOCUS_07480;note=MGA_750
sequence1	MetaGeneAnnotator	CDS	448808	449941	.	+	0	ID=MGA_751;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTSSPQSIGNFFSIVSTALSLFEGNELRSLLCKNDINLFEFIQEEKPKAIFMVVPDDRTEKHPLASLFISQLYKAGVFCASKNLVKRGKDALDRDVIFYLDEFGNFPPIVNFSTILTVSRGRRMFFNLVVQSFEQLEKKYGNSDAETIKANCLLTVYLRSASSKTHATISEMCGQTTVEVRNSEPSIGKDGRKYYPYHLQKKPLIEPSDIKHIFPEPKPGETIFNKYAIIIYQDSNPSIVELEYAFKMDLTLKENEVTDLPINNAIDFENNYYVNLFKLTIKPKIHDIEQITDDVNLNEVNLEEENHNKFKNRLFKDLSNATEKDIDDLLELKTKERQIRNDLYVLQSRSEDLLSTDEKEQIKKLQKELKLLLKKL;locus_tag=LOCUS_07490;note=WP_002390095.1 type IV secretory system conjugative DNA transfer family protein (Enterococcus faecium) [pid:29.0%25%2C q_cov:80.9%25%2C s_cov:35.9%25%2C Eval:6.0e-25%2C partial hit],MGA_751
sequence1	MetaGeneAnnotator	CDS	450007	450144	.	+	0	ID=MGA_752;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKFWIQDFRSIVELTEIEFDFNKPSHIFGLNNSGKSNLFSAIS;locus_tag=LOCUS_07500;note=MGA_752
sequence1	MetaGeneAnnotator	CDS	450274	450489	.	+	0	ID=MGA_753;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGFKIKGKFERVNNIIKDYELNISFKNGFSFEATKKETKGYIDIFYNNFENYETDISKLFNEGYKKFESF;locus_tag=LOCUS_07510;note=MGA_753
sequence1	MetaGeneAnnotator	CDS	450574	450702	.	+	0	ID=MGA_754;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYKKEKLVKEIKEKMINLYDLLYELYNVLKNDRKGFIDIE;locus_tag=LOCUS_07520;note=MGA_754
sequence1	MetaGeneAnnotator	CDS	450742	451119	.	+	0	ID=MGA_755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSKFYLDDFFNGTLDENSKTLKRILKSLNDDNNIEELLEKYYKTNVETVKDQTLKTGYKSSFVKLFNKSYSKIFSNMAMSKVPICDIDQNTLTILINEIENNGDEIIYGTPEPEEQSSGYKAII;locus_tag=LOCUS_07530;note=MGA_755
sequence1	MetaGeneAnnotator	CDS	451129	451449	.	+	0	ID=MGA_756;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFISSIKSSDFNLILLDEPDKNLHYKLQKKLSHYMQTVSQDKNDWKTFIGIISHSPFMLLNFDHEIIYVTDVKKDGSTTLTKPNGNFDNILEESLTPIVTGSIYRE;locus_tag=LOCUS_07540;note=MGA_756
sequence1	MetaGeneAnnotator	CDS	451570	451752	.	+	0	ID=MGA_757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGINIKVVEKNYILNPLEIIAVKVEDSLQLHNILTTSFKGNTSKKILISTKFIEDILDIK;locus_tag=LOCUS_07550;note=MGA_757
sequence1	MetaGeneAnnotator	CDS	451901	452041	.	+	0	ID=MGA_758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGIIPKKLGSQKLKVKGNVTIIDLVCILVFIVIAVAVAAPLTIIG;locus_tag=LOCUS_07560;note=MGA_758
sequence1	MetaGeneAnnotator	CDS	452117	452386	.	+	0	ID=MGA_759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLYNLIYFMFKFKSSKKEFLKESSENNTALLMPYKELVDNNDDLGIIKTDFLYENTAFYIAAIEIEGFNILNMSFEEQERKINAIKNL;locus_tag=LOCUS_07570;note=MGA_759
sequence1	MetaGeneAnnotator	CDS	452723	453196	.	+	0	ID=MGA_760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANVDSQYLNGHHYPKEKNLYKSVQVFYNMMVAHAKVVNLFNKNYKKLNQKITIIISLNPAQVRDKNNPLDVLAANKCDLLVNFSQLDPVLNGKFDSQLISILKEENLLPIYNQNELNEIANAKIDYISLNYYQPIRVKEIKKNSNHIMSKFFDFYD;locus_tag=LOCUS_07580;note=WP_014584605.1 glycoside hydrolase family 1 protein (Mycoplasma leachii) [pid:43.0%25%2C q_cov:89.8%25%2C s_cov:30.5%25%2C Eval:4.0e-24%2C partial hit],internal stop codon at [452463:452465](+)%2C[452703:452705](+)%2C[453195:453197](+)%2C[453228:453230](+)%2C[453297:453299](+)%2C[453459:453461](+),frameshifted%2C insertion/deletion at around 452513,MGA_760
sequence1	MetaGeneAnnotator	CDS	453603	453773	.	+	0	ID=MGA_761;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVAIDIGEKSTKICILKELEILDREVIEYKELISAKKLYEKILPILENKLTKFDI;locus_tag=LOCUS_07590;note=MGA_761
sequence1	MetaGeneAnnotator	CDS	453942	454082	.	+	0	ID=MGA_762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYGHGKNYQNAAFLIVGTGIGGTIFLNNKIFRGQNFLAGELGVHA;locus_tag=LOCUS_07600;note=WP_011017180.1 ROK family protein (Fusobacterium nucleatum) [pid:60.0%25%2C q_cov:87.0%25%2C s_cov:13.7%25%2C Eval:1.4e-07%2C partial hit],internal stop codon at [454291:454293](+),frameshifted%2C insertion/deletion at around 454064%2C454305%2C454278,MGA_762
sequence1	MetaGeneAnnotator	CDS	454075	454470	.	+	0	ID=MGA_763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNSSIDNEQYLNMSSFCGMNALENNYFQKINNKKTGKKIYDLYEIDNEAKKAIDEQIFNLAKLIINTSFVIDPQIFIIGGAVSKNSLFINLLNEKITKLYKMSAIEQKFNVVVCKFYNDSNIIGASVLDM;locus_tag=LOCUS_07610;note=WP_013448125.1 ROK family protein (Mycoplasma leachii) [pid:46.8%25%2C q_cov:94.7%25%2C s_cov:42.5%25%2C Eval:6.7e-26%2C partial hit],frameshifted%2C insertion/deletion at around 454070,MGA_763
sequence1	MetaGeneAnnotator	CDS	454717	455136	.	+	0	ID=MGA_764;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFTIIYASIKNLMFSHFINLKKYRASLRDNILFEFDNTLNYLSALKVFIENNDNKNIKLKLKEFSSIKYAPVYLNDFMEQLSNSLLKEEKINYLVQPCEIIIKNIEYNFESEKSKKISNKNESFYEIKMVNNYYSLSS;locus_tag=LOCUS_07620;note=MGA_764
sequence1	MetaGeneAnnotator	CDS	455418	455729	.	-	0	ID=MGA_765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSLIENKYIVNERMYIIKGNIKVLIIFHTFTFLVSNNSNIPDKTNASNIVERIIYNPANKNLIKVDSYQCWPAFTCGNKIIFKNIFKNIKNINIKYVNICNQ;locus_tag=LOCUS_07630;note=MGA_765
sequence1	MetaGeneAnnotator	CDS	455894	456040	.	+	0	ID=MGA_766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKKIILKNFIVPGEQIFEFNDQNILKSGIFHDQNDLKIVNQLLNGN;locus_tag=LOCUS_07640;note=MGA_766
sequence1	MetaGeneAnnotator	CDS	456107	456703	.	+	0	ID=MGA_767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFQIDALFYISQEELKILNSYVKKLEILIPLKSQIYYYSIKCIYPYIFPIVSIIPAEKNGDKPFGLGIHYDKFFKSNLTKKDILTIAGISAVGQLRDKYFKYKDAEVNGMSKEIYNRYLELIKSVFRYSEQFIAKLGQTIFNMDDGDIINYGEQKEYFFRNEKFIEFLDNIPLLSEDKVVREDFCNLLYEIYLKDLQ;locus_tag=LOCUS_07650;note=MGA_767
sequence1	MetaGeneAnnotator	CDS	457108	458112	.	+	0	ID=MGA_768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIKNNQETKDLLELVDKQALYKEIKNNKLSDSETQKFVEAIFENYFLDNDNINFLVNNGINFFNFEENELCFCLSGIKYSECCFANLSDKIDEQYIPFLKAILNKKDYDKYLSFSNKTFQNAYKDFAKLEKCNYSNCISKAVENRLYNFDFEKNMYVSTNNTNPFNNNYKMGDNFFNKVDNNNFKFFGFCTKHYNEINKIVINKESSDKDILLSNFSIILYKLFIARIQLFCLREEYRNYFNSIKDENIKPLFIYNLKRISNHVSSLVDTYNFIKKNINQELKNYKILKFNLPKTDIFTISDLIYPQICPEDFKLVNSINNIFITENSAFLKM;locus_tag=LOCUS_07660;note=MGA_768
sequence1	MetaGeneAnnotator	CDS	458113	458286	.	+	0	ID=MGA_769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKDSTLITIIFNNDNKILNNFFNQYKKIIHAKSKYEAAFISNCALILADNILFDKI;locus_tag=LOCUS_07670;note=MGA_769
sequence1	MetaGeneAnnotator	CDS	458440	458595	.	+	0	ID=MGA_770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLNINFENTVKSIENSLNNKEVNSILLNGPTKSGKTSVLNQLKLKTDSEG;locus_tag=LOCUS_07680;note=MGA_770
sequence1	MetaGeneAnnotator	CDS	458644	458898	.	+	0	ID=MGA_771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYFLARLLSYFKDIIGKKAISLFLKQRDIKGIIKKKIKTNNRASEFRFQFKQKFKKDEVDKKKLNNIQTLIELNKTLAISQFK;locus_tag=LOCUS_07690;note=MGA_771
sequence1	MetaGeneAnnotator	CDS	459079	459291	.	+	0	ID=MGA_772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLEFALDNAKHENIQVNLFIKQQKVTNLFLINSIDTSLIEFEKWINKYYNFNYNEKDKRYYYDEIYFLA;locus_tag=LOCUS_07700;note=MGA_772
sequence1	MetaGeneAnnotator	CDS	459361	459819	.	+	0	ID=MGA_773;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIINEIDVSLILENDEKIANLRYIELLLKNKEFKFQTKLKYLEIINLIKDPFNLKIPIFLTTAIKNDFLNIINELSSLILFKSTLLYSQNLIENYDSLTFQISVEDFEPELKSFIKYLNPRSIEQLKNSKVKSSFDKNLNTIIEKIFSLIN;locus_tag=LOCUS_07710;note=MGA_773
sequence1	MetaGeneAnnotator	CDS	459914	460075	.	-	0	ID=MGA_774;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYCEMQNCNKELNSIDPKRIYVYDDKIEDEIPLSVCDNCYTNAKKEENDID;locus_tag=LOCUS_07720;note=MGA_774
sequence1	MetaGeneAnnotator	CDS	460373	460657	.	-	0	ID=MGA_775;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGSLFAAHEESPGKNVEVDGVLFKEYYGSASEYNKGEKRYVEGKKELIKVRGKLAETYKEMQEDLQSSISYSGGKTIQDIKKVDYVILKTSNF;locus_tag=LOCUS_07730;note=WP_011183067.1 GMP reductase (Mesoplasma florum) [pid:90.4%25%2C q_cov:100.0%25%2C s_cov:29.4%25%2C Eval:3.6e-43%2C partial hit],internal stop codon at [460754:460756](-)%2C[460775:460777](-)%2C[460859:460861](-),MGA_775
sequence1	MetaGeneAnnotator	CDS	460859	461335	.	-	0	ID=MGA_776;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYAFDYDDIQLVPSLCTVNSRSECDTSVKLGKYVFKMPVVPANMASVINEELCEKLAKENYFYVMHRFNVDSLEFTKKMKEKKLIASISVGVKKEDYELIEKLEKEKLIPDFITIDIAHGHSINVKKMIEHIRKFMKYDTFIIAGNVGTPHAVRDLEQ;locus_tag=LOCUS_07740;note=WP_011183067.1 GMP reductase (Mesoplasma florum) [pid:70.1%25%2C q_cov:99.4%25%2C s_cov:49.1%25%2C Eval:9.6e-58%2C partial hit],internal stop codon at [460754:460756](-)%2C[460775:460777](-)%2C[460859:460861](-),MGA_776
sequence1	MetaGeneAnnotator	CDS	461577	462002	.	-	0	ID=MGA_777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKVLVITGTVSPLEKSFSVALTNRFIKEYSLLNPNDEIIRLDLNNEPMAQKTISRDNFGNYFNEADALKYINQLKEVNKVIISSPMNNFNVSGLIKNYLDHVLLADQTFSYKYVKKGDAIGLLDHLKVQILTTQGAPFG;locus_tag=LOCUS_07750;note=WP_011182943.1 FMN-dependent NADH-azoreductase (Mesoplasma florum) [pid:55.4%25%2C q_cov:98.6%25%2C s_cov:69.8%25%2C Eval:1.1e-39%2C partial hit],internal stop codon at [461535:461537](-)%2C[461568:461570](-)%2C[461577:461579](-),MGA_777
sequence1	MetaGeneAnnotator	CDS	462133	462792	.	+	0	ID=MGA_778;product=uridine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183203.1;translation=MQKVTIITIAGGSASGKTTVAQAIANQIFKNEPICHISMDNYYKDFSNLSFEERQNLNFDHPNSLDIDRLCKDLDDLKENKSIDVPQYDFKTHSQSGNFTTLEPSNIVILDGILSLHIEEIRKRSDIKIFIKTDDDVRFIRRLLRDVNERGRQLNDVIAQYLETVKPMHKYFVVPSIDYADVIIPYYEGNTIAIDLIASKIKNLLKINSTTNLNVAINK;locus_tag=LOCUS_07760;gene=udk;EC_number=2.7.1.48;note=WP_011183203.1 uridine kinase (Mesoplasma florum) [pid:62.3%25%2C q_cov:93.2%25%2C s_cov:98.1%25%2C Eval:4.2e-68],MGA_778
sequence1	MetaGeneAnnotator	CDS	463293	463466	.	+	0	ID=MGA_779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNGFGIGVDTRILDTIWYQIGVTIAIKLIELAIITYTTYYLRVKFSKREDVLQQEF;locus_tag=LOCUS_07770;note=MGA_779
sequence1	MetaGeneAnnotator	CDS	463476	463628	.	+	0	ID=MGA_780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGLVYIIICYIMIGLFKTIFGHPFYYSTIFDQILVQAKNLGYNYTVSVI;locus_tag=LOCUS_07780;note=MGA_780
sequence1	MetaGeneAnnotator	CDS	464427	466091	.	+	0	ID=MGA_781;product=DNA topoisomerase IV subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183206.1;translation=MAENSNLNYTEDSIQILEGLDAVRKRPGMYIGSTDSRGLHHLVWEIVDNSIDEALAGICTEINVSIEKDGSITVKDNGRGVPIGSYKGTNQSTPEIIFSVLHAGGKFGGDGYKTSGGLHGVGSSVVNALSSKFKVIIHRDGLISQIKFANGGKLVQPLKQTGNSKQTGTTVNFLPDETMFSTVKFSFSTISERLKESALLNSGLKITLRDNRSDKYVEYIYENGLTEFVKELKGDQKEIISQPILIKGNEQEIDVEIAMTYTSDFSETVLGFANNVKTSDGGTHITGFRTGLVKALNDYGKNQSILKEKDKKLDSTDIKEGLIAIVTVKIPENLIQYEGQTKGKLGTVEAKTACERVTEESINFWLQENKIIAISIIEKALLARRARDEARKARQAVRDQKNKLKSRTMLGKLTPAQGKNKTLNELYLVEGDSAGGSAKSGRDRKFQAILPLRGKVINAEKTKLIDLLKNEEITTIINAIGAGIGSDFDISDVNYGKIIIMTDADTDGAHIQTLLLTFFYRYMKELIINKMIYIAMPPLFKITTSSNKKDFMYL;locus_tag=LOCUS_07790;gene=parE;EC_number=5.6.2.2;note=WP_011183206.1 DNA topoisomerase IV subunit B (Mesoplasma florum) [pid:70.1%25%2C q_cov:98.9%25%2C s_cov:84.1%25%2C Eval:8.6e-223],internal stop codon at [466089:466091](+)%2C[466308:466310](+)%2C[466359:466361](+),MGA_781
sequence1	MetaGeneAnnotator	CDS	466116	466310	.	+	0	ID=MGA_782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSKSKIEIQRYKGLGEMNADQLWETTMDPEYRKLIQATIDDALSAENAFRTLMGDNSEKRKE;locus_tag=LOCUS_07800;note=WP_011183206.1 DNA topoisomerase IV subunit B (Mesoplasma florum) [pid:72.6%25%2C q_cov:96.9%25%2C s_cov:9.6%25%2C Eval:1.6e-19%2C partial hit],internal stop codon at [466089:466091](+)%2C[466308:466310](+)%2C[466359:466361](+),MGA_782
sequence1	MetaGeneAnnotator	CDS	466393	466641	.	+	0	ID=MGA_783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVLTFQKKINYILEKIAEYNKINNDIKRFGIFNSFNIFHEIDGENLYFDMKNTDDEGGISLASIISEQWIQINTSLDNEIN;locus_tag=LOCUS_07810;note=MGA_783
sequence1	MetaGeneAnnotator	CDS	466642	467364	.	+	0	ID=MGA_784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKTINRFIEKAKESMKKARELAKPHVGILIYDEFTDSYYLNPITGPILLRSKEIAKEISSTRIDIFNIFINLKSIFLEDHQLGEIIGKSSEFIIEKIHKSLKFIKESELKLARIEGIPRYVANLIQNNDKLLFNSYATVDFGLEIIKINKVNEVLIEAEKLKIDQLEKIYLQVRRDEEVSKIMIDLARSLISKNDPKMYFQEGSSGLWFLSKEGKKTIQNLNIIDFIDNDINEINFEIN;locus_tag=LOCUS_07820;note=MGA_784
sequence1	MetaGeneAnnotator	CDS	467377	467667	.	+	0	ID=MGA_785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNKEKGILNYSLEDLMSDRFGRYAKYIIQERALPDVRDGLKPVQRRILFTMNELNLTHDKAYKKSARIVGDVIGKYHPHGDTSVYDALVRMSQH;locus_tag=LOCUS_07830;note=WP_011183207.1 DNA topoisomerase IV subunit A (Mesoplasma florum) [pid:84.4%25%2C q_cov:93.8%25%2C s_cov:9.9%25%2C Eval:7.4e-41%2C partial hit],internal stop codon at [467665:467667](+),MGA_785
sequence1	MetaGeneAnnotator	CDS	467686	468891	.	+	0	ID=MGA_786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDMHGNNGSIDGDSAAAMRYTETRLSKIASTLLADLQKNTVLFAPNYDDSEKEPTVLPGYFPNILVNGATGIAAGYATNMPPHNIGEVIDATIATIKKPNIKLDEICKIIKGPDFPTGGILMGQEGIEFAFETGKGRVILQSKMHKEENKIVIDEIPYEVVKQDLIRKIGDVIDANQQIEVKEVRDETDRTGLRIVIELSEKADYDLTRKFLLKNTPLQISYNYNNVVIVDKQPKQLGIISILKAYISHYKDVFTKKTKFDLDKAEKRLEIIDGLIKAISILDEVIKIIRESSNRSDAILNLINKYQFTETQAIAIVDLRLYRLTSTDVVKLEEEKNELVKLISDFKQILGEPKVLDNKIIKQLTETKNEFNVARRSEVVKEIENIEVEFKKTIVEKDYTI;locus_tag=LOCUS_07840;note=WP_011183207.1 DNA topoisomerase IV subunit A (Mesoplasma florum) [pid:66.6%25%2C q_cov:100.0%25%2C s_cov:44.2%25%2C Eval:3.1e-152%2C partial hit],internal stop codon at [467665:467667](+)%2C[468889:468891](+)%2C[468982:468984](+)%2C[469084:469086](+),MGA_786
sequence1	MetaGeneAnnotator	CDS	469099	469581	.	+	0	ID=MGA_787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHINQVATISGQEKILAAFVVHKFANAKQEILLATKKGMIKRTPIEDLETKMFSKPFRIMKLQSEDELVSASLVTSKTKTVTMLTRTGFAVRYDISEIPSASASAKGVKSTVVKDEDIVAGKAFSEGNILIITNKGNVKKIKQDHVPIMNRPKRGVRLYP;locus_tag=LOCUS_07850;note=WP_011183207.1 DNA topoisomerase IV subunit A (Mesoplasma florum) [pid:50.3%25%2C q_cov:100.0%25%2C s_cov:17.7%25%2C Eval:3.2e-40%2C partial hit],internal stop codon at [468889:468891](+)%2C[468982:468984](+)%2C[469084:469086](+)%2C[469579:469581](+),MGA_787
sequence1	MetaGeneAnnotator	CDS	469726	470031	.	+	0	ID=MGA_788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIPEIITSTLEKSFIIKNGDIPPAPKSGDDENNGSKGHSTPSSSRNLKLENKEKTNQPKGDKVLKSKTEEIVNIVSEQKELKTINDEDTSELKIDVEDLI;locus_tag=LOCUS_07860;note=MGA_788
sequence1	MetaGeneAnnotator	CDS	470690	471016	.	+	0	ID=MGA_789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNRTIKTSFKLSVKKYISNNSNLGYKIEILEAKFLNLKNNRDIQIADYIAIYYFGKLNYPLTDKVSKDIDSIYKKFIYNYPSNYIKHQTIITKKEVGNNFVVLIKKM;locus_tag=LOCUS_07870;note=MGA_789
sequence1	MetaGeneAnnotator	CDS	471017	471211	.	+	0	ID=MGA_790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIANLNLQISIEDIQKTVYKMENITLTKFANNTLLIQGNKLKIKNFFKENFSDLLVTFKKLFF;locus_tag=LOCUS_07880;note=MGA_790
sequence1	MetaGeneAnnotator	CDS	471277	471762	.	+	0	ID=MGA_791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTYKGKINKFLFKGSNGYGVALFTLFENSKKALIIVGTISTMESEVIYEITGTEVEDFKRKQVNFSVTSFKQTKSFDKEGLIKYLSSPLFPTVGKKLAEQIVEKFSENIFEEVLENKQLLLEVSGMTEAKAEIIYDVIEKNFSDKNILNIFIQNNLKIEF;locus_tag=LOCUS_07890;note=MGA_791
sequence1	MetaGeneAnnotator	CDS	472084	473499	.	+	0	ID=MGA_792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFKDKKIYTKESFEDEVYIAKELANLKKRSSFINNDFDFDNLLQIVQEFFSNKMNKPDFKYNVEQIEAIKNFVNNGVSIVTGGPGTGKTTVIAAIVKMYELIFKNAEFAITAPTGRAAGKIKDDSGYKTSTIHRLLQYTGNDNFEANETKPIYKDLVIIDECSMIDNHLFASLLKGIKGIKKIVLVGDVEQLPSVSYGNLFEDLINCSEFSTTKLKINNRQKESDGGENLIIKLANVVRDEEIENFDFINSSNVNFLFNSESMELLKKLKTNYLNLNPNSLQEQLTDIQVIAPMYKEQLGITNLNKILQGIVNPNNLNSYKRFDYEFRYNDKVMYTENDPFLELSNGDVGFINKFEYLNNKLREAVLTFSERKIEMGLKAFNNVTLNYVCSIHKTQGSEYKNVFIVLDNSNRTTNFFVNKKMIYTAITRAKEKLFILSDKQTFINACLKQSIQRETTLKNFIIEEFKNYL;locus_tag=LOCUS_07900;note=WP_014584390.1 AAA family ATPase (Mycoplasma leachii) [pid:41.0%25%2C q_cov:99.6%25%2C s_cov:62.9%25%2C Eval:3.1e-93%2C partial hit],internal stop codon at [471925:471927](+),MGA_792
sequence1	MetaGeneAnnotator	CDS	473915	474226	.	+	0	ID=MGA_793;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYASFLSSILFSLIALLLVSFLEPSFNKSQLSSNLQLTKNYDAFSIITLLTYLTNSTIFGAASNDFLEFLGQNFNLPLFITTVIFLVIFLPINGLALVFFSSM;locus_tag=LOCUS_07910;note=MGA_793
sequence1	MetaGeneAnnotator	CDS	474383	474589	.	+	0	ID=MGA_794;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGLIHPYENLTQILIAVFFIIIAPLVFLPIMVGIYMAAKIKRFNYNLLMFVQILVLLFTVLALQINI;locus_tag=LOCUS_07920;note=MGA_794
sequence1	MetaGeneAnnotator	CDS	475192	475554	.	+	0	ID=MGA_795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDQEKLSSKCLGCHLEGPFISPEKKGAHELELLELPNINSLQELIELSDNNIKIVTFAPDLQDGTFTKYLIENKIIPSAGHTNISFSDCRKDFNLGVRHITHLFNGMSGVSQYEPGLAT;locus_tag=LOCUS_07930;note=WP_011166715.1 N-acetylglucosamine-6-phosphate deacetylase (Mycoplasma mycoides) [pid:58.2%25%2C q_cov:91.7%25%2C s_cov:28.6%25%2C Eval:3.7e-32%2C partial hit],internal stop codon at [474919:474921](+)%2C[475000:475002](+)%2C[475552:475554](+),MGA_795
sequence1	MetaGeneAnnotator	CDS	475576	476010	.	+	0	ID=MGA_796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCELITDGIHIHPDTLKLIYKLKGPEKICIITDAMNAKGLSDGEYKLGNLEVIKKGMKVSLKESGLLAGAGATYDHNIRVMKKTIENLSMSDLIKMTSINIAKQLNIFEKTGSIEINKKADLVILNKDLFVEKTIIEGKISYEK;locus_tag=LOCUS_07940;note=WP_011166715.1 N-acetylglucosamine-6-phosphate deacetylase (Mycoplasma mycoides) [pid:62.2%25%2C q_cov:99.3%25%2C s_cov:36.9%25%2C Eval:2.4e-48%2C partial hit],internal stop codon at [475552:475554](+)%2C[476008:476010](+),MGA_796
sequence1	MetaGeneAnnotator	CDS	476237	476470	.	+	0	ID=MGA_797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQYKYNKKELIQIFLLCIFVFLIITMSLIVIFIDSYYSINKLAFVISLTIIEIAFGITSSILESFSRINEQAIVNRE;locus_tag=LOCUS_07950;note=MGA_797
sequence1	MetaGeneAnnotator	CDS	476574	477554	.	+	0	ID=MGA_798;product=Gfo/Idh/MocA family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183105.1;translation=MIKFATIGTSIITEEFIKSAIKNPNIKITCCYSRDKVKAKELIKKFQLYAKAVDQFEILVDEIDAIYIASPNGLHYEQAKYFLLQQKHVFLEKPLTLKYEQAIELFEIANKNNVILMEAYKTVHAPQFSNLIEFVKNFQPFMASFNLNKYSSRMQKVKLGIYDSVFDANLGKGSTYDLLVYPVELSIALFGPVKELKAMGQKLPNGSGLNDYVIIKHENDVIVSIVCSKASEGKINNQILSDNATLVFNNVIQLEKVELYNNIDSSKKVLFVKDENQNLFDYELSVFCKMILTNNFDLRDYLLETSCEAVRVLNLIEKNQEELGEN;locus_tag=LOCUS_07960;note=WP_011183105.1 Gfo/Idh/MocA family oxidoreductase (Mesoplasma florum) [pid:42.8%25%2C q_cov:97.5%25%2C s_cov:99.7%25%2C Eval:9.1e-64],MGA_798
sequence1	MetaGeneAnnotator	CDS	477556	477861	.	+	0	ID=MGA_799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLNKYIDHTLLKADASKFEIEKLCKEAIEFDFATVCINPGKVAYAKSILKDTNVGITTVIGFPLGATTTEVKVFETKQALENGATEIDMVINIGAVKDKD;locus_tag=LOCUS_07970;note=WP_011183018.1 deoxyribose-phosphate aldolase (Mesoplasma florum) [pid:68.3%25%2C q_cov:100.0%25%2C s_cov:45.9%25%2C Eval:5.9e-35%2C partial hit],internal stop codon at [477859:477861](+),MGA_799
sequence1	MetaGeneAnnotator	CDS	477880	478218	.	+	0	ID=MGA_800;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREIKNIAPNNKVKVILENCLLTKEEIVKCCNLALEANLDFVKTSTGFSTSGATFEDIKLMKSIVNDKAEVKAAGGVRTFEDALKMIENGATRLGTSGGVSIIKGQDNKSTY;locus_tag=LOCUS_07980;note=WP_011183018.1 deoxyribose-phosphate aldolase (Mesoplasma florum) [pid:67.9%25%2C q_cov:100.0%25%2C s_cov:50.9%25%2C Eval:7.7e-38%2C partial hit],internal stop codon at [477859:477861](+),MGA_800
sequence1	MetaGeneAnnotator	CDS	478332	478739	.	+	0	ID=MGA_801;product=peptide-methionine (S)-S-oxide reductase MsrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963415.1;translation=MGYANGNKDSITYQEVCKGNTNFVEVCKVIFDESKITFEKLLEDFFSIINPTLLNRQGNDIGTQYRTGIYYNGDDKSFFEEKVISKISQLEEKLSKKVYTEFLPLQKYVKAEEYHQKYLDKNPNGYCHIDITKAK;locus_tag=LOCUS_07990;gene=msrA;EC_number=1.8.4.11;note=WP_010963415.1 peptide-methionine (S)-S-oxide reductase MsrA (Clostridium) [pid:50.8%25%2C q_cov:95.6%25%2C s_cov:77.8%25%2C Eval:5.2e-34],internal stop codon at [478281:478283](+),MGA_801
sequence1	MetaGeneAnnotator	CDS	478843	480357	.	+	0	ID=MGA_802;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSNSEHLDFELDSSIRKRIDALVDLNINPSTINLITAEFATSSEKIRENIGRYIARLLEIESARLTEQFNRDSKNNNYINLKQQMNLKNRETNLLRIQQVFVSKDKQKNDESFKNKLLVNNNQDKLIANIDFKNAMIVDNQLISEDELLKNKLQDLANKKRKIELAISNQKQNIILAKKQYEKAISQDDQITQELKLNVIKYANQKLFEISETIKKYRTVNAIPDEIIMNFTAMNNYEYNDNHTNIFSSNKINSNNNQFEEVKNKTYTNEQQTQKTFDIDLETFFDVPGFDEEFERIFSQTPDITSKKTKSLKEKNIKETSKKISKENNKKIFENKKNDLSIKKTNVETKLTNENTNSNIELKLKKEDQYTVEKPKTKVEVISKPKNVKQKENILIDKDNHVSELKKPLNNLVSDEKLNEMDSEKIIKKFKKKARAKDRQIEKITREKEKILKELKKLKEQNKIEELRKFENKKKESIENTERILKKDKRKVETSFQILEKK;locus_tag=LOCUS_08000;note=MGA_802
sequence1	MetaGeneAnnotator	CDS	480364	480861	.	+	0	ID=MGA_803;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGISKQLFSKQKAFNAVKHIKEKQALIESEKINENPGALINFIENNLSVLNETIKYDIEKKADEDMLIVTETFDDVVEFDNNKENNSSNINNTYEKISFSNNLNDEDFEFENKNNCINERINYLQKRKDLNIINLEEMKELKNKKKKYNQHSKKLNLSKYRLVIK;locus_tag=LOCUS_08010;note=MGA_803
sequence1	MetaGeneAnnotator	CDS	482030	482368	.	+	0	ID=MGA_804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGGFVNSMFTLPAIAFSMLLVTPKGQRRAEVGMYITASLTAFLIGVTELIEFLFCYSLPLFYFAIYCPFNGLIAMITSLFKVKIGTTFSTGLMDFTFNGVIPTVNGQNTNI;locus_tag=LOCUS_08020;note=MGA_804
sequence1	MetaGeneAnnotator	CDS	482372	482602	.	+	0	ID=MGA_805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIIGIFSAILIFIISQLYFKKVKFNPSKILDNKNSDKDKVLEVLSIFDGIKNIIKIEIKDNNLLLTQKNQKIDEN;locus_tag=LOCUS_08030;note=MGA_805
sequence1	MetaGeneAnnotator	CDS	482642	482788	.	+	0	ID=MGA_806;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALEFKQDKTKIIELFVVSLNSNFKIREYKKQDLNKYKEIKTIFKNKQ;locus_tag=LOCUS_08040;note=MGA_806
sequence1	MetaGeneAnnotator	CDS	482801	482980	.	-	0	ID=MGA_807;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINEKNLDMLIINLVNALESDYNELKIIITKTKEVINITKMHKSNIAKEIIKIINQNI;locus_tag=LOCUS_08050;note=MGA_807
sequence1	MetaGeneAnnotator	CDS	482981	483346	.	-	0	ID=MGA_808;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLELKKILSSNSKELITVFGDTQIPIESDDKNFYVQTNNQMLEKMKENYYNSDVVICSAALYDFKIKNYINKKIEKREQNELNSIDLVEAIDVLKELGKIKKNQFLVGFSLSNEFDLNKA;locus_tag=LOCUS_08060;note=WP_012047883.1 bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC (Clostridium botulinum) [pid:34.7%25%2C q_cov:100.0%25%2C s_cov:30.1%25%2C Eval:9.5e-12%2C partial hit],internal stop codon at [482981:482983](-)%2C[483557:483559](-),MGA_808
sequence1	MetaGeneAnnotator	CDS	483557	483985	.	-	0	ID=MGA_809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTINLIITGGIAASKAKELYQLLITNYNINIILSENAKRFVNFSDFNYIDNIFEKEYYFDNHHYAEHVKIAFNSDLNVVYPATYNYIGKITNGIADDICSLIFAITNIKTILFPSMNSNMYLNPILEKNKKILLNTSNVD;locus_tag=LOCUS_08070;note=WP_011861611.1 bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC (Clostridioides difficile) [pid:37.5%25%2C q_cov:93.7%25%2C s_cov:34.1%25%2C Eval:1.6e-17%2C partial hit],internal stop codon at [483557:483559](-),MGA_809
sequence1	MetaGeneAnnotator	CDS	484135	484299	.	+	0	ID=MGA_810;product=30S ribosomal protein S21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183260.1;translation=MASVVVREGEPIEKALKRFQKVAASNKSEARKREYHLSKKEKRIYKQKQNKKFG;locus_tag=LOCUS_08080;gene=rpsU;note=WP_011183260.1 30S ribosomal protein S21 (Entomoplasmataceae) [pid:84.9%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:7.2e-20],MGA_810
sequence1	MetaGeneAnnotator	CDS	484378	484905	.	+	0	ID=MGA_811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMNKEISKKTKKNVVLILKEVGDEKKMFVGRKVQRPSVLKSNYNRVELAKQTMLNSKKGKNVTVELPVAIQDSVKNKERIENILNLRSSNSPEDIRKKLSIETKPLTKKRAEELKEERIAFFQANIKKNQKEVSLTNSKSKRSSVTSQKVNKESKKSKTTKANVTSKKTVAKKK;locus_tag=LOCUS_08090;note=MGA_811
sequence1	MetaGeneAnnotator	CDS	485143	485367	.	+	0	ID=MGA_812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFSDKKVRNLAKILLNIKNIGILTIIKIFKNLNIDEFLIICKEQNINSIMIKTRISEGLSKKIVQEIRNRIFN;locus_tag=LOCUS_08100;note=MGA_812
sequence1	MetaGeneAnnotator	CDS	485386	485526	.	+	0	ID=MGA_813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIINSLNRLGYRISDIYKAIDGIDINFKEEIILEMAIRKLNSYEK;locus_tag=LOCUS_08110;note=MGA_813
sequence1	MetaGeneAnnotator	CDS	485516	485707	.	+	0	ID=MGA_814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNFFRPYSFDEFIGQKNIISNLKVFMESAKRRNKNLDHIIIHENNGLGKTSLGLLISKVLN;locus_tag=LOCUS_08120;note=WP_011183319.1 Holliday junction branch migration DNA helicase RuvB (Mesoplasma florum) [pid:50.0%25%2C q_cov:95.2%25%2C s_cov:19.0%25%2C Eval:3.0e-10%2C partial hit],internal stop codon at [485705:485707](+),MGA_814
sequence1	MetaGeneAnnotator	CDS	485906	486226	.	+	0	ID=MGA_815;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKIPPFTLICATTEINKLTSPFVNRFPINFHFQHYNEKEIEKIIKINSLKLNILLENDVISFISKYCQNNPRVSINILRRIYDFIIFENISNININFIKKIKNI;locus_tag=LOCUS_08130;note=WP_011166725.1 Holliday junction branch migration DNA helicase RuvB (Mycoplasma mycoides) [pid:42.4%25%2C q_cov:80.2%25%2C s_cov:27.7%25%2C Eval:1.3e-16%2C partial hit],internal stop codon at [485705:485707](+),frameshifted%2C insertion/deletion at around 486296%2C486386%2C486205,MGA_815
sequence1	MetaGeneAnnotator	CDS	486449	487030	.	+	0	ID=MGA_816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLINGKINLYLIDRDFKMKLAVFHVSNFIMQNEIEYKNSINFFEEKGFKVIRPIEEFKKFDKEIALPFEFNKVIKRDCVLALPSFCEKDTDYFLDKIDYKDISKTQTTFCGNSFVTPILNAISIKSKNPVFYGPNFITQFNLETKEELYIDLIQKLTSKEQLKYYKDENYLFHGSKIIKGILIGGEINSLIKF;locus_tag=LOCUS_08140;note=MGA_816
sequence1	MetaGeneAnnotator	CDS	487208	487348	.	+	0	ID=MGA_817;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIKKFKNINKANLVVGFSGMFSSKISIIKLNSEIKIDFKNKVIIQ;locus_tag=LOCUS_08150;note=MGA_817
sequence1	MetaGeneAnnotator	CDS	487725	487937	.	+	0	ID=MGA_818;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEILQNLNENLICTFNLLNERKSFIFKPSLEVSSKMSRSKYFNIFLPKIENESEAIEEFLTNENINCISI;locus_tag=LOCUS_08160;note=MGA_818
sequence1	MetaGeneAnnotator	CDS	488004	488255	.	+	0	ID=MGA_819;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVKQNLIEIIDVNTSKKTAIEYLQTIYNFDNDQIITSGDGGNDIEMLKMTKNSFAMLDGSNVAKIAANHIISRVHEIDRYMK;locus_tag=LOCUS_08170;note=WP_002262234.1 Cof-type HAD-IIB family hydrolase (Streptococcus mutans) [pid:44.4%25%2C q_cov:75.9%25%2C s_cov:23.3%25%2C Eval:6.4e-08%2C partial hit],MGA_819
sequence1	MetaGeneAnnotator	CDS	488332	488586	.	+	0	ID=MGA_820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNLDNVIEILDFTKYDFDEIKQFLNEGKTIKIALELGENVKRSLTKGYSDHFDANIELIEEKENCGVCGCGKPANALFYFYK;locus_tag=LOCUS_08180;note=MGA_820
sequence1	MetaGeneAnnotator	CDS	488794	488982	.	+	0	ID=MGA_821;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVSMIISLLSSTGTRITNAYEELIVKSNLRDVVMEIDSNTSRLKEPLDYNLNINSQEVYQQ;locus_tag=LOCUS_08190;note=MGA_821
sequence1	MetaGeneAnnotator	CDS	489130	489318	.	+	0	ID=MGA_822;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIISSGSHLNPDEKLARREIIVGDSFAIKNNIKIGDIIRVQKDEYGSDLFVKSNPEIAKIIN;locus_tag=LOCUS_08200;note=MGA_822
sequence1	MetaGeneAnnotator	CDS	489463	489690	.	+	0	ID=MGA_823;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVHSSLFGFSKFNYENNNLQKTLYTFENKNSLLSTSSSSDEEIYYSLKFENKNLDDDLILNLNDDFKINGGIEK;locus_tag=LOCUS_08210;note=MGA_823
sequence1	MetaGeneAnnotator	CDS	489797	490135	.	+	0	ID=MGA_824;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILSAFNLTTIALLIIILLISVFTIVLITRKQIDNMKRQIGCLKSLGYKKNEVIIRFISTPLIVSIMGTLLGYFISIFISSVIVKFFSNYFNIAFIGFSFNIFALILSILFI;locus_tag=LOCUS_08220;note=MGA_824
sequence1	MetaGeneAnnotator	CDS	490063	490248	.	-	0	ID=MGA_825;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNPNFEIPLLAFPFNKFKAEFFIVKIAIITTVKFNNAQINKIDKIKAKILKLNPINAILK;locus_tag=LOCUS_08230;note=MGA_825
sequence1	MetaGeneAnnotator	CDS	490313	490444	.	+	0	ID=MGA_826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKFFGVSATMLLGTFMLTTTIIAPKVLKDNKTATFNGLNFEN;locus_tag=LOCUS_08240;note=MGA_826
sequence1	MetaGeneAnnotator	CDS	491274	491981	.	+	0	ID=MGA_827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVVVLETVYSRALYFVQQYLKQAYENDELYNISFNLIPYDQYSEEIGTYFDANFYNRNNILEDAKIYGINSDTKLLDLRSKNGEILNNNLFNQNLEENVIPIIINEIIAKKAGYQINDIIDIQVLKDEVYQNNKKLTIEDFSKNNQDYFNEYRSKTNRTYYSSSGKSFVDNTIPIIGNVEPLSNVNKETAFTSTNTNPIHLSMLEGKTYLTKTSQLYKNFKIVGIQNGYGKPQG;locus_tag=LOCUS_08250;note=MGA_827
sequence1	MetaGeneAnnotator	CDS	492407	492673	.	+	0	ID=MGA_828;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMPLEKTRQILDQITQIVNITMILFMVIALIVSITIILLTTGLIIYENNQFIATMKILGYSNKYIVRQILGMYLLPIVLMFILGVTLG;locus_tag=LOCUS_08260;note=WP_020862895.1 ABC transporter permease (Mycoplasma mycoides) [pid:47.7%25%2C q_cov:97.7%25%2C s_cov:6.2%25%2C Eval:2.5e-17%2C partial hit],internal stop codon at [492176:492178](+)%2C[492191:492193](+)%2C[492671:492673](+)%2C[492743:492745](+)%2C[492746:492748](+)%2C[492809:492811](+),MGA_828
sequence1	MetaGeneAnnotator	CDS	493562	493735	.	+	0	ID=MGA_829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNPDIIILDEPTTGLDPLMQEKFVNLVKKSKKEGKTIILSSHIFSEIEKHVIMFQL;locus_tag=LOCUS_08270;note=WP_000626612.1 ABC transporter ATP-binding protein (Bacillus cereus group) [pid:62.0%25%2C q_cov:87.7%25%2C s_cov:16.8%25%2C Eval:3.4e-14%2C partial hit],internal stop codon at [493331:493333](+)%2C[493454:493456](+)%2C[493484:493486](+)%2C[493559:493561](+),frameshifted%2C insertion/deletion at around 493708,MGA_829
sequence1	MetaGeneAnnotator	CDS	494161	494676	.	+	0	ID=MGA_830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVAIVVTLKINDSFVPVPDPETGQTIPVDIYVNNLVQQVIGDMVFGSMGYVLIVVFVLMNSSKIVASEVEKGTLVNLLTTNLNRKSVILSKMSTFISLIFISILSQYLITIISLQIVNQLQYVDLGIFTLKAFGAFLLLLFTSGFAFLFSTLFNRNSQALGLSGAIVIIS;locus_tag=LOCUS_08280;note=MGA_830
sequence1	MetaGeneAnnotator	CDS	494716	494877	.	+	0	ID=MGA_831;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLSLNSLFIPANITNISEFSNYLGQYLTLGIGSIDLYIGAYFIFIKKDLPL;locus_tag=LOCUS_08290;note=MGA_831
sequence1	MetaGeneAnnotator	CDS	494922	495131	.	+	0	ID=MGA_832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMYNILNIFNEVSVMENKVYNLKKSSLGKMEFVEGTSFLMIAGIGDNDKIFREILIVKSSEDAIKKFPS;locus_tag=LOCUS_08300;note=MGA_832
sequence1	MetaGeneAnnotator	CDS	495246	495440	.	+	0	ID=MGA_833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYENFGYDEFKQMDPIEFIKSEPEMVPLCLVHIAVRFTNGYLKIPVNELEISIRFVKNVLGINF;locus_tag=LOCUS_08310;note=MGA_833
sequence1	MetaGeneAnnotator	CDS	495525	495926	.	+	0	ID=MGA_834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKMKKLLTAISSINIFSLSFYVISCGVDPTEVNYDNANHRYILENSFFNGIEENKKYFKLLPNLETIKEESQSSQLIFSDDNYLKFDCKLYNCSPDDFNGVNVSTDEYNSPTDLTDFNQILKIQTAYDELAY;locus_tag=LOCUS_08320;note=MGA_834
sequence1	MetaGeneAnnotator	CDS	495936	496472	.	+	0	ID=MGA_835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFSSEEKYIIYDFSTLSLNVDYSKNLYFFDKTEENFIKLFSQQILNISKQAEIITKEFNFIMEENTLNVDLFNKYLLKSTAKFDSDSKVLIFQPKPKNQINELSEQEEIEQVEYYSPSEIESEIKRILSFYQPNLAFKTEEQKNSDESNEEIQFYVSKKSSNLDFFNISDSEIVENI;locus_tag=LOCUS_08330;note=MGA_835
sequence1	MetaGeneAnnotator	CDS	496636	496854	.	+	0	ID=MGA_836;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEVNNMKKLLLIFSSFSIFSFPVLVTACEAIETFPSKNFSTTTNVINKFFSEEINKIKPYNFKYLQLINNS;locus_tag=LOCUS_08340;note=MGA_836
sequence1	MetaGeneAnnotator	CDS	496984	497115	.	+	0	ID=MGA_837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDEINFTGLTFAIENIFLNSITLNKEFESVAQSEIAITIKKG;locus_tag=LOCUS_08350;note=MGA_837
sequence1	MetaGeneAnnotator	CDS	497143	497475	.	+	0	ID=MGA_838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METSSNDLIPKEETFQFINKIIESLKFNFKIQENYEFEETEEIADDYDFYITGNIDSIIFDSFREELLKKQFILNGLNLKNSDIQYEEIESNGEDLIKTITIAGIKYRFV;locus_tag=LOCUS_08360;note=MGA_838
sequence1	MetaGeneAnnotator	CDS	497502	497711	.	-	0	ID=MGA_839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASEIIEHYFNTIIGADIDENEITNLNPQNLNSNSKIIIFNKGIMICDELYSKLSLINKMLESKVIFKK;locus_tag=LOCUS_08370;note=MGA_839
sequence1	MetaGeneAnnotator	CDS	497796	498173	.	-	0	ID=MGA_840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYILNGIKESVANIDSLEELKAFIAKYSFNNNAKGNLKIIGDEIQSELIETLNKNPNNIQEKITEIIIKMQINNITRNIKYSVDTLETLLSKIGEDTLIEDVLLEDIEYIINENYKISLEKLKI;locus_tag=LOCUS_08380;note=MGA_840
sequence1	MetaGeneAnnotator	CDS	498415	498855	.	+	0	ID=MGA_841;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNSIQIIDDGFFLLNERQNFRFDKNIAKQLLENIQFPIIVLDTEFFNHSHDIGEFDTKLYDEKNKDLVYVIQYSFAKSLKEISNRDNKKAIKSITIKRGYRDYSYDFHSQYSKMIKSFLNMCRNKEIRTIVCAGASNDVKIINQ;locus_tag=LOCUS_08390;note=WP_020862792.1 hypothetical protein (Mycoplasma mycoides) [pid:52.6%25%2C q_cov:93.8%25%2C s_cov:44.8%25%2C Eval:6.5e-36%2C partial hit],internal stop codon at [498853:498855](+)%2C[499012:499014](+)%2C[499090:499092](+),MGA_841
sequence1	MetaGeneAnnotator	CDS	499147	499347	.	+	0	ID=MGA_842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCCSAYSFFSRPKKMDMSFEQYKLMNKNIKKVIDHCYNDVLKVLIFLTFIYEFTYQPYNKNSYIQK;locus_tag=LOCUS_08400;note=WP_020862792.1 hypothetical protein (Mycoplasma mycoides) [pid:40.0%25%2C q_cov:98.5%25%2C s_cov:20.3%25%2C Eval:5.7e-09%2C partial hit],internal stop codon at [499012:499014](+)%2C[499090:499092](+),MGA_842
sequence1	MetaGeneAnnotator	CDS	499359	499997	.	+	0	ID=MGA_843;product=pyrroline-5-carboxylate reductase dimerization domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182942.1;translation=MKILFIGTGAMGEAVLKSVTDNLNNDEISIINRNLLKSKKISEKYNCKFLTQFEEIKSIKFDIYIIGVRPIDINQVLIDLDKIDISNSLIISMVNALSISTIQSAFIKSKDISIIRMIPNMNAIIGKSLTSYTTFGSDIKIIQKGVNILKTFGEIFGINEENYPSFVTLTGTSPAYIFAFLNAFEEFGIENNYEPKFLKELIAKQFINTIEN;locus_tag=LOCUS_08410;note=WP_011182942.1 pyrroline-5-carboxylate reductase dimerization domain-containing protein (Mesoplasma florum) [pid:31.8%25%2C q_cov:99.5%25%2C s_cov:80.1%25%2C Eval:1.2e-29],internal stop codon at [499995:499997](+),MGA_843
sequence1	MetaGeneAnnotator	CDS	502314	502475	.	+	0	ID=MGA_844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKITNLEYSIKKKKIISIQKLNIRSGEKLAIMGLNGSGKITLVEIILGIRKA;locus_tag=LOCUS_08420;note=MGA_844
sequence1	MetaGeneAnnotator	CDS	502584	502814	.	+	0	ID=MGA_845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKVQKNHMNYFKKFNLLDIENNSYKKIFGGQQQKFKFLISLLNEPNLLVLDEITTSLICQEQFQKKKHKKLGETY;locus_tag=LOCUS_08430;note=MGA_845
sequence1	MetaGeneAnnotator	CDS	503728	504054	.	-	0	ID=MGA_846;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLIVKNDYEEMSEYTAKILYDILITNEPLNIALTGGKTPIRAYEILAEMLKNKKIVNKKIYNFDEIEYKNSEIKFGATKNELRQIILDKIDLSQSSFIHLNTKNYEQ;locus_tag=LOCUS_08440;note=WP_011182928.1 glucosamine-6-phosphate deaminase (Mesoplasma florum) [pid:29.5%25%2C q_cov:100.0%25%2C s_cov:46.4%25%2C Eval:1.9e-09%2C partial hit],internal stop codon at [503590:503592](-)%2C[503728:503730](-),MGA_846
sequence1	MetaGeneAnnotator	CDS	504211	504441	.	+	0	ID=MGA_847;product=S1 RNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183238.1;translation=MDKIVKVTITKIVDFGAFCDASIDGKTYKGLIHISEIADSFVTNVSDYVTVGQEVDGYVISIDDNKDQAKISLKRV;locus_tag=LOCUS_08450;note=WP_011183238.1 S1 RNA-binding domain-containing protein (Mesoplasma) [pid:51.3%25%2C q_cov:100.0%25%2C s_cov:97.4%25%2C Eval:1.5e-17],MGA_847
sequence1	MetaGeneAnnotator	CDS	504604	504798	.	-	0	ID=MGA_848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKSSKRDVSSTEIRDSLNNLKNTSDLAFERIEEVITDLLEQNNALREELEEYRAKVADILGSL;locus_tag=LOCUS_08460;note=MGA_848
sequence1	MetaGeneAnnotator	CDS	504967	505269	.	+	0	ID=MGA_849;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESIFEKLENTSKDFKDTTFKLIANQILSCWQTGAFKNQETLSKECFVSNSIITKFSKGLGYSGYRELLFELKREYNHYSFKNENFDEFKFENFIYSLGE;locus_tag=LOCUS_08470;note=WP_011183208.1 MurR/RpiR family transcriptional regulator (Mesoplasma florum) [pid:45.0%25%2C q_cov:79.0%25%2C s_cov:31.3%25%2C Eval:3.3e-09%2C partial hit],internal stop codon at [505267:505269](+),MGA_849
sequence1	MetaGeneAnnotator	CDS	505393	505707	.	+	0	ID=MGA_850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGKVTVIIEQEYSLLGNPIADENSLVNILILAGRDNDTLIRKFNNDVNKNSNCYLITTSRQVQKMENSFQETLLIDFEFDNSSFFYRNIALELLFLEIFHQIM;locus_tag=LOCUS_08480;note=MGA_850
sequence1	MetaGeneAnnotator	CDS	505767	506057	.	-	0	ID=MGA_851;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLGINYNFRRYTQSDIKDVNLLLVNQNIRDLKILFIHGKKDDFIMYHNSIVMHYLKTKIELKPISQIVIYDNAKHSSSMHMNLENYKNTTLSFIK;locus_tag=LOCUS_08490;note=WP_011183212.1 alpha/beta fold hydrolase (Mesoplasma florum) [pid:43.2%25%2C q_cov:99.0%25%2C s_cov:27.4%25%2C Eval:2.6e-14%2C partial hit],internal stop codon at [506061:506063](-)%2C[506064:506066](-)%2C[506142:506144](-)%2C[506253:506255](-)%2C[506289:506291](-),MGA_851
sequence1	MetaGeneAnnotator	CDS	506885	507298	.	+	0	ID=MGA_852;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLIFFGVVGSLSSSFLYTSEFINEAKTNIDYIKKLRIINNLESDEKIEYNNFIVPKTTVNGEETVMYYGRVLKYFFANSVEISNEVLENLKNQFSKKSESISALSIQNLLASTINLSIYGSSSDAEFFAESFAK;locus_tag=LOCUS_08500;note=MGA_852
sequence1	MetaGeneAnnotator	CDS	507377	507553	.	+	0	ID=MGA_853;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTGAILKDQDTNAEKTIVNLVSNNISTIKYNINLEVKDSNPVDLKYQTTDLIFSQSY;locus_tag=LOCUS_08510;note=MGA_853
sequence1	MetaGeneAnnotator	CDS	508025	508162	.	+	0	ID=MGA_854;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYTSTAGYTNRATGKYASTTYSYIVLTGVSLTIKEFNSNYKMGF;locus_tag=LOCUS_08520;note=MGA_854
sequence1	MetaGeneAnnotator	CDS	508512	509027	.	+	0	ID=MGA_855;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNVFFKKINEILTKSGCTQIEFYEPKDVTVEHQFKQIKLESIFKIHYLNTNYKFINLYIKFNEIDFLYKASNQKDLTLYLDLTNKTIEEKQVLLDSYSQRDSQLGLTKLKPSLQFGPILFLEKFKDNEFHIYIEILKNKNILDQSNTKLDFLYFDTDFEFFNNFLPILL;locus_tag=LOCUS_08530;note=MGA_855
sequence1	MetaGeneAnnotator	CDS	509046	509321	.	+	0	ID=MGA_856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKIINNLYLGGMKTIPNDADLVLSCAEEIFNDINDSNEAKKIIKNSVKSIYYNFEDYPNIQDMDISLINDAINQIELNILNKKIYVHCV;locus_tag=LOCUS_08540;note=MGA_856
sequence1	MetaGeneAnnotator	CDS	510145	510342	.	+	0	ID=MGA_857;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAFNFQINYKLFFGFLSFITIFSCYLYKIIDGSEVINNYSGNYEIYTIDFFTTFTLLSNVFVQV;locus_tag=LOCUS_08550;note=MGA_857
sequence1	MetaGeneAnnotator	CDS	510424	510621	.	+	0	ID=MGA_858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITVTFLVYNFVLVPIDTGFPKAHFDRYVTVVDHMITPIAFVIYVIFFMANKEKISLNQFFIKKF;locus_tag=LOCUS_08560;note=MGA_858
sequence1	MetaGeneAnnotator	CDS	510661	510807	.	+	0	ID=MGA_859;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRGELRYGSNSDLYYKEENGEVVRNIFYPYFFLDVHHQGPLGLSGAV;locus_tag=LOCUS_08570;note=MGA_859
sequence1	MetaGeneAnnotator	CDS	512536	512880	.	+	0	ID=MGA_860;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFVIFLIFTFSLQSTTIICTLLLAFSFIANLPTTFNEQKEERLRLGVNYNGENPLYYVPDIYETFDLQKNVNEGKIRYKYLSKYINDFFISNSFSFATFNDDESIIAQRIDYL;locus_tag=LOCUS_08580;note=WP_008363812.1 ABC-2 transporter family protein (Mycoplasma feriruminatoris) [pid:40.2%25%2C q_cov:93.0%25%2C s_cov:18.0%25%2C Eval:8.8e-18%2C partial hit],internal stop codon at [512381:512383](+)%2C[512879:512881](+),frameshifted%2C insertion/deletion at around 512422,MGA_860
sequence1	MetaGeneAnnotator	CDS	512944	513165	.	+	0	ID=MGA_861;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSIPNDYADFDTFSDVTISISLNNTFISLDELKVRIDSSINIDQKNVLNDLYNFKNEIVKEIGGSSSTDSNQ;locus_tag=LOCUS_08590;note=MGA_861
sequence1	MetaGeneAnnotator	CDS	513196	513480	.	+	0	ID=MGA_862;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKDFIFINKATMTQANNEIDLGKDDIDSIYKYELVGRNNSNTLTLESGIADNFVNEMYFSLLFASRILEQYFIDYTSRYIILTESQINKTDTD;locus_tag=LOCUS_08600;note=MGA_862
sequence1	MetaGeneAnnotator	CDS	513831	514181	.	+	0	ID=MGA_863;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFENLEEKNVNEEIILENQDIQNLISSDSKNAIEVSTYLKKFKKNKIGELSFSINSSSITAILGSSGSGKSVLINSIIGALKRYQGEIKVNNVKIKKIKVLLLIKILVFIRKLIFP;locus_tag=LOCUS_08610;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:45.1%25%2C q_cov:69.0%25%2C s_cov:7.6%25%2C Eval:2.1e-11%2C partial hit],internal stop codon at [514269:514271](+)%2C[514326:514328](+)%2C[514422:514424](+),frameshifted%2C insertion/deletion at around 514121%2C514430,MGA_863
sequence1	MetaGeneAnnotator	CDS	514420	514845	.	+	0	ID=MGA_864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQIEKITNKFKKSGKTVIITSHNIDELFDIIEYYVVIDSGELLFEGSTEKLNIYTKYKILLNDSFDKEGFVKFLNTLDIEFYKFDNEENAVTISIRKYKQINYLFLYLVKQNLPIKNLRKIPINMESIHKAIEDYNKHS;locus_tag=LOCUS_08620;note=MGA_864
sequence1	MetaGeneAnnotator	CDS	514956	515678	.	+	0	ID=MGA_865;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTLLSTFSIVSAPTLAFVVSCGTSDEETNEDSIGALLQLIENYKTDISTIIENFVKTKIDNLFISVGSTTESKNKFLQRDALTMIVSANGNNKITKYSQLNTTQQANLRNDFENLISFSSLSSTLNSQINKNKYNSIVQGISDVLPSYSIDENNFKINYVTSGNVSIGFSSYVKMNFNFNIKYINANKIQETYEYSKKFTFNISSGEAVLGNVKNFTKQIDTFLLKEYDTSSFQYG;locus_tag=LOCUS_08630;note=MGA_865
sequence1	MetaGeneAnnotator	CDS	515691	516419	.	+	0	ID=MGA_866;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITDSKNGLSYSDITNKGKILKPNYNSIKNLFTPNKFKTEINEQLQNKFFQGLPNLENIFQNTQVVENSTSIEGYLKNASISLVNAIKPEGVKLYNLIFSKNSDFSTLDDNTKNILKLNLGLEFENYKKIYDAKFINFLDSLEEKSTSNDIGDKDFRNKLDIAKSEIATEGYKTLDPFTQQILRSAGYIKISFDKIEIKLTSEYIIPIEDFSTYVSITSNNNDNVLSMLEKSNNYTIIQIYS;locus_tag=LOCUS_08640;note=MGA_866
sequence1	MetaGeneAnnotator	CDS	517442	517855	.	+	0	ID=MGA_867;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNINFLSNSTEFSIIKNSSGIFFDSISIDYSNVEMNYTSKQLQNDLKNQNKNADAFNGNIILNIKVNYKYLDALKVKQIGSFEKKYNFVISSQEALIDASKNFQNNIELNFLESVLDSAFLDSSFFGFSAPELLP;locus_tag=LOCUS_08650;note=MGA_867
sequence1	MetaGeneAnnotator	CDS	517856	518035	.	+	0	ID=MGA_868;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNLSSDQVSANLNTKENFKEKLINFVNSTYFNELGSNIPLEFSNKNSIFNSFSTIETF;locus_tag=LOCUS_08660;note=MGA_868
sequence1	MetaGeneAnnotator	CDS	518207	518602	.	+	0	ID=MGA_869;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKINTYLIDKKFNLNDNVAKKLSKSIMLAKIQITGFQINFDSLNYVYPLNDFYVYISFAINNEEENIYQKESKFFNSVLNNAILGITEFQKVFGIKALDYKNSQSGGTFKNSILNMSGTSTYFQNSVDNL;locus_tag=LOCUS_08670;note=MGA_869
sequence1	MetaGeneAnnotator	CDS	518618	518932	.	+	0	ID=MGA_870;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEGSDDSQNLNNSLSLNDTTTTSFSKYKDKILNTGKQRDFIFQINDSGNSSGTYENVIKPQNNSDYKYDFIQDNKMNSILSIKKKMAYMLQAKIIHMKIRTCL;locus_tag=LOCUS_08680;note=MGA_870
sequence1	MetaGeneAnnotator	CDS	519258	520079	.	+	0	ID=MGA_871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVVNRFFSMDEAQQLCFYLNYNNRIYNNNFYETPAIFTKTTNSSGFPKQREELTKLNTTFSNEPKNVFSSLTPGVSYGNITINIPQHESYSHKREEPVENIFTNDFVVKPKKQKVIDKSLYEDDQSIEDDLEFTKIRKKIELEKLKKQLELEKTATNLELEKFKKELEFNQTSNNLELEKTKKQLELEQMRKQLELEQNASNLNAQKINNNLELEKLSKELELERANKQIELERMAKELELERANKGNVNNENDSSFISANEINNFIKKLEE;locus_tag=LOCUS_08690;note=MGA_871
sequence1	MetaGeneAnnotator	CDS	520691	520915	.	+	0	ID=MGA_872;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKPVLSSEEFEKFGYGSVCPDLQNFLNVLIKECDQIIFIYPLFYFDFPAILKGFFDRLFIGTLIKDGLEPVN;locus_tag=LOCUS_08700;note=WP_005693569.1 NAD(P)H-dependent oxidoreductase (Haemophilus influenzae) [pid:41.7%25%2C q_cov:81.1%25%2C s_cov:29.2%25%2C Eval:2.4e-07%2C partial hit],internal stop codon at [520676:520678](+),MGA_872
sequence1	MetaGeneAnnotator	CDS	520946	521146	.	+	0	ID=MGA_873;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQTSLGDNWSLSPEVSKETFNKAIKLFLYKIGLYNTEIVHYKNISKSTEEERKQFLQNFKDRFSK;locus_tag=LOCUS_08710;note=MGA_873
sequence1	MetaGeneAnnotator	CDS	521319	521633	.	+	0	ID=MGA_874;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFNGEIIAKLENLEKNFQLKEVKIEFELSKNEKCFFYQRNINAFQIKIKSKNIKRKFKNFKSKLNIYVTNKRILFETFEEYLQFPISKINSYYNSPIYLNKN;locus_tag=LOCUS_08720;note=MGA_874
sequence1	MetaGeneAnnotator	CDS	521740	522258	.	+	0	ID=MGA_875;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSANLVNIIIGFILIILMNMVSIYFFLDFFIKLKKIRKIKTEDFYLNIRVLNFFLISFLLLLPILLLISVILFILSLTFFRTIGYIYIIFTCFYFLDCIFIFSLIIKLNLYQRSIFLLKFENKIVLIDEIIDISKIKEISNDLKRKSIFIRFLNDKNEQEFLKLKYNWKLKD;locus_tag=LOCUS_08730;note=MGA_875
sequence1	MetaGeneAnnotator	CDS	522389	522781	.	+	0	ID=MGA_876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTFLSVFGMVTTTSTTVISCKTENSIENTINNLQKALNKIAIAKEEEAIEAIKSTSKGIENVIMDESTLPSKSFEILFLNAEKENDDSHDELKFSNLNQKAGHAHIHYIITYKKAELLSTTKTEFG;locus_tag=LOCUS_08740;note=MGA_876
sequence1	MetaGeneAnnotator	CDS	522933	523253	.	+	0	ID=MGA_877;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEKFLNREEKKIFSKRYLNKIKKEDFFSYLEMEEALLESLKDKYKRDNYENKITEIKIMNQQEYVDKLNLYYYDVVLLNKNSSKSEEKITQEFDDLLKPFKKIQK;locus_tag=LOCUS_08750;note=MGA_877
sequence1	MetaGeneAnnotator	CDS	523418	523873	.	+	0	ID=MGA_878;product=ribosome biogenesis GTP-binding protein YihA/YsxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183254.1;translation=MAKTSSTPGKTRLLNFFDINNSQFRIVDAPGYGFARVSQEQKIAFAEMMDEYLTTRENLKFVCQLVDLRHKPTNDDIEMYHFFKHHNIKVFIVATKKDKCKKNDILKNEKLIKQTLNLDNNDKFLSISSTDKLNLDEVLNIFYELFKIQPI;locus_tag=LOCUS_08760;gene=yihA;note=WP_011183254.1 ribosome biogenesis GTP-binding protein YihA/YsxC (Mesoplasma florum) [pid:58.4%25%2C q_cov:98.7%25%2C s_cov:75.3%25%2C Eval:1.9e-49],internal stop codon at [523325:523327](+),MGA_878
sequence1	MetaGeneAnnotator	CDS	523926	524291	.	+	0	ID=MGA_879;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEINKIAATDLDGTIIFERDRISDGNKELLLKFQQKTNNKLTIVTGRSYFLTDFAAKELNVKLPVICSNGVSVINPETFEYIAKNHFTEKEILNLMKLFIQEKIDFSIANDFTTHFVKGIG;locus_tag=LOCUS_08770;note=WP_002469110.1 Cof-type HAD-IIB family hydrolase (Staphylococcus) [pid:34.1%25%2C q_cov:67.8%25%2C s_cov:27.4%25%2C Eval:7.0e-07%2C partial hit],MGA_879
sequence1	MetaGeneAnnotator	CDS	524655	524795	.	+	0	ID=MGA_880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEDFPNSFAVGNAIEGIKELASEVIDTVYNCGVGKKLNEIINNFI;locus_tag=LOCUS_08780;note=MGA_880
sequence1	MetaGeneAnnotator	CDS	524866	525108	.	+	0	ID=MGA_881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILQKTLKFNNGLEIPQIGLGTYKLEDENETLQSVKAAIENGYRHIDTASIYHNHKIIAQAIKESKIDRKKLFITSKI;locus_tag=LOCUS_08790;note=WP_003243374.1 glyoxal/methylglyoxal reductase (Bacillus) [pid:53.8%25%2C q_cov:100.0%25%2C s_cov:29.0%25%2C Eval:5.1e-18%2C partial hit],internal stop codon at [525106:525108](+)%2C[525229:525231](+),MGA_881
sequence1	MetaGeneAnnotator	CDS	525726	525848	.	+	0	ID=MGA_882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEELKKMLPLIELDRIILRTFKFEDANDIYEYCSNLENIK;locus_tag=LOCUS_08800;note=MGA_882
sequence1	MetaGeneAnnotator	CDS	525873	526289	.	+	0	ID=MGA_883;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDSINSIENYFLKPHYGKYAIVLKEENKVIGAIDIRLKENMIYDIGYVINSKYQQKGYGKEALKGLIDSCFSLTNIKEILIKVDIENNASNHLANTVSTKIIRQEEQNNPKFSEPRILNIYQVLKNQFKLGFLIYIF;locus_tag=LOCUS_08810;note=WP_011837248.1 GNAT family N-acetyltransferase (Streptococcus sanguinis) [pid:32.1%25%2C q_cov:76.8%25%2C s_cov:57.1%25%2C Eval:3.1e-07%2C partial hit],internal stop codon at [525846:525848](+),MGA_883
sequence1	MetaGeneAnnotator	CDS	526316	526561	.	-	0	ID=MGA_884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALDLNNLVEINNGDFNEISQQLNNGKTVLAALEKGPLLEEALKTGKMNDGFANIKFKEEKDNCGVCGCGKPANTLVYLYR;locus_tag=LOCUS_08820;note=MGA_884
sequence1	MetaGeneAnnotator	CDS	527438	527563	.	+	0	ID=MGA_885;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCPGVTIGKNSIIAAGSVVTKDIPKNSIAGGIPAKIIKNIE;locus_tag=LOCUS_08830;note=WP_002379300.1 sugar O-acetyltransferase (Enterococcus) [pid:69.2%25%2C q_cov:95.1%25%2C s_cov:18.4%25%2C Eval:5.2e-10%2C partial hit],internal stop codon at [527417:527419](+),frameshifted%2C insertion/deletion at around 527373,MGA_885
sequence1	MetaGeneAnnotator	CDS	527669	527914	.	+	0	ID=MGA_886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSILQLKNVFKYFGKKEVLKGVNLNINFGERLALLGGNGQGKSTLIDLISQVEKPSGGEIDIAIEKDIKKEIGIQFQNGE;locus_tag=LOCUS_08840;note=WP_010887677.1 ABC transporter ATP-binding protein (Deinococcus radiodurans) [pid:50.0%25%2C q_cov:69.1%25%2C s_cov:22.2%25%2C Eval:5.1e-10%2C partial hit],MGA_886
sequence1	MetaGeneAnnotator	CDS	528080	528370	.	+	0	ID=MGA_887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISLMNQPEIVILDEFTTGLDLKLQIKLMNFIKKYCDEKNKTLLIVSHSPEEVELLCQRVAILFDGKIIFDNSILEVKKQFGSVRNLMNKHFAGEI;locus_tag=LOCUS_08850;note=WP_011183542.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:56.2%25%2C q_cov:100.0%25%2C s_cov:41.0%25%2C Eval:5.7e-25%2C partial hit],internal stop codon at [527912:527914](+)%2C[527984:527986](+),MGA_887
sequence1	MetaGeneAnnotator	CDS	528897	529166	.	+	0	ID=MGA_888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLAFILVGFTSITIATFMGGILNQEGTVNGINLLVLFFSLFFSGLVIPPNLAISSEIMKIITYFIPFKYSVFLFFYISQRKITQPENG;locus_tag=LOCUS_08860;note=MGA_888
sequence1	MetaGeneAnnotator	CDS	529385	529531	.	+	0	ID=MGA_889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEHLSSNIQKLEELFETNIDKGLTSEQVEEKLKKFGKNKLPQGKITP;locus_tag=LOCUS_08870;note=MGA_889
sequence1	MetaGeneAnnotator	CDS	529580	530167	.	+	0	ID=MGA_890;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAAVISIIAPIIDKAASGAKIEVSIEEFIDAIVIFSIVLIDAILETVQTLKARKSMDALKSLSKPKAVVIRNDSQQEIDASQLVPGDIVVLEAGKYVPAELRIVQASDLTIDESLLTGESLPVEKIADPLMETTTILAEMKNIAFMSTFTTNGRAIGIVIKTGKFTEIGKIAESINENDEQETPLEKKLHSFTY;locus_tag=LOCUS_08880;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:19.6%25%2C Eval:7.2e-63%2C partial hit],internal stop codon at [529529:529531](+)%2C[530165:530167](+)%2C[530240:530242](+),MGA_890
sequence1	MetaGeneAnnotator	CDS	530255	530668	.	+	0	ID=MGA_891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAITLAIGVIPECLAAVVSITLSISTKKMVKQHVIIKKLQAVETLGSVNIICTDKTGTLTQNRMTVKRMIMDNKILESKIYAKEANDNHMDLFLKSLVLCNDSVTEGTERIGDPTELALVDYAEIIGYDEQDARDT;locus_tag=LOCUS_08890;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:67.9%25%2C q_cov:95.6%25%2C s_cov:13.5%25%2C Eval:3.2e-44%2C partial hit],internal stop codon at [530165:530167](+)%2C[530240:530242](+)%2C[530666:530668](+),MGA_891
sequence1	MetaGeneAnnotator	CDS	530708	531556	.	+	0	ID=MGA_892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMTTVNSINGINTTFTKGAIDQLLKKCTKIMIDNVEREITQEDIKQILQISEELSSNALRVLGFAFNNNYDNEKDKDHLEHDLVFLGAVGMIDPVRETAVNAVKQAHNAGIKVVMITGDHASTALAIAKDLDLAYSTSEVMSSVVLNKMSDDELLKIIEQIKVFARVNPEHKVRIVDALQKNGNIVSMTGDGVNDAPSLSKANIGVAMGITGTDVAKQASDVILTDDNFETIIRGVNEGRNVYQKIKRAIAFVIGVNLANVLSIFILSAINTVSPLEATNIL;locus_tag=LOCUS_08900;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:63.8%25%2C q_cov:100.0%25%2C s_cov:28.6%25%2C Eval:1.4e-91%2C partial hit],internal stop codon at [530666:530668](+)%2C[531554:531556](+),MGA_892
sequence1	MetaGeneAnnotator	CDS	531557	531931	.	+	0	ID=MGA_893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLIVESIVALSIGMGSNDDTLMKIKPIKGKNSLFKGLNYTFAKIIIFTSMTSIAGFYFGMSFISEQEVLSLTNNTHTTWFAAFRDANININNKIELGDHGRTAMFIVITCAPCFYANFIKLSN;locus_tag=LOCUS_08910;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:40.7%25%2C q_cov:100.0%25%2C s_cov:14.4%25%2C Eval:6.7e-18%2C partial hit],internal stop codon at [531554:531556](+)%2C[531929:531931](+)%2C[531974:531976](+)%2C[532085:532087](+)%2C[532190:532192](+),MGA_893
sequence1	MetaGeneAnnotator	CDS	532459	532641	.	+	0	ID=MGA_894;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLASTSMVTTATVSVVACGNKEGSDTKPPVQPEQDLTALIADFKKDITAIKDEY;locus_tag=LOCUS_08920;note=MGA_894
sequence1	MetaGeneAnnotator	CDS	532924	533400	.	+	0	ID=MGA_895;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEINFTGDEIPEQANPSSKSDSFLSYVKVDLKFEFKYLDKNGQETTFNINQKFIFTLTSNKVLIESIQALKTTIKTDYLLDGQKYSFIDKSELGISLNQGSGKIFGNDLNFKSVYESNGFKNDIISFMKNNYFDKFINISLSFEGKFKGRSIEKLKYK;locus_tag=LOCUS_08930;note=MGA_895
sequence1	MetaGeneAnnotator	CDS	533351	533530	.	+	0	ID=MGA_896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENLKADQLKSLNINEINFKALYNTIFNNITETDTTLFFGSQDEKAINTHVYTYLKDN;locus_tag=LOCUS_08940;note=MGA_896
sequence1	MetaGeneAnnotator	CDS	534431	534652	.	+	0	ID=MGA_897;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSFVFAILSIFFVTQAALIVAFNFYILLYVSCLLFILILRIVQFFYHNKIEDKIIFITLSNQVSRIKLFISI;locus_tag=LOCUS_08950;note=WP_011183358.1 ABC transporter permease (Mesoplasma florum) [pid:47.1%25%2C q_cov:95.9%25%2C s_cov:11.6%25%2C Eval:1.7e-13%2C partial hit],internal stop codon at [534344:534346](+)%2C[534650:534652](+),MGA_897
sequence1	MetaGeneAnnotator	CDS	534656	534988	.	+	0	ID=MGA_898;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILIIFVSNFTITFTVINLINLFANSLNVNYLLLKITTTFLIYGIFCSIFLVNFIIFLIFIFSLQTTTVICTLLLSLTFIANLPMSFQQTNEKNMTINLQKNNGEIQVKL;locus_tag=LOCUS_08960;note=WP_008363812.1 ABC-2 transporter family protein (Mycoplasma feriruminatoris) [pid:41.0%25%2C q_cov:95.5%25%2C s_cov:17.6%25%2C Eval:3.9e-18%2C partial hit],internal stop codon at [534650:534652](+)%2C[534986:534988](+)%2C[535061:535063](+)%2C[535154:535156](+)%2C[535256:535258](+),MGA_898
sequence1	MetaGeneAnnotator	CDS	535357	535731	.	+	0	ID=MGA_899;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLILQDLYNFSIYIKSEFSDFQKEKVNLFDKFIFVNSDSKIINLEKNSNSILFKKEYLKSIYNYKLDGTYNGDYFTFTDNSVTNLVRNDLNFELMIAVRILEQYFIKYTNNYLNAIYNSVSFT;locus_tag=LOCUS_08970;note=WP_011183358.1 ABC transporter permease (Mesoplasma florum) [pid:39.6%25%2C q_cov:99.2%25%2C s_cov:21.7%25%2C Eval:1.5e-14%2C partial hit],internal stop codon at [535256:535258](+)%2C[535730:535732](+)%2C[535739:535741](+)%2C[535808:535810](+)%2C[535853:535855](+),frameshifted%2C insertion/deletion at around 535300,MGA_899
sequence1	MetaGeneAnnotator	CDS	535909	536076	.	+	0	ID=MGA_900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYPEFTFKIDKQNVITPDSYNNYLNPIIYIIILLIFSILTFIFILIKFQKIDLN;locus_tag=LOCUS_08980;note=MGA_900
sequence1	MetaGeneAnnotator	CDS	536087	536458	.	+	0	ID=MGA_901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNDANKIENIIEVKNFNKKFRKNTVGEFSFNIKKGEITALLGVSGSGKSVLINSIVECYKKYKGKIFINQKSIKKMKSYQQNVNIGFYTQIDFSLQNISLKKYFANMSLIMGIRRKEARKRI;locus_tag=LOCUS_08990;note=WP_011387452.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:49.6%25%2C q_cov:100.0%25%2C s_cov:20.1%25%2C Eval:2.3e-26%2C partial hit],internal stop codon at [536456:536458](+)%2C[536462:536464](+)%2C[536519:536521](+)%2C[536615:536617](+),frameshifted%2C insertion/deletion at around 536659,MGA_901
sequence1	MetaGeneAnnotator	CDS	536743	537030	.	+	0	ID=MGA_902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFNGSTKKLNIYMKYKVFLTEKYEIEEFREFLNSKKIKSFKYDSIENSITIAISNYKQLNYVFLYLIKNNLPLKNFVKLPINMESIHKALEDNI;locus_tag=LOCUS_09000;note=MGA_902
sequence1	MetaGeneAnnotator	CDS	537171	537353	.	+	0	ID=MGA_903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLATASLITTTTVSVVACGNKEKSGTKPPTESDQDLTALISDFKKDITLIKNEY;locus_tag=LOCUS_09010;note=MGA_903
sequence1	MetaGeneAnnotator	CDS	537390	537605	.	+	0	ID=MGA_904;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQEIYQLLIKQKMTQLVTGNSNNVVTNLSETNQNLLKIDIQKIIKIEDLNQNFTSKINKEKYSILISKLN;locus_tag=LOCUS_09020;note=MGA_904
sequence1	MetaGeneAnnotator	CDS	537714	537962	.	+	0	ID=MGA_905;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVDLKFEFKYLDKNGQATAFNINQKFIFTLTSNKVLIESIQTLGKTIESDYFLSGQKYSFLDKSDLKISLNQDSGKYLEII;locus_tag=LOCUS_09030;note=MGA_905
sequence1	MetaGeneAnnotator	CDS	538479	538700	.	+	0	ID=MGA_906;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVTNNKTKDDRETEVNSNLFGAMYYNLISGIKSFQDTFGLVDREDYLQEGINGPIVKFTGSSKDNTNSLKNI;locus_tag=LOCUS_09040;note=MGA_906
sequence1	MetaGeneAnnotator	CDS	539895	540122	.	+	0	ID=MGA_907;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIQSLQFISSVEKQITKIMPKNKFVVDPNYSLYETVMDSAIRSSYIADAVSTINHNDAEDMAQHRKVYEDFANN;locus_tag=LOCUS_09050;note=WP_011183223.1 hypothetical protein (Mesoplasma florum) [pid:46.7%25%2C q_cov:100.0%25%2C s_cov:24.5%25%2C Eval:3.5e-14%2C partial hit],internal stop codon at [539862:539864](+)%2C[540120:540122](+)%2C[540135:540137](+)%2C[540261:540263](+),MGA_907
sequence1	MetaGeneAnnotator	CDS	540264	540443	.	+	0	ID=MGA_908;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFHKNGMKEIFSDSVSTMALNNQTIIDQEIYNKTVKSEIGMTGLSVSYSPGTMILNNKV;locus_tag=LOCUS_09060;note=WP_011183223.1 hypothetical protein (Mesoplasma florum) [pid:43.3%25%2C q_cov:100.0%25%2C s_cov:19.6%25%2C Eval:2.9e-08%2C partial hit],internal stop codon at [540120:540122](+)%2C[540135:540137](+)%2C[540261:540263](+)%2C[540441:540443](+)%2C[540696:540698](+),MGA_908
sequence1	MetaGeneAnnotator	CDS	540504	540698	.	+	0	ID=MGA_909;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKTLTKDTLNNLEVTVDDLFVPNFLAGMHLAQAGSIMFIIALIIVIPGLIIGTVAILEYKKEK;locus_tag=LOCUS_09070;note=MGA_909
sequence1	MetaGeneAnnotator	CDS	540711	541022	.	+	0	ID=MGA_910;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKMLASLAVLSFSVSIGSQVVACMPKQGNVLPENDPLLYGKDIDKSKAIDDSKQTESGYTNYFIIGDSLSDVDGVTSFLEKKLSNLLNEMIDLDINFGGKYG;locus_tag=LOCUS_09080;note=WP_011183222.1 SGNH/GDSL hydrolase family protein (Mesoplasma florum) [pid:38.8%25%2C q_cov:100.0%25%2C s_cov:22.5%25%2C Eval:3.2e-15%2C partial hit],internal stop codon at [541020:541022](+)%2C[541044:541046](+),MGA_910
sequence1	MetaGeneAnnotator	CDS	541221	542045	.	+	0	ID=MGA_911;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVDDVTIDTQARTLIEQHKSSANDLVIFEIGGNDLFALNDLQTDPKKQVLLINDGLERLRKALFTLLNQGIEHVVFMTPPKMDYVSTYTDNSSGKSPVFDKDGNPIAGKEAEAEYIQDIGLEYQQRLLDLIEEIKSYYPNNFQTYDLYSDFKDLKTRFEATVADGKYNGHNAFTNKNEISIKLNGNDLELSGGLDFSSLTPEFIQNILSELVGNSEEKPKVEITISAIREEEQGNEEQNIDNYFFTDFVHPTAGVHKMVKDIFLDIVKKEVSK;locus_tag=LOCUS_09090;note=WP_011183222.1 SGNH/GDSL hydrolase family protein (Mesoplasma florum) [pid:36.2%25%2C q_cov:99.3%25%2C s_cov:61.6%25%2C Eval:2.3e-43%2C partial hit],internal stop codon at [541020:541022](+)%2C[541044:541046](+),MGA_911
sequence1	MetaGeneAnnotator	CDS	542045	542287	.	+	0	ID=MGA_912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIISLASVTLTVGSSASVLAYAVNANNIKISELNAKQKEISLTLEQVAKSLSLNSSQNGGYQFDYLFNIVAKNQQIK;locus_tag=LOCUS_09100;note=MGA_912
sequence1	MetaGeneAnnotator	CDS	542288	543733	.	+	0	ID=MGA_913;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSSITLDESSNLTKNNRFYELYNKNFNSNLFSNDFVFENTDSKKTFSLKSGIAPQEAPLGSLVSTLSSLLPMVTQFIANKDILGMVSYLLQTFISVNPEIISEFSLLKFAKAILSDEKIESLSNAFDKDKYADFSVQEALNSSIIGLVNGLGKITNTKSEFENSTVQKTKDNFGAAMKELEVISSSLLTKITTLNFDLVESFDAIIEVVNFGRVLMVYLNGYINEVNSGSLKDADLQNKTISFDQLTTLRNKKFSDYSNSLDIKEFLKYMQTMLANDSGNGLKNLIALLFVEKPKEDYISSQLQISDTVSKFDVLGAVLGSEGIGSIVEPALDLVGSLKNFIASNSKTDYSQNYGLSSLFKATLNGIADVKSILSSLPEDFKQYLDVIDTLLGLSNAKIGTILTNILAMMSSDISIMSKNVKLFTDLHASWGLIEFAVGSLFPEYKEIITTLGKIIKFNFNEILAPTNADGKEQDSFKNL;locus_tag=LOCUS_09110;note=MGA_913
sequence1	MetaGeneAnnotator	CDS	543776	544321	.	+	0	ID=MGA_914;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVVTGGKPFNLKSVFTLPITNIFSSGLLGLNSDKAISTMLDEIIESMGDKKLSINFDNAKGLVLNLKGIIDVGLNDPTKLMEKLGLNSDKTIKENSALDYLSKIFADLDGIGAIAEQLKAAADFFEKQQAQIKLDVQNKFKEISESKITIDVIDNYNYTYLIGVDKFEFTIKEEANKFVI;locus_tag=LOCUS_09120;note=MGA_914
sequence1	MetaGeneAnnotator	CDS	544388	544537	.	+	0	ID=MGA_915;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTLFYSISVTAIPVSTVVACAEKVDYRIDLNSIIKNVALGNQLEN;locus_tag=LOCUS_09130;note=MGA_915
sequence1	MetaGeneAnnotator	CDS	544880	545992	.	+	0	ID=MGA_916;product=SGNH/GDSL hydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183222.1;translation=MKVEANLTGNYGFDRNGKHYSAFSNGPTTGFLLGEKLGFNDLKSSNQFMDPYDQTEGYGNNYSVGGATAAKMDEDSIGMSAFMSVDDVTVDEQAKALIEQHKIGSNDVVLFEIGGNDIFAIEAKYREGKPNEEAAQKLIDDAMVRIRQALFTLLNQGIKKIIFMTAPPMQTVPKFSTYFDVYRDTYCEGSTDCQYINTEIKPDDVYYVQKAKNILNKGKEFQDRTKEILDEIKGYYPDGIELYDLYTEFPNLVEQFKTDSSVNPSEVNVLDQYSNMETGISMIAEVDGEKIFEIQEGSGIGGDEMNDLVSKLFGYLGSDEEHNLKVNINIGTDAAAKDKSIINYFFTDFVHPTKRVHEIVSDYLYNTYLK;locus_tag=LOCUS_09140;note=WP_011183222.1 SGNH/GDSL hydrolase family protein (Mesoplasma florum) [pid:38.1%25%2C q_cov:97.8%25%2C s_cov:76.8%25%2C Eval:8.3e-56],MGA_916
sequence1	MetaGeneAnnotator	CDS	546048	546422	.	+	0	ID=MGA_917;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDIKYIEQNFDTERKCMEFSIQKKQTLNLKYCKCGCNLSNLKCYESRSCFVCCCNNFIYPRKDLIFENSKLPLKTWFLAIAIFLNNSKITAERLRLELNINYKSAYYMLKKLKNEKNLISFFE;locus_tag=LOCUS_09150;note=MGA_917
sequence1	MetaGeneAnnotator	CDS	546438	546656	.	+	0	ID=MGA_918;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEIRIYIDALDCASCAVTIDKTMQRLNIQDYNVLIPLKEVQISFDEQIVSEKNILGKLKKAGYKGEIIND;locus_tag=LOCUS_09160;note=MGA_918
sequence1	MetaGeneAnnotator	CDS	546880	547482	.	+	0	ID=MGA_919;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLVTMSTQIALYFSIYEIAVGLFPNLIEVSIFVILFLQTGDIINDKLKKKISNELSEITKIQPKTVKVILNNEIIEKNIKTVEIGEIIFIEKNFVIPIDGKLINEKASVLTQIIDGENDSKTFFKDQNLFAGMQNLNQDLKMEVNNLSKDSLLNQMISKILKIQSTKSGMQNLVDKLLIYFTPFLILCSIIGFLVSYF;locus_tag=LOCUS_09170;note=WP_001832365.1 heavy metal translocating P-type ATPase (Staphylococcus) [pid:26.6%25%2C q_cov:98.5%25%2C s_cov:25.6%25%2C Eval:7.4e-18%2C partial hit],internal stop codon at [547480:547482](+),MGA_919
sequence1	MetaGeneAnnotator	CDS	547510	548418	.	+	0	ID=MGA_920;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSFVTILIAACPCAIGIAIPIAVAIGASNAGKKGVIFNKPDAFQKLIGIKHIAFDKTGTLTQGQVSVKNYQGEFKYLSIIGLIEKNQIHPLATGFMKYLKEKNIELNSNRIIEKLGELEYKIDEKIYKLVSLNDLDKKLDSDISIDYSYLENTTSFLLEENRVVAYIEFSDEIRKNALISLEKLKKQNYNLIMITGDNEIIANKVASTLKIDEVYSNQKANDKYEIIKKYQEKNQKVVFVGDGANDVLAIQQADLSISIISPTTYLSLDSDISLIKPDIELIVNAIYYTKKTRNIILTNLF;locus_tag=LOCUS_09180;note=WP_011016257.1 heavy metal translocating P-type ATPase (Fusobacterium nucleatum) [pid:34.3%25%2C q_cov:94.0%25%2C s_cov:38.4%25%2C Eval:9.3e-36%2C partial hit],internal stop codon at [547480:547482](+)%2C[548416:548418](+),MGA_920
sequence1	MetaGeneAnnotator	CDS	548651	548941	.	-	0	ID=MGA_921;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTRLDYIDLDNEKFILGLNNRLPVTKMIQTDLIDPLEKYTSEYNIRIGIYRQISQNCNVEAVAMGGSTYAKVVPNIILCGILEDLSNLSAHKSYK;locus_tag=LOCUS_09190;note=MGA_921
sequence1	MetaGeneAnnotator	CDS	549725	549865	.	-	0	ID=MGA_922;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIDNKLLTTKYFDEALKNLIEILKILSIQSKPLPGAIFGLKTIEV;locus_tag=LOCUS_09200;note=MGA_922
sequence1	MetaGeneAnnotator	CDS	550314	550520	.	-	0	ID=MGA_923;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHPPIQDKKQNSVAILKIKSKPILYHLILIDSQKPTIIAKIKNKKNKKIEDAIILKTFCFILTIEFSI;locus_tag=LOCUS_09210;note=MGA_923
sequence1	MetaGeneAnnotator	CDS	550837	551805	.	+	0	ID=MGA_924;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSKDLLKDFKGILLNSGKNTSIFYDKFKKNSTSINLMKLEKYNLLRRGRNDKNPISLKQAMQYDEFFISFMDINQSDKDYKNAFNFLYEINKILKKFKESYEETNLHTLYMGRYYIESAIIERVNKDYFRCPLILQSVSLENVTPKIFKVSINEDKILNNPLFNIIATTSKKTYEFLELDDEKINDFESIKKYLTNLLTNIGYKFNNIDVYLNAFENQYDSYVALKTKDDEAKRFFEKNINILDNVYALNLCSIGIYNIASSSILSAYKKLEELDDGFIDELLSESGDSIGLRNEEFSENDIKTISTLDYSQKSAINSALK;locus_tag=LOCUS_09220;note=MGA_924
sequence1	MetaGeneAnnotator	CDS	551876	552196	.	+	0	ID=MGA_925;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEMKLPYLLLKKKVASEVVYNKLEELNDFVLMIHNNEKVSSIYEKLKIFVTRIEDFYNTPEKYKSIYNHYVEREKYKDIDDIFNKVNTYKKIMNSEQGKTYQKFQ;locus_tag=LOCUS_09230;note=MGA_925
sequence1	MetaGeneAnnotator	CDS	552486	552686	.	+	0	ID=MGA_926;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRIAIARALVHNKKIMILDEITANLDKNNREIIENLVGDLNKTILYISHNTNSDGNKNLDQVIKL;locus_tag=LOCUS_09240;note=WP_002681273.1 ABC transporter ATP-binding protein (Treponema denticola) [pid:48.5%25%2C q_cov:98.5%25%2C s_cov:12.5%25%2C Eval:2.6e-09%2C partial hit],MGA_926
sequence1	MetaGeneAnnotator	CDS	552698	552868	.	-	0	ID=MGA_927;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQILENVGLYKSANLSLILTIHDEYSHIYYFEDTRTNISLINKENIKKLHLKIKFF;locus_tag=LOCUS_09250;note=MGA_927
sequence1	MetaGeneAnnotator	CDS	552915	553049	.	+	0	ID=MGA_928;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVIGKSKRIIKDSKGIILLYATIGILVALFLLSPLLDHYVETV;locus_tag=LOCUS_09260;note=MGA_928
sequence1	MetaGeneAnnotator	CDS	553059	553190	.	+	0	ID=MGA_929;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIYAKLLLGFFITALILRKLFFEMVSFIENYEIKQSIVKDYN;locus_tag=LOCUS_09270;note=MGA_929
sequence1	MetaGeneAnnotator	CDS	553341	553661	.	+	0	ID=MGA_930;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNFKEDSFKIVLNKLFILIFSGFVSIIFGSIVFVYYKISMKMFYEDIDQQLKIISKKSKNEENRKQMFGETKEIFIREKAQSQKAFLFERNGKILNFIKSLESDK;locus_tag=LOCUS_09280;note=MGA_930
sequence1	MetaGeneAnnotator	CDS	554652	555140	.	+	0	ID=MGA_931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYFKYFLENDINNFLTVATTRPETMFGDVCLVVNPKDKRYQKYIGKNVINPVNNKIIPIIADEYVEIDFGTGVMKCTPAHDVNDFELGIKYNLEQINVMNDDATMNEFANEFIGLDRFEARKKIIIKLEKENLFLKEEEIIHQVGYSERSNAIIEPLISDQ;locus_tag=LOCUS_09290;note=WP_011166500.1 valine--tRNA ligase (Mycoplasma mycoides) [pid:62.3%25%2C q_cov:100.0%25%2C s_cov:18.5%25%2C Eval:3.1e-54%2C partial hit],internal stop codon at [554406:554408](+)%2C[554412:554414](+)%2C[554586:554588](+)%2C[555138:555140](+)%2C[555243:555245](+)%2C[555264:555266](+)%2C[555285:555287](+)%2C[555309:555311](+)%2C[555402:555404](+)%2C[555420:555422](+),MGA_931
sequence1	MetaGeneAnnotator	CDS	555537	555770	.	+	0	ID=MGA_932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFQSLEFTNQKPFQDVLLHGLIRDEKGQKMSKSLGNGIDPMEVIENYGADSLRFFLLTNSSPGQDLRYSEEKIIST;locus_tag=LOCUS_09300;note=WP_004398606.1 valine--tRNA ligase (Bacillus) [pid:74.0%25%2C q_cov:100.0%25%2C s_cov:8.8%25%2C Eval:4.9e-29%2C partial hit],internal stop codon at [555264:555266](+)%2C[555285:555287](+)%2C[555309:555311](+)%2C[555402:555404](+)%2C[555420:555422](+)%2C[555441:555443](+)%2C[555525:555527](+)%2C[555768:555770](+)%2C[555789:555791](+)%2C[555894:555896](+)%2C[555993:555995](+)%2C[556011:556013](+),MGA_932
sequence1	MetaGeneAnnotator	CDS	556038	556202	.	+	0	ID=MGA_933;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSDKFNSKDIEITKATLGYVLKQILVMLHPFTPFVTEEIYSTLNLKETILKES;locus_tag=LOCUS_09310;note=WP_011183252.1 valine--tRNA ligase (Mesoplasma florum) [pid:58.3%25%2C q_cov:88.9%25%2C s_cov:5.5%25%2C Eval:1.1e-09%2C partial hit],internal stop codon at [555768:555770](+)%2C[555789:555791](+)%2C[555894:555896](+)%2C[555993:555995](+)%2C[556011:556013](+)%2C[556200:556202](+),MGA_933
sequence1	MetaGeneAnnotator	CDS	556203	556700	.	+	0	ID=MGA_934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEEYNFKLDGFKHLKDIISAIREFRASQNIKNSIFLNLFLNLDNSKSKKEIESKFEFIKIIIEKITNSKIILNKNEIKDFTSIQINDYFIEISNDDFLDNEKIIFKLNEKLLILEKEIKRSKKMLSNENFINKASLEKVEIEKQKFEDYKNQYESLLTKINKIK;locus_tag=LOCUS_09320;note=WP_011183252.1 valine--tRNA ligase (Mesoplasma florum) [pid:37.0%25%2C q_cov:98.2%25%2C s_cov:18.2%25%2C Eval:1.6e-24%2C partial hit],internal stop codon at [555993:555995](+)%2C[556011:556013](+)%2C[556200:556202](+),MGA_934
sequence1	MetaGeneAnnotator	CDS	557086	557220	.	-	0	ID=MGA_935;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLNEDNENIKELQEIMYYREQLITELKFLKLNQKLKNKNKQMD;locus_tag=LOCUS_09330;note=MGA_935
sequence1	MetaGeneAnnotator	CDS	557443	557628	.	-	0	ID=MGA_936;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNSCLLFPSVTYTIMLYFNGTTQGTTSTIIAVIRTFVFQLAFVFIGYYAAKAASNDGSKD;locus_tag=LOCUS_09340;note=MGA_936
sequence1	MetaGeneAnnotator	CDS	557875	558027	.	-	0	ID=MGA_937;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGTIQDGNQLYLDHEAIKFTFYADTKNLNGTQNTEYITNAVRVLSSSFP;locus_tag=LOCUS_09350;note=MGA_937
sequence1	MetaGeneAnnotator	CDS	558205	558990	.	-	0	ID=MGA_938;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFNSIEFENKATVHLTKREWILRYSNPFIALMFMAGPMIIITLVNGLYGIVDKQLTLNFAISEVEKLYENFLNQTGGPGINIYADSLVNESQTDIFKQVINVSTQYSNSVVVLLSAISMLTAVGTAISFGKHMGARNQNKMNETFINGIIQTFFSSFFIMLIMYFLSQYILVFQSGVDFANKDSALSYSLSIEYCKMFVFGFPLLSFGTFFTTMLRTEGKIYTVIAIQSISLIINMVLGYIFLDILKLGMAGAVYGSMVA;locus_tag=LOCUS_09360;note=MGA_938
sequence1	MetaGeneAnnotator	CDS	559176	559619	.	+	0	ID=MGA_939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFKYFIILFISLLDGVVFYLLSNSSKEENSQITNLETYQVYFKVKYDIKLKQNRLLPIKLTNENKINDLDNFIEEKKIDYLYNFFSIDNNKELLKKNEIIVYPLENTEIVKTSRYIVNFEFFKSKDVSENISKKTVLILNDIKND;locus_tag=LOCUS_09370;note=MGA_939
sequence1	MetaGeneAnnotator	CDS	560149	560376	.	+	0	ID=MGA_940;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINESNSLTKLFVFQRRENNEIYLELLGLGLSYLINFSDLNIYLLSYFLNKKVFKFSRKQKKYRIILIIFFLFYS;locus_tag=LOCUS_09380;note=MGA_940
sequence1	MetaGeneAnnotator	CDS	560474	560695	.	+	0	ID=MGA_941;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSGADTFTGGAAGTALKIAKKTGGAVGLAAMALSSIYSAKARSGMSAKTAGFRNSLAQKNKLCKIELSKIHL;locus_tag=LOCUS_09390;note=MGA_941
sequence1	MetaGeneAnnotator	CDS	560833	560967	.	+	0	ID=MGA_942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKLLYQQELAKKERKHKKQQARYDYLKFSSSDSKNDNARRIHN;locus_tag=LOCUS_09400;note=MGA_942
sequence1	MetaGeneAnnotator	CDS	561070	561372	.	+	0	ID=MGA_943;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKGIDLNLDKKGQKDDFKTLSSMNRNSETKKDINSILEKYTANDKDKKVRKQNQKNINRNLNKEQLEILRKHKNQKKESHIKDEFKNQNYRFDEKQGK;locus_tag=LOCUS_09410;note=MGA_943
sequence1	MetaGeneAnnotator	CDS	561628	561810	.	+	0	ID=MGA_944;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFYFLLIRENAAIDDCRKTRDLRAKKGYQYEIDEIEKGVEIFNRLMHGAPIQIPSDSPI;locus_tag=LOCUS_09420;note=MGA_944
sequence1	MetaGeneAnnotator	CDS	562418	562630	.	+	0	ID=MGA_945;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRQQEDREISQPHNAKKEFESLPIDEQKIILTASQYNEIKRVFKSQKEKILNDEKLINGIFGSIDRELE;locus_tag=LOCUS_09430;note=MGA_945
sequence1	MetaGeneAnnotator	CDS	562643	563401	.	+	0	ID=MGA_946;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTEFENVKYFNKIIGIENKTDGTLFIYPTPKDKKLGEKISRKPDGYYYMDGVTFILDAKAEGNEFSGQLEDYLKLEQNKNNVGFKYSGIFFQCFINGVLMEEEIEPKNAEYYISKYFNNKITNEDIVNNSAKKLANMFRDSSIDKQMNVPFIGSVMLCQKFGKDISGDSTKNIIRNIKSAIEEIILNEPKTRQEKKEFIKTMLDDPSLNKTKISDIIQIISEISTVYNFINVSDKKGHDTMNSFLKIFRK;locus_tag=LOCUS_09440;note=MGA_946
sequence1	MetaGeneAnnotator	CDS	563462	564172	.	+	0	ID=MGA_947;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKIIDIKFSDTVLDPTCGSGTFLVNALTNMLNETDDENEKKKIMEERVIGIENLSFNATLAGINMLLHGDGASNIFEENCFKKLPQLKGEYNKVLMNPPFSQKDKELKFVLEALNNMKEGGKLATILPINCILGRGDKQNDNLKLKKEILSKHKIIKSVKLPNKLFEPNASTETCIIVFESHAKLEKQVIELYDFSNDGYEIRMRSGRVPINEEEAMISFQNQKPIIKEVTEKDD;locus_tag=LOCUS_09450;note=WP_001045361.1 N-6 DNA methylase (Helicobacter pylori) [pid:31.2%25%2C q_cov:93.6%25%2C s_cov:33.0%25%2C Eval:8.5e-17%2C partial hit],MGA_947
sequence1	MetaGeneAnnotator	CDS	564401	564667	.	+	0	ID=MGA_948;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNFDDENKIACINAKKNNNGIGGYCYNPKKIFKPKRFTVVSQGDGGAGMTYFQDDYFCATTSVFVLKPKFEVNVNVGIFIAKICSLK;locus_tag=LOCUS_09460;note=MGA_948
sequence1	MetaGeneAnnotator	CDS	564879	565490	.	+	0	ID=MGA_949;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQSKNITELRTFNSWLKDGINVKKGSKAFYVLSHLKLCKEHQYAKNCPLECKEQFFKYKKVVLFDATQTDMKELEINKIMKIKEEKIKNNKEFTPLVNFLKSVKPFDLEFAMSTEGEGGFTNGEKIVISLDLKDEYRFNTLLHEFGHHYLDHAVDGKGYEGHVRGIKERFYMKLIYILMISKIKIELLILFMILKLKNLDII;locus_tag=LOCUS_09470;note=MGA_949
sequence1	MetaGeneAnnotator	CDS	565644	566204	.	+	0	ID=MGA_950;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSDYLRSIAKEEMANYYESFFVDLTKYFFELNPLTSVEFIVPNYKDKNGVWKKINLNYNMFIKNGFNLYPKTLLISRLDYNGGNAPYPPNINLNYKNISNINYDTNLNYYSYLNSKDIIGQYIKVGSTNYLNEIKAYTIDKNVQGFNSVTAKIESTVLNTGNANNIESKKSNFYGFNFVIYNSDD;locus_tag=LOCUS_09480;note=MGA_950
sequence1	MetaGeneAnnotator	CDS	567407	567619	.	+	0	ID=MGA_951;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIIQVQNLKKEFGKKIAVFNLSFDVYEGEIFALLGTNGAGKSTTMEIITKMINSTSGSVNIFGKNINTN;locus_tag=LOCUS_09490;note=WP_001093836.1 ABC transporter ATP-binding protein (Bacillus) [pid:50.7%25%2C q_cov:95.7%25%2C s_cov:21.5%25%2C Eval:7.6e-14%2C partial hit],internal stop codon at [567617:567619](+),MGA_951
sequence1	MetaGeneAnnotator	CDS	567695	567928	.	+	0	ID=MGA_952;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELFYDLYNLDKKQKGEILDKLILDFELTEFAKIKAKKLSGGLKRRLSIAVALITQPKILILDEPTTGLDVISRKLL;locus_tag=LOCUS_09500;note=WP_002681925.1 ABC transporter ATP-binding protein (Treponema denticola) [pid:51.9%25%2C q_cov:100.0%25%2C s_cov:32.0%25%2C Eval:3.2e-12%2C partial hit],internal stop codon at [567617:567619](+)%2C[567926:567928](+),MGA_952
sequence1	MetaGeneAnnotator	CDS	567962	568135	.	+	0	ID=MGA_953;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIIITTHYLEEAAEYADRVAIMHNSYLKIIDTVENMLEKTKTSSFDDAFIKITEGI;locus_tag=LOCUS_09510;note=WP_011836790.1 ABC transporter ATP-binding protein (Streptococcus sanguinis) [pid:42.9%25%2C q_cov:98.2%25%2C s_cov:23.2%25%2C Eval:3.7e-08%2C partial hit],internal stop codon at [567926:567928](+),MGA_953
sequence1	MetaGeneAnnotator	CDS	568136	568843	.	+	0	ID=MGA_954;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010956797.1;translation=MNFQRIFAFSKKNLIELLTDKIAIFMTILFPFIFLIFFLIIGVLRIPETNHLEYFYRTLTISTLFAYVLLCLYIVSAISKEKKTGLLKRIAISPIKPVEIIIGYSIPYIILGYFEFLFLSIITFCFGMNFNVSFLLNFIILIPILLFFISFAILFGSLVNEKMAGVVGIIVTGGIFIFTPYFLDISINSVDAMSIISYILPFANIYDSIFKSITSEFNFIIVNIFITIIYSCLFV;locus_tag=LOCUS_09520;note=WP_010956797.1 ABC transporter permease (Treponema denticola) [pid:21.8%25%2C q_cov:96.6%25%2C s_cov:94.2%25%2C Eval:9.0e-11],MGA_954
sequence1	MetaGeneAnnotator	CDS	568932	569174	.	-	0	ID=MGA_955;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008362910.1;translation=MANIKSQEKRILTNEKSRLANKAFRSKVKTAIKKALVAKSEDLKEKDVLVSEAVSLIDKSVTKGIYKANKAAREKSRLMK;locus_tag=LOCUS_09530;gene=rpsT;note=WP_008362910.1 30S ribosomal protein S20 (Mycoplasma mycoides group) [pid:75.9%25%2C q_cov:98.8%25%2C s_cov:97.5%25%2C Eval:1.5e-25],MGA_955
sequence1	MetaGeneAnnotator	CDS	569371	569568	.	+	0	ID=MGA_956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFVQSKDDFLVKKQVNKLIEKININNQYEIYEYSLIDDSVIKILEEIKTYSFFSNKKIIIINDC;locus_tag=LOCUS_09540;note=MGA_956
sequence1	MetaGeneAnnotator	CDS	569593	570021	.	+	0	ID=MGA_957;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKDFDIKYIEEIFNIKNTEVEIIMSLNSEKFSKKLKIAKLTEQNVRLFKIELPTYNQKKDIFIRKMQKANIDFDHKSVDLFIEKIPESMQIFSNEIDKLLSLNKYIDNNLIEEIVSKYYSYDTFEIANCFISNDISNFLTQ;locus_tag=LOCUS_09550;note=WP_013448044.1 DNA polymerase III subunit delta (Mycoplasma leachii) [pid:30.9%25%2C q_cov:97.9%25%2C s_cov:44.0%25%2C Eval:6.3e-14%2C partial hit],internal stop codon at [569566:569568](+)%2C[570019:570021](+),MGA_957
sequence1	MetaGeneAnnotator	CDS	570037	570321	.	+	0	ID=MGA_958;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNDIFSFIALLSSNFILLRNILLCKKLNYSNNEIFSKLNVNPYRMTKLLEKNRLNIEQINDKIKVMYSLEKNIKNGKYDSKVIPEIKFLKMFF;locus_tag=LOCUS_09560;note=WP_013448044.1 DNA polymerase III subunit delta (Mycoplasma leachii) [pid:33.0%25%2C q_cov:96.8%25%2C s_cov:28.5%25%2C Eval:1.1e-07%2C partial hit],internal stop codon at [570019:570021](+),MGA_958
sequence1	MetaGeneAnnotator	CDS	570362	570541	.	+	0	ID=MGA_959;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEANKIYQNSITTLANLIKNEKLRTNLLYLIELKTQSIQIINNLLVLELEHECTFKDKK;locus_tag=LOCUS_09570;note=MGA_959
sequence1	MetaGeneAnnotator	CDS	570566	571006	.	+	0	ID=MGA_960;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILKEKIKFEKQDNKSLEDILSDIVFFQTYCFNNLQVSRDELTNESFEITEDFVKENSKITEELKAKYGETVTPEPEVVDKQKEKPNDKKSNKTAGAGIGGGPIPGFNSQFNNTFTQNGNLPLHPLQDQRFYPYNGKPKYMKYFK;locus_tag=LOCUS_09580;note=WP_011167095.1 hypothetical protein (Mycoplasma mycoides) [pid:26.8%25%2C q_cov:95.9%25%2C s_cov:31.1%25%2C Eval:4.2e-11%2C partial hit],internal stop codon at [570539:570541](+)%2C[571004:571006](+),MGA_960
sequence1	MetaGeneAnnotator	CDS	571226	571465	.	+	0	ID=MGA_961;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLMIGWIVYTIVQPPKIYKEKFMIPGMTLVVPSMFIFMMIFSFLNGFKFLFGTDIQLSVLASYFGNEILGKEGDALNT;locus_tag=LOCUS_09590;note=MGA_961
sequence1	MetaGeneAnnotator	CDS	571664	571804	.	+	0	ID=MGA_962;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITAAMQGQKYEIDSSIYEPQDEIDAFNEELKNRQEKKKYDQEDEQ;locus_tag=LOCUS_09600;note=MGA_962
sequence1	MetaGeneAnnotator	CDS	571879	572139	.	+	0	ID=MGA_963;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166305.1;translation=MSYYYKHKYGFSTHSIQRIRQRLSLPDEEEFKLKDKIIKLIEKSTYSFDTSKFTYIKTPKKDVYFVIDIITNTIITATPISASKQL;locus_tag=LOCUS_09610;note=WP_011166305.1 hypothetical protein (Mycoplasma mycoides group) [pid:41.9%25%2C q_cov:100.0%25%2C s_cov:94.5%25%2C Eval:8.5e-13],MGA_963
sequence1	MetaGeneAnnotator	CDS	572174	572947	.	+	0	ID=MGA_964;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKKNLILPTDFLTNWLSENDDGTLSFKYIDFASDNIEEIEIENEPFIKVLFDNFDNFDSNKILNQFNQIAKVARAIVIKRIKKANGEINLTGKEVLFLKYFYFLITLINGEYKYAFENVNQKYRVFDVLNEEVDLKIRVTILNVLSYVLFEMYDYIFSQRTFESLYEYVENSSVNFDYQEYQKRIIVPIEALRNQNYKFVDVYFHNIVNNTFFKFFEVNQLDRSGFLLTNKTIANFIDDRTKFNILSLFVVDPR;locus_tag=LOCUS_09620;note=MGA_964
sequence1	MetaGeneAnnotator	CDS	572996	573214	.	+	0	ID=MGA_965;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKYLTNNIINKEIIPNCLVPEHKIEENGIYLSGEQRFSFTVFELVENQVKLINDCLTYRDLKTDFEQFLKY;locus_tag=LOCUS_09630;note=MGA_965
sequence1	MetaGeneAnnotator	CDS	573891	574031	.	-	0	ID=MGA_966;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGEINNKIPNKKEIKEKINKNHNINFAFLFFDNNFILSMYISSEL;locus_tag=LOCUS_09640;note=MGA_966
sequence1	MetaGeneAnnotator	CDS	575023	575448	.	+	0	ID=MGA_967;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEMENYTSTDQKFIALIEQLMENSKINLFGKYKHDLVNLIKEYNKALISKDLFEAEIKLEQIFAITFRKEELLAKVGFCLKNRILTNYKYIDENLNVIKRLNEAREFDDIDGYRKICFEIIKQMSPIKPIISSYIEKIIYN;locus_tag=LOCUS_09650;note=MGA_967
sequence1	MetaGeneAnnotator	CDS	575503	575760	.	+	0	ID=MGA_968;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIIGVSGVIGSGKSTMLEHLNKMDGVKVIEADKISKLVLNDESIKEFLRDQISEVIENNEINRSLLRNKVFNDHELNEKFTSKM;locus_tag=LOCUS_09660;note=MGA_968
sequence1	MetaGeneAnnotator	CDS	575764	576081	.	+	0	ID=MGA_969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKEINNLISKLNLNYYKLVFVEAAVITGLQVKFDKTILLEKENNKRIKSVQFRDKRDHQEIESISKFQMEKIKNYKFDFILENNSNKEKFYKDIDNLINKIKK;locus_tag=LOCUS_09670;note=MGA_969
sequence1	MetaGeneAnnotator	CDS	576112	576834	.	-	0	ID=MGA_970;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSFAPKFCPTHLKIHVCELQNVFNKNKEIEEDIGAKVRRLHGTQTEEELKVEDKKREHLPGTLGDILEKAKQRIQEQKNIVGIDNVNEEIGQVVIESEIGDRMAALRAKMSGDSPLSSEEENLVPPITKKAIKKSSIKKETNSKNLSTNLVKKNANAKKATTTKENREKLFTKEETQELIQDAVKEALIQVGIIDEKSGKKKKDINIKKTSSSKAPISKNLQTKNNSQVNKTKKENNEK;locus_tag=LOCUS_09680;note=MGA_970
sequence1	MetaGeneAnnotator	CDS	577134	577301	.	-	0	ID=MGA_971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIHQFNFENNLKDTENNQRHNKNFRNTAINIAKLKIKSRDVRLGFAYTELSEELI;locus_tag=LOCUS_09690;note=MGA_971
sequence1	MetaGeneAnnotator	CDS	577386	577550	.	-	0	ID=MGA_972;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYRIDDLILELHSIHNQLNKILFDNSLQPIKINIETSIRKNRLTLGHFSTSKD;locus_tag=LOCUS_09700;note=MGA_972
sequence1	MetaGeneAnnotator	CDS	577580	577795	.	-	0	ID=MGA_973;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQLSIDQINLDETLNFNEIEKIIYNLNLKFGKEKIFTGEKLLKYMNKNISQSKFLKNDDVHISNNQIIDK;locus_tag=LOCUS_09710;note=MGA_973
sequence1	MetaGeneAnnotator	CDS	577859	578083	.	-	0	ID=MGA_974;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYELSLKVSNRAKQRYLQGSTVSIVLKFLEDNSFEIYNEQKRKKHITKQESISKPTNNVEKIYSIAKECFYEL;locus_tag=LOCUS_09720;note=MGA_974
sequence1	MetaGeneAnnotator	CDS	578531	578890	.	-	0	ID=MGA_975;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIMNSKRIIFLLDMDSFFASCHIAEDQSLINKNLVVSSPNKRGIVTTANYNARKFGIKAGTPVFKAKELCKDLYIVNSDFKLYIKYSEMVFEIIYKYFTKNFEVASIDECYIDVTNI;locus_tag=LOCUS_09730;note=WP_011183225.1 DNA polymerase IV (Mesoplasma florum) [pid:50.9%25%2C q_cov:95.0%25%2C s_cov:30.8%25%2C Eval:4.0e-26%2C partial hit],internal stop codon at [578348:578350](-)%2C[578531:578533](-),MGA_975
sequence1	MetaGeneAnnotator	CDS	579018	579233	.	-	0	ID=MGA_976;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFISVEKILIPLKNIIRENIVGIILIKPQFESDKEDVKKGKINSKEAHMKSITRVLNYCNKNNFSIIDII;locus_tag=LOCUS_09740;note=WP_011183226.1 TlyA family rRNA (cytidine-2'-O)-methyltransferase (Mesoplasma florum) [pid:44.8%25%2C q_cov:94.4%25%2C s_cov:25.1%25%2C Eval:2.8e-11%2C partial hit],internal stop codon at [579018:579020](-)%2C[579336:579338](-)%2C[579465:579467](-),MGA_976
sequence1	MetaGeneAnnotator	CDS	579465	579689	.	-	0	ID=MGA_977;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQRLDQIILDLNLVENRNKARGFIIDGKVLVNDEKITKPGTLFNQEKIKIKLLAQGKEFVSRAGKKLYKAIEE;locus_tag=LOCUS_09750;note=MGA_977
sequence1	MetaGeneAnnotator	CDS	580152	580562	.	-	0	ID=MGA_978;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRIYDQNYFLNKLLKDRKINNLISNQSRKDNLSFFENLQEIRRVLHIKDQTDKRILDEFDELIIIPTGTEETLIRELHIFNKEMYNDFPDFYTLDFENIKKDKYNKKISTPKNILNLSNPYIQDYSSDLERTTDL;locus_tag=LOCUS_09760;note=MGA_978
sequence1	MetaGeneAnnotator	CDS	580564	580785	.	-	0	ID=MGA_979;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKHKENKLFVYEQVIDKNNLFTNIKEYLYNKNDIFSFSFSETNIHHGDKKNILKALKMDIESIVNQIEYEE;locus_tag=LOCUS_09770;note=MGA_979
sequence1	MetaGeneAnnotator	CDS	580930	581811	.	-	0	ID=MGA_980;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIVSIIGDAAFLTGYVHSGLLNLNNVNKKTITILNDNREAIGENALFLKDSKKYIESLGFEYFLCENGHDFKKLFFAIKIAKKAKKHIVIHCLTQKALGYNGERSLVFNHSIENNIENSYSKLIAEYIETKFSKNDFLVCPAMLNSSNFNNLKQKFKNNVIDVGINEEFAILTACAIANSKKKVFISIYSTFLQRIFDQLVHDVFRNNLPMTFLIDRGGLNYGGGISHHGIFDISLINNFKKAIIAQPYSYSDLKRLIDLAYFTNDKQFFIRYENEKTIMNDNKNEFEIGE;locus_tag=LOCUS_09780;note=WP_011962453.1 1-deoxy-D-xylulose-5-phosphate synthase (Flavobacterium psychrophilum) [pid:28.0%25%2C q_cov:98.6%25%2C s_cov:53.9%25%2C Eval:2.1e-29%2C partial hit],internal stop codon at [580930:580932](-)%2C[581875:581877](-),MGA_980
sequence1	MetaGeneAnnotator	CDS	581875	582204	.	-	0	ID=MGA_981;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNKLLTFRELYNNKNIAELEELSQNIRDFLINFVNLNNGHIGSNLGVVELTIAIFAQFDLKNTILLFDTGHQSHVYKLLVNGIKKFKSLKKYNGLSNFQEINESNFD;locus_tag=LOCUS_09790;note=WP_010965377.1 1-deoxy-D-xylulose-5-phosphate synthase (Clostridium) [pid:43.5%25%2C q_cov:97.2%25%2C s_cov:17.4%25%2C Eval:4.6e-19%2C partial hit],internal stop codon at [581875:581877](-),MGA_981
sequence1	MetaGeneAnnotator	CDS	582398	582601	.	-	0	ID=MGA_982;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKNFNQILQEIKIISDKLNDSNTSMEESIELFKKGTELINEAKKQLLSLEGEVKKVLDDNKTEEF;locus_tag=LOCUS_09800;note=MGA_982
sequence1	MetaGeneAnnotator	CDS	582603	582788	.	-	0	ID=MGA_983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSFNDKIELQNPFLPLSKGYSILKQNNTVIKSIKQIDKTKDIVAIINDGEINLTVKGEKK;locus_tag=LOCUS_09810;note=MGA_983
sequence1	MetaGeneAnnotator	CDS	583689	583871	.	-	0	ID=MGA_984;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKVIFKISELNENIKNFVEKTNQFKNINIKGEVSNLTFNKSGHIYFSLKDNEARIDCAI;locus_tag=LOCUS_09820;note=WP_011183228.1 exodeoxyribonuclease VII large subunit (Mesoplasma florum) [pid:53.3%25%2C q_cov:100.0%25%2C s_cov:14.9%25%2C Eval:5.1e-13%2C partial hit],internal stop codon at [583413:583415](-)%2C[583689:583691](-),MGA_984
sequence1	MetaGeneAnnotator	CDS	583894	584061	.	-	0	ID=MGA_985;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNRNIREVMEFLVSKKDLLIMDLKSKKISKQDLMNFYFLYIKIKNCLNEIEFIN;locus_tag=LOCUS_09830;note=MGA_985
sequence1	MetaGeneAnnotator	CDS	584386	584691	.	-	0	ID=MGA_986;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKISQTFNEETIFIFLNNLEQKSYYKTAMLNNLNIFYNIIKNECPIYIVGENKYFNLLKVLTLNEFKNISDFNLNVNKKVVKKLIIKEKKTEITNTLTRY;locus_tag=LOCUS_09840;note=MGA_986
sequence1	MetaGeneAnnotator	CDS	584944	585354	.	-	0	ID=MGA_987;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLNNPLELKEELQKFNNIEKYKIKEMMFKEFKNFIYKIKFEINDIDKKSYLTNAFCEYISLSYINNFENTIFSLKNYKLITNYLENCSKKIEQKVFKNIVIISAKPILKNDQEVNKAIDYITKDLKLNVFIRNLD;locus_tag=LOCUS_09850;note=MGA_987
sequence1	MetaGeneAnnotator	CDS	585549	585773	.	-	0	ID=MGA_988;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKSINELKNRRKKAIQILYRLFLLDNNIDKIKQEILDGFQLKSIDENQNEFLFNLLEQIDLLIEIVSNLLENN;locus_tag=LOCUS_09860;note=MGA_988
sequence1	MetaGeneAnnotator	CDS	586016	586444	.	-	0	ID=MGA_989;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVEEDQFKNLKFNFYYSNGNNLDVENDLISYLGSKFTEYNNEQANKTIYFTYNKTETSESSKLPINITNIPTLNSEFDFNNFTFTDGFYQLDSYFLSSKVTWANISNGTELIQNSTSLKFIKGILKTLQSKNSNLFFERRVS;locus_tag=LOCUS_09870;note=MGA_989
sequence1	MetaGeneAnnotator	CDS	586901	587713	.	-	0	ID=MGA_990;product=deoxyribonuclease IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183230.1;translation=MKKPDFYLGSHVGMNGVGKFLVGSALEAIQNNANTLMFFTGAPQNTRRTETEKLNIKEFKELLIENEIDITKVICHGPYTINLANTVKQETFDFGVRLLKEELIRLEAIGVHLLVLHPGAAVGALKEDALKSVAKGLNLVYKELPNSPVKIALETMSGKGTEVCITFEEIKTVLDLVEQKEKVGVCFDTCHMHDAGYDVKNNFDKVVEEFDNIVGLEKLMAIHLNDSKNSISSHKDRHENIGYGYIGFDALCKVVHNPLFKEIPILLETP;locus_tag=LOCUS_09880;EC_number=3.1.21.2;note=WP_011183230.1 deoxyribonuclease IV (Mesoplasma florum) [pid:55.3%25%2C q_cov:100.0%25%2C s_cov:91.5%25%2C Eval:3.2e-77],MGA_990
sequence1	MetaGeneAnnotator	CDS	588075	588296	.	-	0	ID=MGA_991;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNSDFNEFKKKTNFYYQFTGRVSIGKQLGRQIGFPTINLITPQKILVEPGVYVCDVYIDHLKKHFLGAGCY;locus_tag=LOCUS_09890;note=MGA_991
sequence1	MetaGeneAnnotator	CDS	588360	588497	.	-	0	ID=MGA_992;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNLMTEQQLFDNISNFLSIEKIMIAEDFKSEIEPKFTTKFIKDN;locus_tag=LOCUS_09900;note=MGA_992
sequence1	MetaGeneAnnotator	CDS	588775	589050	.	-	0	ID=MGA_993;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDYIFDLDENLEWEIQKYYVTQGISRCIHLKIAVDKRDNSYKCTKCFTKFIMNEKRVKKFKSRIVLYFDFKDEEKRFISEIKKIKKEEKE;locus_tag=LOCUS_09910;note=MGA_993
sequence1	MetaGeneAnnotator	CDS	589938	590096	.	-	0	ID=MGA_994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGISIGAVLGLSMLEIATVFNNVYHVNGLYTKMEICLCVRAKNSDFSENNF;locus_tag=LOCUS_09920;note=MGA_994
sequence1	MetaGeneAnnotator	CDS	590302	590628	.	-	0	ID=MGA_995;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKKDLFDKSSEKILKNQKFYNNLNFINKNLEILMLNDYKDNFINEMSILTKEKNYKILNFLYKYKNDQKIIDEILNLNLLTKKTINILINLAIPKEVLKILINNFD;locus_tag=LOCUS_09930;note=MGA_995
sequence1	MetaGeneAnnotator	CDS	590960	591217	.	-	0	ID=MGA_996;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIANNIEINQNNFLSFRDKIDYIDQNIYLFKQSIAYNMYNQKQILILDELTANLDSIKKNDIEKLVLSQKGKTAIMVSPNFTEEN;locus_tag=LOCUS_09940;note=MGA_996
sequence1	MetaGeneAnnotator	CDS	591443	591643	.	-	0	ID=MGA_997;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIPLKMFVVLFSASILAAVVYLYLNGGLSIANVILMSSVSEAFISLVISSGIYFGQIKNGRYLNK;locus_tag=LOCUS_09950;note=MGA_997
sequence1	MetaGeneAnnotator	CDS	591628	591861	.	-	0	ID=MGA_998;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLVSNILYKKFNKAIFEYIQNYGIYVNGLMSTLLGIKVFYFGNRIKKFKEKITLTYQLDKKIIINLQKYMELWIFL;locus_tag=LOCUS_09960;note=MGA_998
sequence1	MetaGeneAnnotator	CDS	591969	592154	.	-	0	ID=MGA_999;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKVIAKYFQDVTLSLINFDLRKRVTKQFINLDYTQTIKKKLVKLLITIVSMFQQFQDKFI;locus_tag=LOCUS_09970;note=MGA_999
sequence1	MetaGeneAnnotator	CDS	592321	592650	.	-	0	ID=MGA_1000;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLDYLIENSNEGLETQIGGISQKISGGEKQRIALAKALYSDKKFLLLDESTANLDPNTKNEIEKLILEDKQLTVIMISHDFTSENLKLIDKQIELKGIKENENIIIEN;locus_tag=LOCUS_09980;note=WP_002680518.1 ABC transporter ATP-binding protein (Treponema denticola) [pid:44.2%25%2C q_cov:87.2%25%2C s_cov:17.1%25%2C Eval:1.7e-13%2C partial hit],internal stop codon at [592744:592746](-),MGA_1000
sequence1	MetaGeneAnnotator	CDS	592679	593077	.	+	0	ID=MGA_1001;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYFSGNAILNAIISSNKYISCYIYSISDLKFIKFFFLISFEFIKTSPLFIGSNPIKEFSNVDFPTPLLPVIKYFLFSLKVKDKFLIINESFLFIEIFLNSKVLIFHLLMSLIYSLFFILNFKNKSFEDLKF;locus_tag=LOCUS_09990;note=MGA_1001
sequence1	MetaGeneAnnotator	CDS	593017	593277	.	-	0	ID=MGA_1002;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKKIIVKKNIIEFFTSFFKTAIIIRMFLIVVFLYKFNLVQIGVLLSISLTAITFSTNIFGIFENIQNFKSSKDLFLKFKMKNNE;locus_tag=LOCUS_10000;note=MGA_1002
sequence1	MetaGeneAnnotator	CDS	593421	593657	.	+	0	ID=MGA_1003;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSNFEEIVKITNNIKIEIKPNKDNHGLKINIVIKFANNNVEKLNISKIAPYLSFVNTSRSFEYQEIKIAEFISSISL;locus_tag=LOCUS_10010;note=MGA_1003
sequence1	MetaGeneAnnotator	CDS	593612	593845	.	-	0	ID=MGA_1004;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANLSKIGNYNTKEIIILVSIIITTSIIGFCFYFLNYYIVIKVKTLFRENIKVRITNKILNLSYSEIEEINSAIFIS;locus_tag=LOCUS_10020;note=MGA_1004
sequence1	MetaGeneAnnotator	CDS	594496	594762	.	+	0	ID=MGA_1005;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFNSFSIRTNKSTRQITLNKIPDTEMDFLQNFKDKKINEIFNNFNKIYNNLFSIFIDKNTEKQKLDQTIQVLSFLSKTEPDIILTIL;locus_tag=LOCUS_10030;note=MGA_1005
sequence1	MetaGeneAnnotator	CDS	595208	595417	.	-	0	ID=MGA_1006;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEIYKEDLEILKKSKPDFIAFNYYASGTAEMSYENDNFKTLTDQQKVRSIKGVYRQVYNPNLQKTQFG;locus_tag=LOCUS_10040;note=WP_011183514.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:53.0%25%2C q_cov:92.8%25%2C s_cov:14.2%25%2C Eval:9.3e-12%2C partial hit],internal stop codon at [594992:594994](-)%2C[595208:595210](-)%2C[595490:595492](-),MGA_1006
sequence1	MetaGeneAnnotator	CDS	595490	595729	.	-	0	ID=MGA_1007;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIFGEIVGVKFGEGKERLKNTYQVNHHMMLAQAKAMDICHQTVKNGKIGSAPNIAAIYPNTNKPEDQIAALNMKIFRN;locus_tag=LOCUS_10050;note=WP_010890696.1 glycoside hydrolase family 1 protein (Clostridium) [pid:51.9%25%2C q_cov:100.0%25%2C s_cov:16.8%25%2C Eval:1.1e-17%2C partial hit],internal stop codon at [595208:595210](-)%2C[595490:595492](-)%2C[595754:595756](-)%2C[595835:595837](-)%2C[595991:595993](-),MGA_1007
sequence1	MetaGeneAnnotator	CDS	595835	595981	.	-	0	ID=MGA_1008;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKGFGKINKDGINFYNNIINELLKYNIIPIVTMYHFDLPNELEKNGG;locus_tag=LOCUS_10060;note=WP_211477783.1 glycoside hydrolase family 1 protein (Bacillus cereus) [pid:62.5%25%2C q_cov:100.0%25%2C s_cov:10.2%25%2C Eval:8.7e-13%2C partial hit],internal stop codon at [595754:595756](-)%2C[595835:595837](-)%2C[595991:595993](-)%2C[596054:596056](-)%2C[596192:596194](-),MGA_1008
sequence1	MetaGeneAnnotator	CDS	596214	596423	.	-	0	ID=MGA_1009;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIISEIETLLENSKLIIDEKLLKNILLTYQNAINNLEISYEVIKEQEIDYFIFKKFFKENRKIKQNVK;locus_tag=LOCUS_10070;note=MGA_1009
sequence1	MetaGeneAnnotator	CDS	596475	597035	.	-	0	ID=MGA_1010;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGSFGALIGATVGGILDVHQVSRTGTGVMSYIGLGLDSNLIMGLIASAISITSAFLITFILYIDRKSEVKEFNKVSNLLFKVIISSNNIEKNDFKIINLKKELENIKNKIKLENNYKLYEKNLISLSNKEIKLQRTNEIFTTHKDKLYNRAIKNIETNKEKYNLLATNYNNYQRDEKFEKIKLEI;locus_tag=LOCUS_10080;note=MGA_1010
sequence1	MetaGeneAnnotator	CDS	597042	597242	.	-	0	ID=MGA_1011;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQTPVEPSVMYAALQIAIVGQIGATIAVAIRTKNNKIKQACFDGLPGSIFGITEPIIYGVNLRKF;locus_tag=LOCUS_10090;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:51.6%25%2C q_cov:93.9%25%2C s_cov:7.2%25%2C Eval:2.1e-11%2C partial hit],internal stop codon at [597042:597044](-)%2C[597300:597302](-)%2C[597480:597482](-)%2C[597492:597494](-),MGA_1011
sequence1	MetaGeneAnnotator	CDS	597300	597479	.	-	0	ID=MGA_1012;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSAIDVVFRTAFVVFVSFIIIMFTVGPFFRIIEQLISQFVILLEKIPYGLGLGIFAML;locus_tag=LOCUS_10100;note=MGA_1012
sequence1	MetaGeneAnnotator	CDS	597597	597812	.	-	0	ID=MGA_1013;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSGVLKNPASPSEVMNHDIASALFYVGSRVGIELIGVAFLYSTVKYLKGETSMALLLALLLTSRYIFGAG;locus_tag=LOCUS_10110;note=MGA_1013
sequence1	MetaGeneAnnotator	CDS	598025	598699	.	-	0	ID=MGA_1014;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVNVYSPFDGYVKKIEEISDSAFASKSLGDCVFIIPENNIMTSPLDNAKIELIADTKHAYYFSNKYFNLLVHVGLDTVNLEGKPFELLKTLGDKVSKKSEIMKLDKSSISSHISLETSILIETLNFKKYKINLKKINQTVKQGDLLFEIDFERKEVNTSDLVKMDREINKYVDTAQKILSAIGGKENQTNFYNCMTRLRFKIRNKDLVDETKIKNISIVKGIN;locus_tag=LOCUS_10120;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:41.6%25%2C q_cov:100.0%25%2C s_cov:26.5%25%2C Eval:1.4e-42%2C partial hit],internal stop codon at [598025:598027](-),frameshifted%2C insertion/deletion at around 597907,MGA_1014
sequence1	MetaGeneAnnotator	CDS	598789	599319	.	-	0	ID=MGA_1015;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKDIIILKKNFNESYKLNKTIFDYFHSLILKNNDFSQKLIEKIIKTKKIIIVSSYQLIPCAKYANDIFSEIGIEVLFSEIRIISDKIVANNIKNTPVLLLLAGQDNTFLVEFINFLNKDCKKENLFIISSESQSNKINLFNDKFVIYNNEKYINFKYRKICIDYILLTLQSMIV;locus_tag=LOCUS_10130;note=MGA_1015
sequence1	MetaGeneAnnotator	CDS	599309	599536	.	-	0	ID=MGA_1016;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIRELLVDLSKSNSKSSYKSIATIILKNYNTGIFKNQIELAKECFVSESVLTKFAKKLGFSGFREFNFSLKNEY;locus_tag=LOCUS_10140;note=WP_011182929.1 transcriptional regulator (Mesoplasma florum) [pid:52.5%25%2C q_cov:78.7%25%2C s_cov:24.5%25%2C Eval:3.6e-11%2C partial hit],MGA_1016
sequence1	MetaGeneAnnotator	CDS	600008	600151	.	-	0	ID=MGA_1017;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLHRSATSIGQYSSAFIQAMGTVTSVFVARKVGENNKQGAYEVAINC;locus_tag=LOCUS_10150;note=MGA_1017
sequence1	MetaGeneAnnotator	CDS	600224	600808	.	-	0	ID=MGA_1018;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKKVSHFEKIKTPFYKIDNVKDIAIMAISIFIQLLFNILISQINLIALNHYKDEVYAGAVAKATLSYNTLQFIPSLIATGAIVVAGNLIGQGKKEEVSKVVVTGLLVNFTITGVIFISIEAAANEIGYLMGASNNTQIIYNNVILEPNELKFVADYYRYMNIKLIMMSLPQVFIAGLQSMKKSTVVTIEMGV;locus_tag=LOCUS_10160;note=MGA_1018
sequence1	MetaGeneAnnotator	CDS	601060	601191	.	-	0	ID=MGA_1019;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEKYNNMKKPDLENNLKEKEIEYKNIFKKEKEVNKKLKKNLF;locus_tag=LOCUS_10170;note=MGA_1019
sequence1	MetaGeneAnnotator	CDS	601214	601429	.	-	0	ID=MGA_1020;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYNPDFTKKLEATEKMVHFIQDTKNIYSSLEGVGIEAHKSVFLSQTNELKIIFQSMNNLINEILKALVSN;locus_tag=LOCUS_10180;note=MGA_1020
sequence1	MetaGeneAnnotator	CDS	601625	601900	.	-	0	ID=MGA_1021;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIELVDFRKIIFKFYEKDIKNFITSPDFEVSQEQKEELEAIAKTEDSKTLLEGLDNFFNKYQESSSMDFNLMLTLLLQRYHYFNNAVIQ;locus_tag=LOCUS_10190;note=MGA_1021
sequence1	MetaGeneAnnotator	CDS	602013	602318	.	+	0	ID=MGA_1022;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLGTVLASIIGYFIGSFSFSITIVKFKANKDVREFGSKNAGATNASRIIGKSWGVAIMLLDLTKILFTAVVAMLINLIPSDLFNQTSFIIPGIIALIGHC;locus_tag=LOCUS_10200;note=WP_011166321.1 glycerol-3-phosphate 1-O-acyltransferase PlsY (Mycoplasma mycoides) [pid:59.0%25%2C q_cov:99.0%25%2C s_cov:38.8%25%2C Eval:1.3e-29%2C partial hit],internal stop codon at [602316:602318](+)%2C[602496:602498](+),MGA_1022
sequence1	MetaGeneAnnotator	CDS	602980	603528	.	-	0	ID=MGA_1023;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQIFSCKKFKNTNSFLIYNEEGKGILIDTCYLSYTDILSFILEKNIKITDIFITHGHFDHFYGINEICENQNHPNVYISKDDLLFLFDPRKNTSLLYEEIDLYAAKPIKNLKVISNDIKTLINGYNINIYLKIGHTNGSLIFDFEELNCLFIGDLIYNEFDGLNLSQNDKIKEKEILRTMK;locus_tag=LOCUS_10210;note=WP_011183552.1 MBL fold metallo-hydrolase (Mesoplasma florum) [pid:34.2%25%2C q_cov:86.3%25%2C s_cov:66.2%25%2C Eval:8.9e-17%2C partial hit],internal stop codon at [602980:602982](-),MGA_1023
sequence1	MetaGeneAnnotator	CDS	604019	604249	.	-	0	ID=MGA_1024;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGANYILDRFHAVREFRKLFLFSGKYHGKELFKIAIDLFYSGNYDDLIELLEIEAPKEVFKYFKNNKVGIINQGTK;locus_tag=LOCUS_10220;note=MGA_1024
sequence1	MetaGeneAnnotator	CDS	604513	604692	.	-	0	ID=MGA_1025;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPEAQLSPMTISRIFKSIENQDKRNKVERKVNLVDKQRVYIFVDDAFVNVDRFKNKYK;locus_tag=LOCUS_10230;note=MGA_1025
sequence1	MetaGeneAnnotator	CDS	604816	605019	.	-	0	ID=MGA_1026;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFNRKEEYKYLLNKRKEEIETRDMELLENRDKKRYILVKVKSRTITTEFENLTFDRHIYKHYINKK;locus_tag=LOCUS_10240;note=MGA_1026
sequence1	MetaGeneAnnotator	CDS	605403	605630	.	-	0	ID=MGA_1027;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVISCSNDKLSYSLTNEDLSLITEISKKIDNFNIEKSIIVKDFFDKLDDQKVEIFNSFKNEKINFYSEKEFENK;locus_tag=LOCUS_10250;note=MGA_1027
sequence1	MetaGeneAnnotator	CDS	606083	606328	.	+	0	ID=MGA_1028;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLFLVVLIVNESEIVFFSEILVVPFKIFSKLKYKLFNLTLIESLNFQIPVPSSSIVPVHIGLVCSSKNQGNKILLSSFKP;locus_tag=LOCUS_10260;note=MGA_1028
sequence1	MetaGeneAnnotator	CDS	607002	607292	.	+	0	ID=MGA_1029;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISIGLTQMGIKSLLDIISGNNSMPSFVSPNTFKFESKNELGAVIFNFFNSRESNCLPILKIALLLSRAAHVFRSTISIFLFPFILSVNGLSASIF;locus_tag=LOCUS_10270;note=MGA_1029
sequence1	MetaGeneAnnotator	CDS	607211	607474	.	-	0	ID=MGA_1030;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGEVDIAQYEKENVYSYLDLTGSLNFENGKTFKYSRNKLYMVSEFILETDDDITNFGYLIQKIDADSPLTDNMNGNKNIEIVDLNT;locus_tag=LOCUS_10280;note=MGA_1030
sequence1	MetaGeneAnnotator	CDS	607526	607738	.	-	0	ID=MGA_1031;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNPMTLNPNEIIYEEDDQIESLPSGQRKTYYLYELKKLIKGKTDSLLTFSPNSVNLVIIYKDEYLKFET;locus_tag=LOCUS_10290;note=MGA_1031
sequence1	MetaGeneAnnotator	CDS	607827	607946	.	-	0	ID=MGA_1032;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKIRKKIDPVNYHRFKKDIEENYQKIEEEYNELAKQNG;locus_tag=LOCUS_10300;note=MGA_1032
sequence1	MetaGeneAnnotator	CDS	607993	608145	.	-	0	ID=MGA_1033;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLEQQKGISIKYEDVQQSKLINSNLLEELDTLKNQLEETTHKANSSYDK;locus_tag=LOCUS_10310;note=MGA_1033
sequence1	MetaGeneAnnotator	CDS	608303	608518	.	-	0	ID=MGA_1034;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTLIPGASGALLHNFHKFIPSKKAKFTVNAIIKLIPVITLIVCWYLIKTEKKIVQLKRLEKQDGSTTKMN;locus_tag=LOCUS_10320;note=MGA_1034
sequence1	MetaGeneAnnotator	CDS	609461	609616	.	-	0	ID=MGA_1035;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLITDKNVKQTFSNNSGYSIEENQTRETNHYQDIFTPSAIKALNQTQIKQL;locus_tag=LOCUS_10330;note=MGA_1035
sequence1	MetaGeneAnnotator	CDS	609697	609960	.	-	0	ID=MGA_1036;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVMMGMHLPIITILTAVAQKDGGVSFLQSAVGMTQWGCLGAIIGLAIISKNNKTKNDSIAAIPSGIFGITEPAIYGVLFSLMNYFLT;locus_tag=LOCUS_10340;note=WP_000367320.1 sucrose-specific PTS transporter subunit IIBC (Bacillus cereus) [pid:37.9%25%2C q_cov:98.9%25%2C s_cov:19.0%25%2C Eval:5.3e-07%2C partial hit],MGA_1036
sequence1	MetaGeneAnnotator	CDS	610301	610642	.	-	0	ID=MGA_1037;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVPLIPVLIASVMMMGIVSILQIAKVMPNVLYETPPNGIIPEGSVLLKDANVFLAILKVISDAPLKFLDLFAAITAANYFGLSPIIGSAIGLVIANPILFNGGSTVNGLYGTE;locus_tag=LOCUS_10350;note=WP_011182905.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:28.8%25%2C q_cov:96.5%25%2C s_cov:12.6%25%2C Eval:2.8e-08%2C partial hit],internal stop codon at [610145:610147](-)%2C[610157:610159](-)%2C[610250:610252](-)%2C[610301:610303](-)%2C[610802:610804](-),frameshifted%2C insertion/deletion at around 610024,MGA_1037
sequence1	MetaGeneAnnotator	CDS	610802	611275	.	-	0	ID=MGA_1038;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHIGLDTVKLNGKPFNQYVKLGDTVNLNTKIVDVDLQSIKNEGYEYSCPITIDNQNKNINYEFIFKNKLNYKKGELIGTFIANVKNEEINLNIDLESYFNQKDFYSQLALKLNTLVGSKDNYSKVYNCITRLRFTVINKTNVKESEIKNTEGVKGLI;locus_tag=LOCUS_10360;note=WP_011182905.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:40.9%25%2C q_cov:100.0%25%2C s_cov:18.2%25%2C Eval:9.6e-26%2C partial hit],internal stop codon at [610802:610804](-)%2C[611390:611392](-),MGA_1038
sequence1	MetaGeneAnnotator	CDS	611268	611483	.	+	0	ID=MGA_1039;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCIKIFTFSFISKKYACFLSVTNDNFEFFNGELKKPFSGSIQKPFPSILVENNPSFNSFKSCAIQSTGTYI;locus_tag=LOCUS_10370;note=MGA_1039
sequence1	MetaGeneAnnotator	CDS	611685	612047	.	-	0	ID=MGA_1040;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLKKSSNKIIYKKNFLIININKKSETKINMLKISLITFFAGIITSLTGMSGGPIIMPALVLLCYLNMKEAAPISHTIIMISSLINLIIKNENFTNSSITLNFLLPLSFAAIISTVSAFF;locus_tag=LOCUS_10380;note=MGA_1040
sequence1	MetaGeneAnnotator	CDS	612022	612324	.	-	0	ID=MGA_1041;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTIEIVILLLFLTLLVSFLGSISGVGGGVLYVPLLLVILTTYALEEIKFISTFLVFISATFNVILECFKKNINYIIIIFLTIVTILLILSEYVFKKKFK;locus_tag=LOCUS_10390;note=MGA_1041
sequence1	MetaGeneAnnotator	CDS	612937	613173	.	-	0	ID=MGA_1042;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNEQIKDKTVDNDSPALLVKVNDFKISETPITNLEFKEFIDKTNYITDAQKFGFSYVFFSLLNDEQRKKYSKVPNAD;locus_tag=LOCUS_10400;note=MGA_1042
sequence1	MetaGeneAnnotator	CDS	613616	614515	.	-	0	ID=MGA_1043;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIWLFGSIGLFSFPSITVVSCEEKQKNEDLRLDLENLDLKINAGSKKEFILEQVLENLNKLNNKNVFTADNFSISYENESFDNGFLVGDKIITISANNNVNNILKGVKKIKSSFLELDELNFVPNAGFLKEEIENNFQNSISLFFNKFNYFSKNDFNFIYEKNSFNLLNDQIMENKNLIVECKANNKFFRGSKEYITQKFDIFNFSVIIQAGNKRNDILELVKNQLNLLLKIDRVSYEKDFMIDFLKDSAIENDIIIANKEVTIIAIEDSDFFKGSLTVQTTKKAVIIGTTDQEFK;locus_tag=LOCUS_10410;note=MGA_1043
sequence1	MetaGeneAnnotator	CDS	614608	614817	.	-	0	ID=MGA_1044;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYCKESFLYLTDLDKKIKEKEVIAKKRKSEFEKKIGAKNYLEEEIEFYKRETQDLEFEIEIIRKIIKD;locus_tag=LOCUS_10420;note=MGA_1044
sequence1	MetaGeneAnnotator	CDS	614948	615154	.	-	0	ID=MGA_1045;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILFCKYFSILKMENNSLMLFGEKVVTFEILKSFKNFVICKNSNSKFKKIIFIRMIFKKSFLYKSFEK;locus_tag=LOCUS_10430;note=MGA_1045
sequence1	MetaGeneAnnotator	CDS	615466	615849	.	-	0	ID=MGA_1046;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWAYPKYDHVTQSGQIESDLSVEFLPSIRFEQLKVGTNLTNKFNFLINKGVLNKSDLQSNISRELKKGPKLSNTKFDFNYSDTNFKKNLYFNKSFIEYQLNLSDYDEIQGYKNLINLIKIYSRGELK;locus_tag=LOCUS_10440;note=MGA_1046
sequence1	MetaGeneAnnotator	CDS	615928	616095	.	-	0	ID=MGA_1047;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNNRNKLGLKTGQYSLDVDNTFNLPKSEPGILGYMQMALLLQGSPSFLKYVITG;locus_tag=LOCUS_10450;note=MGA_1047
sequence1	MetaGeneAnnotator	CDS	616897	617295	.	-	0	ID=MGA_1048;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNKEELEEIGIEVNYGFAEFIYASGSKLSNGMYNPYGINRTLLVPDKMTSNKALNNAIKNRIYIVYISFKSNDFSKYLSTSNESIKAKFKVFSSNQENLNIFSNILDININALNLSFDNTVSDYNLFHFPE;locus_tag=LOCUS_10460;note=MGA_1048
sequence1	MetaGeneAnnotator	CDS	617365	617673	.	-	0	ID=MGA_1049;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKFLIFTILVFQTALLILIIVTFALKKDLTRDVFLEGCEHSSETSTDISNEKIHSFAADGLENFALYTTNEKSNNLENASFYGNYDNYSYCDNSNYSIDL;locus_tag=LOCUS_10470;note=MGA_1049
sequence1	MetaGeneAnnotator	CDS	617865	618203	.	-	0	ID=MGA_1050;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQYNLDNLSTLVKGNLVIIILSKRISLKMIRKYQDLYRLAYLHLMFIKHVEGISQVELADLTDTNTSTMHRNIQSLIKNNYIEKKLSSRANENEIYLTQKGESVVNDIIE;locus_tag=LOCUS_10480;note=MGA_1050
sequence1	MetaGeneAnnotator	CDS	618707	619024	.	+	0	ID=MGA_1051;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFNLYSLSFTMIGDVSIIVVLSYFNFITSGFIAQAYENDLKRKLINKIILQDLHYFNSNKSGQLISTIVKDSSIVTSYIKEAPIIYFLSIITILFSAIVMFNIS;locus_tag=LOCUS_10490;note=MGA_1051
sequence1	MetaGeneAnnotator	CDS	619064	619783	.	+	0	ID=MGA_1052;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIIFITILISNSSTRKISKISQGLDNELSEKIYNIRLIKSVGTFEKEKKNFDDMINHVGKKKKKKFFASEIPSALIIGGIGSFSMASIIFGVFLFYNETQALISIMTSFTAGVIVMTIPIMQLRQIIGDAPQARVSAVNISNLINSEIFIEKNNTLMINEKINSIELKNVGFVYSESNEYVIKNFNINLVRGKKYAFVGPTGSGKSTIAKLLLRFYDPQDGEILINNKLDFKKLNLKS;locus_tag=LOCUS_10500;note=WP_011166618.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:34.0%25%2C q_cov:86.6%25%2C s_cov:34.0%25%2C Eval:1.9e-24%2C partial hit],internal stop codon at [619022:619024](+)%2C[619781:619783](+)%2C[619931:619933](+),MGA_1052
sequence1	MetaGeneAnnotator	CDS	620114	620281	.	+	0	ID=MGA_1053;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGRTTISIAHRLSTIKKFDEIYVLEQNKGIVEIGNFEKLISIDGLFKTLYQLSK;locus_tag=LOCUS_10510;note=WP_011183431.1 ABC transporter ATP-binding protein/permease (Mesoplasma florum) [pid:60.4%25%2C q_cov:94.5%25%2C s_cov:8.3%25%2C Eval:5.1e-10%2C partial hit],internal stop codon at [619931:619933](+),MGA_1053
sequence1	MetaGeneAnnotator	CDS	620930	621064	.	-	0	ID=MGA_1054;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNECHFNINEIKTEKFDIILNYSSNGFKTSNENIIEVKNDGQKN;locus_tag=LOCUS_10520;note=MGA_1054
sequence1	MetaGeneAnnotator	CDS	621232	621432	.	-	0	ID=MGA_1055;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIKSIFVLYLTFIPITFVNSCSNTSFVYDPPVYEKSPNFEKIFLKKVQELYEDGNFKNMEDLI;locus_tag=LOCUS_10530;note=MGA_1055
sequence1	MetaGeneAnnotator	CDS	621481	621792	.	-	0	ID=MGA_1056;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDYLTDEQKQTANYDYFKAFTNKFKNLKFNVNGYDNIKNYSNFSLEKMKLNVEQKVELIKFKKTSFGVYSEVDSDITVRINLNYDLEYKIYGSIGVTGFGSK;locus_tag=LOCUS_10540;note=MGA_1056
sequence1	MetaGeneAnnotator	CDS	622415	622657	.	-	0	ID=MGA_1057;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLLATLFSLGTLTNTVPLLNNQENSINKKEIDQKEDISKFKLKPNSISIKNDEKNIRNYVYLQLIKQYPEDIAFLSDV;locus_tag=LOCUS_10550;note=MGA_1057
sequence1	MetaGeneAnnotator	CDS	622946	623359	.	-	0	ID=MGA_1058;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFAYFFAFYFAVKYGNVMVPGREGKVDFKLFNKADFKAKKEGKGAEAEEARVAKAAKIIEFLGGPDNIVDVDSCASRLRLTVKDSSIADLNGIKALGGTTGSLVKGNSIHIVYGGEQEAIKPRMNKLLEEMRNKSS;locus_tag=LOCUS_10560;note=WP_020862982.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:60.0%25%2C q_cov:95.6%25%2C s_cov:18.8%25%2C Eval:8.2e-40%2C partial hit],internal stop codon at [623393:623395](-)%2C[623549:623551](-),MGA_1058
sequence1	MetaGeneAnnotator	CDS	623393	623530	.	-	0	ID=MGA_1059;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLAAFSFLFAGLLQTHVSMTVSGGFIDYIVFGLIPFFGNNAMGA;locus_tag=LOCUS_10570;note=WP_011183111.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:75.6%25%2C q_cov:100.0%25%2C s_cov:6.3%25%2C Eval:4.9e-13%2C partial hit],internal stop codon at [623393:623395](-)%2C[623549:623551](-),MGA_1059
sequence1	MetaGeneAnnotator	CDS	623549	623827	.	-	0	ID=MGA_1060;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDQNMAYAVNGNLDIMNYTFLQELGLNIGRFQSGKFGFMLFGLPAAGVAMFLNVPKENRKSVMGIYFSAAFTCFLTGITEPLEYTFLFLAP;locus_tag=LOCUS_10580;note=WP_011183111.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:79.3%25%2C q_cov:100.0%25%2C s_cov:13.0%25%2C Eval:4.6e-38%2C partial hit],internal stop codon at [623393:623395](-)%2C[623549:623551](-)%2C[623834:623836](-)%2C[623873:623875](-)%2C[623990:623992](-)%2C[623993:623995](-)%2C[624107:624109](-),MGA_1060
sequence1	MetaGeneAnnotator	CDS	624527	624859	.	-	0	ID=MGA_1061;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIAGIFLGVGAAISSNSPDASFGFYLGSTMNKMGDVCFGNLPILFAISVAMAYTKDSGVAAITAVVGFLVLNGMQAALLHSQTVENNVYAALTDIDGKILGFASYSNGE;locus_tag=LOCUS_10590;note=WP_011183111.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:79.5%25%2C q_cov:75.5%25%2C s_cov:11.7%25%2C Eval:3.9e-34%2C partial hit],internal stop codon at [624362:624364](-)%2C[624518:624520](-)%2C[624527:624529](-),MGA_1061
sequence1	MetaGeneAnnotator	CDS	625571	625768	.	-	0	ID=MGA_1062;product=YneF family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166562.1;translation=MLIGIAAAVVGGIIGFVITRKVIQKQLRDNPPINENQIRAMYRSMGRKPTETDIKKTMNAVKRGK;locus_tag=LOCUS_10600;note=WP_011166562.1 YneF family protein (Mycoplasma mycoides) [pid:68.7%25%2C q_cov:100.0%25%2C s_cov:82.7%25%2C Eval:1.6e-19],MGA_1062
sequence1	MetaGeneAnnotator	CDS	625983	626732	.	-	0	ID=MGA_1063;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNISSIIGGSADLSESTKIKGADGNYDFNNKTGRNIMYGVREFAMSAINNGIALHTGLLPIASGFFVFADYLKPALRMSAIMKIQTLSVFTHDSIAVGEDGPTHQPIEQLAMLRSIPNISVYRPCDMAETLASYYCALNNKTKPSVIVATRQNLKELDHSKDILNEVKKGAYLISKSQNADITLIASGSEVQLALEIKEILENKNHKVNVVSMVNMNEFLLQSKEYQNQIIDKNTKRFSIELSSTFG;locus_tag=LOCUS_10610;note=WP_020862658.1 transketolase (Mycoplasma mycoides) [pid:63.5%25%2C q_cov:96.4%25%2C s_cov:36.6%25%2C Eval:3.1e-81%2C partial hit],internal stop codon at [625983:625985](-)%2C[626733:626735](-)%2C[626817:626819](-)%2C[626895:626897](-)%2C[626985:626987](-),MGA_1063
sequence1	MetaGeneAnnotator	CDS	627183	627632	.	-	0	ID=MGA_1064;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSAGHGSGLLYSALHLSGFDLSIEDLKQFRQLNSKTPGHPEFQHTPGVEATTGPLGQGFAMGVGMALAESHLAAKYNQKDLEIINHFTYVLCGDGDLQEGVCQEAISFAGRYKLNKLIVIHDSNDIQLDAPVNVAQSENIADRFKAAG;locus_tag=LOCUS_10620;note=WP_020862658.1 transketolase (Mycoplasma mycoides) [pid:72.8%25%2C q_cov:98.7%25%2C s_cov:22.4%25%2C Eval:2.4e-57%2C partial hit],internal stop codon at [626985:626987](-)%2C[627183:627185](-)%2C[627651:627653](-),MGA_1064
sequence1	MetaGeneAnnotator	CDS	627651	627812	.	-	0	ID=MGA_1065;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNNKNLNALRILGVEAVNKANSGHPGIILGAAPIVYSLFTKIMNINPKNPT;locus_tag=LOCUS_10630;note=WP_011183246.1 transketolase (Mesoplasma florum) [pid:82.7%25%2C q_cov:98.1%25%2C s_cov:7.9%25%2C Eval:2.7e-19%2C partial hit],internal stop codon at [627651:627653](-),MGA_1065
sequence1	MetaGeneAnnotator	CDS	628124	628276	.	-	0	ID=MGA_1066;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKTNGGDISENNYINFKIFSYLCLDNLIINPLFFSSEFIKTQELDENNY;locus_tag=LOCUS_10640;note=MGA_1066
sequence1	MetaGeneAnnotator	CDS	628407	628709	.	+	0	ID=MGA_1067;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINCKQYQNNLKKYLFASVANARNINIIKKIKEDNIIFRIIIAKLFIIISFSLEIERHNHETIFPLFISEINILLIKITEEIAKNAIVGPANKKFESNVE;locus_tag=LOCUS_10650;note=MGA_1067
sequence1	MetaGeneAnnotator	CDS	628974	629666	.	-	0	ID=MGA_1068;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_106078844.1;translation=MIKIREVSKIINNKIINENININVKKSNIYGILGPNGAGKTTLIRQIMDFIKPTEGEIKLNEIISWNNSKLIMEETEYVAGEIILFDEMTGEKYLNFMKQYKKINENQYIEELILKFDLKDILKIKVKKMSKGQKQKIAIIAALMNKPKILILDEPTSGLDPLMQNVFNEVIQDLVKLGTAVLLCSHIFEEVAKLFNFVGFLKYGKIIKKIEINNKNVNQLEQDFLSLYK;locus_tag=LOCUS_10660;note=WP_106078844.1 ATP-binding cassette domain-containing protein (Mesoplasma coleopterae) [pid:45.2%25%2C q_cov:99.6%25%2C s_cov:92.3%25%2C Eval:2.8e-49],MGA_1068
sequence1	MetaGeneAnnotator	CDS	630480	630650	.	-	0	ID=MGA_1069;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKCQNTSCSREFSYFPHTRYLINKSKVLKVCNKCNQLEIELRLKKLYKGKSQKI;locus_tag=LOCUS_10670;note=MGA_1069
sequence1	MetaGeneAnnotator	CDS	631216	631410	.	-	0	ID=MGA_1070;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRPLQNNVANTDMVSYSKLIGAIEIKYKNIFKINSFMIKNFKDKIQNNKKSIEGLIFKVGRAGG;locus_tag=LOCUS_10680;note=MGA_1070
sequence1	MetaGeneAnnotator	CDS	632277	632399	.	-	0	ID=MGA_1071;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTNLIGNMNFINQNYTSVEVKVIFLVGIYESEGNSYNFF;locus_tag=LOCUS_10690;note=MGA_1071
sequence1	MetaGeneAnnotator	CDS	632442	632621	.	-	0	ID=MGA_1072;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRISILSLVCIFQSSLLSMTNIQTKNNLNESPITNKLQSNVIINSPTNEGFTEGGYSS;locus_tag=LOCUS_10700;note=MGA_1072
sequence1	MetaGeneAnnotator	CDS	632790	633524	.	-	0	ID=MGA_1073;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVDVTITNPVEGVELKAESATIANATVAIKENNKIEITGVAAGDSEITVSYEGATSVKFIVTVEAEAEAEAPVISPIENKTVVIGEKIEVTVEIAHPVDGVEISATSATIANATVAIKENNKIEITGVAAGDSEITVSYEGATSVKFIVTVKAEAEAEAPVISPIENKTVVAGEKIEVTVEIAHPVDGVEISATSATIANATVAIKENNKIEITGVAAGDSEITVSYTGAQDVTFTVTVTAAQ;locus_tag=LOCUS_10710;note=MGA_1073
sequence1	MetaGeneAnnotator	CDS	633858	634007	.	-	0	ID=MGA_1074;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLGLLAATGLVATTSATVVACGDKEVSAAEKLVNDVKEFISKGNDS;locus_tag=LOCUS_10720;note=MGA_1074
sequence1	MetaGeneAnnotator	CDS	634180	634353	.	+	0	ID=MGA_1075;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKSIKTLGELFLIFQVVINNEIKYKRKINIPAVKGAHQVIPKEIIPIKLIIILTDV;locus_tag=LOCUS_10730;note=MGA_1075
sequence1	MetaGeneAnnotator	CDS	634293	634592	.	-	0	ID=MGA_1076;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILIIDYMIFVKPELINIPIMILTIILISDLYVSQYRTFMIVMKNFGYSNKEIFLCIFGLLILTSFFSFLIGASFSYLAIYTSVKIIINFIGIISFGIT;locus_tag=LOCUS_10740;note=MGA_1076
sequence1	MetaGeneAnnotator	CDS	634576	634698	.	-	0	ID=MGA_1077;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGATTKNVVKGVASNFGKVAGVNTVDRFVAKRNKVNDTYY;locus_tag=LOCUS_10750;note=MGA_1077
sequence1	MetaGeneAnnotator	CDS	634705	634950	.	-	0	ID=MGA_1078;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALFKSKGSNAATNALNKATDKIQNFSASDPDGSIEGGKQNVAAAQNIKQKRSGFPSVIGKVTRSATSGVAFAGGLFSRKG;locus_tag=LOCUS_10760;note=MGA_1078
sequence1	MetaGeneAnnotator	CDS	635009	635149	.	-	0	ID=MGA_1079;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLLIVVIFGVSTFALVAPQIIASFTGGEGVTHSEGQNALLSAKTR;locus_tag=LOCUS_10770;note=MGA_1079
sequence1	MetaGeneAnnotator	CDS	635916	636059	.	-	0	ID=MGA_1080;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELIAVVFAPVGLGCGLNYLTNILYSKQILKIENYNNSKVVNSELEF;locus_tag=LOCUS_10780;note=MGA_1080
sequence1	MetaGeneAnnotator	CDS	636863	637255	.	-	0	ID=MGA_1081;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNKTEFEGLFKVGVIITVVLSSLSLGFFLLYALIIILLGIKQGIEFVIATIIVILFLGSFMIGTLVTLILFVKALKNKSTNLKVALGVLGILFSGLIGGILILCAPAELNSGPQMEINKQMDEPVLSE;locus_tag=LOCUS_10790;note=MGA_1081
sequence1	MetaGeneAnnotator	CDS	637703	637834	.	-	0	ID=MGA_1082;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGANYILDRFHAVREFRKLFLFSGKYQGKELFKIAIDLFYSGN;locus_tag=LOCUS_10800;note=MGA_1082
sequence1	MetaGeneAnnotator	CDS	637856	637978	.	-	0	ID=MGA_1083;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKDEKLTTEELAIRIYELGCNFYENFENAKLVVGGDGTT;locus_tag=LOCUS_10810;note=MGA_1083
sequence1	MetaGeneAnnotator	CDS	638099	638278	.	-	0	ID=MGA_1084;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPEAQLSPMTISRIFKSIENQDKRNKVERKVNLVDKQRVYIFVDDAFVNVDRFKNKYK;locus_tag=LOCUS_10820;note=MGA_1084
sequence1	MetaGeneAnnotator	CDS	638402	638605	.	-	0	ID=MGA_1085;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFNRKEEYKYLLNKRKEEIETRDMELLENRDKKKYILVKVKSRTITTEFGNLTFDRHIYKHYINKK;locus_tag=LOCUS_10830;note=MGA_1085
sequence1	MetaGeneAnnotator	CDS	638916	639200	.	-	0	ID=MGA_1086;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYEVSVEIMRQLQEKIKNSNNEKVKQLVTLLKDVFIELDEQKEIIFNKFKQETKDNYIEQEFDKKKQEFDKLEISIVYFNKEYDVLKDETGHG;locus_tag=LOCUS_10840;note=MGA_1086
sequence1	MetaGeneAnnotator	CDS	639695	639829	.	-	0	ID=MGA_1087;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIQKQVATGVSLNNKFLPNGNFVSNFKKINKIELYDVKNKIVD;locus_tag=LOCUS_10850;note=MGA_1087
sequence1	MetaGeneAnnotator	CDS	640664	640861	.	-	0	ID=MGA_1088;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSDVAVKPTDILVLAQSTQKGGSHIMQQGAGFGSFKSTTEEKTNVTKEFTHFLMNKDNMAKLAI;locus_tag=LOCUS_10860;note=MGA_1088
sequence1	MetaGeneAnnotator	CDS	640892	641089	.	-	0	ID=MGA_1089;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEELRLIENNNNKTTGSLNSDISKLDETGTLFVSNRDTGSKIYSFNYFSQGTMLMASGSNSQSFL;locus_tag=LOCUS_10870;note=MGA_1089
sequence1	MetaGeneAnnotator	CDS	641090	641830	.	-	0	ID=MGA_1090;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSIQANEVLPDLYITYADVLAKYKAFAPEKVVDVKEAGYLPNDSIFTPYQETFLDEGVIAGGMYVLPVLKSFDTSSLNLRLLKEMVDIFKDPGTNYDSNGVFMKNELGIKDEKGEDIKIVSSDLFVDGQIVVSENKELYNDIAKANSVNALRKILQLNTNVAQLAKDFKNLQTKNAKNEQNEYAKAFALGIDSMDNKVYSNYANNLGEERIKVTSENKKFLYNYYNDQLYVNNQSGSESVKETVD;locus_tag=LOCUS_10880;note=WP_011182917.1 hypothetical protein (Mesoplasma florum) [pid:29.1%25%2C q_cov:98.8%25%2C s_cov:39.7%25%2C Eval:4.9e-18%2C partial hit],internal stop codon at [641090:641092](-)%2C[641942:641944](-),MGA_1090
sequence1	MetaGeneAnnotator	CDS	643155	643535	.	-	0	ID=MGA_1091;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGSIFAGTEESPGEEIIANGKKYKSYVGMGSLAAMKRGSSDRYFQKGAKKLVPEGVEARVPFKGKLKDVIFQLAGGLKSGMGYTGCKSIENLRHDCKFVKISSAGLRESHPHDVEMTKETPNYNK;locus_tag=LOCUS_10890;note=WP_011183240.1 IMP dehydrogenase (Mesoplasma florum) [pid:75.8%25%2C q_cov:98.4%25%2C s_cov:32.6%25%2C Eval:1.2e-51%2C partial hit],internal stop codon at [643629:643631](-),MGA_1091
sequence1	MetaGeneAnnotator	CDS	643629	644624	.	-	0	ID=MGA_1092;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCTNSLNNKILSEGITFDDVLLVPNYSSILPNEVSLKTKLTNNIELNIPLISAAMDTVTESALAIEMARAGGIGIIHKNLSIEEQSLEVQKVKRNESGFITDPITILKSTTVEEADKIMATYKISGLPVVDNNNKLIGIITNRDLKYIENFFSQVEEIMTKENLIVGNSKTSLAEAKKILHKNRIEKLPIVDEKNNLIGLITSKDIDKAIDHPNACKDSKGRLRVGGAVGVSEDCLQRVEALVKAGIDILVVDSAHGHSKGIIEIVKQIRSKYKDLQIIAGNICTAEGAKALYEAGANSIKIGVGPGSICTTRVVAGVGVPQITAINDVYN;locus_tag=LOCUS_10900;note=WP_011017001.1 IMP dehydrogenase (Fusobacterium nucleatum) [pid:62.5%25%2C q_cov:98.2%25%2C s_cov:66.7%25%2C Eval:8.8e-115%2C partial hit],internal stop codon at [643629:643631](-),MGA_1092
sequence1	MetaGeneAnnotator	CDS	644745	645584	.	-	0	ID=MGA_1093;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESFIEEKVKEIKEIVKDQNVILGLSGGVDSSVAAALISKAINKQLTCIFVDTGLLRKDEGKKVMDLYAKEFDMNIKFVDASEKFYNALKGIKDPEEKRKIIGHNFIEVFSNEARILKNAKFLAQGTIYPDVIESSLKGHSSKTIKSHHNVGGLPDDLKFELLEPLRNLFKDEVRAVGKELNIPDLMINRHPFPGPGLGVRVIGEISKEKCDILKEADDIFINKLIEKNLYNKVSQAFVTLLPVKTVGVMGDNRTYDYVVALRCVNTIDFMTATSTHLP;locus_tag=LOCUS_10910;note=WP_011183239.1 glutamine-hydrolyzing GMP synthase (Mesoplasma florum) [pid:76.5%25%2C q_cov:97.5%25%2C s_cov:53.0%25%2C Eval:4.9e-113%2C partial hit],internal stop codon at [644745:644747](-)%2C[645588:645590](-)%2C[645789:645791](-),MGA_1093
sequence1	MetaGeneAnnotator	CDS	645588	645788	.	-	0	ID=MGA_1094;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHADHVTKMPDNFVQLASSENSVAAIANLSKNIYGIQFHAEVTHSIYGIDILKNFLFDISNCQKD;locus_tag=LOCUS_10920;note=WP_011183239.1 glutamine-hydrolyzing GMP synthase (Mesoplasma florum) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:12.9%25%2C Eval:1.0e-18%2C partial hit],internal stop codon at [645588:645590](-)%2C[645789:645791](-),MGA_1094
sequence1	MetaGeneAnnotator	CDS	645789	646175	.	-	0	ID=MGA_1095;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTQIIILDYGSQYTQLLARRVRELNIYAEVLPFDISADEIQQYKNLKAIILSGGPSSVYANDAYSIDNEIFNLNLPILGVCYGMQLITETFGGKVELADSQEFGKANLNLEKIENKLFKNIENNSQV;locus_tag=LOCUS_10930;note=WP_011183239.1 glutamine-hydrolyzing GMP synthase (Mesoplasma florum) [pid:67.7%25%2C q_cov:99.2%25%2C s_cov:24.8%25%2C Eval:9.4e-44%2C partial hit],internal stop codon at [645588:645590](-)%2C[645789:645791](-),MGA_1095
sequence1	MetaGeneAnnotator	CDS	646286	646477	.	-	0	ID=MGA_1096;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKILERINVLAKIAKERELSSEELKERDELRKEYIKIFRSGLEQQLKNVVVLDEFGNDVTPK;locus_tag=LOCUS_10940;note=WP_000071351.1 DUF896 domain-containing protein (Staphylococcus) [pid:47.5%25%2C q_cov:93.7%25%2C s_cov:74.7%25%2C Eval:3.7e-08%2C partial hit],MGA_1096
sequence1	MetaGeneAnnotator	CDS	646526	646930	.	-	0	ID=MGA_1097;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSVTGIETFFTDTFKENKKHPAAIYFKDLEVINLKSIFEIYEIENHPLEIKELLTQALEPLIMHMATMVNALDPEALIIAGGLTILGEALLEIINENIKKYTIDTSEEELSIEIAELGNDSAMVGSAYYALND;locus_tag=LOCUS_10950;note=WP_011183395.1 ROK family protein (Mesoplasma florum) [pid:36.8%25%2C q_cov:99.3%25%2C s_cov:41.3%25%2C Eval:3.1e-15%2C partial hit],internal stop codon at [646982:646984](-)%2C[647120:647122](-),MGA_1097
sequence1	MetaGeneAnnotator	CDS	647216	647476	.	-	0	ID=MGA_1098;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLILSIEIGVNSSKVGLVNQYGDLQARFFIEHNKAKLLENLHSEIVEGLEAIGVNYEEEIEKIAIATVGYVDHMLGIVRYSANLE;locus_tag=LOCUS_10960;note=MGA_1098
sequence1	MetaGeneAnnotator	CDS	647639	647803	.	-	0	ID=MGA_1099;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLHRTKVNNVNDYFKKNRHSLSPRLLDYNSKFETHSFEFKDTKKIDLHISGLG;locus_tag=LOCUS_10970;note=MGA_1099
sequence1	MetaGeneAnnotator	CDS	647975	648376	.	-	0	ID=MGA_1100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLLVNKIDLFPKAVKKTKILKYVQAFFEDSPIKNAKIILTSSIKQDYVFALVNELKSINYDQYIVGISNAGKSSLINACLKVNNQIPSIVTSKYVNTTLDKIKINFTEKNYIYDTPGLVKHNHIAIATAPSY;locus_tag=LOCUS_10980;note=WP_011183248.1 ribosome biogenesis GTPase YqeH (Mesoplasma florum) [pid:47.6%25%2C q_cov:94.7%25%2C s_cov:34.5%25%2C Eval:7.1e-28%2C partial hit],internal stop codon at [647888:647890](-)%2C[647975:647977](-)%2C[648404:648406](-),MGA_1100
sequence1	MetaGeneAnnotator	CDS	648404	648838	.	-	0	ID=MGA_1101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSKDEFDNIEKELENLEDQVLQINSLKNKTIKVKQKSKVSLTEIKPGIGNTTNLEGNGPKKCVGCGKILQTVDETKPGYVLKIDSQDYCLRCFKIKHYNRLVEQEINDKDFIDIINQINVTTEKIRYYYVVDIFDLPGSRLT;locus_tag=LOCUS_10990;note=WP_011183248.1 ribosome biogenesis GTPase YqeH (Mesoplasma florum) [pid:50.6%25%2C q_cov:56.2%25%2C s_cov:22.5%25%2C Eval:1.5e-18%2C partial hit],internal stop codon at [648404:648406](-),MGA_1101
sequence1	MetaGeneAnnotator	CDS	648825	649238	.	-	0	ID=MGA_1102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILNFIKNVYAHNMEFVLFSNNVKSRVENFAKKAGIKNYFWDCKKPLLGKMKIVKKLFKYKENEIILIGDQLVTDVLVANRSHIKSILVSPLSRNNQENKIVQFLENHILKKLSQKNILHEGFYNEGEIGGNYEIL;locus_tag=LOCUS_11000;note=WP_011836600.1 YqeG family HAD IIIA-type phosphatase (Streptococcus sanguinis) [pid:35.6%25%2C q_cov:75.2%25%2C s_cov:60.9%25%2C Eval:6.5e-13%2C partial hit],internal stop codon at [649257:649259](-),MGA_1102
sequence1	MetaGeneAnnotator	CDS	649257	649406	.	-	0	ID=MGA_1103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANKKNTFLLLNYFKPSIYLESFKKINLDSLKNSGIKLVLCDMDNTLIG;locus_tag=LOCUS_11010;note=MGA_1103
sequence1	MetaGeneAnnotator	CDS	649539	650843	.	-	0	ID=MGA_1104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSSSIVGCEILVPEEYEKVALDTVITNLDLGKIETSDTSTAPTSEKILNFLRTKNSKLDILQVEVDGTPSLTEAVIKVKSGSVSYIEGGSVTVTFTLNSVPKINITTVITNLDLGEILVLDINSPSNAEILLTVQSKNPSLIVTQVEVDGTPSLAEAVIKVKSGSTSYIEGGSVTVTYTLGQKTVALNESIKETNLGEIIVDDITIAPTNDQILAAAKAKNSSLVLSQVEVDGTPSLTEAVIKVKSDAVSYVVGNTINVTYTLVAKVALNSVVTVLELGEIVVDDTTIAPTNDQILAAAKAKNSNLDTSQVEVDGSPSLTEAVIKVKSGSTSYVEGGSVTVTYTLGQKTVALNESIKETNLGEIVVDDTTIAPTNDQILAAAKAKNSNLDTSQVEVDGTPSLIEATIKVKSGSVSYIEGGSVVVTYTLNTATT;locus_tag=LOCUS_11020;note=MGA_1104
sequence1	MetaGeneAnnotator	CDS	651025	651198	.	-	0	ID=MGA_1105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDKTKIKVVIALAIKPKDQIDILQNIAVNSMDEAFFEDLLEYPNLKKVEKLITFNE;locus_tag=LOCUS_11030;note=WP_011166230.1 PTS sugar transporter subunit IIA (Mycoplasma mycoides) [pid:48.1%25%2C q_cov:91.2%25%2C s_cov:36.6%25%2C Eval:3.7e-08%2C partial hit],frameshifted%2C insertion/deletion at around 651215,MGA_1105
sequence1	MetaGeneAnnotator	CDS	651527	651721	.	-	0	ID=MGA_1106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERVGRNLYLKLQLNERILKPLFIGLCLNLKTLNIRKSILNVIEYLNPNDLDGKKLVEMQKKII;locus_tag=LOCUS_11040;note=MGA_1106
sequence1	MetaGeneAnnotator	CDS	652052	652246	.	-	0	ID=MGA_1107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKVLIIMCCENGEKISSQFKKEIIKNYKFNEKFIYFVDVMVDRIVPDQEMNNLDIEVEKYYS;locus_tag=LOCUS_11050;note=WP_011166228.1 mannitol-1-phosphate 5-dehydrogenase (Mycoplasma mycoides) [pid:51.6%25%2C q_cov:96.9%25%2C s_cov:17.7%25%2C Eval:2.8e-08%2C partial hit],internal stop codon at [651923:651925](-)%2C[651956:651958](-)%2C[652031:652033](-)%2C[652052:652054](-),MGA_1107
sequence1	MetaGeneAnnotator	CDS	652901	653254	.	-	0	ID=MGA_1108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGKFVNNLGLTPMMSSQIKKIFPNITIDFHSMVNNIENILDQLNDVDYITIHFSSIQKTNLEELFKKIKSKNIKIGIGIDLDDNLNDISKLLDQVDLVTIMSIKPGFAGQAFNKLT;locus_tag=LOCUS_11060;note=WP_011166585.1 ribulose-phosphate 3-epimerase (Mycoplasma mycoides) [pid:35.3%25%2C q_cov:98.3%25%2C s_cov:53.2%25%2C Eval:3.6e-16%2C partial hit],internal stop codon at [652763:652765](-)%2C[652901:652903](-)%2C[653270:653272](-),MGA_1108
sequence1	MetaGeneAnnotator	CDS	653352	653633	.	-	0	ID=MGA_1109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFVAVCGQGLGSSLIIEMNIKNVLNQMGRDDIIVEHANLNLFDSNDSSINAVICGIDLSDSIDFEQKIVLNNLLDNDEIEEKLTEFLEKYEL;locus_tag=LOCUS_11070;note=WP_011166584.1 PTS ascorbate-specific subunit IIBC (Mycoplasma mycoides) [pid:60.9%25%2C q_cov:93.5%25%2C s_cov:14.3%25%2C Eval:1.1e-23%2C partial hit],MGA_1109
sequence1	MetaGeneAnnotator	CDS	653638	653898	.	-	0	ID=MGA_1110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNENYKKVYLEVKDLEKEKSQKEKSEFKIYKKNLKDLKLNLKTEKEKDKKTQIIKNIEQLTKEHNKLLNSLNKEYEAKITLVRKE;locus_tag=LOCUS_11080;note=MGA_1110
sequence1	MetaGeneAnnotator	CDS	654244	654555	.	-	0	ID=MGA_1111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVEAGILGKNDSPIVQGILQAFTFAAGVEVLLIGVRMFIAEITPAFKGFADKVIKGSKPGIDCPVVFPFAPNAVIMGFIASTVGGLIAFGINIGMSSAIKTGP;locus_tag=LOCUS_11090;note=WP_011166584.1 PTS ascorbate-specific subunit IIBC (Mycoplasma mycoides) [pid:59.1%25%2C q_cov:90.3%25%2C s_cov:15.4%25%2C Eval:2.7e-27%2C partial hit],internal stop codon at [654034:654036](-)%2C[654244:654246](-)%2C[654577:654579](-)%2C[654838:654840](-),MGA_1111
sequence1	MetaGeneAnnotator	CDS	654577	654837	.	-	0	ID=MGA_1112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVISPALLNRHTKIIIKGNSLAVAHTGSITYALSGYMGELIYKAKKGKIKSTEDINFPKGLAFLRNTNVSIALTMFILFSIVYYSV;locus_tag=LOCUS_11100;note=WP_011166584.1 PTS ascorbate-specific subunit IIBC (Mycoplasma mycoides) [pid:55.3%25%2C q_cov:98.8%25%2C s_cov:14.1%25%2C Eval:2.5e-20%2C partial hit],internal stop codon at [654577:654579](-)%2C[654838:654840](-)%2C[654877:654879](-)%2C[654910:654912](-)%2C[654943:654945](-)%2C[655108:655110](-),MGA_1112
sequence1	MetaGeneAnnotator	CDS	654943	655089	.	-	0	ID=MGA_1113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGLFLSQEGMAQIATCGSLILVFAMLLNIVIAKFSNLKYIYLTGHSA;locus_tag=LOCUS_11110;note=WP_011166584.1 PTS ascorbate-specific subunit IIBC (Mycoplasma mycoides) [pid:56.5%25%2C q_cov:95.8%25%2C s_cov:7.1%25%2C Eval:4.2e-07%2C partial hit],internal stop codon at [654838:654840](-)%2C[654877:654879](-)%2C[654910:654912](-)%2C[654943:654945](-)%2C[655108:655110](-),MGA_1113
sequence1	MetaGeneAnnotator	CDS	655108	655359	.	-	0	ID=MGA_1114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLFTVQDQLMNFINGFFGTPALIIGLFALIGCLVQRKNFAETLTSVFKTVIGFLIIGGGAGIISGSIGKFGSAFNLLFGREG;locus_tag=LOCUS_11120;note=WP_010990033.1 PTS ascorbate transporter subunit IIC (Listeria monocytogenes) [pid:33.8%25%2C q_cov:81.9%25%2C s_cov:15.7%25%2C Eval:1.9e-07%2C partial hit],internal stop codon at [654943:654945](-)%2C[655108:655110](-),MGA_1114
sequence1	MetaGeneAnnotator	CDS	655374	655673	.	-	0	ID=MGA_1115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFYFIISKNISLVHISPGGENLKTNLMLIKLGEQISFSHKEHHKVLYCFFLTTTSPDDHMDYLVKFSKTFSNKEFIKELESINSYEEYLKIYKKYFND;locus_tag=LOCUS_11130;note=MGA_1115
sequence1	MetaGeneAnnotator	CDS	655936	656709	.	+	0	ID=MGA_1116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIDEYYLNLTNLEKEILNIIFKNAEVFIDIKIQDFAKKLYTTSATITKLIQKIGFTSYKEFQKHLKEEITNRNIEHKNFDASKMEIIAQLEEILENAKKFIKNEFEDISEIIIKSPKIITIGFGNSLIAANEMFQSLSRLGLDSYCTNDIFGNLTLFENISKESLIIFYSHQFKSRTVFRAYELIKSLNLKIILISSNNYISDSFKFYKVIIYKDKNNKNKSFSTKINQITINFILKDLIKQKLNKNIKDKPSILI;locus_tag=LOCUS_11140;note=MGA_1116
sequence1	MetaGeneAnnotator	CDS	657840	658001	.	-	0	ID=MGA_1117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKLQKSKEQIINIQKELNKINIANSKAEGYCKDILDNLIEELLVFITENCS;locus_tag=LOCUS_11150;note=MGA_1117
sequence1	MetaGeneAnnotator	CDS	658014	658214	.	-	0	ID=MGA_1118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANSFNKKFGDIGFKKIPSKNIFVCNPGYYIFVTQIVRIMLNKEMQLINKYVSNEQIEEKKVKIFN;locus_tag=LOCUS_11160;note=MGA_1118
sequence1	MetaGeneAnnotator	CDS	658281	658913	.	-	0	ID=MGA_1119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNDEINKLREEISNLKTQLETSKTVTDKEIAEKVLEVKELKNDEINKLREEISNLKTQLETSKTVTGKEIAEKVSEVKELKNDEINKLREEISNLKTQLETSKTVTDKEIAEKVSEIKELKNDEINKLREENNNLEKKIISKKTLSSQIIGKEFEEEFKTNLNSTFPEDIIEKIVTNKTEGKGADFREIVHKNDSEIGRIIFELKSGEK;locus_tag=LOCUS_11170;note=WP_012047863.1 chromosome segregation protein SMC (Clostridium botulinum) [pid:29.9%25%2C q_cov:71.0%25%2C s_cov:16.3%25%2C Eval:4.1e-09%2C partial hit],MGA_1119
sequence1	MetaGeneAnnotator	CDS	660431	660643	.	-	0	ID=MGA_1120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTKTSCKIRVIEGHDKPALTGEVEFTYNYEKIQEYKIDFYSITENANITRRIGTIEEISKFSNLVTNWR;locus_tag=LOCUS_11180;note=WP_011183507.1 lipoprotein (Mesoplasma florum) [pid:66.2%25%2C q_cov:97.1%25%2C s_cov:18.8%25%2C Eval:1.1e-20%2C partial hit],internal stop codon at [660149:660151](-)%2C[660431:660433](-)%2C[660677:660679](-)%2C[660683:660685](-),MGA_1120
sequence1	MetaGeneAnnotator	CDS	660683	660883	.	-	0	ID=MGA_1121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGSVTLILTSSSSVVSCFDTTPKVYTTFKDAFIIFDLGTISGQEDVPSLEIIYNGISKAHENVED;locus_tag=LOCUS_11190;note=WP_011183507.1 lipoprotein (Mesoplasma florum) [pid:57.6%25%2C q_cov:100.0%25%2C s_cov:18.3%25%2C Eval:6.9e-15%2C partial hit],internal stop codon at [660431:660433](-)%2C[660677:660679](-)%2C[660683:660685](-),MGA_1121
sequence1	MetaGeneAnnotator	CDS	661503	661694	.	-	0	ID=MGA_1122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSMGTSRIKHLDNKGYEVLRESGNISGELIGGCIDTIYSLIDKNSPKQAIADQFNLVPKNDE;locus_tag=LOCUS_11200;note=MGA_1122
sequence1	MetaGeneAnnotator	CDS	661658	662149	.	-	0	ID=MGA_1123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLEIKRLKELGLEPVFMPNSLKGTEFLANNPEAKANDLIEAFANDEILCAIGGFNTYKTAPFLLNNDFFKEIVQKKPKIFIGFSDTTVNHLMFRKLGLNTFYGHSFLVDFAELDDQMLEYSKKHLKYYFLITKILKLRLANIDLKKEKIFQWILWELQELNI;locus_tag=LOCUS_11210;note=WP_000255098.1 LD-carboxypeptidase (Streptococcus pneumoniae) [pid:51.4%25%2C q_cov:86.5%25%2C s_cov:41.4%25%2C Eval:2.3e-36%2C partial hit],internal stop codon at [661502:661504](-)%2C[661718:661720](-)%2C[662150:662152](-),frameshifted%2C insertion/deletion at around 661720%2C661399,MGA_1123
sequence1	MetaGeneAnnotator	CDS	662771	662890	.	-	0	ID=MGA_1124;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVCSEPYSAKLSKEHNNTNILSMGSRVIGLELAKMIIKE;locus_tag=LOCUS_11220;note=WP_003721856.1 ribose 5-phosphate isomerase B (Listeria monocytogenes) [pid:78.9%25%2C q_cov:97.4%25%2C s_cov:25.7%25%2C Eval:1.6e-11%2C partial hit],internal stop codon at [662771:662773](-)%2C[663077:663079](-),MGA_1124
sequence1	MetaGeneAnnotator	CDS	663141	663815	.	-	0	ID=MGA_1125;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183536.1;translation=MKNKVAVSIYVFNFLEIGKKIEELINVGIDWIHVDIMDGNFVNNYALCQKFCKDIKEKYSNITIDAHLMCLEPQRYIDSFAQSGVTYFNFHFESVTDKSEENIINIIKNIHSKNMQAVMAINPETNPSIINKYLSVLDGVMCMSIKPGFNGQKLNELVYDNLKYLSDYKKDKNLNFFIQVDGGVREETYQKLKQCGAEVMVVGAFINVANNQLIEQIKKIEGGL;locus_tag=LOCUS_11230;note=WP_011183536.1 ribulose-phosphate 3-epimerase (Mesoplasma florum) [pid:57.8%25%2C q_cov:97.3%25%2C s_cov:96.0%25%2C Eval:1.1e-71],MGA_1125
sequence1	MetaGeneAnnotator	CDS	663805	664104	.	-	0	ID=MGA_1126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMTVDSLNKNKKNKNSLNQSIKIIEGLGTKENIIEIKNCASRLRVDVKNIEKINETILKETGSMGIIKKKNNIQIIYGPQVSNIALDVKEEMEKKNEE;locus_tag=LOCUS_11240;note=WP_011948061.1 PTS transporter subunit EIIC (Clostridium botulinum) [pid:50.6%25%2C q_cov:76.8%25%2C s_cov:15.2%25%2C Eval:4.8e-16%2C partial hit],internal stop codon at [664168:664170](-),MGA_1126
sequence1	MetaGeneAnnotator	CDS	664222	664701	.	-	0	ID=MGA_1127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNYLDMLYQNGDNYFISFNHYTTEVGTGFMSGRFAVYNYGLPAAGLAMIFMAKPENRKQVTGILGSAIITSMATGIIEPLIFSFIFVAPLLFGVHALIGGISYLLAYLLNVQAGNGFTAGLIDYVFFGLLPGYSTGVNIIGDESKKIFGMFAGRNGAL;locus_tag=LOCUS_11250;note=WP_001227709.1 glucose-specific PTS transporter subunit IIBC (Staphylococcus) [pid:58.3%25%2C q_cov:64.8%25%2C s_cov:15.1%25%2C Eval:2.1e-28%2C partial hit],MGA_1127
sequence1	MetaGeneAnnotator	CDS	664846	664995	.	-	0	ID=MGA_1128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVGSKEEYTRTSGAIAAYFFGVFEQLLIPTGLHHVFYTPFWFTSVGGT;locus_tag=LOCUS_11260;note=WP_011987109.1 N-acetylglucosamine-specific PTS transporter subunit IIBC (Clostridium botulinum) [pid:67.7%25%2C q_cov:63.3%25%2C s_cov:6.5%25%2C Eval:5.4e-07%2C partial hit],internal stop codon at [664996:664998](-)%2C[665047:665049](-),MGA_1128
sequence1	MetaGeneAnnotator	CDS	665047	665283	.	-	0	ID=MGA_1129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSVGQNKGMLSSVMGISPAMDLSVLGGIIVGSLTAVLHNKTYNIKVPRMLSFFGGEKFVPIAAFFMGIGLGIIVFFI;locus_tag=LOCUS_11270;note=WP_000838205.1 glucose-specific PTS transporter subunit IIBC (Staphylococcus) [pid:49.2%25%2C q_cov:83.3%25%2C s_cov:12.6%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [664996:664998](-)%2C[665047:665049](-)%2C[665305:665307](-),MGA_1129
sequence1	MetaGeneAnnotator	CDS	665305	665475	.	-	0	ID=MGA_1130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGILFASSIAFGFAKKSRGVAAVSAMIAFMVMTVTVSALFIPYTNSNGDLVVTFDP;locus_tag=LOCUS_11280;note=MGA_1130
sequence1	MetaGeneAnnotator	CDS	665844	666671	.	+	0	ID=MGA_1131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILVELTSTEKLILLKIKNDIEVFTTKSISELSKLYYASDASILRLVKKLGYKTLKEMQIEFGSKLKIDNMLDDFKEDFLFDENANISETISSITALSLYSIFKTEENLNKDSIEEFVNIISDSGELSIFGIGNSKNSVEFLNNQLKRIGVISTIHNSVHGFLIHTNFYKNKNIALIISNSLKTKEVTFILNYLIENKIPYLIISSIDSTNNNLFIEKAKSYILYSTNSKEKYSFPMISSFYSQIFIINIIFNRLIQKTNDFKTKIELGNKLTNK;locus_tag=LOCUS_11290;note=WP_003548408.1 MurR/RpiR family transcriptional regulator (Lactobacillus acidophilus) [pid:22.4%25%2C q_cov:63.3%25%2C s_cov:62.8%25%2C Eval:3.2e-08%2C partial hit],MGA_1131
sequence1	MetaGeneAnnotator	CDS	667680	667925	.	-	0	ID=MGA_1132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFINYIIKNFDIFYNETKKIVIKNIDDNFLNEDISLNFEIFLNLLKIHYKTIKDENYIENKINLLVEKVEMQSSTFKLGF;locus_tag=LOCUS_11300;note=MGA_1132
sequence1	MetaGeneAnnotator	CDS	668067	668327	.	-	0	ID=MGA_1133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKELINHKCSLKEYQIINKKKINYEIKFHFYYWEILKFINDIKTNNIDIEINFKDNYKNIIKELILLFSDKLIVYENFLFNFLIKN;locus_tag=LOCUS_11310;note=MGA_1133
sequence1	MetaGeneAnnotator	CDS	668440	669246	.	-	0	ID=MGA_1134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNSNREVRNLLNTVKDQSTPIFEVKEKIYKLDNLLSQNNKAGKSGEYFLERIFENLAGINKNNNLLFERQYTMKKKDEQDKNLKPDLFIKGEGQKFVNIPIDSKFSFNAYLDIQNLDNNSEVYQNNIKKFKADIKARIKETSKYISEEDNTVYSIMFIPSEGIFSFLSSFAELIDEGFKNKVIIAGRSKLVGIISSVDHYMNLFDNINQADKKIKILGKVIKYMKNYDQQIQSLFKTIENLIENFNALKVKESSLTNMYNKLLKTQE;locus_tag=LOCUS_11320;note=WP_011166554.1 DNA recombination protein RmuC (Mycoplasma mycoides) [pid:28.9%25%2C q_cov:95.9%25%2C s_cov:71.1%25%2C Eval:7.3e-18%2C partial hit],internal stop codon at [669280:669282](-),MGA_1134
sequence1	MetaGeneAnnotator	CDS	669280	669594	.	-	0	ID=MGA_1135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEITLLILVIILISVVIILSIVFLLKKSNLKVEGVSKVELELLQSQIENLNIRSSEELKNFMNEINNKSSEKLTNFEKIVKEEFYNSNIKETKKIISLEKEVKN;locus_tag=LOCUS_11330;note=MGA_1135
sequence1	MetaGeneAnnotator	CDS	669870	670307	.	-	0	ID=MGA_1136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSIKVESKIGITRDENIINIESIIKILKESSDFLKDIQDLVNESLKNLESIYNFILNSLNVKSLSSLLKVSEHGKIKGPLERPTIEQLLNVIIDKNPDLENFRDKLVLENNFGNKVSVVLKDDAYIGKIDCRFKYIQETTNATN;locus_tag=LOCUS_11340;note=MGA_1136
sequence1	MetaGeneAnnotator	CDS	672241	672648	.	+	0	ID=MGA_1137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLIDKKIYFNNMIFQNEEDLYSYAKQNAKKSSYSFDTKEYIFDDKLFNNSILLNNYIKEKFNIIKEFTNRNIQEFVINTAGELNSLVEMDNNDSIYEIFEGNDSLSYLSENEAKKTFSKNIKKNFAIENKYFEN;locus_tag=LOCUS_11350;note=MGA_1137
sequence1	MetaGeneAnnotator	CDS	672667	672921	.	+	0	ID=MGA_1138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIKIAELEENKTSECYIVSSICYTKDELTTNIRNEIYSGFILEGNEFSDLNYSEFLEYTKVLSDKTINKYITENINAKYNSY;locus_tag=LOCUS_11360;note=MGA_1138
sequence1	MetaGeneAnnotator	CDS	673063	673419	.	+	0	ID=MGA_1139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSVLKIFINLSNKEIIEENDFKLDNFLNLNYKKLNISQENYNLINSFLQNNRNLSSQINQNLNKIKSSDFTPTHKLMVAFKRISELNKIYDLKVEEINIEKLLKDIMLEIILANDNF;locus_tag=LOCUS_11370;note=MGA_1139
sequence1	MetaGeneAnnotator	CDS	673834	674247	.	+	0	ID=MGA_1140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVISFFSYNTYEAKIDNTQSLLYSEMGIKLPLLNIPLSPVGANATSVLLTESPLETMPEIEGIESKQLFVFRNKYFHTKEDAINEMKIDMYLHPENYANTTKMMTNSFNKEHIFTYEIPKICTVNNDENENIDCIT;locus_tag=LOCUS_11380;note=MGA_1140
sequence1	MetaGeneAnnotator	CDS	674762	675013	.	-	0	ID=MGA_1141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVINKAVVVLTILSFLYTKIDDKTIYILSLQQISRFKIITFQLLIIFLYLILIGFINFSVLNILASLIKLKFNFFCTKSYNS;locus_tag=LOCUS_11390;note=MGA_1141
sequence1	MetaGeneAnnotator	CDS	675661	675927	.	-	0	ID=MGA_1142;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKITNQNNKSTFLQFTINDISFLITGDSEAAEATQIVNNDNINLIRIDVYEVPHHGSANSAGPNFLKKIEPKYCYISGTSSESEEPN;locus_tag=LOCUS_11400;note=WP_020862472.1 MBL fold metallo-hydrolase (Mycoplasma mycoides) [pid:42.5%25%2C q_cov:86.4%25%2C s_cov:11.6%25%2C Eval:3.9e-10%2C partial hit],MGA_1142
sequence1	MetaGeneAnnotator	CDS	676239	676448	.	-	0	ID=MGA_1143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLTFLSTILIASTTSSAIACSTKNVVFIDSSLYVLSVGNGLFTFLKYDTDKAIVFDTGVGGNPTQ;locus_tag=LOCUS_11410;note=MGA_1143
sequence1	MetaGeneAnnotator	CDS	676451	676645	.	-	0	ID=MGA_1144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMLWGIMSATGGVGGDVGLEELARDPQNLKLAGATLSILPMLIMFLFTNRLIINGITRGRGEKG;locus_tag=LOCUS_11420;note=MGA_1144
sequence1	MetaGeneAnnotator	CDS	676617	676865	.	+	0	ID=MGA_1145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALIIPHNIIGTVAHPESVFKIIVGHKTAFQEEINEIINEVIKTDFIDGSAIFQKYLNVERPSTFEALFTLFPILSNACDIK;locus_tag=LOCUS_11430;note=MGA_1145
sequence1	MetaGeneAnnotator	CDS	676775	676978	.	-	0	ID=MGA_1146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPGEALLLGQYIFMVKLKLKDNILALILPFLSNVFTIYLMSQAFERIGKSVKSASKVDGLSTFKYF;locus_tag=LOCUS_11440;note=WP_011182923.1 carbohydrate ABC transporter permease (Mesoplasma florum) [pid:56.7%25%2C q_cov:100.0%25%2C s_cov:15.2%25%2C Eval:7.4e-17%2C partial hit],internal stop codon at [676658:676660](-)%2C[676691:676693](-)%2C[676706:676708](-)%2C[676775:676777](-)%2C[677192:677194](-)%2C[677267:677269](-),MGA_1146
sequence1	MetaGeneAnnotator	CDS	677267	677713	.	-	0	ID=MGA_1147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNNLSQTSELINRKEINLHFKQKYLESKTNFLKLKESSSNKELIREKRKELSEFKIINKHEKHDELYKITSNLFVKLFLSITLRLSLKVNSIGNYFINFKYNYLINRKTIFTSSMAGESLKKRIILKVLQALFLFVIAVIIIFPFY;locus_tag=LOCUS_11450;note=MGA_1147
sequence1	MetaGeneAnnotator	CDS	677725	677985	.	-	0	ID=MGA_1148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVYMITTGIISSFKVFPLGLFGSYIDATNSNSQTVVFYIYDKINASSTSPSYQKAGAASIILMAIILALTIVNKRISNILNKKYG;locus_tag=LOCUS_11460;note=WP_011182922.1 sugar ABC transporter permease (Mesoplasma florum) [pid:51.2%25%2C q_cov:98.8%25%2C s_cov:26.1%25%2C Eval:3.0e-18%2C partial hit],internal stop codon at [678013:678015](-)%2C[678025:678027](-)%2C[678124:678126](-)%2C[678172:678174](-)%2C[678196:678198](-),MGA_1148
sequence1	MetaGeneAnnotator	CDS	678196	678579	.	-	0	ID=MGA_1149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPALFLLAMFLYYSIFIVFQTGFNSAKRPLIDFQFSTVNFKNVISDSTFTIALRNSLIYTVVVIPISLLITLTTAKFLSNILNKKVFSFLQSLFFLPYVTSSMAIAMSFSFIFSSGDFGLMNRILG;locus_tag=LOCUS_11470;note=WP_011182922.1 sugar ABC transporter permease (Mesoplasma florum) [pid:49.2%25%2C q_cov:97.6%25%2C s_cov:38.0%25%2C Eval:3.7e-24%2C partial hit],internal stop codon at [678013:678015](-)%2C[678025:678027](-)%2C[678124:678126](-)%2C[678172:678174](-)%2C[678196:678198](-)%2C[678580:678582](-),MGA_1149
sequence1	MetaGeneAnnotator	CDS	678580	678711	.	-	0	ID=MGA_1150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNNSEIKPKSWFRLKVDKILKNKKNKLNNMEKRKFDLVNQLI;locus_tag=LOCUS_11480;note=MGA_1150
sequence1	MetaGeneAnnotator	CDS	678712	679185	.	-	0	ID=MGA_1151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRGKLQQGEEPKSIYQKPANKFVANFIGTPSMNFLETKISEKGEIFLQDVKIAKSVNLKNKDVIVGIRPEHLILDSSKTNQNISNEKPLIGEITSFEMLGKTNFIKLKFNNNTIGIIYDSHILENVQLGQKIKFNILKNKIYIFENDENKNLLEVI;locus_tag=LOCUS_11490;note=WP_011182921.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:36.7%25%2C q_cov:99.4%25%2C s_cov:19.2%25%2C Eval:1.6e-20%2C partial hit],internal stop codon at [679279:679281](-),MGA_1151
sequence1	MetaGeneAnnotator	CDS	679279	680595	.	-	0	ID=MGA_1152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIKLRNVSIDYGNFLAVDNLTIDIETGELASLLGPSGCGKSTTLNAIAGLINITSGQIIFDGIDVSKKTTQKRNIGLVFQNYSLYPHLNVFQNIAFPLYQSKTFKREVKKNNQNYSRLIYQLKQSNMKKNIFDLQEKLFELFNKFLKDLNEKYLNLESYLFDKYRQIIEKYISELYKSSHLEVFKNKQISRMYDESKLFYLDFYLKLLRDFKLKIINFKKELNQKEKNQYINSSINKFLKDLKLKYIDEISFNLKETKRTLNEHNKSFDFEKKMQIRKTKTTGKEFLFDKNDTEYLEIIENFNIDAKSINDDFTLKYDKEIKVIIDKFLIDLEFKLSQIITDFSKNDIFFTEEEFKTEVLNYRKNISSVRSEVKKAVFEVAQRVEIQDQLYKKPYELSGGQQQRVAIARSVIKKPKILLLDEPLSNLDAKLRVSTRE;locus_tag=LOCUS_11500;note=WP_011182921.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:36.2%25%2C q_cov:87.4%25%2C s_cov:52.2%25%2C Eval:3.6e-56%2C partial hit],internal stop codon at [679279:679281](-),MGA_1152
sequence1	MetaGeneAnnotator	CDS	680788	680973	.	-	0	ID=MGA_1153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTRKLSDLEFSNLIFNTFKLTKKGLAYVIISLEDLKKHNLTAEMMNKYANTLAGFEEIKV;locus_tag=LOCUS_11510;note=MGA_1153
sequence1	MetaGeneAnnotator	CDS	681364	681537	.	-	0	ID=MGA_1154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLLKTIEEEIKKFQTIIIQRHVNPDGDAYGSQFGLKHLIENNFKDKKVYVVGDEFE;locus_tag=LOCUS_11520;note=WP_011183386.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Mesoplasma florum) [pid:54.5%25%2C q_cov:96.5%25%2C s_cov:17.5%25%2C Eval:2.1e-11%2C partial hit],internal stop codon at [681124:681126](-)%2C[681187:681189](-)%2C[681364:681366](-),MGA_1154
sequence1	MetaGeneAnnotator	CDS	681691	681834	.	-	0	ID=MGA_1155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAGKTNNHFATVEASEPGSAVRDKVFKNTIQSGMYKSPSKLTIDKF;locus_tag=LOCUS_11530;note=MGA_1155
sequence1	MetaGeneAnnotator	CDS	682010	682327	.	-	0	ID=MGA_1156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANSDTGSKVYSSSYFAQGTMLMASGSSAGSFYYSTTPSKIVENEADYKAGKVMADVAVATTDLFAVASSTAKGDSYVMQQGPGIALFKSSSNEKASVEKNLHIF;locus_tag=LOCUS_11540;note=MGA_1156
sequence1	MetaGeneAnnotator	CDS	682412	682864	.	-	0	ID=MGA_1157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYAATGVFLKNELGLQKDGKDIEIEASDLFTNETGTSDNKELYNSIAQATDASALRKILQKDSNIAILAKDFKSLSTKNSQNETNTYAKAFALGIDSMGNKVYANYANNLGKQRIVTSSENKDFIYNYYNDSFKINNSSGIKSITEVIQ;locus_tag=LOCUS_11550;note=MGA_1157
sequence1	MetaGeneAnnotator	CDS	682834	683436	.	-	0	ID=MGA_1158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLLRVIFDFTLMKKLLSLLGMTTIVVSGATTVIACGNEDSSSPASSIKEVIFMIDALTTISSSIINDYKDVVTDFNENHNDLGIEVKIETPSAGQILNSINAGEALPDLYLTYPDNVARYKSIIPDQIVDVKSEGYITDNTIFSEYQSSFLEEGTIGENLYVLPVLKSFNINTVNLRLLNQIQKFLKIQLWNMQQLVYF;locus_tag=LOCUS_11560;note=MGA_1158
sequence1	MetaGeneAnnotator	CDS	683824	684024	.	+	0	ID=MGA_1159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSIFAAVGLTATSSGLATTVVSCTDSLNDENTYISYYNENKDKNKEELETIFADLKEKQKKS;locus_tag=LOCUS_11570;note=MGA_1159
sequence1	MetaGeneAnnotator	CDS	684044	684238	.	+	0	ID=MGA_1160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKDQISEVDKIYIFMSKVLEDKSTIEDISKIFAEYLPQIEKLIGSDFVNSLYKLNIITILLRA;locus_tag=LOCUS_11580;note=MGA_1160
sequence1	MetaGeneAnnotator	CDS	684769	685026	.	-	0	ID=MGA_1161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVIYFLILILVLGIIAKDIAITIIAGITGTIGVILGAKGKISSFIIASINSILYIIIALEGMLLSSVILHAGFYIPMNIIGFAL;locus_tag=LOCUS_11590;note=MGA_1161
sequence1	MetaGeneAnnotator	CDS	685237	685611	.	-	0	ID=MGA_1162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNLDALKLIDYLLKLKDKKFYFAPGPVFNQIDKKILKKIMLLKPIIHLNEQEILEYTNETELTYSIKKLYLENKNLIIVTLGENGSISYDGKEFIKVEANKVKKIKDTSGAGDGHIGAFMFYF;locus_tag=LOCUS_11600;note=MGA_1162
sequence1	MetaGeneAnnotator	CDS	685666	686019	.	-	0	ID=MGA_1163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTLVIGSAIVDIIIEVENLPKRKGDVISKNSLFVVGGCAYNVANILKLLDMQYTLFAPIGTGFFSKIIEKQLIEDEHKIVIKNDTMDNGYCIAFVEPDGERTFVTYSGLEQNFYQD;locus_tag=LOCUS_11610;note=WP_001012656.1 PfkB family carbohydrate kinase (Salmonella) [pid:41.6%25%2C q_cov:96.6%25%2C s_cov:35.2%25%2C Eval:2.1e-19%2C partial hit],internal stop codon at [685666:685668](-),MGA_1163
sequence1	MetaGeneAnnotator	CDS	686030	686620	.	-	0	ID=MGA_1164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIAPIGLLFKPNQHNELIDYVFKVSQVTHTSDIAISGASIIATAVSCAMYGLSFDQILENIYFVDDLALKVASETYSPSLTKIIKLAITIAKKFENRDIEFIDELYDLIGAGVNISESVPCAIAIAYYAKDVNKAAFLSANLGVDTDTIGAMACAICGAYTGIEKINKNFVKSIQENNNINFEYYVEKIESYISK;locus_tag=LOCUS_11620;note=WP_000642789.1 ADP-ribosylglycohydrolase family protein (Salmonella) [pid:37.6%25%2C q_cov:98.5%25%2C s_cov:57.8%25%2C Eval:2.6e-28%2C partial hit],internal stop codon at [686030:686032](-),MGA_1164
sequence1	MetaGeneAnnotator	CDS	687144	687371	.	-	0	ID=MGA_1165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGFGSKMNNYRDINYSSQLNYYDFYEGTFFENAQLQNNLGTLEIFIIVLVTVGATATIISLSIIFIKKKKKAIK;locus_tag=LOCUS_11630;note=MGA_1165
sequence1	MetaGeneAnnotator	CDS	687816	688085	.	-	0	ID=MGA_1166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQYMSSSFLEGYYFGINNTTNILSSINSRIANTYYVSFSITNAAEFKSVFENFLNDSYTKASDESIESFKNFNTNNFSSFEDLNSKLIL;locus_tag=LOCUS_11640;note=MGA_1166
sequence1	MetaGeneAnnotator	CDS	688320	688787	.	-	0	ID=MGA_1167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRSDLMNKKFKLFSKILIMLSLFLYNLSFIKVINNNNNTLISNKLTIDNKANTKAEELKYNSYFSPIISQNNQSTLMYFGRILKYYYANNIIISEDNLTKLENDLVVKYSNLNQNQNDNFYKQLFLQNIFASTINLSIYGSSSDAEFFAEAFSK;locus_tag=LOCUS_11650;note=MGA_1167
sequence1	MetaGeneAnnotator	CDS	689014	689274	.	-	0	ID=MGA_1168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKIYSYLTFNNLLLIKKLKTNGYNFSSLLEYDLETIQIDNLEYDFKYVYHYKSIGYLNRDKKTNKSTKSGSNGTFNVPGFRHNSH;locus_tag=LOCUS_11660;note=MGA_1168
sequence1	MetaGeneAnnotator	CDS	689503	690039	.	-	0	ID=MGA_1169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDADISEQTISNVVKRFNISDEALLDLECNKIDVLDKPYIYLETDDTFPIFKFDKKKQEYRVRLLTVHTGSRKGLHKRNYLENKRVDYLLVKNGETIKTNKYAQRISRLLNKWFSNVEGKRLILLGDAAQWIPNLATEMNAKYVLDKFHLLKLLKAIFPIRGRKNDIVDKYRYFFIV;locus_tag=LOCUS_11670;note=MGA_1169
sequence1	MetaGeneAnnotator	CDS	690256	690432	.	-	0	ID=MGA_1170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKRIELIKNIQKLCFDQINFFKEIHEEFLKKAIEKLISKFISMDLEIKNSIERINKG;locus_tag=LOCUS_11680;note=MGA_1170
sequence1	MetaGeneAnnotator	CDS	691005	691349	.	-	0	ID=MGA_1171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFLSIIGLSTLITMPLLIKFNDSNFKENSQKLDKNVQKEYENVQNYDSNVDYDYKTGLRYNPTYPTFTKNMNYYGKDRRTFIHRYSDFGSLNSFNSSYDFNKEISKGDRNK;locus_tag=LOCUS_11690;note=MGA_1171
sequence1	MetaGeneAnnotator	CDS	691436	691612	.	-	0	ID=MGA_1172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFCPATEKQKAAGETGRYENRVYSRDQIETIFSEMNKFQQEKLENKKDNEKTLDSKQR;locus_tag=LOCUS_11700;note=MGA_1172
sequence1	MetaGeneAnnotator	CDS	692141	692350	.	+	0	ID=MGA_1173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILNRKDPKTKEVGTALVVSAYLGVTEPALYGVNLKYLFPFIAGSISTAIALEICVMSGVTAQSIGNGS;locus_tag=LOCUS_11710;note=WP_011183398.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:59.4%25%2C q_cov:100.0%25%2C s_cov:13.3%25%2C Eval:1.6e-19%2C partial hit],internal stop codon at [691943:691945](+)%2C[692072:692074](+)%2C[692138:692140](+)%2C[692348:692350](+)%2C[692402:692404](+)%2C[692423:692425](+),MGA_1173
sequence1	MetaGeneAnnotator	CDS	692429	692578	.	+	0	ID=MGA_1174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIANIVNAALVISLSYIFGKMKFFKKFDPNFVELKNENKKIKNKEKIVA;locus_tag=LOCUS_11720;note=MGA_1174
sequence1	MetaGeneAnnotator	CDS	693362	693526	.	-	0	ID=MGA_1175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASTSSNSKFILEQANIIELFDYLVNPKNILKHKPNPEIFLKAADYFRIDVKDC;locus_tag=LOCUS_11730;note=MGA_1175
sequence1	MetaGeneAnnotator	CDS	693800	694234	.	-	0	ID=MGA_1176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVRLKIKDFGFKYFKESINLDLYDTHKNTDRGLHMANMGGVRMFVIYGLFNIEEEFLMIDPVFNDQINSYSINIEYQSAIINFKLKNKILYLQKISGDNVNIKHNQKMYQLITNFGNSIIMKFPKLVIFDCDGVISDTAYLHY;locus_tag=LOCUS_11740;note=MGA_1176
sequence1	MetaGeneAnnotator	CDS	694295	694618	.	-	0	ID=MGA_1177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKEKNINLYNQKKEQLKITEEELKEFENLANVILIPYNKELNLNPQHDNFLKRKPVTKEYIEKYKPFLRTLHSLSINTLRVTKQADVVSANMFFYDKVDKETMINN;locus_tag=LOCUS_11750;note=MGA_1177
sequence1	MetaGeneAnnotator	CDS	695407	696129	.	-	0	ID=MGA_1178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELLIEKKEFKIENRKVEELIFSISNGYIGIRGSFEEEILNKNSSIEGTYINAFYDYFDIQYAAKYTGYPDLYQRMMPLINIQNLEIYIDDKRILFDPTKASNYSIEYQMQSGQIVRKYRFNLNDEEYIDFYFSKLLSQISYELFLQQISFTTSFKSEKEVKINFPLIFKETSTDKGIPNDPRALLKDQKSFNKIERESSNSFQSIVYKTLKSNQKVVYATKISGLNSFNFSEYEEKTYY;locus_tag=LOCUS_11760;note=WP_002224908.1 glycoside hydrolase family 65 protein (Neisseria meningitidis) [pid:28.4%25%2C q_cov:46.2%25%2C s_cov:15.2%25%2C Eval:5.7e-08%2C partial hit],MGA_1178
sequence1	MetaGeneAnnotator	CDS	696284	696724	.	-	0	ID=MGA_1179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNELEKMSFVIAQYIKENNIDELLYMSKFQEVQALSFFSNNFENFMINLESMSSKFIDVYDFFYDTKYYPVLSYKHKVSEIIKTFMKKYGDEYENYDIVRDVMKFFRGHLRKRKNINLKFELIKKHNLIDIYKGYELMNYINLLAN;locus_tag=LOCUS_11770;note=MGA_1179
sequence1	MetaGeneAnnotator	CDS	697167	697292	.	-	0	ID=MGA_1180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLVILLVPVGFLKYHIQNKLQKAKNPDSDKSVKILTNEK;locus_tag=LOCUS_11780;note=MGA_1180
sequence1	MetaGeneAnnotator	CDS	697407	697583	.	-	0	ID=MGA_1181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSMLLLMAIASIYIMFNEIRELLGYFSLAVSSLKILMTTNIVYLRLKDQNYKKIYKN;locus_tag=LOCUS_11790;note=MGA_1181
sequence1	MetaGeneAnnotator	CDS	697737	698087	.	-	0	ID=MGA_1182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLKSFPIAFILILALVYGTSENLLNSGAMKENLSQAYIGGTLLIPAITMTMFSYSGTEIPTYVTAEIKNAEKTTPKVILAGVGIVMLVYVLYAIAILSIGKVEDGFLNGFALLPK;locus_tag=LOCUS_11800;note=MGA_1182
sequence1	MetaGeneAnnotator	CDS	698650	698856	.	-	0	ID=MGA_1183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMGYTKKFSKLTKTNQSKYDLLKLMNLNKEIPILFIHAIGDTFIPYEMSLDMYNKKIKFESNTLSEI;locus_tag=LOCUS_11810;note=WP_164919796.1 alpha/beta hydrolase (Mesoplasma florum) [pid:57.4%25%2C q_cov:100.0%25%2C s_cov:20.2%25%2C Eval:2.6e-14%2C partial hit],internal stop codon at [698650:698652](-)%2C[698860:698862](-)%2C[698863:698865](-)%2C[698944:698946](-),MGA_1183
sequence1	MetaGeneAnnotator	CDS	698944	699078	.	-	0	ID=MGA_1184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDQIIDNLKKEYQVENIGLIGNSMGASTSILYSQTGKFKDDIS;locus_tag=LOCUS_11820;note=WP_164919796.1 alpha/beta hydrolase (Mesoplasma florum) [pid:54.5%25%2C q_cov:100.0%25%2C s_cov:13.1%25%2C Eval:5.3e-07%2C partial hit],internal stop codon at [698650:698652](-)%2C[698860:698862](-)%2C[698863:698865](-)%2C[698944:698946](-)%2C[699214:699216](-)%2C[699235:699237](-)%2C[699361:699363](-),MGA_1184
sequence1	MetaGeneAnnotator	CDS	699361	699573	.	-	0	ID=MGA_1185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKIKLYTYNFLKIILSTILFPIIFIKSNKLFKLYKYFCYTYPRFGKYEGPNGEFNHIPVEVNTLEYHY;locus_tag=LOCUS_11830;note=MGA_1185
sequence1	MetaGeneAnnotator	CDS	699761	700027	.	+	0	ID=MGA_1186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGLAKGGIITNFVGTALAALISIILLIASLLTTSTLPIAGGIIIIFTIISLISSILIIIFGALALAKGNNKFKITTGIIGIISILFN;locus_tag=LOCUS_11840;note=MGA_1186
sequence1	MetaGeneAnnotator	CDS	700173	700358	.	-	0	ID=MGA_1187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLEHKIIKDFNNLEIKKYLFIHDKQNYNQKNMFLKLYKFIGIGTFNNMIVDNYLTAEFDM;locus_tag=LOCUS_11850;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:59.0%25%2C q_cov:100.0%25%2C s_cov:6.7%25%2C Eval:1.7e-16%2C partial hit],internal stop codon at [700374:700376](-),MGA_1187
sequence1	MetaGeneAnnotator	CDS	700374	701021	.	-	0	ID=MGA_1188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKDYELTLQDFYNNLDDLFIKTAKQISNYLPTQNDTKRNKNILKQFIFLDNYKIISYFYRRLTRKIEKLNIDYDLDNLFITSVLYEITSMKKFLGLYPNYLKIDDLVQYFMDNNQLIVEEIILILKYKLDNETLIFSDNTEKLLSINSTYTVKQCLAAVGRTNFLFYREQLKVLTFQAGYLTFDNSKQIILADEDGMGYGKLTKYDMENNKFY;locus_tag=LOCUS_11860;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:67.8%25%2C q_cov:99.5%25%2C s_cov:23.6%25%2C Eval:5.1e-79%2C partial hit],internal stop codon at [700374:700376](-)%2C[701094:701096](-),MGA_1188
sequence1	MetaGeneAnnotator	CDS	701094	701624	.	-	0	ID=MGA_1189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFKTIEKYLGIYARPTALIFCVTIEHANIIATFLKAKNLKAEVLTSQNKNDRKRIIHEFSIGRINYLCVVNIFNEGIDIPEINTIILLRPTNSKTIYLQQLGRGLRKTELKNKLEVYDLISNIDNKYDLTLGIRNLFEPKIIGTNFISTKHGLPYNSTITLEKNAEEIILKSLKK;locus_tag=LOCUS_11870;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:81.1%25%2C q_cov:99.4%25%2C s_cov:19.3%25%2C Eval:4.9e-78%2C partial hit],internal stop codon at [701094:701096](-)%2C[701760:701762](-),MGA_1189
sequence1	MetaGeneAnnotator	CDS	701760	702203	.	-	0	ID=MGA_1190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATGTGKTLVSAFDYKRQIEQVNKKLKILFLAHQKEIIDQAINTYRQVLNDSNFGEVLYDQKIISENPEYLFATIQSLSNRLEDFKKEQFDIIVYDEAHHIAANTFDKTFNYFQPKQIIGLTATPEREDGKNIKKYFNDEFASELRL;locus_tag=LOCUS_11880;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:74.8%25%2C q_cov:100.0%25%2C s_cov:16.2%25%2C Eval:1.6e-58%2C partial hit],internal stop codon at [701760:701762](-)%2C[702417:702419](-),MGA_1190
sequence1	MetaGeneAnnotator	CDS	702417	702896	.	-	0	ID=MGA_1191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEDKFFTNKDQQELLSEIKNEIVTSDEVYLIYPFISKAILNKIEPTFEYCLKNNIIIKIISTTFDDLAQFNNLNEIRKISEKYKNIKIKIEDNLEKHSERIHIKAAIFKRKVKQDSAIIGSSNLTYKGMISGREWNIKIISKEKNDLVHQLIKEFDYL;locus_tag=LOCUS_11890;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:68.8%25%2C q_cov:98.7%25%2C s_cov:17.3%25%2C Eval:2.6e-58%2C partial hit],internal stop codon at [702417:702419](-),MGA_1191
sequence1	MetaGeneAnnotator	CDS	703423	703665	.	-	0	ID=MGA_1192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVYMFQSGLSVFVTFIQEALTVTAMVVVALGILRTYLFRAIFSAPSGKLADKSGKYILFITIGLFISSILCLIAIIIQV;locus_tag=LOCUS_11900;note=WP_020862526.1 MFS transporter (Mycoplasma mycoides) [pid:56.9%25%2C q_cov:81.2%25%2C s_cov:13.1%25%2C Eval:1.1e-15%2C partial hit],internal stop codon at [703209:703211](-)%2C[703305:703307](-)%2C[703326:703328](-)%2C[703417:703419](-)%2C[703684:703686](-)%2C[703838:703840](-),frameshifted%2C insertion/deletion at around 703425%2C703386%2C703822%2C703431,MGA_1192
sequence1	MetaGeneAnnotator	CDS	703684	703848	.	-	0	ID=MGA_1193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIEPFQHWFFFSFLIAINGILLCFFVPETKNEVKKEDKFDLHTLTSVLKNYKI;locus_tag=LOCUS_11910;note=MGA_1193
sequence1	MetaGeneAnnotator	CDS	704033	704311	.	-	0	ID=MGA_1194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVPFYLKNVISSVKIANSLKILPSEFSQVNSIYGYVAILSYFVGGFFVDKISLKKLCLIGLLGVGFIGVWYGFIPFINEGKVAQVYIIFSL;locus_tag=LOCUS_11920;note=WP_013447758.1 hypothetical protein (Mycoplasma leachii) [pid:35.9%25%2C q_cov:84.8%25%2C s_cov:15.0%25%2C Eval:6.2e-11%2C partial hit],internal stop codon at [703994:703996](-)%2C[704006:704008](-)%2C[704033:704035](-),MGA_1194
sequence1	MetaGeneAnnotator	CDS	704555	704734	.	-	0	ID=MGA_1195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFILTLNSDFKKAYLCESLNNINMQLIRKFDYLNSYLGSLKQKNNVEIINKINLPMNI;locus_tag=LOCUS_11930;note=MGA_1195
sequence1	MetaGeneAnnotator	CDS	704878	705159	.	-	0	ID=MGA_1196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILVAHRGFRNPNGENRFIDFQNALKKCRAVEFDIRMTKDKKIIIFHDHNFKRIGSIDETVRSFTYEEIKNINYFKKILNEYLVYLLKNSLKN;locus_tag=LOCUS_11940;note=WP_020862528.1 glycerophosphodiester phosphodiesterase family protein (Mycoplasma mycoides) [pid:69.3%25%2C q_cov:80.6%25%2C s_cov:32.1%25%2C Eval:3.7e-24%2C partial hit],internal stop codon at [704917:704919](-),frameshifted%2C insertion/deletion at around 704934,MGA_1196
sequence1	MetaGeneAnnotator	CDS	705337	705516	.	-	0	ID=MGA_1197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKDVKAKINSIKVDGGASQNKFMMQFQSDITQCKIVKPLNIETTAMGAAYLAGLKSGY;locus_tag=LOCUS_11950;note=WP_011166455.1 glycerol kinase GlpK (Mycoplasma mycoides) [pid:62.7%25%2C q_cov:100.0%25%2C s_cov:11.7%25%2C Eval:6.4e-16%2C partial hit],internal stop codon at [705211:705213](-)%2C[705241:705243](-)%2C[705337:705339](-)%2C[705631:705633](-)%2C[705706:705708](-)%2C[705754:705756](-),MGA_1197
sequence1	MetaGeneAnnotator	CDS	705754	705882	.	-	0	ID=MGA_1198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTEEERIFSNHGLLTTVANSINGKITYALEGSVMVAGAAVQ;locus_tag=LOCUS_11960;note=WP_011166455.1 glycerol kinase GlpK (Mycoplasma mycoides) [pid:73.2%25%2C q_cov:97.6%25%2C s_cov:8.1%25%2C Eval:4.3e-09%2C partial hit],internal stop codon at [705631:705633](-)%2C[705706:705708](-)%2C[705754:705756](-)%2C[706111:706113](-),MGA_1198
sequence1	MetaGeneAnnotator	CDS	706573	706701	.	-	0	ID=MGA_1199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKYIITLDEGTTSARTLITNKKGQIVAVDQTEFTQYFPKDG;locus_tag=LOCUS_11970;note=WP_011166455.1 glycerol kinase GlpK (Mycoplasma mycoides) [pid:75.6%25%2C q_cov:97.6%25%2C s_cov:8.1%25%2C Eval:1.9e-12%2C partial hit],internal stop codon at [706279:706281](-)%2C[706396:706398](-)%2C[706438:706440](-)%2C[706546:706548](-)%2C[706573:706575](-),MGA_1199
sequence1	MetaGeneAnnotator	CDS	706894	707634	.	-	0	ID=MGA_1200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFPFLRINSTVVAFNDEEMKHINMLYKRGITNGLKSSELEIIDAKELQKREPNISKEAIGALVCNSSIAVDTPELTKVLFTNAIKNGIELRVNSKVIDIKHNNEEYTITTSKNEEIIAEYVINAAGHYADVISKMAGYPDFNLVTKRGEYRILEKTEKNIVNSVVFMVPTIHGKGVIVAPLLTGHIMVGPTAVDGVPKDETRLVTKEQFDFIGEIGKKLIPDIKMQKTCMTYSGSRPIEPIYDDF;locus_tag=LOCUS_11980;note=WP_013447578.1 type 2 glycerol-3-phosphate oxidase (Mycoplasma leachii) [pid:68.7%25%2C q_cov:100.0%25%2C s_cov:63.6%25%2C Eval:2.2e-95%2C partial hit],internal stop codon at [706750:706752](-)%2C[706894:706896](-)%2C[707644:707646](-),MGA_1200
sequence1	MetaGeneAnnotator	CDS	707644	707871	.	-	0	ID=MGA_1201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYDICIIGGGVIGASIARELGKYNKKVIVLEANSRVAMETSAGNSGLVHGGFDPTPGKLNAKLNQLGKLRYED;locus_tag=LOCUS_11990;note=WP_013447578.1 type 2 glycerol-3-phosphate oxidase (Mycoplasma leachii) [pid:69.9%25%2C q_cov:97.3%25%2C s_cov:18.9%25%2C Eval:1.8e-23%2C partial hit],internal stop codon at [707644:707646](-),MGA_1201
sequence1	MetaGeneAnnotator	CDS	707972	708469	.	-	0	ID=MGA_1202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGATIADKGDLMIQLTGSTSGAIGLFFGLFFVQLLGAMLGQIIIDLLYFKHIQKTLQTKEEFSTANVLGMHSTSSTFKGSLFSFTTLLNLLMEFVGTFVLVFAALAMGKFASGTFFGPIVIGIVVISIGLSLGGTTGYAINPVRDLGPRIIHMLMPLKEKGKSD;locus_tag=LOCUS_12000;note=WP_011166454.1 MIP/aquaporin family protein (Mycoplasma mycoides) [pid:46.4%25%2C q_cov:83.6%25%2C s_cov:51.0%25%2C Eval:1.4e-25%2C partial hit],internal stop codon at [707972:707974](-)%2C[708485:708487](-)%2C[708545:708547](-),MGA_1202
sequence1	MetaGeneAnnotator	CDS	708545	708685	.	-	0	ID=MGA_1203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLTELFLTEFFGTSLLIILGNGIVANCVLKDTKGNNAGLVAIALG;locus_tag=LOCUS_12010;note=WP_011166454.1 MIP/aquaporin family protein (Mycoplasma mycoides) [pid:63.6%25%2C q_cov:95.7%25%2C s_cov:17.0%25%2C Eval:1.5e-09%2C partial hit],internal stop codon at [708485:708487](-)%2C[708545:708547](-),MGA_1203
sequence1	MetaGeneAnnotator	CDS	709760	710380	.	-	0	ID=MGA_1204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVWTFLLEMFLSKRILRIIFIPIFCFYPIQFLTGEKNLMIYGALISAVLLVEIFYYSLELFKNKNFNYIKTEIIITLFKILFPIFIISTIMFFTIGYQKFSSYINGIYILKNHLLYLIIPFLIFILLNLFSLNLKINALLLFIANSLNSFFLKEFTILTLYNETNFIFTTIQIYFHDSVELYLSIIMKAFIAVGITFAIKFVYLE;locus_tag=LOCUS_12020;note=MGA_1204
sequence1	MetaGeneAnnotator	CDS	711488	711673	.	-	0	ID=MGA_1205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSIHNIMVFYIIERTLSNLFIDNNEVIDINIYIDQRKVVPNIYNKNGVKLESLEAFIKTT;locus_tag=LOCUS_12030;note=WP_020862448.1 DUF3800 domain-containing protein (Mycoplasma mycoides) [pid:43.8%25%2C q_cov:98.4%25%2C s_cov:22.4%25%2C Eval:4.1e-07%2C partial hit],internal stop codon at [711341:711343](-)%2C[711488:711490](-)%2C[711683:711685](-),frameshifted%2C insertion/deletion at around 711271,MGA_1205
sequence1	MetaGeneAnnotator	CDS	711856	712269	.	-	0	ID=MGA_1206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFALAALAFPAYYFTFSIIIKKMNIKTPGRDDENETIGDVNSNKSLVKGKAKNSNEKYENLANAIIEIVKMDNFIKVDNCSTRLRLTVKDNKTDINDDKLKALGIYGIKRLGDQGLQLIIETDVEHVANIVHEKTGK;locus_tag=LOCUS_12040;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:45.4%25%2C q_cov:91.2%25%2C s_cov:21.7%25%2C Eval:1.2e-22%2C partial hit],internal stop codon at [712270:712272](-)%2C[712336:712338](-)%2C[712456:712458](-),MGA_1206
sequence1	MetaGeneAnnotator	CDS	712456	712590	.	-	0	ID=MGA_1207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMCAKKERRREVATFLGGVAIVAALTGIDEPLVFSFIFVGPVL;locus_tag=LOCUS_12050;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:47.7%25%2C q_cov:100.0%25%2C s_cov:7.9%25%2C Eval:1.1e-07%2C partial hit],internal stop codon at [712270:712272](-)%2C[712336:712338](-)%2C[712456:712458](-)%2C[712618:712620](-),MGA_1207
sequence1	MetaGeneAnnotator	CDS	712618	712896	.	-	0	ID=MGA_1208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSEALLNANGGLSDFGQNMLQEIANKMFNSTPITGENFKEYFAIRQGIIPTGVLLNQTTSGLPSFTIFGDINAFQKSMISGNFQTGYFPMF;locus_tag=LOCUS_12060;note=MGA_1208
sequence1	MetaGeneAnnotator	CDS	714196	715233	.	-	0	ID=MGA_1209;product=SIS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009898687.1;translation=MDFYQNFISKFKDYKIILTGAGTSQFIGDALCPYFFKKGLNIVSIPTTDIVSNPKNYLNPNDKTLLISFARSGNSPESTATFDIANQFVNNIFNLVITCNQNGVLAKKAKETANSELFLLPKESNDEGFAMTSSYSGMTIAALLFLSQLVNQNCFDQIENAICRFDKILFKLNNSIKNLNLQVNDRVVYLGSGEFKGIAIESYLKLLELTQGIIPAFYNGILAFRHGPKSILNENTTIIFLMSKDEYSRKYEFDLISEISNDKKIKQLVILDNKHDVNLEKFTKFYLNLDTNDLNEIIIGIYYILFAQLLAVNTSVAVNINPDNPCPSGEVNRVVKGVKIYGDFN;locus_tag=LOCUS_12070;note=WP_009898687.1 SIS domain-containing protein (Clostridioides difficile) [pid:43.8%25%2C q_cov:98.3%25%2C s_cov:88.1%25%2C Eval:1.6e-69],MGA_1209
sequence1	MetaGeneAnnotator	CDS	715710	716108	.	-	0	ID=MGA_1210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKLKRKEILLQKIVEKNFMSSKDFLEYAQSNGINESTARRDLKELEKEDKITLTFGGIISKVENELEIGRIEKAQKELYKKVAIANEAIKLLKENDVIFCAPGTTIEHFVKKIDKKIKVLVTNSFPVFLSA;locus_tag=LOCUS_12080;note=WP_010966249.1 DeoR/GlpR family DNA-binding transcription regulator (Clostridium) [pid:34.7%25%2C q_cov:71.2%25%2C s_cov:37.4%25%2C Eval:3.1e-07%2C partial hit],internal stop codon at [715710:715712](-),MGA_1210
sequence1	MetaGeneAnnotator	CDS	716274	716489	.	-	0	ID=MGA_1211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTKKMTRIILMILGILMILGILIIFISILLLLFFEKKLKQKTEFTKDFVISKENKNFYTKLIVRSLFQL;locus_tag=LOCUS_12090;note=MGA_1211
sequence1	MetaGeneAnnotator	CDS	716486	716815	.	-	0	ID=MGA_1212;product=PTS lactose/cellobiose transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001829758.1;translation=MNDRVEGKKYVKKKRNNIKGLELVAYAGEARSLIMECINNAKNNDFEKIDELMKEAEELLNQAHRSQADMLFEEAKEEYNEITLTIIHGQDHLMTTLLLKDLAYNLIEF;locus_tag=LOCUS_12100;note=WP_001829758.1 PTS lactose/cellobiose transporter subunit IIA (Staphylococcus) [pid:53.9%25%2C q_cov:81.7%25%2C s_cov:85.6%25%2C Eval:5.8e-22],MGA_1212
sequence1	MetaGeneAnnotator	CDS	718292	718858	.	-	0	ID=MGA_1213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSPFLILQDSVYYKKELSQATKEKEFVDFRNGIQYLGDLFFRKKIHLEIKNKKQQLKNNLNNDEIIIETKQINKEDNSTKKTYEILVICMGAGTSAMLAETINQVFKESEYKINAKACSIENYSVYIAETDLVIISPQARSIEKDLMDLAKTQTKLTVHQTKGTEFIEMIKDKKVTYKKILEGLNLN;locus_tag=LOCUS_12110;note=WP_002288634.1 PTS lactose transporter subunit IIBC (Enterococcus) [pid:31.7%25%2C q_cov:63.3%25%2C s_cov:20.6%25%2C Eval:7.2e-09%2C partial hit],internal stop codon at [718876:718878](-)%2C[718903:718905](-)%2C[718951:718953](-),frameshifted%2C insertion/deletion at around 719007,MGA_1213
sequence1	MetaGeneAnnotator	CDS	718984	719211	.	-	0	ID=MGA_1214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGTGAQIAVPLAIILFCKSKQLKSIGLVAIIPIMFQVNEPVLFGIPTILNPLMAISFLLTPIFNSLLGVFLLKF;locus_tag=LOCUS_12120;note=WP_000359747.1 PTS transporter subunit EIIC (Streptococcus pneumoniae) [pid:52.0%25%2C q_cov:100.0%25%2C s_cov:13.4%25%2C Eval:4.4e-17%2C partial hit],internal stop codon at [718876:718878](-)%2C[718903:718905](-)%2C[718951:718953](-)%2C[719329:719331](-)%2C[719356:719358](-)%2C[719380:719382](-)%2C[719395:719397](-),frameshifted%2C insertion/deletion at around 719004,MGA_1214
sequence1	MetaGeneAnnotator	CDS	719463	719870	.	-	0	ID=MGA_1215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNLSYGLLGACLCIAISSRMSEKINSKLEASKKMNIIINAFSTYIAYFLISVGHSKDGSFFNILFSIFGVKGIFISIICGTIVPWFFYLCYKFNIIIRLPKQVPQNISQAFLNIFSLLFVIIVFGVFGFLFAFF;locus_tag=LOCUS_12130;note=MGA_1215
sequence1	MetaGeneAnnotator	CDS	719901	720113	.	-	0	ID=MGA_1216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKEKRKVENLFKKFGQKGINLAQKISQNKFVASIMESFILVMPIIIASTLFILIAELPISFGYKPSADS;locus_tag=LOCUS_12140;note=MGA_1216
sequence1	MetaGeneAnnotator	CDS	720300	720653	.	-	0	ID=MGA_1217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAIGCDHIVTDIKDKIIEMLKRDKIEVIDCGTFDFTRTHYPIFGQRVANKVVKHEADFRIVICGTGVGISNGAQKVKGARVILTKDVISAVDARKNYEANIVGFGGRIIGLGLMY;locus_tag=LOCUS_12150;note=WP_002262464.1 galactose-6-phosphate isomerase subunit LacB (Streptococcus) [pid:55.6%25%2C q_cov:100.0%25%2C s_cov:68.4%25%2C Eval:1.6e-32%2C partial hit],internal stop codon at [720300:720302](-),MGA_1217
sequence1	MetaGeneAnnotator	CDS	720739	720873	.	-	0	ID=MGA_1218;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNKGIVVAQISDFHSSRMTIQHNNPNVLSLGYKIIAKKIWWK;locus_tag=LOCUS_12160;note=MGA_1218
sequence1	MetaGeneAnnotator	CDS	720934	721086	.	-	0	ID=MGA_1219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIKILFDKNINKCYKDYLIENIKNNNFKINFIEIDDIFEVYKQLVKEI;locus_tag=LOCUS_12170;note=MGA_1219
sequence1	MetaGeneAnnotator	CDS	721151	721939	.	-	0	ID=MGA_1220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKGEYMKIEKHIRFKKYIDFFKEEKDISMKAYLNLAELENIPLITARRDLKELINLNYIYQELGLIKLVENKEYETTRIEKQAKNKEEKNNIAKLAVKELNADEIFISAGTTMENFVKNIDRPIKIVYTNGFEIARLANSNKNIHRVVIIGGKLRLQSSALCGPIANKTVEDLRFSQSFITVTNIDKNFFLYNNNDDEAELIKLVIKNSNNVICLVDSSKFNPTPSGSKIVDSSKIDLFLTNEEIIKKEFENIKSHIDIK;locus_tag=LOCUS_12180;note=WP_011166993.1 DeoR/GlpR family DNA-binding transcription regulator (Mycoplasma mycoides) [pid:33.0%25%2C q_cov:69.1%25%2C s_cov:78.9%25%2C Eval:1.9e-15%2C partial hit],MGA_1220
sequence1	MetaGeneAnnotator	CDS	722026	722265	.	+	0	ID=MGA_1221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKLKEELLKAKQGKYAIPAFNFDNLEMMKGIIEAAEEEKSPVILMVTESAAKYMGIDYVFSFALTATNNANIPVILH;locus_tag=LOCUS_12190;note=WP_011166818.1 class II fructose-bisphosphate aldolase family protein (Mycoplasma mycoides) [pid:57.0%25%2C q_cov:100.0%25%2C s_cov:28.1%25%2C Eval:2.4e-20%2C partial hit],internal stop codon at [722263:722265](+),MGA_1221
sequence1	MetaGeneAnnotator	CDS	722326	722754	.	+	0	ID=MGA_1222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDSSLKPFEENVKETIEIVNYAHSKGVQVESEIGHVGGKEDDRNSDSKGYTDVNEAIEFEKLTKIDALAIAIGTSHGLFKGQVKLQFDLLKEIESKVSAPLVIHGSSQVPLEDLQKTISLGITKINIGTDLKMACANGLKH;locus_tag=LOCUS_12200;note=WP_011166818.1 class II fructose-bisphosphate aldolase family protein (Mycoplasma mycoides) [pid:62.4%25%2C q_cov:99.3%25%2C s_cov:50.2%25%2C Eval:1.7e-43%2C partial hit],internal stop codon at [722263:722265](+)%2C[722752:722754](+),MGA_1222
sequence1	MetaGeneAnnotator	CDS	722993	723166	.	-	0	ID=MGA_1223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGGFLSEYIKTKDYTKALKMGIVCGSATAYSDKIASLELIEEMLLSMDSLKIINIE;locus_tag=LOCUS_12210;note=WP_002288484.1 1-phosphofructokinase (Enterococcus) [pid:45.3%25%2C q_cov:93.0%25%2C s_cov:17.4%25%2C Eval:1.8e-07%2C partial hit],internal stop codon at [723206:723208](-),MGA_1223
sequence1	MetaGeneAnnotator	CDS	723206	723934	.	-	0	ID=MGA_1224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANNIYIISLSPAIDYILKFDELKMNKTNRPNNVEMYPAGKGIHISMLLNNLKVKNESIIFSNGDFEKFFYKNLDLMKIKYKKFNSLGEIRINLKLIDQNQTECSVTSSEIENSELEKLMQYLKENVSTNDYVIATGSIPTGVNNKIYAQIAELTNSLNAHCVIDAFGDSLKYAIEKRPFLIKPNIEELSITTGSEIKNQNDILKAAKQLLDKGVQNILISMGDEGAIFLNKEITQKCSIGN;locus_tag=LOCUS_12220;note=WP_011166821.1 1-phosphofructokinase (Mycoplasma mycoides) [pid:59.7%25%2C q_cov:51.2%25%2C s_cov:100.0%25%2C Eval:5.6e-35%2C partial hit],MGA_1224
sequence1	MetaGeneAnnotator	CDS	723972	724496	.	-	0	ID=MGA_1225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKEVKTERQIELNKIYLELKNNVKLLKELNQVTKKHYKLTVKKTNLEYTINRFLELREEKNASLFNKGQKLLNTNISFKTEKGNLLILESEKNNYKLEKIETLKNQVSELNKIISDSQKNLEIETNKYYVDIEKNLNQIEKVKEKKLKEFKNQYFDDIHYLEIKENLIKAKAI;locus_tag=LOCUS_12230;note=MGA_1225
sequence1	MetaGeneAnnotator	CDS	724932	725111	.	-	0	ID=MGA_1226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGATIAVGIKSRKIIDRSAAFAAALPGLISGPTESCIYGVNLPKGIPFLTGVLAGGIGG;locus_tag=LOCUS_12240;note=WP_011166820.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:74.6%25%2C q_cov:100.0%25%2C s_cov:9.4%25%2C Eval:7.3e-20%2C partial hit],internal stop codon at [724782:724784](-)%2C[724932:724934](-)%2C[725118:725120](-)%2C[725229:725231](-)%2C[725280:725282](-),MGA_1226
sequence1	MetaGeneAnnotator	CDS	725280	725453	.	-	0	ID=MGA_1227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVIIAYAQKSMERYFHPVANFLLNPFLTLFVGGLLAFFIMGPIMGVVENALLTAFD;locus_tag=LOCUS_12250;note=WP_011166820.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:58.9%25%2C q_cov:98.2%25%2C s_cov:8.9%25%2C Eval:2.0e-14%2C partial hit],internal stop codon at [725118:725120](-)%2C[725229:725231](-)%2C[725280:725282](-)%2C[725502:725504](-)%2C[725616:725618](-),MGA_1227
sequence1	MetaGeneAnnotator	CDS	725616	725768	.	-	0	ID=MGA_1228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALQQLLIRSGVASDPAADGSQLGIDYNIFDYVLNVIASTGFKMMGVVAM;locus_tag=LOCUS_12260;note=MGA_1228
sequence1	MetaGeneAnnotator	CDS	725997	726176	.	-	0	ID=MGA_1229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKIEKQEVLVQNIFDKVGGPENVKDVYHCATRMRLTLHNQDAANINDLKTISNIKGAL;locus_tag=LOCUS_12270;note=WP_011166820.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:49.2%25%2C q_cov:100.0%25%2C s_cov:9.4%25%2C Eval:6.2e-11%2C partial hit],internal stop codon at [725841:725843](-)%2C[725997:725999](-),MGA_1229
sequence1	MetaGeneAnnotator	CDS	726247	726981	.	-	0	ID=MGA_1230;product=DeoR/GlpR family DNA-binding transcription regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166819.1;translation=MLKNERREKIINIINEKGFVKNITLSELTNSTIQTIITDVNELHNEGKIIKVYGGAKSLQNSSKRMQEHFDEEKEKVNIEFKDKIARKAAELIENGDLIFIDTGTSTKQMIKYLVNKKISVVTNGYSIALELIEQDMEVCLVGGTIIPSTHATAGELSLKFIDNFYFDKAFVGMNNYDNNEFYTTNIQEAMIKEKVIKNSEQSYILMDPTKFYSKNRIKVDVKKETALISKESPSDFKGKFIYA;locus_tag=LOCUS_12280;note=WP_011166819.1 DeoR/GlpR family DNA-binding transcription regulator (Mycoplasma mycoides) [pid:64.0%25%2C q_cov:99.2%25%2C s_cov:98.8%25%2C Eval:2.8e-82],MGA_1230
sequence1	MetaGeneAnnotator	CDS	727124	727363	.	+	0	ID=MGA_1231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKLKEELLKAKKGKYAIPAFNFDNLEMMKGIIEAAEEEKSPVILMVTESAAKYMGIDYVFSFALTATNNANIPVILH;locus_tag=LOCUS_12290;note=WP_011166818.1 class II fructose-bisphosphate aldolase family protein (Mycoplasma mycoides) [pid:53.2%25%2C q_cov:100.0%25%2C s_cov:28.1%25%2C Eval:1.3e-18%2C partial hit],internal stop codon at [727361:727363](+),MGA_1231
sequence1	MetaGeneAnnotator	CDS	727424	727852	.	+	0	ID=MGA_1232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDSSLKPFEENVKETIEIVNYAHSKGVQVESEIGHVGGKEDDRNSDSKGYTDVNEAIEFEKLTKIDALAIAIGTSHGLFKEEFKLQFDLLKEIESKVSTPLVLHGSSQVPLEDLQKAISLGITKINIGTDLKMACANGLKH;locus_tag=LOCUS_12300;note=WP_011166818.1 class II fructose-bisphosphate aldolase family protein (Mycoplasma mycoides) [pid:64.5%25%2C q_cov:99.3%25%2C s_cov:50.2%25%2C Eval:1.5e-44%2C partial hit],internal stop codon at [727361:727363](+)%2C[727850:727852](+),MGA_1232
sequence1	MetaGeneAnnotator	CDS	728008	728157	.	-	0	ID=MGA_1233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFATKSLKEINWVFLYFIGLTNPILNLIKLPINMESINKALEDKESVKK;locus_tag=LOCUS_12310;note=MGA_1233
sequence1	MetaGeneAnnotator	CDS	728587	728946	.	-	0	ID=MGA_1234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIIINFQNFEKKFKKTKIGPINLEIKTGKITALCGRSGSGKSVILNSIIGAIKKYKGDIIFNEENRRKSRSYLQNTLFGFYTQMDFSLYDISAYNFLKLICLSFNLDKNEIKEEIEY;locus_tag=LOCUS_12320;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:53.6%25%2C q_cov:92.4%25%2C s_cov:11.5%25%2C Eval:6.2e-27%2C partial hit],internal stop codon at [728434:728436](-)%2C[728530:728532](-)%2C[728566:728568](-)%2C[728587:728589](-),MGA_1234
sequence1	MetaGeneAnnotator	CDS	729282	729626	.	-	0	ID=MGA_1235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEDFSSTEEYQNQYYKWYGDLLNFDDGQIKLSSNPNVSETYTKTYLVDGYRLHFVDGINSIGFIRDANAKKLFNEILYDPLYIAIRVLEQYFINYTSTYITLTNYSLDTSKNE;locus_tag=LOCUS_12330;note=MGA_1235
sequence1	MetaGeneAnnotator	CDS	729927	730493	.	-	0	ID=MGA_1236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLVFLFMYSKIEDKTIYIISTQTISRSKIFLTQTIALFTYVSMLILTNFLIINIFALITNLKNTNVILNATLVHMIYLFLISYLLINFFTLLSLFLKNQITTIIITLILALSFIASLPYQFISVSEKNENLYFTSPNGNLYVEKIEEIYKAFDLQEHIKNEKIKYKYLSKFINDFFIINNFLRENSN;locus_tag=LOCUS_12340;note=WP_011183358.1 ABC transporter permease (Mesoplasma florum) [pid:33.0%25%2C q_cov:94.7%25%2C s_cov:29.0%25%2C Eval:2.3e-23%2C partial hit],internal stop codon at [729807:729809](-)%2C[729888:729890](-)%2C[729927:729929](-)%2C[730506:730508](-),MGA_1236
sequence1	MetaGeneAnnotator	CDS	730984	731313	.	-	0	ID=MGA_1237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDESASIQEITNYLTGAYSFGQFKLNNLNLSYAGGNQINLGQIIMPFTYKSNITTISSNNVLGTSVKAKAYLKNLLSDFHQKTKIIENTKSNVRNNPLAATSTTKNSPL;locus_tag=LOCUS_12350;note=MGA_1237
sequence1	MetaGeneAnnotator	CDS	731395	731688	.	-	0	ID=MGA_1238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHFSNVDLNITENESWKDVSETITSFFKVEKNINSLLQKMKEYTDNEQFEITYDTNSFFEDLKVSNNFSHTNNKFLYNTDLQVFNDLVFKTKSTDEL;locus_tag=LOCUS_12360;note=MGA_1238
sequence1	MetaGeneAnnotator	CDS	731830	732360	.	-	0	ID=MGA_1239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNFLFLLSIGTIVASSTTSIVSCGTKPKSNQSTVDQELLNSLKNDINKKFDEHFIKNNVPFIETSKNSIKYNFFKKSNLEKLYSNPNDGEVTLNINSLSDIDYFKNDMQNFANLQDLASSIDSFKNNTENNYSVFLSEVSNVYVGYDFGEEITIKKQTDNNNNVTYSGSFNVKFK;locus_tag=LOCUS_12370;note=MGA_1239
sequence1	MetaGeneAnnotator	CDS	732857	732985	.	+	0	ID=MGA_1240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQKQLQPDKEIYLYLGADVFDPKIYDYVNLLGKNQNGKNIF;locus_tag=LOCUS_12380;note=MGA_1240
sequence1	MetaGeneAnnotator	CDS	733361	733543	.	+	0	ID=MGA_1241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHGQENYRRVEKINSFENLDEMLPLLAFNDEFKNENGSYKIKSFTIDIDPYLNNKDNSNY;locus_tag=LOCUS_12390;note=MGA_1241
sequence1	MetaGeneAnnotator	CDS	733676	734047	.	+	0	ID=MGA_1242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKEKIIPNNNQGNIILKVHPRSENEAINKLMEKINNEFKGTLNRDVIINLKQTVIIEVYILSGLIKNDAKTKYHFSVNGTSTSVLGFYAANQIEMIDEFIFENQNALDQYKKYYGENSNIID;locus_tag=LOCUS_12400;note=MGA_1242
sequence1	MetaGeneAnnotator	CDS	734556	734837	.	-	0	ID=MGA_1243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYECNLNIGDEVLISNYSTTDKYFLSSNKSNITPSNKEYVSRSAIRQYIDVLVALNILKEVKSKFYIIKVNYKNEEILDDFFNQPFLLLKEIK;locus_tag=LOCUS_12410;note=MGA_1243
sequence1	MetaGeneAnnotator	CDS	735379	735648	.	-	0	ID=MGA_1244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELNIKVLKFNNNNILDRNSEKYKNILEERKITNDYIFKFNISKYDEFEFDYQQKLVNYIIVGSTNDGDKLEFKYINKKIEKRIILIYI;locus_tag=LOCUS_12420;note=MGA_1244
sequence1	MetaGeneAnnotator	CDS	735688	736062	.	-	0	ID=MGA_1245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIFDDFQVKLLNDLFNTNDYDLFIKKSDPKTFNYLKNIFDTYYNKEYKDDKNKMIKIKNLFSYFRYVERQLICKQSIEKNPPLIKNLRYLDKSKNERYHEIIHKFEKVKNNKIIFHTSLEKIG;locus_tag=LOCUS_12430;note=MGA_1245
sequence1	MetaGeneAnnotator	CDS	736867	737502	.	-	0	ID=MGA_1246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSILVKNNKSIDFICLENIDKIDKIVDILTKYQSIEDKSLKLEELNFDFFDKETCEKLAVISLTGTHALSKKTMSKLIEEMFHDNLNHMEALAKLKIKPDYKLKVDLTNFKTIPILREKINEMYISPVVKRALIESLKIIKELERHFKDFEIKDIVIEMAKKNSAEKKQFISKIQRQNVDLVKKLSNDYSLDENKLNFKMKEKFLLLSEQ;locus_tag=LOCUS_12440;note=MGA_1246
sequence1	MetaGeneAnnotator	CDS	738004	738210	.	-	0	ID=MGA_1247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIILFNYIKHRGSFNYREDLSELKNISQEELETSSEFKLPVDIQFELKEENNKFREINNEKSLINHE;locus_tag=LOCUS_12450;note=MGA_1247
sequence1	MetaGeneAnnotator	CDS	738799	739185	.	+	0	ID=MGA_1248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKTNLENLMKFEMHVHIEGTIYPEFLIQKAKENNIKIDFDTPQEYYEDYKTRNTLQKFLMAYYGNMRVLCNEKDFFDLAFEHARRSSLQNVKYSEVFFDPQPHLYRVIKFDDIVNGLYKGFQEAEKN;locus_tag=LOCUS_12460;note=WP_011183112.1 adenosine deaminase (Mesoplasma florum) [pid:43.9%25%2C q_cov:96.1%25%2C s_cov:36.5%25%2C Eval:4.4e-25%2C partial hit],internal stop codon at [739321:739323](+),frameshifted%2C insertion/deletion at around 739176,MGA_1248
sequence1	MetaGeneAnnotator	CDS	739896	740120	.	-	0	ID=MGA_1249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRYAQAAGISTIAAMIPLQMAGNIFRGMSPVFSVIIIVSQKIKISPFQLVKRTSVPLLIGALFMLSLSLIVFL;locus_tag=LOCUS_12470;note=WP_007052501.1 C4-dicarboxylate transporter DcuC (Bifidobacterium) [pid:45.7%25%2C q_cov:94.6%25%2C s_cov:14.7%25%2C Eval:3.3e-12%2C partial hit],internal stop codon at [740117:740119](-),MGA_1249
sequence1	MetaGeneAnnotator	CDS	740357	741040	.	-	0	ID=MGA_1250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIFGFFAICSLIFFLIKKINTIIVLFTIGILLSICAMIIRRVKIEKPLNAFYPIEVVKQSFIKGVSGAGFIILLLGGYSFFMSTIQANEVVINVLTKPLLKIKKKYLLIPFVFLFEHLLSLAIPSSATLALILMATLFPVLVKTGISPLSAAAVIATTATIMPTPLGSDNVIIAEEMGISVTQYVLKYHAIISLPTILLMTFGHLFWQLFCDKRDLKRNRKMKFED;locus_tag=LOCUS_12480;note=WP_007052501.1 C4-dicarboxylate transporter DcuC (Bifidobacterium) [pid:46.3%25%2C q_cov:94.7%25%2C s_cov:47.7%25%2C Eval:2.1e-49%2C partial hit],internal stop codon at [740117:740119](-)%2C[740357:740359](-),MGA_1250
sequence1	MetaGeneAnnotator	CDS	741061	741684	.	-	0	ID=MGA_1251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLKNHAVFELYNKIMALEEIILVTLASLTNIAMLLTLFPKVKNKIKKILMLCGSFGRENKGIYSEFNAAFDPEALKIVLESKIEIILFPMDLGLKALIKKDDIEKIKLSNKFGEVFYSLFKKYRGESFETGLKMYDSLSIIFLLNPFIFKIQKYYVSVDTQNSISAGTTYIDFKNYLKQEPNINVAVDLDEIKFNNLIVEKLINLN;locus_tag=LOCUS_12490;note=WP_007052500.1 ribonucleoside hydrolase RihC (Bifidobacterium longum) [pid:40.8%25%2C q_cov:94.2%25%2C s_cov:64.1%25%2C Eval:2.6e-37%2C partial hit],frameshifted%2C insertion/deletion at around 741698,MGA_1251
sequence1	MetaGeneAnnotator	CDS	741675	741977	.	-	0	ID=MGA_1252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKIPIIIDTDPGIDDTVALAIAINQEKFDIKLISTVARNANIDLVTENALKIITLFNANIEVSKGCYKPILRSPVYAYDIHGNTELDGYDFKNLLIICY;locus_tag=LOCUS_12500;note=WP_002357149.1 ribonucleoside hydrolase RihC (Enterococcus faecalis) [pid:45.7%25%2C q_cov:92.0%25%2C s_cov:30.1%25%2C Eval:7.8e-19%2C partial hit],internal stop codon at [741675:741677](-),frameshifted%2C insertion/deletion at around 741668,MGA_1252
sequence1	MetaGeneAnnotator	CDS	742524	742751	.	-	0	ID=MGA_1253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASGKNIAKRLQELGVKVENAKEAFEIFKTRKNSIVSDYFITMEIELISLFSTAIYFLNPEIIVIGGSVAMNNQD;locus_tag=LOCUS_12510;note=MGA_1253
sequence1	MetaGeneAnnotator	CDS	742726	742932	.	+	0	ID=MGA_1254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIFFPLAKYSNPLFDGSIVLIFGKAFAISHALPVKPLKIFPSFIKPAPILVETVKYNSDSITFLIEN;locus_tag=LOCUS_12520;note=MGA_1254
sequence1	MetaGeneAnnotator	CDS	743126	743263	.	-	0	ID=MGA_1255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLAVDIGGASIRIAIIEDKKIFSKETFETNPNDFDFNLKKLKL;locus_tag=LOCUS_12530;note=MGA_1255
sequence1	MetaGeneAnnotator	CDS	744022	744183	.	-	0	ID=MGA_1256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKSLGTKIKIIASGAIFDSKYIQSVLINEFKEQITFRDKNQIFINDLKKFIT;locus_tag=LOCUS_12540;note=MGA_1256
sequence1	MetaGeneAnnotator	CDS	744637	744999	.	-	0	ID=MGA_1257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLFLLDENLNQIGKGYTPHDALIPKINSQDLIAAKKINNILNITVFPSFKLKETPIKAYSFTTLKGYFAIKLINKNIIDIVDASSTGLLDFKTSKFSPKLLKYVNRENIICPEIYKKLE;locus_tag=LOCUS_12550;note=MGA_1257
sequence1	MetaGeneAnnotator	CDS	745072	745224	.	-	0	ID=MGA_1258;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTIYIYFGDMYIEYKIFDQNNNQLEYEKLSNAEIYFDNHNFASANKAID;locus_tag=LOCUS_12560;note=MGA_1258
sequence1	MetaGeneAnnotator	CDS	745744	745950	.	-	0	ID=MGA_1259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLASLVPILIVSVFMMSIKQIAIDSFSKLRDIGEWLNSLSEKVLTQITSIGISLFISSLVIIVIITFS;locus_tag=LOCUS_12570;note=MGA_1259
sequence1	MetaGeneAnnotator	CDS	745998	746660	.	-	0	ID=MGA_1260;product=5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166627.1;translation=MEKYCVLFAMEEEAKAFISNINAKLVEEKPFKIYCSNNIYIAISNVGLINASTCFTYVNQKYDFNYYINAGLSGCVGLVLNQLDVVLVNKSYLGNVDATGFGYKLGQVPKMQEYYLSDKNLNEKLNKNFKYANICSSDVFINSQKLFDQIIFKIDKSIEIFDMECGAFFQAAYIFKKPIISLKVISDKIGSKTNEEQFRQILSKGSEIISKTLSVFLERI;locus_tag=LOCUS_12580;gene=mtnN;EC_number=3.2.2.16%3B 3.2.2.9;note=WP_011166627.1 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase (Mycoplasma mycoides group) [pid:36.5%25%2C q_cov:95.0%25%2C s_cov:95.4%25%2C Eval:4.4e-33],MGA_1260
sequence1	MetaGeneAnnotator	CDS	746678	746899	.	-	0	ID=MGA_1261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASKEMSILDMIVFCADKISSERNYPRVDEFRAIVKSDLVLGFKMLLENQYEEAIKKTGMDSIGNDLKQSYQY;locus_tag=LOCUS_12590;note=WP_011166626.1 nicotinate-nucleotide adenylyltransferase (Mycoplasma mycoides) [pid:50.7%25%2C q_cov:100.0%25%2C s_cov:19.9%25%2C Eval:1.2e-14%2C partial hit],internal stop codon at [746678:746680](-)%2C[746945:746947](-)%2C[746984:746986](-)%2C[747056:747058](-),MGA_1261
sequence1	MetaGeneAnnotator	CDS	747056	747589	.	-	0	ID=MGA_1262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEIALSDLEYVKIEKYEISKTKRSYTYDTVSYYKNKYPDISFAFIMGSDQLDNFEKWDNFNELIKAIEFKIFLRTEDINQKIVEKYNLETFEFENNHLSSTKIRNLEDLNLQIKEINDYVNYNLLYLYERLESKMDEKRFFHSLNVGQMTLDLARLNNYDLKKAFIAGTLHDISKQ;locus_tag=LOCUS_12600;note=WP_011166626.1 nicotinate-nucleotide adenylyltransferase (Mycoplasma mycoides) [pid:57.6%25%2C q_cov:100.0%25%2C s_cov:48.2%25%2C Eval:5.1e-51%2C partial hit],internal stop codon at [746945:746947](-)%2C[746984:746986](-)%2C[747056:747058](-)%2C[747656:747658](-),MGA_1262
sequence1	MetaGeneAnnotator	CDS	747656	747961	.	-	0	ID=MGA_1263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIDFNEIHVIGDNNNDIEMVRGSQNGLAVGNSVENLKKIASKVIDTIDNNGVGKYLIELIKKRENRMKKIALFGGSFDPVHTDHINIIKSCKKNLCFDEV;locus_tag=LOCUS_12610;note=WP_014584372.1 Cof-type HAD-IIB family hydrolase (Mycoplasma leachii) [pid:46.3%25%2C q_cov:66.3%25%2C s_cov:23.3%25%2C Eval:1.1e-12%2C partial hit],internal stop codon at [747971:747973](-),MGA_1263
sequence1	MetaGeneAnnotator	CDS	747971	748624	.	-	0	ID=MGA_1264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLPFIASDLDGTIVNNEDFKILDETVKDILEYQQKSNNSFFIVTGRASQNMKYFIKQLDIKLPVISSNGSAITDPITNKVYFEHIMQTELVIELLNYSIENDLDVSLYTATSLCALKNSERIRKYSELYGHYPKEYLPNYFLYDNYLQMIDDVKNGIHKAIKLMYSLDERNDVEKVKQLDKFLEQKNLYHPSTKMQSRIIMDAMPMGIDKLYGIKK;locus_tag=LOCUS_12620;note=WP_014584372.1 Cof-type HAD-IIB family hydrolase (Mycoplasma leachii) [pid:32.4%25%2C q_cov:98.2%25%2C s_cov:73.3%25%2C Eval:2.3e-23%2C partial hit],internal stop codon at [747971:747973](-),MGA_1264
sequence1	MetaGeneAnnotator	CDS	748695	748958	.	-	0	ID=MGA_1265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRSFENTNEFNNIFQKNYSAKISTFEKDIRKIKKQLKIKQDTVDEFIIITNDILNLYPKVKFKDLTFYIADITTLDYFLNNFLYKK;locus_tag=LOCUS_12630;note=MGA_1265
sequence1	MetaGeneAnnotator	CDS	749256	749495	.	-	0	ID=MGA_1266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFKICDLYELKTYVDSLHEIVIENIDKNIEKDDLLSLVKMLLNYKNSKDFISIFYKHPIISFTNSTSTRYLISFPEFI;locus_tag=LOCUS_12640;note=MGA_1266
sequence1	MetaGeneAnnotator	CDS	749520	749795	.	-	0	ID=MGA_1267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHTYIKEFCEIKEYFSINNLEEEIEFRFNVLNPINYDLLFKKEDSFEKQKRIDIIKTFYERKDEKIELEIKQLKNKVFKKIKLFNSITLYQ;locus_tag=LOCUS_12650;note=MGA_1267
sequence1	MetaGeneAnnotator	CDS	749796	750383	.	-	0	ID=MGA_1268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFDYMIKDFNKISGKANFYDYNNQLNYFDYFGITDRDLENVFKVFKMNQKKPEFLLKILSSKINEKISFYISNVYINGKLHKLTLPADFIASKAFLSGLFYTAARLLIQEFVLLSTANKTTFNVDLKVFKFGNEKFKYYMYKNSLKKYYQSIFSWTIPLLENNSDTINIFSNLDKLIENKAYNLKLYKDLFICI;locus_tag=LOCUS_12660;note=MGA_1268
sequence1	MetaGeneAnnotator	CDS	750434	750679	.	-	0	ID=MGA_1269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILFVKCGKNAELKSIDQLNNFKYICKNCVLIDLKAKKINNEDVFCIICKNKANYLLISQLNRITDYCKYVFLKILKHCN;locus_tag=LOCUS_12670;note=MGA_1269
sequence1	MetaGeneAnnotator	CDS	751189	751572	.	-	0	ID=MGA_1270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELIFEKIQNAEEIKIDFTAIGSLLKKLAPIFKDMPTSVDALVNKIKEAGILADLYQVKDNLIGLKDLLKYVQDTVADQKAKMIENIKTEYNKLTVANSEIISQEKYKYNLGSGKTVTISIAKENNL;locus_tag=LOCUS_12680;note=MGA_1270
sequence1	MetaGeneAnnotator	CDS	751726	752496	.	-	0	ID=MGA_1271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELSLTKLRDKKIVLDETTVLSNLDSIAKIVNFARICMLYLSNFIVSDQFEVDLTAEQVNEFRNKKISTIADSNILNFKEMFEKVKETIFGSNSSTNAPIALKNVLKLLFLNTTQDYYKNMIFDLSDIDLSDFSEVIQKIIQSLQEFQKDDFVDGDLGFNYAMTRILNGSIDIKKLLDSLPDMFKGIIEALNLNIPAILVNLIGKIASNTPITKGLNSALITLIFSLLGVELEDSKIQKLVDGLNGENDVDLLNLL;locus_tag=LOCUS_12690;note=MGA_1271
sequence1	MetaGeneAnnotator	CDS	752384	752620	.	+	0	ID=MGA_1272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQILAKFTIFAIESKLDKTVVSSKTIFLSLNFVKDNSKFCIAFLKFVAEISSSLKSAVESLTNFFKPFAIPINDKLIV;locus_tag=LOCUS_12700;note=MGA_1272
sequence1	MetaGeneAnnotator	CDS	752623	753201	.	-	0	ID=MGA_1273;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLLSLLASLSIITSTSITVIACETKTPKEDETFDQEKMKEFLGEVSKSLYLNKSGYNIDYVLETYSFKSNQKSLTSSELKEFKEKYFKNGLIGSNLKTTGFEYTKGQQPGDKDLLLGITTVANSIFSLSGQTDEEKAESLKTTLSELLKYFNVELTPETIKEAGPIIDQVANSLESFGDALSMEKYQNMT;locus_tag=LOCUS_12710;note=MGA_1273
sequence1	MetaGeneAnnotator	CDS	753228	753401	.	-	0	ID=MGA_1274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSSISSDVIARYDSLRLHIQNMQLRVIFESEKNGKFEYLTKDNLSINIVFSDDDTK;locus_tag=LOCUS_12720;note=MGA_1274
sequence1	MetaGeneAnnotator	CDS	753408	754727	.	-	0	ID=MGA_1275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVPGIKITLGTIYQLIQLLNIKSVTNFSLRAGGMDDILSLIGPLLQPIKNLVNQDVNQLAQANPDEQNGKQIYENFDRDFRNNLQDLFSAFGNLLRSLGIKDEITIAGNEQKPDFTFKVSEFLNVNLFDLIDLDLSSINGEQEFGSGVAQGKMFIDLKIGSKGVQNKVAIGDILANVAPNIVLMFSKFLNPDTYNTTKGGSHNFLYLFLKELFTQMDDRLFTINSKNNKNHHSADSSGSTMGIDSLLFNLLLDYNKNNRVDEKLNLSIKLNLDIELKVLGITVKKTMFKNATLYELLDKIVISPGQIVLKIFNNLFNLGEKGYLELDTLFLGPNLNMIFFTNDSIKISAILDDMDLSSIERTAIDALMPLFQDTVTTTLNEQINKMLPEMSMQMIINLIPDSLIKGLGVEEKYLNNSKVIIEKAQFVFQFKKIGQNAI;locus_tag=LOCUS_12730;note=MGA_1275
sequence1	MetaGeneAnnotator	CDS	754848	754967	.	-	0	ID=MGA_1276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGIGSDGITFDQNANVNLGKAKLDLFYLNKKLYTQEFN;locus_tag=LOCUS_12740;note=MGA_1276
sequence1	MetaGeneAnnotator	CDS	755543	755902	.	-	0	ID=MGA_1277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGKSSLIIDNETGTTYTSYTQGYSENSLNKIDSLKDKRELLDQVEAIIRIIIYLITFIALTISIIIIVITTILIIGENAQFIATMKILGYTNNYVMAQILGIYILPIFTTFIFGFLTA;locus_tag=LOCUS_12750;note=MGA_1277
sequence1	MetaGeneAnnotator	CDS	756548	757078	.	-	0	ID=MGA_1278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLMESTYQKETNVIQQAMKEALLKNQDYNIATNIIPYNHQTEELGTMINGTYFSNKNEQNIKIYGLNSNSVSVYLRDSEGTDIKENLFKKLNSDYNEYIPIIINQTISKKLNLGIKDIMNVSILKKELVDKENNSIDLNNVNMGIKSEYNYLTQTVNDYISEHKKNYFAYNELNQT;locus_tag=LOCUS_12760;note=WP_020862895.1 ABC transporter permease (Mycoplasma mycoides) [pid:34.6%25%2C q_cov:75.6%25%2C s_cov:9.1%25%2C Eval:2.2e-14%2C partial hit],MGA_1278
sequence1	MetaGeneAnnotator	CDS	757268	757513	.	-	0	ID=MGA_1279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNFYKKYINALPLNINSKYLNENDLKSLNYGKIKNINFDDQLFETSGEEVYETYQVKTPFKLATKGTNYLFYGNDTINSK;locus_tag=LOCUS_12770;note=MGA_1279
sequence1	MetaGeneAnnotator	CDS	757976	758680	.	-	0	ID=MGA_1280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSTFLLILIALISVFIIILIVKKQVDETKSKLGTFKALGYSNRSLLMFFISTPIVISLVGTILGYISILVIQNYIISIFANYFNIHYKGFDSLSLHTFAIFISVLITLTLITLLIAYNVIEQRALNLLAGNFMKRNSKIGRGFKFLFRKANPTLKLHSALLMSSTGKILGTSATLFVSTLLISTAIITPLVMEKNSKATFSGLNYKDVVEFNEPVSNNPSTFLKTYNPIKEQK;locus_tag=LOCUS_12780;note=MGA_1280
sequence1	MetaGeneAnnotator	CDS	758798	759367	.	-	0	ID=MGA_1281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDKIILEDNQKDRYFSENKQFASREVIIQANFANQNNIKRGDIIRLTADIYGNQLLVKDDISNLTFGGSVSINDSTLGINTSEYKEQVWFQVIGFGSSADFVYPVTDFKSTIPSIKKNLIAYVDPSIFGLNKVEVKNEEGTKMQIYSYDLSSSKLNFESQSDREVYFSGKFKSKSHNSESYLKAFNKE;locus_tag=LOCUS_12790;note=WP_011183053.1 ABC transporter permease (Mesoplasma florum) [pid:35.1%25%2C q_cov:86.8%25%2C s_cov:11.5%25%2C Eval:5.4e-20%2C partial hit],internal stop codon at [758681:758683](-)%2C[758690:758692](-)%2C[758798:758800](-),MGA_1281
sequence1	MetaGeneAnnotator	CDS	759620	759886	.	-	0	ID=MGA_1282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILIMKIQEKPNKKLLIIKSGFKTTLKNLGQLIGLGFLVTIAIMVGMSVFITINRVDESYNKLINQSNQHDFIVNVDNSTRISFDENE;locus_tag=LOCUS_12800;note=MGA_1282
sequence1	MetaGeneAnnotator	CDS	761503	762048	.	-	0	ID=MGA_1283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLIISGVITIAFGLIVTPSLLVMQGFVKSLEKYRPDTNEKEDGVVGDNVHDSNQGFENINILNLNTNLGEISDVSNNSLIERIKEYNSVLKNKTIYIKGLSLKKVKFTVENYFGTTVGSFEVSSLDALIKIRQLGSLKNIKYNTIIEKIKELNPGISGMDFSNDLDIKVKSLNQIDIS;locus_tag=LOCUS_12810;note=MGA_1283
sequence1	MetaGeneAnnotator	CDS	762435	762653	.	+	0	ID=MGA_1284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIIKFVLETRTIGAKASKNFKIKIDANLRLYNFKKDFHLNFLYLIFIRTPIKVINKINSAIVKNILLNQYF;locus_tag=LOCUS_12820;note=MGA_1284
sequence1	MetaGeneAnnotator	CDS	762641	762784	.	-	0	ID=MGA_1285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKKIKDILITRHVVSLSLLYIFLIAYLAIFLFGNINFDLVSILQKY;locus_tag=LOCUS_12830;note=MGA_1285
sequence1	MetaGeneAnnotator	CDS	763119	763337	.	+	0	ID=MGA_1286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFELTQLLISYKPFIFSLAEIKLSNKAESFSIRLTIPSTLVGIFEKIGAKPLITDESCEKSIFVGFPLINS;locus_tag=LOCUS_12840;note=MGA_1286
sequence1	MetaGeneAnnotator	CDS	763475	763672	.	-	0	ID=MGA_1287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGKLALGKPILSKTSGETLASTFSLLNNLISLPFTEETFKKLINSISATDDTNTVANGNLFSVV;locus_tag=LOCUS_12850;note=MGA_1287
sequence1	MetaGeneAnnotator	CDS	763705	764421	.	-	0	ID=MGA_1288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLALTELGDGIIKLSGGNSDFTNSLINAKDDTYVSVFKKAIAEFGETAAKLINEPLENSVVLNNLESISSIVNFARIKLVYISNFIIDNDVDSEIDLNDIVSFRNEKITQKDNSIDLSELLAKVHDILFPTSSGDNEKAPAFLQNAIKMLFVSDESKYSDDMILDINLANIIASITSGGGDLSNIIKTIGLDKFNDFSFNKGDFGFSYGLAEVINKLNVGLIIEGLIPGVGSIISLY;locus_tag=LOCUS_12860;note=MGA_1288
sequence1	MetaGeneAnnotator	CDS	764431	764658	.	-	0	ID=MGA_1289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQITDIVSGVFSVKKNTDGSSNLEKVVNGILNSFGVTLNSETLTNEVKETIKTVGNSLNFFSDALDMSKYDNKT;locus_tag=LOCUS_12870;note=MGA_1289
sequence1	MetaGeneAnnotator	CDS	764731	764880	.	-	0	ID=MGA_1290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEFLGEVAKLAYLNKTNGYNMDYVLNEYSFSSSSKALTGTQLKSFKDN;locus_tag=LOCUS_12880;note=MGA_1290
sequence1	MetaGeneAnnotator	CDS	765221	765538	.	-	0	ID=MGA_1291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFNELIALNTTLLIEKLDLGDLASSAIELFLPLFEDKITSTLNELINSNLPEISMQTIINLIPDALIKGLVPSNFDKTILDKATITIEKAQFVFQFKKYGENQE;locus_tag=LOCUS_12890;note=MGA_1291
sequence1	MetaGeneAnnotator	CDS	765674	765931	.	-	0	ID=MGA_1292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDLFNIQTKDNKFDPLLAKFNILIIGELNITLGTLSSLIFFVPLLKTLNANLGNNLDIIRNLNLSALAQLDPSSQEEKEQYLEF;locus_tag=LOCUS_12900;note=MGA_1292
sequence1	MetaGeneAnnotator	CDS	766805	767035	.	-	0	ID=MGA_1293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENRDDDIAFGYLFKQKEIPLAILDVNSNQESNFSQEIYQYGLSVIDNKISFDFNIFYGKTNSYGKRYDEIIDFTN;locus_tag=LOCUS_12910;note=MGA_1293
sequence1	MetaGeneAnnotator	CDS	767189	767392	.	-	0	ID=MGA_1294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENRFISDSSLISKYNYEINANSKFSVDPFGFNIVNNDVSQTMLDSLKEAISFGDSGSDLSNVTSSS;locus_tag=LOCUS_12920;note=MGA_1294
sequence1	MetaGeneAnnotator	CDS	767456	768202	.	-	0	ID=MGA_1295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSLENIFVDEIGKIAPGVINYSPSATDFVNNLIYSLDFTNILLAASKKEVEEQFNNYLNEEPIFLSEGLETTDVYLRFKNQLYIVLFSQALNRRNLTNDDGTQLFTDDDLEYSKILMTKMFNDLQESLEEILKTNLIQEILDFKENLENIYNVDQETGLSQGEIQDFKVKLQEVIKISREANNSSSKEYNFAKEELSLNLFKKNAITNVQESLSYNEQYLDFGYNDDYKFEIQYYGRSNSEIGRDER;locus_tag=LOCUS_12930;note=MGA_1295
sequence1	MetaGeneAnnotator	CDS	768581	768946	.	-	0	ID=MGA_1296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEPMKKLCLIFATLSILSFSTISVVACNSGLGTFSNYTDEEKMVGIRNLTKDMLESNGVKIKRGISNDDIDALIEAFDLTELIENNEDSDIAILLKSSLTMYVMSNALLNEISSKIPGYG;locus_tag=LOCUS_12940;note=MGA_1296
sequence1	MetaGeneAnnotator	CDS	769119	769265	.	-	0	ID=MGA_1297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGGSLLPHKTYVAIQGTFTTDLTSRVAGISAFLYYGVGCVFAIIIIF;locus_tag=LOCUS_12950;note=MGA_1297
sequence1	MetaGeneAnnotator	CDS	769784	770104	.	+	0	ID=MGA_1298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVFKVTPRGFCLGVVKSIKMAKAAIKEYSDKDIYMIGLIVHNKIIVKELEELGIKVIDDWRKSRADIIKTIPKGSVVIFSAHGTDPKVIKLAEDLGLIIVDTKCE;locus_tag=LOCUS_12960;note=WP_003246170.1 4-hydroxy-3-methylbut-2-enyl diphosphate reductase (Bacillus) [pid:43.4%25%2C q_cov:99.1%25%2C s_cov:32.8%25%2C Eval:1.4e-18%2C partial hit],internal stop codon at [770102:770104](+),MGA_1298
sequence1	MetaGeneAnnotator	CDS	770144	770653	.	+	0	ID=MGA_1299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFDIIFIGKHFHPETIALTSLHLSKIHLVTNTDEVEKLNVLNSDIFITNQTTLSIIDTDLIYKKIKEKYPNAFFKNDICEATLVRQQAILDLDPKEIDLLYVVGDSRSNNTLKLLELASDKGIKTKRIDNFKDINDNDLKGIETVAVTAGASTSSLIQNEVIKFLEQK;locus_tag=LOCUS_12970;note=WP_003246170.1 4-hydroxy-3-methylbut-2-enyl diphosphate reductase (Bacillus) [pid:41.7%25%2C q_cov:98.8%25%2C s_cov:53.2%25%2C Eval:1.3e-29%2C partial hit],internal stop codon at [770102:770104](+),MGA_1299
sequence1	MetaGeneAnnotator	CDS	770671	770799	.	-	0	ID=MGA_1300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTLGHYMENHFIDDIKAKLFKTFNDDLKVSAFDIKNTFIIL;locus_tag=LOCUS_12980;note=MGA_1300
sequence1	MetaGeneAnnotator	CDS	770836	771384	.	-	0	ID=MGA_1301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLQIEEVYNLESQDQIAHVVICLDLTLEAVKYAIENKSNFIITRHPFLFLEFELEMQNIAKKEIYDLCIKNEIQVFSIHTNYDNSDNQNIIELISTQFNIKEVEKIGLFKEGYKINLLREISLKESVDKLKFIFGKQQALLSRKSDLNSEISSIFLTPGAGASTMVNLQLQNSFFVTGEAK;locus_tag=LOCUS_12990;note=WP_011166652.1 Nif3-like dinuclear metal center hexameric protein (Mycoplasma mycoides) [pid:39.6%25%2C q_cov:100.0%25%2C s_cov:69.8%25%2C Eval:5.7e-32%2C partial hit],internal stop codon at [770827:770829](-)%2C[770836:770838](-)%2C[771391:771393](-),MGA_1301
sequence1	MetaGeneAnnotator	CDS	771590	771730	.	-	0	ID=MGA_1302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIEDNKIIYELIKINKFAGYKIKNQLDVLFGPILRKDNNKLFLQK;locus_tag=LOCUS_13000;note=MGA_1302
sequence1	MetaGeneAnnotator	CDS	771911	772150	.	-	0	ID=MGA_1303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFLTPRLFALASMVSEGEIVADIGTDHAYLPIFLAKDGKAKKIYATDVALKPLSVAKNNIASFGVSDKVETMLADGIE;locus_tag=LOCUS_13010;note=WP_011166651.1 class I SAM-dependent methyltransferase (Mycoplasma mycoides) [pid:44.7%25%2C q_cov:96.2%25%2C s_cov:33.8%25%2C Eval:2.6e-14%2C partial hit],internal stop codon at [771764:771766](-)%2C[771911:771913](-),MGA_1303
sequence1	MetaGeneAnnotator	CDS	772153	772809	.	-	0	ID=MGA_1304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVETINKLTRIERQLTQELGREPTSKEIAKTFGKGITPQKVVEIKKLSIEPVSLEKPFGDEDDTHFGDFVEDKDISSPDEYAEKEALREVIDDVFSEILAPREEKVVRMRFGILPTKLRALVRLAKECDDETYEQLKEAITELDIHYDTSIEKIQKFRNPIIQLHLSKYDSPKTLEEVGKELKVTRERIRQIEAKTIRKFKPSASNPKAKALRDFFKG;locus_tag=LOCUS_13020;note=WP_020862729.1 sigma-70 family RNA polymerase sigma factor (Mycoplasma mycoides) [pid:70.8%25%2C q_cov:100.0%25%2C s_cov:43.1%25%2C Eval:1.6e-83%2C partial hit],internal stop codon at [772873:772875](-)%2C[772876:772878](-),MGA_1304
sequence1	MetaGeneAnnotator	CDS	772876	773352	.	-	0	ID=MGA_1305;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDLSFVEGIEDGDEDDSETAGELEDSFKKREKVRKDLKKANENSGPVKYRVGGISNETKIQDIIKSYFNQIGSSKILTKDEEVEYAKMLEDSDPDIAKEGRDKLITSNLKLVISVARKHLNRGLDFADLIEEGNIGLMKAVDKFDYTKGFKFSTYAT;locus_tag=LOCUS_13030;note=WP_011183167.1 sigma-70 family RNA polymerase sigma factor (Mesoplasma florum) [pid:66.4%25%2C q_cov:93.0%25%2C s_cov:31.6%25%2C Eval:5.3e-48%2C partial hit],internal stop codon at [772873:772875](-)%2C[772876:772878](-)%2C[773515:773517](-),MGA_1305
sequence1	MetaGeneAnnotator	CDS	773574	773744	.	-	0	ID=MGA_1306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDAFDAIEIYKLALEIEKFNLKISETYDSELQKSYLEHIEELRKQKNKILMKRST;locus_tag=LOCUS_13040;note=MGA_1306
sequence1	MetaGeneAnnotator	CDS	773991	775511	.	-	0	ID=MGA_1307;product=DNA primase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166649.1;translation=MAISQQQIDLVLNKANIVDVISKYLDLQKKGRNYLSVCPFHDDSDPSLHVSLDKKIFKCFVCGTGGNVITFIQEFNNITFFKAVSLLAKDLKIKIDGIKDYDDKPKYSSKESKLFLINESIAALFNGLLISNLSKKARDYLRERRINASEILKFTIGFCPININIFDYLIDLGFKKEEIFESGLVYQKGVTYKSFFENRLIFPIRNEESNIIGFSGRIMDVDENPKYKNSIENLIFKKSKLAYNFNNAKKEARIKNEILILEGFMDVISLEKIDIKNSVAIMGTSLSDYHIKLFSRVAKNYKLFLDGDNAGIKAALKTAALLMEKRINVTIIENTTGKDPDELVKDGEVNLIYQMIENAKHPVDFAINYYSKDLDINDSNQINEFISNILNLLKYEINIITINKILQTLANISQIKKEAIEKLFENYRIKINKNNTEELKADQNNIQDYFDQDKINTLMNSYYQEENFDSNLPMQGFEFQKINEFKVKNYENQYKTAAKLAESSII;locus_tag=LOCUS_13050;gene=dnaG;note=WP_011166649.1 DNA primase (Mycoplasma mycoides) [pid:38.8%25%2C q_cov:97.4%25%2C s_cov:77.3%25%2C Eval:2.0e-90],internal stop codon at [773991:773993](-),MGA_1307
sequence1	MetaGeneAnnotator	CDS	775528	775974	.	-	0	ID=MGA_1308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYFDPETNEKYLANVIEPSVGVERLLLAIFCQSYKEEKLDNGERIVMKLPYKLAPYSIAVMPLQKQQKEEAQILYEKLLLNYDAVFDDTGNIGKRYRRQDAIGTPFCITLDFDSEVDNCVTIRDRDTMSQQRIKIEEIDKYLLEKNI;locus_tag=LOCUS_13060;note=WP_011183165.1 glycine--tRNA ligase (Mesoplasma florum) [pid:63.9%25%2C q_cov:98.6%25%2C s_cov:32.6%25%2C Eval:2.3e-49%2C partial hit],internal stop codon at [776035:776037](-)%2C[776188:776190](-)%2C[776200:776202](-),MGA_1308
sequence1	MetaGeneAnnotator	CDS	776035	776187	.	-	0	ID=MGA_1309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKVIFFLEEVIQINKENYSIREHDKSELAHYAKRTVDIEFNFPFGRGEL;locus_tag=LOCUS_13070;note=WP_011183165.1 glycine--tRNA ligase (Mesoplasma florum) [pid:64.0%25%2C q_cov:100.0%25%2C s_cov:11.1%25%2C Eval:1.5e-12%2C partial hit],internal stop codon at [776035:776037](-)%2C[776188:776190](-)%2C[776200:776202](-),MGA_1309
sequence1	MetaGeneAnnotator	CDS	776200	776526	.	-	0	ID=MGA_1310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKENINCPKCGKNDFTNIRQFTLMFKTSQGVVEDEGSIVYLRPETAQGIFVQYKNSQRALRKKLPFGIGQIGKSFRNEITPGNFIFRTREFEQMELEFFFAPTDQND;locus_tag=LOCUS_13080;note=WP_011183165.1 glycine--tRNA ligase (Mesoplasma florum) [pid:77.8%25%2C q_cov:100.0%25%2C s_cov:23.9%25%2C Eval:7.5e-46%2C partial hit],internal stop codon at [776035:776037](-)%2C[776188:776190](-)%2C[776200:776202](-)%2C[776551:776553](-)%2C[776674:776676](-)%2C[776746:776748](-)%2C[776749:776751](-)%2C[776800:776802](-),MGA_1310
sequence1	MetaGeneAnnotator	CDS	777000	777203	.	-	0	ID=MGA_1311;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLLQDIGKKNIYSLLDQKYNSLDLVVLHNIIIDYYERELGFYLGPIFFLRNEVTLNVPINKIDLYK;locus_tag=LOCUS_13090;note=MGA_1311
sequence1	MetaGeneAnnotator	CDS	777234	777782	.	-	0	ID=MGA_1312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAIKINAIVISNVDYDDYAKIITVFSKEYGKLSFFAPGVNKSTSKNKYSIQTLSLSEFEIFKSKSEDKISKLKTGILKKEYFQISKNYRNYIYVSIMIKILEQIEQISNKKYKIFKMFCYVLENIEKNIFSFQSYLFFITYLIQESIQPLRLTKCVRCKKSNSRIVRYEHVEKGLICKKCL;locus_tag=LOCUS_13100;note=WP_011183164.1 DNA repair protein RecO (Mesoplasma florum) [pid:40.7%25%2C q_cov:100.0%25%2C s_cov:68.2%25%2C Eval:7.7e-37%2C partial hit],internal stop codon at [777234:777236](-),MGA_1312
sequence1	MetaGeneAnnotator	CDS	777849	778274	.	-	0	ID=MGA_1313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFQFENIIPISSTMGFNLNYLLNEIKDILPVTGNKFYPDDMLTDQPERFLIKEIIREEILLQTEQEIPHSVAILIDKFEEKKDIIKVIASIICERSSQKGIIIGNKGTKIKAIGINSREKLEDLFNKKFYLELFVKVKEK;locus_tag=LOCUS_13110;note=WP_011183163.1 GTPase Era (Mesoplasma) [pid:47.1%25%2C q_cov:96.5%25%2C s_cov:45.2%25%2C Eval:4.4e-28%2C partial hit],internal stop codon at [777849:777851](-)%2C[778281:778283](-),MGA_1313
sequence1	MetaGeneAnnotator	CDS	778281	778697	.	-	0	ID=MGA_1314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNIKSGFIGIIGRPNVGKSTLLNTLLEKKVSIVTNKVQTTRNKINGILSKEDYQFVFVDTPGIHKANHELGKFMNKVAFSATKGVDLILFLAPSNEFIGENDKFIIKALRERDLPVFLIITKSDLISESQLQDKINE;locus_tag=LOCUS_13120;note=WP_011166646.1 GTPase Era (Mycoplasma mycoides) [pid:59.0%25%2C q_cov:100.0%25%2C s_cov:46.2%25%2C Eval:7.4e-41%2C partial hit],internal stop codon at [778281:778283](-),MGA_1314
sequence1	MetaGeneAnnotator	CDS	779408	779848	.	-	0	ID=MGA_1315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKTNRLIAGKMGDMFTKRFLKSRNVNMVSEGDYLARLRCLCRATYSLPVQFLFTCFFIYARVIVEAYFLNSQTNSEITNLLIVDQINVLNVFIVIQLYHIFILSSVIIVMLNMTLGRGTTIFTALFNVLYLSEALLYGSFLFILD;locus_tag=LOCUS_13130;note=MGA_1315
sequence1	MetaGeneAnnotator	CDS	780020	780229	.	+	0	ID=MGA_1316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNSKNLLRILIPDANVIKTQIEIIPDVSTILDILNIQEKKSKYVPPMITKIVPIQIQVCNHAFFLILL;locus_tag=LOCUS_13140;note=MGA_1316
sequence1	MetaGeneAnnotator	CDS	780262	780414	.	-	0	ID=MGA_1317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGEKLFEKLKYDLKLSKITNVNKKRLYTDIHYAKSIFRGAMEYNSREVI;locus_tag=LOCUS_13150;note=MGA_1317
sequence1	MetaGeneAnnotator	CDS	780690	780977	.	-	0	ID=MGA_1318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVVKEMEDLKEQIYLIKDLKSFFETISYFYHRNYLEGTFGKATSLFFIFLMQAMLIYKGYGPMIVFPKNFKELEILGNYQNNFYMDIAGLSEIK;locus_tag=LOCUS_13160;note=MGA_1318
sequence1	MetaGeneAnnotator	CDS	781402	781572	.	-	0	ID=MGA_1319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLECVLISRGYGPIIITEKSELRYIFGLQEKITIEIKKYLLKDFSNLKQFREVVNF;locus_tag=LOCUS_13170;note=MGA_1319
sequence1	MetaGeneAnnotator	CDS	781576	781749	.	-	0	ID=MGA_1320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEGKTSESKKFIGLLDSFIERISLTETVEPLLEFLGVAFIELLITKDLGELTGIYF;locus_tag=LOCUS_13180;note=MGA_1320
sequence1	MetaGeneAnnotator	CDS	782194	782520	.	-	0	ID=MGA_1321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLNQEEVYAELKKLKENAYVPYSKFKVSCIIYLKNGIKVFGVNVENAAYNPTICAERTALSQLITQGYNKNDIEMIALYTDSNKFGSPCGTCRQTLSELVFENQSI;locus_tag=LOCUS_13190;note=WP_011183040.1 cytidine deaminase (Mesoplasma) [pid:62.9%25%2C q_cov:89.8%25%2C s_cov:71.9%25%2C Eval:2.6e-30%2C partial hit],internal stop codon at [782194:782196](-),MGA_1321
sequence1	MetaGeneAnnotator	CDS	782776	782937	.	-	0	ID=MGA_1322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKNNINKKANVRIRVKNKFANAARGIYIAFKEESTLIVYLVAILFCIGLGI;locus_tag=LOCUS_13200;note=MGA_1322
sequence1	MetaGeneAnnotator	CDS	784212	784556	.	-	0	ID=MGA_1323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNFLEFNYEVENKDLMDFEKIFNNLLIITKDILKLGKPISMSINYISDEKSIELNTEYRQKKYIGDVISFPINDEFGIYDQLDFKEIGDIFIAPNEAIRKAKLYNHSFYEEMC;locus_tag=LOCUS_13210;note=WP_011183162.1 rRNA maturation RNase YbeY (Mesoplasma florum) [pid:37.6%25%2C q_cov:95.6%25%2C s_cov:63.9%25%2C Eval:9.4e-12%2C partial hit],internal stop codon at [784212:784214](-),MGA_1323
sequence1	MetaGeneAnnotator	CDS	785804	786190	.	-	0	ID=MGA_1324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNLTILYLLLLSIAAFLFSLTLFTKQKILAGTIFIQEYFNEYNEKKNEVYLLSNEKLNISVIKKILLETKQGFLELNSSSLKYSEEFIKVEIENISVLKYPNNDVLIYSENILILGFIKNVGVKKL;locus_tag=LOCUS_13220;note=MGA_1324
sequence1	MetaGeneAnnotator	CDS	786190	786759	.	-	0	ID=MGA_1325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINDISFVFETNTFIYGKSGTGKTTLLKFLSENFQNYEGLFLINKTINFKNINLKDYKNKILYLGQYDYLFDGTVRENIQQFKNKIDLNLFKDLDFFKLLEKNNIQVSKTIKDNGINLIKGQRQIINFISLFFTEKDIYLIDEPLSNVNKETAYYLFKLFIKYKKKSLIIMCDHDLTYMDFFQKRLEIL;locus_tag=LOCUS_13230;note=WP_011949183.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:31.5%25%2C q_cov:96.8%25%2C s_cov:34.7%25%2C Eval:4.7e-16%2C partial hit],MGA_1325
sequence1	MetaGeneAnnotator	CDS	786988	787419	.	-	0	ID=MGA_1326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDFIVFICLKLPLETPLFLMCSIILTIIFSIILFIIILQNFLTLIISFFVTYLIKEYKLKMEKNILNFLYTFRELLNGFEEIKYKNIEKKISSEIDKKFNKTLDTSKKIFKLNSKSSMAITIVNKLFFFIIFFIAYILINKN;locus_tag=LOCUS_13240;note=MGA_1326
sequence1	MetaGeneAnnotator	CDS	787447	787845	.	-	0	ID=MGA_1327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYQGYFGFTKRIEKIKFKSNNFLNWFFFIRGFKLAILLIFIISLLSNLFILINNNFLKIYLNNVKINILKIQQEIFIIFIIVFLFQILITYFLNKVLNNIKIKINENIFNSFKNSLIELDIENFNSISKEE;locus_tag=LOCUS_13250;note=MGA_1327
sequence1	MetaGeneAnnotator	CDS	787867	788220	.	-	0	ID=MGA_1328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYKFTKQLNNYDCGIAVCTMIINFYQNKNFNIEEIKFSNSLSDDMLSIYNIEEILQKYKIEFTSYSSSFEELTNIDFSNPLIVNTKTEDNSEHFIIIYKKRKNNFLIADPNNNDLK;locus_tag=LOCUS_13260;note=MGA_1328
sequence1	MetaGeneAnnotator	CDS	788322	788768	.	-	0	ID=MGA_1329;product=ribosome maturation factor RimP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166546.1;translation=MQLKIIKQNYLEKIKLLLQECEFELYEINILNEYESIVLQILVENIDLNKKDIEFDFLIKANEKISIFLDSLTELTEPYILEVSSAGAEREVRDSNILKNNINQYFYLKVNNPIENISEFQATLVEEKDELFTFSFFIKGKPKKIKLK;locus_tag=LOCUS_13270;gene=rimP;note=WP_011166546.1 ribosome maturation factor RimP (Mycoplasma mycoides) [pid:37.2%25%2C q_cov:85.8%25%2C s_cov:78.7%25%2C Eval:6.7e-20],MGA_1329
sequence1	MetaGeneAnnotator	CDS	788828	789220	.	-	0	ID=MGA_1330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDIKYRINAKLAVSAKENGLLTIYEVLIEMLERGIEIKNIDFNISDAMKFVIVKDENTGKKVIYPPFNVIDSLGEAVANSIVKARTQTQIVNVNDLKQRTQVTQTQIEIFSKLKITDNLKDDEQLSFDF;locus_tag=LOCUS_13280;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:47.7%25%2C q_cov:100.0%25%2C s_cov:8.7%25%2C Eval:4.5e-30%2C partial hit],internal stop codon at [789290:789292](-)%2C[789329:789331](-)%2C[789416:789418](-)%2C[789452:789454](-),MGA_1330
sequence1	MetaGeneAnnotator	CDS	789452	789907	.	-	0	ID=MGA_1331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILGHVDPTALRMLFDLTNIDPILIPTDDKKVYSLFSELSALNLTPEQIGGETTGAIGLPEFGTQFVRAMLKETKPQTFADLVQISGLSHGTDVYVGNAQTLIRDGIANISSVIGCRDDIMVYLMNKNIDSSTSFKIMESVRKGNGLSGE;locus_tag=LOCUS_13290;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:78.8%25%2C q_cov:100.0%25%2C s_cov:10.1%25%2C Eval:5.2e-63%2C partial hit],internal stop codon at [789290:789292](-)%2C[789329:789331](-)%2C[789416:789418](-)%2C[789452:789454](-)%2C[789956:789958](-),MGA_1331
sequence1	MetaGeneAnnotator	CDS	789956	790540	.	-	0	ID=MGA_1332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGSRGSVGSSFVATTSKITEVNPLKAHYRCLKCKYSDFETLEEFKCGYDLPEKKCPNCNEKLMGDGHDIPFETFLGFDGDKVPDIDLNFSGEYQPIAHNFTKQMFGEENVFRAGTISTVAEKTAYGYTLGYLEKKQINLETFRKAEIERLAELSTGVKRTTGQHPGGIIILPKEFEIEDFTPVNFPADDSQSD;locus_tag=LOCUS_13300;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:81.7%25%2C q_cov:97.9%25%2C s_cov:12.8%25%2C Eval:1.1e-87%2C partial hit],internal stop codon at [789956:789958](-)%2C[790583:790585](-),MGA_1332
sequence1	MetaGeneAnnotator	CDS	790583	791176	.	-	0	ID=MGA_1333;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQEAISIFDYIEIQPLSVYKKLIQTEDLDLETLKLILKKIIEESKKQNKIIIATSDAHYVEPELKVIRDIYINTKGLGGVYHPLYDFKQRVKDNPDQHLRTTNEMLEEFKWLEDSELIHEIVIKNTLKISDMIDEDVVPIKFGLYTPKIENVDKLLSDECFKNAKELYGQTLPKIVNDRLEKELASIIKHGFAVVY;locus_tag=LOCUS_13310;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:59.2%25%2C q_cov:99.5%25%2C s_cov:13.2%25%2C Eval:1.1e-66%2C partial hit],internal stop codon at [790583:790585](-)%2C[791438:791440](-),MGA_1333
sequence1	MetaGeneAnnotator	CDS	791483	791965	.	-	0	ID=MGA_1334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLETTGLSPEYDEIIEFGANVYDYAAGTHKKYDILIKPKKKLKNFTIELTGITNEMLETKNSIEIEFKKIMEIIQNGILIAHNANFDFNFLQVCAKKFGYAELTNTVIDTLALSRILQPKLKNHRLGTVAKAYQILYDDKIAHRADYDAEVLTNVYEHM;locus_tag=LOCUS_13320;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:60.3%25%2C q_cov:97.5%25%2C s_cov:10.4%25%2C Eval:1.3e-49%2C partial hit],internal stop codon at [791438:791440](-)%2C[791483:791485](-)%2C[792017:792019](-)%2C[792110:792112](-)%2C[792167:792169](-),MGA_1334
sequence1	MetaGeneAnnotator	CDS	792380	792847	.	-	0	ID=MGA_1335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYGFRNIDLDIKILEKNKKNVLENVHSDYVKSVELNTKSEIQKSENTIIDKKVASFRQKFVSNEEILNNPTYSKLVDLEENAQNITIHGEVISKSIRKSKAGRNIYNLSITDGSSSVTCIFFQKNNDPTFFDELTEETKEKLTGYENQIIRKGD;locus_tag=LOCUS_13330;note=MGA_1335
sequence1	MetaGeneAnnotator	CDS	793025	793291	.	-	0	ID=MGA_1336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLEIKELFEKLNIFLNEEEEKYFENAIFYKEAEFDRELSKLRVFIKLSDFLPIHILHKVESALTTNTFIPTKLNLEVENQNYTKELI;locus_tag=LOCUS_13340;note=MGA_1336
sequence1	MetaGeneAnnotator	CDS	793316	793618	.	-	0	ID=MGA_1337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFTGQFDQLAGPVGVARQTATLLGSADQFFLYVAMISANLFILNLIFIPPLDGYRLLENFIEMIIKKELPYKYKIIVNSVGAILFLLLFIIITIKDFII;locus_tag=LOCUS_13350;note=WP_011183184.1 site-2 protease family protein (Mesoplasma florum) [pid:34.9%25%2C q_cov:81.0%25%2C s_cov:20.4%25%2C Eval:8.7e-10%2C partial hit],internal stop codon at [793664:793666](-),MGA_1337
sequence1	MetaGeneAnnotator	CDS	793664	794020	.	-	0	ID=MGA_1338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTINPESQEEIVLFDNICNTTEQNQTECLDEKINTEDNNQSANYEKTVYNFLNNLSKANGYENVQIMFSYKKVDKYSGVSNENPKYTEFSDYKSGETIGIAAPNRLYRSVGEAYGAG;locus_tag=LOCUS_13360;note=MGA_1338
sequence1	MetaGeneAnnotator	CDS	794030	794242	.	-	0	ID=MGA_1339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFILAGPAMNLAIALLLFTSIFAALQVKKNDMSYFGATYDQEKIAAKLILKKEQLDNPEINYIGQEYVI;locus_tag=LOCUS_13370;note=MGA_1339
sequence1	MetaGeneAnnotator	CDS	794393	794551	.	-	0	ID=MGA_1340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSGLIVLAFFIGILVMLILITIHEFGHFIVAKLSNAYVYEFSIGFGPRIFV;locus_tag=LOCUS_13380;note=WP_011183184.1 site-2 protease family protein (Mesoplasma florum) [pid:64.6%25%2C q_cov:92.3%25%2C s_cov:11.4%25%2C Eval:1.3e-13%2C partial hit],internal stop codon at [794249:794251](-)%2C[794375:794377](-)%2C[794393:794395](-),MGA_1340
sequence1	MetaGeneAnnotator	CDS	794544	795101	.	-	0	ID=MGA_1341;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNKITIDSATMFNKAFEILEAYHLFKVKNIVTLIHPQAIIHSMVEFSDFSIKAQLSVPDMKQVINYFLNYPNRKKFTNQKAINFKEIVKLELKEIDQLRFKPIKFALDCINSKNSKAIALNAANEICVDSFLKEKINFFQITEIVERIFNNTINFNYNNYEEIFNFDQEIRIETKRIIEGFINE;locus_tag=LOCUS_13390;note=WP_000790373.1 1-deoxy-D-xylulose-5-phosphate reductoisomerase (Bacillus cereus) [pid:40.2%25%2C q_cov:93.0%25%2C s_cov:45.8%25%2C Eval:7.6e-32%2C partial hit],internal stop codon at [795105:795107](-),MGA_1341
sequence1	MetaGeneAnnotator	CDS	795105	795680	.	-	0	ID=MGA_1342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNVILFGASGNIGKQCIEILKNNKDKFNLVAISVGKNVSELDLILKEFKNIKKVYSTQKTEMNLKFKDVSFFNDNINSLFSTEDEIVINALSGFFGLQVTLKSIEKSLILLNANKESFVTAGDLINLKLKEFPKAKIFPLDSEHCAIFQCLETQNKPSKIYLTASGGSFRELTLEQTKNVSKTEALNHPN;locus_tag=LOCUS_13400;note=WP_147373191.1 1-deoxy-D-xylulose-5-phosphate reductoisomerase (Fusobacterium nucleatum) [pid:37.7%25%2C q_cov:100.0%25%2C s_cov:51.4%25%2C Eval:1.7e-32%2C partial hit],internal stop codon at [795105:795107](-),MGA_1342
sequence1	MetaGeneAnnotator	CDS	795819	796004	.	-	0	ID=MGA_1343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTFFGIIYALIFIFTLDDYKPLNETMELIKTKSQAIQILIYILLAVAFPIIGLFGDLLFS;locus_tag=LOCUS_13410;note=MGA_1343
sequence1	MetaGeneAnnotator	CDS	796470	796778	.	-	0	ID=MGA_1344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNKKSKEFELTEIVDLTPENNEVGINRFKTKDGIHSFKVRFASTIILLLFLLFFIVTGALYTSLINIFDTDIFSYLSIVSTILVLSFCLFEINMALNFSK;locus_tag=LOCUS_13420;note=MGA_1344
sequence1	MetaGeneAnnotator	CDS	796861	797025	.	-	0	ID=MGA_1345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINEFSIQNIIDNLYTKNIPPVDLLIRTGGEQRISNFMLLQLAYSELYFTKVY;locus_tag=LOCUS_13430;note=WP_005655860.1 polyprenyl diphosphate synthase (Haemophilus) [pid:56.6%25%2C q_cov:98.1%25%2C s_cov:22.2%25%2C Eval:1.0e-10%2C partial hit],internal stop codon at [796861:796863](-)%2C[797197:797199](-)%2C[797302:797304](-),MGA_1345
sequence1	MetaGeneAnnotator	CDS	797499	798095	.	-	0	ID=MGA_1346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEKELSHFVTNSFLQNGAEKLSFDTIVASGRNGSKPHAVPTDKIIEIGDFVTLDMGCIYNGYCSDQTRTFAMGNDDNKKLKEIYEIVYQSQQLGIEAIKPGILGSEIHKICLDFIDKKGYGKYFTHGTGHGLGIEIHEEPYNSVAGNKKLIEGMCVTVEPGIYIPEIGGIRIEDDILVTKDGYEYLTTPLRELQIVK;locus_tag=LOCUS_13440;note=WP_011183278.1 aminopeptidase P family protein (Mesoplasma florum) [pid:64.6%25%2C q_cov:100.0%25%2C s_cov:55.2%25%2C Eval:1.2e-68%2C partial hit],internal stop codon at [798174:798176](-)%2C[798270:798272](-),MGA_1346
sequence1	MetaGeneAnnotator	CDS	798632	798775	.	-	0	ID=MGA_1347;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003948671.1;translation=MREGVILRCSTCKEENYIAKNDKRKNKIEVKKHCFKCNSHQIHKQKK;locus_tag=LOCUS_13450;gene=rpmG;note=WP_003948671.1 50S ribosomal protein L33 (Streptomyces) [pid:42.9%25%2C q_cov:100.0%25%2C s_cov:90.7%25%2C Eval:3.2e-07],MGA_1347
sequence1	MetaGeneAnnotator	CDS	799102	799290	.	+	0	ID=MGA_1348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNQKTYVEQKLTKMSTDYQNLYTENVYQDSLTAFGEKLTNNKPVDFRTFKTEEKANNFKEK;locus_tag=LOCUS_13460;note=MGA_1348
sequence1	Aragorn:1.2.38	tRNA	799824	799912	.	-	.	ID=Aragorn_22;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00210;note=Aragorn_22
sequence1	Aragorn:1.2.38	tRNA	799930	800005	.	-	.	ID=Aragorn_23;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00220;note=Aragorn_23
sequence1	Aragorn:1.2.38	tRNA	800026	800100	.	-	.	ID=Aragorn_24;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00230;note=Aragorn_24
sequence1	Aragorn:1.2.38	tRNA	800106	800189	.	-	.	ID=Aragorn_25;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00240;note=Aragorn_25
sequence1	Aragorn:1.2.38	tRNA	800203	800278	.	-	.	ID=Aragorn_26;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00250;note=Aragorn_26
sequence1	MetaGeneAnnotator	CDS	800608	801141	.	-	0	ID=MGA_1349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGNGPEDLKELCVIAAALTLVENNIFKNLEIAKKELYKVLEEKSAAPLLKEFVEAQNGNFNLILDYDNSFKVKHKIEIKADTDGYLSFKTADDLGYLSVLLGAGRATKEEQIDFAAGIYLNKTTNDFVKKDDLIMTLYTNRNDIENFIKTAKELIVLSNQKSEDNLILKLISSKDI;locus_tag=LOCUS_13470;note=WP_011183016.1 thymidine phosphorylase (Mesoplasma florum) [pid:49.4%25%2C q_cov:97.2%25%2C s_cov:39.6%25%2C Eval:1.8e-40%2C partial hit],internal stop codon at [801148:801150](-),MGA_1349
sequence1	MetaGeneAnnotator	CDS	801148	801483	.	-	0	ID=MGA_1350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGISIMSQSKEIVPADKKLYSLRDVTGTVDSIPLIASSIMSKKLVIPADSIILDVKMGSGAFMKDLESAVKLSKTMISIGKEHNRNVNVMITNMDKPLGRAIGNAIEVKEA;locus_tag=LOCUS_13480;note=WP_011183016.1 thymidine phosphorylase (Mesoplasma florum) [pid:69.4%25%2C q_cov:100.0%25%2C s_cov:25.6%25%2C Eval:4.5e-38%2C partial hit],internal stop codon at [801148:801150](-)%2C[801529:801531](-),MGA_1350
sequence1	MetaGeneAnnotator	CDS	801529	801771	.	-	0	ID=MGA_1351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPKELGIFTQEMINSGKTYNFDGVDGIKADKHSTGGVGDKTSLIFSPLVAKFGVKVAKLSGRGLGPTGGTIDKLESCIG;locus_tag=LOCUS_13490;note=WP_011183016.1 thymidine phosphorylase (Mesoplasma florum) [pid:68.8%25%2C q_cov:100.0%25%2C s_cov:18.4%25%2C Eval:9.6e-25%2C partial hit],internal stop codon at [801529:801531](-)%2C[801781:801783](-)%2C[801850:801852](-),MGA_1351
sequence1	MetaGeneAnnotator	CDS	802002	802385	.	-	0	ID=MGA_1352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLTDNVPIDRNNPRSALTAVKEAKELISEYKRSLVIFPEGTRSAKQEIGEFQSASMKVAQMAYVPIVPVTIIDSYKLFIKRPKGKFRIKIIFGKPLMPEKFISLKTEMLTKNVQREVQKNMDLYKD;locus_tag=LOCUS_13500;note=WP_011183281.1 lysophospholipid acyltransferase family protein (Mesoplasma florum) [pid:55.9%25%2C q_cov:100.0%25%2C s_cov:34.0%25%2C Eval:9.5e-36%2C partial hit],internal stop codon at [802410:802412](-)%2C[802533:802535](-)%2C[802605:802607](-)%2C[802617:802619](-),MGA_1352
sequence1	MetaGeneAnnotator	CDS	802689	802835	.	-	0	ID=MGA_1353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNEIKEEQTDVNKIEELSPVEIEEAKEKTETAHLSKAKLFFNMLSI;locus_tag=LOCUS_13510;note=MGA_1353
sequence1	MetaGeneAnnotator	CDS	802914	803057	.	-	0	ID=MGA_1354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKYRNSQEDLYVIGGLQIYLTALKFADKLIISEIKKEYNGDTFAPK;locus_tag=LOCUS_13520;note=MGA_1354
sequence1	MetaGeneAnnotator	CDS	803309	803686	.	-	0	ID=MGA_1355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALPPCHSLFQFYVSKDGYLDLQLYQRSGDIFLGIPFNIASYSLLLTLVALECSLKPRYFIHTIGDGHIYLNHLDQINIQLSRTPMPLSKLIVDFNNKSIYDIKFEDIKIENYQSHPSIKGKVAV;locus_tag=LOCUS_13530;note=WP_011183318.1 thymidylate synthase (Mesoplasma florum) [pid:69.6%25%2C q_cov:100.0%25%2C s_cov:43.1%25%2C Eval:2.3e-47%2C partial hit],internal stop codon at [803930:803932](-)%2C[803939:803941](-),MGA_1355
sequence1	MetaGeneAnnotator	CDS	803996	804178	.	-	0	ID=MGA_1356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQYLELVNDILKNGEKREDRTNTGTISKFGIQSRYDLRDGFPLITTKKVFFKGIVHEIL;locus_tag=LOCUS_13540;note=WP_011183318.1 thymidylate synthase (Mesoplasma florum) [pid:83.3%25%2C q_cov:100.0%25%2C s_cov:20.8%25%2C Eval:4.9e-24%2C partial hit],internal stop codon at [803930:803932](-)%2C[803939:803941](-)%2C[803996:803998](-),MGA_1356
sequence1	MetaGeneAnnotator	CDS	804427	804576	.	-	0	ID=MGA_1357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKIGIDIIENSRINLSEKFFKKILHSDELLILNKFSSEEAKIEFVSGR;locus_tag=LOCUS_13550;note=WP_011183283.1 4'-phosphopantetheinyl transferase superfamily protein (Mesoplasma florum) [pid:58.7%25%2C q_cov:93.9%25%2C s_cov:41.4%25%2C Eval:2.2e-08%2C partial hit],internal stop codon at [804427:804429](-),MGA_1357
sequence1	MetaGeneAnnotator	CDS	804657	804890	.	-	0	ID=MGA_1358;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNPNLVYKFLKNINYVNSITRKNLDTLPFISSSYSSTYLFQNLEIVPSGELKFGQFSNNLSTGKTIADISINENNF;locus_tag=LOCUS_13560;note=MGA_1358
sequence1	MetaGeneAnnotator	CDS	805032	805361	.	-	0	ID=MGA_1359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVMGTELSKNENLSTLSNFFIIYEDLLTEGYSSDNPLKSPITTCIETMPEDSRSIFRLLSEAMLYGSKVFAAQDSANENTSLHSIDLINALDSYYVSTKGSTEGIHDA;locus_tag=LOCUS_13570;note=MGA_1359
sequence1	MetaGeneAnnotator	CDS	805689	806009	.	-	0	ID=MGA_1360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFYILIVEVIAVIILMFIPALLTNSLNPLVMKLLVKFGLTDLFSAFGDSLSGFITGLLPGGTENLSIDGSGASYEVLKTFSALILYLCLSIFIFSLVNLIGFILY;locus_tag=LOCUS_13580;note=MGA_1360
sequence1	MetaGeneAnnotator	CDS	806207	807106	.	+	0	ID=MGA_1361;product=ribonuclease HIII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000071586.1;translation=MNSFKNVEISIINTIIKDNKKFLISKNNNANIRYFFRLEDNTVINIYNNKTILFQGKSANLLANKYNLLKDKNLINKIVNNKIIELPNIGCDEVGVGDFFGPLVTCACYLDKDFEKNNLNLINMIKDSKTISNEKIEKLFFQLKDKVKFSVYIMKNKEYNEKYTFYKNTHFLKAIAHNNSLKKVIELNNDLKTVPIIMDQFVNENKYFYYLEKEKDIVKNIYFQTKAESKYLAVACASIIARYFFLSEIENLQNTYKIKLPLGAGNNVKLFVQKYKKEFKVESINFIKLHFNDEIKKKI;locus_tag=LOCUS_13590;gene=rnhC;EC_number=3.1.26.-;note=WP_000071586.1 ribonuclease HIII (Bacillus) [pid:30.7%25%2C q_cov:95.7%25%2C s_cov:95.5%25%2C Eval:4.0e-31],MGA_1361
sequence1	MetaGeneAnnotator	CDS	807409	807546	.	-	0	ID=MGA_1362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVQLNAMRSKDPDTQVGSVIVNDLKQIISTGYNGLPRGLSDDNYP;locus_tag=LOCUS_13600;note=WP_011166759.1 dCMP deaminase family protein (Mycoplasma mycoides) [pid:62.2%25%2C q_cov:100.0%25%2C s_cov:28.1%25%2C Eval:1.9e-12%2C partial hit],internal stop codon at [807409:807411](-)%2C[807565:807567](-),MGA_1362
sequence1	MetaGeneAnnotator	CDS	807640	807780	.	-	0	ID=MGA_1363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAFTFTFIPSFSSAHDIYSLNAISLYKQKGYISIEGANKLFNLNG;locus_tag=LOCUS_13610;note=MGA_1363
sequence1	MetaGeneAnnotator	CDS	808006	808194	.	-	0	ID=MGA_1364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIKLSRYTEGLVGSIKFAAAVFITYPLAGFFVSTSSVSETYIYSGSLGFLASIVGILGVTT;locus_tag=LOCUS_13620;note=MGA_1364
sequence1	MetaGeneAnnotator	CDS	808273	808938	.	-	0	ID=MGA_1365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTNFNELKLNLVNYFVKVEKYKAVEKFSSDYVSYLVNKKNQYKIIRITIGSPVSSDKNLEQLKEELKEAKRQKIQILNIAITSDKIELEFEGKLVIVDSVELAMKRLVKIFPKINSLEKRFKNQLKEEDEDGIENISTEEVIEMLTNPSKSSNLKLKNAVARMNRHSNISIVLSLIFIIMPIVTVILSFMFFSNSSINGYVVDLFFGGTNRNLTINGQQW;locus_tag=LOCUS_13630;note=MGA_1365
sequence1	MetaGeneAnnotator	CDS	808956	809864	.	-	0	ID=MGA_1366;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183286.1;translation=MNHIEIKIDYDSERLDKYLTNYLKQEYNFSRSYIQKMIDSGEILINNTFTTSKYNLLVGDIITININEPEEMSAKPENIDFEILYQDNDILVLNKPNNLVVHPAAGNPSGTLVNALLYKIKDLSSIGGVLRPGIVHRLDKMTTGIMIVAKNDNAHKKLTDMLSKNEIHKEYYAIVHGVIEPNAGLIDAPIGRHKTDRKKMTVTDINSKHAKTNFKVIQRFEKHTLISCVIETGRTHQIRVHMNYIKHPVLGDYLYSYREDQKLEFGQYLHAYKLEFNHPITNKKLELICELPKEFNDKIKEL;locus_tag=LOCUS_13640;note=WP_011183286.1 RluA family pseudouridine synthase (Mesoplasma florum) [pid:57.0%25%2C q_cov:98.0%25%2C s_cov:95.8%25%2C Eval:1.7e-93],MGA_1366
sequence1	MetaGeneAnnotator	CDS	810296	810469	.	-	0	ID=MGA_1367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLGDDKEFISGLINFEYTINPGAAYGINADLPTLAISIAIFVSLFIIVAFIFVKDK;locus_tag=LOCUS_13650;note=MGA_1367
sequence1	MetaGeneAnnotator	CDS	811093	811383	.	-	0	ID=MGA_1368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFILSNLVDFDPNLNYKKDLEEVDLFALHNLSITKDKIKQAFENYQFNNVFKLINNYITNDLSSFYLDFIKDIIYVEAKDSIRRRQVQTVMYEQL;locus_tag=LOCUS_13660;note=WP_011183288.1 isoleucine--tRNA ligase (Mesoplasma florum) [pid:63.5%25%2C q_cov:100.0%25%2C s_cov:10.6%25%2C Eval:1.4e-31%2C partial hit],internal stop codon at [810943:810945](-)%2C[810988:810990](-)%2C[811093:811095](-)%2C[811474:811476](-)%2C[811651:811653](-),MGA_1368
sequence1	MetaGeneAnnotator	CDS	811474	811638	.	-	0	ID=MGA_1369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINSVIFDGKPAYKELLTHGMTNDEKGKKMSKSIGNTIDPLVIADELGADILRL;locus_tag=LOCUS_13670;note=WP_011166763.1 isoleucine--tRNA ligase (Mycoplasma mycoides) [pid:63.0%25%2C q_cov:100.0%25%2C s_cov:5.9%25%2C Eval:3.4e-14%2C partial hit],internal stop codon at [811474:811476](-)%2C[811651:811653](-)%2C[811750:811752](-)%2C[811780:811782](-)%2C[811834:811836](-),MGA_1369
sequence1	MetaGeneAnnotator	CDS	812767	812955	.	-	0	ID=MGA_1370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCKNYALEQISIQSEQFKRLGIFTDYDVKYITLTQDFENSELNLYLKMIEKQLIYRDLKPIF;locus_tag=LOCUS_13680;note=WP_011166763.1 isoleucine--tRNA ligase (Mycoplasma mycoides) [pid:66.1%25%2C q_cov:100.0%25%2C s_cov:6.8%25%2C Eval:2.3e-18%2C partial hit],internal stop codon at [812494:812496](-)%2C[812626:812628](-)%2C[812641:812643](-)%2C[812767:812769](-)%2C[813040:813042](-)%2C[813082:813084](-)%2C[813229:813231](-),MGA_1370
sequence1	MetaGeneAnnotator	CDS	814599	814754	.	-	0	ID=MGA_1371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQYTAKISSNLNSKIVKRNQTITFKAKVSDIIKAKSPIEYTEHNISGYWYQ;locus_tag=LOCUS_13690;note=MGA_1371
sequence1	MetaGeneAnnotator	CDS	815111	815461	.	-	0	ID=MGA_1372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNELQMKIKKLEKELENYYKKEEYTEAGIKKTKEVYDIARQNAEKIIFKAVTFTHDFKKSISETLYLIQKDKNNFEKYVDEFIEKNNYFLTDEIDELKELIKKIVDKIYKDTTS;locus_tag=LOCUS_13700;note=MGA_1372
sequence1	MetaGeneAnnotator	CDS	815461	815712	.	-	0	ID=MGA_1373;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTADIEVTKKQLEPEVNIKEIYIIETQTIKDDKIKYPSISSVPGEMIIFDLIFNIIVSLNDEFKEKFAKTAEISLNWNFEGHL;locus_tag=LOCUS_13710;note=MGA_1373
sequence1	MetaGeneAnnotator	CDS	815773	816318	.	-	0	ID=MGA_1374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIDLDKTELNATEESILNLINNDPTFFCTHSIQEVSKESNVSPSTMTRVCQKLGFKSFKSIQMFVYEKSRLESDYYQLGDDKTIEQIVHNVRGAALYTINETLSNIHYKTIEDISRRMYISNRIIIFGLEQQQTSANSFVFNLGRIDIPAQGVSNIHTYAQRVIFFDENDFAIFITRTG;locus_tag=LOCUS_13720;note=WP_003130139.1 MurR/RpiR family transcriptional regulator (Lactococcus) [pid:22.8%25%2C q_cov:99.4%25%2C s_cov:64.5%25%2C Eval:2.6e-08%2C partial hit],MGA_1374
sequence1	MetaGeneAnnotator	CDS	816329	816547	.	-	0	ID=MGA_1375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRRKKDGYGANIVLKLSSKYIRDIKRCTNIEELNNLRSQHLTQLGFDSNYIKNNEGYSNFKNLKHKKGKNR;locus_tag=LOCUS_13730;note=MGA_1375
sequence1	MetaGeneAnnotator	CDS	816914	817126	.	-	0	ID=MGA_1376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRTVGFSQRMKFTGMNGFLRPFANILASFTINALILMLMLTIIIIFFKEQRNMFEHVNWTMFLTGAFLL;locus_tag=LOCUS_13740;note=MGA_1376
sequence1	MetaGeneAnnotator	CDS	817691	817906	.	-	0	ID=MGA_1377;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLMSNLIAFILAFTIKKYEIAAVYGNIYYFGSVYLLGLGIPYSTLSSSQTIIIISFLFPQRYVLNIMDSG;locus_tag=LOCUS_13750;note=WP_011183080.1 ABC transporter permease (Mesoplasma florum) [pid:37.7%25%2C q_cov:97.2%25%2C s_cov:20.4%25%2C Eval:4.9e-08%2C partial hit],internal stop codon at [817445:817447](-)%2C[817637:817639](-)%2C[817691:817693](-)%2C[817934:817936](-),MGA_1377
sequence1	MetaGeneAnnotator	CDS	817934	818197	.	-	0	ID=MGA_1378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYDEFVLASAIGISGIRNCLFNFHKTLHDFKSTLFFERLFNTKISKTFIFGTMILFNQIMNSCVTLFLVGLSMLFPEQRQSIQSVN;locus_tag=LOCUS_13760;note=WP_011183080.1 ABC transporter permease (Mesoplasma florum) [pid:47.0%25%2C q_cov:95.4%25%2C s_cov:24.6%25%2C Eval:4.1e-15%2C partial hit],internal stop codon at [817934:817936](-)%2C[818222:818224](-)%2C[818252:818254](-)%2C[818294:818296](-)%2C[818306:818308](-),MGA_1378
sequence1	MetaGeneAnnotator	CDS	818358	818954	.	-	0	ID=MGA_1379;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIMQAIAEKEVNINPDPVFKPILRKYESQLEKFRAKFLTFLEKNVQFENEEKIIYIKNINFHVNELHDQLINISTSALNKKNVDDVKNNTKKLIKLIKKTKRQFNKMDNKVEYKKSALTFFKKIAMFLKYLEEELYLNFKSSKFLVNENELTAELTKKEVTELFFLKKKYIQEEIRIMKLENRNFKRQEKIKKQTTN;locus_tag=LOCUS_13770;note=MGA_1379
sequence1	MetaGeneAnnotator	CDS	818985	819140	.	-	0	ID=MGA_1380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVLSFLKKYRDENKATFIIISPDETTFNYLCKRIIVLDNGLIISDDYISE;locus_tag=LOCUS_13780;note=MGA_1380
sequence1	MetaGeneAnnotator	CDS	819381	819557	.	-	0	ID=MGA_1381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIYKGEGIALIGPNQSGKSVLGRLIASQIKQTGGIIEYYFSNGDALSSIGFQFRQTS;locus_tag=LOCUS_13790;note=MGA_1381
sequence1	MetaGeneAnnotator	CDS	819686	820291	.	-	0	ID=MGA_1382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAYYFNSLGYNIFSFDFRNHGESDDAQITLGINEQKDLEATLNYLKENFNPKEIAFIGFSMGAHTLNRLALDINPKKYKISFGISDSSYFETEKVLKKIINTIGGPLVGNFLDGLVEDVIEVYNQNHNIDVKGNTPKYMLPLCKESFPILFIHSKEDKITDYVDSEKLYSLRKILNEKDVIHIFQTGEHIRTQISHNKMY;locus_tag=LOCUS_13800;note=WP_011166764.1 alpha/beta fold hydrolase (Mycoplasma mycoides) [pid:33.5%25%2C q_cov:93.0%25%2C s_cov:58.1%25%2C Eval:2.7e-28%2C partial hit],internal stop codon at [820337:820339](-),MGA_1382
sequence1	MetaGeneAnnotator	CDS	820337	820588	.	-	0	ID=MGA_1383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASKITEKIVQILNDKNRNNFELYKNQGYKNLLKIYLQAIANEIKDEKILELNLNNFNRVEYKSFDNKNIVGIYHLNPKKTKK;locus_tag=LOCUS_13810;note=MGA_1383
sequence1	MetaGeneAnnotator	CDS	821212	821817	.	-	0	ID=MGA_1384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDASNPTEQKIAESASKLLQSKDVRAFLSTTFDRSKFVRYFSKTIDEVGEPSKMLRNTFTGTEVAGFEGKDYTKFVSDVYDNKTGTTPPTDDSYSLQDGKDVFLDNSQKLYGKSRNELMDSINQFISKNELVKNKDGKVKLSFLLSPSGSVSTNPYVNYMIKTFNSIENNPIYVESTTPVSTDEYVTKAQSGKFDLFISG;locus_tag=LOCUS_13820;note=MGA_1384
sequence1	MetaGeneAnnotator	CDS	822571	822744	.	-	0	ID=MGA_1385;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQAEDQRVLSNVFDTLLKTDEYGRIYGSLVESTYGQSKHSNDDKYSYVGDTNDNKTE;locus_tag=LOCUS_13830;note=MGA_1385
sequence1	MetaGeneAnnotator	CDS	822760	822930	.	-	0	ID=MGA_1386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNFLKKTLGLFSFTLGTTLVTSSIVACGISLDSLMNRIVDPNVFKDTYSFNITS;locus_tag=LOCUS_13840;note=MGA_1386
sequence1	MetaGeneAnnotator	CDS	822992	823693	.	-	0	ID=MGA_1387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFQDPGSSLNDRMAIEEIIAEGMENFPELYKGEIFKELYVKEFNEQNPDSMITIEQATPNLVKKHIILKLIKSVGLLPEHLSRYPHEFSGGQRQRVGIARSLAMKPKLIIADEPISALDVSIRAQVLNLFKKFQEELDLTYVFIAHDLSVVRHIADRIAVIYHGEIVELAPAEELFRNPLHPYTKALLSAIPIPVPELAKQTELIVYIPEEEHRDYIFDLPYFKEVLPGHFV;locus_tag=LOCUS_13850;note=WP_011182994.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:65.1%25%2C q_cov:100.0%25%2C s_cov:38.1%25%2C Eval:2.3e-83%2C partial hit],internal stop codon at [822992:822994](-),MGA_1387
sequence1	MetaGeneAnnotator	CDS	823853	824107	.	-	0	ID=MGA_1388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLNNCKKILKIFENQNIDYSQLEILSSSLKNTEFEDKLKLIIKEKKSITENQLKQLKDELKSIEKIIEKNIIKDKELIEYFYK;locus_tag=LOCUS_13860;note=MGA_1388
sequence1	MetaGeneAnnotator	CDS	824120	824320	.	-	0	ID=MGA_1389;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQFQLHALSAPLKSREKFINYYNKLLYVRRDDFFQECNKQLKILESNNTDFNDLEFKKINYFKTDF;locus_tag=LOCUS_13870;note=MGA_1389
sequence1	MetaGeneAnnotator	CDS	824378	825112	.	-	0	ID=MGA_1390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIEINKDVLLNIRDIVIEFRNKGKKFNAVKETSFDIYKGEIFGLVGESGSGKTTIGRAIVGVQPLKNGAIYMEDSIVVGKPTSLYNLNKEISKKVDNMSLKMDITTQEIQSRIKALKEVYNKFKNNLSLDIEKELEMKLKAGKLTYLNGILLSNLKYINKIIKNEDKMIKFVDNLNSYIPELSKKLETSVISKLKETKEAVLDLKENAENIYKICNNIAKEREKYFKLKSKNVEETFKILFAL;locus_tag=LOCUS_13880;note=WP_011182994.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:31.8%25%2C q_cov:95.1%25%2C s_cov:41.2%25%2C Eval:1.3e-28%2C partial hit],MGA_1390
sequence1	MetaGeneAnnotator	CDS	825207	825356	.	-	0	ID=MGA_1391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSIEGTPPSLFNEIVGDAFAPRNKYALELDYIKEPPMFKISETHFAKT;locus_tag=LOCUS_13890;note=WP_011166384.1 ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:73.5%25%2C q_cov:100.0%25%2C s_cov:8.7%25%2C Eval:4.1e-15%2C partial hit],internal stop codon at [825207:825209](-)%2C[825402:825404](-),MGA_1391
sequence1	MetaGeneAnnotator	CDS	825402	825860	.	-	0	ID=MGA_1392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSLNPLLPVGFQITEVLRKQIGLSKVEAKKEAIELLRKVGIPDPEKRFKDIPGRYSGGMRQRVVIAIALACRPKILICDEPTTALDVTIQAQILDLIKNLQKEYKFTVIFITHDLGVVAKIADRVAVMYAGQIVEVGTATDIFENAKHPYT;locus_tag=LOCUS_13900;note=WP_011166384.1 ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:79.6%25%2C q_cov:100.0%25%2C s_cov:26.9%25%2C Eval:7.4e-65%2C partial hit],internal stop codon at [825207:825209](-)%2C[825402:825404](-),MGA_1392
sequence1	MetaGeneAnnotator	CDS	826110	826424	.	-	0	ID=MGA_1393;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFKNYLTKKEEELSILESNVDFNGSNKRNNKILKTKAKILVIKDTIKFINDNNYRDEVIKEKYLEILKYKIDINKIKPLTLKSRNKISKIIAMIENFISTNMA;locus_tag=LOCUS_13910;note=MGA_1393
sequence1	MetaGeneAnnotator	CDS	826809	827006	.	-	0	ID=MGA_1394;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKENRILSVRNMEVKFQVRGRFLTAIRNVDLEIYDQEVLAIVGESGSGKSVITKTFTGMLEANG;locus_tag=LOCUS_13920;note=WP_010921893.1 ABC transporter ATP-binding protein (Streptococcus pyogenes) [pid:68.2%25%2C q_cov:100.0%25%2C s_cov:18.5%25%2C Eval:4.4e-17%2C partial hit],MGA_1394
sequence1	MetaGeneAnnotator	CDS	827137	827385	.	-	0	ID=MGA_1395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIRNAEYNIASRVLGTRGPKIIRKNIMPKILPIVIQTSTFAIPTAIAIDSLLAYYNFGFVTNTLDQASLGSILNELLLGSD;locus_tag=LOCUS_13930;note=WP_011166383.1 ABC transporter permease (Mycoplasma mycoides) [pid:60.0%25%2C q_cov:97.6%25%2C s_cov:23.5%25%2C Eval:9.5e-20%2C partial hit],internal stop codon at [827137:827139](-)%2C[827419:827421](-)%2C[827494:827496](-)%2C[827572:827574](-)%2C[827656:827658](-)%2C[827668:827670](-),MGA_1395
sequence1	MetaGeneAnnotator	CDS	827863	827982	.	-	0	ID=MGA_1396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQKQYSQEEMNSINNSLFTVVGSKLEEAEKISNKPYSY;locus_tag=LOCUS_13940;note=MGA_1396
sequence1	MetaGeneAnnotator	CDS	827994	828149	.	-	0	ID=MGA_1397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKFILNGVANKDTFVVLGYIFVSASAGVFSSLVGDLLLAMLDPRIKLTKK;locus_tag=LOCUS_13950;note=WP_011182991.1 ABC transporter permease (Mesoplasma florum) [pid:44.9%25%2C q_cov:96.1%25%2C s_cov:11.0%25%2C Eval:1.8e-07%2C partial hit],internal stop codon at [828162:828164](-)%2C[828399:828401](-),MGA_1397
sequence1	MetaGeneAnnotator	CDS	828162	828383	.	-	0	ID=MGA_1398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLIMPMIIVSTRRYVIDEMTADYAKFALSKGLSEKYVFYIHIFRNAGIRLIKTMPEVFIITLFGSSILVERH;locus_tag=LOCUS_13960;note=WP_011182991.1 ABC transporter permease (Mesoplasma florum) [pid:59.2%25%2C q_cov:97.3%25%2C s_cov:16.0%25%2C Eval:2.8e-19%2C partial hit],internal stop codon at [828162:828164](-)%2C[828399:828401](-),MGA_1398
sequence1	MetaGeneAnnotator	CDS	828399	828701	.	-	0	ID=MGA_1399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKASGGQVLSLVQDAFARSIPTSFAVGSIAVVFSYILGVPLGILAAKNKDKSSDSAINGTSLIISAIPALVLISLLYKMSIYVFGANGTYDGSSFGTKI;locus_tag=LOCUS_13970;note=WP_011182991.1 ABC transporter permease (Mesoplasma florum) [pid:49.4%25%2C q_cov:87.0%25%2C s_cov:19.6%25%2C Eval:2.1e-19%2C partial hit],internal stop codon at [828162:828164](-)%2C[828399:828401](-)%2C[828720:828722](-),MGA_1399
sequence1	MetaGeneAnnotator	CDS	828720	829223	.	-	0	ID=MGA_1400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLEKNSSEISDLSLDELVESTNLDNEIINLRTSKFEKLKFGLNKVNSSFEDFMDKTPLFSYSLKRIFYAFITLYIAIAFVFIMLRIVTTDSAYLADINLEKMGIEFGTDAYYNLLNNRMKAFGVDGSLITQLFIYLRNITPFIPKDILLNPVVDTSGNVLGEHKQM;locus_tag=LOCUS_13980;note=WP_011166382.1 ABC transporter permease (Mycoplasma mycoides) [pid:36.4%25%2C q_cov:89.8%25%2C s_cov:35.7%25%2C Eval:2.0e-19%2C partial hit],internal stop codon at [828720:828722](-),MGA_1400
sequence1	MetaGeneAnnotator	CDS	829294	829455	.	+	0	ID=MGA_1401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEQKNTSNLKKLKDLREQEKLAHKQEISDKVKKLNSDPLETRTKFIHSKKLR;locus_tag=LOCUS_13990;note=MGA_1401
sequence1	MetaGeneAnnotator	CDS	829461	829613	.	-	0	ID=MGA_1402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYHPRINQTSKPNTAIAVIIHSVFSMFWKAKIPKIKAKPIINVLKPNMIK;locus_tag=LOCUS_14000;note=MGA_1402
sequence1	MetaGeneAnnotator	CDS	830348	830506	.	-	0	ID=MGA_1403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEHFADEEATLIYENAYLLPIFTKAAPVEFSVSYSQPFSKSTAPYGLGKYRY;locus_tag=LOCUS_14010;note=MGA_1403
sequence1	MetaGeneAnnotator	CDS	830780	831454	.	-	0	ID=MGA_1404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSSASLDVSSSMTLMFNIYNSNIESTNSAVSQKAVIASRALQNPVVRKFISANLDRSKYVSYFSSAFDKDGEPSKMIRNTYTPDFIESNGKDYVSFLTESLQKKDDFSDIKNGDLADGKEFFYENENYAGGTLQEQLKAVADYFEKDEAIKSYLAANGGKLKLEFPLNPDDNSTLNPKLLDMFAGFNSIAGNQIEIIQSSGVNSANDYKQITNEGKIYLSLSG;locus_tag=LOCUS_14020;note=MGA_1404
sequence1	MetaGeneAnnotator	CDS	831384	831593	.	+	0	ID=MGA_1405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFELYILNINVIDEETSSEALEDIPAVALGFSQFPTYFCHPAVSATAGLNASSALDSNNVLVLSDPPVI;locus_tag=LOCUS_14030;note=MGA_1405
sequence1	MetaGeneAnnotator	CDS	831500	831856	.	-	0	ID=MGA_1406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDESANTVTFKLKKSASYFETLLTYSVFSPIYSAAVTNPLADSDYRKGYYSGAFLPTSYVNTGNIILDKNPNYHLVEDTHINRLKYVYITGGSDKTRTLFESKALDAFRPAVADTAG;locus_tag=LOCUS_14040;note=MGA_1406
sequence1	MetaGeneAnnotator	CDS	832070	832261	.	-	0	ID=MGA_1407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHSEDHTILANTNATPLASDQYGRIYGDIFELTNTDYSKTNTYIGNHNENFTEFTYKVRSDAT;locus_tag=LOCUS_14050;note=MGA_1407
sequence1	MetaGeneAnnotator	CDS	832277	832411	.	-	0	ID=MGA_1408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLFGLMGVTLISSTTLSVIACGSNADPENTFKLGYSLPVGH;locus_tag=LOCUS_14060;note=MGA_1408
sequence1	MetaGeneAnnotator	CDS	832428	833261	.	-	0	ID=MGA_1409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSIDEIVNKSYLFKGQTKKEKKQIRKNVQMIFQDPGSSLNDRMAVEEIIGEGLENFPELYKSEEIRNEYMINYNQLNPEQKITLEQVKNKDVKKYLILNALTSVGLIPEHLSRYPHEFSGGQRQRIGIARSLIMKPKIIVADEPISALDVSIRAQVLNLFKKFKEELGITFIFVAHDLSVVHFIADRIAVIYHGQIVELADANELFINPLHPYTKALLSSIPIPEPELAKKEKSIIYNSEKEHSDYMFDLPRFTEIKPNHFVYLNKRELKEIKDKL;locus_tag=LOCUS_14070;note=WP_011182994.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:60.9%25%2C q_cov:98.9%25%2C s_cov:44.7%25%2C Eval:1.0e-94%2C partial hit],MGA_1409
sequence1	MetaGeneAnnotator	CDS	833331	833582	.	-	0	ID=MGA_1410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINGCTKILTEMQKVNPNFSMLKSISKDLKNTDFENELKDILINNNISQKNLNDKVKEFDYIKKIVKRNIIKDRELIDEYML;locus_tag=LOCUS_14080;note=MGA_1410
sequence1	MetaGeneAnnotator	CDS	833595	834581	.	-	0	ID=MGA_1411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKFYEENAFLKIRDAKVVFRSKGSKLNAVKETNLNIKKGEILGLVGESGSGKTTLERAIVGIQQLKDGAIYMENDIIAGKSARLFILNKEITKKLYSMKIKMNATTIYLNDFINNLKKNYKQNPNFENFSNEDFKKNFKKNEVEFIDNIFLSNLKYINRILLNEERIIRFITNISKSIDEISLDLEKTILLKQNQVKNSILQLKKLLDEIYEIAQPILKLQKKYTCEDIDVKTIFINIFQKLDKIIINHKKFLEKLDETINYQYENQALSAPFKRKNKFLNYYYKKIFINRNDFLIECKRQIELLKEKPNFEKDETLAKYNYFINDF;locus_tag=LOCUS_14090;note=WP_014584437.1 ATP-binding cassette domain-containing protein (Mycoplasma leachii) [pid:31.9%25%2C q_cov:92.4%25%2C s_cov:52.2%25%2C Eval:2.6e-34%2C partial hit],MGA_1411
sequence1	MetaGeneAnnotator	CDS	834669	834860	.	-	0	ID=MGA_1412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYSLPQLGTKGDDLFFIKGTPPSLFNKIEGDAFASRSNYAMEVDLNFEPPMFKVSETHFAKT;locus_tag=LOCUS_14100;note=WP_011166384.1 ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:63.5%25%2C q_cov:100.0%25%2C s_cov:11.1%25%2C Eval:6.1e-19%2C partial hit],internal stop codon at [834669:834671](-)%2C[834864:834866](-),MGA_1412
sequence1	MetaGeneAnnotator	CDS	834864	835322	.	-	0	ID=MGA_1413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSLNPLLSVGFQISEILIKQLKMSRSSAKKEAIELLRKVGIPDPEKRYKDIPGRYSGGMRQRVVIAIALACRPKILICDEPTTALDVTIQAQILDLIKELQEEYKFTVIFITHDLGVVAKLADRIAVMYAGQIIEIGTTEDIFYDPKHPYT;locus_tag=LOCUS_14110;note=WP_011166384.1 ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:80.9%25%2C q_cov:100.0%25%2C s_cov:26.9%25%2C Eval:2.7e-67%2C partial hit],internal stop codon at [834669:834671](-)%2C[834864:834866](-),MGA_1413
sequence1	MetaGeneAnnotator	CDS	835422	835982	.	-	0	ID=MGA_1414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKTTIKSIIKITKRKIRKIDKKIKKINGIDSQKTENQILEIGRKITEQQEKIFFSKKNNASIKIDRLTFRLNNLEELKKISSNDEYKNDIISDLQNSIELLKIDISKIKHLNFFERRKISIMIEVLKKSYENNVELNQENIDFINNYFINKKHFKKFELELKDLIDNFINEKKIDEDHLNNILLD;locus_tag=LOCUS_14120;note=MGA_1414
sequence1	MetaGeneAnnotator	CDS	836088	836279	.	-	0	ID=MGA_1415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKILSIRNIEVKFQVRSNFLTAIRNVSLDIYDKEIIAIVGESGSGKSVITKTFTGMLENNG;locus_tag=LOCUS_14130;note=WP_011166384.1 ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:71.4%25%2C q_cov:100.0%25%2C s_cov:11.1%25%2C Eval:1.0e-18%2C partial hit],internal stop codon at [836088:836090](-),MGA_1415
sequence1	MetaGeneAnnotator	CDS	836410	836685	.	-	0	ID=MGA_1416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASIIRVQIILVKNAEYNIASKVLGTKGPKIIRKNILPKILPIIIQVSTFAIPTAIALDSLLSFYNFGFVKNPLTETSLGVILNEVIADGT;locus_tag=LOCUS_14140;note=WP_011182992.1 ABC transporter permease (Mesoplasma florum) [pid:47.1%25%2C q_cov:95.6%25%2C s_cov:26.3%25%2C Eval:1.4e-15%2C partial hit],internal stop codon at [836410:836412](-)%2C[836692:836694](-)%2C[836929:836931](-)%2C[836941:836943](-),MGA_1416
sequence1	MetaGeneAnnotator	CDS	836570	836839	.	+	0	ID=MGA_1417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRIFFLIIFGPLVPKTFDAILYSAFFTRIICTLIIEANEIQLVSEIANTKIPKLELPPKTNIMISHKISDGIIFKNLTISINKISNFV;locus_tag=LOCUS_14150;note=MGA_1417
sequence1	MetaGeneAnnotator	CDS	837135	837263	.	-	0	ID=MGA_1418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIIYSKEKEIQKFNQIDSSMFKFIEIKDQTVEKINSKPYSY;locus_tag=LOCUS_14160;note=MGA_1418
sequence1	MetaGeneAnnotator	CDS	837277	837429	.	-	0	ID=MGA_1419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKYILSGVSTNDIYVVLGYIVISSASGVFTSLLSDLLMALLDPRIKLTK;locus_tag=LOCUS_14170;note=MGA_1419
sequence1	MetaGeneAnnotator	CDS	837442	837654	.	-	0	ID=MGA_1420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISIIVVDTRRFVIDEMTSEYTRFAISKGLSSKYVFYVHIFRNAGIRVIKTLPEAFILCLFGSSILVERF;locus_tag=LOCUS_14180;note=WP_011182991.1 ABC transporter permease (Mesoplasma florum) [pid:54.4%25%2C q_cov:97.1%25%2C s_cov:15.3%25%2C Eval:6.2e-16%2C partial hit],internal stop codon at [837442:837444](-)%2C[837706:837708](-)%2C[837745:837747](-),MGA_1420
sequence1	MetaGeneAnnotator	CDS	837745	837975	.	-	0	ID=MGA_1421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNNGFVNSNVLDEFKGAIPISFLLGGVALLLSYVIGIPLGILSAKYKEKTIDNGIKGFFLGISSIPATVLITMI;locus_tag=LOCUS_14190;note=WP_011182991.1 ABC transporter permease (Mesoplasma florum) [pid:44.1%25%2C q_cov:89.5%25%2C s_cov:15.3%25%2C Eval:1.7e-08%2C partial hit],internal stop codon at [837706:837708](-)%2C[837745:837747](-)%2C[837994:837996](-)%2C[838084:838086](-),MGA_1421
sequence1	MetaGeneAnnotator	CDS	838084	838494	.	-	0	ID=MGA_1422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENVSKDKLSDLELEKLLESVDLNEEVKKTKGSFFEKFKFSVLKLNSTRKEFFEKAPLFSYSLKRILYAFITLYLSIAIVYILLVLFMPDSALVSDYDFGKPTSIKPGSVEYYALIENRKIGYGLSGSLIKQVLIY;locus_tag=LOCUS_14200;note=MGA_1422
sequence1	MetaGeneAnnotator	CDS	839179	839946	.	-	0	ID=MGA_1423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRKNTQVIFQDPGSSLNDKMSISEILSEGIDNFSFLYKSKEAKQEFLEKYNAVYENKITLKDIKSSKIKNDLILELIKSVGLSEEHLSRYPHEFSGGQKQRIGIARALSLKPKIIIADEPISALDVSIRAQVLNLFKKFREQFDLTYLFITHDLSVVKYFADRIAVIYKGKIVELAESEELFKNPLHPYTKSLLSAIPIPDPDLSQNRKLLVYNYEKEHFDYEIDIPYFKEVSKNHFVYGNQREFKKMRNSKNL;locus_tag=LOCUS_14210;note=WP_011182994.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:58.7%25%2C q_cov:98.4%25%2C s_cov:41.2%25%2C Eval:8.3e-85%2C partial hit],MGA_1423
sequence1	MetaGeneAnnotator	CDS	840085	840339	.	-	0	ID=MGA_1424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLASINKIFKLINKNNYTQNQINSLLNSLKQTEFELSLKSFLYNNSKVDLLKLKEYKKEYEYILKIIKNDILKDEESIQSYLN;locus_tag=LOCUS_14220;note=MGA_1424
sequence1	MetaGeneAnnotator	CDS	840352	841365	.	-	0	ID=MGA_1425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDMEQKMSNREELLNVRDIVVQFRNRSKKNTAVSNVSFDIYKGEVFGLVGESGSGKTTIGRAIAGVQQLKDGAIYLESQIIAGTPTSLFKLNKKITKKLKEMNLKIDSLLLLFNEFIELIDIKLISDDYYLEKISEEKIKNALKFLEQKNKILVLLISKNLKAINSILINFDRINKFIMNIDSYIPEVPKELEKAIISKNNETKNSVIFVKDNLVSSYEYLLNILELFKEMLSKSNNLESISNSYLIRILENIKSVSNFFTNIVENYKKIVNLEEQNLALSSPLRKRNKISKKYYDLVFIRRELFYEEILKQLNLLLKSNISDNKEIEKLNFYLKDF;locus_tag=LOCUS_14230;note=WP_014584437.1 ATP-binding cassette domain-containing protein (Mycoplasma leachii) [pid:29.6%25%2C q_cov:84.0%25%2C s_cov:48.8%25%2C Eval:9.6e-24%2C partial hit],MGA_1425
sequence1	MetaGeneAnnotator	CDS	841442	841630	.	-	0	ID=MGA_1426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSLPQLGTKGENLYSIEGTPPSLFSKINGDAFAPRNKYALKIDYLYEPPIFKVSDTHLVKT;locus_tag=LOCUS_14240;note=WP_011166384.1 ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:75.0%25%2C q_cov:96.8%25%2C s_cov:10.6%25%2C Eval:2.3e-21%2C partial hit],internal stop codon at [841442:841444](-)%2C[841637:841639](-),MGA_1426
sequence1	MetaGeneAnnotator	CDS	841637	842095	.	-	0	ID=MGA_1427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSLNPLLSVGFQISEVLRKHHKLSKREAKVEAIELLRKVGISEPEKRYKDIPGMYSGGMRQRVVIAIALACKPKILICDEPTTALDVTIQAQILQLIKDLQNEYNFSVVFITHDLGVVASIATRILVMYCGQIVEMGKTKEIFYDAKHPYT;locus_tag=LOCUS_14250;note=WP_011166384.1 ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:75.0%25%2C q_cov:100.0%25%2C s_cov:26.9%25%2C Eval:4.1e-63%2C partial hit],internal stop codon at [841442:841444](-)%2C[841637:841639](-),MGA_1427
sequence1	MetaGeneAnnotator	CDS	842195	842539	.	-	0	ID=MGA_1428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIKYKNELKNEDFKNKELEKINTKINEEKSDYFKYKTLNIFERFTLNKITKIIKSKIKNNLEFTKQEDYFIEKYLVSKSDSVRFISQLKKIYFDLKKNVFEDKEHFLNIMQD;locus_tag=LOCUS_14260;note=MGA_1428
sequence1	MetaGeneAnnotator	CDS	842855	843049	.	-	0	ID=MGA_1429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKKILVVNNVEVKFRVRSKLLTAIRGISFDLYEKEILAIVGESGSGKSVITKTFTGMLESNG;locus_tag=LOCUS_14270;note=WP_011166384.1 ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:71.2%25%2C q_cov:92.2%25%2C s_cov:10.4%25%2C Eval:7.5e-17%2C partial hit],internal stop codon at [842855:842857](-),MGA_1429
sequence1	MetaGeneAnnotator	CDS	843257	843970	.	-	0	ID=MGA_1430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLIGSVSIVSLSSSFVVACGSDSVSTQPKNVLTAPNDIQVIHVGEKMDADVFVGGYEESIELAVISSDDSVLKVLEIVQTDELSYVSDGSTVKVPAKKLRLKLEAFKVGNVSIKLSYGNAPSVDFKLKVIATESEVEVPEVVKISLDTLNLTLRAGQSKEESDAAVLNAIKTLENVNSAVSPTDFEIDYESDSALSSDNPQVLVEGKKVNIKAANVSKYLSDQKEITINPSL;locus_tag=LOCUS_14280;note=MGA_1430
sequence1	MetaGeneAnnotator	CDS	844097	844453	.	-	0	ID=MGA_1431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKRDDASEGVGEENLTYKVNDKFKTTVSDSFVASIEDTTDKFYEIDRAEKYDLVERLKGFGELETEIIYENFYVLPNFNAAPLKSYSISYLRQYTYGYATYGVSPNKLFTRRINEQL;locus_tag=LOCUS_14290;note=MGA_1431
sequence1	MetaGeneAnnotator	CDS	844562	845248	.	-	0	ID=MGA_1432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSDINNPKIDEVSVGKALSTQTFALSYNTNYNSGAVDDAAKISGSKLLQFNEARAFISTGFNRNVLAKYYSEKYDSDPNLSGNVRNTFTAPELTYDANGKDYVKYIEDSYKEKFGAKPNSVTTLVDGTDSFLNKESVYVGKTKAELVESISKFIEENNLTKNSKGKIELEYVGSDTHNTSINPYLTRTIAQFNEIPNNPIEIKFNILAYNDYLQAYFGGKFHLFNIA;locus_tag=LOCUS_14300;note=MGA_1432
sequence1	MetaGeneAnnotator	CDS	845258	845821	.	-	0	ID=MGA_1433;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQFIKGANEVSTAIGRLKDATLTFDQIIEKVKSGYLYTVKDANGNDVQKNEAGIADFKFGIIADDGNDGYNVTFHLEKPAPYFESLLTYNVFSPSPIENYANGANGVVPDPSKTLFSGPYLPNDVENILNGTKMVFKKNNSHYFANKTEIETIIYKKITTQSTDLTRTLFETGETISYNINPADAVG;locus_tag=LOCUS_14310;note=MGA_1433
sequence1	MetaGeneAnnotator	CDS	846161	846334	.	-	0	ID=MGA_1434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKLRRLLSAISAVTLVSTTTSSVVACKVGFDFASIRNKKINTKEYVAVYTAPPKS;locus_tag=LOCUS_14320;note=MGA_1434
sequence1	MetaGeneAnnotator	CDS	846466	846789	.	-	0	ID=MGA_1435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWVAVLAVSITNWIGLASLIRFQILLNKSKEFNIASKVLGSKGGKIIRKNILPSILPIIVQSIAFSIPAAIGIDSSLAYLGFGFVSVSDAKSASLGSMLTDLLSGSD;locus_tag=LOCUS_14330;note=WP_011182992.1 ABC transporter permease (Mesoplasma florum) [pid:48.5%25%2C q_cov:96.3%25%2C s_cov:31.0%25%2C Eval:5.8e-22%2C partial hit],internal stop codon at [846466:846468](-)%2C[846826:846828](-)%2C[846904:846906](-)%2C[846988:846990](-)%2C[847033:847035](-),MGA_1435
sequence1	MetaGeneAnnotator	CDS	847033	847320	.	-	0	ID=MGA_1436;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVILNKNTNYDFEKLDSELFLIVGEDKVTAEHIVTKPYSYWKSVFLKVFKNPAFLISLVLIILIIICSMTIALGQYAIPTYPDGPINQAPSSEH;locus_tag=LOCUS_14340;note=WP_011166383.1 ABC transporter permease (Mycoplasma mycoides) [pid:32.6%25%2C q_cov:93.7%25%2C s_cov:26.5%25%2C Eval:4.4e-09%2C partial hit],internal stop codon at [846826:846828](-)%2C[846904:846906](-)%2C[846988:846990](-)%2C[847033:847035](-),MGA_1436
sequence1	MetaGeneAnnotator	CDS	847323	847487	.	-	0	ID=MGA_1437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANTTVSAISQTDLFLILGIVLVSASISLLLSLISDLLMALLDPRVKLMEKKKG;locus_tag=LOCUS_14350;note=MGA_1437
sequence1	MetaGeneAnnotator	CDS	847500	847664	.	-	0	ID=MGA_1438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSADYTKFALSKGMTNRYVFFVHIFRIAGIAIIRSIPAALIANLFGASLLVEQS;locus_tag=LOCUS_14360;note=WP_011166382.1 ABC transporter permease (Mycoplasma mycoides) [pid:53.8%25%2C q_cov:96.3%25%2C s_cov:12.6%25%2C Eval:1.4e-10%2C partial hit],internal stop codon at [847500:847502](-)%2C[847767:847769](-),MGA_1438
sequence1	MetaGeneAnnotator	CDS	847767	848597	.	-	0	ID=MGA_1439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKNNIKKLKENENEYINKNEKEKERIKILILDIKKNKLFKKKKVNLNILNYKIGVLNNKKNDFLSSYPLLTYSLKRIFYAIITLYIAIAVLYALLNIVASDSIYIGDIDLNKNNIIYGSEQYYNLIENRKKLLGVDGSLLSQIIIYLRNITPFIPKEILTDAHYESDGSITGTMVTKLFYLGITFTDSGGFAKGTFVQTILSNNMPVSFQLGAIATVISFFIGIPIGIYAAINKENVKDNFITWFCLIMFALPALVIVRLFFQFSIYYLGAGSL;locus_tag=LOCUS_14370;note=WP_011166382.1 ABC transporter permease (Mycoplasma mycoides) [pid:32.7%25%2C q_cov:73.9%25%2C s_cov:50.0%25%2C Eval:2.3e-22%2C partial hit],internal stop codon at [847500:847502](-)%2C[847767:847769](-),MGA_1439
sequence1	MetaGeneAnnotator	CDS	848730	848930	.	-	0	ID=MGA_1440;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGIKISILERKVYQSQLCGELFNLLKLTKKELFAIIFLQCPIFNNITKKNIFMNDESMEVFFDVD;locus_tag=LOCUS_14380;note=MGA_1440
sequence1	MetaGeneAnnotator	CDS	849019	849315	.	-	0	ID=MGA_1441;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFFNKEIEKNNKSILNDENSDFIDDIEFDKLNKTHFEPLNYGETKQIADCLLKFNHVTISLKLINIDERKRLIDFLTGVMYGFNGNYKKIDKSIYYF;locus_tag=LOCUS_14390;note=MGA_1441
sequence1	MetaGeneAnnotator	CDS	849418	850575	.	-	0	ID=MGA_1442;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183291.1;translation=MAINLDFNQNANIKVIGVGGGGCNAVNRMVDDNVQGVEFIVANTDMQVLGASSASTKIILGKEISKGLGAGANPEVGKQAAIESETEIKEALKGADLIFVAAGMGGGTGTGAAPEIARMAMETGALVIAIVTKPFRFEGRMRNSYAIQGVSELRKYVDSIIIISNDRLLEIIGGIPVQDSFREADNILKQGVQTITDLIAVPAVINLDFADVRTVMKGKGNALFGIGIGSGEDKAIEAANKAITSSLLETSIRGAKDAIINVTGGKTVSLNDAYDAVDIVQQASGEDVNIIFGIAINEHLDDDLIVTVIATGFDEDYVAPNLNQSNQFNERKDISNQGQMEYSDNSKVETVYEQRTSFMNNQDKRPEYVRQAEEELKIVPEKIEQ;locus_tag=LOCUS_14400;gene=ftsZ;note=WP_011183291.1 cell division protein FtsZ (Mesoplasma florum) [pid:62.1%25%2C q_cov:91.7%25%2C s_cov:89.9%25%2C Eval:1.1e-117],MGA_1442
sequence1	MetaGeneAnnotator	CDS	850593	850805	.	-	0	ID=MGA_1443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKCAHIANKNNKEIKTSTFSISKSELIRDIENNQLRNKIVNNNQRIVSNFQNNRNIPQQNGIINTQRNR;locus_tag=LOCUS_14410;note=MGA_1443
sequence1	MetaGeneAnnotator	CDS	850824	851174	.	-	0	ID=MGA_1444;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQAKFDIAEKYLFKILDFSSNTLDDTVVYRKYISSKGFNYELRSKDLKNIILEEINSIIDKSDILIKREFERIKNFQIHHTGKVTTIAGFEKILFRSQFKDVCQIYFSLVTGASEI;locus_tag=LOCUS_14420;note=MGA_1444
sequence1	MetaGeneAnnotator	CDS	851274	851660	.	-	0	ID=MGA_1445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIKDAIATEFINSADFVIKEENIKTLYSTARKIIYDDKHVVINIKPYLFTLDNVTQMGTVPLNHRAKNIVMKAKVYTISKKVKESFNQILKSLKLEELISTNELYALARQSNSDQTFRQNFAIINWD;locus_tag=LOCUS_14430;note=MGA_1445
sequence1	MetaGeneAnnotator	CDS	851790	851951	.	-	0	ID=MGA_1446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNYEQLERWKINMQTEIYAVLQVTKKDIRFVVGKYKINTGLKVIFKEKISGN;locus_tag=LOCUS_14440;note=MGA_1446
sequence1	MetaGeneAnnotator	CDS	851938	852858	.	-	0	ID=MGA_1447;product=16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183293.1;translation=MEHEHKSVLLKESIELLNIDKNGIYVDCSLGRGGHSAEILKKIENGHLFSIDQDAEAIEISRKKLEKISSNFTILEGNFMDIKVLLALNSVEKVNGILYDLGVSSPQFDQGHRGFSYRFNSELDMRMDQKNNIKTAKFVLNNYEEKQLADIFFKFGEEKFSYNIAKKIIEYRKKKKLETTFELVEIIKNSLPQKVLKQKKHPAKKVFQALRIYVNNELEVLKKSLSNSLELLKPNGVLVVITFHSLEEKIIKDIFKTKTILKEDKFLKKLPISIEAKRYFELVIKKPILPSSQELEENRRSHSAKL;locus_tag=LOCUS_14450;gene=rsmH;EC_number=2.1.1.199;note=WP_011183293.1 16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH (Mesoplasma florum) [pid:57.1%25%2C q_cov:99.0%25%2C s_cov:97.4%25%2C Eval:6.1e-91],MGA_1447
sequence1	MetaGeneAnnotator	CDS	853134	853289	.	-	0	ID=MGA_1448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFGSFEHNLDNKLRVTIPSKLRNKLGELIYVTRSIDGQCLELRTPEVFKK;locus_tag=LOCUS_14460;note=WP_011183294.1 division/cell wall cluster transcriptional repressor MraZ (Mesoplasma florum) [pid:51.9%25%2C q_cov:100.0%25%2C s_cov:33.8%25%2C Eval:2.2e-08%2C partial hit],internal stop codon at [852942:852944](-)%2C[852954:852956](-)%2C[853134:853136](-),MGA_1448
sequence1	MetaGeneAnnotator	CDS	854076	854354	.	-	0	ID=MGA_1449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIILLEVKIILNFVNQISNYIVPLSVFHSLRENGFSILECEVSMEKFREIVNNSNPVVCADLLKAFYLYYKIFLSKYLIFKLKEKNSTALE;locus_tag=LOCUS_14470;note=MGA_1449
sequence1	MetaGeneAnnotator	CDS	854423	854599	.	-	0	ID=MGA_1450;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183295.1;translation=MAVPFRKTSKAAKNKRRSHLSLVSSSIIPCQNCGSMIKPHRVCRECGYYKNKEAKKVD;locus_tag=LOCUS_14480;gene=rpmF;note=WP_011183295.1 50S ribosomal protein L32 (Entomoplasmataceae) [pid:78.9%25%2C q_cov:98.3%25%2C s_cov:96.6%25%2C Eval:1.5e-22],MGA_1450
sequence1	MetaGeneAnnotator	CDS	854647	854784	.	-	0	ID=MGA_1451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQIVLNIPMNLTINYGKISFVGKDYILMSEEEYQQEQMNQINQR;locus_tag=LOCUS_14490;note=MGA_1451
sequence1	MetaGeneAnnotator	CDS	854869	855114	.	-	0	ID=MGA_1452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKEIIFKKHIKFDKKIEVPLNYNYNHDLIKKISNLKVRGTFDYRDSIKSLIVKAKIQTDIEAIDARDGNLINLINQEFE;locus_tag=LOCUS_14500;note=MGA_1452
sequence1	MetaGeneAnnotator	CDS	855167	855895	.	-	0	ID=MGA_1453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPLSKLREVYRLSLASSIIETASLNYSRGNRNLKLYEFADIYNLKNLRERHLAVLISGDILKQKSYNLDIKASYQYLKGICDEILNHYNIKDNDIKFETYENVNSDMHPFINAKIVIKNTLIGYIFKLNPRFEQSQKLDSTFILELNITKLQENMNSFIRAEEISKFQKTARDVSFILDNNQKYDEIIKSITNNVSFITNIQLIDIYQDDELKKTNSKSISVSFEFNNVLNQLTTQDVQIE;locus_tag=LOCUS_14510;note=WP_011166772.1 phenylalanine--tRNA ligase subunit beta (Mycoplasma mycoides) [pid:39.3%25%2C q_cov:100.0%25%2C s_cov:30.5%25%2C Eval:1.1e-51%2C partial hit],internal stop codon at [855167:855169](-)%2C[855929:855931](-),MGA_1453
sequence1	MetaGeneAnnotator	CDS	855929	856324	.	-	0	ID=MGA_1454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIFKEIDEKQTLIEVELEYINKLIGIELTTKEIIKLFKTLDFKVTEKNGKLHFEVDQYRRDINHSADIVEEISRIYGYDNIKSVPPVIVSNYKNKNLNLNLQYQIENFLVGLGFNNIKSYSLISNELMER;locus_tag=LOCUS_14520;note=WP_011166772.1 phenylalanine--tRNA ligase subunit beta (Mycoplasma mycoides) [pid:45.6%25%2C q_cov:95.4%25%2C s_cov:15.7%25%2C Eval:7.9e-27%2C partial hit],internal stop codon at [855929:855931](-)%2C[856361:856363](-),MGA_1454
sequence1	MetaGeneAnnotator	CDS	856361	856636	.	-	0	ID=MGA_1455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIRNNKTETHQTNLQLMCENEIISTLGVDFNLDFLPTAKSEEIMIIYLSLDPIFMRKQQKEFNISSIDLQRYMKPISSRLYNLAENRVLY;locus_tag=LOCUS_14530;note=MGA_1455
sequence1	MetaGeneAnnotator	CDS	856754	856972	.	-	0	ID=MGA_1456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKEIANYFNKDISDLTKNYKHKQNELSLPVSIKCEKSIEKYVKTIASQIVLKKKILSIEQIKNEIYSNHDI;locus_tag=LOCUS_14540;note=MGA_1456
sequence1	MetaGeneAnnotator	CDS	857021	857506	.	-	0	ID=MGA_1457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKFIDLVGIENEQITIALNSLGFEVDSFKDYSKLNDKLKIAHVGNVSPIENTHLNFCFIDKGEELVSPIVCGASNVKEGQYIILAEPGKTISTGMKLEKKEIKGKISEGMICSLEEIGINVKVLSDKEKEQIYSIKSKKDLYSLIGSETALEEIGFLDAV;locus_tag=LOCUS_14550;note=WP_011183297.1 phenylalanine--tRNA ligase subunit beta (Mesoplasma florum) [pid:40.0%25%2C q_cov:98.8%25%2C s_cov:20.1%25%2C Eval:1.8e-25%2C partial hit],internal stop codon at [856754:856756](-)%2C[857021:857023](-)%2C[857507:857509](-),MGA_1457
sequence1	MetaGeneAnnotator	CDS	857541	857882	.	-	0	ID=MGA_1458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCKRLFSNDTVIRMRPSFFPFTEPSAEVDVSCMNCNGKGCSICKFTGFIEILGSGMLAPEVLQANGLDSNKVSGLAFGVGIERLAMLKYGLKNIRDLYENDIRFLEQFKFFGN;locus_tag=LOCUS_14560;note=WP_011166773.1 phenylalanine--tRNA ligase subunit alpha (Mycoplasma mycoides) [pid:68.5%25%2C q_cov:98.2%25%2C s_cov:31.7%25%2C Eval:8.8e-42%2C partial hit],internal stop codon at [857895:857897](-),MGA_1458
sequence1	MetaGeneAnnotator	CDS	857895	858587	.	-	0	ID=MGA_1459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKIDQILIEFNKKVDKINSKNDLEEIKKEFTGKNSKLMEVLKSLKSFSPDERKIAGLKANEVKITINEKLNIIYEKLNQDELKSILKAEKIDLTMKGINLKLGSKHPLNLVIEEVSKIFSELGYEIVDGTEFETDEYCFQKLNMPIGHPARDMQDTFYIDENTVLRTHATNMTARMLTNAAISKNINVAALSYGNVYRRDDDDATHSHQFMQMDVFAISEKMSFANLK;locus_tag=LOCUS_14570;note=WP_011166773.1 phenylalanine--tRNA ligase subunit alpha (Mycoplasma mycoides) [pid:54.7%25%2C q_cov:100.0%25%2C s_cov:66.3%25%2C Eval:4.2e-66%2C partial hit],internal stop codon at [857895:857897](-),MGA_1459
sequence1	MetaGeneAnnotator	CDS	858786	859073	.	-	0	ID=MGA_1460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKKALNTEYNKKQEDDIKEKIHELRNIINYYLNKIKNLDFFEYKITILDNLLSSIYNSIKKFINNIIVTYLFFEKIHESIFENEKYFDNDLFYE;locus_tag=LOCUS_14580;note=MGA_1460
sequence1	Barrnap:0.8	rRNA	859282	859366	.	-	.	ID=Barrnap_1;product=5S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;note=aligned only 71 percent of the 5S ribosomal RNA,Barrnap_1;locus_tag=LOCUS_r00010
sequence1	Barrnap:0.8	rRNA	859487	862381	.	-	.	ID=Barrnap_2;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00020;note=Barrnap_2
sequence1	Barrnap:0.8	rRNA	862684	864200	.	-	.	ID=Barrnap_3;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00030;note=Barrnap_3
sequence1	MetaGeneAnnotator	CDS	864507	864689	.	-	0	ID=MGA_1461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKERNLINNNIALPINQSKVNSLANSTKKQKTKTIDVDLNKILDPVNEKKSDFMPTID;locus_tag=LOCUS_14590;note=MGA_1461
sequence1	MetaGeneAnnotator	CDS	864696	865703	.	-	0	ID=MGA_1462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMMKVLSFLFILMGGLFSFFGQSFFLHNETIVFIFGGWQFSMLNILPILSILFCLFLLLTTTFHVINQKFKKLWFITVGIALLNLVNPLVFIIIIFNNSIELSIIFEKLYLNYLLSGLSIVFMIIVISFLLILTKDKIEEKVKDKDRKVNLQTEIVAEQNNNNIQRALNINPNFTSTPNEETFNIADKLEQLKNNLNNNVFQEEHMNSVINEVETQKTKELDLKSLNDEVSEKIEIIDNLSNNQKNDEISKNNFSNVVSPNNIPKENDLPPILVPKDPYKETIVPRRSQYRAEKFQKPIGNVVANQNNVNSQRKVPKYDSNYEGKVFLGDSDKI;locus_tag=LOCUS_14600;note=MGA_1462
sequence1	MetaGeneAnnotator	CDS	865819	866097	.	-	0	ID=MGA_1463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIIRLNSIDEMIKISNESEFGLQASIFCQDISTAINTAKKIKTGTININSKSQRGPDSFPFLGIKNSGEGVQGIRESLLSMTRYRGIVLNY;locus_tag=LOCUS_14610;note=WP_011166693.1 NADP-dependent glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:59.3%25%2C q_cov:98.9%25%2C s_cov:19.3%25%2C Eval:4.3e-28%2C partial hit],internal stop codon at [866119:866121](-)%2C[866164:866166](-),MGA_1463
sequence1	MetaGeneAnnotator	CDS	866164	867012	.	-	0	ID=MGA_1464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKNEIAQIMTEEIAKSLKDSLNEVERTIEIIDYTFEEAKRIDPHSQTGEGMGAKNKIGVFSRVAKGVILAISPFNYPFNLAFAKIIPALVMGNTVVFKPATAGSLVGAFISKLVIKANLPKGIFNIVTGRGREIGDIITANKEIDMISFTGSVNIGNQIRKNGSTTDLVLELGGKDPALVLDDLNLEKYAEEIISGAFSYSGQRCTAIKRVLTTNQIADKLLPILKQKIEKLTVGSPFDNCDITPVIDEKSANYILGLIDNAKQNGAKIITGYKSEKNLI;locus_tag=LOCUS_14620;note=WP_011166693.1 NADP-dependent glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:66.5%25%2C q_cov:99.6%25%2C s_cov:59.7%25%2C Eval:1.1e-101%2C partial hit],internal stop codon at [866119:866121](-)%2C[866164:866166](-)%2C[867070:867072](-)%2C[867181:867183](-),MGA_1464
sequence1	MetaGeneAnnotator	CDS	867254	868006	.	-	0	ID=MGA_1465;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183155.1;translation=MQKITSVANKLIQELILLKEISYQKETKKYLIEGLKMVDLAISKGVVESIFIEKQYIDKYKDFTNSFEITDNISKKISSLKSSQGIFAICKIQDFKEIDSNYLILDGIQDPGNLGTLLRSALAFEFKNIICSNDCVNFYNSKVLRATQSNHFELNLINTDLKKFLEELIQKEVVIIGTILQNESNFNYEKIKKKKIALILGNEGNGISKEVRDLIQLNAKIKINPEVESLNVGVAGSILMNEIYSKNKGV;locus_tag=LOCUS_14630;note=WP_011183155.1 RNA methyltransferase (Mesoplasma florum) [pid:48.0%25%2C q_cov:97.2%25%2C s_cov:99.2%25%2C Eval:2.1e-53],MGA_1465
sequence1	MetaGeneAnnotator	CDS	868011	868208	.	-	0	ID=MGA_1466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQEAKEKRKNGEQLSPLFEIQAKLIEPPRKANYIFSYPVENPKYKGKDYENPENKLYEIAFGFSE;locus_tag=LOCUS_14640;note=MGA_1466
sequence1	MetaGeneAnnotator	CDS	868539	869108	.	-	0	ID=MGA_1467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKRNEIFDYKPSNSKDPRIPSLDINKTEPQELENKEVKVKINKINNEQLNEDLKIDNSKAKNLIQKLKESSNFVKNPLSNSNEIKNQVHEENLETQSKLILPDPNSDLNILNSFSKKREKSVNLINKTQEVMKTLKNEPHIKLTEEEKIKIMKNFKYKIVKVTNREILIKNSKYGFEIHHNNTDKRY;locus_tag=LOCUS_14650;note=MGA_1467
sequence1	MetaGeneAnnotator	CDS	869460	869633	.	-	0	ID=MGA_1468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNKNLIYLKDKQIILDKYIMENKGLVVNSEITKKKIIALLVEISEFVNEYRSFKY;locus_tag=LOCUS_14660;note=MGA_1468
sequence1	MetaGeneAnnotator	CDS	870283	870810	.	-	0	ID=MGA_1469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEVASKLRQEIDVLLVVGIGGSYLGARAADEMIRGLYHKDKVELIYIGNTISSSYTQQIIDYLQNKEFGIVNISKSGTTTEPGIAFRVFEQLLVNQKGKENSRSRIIAVTDKIKGALKQLATAENYETFTIPDDIGGRFSVFTPVGIFPLLVAGVDVDKIFIGAKKAMEDTKNT;locus_tag=LOCUS_14670;note=WP_011166689.1 glucose-6-phosphate isomerase (Mycoplasma mycoides) [pid:68.4%25%2C q_cov:99.4%25%2C s_cov:40.7%25%2C Eval:5.1e-64%2C partial hit],internal stop codon at [870172:870174](-)%2C[870283:870285](-)%2C[870853:870855](-),MGA_1469
sequence1	MetaGeneAnnotator	CDS	870853	870981	.	-	0	ID=MGA_1470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKSNFKNTKIESEIKNFDIKKINLIHEMIENKTGLGNDFLG;locus_tag=LOCUS_14680;note=MGA_1470
sequence1	MetaGeneAnnotator	CDS	871001	871333	.	-	0	ID=MGA_1471;product=S1 domain-containing post-transcriptional regulator GSP13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722395.1;translation=MKMLNKGQKINAKVTAIVNYGAFCEIEHENEIIKGLIHISEISDFFVKSISDFLTVGQEYEIEVIEIIDAKNQIKLSYKKLRPELLKSTDVKIKETGSGFDNLKSSIESK;locus_tag=LOCUS_14690;gene=yugI;note=WP_003722395.1 S1 domain-containing post-transcriptional regulator GSP13 (Listeria monocytogenes) [pid:35.7%25%2C q_cov:98.2%25%2C s_cov:93.2%25%2C Eval:1.7e-13],MGA_1471
sequence1	MetaGeneAnnotator	CDS	871416	871655	.	+	0	ID=MGA_1472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNNLEKEVKQVLEQLRMYVTQDGGDMEFVAIKNRLVYIRLKGNCVGCSMTELTFKEGIETVLLEEFPYELDGVELVM;locus_tag=LOCUS_14700;note=WP_004596187.1 NifU family protein (Rickettsia prowazekii) [pid:37.3%25%2C q_cov:86.1%25%2C s_cov:39.5%25%2C Eval:1.1e-07%2C partial hit],MGA_1472
sequence1	MetaGeneAnnotator	CDS	871688	872227	.	-	0	ID=MGA_1473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGNIGSKVNMKYPSCILKGDRAQGDTISIAVAKKGVYQDAGSKMIHLGKETKSKIVSKSITFQGGTANYRGLAYIGPNAINSKARVECDTLILDNQSHSDTIPQNKVHNNESQIEHEATVSKVSEEQLFYLMSRGLDEAQALEIIVMGFLEPFTKELPLEYAVELNQLIKMDMEGSVG;locus_tag=LOCUS_14710;note=WP_001118827.1 Fe-S cluster assembly protein SufB (Bacillus) [pid:65.4%25%2C q_cov:100.0%25%2C s_cov:38.5%25%2C Eval:3.2e-64%2C partial hit],internal stop codon at [872228:872230](-)%2C[872294:872296](-),MGA_1473
sequence1	MetaGeneAnnotator	CDS	872294	872494	.	-	0	ID=MGA_1474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQAYFRINYQASGQFERTLIIVEDDAELHYIEGCTAPIYSKNNLHAAIVEIFVGKRASMRYTTVQN;locus_tag=LOCUS_14720;note=WP_012259322.1 Fe-S cluster assembly protein SufB (Chloroflexus aurantiacus) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:14.0%25%2C Eval:6.5e-21%2C partial hit],internal stop codon at [872228:872230](-)%2C[872294:872296](-)%2C[872546:872548](-),MGA_1474
sequence1	MetaGeneAnnotator	CDS	872546	872737	.	-	0	ID=MGA_1475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGINVQWDAKPVYERMQDELTKQGVIFTDCDTALKKHPELFKKYFGTLVDNDDNKYASLNAAV;locus_tag=LOCUS_14730;note=WP_002938151.1 Fe-S cluster assembly protein SufB (Streptococcus) [pid:59.7%25%2C q_cov:98.4%25%2C s_cov:13.2%25%2C Eval:1.1e-15%2C partial hit],internal stop codon at [872294:872296](-)%2C[872546:872548](-)%2C[872810:872812](-)%2C[872870:872872](-)%2C[872948:872950](-),MGA_1475
sequence1	MetaGeneAnnotator	CDS	872948	873100	.	-	0	ID=MGA_1476;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKQEEEIKQIADYKYGFNEGELSTYKVDKGLNINVIKQISKHKQEPE;locus_tag=LOCUS_14740;note=MGA_1476
sequence1	MetaGeneAnnotator	CDS	873188	873538	.	-	0	ID=MGA_1477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKADKIQLRQIIMEHYTEPENKGLIKNEKAIIKFQDSPTCSDEINVQLLIENNKIINARFDGNACAISTASTDILSSKLINLTLSEAEEQLVNYYNMIAGNDYNEQILDELIAF;locus_tag=LOCUS_14750;note=WP_002287684.1 SUF system NifU family Fe-S cluster assembly protein (Bacteria) [pid:30.9%25%2C q_cov:83.6%25%2C s_cov:61.5%25%2C Eval:9.3e-12%2C partial hit],MGA_1477
sequence1	MetaGeneAnnotator	CDS	873573	874055	.	-	0	ID=MGA_1478;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPILYGGGNNSSIFKNSYKLAPIPEKFEAGTLNLSAIYAYNKCIDVINELGMKNLIEYEKNLKMYFKSKINEININKFEFYNLENDQPILLFNLIGVNAQDFGSFLNKKYKISVRVGKHCARLTSNLLNVESTIRVSFSIYNTKQDIDTFIEALKDCDD;locus_tag=LOCUS_14760;note=WP_011166685.1 aminotransferase class V-fold PLP-dependent enzyme (Mycoplasma mycoides) [pid:46.3%25%2C q_cov:99.4%25%2C s_cov:39.3%25%2C Eval:1.3e-36%2C partial hit],internal stop codon at [874080:874082](-),MGA_1478
sequence1	MetaGeneAnnotator	CDS	874080	874406	.	-	0	ID=MGA_1479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLAEENKLKINYFKLSENFSIDISKINECVTKKTKIVSFAMNSNTIGIQNDVINIVEEIKKINANTIIILDLAQSIAHNIINLKELNVDAVAFSAHKMYGPFGLGIL;locus_tag=LOCUS_14770;note=WP_011166685.1 aminotransferase class V-fold PLP-dependent enzyme (Mycoplasma mycoides) [pid:50.9%25%2C q_cov:98.1%25%2C s_cov:25.7%25%2C Eval:3.3e-25%2C partial hit],internal stop codon at [874080:874082](-)%2C[874407:874409](-),MGA_1479
sequence1	MetaGeneAnnotator	CDS	874407	874769	.	-	0	ID=MGA_1480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKEKFSYFRNNAEEIYFDSAATSIKFDEVIKAQSDYDLKIAANTHNSLFDNAYKANTLLKELRTKIADFIGIQNYKEIIFTSGATYSLNQLVFGLKEIFKEGDEILLTELEHSSNLLP;locus_tag=LOCUS_14780;note=WP_011183145.1 aminotransferase class V-fold PLP-dependent enzyme (Mesoplasma florum) [pid:43.6%25%2C q_cov:97.5%25%2C s_cov:28.7%25%2C Eval:5.0e-21%2C partial hit],internal stop codon at [874407:874409](-),MGA_1480
sequence1	MetaGeneAnnotator	CDS	874769	875539	.	-	0	ID=MGA_1481;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEIALSPAYLDFRNELPSSYTFSKNETKILLLEKAQGSIEFDINNNTELNLVILFLPSIDNSKKIFNLDFNLNKNSNLNLKIANLNNFNCDDNISINLNGENSLIDYYSSTIINKNFNKNSVIKSIHNSRNSSSNIQAYEVLKDISKGFIRCISDIRQGSSSSEAHQELRLLVLDKEAKADSDPVLLIDENDIVASHANAIGMLDPDQIFYLLSRGLNKIEAQELIINGYFEPVFQLIENEDLLNYLKKTLKEMI;locus_tag=LOCUS_14790;note=WP_010989989.1 Fe-S cluster assembly protein SufD (Listeria) [pid:35.8%25%2C q_cov:63.3%25%2C s_cov:37.2%25%2C Eval:5.2e-26%2C partial hit],MGA_1481
sequence1	MetaGeneAnnotator	CDS	875560	876282	.	-	0	ID=MGA_1482;product=Fe-S cluster assembly ATPase SufC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001831944.1;translation=MNKLEIIDLYVKIEEKEILKGINLIINSGEIHALMGPNGNGKSTLLMAIMGHPKYEITSGDIKINGESILELSVDERSKLGIFLAMQNPQIIPGVTNLEFLKYIVNAHNKESKKLQEIFKEVKQQANNLDFDLNMLKRFVNDGFSGGEKKKNEILQLKLLNPIFSLIDEIDSGLDVDALEVVSKNLNEIDLSKNAMIIVSHYDRFFKKVTPTHAHVIINGKIIKSGGNEIVEKINTEGYS;locus_tag=LOCUS_14800;gene=sufC;note=WP_001831944.1 Fe-S cluster assembly ATPase SufC (Staphylococcus) [pid:53.8%25%2C q_cov:98.3%25%2C s_cov:94.1%25%2C Eval:3.3e-72],MGA_1482
sequence1	MetaGeneAnnotator	CDS	876490	876666	.	+	0	ID=MGA_1483;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTLLGSISIIATTGQMVVACATDYDQKDQDGNSILIQFLKKLDGVAEIKTSDIL;locus_tag=LOCUS_14810;note=MGA_1483
sequence1	MetaGeneAnnotator	CDS	876724	876855	.	+	0	ID=MGA_1484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQMINLSILSNAKNNYVDGNGKYVLDDSYPYNNYDLANTLVSR;locus_tag=LOCUS_14820;note=MGA_1484
sequence1	MetaGeneAnnotator	CDS	876952	877119	.	+	0	ID=MGA_1485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLNKYTIYQEDTDDMDRNFLEAKYKADILLTDSSNNASKTLLDVLINTDQQGVT;locus_tag=LOCUS_14830;note=MGA_1485
sequence1	MetaGeneAnnotator	CDS	877660	878361	.	+	0	ID=MGA_1486;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGGTLKHPKATVKQYEKLLTLNNSTDFTQDLRTVVYDYVLGEAADKNINENVQKIEITGDAKEFINKLIPEINRTKNEEKKFYGALKVGTLIYIDSTGIHIVNIDGYGFLKESESANKELTGQKGIEDDKVNSETLKELSTFKKYSKLTDEQKVYKMQTTVNKDVKTTSDSQDEDTESNLQKADSGIGANTYFSEMNSKVTNPYLHYLVNTSLVKGLKGASTSFDILSEVKS;locus_tag=LOCUS_14840;note=MGA_1486
sequence1	MetaGeneAnnotator	CDS	878407	878556	.	+	0	ID=MGA_1487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTCVFDYFKEISKPKSGNEEIDQNEFIKQFIEFNTDSETNGELATSTQS;locus_tag=LOCUS_14850;note=MGA_1487
sequence1	MetaGeneAnnotator	CDS	878886	879470	.	+	0	ID=MGA_1488;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGIASLSVSASSLVVACSNGERVTNPKLNLNIVKDILVKLSGDSSLANIDFGSLFDSSQITSVVVNMINELISLQYSFDSTNSKFKTLNFEEYALDNNGKIEETFKNQYDIKSRTIAEDNLFTEYTQSITKNNRLDYKNVQDGYALNPIQDKTVVKNSENISITIAKSSKIYISSEEPTSSNKDEKI;locus_tag=LOCUS_14860;note=MGA_1488
sequence1	MetaGeneAnnotator	CDS	879588	879818	.	+	0	ID=MGA_1489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLISSKTALYLRFQDYFESKLLEDINANLLTNSFLDSNMFNIKKNTNAEAAPYINPSSALFSKTQTLKEISGNEK;locus_tag=LOCUS_14870;note=MGA_1489
sequence1	MetaGeneAnnotator	CDS	880251	880385	.	+	0	ID=MGA_1490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIELLGASNDSSSNYYSINGKKDEEKSIIKFSNTISNETVYKDR;locus_tag=LOCUS_14880;note=MGA_1490
sequence1	MetaGeneAnnotator	CDS	880461	880625	.	+	0	ID=MGA_1491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNQIKYLVSNDSSTSELSKTVLYSMYLDEDQVYYAGLYDQIGKYIKNNDDEDD;locus_tag=LOCUS_14890;note=MGA_1491
sequence1	MetaGeneAnnotator	CDS	880681	881088	.	+	0	ID=MGA_1492;product=HIT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166682.1;translation=MNECIFCKIIAREMEAKILFENEHTIAFLDLYPNSDGHSLVIPKKHFENFQETDDFYLSEVVKTKRIVTDLLNEKLNPVGFNFVSNQGVEAFQTVFHYHEHIIPKYHREKGLTFKVNKEVDDLDDLHNIHKKLKN;locus_tag=LOCUS_14900;note=WP_011166682.1 HIT family protein (Mycoplasma mycoides) [pid:51.9%25%2C q_cov:97.0%25%2C s_cov:97.7%25%2C Eval:5.5e-36],MGA_1492
sequence1	MetaGeneAnnotator	CDS	881205	881492	.	-	0	ID=MGA_1493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGRNASEYTNEGKLLGHISIGNNFVYKKAIDLKIDHDQEVMKLQHVILASHGKNEYGSPVEPMLLEAVIISSLDALDARIYKINDELSKVENEG;locus_tag=LOCUS_14910;note=WP_011166681.1 HD domain-containing protein (Mycoplasma mycoides) [pid:61.7%25%2C q_cov:92.6%25%2C s_cov:28.8%25%2C Eval:1.5e-25%2C partial hit],internal stop codon at [881205:881207](-)%2C[881544:881546](-)%2C[881613:881615](-),MGA_1493
sequence1	MetaGeneAnnotator	CDS	881613	881858	.	-	0	ID=MGA_1494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYSIIKQDDFKKYNIKEDMFSINAPINIELYFGKIIEFIILFKNEVYRKITKSILEEYETEFKTFPAAISIHHNVVGGLF;locus_tag=LOCUS_14920;note=WP_011183141.1 HD domain-containing protein (Mesoplasma florum) [pid:43.0%25%2C q_cov:97.5%25%2C s_cov:24.2%25%2C Eval:2.3e-15%2C partial hit],internal stop codon at [881544:881546](-)%2C[881613:881615](-)%2C[881958:881960](-),MGA_1494
sequence1	MetaGeneAnnotator	CDS	881958	882104	.	-	0	ID=MGA_1495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINEINLESKNIELIARIEKVFLSTGNNGSNYLIINLIDSSGRIEARL;locus_tag=LOCUS_14930;note=WP_011166681.1 HD domain-containing protein (Mycoplasma mycoides) [pid:56.5%25%2C q_cov:95.8%25%2C s_cov:14.1%25%2C Eval:1.3e-08%2C partial hit],internal stop codon at [881958:881960](-),MGA_1495
sequence1	MetaGeneAnnotator	CDS	882246	882584	.	-	0	ID=MGA_1496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVQKNVEIFENSSILDIAKNIENYVKNENNIAKISLFDLTNTNINNAKLNLYEQNIITIYFSKITHSFKEDGILSSYLNLCFAFNEDIIAFEEMIKFTSYFVNLLRNPGFLI;locus_tag=LOCUS_14940;note=MGA_1496
sequence1	MetaGeneAnnotator	CDS	882696	883361	.	-	0	ID=MGA_1497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAKETKINDEIENQQILPAFNDEIVKSENIIESSQSVESEDNLTANEFKIKFETNETQINDFDESNLENAKILKIQEIESLVDEKILLVQNELSILNKNNIKFNDLAEKFNLLKKELEFANSKISKIKLLETDLNELKKNTLLIGETNSKIELLENQFNQIKFENQDLKNEIKKISNTSNSKVLMNSSNNQVSYVDFSIDITALINLHTLMIEPSKKNDI;locus_tag=LOCUS_14950;note=MGA_1497
sequence1	MetaGeneAnnotator	CDS	883425	884072	.	-	0	ID=MGA_1498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGQNFLGRAIIVEKIKFRNLKKYKGIVEKVYVKDGQPVKKDELLAVITTQLERSNITSPIDGVIRNVYIIESLIVSHGDTVFDVFTDFEINTLLKKPSSINDTLREGLNEFGYLEKLINKESFEDLSKNNKNYISVDSVTQEMEKFTKVETTSNNNDNNFTTETVDDFDIYFDSETAILNAFDNQELINKNIEIEREVILNPVSISDSITEELA;locus_tag=LOCUS_14960;note=MGA_1498
sequence1	MetaGeneAnnotator	CDS	884336	884566	.	-	0	ID=MGA_1499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METYKKIYLLLDEQGTYINNFSEDNEIGKEVINKIKYIESKIFALEGIESLIEYMLIIYIYFLNKQFFGEFTMEFL;locus_tag=LOCUS_14970;note=MGA_1499
sequence1	MetaGeneAnnotator	CDS	884639	884824	.	-	0	ID=MGA_1500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLCKKEILDELGVKLLQYLIFYKGIKISEEELHDFVFEEEFLDKNAIEFFEPKLINYGKF;locus_tag=LOCUS_14980;note=MGA_1500
sequence1	MetaGeneAnnotator	CDS	884862	885293	.	-	0	ID=MGA_1501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPGLENAIFRRFGVMHKNNFINSPKILNKKLQMMRKKNIFFAGQITGVEGYIESFATGLVSAYGIISYLNQKKFINFPEESIIGSLVNYITNPNIKKLKPMKANMGLVEIDKKLIFNNKFEKNEFIYKEAIKKIKYFINSNK;locus_tag=LOCUS_14990;note=WP_011166678.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mycoplasma mycoides) [pid:50.7%25%2C q_cov:98.6%25%2C s_cov:32.9%25%2C Eval:3.9e-35%2C partial hit],internal stop codon at [885318:885320](-),MGA_1501
sequence1	MetaGeneAnnotator	CDS	885318	885857	.	-	0	ID=MGA_1502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKIRNNSNIEVIEDEFLDLNNENVTLIATGPLCSEEFKFKIEQLLGKQKLFYLDASAPIIEKESIDFSKVYYQSRHKNDKSYICIPLNEEQFNNFHKELINAQKVEVKDFEKEIFFRGCQPIEQLARVSKKILLKSVMSPNGLTNSKGEIPFAVVQLRRDDALDNLYNIVGFQTNLT;locus_tag=LOCUS_15000;note=WP_011183139.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mesoplasma florum) [pid:58.4%25%2C q_cov:98.3%25%2C s_cov:40.3%25%2C Eval:4.2e-56%2C partial hit],internal stop codon at [885318:885320](-)%2C[886113:886115](-),MGA_1502
sequence1	MetaGeneAnnotator	CDS	886213	886824	.	-	0	ID=MGA_1503;product=copper homeostasis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166677.1;translation=MLLEIIAKNIEDSIIINKTKANRIEFCKNLEVGGLTPNREDIVEVCNNSVLPVNVIVRSTARDFFYINDEKCEMLKEIEFIRTTKANGIVIGALNKDFTIDQDFLKKVIEIKGNLSITFHKAFDLVQDFEVEYKKIAKLKIDNVLTSGGQNLKHGFAVIEKLVNLKLSTIILVGGGINKENFKKAMFLTKNVHIGTAARVDNT;locus_tag=LOCUS_15010;note=WP_011166677.1 copper homeostasis protein (Mycoplasma mycoides) [pid:46.4%25%2C q_cov:100.0%25%2C s_cov:89.9%25%2C Eval:3.2e-48],MGA_1503
sequence1	MetaGeneAnnotator	CDS	886868	887479	.	-	0	ID=MGA_1504;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSQVTIDYTNSKNPRIETILMSVQHDKDYNKEEFENFIKKNIMDVIAKRYNLNTDFNVLINPTGRFVIGGPKSDTGLTGRKIIVDTYGGYSRHGGGAFSGKDASKVDRSAAYMCRYAAKNIVAARLADQLEIQVSYAIGKADPISIFIESFGTNKVSNDVLYKALIENFNFNLSSIIKELDLNSPVYFRTSKYGHFGKKEFN;locus_tag=LOCUS_15020;note=WP_011166676.1 methionine adenosyltransferase (Mycoplasma mycoides) [pid:73.6%25%2C q_cov:99.0%25%2C s_cov:51.9%25%2C Eval:2.9e-86%2C partial hit],internal stop codon at [886868:886870](-)%2C[887492:887494](-)%2C[887750:887752](-),MGA_1504
sequence1	MetaGeneAnnotator	CDS	887492	887683	.	-	0	ID=MGA_1505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIHEQSPDIAIGVEKEDMGAGDQGIMFGYANNETSNYMPYSIQVAHDLVHIASKLRKAGAFK;locus_tag=LOCUS_15030;note=WP_011183137.1 methionine adenosyltransferase (Mesoplasma florum) [pid:53.8%25%2C q_cov:100.0%25%2C s_cov:17.2%25%2C Eval:7.0e-15%2C partial hit],internal stop codon at [887492:887494](-)%2C[887750:887752](-),MGA_1505
sequence1	MetaGeneAnnotator	CDS	887750	887959	.	-	0	ID=MGA_1506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFTSESVSEGHPDKLCDQISDAILDECLKQDKNSKVACETFITDNFVLIGGEIKTTAIVDYKEIAK;locus_tag=LOCUS_15040;note=WP_011183137.1 methionine adenosyltransferase (Mesoplasma florum) [pid:76.8%25%2C q_cov:100.0%25%2C s_cov:18.3%25%2C Eval:2.5e-25%2C partial hit],internal stop codon at [887492:887494](-)%2C[887750:887752](-),MGA_1506
sequence1	MetaGeneAnnotator	CDS	888145	888309	.	-	0	ID=MGA_1507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNNDFYCSRKKIVKLINKLDKSKYNLDTFKDKKHFMLNSVKTSEIFEKIIKSV;locus_tag=LOCUS_15050;note=MGA_1507
sequence1	MetaGeneAnnotator	CDS	889207	889521	.	-	0	ID=MGA_1508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKHEKLRNLHDTLFALDKEVKNICSGIEYKLKTSSKYQDTLERILSEVEFERKNEIYGRSSVYDFERMRINLEQDTGNLIYEAINIMGSEEFLIRKQNVIFAF;locus_tag=LOCUS_15060;note=MGA_1508
sequence1	MetaGeneAnnotator	CDS	889593	889781	.	-	0	ID=MGA_1509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMTGPLDSIIGANPQEVIFKEKTGLPIKFSPSENNGILCGIILEIDDSTNNAKMIKRIQLT;locus_tag=LOCUS_15070;note=WP_020862745.1 TIGR00282 family metallophosphoesterase (Mycoplasma mycoides) [pid:49.2%25%2C q_cov:98.4%25%2C s_cov:23.7%25%2C Eval:1.2e-09%2C partial hit],internal stop codon at [889881:889883](-),MGA_1509
sequence1	MetaGeneAnnotator	CDS	889881	890360	.	-	0	ID=MGA_1510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILLVGDVYSKSGRLILEKHLNKLVKQENIDFIVVNGENISHGKGINKNHYDFLKKLKVNVITTGNHVFKNRETFEFINETHDLLRPANMNSYLPGLGTNEFFIKNKTIRITNIMGKSFMEHVNNPYEIMDQILLQNKAEIHIVDFHGEASAEKIAFA;locus_tag=LOCUS_15080;note=WP_020862745.1 TIGR00282 family metallophosphoesterase (Mycoplasma mycoides) [pid:55.0%25%2C q_cov:100.0%25%2C s_cov:62.3%25%2C Eval:8.6e-46%2C partial hit],internal stop codon at [889881:889883](-),MGA_1510
sequence1	MetaGeneAnnotator	CDS	890360	890689	.	-	0	ID=MGA_1511;product=putative DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041362228.1;translation=MTMNNNDIVKSVLIGQLYDFYKSLLTDKQQKYFELYFFEDLTLQEIAQEFNISRNAVYDSISKTSNLLIDFEQKLTLKNKSDKLREIIENYKNNKLSKEEFILELEGDT;locus_tag=LOCUS_15090;note=WP_041362228.1 putative DNA-binding protein (Mycoplasma mycoides group) [pid:50.9%25%2C q_cov:97.2%25%2C s_cov:93.8%25%2C Eval:3.6e-24],MGA_1511
sequence1	MetaGeneAnnotator	CDS	890718	891053	.	-	0	ID=MGA_1512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIDTAGRLQNKENLMKELEKMTKIIQKSVSDGPHERLLVIDAQTGQNGISQAKAFSETTQVSGIILTKMDGTSKGGIALAIKDILNIPVKLMGTGEKVDDLVKFDVDEYV;locus_tag=LOCUS_15100;note=WP_011183134.1 signal recognition particle-docking protein FtsY (Mesoplasma florum) [pid:72.1%25%2C q_cov:100.0%25%2C s_cov:30.2%25%2C Eval:1.4e-39%2C partial hit],internal stop codon at [890718:890720](-)%2C[891168:891170](-),MGA_1512
sequence1	MetaGeneAnnotator	CDS	891168	891509	.	-	0	ID=MGA_1513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENVLIKTDMGMKMVLEISNRVQKHIKPKNNFNEIKEILAEQIYEAYLDSGKFNSKLNFKENKINIFLIVGVNGVGKTTSIAKLANFYSKMGKKVLIAAADTFRAGAVEQLQE;locus_tag=LOCUS_15110;note=WP_011183134.1 signal recognition particle-docking protein FtsY (Mesoplasma florum) [pid:59.3%25%2C q_cov:100.0%25%2C s_cov:30.8%25%2C Eval:7.2e-36%2C partial hit],internal stop codon at [891168:891170](-),MGA_1513
sequence1	MetaGeneAnnotator	CDS	891744	892292	.	+	0	ID=MGA_1514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKMLPVLLSIGLTVTPVVTTSFKNESKDQNKYLDFLKSYNEYMYFFYDKNENKEEYIKNNLKAILTENFDSNEITKKIINEFDYEIIEFNEDIVKIIFKDKKDNFILNEELELEFTLILFNYNNIDDFSSAFQIYLNSNPILLEKNNYLQIEIEDILKIKFKKLFDIYANSTLYLNGVKEF;locus_tag=LOCUS_15120;note=MGA_1514
sequence1	MetaGeneAnnotator	CDS	892661	893131	.	-	0	ID=MGA_1515;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAGDLRLAVGGVLISREIERIADVAKHICTFTIKYRPEPIEVEYISKMFDLVNSMLNITSTLIENYDNDQHIKVLKMEKQLSTEFQELSNTLAEKTFEAKTKDDSKKIITIVRQLKNLERAGEHLINVEETLQFIRTGKFEELQETIVNILEIKK;locus_tag=LOCUS_15130;note=WP_011166672.1 phosphate signaling complex protein PhoU (Mycoplasma mycoides) [pid:43.9%25%2C q_cov:94.9%25%2C s_cov:66.1%25%2C Eval:6.3e-30%2C partial hit],internal stop codon at [893150:893152](-),MGA_1515
sequence1	MetaGeneAnnotator	CDS	893150	893350	.	-	0	ID=MGA_1516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYNKILDSDIKTIKKELIRLVESTKSQYANTFEALKSQNLDLAKEVVDGDIMINDMQNSFTKMAL;locus_tag=LOCUS_15140;note=WP_011166672.1 phosphate signaling complex protein PhoU (Mycoplasma mycoides) [pid:46.3%25%2C q_cov:100.0%25%2C s_cov:29.9%25%2C Eval:1.1e-09%2C partial hit],internal stop codon at [893150:893152](-),MGA_1516
sequence1	MetaGeneAnnotator	CDS	893363	893629	.	-	0	ID=MGA_1517;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRPKILLMDEPTSALDPIATLKVEELILKLKNEYTIVIVTHSMAQATRVSDYTAFFLQGELIEYDRTKKIFTNPKNQKTEDYISGRFG;locus_tag=LOCUS_15150;note=WP_164704003.1 phosphate ABC transporter ATP-binding protein PstB (Mesoplasma entomophilum) [pid:78.4%25%2C q_cov:100.0%25%2C s_cov:33.0%25%2C Eval:1.0e-34%2C partial hit],internal stop codon at [893717:893719](-),MGA_1517
sequence1	MetaGeneAnnotator	CDS	893717	894235	.	-	0	ID=MGA_1518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDKKILDKNIANNTEDLELISEEKIFSKHKKVPLKARENVIEVKDFNFYYNGGAKQALFDINMAIKENTVTALIGPSGCGKSTLIRSINRMNDLVDNIAIEGEINVHGKNIYETGTDVVKLRTEVGMVFQKANPFPISIYDNVAFGPRNQGISDKQALNQIVEDSLRKAAL;locus_tag=LOCUS_15160;note=WP_164704003.1 phosphate ABC transporter ATP-binding protein PstB (Mesoplasma entomophilum) [pid:66.2%25%2C q_cov:83.7%25%2C s_cov:53.9%25%2C Eval:1.3e-48%2C partial hit],internal stop codon at [893717:893719](-),MGA_1518
sequence1	MetaGeneAnnotator	CDS	894472	895155	.	-	0	ID=MGA_1519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTTFLLILSTTIFAIPLALFVAIYLAEYAHKESKFAKVIRFTINVLASTPSIVFGVFGLSLFVVAMGIPMSIFAASLTMTIVVLPSMITAFEDSITSVPILYKEAAYGMGMTKTGVLLKVVIPNATKGLVTGIILAIARIIGESAPVYLTLGTAVRMPGEGFFSSGATLTTEIYMMASEGSDPETLGVAYQIALVTVLLVLGLNALSKYIGIKLTPGYKKISFKQL;locus_tag=LOCUS_15170;note=WP_011166670.1 phosphate ABC transporter permease PstA (Mycoplasma mycoides) [pid:53.8%25%2C q_cov:99.1%25%2C s_cov:32.3%25%2C Eval:3.9e-64%2C partial hit],internal stop codon at [894472:894474](-)%2C[895249:895251](-),frameshifted%2C insertion/deletion at around 894423,MGA_1519
sequence1	MetaGeneAnnotator	CDS	895249	896103	.	-	0	ID=MGA_1520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFISLLFAIPLTIFSSLFITEYLKNNTKKFVITVIQLLAGIPSVVFGLFALDQIGPLFVLMGAPSSGNMMTASLTLSFMALPTMIALSINAIEAVPESHRYASLGLGMTKERTTFSVVLVSAVPKIITAIITGVARIIGETMAVILIAGNSTQGLNTDDGFLGFIFSSIRTLAGTIGLEMLENHGTIHESALYAIGLVLFFIVIIINLIILAIGNINKNKTKNFKKHKPKKTSFKNKHYTYELSKLNILVETYTEKRFAKKMHSAILKFFMISSTAIIIGFTS;locus_tag=LOCUS_15180;note=WP_011183131.1 phosphate ABC transporter permease PstA (Mesoplasma florum) [pid:53.1%25%2C q_cov:99.6%25%2C s_cov:40.3%25%2C Eval:3.2e-75%2C partial hit],internal stop codon at [895249:895251](-)%2C[896167:896169](-),MGA_1520
sequence1	MetaGeneAnnotator	CDS	896167	896364	.	-	0	ID=MGA_1521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREKNLIKKMPKAKTSKLDITTKSSIIFITSIVLLILAILVGFILYKSVPVFSNFSFFKFIFSEN;locus_tag=LOCUS_15190;note=MGA_1521
sequence1	MetaGeneAnnotator	CDS	896374	896508	.	-	0	ID=MGA_1522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFFEFILTDSSNDSQKESAEKVFKDEGLVKNFEFNPLPVDKKI;locus_tag=LOCUS_15200;note=MGA_1522
sequence1	MetaGeneAnnotator	CDS	896626	896832	.	-	0	ID=MGA_1523;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKSNVVNSNGSMIENIAIAPSIGYVSNAFLSQLSNESTVKLSGFNGKKLAYGENGKPQKFENGKWDE;locus_tag=LOCUS_15210;note=MGA_1523
sequence1	MetaGeneAnnotator	CDS	897103	897441	.	-	0	ID=MGA_1524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKMTKIYFDNGKTDFVYNSTGSQAGVGGVEKTMYSAGFVSKKIKPETLSTGHKFKKLDCETQSCEVKNKDEFDVIKTNIINNANKEEKNNSYIGLEFAIDAIGVIFNSPTY;locus_tag=LOCUS_15220;note=MGA_1524
sequence1	MetaGeneAnnotator	CDS	897592	898419	.	-	0	ID=MGA_1525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSSLKDKYSGLNSDVTLLLEKQSNSTSRLAQNYDLTFEAALEVNNIVVINEEDEIRNRIKELRTQINYLGNVNLDSIAEFEEENTRYQTYVEQTQDVIDSINNLKDAISEMDEQMIIQFKKIIKDVNSALPETFITLFGGGSASIIYTNENDILNTGIDLKISPPGKKITNLNLLSGGEKSMVALSVLFSILKVKPIPLVILDEVEAPLDIANVERFAKYLKTFTNVTQFLIVTHRMGTMENCDTLFGATMEQKGVTKLVQIKLIEAKQLSNAK;locus_tag=LOCUS_15230;note=WP_011166660.1 chromosome segregation protein SMC (Mycoplasma mycoides) [pid:53.7%25%2C q_cov:98.2%25%2C s_cov:27.2%25%2C Eval:9.4e-77%2C partial hit],internal stop codon at [898486:898488](-),MGA_1525
sequence1	MetaGeneAnnotator	CDS	898693	900363	.	-	0	ID=MGA_1526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDIVFAGSSDRKGLNIAEVTLVFDNTNRAFSTLDYNEVSITRKFFKLTKESEYYINKSKVRLKDIQEIALETGLTKSSLAIISQGSISHFVESKPEERRKIFDEAAGVAMYKKRKEEAVRKLIRTQENLDRLNDIINEIERKLPNLKKQSKKAISYQEMFNELKNIEVAVLVNDIKLYKKRILELSEQKSELKTEISSLEKSINKTSEEFTSISKSNLSHDKEFSKLNREFTKIVEKISELKVSRITLEAKKTKIDIDNKEFKIAELKNKSKELEINLEAEEKKLSKLLLDKIKKRDLLDNSSKQRFELNQSLDILKKQIAKTENNLDNLISRKNSFDNLFEGVKNVLENKKILPGIIGTVQEVINTNKEYEIAMSVILQNGLQNIITKTAVDVKIAIEFLKKNKAGYATFLPLDNLKPNYISNETRFIIQKSNGFIGFANELIKSEKKYQIVLDYLVANYIVVDSYDNALEISKITNAKFNVVTLDGQRILPHGAIVGGNRKHKNILINDSEQIIELEKQKEELDLKELNFSKQVSSLSDTIEILREELAEIQS;locus_tag=LOCUS_15240;note=WP_011166660.1 chromosome segregation protein SMC (Mycoplasma mycoides) [pid:41.0%25%2C q_cov:99.6%25%2C s_cov:57.0%25%2C Eval:1.5e-118%2C partial hit],internal stop codon at [898486:898488](-)%2C[898693:898695](-)%2C[900406:900408](-),MGA_1526
sequence1	MetaGeneAnnotator	CDS	900406	900570	.	-	0	ID=MGA_1527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKQEENKMIFLKKIEVFGFKSFAEPINLDFQYSMTGIVGPNGSGKSNINDAIM;locus_tag=LOCUS_15250;note=WP_011166660.1 chromosome segregation protein SMC (Mycoplasma mycoides) [pid:68.9%25%2C q_cov:83.3%25%2C s_cov:4.6%25%2C Eval:1.6e-11%2C partial hit],internal stop codon at [900406:900408](-),MGA_1527
sequence1	MetaGeneAnnotator	CDS	900665	900919	.	-	0	ID=MGA_1528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFYLDDSHDYKSELQELIQIEMRTELSYKTISQEKEENNQNLFTVNVILDEMVFGTGQGTNKKQAEQAAAKSALSKIKKTFKN;locus_tag=LOCUS_15260;note=WP_011183128.1 ribonuclease III (Mesoplasma florum) [pid:45.8%25%2C q_cov:97.6%25%2C s_cov:35.9%25%2C Eval:6.6e-13%2C partial hit],internal stop codon at [900950:900952](-),MGA_1528
sequence1	MetaGeneAnnotator	CDS	900950	901360	.	-	0	ID=MGA_1529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIRDFFLKFSITINDLSYFNEAFTHNSYSNENRLSKNYQRLEFLGDAILQMKVSEFLYRKYPQSNEGVLTKYRSSIVRKETLASLSRKFGLTNFIRLGVGERESKGYEKDSILSDIFESITAAIYLDQGDEILKI;locus_tag=LOCUS_15270;note=WP_011183128.1 ribonuclease III (Mesoplasma florum) [pid:57.5%25%2C q_cov:98.5%25%2C s_cov:58.0%25%2C Eval:2.6e-38%2C partial hit],internal stop codon at [900950:900952](-),MGA_1529
sequence1	MetaGeneAnnotator	CDS	901360	902364	.	-	0	ID=MGA_1530;product=phosphate acyltransferase PlsX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183127.1;translation=MNFKKIAFDVMGSDNGLIPAVDAAIKLLGEQKDLKIIFVGNEEKLKSVLATKKYNPEQIEFFNTTEVINMTDGILEIRRKKDSSMVRAIELLESDKVDAITTAGATAPFIAGCHFILKEIPGIKRPGFMPVIPTVVSGKVTLLLDVGANLECDPEDLQNFAIMASAYSKLINNVDNPKVALLNIGEEKSKGFEMHQNAYKLMDENKNINFIGNIEPRYIASGDVDIVVTDGYTGNIALKAAEGMGKILLKEIKTALTKNIFRKLAALRLRKAFKEVSAKFDYKNHAGAILLGVNKIAFKSHGSSDKVAFYATLKMTYNAIKNDVVNKIKEALEK;locus_tag=LOCUS_15280;gene=plsX;EC_number=2.3.1.274;note=WP_011183127.1 phosphate acyltransferase PlsX (Mesoplasma florum) [pid:57.9%25%2C q_cov:98.2%25%2C s_cov:99.1%25%2C Eval:3.9e-102],MGA_1530
sequence1	MetaGeneAnnotator	CDS	902948	903202	.	-	0	ID=MGA_1531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENINAPKDINFFMEPGVISLPILKSVIDELISKLTNSMLMYILIDIVLLTILLVVIMNIIISDSINIITIMRSLGYSNRQIN;locus_tag=LOCUS_15290;note=MGA_1531
sequence1	MetaGeneAnnotator	CDS	903290	904696	.	-	0	ID=MGA_1532;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQHAFVSTGKGKFALIMGLFAFSSFLFTLQLRTMPIIENMIDGAYNIYSPETNHLYNFKSATNMDIKKDGLSKNITKPDYHLDFVNVNEEGFNSIKDYVDQNSLNKNDDYYYTSLASNLINAAAELKTEINKNSSNSQQINSLSSIVLNFAMLLLPLEEGQQKLAGLKDDLINSNFENILKFLEELKNSPISETSLILIKPETLKGLYLNDIAQYLCVSTPSETVIDCTNIEEYKESLLSSFNTNKMSKKDTPLVDLNISDTLKTLVQTFFMTKENINPFISINSVLFEGQKEALMQVLPFYILGNSEVDIDESILKLFDTTSKYGGDLKKIINFSGVNDENFKELTEVNDDYINGIISFRLSRLINKNIGDTFEINIGNKGLKQKIKIVAINLNDTMLQNVYVDYKVTIDKIGKNLSDKDSKYYFNEINSTKLASEGKIDFADIGGSINSFKNLKDTFSFASSVKEP;locus_tag=LOCUS_15300;note=MGA_1532
sequence1	MetaGeneAnnotator	CDS	904704	904886	.	+	0	ID=MGA_1533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPKFLFFKIFKISQLKKKYINAGQNIIFKIKISQSKLDFFGPELNNARAPSDKYLNIDK;locus_tag=LOCUS_15310;note=MGA_1533
sequence1	MetaGeneAnnotator	CDS	904805	905056	.	-	0	ID=MGA_1534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIAIAIGYLLSMPFQIDSATKQFNTYVIFDYQIIYSNVLFLFILIIGVPLIFSLFSYLSIFKYLSEGALALLSSGPKKSNFD;locus_tag=LOCUS_15320;note=MGA_1534
sequence1	MetaGeneAnnotator	CDS	905435	906070	.	-	0	ID=MGA_1535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSSLFNSYKIYHDSKELILSINEDGEENKLKINEIFTPTAIEILNSNNRSLNSYIIDQIISQLSSFEGNSNFNYSNFNNVSKNFRDSATNKQYLYFISSVGSLIQNSQNLNNLVLQEGRLPTENNEIILNDAFMKKQNLSIGDNIKISENYEFKIVGIGIKYSTLSPIGFSSFSDSIDNYAQIFTTDDFFKSNENYSFKNIFLNEEKNPS;locus_tag=LOCUS_15330;note=MGA_1535
sequence1	MetaGeneAnnotator	CDS	906825	907064	.	-	0	ID=MGA_1536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMSVDRKVVISAKILQEIFSRALSKLISSKTEILTIFTGTDASFKDVSDLRKHLDENHDIEYEVIDGGQEVYAFIIGIE;locus_tag=LOCUS_15340;note=WP_011183126.1 DAK2 domain-containing protein (Mesoplasma florum) [pid:57.0%25%2C q_cov:100.0%25%2C s_cov:14.4%25%2C Eval:7.9e-19%2C partial hit],internal stop codon at [907065:907067](-),MGA_1536
sequence1	MetaGeneAnnotator	CDS	907065	907889	.	-	0	ID=MGA_1537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQYFIKNSKPITRLKKLEENTGGNIQLAIEDEFGYCTEAIVMLNEELIDKLKIDTVRSTFEQYGNTSIVAVMDGDILKVHTHALIPGQVLTYLQQFGEFKTIKVENMNIQAEKHVLDENDVSEAQKAAQKQRTLLNDVATISVVRSKGMVDYFKNELSIDFVIDGGPKMNPSTNDFLKAIEKVNAKTVYIFPNDSNVLLAAKQAKDLEKMSKVVVIETKTIPQGITAYLNLDSDESIKKNETNISKALKNVISVAINKAARDATIDGVKIKENE;locus_tag=LOCUS_15350;note=WP_011183126.1 DAK2 domain-containing protein (Mesoplasma florum) [pid:56.9%25%2C q_cov:100.0%25%2C s_cov:50.2%25%2C Eval:1.4e-80%2C partial hit],internal stop codon at [907065:907067](-)%2C[908010:908012](-),MGA_1537
sequence1	MetaGeneAnnotator	CDS	908151	908468	.	-	0	ID=MGA_1538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDAKILKGMITSGVNCIYNNYPHIDKLNVFPVPDGDTGTNMNLTCSNGFGEIEKTEFDKIGDLMSKFSRGLIMGARGNSGVIFSQIIKGFSNAMKEKENLNLET;locus_tag=LOCUS_15360;note=WP_011166665.1 DAK2 domain-containing protein (Mycoplasma mycoides) [pid:67.0%25%2C q_cov:98.1%25%2C s_cov:18.8%25%2C Eval:1.0e-34%2C partial hit],internal stop codon at [908010:908012](-)%2C[908151:908153](-),MGA_1538
sequence1	MetaGeneAnnotator	CDS	908584	908895	.	-	0	ID=MGA_1539;product=Asp23/Gls24 family envelope stress response protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183125.1;translation=MIEQKLLDVIKNSVVTVPGVISFANFTAKTKEELKTEDISKAVEVVDLDTTFKVKIHIILINGVNIRDVVNEVQTRVKYELEKESNFMQNCIVDIAVDDLIVI;locus_tag=LOCUS_15370;note=WP_011183125.1 Asp23/Gls24 family envelope stress response protein (Mesoplasma) [pid:50.0%25%2C q_cov:83.5%25%2C s_cov:83.5%25%2C Eval:6.6e-21],MGA_1539
sequence1	Aragorn:1.2.38	tRNA	909442	909524	.	+	.	ID=Aragorn_27;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00260;note=Aragorn_27
sequence1	MetaGeneAnnotator	CDS	909564	910178	.	-	0	ID=MGA_1540;product=thiamine diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862618.1;translation=MTKALIIISPTNIDLKNFEKNYFIVGVERGCLELIKQNINIDLAISDFDQVSKAEKELIKLKTKEYIELNPEKYYLDGISALEELKKRKYDDITMIVNPSKRYDMNLSILEYVFNYNLTILNDDSIIFKLNPGKNILNFNNFQEFTYVSFFAKENLKISIKNLKYEVDDLFLIAYSTRAFSNCFIPYKNAIITLDKELIVIMTK;locus_tag=LOCUS_15380;EC_number=2.7.6.2;note=WP_020862618.1 thiamine diphosphokinase (Mycoplasma mycoides) [pid:49.0%25%2C q_cov:98.0%25%2C s_cov:97.1%25%2C Eval:2.2e-49],MGA_1540
sequence1	MetaGeneAnnotator	CDS	910171	910737	.	-	0	ID=MGA_1541;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183120.1;translation=MDYNFVPNLSFGTKILEDITNKFNFKIDVHLMVKIENFKMEDYLNSFIFKNIQQLTMHFESLTPEQIEEFISFCINKKLRSSIAINPDTNVEVILKYLNKLDNVLIMSVYPGFGGQSFITKSLEKLRFLKNYRDNNNLVFSIQVDGGINETTYKLVQLEGVDIIVAGSYLVGGNILNLEERVKKLKSD;locus_tag=LOCUS_15390;gene=rpe;EC_number=5.1.3.1;note=WP_011183120.1 ribulose-phosphate 3-epimerase (Mesoplasma florum) [pid:46.3%25%2C q_cov:100.0%25%2C s_cov:83.4%25%2C Eval:3.7e-45],internal stop codon at [910753:910755](-),MGA_1541
sequence1	MetaGeneAnnotator	CDS	910848	911270	.	-	0	ID=MGA_1542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKVSVFTGQTGTGKSTTLNHIIPNIFEKTQEISKSLNRGKHTTTKNELFIYKDGLIGDTPGFSSFEFKEMTPAMLATSLTYFKKILNKCKFNNCIHVNNTPGCQLIEDVKNNKFPKFIYEDYIKIQLELENEQLRRKY;locus_tag=LOCUS_15400;note=WP_011166503.1 ribosome small subunit-dependent GTPase A (Mycoplasma mycoides) [pid:46.5%25%2C q_cov:100.0%25%2C s_cov:46.7%25%2C Eval:4.9e-27%2C partial hit],internal stop codon at [911289:911291](-),MGA_1542
sequence1	MetaGeneAnnotator	CDS	911289	911747	.	-	0	ID=MGA_1543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKTGIILKIISEYAYVLFEKQVYECKSKGKLRHNNQKPTTGDFVTFEILDTNDFKGIIFEILKRKNELYRPRISNIDQVVIITSVKEPILNTYTLNKYLCFVESLELKPVLAFTKVDLVDINDEYLNLARKYEDIGYEIYLINNMIETDLE;locus_tag=LOCUS_15410;note=WP_011183119.1 ribosome small subunit-dependent GTPase A (Mesoplasma florum) [pid:43.2%25%2C q_cov:93.4%25%2C s_cov:48.0%25%2C Eval:8.0e-27%2C partial hit],internal stop codon at [911289:911291](-),MGA_1543
sequence1	MetaGeneAnnotator	CDS	911748	912761	.	-	0	ID=MGA_1544;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQYEKGQILADRYELIEAIGKGGMASVFKAFDIYTKTIVAVKILAPEIVLKPVGQERFEVEKEAFAKLGLNPNVVKLFDVIQSGDEWYIILECVEGGTLKDKYQNFGAMTLRELKYYFSKICDALSEAHKLKIIHRDIKPDNVLLTQSGEVKLGDFGISVMEDRSTETEKAIGTPKYMPPEIIAAQKATPKSDIYSLGIMLYEFSTGIAPFIHKEANGIALKHLKETPTLPKLINPSIPQSLENIILKMIEKEPLYRYESVDEVKRDLLKVKQTDSPKPYNYHKKVTLNMKEGQKTIKVGTTYDKLPVIAKSAFSFSFTLIFLFLILILVAVLVFI;locus_tag=LOCUS_15420;note=WP_011392429.1 Stk1 family PASTA domain-containing Ser/Thr kinase (Moorella thermoacetica) [pid:39.8%25%2C q_cov:79.2%25%2C s_cov:43.8%25%2C Eval:9.5e-48%2C partial hit],MGA_1544
sequence1	MetaGeneAnnotator	CDS	912810	912977	.	-	0	ID=MGA_1545;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTTDGVHDYIDQDITVATLSNKKIKLKEKANLIVEDAKDNISTDNLSILIIEAE;locus_tag=LOCUS_15430;note=WP_011183117.1 protein phosphatase 2C domain-containing protein (Mesoplasma florum) [pid:58.5%25%2C q_cov:96.4%25%2C s_cov:20.5%25%2C Eval:2.5e-09%2C partial hit],internal stop codon at [913059:913061](-)%2C[913137:913139](-),MGA_1545
sequence1	MetaGeneAnnotator	CDS	913137	913304	.	-	0	ID=MGA_1546;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEYSNDRFETKDMGTTLTAILFTKIGGFVINIGDSRTYKLVNNSLFQITQDQNL;locus_tag=LOCUS_15440;note=WP_011183117.1 protein phosphatase 2C domain-containing protein (Mesoplasma florum) [pid:66.0%25%2C q_cov:85.5%25%2C s_cov:18.5%25%2C Eval:1.0e-10%2C partial hit],internal stop codon at [913059:913061](-)%2C[913137:913139](-)%2C[913338:913340](-),MGA_1546
sequence1	MetaGeneAnnotator	CDS	913338	913568	.	-	0	ID=MGA_1547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFKYATLTDIGNYRKANQDFLDFFVNKNGEAFGIVCDGMGGHAFGEIASKLAVEKFVELFKKQNFFDMNQKEINR;locus_tag=LOCUS_15450;note=WP_011183117.1 protein phosphatase 2C domain-containing protein (Mesoplasma florum) [pid:52.6%25%2C q_cov:100.0%25%2C s_cov:29.9%25%2C Eval:4.7e-19%2C partial hit],internal stop codon at [913059:913061](-)%2C[913137:913139](-)%2C[913338:913340](-),MGA_1547
sequence1	MetaGeneAnnotator	CDS	913558	914517	.	-	0	ID=MGA_1548;product=23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002356987.1;translation=METNFDNMSNLNKSLREFLKQNFTVNLLKDLVVEESKDGTIKILFMLDDKRTIETVLMPQKYGQSVCVTTQVGCKMACKFCASGLIKTERNLSTDEIVRQIYAMNLYLKEKYKNDLNNKCSRVSHIVVMGIGEPFDNFDNVLKFVRIINDKNGFEIGARHITISTCGIVPKIRQFADLMTQINLAISLHAPNNDVRNKMMPINKAFPIEQLLDSVRYYIDKTNRRVTFEYILIEDVNDLPEHAVELSKIIKGINGYVNLIPYNEVEENPYKQSTKIDQFFKILKKQGINAIVRKEFGADIDAACGQLRAKREGIIKNEI;locus_tag=LOCUS_15460;gene=rlmN;EC_number=2.1.1.192;note=WP_002356987.1 23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN (Enterococcus) [pid:57.2%25%2C q_cov:96.6%25%2C s_cov:86.0%25%2C Eval:5.5e-98],MGA_1548
sequence1	MetaGeneAnnotator	CDS	914882	915253	.	-	0	ID=MGA_1549;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHIPGKYEINLQYKNKNYNLTIYTFENFKEVTKDLKINNKIEFLKSEFNVVNYSKNLTLKTEKENYVFKFNTKSLFNAKIELFSNKGEKVILNLINNNESQEEQQNCTSNCENNPELKQEIN;locus_tag=LOCUS_15470;note=MGA_1549
sequence1	MetaGeneAnnotator	CDS	915338	915514	.	-	0	ID=MGA_1550;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIYSTKIGKYSFEVFSQETKKSIKVQVNIKKNSSDIIFENQTAINLSKNQGQIKIIN;locus_tag=LOCUS_15480;note=MGA_1550
sequence1	MetaGeneAnnotator	CDS	915501	915995	.	-	0	ID=MGA_1551;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTFSNVNFTHFKKNYELNIYKVIKEEKINDDKFNFKDIISSKDKINLNIGESDIILISNGKDFRNLKISNSSNIEIKKMGIDEFKVFANKVGEGFISFNSIDASEIKLIKVTVIDNQNDFSLSKNFIEIEKGNIGSIDINTDHISNLSVINKYSFLYTYFENI;locus_tag=LOCUS_15490;note=MGA_1551
sequence1	MetaGeneAnnotator	CDS	916762	916932	.	-	0	ID=MGA_1552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFTFKNISERDLVGDNEYFGTPRMNLMQKSYSFKVNLKLRQKSKEIQQEYSFHDK;locus_tag=LOCUS_15500;note=MGA_1552
sequence1	MetaGeneAnnotator	CDS	916945	917229	.	-	0	ID=MGA_1553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFILKVLLTFLSLTQFSFFSNSLSVNHQLVKNISKENIENNEYITEPYYVIKNPSNVVKKEKQKSGSQGSYYKKSIEEVLLTERLELKNYDDY;locus_tag=LOCUS_15510;note=MGA_1553
sequence1	MetaGeneAnnotator	CDS	917272	917949	.	-	0	ID=MGA_1554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLNLEPSKLMSGFYLLDKNIIHHEIFEKGLVTIQDQASGLASVILDPQKNSSVLDMCSAPGGKLTHIGQLMQNTGKITAFEINSKKISLILSNINRLGLTNVELNCNDALNIDEKKYDYILLDAPCSGYGVIQHKPEIKLKKYSNEEVKTLLNTQSLLLEKAYKCMKKNSFLVYSTCTINKDENEYQISKFIKKHLDLVLEKEVILFGDEYNTDGFYICRLRKK;locus_tag=LOCUS_15520;note=WP_013447563.1 16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB (Mycoplasma leachii) [pid:52.9%25%2C q_cov:92.9%25%2C s_cov:49.4%25%2C Eval:9.2e-58%2C partial hit],internal stop codon at [918088:918090](-)%2C[918148:918150](-),MGA_1554
sequence1	MetaGeneAnnotator	CDS	918148	918291	.	-	0	ID=MGA_1555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLYQYKFLNAEMYYVVNEAVKIAKNINSNLVSLVNKVSKKLYEKNY;locus_tag=LOCUS_15530;note=MGA_1555
sequence1	MetaGeneAnnotator	CDS	918292	918525	.	-	0	ID=MGA_1556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTRQEALNILFKVFKNNEFSNKLLNKLIKNELISKKDIAFIFKLVYGTIQYKIYLEYVTNKLIDANKTDFKIQILL;locus_tag=LOCUS_15540;note=MGA_1556
sequence1	MetaGeneAnnotator	CDS	918525	918668	.	-	0	ID=MGA_1557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNKIYSHVLASEQLSVLEDSEFVNSILEHFMIDVNFFSIEQDHFNK;locus_tag=LOCUS_15550;note=MGA_1557
sequence1	MetaGeneAnnotator	CDS	918744	919409	.	-	0	ID=MGA_1558;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKGKIIILSGPSGVGKGTINKELAQDKSLNLVQSISMTTRHPRPGEVDGVNYFFVSKEVFNDAIQHNELIEHAEFIGNFYGTPRKVVYDKIEKGENVILEIEVIGATQVLKKEKSENLISIFLMPPSLKSLEQRLRKRGTEKEDIIKQRLDKALLEIPLKHKYQYVIEIDSVDNAVAKVKEVLLKEGTLEKDPMTSKFEKLKKDVFRIIGEQYHFFVQN;locus_tag=LOCUS_15560;note=WP_011183092.1 guanylate kinase (Mesoplasma florum) [pid:60.6%25%2C q_cov:100.0%25%2C s_cov:73.4%25%2C Eval:1.7e-69%2C partial hit],internal stop codon at [918744:918746](-),MGA_1558
sequence1	MetaGeneAnnotator	CDS	919402	919632	.	-	0	ID=MGA_1559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLIFFDPPFAKVEYYYDFFNYIYENRLLNNYGILIMESESNLDLSKLDFLKNLKYKNYKNKHLYLLRLEKENIYD;locus_tag=LOCUS_15570;note=WP_011183091.1 16S rRNA (guanine(966)-N(2))-methyltransferase RsmD (Mesoplasma florum) [pid:38.9%25%2C q_cov:94.7%25%2C s_cov:38.1%25%2C Eval:3.0e-10%2C partial hit],internal stop codon at [919654:919656](-),MGA_1559
sequence1	MetaGeneAnnotator	CDS	919654	920001	.	-	0	ID=MGA_1560;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRTGIENMKIISGKYRGRKLVSLEGMNTRPTTARVKEDMFNILDNYFIYENKVCLDLFGGSGALSIEALSRGIKFAYINDHFKPALKIIEQNLKGIDKQNYELLNYDYKKVLK;locus_tag=LOCUS_15580;note=WP_011183091.1 16S rRNA (guanine(966)-N(2))-methyltransferase RsmD (Mesoplasma florum) [pid:59.0%25%2C q_cov:91.3%25%2C s_cov:55.6%25%2C Eval:4.0e-31%2C partial hit],internal stop codon at [919654:919656](-),MGA_1560
sequence1	MetaGeneAnnotator	CDS	920197	920334	.	+	0	ID=MGA_1561;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDFVRYSQDPDLNKKENQDYLRPAVGLAAPQIGSNTNMFFARFE;locus_tag=LOCUS_15590;note=WP_011166420.1 peptide deformylase (Mycoplasma mycoides) [pid:64.4%25%2C q_cov:100.0%25%2C s_cov:22.5%25%2C Eval:1.7e-10%2C partial hit],internal stop codon at [920101:920103](+)%2C[920332:920334](+)%2C[920503:920505](+),MGA_1561
sequence1	MetaGeneAnnotator	CDS	920368	920505	.	+	0	ID=MGA_1562;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINPKITAKSDQIAFLEGGEGCLSVDKDIKGVVPRSYKIQIEAYE;locus_tag=LOCUS_15600;note=WP_011183467.1 peptide deformylase (Mesoplasma florum) [pid:53.3%25%2C q_cov:100.0%25%2C s_cov:22.5%25%2C Eval:4.0e-07%2C partial hit],internal stop codon at [920101:920103](+)%2C[920332:920334](+)%2C[920503:920505](+),MGA_1562
sequence1	MetaGeneAnnotator	CDS	920840	921460	.	+	0	ID=MGA_1563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDKNKQTAKQPSGLVAELDAKIEIKKLASYKVQEKKKISNAPYPTKVFALGGLEEVGKNTYCIEYDDELIMIDAGVKFPDATQLGVSAVIPDFSYLVENNSKVKALFITHGHEDHIGGIPYLLQQVEIPVIYAPELAAALIKDRLKEYKLQNKTVVREYVENDIYASKHFNIQFSAVNHSIPDAFGIYVQTPNGSIFSTGDYKFD;locus_tag=LOCUS_15610;note=WP_011166843.1 ribonuclease J (Mycoplasma mycoides) [pid:67.2%25%2C q_cov:91.7%25%2C s_cov:31.5%25%2C Eval:1.3e-73%2C partial hit],internal stop codon at [921458:921460](+)%2C[921503:921505](+),MGA_1563
sequence1	MetaGeneAnnotator	CDS	921530	922639	.	+	0	ID=MGA_1564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADSTNAEVEGYTLGERKVIQNIDTHFLKAKGRIIIASFASNVHRLQHIIELANKYGRSIVVIGRSIERIIKIIRQMGHLNINDKMFIKPTEIENFPKNQIMILCTGSQGEPMAALSRISRMEHQTIKLIPGDTVIMSSSPIPGNRADVENVINKLTKIGATVIENSLDNKIHTSGHASQEEQKLLFTLLKPRCFMPMHGEYRMLKIHGETAVSVNVKPHNVFVVANGDQILLHNGNAELGKRVPADAIFIDGKDMTGKASNVIRERNILSRDGLMAVIISIDSQTNKLSAPPRIVSRGSFYVRDSGNVIAESINIVTNAVNDVLKSQKPTFGAIKNAIKESLSPFIFRYKRRNPLIIPVILNKKTEVK;locus_tag=LOCUS_15620;note=WP_011183468.1 ribonuclease J (Mesoplasma) [pid:72.1%25%2C q_cov:98.9%25%2C s_cov:62.1%25%2C Eval:1.1e-148%2C partial hit],internal stop codon at [921458:921460](+)%2C[921503:921505](+),MGA_1564
sequence1	MetaGeneAnnotator	CDS	923185	923538	.	+	0	ID=MGA_1565;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFGLTVGFMSIADGKSNFDVYIEQAKLLNVKSFSNAFTTCFFAFAGIETFITTGKNIKNRSKNMPIAIIVILTLTTLFYIVFTVIVMMAIGGVFDPNPNSQMFTTFNSEFLKVFGP;locus_tag=LOCUS_15630;note=MGA_1565
sequence1	MetaGeneAnnotator	CDS	923563	923898	.	+	0	ID=MGA_1566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFNSSLQITLFGATTLEPLASQHFVPSSLKKENKDNVPVKGVITTIGLFSITTLLFLFIPDIVEGVTKKPSPFNYATLASSASIILIAIYSIIIPVALVNGFKKKIKVKK;locus_tag=LOCUS_15640;note=WP_011166496.1 APC family permease (Mycoplasma mycoides) [pid:33.3%25%2C q_cov:90.1%25%2C s_cov:18.7%25%2C Eval:5.8e-09%2C partial hit],internal stop codon at [923536:923538](+)%2C[923896:923898](+)%2C[923911:923913](+),MGA_1566
sequence1	MetaGeneAnnotator	CDS	923932	924252	.	+	0	ID=MGA_1567;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFTFVSYFIDLFNVFINPYDSDGDFNLQGVIANIFQLIYFVTIVVVLIIVYYFYYKKQIAKLDPNSQEAKELEIYEQNFRILSETEIEEIELIQNSLIKEEKKIV;locus_tag=LOCUS_15650;note=MGA_1567
sequence1	MetaGeneAnnotator	CDS	924320	924484	.	+	0	ID=MGA_1568;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLFSLTATSLTLAAFTPIVNRQNRIDPPFTTIEKRFSYSYNFNNLDFNSCN;locus_tag=LOCUS_15660;note=MGA_1568
sequence1	MetaGeneAnnotator	CDS	924554	925042	.	+	0	ID=MGA_1569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKEIYQFVIAEKFATNQYKVLSIYTNFNNRSDSLRNELDNFNELLYINTPTNTNIDQVKVTNQSVTFERTYDPYFGDKFYVKNVIAEIENHETNISKKINLYGIPSYHVFKSVDELKTNFINHFNFELTLVIDLTYIDDIFKSEIILPNEVYFQAPIQIIN;locus_tag=LOCUS_15670;note=MGA_1569
sequence1	MetaGeneAnnotator	CDS	925345	925578	.	-	0	ID=MGA_1570;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPTKIKEIKANIPAHCCVVNVPLLINQIGSEKVKFNILIKPTIATIKPNPLPKINKNLNVPNDFPGIFLIKFTSLK;locus_tag=LOCUS_15680;note=MGA_1570
sequence1	MetaGeneAnnotator	CDS	925685	925876	.	+	0	ID=MGA_1571;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPYVLSQMPNIGVKSTIDPKFTISKGYGGNALIAGSLTIGLYFLMLNALKLPVQFDLVSQIV;locus_tag=LOCUS_15690;note=MGA_1571
sequence1	MetaGeneAnnotator	CDS	925982	926200	.	+	0	ID=MGA_1572;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFIAVINTIYATFILLIQIILSILSIISIIAEMFDRRNGFFGAILTSMYGAMRIAMQLFIIYTINKTIKGL;locus_tag=LOCUS_15700;note=MGA_1572
sequence1	MetaGeneAnnotator	CDS	926343	927059	.	-	0	ID=MGA_1573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFTDTDTSNMNNSLCKINLNVLKENLKIKGDLNRSFLAHPNPLFSNLKLSSQTEIEIIYNSNNYIQNFIVLDDISYISFVINNQVFTSIFNEVLKLEEFQIIVKFFNQNLLIKKNQKYLIVDKNLNIIKNIEIKLNNLVEFEEFYVIHNVNENIELYNKDFKFLKVLNESNSFKKICYLNKNNILISFKNENKTILKNIITEEEILFTDAFYFRILLLEKDLLMVKDSNTNLITFIS;locus_tag=LOCUS_15710;note=MGA_1573
sequence1	MetaGeneAnnotator	CDS	928267	928497	.	-	0	ID=MGA_1574;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVFEFENFKKGTVGVCEAIANLNNSFTLIGGGDSAAAAIQLGFKDKFTHISTGGGASLEYLEGKELPGVESIQNI;locus_tag=LOCUS_15720;note=WP_010989997.1 phosphoglycerate kinase (Listeria monocytogenes) [pid:80.0%25%2C q_cov:98.7%25%2C s_cov:18.9%25%2C Eval:8.5e-29%2C partial hit],internal stop codon at [928507:928509](-),MGA_1574
sequence1	MetaGeneAnnotator	CDS	928507	928908	.	-	0	ID=MGA_1575;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSKGIDNPEHPFVAIIGGAKVSDKIGVIDNLLTKADKIIIGGGMAYTFFKAQGHNIGKSLCEEDKVALAKQYLEKSNGKIILPVDSANNTDFKDTSGTISSIDLPDDVMGLDIGPKSIELFQSILKDAKTVA;locus_tag=LOCUS_15730;note=WP_011183475.1 phosphoglycerate kinase (Mesoplasma florum) [pid:65.9%25%2C q_cov:99.2%25%2C s_cov:32.7%25%2C Eval:2.1e-43%2C partial hit],internal stop codon at [928507:928509](-)%2C[929038:929040](-),MGA_1575
sequence1	MetaGeneAnnotator	CDS	929038	929463	.	-	0	ID=MGA_1576;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTLNDIQISGKTVLVRVDFNVPLKDGVITDDNRINAALPTINYLVENNAKIVLFSHLSRIKEEADKSKKSLAPIAKRLEELAKRSVKFVAQTRGTELETSIKNLKEGDILLVENTRFEDVKDNEVVKYESKNNPELGKY;locus_tag=LOCUS_15740;note=WP_011183475.1 phosphoglycerate kinase (Mesoplasma florum) [pid:76.6%25%2C q_cov:100.0%25%2C s_cov:34.9%25%2C Eval:1.5e-55%2C partial hit],internal stop codon at [929038:929040](-),MGA_1576
sequence1	MetaGeneAnnotator	CDS	929816	929968	.	-	0	ID=MGA_1577;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFYTKNEYLNFILNVIEKITQIQIQKIIYIVYSYFLLFEKKIADINFET;locus_tag=LOCUS_15750;note=MGA_1577
sequence1	MetaGeneAnnotator	CDS	930091	930261	.	-	0	ID=MGA_1578;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNAIKKDADLALAMDYCEQPIVSQDIVSSTFGTIFDATLTKVMEVDGKQLIKVFS;locus_tag=LOCUS_15760;note=WP_011166850.1 type I glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:66.1%25%2C q_cov:100.0%25%2C s_cov:16.6%25%2C Eval:7.6e-14%2C partial hit],internal stop codon at [930091:930093](-)%2C[930433:930435](-),MGA_1578
sequence1	MetaGeneAnnotator	CDS	930784	931038	.	-	0	ID=MGA_1579;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIAINGFGRIGRLAFRQLFLSKEVEVVAINDLGDAKTLAYLLEFDSAHGRFMSGKIQSKDGAIIVDGKEIKILAERNAADLP;locus_tag=LOCUS_15770;note=WP_011183476.1 type I glyceraldehyde-3-phosphate dehydrogenase (Mesoplasma florum) [pid:74.7%25%2C q_cov:98.8%25%2C s_cov:24.3%25%2C Eval:7.2e-28%2C partial hit],internal stop codon at [930784:930786](-),MGA_1579
sequence1	MetaGeneAnnotator	CDS	931157	931336	.	-	0	ID=MGA_1580;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTHFTSNFSIEQLQKFYLNKKIREKDQIKFDQLKTLRFTERIKGLTNSIEIQGKNKRY;locus_tag=LOCUS_15780;note=MGA_1580
sequence1	MetaGeneAnnotator	CDS	931388	931618	.	-	0	ID=MGA_1581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGEPGIGKTYLMKMLANTYAKNDKKVIFVTVNKLIKIMKNNFNISEPMQYSKFFDTCSNVEVLILDDIGAELVSD;locus_tag=LOCUS_15790;note=WP_011166851.1 ATP-binding protein (Mycoplasma mycoides) [pid:45.3%25%2C q_cov:98.7%25%2C s_cov:23.7%25%2C Eval:2.3e-10%2C partial hit],internal stop codon at [931388:931390](-)%2C[931808:931810](-),MGA_1581
sequence1	MetaGeneAnnotator	CDS	931808	932056	.	-	0	ID=MGA_1582;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIYSVEELKLNSGLKQLIEKYQIRDSILEREKFILSRFLNEYVYCQKNENLEKCKQIIKGVQQKLIYKNNSFYISSKNCNH;locus_tag=LOCUS_15800;note=MGA_1582
sequence1	MetaGeneAnnotator	CDS	932142	933317	.	-	0	ID=MGA_1583;product=DnaD domain protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183478.1;translation=MSIFKYRIILKNIIDSSNNKVLTYLYQPILGLKAISIYQSLICEESIMHGFKKIEFNESRLLKLTGLSLENLKNYIRKLEAMGLIQTLVNLKTMSKVFNIFSPLDPVSFFKNNIFNNALQKKIGKDEYEFTRFIFRDEGDYSTESGYSDTSSKFLEVFDEFKNLKNNDDAKFLEAKPRRTNALLKGLDYSVLLDSLKKEKIIISDKNHEVKEIIEEVFGCYNISQFQIKEIIRKIYKPDIFSFSKSEFYSQVTNLLFDNNELDTMPVEFDSKQYIKNQTNKKIKEMETIDSKQYLLALLNITSLTNSQIEIIDTLQNKYKLRNSVINCLLEFSYFKNDKAIIANYLYKIAQTMIENNIKTADEAMHYLKIAHKKAFVKNKSQKNNYESQIQ;locus_tag=LOCUS_15810;note=WP_011183478.1 DnaD domain protein (Mesoplasma florum) [pid:24.7%25%2C q_cov:98.5%25%2C s_cov:94.7%25%2C Eval:6.1e-28],MGA_1583
sequence1	MetaGeneAnnotator	CDS	933467	933982	.	-	0	ID=MGA_1584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYHDTRKFGTFHLQNFDGYLQQNPINKVGPEPFQKDIDGQYFFNVMSKSSKYIKTVLLDQTKISGIGNIYADEILFHSKIHPESRALNLNLENYEKIFEASVKVLNRSIELGGSTIDTYQPEQGIDGKFQNELKVHTRKGKKCYDCKTIIDKIKVNGRGTYFCSNCQFLF;locus_tag=LOCUS_15820;note=WP_010874736.1 DNA-formamidopyrimidine glycosylase (Mycoplasmoides pneumoniae) [pid:50.0%25%2C q_cov:97.1%25%2C s_cov:59.9%25%2C Eval:6.3e-43%2C partial hit],internal stop codon at [934058:934060](-),MGA_1584
sequence1	MetaGeneAnnotator	CDS	934058	934300	.	-	0	ID=MGA_1585;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPELPEVETVVRSLNKRIKGLTIKNVKITYPNLIKTNIEIKDFENILKERKIDNITRIAKHIIFHFQDKVLISHLRMEGK;locus_tag=LOCUS_15830;note=WP_001114579.1 DNA-formamidopyrimidine glycosylase (Streptococcus pneumoniae) [pid:52.5%25%2C q_cov:100.0%25%2C s_cov:28.5%25%2C Eval:4.8e-16%2C partial hit],internal stop codon at [934058:934060](-),MGA_1585
sequence1	MetaGeneAnnotator	CDS	934326	935834	.	-	0	ID=MGA_1586;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYKINETNFTYDMMLGCYIINSNVKSNFESHVALINSTIEIKTFDEVFGKGVKKTKLIDQKIKHEFLIQKVLLIKELEQKVINILIENKQYELYEKIELPFSKVLLKMELEGILIDKTELDIQTKNILELLINLENEIKNDLNDYISQDFNLASPKQLKELLYLNLKLPDYNKGSTDKETLELLEDKHPVISKIISFRKYSKLYSTYLKGFEKFIHSDNKVHTIFNQTLTNTGRLSSSYPNIQNISVRDEEQKNVRKIFISQKGYSFFSFDYSQIELRVLGDIVNEDKLIEIFSLKRDIHSEAARSIFNLKEDEKVNPEQRRVAKVFNFGILYGLSDFGLAKDLKIPIFEAKSYIKSYYEAFPKILDFKRIVTEFAYQNSYVETMANRRRYIYELKNSNYMVKQFGERAAVNAPIQGTAADILKVAMIDIENYFKENNFDSKMVAQIHDEVIILVSDNEAEEIKKNVIEIMQNSYNNLLKIVNKNRVAKIDLEINFSKGKS;locus_tag=LOCUS_15840;note=WP_011183480.1 DNA polymerase I (Mesoplasma florum) [pid:52.8%25%2C q_cov:99.4%25%2C s_cov:55.9%25%2C Eval:1.2e-140%2C partial hit],internal stop codon at [934326:934328](-)%2C[935931:935933](-)%2C[936057:936059](-)%2C[936087:936089](-),MGA_1586
sequence1	MetaGeneAnnotator	CDS	936087	936584	.	-	0	ID=MGA_1587;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQLISDNTFVLSPQTGTSDISIIDKQKLFEKWGIKPEQVIDYKGLRGDTSDNIKGVAGIGEKTAKELLQQFNSLEDIYDNIDKITGAKQQKLVADKKNAFLSKEIATIVSDIEIENLNFRQYSFDYEGMKKFFVKYEMNSLIKKFASNQQDLEPEKIVFKVLKK;locus_tag=LOCUS_15850;note=WP_011183480.1 DNA polymerase I (Mesoplasma florum) [pid:47.7%25%2C q_cov:100.0%25%2C s_cov:19.2%25%2C Eval:1.2e-40%2C partial hit],internal stop codon at [935931:935933](-)%2C[936057:936059](-)%2C[936087:936089](-)%2C[936693:936695](-),MGA_1587
sequence1	MetaGeneAnnotator	CDS	936693	937007	.	-	0	ID=MGA_1588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKYLLVDGNALIFRAFFSSFGRATLTTKSGIPTNAVYSFINMLMNIALKNDYFDIKIAFDKGKKTFRHDKLEDYKGKRQKTPIELIEQFPIVREFLTSAKID;locus_tag=LOCUS_15860;note=WP_011183480.1 DNA polymerase I (Mesoplasma florum) [pid:58.8%25%2C q_cov:97.1%25%2C s_cov:11.4%25%2C Eval:1.5e-28%2C partial hit],internal stop codon at [936693:936695](-),MGA_1588
sequence1	MetaGeneAnnotator	CDS	937061	937837	.	-	0	ID=MGA_1589;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQYLNEVKASGFLVNPPTIKNPNSLYIYHNNMINIPLSVIKHIGPEFLRNLKTLFKKNKNAFNNILELISNIKDKGLTSQKYIALVYSGAFDFYGFSRRDLIEYQEQIFNLSASFKYLKVKDLVLDLQQKKDKPEEIVSYEKEYLGFFVSAHPLSIIRKKIVHKEKLKTLNSVKVDGLVVDVLINIENIITKRDKNGNEMCFIEILDETGNMIVTIFSSLYEKIKTKLNIGKNLIIKIKTQTFNSKTTAVLIDIIKEI;locus_tag=LOCUS_15870;note=WP_000226919.1 DNA polymerase III subunit alpha (Staphylococcus) [pid:26.5%25%2C q_cov:85.7%25%2C s_cov:20.8%25%2C Eval:7.8e-14%2C partial hit],internal stop codon at [937919:937921](-)%2C[937994:937996](-),MGA_1589
sequence1	MetaGeneAnnotator	CDS	937994	939028	.	-	0	ID=MGA_1590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFERFLNIDRVTMPDIDIDFQDDRREEILEYLFNKYGKDHFATITTFQTIGIKNALRDCGRIFDIPLEDINHMTKQINEKNVKDLQLALKDSEILKKYKEKYPQVFDISEKIIGLPRQTGTHAAGVVFCDVLMHEVVPTKIGINGISQTQFSMNFLENIGLIKTDILGLRNLSIIQEIIKNIKISRKIDLNLEDIQLNDKKTFSLLAQGDTSGIFQLESAGMTDVLIQMKVNSVEDIALTSALYRPGPQENIPLFIKRRNDQNHDYSIDKNLIDILKTTHGIIVYQEQILKMLQRVALMSLSRADIVRRAIGKKDYELMKKFKNEFIDAAIKNGYSENKANEL;locus_tag=LOCUS_15880;note=WP_011183481.1 DNA polymerase III subunit alpha (Mesoplasma florum) [pid:52.5%25%2C q_cov:99.1%25%2C s_cov:34.4%25%2C Eval:3.6e-98%2C partial hit],internal stop codon at [937919:937921](-)%2C[937994:937996](-)%2C[939032:939034](-),MGA_1590
sequence1	MetaGeneAnnotator	CDS	939032	939526	.	-	0	ID=MGA_1591;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFKSLIAIKQGKLLNELETINKNYFFKKQKVEKYINLNLHIDNISKIVEQIDEEVIFDNKKHFLKYPNAKKMPSTSYLKIICVDFLQEYLSKYSNLDSQIYLKRLHLELNVIEKMGFEDYFLIVHDMVEEANRLKILYGPGRGSAAGSLVAFLLKITKLDPIK;locus_tag=LOCUS_15890;note=WP_011166855.1 DNA polymerase III subunit alpha (Mycoplasma mycoides) [pid:43.1%25%2C q_cov:98.8%25%2C s_cov:16.5%25%2C Eval:2.9e-31%2C partial hit],internal stop codon at [939032:939034](-)%2C[939725:939727](-),MGA_1591
sequence1	MetaGeneAnnotator	CDS	939725	940057	.	-	0	ID=MGA_1592;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYANLVNIQSCYNFLNSTIKLEDYINFIKNNNFNFAFYSDKNTMYGAAEFSELAKNNNIKPIIGLNFQLSFGNVILFAKNNSGFKKLSFFSSFLSKNETNNISELEDIF;locus_tag=LOCUS_15900;note=WP_011166855.1 DNA polymerase III subunit alpha (Mycoplasma mycoides) [pid:42.3%25%2C q_cov:87.3%25%2C s_cov:9.8%25%2C Eval:6.8e-15%2C partial hit],internal stop codon at [939725:939727](-),MGA_1592
sequence1	MetaGeneAnnotator	CDS	940258	940413	.	-	0	ID=MGA_1593;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTNASTKDIKKRYIELAKKYHPDKNPNDLEAQAQMTMINNAYDLIMEHRK;locus_tag=LOCUS_15910;note=WP_014626618.1 molecular chaperone DnaJ (Rhodospirillum rubrum) [pid:48.9%25%2C q_cov:92.2%25%2C s_cov:12.4%25%2C Eval:6.4e-08%2C partial hit],MGA_1593
sequence1	MetaGeneAnnotator	CDS	940651	940941	.	-	0	ID=MGA_1594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKKKNKKQENKFGVYNGNIIDSETLAIDSEFEIEEYEGDSLTIAEIKSQTKKDKKPEIPNIVKPKKKINFFLYKLTVYIIILLLIISLFIFLVV;locus_tag=LOCUS_15920;note=MGA_1594
sequence1	MetaGeneAnnotator	CDS	940958	942118	.	-	0	ID=MGA_1595;product=tRNA 4-thiouridine(8) synthase ThiI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183482.1;translation=MTNILVRYGELTLKGNNKNIFINKLIQNIKYKLRKYKESIIYIKDHNSLVLEIKNADNIEEICEILKNIFGIYSFSIIEIIEKNEEKILEKTLQLAKKFNSGTFKVEVERKDKSFSVTSQDLKIAIASNILKNTDNLKVDVHSPKNKITVIIKNSGAFIFTKKIAGSKGLPVGVSGKGLTLLSGGIDSPVASYLALKRGMQVDFLHFMTPPHTSKEALDKVFELVKKIRKYNQSNFTLYICDFSMILKELMHIKEESYRITIMRRIFIRIGNLLCQSIKAKAIITGESLGQVASQTIESINVINEVSNISILRPVLTFDKEEIIEISKKINTYEISILPFDDVCSMYVPKNPVTKPRSFIAIEQEKNLLLNEMINYTLDKMIKKYI;locus_tag=LOCUS_15930;gene=thiI;EC_number=2.8.1.4;note=WP_011183482.1 tRNA 4-thiouridine(8) synthase ThiI (Mesoplasma florum) [pid:59.4%25%2C q_cov:100.0%25%2C s_cov:96.5%25%2C Eval:1.6e-126],MGA_1595
sequence1	MetaGeneAnnotator	CDS	942343	943380	.	-	0	ID=MGA_1596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKDEVIMTTFKDIRIDQEKLGRTIDSIEKLFSDFYLELDDGKYKESWDCLLKIDQALIFLIELLDSIPYVISTITTLVPQLMSELKNKHVTFGLVERKLPRNARKYAELELEVDKLRVKINNELLKLQFKKANKSLKQVFVYIENFKKMVEHEDNLKAFFENKIEDIRSEFDLVSNSTRQIERVFKNMESMSKYPTREKSDFEAARAEYLKTKEKADFIFSSIDLEINGKELDLFKTREELLVVMEQLLKNITMLEKSAKAIESKNTNIESIINQIIFIQTTLNQCDVKINQYKSIRELEKFIEPIQELYFKLSKFSKENLTKIESEKEKEILANEIEEYSQKT;locus_tag=LOCUS_15940;note=MGA_1596
sequence1	MetaGeneAnnotator	CDS	943627	943827	.	-	0	ID=MGA_1597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIFFVCLGIAIIILILINIYRKILQTIAKSIDLIDDLKKSPLRYRLQRISIIFEETNNLENELMI;locus_tag=LOCUS_15950;note=MGA_1597
sequence1	MetaGeneAnnotator	CDS	944149	944745	.	+	0	ID=MGA_1598;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183484.1;translation=MSRYTESVFKKARRYGFSILETGKEFSKGKKRTTAPGQHGSRRTKLSGYGQQMQEKQKVKFMYGLTERQFRNTYAKAKKIHGITGTNFLQQLESRLDNIVYRMGLSLTRQGARQLVSHGHILVNGKKLDIPSYTVKVGEQISVKEKMHKNDKLVEALASNASTVEFVKFDKSKMIGSFVRLPERKELNQEINEALIVE;locus_tag=LOCUS_15960;gene=rpsD;note=WP_011183484.1 30S ribosomal protein S4 (Mesoplasma florum) [pid:76.1%25%2C q_cov:100.0%25%2C s_cov:96.6%25%2C Eval:2.1e-81],MGA_1598
sequence1	MetaGeneAnnotator	CDS	944885	945331	.	-	0	ID=MGA_1599;product=Sua5/YciO/YrdC/YwlC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183527.1;translation=MLNRSEIKEIIKNLKNQKVLIIPTDTIYGISAVISKENEILINSIKMSPNNKKLIILISNLKQAKKMILLNNEIENNFLDLRPITQIISLKKNPNKNIALRMIKRKDLKKIIDKTGPIFSTSVNKTGFDFLTQKDELENFSNKIFKVY;locus_tag=LOCUS_15970;note=WP_011183527.1 Sua5/YciO/YrdC/YwlC family protein (Mesoplasma florum) [pid:45.2%25%2C q_cov:97.3%25%2C s_cov:84.5%25%2C Eval:7.6e-24],MGA_1599
sequence1	MetaGeneAnnotator	CDS	945553	945810	.	-	0	ID=MGA_1600;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDLNIKALHILTKLFVQKFENQNRGRVLNIGSIAAFSPAPVFSSYAASKAYVLNLGIAINTELKKTKSNVRVITISPGPLKTDF;locus_tag=LOCUS_15980;note=WP_011269101.1 SDR family oxidoreductase (Pseudomonas syringae) [pid:44.7%25%2C q_cov:100.0%25%2C s_cov:32.2%25%2C Eval:2.8e-11%2C partial hit],internal stop codon at [945952:945954](-),MGA_1600
sequence1	MetaGeneAnnotator	CDS	945952	946134	.	-	0	ID=MGA_1601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKNKLAKNTFAIVTGASKGLGYEYCKYLLRMGYNIIAIARDTKSLEVLKKHYPELIIEA;locus_tag=LOCUS_15990;note=MGA_1601
sequence1	MetaGeneAnnotator	CDS	946121	946453	.	-	0	ID=MGA_1602;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCVILICRDFLIDVVRQVLANSSYVMAANKMGKYKATFEMIGLSLLFFIGLGTFKNLSNLGEYGGINQLIMIPMYITVILSIISAAIYIYLNRKMLFNISTERGTSDDKK;locus_tag=LOCUS_16000;note=WP_011183559.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Mesoplasma florum) [pid:34.7%25%2C q_cov:86.4%25%2C s_cov:43.4%25%2C Eval:8.1e-08%2C partial hit],internal stop codon at [946454:946456](-),MGA_1602
sequence1	MetaGeneAnnotator	CDS	946454	946780	.	-	0	ID=MGA_1603;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLANKITMVRIILIPIIIILLLLSPNFYQVFNNNIKIGENYELSIAYLIAGILFIIASLTDMLDGYIARKYNMVTNFGKFFDSIADKLLTNSVLIVFACGQIPLIPV;locus_tag=LOCUS_16010;note=WP_020863053.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Mycoplasma mycoides) [pid:56.0%25%2C q_cov:81.5%25%2C s_cov:41.9%25%2C Eval:1.1e-17%2C partial hit],internal stop codon at [946454:946456](-),MGA_1603
sequence1	MetaGeneAnnotator	CDS	947092	947586	.	+	0	ID=MGA_1604;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATIDFINEVFSEIKDLIVPIFSVVSRNELVEHFTINEMLAYDFFVNNLLSFYSKLFNFENYCKTIYILMDERNLKKTDLNQLENLLKTNFIEKQFNIYTYYLSSKMTDVIRFADILDHVVYTFYNNPDSEKNYLYQNKIKKEILEKLKKEQFIIPLKNLILRH;locus_tag=LOCUS_16020;note=MGA_1604
sequence1	MetaGeneAnnotator	CDS	947753	948364	.	-	0	ID=MGA_1605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLNITLKNTIEDLLNYFNNDCLLNIKINDRLLKINSEDVISNIDINSLFLIDKIVQNINTLRQDNQSQLALKKFDTKIFASTEIILSAANEAFKKVKAAFEKIKFLKDSNSFESTKINMNDKFVVRKIAAYAQRILSKFENLPERLITKNEIKDLLVLLKKITLCEDIGEILGLTREILIRQNVILKPDYFVDYNALIDEYG;locus_tag=LOCUS_16030;note=MGA_1605
sequence1	MetaGeneAnnotator	CDS	948499	948756	.	-	0	ID=MGA_1606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKTLAEEVTKFVHGENGLEKSKKITESLFSGNIQELKKKELLSIVNSLVVTKVTTSLELVDFLVQSNIVTSKREARELINEGAI;locus_tag=LOCUS_16040;note=WP_005479869.1 tyrosine--tRNA ligase (Vibrio) [pid:44.0%25%2C q_cov:98.8%25%2C s_cov:20.0%25%2C Eval:1.7e-13%2C partial hit],internal stop codon at [948499:948501](-)%2C[948916:948918](-),MGA_1606
sequence1	MetaGeneAnnotator	CDS	949081	949254	.	-	0	ID=MGA_1607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLIDFLRDIGKDFNLAYLLAKENIATRIEKGLSITEFSYTMLQGYDFYRLYEDYKC;locus_tag=LOCUS_16050;note=WP_011183485.1 tyrosine--tRNA ligase (Mesoplasma florum) [pid:73.7%25%2C q_cov:100.0%25%2C s_cov:13.8%25%2C Eval:2.7e-19%2C partial hit],internal stop codon at [948916:948918](-)%2C[949054:949056](-)%2C[949081:949083](-)%2C[949264:949266](-),MGA_1607
sequence1	MetaGeneAnnotator	CDS	949264	949623	.	-	0	ID=MGA_1608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSILEELKERKLLKQFTNEEKILNAQKENAAIYCGFDPTADSLHVGHLIQILNLKRFNDYGFSPIAILGGGTGMIGDPSFKSQERNLLSLNEVENNVKSIQKQLSFLIPDIKVVNNSD;locus_tag=LOCUS_16060;note=WP_011166856.1 tyrosine--tRNA ligase (Mycoplasma mycoides) [pid:59.8%25%2C q_cov:94.1%25%2C s_cov:27.1%25%2C Eval:1.8e-34%2C partial hit],internal stop codon at [949054:949056](-)%2C[949081:949083](-)%2C[949264:949266](-),MGA_1608
sequence1	MetaGeneAnnotator	CDS	949639	949914	.	-	0	ID=MGA_1609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANIREASNELDSAKTKEIAYKALQKLGQASIKIGSELAKSDNMKIIAKDLALITVDIIDKADEVYSKVKDVSVSMSDDVYEVEDSKKQKN;locus_tag=LOCUS_16070;note=MGA_1609
sequence1	MetaGeneAnnotator	CDS	950220	950492	.	-	0	ID=MGA_1610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNISVILLANSSVETTQTIMITILLALAIILTLYTIITLRKVGIAAKKVDYFFEDLTYKSEMLNATVDTVARVTNYVDIFDAFAKRNVKS;locus_tag=LOCUS_16080;note=MGA_1610
sequence1	MetaGeneAnnotator	CDS	950649	951257	.	-	0	ID=MGA_1611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNENQNNVDSLQTKNNQNEQAKKRLDEIKKSNEIMGKNSESSNFFIPKRKNTNLDLESNSEIIKPRKRKNLPFTEEQKKEIEETVSNVKQEFKDIEIQNKMLEKKLVKEEQKLTKLIYKTSKKISNLLDKNKEDELEKTLELQDEYFSALEKIQDDIDTIVLGEANISLQQRRKHIYNNAYNAETERARRIIEMRKNRDMA;locus_tag=LOCUS_16090;note=MGA_1611
sequence1	MetaGeneAnnotator	CDS	951250	952080	.	-	0	ID=MGA_1612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEPIFTDDVNSKSIKIQSFVEEKNMELEVNTSSEASEKLKNLREKIGELKKTSVEGVLGSIINGAREKSQIIQNEVIENDPVIAKLQKIEELKKTGGVDVELYTDVTKIQNKGVNYSERAKAFHEEHSTKIIESDLERAKRLTREAQEARNSQKDNSDKTSGIFKMNQDKTIDISENLKNLNKQHKSKILFLEQEVKEKINQIVDIKKKYLDQEAEETIQGLNLNNIDNEVKKEKFLLKKLKEFDKVLQENSEYTANLIKPRRLQKTKNKVGDSNE;locus_tag=LOCUS_16100;note=MGA_1612
sequence1	MetaGeneAnnotator	CDS	952382	952525	.	-	0	ID=MGA_1613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKEISDELHGVNPTLIKLLREKLDVNGFEKVKIIVSSGFDEKKIA;locus_tag=LOCUS_16110;note=MGA_1613
sequence1	MetaGeneAnnotator	CDS	952571	953053	.	-	0	ID=MGA_1614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVQGLNDGDIVNSLEPVLKITGKYQEFAHFEGLFDGILSRASTIATNCSKIKSVANNKIVLNMNDRMDYFLNQQIDGYASYVGGIKNFVTSASFEFLDEKPVLNGTMPHSLIASFNGDLIAATEAYNKVFPNNNLVVLVDYNNDCIKDALAVCSEFKDKI;locus_tag=LOCUS_16120;note=WP_020862883.1 nicotinate phosphoribosyltransferase (Mycoplasma mycoides) [pid:55.3%25%2C q_cov:99.4%25%2C s_cov:45.6%25%2C Eval:3.0e-46%2C partial hit],internal stop codon at [952382:952384](-)%2C[952571:952573](-)%2C[953135:953137](-),MGA_1614
sequence1	MetaGeneAnnotator	CDS	953269	953835	.	-	0	ID=MGA_1615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183487.1;translation=MKLFLKYVKQFNTLIISMEQKNITSTKREENVEILFNGDEIVGFNVFEIKLENKKFNLEDSKLKEIAYPILQKYFKNFKFENQFIIVKIIDFEKIQNTHLSLCKINTGKEVIQIVCGADNVKKEMLTVLATIGSWMPNGMRINQGKLKGFDSYGMLCSAKELEITNSNFNTEGILELKIDDSKIGRSI;locus_tag=LOCUS_16130;note=WP_011183487.1 hypothetical protein (Mesoplasma florum) [pid:48.8%25%2C q_cov:91.0%25%2C s_cov:88.6%25%2C Eval:7.9e-40],MGA_1615
sequence1	MetaGeneAnnotator	CDS	953915	954127	.	+	0	ID=MGA_1616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAILIDSSAGIKNINEYKDLFLVPLMITKENGEQIADDQNLLEDEFYELNNLQVLKTSQTITGNMLEK;locus_tag=LOCUS_16140;note=MGA_1616
sequence1	MetaGeneAnnotator	CDS	954209	954745	.	+	0	ID=MGA_1617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSKEEEYNQKVFVIDTNGVSIIIKRQIEIVNKLIEQNKNGQEILDIMEEKYNNFKGYIIPKSLNQLVRGGRISKAAAGLAKILKITPILKYDGTIDKQGKTRTFKKAVEEAISLLRSSSNLEIIDVAYSKSSDEIINLVKEIIEKSGLKIGLFEKIPNVVTCHTGEETFAFLPMIDI;locus_tag=LOCUS_16150;note=WP_011183488.1 DegV family protein (Mesoplasma florum) [pid:49.4%25%2C q_cov:93.8%25%2C s_cov:60.9%25%2C Eval:4.6e-39%2C partial hit],internal stop codon at [954125:954127](+)%2C[954971:954973](+),MGA_1617
sequence1	MetaGeneAnnotator	CDS	954761	954973	.	+	0	ID=MGA_1618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAIITDSASGINNFKDYKDLFLVPLMITKENGEQIADDENFTADEFYDLNDKQLLKTSQSIPGIMMEK;locus_tag=LOCUS_16160;note=WP_011183488.1 DegV family protein (Mesoplasma florum) [pid:49.3%25%2C q_cov:98.6%25%2C s_cov:24.6%25%2C Eval:1.7e-10%2C partial hit],internal stop codon at [954971:954973](+),MGA_1618
sequence1	MetaGeneAnnotator	CDS	955055	955519	.	+	0	ID=MGA_1619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSQEKEYLGKVFVVDTNGVSIILKMQIQMAYDLIDQGKNGQEIEEYIEKNNQNFEVYIIPKSLDQLVRGGRISKAAAGLAKILKITPILKYDGTIDKQGKTRTFKKAIEEVIKLLQENNKNSEYIDIAFSRTSEEVIKQVREIVESSSFKTRL;locus_tag=LOCUS_16170;note=WP_011183488.1 DegV family protein (Mesoplasma florum) [pid:50.3%25%2C q_cov:100.0%25%2C s_cov:56.2%25%2C Eval:4.9e-35%2C partial hit],internal stop codon at [954971:954973](+)%2C[955517:955519](+)%2C[955580:955582](+),MGA_1619
sequence1	MetaGeneAnnotator	CDS	955617	956075	.	+	0	ID=MGA_1620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGILVDSSAGIIEKNIESKIIKVIPLHLIVEDKDDFFDTAENIENNNLIDILKANKKTSTSQASPGELMNKYDEMLKEFDHIIHLTIPSNLSGMHETAVMVSKDDEYMGKVTVIKHSLAANTVKYLAFKYNEMINNGEREPSKFQQEADL;locus_tag=LOCUS_16180;note=WP_011183489.1 DegV family protein (Mesoplasma florum) [pid:41.3%25%2C q_cov:97.4%25%2C s_cov:53.0%25%2C Eval:1.6e-27%2C partial hit],internal stop codon at [956073:956075](+)%2C[956196:956198](+),MGA_1620
sequence1	Aragorn:1.2.38	tRNA	956531	956606	.	-	.	ID=Aragorn_28;product=tRNA-Trp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00270;note=Aragorn_28
sequence1	Aragorn:1.2.38	tRNA	956656	956731	.	-	.	ID=Aragorn_29;product=tRNA-SeC;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00280;note=Aragorn_29
sequence1	MetaGeneAnnotator	CDS	956793	957230	.	-	0	ID=MGA_1621;product=transcriptional repressor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166861.1;translation=MEIENKITEYLELFKSKKIKLTDVRLSMLKAIATTKHFTINELISIVEKDLGTVNVMSIYNNIDLFLEMHLLFANTMNGKQIMYEAISKQLIHITCDICGKLEDLESPSLASDLFLEYSKILESKKMQLEHFKLELHGICESCKK;locus_tag=LOCUS_16190;note=WP_011166861.1 transcriptional repressor (Mycoplasma mycoides) [pid:40.7%25%2C q_cov:96.6%25%2C s_cov:90.9%25%2C Eval:9.8e-29],MGA_1621
sequence1	MetaGeneAnnotator	CDS	957232	957456	.	-	0	ID=MGA_1622;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166862.1;translation=MNYFEEIKSALMKKGAKGSITNATDFKTMGLDSLDLMDMIVLLEEKLNITISDDELMSIKVVGDLLNVIENLKK;locus_tag=LOCUS_16200;note=WP_011166862.1 acyl carrier protein (Mycoplasma mycoides) [pid:57.5%25%2C q_cov:98.6%25%2C s_cov:100.0%25%2C Eval:8.8e-18],MGA_1622
sequence1	MetaGeneAnnotator	CDS	957499	957690	.	-	0	ID=MGA_1623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIVNFFKSKPYFNLPEFKYYFLVEFQNLGPLNINVKLLFSFDDQEFPKKISIKYLKNHAKYI;locus_tag=LOCUS_16210;note=MGA_1623
sequence1	MetaGeneAnnotator	CDS	958481	958798	.	-	0	ID=MGA_1624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEPYNELKILYTASYNIIGNKLKDHTTTGLIEINRNNITEYTKNSDQYGLEIGNKIFGVFQNDFNQTQNLFYYNILREKIDFTFVKKEINLIDPKVIIQTKYKK;locus_tag=LOCUS_16220;note=MGA_1624
sequence1	MetaGeneAnnotator	CDS	958859	959161	.	-	0	ID=MGA_1625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNEIVLKDNFNIKDSLKVSEVDNYKLNLDVIFINDKVTLNKKEYFRLFVRPNLSRKNGFDYFKEIQNSSIFPFKTNVTLKSGAIKFYMKTVNGTETIKI;locus_tag=LOCUS_16230;note=MGA_1625
sequence1	Aragorn:1.2.38	tRNA	959253	959328	.	-	.	ID=Aragorn_30;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00290;note=Aragorn_30
sequence1	MetaGeneAnnotator	CDS	959451	960428	.	-	0	ID=MGA_1626;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKELIQQKILEEKIKRDLDNQKQLKLNLKEKELEKYKELLKQKEEELKEELNLELDKKENLKFENDLKKVNFEKVSPDTTIGYLNFESSDENKIVKREKINKNRNAAVKSMILSQNYIPPLTISTEIDMSSILKLKHMLKQTQNHIKFTTISFISKAISIALESYPKLNSSYDPETNEVIIKKYHNIGLATETSEGLIIPVLKFVEKLSIKEVAMDIREMTQRLRAGEIYNYETEGSTITIANYGNIGAIQATPTIFYPNASVIGVGKIVKKPVVVENEKLAIKAIMNISLTVDQRIIDAAEAGRFLAKVKEILEKPEILTVS;locus_tag=LOCUS_16240;note=WP_004399364.1 2-oxoglutarate dehydrogenase complex dihydrolipoyllysine-residue succinyltransferase (Bacillus) [pid:31.9%25%2C q_cov:70.5%25%2C s_cov:55.2%25%2C Eval:8.3e-33%2C partial hit],MGA_1626
sequence1	MetaGeneAnnotator	CDS	960456	960932	.	-	0	ID=MGA_1627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVDSLEEENIQEEKKLAQKTSKSVKKEIRDEILKQDKELKEIANADIAMETIKYLKEQINDLQKTLKEQNQLNQATSKLNQSSNFNAGTDTFGQMMQYMLMQTMMQNINPKREPSVGELKSTIKDEINYFAKELLEKTLKEQKENQLLKELEIKSSL;locus_tag=LOCUS_16250;note=MGA_1627
sequence1	MetaGeneAnnotator	CDS	961041	961262	.	-	0	ID=MGA_1628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTRDEKNFLNERRKAVERGIEEDHNSLFYKALERGGVPDEFLREVPYQNVTTGKIQYVPYNETPKGKKEFES;locus_tag=LOCUS_16260;note=MGA_1628
sequence1	MetaGeneAnnotator	CDS	961479	962114	.	-	0	ID=MGA_1629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METGADSFSGAVLYDRYNQAKTLFSSTRDDIIDSTQNFEDQEKRDIEMGDLTNSEDRFAQMRANIKESIKNAPQLKNTGNLSEEEIEKLVNKPVTENDGANLFSKENSSGISKFRQLVQARKEKLLEENNFKEIEEADQEINAMSKTDEKGRPLIMRNIIQSRIEKLNQANGDPSVLERDIIATKQNAILDSQKKFEEIKDEGMEDMKEKN;locus_tag=LOCUS_16270;note=MGA_1629
sequence1	MetaGeneAnnotator	CDS	962732	963046	.	-	0	ID=MGA_1630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTSMTLLVFTFIMAFIGITTLVISFQFFYLNFNNDKFYKWHDINGKLITKEEHDYRNKNRKFNQIKFKNEFKKEKIHKKSKFKVFKKTIENLPKDLKILELKK;locus_tag=LOCUS_16280;note=MGA_1630
sequence1	MetaGeneAnnotator	CDS	963473	963781	.	-	0	ID=MGA_1631;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYLKINKNLEFSIKLMVLIALVFFLIFDFLLQIYIPKRNLLGIPLMERFSIYYAYFTTQSNYAVVIYLVVALFMKKIYNTKPAFGIELAMTVYITLTMIVF;locus_tag=LOCUS_16290;note=MGA_1631
sequence1	MetaGeneAnnotator	CDS	963880	964398	.	-	0	ID=MGA_1632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLTPLAGLMMGTRSGDIDPSILQYVGKELNKDIFEITDELNKQSGLHGISGVGSDMRDISEKANKGEKRAKLAMEMYSQIVADFIVKFTNQINEKIDAIVFTAGIGENSSIIRKMVVNKCNLLNLSIEDQKNNSKYDDYLEISSPLSKIPVYKIRTNEELMICKETIKFLK;locus_tag=LOCUS_16300;note=WP_011166467.1 acetate kinase (Mycoplasma mycoides) [pid:61.0%25%2C q_cov:100.0%25%2C s_cov:43.5%25%2C Eval:6.1e-54%2C partial hit],internal stop codon at [964576:964578](-),MGA_1632
sequence1	MetaGeneAnnotator	CDS	964576	965073	.	-	0	ID=MGA_1633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILVVNAGSSSIKFKLFSIEDKQNPISQVEGLAERISVDGKLTIELNGIKNTYEDKMENHLDAVKSILKRFTELKVISKPEDIKGIGFRIVHGGENIVNTVELTKDIKKTIEENIRLAPLHNPGALTSINAFEENLSDAKLVGCFDTSFHQTMPEISYMYPVPYN;locus_tag=LOCUS_16310;note=WP_011182941.1 acetate kinase (Mesoplasma florum) [pid:51.5%25%2C q_cov:100.0%25%2C s_cov:41.4%25%2C Eval:2.2e-42%2C partial hit],internal stop codon at [964576:964578](-),MGA_1633
sequence1	MetaGeneAnnotator	CDS	965073	965951	.	-	0	ID=MGA_1634;product=phosphate acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182940.1;translation=MLVEKDLAKVILLFNSKDEIPQNLNSNIEAISISDFDKSKMLDKILEVRKGKLNESDAKKLIEQRNYFGVMMMKLNLADAMVCGLEYTTADTLRPALQIIKTNPNYSIASSVFLMSRESESYVFTDCAFNVDPNSEQLAEIASMAASFAKNLNEKNVQVALLSYSSIGSGMGPSVDKVQNALKNLNSKTYDNILFDGEMQFDTAFDKSVRDKKYPNSKITKVSPDVFVFPDLNAGNIGYKIAQRLGGFQAAGPFILGLNKPVNDLSRGATLEDIFQTSIVTIFSAMTSEEQK;locus_tag=LOCUS_16320;gene=pta;EC_number=2.3.1.8;note=WP_011182940.1 phosphate acetyltransferase (Mesoplasma florum) [pid:56.1%25%2C q_cov:97.6%25%2C s_cov:88.2%25%2C Eval:1.9e-91],MGA_1634
sequence1	MetaGeneAnnotator	CDS	966056	966490	.	-	0	ID=MGA_1635;product=pantetheine-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166469.1;translation=MKRAIYPGSFNPFHEGHLNILKKASKLFDEIIIVVTKNINKDLEPDLQARVDLIEKMTKNINNKKIALNINQLTADFAKERNINYLIRGIRDIDTLDYEIQLYDGNKLIYPELETVFFISDLGSRKVSSTFLKEIENYKKDGKN;locus_tag=LOCUS_16330;gene=coaD;EC_number=2.7.7.3;note=WP_011166469.1 pantetheine-phosphate adenylyltransferase (Mycoplasma mycoides) [pid:56.4%25%2C q_cov:97.2%25%2C s_cov:100.0%25%2C Eval:6.4e-41],MGA_1635
sequence1	MetaGeneAnnotator	CDS	966827	967345	.	+	0	ID=MGA_1636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVTIYNIRQDFIINNSLFKLDNISSLGADFIANFYAVLPNNSKLAVISMGTASTITLIEDNYLLGTIICPGIGSSLKGLISNAALLADFEYEKSDKEIGKNTVDSINIGTYNSHYLMLKAIVRELKVNNVIFTGGYSNLFKEEIKRDNFIFKEDLIFRGLIALYNIKIESL;locus_tag=LOCUS_16340;note=MGA_1636
sequence1	MetaGeneAnnotator	CDS	967500	967790	.	-	0	ID=MGA_1637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKTIQEYLDEGKITKQELDEVKSEAVHMAYKIIEKKRATFYGIGACLTRIVKSVLNDEKSSLMVGAYLSGQYGNSDLYISVPCIVGANGIEQIIE;locus_tag=LOCUS_16350;note=WP_011166714.1 L-lactate dehydrogenase (Mycoplasma mycoides) [pid:60.4%25%2C q_cov:100.0%25%2C s_cov:30.2%25%2C Eval:7.2e-28%2C partial hit],internal stop codon at [967500:967502](-)%2C[967806:967808](-),MGA_1637
sequence1	MetaGeneAnnotator	CDS	967806	968363	.	-	0	ID=MGA_1638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINGKKVVLVGCGAVGTSFIYSAINQGLAQNYVLIDVFRDVAEGNVMDLTDAHAVLPNPFSSIKVGEYSDCKDADVIVITAGRPQKPGETRLEMVADNARIMKGIATEIKNSGFNGITVIASNPVDVLTHVYQVVTGFDNSKVISSGTTLDSSRLRKLLGEKLKVNPRSVKAYLLGEHGDSSVAI;locus_tag=LOCUS_16360;note=WP_011166714.1 L-lactate dehydrogenase (Mycoplasma mycoides) [pid:74.4%25%2C q_cov:97.3%25%2C s_cov:56.6%25%2C Eval:2.3e-73%2C partial hit],internal stop codon at [967806:967808](-),MGA_1638
sequence1	MetaGeneAnnotator	CDS	968517	968921	.	-	0	ID=MGA_1639;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183390.1;translation=MATKKNTVMYRGTGRRKSSVAQVILTPGQGEIIVNGKPALEFFPYATLVQDMEQPLEATGTKADFSIKITVKGGGFTGQAGAARLGIARALLEASKDYKPELRTKGLLTRDARVKERKKYGLYGARRAPQFSKR;locus_tag=LOCUS_16370;gene=rpsI;note=WP_011183390.1 30S ribosomal protein S9 (Mesoplasma) [pid:77.2%25%2C q_cov:94.8%25%2C s_cov:96.9%25%2C Eval:5.0e-50],MGA_1639
sequence1	MetaGeneAnnotator	CDS	968921	969301	.	-	0	ID=MGA_1640;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166883.1;translation=MGRISTEIAIILRGKHKPTFTPHINNGDHVIVINAEKVVLSGKKEADKNYYHHSMHPGGLKSRNVQTQRKLFPERIIERAVRLMLPKNVQGSNQYRALHVYAGAEHPHQAQNPELLLINTKKGENK;locus_tag=LOCUS_16380;gene=rplM;note=WP_011166883.1 50S ribosomal protein L13 (Mycoplasma mycoides) [pid:69.0%25%2C q_cov:100.0%25%2C s_cov:83.4%25%2C Eval:3.3e-49],internal stop codon at [969329:969331](-),MGA_1640
sequence1	MetaGeneAnnotator	CDS	969677	970270	.	-	0	ID=MGA_1641;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPELKSAIGGDPTIIDNITDYDNFFEKLNSGENQEELNKINDLFNNLYPVFNYKNSPNQEFLDLTKGFSTSQRFGDYSSRGLNGTYSANKDDGTISEYVEGLGIGSLSTMMPLEKTRQILGQITEIVNMTMIMFMVIALIVSITIILLTTGLIIYENKEFIATMKILGYSNKYIVRQILGMYVLPIIFTFIIGFITG;locus_tag=LOCUS_16390;note=WP_020862895.1 ABC transporter permease (Mycoplasma mycoides) [pid:37.0%25%2C q_cov:85.3%25%2C s_cov:12.1%25%2C Eval:1.5e-26%2C partial hit],internal stop codon at [969539:969541](-)%2C[969602:969604](-)%2C[969605:969607](-)%2C[969629:969631](-)%2C[969662:969664](-)%2C[969677:969679](-)%2C[970277:970279](-)%2C[970307:970309](-)%2C[970361:970363](-),MGA_1641
sequence1	MetaGeneAnnotator	CDS	970361	970780	.	-	0	ID=MGA_1642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPIIINETLATKSGYKVDDVINLEVIKDEVIQNDEVLNLDDNFSKNNQVAFEEYRSQSSRTYYSSSGKSFVDNPIFGDVNSIKYGNKSISGSNASSSTNTTQIHQSVLGGETYIFQNKDSSNKFKIVGIQKGYGKAQG;locus_tag=LOCUS_16400;note=MGA_1642
sequence1	MetaGeneAnnotator	CDS	971840	972202	.	-	0	ID=MGA_1643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYYTIKNSTLNLLKGNADRGISKFGLAIKRGFSRGNFNSKLRTALLTTSLGKLFGVSITMFLGTIMLTTTIVAPKVLKDNMTETFNGLNFKNQIEYTQPIASNPLSFYRTYNLNFENDD;locus_tag=LOCUS_16410;note=MGA_1643
sequence1	MetaGeneAnnotator	CDS	972230	972913	.	-	0	ID=MGA_1644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPIIDSTTVIPNVDTEAIMYIDPQLFGLSLYEQNYSNDNIYNFDNRNSVIVVSSDSDKETYYSLKFNSSNITEEQIENLNTDFKYYGKIKKEITFFFKSDDQNYRFHSRTLTFKSVINAYNIAATLLLIIILVISLFTIILITRKQIDNMKRQIGCLKSLGYKKREIVNNFIAAPLIVAIIGSILGYIISIFIGGTIVGVFSKYFNIAFTGFTFEVISLIVSIIAI;locus_tag=LOCUS_16420;note=WP_011183053.1 ABC transporter permease (Mesoplasma florum) [pid:31.4%25%2C q_cov:98.7%25%2C s_cov:15.5%25%2C Eval:2.1e-33%2C partial hit],internal stop codon at [972230:972232](-)%2C[972950:972952](-)%2C[972998:973000](-),MGA_1644
sequence1	MetaGeneAnnotator	CDS	972998	973261	.	-	0	ID=MGA_1645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANSSLVIKILAKTNQNDKKAVDKLVVSKGENFSAEKEKSKREIIVGESFALANKLSVGDIIRVQKDQYGDQLLVKSDKNIAEKMES;locus_tag=LOCUS_16430;note=WP_011183053.1 ABC transporter permease (Mesoplasma florum) [pid:32.5%25%2C q_cov:88.5%25%2C s_cov:5.2%25%2C Eval:9.1e-07%2C partial hit],internal stop codon at [972950:972952](-)%2C[972998:973000](-)%2C[973298:973300](-)%2C[973337:973339](-),MGA_1645
sequence1	MetaGeneAnnotator	CDS	973337	973525	.	-	0	ID=MGA_1646;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVSMITSLLSSTSTRVIDAYEYLNTNSNVRNVVMDIDQTTTRLEKPDEFNLNIESQEVYQQ;locus_tag=LOCUS_16440;note=MGA_1646
sequence1	MetaGeneAnnotator	CDS	973902	974183	.	-	0	ID=MGA_1647;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFSGLKKQELEMIETIRTIDFLNLETFKNKLNITFQAKGFIRYQIRMIMGACLAYSRDKITLKDIKDTLELKRQKLPFIANPEGLTLKKIDY;locus_tag=LOCUS_16450;note=WP_011166885.1 tRNA pseudouridine(38-40) synthase TruA (Mycoplasma mycoides) [pid:44.6%25%2C q_cov:97.8%25%2C s_cov:36.7%25%2C Eval:1.7e-13%2C partial hit],internal stop codon at [974448:974450](-),MGA_1647
sequence1	MetaGeneAnnotator	CDS	974646	974999	.	-	0	ID=MGA_1648;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPTLIDEAGRIMKAQSSRGIDFHNGKIKDKVKSLTSLIIPLLVSAFQKAEDLAYAMDSRGYDPHAKRTRYRQVKFRFLDVIIFTICMAVIVTLYCYPYIPTLHNIQIPRIDAILKV;locus_tag=LOCUS_16460;note=WP_011183051.1 energy-coupling factor transporter transmembrane component T (Mesoplasma florum) [pid:64.4%25%2C q_cov:100.0%25%2C s_cov:35.5%25%2C Eval:2.4e-36%2C partial hit],internal stop codon at [975063:975065](-),MGA_1648
sequence1	MetaGeneAnnotator	CDS	975207	975527	.	-	0	ID=MGA_1649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRMVFGRYMPYNSIIHKMDPRLKLFMIIALIVVVFFPIGFTGQILAGSLIFAMFSISRLSFKMLIKLFIPITFIFIVLIIINVLMLKPNMENMVDGQVAGFGYVFN;locus_tag=LOCUS_16470;note=WP_011166886.1 energy-coupling factor transporter transmembrane component T (Mycoplasma mycoides) [pid:46.5%25%2C q_cov:95.3%25%2C s_cov:29.5%25%2C Eval:2.6e-22%2C partial hit],internal stop codon at [975063:975065](-)%2C[975207:975209](-),MGA_1649
sequence1	MetaGeneAnnotator	CDS	975545	976438	.	-	0	ID=MGA_1650;product=energy-coupling factor transporter ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183050.1;translation=MAIAKSPNFNFDGEIKFENVSYTYGINTPFEFSALNGTNLVIKEGNITAVIGMTGSGKSTLIQLTNGLIISETGRTIIGEYQIPASTKKIKEVKDLRREVGLVFQFPEYQLFQDTIEKDIAFGPINLGANKEQSLAKVRDLLKTVDLPEDYAKRSPFDLSGGQKRRVAIAGIIAMDGNTLVLDEPTGGLDPQGEEDFMNLFYKLNKEKGKRIIIVTHNMDHVLQIADEVIVMHKGKVISVGTPFEIFSNKELLEKIEIEPPKLYKLAHKLKEKDLDITKIEFRTVEELAQAVKSKLK;locus_tag=LOCUS_16480;note=WP_011183050.1 energy-coupling factor transporter ATPase (Mesoplasma florum) [pid:72.4%25%2C q_cov:97.6%25%2C s_cov:92.1%25%2C Eval:7.3e-118],MGA_1650
sequence1	MetaGeneAnnotator	CDS	976493	976762	.	-	0	ID=MGA_1651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKVKRITPKQKAKLIVKKKAAKAEYKEHIKEISIKQKEDAQKRKIKHKEIINIIKSDSSNQKQYQKEIANFRREDKKNISSRVADVKQ;locus_tag=LOCUS_16490;note=MGA_1651
sequence1	MetaGeneAnnotator	CDS	976750	977667	.	-	0	ID=MGA_1652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYEDFQFAHFLYKESKVAVKDRGLGGELTKLNNVSLKLTDIKFRYRDDHPFAVNGVSVSVNHGDYVAIIGHNGSGKSTLSKIIIGVLQPTMGNIEIYGNKVTRSNINIIRKFLGIVFQNPDNQFIGSTVRDDIAFGLENRRIEPVKMSDIILKAAKKVKMEEFLDHEPLMLSGGQKQRVAIASALALSPDILIFDEATSMLDPKGKTQVKEIMVELKNTREKTIFSITHDMDEILNADKVIVMNKGELVKFGSPKEILNDKKFLRSIHLDIPFIAQVEEALQNVGIKISGCNDLEELVNNICQK;locus_tag=LOCUS_16500;note=WP_011183049.1 energy-coupling factor transporter ATPase (Mesoplasma florum) [pid:63.5%25%2C q_cov:98.7%25%2C s_cov:74.1%25%2C Eval:6.6e-106%2C partial hit],internal stop codon at [977668:977670](-),MGA_1652
sequence1	MetaGeneAnnotator	CDS	977668	977970	.	-	0	ID=MGA_1653;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGKVIMSNNNLLTTEDLNNFKLQLNEFNDKLVHASQKMIIARSKFSRREVDKDFVKTAETNYRDLKKTFKQVSNIQPFLNNLKTAEKNLQNYKKNSKEY;locus_tag=LOCUS_16510;note=MGA_1653
sequence1	MetaGeneAnnotator	CDS	978310	978456	.	-	0	ID=MGA_1654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNLTTELIISEKLEITETRAKELRKHFDSMVTLAKRGDLHARRQAAA;locus_tag=LOCUS_16520;note=WP_011183048.1 50S ribosomal protein L17 (Mesoplasma) [pid:87.5%25%2C q_cov:100.0%25%2C s_cov:40.3%25%2C Eval:3.4e-17%2C partial hit],internal stop codon at [978310:978312](-)%2C[978469:978471](-),MGA_1654
sequence1	MetaGeneAnnotator	CDS	978524	979477	.	-	0	ID=MGA_1655;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166890.1;translation=MKQFAKPEFKLLKEEKNRNYGEFKVEPLERGFGTTLGNALRRTLLSSTPGAAVYAIKIVGAAHEFTSIEGIVENVSRIILNLKKLALKIDTKIFEDEEVVELKINLSRVGDVTAGDIDLPTGVDVLNPELHICTIADGGILDLTMFAKNSRGYRTFRDNKKEKLVVDAITIDSNYSPIVKVAYNVDTTKIGKSVDLEKLILKVETDGTVTASDAVATAAKILVEHLQFFVNLNDEINELNIIGTTNEEDEKELDRLIEDLDFTQRSLNCLKRANINTLRDLVSRSEDDIQEIRNLGRKSLKEIKDKVVQLGLTFRQD;locus_tag=LOCUS_16530;EC_number=2.7.7.6;note=WP_011166890.1 DNA-directed RNA polymerase subunit alpha (Mycoplasma mycoides) [pid:64.4%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:5.4e-114],MGA_1655
sequence1	MetaGeneAnnotator	CDS	979486	979653	.	-	0	ID=MGA_1656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDHGVKTISVEVKGPGPGRDAAVRSLQGIGLEITSIRDTTPIPHNGVRPRKRPRG;locus_tag=LOCUS_16540;note=WP_008362476.1 30S ribosomal protein S11 (Mycoplasma mycoides group) [pid:87.3%25%2C q_cov:100.0%25%2C s_cov:42.6%25%2C Eval:1.2e-22%2C partial hit],internal stop codon at [979744:979746](-),MGA_1656
sequence1	MetaGeneAnnotator	CDS	979744	979875	.	-	0	ID=MGA_1657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANQKQNNKKKVKKNIAKGVAHIHSTFNNTIVTVSDEKGNVLS;locus_tag=LOCUS_16550;note=WP_008362476.1 30S ribosomal protein S11 (Mycoplasma mycoides group) [pid:90.9%25%2C q_cov:76.7%25%2C s_cov:25.6%25%2C Eval:6.0e-11%2C partial hit],internal stop codon at [979744:979746](-),MGA_1657
sequence1	MetaGeneAnnotator	CDS	979893	980258	.	-	0	ID=MGA_1658;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183045.1;translation=MARINGVEIPNEKRVVIALTYIYGIGLSTSQKILEAAKVSEEIRVKELSEDNIKSISQEISKFKTEGDLRRETALNIKRLMEIGCYRGMRHRKGLPVRGQSTKQNARTRKGPRKTVANKKK;locus_tag=LOCUS_16560;gene=rpsM;note=WP_011183045.1 30S ribosomal protein S13 (Mesoplasma) [pid:77.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-49],MGA_1658
sequence1	MetaGeneAnnotator	CDS	980472	980699	.	-	0	ID=MGA_1659;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183043.1;translation=MAKEDYLEVDGTVTEVLPNATFKVKLENEIVIDAHVSGKIRMNYIRILPGDKVTVAISPYDPTRGRITYRFKNGK;locus_tag=LOCUS_16570;gene=infA;note=WP_011183043.1 translation initiation factor IF-1 (Mesoplasma) [pid:82.9%25%2C q_cov:93.3%25%2C s_cov:89.7%25%2C Eval:1.4e-26],MGA_1659
sequence1	MetaGeneAnnotator	CDS	980813	981472	.	-	0	ID=MGA_1660;product=type I methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183042.1;translation=MAITIKNSEQIEKMRYAGQVLGEALYNIKSMIKVGLNCLEIDKYFSNFIKEKGCSSNFKGYYGFPASVCISINEQLIHGIPQNRILKDGDIVSIDAGCIFEKYHADAAFTVICGNSKDKLYDKLIDVTEKSLYLAIEQVRAGVRIGTISSTVQTFIEDYGFHLPIDYSGHGIGLEMHEDPFIPNVGIADTGMRLVEGMTICIEPMVQIGTNKTVVSDDE;locus_tag=LOCUS_16580;gene=map;EC_number=3.4.11.18;note=WP_011183042.1 type I methionyl aminopeptidase (Mesoplasma florum) [pid:63.8%25%2C q_cov:99.5%25%2C s_cov:86.5%25%2C Eval:1.4e-79],MGA_1660
sequence1	MetaGeneAnnotator	CDS	981472	982107	.	-	0	ID=MGA_1661;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166893.1;translation=MNIILLGAPGSGKGTQSEFLCDKKNFIQLSTGDLFRTNILNKTKLGLEAQKYMNQGLLVPDLITNEMVKEYLERKHDNLIFDGYPRTDDQAQQLDKMLLLLNSKIDLVIYIEIDESLLLERLTGRIVCSICKRSYHKVNRKPIRNGFCDFDNGTLITRPDDQEDKIKIRLEAYNTQTAPLIKFYENKLKIINANNLSSEEVYNKILGVLKI;locus_tag=LOCUS_16590;EC_number=2.7.4.3;note=WP_011166893.1 adenylate kinase (Mycoplasma mycoides) [pid:53.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-60],MGA_1661
sequence1	MetaGeneAnnotator	CDS	982119	982760	.	-	0	ID=MGA_1662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEAERKIPIQQTGSGLVDTKEHTPYLPLKLNNAGVIPVIFASAIISTPMTVAQIIAASNPNNGFVAFTQNFLSFSTWWGIGIYGVLTVLFTFLYAQVQINPEKIAENFKKSGTFIPGIKPGKETEKFIQGVINRLSILGSLFLAGIAILPYTISKLTSLPSSLAIGGTGLIIVISVSIQTVQQLKGRLIQQSFLDKKQDKFTNDVDKYNSHI;locus_tag=LOCUS_16600;note=WP_011166894.1 preprotein translocase subunit SecY (Mycoplasma mycoides) [pid:75.7%25%2C q_cov:100.0%25%2C s_cov:44.4%25%2C Eval:1.9e-91%2C partial hit],internal stop codon at [982860:982862](-)%2C[982971:982973](-),MGA_1662
sequence1	MetaGeneAnnotator	CDS	983193	983540	.	-	0	ID=MGA_1663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVKKAKKAKLTAYKSEFVKGNFFVRNKDLVKRIVFTLIVLIIIRVGALLTVPGVQLDDNFKNQVSDQEFFQLLATLGGGSIGQFSILSLGVSPYITASIIVQLLSTDVIPVLTR;locus_tag=LOCUS_16610;note=WP_011183039.1 preprotein translocase subunit SecY (Mesoplasma florum) [pid:58.7%25%2C q_cov:100.0%25%2C s_cov:24.9%25%2C Eval:7.9e-35%2C partial hit],internal stop codon at [982971:982973](-)%2C[983028:983030](-)%2C[983061:983063](-)%2C[983193:983195](-),MGA_1663
sequence1	MetaGeneAnnotator	CDS	983541	983978	.	-	0	ID=MGA_1664;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183038.1;translation=MKLHELKYTPGSKKEVTRVGRGMASGKGKTSTRGHKGQNSRSGGGVRPGFEGGQTPLFRRLPKIGFTSLNRKEYVILNLDRIEKMDLTEVNHKTLIEKKLIKSEKDLVKVLGNGKITKALKVKVNKVSKSAEDLIKAAGGTIEVI;locus_tag=LOCUS_16620;gene=rplO;note=WP_011183038.1 50S ribosomal protein L15 (Mesoplasma) [pid:75.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-58],MGA_1664
sequence1	MetaGeneAnnotator	CDS	983997	984632	.	-	0	ID=MGA_1665;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183037.1;translation=MTEEKKVVNAEITNKKEPSAVTNDSKISTRPNNDRPRNNLRFSRNKEDNPFEERVVTINRVTKVTKGGRRFRFAAVVVIGDKKGRVGLGTGKANEVPDAIKKAIKEARKSLVRIPLAGSTVPHDVMGHYGAGKVMIKPAKKGTGVIAGGPVRAVIELAGISDIYTKSLGSNTPINMIRATLEGLKEMQTPEQIARLRGKTQVENREAIQKA;locus_tag=LOCUS_16630;gene=rpsE;note=WP_011183037.1 30S ribosomal protein S5 (Mesoplasma florum) [pid:60.6%25%2C q_cov:97.6%25%2C s_cov:96.6%25%2C Eval:1.1e-62],MGA_1665
sequence1	MetaGeneAnnotator	CDS	984650	985000	.	-	0	ID=MGA_1666;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183036.1;translation=MKYTKAEARKRRHYRVRSKVSGTSAKPRLNVFKSNSFFYAQIIDDVKGVTLVSSSSIKMGLKNGCNIEAAKAVGKDIAQKAKNKKITDVVFDRGGYLFHGKVKAFADSAKENGMKF;locus_tag=LOCUS_16640;gene=rplR;note=WP_011183036.1 50S ribosomal protein L18 (Mesoplasma) [pid:75.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.2e-44],MGA_1666
sequence1	MetaGeneAnnotator	CDS	985024	985566	.	-	0	ID=MGA_1667;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183035.1;translation=MSRIGNRVLTIPPGVEVKNEGNNVVIIKGPKGELKQTFSTLIEIKVDGTELKTLRINEQKHTKQLHGTTNSLLEGMLVGVHTGFVKELEIVGVGYRAALAGDKINLSLGFSHPVEYLIPKGITVEIPKPTEIKISGIDKQLVGEVAANIRAYRRPEPYKGKGVKYKNEKIIRKEGKAAGK;locus_tag=LOCUS_16650;gene=rplF;note=WP_011183035.1 50S ribosomal protein L6 (Mesoplasma florum) [pid:71.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.4e-69],MGA_1667
sequence1	MetaGeneAnnotator	CDS	985590	985976	.	-	0	ID=MGA_1668;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183034.1;translation=MTTDVIADMLTRIRNANQRFHKEVLIPGSRVKLEIANILKNEGFIDDFKVSTDFKKDIIISLKYKGKIRVIKGLKRISKPGLRVYSNSHELPQVLNGLGIAIISTSNGIMTDKEARHQKIGGEVLGFV;locus_tag=LOCUS_16660;gene=rpsH;note=WP_011183034.1 30S ribosomal protein S8 (Mesoplasma) [pid:72.7%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:1.1e-44],MGA_1668
sequence1	MetaGeneAnnotator	CDS	985998	986180	.	-	0	ID=MGA_1669;product=30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003156488.1;translation=MAKKSLKVKQAKVQKFKVREYTRCGNCGRPHSVLRKFNLCRVCFRDLAYKGQIPGIKKAS;locus_tag=LOCUS_16670;gene=rpsN;note=WP_003156488.1 30S ribosomal protein S14 (Bacillus) [pid:75.0%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:4.6e-22],MGA_1669
sequence1	MetaGeneAnnotator	CDS	986200	986754	.	-	0	ID=MGA_1670;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183032.1;translation=MAKSNINRLEKLYKEKIVPELFKEKQYKSVMQVPKITKVVINMGVGDAVQDSKKLDDAVAELTLITGQKPLVTKAKKSLAAFKLREGMPIGAKVTLRGKRMYEFLDKLISVALPRVRDFRGVPKSSFDKQGNYTLGIKEQIIFPEIDYDKVKKVRGMDITIVTTTNHKEDAFSLIQKIGMPFAK;locus_tag=LOCUS_16680;gene=rplE;note=WP_011183032.1 50S ribosomal protein L5 (Mesoplasma) [pid:76.4%25%2C q_cov:96.7%25%2C s_cov:98.9%25%2C Eval:1.8e-73],MGA_1670
sequence1	MetaGeneAnnotator	CDS	986770	987087	.	-	0	ID=MGA_1671;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183031.1;translation=MNKSKILRGDVVKVISGNHKGKTGPITKLTKDKKRVYIEGITGIKHVKPSQTDQEGGIKEIAISIDISNVALKDPKNKDKTTRVGYKITDGKKVRIAKKSGAEIK;locus_tag=LOCUS_16690;gene=rplX;note=WP_011183031.1 50S ribosomal protein L24 (Mesoplasma) [pid:67.6%25%2C q_cov:100.0%25%2C s_cov:96.3%25%2C Eval:1.6e-35],MGA_1671
sequence1	MetaGeneAnnotator	CDS	987099	987467	.	-	0	ID=MGA_1672;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183030.1;translation=MIQTESRLKIADNSGAKEILVIRNLGGSVRKFTNIGDIVVATVKAASPGGAVKKGQVVKAVIVRTVRGLKRADGTYIKFSENAAVIIKEDKNPRGTRIFGPIAREVKDAGFAKIASLAPEVL;locus_tag=LOCUS_16700;gene=rplN;note=WP_011183030.1 50S ribosomal protein L14 (Mesoplasma) [pid:82.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-50],MGA_1672
sequence1	MetaGeneAnnotator	CDS	987485	987742	.	-	0	ID=MGA_1673;product=30S ribosomal protein S17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_061104415.1;translation=MERNLRKTYTGKVVSDKMDKTITVLVETYKNHPIYKKRVKYSKKYKAHDENQQAHLGDRVEIMETRPLSKTKNFRLVRIIEKAII;locus_tag=LOCUS_16710;gene=rpsQ;note=WP_061104415.1 30S ribosomal protein S17 (Mycoplasma mycoides group) [pid:82.4%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:1.0e-34],MGA_1673
sequence1	MetaGeneAnnotator	CDS	987745	988527	.	-	0	ID=MGA_1674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKAVDFMLELRTKTIEDLIKLGEDRRAELFALKFQAAVGSLEQTHRIKTLKKDVARIEFLLSERKNAGEIINKNIKANYSKAVEEAEKAGKQVRKKHKEMIEKLQSEQFGSDNAISEDAIMAAMQQATENENLEAVEVKSAPKKESVAKSAAKKEVEVKSAPKKESVAKVKEIELPNLQKGEAKSTGKGKAALESIKPKTVKVGTVKGEGIEGIELKLSKKPKNAKTYTFGSNAQEAKKQIEEANKKAAAKKTTTKGAK;locus_tag=LOCUS_16720;note=WP_011183028.1 50S ribosomal protein L29 (Mesoplasma) [pid:52.7%25%2C q_cov:50.4%25%2C s_cov:93.5%25%2C Eval:1.4e-31%2C partial hit],MGA_1674
sequence1	MetaGeneAnnotator	CDS	988818	988940	.	-	0	ID=MGA_1675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLMPKRVKYRRPHRVSYEGKAKGGKFIAFGEYGLMSLDAA;locus_tag=LOCUS_16730;note=WP_011183027.1 50S ribosomal protein L16 (Mesoplasma) [pid:70.0%25%2C q_cov:100.0%25%2C s_cov:29.2%25%2C Eval:6.8e-10%2C partial hit],internal stop codon at [988662:988664](-)%2C[988746:988748](-)%2C[988818:988820](-),MGA_1675
sequence1	MetaGeneAnnotator	CDS	989042	989302	.	-	0	ID=MGA_1676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAQFIGEQITNRASFRTVQKLAIRKALKAGALGIKTAVSGRLGGVDMARTEGYLEGSVPLSTLRSDIDYALYEARTTYGQIGVKV;locus_tag=LOCUS_16740;note=WP_011183026.1 30S ribosomal protein S3 (Mesoplasma) [pid:88.4%25%2C q_cov:100.0%25%2C s_cov:35.7%25%2C Eval:1.4e-36%2C partial hit],internal stop codon at [989042:989044](-)%2C[989558:989560](-),MGA_1676
sequence1	MetaGeneAnnotator	CDS	989669	990004	.	-	0	ID=MGA_1677;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183025.1;translation=MEAKAKLTMIRISPRKVRLVADTIRSKKISEAVAILQNQDKRSSEPVLKLLNSAVANAVNNNGMEADQLFIKIIFVNEGPTLKRFRPRAHGRAYEILKRTSHITIIVSDDK;locus_tag=LOCUS_16750;gene=rplV;note=WP_011183025.1 50S ribosomal protein L22 (Mesoplasma) [pid:75.7%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:5.2e-42],MGA_1677
sequence1	MetaGeneAnnotator	CDS	990531	991151	.	-	0	ID=MGA_1678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIKKYKPTTNGRRNMTSLDYSILTTSKPENSLLSKVNEKAGRNNHGQITTRHKGGGHKRKYRIIDFKRNKLDIAGKIATIEYDPNRNAFISLINYIDGEKRYILFAKGMKVGQEIIASQNADIKIGNAAPLKNIPEGTLVHNVELRPGKGGQIARSAGSSVQILGKEEDGKYVTLRLGSGEVRKVLAECFATIGEVGNEEYNLVN;locus_tag=LOCUS_16760;note=WP_011183023.1 50S ribosomal protein L2 (Mesoplasma) [pid:82.1%25%2C q_cov:100.0%25%2C s_cov:73.7%25%2C Eval:4.2e-96%2C partial hit],internal stop codon at [990396:990398](-)%2C[990507:990509](-)%2C[990531:990533](-),MGA_1678
sequence1	MetaGeneAnnotator	CDS	991205	991489	.	-	0	ID=MGA_1679;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183022.1;translation=MHLTQVIKKPLLTEKTYLGQQSGAYTFIVDKKANKSQIKKTFEEIFGVKVKQVRTMNYDGKDKRMGKYVGKTAAFKKAVIILKDGEQLDILSDL;locus_tag=LOCUS_16770;gene=rplW;note=WP_011183022.1 50S ribosomal protein L23 (Mesoplasma) [pid:74.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-35],MGA_1679
sequence1	MetaGeneAnnotator	CDS	991489	991689	.	-	0	ID=MGA_1680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNVKIENQKILIVTKEHEELVVKSAGNIPGVKTLDFQKMNIFDLLNATKLVVTEDTVNKIEEVYA;locus_tag=LOCUS_16780;note=WP_011166912.1 50S ribosomal protein L4 (Mycoplasma mycoides) [pid:65.2%25%2C q_cov:100.0%25%2C s_cov:31.7%25%2C Eval:3.0e-18%2C partial hit],internal stop codon at [991870:991872](-)%2C[991924:991926](-),MGA_1680
sequence1	MetaGeneAnnotator	CDS	992135	992851	.	-	0	ID=MGA_1681;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183020.1;translation=MKGILGKKLEMTQIFSENGKLIPVTVISVEPNNVLQVKTVEKDGYQALKLGTINKRANLINKPDMGQFKKAQSEPKRFVKEIRDMKGYEIGAVINAADVFNAGEFVDVTGISKGKGFAGAIKRHNYSRGPMAHGSGYHRGIGSMGAIINRIFKSKKMAGHMGHEQVTIQNLEVIKVDEQRNLVLVKGSVPGPRKGFVVIQQNVKGRKANDAVSLLSRSAKSVESNSIQSQEETSSNAE;locus_tag=LOCUS_16790;gene=rplC;note=WP_011183020.1 50S ribosomal protein L3 (Mesoplasma) [pid:67.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-89],MGA_1681
sequence1	MetaGeneAnnotator	CDS	992902	993210	.	-	0	ID=MGA_1682;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183019.1;translation=MAQQKIKIKLKGYDHAIVDQSIAKIIEAAESTGAKVRGPIPLPTEKQIITILRATHKYKDSREQFEMRTHKRILEIVEPTPKTMDSLTRVQLPTGVNIEIKL;locus_tag=LOCUS_16800;gene=rpsJ;note=WP_011183019.1 30S ribosomal protein S10 (Mesoplasma) [pid:83.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-44],MGA_1682
sequence1	MetaGeneAnnotator	CDS	993330	993641	.	+	0	ID=MGA_1683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIIFKNISYSFPINDESLILLIKIITIVYAIANIKTPANSTTGNKAIFIVKGTAIFKFNNTEGTKYFVINHITIIPKETARIAIGKKIHKIIELISFIVYP;locus_tag=LOCUS_16810;note=MGA_1683
sequence1	MetaGeneAnnotator	CDS	993599	993925	.	-	0	ID=MGA_1684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNRQISDQMQRLILNSINSNNASVSFDKYFNSAIGYTDYIKVKKEAIENLITSIILISTIFITISMITAMIVIYLITDLFIGRYKKFMSYMRIQGYTMKEINSIIL;locus_tag=LOCUS_16820;note=MGA_1684
sequence1	MetaGeneAnnotator	CDS	994145	994432	.	-	0	ID=MGA_1685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYSITDLDTQKFYYYDYETNSYKKYLNLQNVILDIDNFNQEILNKVNKEYDEYSNISSTSSLDSVIHPFNIFKYDKDGKPIEFSFIDLTSGTNN;locus_tag=LOCUS_16830;note=MGA_1685
sequence1	MetaGeneAnnotator	CDS	994490	994618	.	-	0	ID=MGA_1686;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKKMELEGFKIGDEFNINIKSEKLSYVNNENSLQILKEDD;locus_tag=LOCUS_16840;note=MGA_1686
sequence1	MetaGeneAnnotator	CDS	995159	995446	.	-	0	ID=MGA_1687;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFANVLIVSSLVITLCSIVPSIFTNMSNEYYRNIKYNNDYNYTNTISNNPLTRYSFYQSDENIRKSNMKASIFNVNIKDLNSYKNLISTENIEY;locus_tag=LOCUS_16850;note=MGA_1687
sequence1	MetaGeneAnnotator	CDS	995434	995796	.	+	0	ID=MGA_1688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKTNKSLTDEEIIIPLNFEVKFKYLIFEKALVNKRFGFIFLLGDNNSNGFCLIVKYVVTITIKETIEMKLIHEIIKICQSILNIVGILKYLSKIFINGVCKNKLIIQPNGTKIITGINI;locus_tag=LOCUS_16860;note=MGA_1688
sequence1	MetaGeneAnnotator	CDS	995746	996090	.	-	0	ID=MGA_1689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSVSETINSNMTNNKLSSINIQSFDDTYSLNFRSTFYGSIVSGFYIIAIVFCLIFALSLCFVIYNIFRKILIFQRSQIGNLKSLGILNLKIIINYVFLYVNTSDNFSAIRLNN;locus_tag=LOCUS_16870;note=MGA_1689
sequence1	MetaGeneAnnotator	CDS	996210	996509	.	-	0	ID=MGA_1690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHFYNENLYTIYLKNESDNIFTENSFMDSNGYAKFNNLVLGQEYELFPNTTKKYRLDATGVDSLNVYPTIYEEDLLINQENEAVFYISNTLFQKFLILN;locus_tag=LOCUS_16880;note=MGA_1690
sequence1	MetaGeneAnnotator	CDS	996660	997286	.	-	0	ID=MGA_1691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSIISFKNVHYFLCILFSFSFFESLIINYNFLIFSILLKIFISLFGDFYRFNFSSKYFKNSLIGQIYLKNNYFLEKNLTNSQIDSAIDIFNFMFYLNNSALTYSIKQDLIEEYNKNEDGKNIEDFLNLSTSNESIGRVGKFDQDNKYYFSKNIYSLFKSNKSQIVEKNLYENYASFNIKKHDSRDIFKTGIDLNGYIILENSLTQRS;locus_tag=LOCUS_16890;note=MGA_1691
sequence1	MetaGeneAnnotator	CDS	997546	997698	.	+	0	ID=MGA_1692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVNQTNPKLVKIPKAKQIVAKKVRKPNEYLIIFQFEYPNDFITIINRLY;locus_tag=LOCUS_16900;note=MGA_1692
sequence1	MetaGeneAnnotator	CDS	997647	997844	.	-	0	ID=MGA_1693;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKVEFLTEQKSLINQITSLVLTIGITFIVVIIIIATLSMIIITDLYANQYKRFMIVMKSLGYSN;locus_tag=LOCUS_16910;note=MGA_1693
sequence1	MetaGeneAnnotator	CDS	998847	999149	.	-	0	ID=MGA_1694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSNQKAYKFEKNGDEIFIGNEQIEQLKKVINEGNNSSISSIKTNTGFELYNNGVLNIPVNLNEQAKLNLKQSGKKIEVNDFQSTRLVLSSDKKSIPNGA;locus_tag=LOCUS_16920;note=MGA_1694
sequence1	MetaGeneAnnotator	CDS	999342	999497	.	-	0	ID=MGA_1695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAHDYRRNQSNNMESFKKDVKNITGLLTEGLPQVMDQLFPLVESEGNINGS;locus_tag=LOCUS_16930;note=MGA_1695
sequence1	MetaGeneAnnotator	CDS	999819	1000010	.	-	0	ID=MGA_1696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPTLIASITILITSLLISSSMAIPGMVSKAVTSYYKNVKYSNSIKNIEPIGNAPMAKTALSP;locus_tag=LOCUS_16940;note=MGA_1696
sequence1	MetaGeneAnnotator	CDS	1000089	1000259	.	-	0	ID=MGA_1697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGAYKQVTFNGYSLAILLFTFGITVILVSYFTAFYLINKPVLKIIEKKEVVKRIV;locus_tag=LOCUS_16950;note=MGA_1697
sequence1	MetaGeneAnnotator	CDS	1000234	1000572	.	+	0	ID=MGA_1698;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTCLYAPPIYDINRLEKGSCKKPPRNQEIGITINNKINPYEIYPNDICEFLAPNAFKIPISGELKFIVFLTLIIIVIKHINKIIEQVEYKIIEKVFKTIGVKSQFQEKKCSL;locus_tag=LOCUS_16960;note=MGA_1698
sequence1	MetaGeneAnnotator	CDS	1000548	1001285	.	-	0	ID=MGA_1699;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKANDSGAALTLLKEEGNIANTLRYKKAFKDKSNYLNENASIPTSYLYRTNLLSFVTNLDVYSRLELNLPDNNQEKQYRFVLMDNQTKSNLTIYQGQNTRTLNEILINPQYAKQNKIKLGENIKVGDFDLTVSGYAADPYTNFPLADLSVPFPNNKKGAIIFISPEALELVIKTADAKISTTNLYTIFTGKNKTDVKKDISLYNSLSFSYKDKIYDDLNNIKSEGTLTIDYGTKLVSYNEHFFS;locus_tag=LOCUS_16970;note=MGA_1699
sequence1	MetaGeneAnnotator	CDS	1001580	1001771	.	-	0	ID=MGA_1700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNQLEISEFNDNSLISQFINKKIQSGFTKETILKELDVYINYSIVSIIAQLNKMMHDYVQY;locus_tag=LOCUS_16980;note=MGA_1700
sequence1	MetaGeneAnnotator	CDS	1001892	1002419	.	-	0	ID=MGA_1701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINAFLLTKQGVKGIFKYKIQFVLIVILGFFASLILSITFSINDRLEYEYNRTMGNTAKFDYIETQTLESSNQSESKEFTPFVDFISNQFLQFDDKSIAYNFNISSFENNENYKSTFLTKAFESDNFKKIFQKLISSDFTKSWFDFNYDESKPIYFNAYGMDETMSNRDKTNF;locus_tag=LOCUS_16990;note=WP_011183158.1 FtsX-like permease family protein (Mesoplasma florum) [pid:35.8%25%2C q_cov:76.0%25%2C s_cov:7.9%25%2C Eval:2.9e-14%2C partial hit],MGA_1701
sequence1	MetaGeneAnnotator	CDS	1002498	1002803	.	-	0	ID=MGA_1702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEEKLIKYNNISPILDKGINEISLEINDLDMKELKALADKLQNKFDNLIIKFVNKQNGIYIVSVSESISSQFKAIEIFKNTKDFKVKGGGNETFAQGKIL;locus_tag=LOCUS_17000;note=WP_011183510.1 alanine--tRNA ligase (Mesoplasma florum) [pid:40.2%25%2C q_cov:98.0%25%2C s_cov:11.3%25%2C Eval:2.2e-13%2C partial hit],internal stop codon at [1002954:1002956](-),MGA_1702
sequence1	MetaGeneAnnotator	CDS	1002954	1003676	.	-	0	ID=MGA_1703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLDESPFYAEKGGQAADTGVLIDDNMNRHNVLDVQVGPNKQHIHKVQINGILNIGDKVIAKIDSEKRYYTMKNHSGTHLLQSSIQEVLGKNALQSGSYNDENGLRIDISYNRLPSQEEIEKIHNVMTREINNQIPRQIIYCSLDEAVEKHNALALFTEKYGSEVRVIKFGNFSCELCGGTHVENSKDIEDLLITEVESKGSGVYRYHAVTSHSGVSLFLREQFLKQKNEISGLINKFDN;locus_tag=LOCUS_17010;note=WP_011166380.1 alanine--tRNA ligase (Mycoplasma mycoides) [pid:54.0%25%2C q_cov:98.8%25%2C s_cov:26.3%25%2C Eval:2.7e-74%2C partial hit],internal stop codon at [1002954:1002956](-)%2C[1003818:1003820](-),MGA_1703
sequence1	MetaGeneAnnotator	CDS	1003818	1004126	.	-	0	ID=MGA_1704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFFYPYLKEKSESIKEVIKSEEIRFLSTLSKGYDSLEIIMEKEKKISDKNALLLFESFGFPIELTVELATEKNIEVDIKGYEKLLEDSKELARNSRKNEKA;locus_tag=LOCUS_17020;note=WP_011166380.1 alanine--tRNA ligase (Mycoplasma mycoides) [pid:52.9%25%2C q_cov:100.0%25%2C s_cov:11.4%25%2C Eval:1.2e-25%2C partial hit],internal stop codon at [1003818:1003820](-),MGA_1704
sequence1	MetaGeneAnnotator	CDS	1004847	1005008	.	-	0	ID=MGA_1705;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPPSPRLTNSQKSIRTNDIQNVGVTARHQTMFEMLGNFSIGDYFKKEAIEMA;locus_tag=LOCUS_17030;note=WP_011166380.1 alanine--tRNA ligase (Mycoplasma mycoides) [pid:92.2%25%2C q_cov:96.2%25%2C s_cov:5.7%25%2C Eval:1.7e-21%2C partial hit],internal stop codon at [1004559:1004561](-)%2C[1004628:1004630](-)%2C[1004691:1004693](-)%2C[1004754:1004756](-)%2C[1004823:1004825](-)%2C[1004847:1004849](-)%2C[1005054:1005056](-)%2C[1005135:1005137](-),MGA_1705
sequence1	MetaGeneAnnotator	CDS	1004950	1005111	.	+	0	ID=MGA_1706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLVLIDFCEFVSLGEGGFILPSKYGFKVATPELIQSKLGSSTGTKLTGSRKK;locus_tag=LOCUS_17040;note=MGA_1706
sequence1	MetaGeneAnnotator	CDS	1005561	1006439	.	-	0	ID=MGA_1707;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIIGGGVIGVEFACVYKRLGTKVTILQFLPTILEMLDSDVSKEMTKELISRGNLEIITEATTKSFGKNEVIYEKDGKEIKLKADYCLQSVGRKVVTEGFENIGLQINERGHIVVNEYCETNIDGVYSIGDVTGKMMLAHVASHQGIIAANRIARRLQKEHAEDLAMNFERVPSCIYTHPEVASVGKTEDELRKAGVEYKAFKFPFAAIGKALADGNTTGFVKLICEPKYKQVLGCHIISNTATDMISEITTLMESEGTITEIARAIHPHPTLSEAIGEAAEALESGKPINF;locus_tag=LOCUS_17050;note=WP_011182939.1 dihydrolipoyl dehydrogenase (Mesoplasma florum) [pid:64.2%25%2C q_cov:98.6%25%2C s_cov:47.8%25%2C Eval:1.1e-107%2C partial hit],internal stop codon at [1006488:1006490](-),MGA_1707
sequence1	MetaGeneAnnotator	CDS	1006488	1006682	.	-	0	ID=MGA_1708;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTGVKGLLKKNKVTTVEGFAKAIDKNTVEVDKKQYTCDNMIIATGSVPNHFTIPGAKEAIESG;locus_tag=LOCUS_17060;note=WP_011182939.1 dihydrolipoyl dehydrogenase (Mesoplasma florum) [pid:56.2%25%2C q_cov:100.0%25%2C s_cov:10.6%25%2C Eval:2.9e-13%2C partial hit],internal stop codon at [1006488:1006490](-)%2C[1006722:1006724](-),MGA_1708
sequence1	MetaGeneAnnotator	CDS	1006722	1007450	.	-	0	ID=MGA_1709;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKVKFADIGEGLTEGTVTEVLVKIGDSVKMGDRLFNVETDKVTSDIYAPVDGKIAKILISANQEIKVGDVVIEIDDGKGEATAEPEKKAETAEENASVVGATPVSNDLLSRGRAGRTVPPKESIAAKVIEAVSGNTPMPGIVSGHGRTLKPAPKFSPKDTANHYDVIVIGAGVGGYVCAIKCAQLGLNTLIIEKGNYGGVCLNIGCIPTKTLLKSADLYEQITKHADKYGIKVAQEGVKAD;locus_tag=LOCUS_17070;note=WP_011182939.1 dihydrolipoyl dehydrogenase (Mesoplasma florum) [pid:56.7%25%2C q_cov:95.9%25%2C s_cov:33.9%25%2C Eval:1.0e-57%2C partial hit],internal stop codon at [1006488:1006490](-)%2C[1006722:1006724](-),MGA_1709
sequence1	MetaGeneAnnotator	CDS	1007464	1008105	.	-	0	ID=MGA_1710;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTAHEKVAGFTGLRNLDVTELVNIRKQLKAFADSQRVKLTYLAFIIKACANALKDMPNLNVRIDEENKATKFAQQINIGMACDTPDGLMVPVIKGADKLSVLQIAVKINDLAMKARSKKLASNEMSGATFTVTNFGAVGLDYATPIVNFPESAILGVGTITRAPGVINDKIEIRDFMPFSITADHKVIDGADAGRFLTKVAYYLQNPATLLV;locus_tag=LOCUS_17080;note=WP_011166464.1 dihydrolipoamide acetyltransferase family protein (Mycoplasma mycoides) [pid:58.2%25%2C q_cov:100.0%25%2C s_cov:49.8%25%2C Eval:4.1e-65%2C partial hit],internal stop codon at [1008136:1008138](-),MGA_1710
sequence1	MetaGeneAnnotator	CDS	1008136	1008807	.	-	0	ID=MGA_1711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKVKFADIGEGLTEGTVTEVLVKVGDSVKMGDSLFNVETDKVTSDIYAPVDGKIAKILISAKQEIKVGDVVIEIDDGKGEATAEPEKKSSSNVQPVEENASVVGATPVSNDLISRDTNRNVATKQTISNQASIIDNSHVDVKASPLARKIAAVMGVDLSKVTPTGPNGRILANDIQSFAANPAKSAPVAFVGGASAKQQIDYSNPLISVPEINEPLTFESKP;locus_tag=LOCUS_17090;note=WP_011166464.1 dihydrolipoamide acetyltransferase family protein (Mycoplasma mycoides) [pid:56.6%25%2C q_cov:100.0%25%2C s_cov:47.7%25%2C Eval:2.8e-51%2C partial hit],internal stop codon at [1008136:1008138](-),MGA_1711
sequence1	MetaGeneAnnotator	CDS	1008824	1009072	.	-	0	ID=MGA_1712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFESVKKTGRLLVVHEAIRSFSVSAEIIASVNEECFEYLKAPLSRCTGYDIVIPFDSGEAFHQPHPKKILVKMEDLLNYKF;locus_tag=LOCUS_17100;note=WP_011166463.1 alpha-ketoacid dehydrogenase subunit beta (Mycoplasma mycoides) [pid:75.6%25%2C q_cov:100.0%25%2C s_cov:24.9%25%2C Eval:3.7e-32%2C partial hit],internal stop codon at [1009082:1009084](-),MGA_1712
sequence1	MetaGeneAnnotator	CDS	1009082	1009522	.	-	0	ID=MGA_1713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRMRNRTRGKYPTPVVIRMPMGGGIRALELHSEAMEAIYAHTPGIKVVCPSTPYDTKGLILAAIESPDPVIVFEPTKLYRAFKQEVPEGFYTVEIGKGFKIQEGNDLTVVTYGAQTVDCQKAIEELESKNPDITIELIDLRSIQP;locus_tag=LOCUS_17110;note=WP_011182937.1 alpha-ketoacid dehydrogenase subunit beta (Mesoplasma) [pid:78.8%25%2C q_cov:100.0%25%2C s_cov:44.4%25%2C Eval:9.6e-64%2C partial hit],internal stop codon at [1009082:1009084](-)%2C[1009550:1009552](-)%2C[1009751:1009753](-),MGA_1713
sequence1	MetaGeneAnnotator	CDS	1010020	1010229	.	-	0	ID=MGA_1714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVYAVASEAIEYARKGNGPVFIECDTYRLGAHSSSDNPLIYRPQNEFDEALTKDPLIRLKQYLINKKS;locus_tag=LOCUS_17120;note=WP_011166462.1 pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha (Mycoplasma mycoides group) [pid:70.6%25%2C q_cov:98.6%25%2C s_cov:18.4%25%2C Eval:1.2e-22%2C partial hit],internal stop codon at [1009954:1009956](-)%2C[1010020:1010022](-)%2C[1010332:1010334](-),MGA_1714
sequence1	MetaGeneAnnotator	CDS	1010332	1010577	.	-	0	ID=MGA_1715;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNEYGGRSPEGVNSLPPNIIIGSQYSQATGIAFAEKYKKTGGVAVTTTGDGGMSEGETYEAMNFAKLHELPVIFICENNK;locus_tag=LOCUS_17130;note=WP_011182936.1 pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha (Mesoplasma florum) [pid:83.8%25%2C q_cov:98.8%25%2C s_cov:21.6%25%2C Eval:1.9e-33%2C partial hit],internal stop codon at [1010332:1010334](-)%2C[1010578:1010580](-)%2C[1010620:1010622](-)%2C[1010653:1010655](-),MGA_1715
sequence1	MetaGeneAnnotator	CDS	1010653	1010922	.	-	0	ID=MGA_1716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFIGKFDPLKNEIVEIMDKNGKIINESLMPKISDKELIEAYKLMNLSRRQDDFQNKAQRQGRLLSFLSSTGQEASEIGFTLPLIKGKD;locus_tag=LOCUS_17140;note=WP_011182936.1 pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha (Mesoplasma florum) [pid:74.4%25%2C q_cov:92.1%25%2C s_cov:22.2%25%2C Eval:5.8e-30%2C partial hit],internal stop codon at [1010578:1010580](-)%2C[1010620:1010622](-)%2C[1010653:1010655](-),MGA_1716
sequence1	MetaGeneAnnotator	CDS	1011220	1011441	.	-	0	ID=MGA_1717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRAKIIAKNIQSISARVTNVNSEIEEKIEISYFMDKLIETYKKMDVVNPLVLEKDDLAAIDKLFREKFSNPD;locus_tag=LOCUS_17150;note=MGA_1717
sequence1	MetaGeneAnnotator	CDS	1011520	1011771	.	-	0	ID=MGA_1718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNAERDSVNIIRRNTGGGTVFQDLGNMNFSIIYTDIENKGVSLFSSMLSPVINTLNELGAPAVFSGRNDIELNGKKISGNAM;locus_tag=LOCUS_17160;note=WP_011182935.1 lipoate--protein ligase (Mesoplasma florum) [pid:55.7%25%2C q_cov:95.2%25%2C s_cov:23.4%25%2C Eval:8.3e-16%2C partial hit],internal stop codon at [1011520:1011522](-)%2C[1011829:1011831](-),MGA_1718
sequence1	MetaGeneAnnotator	CDS	1012076	1012537	.	+	0	ID=MGA_1719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLQHLSKKRLILVDLDGTVLAENGEEIHPKTKEVLNKAMKDGHEVCIITGRPHRASIRFYKELGLTTLLTNFDGAHIHDPLKRRFKRIVLPISEEIVLQIINNPAIKNKCSNILIESYNKAIVQHKDEFVEKFFHLDDVEDDDYFISDPYNN;locus_tag=LOCUS_17170;note=WP_011166439.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:51.9%25%2C q_cov:100.0%25%2C s_cov:53.2%25%2C Eval:1.4e-39%2C partial hit],internal stop codon at [1012535:1012537](+),MGA_1719
sequence1	MetaGeneAnnotator	CDS	1012580	1012948	.	+	0	ID=MGA_1720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKDNVLRALEKFKHTVKIQSGNAYGNLTKQSTAMITLTNKIVNKGFVSEILAQYYNKDIRDVIAFGDQMNDYEMIQKVGYGVAMKNGNSELKNIADGITILSNNEGGVGDYLEKLLNGLEV;locus_tag=LOCUS_17180;note=WP_011166439.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:59.2%25%2C q_cov:98.4%25%2C s_cov:41.0%25%2C Eval:4.3e-33%2C partial hit],internal stop codon at [1012535:1012537](+),MGA_1720
sequence1	MetaGeneAnnotator	CDS	1012954	1013301	.	+	0	ID=MGA_1721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNIVMQGEIMKLENKKYLLDSNKEVQLNELVGEKGLIMFFYPKAHTSGCILEVQEYEKRNIEFKDLGFNIVGVSGDDVENQNSFSCDYVLNYPLIADVNRELIANFNLEAETTT;locus_tag=LOCUS_17190;note=WP_011166264.1 peroxiredoxin (Mycoplasma mycoides group) [pid:52.0%25%2C q_cov:85.2%25%2C s_cov:67.1%25%2C Eval:5.3e-23%2C partial hit],internal stop codon at [1013299:1013301](+),MGA_1721
sequence1	MetaGeneAnnotator	CDS	1014510	1014689	.	-	0	ID=MGA_1722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSDFKNGNNNILNFLKSGGSKEPLDILKDVGVDFEKEETYLPLVNEISYLIEELKKLI;locus_tag=LOCUS_17200;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:58.3%25%2C q_cov:100.0%25%2C s_cov:10.1%25%2C Eval:2.3e-13%2C partial hit],internal stop codon at [1014765:1014767](-),MGA_1722
sequence1	MetaGeneAnnotator	CDS	1014765	1015004	.	-	0	ID=MGA_1723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNQANEKNEKIYLLQQRIFDLNSTFYRQIQFADFEYSAHKLVENSEPITTKTLMELFKTKQIEFGYDIFDDNQLDVYN;locus_tag=LOCUS_17210;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:60.6%25%2C q_cov:89.9%25%2C s_cov:11.9%25%2C Eval:1.8e-18%2C partial hit],internal stop codon at [1014765:1014767](-)%2C[1015164:1015166](-),MGA_1723
sequence1	MetaGeneAnnotator	CDS	1015164	1015694	.	-	0	ID=MGA_1724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDSDPILEQNLRQNAEKLYFSNFTKRKHSFSKIYEAILQKQIENKNIRKYNNILEMALFNDEVNSNIYLKLIEIGKKYINEFKKYNLLIKEKYNLKTFNSTDRKLKLVQNYDKDFSVEEAIKISKEALKPLGEIYISKLNIALKENLIDFYESQNKVQGAYSSGGNGIEPIILMN;locus_tag=LOCUS_17220;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:47.2%25%2C q_cov:100.0%25%2C s_cov:29.5%25%2C Eval:9.6e-42%2C partial hit],internal stop codon at [1015164:1015166](-)%2C[1015923:1015925](-),MGA_1724
sequence1	MetaGeneAnnotator	CDS	1015675	1016031	.	+	0	ID=MGA_1725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSESSIIFLYTKLFNSFISLFNSIFSISLSAYANESYKLPTALLLLDILFINSSSDSDKTYFDSLKKCLKKYANSLYSEFKIQFEIIFSPILLSSFEINEVLIFEICSKFSIIEFNS;locus_tag=LOCUS_17230;note=MGA_1725
sequence1	MetaGeneAnnotator	CDS	1015923	1016150	.	-	0	ID=MGA_1726;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRNFFYYYLKLEKEKNLLIVKLSHYLHLLDIDQTNFEFQELNSIMENFEQISNIRTSFISNELKSIGEKIISN;locus_tag=LOCUS_17240;note=MGA_1726
sequence1	MetaGeneAnnotator	CDS	1016325	1016522	.	-	0	ID=MGA_1727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQCSKVADLANSEPGREAGSSTAAAFLDSFAESKEYIHLDIAATADRNKRGRAPMLKTMFELLNK;locus_tag=LOCUS_17250;note=WP_011166365.1 M17 family metallopeptidase (Mycoplasma mycoides) [pid:59.3%25%2C q_cov:90.8%25%2C s_cov:13.1%25%2C Eval:2.6e-14%2C partial hit],internal stop codon at [1016556:1016558](-)%2C[1016637:1016639](-),MGA_1727
sequence1	MetaGeneAnnotator	CDS	1016637	1017665	.	-	0	ID=MGA_1728;product=M17 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182968.1;translation=MININKGNHSLTLSAVSSKDKLNELVIKESGVASLISEDKKIYFYLADNVSIDQLESNLERFINSNKYNLNVDVDSFLKIFNNKEEVFQKVIETIIFASHKAIVFKKEEEVKEISYNFIIDEKFNDLLNISLIKMEYLNFARDLQDLPPNIGTSIAIADKISSKAKEINGIKVTIYNKKQIEEMGMGLLLAVNAGSNVEPRVVVLEYNSDSSQKRTALVGKGITFDTGGYNLKPSNFLENMKFDMSGAAIVSSTVMALAKAKAKCNVVSIAMLTDNRIGGSATLTESVIKSMNGQTVEITNTDAEGRLVLADGITYAIRNEKAERAITVATLTGAIAIALGR;locus_tag=LOCUS_17260;note=WP_011182968.1 M17 family metallopeptidase (Mesoplasma florum) [pid:53.5%25%2C q_cov:99.7%25%2C s_cov:76.7%25%2C Eval:4.0e-94],internal stop codon at [1016556:1016558](-)%2C[1016637:1016639](-),MGA_1728
sequence1	MetaGeneAnnotator	CDS	1017722	1018246	.	-	0	ID=MGA_1729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYKDISEQYCKKIIQELIEKNKKIDIMELAKNKVAGVYLLYSIENKNLNFTYVGESKDLGQRIKQHLRNFNSKNRLYSKMRKKIISSNQINFLILDEIEDQNLRLMKETYYIYIFKSKFFNLNSKLVNKKLKCPNGHGNTRSYMTYDKNSLNLLIYIYGKCKNNECKEIFIIN;locus_tag=LOCUS_17270;note=MGA_1729
sequence1	MetaGeneAnnotator	CDS	1018378	1019001	.	-	0	ID=MGA_1730;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEELMAAVDAYIPTPARDTDKTFLMPVEDVFTITGRGTVATGRVERGIVKVNEEVEIVGLVEDSKKVVVTGLEMFRKLLDQAQAGDNVGALLRGVDRNDIERGQVLAKPGTIKPHTKLNASVYALTQEEGGRHKPFFNKYRPQFYFRTTDVTGEVHLPTGIDMVLPGDNVELVIELIKPIAVEQGTKFSIREGGRTIGAGTVVSIVD;locus_tag=LOCUS_17280;note=WP_011183518.1 elongation factor Tu (Mesoplasma florum) [pid:87.3%25%2C q_cov:99.0%25%2C s_cov:52.0%25%2C Eval:1.8e-99%2C partial hit],internal stop codon at [1019011:1019013](-),MGA_1730
sequence1	MetaGeneAnnotator	CDS	1019011	1019583	.	-	0	ID=MGA_1731;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGMKNMAKEAFDRSLPHVNIGTIGHVDHGKTTLTAAITKVLAAKGGAEFKDYANIDNAPEERERGITINTSHVEYKTENRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLSRQVGVPAITVFLNKCDMVDDEELIDLVEMEVRDLLSAYDFDGDGAPVIRGSALGALNGDAK;locus_tag=LOCUS_17290;note=WP_011183518.1 elongation factor Tu (Mesoplasma florum) [pid:96.7%25%2C q_cov:96.8%25%2C s_cov:46.7%25%2C Eval:7.0e-100%2C partial hit],internal stop codon at [1019011:1019013](-),MGA_1731
sequence1	MetaGeneAnnotator	CDS	1019670	1020104	.	-	0	ID=MGA_1732;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNGVIAGFPMIDVKATIVDGSYHDVDSNEMAYKIAASLALKEAAKRTNPVLLEPIMSVEVTVPDEYYGDVMGNISSKRGLIEGSEQRGNAQTVKSKVPLSEMFGYATELRSFTQGRGNYTMIFSHYNEVPKSIAEEIIKKSGK;locus_tag=LOCUS_17300;note=WP_011183519.1 elongation factor G (Mesoplasma) [pid:88.9%25%2C q_cov:100.0%25%2C s_cov:20.9%25%2C Eval:1.1e-69%2C partial hit],internal stop codon at [1020177:1020179](-),MGA_1732
sequence1	MetaGeneAnnotator	CDS	1020177	1021331	.	-	0	ID=MGA_1733;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKIGADFLYSVKTIGDRLGAKAAPIQLPMGAEDQFSGIIDLVEMEAWGFDGEADEIATKIEIPSDLKDLAEELRSKLIEVAVEYDEELMMKFLDGGEITIPELKSAIRKGVISAEFFPVLAGSAFKNKGVKLLLNAVVDYLPSPLDVPAINGTLLNGEAAIRHSSDTEPFSALAFKIMTDPFVGKLTFFRVYSGILTKGSYVLNATKDKKERVGRLLKMHANNREEIEEVYAGDIAAAVGLKDTTTGDTLSDEKNSIILESMVFPEPVIHLALEPKTKADQEKLGISLNKLSEEDPTFRTYTDEETGQTIIAGMGELHLDIIVDRLRREFKVETNVGVPQVSYRETIKQATKAEGKYVKQSGGRGQYGHVVIEFEPNHDKGFE;locus_tag=LOCUS_17310;note=WP_011183519.1 elongation factor G (Mesoplasma) [pid:85.4%25%2C q_cov:100.0%25%2C s_cov:55.7%25%2C Eval:4.0e-186%2C partial hit],internal stop codon at [1020177:1020179](-)%2C[1021380:1021382](-)%2C[1021524:1021526](-)%2C[1021584:1021586](-),MGA_1733
sequence1	MetaGeneAnnotator	CDS	1021584	1021739	.	-	0	ID=MGA_1734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPREYSLEMTRNFGIMAHIDAGKTTTTERILFHTGKIHKIGETHEGESQMD;locus_tag=LOCUS_17320;note=WP_011183519.1 elongation factor G (Mesoplasma) [pid:92.2%25%2C q_cov:100.0%25%2C s_cov:7.4%25%2C Eval:2.9e-21%2C partial hit],internal stop codon at [1021380:1021382](-)%2C[1021524:1021526](-)%2C[1021584:1021586](-),MGA_1734
sequence1	MetaGeneAnnotator	CDS	1021766	1021888	.	-	0	ID=MGA_1735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDRLANEIIDASNGVGGSVKKREDTHKMAEANKAFAHYR;locus_tag=LOCUS_17330;note=WP_003403456.1 30S ribosomal protein S7 (Mycobacterium) [pid:85.0%25%2C q_cov:100.0%25%2C s_cov:25.6%25%2C Eval:7.7e-14%2C partial hit],internal stop codon at [1021925:1021927](-),MGA_1735
sequence1	MetaGeneAnnotator	CDS	1021925	1022230	.	-	0	ID=MGA_1736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKHQAEKRDVLPDPVYNSKLVTRAVNKIMLDGKRGTAQTILYKSFDKIKEKTGSNPIEVFDKAMENIKPHLELKVRRIGGANYQIPVEVSGDRKVTLALR;locus_tag=LOCUS_17340;note=WP_011183520.1 30S ribosomal protein S7 (Mesoplasma) [pid:82.2%25%2C q_cov:100.0%25%2C s_cov:65.2%25%2C Eval:3.5e-43%2C partial hit],internal stop codon at [1021925:1021927](-),MGA_1736
sequence1	MetaGeneAnnotator	CDS	1022278	1022616	.	-	0	ID=MGA_1737;product=30S ribosomal protein S12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008362393.1;translation=MNTLLKKVTRLSAPQKRGVCTRVATMTPKKPNSALRKYARVRLTNGMEVTAYIPGEGHNLQEHSVVLIRGGRVKDLPGVRYHIIRGTLDTTGVNGRMQSRSLYGTKRPKEKK;locus_tag=LOCUS_17350;gene=rpsL;note=WP_008362393.1 30S ribosomal protein S12 (Mycoplasma mycoides group) [pid:86.6%25%2C q_cov:100.0%25%2C s_cov:80.6%25%2C Eval:9.4e-52],internal stop codon at [1022647:1022649](-),MGA_1737
sequence1	MetaGeneAnnotator	CDS	1022794	1023159	.	-	0	ID=MGA_1738;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSNELLKKFDELQLLNDPQKIFNSTNNFLIKISQMSAELAFTKLMENLIEFNQSYQQSYQKFATSIEDEFTPKRMKLLMEYINAYYLFNFLLELILIYPLQEEMMTKEAFDNILPNIIMY;locus_tag=LOCUS_17360;note=MGA_1738
sequence1	MetaGeneAnnotator	CDS	1023334	1023558	.	-	0	ID=MGA_1739;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYRKETFMKEIKPINYENLIITKVNNVYQNFKMNVNKDFEIPELIKDFFVKNPQLQKKEDIENLGISLDKTFND;locus_tag=LOCUS_17370;note=MGA_1739
sequence1	MetaGeneAnnotator	CDS	1023822	1024049	.	+	0	ID=MGA_1740;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDSIVANPTSKHVILQLYFEDNLQIQGQQKNNDSRESNFVVVFVKKQQQSIPKPQMNKKVERKQSNIEDLIDNN;locus_tag=LOCUS_17380;note=MGA_1740
sequence1	MetaGeneAnnotator	CDS	1024083	1024748	.	+	0	ID=MGA_1741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKEEKKNLNINLKKTNPTTTNKPAEKPNIDVRNINKFEPPKEETIRALPKENNKVEITKNNNINYIQVPIFKPEPEKIVEPPSINLNLHFKPEPPKKEIIFEDKIFYGLSAFDLYYIEAFLTDAIIKERKFKTKIDYIKQKVRLKADIKYLEEKQNTNIAITILILLSCLIIIGIIILAIKAKNKIRKKAIKIYNENLKMKGYDNLKKELKEKYSKIIDF;locus_tag=LOCUS_17390;note=MGA_1741
sequence1	MetaGeneAnnotator	CDS	1024786	1024986	.	-	0	ID=MGA_1742;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAQSKEDFKAVLNEFKSKKNDQEILIEKAKESIKRAKIDLKIKKRELKNISSEAKIAKSNYKKQSL;locus_tag=LOCUS_17400;note=MGA_1742
sequence1	MetaGeneAnnotator	CDS	1025205	1025537	.	-	0	ID=MGA_1743;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKISTKQIVLCGFLTTIMFIIGFIVITFSNITGKSILQFSDIIFLSLFKIINPLTLITSSVISGILIDLYSGGIIFIPITIIIKILIGVSFLFFRKIINQYFAVFICYL;locus_tag=LOCUS_17410;note=MGA_1743
sequence1	MetaGeneAnnotator	CDS	1025524	1026231	.	-	0	ID=MGA_1744;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFDITDFIEIDEAFNYFLISKEKNTILNKLTDYINNDGLIFLPKVSEILQEAFPFLINNNLKIEVVNKSIELSNCVNKMIFNSIKNRKSKRLFLEINFCKNLKNINLAKKMITEINSFIYKYNIQKIYSQKTFVYLNFDSNFIGTIDLILQNEEKIFIMDIKTSKVNFIEKYIFQLFLHKKMFEYSSNLKVEDCLILNPRENQVLMKYSEPIKKEQSRISTLINNLLKEKNEKN;locus_tag=LOCUS_17420;note=MGA_1744
sequence1	MetaGeneAnnotator	CDS	1026273	1028000	.	-	0	ID=MGA_1745;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLKNLNPKQLKKVLDFNNKVLNSNEMARNLNIPEFYQMSYLIIGELSNKNDINLNFEVSEINSNKKEDVLFQEEITLESKSFNSTSNSFIKEQDIKSIDEEDEIYNSYSQMDEEINKLLSSEVKTSTIMKGFDDKFVLSKMKRAINMDLNQLLKIDSSFTNEQEMLEDFGFRNFEIINNSYENSFQFTLIENLKENNEVLNGKNLQKNLNESFIQNNKLLPEIIEIKNLNEELIIEEEQNDALNVNFNQLEINSLISSNINEIYEDFNFEQPDLTLDVFNQQDLEKNVNKSLFANKIDFVATAKPIIDQNNLEFEEKEFEEFIIPNSKKTKSKIENSEDKFAIENMARAINIDLNQLNESYVSNLKEHEIYNDFKIEDELLASEMLIKQLENTKKYKIDLLLKQNIKEGTSSSLLENQNLDQIKKETSLIQEKLVNNISLSENENTELQFIEDSNLENILLDQKENKLYENEIELEDFDDNFINIEFNNSSELEEVCFCEEKNEKLQNIEERITSLEKLIYSIDIEYENKKIHDEFMKLSQKIELLSKTINELENSNPKSIIDSLTIRHVYNKK;locus_tag=LOCUS_17430;note=WP_010889665.1 chromosome segregation SMC family protein (Borreliella burgdorferi) [pid:24.0%25%2C q_cov:94.1%25%2C s_cov:66.9%25%2C Eval:1.2e-14%2C partial hit],MGA_1745
sequence1	MetaGeneAnnotator	CDS	1028049	1028492	.	-	0	ID=MGA_1746;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVISIIELLRMKKAQKISKPFIKVYIVIISVLSLLVGQVILIIGGTLLLFTFVLLEVLLFDSEALNNFAEERNLIAIYKEERKFEREVSKEGKLIDSTDLIQKNQINFQSKIEQEKVNDNLVLSVENQKDLDKYFKNSKLKNNYFK;locus_tag=LOCUS_17440;note=MGA_1746
sequence1	MetaGeneAnnotator	CDS	1028789	1029490	.	-	0	ID=MGA_1747;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIQEFKNLFFDYQFNKTIDLFILDFEKIPKEKIFLILNFLTELVVNIPNIRISLNFKEENISLLNDLDCNIENILLIEKAMEVKIVKNDFNKNYFKSDIPHVLEEENFNIESPYLEELEFLNSNYFQNQKQENKISDLNNDYGINSNLRIRVNTVLEKQRIELEEQEKSEQLNRLSQNGNSNFNPFILRKENVENNKEENVFAKFRKDNLININNKSSNTNINNKGTSISGN;locus_tag=LOCUS_17450;note=MGA_1747
sequence1	MetaGeneAnnotator	CDS	1029593	1030246	.	-	0	ID=MGA_1748;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVNPFERMKKLKEEKEKKIYEVEKEKEKYARLGAQMGFTEDKEVVPSFIRDLIGEPRKINLPPFINNEDRSSQKDSVDLNQNLNFYSNSLEEFENKQKLEDFINSNEEDMLVLDFEDLDNSLKTNDINFNKEILEFNSYTELIKTRDYINKIFILVNEKQKFEKLVDNLNYENAFNEKIVIKINKIMMYSLPCLFLFKQIINSLPKQITVEDKKVL;locus_tag=LOCUS_17460;note=MGA_1748
sequence1	MetaGeneAnnotator	CDS	1031448	1031681	.	+	0	ID=MGA_1749;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSEIELKIIERISNRVIKIVKATFIVNFIFFPKIKGIKKIKISVSIKIAKAAHIKNSIDILVTITDGPKFFSIKIK;locus_tag=LOCUS_17470;note=MGA_1749
sequence1	MetaGeneAnnotator	CDS	1031862	1032062	.	-	0	ID=MGA_1750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALFAKDNGLFFYKVLFKNLEKLFLLNNNLVIISEFGFNQKEEIELLFNSKGVRYNLEFKKDFSNH;locus_tag=LOCUS_17480;note=WP_164919798.1 peptide chain release factor N(5)-glutamine methyltransferase (Mesoplasma florum) [pid:37.3%25%2C q_cov:100.0%25%2C s_cov:23.4%25%2C Eval:1.3e-08%2C partial hit],internal stop codon at [1031862:1031864](-)%2C[1032063:1032065](-),MGA_1750
sequence1	MetaGeneAnnotator	CDS	1032063	1032653	.	-	0	ID=MGA_1751;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFDLKIKYVPSIISEDNFKKIILFLKNKAFFISDDTLNPKEFKKFLNIINKVSRTKKPLAYIINKKFFYKSDFFINKNVLIPRYETELIVEEVLKFDLVNKNVLDLCCGSGCIGISLKQEFNDINLYLSDYSKSALKVCKKNLRIKKMKAKIFYSNFLDFIFEKNLKMDFILINPPYINKNDINIEKNVKLFEP;locus_tag=LOCUS_17490;note=WP_164919798.1 peptide chain release factor N(5)-glutamine methyltransferase (Mesoplasma florum) [pid:40.6%25%2C q_cov:93.9%25%2C s_cov:67.8%25%2C Eval:1.3e-30%2C partial hit],internal stop codon at [1031862:1031864](-)%2C[1032063:1032065](-),MGA_1751
sequence1	MetaGeneAnnotator	CDS	1032655	1033239	.	-	0	ID=MGA_1752;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKGDKVYSKMKFESGSHRVQRVPKTESKGRIQTSTATVAVLAEISEVEVEIKPSDLRIDTYRSSGAGGQHVNTTDSAVRITHIPTGIVAASQDGRSQHDNKDKAMTMLRARIYEAKLEEQQSEAASVRKTAVGTGARSEKIRTYNYAQNRITDHRINLTLNKLDQVMEGNLEEIITELINNEQKNIIAQQIEV;locus_tag=LOCUS_17500;note=WP_011183530.1 peptide chain release factor 1 (Mesoplasma florum) [pid:78.8%25%2C q_cov:99.5%25%2C s_cov:53.2%25%2C Eval:4.8e-83%2C partial hit],internal stop codon at [1033300:1033302](-),MGA_1752
sequence1	MetaGeneAnnotator	CDS	1033300	1033740	.	-	0	ID=MGA_1753;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKTQEALDIMEKRVSIIEENLQSEEILKDIKLLKELNKEKANLEDIVIKYQVYKKLFNDISDAKSLLETEKDEEMRDFVKSQLEESQSKIEEIEGEIELLLLPKDPNDDKNVIFEIRGAAGGDEANIFAGDLFRLYLKFAEKNN;locus_tag=LOCUS_17510;note=WP_011183530.1 peptide chain release factor 1 (Mesoplasma florum) [pid:52.7%25%2C q_cov:100.0%25%2C s_cov:40.2%25%2C Eval:4.7e-34%2C partial hit],internal stop codon at [1033300:1033302](-),MGA_1753
sequence1	MetaGeneAnnotator	CDS	1033756	1034298	.	-	0	ID=MGA_1754;product=thymidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183531.1;translation=MFAGKTEEFIRRLKRYQYAKQNVLVFKPLIDRRYSINDVFSHSGLSIESIPVENSEKLKEIVNLKNQEKSIDIIGVDEVQFLDTNIVEVLSSIADEGIIVVVNGLDKDFKNNPFQNVDRLLVQAEYVDKLTSICHVCGGNANRTQRIINGKPAKANEPIIVISAIEKYEARCRHCYIKPK;locus_tag=LOCUS_17520;EC_number=2.7.1.21;note=WP_011183531.1 thymidine kinase (Mesoplasma florum) [pid:58.0%25%2C q_cov:97.8%25%2C s_cov:86.7%25%2C Eval:3.5e-58],MGA_1754
sequence1	MetaGeneAnnotator	CDS	1034420	1034905	.	-	0	ID=MGA_1755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKISKKAATFLYYGLVTDSGRFLFNKVNSQTFYAAQILIKRGININEVYNSLYLRTLEITRFHFDIFNKAIFSKNNEIAYIKLTRDFFEKTVLGEEEIKSCLNVLSGIKEVKIWFLAYESVKNENIKISLRSREFDVNHVAKMYNGGGHRLASGAKIKN;locus_tag=LOCUS_17530;note=WP_011183532.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Mesoplasma florum) [pid:44.7%25%2C q_cov:98.8%25%2C s_cov:49.7%25%2C Eval:3.1e-30%2C partial hit],internal stop codon at [1034420:1034422](-)%2C[1034915:1034917](-),MGA_1755
sequence1	MetaGeneAnnotator	CDS	1034915	1035190	.	-	0	ID=MGA_1756;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNFKNKKIYIVGEQLNLGIRDFDEKELNQEIIKKSLLISVDVANFERIDFEFKDQVKEIFKIDHHLEIDDFAKNKLVDISAIACTQIITI;locus_tag=LOCUS_17540;note=WP_011166350.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Mycoplasma mycoides) [pid:45.1%25%2C q_cov:98.9%25%2C s_cov:28.8%25%2C Eval:1.6e-16%2C partial hit],internal stop codon at [1034915:1034917](-)%2C[1035230:1035232](-),MGA_1756
sequence1	MetaGeneAnnotator	CDS	1035327	1035641	.	-	0	ID=MGA_1757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPYSYDGKIINIFGEKVKIESTIFKNSGKILFDPFKIVLHKKESKNIIIQMYGSAKKIDYFNDKNIYEFTSNNNKLIFYSTEKLNDDQKINIYISEDSILEVL;locus_tag=LOCUS_17550;note=MGA_1757
sequence1	MetaGeneAnnotator	CDS	1035678	1035848	.	-	0	ID=MGA_1758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELVKAIENLKKINKKFSIIFLEKDLKNIVDLKSKINLLNDKSVIEIGYSELLKKY;locus_tag=LOCUS_17560;note=MGA_1758
sequence1	MetaGeneAnnotator	CDS	1035954	1036136	.	-	0	ID=MGA_1759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHRYHKKILNNELEEGNSIEFKNKKNKLKKTIRSIYSQADSYIVETLKNLEISFDFISLK;locus_tag=LOCUS_17570;note=MGA_1759
sequence1	MetaGeneAnnotator	CDS	1036248	1036517	.	-	0	ID=MGA_1760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLCTCEYNAKKTKDKSIKKLSSQLNFHQINFVIRKQLKIIDLKVTAIKRKIAKNKFILKNLKKQILFEMGKFNLKYKKLKDLEEIFS;locus_tag=LOCUS_17580;note=WP_020862530.1 hypothetical protein (Mycoplasma mycoides) [pid:34.3%25%2C q_cov:78.7%25%2C s_cov:11.1%25%2C Eval:1.8e-07%2C partial hit],internal stop codon at [1036248:1036250](-)%2C[1036542:1036544](-)%2C[1036707:1036709](-),MGA_1760
sequence1	MetaGeneAnnotator	CDS	1036542	1036694	.	-	0	ID=MGA_1761;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNIVNFNEINLEKEYPNLENYIKIIIKDYYYLVEKTLNFELFQTFLQNL;locus_tag=LOCUS_17590;note=MGA_1761
sequence1	MetaGeneAnnotator	CDS	1036707	1036856	.	-	0	ID=MGA_1762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKINYINDKYSYLSFSTSKNNETDLEMRKKIENMVSKFINSSIEIEEQ;locus_tag=LOCUS_17600;note=MGA_1762
sequence1	MetaGeneAnnotator	CDS	1036962	1037171	.	-	0	ID=MGA_1763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYFIKNAKFINKKVNPKVITFEALESNLTTVLSYDSELLKNFKNILQGKYSVKDGIFKIDNFDKVNKQ;locus_tag=LOCUS_17610;note=MGA_1763
sequence1	MetaGeneAnnotator	CDS	1037263	1037547	.	-	0	ID=MGA_1764;product=50S ribosomal protein L31;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183534.1;translation=MPKSNIHPQYFEAKFVCTTCNNEFISGSTKSEEVRIDTCSNCHPYYTGKQNFANAEGRVEKFKEKFAKKEAKAAEVEKESAAQKAENAKKSTKK;locus_tag=LOCUS_17620;gene=rpmE;note=WP_011183534.1 50S ribosomal protein L31 (Mesoplasma) [pid:53.4%25%2C q_cov:92.6%25%2C s_cov:95.7%25%2C Eval:5.9e-22],MGA_1764
sequence1	MetaGeneAnnotator	CDS	1038324	1038479	.	-	0	ID=MGA_1765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILYLSKMKYLKTNYLRVIVKILLFLLGFILSTLGIAMYISSTIGASQID;locus_tag=LOCUS_17630;note=MGA_1765
sequence1	MetaGeneAnnotator	CDS	1038581	1038736	.	-	0	ID=MGA_1766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQINVSMTLGVLIMHLNVEEKIKIIEDFKKSGVSASQFAPTRNVSVVSLRN;locus_tag=LOCUS_17640;note=MGA_1766
sequence1	MetaGeneAnnotator	CDS	1038753	1039016	.	-	0	ID=MGA_1767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLHGGSGIPQDQIEKSIKLGISKINVNTELQLSFRDATRSYIEDKKDLDDERKGFDPRKLLAPGYKALKETFMELTKIFGCQGRAK;locus_tag=LOCUS_17650;note=WP_011166343.1 class II fructose-1%2C6-bisphosphate aldolase (Mycoplasma mycoides) [pid:75.9%25%2C q_cov:100.0%25%2C s_cov:29.3%25%2C Eval:6.0e-35%2C partial hit],internal stop codon at [1039071:1039073](-)%2C[1039074:1039076](-),MGA_1767
sequence1	MetaGeneAnnotator	CDS	1039074	1039460	.	-	0	ID=MGA_1768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGLKTIVGMVNGLLEDLNITTPVALHLDHGQSLEMAKKCIEAGYSSVMFDGSHLPYEENIVKVKELMNFANEHEVSVEAEIGSIGGEEDGVVGEGELGDPNQAAEMSTTGISMLAAGIGNIHGKYPE;locus_tag=LOCUS_17660;note=WP_011183540.1 class II fructose-1%2C6-bisphosphate aldolase (Mesoplasma florum) [pid:78.9%25%2C q_cov:100.0%25%2C s_cov:43.2%25%2C Eval:2.2e-53%2C partial hit],internal stop codon at [1039071:1039073](-)%2C[1039074:1039076](-)%2C[1039539:1039541](-),MGA_1768
sequence1	MetaGeneAnnotator	CDS	1039712	1040158	.	-	0	ID=MGA_1769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVACIEFARNVLNFSDANTTELNENTLHPIIHILEGKNKENIGGTLRLGRYKTTLKENSLAANLYKTNFAIERHRHRYEFNNDFKKIFEEAGMIFSGIYDEKELVEIIELSENDFFIAVQYHPEFTSRPNRPNPLFLGFVKAIAKNS;locus_tag=LOCUS_17670;note=WP_011166338.1 CTP synthase (Mycoplasma mycoides) [pid:57.4%25%2C q_cov:100.0%25%2C s_cov:27.8%25%2C Eval:1.5e-48%2C partial hit],internal stop codon at [1040324:1040326](-),MGA_1769
sequence1	MetaGeneAnnotator	CDS	1040477	1041307	.	-	0	ID=MGA_1770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKHIFITGGVVSGLGKGITGSSLGVLLKQSGLKVFMQKFDPYLNIDPGTMNPIEHGEVFVTDDGGETDLDLGHYERFIDVNLSKTSSTSAGKIYSEALDAERQGKYLGKTVQVIPHITNLIKEKIYKVEKENAADVIISEIGGTVGDIESQPFIEAIRQVRMEKGKENVMFIHVALLPFLSISSEFKTKPIQHSVKEMLSLGIQPDVIVARSEKEFDDKLKDKISSFCNVPKENVINCPDSNSIYKVPLLIEKTNLHKIVAKQLDLKLGELNISD;locus_tag=LOCUS_17680;note=WP_011183544.1 CTP synthase (Mesoplasma florum) [pid:69.0%25%2C q_cov:97.1%25%2C s_cov:50.4%25%2C Eval:2.4e-104%2C partial hit],internal stop codon at [1040324:1040326](-)%2C[1040477:1040479](-),MGA_1770
sequence1	MetaGeneAnnotator	CDS	1041852	1042316	.	-	0	ID=MGA_1771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKDGYKFKNEYYLIFLKDLMDEKILSLENYLRLDDYTMFEIIKNTKEEDDFILSDLSNRLITRKFLSAKIDIGEEEFNFKKNNFKYDFRYYFNIIKTKNIFIYREEKSAKDENIYILRSDNELIKLSEISKILNINMENINKNIYIFPKYNVE;locus_tag=LOCUS_17690;note=WP_011166336.1 HD domain-containing protein (Mycoplasma mycoides) [pid:35.0%25%2C q_cov:97.4%25%2C s_cov:38.9%25%2C Eval:2.3e-16%2C partial hit],internal stop codon at [1042335:1042337](-)%2C[1042491:1042493](-),MGA_1771
sequence1	MetaGeneAnnotator	CDS	1042491	1043045	.	-	0	ID=MGA_1772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIIRDNVHGEIVIEDKIFLDLINSPEFQRLRRIIQLGGGQFVFPGANHTRFSHCIGVYHIISKFLNNVSFSSQLSEHEKRIVKIAGLLHDLGHGPFSHTFESISNQKHENYTLDIILGDTNINKILKKYTIDPNEIVLIIDGKHTNQILNLLVSSQLDADRLDYLLRDGVNIGVSYSKIDLN;locus_tag=LOCUS_17700;note=WP_011183546.1 HD domain-containing protein (Mesoplasma florum) [pid:59.6%25%2C q_cov:98.9%25%2C s_cov:45.3%25%2C Eval:1.6e-61%2C partial hit],internal stop codon at [1042335:1042337](-)%2C[1042491:1042493](-),MGA_1772
sequence1	MetaGeneAnnotator	CDS	1043056	1043283	.	-	0	ID=MGA_1773;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMIYFKSQIQNLNSFEEEELKDLIKKTGEKFSLKGKELFMPIRIFTTLSEHGPELAKTIKLIGKQKILKNIDSIN;locus_tag=LOCUS_17710;note=WP_011166335.1 glutamate--tRNA ligase (Mycoplasma mycoides) [pid:52.9%25%2C q_cov:93.3%25%2C s_cov:14.5%25%2C Eval:2.7e-14%2C partial hit],internal stop codon at [1043290:1043292](-)%2C[1043425:1043427](-)%2C[1043518:1043520](-)%2C[1043533:1043535](-),MGA_1773
sequence1	MetaGeneAnnotator	CDS	1043800	1044300	.	-	0	ID=MGA_1774;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIFADESFKKPKDGFGKYMQSQKFEIYKNYADKLIQLKKAYKCYCTPEELEKEREYQISKGIIAPQYSKKCLTRTDLKNVEKLSFNIRFNVKENRIFKINDIVRGEVEFNSKEIGDFVILKSNGIATYNFAVVIDDYDMKITHVVRGEEHISNTPKQVMIYEAFG;locus_tag=LOCUS_17720;note=WP_011166335.1 glutamate--tRNA ligase (Mycoplasma mycoides) [pid:61.8%25%2C q_cov:99.4%25%2C s_cov:35.2%25%2C Eval:1.9e-54%2C partial hit],internal stop codon at [1043518:1043520](-)%2C[1043533:1043535](-)%2C[1043644:1043646](-)%2C[1043800:1043802](-)%2C[1044301:1044303](-),MGA_1774
sequence1	MetaGeneAnnotator	CDS	1044301	1044492	.	-	0	ID=MGA_1775;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFRLRYAPSPTGFLHIGNTRTALMNFLYAKHYNGDFIVRIEDTDLERNVDGAIESQFDNMD;locus_tag=LOCUS_17730;note=WP_011183547.1 glutamate--tRNA ligase (Mesoplasma florum) [pid:88.9%25%2C q_cov:100.0%25%2C s_cov:13.1%25%2C Eval:5.5e-28%2C partial hit],internal stop codon at [1044301:1044303](-),MGA_1775
sequence1	MetaGeneAnnotator	CDS	1044479	1044958	.	-	0	ID=MGA_1776;product=2-C-methyl-D-erythritol 2%2C4-cyclodiphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002115651.1;translation=MFKVGFSKDMHNLIKGKYITLAGQKIECEFSIKAYSDGDVVFHALSEAILGALGKEDIGTYYNKENMPQNFSSLEIVDYVKNLLVLEKYCILNIDILIELDFPNLIEHKKLIKNNILEIFNLRENQVSIKATTTENNFPKLISCYCNLILKKEINNEKI;locus_tag=LOCUS_17740;gene=ispF;EC_number=4.6.1.12;note=WP_002115651.1 2-C-methyl-D-erythritol 2%2C4-cyclodiphosphate synthase (Acinetobacter) [pid:37.3%25%2C q_cov:83.6%25%2C s_cov:82.2%25%2C Eval:4.0e-19],MGA_1776
sequence1	MetaGeneAnnotator	CDS	1045032	1046129	.	-	0	ID=MGA_1777;product=redox-regulated ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183556.1;translation=MSLKVGIVGLPNVGKSTLFNAITNSKVEAANYPFATIEPNVGVVEVHDSRLDKLAEIFNSKKTIYTTIEFVDIAGLIAGASKGEGLGNAFLANIRETDAICQVVRCFDSKEITHVEGSVDPIRDIEIIELELILADETSVKKRLQKVEPKFKSTKDKEIIFEYNLLKKIETQLADGKLLNKLDFTDEEKIILKSFQLLTTKKIIYVVNVREEGLIDDNKYVNLVKEYAQKTFSPVVKICAKIEEELSELDAEEKSIFLNDLGVNESGLNLLTKASYSLLGLKTYFTCGPQEARGWQFKEGSTAPECAGIIHTDFEKGFIKADVYKCDDLFDLGDEQKLKNSGKIRLEGKNYLVQDGDVCLFKFNR;locus_tag=LOCUS_17750;gene=ychF;note=WP_011183556.1 redox-regulated ATPase YchF (Mesoplasma florum) [pid:68.4%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:3.4e-139],MGA_1777
sequence1	MetaGeneAnnotator	CDS	1046159	1047028	.	-	0	ID=MGA_1778;product=ParB/RepB/Spo0J family partition protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001185518.1;translation=MAMSKKRYNFKGLDDIFGESVSDIVGVIENDKKISDTNKKTINIDLLKPNPFQPRKLFENDELNELAESIKLHGIIQPIIINQDHQIIAGERRTRAAKIAGLKEIPVILLNITNTQMEEFAIIENIQRVDLLDIEEAVAYKKLSVNLNLKQEEIASRVGKSRSHVANIMRLLNLPEKIQNAMLEKKITMGQAKPLLSIINNIELLDDIFNKIIEKDLTSREVEALIKNKNKVSFVTENNKKPSVIFAENNLMRKLGTKVTIDNGKFIIRYSDEDDLNRIFEILGLIDEN;locus_tag=LOCUS_17760;note=WP_001185518.1 ParB/RepB/Spo0J family partition protein (Leptospira) [pid:39.4%25%2C q_cov:92.7%25%2C s_cov:97.3%25%2C Eval:4.8e-50],MGA_1778
sequence1	MetaGeneAnnotator	CDS	1047015	1047788	.	-	0	ID=MGA_1779;product=sporulation initiation inhibitor protein Soj;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003219244.1;translation=MAKIISISNQKGGVGKTTTSVNLACGLALANKRVLLIDMDPQFNATTGIGYEIDSKTLSMYHVFIGEQELNNIIVKEIKPNIDLAPSSIDVAAVDLILLEQRNNNQNVLRDQINSVKQNYDYIIIDCPPSLGLINRNGLAISDTVLIPIQAEHYAMHGVAQLLRTIKKVKETLNSDLTIEGVLVTMFDSRTRLAHDVLEEIMKTFGPKVYKSVIPRNIKISESSMEGKSIYEYDKNGAGSIAYIEFVKEVLKENGDV;locus_tag=LOCUS_17770;gene=soj;note=WP_003219244.1 sporulation initiation inhibitor protein Soj (Bacillus) [pid:49.2%25%2C q_cov:97.3%25%2C s_cov:98.4%25%2C Eval:1.4e-63],MGA_1779
sequence1	MetaGeneAnnotator	CDS	1047833	1048105	.	-	0	ID=MGA_1780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAPLNILLEVGVQALKINGYFICLKGKNAEFEINDLNNCENKIGLKLEKIQEIDDLVLGKRINLFYIKIASTSNFYPRLYCQIKKRPLGK;locus_tag=LOCUS_17780;note=WP_011183558.1 16S rRNA (guanine(527)-N(7))-methyltransferase RsmG (Mesoplasma florum) [pid:44.7%25%2C q_cov:94.4%25%2C s_cov:35.9%25%2C Eval:1.4e-12%2C partial hit],internal stop codon at [1048178:1048180](-),MGA_1780
sequence1	MetaGeneAnnotator	CDS	1048178	1048528	.	-	0	ID=MGA_1781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEWYKFKDLKVELKDNQKEKLIIFKNLLQQENEKYNLTSITDDQEIIDKHFYDSLIFSNVFNLDNLEIMDIGTGAGFPGIVLKIIFPNSRIYLVESNGKKINFMNKVIQELNLKNI;locus_tag=LOCUS_17790;note=WP_011183558.1 16S rRNA (guanine(527)-N(7))-methyltransferase RsmG (Mesoplasma florum) [pid:52.2%25%2C q_cov:98.3%25%2C s_cov:48.5%25%2C Eval:4.6e-27%2C partial hit],internal stop codon at [1048178:1048180](-),MGA_1781
sequence1	MetaGeneAnnotator	CDS	1048705	1049181	.	-	0	ID=MGA_1782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNGYTTLLPRTVHSALQEGFIFFPEKKKKISYEKSGFIGMIVTLSIYIVFIIISLLITWNSEKIDYFYIANYSSNSSVMFAFVVYFILIVAILDNRRTNKVEVQKIKGGYILGIVAAIFILIVMSYTYYDFFVNKIKNNNLIDPLLLIFFSLLIALF;locus_tag=LOCUS_17800;note=MGA_1782
sequence1	MetaGeneAnnotator	CDS	1049227	1049943	.	-	0	ID=MGA_1783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCALMMISFIEAASTTKDGEHSTTQTWANKFINRRTASLFSILYICMYLPILAAIGAIFTIDTLFDAINNLYFSLNNESLISIIGEVNFIFIKITLSTIVLITFQVMNIYTKKPSKIIQNIFTFIKFIPLFTVIIGGIIIVLNNKNNINSFNPSQPYESVSLSLVFATMIPILFAFDGFIYASALKKDCEHKEVVAPAMMTAILAVTVFYIFITVSVFISREDGNIFNFFETIFNNNP;locus_tag=LOCUS_17810;note=WP_164919801.1 APC family permease (Mesoplasma florum) [pid:27.4%25%2C q_cov:92.0%25%2C s_cov:37.8%25%2C Eval:4.9e-20%2C partial hit],internal stop codon at [1049959:1049961](-)%2C[1049977:1049979](-)%2C[1049998:1050000](-),MGA_1783
sequence1	MetaGeneAnnotator	CDS	1049998	1050189	.	-	0	ID=MGA_1784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKSLLKSSTTKRRLITMIKISKKNKTKNKIFEFLTIFSMVFGIVVGGGIYLKNKTEPGGVL;locus_tag=LOCUS_17820;note=MGA_1784
sequence1	MetaGeneAnnotator	CDS	1050358	1050684	.	-	0	ID=MGA_1785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNKENPNLSKLKSDYISLIIVLIFFVSFVSSSLIITWDNPEGKSYLETSYLSSDTSIILVYLIYISMIISVLRNRKTKKIEVKPVKGGFVTSIISVSMLILMMIYII;locus_tag=LOCUS_17830;note=MGA_1785
sequence1	MetaGeneAnnotator	CDS	1050677	1050928	.	-	0	ID=MGA_1786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAPAMMTGIIAVAIFYLVITVAIFIGATDGNILDFFSKNPKADFAFKLVITLTLLTMVNAYSVIYPLILKSSIEEKFIYLLG;locus_tag=LOCUS_17840;note=MGA_1786
sequence1	MetaGeneAnnotator	CDS	1050938	1051183	.	-	0	ID=MGA_1787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIYSEKPVRILQTILSFLKFIPLLIVLILGIVFFAQGNENSFNPNNTYQPFSINSFFATMVPIMFAFDGFLDSASIQKDC;locus_tag=LOCUS_17850;note=MGA_1787
sequence1	MetaGeneAnnotator	CDS	1051262	1051411	.	-	0	ID=MGA_1788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRRYGSLVTILYAIIYMPILVIIGSLFTTSSLFDAIKVIYELNNGIDS;locus_tag=LOCUS_17860;note=MGA_1788
sequence1	MetaGeneAnnotator	CDS	1051520	1051693	.	-	0	ID=MGA_1789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKINKKNKTKNKIFEFLTVFSMVFGIVVGGGIYLKNAGENGVLAMAGNNLWVALSV;locus_tag=LOCUS_17870;note=MGA_1789
sequence1	MetaGeneAnnotator	CDS	1051697	1052494	.	-	0	ID=MGA_1790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENLFLAGQINGTSGYEEAAGQGLIAGINAARKLEFKEPLILKRSESYIGVMIDDLINKGVVEPYRLLTSRAENRLTLRNDNSEIRLKKYGYEMGLISEKDYKDFLNFEKQIYDTIELLKTIRFTPKSELAVELKEKDQANLQQGFSAYEILKQPKVEMKIFKKHVKQLNYLSKQQLEILLIMIRFHGYIKKENEMIEKFVKLENKKIPIDINYRNVENIALEARQKLEKVKPVSIGQASRITGVNPADIQMLLFHLKKKYNEV;locus_tag=LOCUS_17880;note=WP_011167160.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Mycoplasma mycoides) [pid:63.6%25%2C q_cov:98.5%25%2C s_cov:41.5%25%2C Eval:5.2e-93%2C partial hit],internal stop codon at [1052558:1052560](-),MGA_1790
sequence1	MetaGeneAnnotator	CDS	1052558	1053259	.	-	0	ID=MGA_1791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSKIKSQKNLQLVVDIVKDILLDDKNKIKGVLLESGLIINCFAVVLTTGTYLSSLIHRGQEKFESGPNGEITTKSLSKTFQKLNLKTFRFKTGTPPRVKKSSIDLRKASIEPGTDDKLAFSFSTSKFTPIEKQEVCYLIHSTLETKKIIEDNLSKSAMYSGEIESVGPRYCPSFEDKIVRFNLKERHQIFLEPEAKELDTFYVQGFSTSMPIEIQDKMLRSLPGFENVIVDK;locus_tag=LOCUS_17890;note=WP_011167160.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Mycoplasma mycoides) [pid:61.9%25%2C q_cov:99.1%25%2C s_cov:36.7%25%2C Eval:7.6e-79%2C partial hit],internal stop codon at [1052558:1052560](-)%2C[1053302:1053304](-),MGA_1791
sequence1	MetaGeneAnnotator	CDS	1053302	1053499	.	-	0	ID=MGA_1792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKTILINLYEDKIATMPCNPSIGGPAKGIVVREIDALGGEMAKAADATALQIKLLNSSRGPGI;locus_tag=LOCUS_17900;note=WP_011167160.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Mycoplasma mycoides) [pid:90.8%25%2C q_cov:100.0%25%2C s_cov:10.3%25%2C Eval:5.5e-28%2C partial hit],internal stop codon at [1053302:1053304](-),MGA_1792
sequence1	MetaGeneAnnotator	CDS	1053590	1053769	.	-	0	ID=MGA_1793;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRNIIIISYLLKPILVKSYSKMIMQMGLKPDEVNFKSLFKELKFRKITDKLILFERIK;locus_tag=LOCUS_17910;note=WP_011166223.1 methionine--tRNA ligase (Mycoplasma mycoides) [pid:54.1%25%2C q_cov:100.0%25%2C s_cov:12.0%25%2C Eval:2.1e-11%2C partial hit],internal stop codon at [1053821:1053823](-),MGA_1793
sequence1	MetaGeneAnnotator	CDS	1053821	1054207	.	-	0	ID=MGA_1794;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSIGNVIDPLEIINNFSSDALRFYIINNLPTDKDGNFSEELFIESFNNNLANNVGNLISRVSNMIIKYFDGLLPVIDISKEKLTKNGFEVIDEYKDLMNKYNFSEAISVVLKFSQELNKFIEDSKP;locus_tag=LOCUS_17920;note=WP_011166223.1 methionine--tRNA ligase (Mycoplasma mycoides) [pid:58.1%25%2C q_cov:100.0%25%2C s_cov:25.3%25%2C Eval:2.3e-34%2C partial hit],internal stop codon at [1053821:1053823](-)%2C[1054229:1054231](-)%2C[1054289:1054291](-)%2C[1054355:1054357](-)%2C[1054430:1054432](-)%2C[1054475:1054477](-),MGA_1794
sequence1	MetaGeneAnnotator	CDS	1054475	1054771	.	-	0	ID=MGA_1795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKDLIFLSKYKGKYCISCEEFLTSEQMDDFFIHDVCQNVAIDFSEETYMLRVSKFQKYLQKLFESNFLEPETRKKEMLNNFINNDLEDLSVTRVNFD;locus_tag=LOCUS_17930;note=WP_011166223.1 methionine--tRNA ligase (Mycoplasma mycoides) [pid:47.4%25%2C q_cov:99.0%25%2C s_cov:19.1%25%2C Eval:3.8e-21%2C partial hit],internal stop codon at [1054229:1054231](-)%2C[1054289:1054291](-)%2C[1054355:1054357](-)%2C[1054430:1054432](-)%2C[1054475:1054477](-)%2C[1054859:1054861](-),MGA_1795
sequence1	MetaGeneAnnotator	CDS	1054859	1055104	.	-	0	ID=MGA_1796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNFFVTTPIYYPSGKLHIGHAYTTTLADVIARFKKEDGYDVFFLTGSDEHGQKIQQKAKENNLSPKEYVDPIIESFKNL;locus_tag=LOCUS_17940;note=WP_011166223.1 methionine--tRNA ligase (Mycoplasma mycoides) [pid:69.1%25%2C q_cov:100.0%25%2C s_cov:15.9%25%2C Eval:1.2e-30%2C partial hit],internal stop codon at [1054859:1054861](-),MGA_1796
sequence1	MetaGeneAnnotator	CDS	1055107	1055631	.	-	0	ID=MGA_1797;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003013909.1;translation=MDTQKLVTLVTEEEIKAAIVKAAADFAKLYENEQLTIVADLSSSFIFIADLIRELPIDVTIQFVTTPIHEEKDKRVKIDLGLKTTLKDKNVLIVNDILFNGNSLSRLYNLVKEEEPKDIKILTLIEKNSKTREFSEDYTTLFKIDDNFVVGYGLTYKESYRGLKGIYSLVIKED;locus_tag=LOCUS_17950;gene=hpt;EC_number=2.4.2.8;note=WP_003013909.1 hypoxanthine phosphoribosyltransferase (Francisella tularensis) [pid:33.8%25%2C q_cov:88.5%25%2C s_cov:89.8%25%2C Eval:2.2e-19],MGA_1797
sequence1	MetaGeneAnnotator	CDS	1055631	1055951	.	-	0	ID=MGA_1798;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNTIDDLVINHENITRHISEQKGIFFSQRILTYILIKYDFSREEIYDFIQECTLECQKTNKEFKEILLEKGILKFISSENELNNLFNLSIFTRNIDKMFRKVMTK;locus_tag=LOCUS_17960;note=WP_011182972.1 adenylosuccinate lyase (Mesoplasma florum) [pid:46.2%25%2C q_cov:100.0%25%2C s_cov:24.5%25%2C Eval:3.1e-23%2C partial hit],internal stop codon at [1056036:1056038](-),MGA_1798
sequence1	MetaGeneAnnotator	CDS	1056036	1056380	.	-	0	ID=MGA_1799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNYANLEIEIEEKVAKNLNLGIDNISTQVTQRDRHAFLVSIIANIATTLEKMATEIRHFQRSEVQEICEGFDKKQKGSSSMPHKKNPISSENICGLARYVRSFVTTAFENNIL;locus_tag=LOCUS_17970;note=WP_011182972.1 adenylosuccinate lyase (Mesoplasma florum) [pid:78.9%25%2C q_cov:100.0%25%2C s_cov:26.4%25%2C Eval:2.9e-45%2C partial hit],internal stop codon at [1056036:1056038](-)%2C[1056459:1056461](-)%2C[1056669:1056671](-),MGA_1799
sequence1	MetaGeneAnnotator	CDS	1056669	1056827	.	-	0	ID=MGA_1800;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELGVIPKNDFHKIKTSASVKLSRMLELETETKHDVVAFTRAISESLDSERK;locus_tag=LOCUS_17980;note=WP_002359782.1 adenylosuccinate lyase (Enterococcus) [pid:62.7%25%2C q_cov:98.1%25%2C s_cov:11.8%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [1056459:1056461](-)%2C[1056669:1056671](-)%2C[1056828:1056830](-)%2C[1056861:1056863](-),MGA_1800
sequence1	MetaGeneAnnotator	CDS	1057301	1058167	.	-	0	ID=MGA_1801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDYFAQKTDLVVRFSGGDNAGHVINFNGKKHKVTIIPSGIFNKRVINIIANGCVVNLTKLVEEFNIIKNSSIEHGKLLISDRVQLIFPYHIKIDECQEEAKGSKKIGTTKRGIGPAYQDKVSRIGIRLGEVSDPDFKEKFKEVYDYQMKFLKNVFNQEPLNFEEMYNDLISAYNLIKEDIIDCGSYIEAAIKEGKRVLFEGAQGALLDIDHGTYPYVTSSNTSANNVSIGSGISHKLINTTIGVVKAYSTRVGQGAFPTELINEIGNGIRERGHEYGSNTKRPRRVG;locus_tag=LOCUS_17990;note=WP_011182971.1 adenylosuccinate synthase (Mesoplasma florum) [pid:71.9%25%2C q_cov:100.0%25%2C s_cov:67.1%25%2C Eval:6.1e-122%2C partial hit],internal stop codon at [1057097:1057099](-)%2C[1057301:1057303](-)%2C[1058189:1058191](-),MGA_1801
sequence1	MetaGeneAnnotator	CDS	1058369	1058806	.	-	0	ID=MGA_1802;product=aminoacyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182974.1;translation=MPILIVGLGNPGKEYSYTRHNAGFIAIDKLLEKYGFQKKIDDFKAHIFFSNINNEKVLFVKPQTYMNLSGESIIAIMNYYKINIKDFLVIYDDKDLKLAELRFKEKGSAGGHNGIKNIIQHFKTENFNRLKIGIGIPPYNFKIVD;locus_tag=LOCUS_18000;gene=pth;EC_number=3.1.1.29;note=WP_011182974.1 aminoacyl-tRNA hydrolase (Mesoplasma florum) [pid:59.9%25%2C q_cov:97.9%25%2C s_cov:76.3%25%2C Eval:8.8e-46],internal stop codon at [1058369:1058371](-),MGA_1802
sequence1	MetaGeneAnnotator	CDS	1058812	1059840	.	-	0	ID=MGA_1803;product=ribose-phosphate diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020863017.1;translation=MDKSKIKIFGLSSNKPLTKKICDLLGVSESQAQTSKFLDGEMIVQSLDSVRGQEIYIIQSTNQPVNDNLMELLIAVDAFKRASAARINVVIPYFGYARQDRKAKGRQPITARLVANLIEKAGVNRVITVDLHSTQIMGFFNIPTDNFSTAQTVASEIIDTIISEKMNPADCILVSPDHGGLTRVHGIEKYTGNITNGIAVIAKRRPEPNKAEVEFILGDIKGKTCFIIDDMIDTGGTIIKGAEALKEQGADKIYIIACHGLFNGDAKQKMENAMKDGIIKQVVITDTINIEEEKKFKGLKIISVDQLLANMILSSYKKDSLTSVYDDLKEGIEKRIQKYLKD;locus_tag=LOCUS_18010;EC_number=2.7.6.1;note=WP_020863017.1 ribose-phosphate diphosphokinase (Mycoplasma mycoides) [pid:63.5%25%2C q_cov:99.4%25%2C s_cov:98.8%25%2C Eval:6.2e-127],MGA_1803
sequence1	MetaGeneAnnotator	CDS	1060042	1060632	.	+	0	ID=MGA_1804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLVFFNDFSHANGGKKLYDNTSIRLNRGEHIALIGPNGAGKTTLLNIIAGKMPVDKGELKIHSKTKIGYLDQHQDVNLKETVDQYLKGAFNELFELEKRMNKIYEDMVIEYNEDLLVKALKYQDILNLNDFDSIDKKIGNLVTGLGIGQEKLNSKMEELSGGQRGKVILAKLLLSGNDFLLLDEPTNFLDLNQVE;locus_tag=LOCUS_18020;note=WP_011182950.1 ABC-F family ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:59.2%25%2C q_cov:100.0%25%2C s_cov:38.3%25%2C Eval:1.1e-63%2C partial hit],internal stop codon at [1060630:1060632](+),MGA_1804
sequence1	MetaGeneAnnotator	CDS	1060633	1061538	.	+	0	ID=MGA_1805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKFLENYEKAFIMVSHDNDFINKTCEIIYALDNLKLTRFVGNYDKYLQESELKKEQYDKAFISQQREIKKLETYVAKNKARASTAKSAQSRQKVLDKMNVISERKDLTKPKFAFSYKRPSTSVIVRAEELVIGYDSPLLHSLNFELREGEKCIISGRNGIGKTTFLKTMATEISAFSGKVELGNNVEYAYFKQIENVNGISAIQYFMNKFPTITESEARSKIAQFGVKNTLMMQPMETLSGGEQTRVRLAALSMIPCSLLVLDEPTNHIDVLAKESLLEAIENFNGTVILTTHDINFSTN;locus_tag=LOCUS_18030;note=WP_011166322.1 ABC-F family ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:57.6%25%2C q_cov:100.0%25%2C s_cov:59.0%25%2C Eval:2.9e-98%2C partial hit],internal stop codon at [1060630:1060632](+)%2C[1061536:1061538](+),MGA_1805
sequence1	MetaGeneAnnotator	CDS	1061603	1061764	.	+	0	ID=MGA_1806;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNKQFDAGCFKCVEEMQKTTSGGVASNILASKMQQNLAQQDLNSIHLCSKHS;locus_tag=LOCUS_18040;note=MGA_1806
sequence1	MetaGeneAnnotator	CDS	1061913	1062455	.	-	0	ID=MGA_1807;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKSYAKVNLFLKVYKLKGKYHKIKSLFTIVENLYDEIVINKNKLKMDKIKCNIKKLETENFIYKVLEILRKHKVIKNFYSITLKKNIPLGSGLGGGSSNAISVAKAFTNNKKILKKIAKKIGMDCYFFIKEFNTAYVKGYGNRVYKRRTRVIIKKENLIFTNIEVDTKLVYSQFDKIES;locus_tag=LOCUS_18050;note=WP_011016081.1 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase (Fusobacterium nucleatum) [pid:33.3%25%2C q_cov:98.9%25%2C s_cov:63.6%25%2C Eval:5.4e-11%2C partial hit],MGA_1807
sequence1	MetaGeneAnnotator	CDS	1062448	1063248	.	-	0	ID=MGA_1808;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_011182902.1;translation=MEYAKKRFGQNFITDKNLIKKIISTLGEEYEHLIIEIGPGKGALTEELCNKFSKVIAIEIDRDMEKILKSKILNSNFELIISDVLELDLEKLILSNNIKNVSIISNTPYYITSAIIFKTLNLSKYLNKAVFMVQKEVAKRICAKVNENNYNNLSIAVQLYATPKYEFTVSRNLFKPIPNVDSSIVTLIFNDLNIQKVRKPQEFINFVRKIFNNKRKNILNNLTNFTLDKIKAQFILDSLKINSNLRPENISIDNFIKIFDMVIKND;locus_tag=LOCUS_18060;gene=rsmA;EC_number=2.1.1.182;note=WP_011182902.1 16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA (Mesoplasma florum) [pid:57.3%25%2C q_cov:96.6%25%2C s_cov:97.4%25%2C Eval:2.3e-80],MGA_1808
sequence1	MetaGeneAnnotator	CDS	1063409	1063810	.	-	0	ID=MGA_1809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVLNRKVFIMKIKQVVVVEGITDTLKLKKIFGKNNIDTIETNGLALSNETLKLIEAVNAKRGIIVFTDPDGPGNRIRDNINMYLNFKCFNAFINKKNINNSKKIGIAEANDEDIINSLSNLIKFNINNFLIS;locus_tag=LOCUS_18070;note=WP_011166214.1 ribonuclease M5 (Mycoplasma mycoides) [pid:52.4%25%2C q_cov:76.7%25%2C s_cov:57.6%25%2C Eval:1.3e-21%2C partial hit],internal stop codon at [1063304:1063306](-)%2C[1063340:1063342](-)%2C[1063409:1063411](-),MGA_1809
sequence1	MetaGeneAnnotator	CDS	1063983	1064870	.	+	0	ID=MGA_1810;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003701754.1;translation=MAYDVHTNTVVASGEQAYEMIGKTNDDIRMVVPLVDGVIADLDAAKDLIKIIFSRIKLSDILKNALVVLACPSGVTELERGALKQVVADMGAKNVLVEEEVKLSAIGAGINISLASGHLVVDIGGGTTDIAIISAGDIIISRSIKVAGNHFDEEIRKYIRAEYNVLIGIKTAEKIKMEIGALTKIDNGRTFRAFGRDVISGLPREVVISPDEVKNALLAPFSKITDLIVEVMENTPAELAGDIIRNGITICGGGALIRGIDTYFESIFQLKVTKAQDPLFTVIEGTKEYEKQAEK;locus_tag=LOCUS_18080;note=WP_003701754.1 rod shape-determining protein (Ligilactobacillus) [pid:36.8%25%2C q_cov:100.0%25%2C s_cov:90.2%25%2C Eval:1.2e-56],MGA_1810
sequence1	MetaGeneAnnotator	CDS	1065128	1065661	.	+	0	ID=MGA_1811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKTSLRSRKHIAIDIGTSKTRIYIEGLGIVFNEASLIATDYKTKKIIAIGNTAKNFIGKLNGSLQIKYLLKKGTVTDLNLLKVFLFYILRKYENEIKGSVVTLACPTSLTSLERKSLIDSIKSLGVFYINVEDDIKLALYGAGVDITKPEGYLCLDMGAGKTTAGIIVTGGTINSK;locus_tag=LOCUS_18090;note=WP_000577765.1 rod shape-determining protein (Helicobacter pylori) [pid:31.6%25%2C q_cov:93.8%25%2C s_cov:49.9%25%2C Eval:1.8e-19%2C partial hit],internal stop codon at [1065659:1065661](+),MGA_1811
sequence1	MetaGeneAnnotator	CDS	1065725	1066159	.	+	0	ID=MGA_1812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMIGELTAEAVKISIASLIKMKQPLKTKAYGYDLGSAMPKELELSDTEISKVLLATFGNITDTITSLLEEAPNEVAGDIIKNGLFITGGLSNVHGVKTFFENFFEIPVKIPKNSNTAVIDGAIAHKELTMKKIEIEMNPIQENN;locus_tag=LOCUS_18100;note=WP_012258891.1 rod shape-determining protein (Chloroflexus aurantiacus) [pid:29.8%25%2C q_cov:84.0%25%2C s_cov:36.0%25%2C Eval:4.8e-12%2C partial hit],internal stop codon at [1065659:1065661](+),MGA_1812
sequence1	MetaGeneAnnotator	CDS	1066224	1067234	.	+	0	ID=MGA_1813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIFVNKINDILRKAIKELDYIGEIIIERPKLIQDADFATNFALINAKKNNLTPLEIAEAIVKKIQKNEMFEKVEFVKPGFINFRINKPQFNSVIKEINILKENYGKSKRKNFLYNLELVSANPTGFLHVGHARNGAIGDSVARILKFAGYDVQTEYYTNDAGNQINISATTLFYYYKKKLGCKIDAPDEMYGGDMYLEIAQKFVDNYGNKFIEIEIENNKINNKEVNEIFKSKSIFYFMHEIKKQLKSFDINIDYYSSEAKMYEKNMIEDVIKKYQELDKTYLKDNALWLKTTLFGDDKDRVLKKTDGSYTYITPDIASHVDRIKRTLANKYVNL;locus_tag=LOCUS_18110;note=WP_011183452.1 arginine--tRNA ligase (Mesoplasma florum) [pid:46.1%25%2C q_cov:98.8%25%2C s_cov:60.8%25%2C Eval:3.1e-83%2C partial hit],internal stop codon at [1067232:1067234](+)%2C[1067391:1067393](+),MGA_1813
sequence1	MetaGeneAnnotator	CDS	1067412	1067804	.	+	0	ID=MGA_1814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGKDAIRYMLVSKTPSSHMDFDLDLAIEKNSVNPVYYAQYATARSKKIIISFEEKLINIEDLDFNFETQKEREIIIHLDSFNSTVEYAANYRLPNIICDYIQNLSKLFHSYYAETKIIDENIEKTSQKI;locus_tag=LOCUS_18120;note=WP_011183452.1 arginine--tRNA ligase (Mesoplasma florum) [pid:53.8%25%2C q_cov:98.5%25%2C s_cov:23.3%25%2C Eval:4.3e-33%2C partial hit],internal stop codon at [1067232:1067234](+)%2C[1067391:1067393](+)%2C[1067802:1067804](+),MGA_1814
sequence1	MetaGeneAnnotator	CDS	1068044	1069033	.	+	0	ID=MGA_1815;product=cell shape-determining protein Mbl;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003227776.1;translation=MALGNKKPTFVSMDLGTANTLVYIAGQGIVYNEPSIVAYRIKENKIIAVGEEAYKMIGKGNKTIRVVRPMVDGVITDIRATEAQLRYIFSKLRITKQLKNSVMLLACPSVITELEKTALKKIAVNLGADQVFVEEEVKMAALGGGVNIYAPTGNLIVDMGGGTTDIAVLASGDIVLSKSIKVAGNYLNDECQKFIRSQYGLEIGSKTAESIKVNVGSLAKYPDERRMKVYGRDVVSGLPREIEITPEEVREVLKVPVSRIIDLTVQVLEDTPPELAGDIFRNGITICGGCALIRGIDKYFADTLQLPTKVGEQPLLAVINGTKKFESEI;locus_tag=LOCUS_18130;gene=mbl;note=WP_003227776.1 cell shape-determining protein Mbl (Bacillus) [pid:45.9%25%2C q_cov:94.8%25%2C s_cov:93.7%25%2C Eval:1.8e-75],MGA_1815
sequence1	MetaGeneAnnotator	CDS	1069216	1069503	.	+	0	ID=MGA_1816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIDERTFIALDLGTSNILAFVGKQGIVYDEPSIMAYDNMTNSLVALGNDAYEMVGKTNDNIRMVIPIRDGVITDLDAAKDLLKHVFGKLKMLND;locus_tag=LOCUS_18140;note=WP_003644658.1 rod shape-determining protein (Lactiplantibacillus) [pid:47.6%25%2C q_cov:88.4%25%2C s_cov:25.2%25%2C Eval:8.0e-19%2C partial hit],internal stop codon at [1069501:1069503](+),MGA_1816
sequence1	MetaGeneAnnotator	CDS	1069585	1070274	.	+	0	ID=MGA_1817;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAEIVIVEEEVKMAALGAGINIDVPKGNIVIDIGGGTTDIAIISAGDIVISRSIKVAGNAFDEEIKKYIRSEYNVTIGDKTAENAKKELGSLAKYKGERTLSVFGRDIVSGLPKEAIISSEEIRNVLVNAFSRITDLLIELMENTPPELAGDIISNGFTICGGGSQIRGIKEYFNGIFSVPCQISPNPLTGVIEGAKTFQKVISNRIENDYYGKNAKNVKKGSQSSYI;locus_tag=LOCUS_18150;note=WP_005902246.1 rod shape-determining protein (Fusobacterium nucleatum) [pid:41.3%25%2C q_cov:85.6%25%2C s_cov:57.3%25%2C Eval:2.6e-39%2C partial hit],internal stop codon at [1069501:1069503](+),MGA_1817
sequence1	MetaGeneAnnotator	CDS	1070369	1071163	.	-	0	ID=MGA_1818;product=TatD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182944.1;translation=MAGIFDTHTHFNDSVYKEKEIETSEMIEEAQASGVSRFCCVGFDIESSKQAVKYALKFSNVYAAVGIHPNDVQNFLNKDLEEIELLSHGDNVVAIGEIGLDYYYSTEFKEIQKDFFRKQIEIAMKNDLAVMMHLRDNDNSEQAYNDALEILDDLKVKKAIVHCYTRGIKLAKKFTTRGYLISIPGVVTFKNAYELHETVEKLSLNEMIVETDAPYLTPEPKRGKINTSKEIVYTIEKIANIRNITKDDVIEATTNNALKVFNIN;locus_tag=LOCUS_18160;note=WP_011182944.1 TatD family hydrolase (Mesoplasma florum) [pid:48.9%25%2C q_cov:98.5%25%2C s_cov:97.7%25%2C Eval:4.3e-63],MGA_1818
sequence1	MetaGeneAnnotator	CDS	1071177	1072529	.	-	0	ID=MGA_1819;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166295.1;translation=MKIDLDDVIVACATKISKQAISIVRLSGDDSIKIVNKILKKDLELKNKFQLRKIYDKNNLIDESLILTFIGNKSFTGQTVVEINCHGGILLTNKIISLLIENGARLAKPGEFSQRAYLNGKINLLQAEGINNLIESKNELSLKINALNLEGSSNKKILDLKEKIIDLISKIQTSIDYPDYDDIEGASIQEIKISLKKIENIIFKTIEISKRINTINHGIKTLILGETNVGKSSLLNSLLNDEKAIVTDIEGTTRDIVEGTINFENFTLDLIDSAGIRETNDIVEKIGVKKTISLINNSELIFFIINYDKINMELYDLIKEKKHIVVLNKVETLSTSQINEVEKKFKDIVKISALTNNIEELLTKIEKDFNDSELLENDLPMLTNLYHIEQFKEIFNLIRISLENLEAGFSSELINIELYEILKIINNLLGIFDADDEVIDNIFRKYCLGK;locus_tag=LOCUS_18170;gene=mnmE;note=WP_011166295.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE (Mycoplasma mycoides) [pid:49.4%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:1.2e-123],MGA_1819
sequence1	MetaGeneAnnotator	CDS	1072608	1073171	.	-	0	ID=MGA_1820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKINNQKINHFFVNKKPNVDWFYKNKLNEVFLFISNEDRLKILNFVQQQFLIISNIKIISFFHLKSQNKNIISYYSSKELDSNSRRNIVNFIKYIILNKFNLNFNFEIINFGISRINEKEFSMEKLRKIVRSVLVEKKDIILPVYSKLIRRKINEYLLKYTLIKYKTIGPIGERKIKIMYKLKNK;locus_tag=LOCUS_18180;note=MGA_1820
sequence1	MetaGeneAnnotator	CDS	1073305	1073454	.	-	0	ID=MGA_1821;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLQMFKKKSKLESEQQKKARKKQLIMQIVFMVMFVFIIFNIAAGVAIY;locus_tag=LOCUS_18190;note=MGA_1821
sequence1	MetaGeneAnnotator	CDS	1073539	1073790	.	-	0	ID=MGA_1822;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQGMQSKQAEIQAKYKGSLDPTAKQRQQMELMALYKKEGISPLSSIATSFLSMPFLFAMFSVVRATHALKVATVGQITLVEVP;locus_tag=LOCUS_18200;note=WP_084322434.1 membrane protein insertase YidC (Mesoplasma) [pid:57.3%25%2C q_cov:98.8%25%2C s_cov:19.6%25%2C Eval:5.0e-21%2C partial hit],internal stop codon at [1073305:1073307](-)%2C[1073515:1073517](-)%2C[1073539:1073541](-)%2C[1073815:1073817](-)%2C[1074022:1074024](-),MGA_1822
sequence1	MetaGeneAnnotator	CDS	1074082	1074207	.	-	0	ID=MGA_1823;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQPQYTVGQVTDMAGNKIYSPGVAFEIIIKSLGDYGSKNH;locus_tag=LOCUS_18210;note=WP_011167185.1 membrane protein insertase YidC (Mycoplasma mycoides) [pid:61.0%25%2C q_cov:100.0%25%2C s_cov:10.4%25%2C Eval:4.4e-09%2C partial hit],internal stop codon at [1073815:1073817](-)%2C[1074022:1074024](-)%2C[1074082:1074084](-)%2C[1074220:1074222](-)%2C[1074265:1074267](-)%2C[1074271:1074273](-),MGA_1823
sequence1	MetaGeneAnnotator	CDS	1074376	1074705	.	-	0	ID=MGA_1824;product=ribonuclease P protein component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183578.1;translation=MKNKNIIKKNYEFQKIISARKSNKNKSYIVFFKKNEVKRLRYGISVGKKIGNAILRNKIKRQIRSMIYIILQESNDKNFDVVIIARQKFLNNSYDFNLIELQKIISLME;locus_tag=LOCUS_18220;gene=rnpA;EC_number=3.1.26.5;note=WP_011183578.1 ribonuclease P protein component (Mesoplasma florum) [pid:51.4%25%2C q_cov:96.3%25%2C s_cov:95.5%25%2C Eval:5.1e-26],MGA_1824
sequence2	MetaGeneAnnotator	CDS	210	425	.	+	0	ID=MGA_1825;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINFSVNSTATSKQIRYINGLFSLLKRKNIEHQYIDSLSEHNGKKIDKNQASQILSELELIIQKHNEMDIF;locus_tag=LOCUS_18230;note=MGA_1825
sequence2	MetaGeneAnnotator	CDS	921	1124	.	+	0	ID=MGA_1826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDVVEEYHKEAIILLNKAQNKLNNIVENIGVYKEFINVFEYSKQELEKIKDDFNRTTNILESPPDG;locus_tag=LOCUS_18240;note=MGA_1826
sequence2	MetaGeneAnnotator	CDS	1380	1559	.	+	0	ID=MGA_1827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKVSETQIIAPNIKRVARDVYFKQNHVNLYEKVKEIKKYYKENNQDNNPKSIKIKRK;locus_tag=LOCUS_18250;note=MGA_1827
sequence2	MetaGeneAnnotator	CDS	2668	2916	.	-	0	ID=MGA_1828;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYIYKVNSFLTFLFGPSDPSPLMRRFFFEDTLYMEQKYRKYTIIKYYKLHANNIFKTIDNNASINFKLNDEDYLKIRPAII;locus_tag=LOCUS_18260;note=MGA_1828
sequence2	MetaGeneAnnotator	CDS	3030	3461	.	+	0	ID=MGA_1829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSLLGVAGLTATTAVTVVSCGTEKDPSEMTKEERIAAIKKLAEEAKNLINKANKMKDSGDLLGYFRIRTKNRYKLQEKIYKLDMGEKLVEGQYGMSTEEIIKTVKEGMSSLQKKISNGEIDNQKFIDGYENFKKEVHKY;locus_tag=LOCUS_18270;note=MGA_1829
sequence2	MetaGeneAnnotator	CDS	3532	4140	.	+	0	ID=MGA_1830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGTVSIMASGASYVASVSTDKIQKYNVVYKTEDKIDWDNTQEEFKNVFDNIKENLINNNLLKISNNIDQDKILEYIEFSKNKAEQILSEVSSKNLGLDDTIEYVKVNNEQFVNSFNKGYDQFTNMDSKKIISTNFNVFGETNFNFLKFDNNFLSKLTPAQKNSELISKLKVAKLSLSSLSAAAAVAAAGFWAGSF;locus_tag=LOCUS_18280;note=MGA_1830
sequence2	MetaGeneAnnotator	CDS	4029	4244	.	-	0	ID=MGA_1831;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYFFKAILTPPAAAPKKPATVEHPTAQGIVAPKLQNDPAQKPAAATAAAADKLLKLSFATFNFEINSLFF;locus_tag=LOCUS_18290;note=MGA_1831
sequence2	MetaGeneAnnotator	CDS	5323	5505	.	+	0	ID=MGA_1832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENNFTILLDPDNEFLNISKNLEANMIDLAALNQILNPFDVVAPVVQDEVYLSFEEKKN;locus_tag=LOCUS_18300;note=MGA_1832
sequence2	MetaGeneAnnotator	CDS	5649	5843	.	+	0	ID=MGA_1833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGYIYIVDNHQVTPASFKLEFNLLHKTLKDFMNSDVERKYLQKKYNEQISFINEFQIFWVENN;locus_tag=LOCUS_18310;note=MGA_1833
sequence2	MetaGeneAnnotator	CDS	5970	6377	.	+	0	ID=MGA_1834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLVGAISLGICSSATVVSCGSLNSNSNSDSNSDSNSDSNSDSNSDSNSDSNSDSDSDSDSDSTEKKPSEMTKEERIEAINKLLEEIEEIYKKSKELVESGNAYEAIKLQFIDLYVKLIAIYELDMEENLI;locus_tag=LOCUS_18320;note=MGA_1834
sequence2	MetaGeneAnnotator	CDS	6612	7082	.	+	0	ID=MGA_1835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLVGAISLGICSSATVVSCGSLNSNSNSDSTEKKPSEMTKEERIEAINKLLEEINEIYKKSEELGKSGNVYEAIKLQFIDLSLKLIAIYELDMGENLVYKPEPGASSNSQGQSRESVIDGIKKAFKTLEKDGFTGLTAEQILQLKKEVYEY;locus_tag=LOCUS_18330;note=MGA_1835
sequence2	MetaGeneAnnotator	CDS	7157	7420	.	+	0	ID=MGA_1836;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILGLMGTLGTIVSSGSFVVACSDKTTEKVKTVEDLIAEYNNKSDRLEIILLEADNNNWTNYQEALFLYSDLYAISYEIILLNPD;locus_tag=LOCUS_18340;note=MGA_1836
sequence2	MetaGeneAnnotator	CDS	7752	8015	.	+	0	ID=MGA_1837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILGLMGTLGTIVSSGSFVVACSDNTTEKVKTVEDLIAEYNNKNDRLDIILLENDKDDWTNYKETLFLYADLYAISYEIILLNPD;locus_tag=LOCUS_18350;note=MGA_1837
sequence2	MetaGeneAnnotator	CDS	8043	8183	.	+	0	ID=MGA_1838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASKEELIELLNALKKQVTENPILPNGQNVSQEFTNYIDSLINKYE;locus_tag=LOCUS_18360;note=MGA_1838
sequence2	MetaGeneAnnotator	CDS	8573	8863	.	-	0	ID=MGA_1839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANKLFEKLSKDVNTKNTAKSINDLVQEKQKNEEYIDVYNIKPLKKISNSFEFKGKQTTIYLDYETLQKIQKLKKMGLNPNLSENTRKFIGELYEK;locus_tag=LOCUS_18370;note=MGA_1839
sequence2	MetaGeneAnnotator	CDS	9021	9431	.	-	0	ID=MGA_1840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIEDTDIENIFLVGANRELSLVTMSDLNSLAMGELILKQNFKKIEEELKQKIDYILMDTSPTMSKILLNVLLAADEIIIPIEPHKFSIEGLETITKPYNKMIKTLNDIGSNIKNNINYYVVNKIQKNVTHKDVMQ;locus_tag=LOCUS_18380;note=WP_010256993.1 ParA family protein (Borreliella burgdorferi) [pid:30.1%25%2C q_cov:85.3%25%2C s_cov:43.2%25%2C Eval:5.4e-07%2C partial hit],internal stop codon at [9492:9494](-),MGA_1840
sequence2	MetaGeneAnnotator	CDS	9492	9647	.	-	0	ID=MGA_1841;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKITFTNSKGGVGKTTITLNVANALAKLGKKVLIFDFDSQANISLALQKN;locus_tag=LOCUS_18390;note=WP_003347743.1 ParA family protein (Pseudomonas syringae group) [pid:64.4%25%2C q_cov:88.2%25%2C s_cov:12.3%25%2C Eval:1.5e-09%2C partial hit],MGA_1841
sequence2	MetaGeneAnnotator	CDS	10465	10869	.	+	0	ID=MGA_1842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKTTLKKSRNDYYQDLLNFSLDKFFEDYHKPIINDAIAKIVSKVFKDNIKYMVNELKGIFISNKYDVEYLKALSNILFKLNVEAKYKSDDRDFFDDNVSVHSEFLEIPITMEKYANNLEKKKQVHLANFKKNK;locus_tag=LOCUS_18400;note=MGA_1842
##FASTA
>sequence1
ATGACAAATACAATACTTTGAAAAAAAATAAAGGAATGACTAATATCATCTGATTTAATTGAACCAAATGTTTATGAAGAATACATTAAAAATGCATTTCTTGAGGATTTATCAAATAATCAAAAAGCAATAATTGTAAATACTGAATTATCAAAATGATATCTTGAAAGTATTCACTCAGATATTAAAGAAAAAATGAGTAATTTTGTAGAGAAGGACATAGATATTTTATTTTTAACTTCTGATGAATTTAAAAAAGAAAAAAAAATAAAAGATATTATTACTAAAAAAAATAAAACTAATATTTCCCAAGATTATTTATTTGATAATTTTATTTCTGGGTCAAGTAATATTAATGCTCTTAATGCTTCAATTGGAATTGCAGAAAATTTAGGTACAAAATGAAATCCATTATTTATTTATGGTGATTCTGGTCTCGGAAAAACTCATCTTTTAAAAGCAATTTCAAATAAAGTGAACAACTCTAATTTGGCATTAAATGTTAAATATTATACTTCCTTAGATTTTAGAAAAGAAATTTTAGAATCATTAATGGATGGTTTTAAAGAAATAGAATCAACAAAAGAAAAAATGAATTCAATTGATGTTTTATTAATTGATGACATACAGTTTCTTGCAAATAGTGGAAAAACTAATGAAATATTTTTTAACTTATTTAATTCATTTATTGAAAATAATAAACAAATAGTACTTACTTCAGACAAATTCCCAGAACATTTAAATGGTTTTGATAAAAGACTAATTTCTCGTTTTTCACAAGGATTAAGCGTAAAAATTGAAAGTCCAGATCTTCAAACAGCAATAAATATAATTGAATACAAAATTAAAATTGCAAATATTTTTTTATCCCCTGAGTCAATTAAATATATCGCTTCATATTTTGGAACAGATGTAAGAAAATTAGAAGGAATAATTAATAAAATTGAATTTTATATTATTCAAGATAAACAAGAATCTACAAATAGAATTGAATTAGATAAAATTTTGAAAATTTTAGAAGATTATTCTTTTGCTCCAAGCGGAGAAGTTACAATTCAAAAAATTAAAAGTGTTGTTGCTTTAAATTATGGAATAAATATTAAAGCAATCGATAGCAATTTAAGACTTCAAAATGTTGTTAAAGCTCGACATGTTGCTATGTATTTAACAGGAGAAATACTAAAGAAAAATTATTCTGAAATTGGTATTGCTTTTGGAGGAAAAGATCATACAACTGTTATAAATGCCTATAATAAAATAAATAAGTTTTTAAAAGAAGATAAATTATTTAAAAATACTCTTAAAAAAATAAAAAAAGAAATTATTTCTTAATTTAGTTTGTTTATACTAATTTTATGAAAATATTTATAAATATACATATTTAATTGTTTTCCACATTTTAAGAGCATAATAATAATATAAATAAATATAAATAAATAGAGGTGAATTAATGATTTTTAGTATAAATAGAAATATTTTTTTAGAAGAAATTAATAAATGTAATAGAATTATAGATTATAAATCTCTTACTCCTAGTATTACAGGAATTTTATTAGAAATAGAAGTTGATAAAATTTCATTAATTTCAACAAATAGTTCAATTTCAATAAAAAGTACAATTTTTTCTGGAACTAATGATTTAATTATTAAAGAAACTGGTTCAATTTTAATAAAAGGAAAATATTTTTTAGAAATTTTAAGAAGAATGGAAGATGAAATAATTAATATTTCTTCTGTTGAAAATAATATTGTTTCTTTATCCGGAGAAAAATCGGAATTTTCTTTAAACACCCTTGATTTTAATGATTTTCCTTTAATTGGTTTTAGAGAAAAAGGAACCGTTATTAAAATAAATAATATTGAATTAAAGAAAAGTTTAAATCAAACTATTATTGCTGTAAATGAATGAAATCAAAAAATTGTATTAGCTGGATTAAATTTTGCAATAAATAATGGCATGTTTTATATAACAGGAACTGATGGTTTTAGAGTTTCTAGAAAAAGAATTTTAATTGAAGAACAAATACCAGAAAAATTTGAAACAAATATTCCTTATAAAAGTATTTTAGAAATAATTAAACTATTGCCTGAAAAAGGAGAATGTAAGATAGTTATTATTGACAGTTTTGCTACTTTTATAATTAATGATACTTTATTTCAAACAACAATTTTGGAAGGACAATTTCCAAATGTAAATGCAGTATTTCCAACAGATTTTAATACAACAATATATGTTAATAATAAAAAGTTTTTTAAATTAATTTCAAGAGCGGATATTAGAAGTGAAGATAATTCTTCTACAGTTGTTAATTTTATTTTAGATAATGATAGAATATTTATAAAATCTAATATTAATCAAATTGGAAGTTTTGAAGAAGAATTTAGAGAATTTGAATTAAAAGGAATTGATGAACAAAATATTTGTTTTAATTCTAAATATTTAATTGATTCTTTAAAAACTTTTGAAACTAAAAATATTGAATTAAATTTTATTGATTCTAAAAAACCAATTGTTATTTCTTCGGATGAAGATTTAAATTTAAATCAAATAATTTTGCCAATGTTTTCAAATTAGCTTCTAAAAAAAGAACTTTAAAAAATGGTATAATTATCTTTGATAAGAAAAAGGTATTTTACTATGGAAAATAATAATAAATATGGAGCAGATCAAATTCAAGTTTTAGAAGGACTTGAAGCAGTAAGAAAAAGACCAGGTATGTATATTGGAAATACAAATAAAACTGGTTTACATCATTTAATATGAGAAATTTTGGATAATTCTGTTGATGAATCATTGGCAGGTTTTTGTAATGAAATAACAATTATTATTACTGAAAAAAAAGAAATAATAGTAAAAGATAATGGTAGAGGAATACCAATTGATATACATCCAAAAACAAATAAGAGTACTTTAGAAACTATTTTTACTGTTTTACACGCTGGTGGAAAATTTGACGAATCAGCATATAAAGTTTCAGGTGGTTTGCATGGAGTTGGTGCTTCTGTTGTTAATGCCCTTTCTTTATATGTAAAAACAATTGTAATGAGAAATAATAAAATATATGAACAAATTTTTTCAAAAGGAGGAACAGAAGCTTCAAAATTAAGTGAAATTGGAGTTTCAGATATAAATGGAACAATAGTTAAATTTAAACCAGATCCTGAAATTTTTAAAGAAACAATAGATTTTGATTTTAAAATAATTCAAAATAAAATTAAACAATTAGCTTTTTTAAATAAGGGGCTTAAATTAAATTTGTATGATGAAATTAAAGATAAAACACTAAGTTATTGTTTTGAGGATGGTATTAAAGATTACATAAAAGAAATAAATAGTGGAAAAGAAAAAATAAATGAGGAAATTTTTTATATTTCAAATAATTTAAATGAAATTGATGTAGAAATTTCAATTCAATATAATGAATCTTATGATGAAAATGTTTTTTCCTTTTGTAATAATATTTTTACTTCTGAAGGTGGAACACATGAAGAAGGTTTTAAAAATGCATTAATAAAATCTATTAATTCATATGCAAATGAATTAAAAAACTTTAAGGGTAATAAATTTTCATGGGATGATATTAAAGAGGGAATTGTTTCTGTAATTTCAATTAAACATAGAGATCCAATTTATGAAGGGCAAACAAAATCAAAATTATCAAATATTGATGCAAAAGAAGTTGTAACTAATATATTGAATGATGCATTTAAGGAGTTTTTATTAAAAAATCCAACGGACGCAAAAAAAATCATTGAAAAAATTTTAGTTTCACAAAAGGCAAGAAAAGCTGCTCAAAGAGCAAGAGAAGATACAAGAAGAAAATCAGCAATTGATAATTTTTCTTTGCCTGGAAAATTAGCAGATTGTGAATCAAAAAATATTGATGAATGTGAATTATATTTAGTCGAAGGAGATTCAGCTGGGGGTAGTGCTAAAACTGGAAGAAATCGTAAGTTTCAAGCTATTCTTTCTTTACGAGGTAAAGTTTTAAATGTTGAAAAAGTTAAACAATCAAAAGCTTTTGAAAATACAGAAATTCAATCAATAATAGCAGCAATTGGAGCAGGTGTAAAAAAGGATTTGAATTTAAAAAAAATAAGATATGGCAAAATTATTATTATGACTGATGCTGATGTCGATGGAGCACATATAAGAGTTTTACTTTTAACTTTTTTTTATAGATATATGAAAGATTTAATTATAAATGGTAATGTATATATTGCTCAACCACCTTTATATAAAATTGAAGCAGGAAAAAATAATATTGACTATGCATATACTGATAATGAATTGGAAAAATTAAAAATTGAAAAATATTCAAATCTTAAATATATTATTCAAAGATATAAAGGTTTAGGAGAAATGGACCCAATTCAACTTTGAGAAACTACAATGGATCCTCAAAGAAGGACAATGATTCAAATTAAAGTTGAAGATGTTTTTTTAGCAAATGAAGTCTTTTCAAGTTTAATGGGTGAAAATGTTGAATTAAGAAAAAGATTTATTGTTGATAATGCACAATTTGTAGAAAATATAGATATTTAAAATTAATATTTGGAGGTGCTCAAAATGAGTGAAGTTTTTAACAAAGGAAGAATTCTTGAAATCGATATTAAAAATGAAGTTGAAAAAGATTTTTTAGAATATTCAATGAGTGTAATTGTAAGTCGTGCACTTCCAGATTTAAGAGATGGTTTAAAACCTGTACATAGAAGAATAATTTATGCAATGAATGATCTTAAAATAACAGCAGATACACCACATAAAAAATCTGCAAGAATTGTTGGTGAAGTAATTGGTAAATATCACCCACATGGAGATAGTTCTGTTTATGAAGCAATGGTAAGAATGTCACAAGATTTTTCATACAGATATCCATTAGTTGAAGGGCATGGAAATTTTGGCTCAATTGATGGCGATGGAGCAGCAGCAATGCGTTATACAGAAGCAAGACTTTCTAAAATTTCGTCTATGTTATTAAAAGATATTGATATGAACACTGTTCCTTATATTGATAATTATGATGCATCAGAACAAGAACCAAAATATTTAACAGGTTATTTTCCAAATCTTTTAGTAAATGGTGCTACAGGAATTGCTGTTGGTATGGCAACAAGCATTCCCCCTCACAATTTAATAGAAGTAATAAATGCAACTATTGAATATATTAAAAATAATAATATTACAATTGAGGAAATTTTAAAATTTATAAAAGGTCCAGATTTTCCTACAGGGGCATTAATGACTAATGGAAAAAATATGATTGAAGGTTATAAAACAGGAAAAGGCAATTTAACAATTAGAGCAAAAATTGATATTGAAGAAACAAATAAAAATCAAAAAATAATAATAAGTGAAATTCCATATCAAACTAATAAATTAAAAATTGTTGAAAAAATTGCAGAATTATACAAAAATAAAATAATTACAGGAATTTCAGATATTAGAGATGAATCAAATTATGAGGGAATAAGAATTGTTTTGGAATTCTCTAAAAATTCAAATCCACAATTAATTATTAAAAGATTATATAAATTCACAAATTTACAGTCAAACTTTACCATTAATATGCTATCTTTACATAATGGTATTCCGGTTGTTTTAAATATTAAAGAAATTATAAAGTTTTATGTAAAATTTCAAATAGAAATTATCTTAAAAAGAAGTATTTTTGAGAAGGAAAAACTTGAAGCAAAATTACATATTTTAAATGCAATTAGAACAGCAGTAGACCATATTGATGAAATAATTAAAATTATAAAAAATTCTAATACAACAGAAATTGCTTATAAAAAATTGTTTGATAATTTTAATTTTGATGAAAAACAATCAAAAGCTATTTTAGATATGAGATTGCAAAGACTTGTTGGTTTGGAAAGAGAAAAAATAGAAAACGATATTAATAATATTGAATTAAGAATTAAAGAATTAATAAAAATTTTAGAATCAAAAGAAGAACAAAATATTTTATTAATAGATCAACTTGAATATATTAAAAATAAATTTGGGGATGAGAGAAGAACAAAAATAATTGAAGAAGATGATATTCAAATTGATGATGAAGAGTTAATTCAAGATACTCAAATGATTTTAACTTTATCAGAAGAAGGTTATATTAGAAGATTACAACCAGAAGAGTTTAAAACACAAAAACGTGGTGGTAAAGGAATAATAATCAATTCTAATTTAGATGACAATATTTTAATTGCAAAAATGGGTAAAACAAAAGATGATGTTTTATTTTTTTCAAATGAAGGAAAAGTATATAAACTAAAAGGTTATAATATAACTCAATTTTTAAGAACTTCAAGAGGTGTTCCAATTATAAATTTTATCGGAATAAATTTTTCTGAAAAAGTTTCTTCAGTTTTAACTTTTAGAAATAAAAAAAATAATTATAAATACTTGGTTTTTGTAACAAAAAAAGGAATTGTTAAAAAAGTTAATTTAGAAGAATTTAATAAAATAAATAATTTTGGAAAAATAGCTATTCATTTAGACAAAGAAGATAGTTTAATTTCAGTAATTCCAACATCCGGTTTGGATAAAATATTAATTGCTACAAAAAATGGAAAGGTTTCAAAAATAAATGAATCAGATTTTAGACCAATGTCTAGATCCTCAAGGGGAGTTAAGGGAATAACTTTAGATAAAACAGATGAAGTAATTTCTTCATGTACAGATTTTAAAAATGATTGTGTAGTTACAATATCAGAAAAAGGAATTATTAAAAAAACACTTATAAGTGAGTATAATAATTTTAATAGAGGAGCTAAGGGAGTAGTTGGAATGAAATTAAATGATAAAACAGGAAAATTAAAATCAGTACTAGCAATTAGAGAAACAGATGAAGTTTTAATGATTTCTTCAAAAGGAAAAATAATAAAAATTCATTCACAAGAAATAAAAATGCAATCTAGAAATACATCAGGAGTTATTGGTTTTAACTTAGAAGATGATGAGAAAATTACAGCAGTTACATTAGAATGAAATAAAGGAGATTAAAATGTTAGATATCAGTAAAATTGAAACCAATTTTGAAGAAATTTGTTTAAGACTAAAAACTCGCCAAAAGGATTATACAAAGGAACTTCAAAATATTGTTAATTTAAATTTTGAGAGAAAAAATATAATTTCAAAAGTGGAAAATTTAAAATCTCAAAAAAATATAATTTCAAAGGAAGTTGGCTTATTAACTAGAGAAAATAATAATAGTGAAAAATTGAAAAAAGAAGTTTTAAAAATAAACAAGGAAGTTGAAATTTTAGATGAGAATTTAAAAAAAATTATAGAGCAACTTAATTTAAAATTAAGTTTTATTCCAAATATTCCAAATAAAGAAATGCCAATTGGTGTAAATGAAAATGATAATTTGGAAATAAAAAAATGAAATTCAGATAAATTAAAAAAAGATAGTGAAGCTCATTGAGATATTGCAATCAAATTAAAACTTGTAGATTTTGAATTGGGTGCAAAATTATCAGGTTCGAGATATGTTGTTTATACTGGATTGGGTGCAAAATTAATTAGATCTATTACAGATATATTATTATCTAGGCATATAAAAAAAGGTTACAAAGAAATGTGACTACCATTAATTGTAAATAAAGAAAATATGTATGGTTCTGGACAATTGCCAAAATTTGAAGAGGATGCATATAAAATAGATAACCAATATTTAATTCCAACTTCAGAAGTTTCATTAGTAAACACAGTTAGAGATAAAATTTATGAAAGCAATAATTTACCTATATATTTAACAGCATTTTCACAATGTTTTAGAAAAGAAGCAGGAAGCGCGGGAAGAGATACAAAGGGTTTAATTAGATTACATCAATTTAATAAAGTGGAATTAGTAAAAATTACAGATAAAAATTCTTCTTATGATGAACTTGAAAAAATGTTGGAAGATGCTGAACAATGTTTACAAATTTTTAATCTTCCATATAGAGTTGTTGAATTATGTACAGGAGATGTAGGTTTTTCATCAGAAAAAACTTATGATCTTGAGGTTTGATTTCCAAATCAAAATAAATACCGTGAAATTTCTTCTTGTTCAAATTGTGGTGATTTTCAAGCAAGAAGAATTAAAACAAGATATAAAAATGAGAATGGAAAATTAGAATTTGTTCATACTTTAAATGGATCAGGTTTAGCAATCGACAGACTATTTGCAGCTATTTTGGAAAATTATTATGATGGTGAGAAATTGATTTTACCAGAAGTATTAAAAGAATATTTTGAAAATAAAGAATATATAAGATAATGTTTCACGTGAAACATTAATAAAAATAAAATCAATAGTTTTTTATTAAAATTGTGTTAGTATATAATTGTCATTGTAAGGGTGACGTTCGAATTTGGTCAGGACCGGAAGGTAGCAGCCATAAGAATCTAGTGCCTTGTACAATGACTTTTTATTTGGGTGAGTATATGAATATTTTTTTTAAACAAATTATAAAAGAACTTGAAAAATGTAAAAAAAGTCAAGATGTTCCAGTTTCTGCAGTAATAGTAGATAAAAATAATATTTTAGTTTCAAAGGGTTATAATACAAGGCAAAAAAAATATAATTTTTGTAATCATGCTGAAATAAATGCAATAAATAGTTTATTTAAAAAAAATAAGAATAAAAATTTAAGTGACTATAAACTTATTGTCACGTTAAAACCATGCTTGATGTGCATAACAGTTATTGAGCAAGCAAATATAAAGAAAGTTTACTATTATTTAGAGAATATTAAATGTGATTATAGTAAATATATAACAAGTATTATTTTTTTAAAAATTAATGATGAAGAACAAAAAAAAATAATTGAAAAAAAACTTAAATCTTTTTTTCTTAATTTAAGAAAATAAAATTTATTTTGTAAAAAAAGGAGGAAATAAAAAATGAAAAATAAAAAATCTCTTTATAGGGAATATAGACCAAAAAATTTTGATCAAGTTGCTGGTCATGAAGGGATTAAGGAAATTCTAATTTCTCAAATAGAAAGTGGTAACTTTCCACATGCATTATTATTTTCAGGTCAAAGAGGTACAGGAAAAACATCCATTGCAAAAATATTATCAAAAATTATGAATTGTGAGAATCTTAAAAAATATAATCCTTGTGAAAATTGTATTAGTTGTAAGGAATTTAATAACAATTCACATGCGGATATTTTTGAAATTGATGCAGCATCAAATAATGGTATTGAAGAAATAAGAAATATAAAAGCAAACATATCTATGTTGCCTACATTTGCAAAATACAAAGTTTTTATAATTGATGAAATACACATGTTATCAAATTCAGCTTTTAACGCACTATTAAAAACGTTAGAAGAACCTCCAAAATATGTTATTTTTATTTTAGCTACAACTGAATTTTCAAAAATTCCAGAGACTATTATTTCAAGATGCCAATTATTTAATTTTAAAAAAATATCTCAAAAATCATTAGAAGAAAAAATAAATGAAATTTCAAATAAAGAAGGAAAAGAAATTACCGAAGATGCATTAAATGAAATTTATTATATGTCTGATGGATCATTAAGAGATGCGTTAAATTTTTTAGAACAGTCTTTAATTGTTTCAAATGAAAAAGTTACTGTAGATGATTTAAAAAAAATTTTTTATATATCGACTAAAAATGAAAAACTTTCAATTATCAAAAATGTATTAGATGGTAATTCAGAAGAAATAATTAATTATTTTGAAAAATCAAATGAACAGGGAATCGATTTTCAAATGATGTCTTTAAGCTTACTAGATATTTTAAAAGAAATAATAGAAGTTAAATTAACATCAAATCAAAAATTTTTAAATAATTTAAATATGGAAGAATTTAATAAATTTAAAAAATATGATGTAAGTATTTTTTTTGATTTATCAGATAATATTGCTGAATCATATACAAAGTCAAAAAACTCAAATATAAGTTTTCAATACATTTTGATAAATATATTGAAAACTTTAAATAATAAAACACTTATAAGTTTACAAGAAAATAAAAAAATTAACTTTTCAAATAGCGATAATTTTTTAATTAAAGAACATAAAAATGAGGAAAAAATAGATCAAAATAAAATTTTAGAAGTATTAGAAAATAATTTAATTAAAGATTCATTAAGTTTAAGTAATAAAAATGAGGAAAATAGTTTTTTAAAAATTCAAATTAAGTTACTTCTTGAAGAAACTAAGGGTAATAACTGAAATATTGATTTTTCAAATGAACAAATAATAAATATTTTAGCAAATGCAAATAAAGAAATTAGAACAAAGTTAGAAAATACAATTACTAATTTATTTTTAAATGAAGATATTCTAATGAATAAAGATAAGTGTAAAGCACTAATTATGTTTTATAATTCAAAAATTACAGCAGCTAGTGAAAATGGAATTATTTTTGTTTGTGAAGAAAGAACAATATCAAATTGAATAAATATTCGTTTACAAAATAAAATAATTAGAGAAGAAATTTGAAATTTTTTAGGGAGTAAATTTGCTATTATTTCAATAACAAAGAAAAGATGACAAGAAATCAAATTTGAATTTTTAAATAGAAAAAATAACAACCAACTTAATAAAGAAAAAATAGTTGATATTGAAAGTTTTTATGACTCATTTTTTATAAATAAAGAACAAAATGATGAGGATAATGATTATTTAAAAAGAGCAATGGAAATTTTTGGAATTAATAATATTAAGGTTGTGAATTAAACATGGAGAAATTAATTGAATATTTAAAAAATATTAATGGTATATCTTCAAAATCAGCAGAAAAAATAATTTTTGACTTAATAATAAATAAAAATAAATTATTAAATTTAGAGGAATTTTTAAAGAAAATAAAATTAGATTATGATGAATGTGGGGAATGTTTTTTTTATAGAGAAAATAGAACTTGCCTTTTTTGTGATAATGATCAAAGAGATAAAAAAATTATTTGTGTCGTTTCAACAAAAATAGATGCGAAAAAAATTTTGAATAGTAACTATAAAGGTATTATTCATGTTTTAAATGGAGAAATTAATTTAAACAAAAATATAGATCCAGAAAAATTAACATTAAATAAATTATTTGCTAGAATTAATATGGATACAGAATTGTTATTAGCATTAAATTTAACTTTTGAAGGTGAAGTAACAGCTAATTTTATTTATAATAAAGTAAAAAGTAATTGTTCAAAAATTTCAAGAATAGCGAGAGGTATACCTCTTGGAGGTGTACTTGATTATATTGATCAAGAAACTTTAAATGATGCAATTTTAAATAGAAAGAAATTTTAAGAGGAAAAAAAATGATTTTTATTTCATTAGAAGGAATTGATGGTTCTGGAAAAACAACCATCTCAAAAATGATAAAGAATAATTTAATCCAAAAAGGTCATAAAGTTTTATTAACAAGAGAACCTGGTGGGGAACCATTAGCAGAAGAACTAAGAAGAATTGTTTTGGATAAAAATACAAGTATAACTCCCTGAGCAGAAACATTATTATATGTGGCTGCAAGAAAACAACATTTAGAATCAATAATAATTCCTGCTTTAAAAGAAGGAACAATTGTTATTTGTGACAGATTCATGGATTCAACGTCAGCATATCAGGGATATGGAAGAAATATTGGAATGGCTGATGTTACAGAACTTCAAAATATTGTTTTAGGTGCAACTAAACCAGATTTAACTATTTTTTTTGATATTACACCTAAAGAAGCCCAAATTAGACTGTTAAATAGGAAAAGAAATATTGATAGATTAGAACAAGAAGATCAAAAATTTCATGAAGCAGTTTATGAAGGATATCAAATGTTAATATCAGAAAATTCAGATAGAATAAAAGTTGTTGATTCTAGAAAACCAATTAACGAAGTTTTACAACAAGTAGATTTTTTAATAGATAATGTTTTAAGCGAAAGAATGAAAAAATAAATGGAAAAAGAAAAACTATTTGAATTACTAAATAATTTAATTTCTGCAAATAAAATGTATCATTCAATAATAGTTGTAAATACTAATCAAAATTTATTAGAGGAGATTTCAATTGAAATATCAAGACAAATATTTTGTGAAAATAAAGCATTATCAAATGATAATTGTAAATGATGCATTAAAAGTTATAATAAAAATAATTTAAACATTTTTTTTATTGGGGATGGAACTAATCAAATTTCAAAAGTAGAAATTAAAGATTTAATAATTAAATTTTCTTCTTCAGCATTAGAAAATAATATTAATAAAATTTATATAATAAAAAATGCGGAACAACTAAATGAATTTGCAGCAAATTCACTTTTAAAATTTTTGGAGGAACCACCTAAAAACACTTATGCTATTTTATTGAGCAATGATAAAAATCAAATTTTATCTACTATAAAATCCCGTTGTAAAATATTTAGTATTTTTTCTCAAAAAAATAATCTTGATCAGTTAAATGATTTTTTTGACTTATTTTTGGAAAAAAATAAAGAAAATCTTTTGCTTTATTTAATAGAATTAAAACAAAAAGAAAAATTTGAAATAGTTCAAATACTTGAAAATACTTTTAATAAAAGTATAAATTTGTTAAATTCAAATATTCATGAAATTTTATTAGACGCTTTAACTGAAATAAAAACTTCAAACCATATAAATCTAATTTTGGAGAATCTATTTATTAAGATTCATGAGGTAATATAATGAAAATTATTAATAACATTTTAAATTTTAAAGAATTAAAAATAATACAAGATACTGAAATGTTTAATTATTGCATTGATTCAATTTTATTAACTAAATTTTGAAAACCATCAAAAAAATATAAAAACATTTTAGATTTTGGAACAAATAATGCTATTATTCCATTAATTTTATCAAGATACACAAATGCTAAAATATCAGGTGTTGAAATACAAAGGCAAGCTTATGAAATTGCAAAGGAAAATATTAAAATAAATAATTTAAGTGACAAAATTTTTATATATTGTAATGATATAAAAAAATTTATTTTAAATAAAAATAATGAATATGACTTAATTTTCTGTAATCCACCATTTTTTAAAATTAATTTAAATTCTTCAAATAATTTAAATACAAGAAGTAAATTTTTAATTAGTGCAAGACATGAAAAAGATATTACATTAAGTGAAATAATTGAATCTGCAAAAATAGCTTTAAAAAACGGCGGTAAGTTTTTGTTAATTCACTTAAGCGAAAGAGTTGAAGAAATTATAATTCTATTAAATAAAAATAATTTTGCAATAAAAAAAATAAGATTTATTTATTCAAAAAAAGGACAAGCTGCAAAAAAGGTATTAATTGAGTCAATAAATGATGGAAATAAGGGAACAAAAATTTTAGATCCACTTTATGTACATAATGAAGATGGAACTTATACTGAAGAAGTATTAAAAATGTTTGGTGATTAAATGAAATTAGAAAAAAAAGAAAAATATATTGTAGCGTTATCTGGTGGACCTGATAGTATTTTTTTATTAAATTATTTATTACAAAAAAAAATAACTAATTTAATAGCATGTCATGTTAATTATAATTTTCGAAAAGATTCACTTAATGACCAAATTATTTGTGAAAACATTTGTAAATTAAATAATATCAAATTAGAAACTCTTAATATAATTAGCAATTATAAAAATTTAACTTTTAATTTTGAATCTTGGGCTAGAGAAAAACGATATAATTTTTTTCAGGAAATATCATATAAGTATAATATTAATAAAGTATTGGTAGCACATAATTTAAATGATCATGTAGAAACATTTTTAATGCAAAAGCAAAAAAAAAGCTTAGTAAATTATTATGGAATAGAAGAAAAAATTTTTTTTGATAATTTATTAATTATTAGACCAATTCTAAAAATAAAGAAAAAGAGTATTTTGAAATACCTTAGTGATAAAAAAATTAAGTATGCTATTGACAGTACAAATACAGATTTAAATTTTTTAAGAAATAAAATTAGATCAAATTTAAAAAATAATCAATTAAAAAAATTTATTTTAATAATAAAGAAAGAAAATAAAAAACTTAAAAAAATAAAAAAAAGTATTCAAAAAAAAATAAATAAAGGTTTTCTGCAATTAAATGATTTTGTTGAAAATGAAGAATATAATTTAAGATTACTATTTAATTTTTTTGAATTTAAAAAAGTAGGCTCTTTTTTTTATAAAACAAAAAAAGCTATTATTAAAGAAATTTTAAAACAAATAATGTCTAAAAAAAGTTTTATAAAAATACAATTAGATTTTTTTGTAATAATTAAAGATTATAATTTTATTTACATTTTTGAAAAAAATAAATTAAATATTTTTGAGAAAACATTAGTTAGTACAGAAAAAAAAATGAAATTTAATATAAATTTAAATAGAAATTTTGATATTATTATTACTAATGATTGAGAAAAATGACAATCAAAAGTTTTTTATGGTTCAAAAAAATTATCAGACTATTATAAAAAAAATAAAATTAGTTATATTCAAAGATATAAAAATATTTTAATTTTTAGTAAAACTAACAAAATAGTTTTAAATAAACTAAATTAATAATGATAAAATCATAGGGAATATTAGAAAACGGTGGTAAAATGAAAAATAAAAAATCTATATGATTATGGGTTTTATTTATTATTATGTTGATAATAATAGGAATTGTTGTATGACAGTTTTTAACTGGTACATCAGATAAATTAACTTATGAACAATTTGAGGCCTTAATAAATAATGGTTCAATAGATAAAACTCAAACAAAGGAACAAATTTATAATGGTGTTCATGTTATTTCTGGAACATATCAAAAGGATGGTTCAGTGCATAAATTTGTTCTTTCATTAACAAATGAAGTATATTCAATGCACTTAAGTAATAATGTATGATTTGCTGATTTTGTTAGTGGAATACTTACTGAATATGAAACAACATCTCCACTTTTATCATTAGCACTTAATTTTTTACCAATGATTGTATTAATTGGTTTTTATATTTGAATATTTAGTTCAATGTCAAAAGGTGGCATGGGTGGTGGAATGTTCGGTGGAAAATCAACAAGACCACGTGAAATTAAATCGGATGTTAAATTTTCTGATGTTGCTGGTATTGACGAAGAAAAAACAGAACTAGTAGAATTGGTTGACTATTTAAAAAACCCAAATAAGTATGGAATGATGGGAGCTAGAGTTCCAAAAGGAGTACTAATGGAGGGACCACCAGGTACAGGGAAAACTTTACTTGCAAAAGCAGTAGCAGGAGAAGCGGGCGTTGCATTTTTTACTATGGCAGGTTCTGAATTTGAAGAAATGTTTGTAGGATTAGGAGCAAGTAGGGTTAGAGATCTTTTTAGTGATGCAAAGAAATCAGCTCCATGTATAATTTTTATTGATGAAATTGATGCAGTCGGAAGAAAAAGAAATAATTCTATGGGGTCCTCTACTAATGAGCAAACTTTAAATCAATTATTAGTTGAAATGGATGGTTTTGGTTCAAATTCAGGTGTAATAGTTATGGCCGCTACAAATAGAGTAGATGTTTTGGATCCAGCACTTTTAAGACCAGGTCGTTTTGATAGAACAATTCAAATTTCATTACCGGATATTAGAGAAAGAGAAGCAATATTAAAATTACATTCAAGAAATAAAGCTATTTCTCCAGAAATTGATTGGAAACGTATTGCTGAAAGAACGCCTGGGTTTTCAGGGGCACAACTGGAAAATGTTTTAAATGAAGCTGCAATACTTGTTGTAAGAAATAAAAGAAAAATGATTACTATAAATGATATTGATGAAGCTATTGATAGAGTTGTAGGGGGACCTGCAAAAAAATCAAGAGCTATGACGGTTCAAGATAAACAAGTTGTTTCTTATCATGAGGCTGGTCATGCTTTGATTGGTTTAAAATTAGATTCAGCATCAAAAGTTCAGAAAGTTACAATTATTCCTAGAGGAAATGCTGGTGGTTATACTATTATGACTCCAAAAGATGAATCAAATTTTTCTTCAAAAGAAGATTTATATGCATCAATAGCGGGTTACCTTGGTGGAAGAGCAGCAGAAGAAATTATTTTTGGAAAAAATAAAATAACTACTGGGGCACATGATGATTTAGATAAAGCAACAAATATTGCAAGAAGAATGGTAACTCAATTTGGTATGTCTACTTTAGGATTAACAAAATTTTTAACTATGCAAGAAGAATCTTATGGGCAAACAAAAGGTGTTTATTCAGATGAAATTGCATTCAAAATTGATATGGAAATTCATAAAATTTTAGATGATTGCTATAAAATTTCAATTGAAACTATTTCAAAGAATAGAGAATTACTTGAATTAATTGCTGAATCATTAAGAATTTTAGAAACAATAACAGCTGAACAAATTGATTACATAAATAAAAATAATAAACTTCCAGATGAAGTAATAAAAGAAAAAAATAGAAAACAAGAAGAAGAAAAGAAAAAAGAAGCAGGGGAAATTTTAGAATTTGAACCAGACTAATTAATATAATATGAAAAACACAATAAAAAGTGTTTTTTTCTTTTATATTAGTTAGTATAATTAAATCATTTATTAGGAGTAAAAAAATGGACATGGAAATAAGAGCAACTAGCAATAAAAATAATGTTAAAATTTCAATTGTTGATATCACAGAAGAATTAGATAAAATAGTAAAACTTCAAAAAACTAATCCTTTAGCTTCTTTTGCTTTAGGAAGAACCATTATAAATACTGCATTAATAAGCTTATCAGTTAAAGATGGAAGCAAAGTTACAACAAATATTAATGGAATGGGTTTAGGTGGTTCAATAATTGCTGAATTTCAAAATAATTCAATAAAAGGTTATATTGAAAAACCAAATTTCGAAATAAATAAAATACTTAATGATAAGGAAAGTGAAAGCGCATTATCGCAAGTTGTAGGAACTCAAGGCTTTTTACAAATTTCAAGAGATAATGGTAAAAAACAACCCTATACTTCAAGAGTAGAATTAATTTCAGGAGAAATTAATTTAGATTTTATGTACTATTTACAACAAAGCGATCAAATAAATTCATTAATTTCATCAAATATTGATTTTGAAGAAGATGGTTCGATAAAAAAGGCATGTGGGGTTATTATTCAGTTATTACCAGGATTTACAGAAGAAAATATAGATTTTATTGAAGAAAAAATAGGGTCTGTTGAACATTTAATTAAAACACTTATGGAATCAACAAATTATGAGGCATTAATTAAAGAGATTTGTGAAGATGCTCAAGTTGTTGGCATAAATCAATTATTTTTTAAATGTACTTGTAGTGAGGAAAAAGTTTTGAATACTTTAAAACTTTTAGAAAAAGAGGAAATAAATAAGGCAATAAATGATGGTGAAGAAATAGAAGTAGTTTGTGATTTTTGTAAAAACATTTTTATTATTATCCCTGAACAACTAAAAAAATTGATAATATGTTAAAATAGTCTTGGTGTATAAAGTTCTATATTAAGGAGAAAATATGGAAATAAATAATTCTGGTTTTGAAAATGAAAAGAATATGAAAATAAAAAAAATAAATAAAGAGGAAATTAAAAATTCTGAAAGAGTTTTTGAAGAAGTTGATATAACTGAAATTGTAGAAGAAGGCGTTAAGGGTTTAAAACAAAAAATTCGTTTGCAAAAACAATTAACCTCAAAATATTCGAAAAAAATATTAGAAGGAACAATTGTTTCAACTACAAAAAATAAACCTAATATTGAAAAAAATGTCATTGAATTATATAATGTCAAAAAATGATATATAACAGGTGATATGTTAACTCCGGTTTTAAGAGGGGTTGATTTAAAGCTTGAAAAAGGTAAATTTATTGTTATTTTAGGGCCATCTGGTTCTGGAAAAACGACTTTGCTAAATACAATTTCAGGTTTAGATAAAACATCTGAAGGAGATGTCTTTGTATTAGGAAATAATTTGTCCTTATTAAAGGATTCACATTTAACTAAATTTCGTAGAGAAAATGTAGGTTTTATTTTTCAACAGTACAATCTTTTATCAAATTTGACTGCAAAAGAAAATGCAGAAGTTGGTGAAAACTTAAGTAGGTCAAAGGAAAATAAAATGTCAATTGACGAAATTTTTAAAACTATTGGAATGGAAGAACAAATGAATAAATACCCCCATCAGATGTCTGGTGGTCAACAACAAAGGGTTTCTATTGCTAGAGCATTAGCAAAAAATCCTGAAATTCTTTTTGGTGATGAACCAACAGGAGCATTGGATGAAGAAATGGGTAGAAAAGTTTTGGAAATACTTGTGGATGTTAAAAATAAATATAATACAACTATAATAATAGTTACTCATAACCCAAATATTAGTGAAATTGGGGATACTGTAATTCATGTAAGAAATGGATTAATTGATGAAATTAAACAAAACTTAAATCCAAAAAGACCATCAGATATTGATTGGTCATAATTTAAACTGCATCTATTTATTTAGATGTAGTTTTTTTATATTTTAAGAAAAAAGTATATAATTATTAGTGTTAAAGGTAGGTAAAAATTATGCCAATATTTATATTTAGAGGTGTAGAGAAATCAAAAGTAGAGGAATATTTTTCAAAAATAGAAGAACTTTCTGAAATTATTGATGTTGATATAAAAAAATAGTTTTTTGAAATGATCAATCAATATTAATAGGAAATGGTTTTGAAAAGAATGCTATTTTTATTAATATTGACTGAATTGCGATACCATCAAAACAAGAAGAAGTTGTAAAACATATACAAAACTTTTTTAGTGCTTATTCAAAGGAAATTTACAGAAATAAATAATATTCTTTATTTAAATGGAAAGAGTGTAGGATAATGAAAATTAAAGATATAAAAATAAAGGGAAAAGTTTTTTTAGGTCCAATGGCAGGAACTACAAATGCAGCATTTAGAATAATTTGTAAAGAAAAAGGTGCATCTTTAGTTTATGCTGAAATGGTTAGTACAGAAGGATTAGTTCATAATAATAAAAAGACTAAAACTATGATTGAAGTTTCTAATTTAGAACATCCAATAAGTTTACAAATTTTTGGTTTTGATACAAATTCTTTTGTTGAAGGTGCAAAAATTGTAGAAGAGTTTTCGAAATGTGACATAATTGATATAAATATGGGTTGCCCTGCTCCAAAGGTGGCTCTTAGAAGTCAAGCTGGAGCAAACTTATTAAAATTTCCTGAAAGAGTTGGTGAAGTAATAAGAGCCGTTGTTGATAATACATCTAAACCGGTTACAGTTAAAATGAGAATTGGTTGGGATGATGAAAATAGAAATGTTGTAGAGCTAGCAAAAATTGCAGAAAAAAATGGAGCAAGTGCAATTGCAGTACATGGAAGAACAAGAAATCAATTTTATACAGGTAAGGCAGATTGAACTTGAATTAAAAAAGTTAAAGAAGCAGTTAATATTCCAGTTATTGGAAATGGAGATGTTTTTGATGGTCCTACAGCAAAAAAAATGTTAGAAGAAACAGGTTGTGATGGAATTATGATAGCAAGGGCAGCACAAGGAAATCCATGAATTTTTAGAGAAATTCAATACTTTTTGGAGACTGGAAAAAATTTAGAAAAACCGTCTTTTAATGAATGAAAAGAAACAGTTTTAAGACATGCGAATTTATTAATTGAAATGCGTGGAGAAGAATTTGCAATAAAGGAAATGAGAAAACAACTTCTTTGATATATTGCAAATTTAGGAAATAATCAAAATACTAAAGATATGAAACAAAAAGCAGTTCAAATAAATTCTTTAAAAAATATTGAGGAAATATTTGAATTATATGAAAACTAGTGGAGGTTAAGATGAAAGATATTTTTGAAAGAAATTTCTCAGAGCAGGAATTAGTCAGAAGAAAAAAATTAGAAAAATTAATTGAAAAAAATAGAAACCCATTTATTGAAAATAGTTTTGAAAAAAATTATACAATTTCTGAACTTTTTGAAAAATTTAATAATTTTTCAAAAGAAGAATTAAATTTAAAAGATAATGAAAATATTTTAATAGCAGGAAGAATTAGATTATTTAGAGAAGCTGGAAAAAAAGCTATTTTTGCAAATATTCAAGATCAAAATTCAATAATTCAAATTTATATTAGACAAGATGAAATTGGAGAAGAAGAATTTGAATACTTTAGAGATTTAGATTTAGGAGATATAATAGGAATTACAGGAACTATGATGAAAACAGATCATGGCGAATTAACAGTAAGAATAAAAAAATATATTTTATTAACAAAAGCATTAAAACCACTTCCAGATAAACACGCAGGAATTGTAGATGTAGAAGAAAAATATAGAAGAAGATATGTAGATCTTATTATGAATCCAGAGACAAAAAAAATTTTTATAGGAAGAAATAAAATTATAAGAACAATTCAAACATATTTGGATAACAAAGGTTATATGGAAGTTGAGACTCCTATATTACAATCTCTTAGAGGAGGAGCAGCAGCAAAACCATTTATAACACATTATAATGCTCTAGATAATGATTTTTATTTAAGAATTGCAACAGAATTACATCTAAAAAGATGTATTGTTGGTGGTTTTGAAGGAGTATATGAAATTGGAAGACTTTTTAGAAATGAAGGAATAAGTACTAGACATAATCCAGAATTTACTTCAATTGAAATTTATGTTGCCTATAAAAATATGATTTTCTTAATGGATTTATGTGAAGAACTATTTAGGAAATGTTCTTTGGAAGTTAGAAATACAACAAAAATTAATTATGGTGGTTTTGAATTAGATTTATCAAAACCTTTTAAAAGATGACACATGGTGGATGCAATAAAAGAAGTTTGTAATGTTGATTTTTGAAAAAAAATGACATATCAAGAAGCTTTAAAAATTGCAAAGAAACATAACATAAACGTTGAAAAACATCATTTCTCTGTAGGCCATATAATAAATTTATTTTTTGAAGAATTTGTAGAACAAAAAATTATTGAACCAACTTTTATTTGAGGACATCCAAGAGAAATTTCTCCTCTTTCAAAATTAAATTCAGAGGATTCAAGATTCACTGATAGATTTGAATTGTTTATAATTAAACGTGAATATGCGAATGCTTTTGCTGAATTAAATAACCCTATAGAACAATTTGATAGATTTGTAGATCAAATTAAAGAAGCAGAAGCTGGTAATGATGAAGCTACAGATATGGATATTGATTTTATTGAAGCATTAGAATACGGAATGCCTCCAACTGGAGGAATAGGAATAGGAATAGATAGATTAGTTATGTTACTAACTAATTCAGAATCAATTAAAGATGTTTTGCTGTTTCCACAAATGAAACCAAGAGGCAAATAATGAAATTTGGAATTACTTTAGGATATGTTTCAAAATTGAATATTGGAGAAACTATTGAAGGAATTGAGATTATAAATGAATTGCTTAATTCTAACTTAAAAAAACAATTTAGCTTAATTTCTGTAAAAAGTGGATTAGTTACAAATAAACAAACTTGATTAAATGATGATTTTCAACAAACAAAAAGACCAATAGACTTTGATATTATAAGTCAAAGTGCTTATGGAGAAATAATTCAAGCAAATAATAAATGAAGAAGGTATTTTTTGATGTTATTGGAAAATATTAATCCTAAAAAAGGTATAATAACAAATTTTACAACTGTTAATAGAGATGTAAAGGTTGATAATGTAAATTCAATAGTTTTTGAAGAAGTTGGTTTAGAAATACTTGCTAATGATATTAATATTGAAATCTTAAATGATTATTTAATTAGTATATATAAACTTTTTTGTAAAATTGATAATCATATTTCAAGTAAATTTTCTTCGTTAAGTAACTTTCATTTCTCTAAAAAATTAACTTTTATTACATATAAAAAATTAAAAGAATTATATCCTTTACTAACTTTTAATGAAAGATTAAATAAATTTGCAAAAGATAATGGAAGTTTTGTAATACAGGATTATGCAGAAAAGGTTTTAGGTCAAAAAAATATGACTCAGTTTTCGGAGGATGTTTTTAATTTAAAAACTTATTCAAAATTATATATTTATAATGGTGAATGTGAAAAAGCAATATCATTAGTTTATGCAGGCTATCAAGTGGACAGAAAAATTTTAAAAGAACAAAATAAAATTTTAAAAGAAAATTCAAAAAATATGAATGAGTATAATCATTTAATTAAATCAAATGAATTGCCATTAACTTTATCAATAGGAATTTTAACAAATAGGTTTATAATGACTTTATTAGAAAAACAACATATAGGAGAAGTTCACTCATCAATATGAAGCAATGATTTTATTTCTTATTGTAGAGTAAATGGAATTAAAATTTTCTAATATGGATTATAAAGGAAAATAAAATGATTAGTTTAATTATAGTTGCAAATGGATCAAGTGTAAGATTTGGAGAAAATAAGATGCTTGTTAAATTAAAAGACGAGTTTTTAATTTTAAAAACAATAAAAAACTTTTTAGATTTTAATGAGATAGATCAAATTATTTTAGTTTCAAATGATCAAATATTTAATGTTGTAAATTTAAAAGAAGTGGAAAAGGTTTATGGTGGTTTAACAAGATCTGAATCAGTTCAAAAAGGATTAGAAAAAGTAAGAAATGATTTTGTAATAATTCATGATGGAGCTAGACCATTTACTTCAAAAAAGTTAATAAAAAAACTAATTCAAAATTTAAAACCAAATATTGCTGTAATTCCCATTTTAAAGATTACAAATTGTTTAAAAAAAATTTCAAATAATAAAATAAAAACAGTTGATAGAGAACAATATTTTATTTCACAAACACCACAAGGTTTTTATACAAAACTTATAATTGATTGTTACAAAAATTTTAATAGAGATTGATTTGATGATAGTCAAGCAATTGAAGAAAATAATGGAAAATTAATTTTAATTGAAGGTGATAAAAAGAACATTAAAATAACTTTTAAAGAAGATATAGAAACTAATTTATTTTTTGCAAAAAAGATGTAGAATTAGTTTTTTTATTTTTATGTTTTGCTATATAATTAATAGGTGAGTTAATTTTTTATTAACTCCTTGCCTTTTTTAGGCCAATAGACCATAAGGAGAATTAAATGATGATAAGAAAATACGAAGTAATGTATATTATTGATAAAGATGCAACTGATTTAAAAGGAGTTCAAAAAAAATTAAACGATATACTTACTGCTAATAATGGAAAAATTTTGGAATCTGAAGAGTGAGGATTAAAGGAATTTGCATACGAAATTAAAAAAAAGAAAAGTGGATATTATTTTGTATTGATAGTTGAAACAGATTCAGCGAATATTAATGAGTTTGAACGTGTTTCAAGAATTGATAAAAATATTGTTAGAAATTTGGTTATTAATACAGAAAATGAAAAAAAATACATTCAATCAACAAAATTATCTAAAACAGATATGTCTAAATTTAAAGAAGAAAAAAGACCATCAAGAGGATTTGAAAAAAGAATGTCACCTAAAAGAGAAAATAATACAGGTGATAGTGAAACTAAAACACCAGCAACAAATTCAGAAGAAAAAAGTTTAAAAAAAATTACTACTTCAAAAGTAGAAGAGTAATTTTAAGGAGGCCACTATGAATTCAGTTATTTTAATTGGAAGGATTACACAAGATCCTGAGTTAAGAAATTCTTCAAATGGAAAATCATTTGTAGCATTTACATTGGCTGTGAATGAATTTTCAGAAGGTAATCAATTTACTCAATTTATACCTTGCTTTGCATGAGAAAAAACTGCTGAAAATTTAGCAAAATTTGTTAAAAAGGGTGCTCAAATTTCAGTAGAGGGTTCAATTAACGTAAGAAGAGAAAATAATAATGGACAATTTACTCAAATTATTACAGTTAGAGCAAATAGAATTCAATTTTTAGGAAGTTCAAGTTCATCAGGAGTACCAAAATCGGATAACTTTAGCGGTCAAAACACAACTTCATTAAACCAACAACCTACAAATAATTTTGATTTTGACTTAATGGATGAACCAAAGTCAATTGTTGGAGATGATGATTCAATACTATGAGAAGATTAAAATAGGAGAAGAAAATGAAAAAATTTGTTAGAAGAAAAAAAGTTAATTTTTTTGCAAAAAATAATATTGATTATATTGATTATAAAGATGTCGAATTATTGAAGAAATTTATTTCTTCAAATGGACAAATTTTACCAAAAAGAATTACTGGTACATCACCAAAACATCAAAGAATGTTGGCGATTGCTATTAAAAGATCAAGAAGTATGGGATTGCTTCCTTTTGTAGTACAATAATTTTTAAACACCAAAGAGGTGTTTTTTTATTTGTTTGTTATAATTAATAAGGTGATTAGTATGAAAGTAATATTATTAAATGACGTAAAAAATTATGGAAAAAAAGATGAAATTGTTGATGTTGCAGATGGGTATGCACAAAACTATTTAATTCCAAAAAAATTAGCTATTATTGCAACAAAAGACGATTTAAGCCATTTAAATGTTAGAAAAAATAAGGAAGAAGAAGAAAAAAGAAAACAATTTGAAGAAGTAAAAAAAGTTAAAGAAAAAATTGATTTAATTCAATTAAATTTTAAGATTAAAGTAAAAGATAATAAAACTTTTGGTTCCATTTCTTTAATTCAAATTGAAGATAGACTAAAAAAAGAATTTGATTTAGATATTGATAAAAGAAAGTTTGAGAAACATGAAGCATTAAATAAAATAGGTTTATTTTATTTAAAAATAAAGTTAAATTTTAATTTAATTGCAATACTGAAAGTTTTAATAGAAGGAATTGAGTAAAAATGGTGAGTAATATAGAATTCAATAATATGGAAAGTGTTTTAATTGATTCTGAAAAAGCTGTTTTAGCAATAGCGATGCATTCGCCAAAAGCAAGTTTTGATATATTAACTCAATTGAATGCTGAGGATTTTTGTTTAGAAAAACATGCATTACTATTTGAAGCAATTAATGCAGTTTCTCAAAATAGCCAAAGCATTTCTATTACAAAAATAGCTGACTATTTAGAAGAAAAAAAAATACTAGAAAAGATTGGAGGCATAGCATATTTATCCGATATTTCTGGTTATTTTTATACTGATGAAGGATTTGAAGATTATGTTCAAATTGTCTTTAAAAATTCCATTGGTAGACAATTGGATAGAGCAATAATTCATATAAAACAATTGAGAGAAAGTCATTCACCAATTGATGAGGTTTTTTTAGTAGCTCAACAAAAAATATTGAATATAAAAACGGATATTAAAAAAGATGATGCAACTGAAATTAAACAAACTGTCATAGAAGTTATTAAAAAAATTCAATTTTTGGAAAAAAATGGTGGTTTAATAAATGGTATTCCTTCTGGGATTTCTGATTTAGATCAAATTACAAATGGATGACAAAAAGGAGATTTTATAATACTTGCTGCCCGACCTTCAATGGGTAAAACAGCATTTGCTCTAAATTTAGCAGTAAATGCGGCTGAAAGACAAAAAGGCGTTGCGTTTTTTTCATTAGAAATGCCAAGAGAACAACTAGTTCAACGTATTTTGAGTTCAATTTCAGGAATTGATTCATCTTCATTAAGAAATGCACAAGGACTTACTCAAGAAAAATGATCAAGAATAACTGCTGGGGGAGAACAAATTAAAAATATGAACATAATTATAGATGATTCACCTGGTATTAATGTTTTGCAATTGCAATCAAAATTAAGAAAAATGAAAAGAGATTTTAATGTAGAAATTTGTTTTATTGATTATTTACAATTAATTTCTTCAATATCAAATAAATTAGATAGTAGACAAAATGAAGTGGCAGCAATTTCTAGACAATTAAAAAAAATTGCACGTGAATTAAATATGCCAATAATTTGTTTATCACAGCTTTCACGTAGTGTTGAAAAAAGAGAAGAAAAAACGCCTTTAATGTCGGATTTAAGAGACAGTGGAGCTATTGAACAAGATGCTGATATAATTATGTTTTTATATAGAGATGCTTATTATAAATCAAAAGAATATAATATGGAATCAGATAATCCTACTGATGAAACAGATATAATAATATCAAAACATAGAAATGGTGCAACAGGAGTAGTAAAAGTTAACTTTTTGAGAAGTTATGGTAAATTTATTGAGCAATCAAAAAACTCTTAATAAGTTTGTAAAATAATGTAGAATTATAATTAGAATTTGAGGTCTTAAAATGAAGAAATTATTATCTATTTTTGCAATTTCAACAATTATTAGTCCAGGAATTGTTGCTGTTGCTTCATGTAGCGTTCCAACTTCAAGTGTTTCTACCTTAGTTGATGGAAAAGAAAAATTTAAAATAAAAAGTGGAGATGATATTAAGGAAATTAGTTCAATTGATTTATTTTCAAATGAAAAAAGTAAAATGCTTTCTATTTTTACTATGCAAATTTTAGAAGCCTTGACATTTAGTGAAACAAAATATCAAAGTTCAGAAAAATTAAATGCTAAAAAAAAATCATTAGGAATTAATGGCTTGAACTTATCTCTTGAAAAATTAATTAATGAATCTTTTACCGAAGAAAATAATCTTCCAAAATTTACTGATAATACAAATGGTTCTTTTAAAGAAGCATATTTTTCAACAAATGATACAAAATTTTTATCTGTAAATTATAATATGAATATTAATTTAAGCGAAGATGCTTTGGATGAAAATGGAAAATGAGAATCAGAATTAGCAAGTACATATACGGGTGATTATTCAAAAGTAATGAAAGCAGATGCAAATTTTAATTCAGATGGAAAATTAGAAAATATAGAAAAATCAGATAAAGATGAAAATAAAAGATTAGATTATTTTTTAAACTTAACTTGATCCCAAGCTTATGAAGATTTATTTAAAAGTTCAAATTTGGAAAGTTTTAAAGATAAAGGTGTTTATACATTAGAAGAATCTCAAGCAAATGAACTATATGAAGTATTAAAAAATTTAACTGATCCAGTTGCTCAAGAATTGATTTCTATTGATAAGGATGTTTTTAAAACTATTCATTCTCAATTGAGAACTGTTAAGACAAAATTAAAAAATGGAATTCTAATGTTATCAAAATTTGATGAATCATTAGTTAATAATGATAAAGAAACTAAAATAATTCCATATGAAAAAGATAGTGAGGGTAATCAAACTAATAAAACTGAGTTTTTTAATTTACAAGAAGGTTGAGAATTTTTTGAAAATAGTTCAAAAAATTTACAAAGCAATGAAACTCTTATTTATGCAAAAGCGGATGTAGAAAATATACCAGAAATTAATTTTGAATTTGACTCTCAAAATTCAAAAGGTGATAAATTTAATATTAAAATTTCGGGATTAAATAATTTAATAGTTGGTTTTTCATTAATGGGAGCAAAAATTGGACAAACAACAAATGAAGACAAATCAAAAAAAGATGAAATGATTTATTGATATGAACCTGTAGTTTATCAATTTAATAAGACAACTATGTTTAAAGCAGGAATTGAAAATATGTTTGAAACATTAGATACAAAAAAAGTAAATATAATAGTAGAAAAAAATAATTTAACTTAGTGTCAATTAGGTATTTTAGAATTGGCAAAAATATGAGATAATATATAACAAGTTGAGGGAGAGTATTTCTATGAATTATTACATTAAGCTTGAAAATAATTACTATGAAATTGTAGATGGTAATACAAATAAAATAATTGCATCTTTTGTTGCTGAAGTTGATGCTCATAATTTTATTCAATCTCTTTTCAGTACTTTAAATAATCCACTTCAAAGACAACAACAATTTATTAATCCATATTTTCAATTTCCTATGGTGGCGCCTTTTGCGCCAGGACAAACATTACAACATAATAAACATTTTCCATTTATGGATAGAAATTTAGAAAATGGAGGGTTTATTGATTCAAATATACGAAATTGAAATGACAATTTAAATCAAAACTTAAAATATAAAAATCAAGAAGTTTTAAATAGTAATCAAAAATTTAGGAATGATGAAAACTATAATCATACTCAAAGATATTATGAAAGTAATCCACACTATAATGATTCAATTTTAAATAGGAATTATGAAAATTTAAACAATAAAGAGAATAATTTTAAGCATGATACTTATAATTCAAAAAATATAGATATAGCAACTGAAAATAGGAGAAAATTACAAAATCAATCCGAATATAATGTATCAGATGATATAAACAAAACAATTGAAGAAAAAAATGAAAACCAAAAAATAGATAAATATCAACAAGCAATTAACCCAAATTTAGAAAAAACCGCTTCAAATAATATAAAAAAAATAATTAACAATAAAATGGAAGAGCCAATAAATATTAATAGTAATTTTGAAGATAACTTAAAAGATATAAAAAATGATTTTTTAGAAAACAATTCTAATTTTGCTAAGGAAAAAAATTTTAAAAGTAAAAATAAGAAAAATGAAATATTTAATTTTTATAATAATAAAATTGAAGAAGAAAAGGATTCAATTGGTTTTTGAGATGGTGAAACAGACATCAACGAAAGCAAAAAATCTAAACTTCTTTTTGATGATGAATCTTTGGCAATTGATACAACTTTATTTGGTGATGATAAAATCGGGGCAATAATTCAACAGTCTAAAATTATTGTTAATAATACTGATGATGATAGTTTAGGTGAAACATCAGCTTATAATAAAATTAAAAATAAGAAATTGGATTTCAAAAATAAAAAAGATTTTTCACTTGATCTAAATAATATTACTTTACCAGAAGAAAATTTTATTTTTAATAGTGATGATATTCCTTTTACTACAGAAACTAAAATAACATCAAATGTGGGTAGTGGTATTAGAGAAGATTTTTCAGAAATACAAAGTTCAAATACATTAAAAAAAGAAGTTTTTAAAATTAAAAAAAATTCTGATTTAATTGATTTAGGACCAGTTGAAGAAGAAGATGAATTATATTCAACACCTAGAAAAGATGCTGAAAAAGATGATTTTGAGAATTTTAGTCTATCAAAAAAAGAAAAAAAGGAATTGAAAAAAATAAAGAAAAAAGAAGAAATATCTAAAAAAAGATATGAAAAGTTATTGAAATAAAACTGAAATATTTGAAAAAATTGATATTGAATGGATTCAAATATTTAAAAAAAATGGTATAAAAAATGATATTTTTTCAATTTTTTCTAAAATTAAAAATATTAATAATATTTTTCCTGAACCTCAGGAAATTTTTAGTGTTTTTAAACTAATAAAACCATCAGAGATTAAAGTTATTATATTAGGTCAAGATCCATATCATGGAGAAAATCAAGCAAATGGAATAGCATTTAGTGTTTCAAATAGAGTAAAAACTCCACCAAGCTTAAGAAATATTTTTAAAGAGTTAAAAAATGATTTAGGTATAAGCCATTTCGAAAATAATGATTTATCTATGTGAGTAAAGCAGGGAGTTTTTTTATTAAATACCTCATTAACTGTTGAAAAAGGATTGCCAAATTCACATAAGAATTTAGGTTGAAATAACGTTATCATTAAAATTCTTAAAGCTGTAAATGAATTTAATAATAATATTATTTATTGTTTATGGGGGAATTATGCAAAAAACCTATATAATAATCTTATAAATGGTGATAATAAGATTGAAAATTGCATATTTTCTTCTCATCCTTCACCATTTAGTTATAAAAATGGATTTGAAAATAGCAAACCATTTTCAAAAATTAATGACTTGCTAGTTAAGAAAAATCAAAAAGCAATTAATTGACAATTATAAGGAGTAAAAACTATGGAAAAAATAAGCAAATGGCTATTAGAAGGTAATAATTTAGCTTATGCCATGTCAGCTTTTATAGCGTTTTTTATATTTTTATATTTTATTTATAACGCTGGTTCATATTTAATTTTAAAAGAGAGATATCATGGAATTAGATTTACAACTAAAAATATAGCTTATATTACTATGTTTACTGCTATTAATGTTAGTGTTACTGTTGTTATTTCTCTTACTATTCCGATTACTGTTTTTCCTCCAATACGAATAGCATTTGAGGGTGTTATGGTAAAAATTACAGGATTTATTTTTGGTCCAATTATTGGTGTGCTTGTTGCTTTAATAACAGAAGTACTTGTAATGATTTTTGTACCATCTTTTATTCACCCAGCATTTATAATTGTAATTATTTGTTATGGTTTTATTGCAGGAATTGGTTCTAGTTTTTTAAGATTAGGAAAAGGATACAATTGAGTAACAATGAGTTTAATCAATGTATTTTTAATAATTTTTGCAGTATTTATGACATTTATTATTGATTCATACCAGGATTCTGTAAATATTATTGGTGATTGAAAAATATCAAGTGAAGCATATAAATGATTTTTCTTAGGCTCAATATTAATTTGTATTTTTGCTATTTGATTTTTTTATTTAGTTTTACTACTAAAGGGGCATCGTAAAACCTTACATGTATTATTGCCAATAATTTTATTTGCAACTGCTGCAGAATATTTAGTAACAGCATCTATTTCAGCATGAGGAGACGCGGGTTTTTTAGGAATTGAAGGAGGTTATGTAGCTATGTTTATTGGTAGACTAGCACAAGCACCTTTTAAAATTATCTATAACTCTGCTGTTTTATATTTTACTTATAGAGTTGTAGCACCTTTAATTAAAAGAGATAGATAAATTTTTATAACGGGGAGGAAATTCAATGAAATTATATGATTCATTGACAACAGAACTTAAAATGATAGATGTACCTAAGGTTTGCATTTACACTTGTGGACCGACTGTCTATGACTATATTCATATTGGTAATGCAAGACCATTAATTTTGACAGATTTAATTATCAAATACTTAGAACATAGAGAAATTAAATATAAATATCTGTTAAATATTACAGATATTGATGACAAAATTATAAAAAAGTCAATGGAAATGAATATTTCAGAAGAAAATCTTTCTCAAAAATATACAAAAGCTTTTTTAGAAGATTTAGAAGCTTTAAATATAACAAAACCAACGGATATTATCCCAATTTCTTCAAAAATAAATGAAATTTTAAAATTTATTAATGAGTTGATTGAAAAAGATTACGCATATGAAATAAAAGGGAATGTTTATTTTAATATTGCACGTTGGGAAAAAAAATATGGAAATCTTTCTAAACAGAATATCAATCAATTAGAGATTGGGAATAGAGTAGAAGAGGACTTAAATAAAAAAAACCCACAAGATTTTGTTTTATGAAAGAAAACATCAGAAGGGAAAAAGTGACTTTCAAAATGAAGCCTGGGTAGACCAGGATGACATACTGAATGTGCACTTTTAATTGATAACTACTTTAAAGCCCCTATAGATATTCATGTAGGAGGAATTGACTTAAAATTTCCACATCATGAAAATGAACGAATTCAATATTTAGCAAAAAATTTGAGAGAATTAAGCACAGTTTGATTACATAATGGGCATGTTTCTCTGGAAAATACGAAAATGTCAAAATCACTTAATAATACAATCTTAGTCAGAGATTTTATCAATGATTATGGAATTAATGTTTTGAGATATATATTTTTAAATTCAAATTATAAACAGCCATTAAATATAACTAAAGAATTAATTTTACAATCATCTGAATGAGTTGAAAAAGTTGATAATTTATTAAGAACAATTAATTGATTAACAAAAATCGGAGAAGTTATATTAACTAATAAAACTCCAATTGATGATAATTTTAATTCGCATAAATATATTACTCGTTTTAGAGCTTTTATTAAAGATGATTTAAATACACCTTTAATAATATCCTTAATAAACGAAATGACTAAAAACATAAATAAACAGTTAAAAAATAAAATGGTGGATTTGACTTATATAAAATTATTGACACTTTTAAAAATTTTAGGTTTTTCTTTTGAAATACCTAATTTATCAAAAAATGATGTAGAAATGATAAGAAAATGAAATGAATTAAAATTGGCAAAGAATTTTACTAAAGCTGATAAAATAAGAGAAATATTAAAAAAAGGAAAAATCATATAGATGAGAAATTATATTTATGGTAAAAAAATAGTTGAAAATGTTATAAAAAATTTTAGCAATCAAATTGTTAAAATTTATATTTTAAAAGGACATTCTTTTGAACAAGAAATATATTCAATTATTAAAAAAAATAATATAAAGTGATCTTCTGTTGAAAAAGGAAATTTTTTGAAAATAATAAAGGAAAAAATTAAACATCAAGGATATATTGCAGAGGTTAAAGAGTACCAGTATTGCGAACTTTCAAATATATACAATAATTCAAAGGAAAGACAAGTTATTTTAATTATAGATCAATTACAAGATCCACAAAATTTTGGGGCTATAATTAGAACTGCAAGTCTTTTTAATGTTGATGGTATTATTATTCAAGAAAATAATCAAGTAAAAGTAACACCAGCAGTAGTAAAGGCGTCTGTGGGAACAATTTACAACATACCAATTGTTAAAGTATCAAATTTAAAAGATGCTATAAATTCACTAAAAAATCAAGGATTTTGAATTTATAGTTCTTTTTTGGGGAAAGATAGCAAATCAATCAATGAAATAAATTTTGATAAAAAAACTGCTATCGTTATTGGAAATGAAGCAACAGGAATTTCAAAAAAAATTCTCAGTGTTTCAGATTTTAATTTTAAAATTGAAACAAGCAATGTTATAGATTCATTAAATGTATCTGTAGCAACAGGAATAATACTTTTTAAAATATCTGCTATCTAATTATTATAGAGAAAAAAGTATGAACTTTTCAGTTGAAAATATCATTTATGTAATATCAAAAAAATTATTTAAAGAGCAAGCAGAAAAAGTAGAAATTCAAATGCTTTCAAGAATAATCGTAAGTATAATTAATAAAGAATTTGTAAAAATGGACTTTTTAAGGATTGATAAAGAGGATTTAATAACAAATGTTTATTTAGCTTTATGTGAAGTAAAAAAAGATTTAATCCACAATTAAAAGTGCCATTAATTGCATATTCTTGTTTTATAGTTAAGCATAGAATATTAGATTATGTAAGGTATCTAAAACGTAAGAAAAATTAATTACATTACAACTTGTAAATAGTTACAGGGGAAATCTAATAAATCAACAAAGAACAGCTTTAGAAAGAGATAGTGACGAATATTCAATTGAGTTATATAATGATAACTTAGAATATAATAATTCACTTAAAATTATTGAATTATTTTTTGAAACTAAACCTACTAAGAGGGAAAAATCCATTATAAAATTATTAACACAAAACCTTAATAAAATTCAAATAATGAAATTATTAAATATTTCAAGATATGAAATAACAAAATGTCAAAAAAAATTAAAAAACTATTTTAATAGTTTATTATAGTGATTATCTAATATATAATAATTTGTAGGCTAATAGAAGAGAGTGTTCCTATGTCACAAATTAAAAAAAAAATAATCTTGGTTTGCACGGAATGCCTTTCAAGGAATTATTCAATTCAGAAAAGTAAAATTTCGCAACGAGAAAGATTAGAAATTAAAAAATATTGTAAAACATGTAATGAACATGTGTTACACAAGGAGACGAGATAATTATGAAAAGCAATGATAAAAATGAAATCTTAAAAGATGATAGCTTAAACAATCTTTCTGACAAGGATAAAAGAGCAAAACAAAGAAAATTAAAATTGGAAACTAAAATAGAAAAAAAGGCTTCCAAAGTGGCTATTAAACTTGAGAGAAAAAAAGAAATTAAAGAACTTTTCAATAAATTTGAAGGTCATGATGGAACACAAGAAGGAAAAGTAAAAGCAGCTAAAGATAAAAAAATAAAGAAACATAAAAATAAAGTTGACTATAAACTAACTTTTAAAGAAGCACCAGTTAAGTTTTTAAAAGAGATAAATAAAATTAAATGGTCTTCAAGGCAGAATTTAGGTACAAAATTTTTATGAGTTATTATATTTATTTTTATATTTGGAGCTTTCTTTTTCTTAGTTGATTGAGGATTACAAAGTTTATTTGTAGTAATTAAGATTATTTAGTAAGGAGTTTTTATGGAACAAGAATTTATTTTAGAAGAAGAACTAGCCTCTTATAGGGGACAATGATTTGTTTTAAATTGTAATAGTGGTCATGAAGATAGAGTAAGAGCAGATTTATTGCAAAAAATTGAAACATCAGGGTTGGAAGATAGAATATTTGATATTAGAATTTCAAAGGGGCCTATAGTTGGAAGTAATAATAAAGTCACTGAAAAAAATAAGTTTCCTGGTTATCTTTTTATAAATATGAATATGACAGATGAAACTTGATTTATTATTCGTAATACACCAGGTGTAACTGGTTTTATCGGGTCTTCTGGTAAAGGTGCAAAACCTTTGCCTTTAACAAGTGAAGAAGTTTCAAGAATGCTAGAACAAAATAATCAATCTTCAAAAAACAAGAAAAATTCAAAAGGAAATGCTAATCAACCAAAAAAAGAAAAAATTTTGTATGAAGCAAATTTTAATTCCAAAGATGTTGTTCTTGTTAAAGAGGGGCCGTTTGTCGGTACTGAAGGACAAGTTATAGAAATGGACTTGGAAAAAGGAATTGCGATTGTAAATATTGAATTATTTGGAAGGATTACACCAACAGAATTTGAATTTTCAAATTTAGAAATTGCATATAAAGGATAATAAAAGACTTTGATTAAAAGTCTTTTATTTTTAAGTTTTAGGAGAAAAATAATATGAAAAAAATAAAAGTAAAGATAGTATTAGAAGGTAATAGAGAAATAAATGTAGATTTATTTCCACAGCTTGCTCCGATTTCGGTTGAAAATTTTGTCAATTTAATAAAAATAAATTTTTTTGATGGCCTAATTTTTCATAGAGTAATTAAAAATTTTATGATTCAAGGAGGCGGAATGGATTTAAATTTAGTGGAAAAAGGAAATCTATCCCCAATCAAAGGAGAATTTTTAATAAATGGATGAAATAAAAATACTTCAAAGTTAAGTCATGAACCAGGTGTTTTATCTATGGCAAGAACAAATATATTTGATAGTGCTACTAGTCAATTTTTTATAGTTACAGGAGATGCAAAATTTTTGGACGGTCAATATGCAGCTTTTGGAAAAGTTAATGACCAAGAAAGTATGAAAGTAATTTTGGAAATTGAAAATGTTGAAACAGAAACAAAAAATTTTTTTGATGATGTTCCAAAGAAACCAATAATAATTAAAACTATTAATTTAATTTAGTTTATGTTATTATTATTAATGGCAGATTTTAATTGTGGAAGTATATCATACAAATGTATGTATTACGTTAGGACCACAGCGAAAACAGGAGGTGTTGTTCGTGGCAAAAAGAATCACACGTATAGCAAAATTAGAATTTATGGCAATGCAAGCTAAACCAGGAGCTGAATTAGCTTCACTTGGAATTAATATGCCTCAATTCACACAACAATTTAATGAAGCCACAAAAGAAAGAGCTGGTGAAATTGTTCCAGTAGTTATTACAGCATATGATGATAAATCATTTGATTTTGTTTTGAAAACTACTCCAGCAGCTTTTATGTTGAAAAAAGCAGTAGGTATTCAAAAAGGATCATCAAAATCAGGTTCTGAGGTTATTGCAACAATTACAGCAGATGAAATTAAGAAAATTGCAGAATATAAAATGGAAGACTTAAACGCAAATACAATAGATGCAGCAATGAGAATTATTGAAGGTTCAGCAAGAAACATGGGTATTAAAGTTACTGGTATGCCAGAAAAAGAAGGTAAATAATTATGGCAAAATTAAGTAAAAAAACAAAAGAAGTAAATAAAAAAGTTGATAAAGCAAAATTATACCCAGTTACTGAAGCTATTAAATTAGCAAAAGAAACTTCAATAACAAAATTTGATGCAACTGTGGAAATTGCATTTAACTTAAATGTTGATCCAAGACATGCAGATCAACAAATTAGGGGTGCTTTGGTAATGCCTGGTGGTACAGGAAAAACTCAAAGAGTTTTAGTTTTAACAAAAACAAAAATTAAAGAGGCCCAAGAAGCAGGAGCAGATTTTGTTGGTGCAGAAGATTTAATTCAAAAAATTGCAAAAGAAAATTGATTTGAATATGATGTAATTGTAGCAACTCCAGAAATGATGGCAGAATTGGGGAAAATTGGTAAGGTATTAGGACCAAAAGGGTTAATGCCAAATCCAAAAACAGGTACAGTTACAGTTGATGTAACCAAAGCATTAGATGAAATTAAAAAAGGTAAAGTTGAATATAGAACTGATAAAGAAGGTAATATTCATTCAATTTTAGGTAAAGTTTCTTTTAAAGAAGAAAATTTAATGAAAAATTTTTCTGCAATTCTTGATGTTATTAAAAAAGCTAAACCAGCTGCAGTTAAAGGAACATATATTAAAAACATTTCAGTTTCTACTACTATGGGACCTGGAATTAAAGTATTAATTGAAAATTAATCTCTATTAGGAGATTTTTTTTTCAAAAAACACTTGCATTAACCTAAGGTTAATCTTTTAAAATAATTTTGGAGGTAAAAAATGAGAGCAATAATAGTAAGTAAAAATAAAGAAAAAATTGTTGAACTAATTGAAAAAGAAAATATAACTAAAATAAATAATGATGAAGTTATTGTTAAAACATTGTATTGTAGTTTATGTCATAGTGATTTAACAACTGCTTCTGGAATCTTAGGAGATTAAACAGGAAAAACTGTGGGGCATGAATCAGTGGGAGAAATTATTAAGTTAGGGAATGAGGTAACAAATTTAAAAATTGGTGATATTGTGGCATTTCCTGCTGGACTACATAATGCATGTGGAAAATGTTATTTTTGTATAAATGAAGAGGAAGTATTTTGTGAAAATGCCACTTTTACAAGTTCAAGAGGTTATGGAACTATGCAAGATGAATGTATTGAGAAAGCCAGTTTTTGTGTAAAGGTTCCAGATGGAGTTAATTTAGCTCAGGCTTGCGTTATAACATGTGCAGGCTTAACAGTATATAAGGGTTTGAAAATAGCACAACCGAAACAAGGAGATTTTGTAGCAATTTATTGTATTGGTGGTTTGGGAAATATTGCAATTGAGTATGCAAAAAATATTTTTAAGACAAAAGTAATTGCAATAGGAAGCAATAAAAAAAGTTTAGAAATTGCCAAAGAAAAAGGAGCTGATTATATAATAAATTGGAAAGAAGAAAATGTTGATTATGCAATAAAAAAAATAACAAATAATGGAGTAGCGGTTGCTTTGGTAACAAGTTCAACAAGTGATCAATTTGAAATGGCTTATAGAAATTTAAAATCTGTTGGAAAATTAATTGCAATTGGATTACCAAAGGCTAAACTTGAAATTGATATAATTGATTTAGTTTTAACAGCAAAACAAATTATTGGAACCTTAGTTGGTACAAGAAAAGATCTTGAAGAATCACTAGATTATTTTTCAAAAGGATTAATTAATCCTGATTTAGTTGTTGAACCTTTAATTAAAGCACCTGAATACTTTAAATTGATGGAAGAAAATAAACTACATACAAGAATAGTTTTTGATTTTAATAAATAATTTATATTAAAATTAAATTAAGAATAAATGGAGTGAATTTTATGAGAAAAATTTATTTAAATGAAATTGCAAAGCATTTCAATATTCCAGAACATGTAATAAGGTTTTATCATAAAAAAGGATTAATTCCATATATGAAAATGGATCTAAATAATTATAGATATATTTTAGAAAAAGATATTGATTGATTTAATACAATTAGATGTTTAAAAAATACGGGAATGTCATTGAAAGAAATTGAAAAATATATTAAACTGGCAGAAATTGGTGATACAACTGTTTTAGAACGTCAAAATATGATAATTGTACAAAAAGAAATTGTTAATCAAAAAATAAAAGAATTAGAAAAACAAAAAAATTGATTGGATTATAAAATTGATTTCTATAATAAAAAAAATAATTTCCTAGAATACTTTATTAAAAATAAGTTGTTTATAATTAAGAAATATAGATGGAGAAAAGAAAAATGAAATGATGATTTTCAGATTATGACGGAACAATCAATTTGCAACATAATGATTATATTGATCCAAGGGATTTAAATTTCATAAATGAATGAATTAAAGAAGGTAATTATTTTGCAATTGCAACAGGAAGAATGGAAAATGAAATAGCACCTGTTTTAGAACGTCAAAATATAAAATGAAATTATATGGTTTGTAATAACGGAGCAGTTGTATATGAAAAAGGGGTAGGAGCAATTTTAAATGCATCAATCCCCATGAACTTAAGAACCGAAATTATAGAATTGTTTGAAGCAATTAGAAACAAATATATTTTAGGATATTGTATAAAAGATCAAAGAAGAGATTATTCAAAAGTAAGTACAAAAGAAATAGATAACAATGAATTTTTATCAAAATATGCACCAAAAGAAAATAATTTTGAAATTGGTAAAAACGAAATTTTGAACTCACCTGATTTAAATTTATTATATTTTTATATTAATGAAGATCAGGTAGAAGAAGTCAAAGAATTATTGAAAAATAAATTAATTGGTTGCAAAGCTGTAAGAACACATAAAAATGTAATCGAAATTATGAAAGAAGAAGTTTCAAAGGCACAAGCCATTAGAGAAATTCAAAAATTAAAAAATTTTTCATTAAATGATCTTTTAACTAGTGGAGATGGAGAAAATGATATTGAAATGTTAAGCATGACAAAAAATTCTTTTGCAATGAATGGTCATCAACCAGGAGTAGAAAAACATGCTACATTTTTAATTAATAATGTCTTTGAAATTAAAAATAAGATAAATTAGTATTGGAGACAAAAAAATAAAATGATGATTTTCAGATTATGACGGAACAATAAGTGTTCATTAAAATGAATTTTTAGAATCAAAAGATTTAGAATTTATTCATGATTGAAAAAAGGAGAATAAATTTATTATAGCAACAGGAAGATCAAAAAAAGAAGCTATAGAAATATTAAAAAGAAATAATTTAGATTTTGATTATTTAATTACAAATAATGGAGCTATTTTATATGATAAAAACCAAAATATATTAATTGAAAAACAATTAATATGGAAGTAAGAAAAATTTTGCTTGAAAAAATTGATTTATTAGAAGGAATTTGTGGAATAAAAATTGCAACAGCAAATGATAGATTAACATTATCAGGTATTGAAGAAAAACATAAAATTGAAAATTCCTTTATGTTTGATTTTTGGTATGATGTTAAGAATCAGTATAAAGAACTTAGAAATCTTATAGTAGAAGAAAAAACATTAAATAATATAGCATTTTATTCTTATGAAGAAAATATGGAATATATTAGAAGTTTATTCCAAAATATACCGGGAATAAAAATATTAAGAACAGCACATATAGTTTTAAAAATAATGAATGAAGAAGTTTCAAAAAAATTGGTGTAGATTATATTCAAAAAGAAAATTTAATAAGAAATGAAGATATTTTAACTAGTGGAGATGGAGAAAATGATGTTGAAATGCTAAAAGCATATAAAAATTCATTTGCAATGAAAAGTGAAAAGAAACTTGCAAAAAATCAGCAAAATATCTTATTGACAGAGTTAGAGATATAAAAAAATATTTATAATAATTTAATTAAATAGGAGGTTTAATAATTAATGAAAAAAGAATATTAGGAAAAGATTTGGAAGTTTCAGAAATTGGTTTAGGGTGTATGGGTTTATCTCAATCATTTCCAACAGAAGAAGAAGCAATTAATTTTTTACAAGAAGCATATAAAAGAGGAGTAACATTTTTCGATACTGCAGAAATTTATGGTCCTTTTGATAATGAAGAAATAGTTGGAAAAGCATTAAAACCATTTAGGGATAAAGTTATAATTGCCACAAAATTTGGTTTTGAATATGATGAAGTTTCTAAAAAAAGTATTGGTATTTGTAGTGATCCAAAATATATTAAAGAAAGAATAGAGGGGTCTCTAAAAAGATTACAAACTGATTATATCAATTTGTATTATCAGCATAGAGTTGATTCACAAACTCCAATTGAAGATGTTGCTAATTTAATGAAAGAATTGATTAAAAGCGGAAAAATTAGATATTGAGGTTTAAGTGAAGCTTCACCTGCAACAATTAGAAAAGCTCATAGTATTTGTCCAGTAACTGCACTTCAAAGTGAATATTCAATGTTTTTAGAGAAGTTGAAAAAGAAATATTACCACTTTTAGAAGAATTAAATATAGGTTTTGTTCCTTTTAGTCCATTGGGAAGAGGATTATTAACAGGCTCAATTAGTTTAAATCAAGAATTTGCTCCAGATGATTTTAGAAGTACAATTTCAAGATTTCAAAATAAGGATTATCTTGCAGCAAATTTAAAATTAGCCGATTATGTTATTGAGCTTGCAAAGAAAAAAACTCTACTCCTGCTGTCATTGCATTAGCATGATTATTGGCCCCAAAGAAATTTATTGTGCCAATTCCAGGAACAAAGAAAATTTCTAGATTGGAAGAAAATTTATCAGCAGGTGAAATTATTTTTTCACAAGAAGAATTAAATGAAATTAAAAAAGAATTAGAGAAAATTGAACTATTGGGAGAAAGATATAATGAAACTACAATGAAGTGAATTGATAAATAATATTTAGAATATAAAATCTATTATAAAAAATCATTAAAAAGTTATTGATAGATCATTTGAAATTATGAGTTATTGAATTTGATATAAAAATAATTAAGCTTATTTATTTCATATCTTATTTAAAATAATTTAATTGAATCAGAAAACGAATTGTTAAATAATATTTTTATATAACAATAATATGTTATTATATATATGCTATTCGTACCGAAGAAAGTAACTGGGAGTGCTCCCTTAATTTGTTACCGAGGAATGAAATTACATATATAAATTACAATTACCAGTTGTAATGTTTATTGTATTTTAATTGACCTCGGATTAAATCTGAGGTTTTATTTTGATAAAAAAAATAGTAAAAAAGGAGGTCGTATATAGTGACAAACGCAAGACCCGCTCATGCTAAAAAAAGTGAAATAGTTAAGGAAATATCTGAAAAAATCAAAAACTCTAAGGGTATGGTAATTGCAGAATATAAAAAATTAACTGTTGCACAAATGACAAGTTTAAGAAACAAAGCTCGTGAACAAGGTATTTTTATTAAAATTTATAAAGATTCGTTAGTTAGAAGAGCAGTTGAGGAATTAAAAATTCAAGGATTAGATGCTTTTTTAATTCAACAAAATATTTATATATTTTCAGAAGAAGAAGCATTATTACCTGCAAAATTAGTTGCAGACTTTGCTAAAAAAAATCCAGACTTAAAATTAAAAGCTGGTATTTATGAAGGAAATGTTATGGATACAGCAGCAATTACAGAAATTGCTCTACTTCCATCAAAAGAGGATTTATACTCAATGTTTGCTTCATCACTTATATATCCTTTACGTCAATTTATGTTGACTGTAAAAGAAATAGCAAAAACAAGATCAGAATAAAAAACAATTAAGTGTACAAATAGCAAATAATTCTTAAAAGAAAAAAAGGAGAAAAAATCATGGCAATAACAAAAGATGATATTATTAAAGCTTTAGAAGAAATGAAATTAACTGAATTAAATGATTTAGTTAAATCAATTGAAGAATATTTTGGAGTTGTAGCAGCAGCAGCAGTTGCAGCACCTGCTGATGGAGGAGGAGCTTCAGCAGCTCCAACAGAAGTGAGTGTTATGTTAACTAATCCTGGAGGAAATAAAGTTTCAGTAATTAAATTAGTTAAAGAAATGACAGGTTTAGGATTAATGGATGCTAAAAAATTAGTTGATGGTACTTTACCAGTTGCTATTAAAGAAAATGTAAAAGTTGAAGAAGCAGAAGAAATGAAAAAACAATTAGTGGAAGCAGGAGCTTCAGTAGATTTGAAATAAATAAAAATTATAAATGACCTTATTGGTCATTTTTTTTTGAAAGGAGTAATTAAATTCCAAAATTAAATAAGGTAAAATTTTTAAAGAATTATATTACAAATAAAAATATTGAAATTGGAATATACATATTTTTATTCTTTTAAAAATGAACAAGGAATAATTAAATTTCAAAATAAAAATGGTTTATATCATTTTCCTCAAATTAATAATGATAAATTAATAATAGGTAAGTTTTGTGCAATTGCAGATGAAGTAAAATTTATTATGAATGGTGCTAATCATAGAATTAATAGTTTTTCTACTTATTCTTTTGAAATATTCAATAAATTTTCTATAAATGAAAAAATATTAACACAGTCTGTTTCCAAAGGTGACACAATTATTGGAAACGACGTTTGATTTGGTTACGGTTCAACTATAATGCCAGGAGTTAAGATAGGTAATGGTGCTATTATTGCAACCAAAAGTGTAGTTGTTAATGATGTTGAACCTTATACAATAGTTGGGGGTAATTCAACAAAATTAATAAGAAAAAGATTTGATCAAGAAACAATTAATAAATTAGAAAAATTAAAATGGTGAGATAAAGAAATTGGTGAAATAAATTCATTAGTAAACGATTTAGTAAACAATTTAATAAAATAATGTTTGATACTTTTATTTAAAAAAAATGATAAATTTATAATAGAGAGAAATTAAAGTAATATGATAGCACCTAACAAAAAAAATAATATAAATGATAATGCAGACACAAGAGTAAAAGTAAATTTTTTTAGTAAACTTATTTGGTATTTATTTTTTATCCTTATTATTCCAATTATAATACATATTGTTAATCTTAACTCTATTAAAAGAATTGAAGTAAAAGTTAACGAAGCAGAATCAGGTATTGATGTTCAATTGAAAAGAAGAAGGGATACTCTTTTAAAATTAATGGAATCTGTAGAAGGAATTATTAATTTTGAAAAAGAAACATTAACTCAAATAACAAATATGAGAATGGGTGGTGGAGTTCCAGAAATGATTAAAAATAACAAAATAATGGATAAAGCGTCTAGAGATTTTATGATACAAGTTGAAAACTATCCAAATCTTAAATCTTCAGAAGTTATTCAAACAATGATGGATTCAATTAATGATATTGAAGAAAATATTGCAGCTTCAAGAAGAATTTATAATTCAAATGTAAGTATTTTTAATCAGAAAATTGTAGCTTGACCAGCAAATGTAGCAGCTTCTTTAATGAAGGCAAAAATTAAATACTTTTTTGAAATAACTGAGGAAGACAGGCAAGATGTTGAAATTAAATTTTAAATAAAAAAGTAAATTTATTTAGTGAATTTACTTTTTTATTTAAAAAATAATATTATATTTTTTAATTTTTCTATTGATTTAACTACTAAAATAATATAAAATTTGTTTGCATATCTTTTATTTGAACGGGGGAAGCTAAATGAGTTACAAAATAAAAAAAATCAATGCATTAGTTGAAAGACGTGATTATGCTAAAGTTTCGGGTGATTTAGAATTACCAAATTTAATTGAATTACAAACAGATACTTTTAAATGATTTAAAGAAAAAGGAATTAATGAGGTATTTGATGAAGTATTTCCGGTTGCGTCAACTGATGGAGATATAATGCTTACTTTAAGCGATTGAGAATTTAGAGAACCTAGATTATCAATAGTTAAGGCAAAAGAAGAGTCAAAAATATATGAAGCTCCAATTTATGCTAATTTGTCATTAACAATACATATGGAAGATGTAGAAATATTTAAGGAAGAAATTTCAGGTTCTATGGAAACTTTCTTAAAAGGTTGACTTCAAGAGAAGGTTGAATCTACTGCTGTTGAATTTAAAAATGGTAAAGATCAACTTTATTTTTTTGAGTTTAAAAGTAAAACAGGTGAAAAAGATTCAATTCAAATTGAAATTAAAGATGAAAAAGAAGAACTATATTTAGCAAATATAGATATTTATAAAACAGGGGAGGTATTCTTTGGTGAATTCCCATTAATGACTGATAGAGGAACATTTATCATAAATGGTAGTGAAAAAGTTGTTGTTTCACAGCTTGTTCGTTCTCCAGGTAGTTATTTTAAAGAAGAAATGAATCGTAAAAATGGAGAAATGATATACTTTGCAGATATTATCCCTTCAAGAGGAACATGATTAGAATTTGAATTAGATTCAAAAAAAAGTCTTGATAACAAAATTTCTAATGTATTCTATGTAAAAATTGATAAATCAAGAAAAACAACAGCAACAAGTCTTTTAACTGCGTTTAAAATGCAAAAAGATGAAATTTTAGATTTATTTGATAATAATGAAGTATTAACTTCAAGTTATGAAATTGATACTTTAAGTGGAGATTTAGATATTGATTTTGAAAATCAAGTTCAAGAAATTTATAAAAAAATTCGTCAAGGTGAAACAGCAACACCAGATGGTGCAAGTAAATATTTGTACGGACTTTTATTTGATAAAAGAAAGTATGATTTAACAAAAGCTGGAAGATTTAAATTGCAACAAAAATTATCAGTTAAAAATAGATTAATTGGAAGAGTTTTAGCAGAAGACATAGTTGATGTAAACGGCAAAATAGCTTTTGAAAAAGGAACAGAGATTACAAAAGATATTCACGAAGAAGTTGAAAGAGTCCTTGATAATGGAGCAATGATTAAAAAAATTAATTTTAATGATGTAATTGTTTCAGGAAAAGAATTACAAGTAGTAAAAGTTTATAAGGATAATGATCTAAGAGATGAAACAGCAACAATAATAGGAATTACAAAAAATTCAAAAGATGAATTTATTAATATTCCAGATATTATTGCTTCAATTTCTTATGCAATTAATTTAATGGATGGAATTGGTGAAATTGATGATATTGATCATTTAGGAAATAGACGTGTCAGAACTGTTGGTGAATTATTACAAAATCAATTTAGAATTGGTATGATGCGTATTGAAAAAAATGTTAGAGAGAAACTAGCAACATCAAATCCATTTAAAATGAAACCGTCAAGTATTATTAATAACAAACCATTAACTGCAATTATTGGAGAGTTTTTTAATTTGTCACAATTGTCACAATTTATGGACCAAACAAATCCACTTGCAGAACTAACAAATAAACGTAGATTAACAGCTCTTGGACCTGGTGGTTTAAGTAGAGATAGAGCAGCACTTGAAGTTCGTGACGTTCACCCTTCTCATTATGGTAGAATTTGCCCAATTGAAACTCCTGAGGGCCCAAATATAGGATTAATAAATAACTTATCAACATATGCAAAAATTAATGAATACGGTTTTATTGAAACTCCATATAGAAAAGTTAGAAATAAACAAGTTATTTTGGGAAAATATGAATATTTAACTGCTGATAAAGAAAAAGAATATGTAGTTGCAGAAGCAAATATTAAAATGTCAGAGGATGGGACAATTTTAGATGATCAAGTTATTGCGCGTTATAGAGGTGATGATATAATGGTAAATCCTGCAGATGTTGACTATGTTGACGTTTCTCCAAAACAAATTGTTTCAATTGCTACATCATGTATTCCCTTTTTGGAAAATGATGATGCTAACCGTGCCTTGATGGGTGCTAATATGCAACGTCAAGCTGTACCGTTAATTAATCCAGAATCTCCAATTGTTGGAACAGGTGTTGAATTTGAAGCTGCACGTGATTCAGGAGATGCTGTTGTTGCAACACAAGATGGTATTGTTAAATATGTTGATTCAAAGAAAATAACAATTGAACAAAAAGATGGAATAAAAATTTATGACTTAAATGATTTTAGCCGTTCAAATAATGGAACTGCAATTACTCATTTACCAATTGTTAAAATTGGAGATAAAGTAAAAGCAAGAGATATTTTAGCTGATGGTCCATCAATGGAAAATGGGGAATTAGCATTAGGGCAAAATGTAGTTGTTGCTTTTACAACTTGAAATGGTTATAACTATGAGGATGCTGTTATAGTTTCTGAACGTATTGTAATTGATGATAGATTTACCTCAATTCATATTGATGAATATACTATTGAAAGAAGACAAACAAAACAAGGTCCTGAAGAAGTTACAAGAGATATTCCAAATATTTCAGAAGCAAGTAAAAAGCATTTAGATGAAGACGGAATCGTTGCGATCGGTGCTGAAGTTAAAGTTGGAGATATTTTAGTAGGAAAAGTTACTCCTAAATCTCAAACACAATTATCACCAGAAGATAAATTATTACACGCAATTTTTGGTGAAAAATCAAGAAATGTAAAAGACAATTCATTAAGAGTACCAAATGGTGGTGAAGGAATTATCAAATCAATTAAACGTTTTAGTAGAGCTGATGGGCATGATTTGCCAGCAGATATTTTAGAAATAATTAAAGTATATGTTGTCCAAAAACGTAAAATTCAAGAGGGAGATAAAATGGCAGGAAGACACGGTAATAAAGGTGTTATTTCCAAAATTTTACCAATTGAAGATATGCCACACATGGAAGATGGAACACCTGTAGATATTATGTTGAATCCACAGGGTGTGCCTTCACGTATGAATATTGGACAAGTTTTGGAAATTCACTTAGGAATGGCTGCAAAAAAACTTGGATTAAAAATTAATACTCCTGTTTTTGAAGGAGTTAAGGAAAAAGAACTTTTGGAAATTATGGAAGAAGCTGGTATGGATAATTATGGAAAAGTAATTTTAATTGACGGAAAAACTGGTGAACCTTTTGATAAGCCAATTTCTGTTGGTGTAATGTATATGCTAAAACTTTCACACATGGTTGATGATAAATTACATACAAGAAATATTGGGCCCTATTCATTAATTACTCAGCAACCACTTGGAGGTAAAGCACAAAATGGTGGTCAAAGATTTGGTGAAATGGAAGTTTGGGCACTTGAAGCATATGGTGCTGCCTATACATTAAGAGAAATTTTAACAATTAAATCTGATGACATTAAAGGCCGTATTAAAACTTATGAATCAATTGTTAGGTCAAAACCAATTCCTAAACCAGGAATTCCTGAGTCATTTAATGTTCTTACAAAAGAAATTATGGGGTTAGGATTTGATATGCATATGATTGATGAAGAAGGAAATAAAGTTCAAATAAATGCTTATGATGATAATGATATTGATGTAGATATAGAAAATTCATTAGATGATACTGCCATTTCTTTTAATGTTTCTGATCTAGAAGACTTTTCTGAAACTGGTGAAGATGATGAAATAATATTTGATGATGAAATAGAAGAAATGGAATAAGGAGAGAAATTTTAAAATGAGAAATCAAAATAAAAGAATGATTAAAATTGAATTAGCTTCTCCTGATGTGATTAGAAGTTGATCTCGTGGTGAGGTAACAAAACCAGAAACAATAAACTATAAAACTTTGAAAACAGAAAAAGAAGGTTTATTTGATGAAAGAATTTTTGGACCAACAAGAAATTATGAGTGTAGTTGTGGTAAATACAAAAAAGTAAAAAATAAGGGAAAAATATGTGAACGTTGTGGTGTTGAAATAACAGAATCTATTGTTAGACGTGAGCGTATGGGTCATATTGAACTTGAAGAACCAGTAACACATATATGAATGTTAAAAGTGGCACCTTCAAGAATTGCTTCAATTTTAGATTTGAAAACAAAAGAAGTTGAAGAAGTGGTTTATTTTGTAAGTTACATTGTATTAGATCCAGGTAATTCAAAATACTTAAAAAAAGGACAAGTTTTGGATTTGGGTAATGCAAAAGCAACTATTAAAACTAGAGAAAGACTGACAAAAACTTTAGAAGATATTAAAAATAATTTAGATGCAGATACTTTTGCTTGAAAAAGAGTAGATAATTTATTAAATCAACTTAAATCAACTCAAATTCCTTTTTCAATGGATGAGGCTGCAACATTTATTTCAAGGCATATTAATGCAAAATTTGGAATTGGTGCAAGTGCTATTGAAGAATTATTAAAGGGAATTGATCTTGATAAGGAAATTGGAAAAATAAAAGAAGATTTAAAAGAGAAAAAAGGTTCAACTGAACAAAATAAAATGATGAAAAGACTAGAAGTACTTGATTCATTAAAAAAATCAAATTCAAGACCTGAATGAATGGTATTACATGTAATACCAGTAATTCCACCAGATATTAGACCAATTATTCAATTGGATGGTGGACGTTTTACAACTTCAGAAATTAATGATTTATATAGAAGAATTATAATAAGAAATGAACGTTTAAAAAAAGTTAAATTGATGGGTGCTCCAAGTATTATCGTTAATAATGAAAAACGTATGTTACAAGAAGCTGTTGATGCTTTACTAGATAATGAACGTAAACCAAGACCAGTAACTGGTAAGGATAAACGTGCTTTAAAATCTTTAACTTCAATTTTAAAAGGAAAACAAGGAAGGTTCCGTCAAAACCTTTTAGGAAAACGTGTTGATTATTCAGGACGTTCTGTTATTGCAATTGGTCCAGATTTAAAAATGTATCAAGCAGGTATTCCAAGAGATATGGCAATAACTTTATTCAAACCATTTGTAATAAGGAGACTTCAAGAAAAAAATTTAGCAGAAAATGTTAAAGTTGCTGAGAAAATGATATTGACAAATGATTCAAAAGTTTGAGATGTATTAGAAGAGGTCATAAAAGATAGACCAGTTTTATTAAACCGTGCTCCTACTTTACACCGTTTAGGTATTCAAGCTTTTGAACCTAAATTAGTTAAGGGTAAAGCTATAAGACTTCATCCCTTAGTAACTACTGCATTTAATGCCGATTTTGATGGAGATCAAATGGCTATACATTTACCAATAAGCGATGAAGCAGTTGCAGAAGCAAGAGCATTAATGCTTGGTTCAAAAGCAATTTTAGGTCCTAAAGATGGTAAACCTATTGTTACTCCAACTCAGGATATGATTTTAGGAAATTATTATATTACAACTGAGGAAAAATCTTCATCAAGTAATGTAATCAATGGGCAGGCTACTATATTTTCAAGTACAGAGGAAGTAAAAATTGCTTATGAAACTGATTCAGTTTCACTAAATGCAATTGTTGCAATACCTGTTTGCGAATTAAAAAATAAAATGTTTGAAAAGGCAGATGAGGATAAATTTTTAATTACAACAGTTGGTAAAATTTTATTTAATCAAATGTTTGTTGAAGAATTCCCCTGAATTATTAATTCAAATATTAATAATGCAGAAAAAGAAGTAAAGAATTTTTTAGTAGATGCAAATACTGATATTAGAAAATATATTGAGGAAGAATATAAAATTCAACAACCAATTAAGAAAAAGGAATTATCTTTAATTATTGAAAGATACTTTAAAATATTCGGAGCTCAAAAAACTGCCCAAATGCTTGATAATATGAAAGATTTAGGATTTAAATTTTCTTCAAAATCAGGAACAACAATAAGCGCAGCTGATGTTGTTGCCTATACTGAGAAATTTGAAGAATTTAAAGTTGCAGATGAAAGAGTTGCAAAAATTACAGAATTCTACAATATGGGAATGTTAACAAAAACAGAAAAAAAACGTAGAGTAATTAATGTATGATCATCTGTAAAAGATAAAATTCAAGGTAGACTTGAAGAAGTTTTAAGAAAAGATTTAAAAAATCCAGTTTTTGTTATGGCAGATAGTGGTGCTCGTGGTAATGTTTCTAACTTTACTCAACTTGTTGGTATGAGGGGTCTTATGAATGACCCTAAAGGGGATATTAAAGAAATTCCAATTAAATCATCATTCCGTGAAGGTTTAACAGTTTCTGAATATTTCATTTCTACTCATGGTGCAAGAAAAGGTATGGCTGACGTTGCTTTAAAAACAGCTGACTCAGGTTATCTTACAAGAAGACTTGTTGATATTTCTCAAGAAATTATAGTAACTGAAGATGATTGTAAAGCTACAAAAGGTTTTGAAGTGCACTCAATTATCGAAACAAAACATGATAATATAATTGTTCCATTGAAAGATAGATTAGTTGGACGTTTTACTTTTGAAGATGTACTTGATAAATCAAATAATTTAATTGTAGAAGCAAATACATTAATTTCTTCAAAAATTGCAGATCAAATTATTACTGCTCATATTGATGAAATTACAATTAGAACAGTTTTAACTTGCGATACAAATAGAGGAGTTTGTAGAAAATGTTATGGTGTTAACTTAGCAACAGGTCAGGTTGTAACATTAGGTGAACCAGTTGGAGTTATTGCAGCTCAATCAATTGGTGAACCAGGAACACAACTTACAATGCGTACTTTCCATACAGGAGGAGTTGCTGGTGGGGCTGATATAACTCAAGGACTTCCACGTATTAAGGAACTTCTGGACGTTACAACACCAAAAGGGTCAATTGCTATAATTTCCCAAATTGATGGTGTTGTAAAAGAAACAAAAGAAGAAGAAGGAATTATTACAATTTTAGTAGTTTCTGATCAAGATGAAAGAAGATATAAATCACAATATGGAGCTATATTACGTGTACATGAAGGTGAACATGTAACTAGAGGTCAAAAATTAACTGAAGGTGCTATAAATATTAAAGAACTATTGGAAGTTGCAAGACTTGAAGATGTTCAAAATTATATTTTAAAGGAAGTACAAAAAGTTTATCGTTTACAAGGAATTGAAATATCAGATAAATATATTGAAATAATTGTTAAACAAATGTTAAATAAAGTAAAAATAATTGATTCAGGAGAAACTGACTTATTACCAGGTGAAATTATTTCTTCAAGAACATTTAGAGCTGAGGTTAAAAAAGCAATTTTAGCTGGAAAAAAACCTCCACTTGCAAAACATGTTATCTTTGGTATTAAAAAAGCTCCTCTGGAATCTGATTCATGATTATCAAGTGCTTCTTTCCAAGATACTGCAAGAGTTCTTGTAAAAGCAGTTATTAAAGGAAAAGTAGATAAGCTAGAAGGTTTAAAAGAAAACATTATGCTTGGAAACTTAATTCCCGCAGGAACAGGATTGACTGGAAGTGCTGAAATAATTAAATTAGGTAAAGAAACTTACGATTCAGAATATTAAAAAAAATCAGAGCAATCTGATTTTTTATTTTTAAATTAGTGTATAGTTTTATTTAAGGGGGTTTATATGAAAATTGTTATTGGAAATGATCATACAGCTATTGAAATGAAAGAAAAAATAGTTGAGCATTTAAAACTAAAAGGTTTTGAAATTATTAATGTGGGGACTAATAATTTTGCTTCAGTAGATTACCCTGATTTTGGGAAAGAAGTTGCTAAAAAAGTTACTAAATTAAATTGTTTTGGAATAGTAATTTGTGGAAGTGGTATTGGAATATCAATTGCAGCAAATAAAGTTAAAGGTGCTAGAGCAGCTTTATGTTATGAAGATCAAACAACACAATTGGCAAGACAACATAATAATGCAAATATTCTGGCTCTTGGTGCAAGAATAATTGCTATTGAAAAAGCAATTCACTTAGTAGATATTTTTTTAGAAACTGAATTTGAAGGTGGAAGACATTCAAATAGAGTACAAAAATTAAATTTTTAATAGGGAGATATATTTATGTCATTTACGGTTATAAAACATCCATTAATTTTAGATAAATTAACAAGAATGAGAAAAATAGAAACAGCATCGAAGGATTTTAGGGAAAACTTAAATGAAATTAGTCAATTAATGGTATATGAAATTTTTAGAGATGTACCATTACAAGAAATCGATATTAAAACTCCAGTTATTGAAGCAAAAGGTTATACAATTGATATGCCTGTTGTTTTGATTCCCATAATTAGAGCTGGATTAGGAATGACTGAGGGAATACAAAGGTTAGTTCCAACATCAAGAATTGCGCATGTTGGTCTTTATAGAAATGAAGAAACATTAGAGCCAGTGCAGTATTTTGCAAAAAAAACTAGTGATATTGAAAAAAGTTACGTTATTGTTGTTGATCCAATGTTGGCAACAGGTGGTAGTGCTTCAAAAGCAATTTCAATTGCAAAAAATTGAGGAGCCAAACAAATAAAATTTGTTTGTTTAGTTGCTGTACAAAAAGGAGTGGACAAAATATTGAATGACCATCCTGATGTTGAAATTTATTCAGCTAGTCTAGATCCAATTTTAAATGAACAAGGTTATATAGTTCCTGGCTTAGGTGATGCTGGTGACAGAATATTTGGTACCAAATAGTAAGCATTTTGTTTACTATTTTTATTTTAATAACTACAAAAAAAGTTATAGATTTTATTAGCCAATGGTAGTATTATTAATTTGATGGAACTTATATTGAGGACAATAAATTTTGTTAGTTTTTAAAAATAAAAATTATTATATTTATTTATTATTATTTTTGTTAGTTTTATTAATATTGTCAGTTTTAAATAGCTTAAAGTATATAAATTTCTCTTGAACTTTAGGATATTTATTAGGATTTTTTTTTACAACTCTTAGCATTTTTTGTATAAGTTTTGCTTCTAAAGAATTAACTAGAAATCAAAATCCTTTTAACTATTTGTTTTTTTCAATTTTAAGACTTGGCATATATTTTGTTCCATTCCTTATAAGTTTTTATTTACCTAATTTCTTTTCAATTTTCGGAATTTTGATAGGATTTTTGAATTTATTTTTTTTACCATTTTTAGTTAAAAAGTAATGTAAATAATTTTTTATATGGTTTAAAAAGGAGGGGCTTTATGAATCTGCTAGCTGATAGTGGACAAACTGGAATGTTTGATAGTCTATATTCTGTCACCCCCCAGTTATTGTCAATTTTAGTTACATTTATAATTATTTGTACATTTTGTATAGTTTACAATGTAAAAATAAGAAATTTTAAAGAAGATAAACAACTAACAGGTTTTTTGGTTTTAACAGAAATTTTTATTTCAAAAGTTGAAAATATGGTAATTACAATAATGGGTAAGAAACACAGAAAGTTAACTCCCTATGTAATGTATTTATTTATGTATATTGCAATTTCATCAATTATTTCACTTTTGGGAATTGAATCCTTAAGTACGTCATATACTGTAACTTTTTCAATGGGATTTGTTACATTTTTAGGGGTTTATTATTATGGATTGAGATATCAAAAGCTTGCCTTTTTTAGAAGATATCTAAATCCAATAGAATTAATAGCACAATTTGTGCCATTAATTTCAATTTCATTTAGGCTATTTGGAAATATTCTTGGTGGAAGTATTATTTTAGGATTATTATATGCAGCCTTAATTAATTTTCAAGGAAATATTTTTGATGGAAATAGAACGACTACTGCATGAGAAGATCAATACCATTACTGGTGAGCTGGACTAAATATTTTTACAGTTATTTCTATGCCTGTATTACATTTATATTTTGATTTATTTGATGGAACTATACAATCCATTGTGTTCTCAATGTTGACATTATCATATTGATCTGGTGCAAAAAATGGTGAATCAGAAGATGGTGAAGAAAAACAACAAAGATGAACAAAAAAAGATAAAAAAAGTTAAAAAGGAGAAAAAAATATGTTTACTGAAATGCTAACAAATGCTTATTTAACTATAGGAGGAAATTTTATATCATTACTTCCATTCTATAGTATAATTTCACAATTACTTGTAGATGAAGATTTAAAAAAAGGTCTTGGATTTTTAGGTGCAGGTTTAACAGGAGTAGGTATGATTGGGGCTAGTGTGGGCCAAGGATTAGTTGGTTATGGTGCGTGTATTGCAATAGGAAGAAATCCTGAAACTGCACCTAAAATTACTTCTACTTTAATTATTACTGCAGGATTTTGTGAATCTGGTGCTATTTACGCACTAGTTATTGCTATTTTATTAATATTTGTAGCTTCATAGTTTTATACAAATGTTATTATTTTTAGCCGAAGGAACTGCAGGAATTCCAAACGTTGTAGAAAATTTATTCCCGAATTTACCAAATTTTATAGCACATATTTTATCAACAGTAGTAATAATTTTATTATTATCAAAATTAGTGTATAAACCTTTTAGAGAAACAATAAAGGAAAGACGTAGAAAAATTAATGAATTGCTTGATGAAGCTTCTTCAAAACAAGCAATTGCAAATAAAAATAATAAAGAGGCAGTTACATTTTTAGATTCTGCAAAAGAAGAATCAAAAGAAATAATTAGTGTTGCAAAAATAGAGGCAGATAAATTAAAAATCGGAATTATTGATGATGCAAGAAAAGAAGCAACAAATATCCAATTGCATGCTAAGCAAACAATTGAATTTGAAAGAAAGCAGGCTCAAGATGAAATAAGGAAAGAAGTAATTGATTTAGCTTTTTCTGCTGCAGAAAAATTAATTGAAACAAATATTTCAAAAGATAAAAATCAAAAAATGATTGAAGATTTTTTGAATAGTTTGGATAAATAATAAATGATTAAACAAAGTTTGATTATCAATTGAGCTGAAGCTATTTTTGAAATTGCAAAAGAAAAAAATAAAGTTAAAGAATATTGTGAAATACTTTCTGAATTACTAGAAATATTTAAAGAAAATGCTGAAGCAATAGAATTTATTGCTAACAGAAATATTCTTCTTGAAACAAGATTGAAATTTATTGATTTAATTTTTGCAAATAAAATTGAAGCAGAATTATTAAATACATTAAAATTATTAGTTGAAAGAAATTATTTTGGATCAATAATATATATTTTGAGTGAAGCAATTAAAAAAATATACGAACAGTTAGAAATTCAAAATGGCGTAATTTATTCAACTCAAAAATTAGATGATAAATTGATTAAAAAAATAGAAAAAAAAATTGAATTAAAAATTAATCAAAAAATAAAATTAGAAAATAAAATTGACAATAATTTATTGGCAGGAATTAGAATTGAAGTTTTGAATAAAAAATATGATTTTTCTTTAAAAGGAAAAATAGAAGATATGAAATCTATAATTCTTACAAATAGAAATTAGGGGTGATAGTGTGCCACTTAAAATAAATGAAATATCTGAAGTAATAAAAAAACAAATAAAACAATATGGTAAAGATGTTATTGAATCTGAAGAGGGAACAGTTGCAAGTATTGGGGATGGAGTAACTTTATTATTTGGTTTAGATAAAGTTATGATGGGTGAATTATTAGTTTTTCCAAATAATATTTTTGGAATGGCTTTAAATTTAGAAGACGGTGCTGTTGGTGCTGTTATTATTGGAGATGATTCACAAATTGTTCAAGGTGATAAAGTTATGAGAACAGGAAAGGTAGTTGAAACACCAGTAGGTGATGAACTATTAGGAAGAGTTTTAAATGGTATAGGAAATCCAATTGATGGGAATGGCCCATTAAACAATAAGAAATTTACTGCTGTTGAGAAAATTGCTTCAGGAGTTATGTCAAGAAAATCAGTTAACCAGCCTTTAGAAACAGGAATTTTATCAATTGATTCAATTATACCAATCGGAAAAGGTCAAAGAGAATTAATCATAGGAGATAGACAAACAGGTAAAACTGCAATTGCAATTGATGCAATAATTAATCAAATTGGCAAAAATGTTAAATGTATTTATGTTGCTATTGGACAAAAAGAATCAACAGTTGCCCAGGTTGTAGAAAAATTAAAACAAGCGGGTTCAATGGAATATACAACTGTAATTTCTGCTTCTGCTTCTGAGTCAGCACCAATGCAATATATTGCACCATATACAGGTGTATCAATTGCAGAAGAATGAATGATAAAGGGAGATGATGTCTTAATTATTTATGATGATCTTTCAAAACATGCTATCGCTTATAGAACACTGGCTCTTTTATTAAGAAGACCACCAGGGCGTGAAGCATATCCAGGGGATGTTTTTTATTTACATTCAAGATTACTTGAAAGAGCAGCAAGGGTAAATGAAAAATTTGGGGGAGGAAGTATTACTGCTCTTCCAATTATTGAAACCCAAGCAGGAGATATATCAGCATATATTCCCACAAATGTTATTTCAATTACAGATGGACAAATTTTTTTATCTGAACAGTTATTTAATTCAGGAATAAGACCTGCAGTTGATACTGGACTTTCAGTTTCAAGAGTTGGTTCATCTGCACAGATTAAGGCAGTTAAACAAATGGGTGGGACTTTAAAATTAGAATTAGCTCAATATTATGAACTGCAATCATTTGCAAAATTTGGGAGTGATTTAGATGAAACAACTAAAGCGACTTTAGATCATGGTTCAAAAATTGTTGAATTACTAAAACAAAGACAGTATAAACCAATTTCTCAAATTGATCAAGCTATTATATTACTTGCAATTAAAGATAGACTTATTAAATGATTACCATTAGATGAAATGATTTTATTTAAAGAATCAATAATTAAACATTTTAATTCTGATAATAAAGCAATGGCTTTAAGAAAATTATTGGAAACAGAAAAAGAATTTAGTAGTGAACTTGAAAAAGATATTAAAATTGAATTAGTAAAAATTTTAAAAGATATTACTTCTAAAATCAAGGGTTGAAATGTTGAAGAATTTGGTAAGCAAAAAGAGTTTTTAGAATTATAGTATGTCAAATTTAAGTGAATTAAAAATAGAAATAAGTTCTATTAAAGATATTGGGAAAATAACTGGTGCAATGGAATTAGTAGCAACAGCAAAACTTAAAAAAATATCAAAAAGAATGGAAAATATTCAAACATATTTAAATGAAGTATATGATGTTTTTAATTATATTATTTCTCATTCCGAAGATTCAATCTATCTGAAAAAAGAAAATAAACCAATACATAATACTTTATGAATTGTAATAACATCAAATCTAGGTTTATGTGGAGGGTATAATTCAAGCATTTTTAAACTAATAAAACCATTAATAAATAAAAAAAGTGATTCAGTTTATGCAATTGGTAATAAGAGTATAAAATTTTGTAATAATAATGATTTAACTATAAAAGGTTCATTAACAGATGTTGATGTAGATTTTTCAAATGAACAATCAAGACAATTAGCTGTAAATATTTTAGACTATTATATTAAGAATGAATTTGATTCAATTAAAATCGTTTACACAAAATTTATAAATAATGTCACATTTGAACCAAAAATTCTTGAAATGTTTCCTATTACTAAAAAATTAGGGGAAGAATCAAGTTTTGAAGATGTTACTTTGGAACCTGATCCAGAAACTTTACTAACTACAAGTGTTTCTATGTATTTAAATACAATTTTATTTGGAACAATAATAGAATCATTAGTTTCAGAACATGCAAGTAGAAGAATGGCAATGGAAGCTGCAACAAAAAATGGAAGAGATCTTTCAGATTCACTAACCAAATTATTTAATAGAAAAAGACAAGAAAATATTACACAGGAAATTAGTGAAATTGTTGGTGGAGCAAATGCTCAAAATGATAATTAGTAGGGAGAAAAAATAATGCAATTAAAAATTACAGAAGGTAAAGTAGTTCAAGTTTTAGGACCAGTTGTTGATATAAAATTCAATCCAAATGAAATGCCAACATTATATAACATAATTGAATTAGATAATCGTGGAGTTAAATTGGTTTTAGAAGTTGTTCAACATATTGGAGATGATTTAGTAAGAACAATTGCAATGGGTCCAACAGAAGGATTAGTTAGAGGACTTATTGCAAAAAATACAGGAAAACCAATTTCTGTACCAGTTGGTGAAAAAGTATTGGGAAGAATGTTTAATGTTCTAGGTGAACCAATCGACGATAAACCACCAGTAACAGACTCAAAATTTATGCCAATCCATAGATTAGCACCACCTTTTGATGAGTTAGCAACGTCTGCTGAGATATTAGAGACTGGAATTAAAGTTATTGATTTAATGATGCCTTTTTCAAAAGGTGGGAAAATTGGTTTATTTGGTGGAGCTGGTGTAGGAAAAACAGTTTTGGTTCAAGAATTAATTAATAATGTGGCAAAAGCACATGGTGGAATTTCAGTTTTTGCAGGTGTTGGTGAAAGAACCAGAGAAGGAAATGACTTATACTATGAAATGATTGATGCAGGAGTTATTGATAAAACTTCACTTGTATTTGGTCAAATGAATGAACCTCCTGGAGCAAGAATGAGAGTTGCTCTTACAGGTTTAACAATTGCAGAATATTTTAGAGATGAAAAAAATCAAGATGTATTATTATTTATTGATAACATTTTTAGATTTACTCAAGCAGGTTCAGAAGTTTCTGCATTACTTGGAAGAATGCCATCTGCTGTTGGTTATCAACCAACACTTTCAACAGAAATGGGAGCATTACAAGAAAGAATTACTTCAACTCAAAAGGGTTCAATAACATCTGTTCAAGCAGTCTATGTTCCAGCAGATGATTTAACAGATCCTGCTCCGGCAACAACTTTTACTCACTTAGATGCAAGAGTTGTTTTGGATAGAACAATTGCTTCGTTGGGAATTTATCCAGCAATTGATCCTTTGAATTCAAGTTCAAGAATGTTAGATCCAGAAATTGTTGGAGAAGAACATTATCAAATAGCATTAAAAGTTCAAGAAGCTCTTCAAAAGTATAAAGAATTACAATCAATAATTGCAATTTTAGGTATGGAAGAACTTTCAGAAGAAGATAAAATTATTGTTAATAGAGCAAGAAAAATAAGAAATTTTATGTCTCAACCTTTTACAGTTGGTGAAAAATTTACAGGTAGAAGTGGTAAGTATGTTACTATATCCGATACAATTAAATCATTTAAAGCAATATTAAATGGTGAGCTTGATGATGTTCCTGAGGTTTTATTTATGTATGCTGGTTCTATTGACGAAGTTATTTTGAAATATAAAGAATCAAAATAGTGGAAAGAATTAAATTAAAAATAATAACACCTGAAGGAATTTATATTGATGATTTAGATGTTGATTATGTAAGTGTTCGAACAACAGCAGGACAAATTGCAATTTATGCAAATCATACACCAATTGTATCTACATTAATTATTGGTGATATGAAATATGAAAGAGAAAAAGATAAAAAATATATTCATTTGCATAGAGGAATAATACAAGTTTCAAAAAAACAAGTTAAAATTTTGACTCAAAGACTTTATGAAGTTGATGAAAGAGGAAAAAAAATAAAATAAAAAAATAGAATTAATTTTGTAATTCTATTTTTTTATTTTCTCGAAACTGTAATTGATCTTTTGCTTTTTCTTCAATCATTTTAGTAAATGCTCACATTTTTTCTCTTTTCAAAAAACCCATAAAACGAATATAATTAATTTTTAATGGTCTAAAATTAATTTTTCCAATATCTACATTTTTTAAAATTTTTGCTATCTTTTTATTCATAAGAACTTGCTCTTTACATTGTTCAAGTTTTTTTTGATGATCATATGGGAAATCATTTAAATTCTTAAAAATATTTTCTACGCAACCATATTTTGTTATCAATTTAACAGCTGTATTATAGTGCATTCCCTTGACACCCTTAATATTATCTGAATGATCTCCTAATAATGACTTCATATCAGGAATTTGACATGGTTTACAACCAAATTTTTCAAATACATCTTTTTCTGTTATTATTTCTTTTTTAGTTTTTTTTGATTGCTGTGAAATAATACAAACATCTTTGCTTACTAATTGATAAGTATCTTTATCATTTGAAATTATATCAACTTTATATCCAAGTTTAACAGCAATTCTTGAAATTGTGCCCATTATATCATCACCTTCATATTTACATTTTTCATATCAAGGTATATTTGCTGAGGTAAGAAAATCTCTTACTAATTGCATTTGAGGTATCAAATCACAAGGTGTTTCTTTTCTTGTTGCTTTATATTCTGGATAAATTTCTTTCCTTCAACATTCTTTACCTACGTCAAAAGTTACAATTATGGTATAGTACTCATTTGATTGAATCATTTGATATATATTTGCTACAAAAACATAGACAGCATTTATTAAAACACCTTCTCTATTAATTGCTATTTTTTTTCTTTTAAGACTTCCATAGTATCCCTTATGTAATAAATGATAGCCGTCAATTATAACAACTTTACGTTTTTCCATTTTAAATTTTACCTTTCTAAAAATAATTTTTTTCTGTTTCTAAAACTTTAATTTTACTTATTATTGGATCTAATTGTTTTATATTATTGATTTTTCCACTAAAAAAAACAGTTTCATTATTGAATTCATATAATATATCTTTAGCATCTATTTTTTTAAAATACATTTTTATAGTTTTAATATTTGAAATATTAAAACTAATCTTTATGTATAGCAAAATTTTTAATTCTTTAATATTATTATTTTTTATTATTTCAATAGCTGAATTATTATATGCTTTTTGTAATCTACCTGTTCCCAATTTGATTCCACCAAAATATCTAATTACAAAAATAATTATATTTGTCAAATTATTTATTTCTATTAATTTCAATAATGGTTCACCAGCTGTTCCTTTTGGTTCACCGTCGTTATTATAACCATAATTTAATTTATCTCTACCATATCTAAAAGCATAACAATTATGACTTGCTTTTGGGTCTTTATACTGATTAATAAAAAAAATTAGCTCTTTTTTATTATTAATTTTTGCAATGTAGGTAATAAACTTTGATTTTTTTATAGTTTTTTCGTCTTTTAAAACAAAATCATTTTCTAAAACATTTAAATAAACCATCGTTATCTACCACATATAATTTTACCTATTTAATATTAAAAAAACCATATAAATTAATATTTTATATGTATTTATATTTATACATATTAATTGTATAATAATTTTAGTTTGTTTATTTAAATAAAAAAGGAGTTAATTAAATGGCAAGAGATAAATCAATAATTAAAAAACATGGTAAAATAGCAGATCAAATTATTTCTCTTGAATCTGAATATGAAAAATTAAACGATGAACAATTAAAAACAAAAACAAGTGAATTTAAAGAAAGAATAGCGAATGGAGAATCGCTTGATAGTATTTTAGTTGAAGCATTTGCAACTGTTAGAGAAGCTGCAAATAGAATTTTAGGAATGAAAACATATCGTGTTCAATTAATTGGTGCAATTATTTTACATCAAGGAGATATAGCAGAAATGAAAACAGGGGAAGGTAAAACCTTAACAGGTTTATTTCCAGCTTATTTAAATGCATTATCTGGATTGGGAGTTCACGTTGTTACAGTAAATGAATATCTTTCAAAAAGAGATAGTGAAATTAATGGACAAGTTTATAATCTTTTAGGATTAACTGTTGGATTAAATGGAAGAGATCTTACAAAAGATGCTAAAAGAAGAGCATATGCACAAGATATTACATATACTACAAATTCAGAATTGGGTTTTGATTATTTAAGAGATAACATGGTTTATAAATTCGAACAAAAAGTTCAAAGAAAATTAAATTATGCCATTATTGATGAGGCTGATTCAATCTTAATTGACGAAGCAAGAACACCACTAATTATTTCTGGTGGAAGTCAAAATAGAATTAATATGTATAAAGCTGCAGATTCATTTGCAAAAACATTAAATCAAATGGATCATGTTGAGATTGATTTGGAATCAAAACAAGTTTATTTATCTGATAAAGGAATTCATAAAGCGCAAAGTTATTTTAGTATTGATAATCTTTTTGATTTTAGAAATACGGGAGTTTTTCACTTAATTATGAATGCTTTGAAAGCTAATTTTACTTTTAAAAAAGAAGTTGAGTATACAGTTCAAGATAATGAAATTATTTTAATAGATCAATTTACAGGAAGAACAATGCCAGGTCGTGCTTATAGTGATGGTTTACAACAAGCACTTCAAGCTAAAGAAGGTGTTTCAATTGAAGAAGAAACAGCAACTCTTGCAACTATAACTTATCAAAATTTTTATAGACTTTATAATAAACTTTCTGGTATGACAGGAACTGCAAAAACAGAAGAAGAAGAATTCATTAAAATTTATAATACAAGAGTTATTTGTTGTCCAACAAATAAACCAATTATTAGAGTAGATGAAGCTGATTTAACTTTTGGAACTATAAATGCAAAATTAAAGAAATTAATTGTAGATTTAAAAGAATTAAATGAAATTGGAAGACCTGTTTTAATTGGAACAACCTCAGTTGAATCTTCTGAACAAGTGGCAAGGTATTTGGAAAATGCAAATCTTAAATTTGAAATGATAAATGCAAAAAATCACCATAGAGAAGCTGAAATAGTTGAAAAAGCAGGAAATTTAGGAGCAATTACTTTAGCAACAAATATGGCAGGGCGTGGTACTGATATTAAATTAACAGATGAAACAAGAAAACTTGGTGGTTTATTTGTTATGGGAATAGAAAGAAATGAAGCTAGAAGAATTGATAATCAACTTAGAGGTAGAAGTGGTAGACAAGGAGATCCAGGTAATTCAAGATTCTATATTTCAATGGAAGATGAATTAATGGTTAGGTTTACTGCTCCAAAAGTTAGAGAGATGTTCTTAAAATTAGGTGATGATCATATTAAATCTAAAATGTTTACAAGAGCAATTACAAATGCTCAAAAAAAACTGGAAGGTTTAAATTTTGATCAACGTAAAAATGTTTTAGATTATGATAATATTTTAAGTCAACAACGTGAGGCAATGTATTCACAACGTGATGGTATTCTGCAACAAGAAGATTTAAAAGTTGTTTTATCAAGATTCCATTATACAATTGCTTTTGAAATGGTTGAAAGAAATTCTGAATTAGTTAGAGGAGAAGGAACAATTAACCTTAAATCATTAATTGATTCTGTTGATGGTCAATTAATTCCAAAAAATTCATTATCAGAGGATGATTTGGCTGGTTTGGAAAAAGGACAAATTGCAAAATTAATATCAGAAAAAATGATGATTTTTTATTTAGCAAAAATTTCAGATGTACCTGAAAATGTAATAAGTGAACTAGAAAGAAGAACGATTCTTCAAGCATTTGATAAACATTGAACTAAACATATAAACTTAGCTCAGAAATTAAGAAGTGGTATTTACTTACAACAGTATGCACAAAATAATCCTTTACATGAATATGTCGAGGAATCTGCAAAATTATTTGCAAAAATGAAAGTTGCAATTGCTGAAGAAAGTGTTGAAAAATTAAATAATTCATTTATTAAAGAAGTAAGTCAAGAATATTTAAATCAAAGTATGGATATTGGGAAAAGGGTTATTAATATAACAGATAAAGATATTGATGTTATTTTAGAGGAGTGAAATATTGAAAAAAATAAATTTTCGAGACCATTTGTAGAAAAAAAATTAAAAGAATTTCAAGAAACATTTAAAGATGATCAATCAAAATTGGAAAGATTAGGTTATCAATTTACTGTTCTTGATGGATTGATGAAAAAATTGGATGAAATGTTTATGGCAAAAAATAAACAAACCCTAAAGGTTTCACAAGAAGGTATTGATAAAATTATTGCAAAGTTTGGATTAACTCAAAAATTATTTACTGCAGAAGAAGTTAAATTAAAATTTGAAGAATTATCTAAATCAGCAGATCAAAGTGAAATAAATAATTTATTAATAGAAACTCAAATTTTATTAGCAATAGCAAATCAATTAAAAGAACAGAAAAGTGAATTTGTTATAACTGATAAAGAGGGTAAAGTTGAGAAAAAATTTAAGACAAATGATGATGGTTCAATATCAGAAGATGATATAAAGGATACTGAACAAGTTCAAACTAAAATTAAAATTGGTTAAACAAAACTTTATGAGGTTTTGTTTTTTATTAATATATTTTTTTTAAAATTTTTAAATTTAAATAGGTAAAATATTGCTAGATGTATAAAATAGTCAATTTAGCTATTTTTTTTGCATAAAAGGTGGTAATGAAATGAAAAAAGAGTTTAAGAAATTTAATTTAGTAACTGAATTTACTCCAGGTGGTGATCAACCAAAAGCTATAAAAGATTTAATTGAGGGTATTAAAGCAAATAAAAAACATCAAGTTTTAATGGGAGCTACTGGTACAGGTAAAACATTTACAATGGCAAATATTATAAAAGATTTAAATAAGCCCACTTTAGTTTTAGCACATAATAAAACATTAGCAATGCAATTGTACATAGAATTAAAGGAATTGTTCCCAAATAATAGAGTGGAATATTTTGTTTCTAATTTTGATTTTTATCAACCAGAAGCTTATATTCCTTCAAGAGATTTATATATTGATAAAGATGCAAAAAGAAATAATGATTTGGAAATGATGAGATTAAGTGCAATGAATGCATTAATGATTAGACAGGATACAATTGTTGTTGCTAGTGTTGCTGCAATTTATGCAACTCAAGACCCAAAAGAATATGGAAATGTTTTTTTTGAATTAAATGTTGGGCAAATTCTTTCAAAAAAACAATTATTAACTTTTTTAATTCAAACTGGTTATACAAGAAATGAAACAAACTTAGACATGGGATGTTTTAGTGCAAAAGGTGATGTGATAAAAATTGCACCAAGTTGAACAGATAAATTTAATTTAAGAATTTCAATGTTTGGAGATGAAATTGAATCATTAGATTTAATTGATGTTCTAAATAATACAGTTGAAGAAAGATTACATATGTTTACAATTTTTCCAGCTGCAGCTTACGTTACAAATTTTGATAAAATGAAACTAGTTGTTGAAAATATAGAAAAAGAGTTAATATTAAGAGTTAAAGAATTAGAAAAAGAAGGAAAACTTATTGAAGCAGATAGACTTACAAAAAGAACTAAATATGATATGGAAACATTAACAGAATTTGGAATTTGTAGTGGAATTGAAAATTACTCAGCACATTTAGATTTTAGACCAAAAGGAGTTCCTCCATTTTCATTAATTGATTATTTTGGAGATGATTTTTTAACAATAATCGATGAATCACATATGATGATCCCTCAAATTAGAGGAATGTTTAACACAGATAGAAGTAGAAAAGAAACATTAGTTGCGCACGGATTTAGATTACCAAGCGCTTTAGATAACAGACCACTTAATTTTGAAGAATTTGCAGGTAAATTAAAAAACGTCATTTATACTTCAGCAACTCCTGGAGATTATGAGTTAAATTTAGTAGAAAATAAAGTTGTAGAGCAAATAATTAGACCAACTGGCTTAATTGATCCGATTATTGAAATAAGAGGAACAATGAATCAAATGAACGAAATAGTTCAAAATGTAAATCAAATTGTTGAAAAAAAACAAAAAGTATTTATTACAACTTTAACTATTAGAGCTTCAGAAGATATTACAACTTATTTACAATCAAGAAGTATAAAAGTAGCATATTTACACTCAGAATTAAAAACTTTAGAAAGAAATCAAATATTAATAGATTTAAGAAAAGGGGTTTATGATGTAATTGTAGGAGTAAATTTACTAAGAGAAGGATTAGACATTCCAGAAGTAAGTTTGGTTTGCATTTTGGATGCAGATAAACAAGGTTTTTTAAGAAATACAAGAAGTTTAATTCAAACTGTTGGACGAGCAGCAAGAAATGCTGAAGGAAGAGTTATTTTTTATGCTGATTCAGTTTCACCTGCTATGAAAGAAGCGATTGAAGAAACAGATAGAAGAAGAAATATTCAAATAGAATATAATTTAAAAAATAATATTATTCCAAAAACTATTACTAAAAAAATAAGTGATTTTGGAATGGACATAAATATTAGAAATAAAATTGATGAATTATCAAAATTAAATAAAAAAGATAAAATAAAAAATAAGGAAAAATTAATTGAAGATTTAAGAAAACAAATGTTGTTTGCAGCAAAAGAACAAAATTATGAAAAAGCAGCAGAATTAAGGGATCTAATATTAGAAATTCAATCAGAGGAGTAAATATATATTATGAATAAAAAAATTATTGTAAAAGGTGCAAGAGAACATAACCTTAAAAATGTAAATATTGAAATACCAAAGGAAAAATTAATTGTTTTTACTGGTTTATCCGGAAGTGGGAAATCTTCTTTAGCCTTTAACACAATTTACGCTGAAGGTGAAAGAAGATATATTGAATCTCTATCATCTTTTTCTCGTCAATTTCTTAAATCAGTTGAAAAACCAGATGTTGATGAAATTGAGGGATTAAGTCCTGCTATTTCAATTGACCAAAAAACAACAAGTCATAATCCACGTTCAACTGTTGGAACAACAACAGAAATTCATGATCATTTAAGGTTATTATTTGCAAGTATTGGAACACCTGTTTGTATTAATGGGCATGGTCAAATTAAAGCTTCTTCATTAAAAGAAATAATAGAAACATTAAAAAAAGAAACCCGGGATAATGAGCAGATTTTTATTTTAGCATCTTTAGTTAGGGATAAAAAAGGAACACATAAGGAGATATTTCAAAAACTTAAAAAAGAAAATTTTTTGAGAGTACAGGTAAATGGAGAAATAAAAAATTTGGAAGAAGAAATTATTTTAGAACAAAATAAAAGACATAATATTGATATCGTTGTAGATAGATTAATTTTTAAAAACGAGGATGAAGATTTACAATCAAGAATTTATTCTGCAATTGAAATTGGCTTAACTTATTCAAATGGATTAATAAAAATTTTATATCCAAATAAGAATAATACAACAAAGTTATTTTCTACAAAATATTCTTGTAGTGAATGCGGATTTGCAATTCCAAATTTAGAAGCAAATTTATTTTCCTTTAATAAAAAAAATGGAGCTTGTGAAACTTGCTCAGGGCTCGGTGTTAATTTAGAAGCAGATCCTGCATTAATAATTCCTGATTTATCTTTATCAATTAATTCAGGAGGAATTTTGTATTATAAAAATTTAGTAGATAGTCAAAATATTGAATGACAAAGATTTAAACTTCTTTGTGATTATTATTTAGTAGATTTAAATCAAGCAATTTCTTCATTAGACGAAAAACAAATGACCGCTCTATTATGAGGAAGTCATGAACCAATTGAAACAAAAATTGTAACATCAAGTGGAAATGTTTTAAGATCATTCGACTTTATTGAAGGTGTTGCAAGTTTAATTGAAAGAAGATATATTGAAACAAAATCTGAAGACAATAGAAAATATTATGGAAAATATATGATGTCAAAAGTTTGTAAAACTTGTGATGGAAAAAGATTAAATGAAATTGCATTAAGTGTAAAAATAAATGATATATCAATTGCAGATTTTGTGGAAATGACAATTGAAGATGAATTTAATTTTTTATTAAATTTAAAATTAACTGAACAACAAGAAAAAATTGCAAGCTTAGTTTTAAATCAATTACTTTCAAGAATTAGTTTTTTAAATGAAGTAGGACTAAATTATTTAACTTTATCAAGATCTGCAACAACTTTGTCTGGGGGAGAATCACAAAGAATAAGATTGGCAAAACAACTTGGATCAAAACTTTCAGGTGTACTTTATGTTTTAGATGAACCATCAATTGGTTTACATCAAAGAGATAATGATAAATTAATTACCACCTTAAAAAAATTAAGAGATTTAGGAAATACTTTAATTGTTGTTGAACATGATGAGGATACTATGAAGGAAGCTGATTGAATTGTTGATATTGGACCAGGAGCAGGAATTCATGGAGGAGAAATTGTTGCACAAGGAACATATGAAGAAATCTGCAAAAATCTAAATTCATTGACAGGTAAATATCTTTCAAAACAGCTATCAATTCCAATTCCTAAAAAAAGAAGAGGAGGCAATGGTTTAAAAATTGAAATCCAACAAGCAAATGAAAATAATTTAAAAAATATTGATGTTACACTTCCTCTAGGAAAATTTATAACAATAACTGGTGTTAGTGGAAGTGGTAAATCAACCTTAGTTGAAGAAATTATTTATAAAGGTTTGAGAAAAGAATTAAATAAAGAATTAATTAAACCCGGAAAATATAAAAGAATTAAGGGTTGAGAAAATGTTGACAAAATAATTTATGTTTCACAAGATCCAATTGGTAAAACACCAAGATCAAACCCAGCAACATATACTTCTGTTTTTGATGATATTAGAGACTTATATGCAGAAATTCCTGAATCAAAAATTAGAGGATATAAAAAAGGAAGATTTAGTTTTAATGTTCCTGGGGGTAGATGTGACGGTTGTCAAGGAGATGGGGTTGTTAGAGTTGACATGCAATTTTTAGGTTTTGTTGAAGTTATTTGTGAAATTTGTGATGGAAAAAGATATAATGAAGAAACACTACAAGTAAAATACAAAGGTAAACATATTTGAGATATTTTAAGTATGACTGTTCAAGAAGCAAATTTATTTTTTGAAAATATTCCAAAAATTAAAGAAAAACTTGAAACTATATTGGCGGTTGGATTAGGTTATATAAAATTGGGACAAAACGCAACAACTTTATCTGGAGGAGAAGCACAAAGAGTAAAACTTTCTACTTTTCTATTGAAAAAATCAACTGGTAAAACATTATTTTTATTAGATGAACCAACAACAGGTTTACATATTGATGATGTTAGAAGACTAATTGATGTCTTAAATATTTTAGTAGACCAAGGCAACACTGTTTTGACAATAGAACATAATTTGGATTTTATAAAAGTTTCAGATTATATTATTGATTTAGGTCCTGAAGGAGGAAGTGGTGGGGGAACTATTTTAGCAACAGGAACTCCAGAACAAATTATTAAAGTAGAATCAAGTTATACTGCAAAATATTTAAAGGAATATTTAAATGATTAGTGTAAAAGATGAAATTTTTGAACAAAAAATTTTATTTAAAAAAAATTATAATTTAAATAAACTGCTTGATTCTTTAAAAAATCCACAAGATAATTTTAAAGTCATTAATGTTGTTGGAACAAACGGAAAAGGTTCAACATCAAATTTTATATTTTCGGGATTGAAAACTAAATATGAAAAGGTAGGATTATTTACATCTCCTGCATTTTTATATCACAATGAAAGAATTAAATTTAATAATGATTATATAAGTGATGAAGATTTAAAAAGAATATTAAATGATAATAAAGAAATAATTAAAAAATTTGAACTTACTTTTTTTGAAATTTGAACTTACATTGCAATTTTATTTTTTAATGAAAAAAAAATTGATATAGCTGTTATTGAAGCTGGTATTGGAGGTTTAAAAGATTCTACAAATTTATTTAATAATCAAATAGCAGTATGTGTAACTTCAATTGATTTTGATCATACTGAAATTTTAGGAAATAAAATTGAAGAAATTCTTTTTCAAAAAATTTCAATTGCTAAAAAGGGTGTACCTATTTTTTTAAGCAGAGACAATTACAAATATAAAAAAATAATTAATCAAATAAATTTAAATCAAAAAATTTATTGCAAAAAAATAAATGACCCAGTTTATTTTCAAAAATTAAATAAGGGATTGGCAAAGGAAGTTCTAAAATATTTGGAAATTGATTTTTCACTTAAATGAAAGAGTTCTTTGGGAAGATTTACTATTTTAAAAGAAAAGCCGTTTTTAATTTTAGATGGATGTCATAATATGGATGGTGCAAAAAAATTAATTAAAAATATTAAAAATATTAAAAATATTAAAATAATTTTTGGTTCTAGTTTAAATAAAGAGCAATTAAAAATTATAAAAATACTTAAAAAGGCAAGTAAGAAAATATATTTGACTGAATTTGAACATCCAAAATCTTGAGAAATTGATGAAAAATTATATAAAAATGAAAATATAATAAAAGATTGAAGAAAATTTTATTTAAATAATAAAAATGAAAATATAATAGTATGTGGAAGTTTATATTTTATACCAATTTTTTATGAATGATTTAAGGAGATAGATTAAATGAATTGATATTTAATTACAAATATTGTGGGGGGAATTAGTACATTACTAATATTATTAATTTCACTTTCCATTGAAAATTTTTCTTTTAAAAAAATTAGCATAAGACATTTAACAATAATAGCATTATTTGCAAGTTGTAGTGCAATTATGACAGGTCTTTCATATAAAATACCCCCAATTTTTGGCAATATTTCTATTGCGTTAGGAGATTGATTAATTTTTTTACTTGGTGTCTTATTTGGGCCTTTATGTGGAGTAATTTCAGGAATTTGTACAGATACTTTAATGTCTGTATTATTACCTAGTAGTTATGGCTATCATGCAGGATATATGTTTGGAAAATGTTTACTTGGTTTTTTTGGAGCCTTAGTATATTTAACAAAATCAGAAAATAAAATCTTATTAAAAATCATTATTTTATATTCTTTAAGCTATATTTTTCAAAGTTTAGTTTTGAATCAAATATGAATGATGAGTTGAAAAGGAAATGCAGCGTGAGTTGATTTAGTTGTTAAACTAATAAAATTACCAATAACATTACCTATTTATATTTCTATTACTTATATTATTTTTAAATCAATTAAACCATTATTAAATAGATGAACTTATGAAAATGTTTGATGCTATAGACATGTAAATAAGAATATTCAAATAAGCTAATTTGAAAAAACACAATTTTTATATTTTTATATAATTTCTTTAACAGAAAGAAGGTTATTTAAATGATAAGCTATTATGAAATAATTGAGAATATTTCAAAAGGAGATAAGAATTCTAATAATGCTTTAATTGCAAAAAATATTGTGGAAAATTTTTTAAAAGGTGTTGTATTACCACAAAATGAATTAGCTATAAAATGCTACTTATCAAAGTCGTCTATTACAAAATTTTGTAAAAAAATAAATTTAGATGGATATAGAAAATTAACTTATCATTTGAAAAATGAAATTGAAAAATTTTTGGAACATAATAATAATATTCCAAAAGTAGAGGGAATTAGTTATTGTGAACTATATTTTTATGGAATTAAAGAGATAATTGATAATAATATTGATTTCATGCAAGAGATCATAAATAAAATAAACGAATATAGAAAAATTACAATTGTTTTCTCTTATTCATTATTTTCATATGAGTAATTTTTTAAGAAGATTATTTTTATTTGTATTGCAATAGATAATGAAACATTAAATAGAATATATGACATGGTTGAAAATAAAAAAACTTAAGTGTTATTACAACAGAATTGCAAAAAGGTAAATTTAAAAATTGTGAACAAAAAATGATAATACCTTCAGAAACAGTATTTTTTAATTGATCATTTAGACAAATTTTTTTAGAATTGTTTTTTTGAATGTGTTTCAAAATATAAAGTAAACCAGTTTCTAATTTGTAAATTAAAAACTAAACTAATAAAAATTATTTAATTTTCTTAGCTTTAATTAGAAAATTATTATAAGTATTTTATTAGTTTTTTATTTTTTAAACTAATTTTATACAAATAGTTAAGAAAAAATACGTATTTAAATTATTGCTATTTTTCTTAAATTAGAAAGGAAAGTATGAAGAAAAATTTTACTAATTATAATCTTGAAATAAAAGAGTATAAAAATAAATATCGCCAAGCAGTTGAAAAAATTTTTATTTTTAGGAAATCAAAATTATAAGAATCCTTATAATTGTATGACAAGATTTCGTGCAAATATTATTGATAAATCATTAGTTAATATTGATGAACTTAAAAAATTAATTTAGTTAAGGGAGTTAATTGAAATGGCCCTGAAATTCAAATAATTATTGGAGGAGAAGTACCAAAAGTATTAGATGAATTCAAAAAATATGAAGCAGAAGATAAAAGCAAAACTTCAGAGAATGTAGTAAAAACTATTATTAAACCCCCTTTGGCAAGTCGTTTCATGGCTGCAATTGTGGGTGTTATACAACCTGCTATTGCATTAATAATTGTTGGAGGAATGCTTGTTGCTTTATATTCTTTATTATCATTAGATGGAGGCCCACTGAAAAGTAGCATTATTGATCCTAATGGTGCGACTGACTTAAATGGTAATTCAATTATGATAGCAATAAGTATGCAAACATTATATTTATTTAATATATGGGATTCATTATTTTTTATATTGGCAAATACGATTATGCCATCAATAGGGATATTTTTTATTTATAATGTTTCAAGATATTTTAATTCAAATTCTTGATTCTCAATTACAGTTGGTTTATTTTATGATTTGCATTAGCTCCAATAGCAAGTCTGATTGAGTTTGTTTTATTTAAACTATTAACTTTAATTGGAAATATTCCTTATGGTTTTGGTACAGCATTATTTGCTTTTCTATGGCAACCACTAGTAATAATTGGTTGGCATACACCATTAGGCGTTGCAATAGATACTTCAATTAGCAGTGGAACACCCCAATTATTAGGTACAGTTAATGTTACTCCATATTGAGGGCAATTAGGTGCAGTGGTTGCTTTAGCAATTATTACGAAAAATATGTCATTAAGAAAAATGGCTTTTGCTACTGTTCCGGCAGGAATTTTTGGTATAACTGAACCAATTATCTATGGAGTAAATTTACCAAGAGTAAAACCTTTTATATATGGATGTGTTGCAGCCTCCGTTAGGCGATTTTTAATTGAAAATTTAGATTTAGATATGGATATTATGGGAACATTTGGAATTTTAAGTATACTTCGTTTTAATGATAGTGCTTGGAGTATAAATCCAGAATTTAATCATGCTATTAATTATAGTCAAGGAGCAGAAATTGGATTAGTATTTTTAACATGAAGTATAACTTTTACAGTAGGTTTTCTAATTACATTCTTCTTTTATAAAGAAAGAAAAAATGAGTTAAGTTATTTTAAAAAAGCAATAAACAAAATTATTAAATTTACAAATAGTGAAAATAAAAAAGATGTACTTAAAAACTTTCAAAAACAGTTAGAAAGTATAAAAAATTCAGAAATAAACTATAAAAAAACTGAAAAATATTATTCACAAATAAGTAAAATTGAGGTGAAATTAGCAATAATTGAAGAAAAAAAATCTAAAATAAGAAATAATATTTTTAAAAAATTAAATCAATTAAAATTAAAACTTCAATTTAAAGAAAATGAAAAACTATATAATAAATTTCAAATTTTAAACAATAAATATTCAACTTTTGGATATGATACTGAAAAAAATAAACTTCAAAATGAATTGACATCAGTAATTTCAGATTATAAGCAAAATTTAAATGATTTTAATAATTTTAAAGAAGAAATTATATTAGAAACTAAACAAATATTAAAAAAATTTAAATTAAATAAAAATCAAAGTGAGCAAGTTCAAAATATAATGTGAAATGCAATTAATAGTGTTGAAATTTGTTTTGAAATCTTTGATTCCAAAAATGTGAATTTTAAAAAAAGAGAGCAATAATATGAAGAAAATTCCAAAAAATTTTTTATGAGGAGCATCAACAAGTGCTTACCAAGTAGAAGGAGCAAGTGATATTGATGGAAAAGGAATATCTATTCAAGACTTAACAACTTCAATAAAGGGAAAAATTAATTTTAAAAATGCTTCTAATCGCTATTATTATTACAAGGAAGATATAAAACTAATGGCAGAAATGGGATTTAAATCATATAGATTCTCAATTTCTTGAACTAGAATTTTTCCAAAAGGAGTTGGAGAAATTAATCAAAAAAGGAATAGATTTTTATAATAATTTAATTAATGAATTAATTAAATATAATATTGAACCAATAATTACTGTATATCATTTTGATCCCCCTTTGGAATTAGAAAAACAAGGTGGTTGAAATAATAGAGATTTAATGGTAGATGCATTTGTTTCGTGTTCAAAAAAAATATTTGAATTATTTGGAGATAGAGTAAAATATTGACAAACAATTAATGAGCAAAATATGATAATACAAGTTGAACATGTTTTAGGAATGGTTGATTCAAAAGAAAAAGATATTTTTAAAAAACTTTATCAAATAAATCATAATATGTTAATTGCACAAGCAATGATAATGAAAATTTATCATGATATGAATTTGGGTGGTAAAATTGGATCAGCACCGAATATAAGTCTAGTATATTCGGAAACTTGTAAGCCAGAAGATTACGATGCAGCATATAAGGAAAATGCTTGAAGAAATTGATTATATTTGGATGCAGCAGTTTATGGAAAATATAACAAAATTGCTTGAGATTGGATGGTAAAAAATGGTTATGACCCTGAAATTCGTGAGGGTGATCTAGAAATAATGAAATTAGGGAAAACTGACTTTATTGCCTTTAATTACTATAATACTTTTACTGTAAAAGCTTCTACAAAAATAGATGCAATAAAATTTAGTGCTTCTGATCAACAAACTTCATATGATATACCAGAAATGTTTGATATATCTAGAAATAAATATTTAAAAAAACACAATTTGGTTGAGAAATATACCCACAAGGTTTTTTAAATACTTTTAGAATTATATGAGATCGCTATAAATTGCCATTAATGGTAACAGAAAATGGTCTTGGAGCATATGACACTTTAGAAAAAGACGGAACTATGCATAATCAATACAGAATTGAGTATTTAAGAGAACATATTAAATATATAAGAGAAGCTATAAATGAAGGAATTGATGTTATAGGATATCATCCTTGAAGTGCTATTGATTTAGTTTCAACCCATGAAGGAGTTAAAAAAAGATATGGTTTTATACATGTTAATATAGACGATGAAGGTAATGGAGATTTTAAACGCACTAAAAAGGATTCATTTTTTTGATATAAAAAAGTTATTTCATCAAATAATGAAGATTTAAAATAATTAACTGATGGTATTTTTTGTTAAATTGTAAGAATATTGTTAATCTTAATTATAACTCTTAATATAAATTTATAATTATATTAATTTTAGTAATAAAAAACCTAGAAATTTAAAACTAGGTTTTTTTAATTATTATGGTTATAATAAAAATGTGAGGTTCAAATTATGAGTAAGTTATATGCAAGTAAATTAATTGAGCAATTTAATTTAGAAATTTTATCTGGTAAAGGTAAAATAAAAAACTTAATTGAAGTTTATGGAATAAATAGAGCAGGTTTAGAATTGACTGGTTTTTTTGAAGATGGTGAAAAATCACACAGAATAATTGTAATGTCAACAAAAGAAAATAGTTATGTTTTAAATTTTAGTGCAGAAGAAAGAAGGGAAAAATATAAGAAACTTTTTTCACAAAATATTCCCTTAATAATAATTACTCAAAAATTTGAAGATAAAATTGTAATAGATGTTGCAAAGGAACTTAATATTCTTTTAGTAAAAACTAAAAATAATTCAACAAGTGATTTTACTCAAAACATTTTAGAGTTTATGGATGATTATTTTGCACCAGTCATTGAAATTCATGCTTCTTTTATAAGTATTTTTGGAAAAGGTGTTTTATTAATTGGTGAGTCTGGTATTGGTAAATCTGAAATAACATTAGATTTATTAAAAGCAAATCACCTTTTTGTTGGTGATGACAGAATAGTTGTTACAAAAAAATTTAATGAAATTTTTGGTAAAAGCCATGAAATATTAAAAAATCTTGTTGAAGTAAGAGGAATAGGAATTATTGATGTTTCAAAAACAAATGGTTATCAAGTAATTTTGGATAAAAGCAAAATTGATATAGTTATTGAGTTATTGAAGTTTAAAAAAGATGGCATTGATTATTCAGAAAGATTGGGAGCAGATTTTGAAAAGTATGAACTTTTGGGAGTTCAAGTTCCATATTTAAAAATTCCAGTTACATCAGGAAGAAATATTCCAAATATTATTGAAGCTGCAGTTGCAAAATTAAAAATAAAGGAAAGTGGACTATATCAAGATGAAGCAACACTTTTAACTGAAAGAGCACTGAAATTTAATAATGATTAATTTTTTAAGTGATATTTGGGTAAATGGCAATCCAATTCCTGACTATTATGATTATGGTAGTGGTAAATATGCAGATCCACTTTCCTTTTTATATTCTATTTTTGTATTAATTGGAGTTTTCTCAGTTATTATTACTTCAGCTATTAGATTACATATGAGAGGAATTCCTTTAAAGGAATTTTTAAATGGTATTTATATTGCATTGCCTTTAGGTGTTATTGGAGCAAGTATTTTTGGAAAGTTAGGCTCATCAGGAGAAGATTGAAAAATTTATAGATTAATATTTTTTTGAGAACCAGGAATGAGTTTTTTTGGTTCGATGCTTGTAGGTGGAAGTGCTGCATTTTTATGATTTTGATATAAAAAAAGAATAACAAGAATTTCTATTTATACCTATTCAGATTGTATTGTTCCAAATATACTATTAGGACAATCAATTGGAAGGTGAGGTAATTTATTTAATCATGAAATAATGGGTAGAGCAATTGAGGACTCAAAAATGTCTTCAATTACTTGATTACCTGATTGAATTTGACATAGATTATTTTATTTTTATAATCCAAGCAATGGTCAAGAACCATTAAAAGTTCTTCAATTTCATGAACCATTATTTCTATATGAATCTCTTTTAACATTATTTTTATGATTTTTATTAATTTTTGTTTTTTCAAATTTAGATAAATGATTTAGTAAAAAACCTTGAAAAATTGATCCATATGCATTTCCTTGTAAACAAAATAAAATATGTAAATTTTTAGATGAATCAAAAATTATAAATTATCAAACTCAAATTCCTATAAAATATAATAAAAATTCATTAGAACAATTAAGTTTATCAAAAAAATGAGTTTGAAGGAAAGCATATTTATTATATGAACCAAACATCATTGATGTGGAAAATCAACAAAATTATATTTACGATCAAAAAATTAAAAGAGTTAAAGCAAATGAAAAATTTAATCAAATTAAATTAAAAAAACATCAAGAATTTGAAAAAATAAAGTTGAAATTTAAAAAAAATAAAATAGGTAAAGAAAAATATAAAGAAGATATTAAAATATTAAATGACAAATATAAAAATGATTTATCAAAATTTAGAAAAAATAAAAGTATATTGATTTCTTTTTTGAAAAGAGATTCAAAAAAATTATATAATCTAAATAATCCAAATAATTATTTTGTAATTCATTGTGGATTTTTAACTGGAATATATATATGTGCATATACAATTATAAGATTTATTTTAGATAAATTTAGAAATCCATATGAAATTTCAGTAAAAATGAATCCATTATTAAATTATTTATCATTAACAGGTATTTTAATTATTGGAATAATTATAATGGTTTGTGCTCAATTTATAGCACCTAAAAAGTGAAGAGAGGTAGGATGATTATATGAAAAATCTTATTAATAATCTTGATTATGATTTAATAATAGCTGGGGCAGGACCTGCGGGATTAAGTGCAGCAATTTATGCAGGAAGAGCAGGACTAAATGTTTTGGTTCTAGAAAAAGAAGCACCAGGAGGTAAAGTTATCAAAACAGGAGAAATTGAAAATTATCCTGGTTTTACAAATATACAAGGCCCTGATTTAGCAATGCATTTTTTTGAACAAGCAACTTCAATGGGAGCTAAATATGAATTTTCAGGACTTAAAAGTTTTGAAAAAAAAGAAATTTTTTATGTTTTACTTGAAAATAAAAAAACAATTACTTCAAAAGCATTAATTATTGCTACGGGAACGAAAGAAAATTTACTTGGAGTGCCAGGAGAAATAGAATTATATGGTAAAGGAGTATCATATTGTGCTGTTTGTGATGGAAGTTTTTATAAGGAAAAACCTGTTGTTGTAGTCGGTGGAGGTTATTCTGCAATAGAAGAATCAATTTTTTTAACAAGATTTGTTTCTAAAGTATATTTAATACATAGAAGAAAAGACTTTAGAGTAGATAATAAAACTTTAAATAAAGCAAAATCAATTGAAAAAATCGAATTTATTTTAGATAGTATTGTAGAATCAATTGAAGGAACAAATAAAGTTGAATCTGTTAAAATTAAAAATCTTTTAAATAATGAAATTAAGAAACTAGAAGTAAATGCAATTTTTCCATTTATTGGTCAATATCCAATAACTAATTTTATTAGTCAAAATGAAATTCTTGATGAAAATAAAAATATTATTGGAGATGAGAACATGAGAACAAAAATAGAGGGTTTATTTGTTGCAGGAGATGTAAGAGTTACTCCATTTAGACAGATAGCAACAGCTGTTGCTGATGGAGCCTTAGCGGGTCAAAATGCTGTTAACTATATTGAAAACCTTGAATAAATAGTTTTTTTGTATTTTTACTATGTTAAAATAAATTAGTTGTAAGGTGTGATAAAAAATATGTTTTTAAATTGAAATAGTAAAGATTGATCAGCTGTGAGTGATATGTGAACGGTAAGAGATGATTATGGTTTTTTTCATGTTTATGCATTTACAATGACTATTGGAGTTATATCAGCAATAAGTATATCTGCTATTAAACTTTATATAAAAGGAGTTCCATTAAAAGAATTATGAATTGGGGCCTCAATTATTGTTCCATTTTCTTTATTAGGAGCAAGTTTTTTTGGAAAATTAAATGCAGATGGACCAGGTCAAAATGCTCAGGGCACTTCTTTTTGAGGATTATTTGCATTTTGAAAAGCAGGAATGGCAATTCATGGGGGAGTATATTGTGGTGCTCTTGTTGGTATAGTTATATTTTATTTTTTAGGAAGAAAAACGAGAGTTTCTTTATGAACTTATGGAGATGCTATTATACCAAATATTTTAATAGGACAGGGAATTGGACGTTGAGGTAATTTTTTTAATCATGAACTTTATGGTCAACCAATTGCAAAGTGATTTGTAGAATCTTCAAATGAAATTAAGCAAACAAATGCACTATCTTGATTACCACAGTTTATTAGAGAAAATATGGTTTGAGAATATAGAGGTTCTGGTGGTTCGCTAAATGGTCTCGAATTAATTAGCGGAGAAAAATATTTAATGGCACCAATTTTCCTTTATGAATCTTTTTTTCTAATTTTATCTTGAGCAATTATTACATTTTTAATTTCTTTTATTGGTAGATGATTTGGAAAAAAACCTTGAAAAATTAATCCTGAAAAGTATTCATTTAATTTAAAAGTATCATATATTTGAAAGCAAGCAGTTTTTGCAAATCATGATGAAAAAAATGTTAATGAATATAATGAAAATATTAATCAAATCAAAGATAGTAATTGAATTAAAAGAAAATGAAAACAAGGGGAATTACTTGTAACAACTAATAATCCATATAAATATTTAACAGTAAAAGCTGGTGTTGAAATGGGTGTTTACTTTTTCTCTTGAAATATTGTTAGATTAATTTTGGAAATTGACAGAGCAGAAGATCATTTATTTTTAATGTATCAAAGGGGACTTTCATTAGCGTTAATTTCATTAACAGCAATTTTAGGAATTATTTTAATTATAATTGCACAATGAGTTAGTCCATATCTTTTTAGACAACCTGGTTATGTTTACGAACAGGAATATTTTTATACAAAAGCTGTAATTGAAAAAATTGTTAAAGATAAATCTGTTTCAAATGAAAAAAAATTAAAACAAAAATTAAAAGAGAAAAAAATAAAAGAAAAACTTGAAAAAAAAATGGACAAGAAATAGGTGAATAAGATGTCTTTTTCCTTAGAAGTTAAAGAAGAAATTTTAAATCATACCTTTACTGATAAACAAAAAAACATGCTTATTTCAGGTTTTATTAAATATAATGGTGACTTAATTTTTGGAAATGATGGGGCAGCATTAAGATTAACAAGTAATAGTAATAATATAATTAGAAATATTTATTCTATTTTGAAGTATGTTTATAAAAAAAATATTAATATTTCTATTATTCAAACTCAAAATTTATCAAAAAAAAAGATATATCAATTACTTTTGATAGAAGACATAATGGCTTTTCTAAAAAATTACTTAATTTATGATGATGAAAAATTAGAAAAAATTGTTGAAATCCCATTGTTTCAAAAGAATTTAAAAGAAAAACAAAGTTTAATAAGAGCTTATGTATCAGGAATTTTTATTGCGATAGGAAGTGTAAATTCTCCAGATACCACAAACTATCATTTAGAATTACAATTTAAAGATGAATTTTCAGCAATTTATTTTTGTGAAATTACTAATTTATTTAACTTTAACTTTAAAATATTTAGGAAAAAAAACACCTATATGTGTTATATTAAAAAATCAATAGAAATTTCTGATTTTTTAAAATTTATTGATGCTTCACGAGCTGTTTTAAAATTTGAAACTACAAGAATTAATAGAGACTTTAATAATAATATAAATAGAATGATGAATATCGATATTTATAATCAACAAAAAACATTATTTGCTGGTGCAAAACAAATTGAACAAATTAATATAATAATTCAAAAGGGCTTATTTAACGAATTATCAGAAAAAGCGCAGTTACTAGCGACAATTCGTTTAGAAAATCCAGATAGTTCTTTTTCAGAATTAGAAATAATATTAAATGATAGAAATGTAAAAATTACTAAATCAGGAATAAGTAATTTATTTAAAATAATTTCTAGATTAGCAGAAAGTATTGGTGTATAACATTATGAAACGAGAAAAATTAATTACTATATTTAGTAGTAATATGAAAAATATAAGACAAAGACAAGAGTTAACTCAAGAAGAATTAAGTTTTAGATGTGGATTACATAGAAATTATATTTCAGATACTGAAAGAGGAAAAAGAAATGTAACTTTAAAGGCAATTGAAAAAATTTCATCTGGATTAAATGTTAAAGTTATTGAATTATTTAAAGAAATTGAAAAATAAAAAGAACAGAATTTAAATTCTGTTCTTTTTAGTAAATTACAACTTTAGTATACTTATCAAAGCTAATATCATTTCTAATATTTTTATATTTCTCATTTAGAATAAAAACTTTAAATCCCCTTGTATTTAGTTTTTTATAAATTGACAAATGACTTCTTGGATCTTCATTGATTATAAGAATATTGTGATTTTTATCAATTAATTTAAAAAATTTAAAATTAAAAGCTGTAATTGGTATATTGATTGTTCCTTCAAGGTGATGTTCATTAAACGAAATTTGATTTCTAATATCAATTATTTGCCATTTTTTACTTTTAAGTAAAGTTGTTAGTTTTTTAATATTTTTTGTTTTATATTTTTTTCTAAAAGAATTTGTTTTAAAAATTTTTTCAATAAACTTAAATATAATATCTAATCATTGCATAATATCCCCTAATGAAATTATATACTCTATTAGTAAAGAAATGCTAATTTTATAATTTGTTATATGAATCATTAAAATTACTCTATAATTATAGTATTATATATATTGAATGGAGGCAAAAGTATGTTATTTTTAGCAACAGCTTCAGAAAGAGAACTAGCTAATCAAATAATATTTGGATTTGAAATAGTTGCCTTAATTGCAGCGTTTTTAATGATTGTTGTTGGATTAATTCAAAATAAAAGTTCACAAACTGGTTTAAGTGCATTAAATGGTGGTAATGATGAATTGTTTTCAAACTCTAAAGAAAGAGGAACAGATAAAACAATGTCTATATGGATGTTTAGTTTAGGCATATGTTTATTTATAATTACAATAGTCATAGGAATAATTTCAAACACTGTTTTAAAATAATGGTGTTTTTTTATTAGAAAGAATAATGTGTATGAAAGATTTAATAATAAAAAAATTAAACATTCAAAATAAAATTCATTTTAATGAACTTTTTAAGTTTTTTTCAAAAGATTATGAAAAACTTACAAATTGCTTAAAAGAAATGCAAGAAGAAAATATAATCGCTTGAACTAAAGAAAATGTTATATATTTTATTGGAGAAAAATATAAAATAGGAAGTATTAAAATTAATGATAAAGGATTTGGATTTGTAAAAGACTTCAATAAAGAAGATGAAGATTTTTTTGTTCCACCAAATTCTTTAAATAACTCAATTTCAACTGATGAAGTTGTATTTACAATTCATAAGGAAAATGATGATAGACTTAAAGCTAAAATTGAAGATATAGTTTTGAGAAATAAGACATTTTTGATTGGGGAAATTCAAAAAAGTGAATGTGGAAGATTTCTAGATTTTATTCCGAATGAGTTATGATTTAAAAATTATAGAATTGTAATGATAAATGCAAAAGATTTTAAATTAGAAAAAGACTTAATTTTAAAAGTTAAAATACTTGATGTTAGAGATAAAAAGTTGTTTGTAAAAATTCAAAAAATAATTGGTAATTCAAATAAAGCGACAGATAGAATTTTATCAATAGCTTATGAATATGATATTAAATCTGAATTTAGCAAAAATGTTATTAATAATGCAAATGAAGTGGCAAAGCCAATTAATTATAATGAACCGTTAATAAAACGAAGATTAAATAATTTAATTAAAGATAAAAATTTAGTAACTATTGATGGAGAAGATTCTAAGGATTTGGATGATGCAATTTATGTTGAAAAAACAGAAAAAGGATATAAATTGTTAGTTGCTATAGCTGATGTTAGTTATTATGTTACACCTTTTTCAGATTTAGATAATTCTGCTTTATTTAGAGGAAATTCAGTATATCTTGCAAATAAAGTTATACCAATGCTTCCAGAAAAATTATCAAATGAAGTTTGTAGTCTTAACCCAAATGAAGAAAAATTATGTATGGTAGCTGAAGTGGAATTTGATTTTAATGGTGCAATTATAAATAAAAGGGTTTATGAATCAATTATGATATCAAAAGCAAGATTAACTTATAAGGAAGTAAATGAACTTTATAAAAATAATAATTCATTAATTGATAAAGAAATTATTGATATGCTTTGAATTGCAAAAGAATTACATGAAATTATTGATAAAGAAAGATCTGAAAGAGGCTCAATCGAATTTGATATAGCGGAACCAAAAATAATTTTGGATAAAGATTCAAATGTAATTGATATCATTAAAAGAGAACGAGGAATTAGTGAAAAATTAATTGAAAATTTTATGGTAAGTGCTAATGAGTGTGTAGCATCATTAATTTTTGATAAAGAATTACCTTTTATTTATAGAAATCACGATGATCCAAAAGAAAAGAATCTTTTGGAATGACATTCAATTTTAAAAGCACTAGGTATTAATGTTAAGTTAACTGAGTTGGACAAAATTAATCCAAAAACTATAAAAAAAGCTCTTAATCAAATTGAAAATCAAATTAGTGATGAAACTGAAAGAGAAGTTATAAATATAATATTGTTAAAATTTATGGAAAAGGCAGCGTATGAGCTTGATAATATTGGTCATTTTGGATTAGCAAGTGATTGTTATACTCACTTTACTTCTCCAATTAGAAGATATAGTGATTTGATTGTTCATAGATATTTAAAACAATATTTGATTGATAAAGATTTAAGAGAATTTAAATTGGAACAAAACAAAAAATTTATTTTAAAAGCATGTAGTATAATAAATGATACTGAAAGAAATGCTGTCTCAGCCGAAAGAGAAGTCAATAAAGTTTGTATGGCAGAGTATATGAAATCAAAACTTAATCAGGAATATGAAGGAATTATTGCAGCAGTTTTAAAATTTGGAGTATTTGTTCAACTATCCAATTGTGTTGAGGGTTTAATTCATATTTCTGAATTACCAGATTTTACTTTTGATGAGAAAACAAATATCTTAGTGAATAAACAAAATAAAATTTTTAGACTTGGACAAAAAGTAAAAATAAAAGTTAAAAATGCTGATGTAAAAAAAAGAATAATTGATTTTACTTTAAAATAGTGGTGGTGATTTAAATGGGAGAACATATTCTTTTAAAAAATAAAAAAGCCTATTTTAATTATGAAATTTTGGAAACATGAGAAGCAGGAATTGTTTTAACTGGGCCCGAAATTAAATCAATTAGAAAAAAAGAAGTTTCTATTGATAAATCGTTTATTTTAATTAGAAAAAAACAAGTAGAAATATTAAATATGAATATTAAAAATTATGAATTTTCTCATAATATATTTTTAAATCCAACTAGAAATAGGATTTTATTACTTAATAAAAAAGAAATTGAAAAAATTTTAAAGAGAGTAAAGTTAGAGAATTTGACAATTGTTCCTCTAAAATTATATTTAAAAAATAATTTTGCAAAATTAGAGATTGGACTTGGAAAAGGTAAAAAATTAATTGATAAAAGAGAAACAATTAAGAAAAGAGATATTGAAAGAAAACTAAAAAAAGTATATAAATAATTTAGTTTTTAAATAATAAAAATATTTTTTTTTGATAAAATTAAATTGAGTTAATATTAATATTAACTCACTAGGGGTAAAAAATTAAAAAAAGTAGCATTAACTTTAAGTTCAATTTGAATACTTGCGAAATTTCATATTTTCAGCAATAAAAGTATTTCAATAATAAAAGAAATAAAAAATGGGGAAACTTTTTCTCAATTTTTGTTATATAAATTCATTTTTTCTTTAATTGTTTTATAATAAAATTATGGGGATGTCCCGGTTTCGACAGGATATATTGGACTCATGACTGCAGTGGTTTGGTAGACCTTAATACTTCTAGGTTTGATAAAATGCAAACGATAAAAAAAATGAATTTGAAATGCCAGCATTTATGATCAATAATGCATCAGCTGGAGTTGCATTAGCAGCTTAATAAACTTTTAAGTTTATAGCACTCAACGCTACATGGTGTTTTTGTACTTCATCAAGATAGTGTATTACCTAGTACAATAGAATAAGTGACTTTAATGATAAACTTGTTTGAATTTAAATCATTAACACTATAAAATTAAATTTTGTTAACTCTGTTGTTTTATAGTGTAATTTAGAGTTAAATAAACTGTAGGCGTTATGGGTTGGAGTATTTTGGACGCGGGTTCGATTCCCGCCATCTCCACCATTTTTTTATTTTTAATTGTTTTATAAGAAAAGGAAGTGAACGTGTGAATTTTTTAATTAGTTTGATTGCGTGTTTTTCTTATACAACAATTATGGCTTTTTTTTATACAATATTTTGAGGCTTAACAAGACATTTATTTATAAAATTAACAATATATTATGAATTATTTTTGGGATTTGTTTTGGGATTTTTCTCATGTTTTTCTATTTTAATAATTAGTTTAATTAATGAAGAACAAAAAAATCTAGAACTAACTGTATTGCTTCCAACTTTTCTATATTGGATTTCAATATTTTTTATTTCAATATTTTCATCAATTGGAATATTAACTTGCAATATTTTAAACTTGACACTATTTTCTTCATTATTTCCTCAATATTTTGGTTCAATAAACAATAATTGAACTATGACATTAATAATTATTTCTTATTTAATGCCTTTATTCTTAAATTTAATTAAACATAGATTTAAAAATTTATCAATTTGAGGAAATTGATCAATTACAACTTTAACTCTCTTACTTGTTGGATTAATTTGAAATTTTTCAATTATAAAAACTCAATCTGGAATTCTTAATTCAGTTAATTTACTTTTTTGATTAGGAAGTGGTTATTTAACATATGCATATATTGCAATAATTAATCAAATTTATATTCATGCATTAAAACTACAAAATATAGTAACATATGAAAATACATATTATTTAAATTTTTCCTCAGCTCATAAACAAGTTTTAAATAATATTAGTATTAATAAGGTTAGACATGGTGTTTATTTAACTTATTTTATTTCAAATTTTGAAACTTTTGAATCAAAAGTAAATGGTAATACAAAAGATTTTATTGTTAATTCAATTTCAACAGAAACATATGAATTAATAAAAACAAATTTTTCAAATGTAACTTTTTTTAAACCTAATTATAAAACATTTGCTGCTTTTATACCTATAGAAATTAAAACTGATTTTAAAGAAAAAAATAATTCACATATTCATAAAGTAGAAGAAATAATGAAAAAAGTAAATACAAAATTCAAAATTAAAGGTTATAAAATATCTGTAAAGCTTAAATCAATTTGTTCATATTATGGATTACATTCAAATAATTTGGAAACATTGCTTGACTATAATAGATATGTTGAACAAAATTTAGTTTTGAATAAAGATCAAAATAATGTCATTGTTAATCCTATAGAAATCTTGAATGAGCAAAATAAAAATAAAAAAATTATTTCTTTAAATGAGGTTGCAAATTTAAATCAATTTGTAACCTTATTTGAACCTATTTTTAATTTAAGTATTAATGATTTTGATAGTTATTTTTTAAATGGCTTGATTGATGGTGTAGAAATTAATTCGGATTTATTTGAAGAAAAATTTAAATTAATTAATGATATGGGATTAACTTCTTTATTTTTAAGATTTATATCTCTACAAGCATTAAAAAAATTAAGTAAACAAAACAAAAATATTTTAGGAAAACAAATATTTTTAAATTATGACAGTGATTTTTTGTCTTCTACAGAATTTAATGTAGATGAATTTATTTTAAAATTAAAGACTTTGAAATTGGATTTATCTAAATTAACTTTTAATTTTAATTTAAATAAAGAAGTTAATGATAAAGTTAATTTGGAAAAAAATATTATAAAATTAAAGAAATATAAAATAAAAATATCTGCATTTAATTTTGGTTCAGTTGACTCAGACTTTACTTTTTTAAATATTTATAAACCTGAATTTATTTTCTTGGAAGCAGATATATGTAAAAAAATAAACTCTATAAAAGAAAATGAATTAATTATTAAAGATTGTATTAATATTTCAAACAAAATTGAAGCAAAATTAATTGCTATTAATGTTGATAATTATATTAGTTATAAAAAATTAAAAGAATTAGGAATAAGTTTATTTACAGGAGAATTGATTGGTAGTTCAATTGAACCAAAGGAAATTATTTCAGAAGAATTAAAATTTTTATTAAGTAAGTAGAAAGGAATAAAAAAGATGTTAGACCCAAAAGAAGCAGAAGAATTATTTATAAAAATTGAGAAACTAATAAATGAAAATAATATAAAAGAATTAAGAAAGTTATCAGAAGACCATTATCCACAAGATATTGCAGATGCTCTTGAGCAACTTGAGGATAAACAAATAATATTAGCATTAAGAGTTTTTACAACAGATATTAGTTCTGAAATTTTTCCTTTTTTAGATAATGAAATTCAAGAAGAAATAATTACAAAATGAAATTCCAAACAAATTAAGGAACTATTTGATGAATTATATACAGATGATATAGTTGATATTTTGGAGGAAATGCCTTCTAATATTGTTAAAAAAATTTTGCGTGCATCAACTCCAGAATCACGCTTACAAATAAATGAAATACTAAAATATAATGATGAAACTGCTGGGAGTATAATGAACGTTGATTATACTAAATTAAGAACTGAATGAACGGTTACTAAAGCAATTGAAAAAATAAGAGATAAAAACAGTATTAATGAAAATCAAACAACTTTTTATGTTGTAGATAATTTAAATAATTTAAAAGGAATAATAGAACTAAAAGATTTAATTTTTTCAAAAGGTACAGAAAAAATAAAAAATGTCATGGATGAAAGAGTACTATATTCGTATACAACAGATGATCAAGAAGTTGTTGTAGAATTATTTAAAAAATATGATATTACAACTTTACCAATAATTAATAATCAACAAAAACTTGTTGGTATAGTAACAGTTGATGATATTATTGATGTTATTGAAGAAGAAGCAACAGAAGATATTCATAAAATGGCTGGAATTAATCCAATTGAAAATGAATATTTTAAAACCAGTATTTGAAAAATGGTTAAATCAAGAAGTATTTGATTATTATTTTTAATGGTATCTGCAACTTTATCACAGATGGTTATTTCAACTTTTATGAAAATTTATGGCACAGTCGATAGTATACATAATTCAAATGGTAATTGAGATATAACATATATTGTGACAATGTTATTAACACCTCTTTTAACAGTAATATCAGGGACTGCTGGTAATGCAGGAAGTCAATCATCAACAATGGTTGTTAGAGCTTTGTCCTTAAAACAAGTAGATACAAGTGATTTTGCAAAAGTTTTATGAAAAGAATTTAGAGTTGCTTCAATTACAGGAATTATATTGGTGAGTATTAATTTTATTAGGATTATTATAATTTATTCTATTGAATATAGAGGAAATTTAAATCATATTGAATTATGATACTCAATTGCAACATTATCAATTGCTATGTATATTGCATTAATATGTTCAAAATTAATTGGGGGAAGCTTACCAATAGTTGCTAAAAAAATAAAGATTGATCCAGCAGTTATGGCTGCCCCATTATTAACAACATTAGTTGATGCATTATCAACTGCTGTATTCTTTTCAGTAGGGTTAATATTTTTTATGTAGAATATAGGAGTTAAAAATGAGACTAAGAAATAAAAATTGAACAAAAGAATATATTAAAAATTATAATCAGTATGTACTTGACAGTTCATTAATTAATAATCTAGAGAATTTATTTAAAAATAATTATCCTACTTTTTTAGAAATTGGTTGTGGAAAAGGAAAATTTTTAATTAGTCAAGCAATTGATAATCAGAAGAAAAACTTTATTGCAATGGAAAAAGAAGCTACTGTTATTGGAGTTGCATTAAAAAAAGCAATTACAACTAAGGAATTGGAATTAAATAATTTACTTTTTTTAAACTCATATGCAGAAAAATTGCAAGATATTCTTGAACCGAATTGTCTTGATGGAATTTATTTAAATTTTTCAGATCCTTGACCAAAATTAAGGCATGAAAAAAAGAGATTAACACATTTAAAATTTTTAGAAATATATTGAAAATTATTAAAAAAGGATGGTTTTATTGAAATAAAAACTGATAATGATAATTTATATAATTTTAGTTTGCAACAAATAGAGTTATCAAATTTTAAATTATTAGAAAAGACAAATGATTTATATAAAAATCAAAGATTATTAAAGGATAATGTTGCTACAGAATATGAAGAAAAATTTCATAAGATGGGAAAAAATATAAATAAAATAATAATTAAAAAAGAGGATTAATCTTTTAATTTAAGATTTTCCTCTTTTTTATTATATTGCTCTAAATATTCTTTTTTAAAATCATTGTTATTTTGAATTAAATATTTTGTTATTTCAATGAAAAGATATATATAAATAAAATTGATCATAAATAAAATTAAATAAATTCATCATGAATCTTTGGCATTTATAACTCAACTTACTTTATTTATTAGTGAGCCACTTGTCATTTCAATAAAAAAACATCCAATTGTAAAAACCAAAAGAAAAATATAACAGTAGTTACTTTTTATAACATTTACCTCTTGTTCTTTTGTTTCTAAATCTGTTTTTATTTCCAAATTGTAAAATAGACTAACCATGGTTTTTCCAATATTTAAACAAACACAAACTAAGTAAACTAATATAAAATTTAATAAGATTTGAGAAGCTCAAGAAACTTTTGTTTTTGTTTCCATTGGTGAACTTAAAATTATTATTAATGTAATAACAATTATTGAAAATGTTAAAGAACCAAATCATAAAATTGACTTCTTTAAAGTTGGTTTAACTGTTTTAAAATTCATAATTAATCACCTAATTATAATTATAATGATTTTTTATAAATAATAATTTTAAATATTTATTTACCTTTATTCAAAATAAAAAATAAAATTTTATTTGTAAGTATAGTTTTTTACATTTTTTTTGATTAAAATAAAAATGTAAATTAAATAAACGGCTTATATATTTCAACATAAAGGGTTGAAGTTTCTACAATACACCAATGTATTAGCTATGAGCATAATATATGTGTAAAAAGGAGGAAAGCAAATCTCTAATTATTTATAAGATGATTAGTATGCTTTCTTTTTATTTACATACAATATGATTGGGTTGATTTAATTAATTTACACGGTTTCAATGTTTAAATTATGCTTAAAAGGAGAAAATAATATGAAAAAATTACTATCAAGTTTAATGGCAGCTGCAATTGTAACTTCAAGTGCAGCAACAGTTGTTGCGTGTGGAGGAGGTTCTGGAGAAAAAATTTGACTTATAACAGATACTGGAAAAGTAGCTGATAAATCATTTAATCAATCAGGATTTGAAGGTGGAAACTACTTTAATGAAAATATGCTGGGAATTAAGAGAGAAATTAATAAAACTGAACCTCAAGAGTTAACAGAATTAGAAGCGGCATATGAAAATGCAAAAGCTGATGGAGCACAAGTTTTAATTTTACCAGGATTTCATCACGCTCTTGAAGGTCAAAATAAAGCAGCAGATATTATGGGAGAAAGTGGAAGCACAATTATTTTGGATAGTACTCATGCTGGAAAAACAAATCAAATTGGAGTTATGTTTAGAGGAGATGTGTCAGGATTTTATGCCGCTTTTTCTTCATTAGTTCAATTAGCAGAAAATAAAGCAAACGTTATTAAAATGGCAACATATGGTGGTACACACAATGCTGGAGCAGTAGATAATTTTATGGTAGGCTATTTAGCAGCAATTGAAGTTTTTAATAAAATAAACTCAGAGGATGCTTATTCAGAAATAAAAACAAGTCTAGGATTAGATGAAAATTTAGTTACTGCAGAAAGAATACAGAAAGAGGCACCTACTGCGGATGATGATTCAAAATGATTTACTAATTCTTTTGACCCAGGTAAAGGAAAGACTATTTCAGAAAATTTAGTTACTAGTGGTGCAGATATTATAATGCCAGTTGCAGGTCCACAAACAAAAGATACATTAGATGTAATTTCTCAAAAAAATGCGTCGACAATGGTTATTGGGGTAGATACAAATCAAGCTCAACAATATAGTGATGCAACCTATGCAGGAAAATTTTTAACATCTGCTGAAAAAAGTTTAAAAGATGCTACAATAATTTCTTTAGGGCACACAAAATCATTTATAAGTGAAGAAGGAGTGCAAGATAAAACTCTAGAATATGCTACAAATAATAATGCTACATTTACAATTGAAAATTCAGAAGGTAATTTTGAAAGTTATGATTTAACTAAAAATAAAGCAGAAACTTGAGAAGGTAAAACATTATGAATGGGTGGGAAAGCTTCAACAGGAGAAGGCAATTTAGTTACATCAGAAAATTATTCAAAAGTAACCTCACAAATTTCTTCAGAAGTTTTAGAAAAAGTTTCAATTGAATTATTTAAAGAAATAGCAAAAGACAGCAGCGCAAAAAATATTTTATCAGATGAAACAATTATTAATTATGCTAATACAATTTTAAAGGCAATTGAGAATAAATAAAATAATATAGTATTATATTATTTATAAGTGAAAAATAATATAATAAATTTATAAGCTGATATTGATAAATAAGATATCAGCTTTTTATAAGGAGAAATAAAGTGGTAAATAATATTATTGAAATGAAAAATATTACTATGATATTTAATAAAAAAATTATTGCTAACGAAAATATTGATCTCGAAATTAAAGAAGGAGAAATTCATGCGTTGATTGGTGAAAATGGTGCAGGAAAGTCAACTTTGATGTCAATTCTTTTCGGTATTTATAATCCAACAAAAGGAACAATAAAAATAAGAAATAAAGAAGAAGTTATTTCAAATCCAATTAAGGCAAATAGATTAGGAATTGGAATGGTGCATCAACATTTTAAAATGGTGGATATTTTTCCTTTATGAAGAAATATTTCTTTGGGTTCAGAAAAAAGATTAGGTAAAATGTTTATTGATTCAAAAACAATAAAAGAAGATATTTCAAATATTATGAAAAAATATAATTTAAATGTTGATTTAAATATTAATGCTGAACATGCAACTGTTGGTATGAAACAAAGAGCTGAAATACTAAAAATTTTATATCAAGAAAATGATATTTTAGTTTTTGATGAGCCAACTGCTGTTCTTACACTACAAGAAATTGATGGTTTTTTAGAAGTCTTATTAGAATTACAAAAAAATGGAAAAACTATTATATTGATAAGTCATAAAATGAATGAAATAAAAAAAGTTGCAAATAGAGCAACAGTTTTACGTAGAGGTAAAGCAATAGGAACTTATGATTTAAAGAATACTTCAATTGATATTTTGTCTGAAGCAATGGTTGGAAGAAAACTAGTGGAAATAAAGAATAATTTTACTAATAAGAATAAAACAAAATTATTAGAATTAAGAAATATTTCTGTTCATAAAAAAGGTTATAAAAAAATTCAAGCTTTAAAAAATATTTCCTTTGAAGTAAAAAGAGGTGAAATTGTTGCTATAGCTGGTGTTGAAGGAAATGGTCAATTAGAATTGGCAGAGGCAATTTCAGGAATGACACGTCCATTTCAAGGTGAAATTTTTATTAATGAAGAGGATATAACAAAAAAAGGAATATCTCAAAGATTTATAAAGTACAAAATGTCACATATTCCTGAAGATAGACATAAACACGGATTGGCATTAGATTGAAATTTAATAAATAATTCAGTTTTTGAAGATATTTCAACTCCAAACTTTTCAAGAAAGGGTATTTTAAGAAAAGGTAAAATGCAAAAACATGCTCAAGAAATTATTGAGAAATTTGATGTAAGAAATGCAGATTTTGGTTTTTCTATTGCTCGTCAATTATCAGGGGGAAATCAACAAAAATTAATTATAGGAAGAGAAATGTCAAGAGAGTCAGATTTTTATTTAATTTTTCAACCAACTAGGGGATTAGACATTGGTTCAATTGAATTTATACACTCAGAAATATTAAAGTTAAAAAATGAAAATAAAGGTATTTTACTAATATCTTATGAGTTATCAGAAATTATTTCACTTGCAGATAGGATATTAGTTGTTAACTCTGGTGAAATAATCGGAGAAATTGAAGGTGTCAATGCTGATAGAACAGTTATTGGAAAAATGATGATGGGGGTGAAAAATTAATGAATTTTAAACTTAAAACTTGAGTTAAAAAAATGAAATTTAATGCACAATTAAATTCATCAGAAACTAAAAAAACAGCAAGTTATTTTAAGGCAAGTATAATTTCAATTTTAATTGGAATAATATTAACAATGATATTGATTTCTTTTTTAGGAGCTAACCCTTTTGAATTTTTTATAAAAACATTTAATGTTGTATTTACAAGAAATATTAATCTTCAAAATGCTTTATCATGATTTGTAACTTATTCATTGTTTGGATTAGGTCTTGCTATTGGTTTTAAAATTGGTTTATTTAATATGTCAGGATCTGGTCAAGCCATAATTTCAATGGGAATAACAGGAATTATGTTAATTAAGTTATTTGGAAAACAACCAGATATTAATAGTGCTAATGGTTCAATAATTTTTCTTATTTTAATAACAATGATTTTTGTATCTGTACTATTATCATCAATAACAGGAATACTAAAAGTATTTTTTAATATTCACGAAGTGGCAACTTCAATATTGCTTAATTGAACTGTATGATATATTTTTAAGTGAGCATTTATGAGAAATGGTTGAAATTCTTCAACTCCATTAATTCCTTCAGAATGAATTGAATTAGCAGGTTTGAAATGACTATTTCCAATAATATTAATGACAATTGTATTTGTTAGTGTTTGGCTTATTTTAACTTATACAACAATAGGGTATAAATTTAAATTAGTGGGAACACAAAAAGATGCTGCAAAATATATAGGAATAAATTATAAAAAATATATAATTTCTGCAACAGCAATTCAAGGACTTTGTATTGGATTGGGTTCATTTGTATACTGATGCGCAATTAAGAGGTCATATTCTTTAAATTCTGATGTTATTCCAACTATTGGTTTTGATGCAATTGCAATTGCATTACTTGCATTTAATAATATTTTAGGAATTTTACCTATTTCACTTTTATGAGGAACATTAAATGTAGGAATGACCGCAGCGATTCCATCTTTTTCAGAACTAGGAAGAGAGATATCACCATTGGTATTTGGTTTTGTTGTTTATTCATCAACTTTTGTTTCATTATTTATTAGATTTAAACCAATAGAAATTATTAAATTTAATATTTATTATTACTATTTTGATTTAAAAACTAGAAAAATAGTTCAAGAAAAAAATATAGAAATTAAAAAAATCAAAGAAGAAATTAAAAAAATTAAAAATAATAATTTTAATACAGATTATCAAAATTTAATTTCTTTATATAATGAAGTTTTGCAATATAAAAATAATTTGCAAAAAATGCCAAAAGAAATATCTGGAAAATTTTTATTGGAAAAAAATGAATCAATTTTGTTATGAAAAAGAAAAATGGAACAATTAAAAGAAGAAATAAAAGATTTAAAATTAGAAGGTTATGATTCTTTTAAACATAGGAGTTACAAAAATATTAAAACAAGTTTTTCATTAAAAAGTAAAAGATTAGGATGAAATTTATTAAATCCTGCTATAAAGGAATTAAGCGAATTAGAGGATTTAAAAATTAAATATGAGGCTGAAAAAAGAAAATTAACCAAACATAAAAAAAAGTCAATTCGATTAATTTCAATAAAAAATGAAAAAGAAAATATTAAAAAAGTAGAAGAAAAATTAAATTTAAAATGAAAAGAAATAATTTTTGATTTAAATAAAAATAAGCAAAATTTAAATATTCAAAAAAAACAAAATTTAAAGTCAGCTAAAGAAGAATTGAAATTATTCTTACAAAATAAAAAAGTATTATCAAAAAAAGAATTCCAACTTTTAAAGTTTGAAACATTAATGAAATTAGGTGAAAAATATGGATGTCGCTAGTTTATTTCAATATACAGCTGAGTTTTTTATAATTTTATCTTTAGCAGCACTTGCAGGTATGATTTCTGAAAGAGCTGGAGTTGTTAATGTTGCAATTGAAGGTTTTATGACATTAGGAGCATTTCTTATTTCTACTTTTGGAAGTTTAACATATAGTCAAAATAATAATTGAATTCAAATAATTTGATTTATTGTAATTTTGGCAATTGGGGCAGTAATTTCATTAATGCATTCTTTTGTTTCAATAAAATTAAAGTGTGATCAGATTATTTCTGGAACAGCAATAAATTTATTTATGCAAGGTTTTGCACTTTTTATGGTAACTTCTGGTGTAATTGGAGGAGATAAAAATTTTATTGATGGTAAATGAAAATATATAACATTTGGCAATCAATCAATTTTTACCTTCTATTTATTAATTACAATTTTAATAACTGCAATTTTAGGATGCTACTTTTCATTTACAAGAACAGGAAATAGACATATAGCTGCAGGGGAAAATCCAAACGCACTTGATGCTGTAGGTATTTCTGTTATTAAATATAGATATTTTGCAGTTGCGGCCTCGGGCGCAGTTGCATCATTGGCAGGAGCATTATTTGTTATATTAATAAGAATTTCTTCATTTTATGGTTCAGTTGATGGTTTTGGTTTTATTGGTTTGGCATTAATGATTATTGGGCAGTGAAGAGTTAAGTTTATTACATTATTTTCCTTATTCTTTGCATTTATTTTTGCTTTTGTAAGAATTTCTCCAATAAGTTTAGGCCTTCCAGCCTTTTTCTCTCAAAATGGAATTTTACTTCAGGCATTTCCATTTATACTTTCACTTGTAACAATGGTGGCCATTTCTAAATTTAGTAGACCACCAGCTGCAAATGGAAAACATTTTGATAAATCTAAAAGGTAACTTAATAAATAGACATTTGTTTAAAAAATTTGATTGATTAAATCAAATTTTTTAAATTCAATTAATGTAAAAATAATTTATATAGCATATTCTTTTTCACATTTCTTATAAGATAATTTTTCTTAAAGTAATATACTAATTGTAAAAATAACTTTGTTGTTTCTTTCACAAGATGTTAATCACAGAATTAATGAAAAATTTCTCATTAAATCAAAAACTAAATTTTATTATTTTCCCTTAAAAACTAAACTTTAAATTATAGAAATAATAAATATGAAATTTTTATTAACTCAATGTCAAATAGTATTTTAATTTTGCCATTAATTAATATTGTAATTTAAGAAGTTATTACTATTGAAAATAAAAATTTAAAAGAGGAAATAAATTATAAAAATCCACTTCCATATTATACAAATGTTATTGAGTATTTAAAATTAGTGTAAGTTTAAGAGATACAATTACAATAGCAACACCAGTAGATACAATCTAACTGTTTGAGAACAAGTAATAGTTGTAACTGTACATGAAACAATAAAAGGAATACACAAAGTATAAGGAAGAAAAAAAGTTTTAAGTTACAGAATAAATGTACAAATTCCATGAATCATAATGCTTAGATTTGATTTTGAAACTGCCATTTACACGAAGTCCAAAATATAGAAATTAAGAACTTAAATTACTTTTGGGAGTAATTATTCATAATTACAAAGGTTTAGTGAGAGTTCCTGAGAAAAATAATCTATATATTCAGATAAATAGAAAAATGAGTTATGAATATTTGCACAATTAAAATTGGTACAAATGAAAATAAATTAGAATTAAAAGTAAATTAGTATGACACAATATGTTTAAAAATAATTAAATGAAAAAAAAATTTTACATATCTTAAAAAGAAGATAAATTTTTTTATCATACTTTAATTGTTTAATTTTTTACTAATTTTTAAAAAATAAAATTTATATTTAATTCTTATAGTTTAATTATTACAGAAAGAGGTTTTTATGAAAGAAATTAGAGAAGTTGAAAAATTTTTAAAATCAGAATTTAATGAAAAAATAGGTATAGCAATTATACTAGGGAGTGGACTCTCAAATTTAACTATGGATTTAGAAATTATTAAGGAAATTGATTTTGAAAAAATTCCACATTTTACAAAAAGTAATATAATAGGACATGATTCAAAAATAATTCTTGCAAAGTATAAGGAAAAAATAATTCTTGCATTAAAAGGAAGATTTCATTTTTATGAGGGTTATGATATATCAAAAGTTGTTTTACCTGTTAGAGTATTTGCATTACTTGGTATAAAAAATTTAATTGTTACAAATGCATGTGGGGGAATAAGTGATTATTTAAATCCTGGAGATATCATGTTAATTGAAGATCAAATAAGCATGTTTTGTCCATCACCATTGAGAGGTGAAAATATTAATGAATTGGGAACAAGGTTTCCTGATATGACTGAAGCTTATAATAAAGATTTACTTGAAAAAACTTTAGATATTGCAAGTAAAAATAATATTCTTTTAAAAAAAGGGATTTATGCTTTTTTTCAAGGACCAATGTATGAAACACCAGCAGAAATTAGAGCTTATAAAAATTTAGGAGCTGATGCTATTGGAATGAGTACAGTTCCTGAGGTAATCGCTGCAAATCATGCAAATATAAAAGTTTTAGGAATTAGTTTAATAACAAATAAAGCAGCAGGACTTGGTGGAAAACTAAGTCATAATGAAGTATTGGAAATCGCACAAGCTTCAGAAAACAAATTAAAAGAACTTGTAAAGTTAATTATTGAAAAAGTATTTTAAATGATAATATATTTTTAGTTAAAAAAGGAGTAATTAAAATGACACCACACATTAGTGCTCAGAAAAATCAAATAGCAAAAATTGTTTTAATGCCAGGTGATCCATTAAGAGCAAAAAAAATTGCAGAGACATATTTAGAAAACCCAAAATTAGTTAGTCAAGTTAGAAATATGTTATTCTATACTGGAAATTATAAAGGAATTGAAATAACAGTTGCTGGTAGTGGGATGGGATGTCCAAGCATAGGAATTTATTCATATGAATTATTTAAATTTTATGATGTAGATTATATTATTAGAATTGGTTCAGCAGGAAGTTATTCAGAAAATATTAATGTATATGATATATATAATGTAAAAGAAGCTTTTGGAGAAAGTGATTTTGCAAAAATTTGTGCAGGAGTGGATTCAAGAATATTATCATCTGGAAAAGATTTATTTGAAAAAATTGAAGAAATTGCTCAGAAAAATGAAATTAAAACTTTTACAGGTATAGCTCATTCTTCAGATGTTTTTTATAGATTAGAAAATTCTGTTGAATTTGCAAAAAAAAATAATTTGGATGTTGTGGAAATGGAATCATATGCACTTTTTGCGACTGCAATTGCAACAAATAAACAAGCTGCTTGTTTATTAACTATTTCTGATAGTTTTATTACAAAAGAAGTTACAACTGCTGAAGAAAGACAAAATAATTTTATGAAAATGGTAGAATTAGCTTTAGCGACTGCAATTGAATTATAATTTAAAATTATTTTTAATAAAAAAATCAAATATTTTTCTAATTTGGAAAAATATTTGATTTTTTTAAATTATTATGAAAAAAATCTTTTATCTATAAATATATATTATAATTTAAGTGTCTAATTATAGGAGGAAAGTATGAAAATTTTGGCAATTGAATCTAGTTGTGATGAATTTAGTGTTTCAATAATGATTAATGGAAAAATATTTTCAAATATTATTTCTAGTCAAATAGATGATCATGCAAAATATGGTGGAGTAATACCTGAACTTGCTTCTAGACTACATGTAAAAAATTTTCACTGAGTATTGAGTAAAGCTTTAAAAGAAAGTGACGTAAAACTTGAAGAAATTGATCAAATAGCATATACTTCAAATCCTGGTCTTATAGGAAGTTTAATTATTGGGAAATTAGTTGCACAAACTATTGCAAGTTACTTAAATAAACCAATTATGGATTTAAATCATATTCAAGGACATATCTATGCAGCAAATATTGATGAAAAATTTGATTATCCTGTTCTTGCTTTAGTTGTAAGCGGGGGGCACACACAAATTCAATATATAAAAGAGCCATTGAATTTTGAAATAATTGGAACAACCCAGGATGATGCTGTTGGAGAATGTTATGATAAGGTAGCTAGAGTTTTAGGGTTGGAATACCCGGGCGGACCAAAAATTGATGAATTAGCTCAAATTGGAAATAGTTCAAAATATACACTTCCAATCCCAAAGCAAGATGGTAGTTTAGATTTTTCATTTTCGGGATTGAAAACAGCAAGTCTAAATTTAATAAATAAATTAAAACTAAATAATCAGGAAATAAATATAAATGATTTTTGTGCAAGTTTTCAAAAAACAGCAATTGCGTCATTAATAAATAAATTAGAAAAGGCAATTATTAAATATAATCCAAAAACTTTAACTGTTGTTGGAGGAGTTAGTGCAAATAAAAGTTTAAGAATAGATTTTTTTTCCATTGGAAAGAAGTATAATATTAATAAACTTATTTTACCAAATTTATCATATTGTACAGATAATGCAGCAATGATAGCTGAATTATGTAATCAATATTTAATGAAAAAGATAAATATTAAATAAAAATTGGAGGTATAGATATGAGATCTTTTTTGAGCAAATTAACTACTATTGATGAAAAGGATTTAACAATCAAAGAAAAAAAAATAGTTGAGTATATTAAAAATAATTTAAAAGAAATTGTAGATACAAATATGAAGATTGAAAGAATGGCACAAGAAGCTGGAACAGGTTATAGTGCTATTTATGGTTTATTAAAAAAATTAAATATTAAAGGATTTAGAGATTTTGCAATTTCTTTAGCAAATGATGCAGAAAATCAAGAAATTAATGTTGCAAAAAATGATGAAAATGTTGTTGCAGGTTATATTAATATAATTAAACAAAATTATGCGCTTATTGAAAAGAGATCTATTTTTGATACATTAAATGTAATTAAAAATGCAAACAGAATATTTTTTTGTTATTGAGAAAATCTTTTAGCAGGTCCTACTCAAGAATTATCAAATTTTTTCTATAAAAATAGTTATAATACATTTTTATTAGATAGTGATCAAGAAACTTTAAGACAAAGAATCAAATCTTCAAAAGAAAATGATGTTTTTATTTTCTTTACAAGATATGGAAATTCTACAAGATTAGATAATTTTATAGAAATAATTGGAAAATTAAATAGAAAAATAATTTATATTTCTGGTAAAATTGCAAATCCTGATGTCACAAAATATTTATCTTCAATTCATACACTAATTGTTGATAATCCAGATCAAACAATATATAAAGGTTATATTTCACATTCAGTTCCTTTTAATTATTTTAATGATTTATTAATTTATCATTATTTAAATTCAAATATATAGATAATGGCCTTAGATAATAAAATAATTAAACTATCTCCTTTTTTTTCTAAAAAAATTTGAGGAGGAAATAAATTAAAAGAACTTGGTTTTAATATACCATCAGATGACATAGGAGAAGCATGAGTTATTTCAGCACATGAAAATGGAATGTCCTTTTTGAAATCAAATAAAAATATTTCTTTTAAAAATTTTTTTGAGGAAAATAGAAGCTTGTTTGGAAATATAAAAGGTGATTTTCCTTTACTTTCTAAGATAATAACAGCTAATGATTTTTTATCAGTTCAAGTTCATCCAAATGATGATTATGCTATTAAAAAACATAATTCTTTTGGTAAACCAGAAAGTTGATATATTATTGATTGCCCAGAAAATGCTAAGTTAATTTATGGACATAATGCAAATAATTTAAATGAATTTGAAACTTTAATTAAAGATAAAAATTGAAATTCTTTATTAAAAGAAATATCTGTAAAAAAGGGAGACTTTTTATATGTTGAACCAGGAAAAATTCATGCAATAACTCCTGGTGTAATTATTTATGAGTTGCAAAGATCAAGTGATATAACTTATAGATTATATGATTATGATAGGGTTGATAATGAAGGAAATGCTCGTGAATTACATATTAAAGAAATAATTGACAATATTTCAATTCCTGATTCAAAAGATATTATAATTAAAGCTAATAAAAATTTAAAATTTAATTGTGATTTCTTTTCAATTGAAAAAATTAAAGTTTCTCAATTTTTGGAATGAAAAAAACCAGAAAATTTGACATGGTACCAATTTACAGTTTTATCAGGAAATGGTATAATTAATAAAATTGATTTTAAAACAGGCGATTCAGTTTTTTGTGTTGATAAATTAGAATCTTTAAAAATTGAGGGTAATTTGGAAATATTAATCTCATGAATTGAGAGTTGTTGTTATGAAGAGAAAAAATAAAAAAACATTTTTTGCAAAAATAAACAAAGGATTAATACATTTTTATAATAGTTTGGAATTTCCTTTTTCTCCATCAAGAAAGATAATAAGAAAACAAAAAGCTAATTTAAAAAATAATTCAAATAATTACTGAGTAAAGGATCTTTTAAGAACTAATCAAATAATGAAAAAATTTTATAAGAGATCTGAATTGATAGTGAATAATTTTGAACAAATATATGCATTTACTTTTAAATCTAGAGATGGCTTAAATTTAAGTGGATTTACTTATGAAGTAAATCCAAATTCTAATAAGTGAGTAATAGCTTGTCATTGATTTTCGGGACATAAAAATTGAGCTTTACATCACAGTATTATTTTTACAAAAATGGGATATAATGTAATGGTTTTTGACTTTAGAGGTCATGGCTATTCTGATAATTTTTCAACAACTTTGGGAATGAAAGAAGAAAATGATTTAATGGGTGCGGTTGACTGATTAAAAGAAAATAGAAAAATAGATTCATTAGCACTTATGGGAACAAGCATGGGAGGCTTTGTTGTAAATTTTGCTTCTTTAAGATATGCAAAAGAATTTGAAAAATTAAACTTAAAATTTATTATTTCAGACTCTACATATGTTAGTGTATATAGTTTAATTTTGCATACTAAAAACATTTACTTAAAATTTTTGTCAAAAAAAAGGATAAAACAAATAGCAAATAAAGTTATTGATAAAAATAATAAATATGAAGACGCTTTTGATTTTTATGATGTCAATATTTTGAAAACTATTGATAAAATGAAAAATCCTGTATTTTTTCCAACACTTTTTTTTCATTCAATTGATGATAAAGTAACTGCTGTATCAGATACTTATGAATTAATAATTAAAAGAAAATTTCAAGAAGATGATCATTTAATATTTAATTATTGTATGCATACTCAATGTATGAGAATACATTTTAAAATCATGAATTATAAAATTGCTGAATTTATTTTAAAATTTAATAAAGATAAAACATTATTTGATAAAGTAGTTAGTGATTGAGAGCTTTTAGTTTTTGATAAAAAAGATATAAATTCAATAAAGTTAAAATAAAAAAATATTAAATTTAATATTTTTTTATTTTAAAAACATTTTATTATTATAAAATAAATTGCTTTTTTTTAAAAATTTTAGATAATATTTCCGAAAAGGAAATAAAATTTTGAAAAATCTATTCAAAGAAGAAACTGTCTTTTTAGATATTGATTTAAAAACAAAAGATGAAGTTTTAGCATTTATTTAAAGAAAAGCTTTTGAATTAGATATTGTTTTAAATGAAGAAGATTTATTTAAAGGTTTTTTAAAAAGAGAAGAAGAAATTTCAACAGCTTTTGAAGATGAATTTGCTATTCCAAATGCAAAATTGAATTCAATTAAAGAACCTTCAATTATTTGTATAAGAACTAAAAAAGCAATTGAATGAAATTCATTGGATGGTCTTCCCACCAGTGTGATTATAGCTTTAATTATTCCAAATAATGCGGTAGCTCAACATTTAGAAATTTTGAGTAAAACTGCTGTCAAGTTAATGAATGATGAATTAAGAAATAAATTAAAAATTGCAAAAACACCAAAAAAATTTGTTGATTTATTAAGTTATAAAAAAGAAGAAATTAATTTAAAAATTAACTTAAACGAAAACAAATTAAAAATTATCGCTGTAACCTCATGTGTAGTAGGGGTAGCCCACACTTATATGGCAGAAGACAAATTATTAAGAGAACTTTCAAAAAAAGGTCATAATATTAGAGTTGAAACTCAGGGTTCAAAAGGAGTTGGAACAGAACTTACTCAACAAGAAATTAAAGAAGCTGATATAGTAATAATTATTGCAGCTGATACAAAAGTTGATTTAAGTCGTTTTAGTGGAAAAAGATTATATTCAACTAATGTTGCAAGAACCATTAAGGAACCTTTAAAATTACTTGAAGATGCTTTAAAAAAAGGCACAATTCAAGAAAAAATTGATTTTACAAATTCTAGAGGAACTTCAAAAACAAAACAAGGAACATTGCAACATATTTTAGCTGGAATTTTATATATGATTTCAATAATAATATTGGGAGGTATTTGTTTAGCATTTTCTTTGGGAATAGCAAAAGCAATTTGAGGACCTGAGGCTGGAACAAAGGGTCCAAATATAGGGACAACTGAAAACCCTATTTATCAGTATCCATGGAATCCTTTGGCAATTTTAGAAATGATTGGTGGTGCATCATTTACATTGATGATTCCAATTCTTTCTGGTTTTATTGGTAATTCCATTGCAGGAAGAGCAGCATTAACTCCAGCAATGCTTGGTGGCTTTATTGGAAATAGTGCATCAAATTTTATGCCAATGCCAGGAATGGAAAATGTACAAACTCCAATGGGATTTATTGGTGCAATTTTAACAGGATTACTTGTAGGATATTATGTTAGATGAGTAAATACTTGAAATATTCCAAAAACACTTCAAGCAGCAATGCCAATATTTTTTATACCATTAACAGCAGGAATAGGAATTTGTATACTATTTATGTATGTTATTGGAGGACCATTGGTTATGTTATGGGAAAATTTTCAAATTTTATTGAAAATTCATACACTAATCCAAATTTTGAAGTAGGAATAGCATTGATTTTAGGAATTTTAATTTGTGCAATGGCATCATTTGACATGGGTGGACCAATTAATAAAATAGCATTTGTAACTTGTTCTGCATTAATAACCCAAAAAATTTATTATCCAATGGGAACAATGGCAGCAGCAATTCCAGTTGCTCCTTTAGGAATGGGAATTAGTGCATTAGTTTTTAAAAGATTTTTTAGTCAAGAAGAAAGAGGAATGGGAACTGCTGCAATTATTATGGGTACAATTGGAATCTCAGAAGGAGCTATACCATTTGCAATTCGAGATCCAAAAAAAGCAATTATATGTAATGTGCTTGGTGGAATGGTTGCAGGAGCAATTGCAGGAGCATTTAAAATAGAAGATTTTGCAGCACATGGGGGACCCTATTGTTGCATTTTTAGGAGCCGTTCCTTATGGTTCTCAAATTGCAATTTATTTCATTTCGGTGGGTGTAGGAGTTGCTTTAACAGTATTTTCATATGGTTTACTTTTAATAGCAAGTCAAGGAAAAATAGGCTTTGTAAAAGAAGCACACCTAAAAAATATAGAAAAAATTAATAATAATTGAGCTGAAAAAATTACAGAATTAAAAAATGAAATTTCATTAAAAAAAGATAAGTTAAAATTATCAAAAATTGATAATGAAAAACAAAAGATTTATGAGGAAATTCAAAAATTAAAAAATGAAATTAATGACTATAAAAAAAATAGAAGGCAAGAAATTAATAAAGCAAAGTTAGTATTAAATTCTTTAAAAAATGAGGAATCTAAGTTTGTAAAAACTCAAAAACAAAATTTGATGGAGTTTAAAAAAAATGAACTAAAATTAAAAAATGAGTTAATTCAAAATTTAGTGAAACAAAAAACTGAAAAAATATCAAATTTAGATAAATATCAGAAAAAAGAATATTTATCTAAATTTAAAAATAATATTGAAAAAATTAAGGAAAAATATAATAGTAATATAATTAATAAAAATATTTCCTTAAGAAAAGAGTTTGTAAATAGTTATAATAATAAATTTTAAATATTTAAAAAATAGGTTTTACTTATTTTTTTTATTTTAGAATATATAATATATTTATATAAAAGGAGAAAATTAAAATGAAAGATATAAAAGAAATCTTTGAGTCGTATTTAAAATTAGTTGAAAATCAAATTACTTTTATTGGAAGGGTTAGAAGTCATAGGCAAAGTAAAGTGGTTTCTTTTTTAGTTTTAAATGATGGAACAACAATTAATGATATTCAAGTTGTTTATAAAAACGATATAGAAAATTATGATTTAGTATCACAAGGTAGAGTAAGTTCAATTTTTGAAGTTACTGGAAATTTAATTTTAACTTCTGGTAAGCCTCAACCTTTTGAAATTCAAGCAACAAAAATTAATTTATTAGATCAGTCTATTGAAGAATACCCTTTGCAGAAAAAAGAACATTCACAAGAATTTTTACGTGAAATTGCTCATTTACGTGCAAGAACAAAAACTTTTCAAGCAATCTTTAAAATAAGATCTTCTGCAGCTTTTGCAATTCATAAATTTTTTCAAGAAAAAAATTTTGTTTATGTCAACTCTCCAATAATTACTGAAAATGATGCTGAAGGTGCAGGTGAAGCTTTTGTTGTAACAACAAGAACTGATGGAAAATATAGTCAAGATTTTTTTGGGAAAAAAGCAGCTTTAACTGTATCAGGTCAATTGAATGCTGAAGCATATGCGCAAGCTTTTAAAAATGTTTATACTTTTGGACCTACATTTAGAGCAGAAAATTCTTATACTTCAAAACACGCTGCAGAATTTTGAATGATTGAACCAGAAATGGCCTTTGTTGATTTATCTATTAACTTAGAAGTTATTGAAGAATTAATAAAATATATTGTAAATTATTTATTTGATAATAATATTGATGAGCTAAAATTCTGTAATGATAATTTGGAAGCAGGCTTGATTGAAAAATTAAATATTCTAAGAAACTCAAACTTTGCAGTAAATTCTTATGAACAAGTAATAGAAATCTTGAAGGATGCAGTTAAAAATGGTTATGTATTTGAAGAAAATAATATTGAATTTGGCTTAGATTTAGGAACAGAACATGAGAGATATATTTGTGAAGTTGTAAATAAAAAGCCTACTTTTGTTACTAATTATCCAAAGGAAATAAAAGCATTTTATATGAAGCAAAATAGTGATAATAGAACAGTTGCAGCAGCAGATTTATTAGTTCCAGGAATTGGTGAATTAGTTGGTGGAAGTCAAAGAGAAGATAACTATGAAAAGTTAATAAAAAGATCAGAGGAAATGGGCATGAATCCAAAAGATTTATGATGATATAATGATTTAAGAAAATATGGTTATTATAAGTCTTCTGGATTTGGTTTAGGTTTTGAAAGATTAATCATGTATGTAACAGGAGCAAGTAATATAAGAGATGTAATTCCTTTTCCAAGAACTCCAAAAAATTTATTTTTTTAATAAAAAAATAAATGGAAAATTTACTATTTTTTTTATTTCAAATTAGATAATATTATTTCTTTTTAAAATATTAAATTTATGCTATTTTTTTTGGTGTAAAATTATACTAGTCAGGAGGGAATAGTATGCTAATTTCATTTGTATTGGTTTATCAAGAGTTTGGGAATAAAGTTAAAGAGACAATAGATAGCATAAAAAAACAGACAGATAATGATTATGAAATTATTTTAGTTTGTGACAGAACTATTGAAGATAATTCAAAAGATGAATGATTAAAAGAATTATTTTGAAATAATTCAAACATAAAATTAGTTTTTAATAATTCAATTCAAGGGGCCTCAGTTTCTTGAAATACAGGCATTGATTTAGCTGAGGGAGAATATATTAAATTTATTGCTCAAGGTAATATACTAAATCCTGACTTCGTTGAAACTATTAAAAAGGAATTAAATAATTTTAAAGAAAGAGAAATTGATTTAGTTGAATATACAGTTAACTTAACAGGAAGTGTTCATATTGATACTTTAACATATTTAGAAAAAGGAAAAATTTATAATTTATCTTCTGAATTTGATCCATTTGCTTATGTAAATGTTGTACTATACAATAAATTATTTAAGGCTAAAATTTTAAATGAGTTTGGTTTTAAATTTAGAAGATTTGTTAGATTTGATTTATTATTTGTATACAAAGTTTTAGGGCAAACAAATTCATACTTATTTTTAGATACAAAGCCACTCGGTACTGTTAATATTGGACCAGTTTCATATTCAGTTTTTGATGTTGTAAATCAATGAAATCATATATTAAACTATTATAGAAGAATTGGAAAATTTAAACAGTTAAAAGATTATTTAAATTATTCTTATTATAAGGTTTTGATTCATTTGTGATTATGAGAAATTAGAACATATGATAATAAAATATTAATTAAAAAGGCAACAGCTTTTGCAAATAGAAAATTTGAAGATAAAAGAGATGATTTTTTAAAAAATAATATTATTTTTAAAAAGACAAATGATGAAAGATTTAAAGAAATAGTTAATAACTTTGGTACCTATATAAAAGAAAATCTAAAGAGAGCAAAATAAATTAAGGTGACTTAAATGGTACAAAAAAATTTAAAATTAAAAAAACAAAAAAATTCTTCATATAATTTGGTTAAACCTCATTTGGGAAGAATTTTTTTTGCTAGATTATTTGATCTTATCTTATGCTCCATTCCAAATTTTATTTTATTATTTTTTTATAAAATATCTGATTGACAAAGTGCTTTAATAAATATTTCGGTAAGTCAAATTTTTATATTTTTATATTTTGTTATTATTCCATTTTTATTAAAGGGAAATACAATAGGCAAAAAATTGTTTCATTTAAAATTAGTAAACATCCAAAATCAAAAAATAAAAATTTCAAATATATTTCTAAGAGAGTTGTATTTTTTATATATTCCATTATTATTTCAATTAGTATGTCAAATAATTTCAATAATAATTTTTGCAAATTTTTCTCCAGGTAATAATAATCAAAACGAAAATGGATGAACAATTGCAAATATAATTCAGAATATAGGATATACATTTTGTGGAATTTGATTTTTGTATATTCCTTTAACAATTTATTTGCAAAAAGATAAACTTTCTTCAATAGATTTAAAATTAAAATTAAGAGTGTTTTTCTTAGAGAAAATACTTGTCAAAAATCAAAAAGTTGATATAGAAGGAAAAAAAGTAAATCATATTCATTTAGAAAATGATTTACCTGGAAATGTTAATATTAAAGAAATAGAAAAACTTATTGGTGAGAATAATGAATAATTTTTATAATACAAATCAAAAAATAAATGAACTAATTGAAAAAAAATATTTTACAGGAGCAGTTTTAAAAGTAGCAAAACATGGGGAAATTATTTTTGAAAATGAATATGGAATAAATGATGTTGATAAAAATACAAAAATGAAAGATAATTTAATTTTTAGAGCATACTCTATGACTAAACCAGTAACAGTTGTTGCAGCATTAATCTTGGTAGATAGAAAAATAATTAATATTAATGATAAAGTTTCAAAATATTTACCTGAATTTGAAAATGTTTTAGTTTTAAAAGAGCAAAACTCAAAAGAAACAGAAAATACGAAAAAAGATTTAAGGATATGAAATTTATTAACAATGACATCTGGTATAACATATGCAGGTAATAAAAATGATACACAATTACAAACTTCATTTTTATTAAAAGAATTTCACAAAAAAAATAATGGAAAATATATGAATTATGAAACTTTTATAAAACTACTTTCAAAAATTCCATTATCATTTAATCCTGGTGAAAATTGAAGATATGGTTTATCTATTGATGTACTTGCAGCAATCATTGAAAAAGTTTCTAATAAAAACTTTAGAGATTTTGTTAAAGAAGAAATTTTTGATAAATTGGAAATGAATGACAGTGATTTTTATTTAAAGGATAAAAATAGAGAAGCTTGTGTCTACAATTGGACATTAAATGAAAATGATCAAGTTGAATTAACAAAAGTAGAAAATTTTAATTTTTTTATTCAAGATTATGAAAAGGTCCCTCCCATGCCAATGGGTGGAGCAGGATTGTTTACAACTGCAAAAGATTATTTAAATTTTTTAAACTTTTTAATTGATGGTAAAGATAAAAAACAAAATCAATTATTGAGTATGAATTTAATTAGAGATATGTCTAGTAATCAACTTGGTGATTTAAAGAAAAATTTTATTTGAACTTTAAATGAGGATTATAGTTATGGATATGGTGTAAGGGTTAGAATTAAAAATAATTTATATCCAAAAACAGAGCTTGGTGAATTTGGATGAGATGGTCTTTTAGGTTCAACAGGTTTAGTTGATCCAAAAAATGGAATAACAATGTGTTTAATGTTAAGTTCAAAACCAGGTCATAATAAGTTAATTGAAAGTGAATTTTTTGAAGCGTTATATAATGACTTAAACATTTAAGGATAAACAAATTTTAAAAAGATTGGAGTACTTTTTATGAATGATTTATTAAAACAATTAAATGATGAGCAATTAGATTCAGTAATAACAACAGATGTTCCTTTAATAATTATAGCAGGAGCTGGAAGTGGAAAAACAAGAGTTATTACATATAAAATTGCATATTTAATTGAAAAATTAAATATTTTACCATATAAAATTTTAGCTGTTACTTTCACAAATAAAGCAGCTCAAGAAATGAAACAAAGAATCGGAAATATTTTACCTAACTTAGAAAGTAAACCTTTAATTTCAACTTTTCATTCTCTTTGTGTAAGAATTTTAAGAGAAGATGGAGAATATATTGGTTTAGAAAAAAATTTTACTATTATTGATTCAAGTGATCAGTTTAAAATTGTAAGACAAATAATGAAAGACTTAGGAATTGATATCGAAAAAGAAAAAGTAGAGAGAAAAATTATTTTAAAAATAAGTAAATGAAAAAATTCATTTACACCATGAGAAAATGCATTTGCTGAAACATTCAAACTTGAAGAAAAAAAATGAGCAAAAGTTTATAGAGATTATGAAGCCTTTTTATTAAAGAAAAAATTTTTAGATTTTGATGACTTAATTTTAAAGGTACATAAATTATTTTTAAAAAATTTAAATGTACAAAGAAAATGAAGAAATAAATTTGATTATGTGTTAGTTGACGAATTTCAAGATACAAATTATGCTCAATTTGATTTAATAAAAGGCTTGGTAGGTAGTAAAAATAATTTAACTGTAGTTGGTGATTCAGATCAAACAATTTATTCTTGAAGAGGAGCAAAAGTTAATATAATTTTAAATTTTAATAAAGAATTTAGAAATGCAAGAACAATTGTATTGAATGAAAATTATAGATCAACAAAATCAATTTTGGATTTGGCAAATAATTTTATTGAAAATAACAAAAATAGAGAAAAGAAAGATATTTTTACTAAAAAAGATGCAGGAGAAATGGTTTATTTAAAAGAAGCTGCTTCAAGAAATTTTGAAGCAAAATATGTAGCATTAAAAATTAAAGAATTAATAAAACAAAAAAATTATAATTATTCTGATTTTTTTGTCCTATTTAGAATGAATGCTTGATTACCAGAATTTGAAAAAGAATTTCAAAATTATAAAATTCCTTTTCAATTAATTGGTGGGTTTCAATTTAGAGAAAGAAAAATTATTAAGGATATAACAGCATTATTAAAAGTAGTAGCTTTGAAAAATGATATTGCGTTAGAAAGAGTTCTAGCTTTTACACCAAAAGTTGGAGCTGTTACAATTGATAAATTATTTAAAGCTGCTAGTGAAAATAATGTAAGTCTTTTTGATTTTTTACTATATGACCAAGAAAAAGTATTACAAATCTCAAAAAACTTAAAGGATTTAATTTTTTGTCTTTTAAAAGGAAGACAGCTATTTGAAAAAAATAGCAAAATAGTTGATATTGCACAAACATTAGTAGCAATAAGCGGATATAATGACAGATTAGATTTAAAAATAAAAGAAGATGAAGAAGCATTGCAGAATTTAAAAGCATATTATGATAAAATGGAAAAATTTGATTTTGAATATGAGACTGAAAAAAATTCAGAAAATAGATTGATTTTATTTTTACAAAATGAAGCACTTACAAATGTACAAGATGATTTAAAATCAATTAATAAAGTTGCTTTATTGACAATTCATGCAGCTAAAGGTTTAGAAAATAAAATTGTTTTTATTGTAGGTTTGAACAAAGACGTATTTCCATCAAAAATGAGCTTTAATTCAATTGATCAGTTAGAAGAAGAAAGAAGAGCTTTTTATGTTGCTATAACTAGAGCACAAGAACTATTATATATTTCTTATGTAACTGGTGGGTATTCATATATTTCAAATGGAGAACTTGGCGCCTCAAGATTTATTTCGGAATTGGATCCAAATTTATACGAAATAGAGAAAAATATATATTTTCATTCATTAACAGAAAAATCAAGTAGTTTTAAAGGAAATGGTAGTTTATTAATTAAAAAACAAGAAAAATATGAAGCAGGAGTTGTTAAAGGCGATAAGATTAATCATATGATGTTTGGGGAAGGAATAGTTGTTAAAGTTGTAGACAAATTTATTTCAGTTGCCTTTTCAAATCCAACTTATGGTGTTAAATCTTTACCAATTAAAACAAATGCATGAGAAAAAATGTAAAATTTTTTCAAAAAATTTATTTAAATTGGAAAAAATCTATTGTATATAAAAAAGATTTATATAAAATAATAATGTCAAGGAGGAATAAGAATATGACTTCATTTACAGCAAAAGTAATTGATCCTGTAGGTTTACATGCAAGACCAGCTTCAGTTTTGACAAAAGAAGCTTCAAAGTTTGCTTCAGAAATAAAAATTAAATCTGGAGAAAAAGAAGGAAATTTAAAATCAATTATGAACGTTATGGCTTTAGCAGTTAAATCTGGTGCTGAAATTACAATTGAAGCATCAGGAGATGATGAAAAAGAAGCGATTGCAGCAATTGAACAAGCAATGAAAGATAATTCAATTATATAGTTGCTAAAATAAAAAAACCCATTTTGGGTTTTTTATTTTTAATAATTTTTTTCACTTTTAATGTATTGACTTTTATTTTAAAATGAATTAAATTAAAAAAACAACTATGTTGTTTAAAGGAGAGAAAAAAATGGGCTATAAAAAGGAACAAATTAATAATTTGAATAATAATATTAAAAAATATTTTAATCATTTATATGAAATAGAAGATACAGATAAAATGTTTTTTGATGGTGTCTCAAGAATGGTAATGCTAGATAGATATTCACAAAAAGATAAAAATTTAATTTCACTGCAAATTGGAGATTTAATAATAACTACTGTAAAAGCTGATTCTGTTTTTCCCAGTAGGGCAATTGGATATGTTAAAGAAATAAGAGAAAATAATAATTATCTTATTGAAATTGAAGAAAACTACATTAATTCAATTGACCATGAATTATTAAAGCAGACTAATTCAGAAAATTTAATTATAAAACAAAAATATGAATTAGAAAAACCATTAGAATTATTTTTTGAACAAATTGCAAAAAGAGTTGGTCATAATTTGGCAAAAGTAGAAAAAGAAGAGTTAAGAGAAGAAATAGGGCATAAATTTGCAAAAGAGTTAGAGAATTAAATATAATTCCAGCAGGTAGAGTTTTATATTGAGCAGGTAGTGGAAGTGAAGTTACTTATTTTAATTGCTATGTTATGCCTTTTATTAAAGATGATAGAATGGGAATTTCAAGTCATAGATCTCAAGTAACAGAAATTATGTCAAGAGGAGGAGGAGTTGGAACAAATGGTTCTACTTTGAGACCAAAAGGAGCTCCTGCAAAATCAGTTGGGGGAAGATCTAGTGAAGCAGTTTCTTGATTGAATGATCTATCGCTTTTAACTCACTTAATTGAACAAGGAGGTTCAAGAAGAGAGGCTCAGATGATTATGCTTGCCGATTGACATCCTGATATTATTGAATTTGTTGTTTCAAAAATGCAAAACTCAAGTATATTACTTTGATTAAGAAATAATTCACCAAGTGAATTAATTCGTCAAGAAGCAAATAATAAATTACGATTTGAATACTTAAATGATTTTGAATTAAAAATGTATGAATCAATTGTAAAAAATAAAGATAATGTTGATAAAGAAGTTTTAGATGAAACTCAAGAAAAATTAAAAATTGGTGGAAGGTGAGTTGTTTCAAATCCAGAATTTATTACAGGTGCAAATATTTCGGTTACAATTTCACATAAATTTATGAAGGCAGTTGAAGAAAACCTTGATTGAGAATTAAAATACCCAGATTTAGAAATTCTTACAAAAGAGCAAAAATATTTTTATGACAATAAATGATCTGAAATTGGAGATATTTTTGAATGAGAAAAACTTGGATATCCTTTAAAAAATATAAGAAAATTAGGGCAAAAGATTTGGGAGATTTAATTAATTTTTGTGCAACTTATTTAGCAGAACCTGGAATTTTCTTTTTAGACGCGGCAAACGATATGAAAAATGCAAAAAGTTATGGGCAAAAAATTGTTGCTACAAATCCATGTGGAGAACAACCACTTGCACCATATTCGGTATGTAATTTATCTGCAATAAATTTGTCAAATTTTGTTAATAAGGATACAAAAGAAATTCTTTATGACAAATTAAAAAATACAGTGGAGGTCTGTGTAAGAATGCAAGATAATGTAATTGATTCAACTCCTTATTTTTTAGAAGAAAATAAAAAACCAGCTCTTGGAGAAAGAAGAGTTGGTTTAGGTGTTATGGGATTACATGATTTATTAATTTGAGCTGGTATAAAGTATGGTTCAAAAGAAGGAAATAAAATAGTCAATAAAGTATTTGAAACAATAACAGTAACAGCTTATAAAACTTCAATAGAATTAGCAAAAAAAAAGGATCTTTTCCTTTTTTAGAAGATAGAAGTAAATTTATTCAATCAGGTTTTATGAAAAAAATGTCAAAAGAAATTCAAGATTGTATTATTAAATTTGGATTAAGAAACTCACACTTAATAACAGTAGCTCCAACAGGTTCAACAGGAACTATGGTTGGTTGTTCAACAGGGTTGGAACCATATTTTGCTTTTAGTTATTTTAGAAGTGGAAGACTTGGAAAATTTATGGAAGTAAAAGCAAAAATTGTTGAAGATTGATTGTTACTAAATCCTACTTTTAAAGATAAACCTCTTTCAGAATATTTTGTAAGTGCAATGCAATTATCTCTTGAAGATCATGCAGATGTTCAATGTATAATTCAAAGGTGAGTTGATTCTTCAATTTCAAAAACTGTTAATGCTCCAAAAGGATATAAAGTTGAACAAGTAGAAAAAATATACATGAGACTATATAAGGGCGGTGCCAAAGGATGGACTGTTTATGTTGATGGAAGTAGAGATTCTCAAGTTCTTTCTCTTGAATCGACAGATACAGAAGAAGTTATAGAAGAAAAATTATTACCAATTAATGAGCAAGATATTCCAAAAAAAATTACAAAGGAGCAAAAAATAGGAAATGATGTTGGTTATTTGTGCCCTATGTGTACAATTGGAACTTTAATTGAATCAGCAGGTTGTATAACTTATGCTAATTGTGGAGCACAATTGAAATGTGGTTTATAAGAATTAGAATTTAATCCAATTCTTTTTAATTTTAAAAATCTTTTTTATAATTTTTATAGATATAATGAAATTGAAATTTAAACACACACTATAAGGGAATTTGGTTAAAAGCCAAAACTGTAACAGCAGCTGTAATGGGAATTAAATATTATATAATCATTGGAATTAATTTTCTGAGAAGGATATATTTAAGATGAACCAAAGTTAGGATACCTTATTTTTATGTAATATTTTATTATTCTTTTACTGGCTATGAAAGAAAATATTTATTTAAAATAAATGTTAATTAGACACGATTGTAAAAAATCGTGTTTTTATTTCACTATTATTTATTAATTGGAGAAAACGATATGAAAAAAATATTATCATTATTAAATAGTTTTAGTTTGGCAATTTCAACTTTTGTATTTTTATGCACAAATATAATTTCTTGTTCAATTCCTAAAGTGGCAGATTAGGATTTTATTGATTATAGTTATATTAAAGATACTCAAAAAAATTTAGAAAAAATCTTTTTTAAATGAAATAATATTAAAAATAATTATATAAAATCTTATATGGTAAATAATTCTATAATAAAAGTTGATCAGCAAAAATTTGAAAATAATGAAATATTTATTCAAGATATTAATAAAAAAGTTATTGATATTTTTTCTTCTAATTTAAGAATGTGAAAACTGATTGAAAATAATTTAACTTTAAATCCAGAAGATTTAAAGTTAGACTTACAAAAAATAGATTCAGTTGCAACTACATCAAATCAATATATGTTTAAATATTTTTCATTAAAATTAAGTTTTAAGGATGATGAAATAAATTTTTTTAATATAGTAGGAAAAATTTATAATTATAATTTTGTTCCTATTGAAATATTAAATAAAGATACTTTTATAGAATTAAATAAAAATATTGAAAAAGCACAAAATAAATTTATTTCACAAGAAGCATTTATAACAATTGCATTTAATGGAAATGAAAAACAAAATATAATTTGTACTAAGGAAAATATTGGCTCACAAATTGGTGAAGAAGGTTGTGACTGAGATGGAGAGCAATGAGTTTCTATCAACGAGTTAAAAAAAGATAATTTGGTTTTTTGTCAGTTAGACTAAGAAGCATTGGATTGCTTCCTATAAATAGAAAATTAAAAATTGAAGATATCGAAATTGATGTTTATTCTGGAATAAATAGTTGAAACACAGAAAGTAAACCTTATATAGATGAAAATGATTTAAATAAAATAATCTTTAAAAAACAAAATAATTTTGGTCCACATTCTATTTTATTTAAAACTAATATAAGATACTCAAAAGATAGTAATGAAAAAATTGAAATATGAGGATCATATTTAAAAAAAATTAATTATTAGAGGAATTTGTTTATGAAAAAATATAAAATTGCAGTAAATATTTTAACTATTTTTTTAGTTTTCTTTATTATTTTATCTTCAATCTTTATTTATAAATTTTTTACTTTTAAAAATGATGTTGTAAATAGTGAAAATAATAGTTTTTTAAAAGTAAAAGTATTTAATCAGGATGAAATAATTTTGGAAGAAAGAAAAGAAAATGTTATTGGTTTAAGTTTATTAAATGTTTTAAAAAATGATTCAAGATTTGTTTTTAGTGCTCAAAATTTTTTAAAAAAAATTTTGGAAATTGAAAATGCAAATAATTTTTTTTGAATGATCTATTCTGCGACTCATAATTCATGTAAAGATGAAATTAATTTTTCATCTAATGTTGGAGCAGCGGATTTATATTTAGCAAGGGAAAATGATTTTGTTTTTAAATTCGAAAAATTTTAGTTCTAATTTTAGAGCTACTTTCAATATAACTGTTTTAGCTTTATATTTGGTATTAGTTTTTATTTCTCAAATAGTTTTATTTTTTGTTCCAAATGTTGAACTAGTAACTTTATTAATTGCATATTCAGTTGTTATTTTTAAATTTGGATTTTCATTATCAATTAGTCTAATTTTTTGTTTTTTATAAGGATTATATTATGGTTTTGGAGATTGAATAATAACTTACTTTATTATTTGACCCTTACTTGTTAATGTTATTTTTATTTTTAAAAAAGCAAAAATATTAAATTGTTTTACATTTATTTTTATTTGTACTTTATTTGGCTTTTCTTTTGGAGCAATTGATTCCTTATATAATAAATTTATTTTTTATACATATTGAATTAAGGGTCTTATTTTTGATTTGATTCATGGTTGTTCAAATTTCTTAATTGCATTTTTTTGTTATAAACCCTTGATAAATATTTGAAATTTAACTTTAAAGAAATATTTTTAAAATGAAAATTATTTTGGAACTAAAAAATATTTCAAAGAAAATTAATGGAAAAAAAATTTTGGATAATAGTTCATTCAAAGTAAATCAAGGAGCAATAGTTGGGTTTTTAGGTAATAATGGTTCTGGAAAAACGATGTTGATGAAATTAATTTTTGGCGAAATAAAAAAAGATTTTGGCGAAATATTATATTTTGGTAATAGTATTTTCTTAAATAATTTTTTGCAAGAAATTAGTTTTTTTCCTGATTTAAATAATATTAATTTAAATTTTACAGTCAAAGAATATTTATTTTACATTGAAAAATTATTAAATAAAAAATGTGTAACAATTTTTTAACAACTCACTTGATTGAAGAATTAGAAGATTTAATAAATTACTTAATAGTAATTGATAATGGAAGAATAATTTATGAGAATCACTTTGATTTTAAGAAGCAAAAAATTAAAAATATATATAATAAATTAATTAATTTTAATAAAATTGATATGAATAAAATTGAATCTGCATTAAAAGAAATAAAAAATGAAAATTAACAAAAAAATATTAGTTGTAATAATGAAAATGAATTTTAAAAAGATTTCATTAATATTCCTTTTTTAATTTTATCTATTATTTTTTTTATTTTTAATACTATTTTTTTAATGGAATAATTTTGGGATTGTTAACTTTAAGAAATTTGCTTTTCGTAAAATATTCAATAGATATATTACTAATTACATTAATCAATTTATTTGTATGTTTATTTTTTTTAAAAAATAATATAATGATGGAATGCATAATATTGAAAAAAGATTTGGCGTAAAAATAAAAAATATTTTTTTAATTAGATTTTTAATTTCAAAAATATTAATCTGACAAATTATTATAATAACTTTTTTAGTTCAATTAATGGGATTTTCTTTAATGGATAATTTACCAAAAGATATATACTTAACAAAATTAATTTTGCCATTTGCTTTTTATTTTTTATATGATGTTTTTATTTTTTCAATAATTTTATTTTTAATTTTTATAATACATCAGATAATTGTAATTTTTATTCCTTTACTAATGAGTTTTTTAATAATTTTAAATCCATTAATTTTTAATTATAAATATTTTAATAATTATGAGGGAAAAGTAGAATATGAATTACTAAAAAATCAAACTATATTAACTGCAAAAATTTTTTTAGGGAAAAATTTTAATAATTTTATTAAAAAAAATTATGAATATTCATTTTTAAATAAAGAATATTTAGGCTTTAATATTTCATGAAATAATGGAATTCAACATTATTGAGATTTATATGAAAGAGCATTTTATTTTGGTGATATATTTTTTGAAGACTTTAAAAAAGAATTTTAAAAAAATTCTCCAACTATTTTTAAATTTTTTACAGATATAAATAATTCCTTATTCGAAAATGAATGAATTCAGAATTGCAATAAAGAATAAATTCCTTTTAACTATGGAAAAGAAGAAAAAAAAGATAAAAGATATTTAAAAAATATGTGTAGTATTTCAGATTTTTCAATTTATTTAAAAAATAAAAATATAAATCATGGCTTATATAATAATTTACTAATTCATATATCTAACTCATCAATTTTATTTCAATTTCTTAATGAAATGAATAGTGTTATTTCATTTGCACCTGGAACTAAAGGAGGTTTGATTTTTAAGTATGGTCATACTGATAATAAAGAAGTTACTTTAAATTCTTTAACATTAAATTATAAAACATCAATTCAGTTAGTTTTTAATTGGTACTTTTTAAATTTATTAAGATCTTCCTTAAATTTTGATACTCAACAACTAATTGCAATTAAAAAACAATCTGAAATTATGGACAAATTTAAAATTCAAAACAATTTAAATTTGTTTAATCATTTTTCCTTGCTACGAATGGGGGAAAACCATTTAAATAAAACCTTAGACGATATTTGATCAATTATTAGCAATGTTGATATTGGTGTAATAAATAATTATTTCAATATTAATTTAACAAATGAGCAGGAAAAAATTGATACTTCATTAGTAAAAAATGACTTTAGATTTAGTATTGAAAATTCAGATTTAAATGAAGATTATATTTCAAATATAAAATCAATAGTAATTTATGAAATTATGTTTTTACTTACTTTTTTATATTTTTAGGGTTTAATTATTTCGGTTATCTTTTTTATAGAAAAAATGAAATTAAAGGAGAAATTTAAATGAAAAAAAGATATTTACATATTTACTGTGGTGAGGGAAAGGGCAAAACATCCATATTAAATGGAACAGCTATAAGAGCTATTGGAGCAGGCTTAAAAGTTAAATATATTAGATTTTTAAAAAATAGGGAAACAAGTGAAAATAAGGTATTAGAAAAAATAGGTATAAAAATTGAGAATTATTATCATTTTTCTAAAAAATTTGTTTGAGAAATGAATCTAGAAGAAGTTGAATTATTTAAAAAAAGAGACATTAAAAGGGTATGAAAAATTCACAAATTTACTTCAAGATGATAATGTTGATTTAGTCTTAGCAGATGAAATTTTAGGGGCTATTGGAAATGGTTTTATTAATAAAGAAGAAATAATTCAAGTTTTATTAAATAGAAAGCAACATATAGAAGTTGCATTATCTGGAAGGTATTCTTTTAAAGAATTAAATGATATTGCAGACCTTATTTCCGAAATTACGCCCAGAAAACATTATTTTGAAAAGGGTGTAATTTCAAGAAGGGTTTAGAATTTTAATATTTAAAAAATTTCTATTTTTTTTTAAAAAAATAATAATTCTTTTTTTAATTTTTTATACCTTTTTGCGATATTTTGATATATAAACATAATAGAAATAAAAAACACAATTTAATATTTAAACAATTTAAAAGTTTTAGGGAATTTGGTTAAAAGCCAAAACTGTACCAGCAACTGTATTGGGAATTAAGTATTGTATAACCATCAGAATTAATTTTTTGAAAAGAATACATTTAAGATGAACCAAAGTCAGAATACCTAGCTTTAAATTTATATATTCTTTTACTGGCTATAAAAGAGATTATTTGAAAAATAATATTTTAGCCACGATTTTATATCGTGTTTTTATTTCACTAAATAAGTCTAAAAATAACTTGTTTTGTGTAATAATATTTAGGACCTATCTTTAATGACCCTAAATTTAATTATTTCTATACAAATTTTAAATAATAAAAAGTTAATAGTTAGACTGAAAGATTGAGGGGGTAATTATGTCTAAACAACAAAAAAATCAGTATTATAATGAATCTTATTCTCCATTAGAATATGCAATGAATAATTTTACTGGAAAAATGAGATCTGTTAATTGAAATGTAATGAATGATGAAAAAGATTTAGAAGTATGAAATAGAGTAACTCAAAATTTTTGATTACCAGAAAAAATACCAGTTTCAAATGATTTAGTATCTTGAAAAACATTAACGCCTGAATGACAAGAATTAATAACAAGAACTTTTACAGGTTTAACTTTATTAGACACAATTCAAGCAACAGTTGGAGATACAGCACAAGTGCCAAATTCATTAACAGACCATGAACAAGTAATATATACTAATTTTGCTTTTATGGTTGCAGTTCACGCAAGAAGTTATGGGACAATTTTTTCTACTTTGTGTTCAAGTCAACAAATTGAAGAAGCTCATGAGTGAGTTATCAATACAAAAAGCTTACAGGAAAGGGCTAAAGTTTTAATACCATTTTATACTGGAAATGATTCTTTAAAATCAAAAGTAGCAGCAGCATTAATGCCAGGTTTTTTACTTTATGGAGGTTTTTATTTACCATTTTATTTATCTGCACGTGGTAAGCTGCCAAATACTTCAGATATTATAAGACTAATTTTAAGGGACAAAGTTATTCATAATTACTATAGTGGTTATAAATACCAAAGAAAAATAGAGAAATTGGAACCAAAAAAACAAGAGGAAATGAAAAAATTTGTTTTTGATTTACTATTTGAGTTAATTGATTTAGAAAAAGATTATTTGAATGAGTTATATGCAGGTTTTGGATTAGCAGAAGAAGCTATTAAATTTAGCTTGTATAATGCAGGAAAATTCTTGCAAAATTTAGGTTATGATTCACCATTTACAGATGAAGAAACAAGAATAGAGCCTGAAATATTTACACAATTATCTGCAAGAGCAGATGAAAATCATGATTTCTTTTCAGGAAATGGTTCTTCTTATGTTATGGGTGTAACCGAAGAAACACAAGATGAGGATTGGGAGTTTTAATTATGCATAGTGATGTAATAAGAGTTTCAAGAGAAAAAATATTGAAACCAATGGGTGAAATAATAGTAGTTTACTTTTCTTCGCCATCAAATAATACTCATAGATTTATTCAAAAACTGGAATTTGAAAATTATAGAATTCCATGAGAAATTGATGAGGAATTAATTGTAAATAAGGAATTTGTAATTGTAACGCCAACTTACGGAGGCGGAGGATCAGACTTAACAGGTGCTGTTCCAAAACAAGTTATCAAATTTTTAAATAATTATCAAAACAGAAATTTATGTAGAGGAGTAATAGCTTCTGGAAATACTAATTTTGGCGATACTTTTGCGATTGCTGGACCAATTATTTCTAAAAAATTAAATGTGCCTTTACTTTATCAATTTGAATTATTGGGAACTGAAAATGATGTTCAAACAATAAAGGAAATCTTAGAAAACTTTTGAGAAGAAGGGGTAAAATAAAATGAATGAAAAAAATTTTTCTACTTTGTCAGGTTCAGAAGAATCAGACGAATATATAAAATTAAATGCAAGATCTAAACTATTTGTTAAAGATCAGGACAACTTTAAATTAGATATTGAAGCAGCACAACTTTATATGAAAGAACACATTGTTCCAAATACAAAAAAATTTAAAGATGTTAAGGAAAGAATTAATTATTTAGTTGAAAATCAATATTATGATGAGAAAATAGTTAATCAATATAATATAAATGAAATTGAAGAAATTACCAAAATTGCTTATGACTATAATTTCAAATTTCCAAGTTTTATGGGAGCATTAAAGTTTTTTAATGCATATGCATTAAAAAGTTTTGATGGCAAACAATACTTGGAAAATTATGAGGATAGAGTTATTATGAATGCTTTATTTTTAGCAGGAGGAAATTTTTTAAAAGCTAAAAAAATTATGAAGCAAATAATTACTGGAAGATTTCAACCAGCAACACCAACTTTTTTAAATGCGGGAAAAAAACAAAGAGGAGAATATGTTTCATGTTATTTACTTAGAGTAGAAGACAATATGGAATCAATTGGTAGAGCAGTTACAACTTCACTTCAATTATCAAAACGAGGTGGTGGAGTTGCTTTATGTTTAACAAATATTCGTGAATTTGGAGCACCTATAAAAAATATTGAAAATCAAGCTACTGGAATTGTTCCAATAATGAAAATTTTAGAAGACTCATTTTCATATGCAAATCAGTTAGGGCAAAGACAAGGAGCTGGTGCTGTTTATTTACATGCACATCATCCGCAAATTCTTGATTTTTTAGATACAAAACGTGAAAACGCTGATGAAAAAATAAGAATAAAATCATTGTCACTTGGAATTGTTATTCCAGATATTACTTTTGAATTAGCAAAAAATAATGAACAAATGGCTTTATTTAGTCCATATGATGTTGAAAAAGAGTATAAAAAAGCTTTTTCAGATATATCAGTAACTGAGGAATATCAAAATCTTTTAAATAATCCTAAAATTAAAAAAACTTTTATTGATGCAAGAAAATTATTTCAAGCAATAGCAGAATTACATTTTGAGAGTGGATATCCATATTTATTATTTGATGATACAGTAAATAATAGAAATGCACATCCTGGAAGAATTGTTATGAGTAATTTATGTAGTGAAATTGTTCAAGTTTCAACACAAAGTGAATTTTCATCAGATTTAAGTTTTAAAAAAATTGGTGAGGATATTTGTTGTAATTTAGGAAGTATTAATATTGCAAAAGCAATGGAAAGTGGAACAGAATTTGAAGAATTGATTTATAATTCAATTCTTGCATTAGATCATGTTTCAAGAAATAGTGATTTGTCAAGTGCCCCATCTATTGAACAAGGAAATAAAAAAAATCATGCAGTTGGTTTAGGTGCTATGAATTTACATGGATTTTTAGCAACAAATTTCATTTATTATAATTCAAGTGATGCTATAGACTTTACAAATATGTTTTTTTATACAATGGCATATTATTGCTTTAAAGCTTCAAATAAATTAGCAAAAGAATTTAGTCCTTTTGAAGGATTTAGCAAAACTAAATTTGCTGATGGAAAATATTTTGAAAAATATACAAAATGTGAAGAAAATAAATGAACACCAGAATCAAAGACAGTTTCTGAGTTATTTAAAAAATTTAATGTCGAGATACCATCACAAAAAGATTGAATTGAATTAGTTGAAGAAATTAAAAAAACTGGAATTGCTAATTCACACTTAATGGCAGTTGCTCCAACAGGGTCAATTAGTTATTTATCTTCATGTACACCAAGTTTGCAACCAGTTGTTGCTCCAGTTGAAGTAAGAAAGGAAGGAATGCTTGGTCGTGTTTATGTGCCAGCTTATAATATAAATTTTGATAATATGGGATATTATTCACTTGGAGCATATGAAGTTGGACCAGATCCAATAATTGATATTGCTGCAGCTGCACAACAACATGTAGATCAGGCTATTTCATTAACTTTATTTATGACAGACCAAGTCACAACTCGTGATTTAAATAAAGCTTATATAAGAGCTTTTAAAAAAGGTTGTGCTTCAATTTATTATGTAAGGGTGAGACAAGAAGTTCTTGAAGATAGTGAAAATTATGAATGTGATGCATGTGTAATTTAATAAAAAATAAATGCTTTTGCATTTATTTTTTATTTATAAAAATTTTTTTATCTTAATAAAACTTTATAAAGATTTTATTAAGATAAAATATTATTATGGAGGAAAAAAATGATTGAAATAAAAAATATTTCCAGAAAACTTGGAAATTTTAGTTTAAGTAATGTTACTTTTACAATAAATGATGGTGCAGTAGTAGCATTTGTTGGTGACAATGGTGCTGGAAAAACAACAACAATTAAGGCATTATTTGGTGAATTAAAATTAGATAGCGGAGAAATTTTAATTAATGGTCAAAATCTTTTTTTAAATAATAATTTAAAGAGAATTGCTTTTTTTCCAGATTCTAATAATATTCCACTTAATATAAAAGTTCACGATTATTTAGTTTATATATGTGCTGCAAATGGATTTTCAAAAGAAGAAACAGAATTAAATGTTGATAATGCTTATAGATTATTAGAATTAAGACCCTATAAGGATAAAAAAATAAAAGAACTTTCTTCTGGATGAAAGAAAAAAGCAATTATGGCAAGTGTTTTAGTAAGAGCTCCAGAATATATTATTTTTGATGAACCAACAGCAAATGTTGATGTAGAATCAAAACTTTATTTTATGGATATCATTAAATTATTATCAAAGGCGGGTATAACAATTTTAATAACAAGTCATATTATTGAAGAGTTGCAAGAAATTGCAAATTATTTAGTTTTAATTAAAAAGGGTGAAATTGTACACGCACAAAATTTTGATAATAAAAAAAATCATATAATGGATATTTATAAACAACATATGAAAAATCCAATTAAAGATTTACAAATTTTAAGATGGTTATATGGAAATGGAGAAAATAATTAATGGAAGTATCTCTTAATTTAAAAGATAAATCAAAAGATAAATCAAAAGGTAATAAAAAAGAATTAAGAAATTATTTTGTTCTTTATGGAATAAATTTAAATTTAACTTTTAAAAATGTTGGTGTTGTATTAAGTGGGTTGCTCTTTTTATTAATGGCAATTATATTTTTTTCATTGGAAACTTTTTCGGCAGTTAAACAAAATAATTTAAAAAATTATTCACTATATAAAAATCTTAGTTATATTTTTTTAAGTGGAACCATTATTTTTCAAGTTTTATTAACTTCTTTATATTTATTTAAAAGACAATTTAAAAATGGTATAACCGCTATTGAATTAAGAGCTGGTTATAAAGCTTGAAAATCTTTTACAATTAGAATATTAATTGAATTAACTGTATTATGAGTTTATGTAACAATTGCATTAGTTATTGTGGTGTTTTTAAATTTAATTTCTGGTGCAAATATGGAAATTTTTGCCAGTTTACTTTATGCGCAAATTTTTTATTTATATTTTCTGTCTTTAATTTCTATTTTAATAATTTCTGCTTTAATGATATTTTTTTCTACAGCAATATCAACTAGTTTAGGAATGGTTTTTATATGTTTAGTTTCACTTAGTCCGGTTTTTGGGTCTTTAAAATATATTATTTCATCTTCTGGTCAAACAAATTATTTAGCAAATATAAAATTAAAAGCAGGGTATGATTTTTATAATAATTTTAAATATGACCAAAATTTATTTGATGATAATGCAGAAAAAAGTGAAACTGATTTATATGAAAAATCAAAGACGTTATCAAATATAAGTGAAAATATTGAAAAAATAATTAATCCATTGGTAGATACAGGAGAATTTAATTTTTCAAATTTCTTTTCTTATTTTGACAACAAATCTTATTTATCAAAAGTACCATTACATTTAGATTCTTATGATATTGGAAATGAAACACTTAATTTAGTTAGAATTCAAAATATATTAACAAAAAATTTAACAGCTGGACAAATATTATACAATTACAATTTATATAATCATTCTTCAAACGATCCAATTTATATTTTTGAAGGTAATCCAATTTGAGATTTTTTATATAAAATAAATAATGAAATTTTTGAAAATATGAATAATTATAGCAGTTATAATGAAACTAAATTACCCGATATTTTTTCATATACTAATTATTCAAATCAAAATAAATTAAGAGAATTTTTAAATATTAAAGAAATTATTGAGCAATTAAGTGCAAAAATTCCTGAGTATAAGGATTTATTAAAGTACATTGAAAACTTTTATAAAGAATATTCATTAATATTAGCTTCATCTACAAGAAATAATAATTTTTATAATTCAGCATGATCTTTAAATTCATTATTAGACATTTTTTCATTGCAATTAGATAGTAATAATTCTAGATATTTTAATTGAAAAGATAGTTTTTTTAGAAATAATTATTATATTGATGACTATATGTGTGAAAAAATTATTGTGAATGAAAATGGTGAAAAGATAGTTGAAAATATTTGTAATGAAGAAGTTATTGATAAAAACGATAAAATTTCTAAAATGTATAGAAAATTTCCAGAACTAGCAATTATTAATGTACTTGCAATTAATCTTTGAAAAGAAGCTATGGTATTTGATATTCCAAATTTCAATATAGTAAATAACGTAAATGATATAAATGAAGGTTTATATAATTACTTTAATGAGGGTGAAACATCAAATACATTAACAACTGATATTTTCAGACATTTTAGTGTTATGTCTTCGGGTGTATTTACATCTCCTTTAATTAATGATAGTTATAATTCACAAAGTTCATTAATTTTTCAAGGACAAACCATTAAAATTAAAAATATTTTCAATTTTGAAAATCAAGCACCAATTAATAAAAAAGAATTTCAAGCACTAGAACCAGTATATAAGGATAAAAAATTTGAATATAAAAATGCATTTATTATTCCACTTGCATATTTTATATATTTATTATTAGTAAGTCCTTTAAGTTATTTATCATATTTTACTTTTAATAGAAAGTCTAAATTGTAGGAGGTTTACAAAATGATTGAATTAAAAAAAATTACACGTGATCTTGGAGGTTTTGTTTTAAATCAAGTTAGTTTTAAAATTAAAAAGGGATCAGTTGTAGCATTTGTGGGTGATAATGGTGCTGGTAAAACAACAACAATTAAGGCATTATTTGGAGAATTAAGATTGGAACAAGGTAAAATTTTAATTGAGGGTGAAAGTTTATTTGAAAATGAAAATCTAAAGAGAATTGCTTTTTTTCCAGATTCAAACAATGTTCCTTTAAATATGAAATTAAAAGATTATGTTTCATATTTATGTGCAGTTAATGGTATGTCAAAACAAGAAGCAAAAGCTAAATCAGAAGCTGTTTTTAAAATGCTGGGTTTAGAAAAATATATTAATAAAAAGATGAAAAGTTTAAGTGCTGGTTGAAAAAAAAGAGCAATTATGGCAAGTGTTTTGGTAAGATCACCAGAATATATAGTTTTTGATGAACCAACAGCAAATGTTGATGTTGAGGCAAAGTTATCTTTTATGAATATTTTGCATGAATTATCAAGAATTGGTGTAACAATTTTAATTACAAGTCATATTCTTGAAGAGTTGCAAGAAGTTGCAAATTATTTAGTTTTAATTAGAGATGGCGAAATAGTATATGAAGATGATTTTGATAATAAAAAACAAAAAATTGCAGATGTTTATTCTAAGGTAATGGCTGAAAAAATTAATAATATAAAAATTTTGAAAGAATTATATAAAAATTCTGCTTTAGAAAAGGAGGAGTAGGAAAATGAATAATATAGAAATAAATCAAAATGAATCAAAAATTAACTTAAATGCAGAAATAAAATTACAGAAAAAAAATGGTATAAGAATTTTGTATTTAATTAATTTAAAAAGAATAATTTCAAATAAGGGAATTATTGCGACTTCTTTAGTTTTTTTAATCATTGCCTTAATATTTAATATTATTTGTTCAAGTTTTTTAAAAAGAAATGATACTGTAGAAATTGGTATTATTGTATTATCAATTGGTTTCTTTTTTGAATTATTTACATTTGTAATTTTTTTAACAATAGCATCTGTGGATTTAATTAAAAAACAAATGTTAGATGGAATTCAACATATTGAAACACGTTCAGGAATTCCAATGTGAAAATCTTTTTTATTAAGATATCTAGTTTTTTTAACAATCACAGAAGGTATTGCATTTTTAAATTTATTTATTAGTGTAATTGTCAATTCAGCATTTATTTGAAAATTTAATTTAATTTCAACTATAACTTGAAGTAAATTATTTTTCTATATTTTATTTATTTTAATTTGAACACCAATTGTGTTTCTAGTAACTACCATTTGTTCAATTTCAGGTAGCGTTATTTTAAATATATTTTTGGGCATTATTATAATTATGTCTTCATTTTTCTCTTCAATGGTTAGTTCACTATTTTCACCAGACGAAATGCAAAATAGTATTTATGTTATGAAAAAAAACCTGAAGCTTGATATAACAAATAGTTTTTATAATTCTTTAAAAAATGACCAAAATATTAATGAAATATTTAATGATGTTGGCGTAAATGAGAAGTCTTTAATTTTTAATAAATTAAATGATAAATTTATAGCATTAAATTTAACAAATTTTAATTTATCAGAATTAAGTTATTTATCAGTAAAAAGTAACCTTAACGATACAAATTTTCAAAGTAAAAAAACACTTATAAAATATAGTTTATATGGTGGAATGCCAAATATTTCTCTAAATCCATATATTGAATATTTAGAAGAAAACACAAATCTTGCGGCAAGGATGGAAAATGAAACTTTTCTTCTTGAAGGAATACCAATATTTAATATTTTAAATGACATATACAATACTGTTAATGCAAATATGAAATCAGATAACAATAAACCTCCAGTTAATAAACCGGGTTATATTGGTGGAGTAATAATTCAAAAAAATCAATATGAAAGTAAAGCTACTCTTCATGATTTAAAACCAATCATAGAATGATTAACTGAACAAGAAACTACTTCAAAGTATTCTTTATTACTTGATTGAGTTCTAAAAGCATATAATACTTATGCAGATTCTCTAAGTTTGGAAGGAACAAAATATTCTTCCTCTGATGAAGAATCTATATTTCCAATATTTTTCGCAGAAAATTTTGATTGAAAGAAAACTTTTCCAGAAGAAATAAATATTGAAAATGATTATAATAATCAACTTTCAAAAGTTTATAAAAGATATCCTGAGCTTTTAATTTTAAATTGATTTACAACGCAATCTTGATTGAATACTATGACTTCAATGGCTTCATTAAAAAAAATTTCTTGATCACAGGAAAATAATTATGCAAATGAAGAAGAAACATATAGAAATTATCAAATTCTTGCTAATAATTCAATTTTAAAAAATAATATAAATATTTTTCAATATTTTGGAACACTTTACTTAAATTTATTTGGATCAGGCTTTAAAAGAGATTATTTGCTTTCAAATTCTCCAATAATGTATAGCGGATTAACATCGGGTTATAAAAATTATTTAGATTTAGCAAAAGTAGATTTGAGAAAAAATCAAAATAATAATCCGTTAACTCCAATTTTCAATGAAATAAGTTTAAAAAGAAAATTTGGATCTTCTCCTTGATTGGCATACTTGTCTTATTTTATATTTTCAATTATATTAATTTGATTGGCATATTTAGCTTATAAAAGAAAATCTAGAATTTAATATATTTTCTCCATATTTTAAATATGGAGTTTTTATTTCAAAAATTATGAAAAATTATTTCAATAAAATTTGTTAGTTATCTCACAATTAATAATAGGAATTATTTTGTGTATAATATAATTGATTGTAGGAGGAATATACTAATGTCTAAAAAATTATCAGGAATAGGTGCAAGCAATGGAATATCAATTGCAAAAGTTTATATTTTAAATGAACAACCAATTGTTATTTCAAACTCAAACGTATCAGATGTTCAAAAAGAACTTGAAATAATTGAAAATTCAATTATAAAAGCAAAAAAAGATTTAGAGGGATTACAAAAAATTGCGTTGGAAAAATTAGGGGAAGAAAAAGCTGCAATTTTTGAAGCTCATGCCTCTATTTTAGAAGACCCAGCAATGGCAGAAGAATTTACAGCTTTGGTTAAAGATAAAAAATATAATGCTGCAAAAGCTATTAAAGAAGTTGCAGATAAATATATAGTTATGTTTCAATCAATGGATGATGCTTATTTTCAAGAAAGAGCAGCAGACGTAAAAGATGTAACAGAAAGATTAATTAGATATATTTTAAATTTACCTGTGGCAGATCTTGCAACAATTAATGAAGAAGTAATTATTGTTGCAGAAGACTTAACACCATCTCAAACTGCACAATTAAACCCAAAATTCGTTAAAGGGTTTGCATGTAATATTGGGGGAAGAACTAGTCATGCTGCAATTATGGCAAGAAGTTTGGAAATTCCAGCAGTTTTAGGATTAAAAACAATACTAAATTCTGTAAAAGAAAATGATATTTTAGCAATTGATGGAGAATCAGGAGAAGTTGAAGTAAATCCAAAAAATAAGGAAGACTGAGATAAACTTGCTCAAAATTTTGCAAAAGAAAAAGAAGAACTAAAAACATTTAAAGATAAGCCAACTTTAACAAAAGATGGATTTGATGGTTTTCTTTTGGAAGGAAATATTGGTAGTCCAAAAGATATAGAATCTGTTTTGGAAAATGGTGGAGAAGGAATTGGTTTATTTAGAAGTGAATTTCTATATATGGATAATGATCACTTTCCAACTGAAGAAGAACAGTTTATTGCATATAAACAAGTTGTTGAAGGAATGCAAGGTAAACTTGTAATAATAAGAACTTTAGATATTGGTGGAGATAAAAAACTATCATATTTTAAATTTCCAGAAGAAATGAATCCTTTTTTAGGATATAGAGCCATAAGATTTACTATGGATAGAAAAGATATTTTTAAAGATCAAATAAGAGCTTTATTAAGAGCAAGTGCTTTTGGACCGGTTGGAATTATGTTTCCAATGATTGCAACAGTTGATGAATTTTTAGCTGCAAAAAAATTTACACTAGACTGTAAAGCAGATTTAGAAAAAGATGGTCATAAAATAGGAAAAGATTTAGAAATTGGGATGATGGTTGAAATTCCAGCAGCAGCAGTTAATGCAGAAAATTTTGCAAAACATGCTGACTTCTTTTCTGTAGGTACAAATGATTTAATTCAATATACAATGGCTGCAGATAGAATGAGTGAAAATGTTACTTATTTATACCAACCTTACAATCCTTCAATTTTAAAATTACTAAAAATGACAATTGATGGAGCACATAAGCATGGGAAATGAGCAGGAATGTGTGGAGAAATGGCAGGTGAACCTCAGGCAATTCCATTATTAATGGGATTAGGTTTAGATGCATATTCAATGTCTGCAACAAGCATATTGAAGGCAAGAAGCATAATGTCAAAATTAACTATGTCTGAAACACAAGAACTTGCAAAAAATGCACTTGATTGTGAAACCGCAGAGCAAGTTTTAGAACTTGTGAGCAATTTATTAAATAAATAAAATTATTTTTCTTTACATAAATAAAATTATCTATTATTAAAAACTATTGTAAAATATATTTGGAAAGAAGGTATTATTTTTTATGGGATTGTTTACAAAAAATAAGAGTTTAGAAGTTTATGCACCAGTTGATGGTGAAATTATTGAACTTTCAAAAGTTCAAGATGAAGTATTTGCAGAAAAAATGTTGGGAGATGGATTTGCACTTGTTCCTGAAAATGGAATCTTTCATGCTCCAATTGATGGTAAGTTAGTTACTGTTTTTCCAACAGGACATGCATATGGAATATTGAATAAAAATGGAGTAGAAATATTATTACATATTGGTCTAGATACTGTTTCATTAAATGGTGAAGGTTTTGATATAAAAGTTAAACAGGATCAATCTATTTCACAAGGTGATTTATTAGTAAATGTGGATATTGATAATGTTTCTAAAAAAGTCCCTTCAATGCAAACACCACTAATTTTTACATCAGATTCAATGGAAGGAAAAAGTTTTGAACTTGTAAAAACAGGAAAAGTTAAACAGGGTGAATTAATAGCATTAGTAAAATAGTTTGAAAAACATCAAGAAATATATTAATAATTCATTTATTATAATCTACTTGATGTTTTTATTTTCCAATATTAAGTTTTAATTGATATTGATTATTTTATATGGGACAATCTAGTTATTAAAAATAGTTTTTAATAGAGCTAATTTATGGGAGTTAATTTAATGAAAAATAAAAATGTTAAAATAAATGATTTTAGAAATAAGTATTTCAGTTTAAGTGTAGAAACAGAGTTTAAGTTTAATTCATTAAACTATAAAGCGGACGGATTAATTTTTCTTACAACAGTACTAATTATTCCTTTAGCAATTTCAATTATAGCTACTTTATTTTTTAATTTAAAACAAACAAATTCTTGATTTAATTACGTAAATATTATTTCAATTGCAGTAGGTTTAATTTTTCTTGTTGTAAGAAATCCAACAGGGTTATTTAAAAATGGTTATACTTGATATTATTTTTTAGCATTGGGACCAAATATTATAGGTATTTTTGTTAGCCTATTTGCTTCTTTTATAAAAGTAGAAGACTCAAATACTTTTTTATCTTTTTTATCAATTTTTATACAATTAATAACAGAGATAATTATTTTATTATTAGTTTTTTTGTATGATAGAAGAATTTTAAAAAGAATTAAAGAGTCATTTAAATTTAAAAAAATTTCAATTTTAATAATTTCAGTTGTAGGTCTAGTCTTACTAATTTTAATTTCTACTTTATTTTTCTCAACTTTCATTGAAGGTTTTCTTTTAAAGGCAAATGAAAGTAACAATCAGGGAAATTTGGTTGGTATTTTAAATAATTCCAATGTATCTACAATCATAAAAGTATTTTATTCAATATTGTTATTTTTTCTTGTGATTTTAGTTGCTCCTCTTTGTGAAGAAATAGCAATGAGAGATTCTGTATTTTTGAATTGTTCAAACCAATGATTAGGTTTTTTTACTAGTTCATTATTATTTGGTTTTATACATTATGGTTCTACAGGGGATTATGAGCATTTTCTTAGTTATACAAGTTCTGGTTTTATTTTATCTGCAATATTTTTTTTTACAAAAGGGAATTTAACATATACATGAATGGTTCATCTTGGAAATAATATTGTATCTTTTATTTTATTGTTTGTTGGGGTATTTTCATAATGACAATTTTAAAAGTAAATCAAAATGATGTTAATCAAACTATATTTAATTTTGTTAAAAAAAATTTTAAATCAACAAAGTTATCAATAATTTATAAATTATTTAGAAAAGGAAAAATTAAAATAAATGATTCAAAAGTTAAAGATATGAAGTTAAAAATTCAAATTAATGATATTATTAAAATTTTTGATTCAACAGAATCAGTTAAAAGAGATTTATTTGAAAAAGTTAATTTTGATGACTTAGATATTATTTATGAAGATCAAAATATTCTTATAGTGGATAAAAATTCAAATATAGAAATTCATTCGCATGTAAATATTTCAGTAGATCAAAAAGTAAAAAGTTACCTAAGAGAAAAAAGTGAATATGTACCAGAAAAAGAAAATAGTTTTGTTGTAAGTCATGTTCATAGACTTGATAAATTAACAAAAGGATTAGTTATCTATGCAAAAAATAAAATGACATTAGATTCATTATTATTTGAAATAAATAATAAAAATAAAATTGAAAAATTTTATTTAGTTAAGCTTCCAAATTTAAATTTACCAGAAGGAAAAATATCAGGATATATTAAATATGACAGTGAATTGCAAAAATCAATTTTTAAGGAAAAAGAATTTAAAAATTCCAAAATTGTTTTTCAAGAAAATACAATTATTGACGAAAAAAATTGTATTTATGAAATAAAGCTTTTAACAGGAAGAAAACATCAAATTAGAGCAGTTTGCTCGTATTTTAAATCTCCTATTGAAAAGGATTTTAGATATGGGTCAATTAAAACTAAGGAAAAAGTAATTGAACTAATTGCATATAAATTAGTATTTAATAATTTTGATAATCATCTTAGTTATTTGAACAAATGTGAATTCAAATCAAAATATTGCTTTTAATGATAAAATATAAATATTTAAAGGAGGAATAGTGTGTTATCGACAAGACAAGGTATATTAAGTGTAATAATCGGAACAACTATTTCCCTTTTTAACGCTATTATTCAATTTTTAACTATTTATTGAGTTTTAAATGCTTATGGAACAGAGTTTAATGGGTATATTAGATTAGTTAGTTCATTTTCTACAATAATATCAGTAGCAGAAGGTTCCTTAGGAGTAGCTGCTACAATTCTTTTAGTGAAACCATTAGTACAAAATGATTGAATTAGTGCAAATGAAATTTATTCAACAGCTAAAAAATATTTTAAAAAATCTGCTCTTATAAGTTTATTTATGGTTTTAATAATATCTCTTGGTTATCCATTATACGTTGGCATTTCGGCAAATTCCACTGGTACAATTTTAAATCCAAAAAATTGAAATGATATTGGTTTAAATCTTTCAAATCAGGGAGAAAAAATTGGTTTTGCAAGTTATTATATTTTAGTTTTAATTTCTTTAATTTTTGGAACAAAAAATTTTGTTTCTGCTTATTGATTTTCAGTTTATGAAACAATTATTATTGCAGATAATAAAAATTCAGTAAGAAGAATTGTAATTTTATTTGCAGATATTTTTATTAGTGGAATTACTTTTTATTTATTATCAATAAAAGGAATAAATCCAATAATCCCTTTTTTGCCAACAATATTATATTCACCAATAAAGGGTTTTATGATTTATTTTTATGTAAAGAAAAAGTATTTATGATTAAAATACTATAAAGATTTTAATAGTTTTAAATTAAATACTACAAGCAACAAAATTTTTTTTTCAACAATAGGACCGACTCTTTTATTAAATACTGATATAGCAATTGCTGCAATATTACTTGGACTTAATGTTTCATCATCTCTTTCTCTATATTTAGTTGTAGCTTTGAATACAAAACTTATTATGACAAATTTCATTGTTTCATTTAGAGAATTTTTTGTGACTCTTGTTACAAAAAGAGGAAGAATCCATTGGGAGAGTTATGCTAAATATGAATTATATACTTATTTAGTGGCAGCATTTACTTTTATAAATATGTCAATTCTTGCTCCCTATTTTGTTAGTTCTTTATATGGAGAACTTGCAAGCTCTTCAATTTCAAATGATGATTTTGCTAGTATTAATGCTTTAGATTTTATGTTTTATACTTCTAAATTTTCAATTCTTTACGCAAGTATTGCATTATTAGCAATATTATGTGATGCACAAATGACTTTAATTCATGCAAAGGGTAGATATGGAGAAGTTTCAAAATTTCAAAATATTGTTGGAGTTTTATATTTATTGACGGCTATATTTATAACATTTCTTATTGTTACTCTAAAAATTGGAGGAGAGCAAAATTATTTAGTTACAGGAATTATTGTTTTGTTTTCTTTAAAACTTCTTTTTATGTTTATTAGATATATTTATTTATGAATTTATGTTTGAAAATATGCAACTTATAACTCGAACAAAAAATATATCTTTAATAATTTTTTAATTTTATTTTTACCAGTAATTTTAACTATATTATTAAATGTGCTTGTAATAAATAAAAAATTAGATATTAGAGAATCCACATCTGCCTCCGCTTCAATTGCACCATTAATTGCTTTATTTTTTGGAGCAATAATTTTATCACTAATAATTTTAGTTATTTTTGCATATATATGTGCACCAAAAATAATGAATGAAATTATGCAAAGACTACCATTAATTAATAAAATATTTTTAAAAAAATCAGTAGAAGCAAGAAAAAAAAGACTTAAAAAATACGGAATTGAAGCAGAGGATATTGTTGACAATAGCAATAAAATAACTCATTTAATGATTGATATTGATGAAGTAGAACCAATTATTGAATTAGGGACAGAATTAAAATTAGATATAAATTCTCAAAATGAAAATATTTATATTGTAAAAGGAAAATAATAAAATCATAGAGCACAGTTTTCAATACAGTTTTTTATTTTATATTATTGATAGAATATTTAAGATACGGAAAGAAGTATGAATAAAATGGATGTAAAATTTTATTTAGATTTAAATTATCCAATTAGTAAAATGGATGTTTTTTCCACACAGGGAAAACTAAAAATTAGAAAAAATAAAAATTCAAAGTTAAAGATAACTTTGAAATAAATTTTAAAAAAACTAATTTAAAGGGAAATATTGATAATTTCATTATTGAATTAAATAACGATTTACAAAATTTTTCAAAATTAGAAATTGCAAATTTAGATTTAATTACCTTAAAAAAAGAAAATATAAGAAATTTTTTTGAATGAATGAGAAATTCGAAAAAATTTAATTTTAACAAATACTGCTTTTATTTTTAAGTTCTATGAAAAATTTCAAAACGAAATAATTAGTAAATATAATTCAAATTCTATTGTACTATTTACTGATTTAATGAAAAATGAAGATAGATACTACTATTTGGTTAAAAGGATTGAATTTATTAATTTTTCAAATAATATACTAAAAAATAATGAAATAATTAGTATTAAAACCATTTTAAAAAAAGTGTTGAAAGCGTAACTTTTTCAAATGATTTAGTTGATTTTTCAAATGATTTTAATAGTATAAAGAATTCATATTTAACTTTTTTAAATGTTTTATTTACTCATATTGAGCCAATTACAGATATATTTACTGTAAAAGAGCAAGAGTTCAATTTTTCTAAACTTTCAAATTTTGTTGAATTATTTAATAAATTTCTGGAAAACAAAAAAAGATTTTAAATATTTTTTTAAAATAATTAACTTGAATGATTTATTAGAAGTAAAAGTTGATAACCCCAATATAAATTATAATAATTTATTGTTAATATCAGACAAAGAAGTATTTGGTTTTGAATCAAAATTAATAGTTTTTTCGCCAAAAGATGAATGAAATAAAAGAACTTTTGAAGTAAATTCAAGTACCTTAATTAAAATTACTGATAAAGTAAAATTAATAGAAAAAGAAAAAATAGTTCTAGCATTTGAGTTAAGAAATGATGACCTTTTAAGACAAATAGATGATTTAAAAATTCAATTAAATTCAATTGAACAAAAAATTCAATTAAATAAAATTGACTTAGAGAATACTTCAAGAAATATTGAAAAAATAAATAATGCTATTTTTAAAATTTGAAAATTTGGAAAACAAAATAATTAGTAATAACAATAAAAAAATATTAATATTATTGAAGACACTTTAATTAATTTAAAAGAAGTAGAGAATGAATATTAGGAGTTAATACAAAAAAGTACTTCACTGATAAATTTAAATAAAATAAAAAACGAAAGTTTAGATAAAAGTTCTATATTGAATCGTTCTTTAAATGAATATGAAAATATAAAAGTGGAATTAAAAAATAAATTGAAAAAAAATTTAAAGGAATATGAAAATAATAATACAAACTTAAATAAATTAAAAACTTGAATGAAAGATACTATAATAATTTTAGATAAATTAAAAGAAAAATTTATTTTTAAATGCTACAAATTTTGATATGGGCTTAAAAACAAAATACAATAGATTTAGCAGAGCATTATATAATTTTAAAAAAGGTAATTATAGAAACCCTTATTTGGCTTTAGCATTGACTAAACCTGAAATAGTAACTATTGGTGATAATTTTAATGATTTTGAATTATTAAAAATAAATGATCAACAAAAATAAGCTGTATATAATGCATTAAATACAAATGCAATTTCTTATCTTCAAGGTCCACCAGGTACTGGAAAAACTCAAACTATAACAAAATTAGCAGAATTAGTATCTACTGATCTTGGTGAAAATATTTTAATAACATCTCAAACAAATGAAGCTATTCATAATGCTTTTGATAGAATAAGGGAATTTAATGATCAAAATCCTAATATTTTTTATTACAAACCTTTAAAAAAGGAAACAAAAAAAGAAATATTTCAAAAAAATGAATATGAAATTGAAAATATGTACAAAATGTTTATTTATACAATTTGTAATATTTATTTAAAAAAATCAAAAAATAATATTTATAAAGATTTTAAAAATATTTCAAAAAAAGATTTTTTACTTTGTCTATATATAGCTTGAATGAATAATATGAATGCTGATATAGAATTAACTATGGCAAATTATGTTATTGAATATTTTTTAAATACAAATGTTGAAACAATAATTAATGACTCAAATGAAAATAATGAAGAAATAATAAAATTTATTATTAAAACAGAAAGGAGAAAGTATTATAATAAAAATTTAAAAAACCATTTAGATACTTTTTTGAAAACAAATGAAAAAATTTTAAATTTATTTGGAAAAAACTTTATTGATATAATAGGGACTATAATAAATTAATGGATTTATATAGTGAAATTTATATAAAAAGAAAAAATGAAAAAGTGTTATTTAAAAATTTATTGCATGATATATATGAAAAATTTAAAAAAGATTACTCAAGAAATATTTTTGATGAAGATATTAAATTATTTTCAAAAAAATTATTTGAAAATAATTTAATAAATATTTTAGGTTTAACAACAACTGCAAAACAGAAAATAAATTTTAATGAATTCAAAAAAGAATTATTTATTGATTATCCAATTAATTATCAAATCATGGATGAAGTTTCAAAATCATCAACTATTGATGTAATAAATACTGTATTACTTAGTCATAAAATAATGTTGGCTGGTGATTATAAACAATTAACTCTGATTTATGAATTAAATAGAAAAAAATATTAAGGCATTTTATTAGAATTTAATGAATGACTTGAAATTAATGTTGATCAAAGTAAAAAAAATTTCAAAATAACAGAAATAGAAAATTTATTTACTTATCTTTTTTTTGCAGAGCATGCAAAAAATTAAAAAATTTTGATATAGAATTAACTTCGTACAATTTTTTAAAAGTACAACATAGATTTACAGAAGATATTATGAAAATTGTAAATGAAGTTTATGATAAAAATGAAAAATTAAAAGTACCAAACAATTATAATGAAAAAAAATTTCGAAAGTATAATTTAAATTACAATAATGATGTTATCTTTTTAGATACTTCTTTTATAAGCAAAAATTTTTATGACTTTTGAAATAAAAATAAAGTAAAAAGTAATTTACTTTTTAAACCAAATGATAAATCATTTGATCAATTAAAATCTTTATTTAATTTTACTCCTTTTGGTTCAAAAAGGTTTAATGAATTAAATGCATTTCATATAGTAAAAATTATTGAAAAATTAATTGAATCTAATGATTTTGCAATAGATAAATTAGATTTGGAAGTTATATGTATGACAACTTCTCAAAAAGCAATTATAAAACAATTTCTTAAAATATTTAAAATTAGTGAAAAAATAATAAACAAAATAAAAATAGATACAGTAGATAATTTTCAGGGAAGAGAAAAAAGAATAATTATTGTAGATTTAATAAAAGCTAAAAATTCTTTAAAGGAAAAAGGAGAATTATAAACTCTAAAAGAAAACTAAATTTTTATAAAAAAATTGAAAGATTAAATGTTGCAGTTTCGAGAGCACAAGAAAAGTTAATTATTGTTGGAGCAGTAGAAAATTATTTACGACATGAAATCATTATTAATAATACAAAAAAAATTCTAAATATTTGGTTTAAAATAATAAATAATAATATGGGGGTAATAAGAACATGAGAGATATAAATATTAGTATTGATTATCCAATTCCATATACATTAAATAAATTAAAATATGAAGTTTCAAGTTATATACCATTAAAACTAATTCAATCAATTTTTTTATCAATAATTATTTGTGAAAGTGAATTTAGAGATGATTTAAAAATATTTGATAAAGTTTCTGAAGTTATTGAAAAAATATTAAAAATTAAAAGTAAAAACCTTCTTTTAATTAGGGAGGAACTTCAAGAACTCTTGGATACTTCTACTGTTATTAATAAATCAAATGAAAAAATATTTTAAATTGCATTTTTTCAAATTTAACAATAAATAGTAAACTTGCTGAAAATATAAAAAATAAAAAATTTTACATGTTTCAAAAGAAAAAGCATGAAAAATCAATTATTTTTTTTAAACCCTTTTTTCCTAGTTTTGAAATAAAAGATAAATTATTACTATTAAATTCAAATGAATTAAAAACTAAATATATAAAAAAAATAAATTTAATAAATTCAAATGAATTAACAGCAATTATTGATGGTGAAAAATTTTTATATTTAAGTGAAGAAAGTGGAGTAGTAAATTCTTTACTTGAAGAAACAAAAATTGTATGATCAAATATAAAATTAAATTTTCAAGTTTTAGATAATAAAATAATTGCAAAAGATAAAATAACAGAAATAATAATTAATCATGTAAATGAAAAAAAAATTGCTTAAAAATTGTTTTGATTTAGTTGTAAATAAAATAGATGTAAATGATATTGTTTTTCATGAAACTGATTTTAATTCTGAGTTAAAAGAACTAACTTTTGATGAAATAAAGTATGAACTTATAAATAATAAATTTTTAAATGACTTAAATTATCAAATTGTAAAATACAAATTAAGTTTTAAAAATAAAATAGAAGATTATTTTTATTATAATGGTGGTTTATTAAAACTTGATTTAGAAAAATTTATATTTTCAAATTTAGAAAAAATTGATTTTGAACTATTTAATTTAATAAAAAATAATAATCTTTTGAAAATTTTAAAAAAACATATTATTCAAAATATGCATATAAAAAAATTTGAAGATATAATTATTAAAAATTTTGGAAAATTTAATTTATCTTATGAAGAATTTCTAAAATTGGCAAGTAAATTATCTTATGAAGATATTGAATATTATTGTTTTACTAATAAAATTATTTTTTCAAATAAAGAAAATGTTTATAAATTAATGAAAATACTTTCTTATACAGAAGAAAAAATTTACACATTAATAAAATGAACTTATGAAAATGATGAAGTTTATTTTCGACACTGAATTTTAGAAATAAACTTTTATAAGCAAAAACAAGCTTTAAATATGTTTAAAAATAAATATAATTAACTAAATATTAAGAAAAATATTTTAATTGAATTTAATAAATGAATAATTACCACCCTATACAAGATAAAACATTAGAAAATGAAATTAAGAAAATAAATTCTATGAAATATTTAAAATCTAATTTTTCTATTGAAGAATTTATAAAACTAATAGATATAAGTTTTATAAATCTAAAAAATTTTATTTTTTCTAAATTAAATGATAAAAATTTAGATTTGGAAAAGGCAATAAAAAAATTGAATATTTCAGTAAGGGGGAAAAAGGATATATTACAAATTTGAAAACAGTTATTAAATTTTAAAAATATAAATAAAGAAAATGTATTACAAGAAAACATTCAAAAAATTATTCAAGAAGAAAAATTAATTTTTGAAAATATAGATAAACTAAAGAAAATAATTAAATAGAGGTGAAATATATGAGTCATACAGCAATTGTAATTGTAGGAATATGTACAAAAGTGGAAAGAATAATTTTGGAGGATTTAAACAATAATTTAGAAGAGATATTGAAAAATAAAAAAATTACAGAAAATTTAAGTATGAAAATTAATGAATTAAAATTTCAAATTCTATATTAAGTTTAGAAAAAATGGATAGTAATTTTGAAATGTTAAGTACGGAAAATGAAAATTTTACCAAAAATATAAATTTAAAAATAGACCAAATTACAAAGAAAATAGTTAATTTAAATGAATTATTAGATTACCATAAAGTTTTTTTAATTTAATAAAAAATGAAAGTGTAGATATTTATCAATTATTAATTTCCAATGGAATTTCTGCTAAAATTGCATATTCAAATTTACAAAATAGAAATTTCTTAATAAATTCTGAATTATTAAGAGAAGAAATATTAAAAGTGAATCAAAATTATTCAAATTTAAATTTAATAGAAAAATGTAAAAGCGAAATTTTGGAAAAACTTGCTAATGAAAAAATTTCAAATGAGTATAAATTAGCAATTGCAAATTTAGTCAATACATTCACAACAATGCAGGAAATTTCAGATTATGAAATTTATTTAAAATCACTTAAACAAAATGAAGTACGTACAAAATTTTTAGTAGAAAATCAAATTGTTGCTTTAAAAGAAATGAAATTTGAACTTAAAAGTGTAAAGAATTTAATTATGGAGGAAAAAGGAAATCAATTAAAGCTAATTTTTAAAAAAGGTTAAGCTTTAAAAATAATAAAAATCAAAAATTGGATATTATTTTAGATCTTGGAGGGACTTTTGAATATGAAATGGGAAATTATCAAGGTCATTTGTGTTTTGAAGATTCAGATAAATTAAAAACTTTATTGATGAAAAAAGGAATACACTATAGTTCTTTAAAGATAACAAGAACAACCTCGGAGGCAAGACCTTTATTAAAAACTGCCAAAATATTGGAAAGGAAGAATAATAAATAATGAAAAAATTATTAGAACAATTAAAAATAAAATTTCAACAAAAAAATATTCTTATAGTTACAGGAAATGTTTATGATACATACATTTCAGACAAAAATGTTGAGTCGCTCATTAAAAATTTAGATGCATATATTTCAAAATATTCAATTGAGGCTGGGTATACAAGTGTATTAAAATACTCACCATCAAAAAAAATTATTCCTTTGATTGGTCATTACTCACAAGAAAATCAAGAGAATTCAGATTATGAAATTAATAATGACTATTCAATTATTGATTTTATTGAACAAGTTTATAAGGAAATATCGGATAAAGAAAATGTTAGAAGAGTTTATATTATGGATTTTTCTAATATATATTTTAATTCAAACAATAATATTGAAATTTTAGTAAAAATTGCAGAATTATTATCTGCTCTTTTAGAAGAAAAAATTTCATCTCCTTATGAAGTTTCAATGCTAAAAAAACAAAGTAAATTAATTTTAATTGCAAGAGATGGTGTCCATATTTTTGGTGATATAACAGAAAAAAATATTGAATATGCTTCAATTAATATTAAAAAACCTAATATTGAAGAAAGACAATGAATTTTTTCAAAATTATCAAACATTATAAATATTACTGATAGTGAAGAAATTTCAAAACCAGGTTTTAAACAAGATGAAGCAGTTGCTTTAACAGACGAATTTTTATGTAAAGAAATTCTTCAATTAGGAAGAATAATGCAAGATAATAGTGGAACAACTTTTAAAGAATTATATAATATTGTTCAATTCAATAAAAAGGAATCTGAATGACAAAGAATAAATTCTGAAAGTTTAAAAACATTAGAAAGTGATTTATCAAAAAGAGTTATAGGACAAGAATTTGCAATTCAAGCTGTAAGAAAAACATTAATTTCTTCTTATTTAGGATTAAATGGTGTAATGCATAGTGAAAATCTAACAAAGCCTAAAGGAATATTATTTTTTGCCGGACCTACAGGAACAGAGAAAACAGAATTATCAAAAGCAATTGCAAAATTTATTTTTAAAGATGAAACAAAATTAATTAGGTTTGATATGTCTGAATATTCTGCAGAACATTCAGAACCAAGATTGATTGGTGCTCCACCAGGTTATATTGGTTATGATAATGGTGGAGAATTGACAAATTCTGTTAAGGAAAAATTTTTTTCAATTTTATTATTTGATAAAGTTGAAAAGGCGAATGCAAAAATTTTAGATAAATTTTTTACAAATACTTGAAGATGGAAGGTTAACCTCATCCAAAGGAGAATTAATTGATTTTTCCGAGACATTCATAATTTTTACATCCAATATTGGTTATTCTATGGTTTCTTCTTCAAATAATCAAGAAATAACTAGAAAAAACTTTATAAGAGCAGTAGAAGATCATTTTACAAATAATTTAAAAAGACCAGAATTATTAAATAGAATAGGTATAAAAAATATAGTCCCATTTAATTTTATTAATGATAAAAAAATAATAAAAAAAATAACTTTAAATAAATTAGATAGATTATTTGATTATATTTATAAAAAACATAATATAAAAGTTATACTTTCCAATGAAGAATTGATTATGGAACTTATTTCAGCGTATTATGATTCAAAAATGGAAGAAGGGGTATTGTAAATAGTATTGATGATATTATTGTAACTTCAATATCTAATTTTATTTTTGAAAATATTGATTTAATAAATAAAAATAGAGTTGAAGACAAAATTACAAATATTACATCTATTATTACAGGCCAATCTATTACTTGAAAATTAATGTAAACAGATAGAAAAAATCATTATTTTAATGATTTTTTTATTTAGGAAATGCATTTAAATCCAATGATATAATAAAAAAGGTGATAAAAATGACAAGTATTTCAATAATTGTACCCATTGCAGTATGTGCATTATATTTATTTACATTCTATACATCTGGATCAATTTTAATTGAACTTTTTAAATTTAAAATTAAAAATTCTTTTGTAGCAATTGCTACAGGTTTTTTTACTTTTTTTACTTTTATCTCAATTTGTACATTTCCTTTACAATTAATTCCAGGATTACCATATGTTTTTTATATATATTATATTTTTGCAATTTCTATAATTTATTTAGTTTTTTCTTTTATTTTTATGAGATTTTGATTAAATACAAATTTTTTTAAATTGGATGCATTATTTTATTTTTTTGTTTTATTAATATTTTTGGTAATAAATTATTTTTCTTATAAGTATATTAGTAATGAAAACTTTAATCGTCATAAAAATGCTTTATCAATTCTTTTTTGATTAAAAGATAATCCAGTTTCATTTTTTGATAATTCGACATTATTCAACTTTTTAGGTTTCAAACCTTTTCAAGGATGATATTCATTTCAATTATCTCTTTTAATAATGGTGGGTGCAGAAACTTATCAATATCAAAATATGTTGGTGCCTTTTATGTTAATTATTGATGCATTTTTAGCAGCTTCAATTTTTTTAACTATCATGGAATCTTTATCAAATATAAAATTTGTAAAAAATAAAGCGTTTTTATTTTTTACAAGTTTAGTATTCTTTTCTGCTACAAGAATTATTTTATGATATTACAATTATTCAATTTGAGAAGGTCAAGTTATATTTATATATTTAATATTCTATTCTATGATTTGGATATTAAGATATACAACTTTAAATTATAGAGAAAGATATAGCACTTTATTTATTGGGCTTGTAATTGGGGGTTATATTTCATTTCTTTGAGAAGGGTCATATCAAGTTTTATTTCTAATTTATACTTTTCTATTTACAATTCAGCGAAGATATAATAATAATTTCACAAAGGATATTTTGAAAATTGGATTATTTCCATTAATTGATTTTCTATTTTATAATATTATTTTACAGTTATATTTTCAAGTAATCTTGTTTGGAGCATTACTTCTTTTTATGTTTTTTGTTTCTTATTTAATGAGTAAAAAATATAGTGCAATAACAAAGTTTGAATTATTTTTAGAGCAGAGAAGTATTTTTGCTATTTTAATTGTTCCAATTATTTTAATTATAATTTCAATTGCAATTGCCTTAGGTTTAAATCAGAATTTTATTTCAGAAGAATATAATACTCTAAATTTTTTATATATTTGGTACTCTTTTATAAAAAATGAAATAGCAAGGCAATGAATTTCTTTTATTCTTTCTATGATAATTTTAGCACTAGCTTTTGCCTGGGTAATTTTTAGAAAAAATTTAAGGTCAAATATACTTACAAGTGCAGTGGATTTAACATTAATTAGTTATTTAACTTTTTATAATCCAATTGTAATGAATTTTATTAGATATATATATTCAAATATGATAGTTTCAAACGAACTTGCTATAATTAGTCTTGTTATTTGCTTAACAAATTCACTACCTTTTTATATTTTTAATAAAATTGATAATAAAAAAGTTAACCCATTGGAAATAAAAATTATAAAAAAATATTCAAGATTGAAAATTTAGGAGAAAAATATGGAAAAAGTTAAAATTGAAATTGAGAAACTAAAAATTAAATTAAATGAATGGGGTAATGCATATTACGTTTTAGATAAGCCTTTAGTTGAGGATTCAGAATATGATAGACTTCTTAATAAATTGAAAATTCTTGAAGATCAATTTCCTGAATTAATTACTGAAGATTCTCCAACTCAAAGAGTTGGAGGAAAAGTCTTAGATAAATTTGAAAAATATAAGCATAAAACAGCTATGTTAAGCCTTTCAAATGCTTTTAACAAAGAGGATTTATTAAATTTTAATGATCAAATACATAAAGAAATTGAAAATTTAAATTATACTTTTTTTGTTGAACCAAAAATTGATGGTTTATCCATTTCTATAATATATAAGAATGGAATTTTATTCAAAGCAGTTACCAGAGGCGATGGAGTTTTTGGAGAAGATGTTACTTCGAATGTTAAAACCATTAAAAGTATTCCTTTAATTATTCCAGATAAGTCAGATTACTTTGAAATTAGAGGAGAAGTGTTTCTTTCAAAAACTGAATTCGAAAAAATTAATTATCAAAGACAAGAAAATGATGAAAATCTTTTTGCAAACCCAAGAAACGCAGCTGCTGGAACTTTAAGGCAATTAGATTCCTCAATAGCCGCTTCAAGAAAATTAGATGCATTTTTATATTACTTTATGAATAGAGAACTATATGATACACATGAAAAATCTCTTGAATATTTAAAGTCTTTAAATTTTAAAATAAATAATTTGAGTAAAATTTGTAAAAATATCGAAGATGTTTATAAACATATTCAATATATTCAATCTGTTCGTGAAAATTTAGATTATGAAATTGATGGAGCAGTAATAAAAGTTAATGAATTTGATTTTTATGAAAAAGTTGGTTATACATCAAAATATCCAAAATGAGCGATTGCATTTAAATTTCCTGCTGAAATTAAAATTACAAAATTATTAGATATTTTTCCAACAGTAGGAAGAACAGGAAAAATAACATATAATGCTTCTTTAGAGCCGGTTCAATTGGCAGGTACAACTGTTCAAGCAGCCACTTTACATAATGCAGATTTCATAATACAAAGAGATATTAGAGTTAATGGAGATGTAAAAGTAAAAAAAGCAGGAGATATTATTCCCGAAATAATTGAAGCAGTTAAAAATGACCGATTTAAATTATTAAGAAAATGAAAAGAATCAGTATATTGTCCAGAATGTAATTCAATTTTAGAAAGGTTTGAGCAAGAAGTAGATCAATATTGTATAAATTCGTTATGTTCAAGAAAAATAGTTAGAGGAATTGAGCACTTTGTTTCGAGAGAGGCAATGAATATTGAAGGTTTAAGTATTAAAATAATTGAAAAATTATTTGAAAATAATTTTATATCAAATATAGCAGATATTTATTCTCTAAAATTACATAAAAATCAATTAATTAATTTAGAAAAAATGGGAGAAAAATCTGTTTCTAATTTATTAAATGCAATTGAAATTTCAAAACAAAATTCGTTAGAAAAATTATTTTTTGGCTTAGGAATTAGACATGTAGGAAAAAAAACTGCAAAAATAATTTCACTAAATTTTAAAAATATTGATAATATATTTAAATTAAGTTTTGAAGAACTTGAAAACATTTATGATATTGGACCAATAGTCGCTAAGTCAATTTGTGATTGAATTAAAATAGAAGAAAATAAATTCTTAATTAATAAACTAAAGAGCCACAATATTAATACAACTTATTTAGGTCAAGAAGGAACCAAAAATAATGATAAAATTACAAATAAGAGTTTTGTAATAACAGGTAAGTTATCAAAACCAAGAAATTATTTTAAAGATTTATTGGAAGAATATGGAGCAAAAATAATTGATACAGTAAGTAAAAAAACAGATTTTCTCTTAGCTGGAGAAGAAGCCGGAAGTAAACTAGATAAAGCACAAAAATTAGGAATAAAAATAATTACAGAAATCGAATTTAACGGAATGATTGGAGAATAGTATGAAAATAAATATTGAATTAATTAAAGCTCTTGAACAAGATGCAATGCTAGATTTATCAGATGAAGAATTAAATAAGATTTTAAAATTTGAAAATGATATTTTAGAAAAATTTGAAAAAGTTTTTTCAATTAATACTGATAATGTAAAAGAACTTTATTATCCTTTTGAAATTTATAATACTTATTTAAGAGAAGATGACAATACAAGCGTTATTTCAAAAGAGGCAATCTTATCAAATGCAATTGATAGTGATGAGGATTTTATTGTTATAGCAAAGGTGGTTAAATAGAATGAATTTTAAAAATATTACAATTAGAGAGCTGCATGATAAATTAGTTAATAAAGAAATATCACCAAAAGAACTTATAAAATCTACAATTGAAAATGCAAAAAAACATTTGGGTAGTAATTTTTTAATTACATTATGTGAAAAAGAAGCAATTGAAAATGTAGAGAAATTTTCAAGTAAAATTGATGAAAAAAATTTTTTATGATCAATTCCTTATGTTTCAAAAGATAATATTGCAACAAAAGGAATATTGACTACATCAGGTTCTAAAATACTATCAAATTATTATCCACCATTTGATGCAACAATTACTGAAATTTTAAATGAAAAAAATTCTGTAATGATTGGAAAAACTGCTCTTGATGAATTAGGAATGGGGGGAACAGGTTTATTTAGCTTTAATGGAGAAGTTAGAAATCCTTATGACAATGAGAGATTAATTGGGGGAAGTTCAAGTGGAAGTACTTATGCTGTTTGTGAAGGAATTGTGCCTTTTTCAATTGGAACAGATACAGGAGACTCAATAAGAAAACCTGCAAGCTTCGCAGGAATTGTTGGGTTTAAACCTACATATGGTTCAATTTCAAGATATGGTGTAGCACCATATGCTCCAAGTCTAGATCATGTCGGATTTTTTACAAATAATATTGAGGATATGGCTGTAATTTGTGATAGTACTTTTAAATATGATTTAAAGGATTTTACTTCAATTGATAATAGTATAAAATTTTTAGATAATTTGAATAATAAGAAAAAAGTAAAATTTGGTTTTATTAAACATGTTGAAAAATTTATGGAAGGTAAAGTAAAAAGAAGTTATGAAAAATTTTTCAATTATTTAAAAAAAGATGGACATAAAGTAATTAAAGTAGATTTTGATAAAAAATTATTAGATGCAATACCTGCAATTTATATGATGATTTCTTTTGCAGAAGGAGTTTCAACGAATGCAAATTTAGATGGGATTAAATTTGGACTTAGACAACCTGGAGAAGATTACAAACAAATAATAACTAATTCAAGAACTAAGGGATTTGGAGATACAGTAAAAAGAAGATTTATCATTGGAAGTTACCAATTAAAATCTGAAAATCAAGAACTTTTACTTGCTAAATCAAAAAAAGTAAGAAGATTGATTGTTAATGAATTAAATAAAATTTATGAACAAATAGATATTTTGATATTTCCTCCTTCTTTAAAACCTGCTCCTTTAGTTAAAAATGTTTTGGGGACTGATGTTGAGGAAAGAGAAGATAATGATGCTGCATTTCTAGATGACTTATTGATACTTTCAAACTTAAATGGTATGCCATCAATTACCTTACCTTTTATTAAAGAAAATGAATTACCAATTGGTATAAATTTAAATGCAAAACCAAAAGAGGATTTATTTCTTTTACAAATATCAAAATATGTTGAAGATCTAATTAATAAATTAAATAAAGGTGGTGAATTTGATGAATAATTTTGAAGTAATTATTGGAATTGAAAATCATGTTGAATTAAAAACAAAGTCAAAAATGTTTGGAATGGGACCAGTTTCATTTGGAAAAGAACCAAATACTCAAGTATCAGAAGTAGACATGGGATATCCTGGTGCTATGCCTTCAGTAAATAAAGAAGGTGTGAGGCTTGCATTATTAGCATGTAATGCTTTAAAAATGAAAATTGACTCATTACTTAGATTTGACAGAAAAAATTATTTTTATCCTGATCTTGTTAAGGGCTTTCAAATTACACAACAATACCACCCAATAGGAAGAGATGGGTATATCAAAATAAACACAGAAAGTGGAAGTTATAAAAATATTGAAATTGAAAGATTACATATTGAAGAAGATACTGCAAAACAAACCCATAAAGGGAATTTTACTTATATTGATTATAATAGAAGTGGAGTTGGACTAATAGAAATAGTTACAAAACCAGTTTTACGAAATGCAAATGAAGCAATGGAATATGTAACTAATCTTAAAGAAATATTATTATTTTTAGGAGTAAGTGATGTCAAAATGAATGAAGGTTCATTGAGATGTGATATAAATATTTCATTAAGACCTTATGGGTTTAATGGCTATGGCTCAAAAGTAGAAATAAAAAATTTAAATTCAATAAATAATATTAAAAAATCAATTGAATTTGAAATAAAAAGACAATCTGCAATACTTCTTTCTGGTAATAAAGTGGATCAAGAAACAAGAAGATTTGATGAAAATTTGCAAGAAACAATTTTAATGAGAAAAAAAACTGATGCAATTGATTATAAATATTTTAGAGAGCCAAATTTATTTCCAATTCAGCTTGATAAAAAATGAATAAATGAAGTAATTGAAAATGCACCTGAATTAGCAAGTGAAAAAAGAGAAAAATATATTAATATTTACGGTTTAAATCTAGATGATGCAAATTATATTTTATCAGATTTATTATTAACAAAATTTTTTGAAGATACAGTATCACTAATTAATGAACCACAAAAAATTGCAAATTATTTAATAACAGATGTAAAGACTTTACTCAATAAAACTAATATTGAAATTTCTGAATCAACGCTAACACCAGAAAAAATTAAGGATATTATAATTTTTTTAGAAAAGGGAATAATATCTTCAAAACATGTTAAAACAATTTTACCAATTGTTTTTGAAACAAATAAATCTATTCAATCAATAATTGATGAAAATAATTTAAAATTAATTTCTGATGTTAAAGAAATTACAAAAATTTTAGAACCAATTATTAAAAATAATATTAATTTAATTAATGAAAATATTGAAACTAGACCAGAAAGAGTTGAAAAAACTGTAATGGGTTTATTGATGAAGGAAACAGGGGGAAATGTAAATCCAACTGTAGGAACAGAAGTATTATTTAAATTAATTAAAAAAAGCTAACATGTTAGCTTTTTTAATATTCAATTTCTTGTTCTCCTCTTACTTTTAATATTAAGTCATTTACAATATTATTTTTAGCAAATACTACTAAAATATCGCCTTTTTTTAAAATGGTATATTCATCGGGCAATATTATTTTTCCATTTCTTTTTACTTGAATTATAATAAAATCTTTATTTGAATTTAAACCAGCATCAAAAATTGATTTATCAAATATTTCTTCTTCTTCAACTTGAATGCTTGTAAAAACATATTCTCCATCTGCTGTTTGGACTTCACTTTCAATATCAAAAAGTGCCTTTGTTGCAACCATTTTTCCTGTGGTAACATCAGGAATAATTACTTGATCTTCTTCTAAACCAAGAGCTAGTAATATTCTTTTGTGTCTTTCATCTCTTGCTTTAACAATTATATTTTCTACGCCTAAGTCTATTAAATTTAAAACAGTTAGTATACTCGATTCCATATTTCCACCAAAACATACAATAACACCATCAAATTGTGTAATTCCATTTTTTTCTAATGCATTTTTATTTGTAGCATCTAGAATTATTCCTTCCACAGATTCAAATTCATTAATATGTAAATTTATTTTTTCTTCATCATAATCAAAAATTTTGATTAGTTGTTTTTTTTCATCTAAAGTTTGTGCAACAGATAACCCAAAATAATTTGCTCCAAATATTGCAAAACTTTTTTTTCTAGCCATATAGTTCCTCAACTTTCTAACTTTTAAATTATACAACTCTTTTATTGTTTGTTGTATAATTTAATATAGATTTAAATAAGAGGTTTGTAATTCATGGATAATAGTTCAAAAAAACCTAATAAATTAATTAAAGAAAAACAAACGAAAAAAAAGGAAAGAAAATCTCTTGATAAGGAGAATAACTTTTTTTCAAAACTTAAAAATTGATGGCCATTTTCAAGAATTAGTGGAAGAATAATTTCTATTTACTTAATTTCTATTTTAATTGGTGGTTTTTTGCTTTCAATTCCTGGAGTTGTTTTAACTGAACAAAATTATTGACAATTTATTACAGGTATGTTTACTGCTTCAAGCGCAATATCAGATACAGGTATAACAATATTGCAAACTAATACAAATTATTCTTTTATTGGTGAACTTTTAATTATAATAATGTGTCAAATTGGTGGAATAGGTATTTTAACGGTTAAAATTGTTTTAATGGTAATGCTAGGCAGAAAAATATCCTTGGATGACCAAAGTGTTGCTCAAACAGAAAGAGGAAATAGTGCACTTTCAAATACAGTGGAAATGATACGTGATGCGTTTATCTTTTTACTTTGATTGGAAATAATAGGAGTTTTTTTTCTATTTTTTGGTTTTTATTTTACGCCAATGGATTTAGGGACAGTTTATAATGAAAAATTTCAACCTTTAGAAAATTTAATTAATGAAAATAGTGTAACAAATCCATATCATGATTTTTCAAAATCTCTTTGAGCTGCAATTTTTCACTCTATTAGTGCTACAAATAATGCAGGGTTTGATATTGTAAGTGGAAATTCACTTTTACCATACAATCAAGGAAATTCACATGCTTATTTATTACAAGTTACTTTTTTATTTCAATGAGTAATTGGTGGTTTAGGTTATCCAACTTATCATGACATAAAAAGGAAAATTAAAGCAAAAAGAGAAGGTAAAACAGTTAGATTTTCATTGTTTACAAAATTAAATTTTATAATGTATTCTATATTATTTATTTTGGGACCATTGCTAGTATTTATGACAGAGCACTTTACAGTAGAAGAAAGCAAAATTTTACTAGATGGAAAATATATTAAAGATACAGAGGGTAATATAAACTGAGTGACAACAGGAGAATGAAAGAAAACTCACATATGAATAATGGATTTACTTTTTAATGTTTCTTCAACTAGAAATGCAGGTTTTGCAACTGTTGATGTTAATGAATTTACAGCAGGAAGTAAATTTGTAATGTCAGTTTGAATGTTTATAGGTGCAGCACCTTCATCAACTGCGGGGGGAATTAGAACAACAACATTTGCAATTTGTATTCTTGCAATTTATTCAATTATGAGAAATAAAAAATCAGTAGAAGCATTTAAGAAGAAAATTCCTGATGATACAGTAAAAAGAGCTTTTGCAGTGGTGTTCCTTTCATTTTTTATTGTTGTTACAAGTATTTTTGTAGTTTATTTAGATAGTAATAAAATGTTATATGCAACAGATACGACAAAACATACAGAATCAACAATTATTAAATTAATTATGTATGTTTGCAGTGCTTTTGGAACTGTAGGTTTTCAACCATTTTCAAATGAACAAATAATTCAATTAGGAGTTATAAGTAAATTAATGCTTGTTATTACAATGTTTGTTGGTCAACTTGGTATTTCAAATACGCTTCTTGCCTTTGTGAAACCAAGAAATAAACAAAATTTTGGATATTTAGAAGAGGAAGTAGTTATTGGATAATTTTTATTAAAAAAATTAACTTAATTTTTTATTTATAATTAGTTAATAAAAAGGGGCGCTTATATGTAAACATTTACATTTTCTAAAAATTGACAAAAAAAATTAAAAGAATATACTAGTATTATTGAAGAGTTAATCTTCCGAGGTGAAATAATGAATCTTAATGAACAAGCACAGGAATTAAGTGATTCCCAAGTTGAAAGTGACATAAAAGAATGATATAAATTATCTAATAAAGAAATATGTGGTATTTTAGAAACAAATCAACATACAGGGCTTTCATTAAAAGAAGTTGAAAAAGACTTGAAAAATATGGAAGAAATACATTACCTAAAGCAAAAAAACCAAACTGATTTACTATTTTTATTAAAACTTTTTTAGACACTTTAAGTGCAATAATGTTATTTGCAGGATTATTACAAATTATAGTTTTTTCAATAGCAAAGGAAATAACTGCACCAGATATTGCAGGAGTAGTTATTATATGTTTGATTGTTTTAACTAATTCAATTATTGCAACAATTCAAGAAGTAAAATCTATAAATCAGATTTCTTCATTAAATGAAAATAAACAATACGCAATTGTTTTAAGAAATTCTGAAAAAATGGAAATTGATATTGAGAAATTAGTTCCAGGTGATATAGTTTTTTTTAATTCTGGTGGATTTGTTCCAGCAGATATTAGAATTATTCAAAATCAAGTTTTTAAAATTGATGAGTCAGCACTAACAGGTGAAAATGAGCCAGTAAAAAAAGTTTCAGACCCTCTTTTTGAAAAAAGTTTAATGCTTGGGGATCAAAAAAACATTGCTTTTATGTCAACTTTAGTAATTGGAGGAAAATTGATTGGTGTTGTTTTTGGCACAGGAAATAATTCAGAAATTGGAAAAATTGCTTCAAAAATTACAAAAAATAACACAATTAAAACTCCTTTAAAAAAAGTAATAAAATTAACAGCAGTTATTGGATTAACTTCAATATTTCTTGGTTTAATTCTATTTTTAACTTCATGATTTTCAATGGATAAATTAGCAGAAAATCTACAAGGTTGAAATAAATTACTATTAATTGCAGTTTCAGCTGCAATTAGTGTAATTCCGGAGTCTTTAACTATTATTGTTAAAATTTGTTTAATGGTAGCCACTAAAAAAATGGCAGCAAAAAAGGTTATAATTAAAAATCCAAAATCAATTGAAACATTAGGTAATGTTAATGTTATTTGTACTGATAAAACTGGAACTCTAACAGAAAATAAGATGTTAGTAGATAAAATTTTTTTAAATTTTAGTGAATTAGAACTTAAGGATTTTAATCCAAAAATATCTGAAACATTAATAAATTGTATTTCTTTGTGTAGTGATGCTGTTGTTGAAAATGAGAAAATAGGTAGTGCCATAGAAATTGCCACGCTAGATTTTATAAAGAAGTTTGATATTAATTATATTTCATTAAGAAAAAATATAAAAGACTTGATGAAATACCTTTTGATTCAAAAAGAAAAATGATGACTACTGTTAATGAAGTTAATGGTGAAAAAATTGTTTATACAAAAGGTGCAGTGGATTATCTTTTAAAAAAATGTAAATACAAATTAATAGATAATAAAGTAAGTGAATTAACAATTGATGATAAGAAAAAAATTGAAGAGCACTTATATTATTTTGCGAAAAAAGGTCTAAGAGTTTTAGGATTTGCTCAGAAAAAATGTGAAGATAGAAAGTCTAATTATGAATCCAATTTAACTTTTTTAGGTTGCGTAGCAATTATTGATCCACCTCGTCAACATGTAAAAGAATCAATAGAAGTTGCAAAAGAAGGTGGGATTAGAGTTATTATGATTACGGGAGATCATAAGATAACTGCTTTTGAGATTGCAACAAGACTTGGAATTGCTGATGAAAAATTTGATAGTGTAATTAGTGGTTCTGAAATTGAAGAATTAAGTAGAGAACAATTAAAAAATCGATTAAGAACAACAAATGTTTTGGCAAGAGTTAATCCATAACATAAAGCATTAATAGTTGATTTATTACAAGAAGATCATAATATTGTTGCAATGACTGGAGATGGGGTTAATGATTCACCAAGTTTAGTTAAAGCAGATGTTGGAATTTCAATGGGTATTACAGAAACAGAAGTCGCAAAAGAAGTTAGTGATGTTATATTAGCTGATGATAATTTTAAAAGTATTATTTCAGGAGTTAATTCAGGAAGAAATGTTTATGAGAAAATAAAATATTTCATTTCATTTTTAGTTGCAGCTAATTTAAGCCAAGTTTTAACTTTATTAATGATTCTTGCTTTTTATCAGGATCTTGCTTTAAATTCTGTGAATATTTTATTTCATATTTTCGTTGTAGAAACCATTGTTGCAATTCCAATTGGAATGCAAAGAGAAAAAAAGGAGTAATGCAAAATTTACCGCCTCTAAATAAAAAAGAAAGTTTACTTAAAGGAATAATTGTGCAAATAATAATTACAAAAATATTTAATACATTATTTGCAGTATTTAACTATCAAATTTCACTTTGATATTTACCAGATAATATAGATTTAGCAAAAGAATTTGGAAAAACAGGAACATATATTGCAATTATGTTAGCACCTATTTTTTATGCAATTTTATATAATAATTTCTTTTTACCAATAAAATCAAATAAAAAAATGAAGGGATTAGATAAATTTAAACCAAATAAGTGATTACTAATATTAATGTTTGTTGCTCTAGTATTAACTGTAATTACTTTAGTTTCAGTAGACTCAATAAATTTATTTTTTGATTTTAAGACAAAAAATATACCTGCTGGATTAGTTAGTATTTTTATTATTAATGCAATTTTACCTACTTTATTTATATTTGCTTTTTATAAACTTAATAATATTATTTTTAAATAATTGAAGTATAATTTAACTATGAAAAGAACGAGGGGGTTTTAAAAGATTATAGGCATTAATTTGATATTAATAAAAAAATGTACTGATTCTTTTAGACGTCAATTTAAAAAATAATACAATAAAATTCTTATTTCATCTTTTTAGAAAAGGGGTTTTATTATGAAAGAAGATAAATTTAAAAGTGAAGGTGCCTTTTTAAAGACACTTTTTTACTATTATAAACAAGAATGAAAATTAACATTATTTATGTTATTAATTTGTATGATTATTGTATTATCTGCAATAATGCTGCCATTATTAACACTACAAATGACAATGGCAATTAGTTACTCTTTGGGAGATGCAAGTGCTATTGATTCATCCGGGCTAATTAAATACTGAGGACTAAGTTGAATTCAGTTAATTTATATTGCTGTGGGTATTGTTTTATTTTATTGTATAATTTCATTTTTATTTGATTATATTGCATATATAATGGGTAGAAAAATTGAAATAAGTTTACGTAATAGATGTTTAGAAAATTTGGTAAGACAAGATATTTCATATTATTCTAATAAAAAAATAGGAGAAATATTAACTAAAATTGTTTCTGATACACAAATTGTAGGAGATCAAGCAGTTCAAATACCGCTGCAATTGGGTATTTCTTTCTTTGAAATGATTGGTTCTACTTTACTAATGATTTTACTAGCATGAAAACTTGCATTTGTAACATTAGGAACATTTGCTTTTATAATGTTGACAATGTTATTTTGTTTTGTAGTTACAAGAAAAAAAGTTTCAAAAGTTCGTGAAAGTATAACTGAAATAAATGGAAATGTTACAGATAGAGTTGCAACAGTTAGACTTATAAAATCAACAGGTAGTGAAAATTATGAGACTGATAGATTTAAAGAAGTTCATAAAGATTATTATAAAAAGTCAAAAAAAGTTGGAGTAAGTCACTCTCTAATGTTAACAACAATGTGAGGTGGTATCTTTGCATTACAATTTTTAACAATAATTGGAGCAATGTTAATTTATGGAAATGTAGCAAACCCAGAAAATGGATTGATTTTTTTTAAAACAACTTTTACTTCATATACTCTTGCACAAGGAATGATGATAGGGCCATTATTTCAAGTTATGAATGCTTTATTTGGGTTGGCTCAAGCATCTGTTGCTTCTCAAAGAGTCCAAAATACAATTAAAAGCAAGTCAATAATGAATCCACATTTCTGAGATGGAGAAATTGTAAGTTCAATCAAAGGTAATATAGAATTTAGAGAAGTGGAGTTTGCTTACCCAGAAAAACCAGAAAAAATTATTTTACCAAAATTTAATTTTATTTTTGAAGAATCAAAAAGTTATGCGTTTGTTGGAGAAACAGGAAGTGGTAAGTCAACAATTGCAAAATTATTACTTAGATTTTATGACCCAACTAAAGGGAAAGTAATTATAAATAAAAATTTAAATTTAAAAGATGCAAAATTATCAAGTTATTTAAATCATGTTGGGTATGTAGAACAAGACCCCCAAATATTATTTGGTGATGTTTTTGAAAATGTTAAATACGGAAAATTTGATGCTACAAATGAAGAAGTAATAGAAGCATGTCAAAAAGCAGAACTTCATGAATTAGTCATGACTTGACCTGAACAATATAATACAATTCTTGGAGAAAGAGGTTTTATGTTAAGTGGAGGTCAAAAACAGAGATTAATTATTGCAAGAATGTTTTTAAAAAATCCACAAATTTTAATTTTAGATGAAGCTACTAGTGCTTTAGATAATATTGTTGAAAAAGAAATTCAAAAAAAATTAGATTTACTGATGAAGGGAAGAACAACAATTACTATTGCACATAGATTAAGCACTATTAAGAATGTTGATGAAATAATAGTTTTAGGAGCAAATGGAAAAGGAATTGTTCAAAGGGGAAAATTTAATGAATTAAAAAATGAACCTGGACATTTTCAAAAACTTTATAATGCAGGGTTATTAGAATCAAACTAAAGATTAAGCTTTTTGAGTTAAATATTCAAAAAGCTTTTTTTTAGTTTTATAACTTTTATATATTTGTTATAGAATAATTAATGTCGTTAAATAAAAAAATAAAGAAAATATTAAAAAAATATTGATTTTAAATAAATAAATATGCTATTATGAATAAGTAGATTTTCTCTATCTATGGCTTTTTAGCTCAGTTGGTAGAGCAACCGGCTGTTAACCGGTTGGTCGCAGGTTCGAGTCCTGCAAAAGCCGCCATTTTTATGGCCTGTTGGTGAAGTGGTTAACACACACGGTTTTCATCCGTGCACACACGGGTTCGAACCCCGTACAGGCTACCAATATTTTTTATTTTTTTGGAGTGTTAGCTCAGTTGGGAGAGCTCCTGCCTTACAAGCAGGCGGTCGGCGGTTCGAACCCGTCACACTCCACCATTTTCTTCGCTGATGTGGCTCAATTGGCAGAGCAACTGACTTGTAATCAGTAGGTTGTAGGTTCAAGTCCTATCATCAGCACCAGTTATGAATTTTAACCAACCTCAAAGGTTGTTTTTTTATGTAATAAAATTGTTATAAGGAGAAAAAAATATGAAAAAAAGTTTAGCTATTATTTCATATATTCTACTATCAATATTATTATTAAATAATTTGTTAACTTTTATTTTTATACAAGAAATTTCATTAAAAACAAATAATGAGAGTTTGGAATTAATTTCATCAGGACTAATTATTGTATATATTTTTGAAACTATTACTTTTATTTGATTAGTTATTCTATTATTATTTTTAATAATTAACAGAATTAAAACTTCATTTATTAGTTCAATTATGATGATTATAATCGGTGTAATATTTTTATTTTCATTTATTTTAGTCACTTGAATATTTGGAACAATAAATATTATTTGTGGAATTGGTATAATTACTACTGCTTCAATTCATTTAAAAAATCACAGAAATAGTTTATAAAAAATTTATTTTTATCTTTAAAAAATGTTATTATAAATGTGTTATTTTTATTGTCTCGTTAGCTCAGCCGGTAGAGCAACTGGCTTTTAACCAGTGGGTCATAAGTTCGAATCTTATACGAGACACCATTTCCCGGGATTGGCGGAATTGGCAGACGCACCAGACTTAGGATCTGGCGTGGTAACACGTGGGGGTTCAAGTCCCTTATCCCGGACCAATCTGAAATAGGATCATCCATTAAGATGATTTTTTTTATTTTTTTATAAAAAATGCAAAATTATATGTATAATAATTTTTAAGAAAAGTGAGGAAATTATGCAAAAAAGCATTTCTATAAAATCATTAAATAAAATAAGTGTAATGTTTTTAGAACCTCTTTTTTTCAATTTATATTTTTATAAAATTATAATTATTTAAGCAATCATTTTTATGATTGATTTTTTTTTGTAATTTAGAAGGAGAAAATTATGGAAAATGAAAATAATATAAAATTAATTTTACAACCCCATGAAAGACCAAAAAATTATGGGCAGTGAATGATTTTATCACTTCAACATGTTTTTGCAATGTTTGGAGCAACAGTTTTAGTACCTATGATAATAAATCAAACTGCAAATGAAGAAGTTATAAATATTTCAATGGTACTTTTTTGTTCTGGGATAGGAACTTTAATCTATATTGCATTAACTTCTGCAAAAGTGCCAATTTATTTAGGAAGTAGTTTTGCATATATGAGTGTAATGGGGATTGGTTATAGTCAATGACATAATTCAATTTTTATAGCTGTTTTTATTATTGGAGTAGTTTATATATTTATGGGATTTCTAATTCACTGAACTGGAATAAAATGAATTAAAAAAACATTTTCTCCAGTTGTAATTGGTCCAATTGTAATTACTATAGGCTTAAGTTCTGTTAAAAGTGCATTACAGAATGTTGGATTTATTTGAAATCAAGAATCATTATCTCAAAATTTATACTACCCACAATGGCTTGCAATTTTAATTGGTATGGGAACTTTTTTAATAGCAGCAATATTTATGTTAAAAGCAAAATCATTTTTAAAAGTCATACCAATTCTTGCAGCTTTAGCTTTTGGGTATTTTATTTGTATAATATTGCACTTTTCATTAAAAGCAGTTGGGTACAATATAATGGATACATCTCTTATAACTGATACTAGTTCATGACAATGATATCCAAGTTTTAAAGCTATTTGAAATGTTGAACCCTCAACAATTGGGCCAGCAATTATTGCAATTGTACCAATTTCATTAGTAACAATGACAGAACATTTAGGTGATCATATAAATATAGGAACTTTAACAAATAAAGATTTTATTAAAGAACCAGGGATAAGCAGAACATTAATTGCAGATGGTGTTGCAATGAGTTTTGCAGGTTTAATTGGAGGACCTGCAAATGCAACATATTCTGAAAATACAAGTGTTGTTGGAATTACAAAAGTGGCAAGTGTTTGAGTAACTGGGCTTGCAGCAATATTTGCAATAATAATGAGTTTCATTGCACCAATAAATCAATTAATAGTAATGATTCCAAAACCTGTAATGGGAGGTATAAGTCTAATGCTATTTGGAATGATAAGTTCTAATGGTATTAAAATTATGCTTGATAATAAAGTTGATTTTAAAAATGCAAGAAATATAATTATAGTTTCTGTTGTACTTGCGGTTGGGGTAGGAATGGCAATTACAGGAAGTGATATTCAAATAGGAAATAGTTTTAAAATAACAGGAATGTTTTTAGCCACAATGTTAGGAATTTTATTAAATTTACTATTACCTGAACATAATAATTTAGGTATTTTTCAAAAATTAAAAATAAAGAAAGAAAATAAATAAAACCAAGTTAAAATATAAATGTAATTACTAGCGTTTATATAAACCAGCATATTGGGTTGGTGTTTCTACGATAGACCTATCTATCACTATAAGTTAGTATTTAAACTTTTAATTAAGCCTATTAATTACGTATTTAAAACGCAAATAGTAGACTTAATTAATTTTATGTTTTCTTATTTTGCAAAAAAATAGGAATTAAAATGAAAGAAAAAAAAGAATTAAAAGCAGAAAAGAGCTTATATAATAAACAAGCTTCAAATTCAAAAATTGGAAAGTTTTTTGGTTTTGGAAATTTTAATACTACTTTTAAAAAAGAAATTATTGGTGGTGTAAGTACTTTTTTATCTATGATTTATATTTTATCTGTGGAACCTGCAATTTTGGGTCAAGCACAAAGCATAGAAAATTCTCAAGAATTAATGAATAGCGGTAGAGTTTTTGTTGCAACAGCAGTTGCTTCGTTCTTAGCGACTTTTATTATGGGAATAAGTGCAAACGTTCCTATAGGTTTGGCGCCAAGTATGGGTTTAAATGCAATGTTTTCATTTAATATTGCAAATCAAGGTGATATTGGTTATGAAGGTGCTCTTATTGCAACAACAATATCATCAATAATTTTTTGTATAATGTCTGTCACAAAATTAAGAGCTATCTTAATTAAAAGTTTACCTCATTCAATTCACTTAGCAATTGGTGTTGGTATAGGTTTTTTTATTGCATATGTTGGATTGGTAAATATGGGTTGAGTTGAAAAATCAGTCTCAAATCTTCCTGTTGCAAATTTATCAAATTTTAAATTAATTTATCCGGCAATAATTATTGGAACTGTTGCATTATTTGGAGCAATTTTACTTTTCTATAAAAAATTTTTTGCACCAGTTATTGTAATGTTATTGGCTGGTTTTCTAATTGCCATTATTCTTGCAAATACTATAGATAATGAAGCAATTCAACATTCTTTTGGAACAGCTAAATGAGTAAAAGGACAATGGGATTATTCTGAATTTAAAGGTTTTATTACAAATATTGAAAACACTTATAAACAATTTGCAAATATAGAAATTTGAAATAAGTCAACAATGTATATTTCTATTTTTATTTTTATAATTTTGAACTTTTTTGATGCAACTGGAACATTTAACAAGTATAAATATAGAAATTAATAGAGCATCTGGAACTAATAATGAGATTCCACACAAAGCTTTAGTAATTGATGCTGGTGCAACAGTTGTTGGTTCTGTATTGGGTGTTTCACATATGGCTTGTTATACAGAAAGTTGTGTTGGAATTATGCAAGGAGCAAGAACGGGATTTTCAAGTATAATTACTTCTCTTGGTTTTTTACTAAGTTTGGCACTTTTTCCAATTTTTAAAATGATGCCAGATTGTTTAAGCGGTGCTGCAACTGTATTTATAGGAACTGTTATGATGAAATCAATTACAGAAATAGAGTGAAATAAAATAGAAATTGGTTTAGGCTCATCCTTTGCAATTTTATTTATGATTGTCACATACTCAATTGCTAATGGTATTGCAATTGGAATAATTGCATATTCAATTGGAAGCATTGCAGTTAAAAAAACAAAAGAAGTTCACTTATTAGTATGGGTATTAAATGTGATATTTATACTATATTTTATTGCGTATGCATTTATGTAAAAAATTTTTTAATAAAAGTGCTTAAGCAAGCACTTTTATTTTATTTATAAAGTTTACATTTAATTTATTTAATTTATAATCATTAAAAGTAAAGAGAGGTAAGTAATGAAATTAAAAAAAAATGTTTTAATTTTTTGTGACCTTGATGGAACAGCTTTAGCAAGCGATCATACATTTAGTCAAATAACAAAAGAAGTAGTTAAGAAAGTTTATGGTAAAAATTATTATTTTATTCCAGTAACAGCGAGGTCAACAAAAGATGCAATTGATTTTCAATCAATACATCTTGAATTAGATAAACTTGGTGGTATTGCATCTGGGAATAATGGAAGTCACATTTATGATTTTAAAAATAAAACTTGAATTGAAAGAGCATATGTTTCAGAAGAAAACATTAAAAAAATTTTTAATTTAACTTATGGTCAAATTGGAAAATATAAAGTTCATTTTTTTTCTGATCAAACTTGTTTTGTTTATGGTGAAGGTGAAAATTCAAAATATTGAAGTGAAATTATGCAGATGGATTACAAAATAATTGAAAAATTAAGTGATATAAATGAAAAGATTAATCATTTAGTGGTGATTTTAGAAAAAAACCCCTCTGAACAAATTCAAAATAACTTTTTAGAGAAATTTAAAATTATATCTAATGAACTTGATATAATTAAATATACAGATAGAGTTTATGAACTTGCGGTTAAAGGAATAAATAAAGGTTCTGTAATTAGAAAAGTTCAACAATATCTGAATTTAGATAACTCAAATACATCTGTATTTTGTTTTGGAGATAGTTTTAATGATATTGAAATGTTTAAAGAAGCAGAATTTCCAGTTGCAATGGAAAATGCTATTGATGAGTTAAAACAAATTGCAAAATTTATAACACTTTCAAATGATAATGATGGTGTTGCAAAATTTATTGAAAAAAATATTTTAAAAGAGGAGAAAGAATAATGGCAGTAAAATTTATAGAATCAACAGATGATTTTAATAATGAAATTAAAAAGGAAGCAACAGTAGTAGATTTTTATGCTGATTGATGTGGACCATGTAAAATGTTAGCACCAATTTACGAACAATTATCAAATGAAGTTACAAATGTAAATTTTGTAAAAGTTAACACAGATGAACAACAAGAAATTGCAAAGAAATATAATATTATGTCAATTCCAACTTTAATATTCTTTAAAGATGGTGAAGTTGTTCGTCAAAATAGTGGATTCATGCCAAAAGAAGTTCTAAAAGAATTTATAAAATAAAATGAATTCAATTAAATTAATTGTTTTAGATATAGATGGAACTTTAGTTGGAAAAAATAAACAGGTACCAAAAATTAATATTAATGCTATAAATGAAGCAAGAAATAACGGTATTAAAATATGTATTGCTACAGGAAGAAATTTATCTAGAGCAGAAAAAATTGCTAAATCAATTGAATTAGATAAAAATCAAGAATATTTAATTTGCTTGAATGGTGGAGCAATATATAAGTATGATGAAAATAAAAATCCAATTTTAATTGAAGAGCATCTATTTAATCAAGAAGATTTTGAATTTATTTATGAAAATGCAAAAAAAAATAATGTCAACTGTTTTAGTTATGCGCAAAATCCAGAATTTGCTTTTGTTTTAAAAAAAGATTTATTTACTTTTGTTTTAAAAAAAGTTTCAGGAAGAAAATTAATGAAATTTGAAAAAAATATAAATGAAAAATCTTATAAGATAATTGCATTTGGAAATGAAAAGAAAATATCTTTACTTAAGAAAGCTCTAAGTATAAAAAAATATGAAATGTTTTCTTGAAGCTATATATCACATTCTTCAAATATTGAAATAAATCCAGAAGGTGTTGATAAACTTTATTCATTACAAAAAATTGCAAATTTTTATAATATTGACAAAAAGGAAATTATTTATTTTGGTGATGGAGATAATGATAAGAAAGCATTAGAATGAGTTGGTTATGGCGTAGCAATGGCAAATGCAGATAAACATATTAAAGAAATTTCAAATGATACAACTAATCTTGTAAATAAAAAAGCAGGTGTGGGACAATATATTAAAGAAAAAATACTAAAACACTTTTAATAAGTGTTTTTTTGTTTTTTTAATTGAAAAAATATATAATAATGTGAATGGAGCTAAATTATGAAAAAAATTTTGGAACAAATAAAAGAGAAAAAAAATAATTACAGTAAAAGATCAGATAAATTTTGACAAAATTATTGATGTTATAAGTCAACTTTTTACTGATTCATATGGAATAAGTAAATTAATAAAAGGTTATAGATTAAATGAAAAACAACAGTTATGATTTTTAAATTTAGATGAAGATTTTAATCTTGAAGTAAAGCTGAATCAGGTTATTACAATTGAATATCAAAAGATAAAGACCTTATTTATCAGTTTAATTCACAAAAAGATTCTCAAAAAAGAGCAAAAGATGTAAAAAAACTAAAAGATTTTCCACAAGATTTTATTACATTTATTCAATTTTATGACAGATCTAGAAAAAGTAATTATAAATTTTATGGAATTTTTACTTTTAAAAATTCAAAAGATGATTTGAATCAAATTATGATTTATGAAAAAATAAGCGATGAATTTAGTTTCAATTTTTAATAGTTTATTTTCAAAAAATAATTGCTAAAAAATTGTATATGATAAAAAAAAGTTTATAATATAATTTATCTAAAAATTAAAATAGGGGGGAATTATTATGAGTATTAAAAATATTATTAATATAAATCAATATTTAATTACAGAATGATTTAACGTAGTAATTACCCGTGTTCAATGTTTTGAAAAAGTTTTAGAGACTGAAATGCTCCTCACTTTTGCGTAATAATTTAAAATTACGCGTTTAAAATTTAATATTTTTAAGAGGAGACACATATTATGAAAGACAAAAATAATATTTTAGAGATTAGAAATCTTACTAAAAGTTATGATGGGAAAGTCGTTTTAAAGGGTGTTAGTTTTAATGTTAGAGAAGGTGAGTTTATTACTTTATTAGGTCCTTCTGGGTGTGGAAAATCTACAACATTAAATTTAATTGGTGGTAGAAAAAAGCAAGATAGTGGACAATTGTTATTTGAAGGAAAAGATTTAACTCCAATTCCAAGTAATAAAAGACAAATTAACACAATTTTTCAAAATTATGCACTTTTTCCTCATTATGATGTTTATGACAATATTGCATATGGACTTAGAATTAAAAAAATGAAAGAGGATTTAGTTGCAAAGGAAGTAATGAATTATATTAAAAAATTTTCTTTAGAAGGAATGGAAAATAAAAGAGTTCATGAATTAAGTGGTGGACAAAAACAAAGAGTTGCAATAGCAAGGGCTCTTATTTTAAAACCAAGAATTTTACTTTTAGATGAACCAATGTCTGCTTTAGATGTTCAGTTAAGAAAAAGAATGCAAGATGAACTTAAAGAACTTCAAGAGGAAATAGGCATTACGTTTATTCTGGTAACACATGATCAAGAAGAGGCTTTAACATTAAGTGATAGAATTGTTGTTATGAATGATGGAAATATCCAACAAATTGGAACACCAGAAGAAATTTATAATGAACCTGAAAATAGATGAGTTTCAAATTTTATTGGAGTTTCAAATGTAATTGATAATGGTGAATTCATAAAGGATTTAAAAGTAAAATTTGACGGTAAAGAATTTGAATGTACAGATAAAGGTTTTGGAGAGAATGAAACAAATATTGATATCATTTTAAGACCTGAGGACATTAAAATTCAAGAACCACAAAAAGGTTATTTTGATGGATATATTGAAAATATAATTTTTAAGGGAGTTCATTATGAAATTACTATTAAGTGTGAAAATAGAAAATATACAGCACATACAACAGAATTTCATGATTTTGACAAAAAAGTTTCAATTAAATGAGAACCAAATGATTTACATATAATGTGAAAAGAAATTGATGAATAATAATTTAGATAATCAAAAAGATTTAACTGAAGCCCAAAATGCTGAAGTTGAAAAAGAATTATTTGATATAGAAAATATTGAATCAGAAGGTTCTGAAATTGAAGTTGAAATACCAAAAATAAAATTTAAAGATAAAATAGAAGAATTTAAAGTTGTTAAAGCTTTAAAAGGGAAAGTTTGGCCAATTTTATTACCATTTATGGTAGTAATGGGCTTTTTAGTTGTGCTTCCATTATTAGGAATAATTATTTTTTCTATTGTGGAACCAACTTCAAATAGTATTAAATTTGAGTTTGATTTTACAAACTTTGTAAAATTAATTACATCAGGTTCAATAATTTTAGTTTTAGGATTATCAATTTTATATGCTTTTGTTGCAAGTGTTGTAACTGTTATAATGGCATATCCTATTGCATTAATAATGGCAAATTTAAAAAGTAAATTTCTTGCAAAAAATATTTGAGTTTTAGTTACATTACCAATATGAATTAGTATGATACTTAAAATACTTGGTCTACAAAGCTTATTTTTATTAATTTCACCTTCAGCTTTGGGAACTCCAATTGCAATTATAATAGGAATGGTTTATATGTTTATTCCTTTTGCAATCTCACCAATTTATAATGCATTAGAAAATCAAGATCCAAGTTATTATAATGCTGCTTTAGATTTAAAAGCAAGTAAAACTAAAGCTTTTTGACATACTACTTTTAGACAATCACTTCCAGGAGTTTTTGCAGGATTTACATTGGTTTTAATTCAAGCAGCAACTTCACTATTAATTGTTAGATATATGGGTGATGGAAAAATAAATCTAATAACTACAATAATAGAAAATTATTTCTTTAAAGGAACAGATTTTAGTTTTGGTGCAACAGTTGCTGTTGTTTTAGCAATACTATTATTCATACTTATGGGAGTAATGAAATTGATATCAAATAAATTTGAAGTTAGGGGGTCAAAAAAATGAAAAAATTCATCAAATCAAGTTATTTCTTAATAATGATGCTTTTCATTTATGTTCCAATTGCTGTTATGATTGTATTTTCATTTAATAACGGTAATAGTTTAAATAATTGAGAGGGATTTAGTTTTAAGTGATATGAATATTTGATAAATTATTCACCTTTTATTAAATCAATTACTGTTTCATTGTTTGTTGCAATGGTTTCAACTATTATTTCATTAATTATTGGAATAATGGCAGTAGTTGGATTATCAAAAATTAAAAGAAAAACAGCAGATAATTGAGTTAGAGTTGCAAATATACCATTAGTTAATGCTGATGTTATTACAGCGGTAGCTTTAATGATTTTATTTGTATTGGCAGGAGCAAAATTTGGAATTTTAACTCTAATTGCTGCTCACGTTTCTTTTAATGTTCCTTATGTAATAATTACAGTTTTACCTTTTATGAATCGAATTGACAAAAATATATTAGAAGCTTCAAAAGATTTAGGTGGAAGCTCAAGACAAACTTTTTATAAGGTAATTTTTCCAATTTTAATGCCTTGTATAATAACAGCTGCTGCAATATGTTTTGCAATGAGTTTTGATGATTTTATAATTTCATATTTTACAGGTGGAGATCAAACTAATGTTTCAACATTTATTTATACTGCAAAAAGAATGCAACCATATATAAATGCTTTTGGTACAATACTTGTTGCTGTTATAATTTTTGTAATTTTAGTTTGAAATATAATACAAATTTCATTGCAAAGAAGAAAAGATATAAAATTTCAAATTAAAAATGGAGATTATAAATTAAAAAGAAGAAGTAATTTAGAAAAAGATATTGAATATTTTCAAAATTGTATTTTAAATAACTCGTCTATAAAATTAAGTAAAAATCCAAATAATTGAATTAAATACAGATTTCTACAAATTCAATTAAAATTTTTAAATAGTAAAAATCATGACAAAAAAATAAGTAAATTAGAATGAAAAAAAGAGTTACTTTCAAAAGAAATTAAATCTGAAAAAAGAATATTTTTAATTTCAGAAAAATTAAAGATAAAGAAATCACAAATTGAAAATAAAATTAAAACAATTAAAAATGAAAAAAAATTAATAAAATTTGAGCAAATTATTAATAAACTTGATAAAAAAATAAATAATTATGAAAAAGAAATTCAATGAATTAATGAAAGAAATGAGCTAGATAAAGAAAAAGCTAGACAAATTGAAAATCAAATTTTGGATTTAAATCAAGAACTTGCAAATTTAATTAATCCAACTCAAAAAGAGCTATCATGATATAAAAAGAAAATTAATAGTTTAACTATAAAAATGAATTATTTACTTGAAGGAAGAAATAATTGAAAATTAAGAACAACAATCGAAAAACTTGCAATAATGCGTCAAAAAAATGAAGAGCAAGCTAGAGAAAAATATCTTTTATTTAAGGAAGCAGAAAAAAAAGTATATATCAATACTTCATTAGTAAAAAAATTAAATAATAAAATTAAAAAAATGCAAGAATTAAATGAAATATCAGAGTTAGAAAAGAGTAATCTTGTGAAATTTGAAAAAAGAAGAAAGGAAAAAATTGATTGATTTAAGGAGTTTTATCAAAATAAAATTTTTCTTAAAAAAAATAAGCTAGATAAAATTTATCAGGAAATAAAATCTAAAAAAGATAAATTTTTTCCAAATGTTTTAGAAGAAGATTACATTCCAAGAAAAAATAATTGAATAAAAAGAAATTGAAAACAAATGATAATGGGTTCTTCACTATTAATTTCTTTTTCATTACTTACAACAGCATATGCTTTGAATAATGTTTATGATCTAGTAATTGGTAATTGAGGAAGTTATATTGATCCGACTTTATTAACACAATTTGAAAATGAAAATGGAGTAAAAATTAATTATCAGCAATACGATTCAAATGAGTCACTATATAATAAAACTTATACATTTAACTATGACATGATGGTGCCTAGTGATTATATGGTTCAAAAAATGGCTGGTGAAGGTATGCTTCAAGAAATTGATTGATCAAAAGTTGAAAATATTAATTCTCCATTAGATTCTAATTCAGGTGGAAAAGATTTAACATATAATGAAGGTCTAAATAATGTTCAAAAAGAATCAGTAATTATTGATTCAGAAAATGGAGAGCAAAAAGACATAAGAAATTATTCAATTCCATGATTCTGAGGAGATGTAAGAATTGTTTTTAACTTGGGATATTTAAATTCGAATGGTGAATTTGTTAGAAATCAAAAATTAGTTGATTTTTTAGAAGAAAGTAATGTATTAAAAGAAGATTTTAATCCCACTGAAAATGAATGATACCAAATTGATCCTGACAAATTATCTTGAAATATTTTATGAGAAGCAGCAAATAAAGGGTTAAATTTAGCTTTAAATGAAGATCCAAAAAATGTATTTATGTATGGTTTTGAAAAATTATATGGAAATGTAGGTACAAAAAATGATTTAACTGTTAATGATGTAAAATTAACAAAAAAAGAACAAATTGATAATGTTGCAGAAGAAATCAATAAATTAATTTCAAAAAATAATGTTGGTTTATATGGTGATCAATTGTTAGATAAAGTTCATAATAAAGAATTTGACATAGCAGTTATGTATAATGGTGATTTACTTTGAGCAACAGATGATGAATATAGTTCAGAAGATGAAGAAGAAATTAGTAATGAAATTACAGATTTAGATGATGAAAATTCATCTAAAGAAGAAAGTGATTTTAAATTTACAATAATTTCTGAAATTCCTAATAAATCAATTCAAAATGTTAAAGTAAATGATGTAGAGGTTAAAAATGAATCTACAAATTTATGAAGTGATAATTTAGTTATTAATAAAGCGAATAGAAACATAGATTTAACATATAAATTTATAAATTTTATATTTAGTTATGATTCTCAAATTGCACAAGTTGAAGAAACAAGAACAACTTCAGGATTTGAAGAAATAATTCAAGAAATTAAAAATAATTCAGGGGTTCAATGAGAGAAATGATACTTACCTCATCAAGAAGGACAAGCTTTTGGATTTGATGAAAAATTTGATAATTATTTAGTTGATAAATTTAATGAAATAATTTCAACTAAACACTAAAACACTTTTTAAAAAAAGTGTTTTTTCTTTTTTTATTAAAAAAATAGTTTATTTTTAGTATAATATTTTTTGTAATGGTACCATAGCCAAGAGGCTAAGGCATGGGACTGCAACTCCCTGAGCGTCGGTTCGACTCCGACTGGTACCTCCATTTTGAATAATAATGAACTTTTATAGTTCATTTTTTTTATTAAAAAATAAAATTAAATAAAATATGTAAAAATTTTACATATTGTTAAATTATTTGCTATAATAAATATTGTCAATTTTAAAAGAAATTGAGAAAAAAGAAAAAAATGTAATATAATATTTTTGGTTGTTTTTCAGTTATATGCGCCCTTAGATCAATTGGATAGATCGTTTGACTACGGATCAAAAGGTTAGGGGTTCGAGTCCCTTAGGGCGTGCCATTTAAGAAAAATAGTCGTGAATATTATAAGAAATTAATATTCATATTTTATTCGGGAAGTGGCTCAGCTTGGTAGAGCATTCGGTTTGGGACCGAAGGGTCGCAGGTTCGAATCCTGTCTTCCCGACCATTTTAATATTTATTTTATATATGGGCCCGTAGCTCAGCTGGGAGAGCACCTGCCTTGCACGCAGGGGGTCGACGGTTCGATCCCGTTCGGGTCCACCATATATGGCGGGGTAGCTCAGCTGGTTAGAGCGCTCGGCTCATACCCGGGAGGTCAAGAGTTCAAGTCTCTTCCCCGCTACCATATATTTATTTTAATATTGGACCTTTAGCTCAGTTGGTTAGAGCATCCGGCTCATAACCGGATGGTCATTGGTTCGAGTCCAATAAGGTCCACCATTCATGACTCTAGATATATCGCAAATTCATGAGGGCAAAAAAAATACGGAAGATTACCCAAGTCTGGCTGAAGGGGTCGGTCTTGAAAACCGAGAGTCGGGGAAACCCGAGCGGGGGTTCGAATCCCTCATCTTCCGCCATTTTATTATCGCGGGGTGGAGCAGTTGGTAGCTCGTCGGGCTCATAACCCGAAGGTCGTAGGTTCAAGTCCTGCCCCCGCAACCATTTTGGCCCCATAGCGAAGTTGGTTATCGCGCCTCCCTGTCACGGAGGAGATCACGGGTTCGAGTCCCGTTGGGGTCGCCATTATTATGGTTTCGTAGCTCAGTTGGTAGAGCAGTTGACTGAAGCTCAACGTGTCGGCAGTTCAATTCTGTCCGAAACCACCATTAATTTGAAATTTATTCATAAACACTTTTAATAAGTGTTTTTTTATTGCAGAACATAAATTAGCTTTTGTAATAAAAAAATCTTTAAAAAAAAGAATAATAATTTATTGTATTTTCATAATTAATAATCTATAATAAATATTGTTTTACGGAGTATAGCTCAGCTGGTTAGAGCGCACCCCTGATAAGGGTGAGGTCGGTGGTTCAAGTCCACTTATTCCGACCATTTTGAATTAAATAACACTTTTGAGTTTTTCTTAAAAGTGTTTTTTTATATAAGAGGTATTAAACATGGCAAAAGAGTACAAATTATTAAAAGAAGAATTAAATACAAATAATATTAACAAAAAAAATAAAGTTAAAAAACGATTTTTTGCATCAGGTCAATGATATAAAGTAACACTAACAATAATTTTATGATCAGTATTACAAGAAATAATTATGGCCTCAACAGACTTAATTGATAATATTTTTGTAAATCATCTTTTTAATTTTCAAATTAATGGTTTAGATCAATTAATTTTATCAATAAAAAGTTCAGGTTGAGAACAATTAATAACAAAAGACATTTTACAAAATGCAAGACTTGAGAATTTATTTTCGTATGCAGGTAAAGGAATGAACTATACTGCGGGACAAATTGGAGTGAATGGTGTTGCTGCAAGTAATCAATTATTTATAATTATGTTTTGCATGGTTTCTGGTTTTTGTTATGGTTCAGGTATATTCTCAGCACAATTTTTTGGAGCGAGTGATTATCAAAAATTAAAACAGGTAACTGCTTTAAAATTGTATTTGTGTCTATTTATATCAATTGTATTTATGTTATTTGCAATTCCTGGAATTACTTGAAATTTAATTGCTTTTACTACAAAACCATCTTTTGCTCAATTACCAGAATTAAATTTAAATACAACTAAGGATAGTATTTTAGAATGATTTAATTATTTTCAATATCAAGCTGCTAAATTAGCAACACAAGAAGGGGAAAAATTTTATAGAATTGTTTCTTCATCTTATTTTTTACTTGCAATAAATCAAGTTTCAATTACATCTCTTAGAGAAACTAGGAGACCTTTTTATTCTTTTTTTATGGCAGCAATTGCTCTATGTTCAAATTTAGTTTGTAATACTTTTTTAACATCGCCAACTTTTTTGGGTAATTTTCAAGGATTGGGAATTACTGGTGCAGCTGTTGGGACTGTTGTTTCAAGAATATTACAAACACTATTTATTCTTTCTTTACTATTTATTAAGAAATTTGAATTTATACCTCATTTTAAAAATTTCATAGTAAGTAAATTTGTTTTAAGACTTGCATTAATAAAAACAATACCAATTTTAATCAATGAGACTTTATACGCTTTTGGCCAAGTTTTACAAGTAAAATTAAAAGCAATGTATTCAGTTGAGGCTTTAACAGCAAATGCAATGTTTGAAACTGTTTTAATGGCTTTTTTTTCACCAATGTATCATGGTTTAAATGCAGGAATTTCAACTTTAGTTGGAAATGAATTAGGGGCAAATAAATTTGAAAATGCAAAATATAATTCAACTCATTTAATGAGATTAAGCTTTATAATAGGAATTTGTTTTTTTGCTATTTTTTCAGGATTATCTTTTGTTATTCCTAATACTATTTTTCCTAATACTTTACCCGAGGCAAATAGAATAGGGGTATGAATGATTTTTATTTATTCTGTAATTTACCCAATAATTATTATAAATAATTGTAGTTATTCTATTTTAAGAGCAGGTGGTGAAGTCTATAGTGCTTTTGCAATGGATTCAGTGTTTAATTGATTAGTTCAAATCCCATTATTGGCAATTTTAATTATTTTAAATAATAATGGAACAATTCATATTGATATTGTAATGATTCATTTAATTGTATGTTTGTGTGAAGTTGTAAAAGTTATACCAGCTTTAATATTTTATTTTAGAAAAAAATGAGTAAAAAATTTAATTAAAAATTCAGATATTTTAATTAATAATGAAGAAATTAAAATTTCAGAAAAACAAGAAATTAAAAAGGAGCAATCTGCATAGTAGATTGCTCCTTTTTAATATTTAATATAATCATAAATAGGAAATTTTTTACAAAGCTCAATTACTTCATTTCTTAATTTACTTAAATTATCTTCAGCATGATTATTTAAAGCACTTTGAATAATATCAGCGACTTTTATAAATTCGTCCTCTTTAAAACCTCGTGTTGTCATTGCAGGGCTACCTAACCTTATTCCCGATGCATTTACTGGTTTTTCCTTATCAAAAGGTATCATATTTTTATTTACAATAATACCCACAGTTTCTAAAATTGTTTCTGCTTGTTTTCCTGTTAATCCAATGGAATCTTTTACTTCAACAATAACGGTATGATTTTCAGTTCCATTTGCAATTAGTCTAAAACCTTTGTTTTTCAAACTATTTGCAAGTGCTTTTGCATTTAAAATAACTTGCTTTGCATAATCTTTAAAATCTTGAGTTAGTGCTTCACTTAAAGCTTGTACTTTACCCCCAATTTGATTTTCAAGAGGCCCTCCTTGTACTCCTGGAAAAACAACAGCATCAATTTTTTTTGCATATTCTTTTTTTGAAAGAATCATTCCACCTCGAGACCCTCGTAATGTTTTATGAGTTGTTGTTGTAACAATATCTGCATATAAAACAGGATTTGGATGAACACCACCAGCTACAAGTCCTGCAATATGAGCCATATCAACCATAAAAAAGGCCCCAATTTTATCAGCAATTTCTCTAAATTTTTTAAAATTAATTATTTTTGTATAACTACTTGCTCCTGCCAATATTAATTTAGGTTTATGTTCAAAAGCTAATCTTTCAATTTCTTCAAAATCAATTTCTTCTGTTTTTGGGTTTACTTTATAAAATATAAAATTATAAAGCTGCCCAGAAAAATTTATGTGATAGCCATGAGTTAAATGCCCCCCAGCATCAAGACTCATTGATAAAACTTTATCACCAGGTTCTAATAATGCTTTATATGCAGCCTCATTTGCTTGACTACCAGAATGTGGTTGAATGTTTGCATGTTCTGCATTAAAAAGTTTTTTTGCAAGTTCAATTCCATAACTTTCAATTTCATCAATAAATTCACAACCTCCATAATATCTTTTTGATGGATAACCCTCTGCATATTTATTTGTTAAAATAGAACCGTTCAATTCTAAAACTGCTTTTGAAACATAATTTTCGGATGCAATTAATTCAATGTGTGTTTGTTGTCTATTTAATTCTTTTTTTAATGAATTTAAAATTTTATTGTCAATATTTTTAATCATATAACCACTCCTTTAAAAAATTTTAAACTATTTTTTTAAAAATACATAGTATAATAAATATGTTTAGAAAGAGGTGGTAATATGAGTATTCCTTCCGTCAACAATTCACAAAAACTTTTAATGATCAAAAGTAGTGCTAATTTGCCACTTATTTTTGGTTTTTAAAATACTTGAAAAATTAGCGCTCAATTCAATAGGAGGAAAATTATGAGAGCTAATCAAAATAAAAATAATAAAAATAATAAAAATACAAGATTGATAGAATATATAGATCTTAATCAACAACAAATTTTAAAAAAACTAGAAATTTCTCAGTTTGGTTTAACACCTGATGAGGTCATAACACAAAGAGAAAGATTTGGAGATAATAATTTAAAAGCCCATAAAATGAATGTTTTATCGGCTTTTATTAAGTCTTTTTTTAGTCCGTTTAATTTAATTTTAATAATAATAGATACATTTAGTTTTTATACATACGCAACAGAAGGTAAAAACCCTTTTGATCTTTTTGGTGCTTTATTAGTGCTAATTATGATTTTATTAAGTGGAACAATTTATTTTGTTCAAGAAATAAGATCATTTTTGGTTATTAAAAAAATGAAATATGAAAATAAACAGATGTGTAAAGTAATTAGAGATGTAAATTTTAAAATTAATGATATTGATAATGCTAATTCAATAAAATTAATTAAAGAGTATATTTCTCTTGAAAACTCAGAATTAGTACAAGGTGATTTAATTTATTTATCAAATGGTGATTTAATTCCTGCAGACATTAAAGTAGTTTGATCCAATAATTTATACTTAAATCAATCATCTTTAACTGGTGAGTCATTTCCAGTACAAAAAAAGATAACAAATGCAAAAGAAAATTATTTGGAATTTGAAAACATTTGTTATATGGGAACTGAAGTTGTTTCTGGGTCAGCGCTTGGGATTGTCTTATCAACTGGGCAAAATACATATTTTTCAGAAATGAATGATAAAGTAACTGAAAAACGTCCAGTAAATTCTTTTGAAAAAGGTATTAAAAGAATAACATTACTATTAATTTCTTTTATGTTGGCAACTACACCAATTGTTTTTTTAGTGTTTGGTTTAAGAACTGATGATTTTGATCATAGATGATTAAGTGCAGCTTTATTTTCAATTTCAATTGCAGTTGGTCTTACACCTGAAATGCTTCCAATTATTGTGACGGCAAATTTATCAAGAGGTTATTCAAAAATTAAAAAAGAAAAAGTTCTTGTAAAAAATTTAAATGCAGTTCAAAATATGGGTGCAATAGATATTTTATGTACTGATAAAACTGGAACAATAACTAGTGGTGAAATTAATTTGGATAAAGTTTTTGATATAAAAAATCAAAAAAACCCTTATATTGAGGAAATACTATATTTAAATAGTTATTTTCAAACTGGTTTTCAAAATCCAATTGATCAAGCAGTTTTATTATCAAAAAATATCAAACATATTGATGTAGAAGAATATAAAAAAGAATGAGAAGTTCCCTTTGATTTTAAAAGAAAAATATTATCTGTCATTTTATCAAAAAATGAACAAAAACAAATTTTTACAAAGGGAGCTATTGAAGAAATACTAAAAATTTGTAATAGAATTTATATTAACGGAGAAATTAAAGAATTAACAAATGAATATAAAGAAAAGATCATTAATAAGTCAAGTGAATTTAACAATGAAGGTTTTAGAGTTATAGGAATAGCACATAATAGTTTAGAAGATGAAGATATAGAAGAAGATTTAATTTTTTATGGTTTTGCAACATTTTTTGATCAACCTAAAAAAACCTCAAAAGCAATTATTAAACAGTTATTGGATAGAGGAATAACAACAAAAATTTTAACAGGAGATGATGAAGTTATTACAAGAGCTATTTGTAAAAAAGTAGATTTTAAAATTGAAAAACTTTATACAGGAAAAGAAATTGAAGCAATGGATGAGCAACAATTGGCAAAAGCTGTAATTAGAGCAAATGTATTTGTAAAATTAAGTCCAATGCATAAATCATTAATTATTAAAACATTAAAATCACAACAACATGTTGTTGGATTTATGGGGGATGGAATAAATGATGCTCCAGTTTTAAGAGAATCAGATGTGGCAATTTCTTTTAAAGAAGCTTCAAATATTGCTCAAGAAGCAGCAGATTTAATTTTATTAGAAGAATCATTGCTTCCGATAAGTGCAGCTGTTTATGAAGGAAGAGTTAGTTTAGCAAATATATTAAAATATATAAAAGTTACAGTGGCATCAAATTTTGGAAATGTTCTAAGTGTTTTAATTGCTTTATTTTTAACTCTTGCAGAGCCAATGCAACCATTACATTTATTGGCACAAAATTTACTATATGACATAGTTATGTTTGCCTTTATTTTTGATAAAGTTGATAAAAACTTTACTGATAAACCAAGACCATTAAAAACTAAAAATATTATATGGTTTACTATTATAAATGGACCTGTAAGTTCAATATTTGATATTGTAACATTTTTAGTTTTATTATATGCATTTAGACAACAAATTGGACTGGAACCTGGAATTAGTGCAAATATTGAAATACCAAAAGAAGCAATTGCTAAATTTAATGCAAGTTGATTTGTTGTTGGATTGATGACTCAAACTGCTGTTATGCAAATGTATAGAACTGAAAAAATTCCATTTTTACAATCAAATGGATCTTGACAAGTTAATTTATCAACTGTATTTGTTTGTTTAATGGCGATTATAATTCCATTTACACCAATAAATAAAGTTTTAGCTATGCAAACTCCACCATGAGCTTTTTTAGGTGTTGCTATAAGTTTTGTTCTTGCATATGTTTGTTTAGCACAAGTTGTCAAAATGGGATATATTAAAATGTTTAAAGAATGATTATAGATAGAGAAATGAAAAATAGTTATCGGAAATACTATTAATTTAAATAAATTAATAGTATTTTTTGTTTAGATAGTTTTTAATAATGTAAAATATTATTTATAAAGAGGTATTAAATATGCAATTTTCACATAAATCAATTGAAAAAAAATGACAAAAATTTTGAGAAGAAAACCAAACATTTAAGACAACAAATTCTAATGAAAAGAAAGCATATGTTCTAGATATGTTTCCATATCCAAGTGGTGCTGGTTTACATGTTGGACATCCAAAAGGTTATACAGCAACAGATATTTTTGCGAGAATGAAGCGAATGCAAGGTTATGATGTTCTTCACCCAATTGGGTGAGATGCATTTGGTTTACCAGCAGAACAATATGCTTTAAAAACAGGTAATGATCCAAGAGAATTTACAGATAAAAATATTATAATTTTTAGAAATCAATTAAAAAAACTTGGATTTAGTTATGATTATAATAAAGAAGTTAATACAAGTCATCCAAATTATTACAAAATTACTCAATGAATTTTTCAACAACTGTACAAAAAAGGGCTTGCAGAAGTGAAAGAAGTAAATGTAAATTGATGTGAAGAATTAGGTACTGTTCTTGCAAATGAAGAAGTCATTTTGTCAAATGGGAAAATGGTATCAGATATTGGTGGATTTGATGTTATAAAAAAACCAATGAAACAATGAGTTTTAAAAATTACACAATATGCTGATAGATTATTAGATGGTTTAGAAAATTTGAACTGACCAAATTCTGTAAAGGAATTACAAAAAAATTGAATAGGAAAATCTGAAGGAGTTTTAATTAAATTTAAAATAAAAGAAAGTAATGAGGAAATTGAAGTCTTTACAACTAGACCTGATACAATTTTTGGTGTTTCATATATAGTTCTTGCTCCAGAAAATGAAAAAGTTTTAAAAATTTGTTCTAATAATTTTCAAAATGAAATTGAAAATTATATTCAAAATACAAAAACAAAAACTGATGTTGAAAGACAAGATGATTCAAAAGAAAAAACAGGTTTATATCTTGGATGTCATGCGATTAACCCAATTACAAATGAAGAAGTTCCAATTTGAATTTCTGATTATGTCTTAAATGATTATGCAACAGGAGCAGTAATGGCAGTTCCAGCTCATGACGAAAGAGATTGAAAATTTGCCACTAAATATAATTTGTCAATAAAATTTGTTTTAGAAACAAAAGATAAATCAAAAGCTTTTGTTGGAGAATCAGAACATATAAATTCTGATTTCTTAAATGGTTTAGATAGAAAAAATGCTATTAAATTAGTTATTGATAAATTAGAAAAGGAAAATAATGGTAAAAAGCAAATTAATTATAAATTAAGAGATTGACTTTTTTCAAGACAAAGATTTTATGGAGAGCCATTTCCAGTTATTTTTTTAGATAATGGAGATATTGCACTAATTGATGAAAAAGATTTGCCTTTAATGCTTCCAAAAACAGATTATATTAAACCATCAGGAACTGGTGAATCACCATTAGCAAATATAAAAGAATGAGTCAATATTAAATATAATGGTTTAAATGCAAAAAGAGAAACAAATACAATGCCTCAATGAGCAGGATCTTGTTGATATTATTTAGCTTATATTTTAACAACAAGCCCAAATAATTTAATAGATATTACTTCAGAAGAAGCTATGCAATTATTTAAAAAATGATTGCCAGTTGATTTATATATTGGTGGACAAGAACACGCTGTATTGCATTTACTTTATGCTAGATTTTGACATCAAGTATTATTTGATCTTAATGTAGTTCCAACACCTGAACCTTTTCAAAAGTTAATTAATCAAGGAATGATCTTAACTGATAAAGGTGAAAAAATGAGTAAATCAAAGGGTAATGTTATTAATCCCGATGAAATAATTGAGTCACATGGTGCAGATACTTTAAGATTATATGAAGTTTTTATGGGACCACTTGAGGCATCACTACCTTGAAGTTTTAAAGGGTTAGATGGTTCAAGAAAGTGATTGGATAGAGTTTATAGACTAATTGAAGATATTAAGCTTACTGATGAAAATAATGGAAATTTAGATTTTATTTACAATGATGTTGTTAAAAAAACAACTCAGATGATTGAAGATTGTAAATTTAATACAGCTGTTTCCCAATTAATGGTTTTTATAAATGCAGTATATAAGGAAAATTCTGCAATTTATAAACCATATATATTTAATTTTGTAAAGATGTTATCTCTTTATGCACCACATTTGGCAGAAGAATTATGAAGTATGCTAGGAAATAAAACAAGTGTTTGCTTGGAAAGTTGACCAGTTTTTGATGAAACAAAATTGTTACTTTCAAATGTTGTAATTGCAGTTCAAATTAATGGTAAATTAAAATCAACTTTTGAAGTTGAAAAAGGAACTAGTATAGAAGAATTGATAAAATTGGCAAAAAATATTTTAAATGTAAAAGAAACAATACACGGTAAAACAATTATCAAGGAAATTGCTGTTTTAGATAAAATTGTAAATATTGTTATAAAGTAAATAAAATAATTTTTAAAATATTGACATAGCTTTATTCTTTAATTATTGAGTAGAGATATGTCTTTTTAGTTATTAATTGTAAAATGTTATAATTAAAGAGCTTAATAGAAAATGAGGTAAGTTTAATGGCAAATATTATAGAAAATAATAATGGAAAAGAAATTGTTTTAGACTTCTCATTTTTACAAAATGTACAATTTAAAGAGAATATTTCAGGTTTAGATCAGATTATTGAAAAATTAGAAATTAAAGGAATTATATCCTATAATGATTTTCATAATTTTTTAAGAAACTCATTAGTAAAAAAAGCTTTTTTATGTTTAATTGATAATAAAACTAGGCAATTAAGTAAAAAGGATAAAACTAAGGAAACTTATGATGGAATAATTAGAGTTGAACTTGATTCAAGGAATCAGAGTTTATTATTAAATGGAACTTATTTAGGTTTTTTTGTCAATATTGATTCAAAAAATGCAACACTAATTATTAGTTCAATTTTTTTGACAAGGTTAAAACCTATTGCCCAAGAATTTGAAACTGTTCTTAATGAATGTCAAATTTTACTAATTAGAAATCAAGGACAAATAAAAGAAGAAGAAATTCTCAGAAGAAATATTTTAAATTCTTCAACAATTCAAAAAATTGGAAGGCTAATTTCCACATTTGAAGAAGAAAAAAATAACTGAAATAAGTACTTAGAATTTTCTGAGGATTTACTAAAAATTAAAAGAAAAAGATCTTTGCCTTATTTTAATTCTATTTTAAGTACTGTACTTAGAATAGATATAAATAATTCTAATTCAGAGTTACATAATTTTGAATTACATAATTTGAAATCTTACACCTATAAATATTTAAAGTTAGATTCAGAAAATATTTTAAAAAAATTGAATATTCAATATGATAAAAAAATAGTTGTTTGTTTGGAAATACTAGTTGATGATATAGAAAAATTAAATAAGTTAAAAAAAATGCAGGATTTATCAATTGTTCCTTTTAAATTTAATAGAAATATTTCTACAACACATGAACTTTTAAAAGACATAAAAGAAATTTTTAATTTTGATTTTGAAAAAAATCATGAAGTAAGTCAAATTGTAAATTTATCAACAATGATTGGTGTAAATGAGACGAATTTAAATTTTTGAAATTATTGAGAAAATAAAAATATAATAATAGGTTCCAAAAAAGAATTAGAAGAATTGTTAGAAACAAATTTAGAAGAATTAAAAAAATGAAAAATTTTTAAAATAAATTTTGAAATTGATGAAAATTTTAATGAAAATCTTTTTAGTGTAAAGAATAATTTGGACTTTTTAACATCTGGATATTTGGCATATACAGGTATTGGAGAAGAAGTTTTAATTGAAAGAGGAAGACAAGTACTTAAAAGAATTTCAGAAGGAAATACAAAAAACCCATATCTTATAAATTATCTTTTTAATACAAAATTAATTGAATTATCTGAAAATTCTAATGAGTTATATTTAAAGGATTTTAATTTTAATTTAAATAAAGAACAAAAAGATGCTGTTCAGAAAGCTATAAATTCAAAAGATATTTTTTTATTACAGGGACCACCAGGAACAGGAAAAACTCAAGTTATTTGTGAAATAATATTTCAATTATCAAAGTTAAATAGAAAAATATTAATTTCAAGTCAAAATCATGAGGCAATAAAAAATGTTATTGATAGATTGCCAATTGGTCCAAATCTTAATAAAATTAGATTAACAAATAATATAGATTTCAATTCTTCTTTAGTGAATAATTTTTCACCTGATAGAGTTTTATATAATTATTATAAATCTATAGGTAAGAAAATTTTTGATGATGTTAATAATGATGAGAATTTAATAACAGAATTTCAAGAAATTAAAAATAAATTGGAAGAATTAATTATTTCAAATAAAAGTTATCATAAAAATAATACTCAAATTAGAAATATTCAAAAAGATATTGATGAAATAAATAGGCAAATTAATTTAATTAATGAAAAAGAGATTAATAAAATTAAAAGAAAAAATTTTATAAAAGAAAATTTATTAAATATTAATAACTTAGTAGATTCTCTTAATGAAAAAGAATTTATAAGTGTATTAAATTTTTCAGAAATCATTCAGGAATTTTTTGATAGTTCAATTAAATTTGAATTATATAATTATATTTTTAGATACTTAAAATTTAATCCAGAAGATTTTTCAAATAAAATCTCTTTACTTAAAGAAGTAGTAAATGAAATTTTTATTAAAAATGAAATTTTTATGGAAATTAAAAATATTGAAAAAAAAGTTCTTAATTATAAAAGACAAGCTGAATTTGATTTAGCAAATGAAGAAGAAAGTAGAAAAAAAGGTTTATTACAAATATTAAACAGAGATGTAAAAATAAATGAATTAAATCAAATATTTAAAAATTTTATTAGCGAATTAACAAATCAAAAAAATAAATTGGAAGTTGAATTAATATCTTTAAGTGAGAAAAATATATATGAAGACAGTCTTTCAAATTTAGAAATTGATAAAAATAAATTACTTGTTGTTAAAAATAATTTAATGGAAAATATTGGGGATGGAACTAGAAAATTAAGAGAATTAATTAAATTAATAAATTTTAAGTTTAATTTAGATTTGGGAATTACGGATGTAGATTTAGAAGAAAATTTAAAAAAAGAGTTAATAATAATTGAGAAAAAATTACTAGAAAGTAAGAAAAGAAAAACCGATTTTTCAGATATTTATAAAAATATTACAGATTATTTAAGTGAAAATTATAAAATTTCTAATAGCACATTAGAAGAATTACCTACAAGGGAATTTTCAATTCAAATGTTTAAAGAAAGTCAAAGATATATTCAAACTGTATTAGATAAATTAATTAATGTTTACTCTATGACATTAACCTCTTCAAATATTTTTAGATTTAGTAAAGATAAAATTTCAGCTAAACTTGGTCTTGAAGAATTGAATTTAAAAACAATGGATGTAGATGTTGTAATTATTGATGAGGCTTCAAAAGCAACCTTATTAGAAATACTAATGCCACTTGTTTATGGAAAATCTCTTATTTTAGTTGGAGACTATCGCCAACTTCCTCCAATTTTAAAATTACAAAATGCAGACATTGAGGAAGTTAATGAGCTTTTTAAAAAAGATTATAACTATAATGATTTTTATGAGTTATTAGATTTTTCAGTTTTTAAAAAATTAATTTCAGCAAATAATAAAAATGTAACTTCCATTTTAAAAACTCAATATAGAAGTCATGAACAAATTATGGAAATTGTTAATAAGTTTTATGACAATCAATTAAGGATGGAAACACAAGTAAGCGAACAAAAGAAACATGATTTGATTATTTCTAATTCTTTAAAAAAAGAGATAATCAATTCAAGAAGCTCGGTTTATTGAATTGATTCTTCATATAAAAAAAATAATGAAATTAATTTTGAACAAGGAGAAGAATATTCAACTAGTTTATTTAATGATCTAGAAATAGAATTAACAAATAAAATTTTAAAAAAAATAAATGAAGTAGTCGGAGAGAAAAATTCTATGGTTAAACCAAGTTTAGCTATTATAAGTTTTTATGGATTACATGTTAGTAAACTAAAAAAATTTATAAAATTAAGTAATTTTAAAAATTTAAATATTGTTATAAATACAGTAGATGATTTTCAAGGAAAAGAAGCAGATTATGTAATAGTTAATTTAGTTAGAAACCCTAAGAAATTATCTTCAAAAACAGGAAGAGAATTTTTAAAAAAATATGAAAGAATAAATGTTGCACTTTCTAGAGCAAGAGAGTTACTTATAATTATTGGTTCTGAGAGAAGTGTTGAAGATATTACAGTTAAAATACCCACTGTAGGAAATCCAAACTTATCTAATAGTTATGAAGTTTATTCTGAAATTATAGCAAAATTGAAATTTAATAATAGTTTTTTAATACCAATAGAAATTGATTAGGAGTAAAAAAATGATTTTTGATAAATTAGAAATAATATATGATAAACAATATATTCCATTAAAAATAAAATATTCTGAAACCAGAAAACCAACATTTATGGAATTTTTATTATTATTAATTTTAATTGATTATCCAGATAAAACTCAAATTTTAAAAGAAGCACTTAAATCATTTTTTGATGTAGAAAATATAAGTTTATTTGAAAAAGCATTAAGAGATTTAATTAATTACAAAATTTTAGATATAAACAAAAATAAAACAGGTCTTGGGATTTTAAATATGGATAGTCCAATTGAGTATTTTGAAGTGAATGATAAAATAAAATTTAATTTTGTAAAGTCTAATTACTCTATCTCCAATGAAAATAAATCACAGGACATAAAATATTACTATGATCCAATTTTAAATGTGGAAGAAATTTTAAAAGAAAGAACCTGAGATAAAAGAATTAAAAATGTAAAAATTTCTCATAAATTATTGGTGAATTCAAATTTTGAAAAAAATATATCACAAAGTAAAATTAACTTAATGATTAAAAAATTTATAAATATAAATAAAGATATTTTTGGAGAAGAATGTTTACTAAAGGAAATAACAATTGACGAATATAATTCACTGGAAAAATTAAATTTTTTTAATGAATATATTAAATATGATTCAGTTGCAATAGAAATAATGATAGAAATTTTTGAAAATGAATCCTTTAAAATTAAATCTGAAAATAAGGAATTTGAAAATTATTTAAGAAATAATTCAAATATTGCAAAAGAAATTTTAATTGATATTTGTAATCAATACGAAAAAAAACTTAAAAATAAATTTAGACCTGAACAAAAAATTATGAAATTAGAAAAATACAATTCAGAATTGGATTTAATTTCGAATATAAATATTAAAACAAATTGAAATTTATTATTAATTAATGATCAATTTATTGAATCAGATACAGAATTTTTAAAAAATAAGGAATTAATAAGAAATATTGATATAATAATTTTTTATAATTCAAAAAGAAACAACAGAAGTTTACAAAATTTAGAAGGAAAAATAGTAGTATATTTTGATTATATTGAAAATGAAATATTATTAGATAATTCATTTATTTATTTAGATTCACAAAATCATATGAGTGGTTTTTTAATAGGAATAAAAAATCTAACTACTATTAATAAAAAAATTCCTGTAGTTTATTCTTATAAGAATCCAAAAATCAATTTAAATTTAATTGAAATTTTTGAAACTAGTATTAATTCTTTACTTGAAACTTATAAAATAAGTCTAAAAAAATTAGATTATAAAAAGGCAGCAGAAATATTTACTGTTTTAGAAAGAATTGGTTTAGAAAAAGAAGTTGAAGAGATATCATTTTCTTATATTTTAGATGATTTAGAATATGGTGAAAAATATAATTCAATAAAAGAATTTTTAATAGAAGAAGATTATAAGAATTATTTAATAATTTTAGAAAGAATAGTTACAAAATGTATTATTGAAATTTCAATGAAAAAAAATGATGATGAAATTTTTGATATAATTTCAAAATTTAATTTCTTAAATACAAAAAATATAATAAAAATATTTAACGAAATTAATATTTCAGAATCTTTTGAAAATATACTTATATTAAATAAATATTTAAAGTCTTTAAAAATTGATGGCTGGCGTATCAATATAAGAAATTCATTGATAAAATTAACAGAGTATTTCAAAAATAATAATAGAGCAGAATTATTTAATTTGGATGATTTTAATTCAGAAACTTGAATTTTACATGCTTCAACTTTAAATAAAATTGGAAATTTAACAAAAGAGCTTTATAATGAAAATTATAATTATGTGGAAAATAATTTTGAAGAATTTTTATCTTCATTAATTGATTTAATTAAATCTAATGTTGAAATTGAACAATACGATAAATATTTATTAAATATTTCAGAAGCTTTGATTGATTTTTACAAAAATTTTTATAAATATAAAACAAAAACATTATCTATTGAATCTCAAGAAGTTGTAAATTATAAAATAACATTAATGGCTATGAATTATTTGAGTAAACTTGAAGAAAAAACTAACAGCTTAATTAGTAGTAAATATTATAATATGCCAATCGAGATAAAATTAGAATGAATCAAACATATTGAAAATAAAAGAGATGAAGTAAATGAAATTATGAATAATAATGATATAGCTTATAAAAAAGCATTAAATATTATTTTTGGAAAAAAACAAAATTATAATAGTTCTGATATTGAATACTATAAAAATTTTTTTGGAGGTAAATAAAATGAGTATGTCTGCAGAGGAAATTCTAATAAATTGTGAGAAACAATTTTCTTTTTTAAAAAAAGATATTGAAGTTTTAATTTCTTATATTAACGAATTACTAGCTCAGTGTAAAAAGATAGATAATTCAAATTTTTTTCAACAACAAATAAATTATTTTTTGGAAAAATTAAAAATTGAAAATAAAGAATTAATTGAAAATGCTTTTGAAAAAGAAATTTCAAGTGATGTTCATGTGGAAATTGAAAAGTATCATGAAATACAAAGATTTGCAGAGAAAAAGCGAAATAATATTACTGACTTAAAAACAAAAATATTTCTTTTAAAAAGTGATATTATAAAAAAAGAACAAATGCAAATAAAAAAATCATTAGAAAAAAATTATTTTTCAAATATTTTAGATTTAAAAAAACAATTAATAATGAATTATAAAGATGATCAAGATAAATTATTTATTAAAAAATTATTTGAAGATAAAGAACATCTTTTTATAAATAAAAAGAAGGATAAAATATTGAGTTATATTTTTATTGAGTTAGAAAAATACAAAACTTCAAATAAAATAATATTCGAAGAAATAATTTCAAATTCGATAGAATTATATAAAGATGATCAAGATGTATTTGCAATAGTAAAAAATGAAATGAAATTATTATCAGAAAATAAAGATAATGAGAATATAAATGAAATTATAAGTAAGTATTTGTATAATTCATCCAAATTGGCAGAACAAGAAGTTATTAGAAAAGATAATGTTTTAAAAATTGTAAATGCAATAAGAAAAGTTGGTTATATTGTTAACCCGAATAATATAAGAAAAATTAAACAAAAAAATCTTATAATTATACATGGAGAAAAAATTACAGGCGAAACTGCAGATTTTGCTGTTAGACATGATGGTAGCTTTATCTATAACTGAGAGGGTTTTGAAGGACGCCAACATGATGAAGATGCTAAAGCTTTTATAAAAAAACTTAAAGATTTTAATATTCATGCAAGCAATGAATTTAATAAGCAATATAGAGAACCAAAATATATTGCTAAAAGAAAAAAAGTAATAACTGAAAATAATACAAAGAAGGATAAGTAGGTAAAGTAATGAGTACAAAAAAAAAATTAAATCAATTAAAAAATCTTATTGGAATTAAAAAGGCAATAATTGTTGAAGGAAATATTGATGATATTTATGAATACAAAGGAAGATATATTAATATTCATGAAATTATTTTTAATATTTTTGATGAAAAAAAGTATTCTGATAAATTTATATTTGATCAAAACTCTGGATTAAGAGGTTCAAAATTTTCAAATTTACTTTTAAATGATAATCAAATTTCTAATCAACAGTCTTTAAATGATTTTGAAGAGTTATTTTCTGATAATACTCAGTCATCTTCAGAGGACTCTATAAAATTTAAAAAACCAATTGATTTTTTTTCAATTTTAAATAAAAATTTAAATAGAATAGATAATAAAAAAATAGTTTTTTTAGCAGATTATACTAATTTTGTTTTTGCTGATAATTCATTAGAATTAGAAGATAGAATTGTATTAACGGAATTTTCAAAATCATTAAAAGAATCTGAATTTTCAATTTCAAAAATTGATGAGTTATCTAATTGTATTATTTTTTTAACTAAAAAAATAAATCAATTACCACCAAATTTATATTTAGATAATCCAGAAATTTTAATACTTACTATTCCAAAACCAAATAGAGAGGAAAGAAGAGAATTTCTTTCAACTCTAAAATCATTAATATCTGTAACAGATATTTCATTGGAATTTGAAAATATAGTGGATGCTACAGAAGGTTGAACTTTAAAGGAATTATCTCATTTTGTAAAGTTTTCTTGTAATTTTGCACAACCAATAACATTTAATAAATTATTTAATATTTACAATTATGGAGAAAAAATTTCTCCATGAGAAGAATTAAGTTATGAAAAAATGTTAAGTATTAAAGATGTTTTGTCTTCAAAAGTAATTGGTCAAGAAGATGCAATTTCAAAAGTAATAAAAATTATTTATAAGGCATATACAGGACTAAGTGGAGTTACTTATTCTTCAAAACGTAGTAAACCAAAAGGAACATTATTTTTTGTGGGTCCAACAGGTACAGGAAAAACAGAGTTAGCAAAAGCAATAACAACATTTTTATTTAATGATGAAACAAATTTAATTAGATTTGATATGTCAGAATATGGACAAGAAAATTCTGATCAAAAATTAATTGGGGCTCCTCCGGGCTATGTTGGTTTTGAAGGTGGAGGTCAATTAACAAATGCAGTAAAAGAAAAACCTTTTTCTGTAATTCTTTTTGATGAAATTGAAAAAGCAAATCCTAAAATATTTGATAAATTCTTGCAAATTTTGGAAGATGGAAGATTAACAGATAATACAGGACAAACAGTAAGTTTTAGTGAAACTTTTATAATCTTTACTTCAAATATTGGTGCAGCAGAAGTAAGTCCAAATCAAGAAAGTACTTTAATATATAATGAATTTATAAGAAAAGTGCAAAACCATTTTACTAATGAATTAAATCGACCAGAACTACTTGGAAGATTTGGAAATAATATAATTCCATTTAATTTTATTAAAGATTTATCTTTAAAAGCAAAAATTATTAAGCAAAAGGTTAAACCATTGCAAATTGCTATTTATGAAAAATACAAAGCTAAATTATATATTGACCTAAATGATCAAAATATAATAGAGATCATTTTACAAAATGCAGATGAAAGAAGAGGAGGAAGAGATGTTTTAAATTCTTTAGAAACAAATCTTGTTGATCCATTATCTGAATTTATATTTAAAAATTTACAAAATATTAAACCAGGAGTTAAAATTCAAGTTTTTGTACAACAAGGAAAAATTAACTTTAATATAAATGGCTAATTTAAATATGGGTAAATTTTTAATGAATAGTGAAATTGAAGGACCTGGAATAAGATTTGTGATTTGATTTCAAGGATGTAATATTGGGTGTAAGGGATGTAGTAATCAAGAATTATTAGCATTAGATAAAAAAATGTTTATGCCAACAACATACATTTTTGAAAAAATTTTGGAAGCCAAATCTAAGTTTAATATTGAAGGAGTTACTCTTTTGGGTGGTGAACCATTTTTACAACCTGATGGACTCAGTGAATTGGTTATTTGATGTCAAAAAAATGGCTTAACAGTTATTTGTTTTACAGGCTATATTTATGAAAAATTACTTGAAGAATATAGCGAAATTTTAACTAAAATAGATATTTTAATCGATGGACCTTTTATTATGAAACTATTAGATAGAAAAAGACGACTTGTTGGAAGCAAAAATCAAAGAGTCATTAAAATAACAGATAAATATAAAGACTGTGATTATTTTGAGCAACCACATTCAGAGGCAGAAATTCAAATTTATAATAATAGACTTTCTCTAAATGGAGATGGAGTGATTTTTGATAATGAAGAAGGGGAATTTAATTTTAAATTGAAATAAATTTTCATAAATTTTGATTTAAAATTAAAGAGTAATAATTCAATTATTACTTTAATAAAAAATAAGAAGATTAAGTTGAAATACTTGTAAGTAATTTTATTACTTACCTTAACCTATTATTATGAATATTTCAATTAATAGGCAATTTGTAACTTATGTTACCTTTTTATAAATCTCTTCTTAAAATAAGAAAGGAAATTTAAAATGACAAAAAGTTTAGAACTATTAAAAAAAAGACGTTCAGCAAAAAGGTTTGTAAATGATTTTAAAATTGATGATTCAAAATTAAATGAATTATTAGAATCAATAAGAATGGCCCCTTCTTCATTTGGAATGGAACCGTTTAGAGTGATTTATATTGAAAACAAAGAAATAAGAGATGAGTTATTTCAAGCTTGATGAAATCAAGTTGGAATAACTCAGGCTACTGGTTTATTAATTTGAGTGGGATTTAAGGAAGAATACATAACAAAAACATTAATTCCAGAACAAAATCAAAGAAATATTCCAGAACAATTTGCAAATATTAGAACTCAAATGGTGGGAGGCTTAACATCAGCACTTGCTGTTCATGGTATGAATTATGAAGAATGAAGTGCAAGACAAACATATATATCAGTGGGAACAGTATTAAACACAGCAGAAGAATTAGGAATTGATTTATGTCCTTCTGAAGGATTTGATCCTAATGAGGTAGCCAAAGTCTTAGAAAAACATAATTTAATAGATATAAAATCTGAAAAAGTTATGGTAGGTTCATTTGTTGGAAAAGTGGATACTAGTCAAGATTTCCATCATTTCTTTGAAAAAACAAGAAAACCGATGGAGCTTGCAGCAAAAGTAGTTAAATAATTTTATTTAAAAAAGTAAGTCAATTTTGACTTACTTTTTTATTTTTTTTGACTATAATTTTCATTGGAGGAAGACAATAAAATTTTTAATTAGAAGTCGTATTATTTTTTATTCCAAAATAACTTTTTAATTTACTTTAAGAAGGGAGAAAAAAATGAATTCAACAAATAGCAGTAGATATCAATTAATATTTGATATTACTATTTCTGCAATATTTATTTCTTTAGCAATAAGTTTAAAAATTATCTTTTTCTTTATACCAAGATTTGATTTATCAATTTATATTTTATGTATTTCTGCACTTTTTTTAAAAAATAAAATTGCACTTTTAGTTACAATTGGGGTTAGCTTATTATCTTTTTTTGTAGAAAAAAGTATTATTGAATGGGCAAGTTATATGTTAGTTTCAATGCTAATTTGTACGATTTTTATTTTAATAAGAAAATTTATATTTAAAAATAAAATTATTTTATATGCACTTTTACCAGTTTTAGTTTTATTATACTCAACAGTTTCACTTTTTACTTGAATTGGTCTTTATGGAAAAATTGAAAAATACGCATTGTATTTAAGTAATTTATCTTCTGCATATATTATTTGTTTTTTATATACATTTGCTACACCACTAATATTTTTACCAACTCTTAAATTATTTGAAAATTTATTTTTTAAATACTCATCTTGCTTTAATAAGATTTTTATTAATTATTTTGATTCAAAAGATGATAATTTAATTTCTATTTCAAATCAAAAAATTAATTATAAAGTTCAGCTAGTTATAATGATATTTTCAATGATGCTACTAAGCGCTTACTTTAGCTATTTGCCTTACAAATTAGCGGTATGATTTAATATTTATTATGTAATTTCTATTCTAATAGTTCCTATTTTAATGTTGTTTGTTACACCCTTATGGATGAAAATGGCAAAAAGAAAGGGGAATAAAAATGTTTTACAAGTTAATTCAATTGGAATACTAATTGCAATAATTTTTACTTTTAGTTCATTTTCAACAACAAATATTCTTTTTTCAAATATTTCTATTTTTGTAGGAATAATTTTATTTGGTAGTTTTATAGCAGGTTTTTTGCCAATTAATATAGAAGCTATAAAAAGTTATGAAAAAAGAAATAATTTAAAAAATAAAACAAGCAAATATAATGCATTATTTGAGTTTTGACTTATTCCCTTGCCTTTTTTATTAGAATTATTTACAAAATCAACATATGTTATGTCTTTATTTATGTTTATTCAATTTTAATTCCTATTCTTATTATTTGTAATAAGAATATTATGTCAGAAAAAAATGTACTAATTTTTGATAAAAAAGCTATTAATACACTAAAACAAAATAAAGATTTTTTCATTCAAGTATTTATTCAAAATTATTTTATTGGATTTATAAAATTTTTAGAAATATCTTTAAGCATTTTCTTTTTTATAAATTTATATCAAAATGAAATAACATTTAATTTTGATATAAAACAAAATTATGTCTACTTATTTATTATTTTTAGTTTTGTTTTAAAGTATTTAAGTCAAGAAATTTTTAAATTATTTAACTACAATAATCCAAAAATAAATAGAGTGGGTATTTTTTTTAGTATTTTTTGGAATATCTACTTTATTAATAATTTATAGATATATTAATTTTGCAAATGCAAATTTAATATATAGAATTACCTTATTAGTTTTAATGATATTTTTTGGAATAGGATACTCAATAATAGAAAAAACTAAAATATTAAAATATAAAAGTATGGTTAGCAAAAATAAATTTTCACTAGCAATGATTATTGATCATGTAATGGGAATGCACTATTTTCATTATTAATTACATCAATATTTTTTGTATTAATCATATTTATTAAATTAAGTTTAATAAATTTATTAATTTTAATTAGTTTTATTTTATTATTTGCAATTTTATTATTAATAACTGAATTAGCATTTAATTTAAAACGTATAAAGTCTATTTTAAATAAAATATAATAATTTCTTTTTATATGTTTAAATAAAAATATAATAAAAAAAAGGTTCTATATGATAAAAATAAATGAGAAAGAATTTTTAATCGGTAATAATGATTTCGATGGAAAATCTACTGATTTTGAATCTCCACCAAAAATGGTGAAAGTTGAAAGTTTTTGAATTGATGAAACTTCAGTAACAAATCAGATGTTTAAAGAATTTGTGGATGAAACAAATTATTTAACTGAAGCAGAAAAAGTAGGGTATTCATATGTATTTCACTTACAATTAACTGAGGAAACAAAAAAGAACAATGAAAAATTAGCAGGTTTAGATTGATGATATGAAGTAAATGGTGCATTTTGGAAATGTCCTTATGGACCTAATTCAAATATTGATAATATTTTAGATCACCCTGTTGTACATGTTTCAAAAAATGAGGCGGTAGAATATTGTAAATGAGCTAAAAAGAGATTGCCAACAGAAGCGGAATGAGAACTTGCAGCAAGAGGTGGAAAATATAATACTAAATTTCCTTGGGGAAATGAAAAAAAAGTAGAAAATAAATGAATGTTAAATATTTTTCAAGGTAACTTTCCATATGAAAATACATTAGAAGATGGTTATTTAGGAACTTCACCTTGTACTGCTTTTCCTCCAAATTCTTATGGAATTTATCAAATGCTTGGTAATGTTTGAGAATGGTGTTAAAATCCTAAAGGTATAGATTTTGAAGATTTTAATAACAAAACTGCGATTCACTTTTGAGAGAGTTGCCAAAATTATTCAAATAAATTAGTAGCAATTAGAGGAGGTTCTTTTTTGTGTTGTGATGATCTCTGTGAAAGATATAAAGTTTATTCTAGAAATGGTAACTATGCAAATTCATTTTTATCAAATTTAAGTTTTAGATGTGTAAGTGATCAGGAAGAATAAATAAAAACCCAAAATTTTGGGTTTTTATTTATTGATTTGAATTTTTATTTTTATAAAGTTGAAAAACATTTTGTAACAAACATGCAATTGTCATTGGACCAACTCCACCTGGAACAGGGGTAATGTATTTTACAATAGGATAAACTTTTTTAAAATCTACATCACCACAATATTTTCCTTCAAAAAAATTAGCTCCTACATCAATAACTGTCATTTTTTTATTTACAAATTTTTTATTTACAAATTTTGGAGAGCCAGCAGCACTTATTAAAATATCTGCTGCTTTACAAATTTTTGAAAGATTTTTTGTTTTTGAATTACATACTGTAACTGTTGCAGATTTATTAATAAGCATATTTGCAAGAGGTTTTCCAACAATGTTACTTCTGCCAATTATTACTACATTAGCTCCAACTATATTTATTTGTTTATGTTCAATTAATTTAATTATTCCAAATGGTGTTGCTGGAAAAATATTGGAATTATTTAATATTACATTACCTAAAGTAATTGGTGAAAATCCATCAGCATCTTTTTCTGGTGAAATTAATTTTGTTATTTTATTTTCATTTATATTTAAGGGTAAAGGTAATTGAAGAATAATACCATCAACTGTTTCATCATTATTTAATTTGTTAATTATTTCAATTAATTCATTTTCTTTAATATTTTCTTCTAATTTAATTAGTGTATTTAACATTCCAACATCATTGCAAGCCTTAATTTTATTCTTTATATATTTATTACTTGCACTATTATTTCCAATTTGAATTATTGCAATTTTTGGTAATCTTTTTTTCCCTAATTGCTCTATACTATTTTTGAGAGCAGAATTTAATTTTTGAGATAAAAATTTACCATCAAGTATTTTATCACTCATATTAGGTTCCTTTCTAAAATATTTCTCAAAGGTGATTATAATGGAAAAAATAAAAAAAATATTAAATAAACTAAAAATAAATGATGATGATTTGAAATTTTATGGAAATAATATTACAAAGATAGATTATGAAAACTATTTTTGTAACAAAAAAAAGGGTAAATTAATTTTAATGACATCTATTAATCCTACACAAGCAGGAGAAGGTAAAACTACAACAGCAATTGGATTAGCAGATGGTCTAAATTATTTAAAAAAATCTGTAATTTTAGCTTTAAGAGAACCATCAATTGGGCCAGTTTTTGGACGTAAAGGTACAGCAACAGGTGGTGGAGAAAGTGAAATTGAACCTATGTCTGAGATAAATCTTCATTTTACAGGAGATATTCATGCAATTTCAACTGCAAATAATTTAGTATCTGCAACAATTGATTCAGAAATATATTGAAATTCAAAACTAAACTTTGATTCAAATAGAATAGTTTGAAAAAGATGTTTGGATTTAAATGATAGAGCTTTAAGAAATATGGAAATTCAAATTTCCAAAAATGTTTCTAGAAAAGAAGAATTTACAATAACAGCTGCAAGTAATATGATGACAATTTTGAGTCTTTCAAAAAGTGAAGAAGATTTAAGAGATAGAATTAATGATTCATTAATTGCATATGATAAAAATGGTGAACCAATTTTTCTAAAAAGTCTAGAAATTACAGGATCACTTATGGTTTTATTAAAAGATGCAATAAAACCGAATTTTGTACTTACAAAAAATGATACTCCAGCTTTAGTTCACTGTGGACCATTTGCAAATATAGCAACAGGTACAAATTCAATAATTTCTACAAATTTAGCTTTAAATTTAGCAGATTATTGTATTGTTGAATCAGGATTTGGAAGTGATTTAGGATTTGAAAAATATATGAATATCATAAATAATGAAAATGACTTAATTCCTGATTGTGTTGTTATGGTTATAACTTTAAGGGCTTTAAATTTACATAAGGATTTTGAAAATAATTTTACTCACTTAGAACAACACTTAAAACATGTTAGATTATATAATTTAAATTTAGTTGTAGCTATTAATTTTATTAATGGAGATAGTGAAAAACAGTTAATTGCTCTTCAAGATTGATTGACTAAAAATAATTATGAATGAGAATTAAATGAAGCGTATAATAAGGGACCTATTGGAGCTGTGAATTTAGCAAATCGTGTTATTGAAAATTCAAATAGACAATTTAAATTTAAAACTCTAATTAATTCTCAAGATTCAATTAAAGAAAAAATTAAGAAAATAGTTAATAATTTTTATTATCTTAATGAAATAAATTACACAGAAAATGCAGAAAATTCAATCAGTCAAATTAATCTTTCAAAATATAAAGAATACCCAATATGTATGGTTAAATCATCAAATTCAATTGATGGAAATGATTTTAATCAAAAAAATTATAAATTAATTATAGATAAAGTTATTGTGAATAGTGGAGCAAGATTTATACTTGTTTTTACAAATAATGTTATGAGTATGCCAGGCTTAAATAAAAATCCAAATTCAAAAATTATTGATCTCGTAAATAAAAAAGTTTGCGGTTTAAAATAAAAATGTAACCTTATAAAGTTACATTTTTATTATTTTTTAAAGTAGTTTAGACCTAAAACCTCTAAACTTGCCAATGTAATAAAATTATATGGCTTATTAAAGTGAGGCAAGAAGAAAATATCAACTAAAGGTAGTTCATCAATAGTCAATCCTTTTTGAATTGCTAATGCAAACATATACATTACCTCAGTATGATTATTAATTGATGCAACTTGTGCTCCAATAATTCTTCTTGATTTTTTATCTCAAATAATTTTTATTGAAACTTCTTTAAATGATGACATAAATTCAGGTCTATCCGAATCTTTAAAAATAACCTCTTCAGCATCAATTCCAAATCTTTTACATGATTCCATTGAAATTCCAACCGAAGCCATTTTTCAACCAAAAACTTCAATACCATTTGCTCCTGTAAAACCTGGACTAGATAGCTCATTACCTTTTACAATATTTACAGCAGCCATAATTCCAGTTCTAACAGCTGTTGTAGCTAATGCTATTTGAGTATCTTGTTTTAAAGAACAATTATAAACTTGTGCACAATCACCAACTGAATATATATCCTTATTTGAAGATTGCATAAATTCGTTTGTTTTTATTGCACCTCTTTCATCTAGTTCAATAATTCCTTTTAATAAGTCTGTTTGTGGTTTAACCCCAACAGAAAACACAACGTAATCAACTTCAATTTCACCTTTGTCTGTAATTACTTTTTTAACTTTTCCATTTTCACCCTCAAATTTAACCACTTTTTGACCAAGTGCTAAATGAACACCTTTTTCTTGCATAGTTTTTTCAACTAATCCAGTAAATTCGTGATCATAATAAACAGGCATAATTCTATCTGCTATGTCAACTAAGGTTACTTCTTTTTTTGCTTCAACAAAAGCATCAACAAGTTCTACACCGATATATCCTGCTCCAACTACAGCAACTTTTTTAATTTCAGGGTTATCATTTGCAGCTTTTATTTTTTGTGCATGATGATAATTTTTACAAATTTGAACACCGTCTAAATTAATTCCTTCAATTGGTGGAAAAATTGGTCAAGTACCTGTTGCTATTACTAATTTATCGTAATTGTCTTCAAATTCTTCTCCTGTTTTTAAGTTTTGAACTGTTATAGTTTTGTTTTTTTCATTAATACCAATTCATTTATGTTCCATTTTAACATTAATATTTTCTCCTGCTAATATTTCAGGTGATGCGTAGAATAATCCTTTTGGGTCTTTTACTTCTCCTCTAACTCATAAAGCTATTCCACACCCTAAAAATGAAATATTATCATTTGCATCATAAGTAGTTATTTCCATTTTTGGATCTAATCTTCTTAAAGTTCTTACTGTTGTTGTTCCAGCATGATTTGTTCCAATAACTATTGTTTTCATTTTAAATACTCCTTTTTTTATAATTACACTATAATAATATATGAAATATAAAATCATTACCTATTTTTTTGATTTTTTCTATTATTAAATAATTTTTTAAAAATTTTACTAAAGAGGTGAGAGAGTGTTTTTAAGAATTACAGGAGATATAAATTACTATTTAAAAAGAGTACAATGAATTAAGTATTTTGATGAATTTAATATTTCAAAAAAAACATCTTTTTATATCAGAAAAATTGAAAAAAAAGTTAATGATAAAAATACATTTACTTATTTTAAATATTGAATTTTATGAAAATGAGTAAATATGAATTTTGAATTAAATGAATCTTTTATTTTTCATTTTAAAAGAAACATAAAAAAAATGAATTTAACATTATCTGCAAAAGAAGAAAGATTTCTTATTGAAGTTGAAGAATTAATTTTTAACTCTTGAAGACCTTTAAAACAAATTCCTGTTAAATTTAATTTGGATAAAAAAGAAAAGATAAATTTACTTCAAACAAATGTAAATGTTCATATTTTCAAAAAAGACTTAATTGAAAAAAAAGTAGTGCAATTAGGAAAATTTGATTTTTACTTTTCGAATAAAAATTTATTTTTTACAAATTCTTTTCAAAAAATTCAAAGAATAATTAATTATGAAGAAATTAAAAGTGTAACAGCTGAAATATATGGAATTATTATTGAAACAGAAGATAATAAATACTTAATTAGGGGTAAAAATAAATTATTAACCTATGTTTTATTACAAAGAATGGTACCAAAATTGAATTTAAATATTAATAATATTTCAAAAATATATAATTATTTTGATTTTTGAAATATTTTACTATTAAAAATAAATTAAAATATTACATGGAGGTATAGATAAATGAAAGTAATTAAAGTTATAAATAATAATAAAGCTGGAGAAGTAGCAGGAGATATTATTTTAAATATTGTTAAAAATAAGGCTAATGCAATTCTTGGATTGGCAACAGGTAGTACACCAATTTCTACATATAAATATTTAATTGAAAAAACTAAAAATCAAAAAGTTGATTGATCAAATATTAAATCATTTAATCTTGATGAATATAAAGGTCTATCTTCAGAACATAAACAATCTTATAGATATTTCATGAATAATACTTTTTTTGATCATATAAATATTGATAAGAAAAATACATTTGTTCCTGATGGTTTGATTGAGACAAATGAACAAGCTGCTAAATATGATAAAGATATAAAAATGGCTGGTGGAATAGATATTCAATTGTTAGGATTAGGAATTAATGGTCATATTGTTTTTAATGAACCAGGAACTTTGTTTGATTCTATTACTTCAATTGTAGATTTAACTCAATCTACAATTGAAGTAAACTCAAGATTTTTTAAAGATAAAAAAGATGTACCCAATCAAGCAATTTCAATGGGTCTTAATTCAATTATGAAAGCAAAAGAAATTGTTTTAATTGCCACAGGTAAGAGTAAAGCAGAAGCAGTTAAACACTTAATTGAAGGACCAATTTCAAAGGATTGACCATGTACGATTCTATTAGAGCACCCAAATATAACAGTAATTATTGATGGAAGAAGCATCAGAATTACTTTCTTAAAATCCTTTAGAGGATTTTTTTCATTGAAATTTAATTAGGACTACTAATAGTGTAGAATCAATTATGTAATTATGTTAGGAGAAATAAAAATGAGAAAACAAATTATTGTAGGAAACTGAAAAATGTTTAAAAATAATTCTGAAGCAGTTCAATTTGTGAAAAGCATTGAAGAAAAAATTGTAAAAAATGAAAATTTAATTGCAGGAATTGCAGTTCCATCAGTTATGTTGAGCGATGTGAAAAAAATTGCCAAAAATATTATTATAGCAGCTCAAAATTGCTATTTTGAAAAAGAAGGAGCTTTTACAGGTGAAATTTCAATCCCAATGTTACAAGATTTATCAATCAATTATGTAGTTATTGGTCATTCAGAAAGAAGAAACATTTTTGGAGAAACCGATGAAATGATTAATAAAAAATTAAAAGCATTATTATCTGCAAATATGACACCAATTTTATGTTGCGGAGAAAGTTTAAAAACTTATGAAAAAGGAAAAACTGTGGATTGAGTTAAATCTCAAATTTCAAATGCATTTGAAGGTGTTTCTGCAGAAGAAGCAAAAAAAGTTGTAATAGCTTATGAACCAATTTGAGCAATTGGTACTGGTAAAGTAGCTACACCAGAAATTGCACAAAATGTATGTAAGGAAATTAGAGAAATTATTAAAAATCTTTATAATCAAGAAATTTCAGATCAAATACTAATCCAATATGGAGGAAGTGTTAAACCAGAAAACATTAAAGATATTCTTGAACAAGAAGATATTGATGGTGTACTAGTCGGTGGTGCTTCATTAGTCGTTGATTCATATTTGGGATTAATAAACTTTTAAAAGGTATACAAAAAATGAAGGAAAGTAAATTTAAATTAGTTGCATTAGATATGGATGGAACAACTTATGAATCACTTGGAAATATTGTAGAGGAAAATATTGAACCAATTAATAATACAATAAAAAATGGAGTAAAAATTGTTTTTGTAACCGGAAGACCAGTTCATTCAAAAATTAATAGACTTGAATTATTTAATTTTGATAATGATGAAGAAACTTTATTTGCTGGTTTTAATGGAGCTTTAATTTTTGATATTACAAATAATTTGAAAATTGATGAACAACCAATTTCAAAAGATACTGCAAAAGCAGCTTTTGATCTTTTGAAATTAGAAAAATTTAAAGATTGTAATTTATGAGCATATACTACAAATCCAAAGATTTCATATATAAGTAAAGACTTATTTATTGCAAAAGATCTTCAACACGAAGTTCCTTTTTTTGGTTCAGAGCCAATAGTCTATAATGATAATCTTGAAATGTATTCTTGCTATAAATTTTTAATGTTTAATGGAACAATAGAATTTGCAAATGAATTAAGAAATTTAAGTTTGGAAGTAGCTTGAACAGAAGGTTCATTTGCAGGAGAAGTTACAAAAAAAGGTATTAATAAAAAGTATGCTCTTGAATTTTTATCAAAAAAATATTCAATAAGACAAGAGGAGATTTTGGCAATTGGAGATGGTGCAAATGATATTCCTATGTTTGAATTTGCAGGACATTCAATTGCACCAGCAAATGCTCATGCTGATGTTAAGAAAAAAGCAATTGAAGTTTCAGATTTTAAAAACACTGAGGGTGTTGTTGCTAAAGCACTAAAGAAATATATTTTAGGAGAAAATTAATATGAAAACAAAAAGACCAGTAGTTTTAACAATTTTAGATGGTTGAGGAATAGCAGAAAATTCAGAGGGAAATGCTGTTTTTCAAGCAAATATGAAATTTGTAGAAAGTTTAAAACAAAAATATCCTTGAGTTTCTGCTCATGCCAGTGGTGAATGAGTTGGTTTGCCTGAAGGACAAATGGGAAATTCAGAAGTGGGTCATATACATTTAGGAGCTGGAAGAATAAAATATGAATCACTTTCTTTAATTAATAAAGCTATTAAAGATAATGTTTTCGATTCAAATTTGGAAATTCAAAATGCAATTAAAACTTCAAAAGACAATAATAGTGCATTTCATATAATGGGATTATTTTCTGATGGGGGAGTGCATTCTCATATGCAACATATGTTTGCTACTTTTGAAGCTGCTGCAAAAGCAGGTTTAAAAGAAATTTACTTACATTTATTTACAGATGGAAGAGATACAAAACCAACAGTTGCGTTAGATTATTTAGAAAAACTTTACAATTTATTTGATGAATATAAAGTTGGTGAAGTTGGTTCAATTTCAGGAAGATTCTATTCAATGGATAGAGATAAAAGAATGGAAAGAACAGCTGAAGGTTATAACTCTTTAGTAGATAGAAAATGTAAAAATTCATTTACAAATCCATTTGATTATATAAAATCTCAATATGAATTAGGAAAAGATGATGAAGGAATTTTGCCTGCATTTAATAAAACATGCAAAAATGGATTTATTAAACCAAAAGATACTTTAGTTTTTGCCAATTTTAGACCTGATAGAGCTATTCAAATGGCAAGTACATTTACAAATAAAGATTATTCTGCTTGATCAGATGATGCTTTTAAAGGATTAACTTTTTTAGGAGATAAAATACATTTTTTAAGTATGATGGAATATTCGGCGTCTGTAAAATCAAATTTTATTGCATTCAAATCTATTGAAGTTATTAATGGTTTGGGAGAATGAATTAGTAAAAAAGGATACAAACAATTAAGAATTGCAGAAACTGAAAAAATTGCTCATGTTACTTTCTTTTTTGATGGGGGTAAAGATTATTTTAAAAATGGATTAGCATCACCTGAAGAAATTAAGTTAAATGGGGCATCAATTGATTTAATTTCATCACCAAAAGTTGCAACTTATGATTTAAAACCAGAAATGTCTGCAATAGAAATAACTGATAAACTTGTTGAAAGAATTAACTCAGAAGAGTTTGATTTAATTGTTTTAAATTATGCCAACTGTGATATGGTTGGGCATACTGGAGTTTTAAAAGCCGCAATTCAAGGAGTAAAAGTTTTAGATGACCAGCTAAAAAGAGTTTATGAGGCTTGCACTAATCATGGGGCAACAATGATAATAACAGCAGATCATGGAAATGCTGAGGTTATGATTGATAATGATGGAAGACCAAATAAAAAACATACAAGTCAACCTGTTCCAATAATAATTACAGATAAAAATTTAAAACTTAGAAAAGATGATGCAGCTATTGCTGATGTTGCTGTTACAATTTGCGAAATGATGGGTATTGAAATTCCATCTGAAATGACTCAGCCTTCTTTAATTGAAAAATAATGAAAAAAAGATTTTTAAATCTCTTTTTCATTATTTAATTTGTTTTCAAATTTTCTTGCTATTATAATTGGAATAAAAAATAATATAGTTATAAAGTAAATATGAATAAGAAAGAAAGCACAAAAAAATTGTAAAATAAAATCAAAAGTTTTATTTTCTTTTTTTGCAATAAATTTTAAAATTATAAGAACTATTCCAATAAAACTAATAGATAATGTAATTAAATAAAGAATTAAATAAAATAAATTATATAAAAATAAATTGTCTTCTATAAATTGATAATTTTTTGTTTTTGTTAAAAGTATAATTGAAATTATAAAACAAAATGAAAATAAAAACATTTTTATTATTTCATTTCAAAAATTTATTCTATTTTTGTTTCATTTATTATTTATTTTTATTTTTTCTTTATTTTTAAATTTTAAATTATTTAGTGAAATTCAAAAATATTGACATCCTGTAATCAATAATAAACATCCAATTGAACCTAAAATATACATTTCAATACCATTTGTAACTCTAAAATTGAAGAAAAAATATGGAGTAGTAAAAATTCCAATATCGTATTCTGTTACTCATTCTGGAAAATTTTCACTCTCAGGGATATAATCAAAATAATACTCTTGTCCAATAGAATTCATAATTATAATTCTCAATGAAACAAAAGTAACATAAAAAAAAAGGAAAAATTCAACAAATAAGTAAATCTTTTTTATATCATTCTTTTATATTAATAATTTTTCTACTTTTTGAAATAAAAAAATATATAACTGAAATTAAAAATGTTATTAAATGTGTGACGAATGTTACAAATCATTTTATAGCACTGTTATATTCATTTGAATAAATTGCTAGGGGATTTAAGTCTTTGTCATTAACACCAATAACACTAAATAAAGCAATTCAAAAAAGAGCCATTGTTAATGTCATATAACTTAAAAAGCCAATTCAAGCTTTTGTTGAAGGACCCAAAGATTTCATTTTCCATTTAAAAAAATAAATATAAAAAATATAAAGAACATTCAATTTGTCTGTGTTGTTTAAAATGATGCATTTGCAAATAATTTATCATATCATTGAAAAATATAATATCTTGGTGGTGGATAAATTTGTGCAACTGTAGCGTCAAGAATTAAAAAAGCAAAAAATCCAGTTAAAAGAATAATTCAAATAGTATTTTTTAATTTTTTATTATTTATAATCTATCAACCACTATTTAGTATCTTTCTTTTATTTACTTTTTTTTCTATATTTACAACTGCAATCATTGCTTCATAAAAACCAGCTAATAAATTTCTTACTTTCGTATCATAATGACAACAATCACCAGCAGCATAAATTCCTTCCACAGATGATTCCATATTAGATTTCACAATTATTTTTTTCAATTTATTTATTTCTAAATTTAAATTTTCAAATTTTTCTTTTTCAATTGTATAGCCAAATTGCACTATTACTTTATCAAAACAAATTTCTTTTTCTTCATTAGTTTCTACTTGAATTACCTTTAATTTTTCAGCATTATTTAATTTTTCACCAGTAATTTCAGAAAATTTATAAGGAGTTAAGAAATTCACTCCTTTACTTTTAGCTTGTTCTAAACTCAAAGGTTTTGCTCTAAATTCATCTCTTCTATGAATTATTGTAATTAAATTTTTATTACTACTTAATTCATTTGCTCAGTCAAGTGCAGAATCTCCACCACCAAAAATTAAAATACTTTGATTTTTAAAAGATTTAATATCTTTAACAGTATAAATAATATTGTTGTATTTTTTTTCTGTTAATTCTATTGGTTTATAAATTCCAAATCCATCTGTAAATAATATTCTTTTAAATTTTTGCTTTGTATTATTTGAAAAACAAACCTCAAATCAATTTTCAAATTCATCACAATCCGGTTTTATTATATTAATTGATGTAACTATTGTGTTCAAAAAAAAATTGATATTATTATCTTTTTTAATACATTCATACATTTTCTGTACTGCTTGATTACCCAAAATTTTATCAATTGCAGGAAAATTATGAATATATTTTTCTGGATAAGACGATGTAATTTGTCCACCATATGTTGACTTTGCTTCAACTACAGTTCCACTAAGTTTTAAGTCTGCAGCCATTTTTCAAGCATATAATCCAGTTGGACCACATCCAACTATTAAAATATCTTTTACCATATTTTATACTCCAAATCTGTAAAATCATTATATCATATATATATGAATGGAAAATATAATAGAATTACAGTTTTTAAGGTTAAAAATATAAATGAATTAGTAGAAGTTGCACAAAAATTAGCTTTATTTTTTAAAAAAAATACGTGTTTACTCTTAGACGGGGAAATGGGGGCAGGAAAAACAACATTCACTAAAATATTTTTAAAAGAATTAGGAGTTAAAGAAGTTGTAACTTCACCAACATTTGTAATTATGAATCAATATTTTTCTAATGAAATAAAAATAAATCATATTGATGCATACAGATTAAATCAAAATGAAGAATTTGAAATGTATTTAGATGAAATGATTGACAGTTTTAATGTAATAGAATGAAGTCAAAACTTAAATATTAATTTAAAAAGTTATTTTGAAATAATTACAGTTAAAATAAAAATATTTTCAGATGAATGTAGAGAATTTCTTATAGAAGAAGGTGGATAATGAATTTTTTTATTGATACAAGTAATACAAAATTAGTATTAATATTAGAACATAATAATATTATTATTGATAGTTTGATAATGGAAAATCAATTTAAAGTTAGTGATATTGTTTTTACAGAAATTGAAAAATTTTTACAAAAAAATAATTTGACATTAAAAAATTTAAAAAATTTGTATACCACAAGAGGACCAGGAAGTTATACAGGCATAAGAGTTGCAATTACAATTTTAAAAACTTTAAAACTTATAAATCCATTTTATAATATTTTTTTAATTTCATCATTAGCTTTTCAAGCAGAATTAAACGATTCAATAAGCATTTTGGATGCAAAAGGAAATAAAAGTTATATTGGTATTTATTCAAAGGGAGAAAATATAATTTTAGATCAATTAGTACCAAATGAGTTAATTGAAGAATTTAAACAACAATTCCCTAATTATCAAGTCAAAAAAGATTATGAAAATATAAATTTTGAACAATATTTTCTGAAACTTAAAAATTATTTTAAAAATATTGAAAATATTGAAAATATTGAACCACTATATATAAAACATTTCATTTAATTGCTATGTTTTTTATTTTTTTGCTATAATCTTTTTGTATGGATTGATACTCAAGTTGGTGAAGAGGGCACCCTGCTAAGGTGTTAGGTCGGGCAACCGGCGCGAGAGTTCGAGTCTCTCTCAATCCGCCATTTAGAAAATTTAGCAAGATTTTGAAATCTTGATTTTTTTATTTATTATGATATATCATATAAAATATAATTATATTACTTTCAAGGAGACTAAAAATGAAATTAAATAATAAAAAAGAAAAATCTATTTTAAGTGAGAATCAACCAAAAAAAAGTTTTTTAAAGAAAATTTTTAATTTTAAGGAGGGACAAAAAAAAGTTTTCCAAATTATTAAAAATAAAAAAAACAATCATTTATATTTTTATACTGATGTATCAAATATTTTTTTAATCTTAGAAAATGGAATTAGACTTTTGAAAGATCAAAAGTTAAAAAAAGATGAAGAGTATATTGTTTGGACATATTTGGAGAATGAAAATTCTGTAGGTTTAGAATTTGATTCATCTACAAGAGCGCACTTTTGAAAATGAGCAAGTGAAGCAAAGGTTGATATTGAAAAAATTTCAGTAATCGGAATTAATTTTGATATTTTAGCAAAAGTTACTAAAAATGATTGAGCACTTGATGAGATTAAAAATATAGTTTATATTTATGAGACAATTCCATTGGAAGCAATTGAATTTATTATGATAAAAGATAAAGCTAATTTAAATAGAATTCAAACTTATGTTGATGCAAATGACATTGAAATTGATGTCTTTTTTGGTGAAACAGGAAACATAGAAAAAAAGGAGAGAAAGTAATATGGCAAATCAAATTGAAAAAATTACACCAAGGGATGTAAATTTTAGTCAATGATATACTGATGTTGTAAAAAATGCTGGTTTAATGGAATATGGTCCTGTAAAAGGAACAATGATTTTTAAACCGCATGGTTTTGGAATTTGAGAATTAATACAAAAATTTGCAGATATTGAGTTTAAAAAAGAGGAAGTTAAAAATGTCTATTTCCCTTTATTAATTCCTGAAAAATTATTTAAAGTTGAAAAAGAACATATTGAAGGATTTGCACCAGAATTAGCAACGGTTACAAAAGTTGGAGATAAGGAATTGGGAGAAAATCTTTATATACGTCCTACAAGTGAGGTATTGATTGCTGATTTTTTATCTAGAGAAATAAAATCTTATAGAGATTTGCCTATTAAATATAATCAATGAGCAAATGTTATGAGATGGGAAAAAACAACTAGACCTTTTTTAAGAAGTAGTGAGTTTTTATGACAAGAAGGACATACTTTTCATGCATCAAGAGAAGAAGCAAAAAAAATGACTTTAGATATTCTAGAAATATATAAATATATTGCAAATGAAATTTTACTTTTACCTGTTATTTTTGGTAAAAAAACAGAAAAAGAAAAGTTTGCAGGAGCAAAGGAAACTTATACTATTGAATCACTTATGTATGATGGACAAGCACTTCAATGTGGAACAAGTCATTATTTTGAAGATAATTTTTCAAAAGTTTTTAATATAAAATTTCAAAATAAAAATCAAGAAGAAGAAAATCCATATTCAACAAGTTGAGGAATTTCTACAAGATTAATTGGTGCTATAATTATGACTCATTCTGATGATTTTGGATTAGTTTTGCCAAGCAAAATTGCACCAATTCAAATTTCTTTAATTGCAATAAATGATTTTGTTGAAGTTATACAAACTTGTGAAAAATTAAAATCTATGTTCGAGTTAAAATATAGAGTGGAATTAGATAAGACAGATAAATCATTTGGTTTTAAAATTTCTGAAGCAGAAATAAAAGGTGTTCCAATAAGAATTGAAATTGGACCAAGAGATTTAAAAAATGGTGTTGCCACAGTTTCAAGAAGAGATTTAAGAACAAAAGAACAAGTGGAAATTGAAAAAATAAATGATTATATAGAAAAACAAATTTCTGAATATGACAAAAATCTTTATAATAAAGCACTTCAACATAGAAAAAATCTTACTTTTAAAGCAAATACATTAGAAGAATATATTTCAATTATTGATAAAAATCCTGGTTATGTTCTTGTACCATTTTGTGGCGAAATAGAGTGTGAAACAGATATTAAACATAAAACTTCAACAAATTCAAGATGTATTCCGAGTGATATTGAACAGATTAATTCGATTTGTTTTAATTGTAGTAAAAAATCTTCACTAATGGTTTATTTTGCAAGAGCTTATTAAAATCAAAGTGTTTTGATTTTTTTATTTTTATAAAAATAAAATATTTTAGTTAAAGTATCATAGTTAAAAGATTTTTTTATTTATTATATAATAATTTAAGGTGAAGCATTATGAAAGAAACTACTATTGAGAGCTTTGATGGAAAAGAAATATCATTACGAATTTGAGATCAAGTAGAAGAAGTAAAAGGTATAATACAACTTGTACATGGAAGTTGTGAACATTCATTAAGATATAATAATTTTGCAAATTTTATGAATGACCAAGGTTGAATTGTTATTGGAAGTGATCATAGAGGTCATGGAAAAACAGCAAACTTGGAAAATAAAGAATTAGGTTATTTTAGCGATAATGATGGTTGAAATACTATAATTAAAGATTTAAAAGAAGTTAATAATTTTATAAAATCTAATTTTACTAATACTAAAATAGTAATGCTCGGCCATTCAATGGGAAGTTTTATGGCACGAAACTATATCATTGATTTTGGAAATACAATCGATGGATGTATTTTAAGTGGTACTTCATGATATTCAAAAACTTTATTAAAATTCTCAAAATTAATAGCATCAAAAAGACAATCCTTTTACGGTAGTAAAAATATTGATAAATTTATTTGAAAATTAAGTTATCAAAAATTTAATAATAAATTTAAAAAAGAGGGTATAACAGGTGTAGAGTGATTATCAATTGATAAAAACAATGTTGAAAATTTTGTAAATGATCCTTTATGTTGATTTATTTTTACAACTTCTGCTTTTAAAGACCTTTTCACAGGTTTATTATTTATTCAAAAAAAAGCAAATATAAAAAAAATTAGAAAAGATTTAAAAATTTTGCTTATTTCAGGAAAAGATGATCCTGTTGGTAATTTTTCAAAAAAAGTAAAAAAAACTTATAGAATTTTTAAAAATAAAAAATTAGATGTGAAAATTAAATTATATGATAAATTAAGACATGAAATTTTATTTGACTTATCAAAAGAACAAGTTTATATTGATATTTTAGAATTTTTAAAAAAACTACTAAAATAATTTTAAAATTATTTTAGTTAAACTTTATTTTATTGTGATATATAATTAATTTGTATACGACTTAGTGATTAATTTTATAATTGTACATATTTAAATTTTTAGAATAGGAATTTGAGGGGGTATTTGTATGTCTACAAAACCAGGAGATTTAGTTCTTGTTCATGCATATAAACATAATGGTAATTTATATCGATCTTGGGAAAATGTTATTGTTTTTGAAAATAATGAAGATTGTCTGATTTTAATAAATGAAGAAGTTTTAATTACAGAATTTAATGGAAGAAGATGAAAAACAAATGAACCTGCTATTTGATTTTTTTTCAAAGACAAGTGATATAACACAATATGTATGTTTAAAGAACGTGGGATAAATTATTATTGTAATTTAGCTTCACCATATATTGTTGAAGAAAATACAATAAAATATATAGATTATGATTTAGATTTTAAAGTTTTTAATGATTATAGTTACAAAATCTTAGACTTAAGAGAATTTAATAGAAATAGAATTTCTTGAAATTATTCTAGGGAAATTGTTGAAAAAATTTGAGAAAATGTGGATTTATTGAAAAAGGATATAGAATTAAAGAAAAATAGTTTTGATCATAACTATGTAAAAGAAATTTGAAGAAAATATAAAGAAAATCTAAAATAGACTTATATTTACTTTATTTTATTGAAAAAAAATGTTTAAAATAATAACTAGTACATAAATATTTAAGGGAGAAATTACTATGGACAAAACAAAGATACGAAACTTTAGTATAATTGCTCATATTGATCATGGTAAATCAACTTTAGCAGATAGAATTTTAGAATTAACTGGTGCACTTGAAAAAAGAGAAATGCAAGCGCAAATTTTAGATTCAATGGATATTGAAAGAGAACGTGGAATTACTATAAAATTAAATTCAGTTCAATTAAAATATAAGGCAAAAGATAATGAAGAATACATTTTTCATTTAATTGATACTCCAGGACATGTTGATTTTACATATGAAGTTTCAAGAAGTTTAGCTGCTTGTGAAGGAGCATTACTAGTTGTTGATGCCAGTCAAGGAATTGAAGCACAAACAATGGCAAATGTTTACTTAGCACTGGATAATAATTTGGAAATTGTACCAGTAATTAATAAAATAGATTTACCAGCTGCAGATCATCAAAGAGTAAAAGAAGAAATTGAATCAGTTATTGGCATTGATTGTACTAATGCTCCAATGATTAGTGCAAAAACTGGATTAAATGTAGAAGATGTTTTAGAAGCAATTGTTAATTTTGTTCCTTTTCCACTTGAAGCAGATGACTCAAAACCACTAAAAGCACTGATTTTTGATTCATATTATGATAAATATAGAGGTGTAATGGTTTCAATTAGAATTGTAGAAGGAACAGTTGAAGTTGGTCAATCAATTAGAATGATGCAATCAAATGCAGTTTATGAAGTAACAGAACTTGGTGTTAAAAGTCCTTTTGAAGTAAAAAAAACTAAATTAGAAGCAGGTGAAGTTGGATGATTAGCAGCATCAATTAAAACTGTTAGAGATGTTCACGTTGGAGATACAATTACATCAAAAGAAAATGAAGCATCTGAGCCACTACAAGGATATAAAAAATTAAATCCAATGGTTTATTGTGGAATTTACCCAATTGATACTGCAAAATATAAAGATTTAAAAGAAGCACTTGAAAAAATAAGTTTAAGTGATGCGAGTTTAGTTTATGAAGCTGAAAGCTCACAATCATTAGGATTTGGTTTTAGATGCGGATTTTTGGGTTTACTTCATATGGATGTAATTCAGGAAAGATTAGAAAGAGAATATGATCTTACTTTAATTGCAACTGCACCCTCAGTAATTTATAAGATAACTCAAACTGATGATCAAATAATTGAAATTGATAATCCCGCTTTATTGCCTGACCCACAAAAAATTAAATTTATTGAAGAACCATATGTCAAAGTTACAATTATGACTCCAGATCAATATTTAGGAGATTTAATGGGATTATGTCAAGATAAAAGGGGAAATTATTTAAACATTGAATATATTGATGATAGTAGACGAACTTTAACATATGAAATGCCCTTGAATGAAATTGTCTTTGATTTTTTTAACAAATTAAAATCAATTTCAAAAGGATATGCTTCATTTGATTATGATTTAATAGATTATAAACAATCAAAACTTATTAAAATGGATATACTTTTAAACGGAGATATAATTGATGCACTTTCAACAATTGTGCATAAGGATTTTGCATATCATAGGGGAAAAATTTTAACAAAAAAATTAGAAGAAATAATCCCAAGGCAAAATTTTGAAGTACCAATTCAAGCTGCAATTGGAAGCAAAATTATTGCAAGAGAAACAATTAAAGCAATGAGAAAAAATGTTCTTGCAAAATGTTATGGTGGAGATATTTCACGTAAGAAAAAACTATTAGAAAAACAAAAGGAAGGAAAGAAAAGAATGAAAGCAATTGGTTCTGTAGAAGTACCACAAGAAGCTTTTATAGCTGTTCTTAAATTAGATGATTAATATGGAATTTATATTTGATTATTCAATAAATAATGATGTTTTTTTTAGAAGCAAAAAAAATTAGAGATGTAGTTTTTGTTAAAGAACAAGAATGTCCGATTAATGAAGAATTTGATAAGTATGATAATGTAAGTTATCATATAGTTGGTTTTTTGAATAAGAAGCCAGTTTGTTGTGCTAAAATATTGAAAAAAAAAGATGAAAAATGGTATTTAGGAAGAATTGCTGTTTTAAAAGAAAATAGAGATCAAAATTTAGTGTTTGATCTTATGAAATATTTGATTGAATTTTTTATAAAAAATATTAATCAAAAAGAATTATATTTAAATGCACAAATTTATGCACTAAATTTTTACAAAAAATTAAATTTCAATGAAATTGGAGAAACTTTTTTCGAAGCTAATATAGAACATATAAAAATGGTAAGATTTTTTTAGATTTTATCATTTTTTATTAAATAAATTTTTATAACATAATATTGAAAATATTTAATATAATTTATTTCTTATTTAAATAATAAATAAATTATATGGTACCTAAGAGTTTATTTTTTAAGTTATAATAATTAAAATGGAAGGAAGGTTTTTAAGGTGAAACAAATAAAAATATGGAGATTTTTGATAATTTTTGTAACTTCAATTTTTTTAATAGTTTTTTTACCTTTCTTTTCAATTTTAGTAGTCGAAGATTTAGTGACAATTAGTATTTCTACAGTATTTATAAAAACATCAATATTTACTGTGTTATTAATGACTTTTGGTTTTTTTTATTTAATATCAGGTATTTTAACAAACTCCTTTAAAAATAAACCAATGAAAATTTTTGGCTCAATAAATGGAGTTATTATTACATTTACAATTATTTTACTAACAATGGATATGTATATGTCACCATTTTCAAATATTACTAGAATTATTTGATTTTTTCCTACTTTGGCTTTTCTAATATTAGATTTTGCAATTGAAATTATTCAAATTTCAATTAATTTTAATTTTTTGGGGCAAAACACTTCAATTAATAATTCTTTAAATCAGTCTTCTAATAATATTGTTGAATCAGTAGAATTTGCGAATGTAAATCCATTAGTTGATGTAAAAGATTCGACTGAATTAAAAAATAAAATTCTAAATATGAGATCGGGGTTAAATAAACCTTATGATCAAGCAATTGAAGAAATTGAACAAACAGGAGCACTAAATGGTTTAGATATGAGTAATCTTTTATTAAAAAGTGATGAACAGGAACTAGAATCAAAAATAGTGCCTAAAAAAGTTTTAAAAGAAGATATTAAAGATAAGAACTTAAATTATGAAGAAGCTTTTAATAGTAAAACAGAACCTTTTTTAGAAGATCCATTAGCAAATTTATCTGAAGATTATGAAAGTATTCATTCAACTGGTTTATCAAGACAGGATTCAAGACCTGAGTATAAATATATTTCTCGTAGGTCAAATAGAAAAGATAACAAACATTAATTTTTAGAATTTAAACAATTTATTAGTTTAAATTCTTTTTTTATATAGTGTTAAAATAATTTAGTTAGGGGATTTATAGATGAATATTGAAAAGAAACAAAAAATAGCAAAAAAAATTAATCCAAAAAATGATTTAATTGGGTCTGCGATTACCTTAAGCATTGTTTATATTTTTAGAATAATAATTATTGCTTTCTGAATTATTGCTCCAATAATTTTTGCTTTGATAATTGCTTTTGATGATGGAATTAGAAATTTAATTAATTACATTAATTCACTTATTTTTTATAAACCCGGAGAAATTTATGATGTTGGTATAAATAATTTAGTTATTTGAATAATAGCACCATTTTTTTGAGTGTTCAATGTTTTAATAATGTTATTTTTTGTAGTAATTCCCTTTTTTAAAAAATCTTCTTGAAGAAAAAAAGCATATCTTTCATTTAATTTTATTTTTTGATCTCTGTTATTTATAGCAATCATATATGCAATTTGGCTAACAATTCCTTTTTATAAACATGAAGCTGAAGTTGGAAGTGGTGAATCTATTGAGAATAATAATGTAATAGATTTTTATTGAAGTTCATTAAATCTAACTTTTAACCCTTTTAGTGGTTGAATGATCGCTCTACAATCTATTTATGTTGTACTTTTTATATTTGGAATTTTTTTAATATTTGAATCTGATATGTTAAGAAAACTGAAATTAGATTATTATAGATTTACTGTTAATAGGAAAAATAATTCTCTTATGAATCAGGTTTTAGAGGGAAAAATAAATTTTGGTGACTATGAAGCAAAAGATTTAAATAGTGAAATCAAAAGACTAAAAAATGAGTTAACTATAGAAGCAAGAGAACAAAGAGTGCAAAAAAGATTAAATGAATTGGAAGAGAGAGCAAATAGAAAAAATGCAAAAAAATTTAAAAATAAAAAAGAAACTAAGTTATAAAGGAAAAGAAATAGAATATTTTTTAGTACTTAAAAATCAAAAGTATATTCGTTTAAAAATTATTGATGAAAGTATTATTGTTTCTGCACCAACTATAGCAAATGATTGAGAAATTGAACAATTAATATATAAGAATATTTCAAAAATAATAAAAATTATTGAATATAGAGAAAAAAATAGATTTTTTCAAATTAGTGAAAATGGCTTTATAAAAATAAATAATCAAGAATTTTTTGCTTCATTTAAAAAGGAACCAAATTTAAATAATAAAATGGAATTTAAATTATATGATTCTACAGAAGAAACTTTAAAAAAGATGTATAAAAAACTTTCAATTATATTTTTAAATTATTTTCAGGAGCTAGTAAGTTTTTGAAAACAAAAAATGGATTTGGATTTTAAAAATTTATCAGTTAAAGAAATAAAGGGAAAATGAGGAGTTTGTTTTCCTGAAAAATCTAAAATCATATTAAACATAAAATTAATTCATTTTCAAAAAGATGCATTAGAATATGTAATTATTCATGAGTTAAGTCACCTTATTCATAAAAATCATTCAAAAGATTTTTGAAAGCATGTGGAAAAATATTTGCCAAATTACAAAAAGGTGAGTGATTTATTAAAAGTAAATGCAATATAAAGTATAATAATTTTATTGGAGGCATTAATTATGGGTTGAAAGAAGGATTTTAAAAAATTTTCAAAAAAAACTACTAATAAATCTTCTATTTTTGATTACTCTGAAAATGTTTCAAGTAATATTAATTGAGAACGTTCTATAAAAGGATTAAATTATTGAAATATTGATAATTTAATTATTAAAATTGAATTTTATAATAGAAAAATTAAGGAAATTCTATTAGTACAAAAATTTCCGAATGAATTTAAAGACTATTCTTGAAATTTTAAAAAAATCGATATAACAGAAAAATTTTATTCTTATCCAATGACAAGTTATTTTCAAAATATATATAATTTTGTAAATCAAAAAATAGGATCATATGAAGCTTCATTAGTTTTAATGAGTATTTCAAAATTTACTTATTTTACAACGTTAAAGTTTTGAAAAATTTTTAATCACACTTTTTCAAATAAAGATATAAATGAAAAACCTCTTTTAAGAGTTTTTGAAGTAATGCAAAGAACTGGTTTAGACTCAATTGAAAATATATTAGAGAAAATATTATTAATAATTGATAATAAAAAGATCGATTTATATAAACAACATTTAATTGTGGAAGAAATTATTGATTTAGGAGATGACTTTACTTATCATTGATCTAGAATGTTTGATCAAGTTATAGATTTAACGGTTGAAACGTTTTTATTTCAAAATAAATATGGAAAGACAACATCTTCAACATATTCAAATATTTTTGAAGAGGAAAAGGATTTTGAAGATTTCTTTGAAAAGACAAAAACAATGGTATTTAATGATGAGGTTAATGAAGCATTTGCATATTTTGAAATTACAAAAATGGCAAAACCAGATGAATTTAAAAAAATATATAGAAAATATGCAAAGAAATTTCATCCTGATGTAAATTCAGATCCAAATTCTTCAAATGAAATGAAAAAAATTAATGTATTTAAAACTATTATTGAACAATATTATGAGAAATATGAAATCATTTAAGAAAAGGAATTAGAAAATGCAAGAAAAAATATGAATGGATTTAATTAATTCTTCAAATTCAATTATTAATAATTTTTCTTCTGATCAGAAAGTTATTATTGAAACAGTGAAAAATTTTAGTGATAATTTAGTTTTATTTTCACAAATTTATTTATCTGATAGAGAATCATTTTTTCGTTTTCTAAAGGGAAAATATAATTATTTCTATTTGCAAGCAACTTCAATTATTTCAAGTGCTGATTCTGTGTCAGTAATAATGCAATTAAATGAAGGAGTAAAGGATTACTTAATTTATTTAGACAGTTATTAGTTACACTAGACTCACTTTCAAGTCAATATTGACTAAGAGTTAATAAAAAATTTCTAAAAAATCCAAAAAAAGATTTGATAAAAACTTTAATTTTCTTATCAAATAATTCAATTTTTGAAAAAAATAAAGAATTTTTAAGAGTTCATTTAAAAATTCTTGAAAAAAATAAAATAAAATTAGATAATTTTTTTGAAGAAAAAATGAATAAATCACTTTGAATTGAGATTAAAGAATTAAAACAAAAAATTCTTAATAAACATGATAGTAATTTTGAATACTTTAAGGAATTAATAGCGAAAACAGAAGATTTTGCAGATGATATGATAGTTAACCTATGAGCAATTTTAGCTGTAAATATAAGTTACTTGGAGTATTTAAACTCTCTAGTGAAAGGATAAAATAATGGAATTAAAAGAATATGAAAATTATAGTTTTATGCCCTATGAAATGATAAGTAAGGAAATATTTATTTTATATTCATTATTTGGAGATGAAAACAAATATTTACAATCAATTCAACAAGATTGATTTTCAAAAAAAGATATTCATGAATTTAGAAAATTTATTGAAGAATCCTTTGAAAAAAATGAAATTCAAGCAAAAACTGAAGTAAATAGAGATAGTCTTAGTTGTCTTTTAAGAATGATGGCAATGTGTGATGCTTTTACTGATTTTGAAGAAATTTATAATATTAGCTATAATCTTTTTGTTGAAAAAAATAAAGAATTATTAGAAAATTTGAAATTGTATGATTATGCTTTTAAGAAATATTTTGATTTCTTATTAGGAATATTTAAAGAAGAATTAGAAGAAACTCTTATTCCCGTGAAATATAAAATAGTTGTAGAGGATATTCAAAAAAGTATTTTAAGACTTGAAGAGTTAAATGAATTTAATTTTATAATTAAGGAAAATTATAGATTAAATGATTTGATAAGTGACTTATTAGATTTACTAGAGGAAACAAATGATGAAGTCCAAGAATTTGAAACTGATAATGAAGTTATTTTATACAATTTTTCAATATATTATTCTACAAAATTTTACTTTACTTTATTATTTAGAGAAAAAATTCTTTTACAAATAGAAAAAGAAACAAATGTTATTATCGAAAATAATAAACCATTAATTGAAGAAGAGGAAATGAGATTATCAGAAACAACATTAAGTTCAGAACAATCCAAAGAAATTTTTTATAAAATACTTAAAAATTAAGAAATTTTTTATTACATATTAAAATGAATTTCATTTTCAAAAATTATAGTATAAACTTAAATAATACGTTTGATTTTGAAATTAAAAATTTAATATTAATAAAGTTAAAGTTATCAAATGTAAATTATATTAATTTTAAAAATAATATTTATTATTATTTTTTTGTTATTAAATTAGGAGAACAACATGAATAAAAAAATTATTAACATTGCAGTTATTGCCCACGTTGATGCAGGTAAATCAACATTAGTAGATGCTTTTTTAGGGCAAGCAGGGGTTTTTAGGGCAAATGAAGAAATAAAAGAACAAATTATGGATAGTAATGATCAAGAAAGAGAACGTGGAATTACTATTTATTCAAAAAATTGTGCGATTGAATACAATGATTATAAAATAAATATTGTAGATACTCCTGGCCATGCTGATTTTTCAAGTGAGGTTGAAAGAATTATGAAAACTGTTGATACAGTAATTCTTTTAGTAGATTCATCTGAAGGTCCAATGCCACAAACAAGATTTGTTTTATCAAAAGCTTTAGAGTTAGGTTTGAGACCAATTTTATTAATTAATAAAATTGATAAAAAGGACCAGAGAGCATTAGAAGTTGTTGATGAGGTTCTTGAATTGTTTATGGAACTTGATGCTAATGAGGAACAAATTGAGTTTCCAACACTTTTTGGTATTGCAAGAGATGGAATTGTTCAATATTCAATTGAAGAAAAGAGTGAAAATTTAACACCATTATTTGAAACAATAATTAAACAAGTGGGAAACTATCCAATTGAATTGGCAAAAGAACCAATTCAATTACAAATTTCATCACTTGCATATGATTCTTTTATTGGAAGATTAGGAATTGGAAGACTATTTAAAGGAATTTTAAAAGAGGGACAACAAGTAGCAATTTCAAAAAATGATGGTTCAATTGTAAAAGGTAAAGTTTCAGGACTTTTTATATATCAAGGTTTAAAAAGAGTAGCTGTTAAAGAAGTACAAGCTGGAGAAATTGTTGTAATTTCTGGAATTTCTGATTTGACTATTGGAGATACAGTTTGTGAAATTGATAAAATTGTTGCATTACCCCCAATTGTAATTGAAGAACCAACAATGAGTATGAATTTTTTAGTTAATACTTCACCTTTTGCGGGTAGAGTAGGAAAGTTTGTAACAACAAGAAATATTAAAGAAAGATTAGATAAAGAATTGGAAGTAAACGTTGGATTGAGAGTCGAAGCTTTAACTGATTCTTCAGCTGATGGATTTAAAGTTTTGGGTAGGGGGGAATTACACTTATCTGTTCTTATTGAAACAATGAGAAGAGAAGGTTTTGAACTTGGTATATCAAGACCTGAAGTAGTTATTAAACTTGATGAAAATGGAAATAAATTAGAACCAATGGAAAAAGTAATTATTGATGTACCATCTGAATTTTCTGGTACTGTAATTAATAAATTAAATTTAAGAAAAGGAATAATGTTAGATATGGATTCGGATGGAATTAGAGATAAGGTTACTTATCAAGTTCCAACTAGAGGATTAATTGGTTTTAAATCAGAATTTACAAACGATACTCGTGGAGAAGGAGTTATGGTTAAATCAAGTATTGGCTATGAACCATATAAAGGAACTATTGAGGGAAGACAAAATGGAACATTAGTTTCAATGGCAAATGGTGTTACTTTACCTTATGCATTAAATAATTTAGAAGAAAGAGGAATATTATTTGTTGGCCCTCAAGTAGAAGTGTATGATGGAATGATAGTTGGACTTCATTCAAGAAATAATGATTTAAATGTAAATCCAACTACAGGTAAAAAACTTACAAATACAAGAGCATCAGGTAGTGATGATTCTGTTAAGTTAACTCCACCAAAAAAATTCACTTTAGAAGAAGCTTTAGAATTTATTGAATGAGATGAACTTGTTGAAGTTACACCAGAAGACATAAGATTGCGTAAAAAATGATTAAGTGAAAATGAGAGAAAACAACATAGAAATGATCCACATTAGTGGATAAATACTTTCTAAATTTAATATTTTAGATAAAAAAATAATAAGAAAAATGTAAAATAGAGTTATTATTAGAATATAAGGAGAAATTTAAATGTCAAAAATAGTTAATATATTAGCTCGTGAAGTTTTAGACTCACGTGGATTTCCAACTGTTCAAGTTGATGTAACAACTGAATTTGGTGGATTTGGAACTGCCAAAGTTCCTTCAGGTGCTTCAACCGGATCAAGAGAAGCTTTAGAATTAAGAGATGGAGATAAAAAACGTTTTAATGGTAAAGGTGTTTTAAAAGCTGTTGCAAATGTAAATGAAAAAATTGCTCCAGAAATTATTGGTTTAGAAGTAACAGATCAAGTAATGATTGACTCATTAATGTGTAAATTAGATGGTGACGATTTTAAAAAAAACTTGGGAGCAAACGCAATACTTGGTGTTTCTTTAGCAGTTGCAAAAGCAGCAGCAAGTGAATTAGAAATGCCATTATACAGATATATTGGAGGAACAAATGCAAGAAGATTACCAGTTCCAATGTTAAATGTAATAAATGGTGGAGAACATGCAGATAGTGCAATAGATTTTCAAGAATTTATGATTATGCCAGTTGGTGCGCCAACTTTTAAAGAAGCTTTAAGATGAGCTTCAGAAACTTTTCAAGCTTTAAAATCTTTATTACATGATAAAAAGGATATTACAGCTGTTGGAGATGAAGGAGGATTTGCACCAAATTTTGCTTGAGCATATCCTAAAGAAACAATTGAGGCTTTCAAAGCAAAAACACCAGTTGAAGTTGCATTAGATTTATTAGTAGAAGCTATTGCAAAAGCAGGTTATAAAACTGGAAAAGATGGAATTATGATTGCAATGGATTGTGCAAATTCAGAATTATATATTAATGGAAAATATCACTTCAAAAAAATTGAAAAATTAACTGGAAAAGAATGAGCATTAACAACTGATGAAATGATTTCATTCCTAAATAAATTAGTTGATGATTATCCAATTATTTCAATTGAAGATGGTTTAGCAGAATCAGATTGAGAAGGATTCCAAAAACAAGTTGAAACAATGGGACATAAAATACAAATTGTTGGAGATGATTTATTTGTTACAAATCCAAAAATTACTGCAGAAGGAATTGAAAAGAAAGCCGCAAACTCTGTTTTAATTAAATTAAATCAAATTGGTACATTAACAGAAACAATTGAAACTATTCAAATGGCTCAAAAAGCTAATTGAACAGCTGTTACTTCACACCGTTCAGGTGAAACTGAAGATTCAATAATTGCTGATTTAGCTGTGGCTTTAAATACTGGGCAAATTAAAACTGGTTCAATGTCAAGATCAGATAGAATTGCAAAATACAATAGATTATTAGAAATTGAAGATGAACTTGGAGATGCAGCAATTTATGATGGTTTAAAATCTTTTTATAATTTAACAAAATAATAAAAAGAATTCACTAATGTGAATTTTTTTATTATAAAATAATTGTGGTGAAAAATTATGTCAATAAAATTAGAAAAAAAAGTTAAAAGTAAAATTTTACTTTCAATAATTATTGTAATAGCTATCATAACACTTATAACTTTTGGAATATTTGATTTAAAAATTTCTAAACTTATTCCATCCTGAATGAATGAAAATTGATTTTCAATTATTTTTGATGTTTTTGGGCTTATTGTAGTTACTCTACCAGCTTACTTTTTGCTTTTTCTAACATTTTTAGTAATTTCATTTAAATATATTGCAAATAAAAAATGAAAAATATTTTGATATATGTTTTTTCAAATTTTTGCTCTTGTAACAATACTTGTTACATATTTTAGTAGTGATCTTTTACTAATTTCAAATAATCCAACAAAAATTGAAAAAATAGAATTAATTTGTTCAATAATTTATTTTATGTTAACAATTTTTGCAATAATTTATATTAATATTATAGTTTTTTATAAAAAATATTATAAAAATATATATTGATTAATTAATATGACAAAAGCATCTTATTATGCATTAGCTTTTTTAATTTTAACTTTGCTTAGTACTCAATTGCTAAAAATAATTTTTGGAAGAAATAGACCAGAATCTGTTATAGATTATCAAAATGACTTTCAATATATATTTCAAATAAATTTCTCTAAACAAAGAGGGACAAGCTTTCCATCAGGTCATACTGTTAGTTCAGCAACATTATTATGTTTTTCTTACTTTTTTTATTTAAAAAGTAAGAAGACAAAAATTTGAAAATATTGTACTTCAGAATTAATTTGGGTTTTAATAATTTCAACTGCCGTTTCAAGAATTACTATGCATAAACATTTTTCAACAGATGTTTTATTTTCTATATATTTAATAATTTTTTGATATTATTGTTCTATAAAAATTGTTGATGCAATTTTTAGAAAGGTAAAGAACAGACATGGCTAAATATGTAGGATTAGATTTAGGAAGTAAAACTATAGGTATTGCAGTAAGTGAAGGCTATTTTGCAAATTCCAAAGAAACTATAAAGTTTTTAGAAAATGATTTTAATCAGGCTGTTAATTTATTGAATTCTTTTTTAAAAAAAGAAACTTTTGAAAAAGTAATTATTGGTTATCCAAAAAATATGGATGGTACTATAGGACATCGTGTAGAAATGGTTGAAAATTTTATTGACATTGCAGTTAGAAAAAATGTATTTTCTTTAAATGATATTATTAAAGTTGATGAAAGATTAACTACAAAAATGGCAAAATCAATTATGATTTCTGCAAATTTAAGTAGACAAAAACAAAAAGAAAATAAAGATCAATTTGCAGCAAAATTAATTTTAGAAACATTTCTTAATACAATTAAGTAGTATATAATTAAAAGAAAATTTAATGGAGGAAAATATGAATCATCCTTTAGTGAAAAAAATTTTATTTTCAGAAGATCAAATTGATAAAAGAGTTAGTGAATTAACTGACGAGATTGCAGAGTACTATAAAAAAAATAATTTAAAAGAGAATACAGTTCTTTTAATAGGATTATTAAAAGGTTGTGTCCCTTTTATGGCAAATTTTTTGAAGCATTTTAAATATGAATGTCAAACAGAATATATGGTAGTTTCTTCTTACTTAGGTGGAACTAAAACATCAGGTGAACCAAAAATTAATTTAGACTTAAATATTTCTGTTAAGGATAAACATATTTTAATAGTTGAAGATATAATTGATTCTGGAATAACACTAGATTATATTAAAAAATATTTATATTTTAAAGGAGCTAAGGAAATTAAAATAGTTACTCTTTTAGATAAACCTGAGGGAAGAAAAATTGAACTTAAAGCAGATTGAAATGGTTTTAAAGTTGAAAATGAATTTTTAATTGGCTTTGGTCTTGATTATGAAGAAAGATTAAGAAATTTACCCTATGTTGCTGTTTGTGATGTAACTAAACTAAAAGATTGAAAATGGTAAAACATTTTTTTTTTTTTTTTGGAAAAATATTGGAAAAAAAGTATATTTTTTTAATAAAATTGGAAATTTTTACCAATTTTATGGTTTAATTTATTTGTAGAGAGGGTAAATACAATGAAAATTTTTAAACAAAAGAGTGAAAATAAAGAAAAACTTTTACTTTTAAAATCATGTTTAGGTGATTTAAAAAAAATTGAAAATGTCAATCATTGTTCTACAAGAATTAGAATTAAAGTATTAAATATTGACGAAATAAATTTAGAAAAAATTAAAGAAATTGATTTTATTCAAAACGCATTAGTAAATGAAAATATGGTTCATTTGTTAATAAATAAAAATATTGAAAAAATAAATATTGAGTTTTTAGGAATTTTGGGAATTGATGTATCAAAAGTAGCTAATTTATTTGATGTAAAAATAAATCAAAAGAAAAAAATTATGCAAACTATTTTTGATGGAATCAGTTTGATAATTGGACCAATAATTCCATTTTTAATAACATTGGCTTTAGTATCAACAATAACTAACGTAATCGCTATGATTGATACTGATAATGTTGTTTATAAAATGTTTAAAGTTTTACAAAAAGAATTAGTACTTGGATTTAGTATAATAATTCATTGATCTATTTTTAAAATGATGGGAGGAAGTGAATCAATTGGACTTGCTATTGGAATAGTATTATGTTCAAAAGAATTACTCTCTTCACTTAATTTTTTATCAGGAAATTCTGAGCTATTCCATTGAACTGAATTTGAGGGAGATTCACTATCCTTTAGTGATATTGCAAGTGGTTATCCTTGAAAAATTTCATATGATGGACAAATTCTTCCAATTGTAGCAATTGTTTTTTTGCAGTTTATTTTGAAAGATTAATAAATAAAATTAAAATTGGTGTTATTCATCAATTAATTGGAGTACCATTAGTAACAATTATTTCATTTTTTGTAGGAATTTTAGCTTTAGCTCCAATAGGAATGTTGATACCTTATGGATTAAATTTAGGTTTTTTATGAGCAACAAAAAATGAAATTGCCAAGTATATTTTTAATCCATTATTTGGACTTATGCTACCATGAATGGTTGTAACGGGAGTAATTCAAGTATTTGTTGTAATGAATCTTCAACAATTTACAATTTATCAGGCTACAACAATTATGCCAATGTTTACACAATTAAATATTGCTGTTGCAACAAGTGTATTGTCATTATCAATCTTAAATAGAAAAAATAAAGAATTGCAAAAAAATGCAATACCTGCATATTTAATTGCATTTATTGGTGGTTCAACTGAGCCAGCTTTATTTGGAGTTTCATTAAGATTTGTATTTCCAGTAATTGCAGCAAGTATAGGAACAGCTCTGGGAATTGTAATTACAACTGCATCGGGTGTTGTTGCAACAATGGGAAATGCGTCTTTGTTAATATTTTTATCAGTGATACCTAATGCAAATACTACTGCTTTTAATTTAACTACTTGACCGGGAACTTGTTACTTATGAATGGCAATTGCAATGGTAGTAACATTTGGAACAACTTTTTTATTAACAATGATATTTGCAAGTTTTGGCAAATATAAAAAATCAACCCAAGAAATTTTAAATAGAGATTTTACAAAAGTAGCTGAGATTATTAATAATTAAGAAAAACAAAAGATTAAAAATAAAGGAGTTTTGGAAAATGAAATTAAATAAAGAAATTTTATGATTAAAACATAATGAACACAGTGAAGAAGATATAAAAAATGCTCAAAATTTGGTTGAGCAAGATAAATATTTTAGACCAAAATATCATATTGCACCACCAAATGGATTATTAAATGACCCAAATGGATTATTATTTAAGAATAATGAATTTCATATTCATTATCAATGAAGTCCTATTCAACCTTATCATGGTTTCAAACATTGAAATTATTTAACAACAAAAGATTTTATAAATTACAAAAATCATGGAGTTTCAATTACACCAGATCATGAAGATGAAAAATGAGGAGCTTTTTCAGGAAGTGCATATAATTTTAATGGAGATGTAAAAATATACTATACTGGAAATATTGAAGCAGAAGGAAATATTGTTGAAGAACATCAAATTGTTGCAGATTTGATTGATTATAAAATTAAAAATAAAAGAACTGCTGTAAAACATGACAAAAACATTTTTACTCCACATGCAAGAGACCCAAAAATTTTAGACTACAATGGTAAACAATATATGATTTTTGGTGTTCAAACAAAAGATGATATGCAAGGTGGATTAGCAATTTATGAGTTAATAACACCAGAAAAATTCAATTATATAGATACATTAAAACCAAATTGGATGAAACTTATGGATATATGTGAGAATGTCCAAACTTAGATAAACTAGAAAATAAGTATTTGTTTATAATTTCTAGTGAAGGTTGATTTAATGAAAAAGACAAATATGAATTAAATAACTCAAGAAATGTTGTTTATACTTCTATTGAAAAATTAGATTTTGAAAATAAAACTATAAATGAAGATTATAAAATGAAAACAATGGATTTTGGTCATGACTTTTATGCACCTCAAACTTTTGTTGTAAACAATAAATTAGCACTAATTGCATGATTGGGAGCAGTGGATGTACAATATCCAACCGATAGATATTCTTGACATTCAATATTAACAATTCCTAGAGAATTAAGTTGAAATAATGAAGTACTTGTTCAAAAGCCTTTAAAAGAATTTTGTGATAATGTAATTTACAATACTCAAAAACTAAAAACAAATAAAGTTCAAGCAAAATTTTCTAAACATTTAAAATTTAATTTAGATTCAAATTCAAAAATGAAAATTGTTAATGAAGAAAAAGAAGAAATTAGTTTAACTTTTACAGAAGAAGAAATTTGTTTTGATAGAACAAATCAAGGAGAAAAAGTAGATTGAAATTATGAAACTCCAAGGTATGCAAAAAGAAAATTAAAAAATCAAATTATTGAAATATTTATAGATTCTTCATCAATAGAAATTTTTGCAGATGATTATTCAACTATATTTACATCAAGATTTTTTGTAAAAAATTGAAATGAAATTAATTTTGATAAGGAAATTGAAATTGAAGTTTCAGACATAAGAGAAATTAAAGAATTTTAAAAGTATAATAAAAGCAAGATTATCATGCTTTTATTTTTTTATAATAAGTATTTTTTAGTTTAAGTAGTAAATTTCTTTTATTTATAATGCAATAATAAAAAAGTTATATAATCATAAAGTATGGAGGCAAAAGTATGATTAAAAAAATAGGGGTTTTAACTTCAGGTGGTGATGCACCAGGAATGAATGCATCAGTTGCATCAGTTATTAAGTCTGCAATTTCAAAGGGAATCGAACCATATATAATAAGAGATGGTTATAAAGGACTTGTAAACAATTTAATTGAAAAAGTAGATATAAATTTTGCATCAGATATAATTTCAAGAGGTGGAACAGTAATTGGATCAGCAAGATTACCAGAATTTAAAGAAGAATCTATAAGAGAAAAAGCAGTTAAAAATTTAAAATTGCTAGAAATTGAAGCTTTAGTAGTTATTGGAGGAGACGGAAGTTATCAAGGTGCTGAAAAATTAACAAAAATGGGAATAAATTGTATAGGAATTCCAGGAACAATTGATAATGATATTATTTCTTCAGATTATACAGTTGGTTTTGACACAGCACTAAATACTGTAATTAGATCAATTGATTCTATTAGAGATACAATGCAATCTCATAATAGATGTAGTGTTGTTGAAATTATGGGAAATGCTTGTGGAGATTTAACTTTATATGCAGCTACAGGAACTGGTGCTGAAGTTATTTCAACGAAAGAAAGTTTTTTAACAGAAGAAGAAATCATAAAGCAAGTAAAAGACTTAGCACAAAAAAATAAAAGAAGTGTTATTGTTGCTGTTGCAGAGAAAATTTATGCAGATGTTCATAAATTAGCAGAAAAAATTGAAAAAGAGTCTGGATATGTTACAAGAGCAACAGTACTTGGACATATTCAAAGAGGGGGAAACCCAACAGGAATGGATAGATATTTAGCAGTAACTGCGGGCATTTTTGCTGTTGAGCAACTTGTTTCTGGAAAAGGTGGATTATATATTGGAATTAGTGAAAATAAACTTGTTGCAAGAGATATTAATTCAATTTTAAATATGCCAAGACCAGATAAAAGTAAAGAATATGATAGCATTAGAAATATTAATAAAGCTGTTTAGTTTGTAGGGGGAAAAAATGAATAATTTAGAAATAGAGTTTTATGAACCAAGTAAAATAAATAAAAAAATAAAGAGAACAAAAATAATTACAACAATTGGACCAAGTACTCATTCAAAAGAGGATATGAGAAAACTATATGAAGCAGGAATGAATGTTGTTAGATTAAATTTTTCTCATGGATCACAAGTTGAACATGAAGAAAAAATTAAATCATGTATGGAATTACGTGAAGAATTAGAAAAACCAATTTCAATTATGCTTGATACAAAAGGACCAGAAATAAGAATAGGGAAAATGATTGATGGTGCACAAGAAATAAAAGCAGGAACTGAAGTAAGAATTTATTCAAATGAATCTGAATATAAAACAAAAGAATGTAAACTAACTGAGATGACAGTTTCTTATGATATGAGTGTGGATTTAAAACCGGGTGATACTGTTTTGGTTGATGATGGGAAATTAACATTAAATGTAATAAACGTTGATCCTGGTATTATTTTTTGTAAAGCATTTAATTCACATGTAGTAAAAACAAATAAAAGAGTTAATTTGCCAGGAGTTGATTTTTCATTACCATTTTTAAGTCAAAAAGATATTGAGGATATAAAATTTGGAGCAAAAATTGGAGTTGATTACATTGCAGCAAGTTTTGTTAATTCAGCAGATAATGTTAATGAAATAAGAAAAATTTTAAAAGATGCAAAAAATGAAAATGTTCAAATAATATCAAAAATTGAATCAAAAATTGGTATTTTTAATATTGATTCAATTATTGAAGCAAGTGATGGAATTATGGTTGCTCGTGGGGATTTAGGTCTTGAAATTCCTTACTATGAAGTTCCTTACTGAGAAAAACAAATGATAAGAAAATGTAGAAAAGCAGGTAAAATTGTTGTTGTTGCAACACAAATGCTTGAATCAATGACTGATAATCCTCAACCAACAAGAGCAGAAGTAACTGATGTTTATTATGCAACAGAATTAGGAACTGATGCTACTATGTTAAGTGGTGAATCTGCTGTAGGAATTTACCCTTTTATTACTACTGAAACTATGGCAACAATTAATAAAAGAGCAGAATTAGGTTTTTATGGAAAAATTTACTATGATAGAGCTTTAGAAATTGCAAAGAGTTCAAGTTCAGGAAAGAGAGCAGAAATTGCAGATGAGTTGGCAAATATAACAAGAAATGGTAAATATGAATTTGCAGTAGTTCTGTCAAGAACTGGTGAATTATTGAAAACAATTTCAAAATTTAGACCAAATGTAACAATTCTTGGTGTTTGTGAAGATGAAAGTTTATGAACAAAATTTGGAGTTTGACATTCAATTTTTATGAATAAAGTTAAAAGTATTGATGAAATTATTGCAAATCCTGAACTAGCAAGTGAAATTGCAAGATCCTGAGGAGCAAAAAAAGGTGAAGAAATATTAATTGTTAGGTCTGAAGATATAAAAGTATATACAGTATAAATCCATCTTTTGGATTTTTTATTATTAAATAACTAAACTTATTTAATAATGATATAATTTTTTTGTTATTCAAGAGGAGAATATTTTATGAAAAAATTTAACTTACAAGATAAGATGAAAAGAACAAAAGTTATTACAACAATAGGACCAAGTGTTCATTCCAAAGAAGCAATACATGAACTTTTTAATAAGGGAATGACAACAATTCGTTTGAATTTTTCACATGCAGATTTTCAAGAGCATGGAGAAAGATTTGAATGAGTTAAAAATTTAAGAGAAGAAATTAATAAACCAATTTCAATTCTTTTAGACACAAAAGGACCTGAAATTAGAGTTGGAAAAATGATTAATGGTAAACAAGAAATAAAAGCAGAAACTGAGGTTATTGTTTATACAAATCCAGATGATTTTGGTTCAAAAGAATGTTCAGGAACGGAATTACAAATGTCTTATGATATGTCACAAGATGTTAAAGCAGGAGATATTGTTTTAGTTGATGATGGAAAATTAACAATGCATGTTATAAAAGTTGAGAAATTTAAAGTTATTTGTAAAGCTTTCAATACACATTTAGTTAAAAATAATAAGAGAGTTAATTTACCAGGAGTGGAATTTACATTACCTTTTTTAGCAGAAAAAGATTATAATGATATTTACTTTGGAATTGAAAATGGCATTGATTACATTGCAGCAAGTTTTGTTAATTCAGCAGATAATGTTAAAGAAATAAGAAAAATTTTAAAAGAAAAAAAGGCAGAACATATTCAAATTATTGCAAAAATTGAATCACAAGTTGGATGTGACAACATTGATTCAATAATTGATGAAGCTGATGGAATTATGGTTGCTCGTGGGGATTTGGGACTGGAAATTCCTTATTATGATGTTCCTTATTGAGAAAAACAAATGATAAGAAAATGTAGAGAAAAAGGTAAAATTGTAATTGTTGCAACACAAATGCTTGAATCAATGACAGATAATCCTCAACCAACAAGAGCAGAAGTAACAGATGTTTATTATGCAACAGAATTAGGGGCTGATGCTACTATGTTAAGTGGTGAATCTGCAAATGGAGATTTTCCTTTTATAACTGTTGAAACAATGTCAGCTATTAATAAAAGAGCAGAAGTAGAATTTTATGCAAAACTTTATTATGAAAAACAATTAGAGAATGCAAGAAAAACTACAAGTGGAAAAAGAGCAGAAATTGCAAATCAGTTGGCAAATACAACAATTGATGGTAAATATGAGTTTGCCGTTGTTGCTTCAAGAACTGGTGAATTATTGAAAACAATTTCAAAATTTAGACCAAATGTAACAATTCTTGGTGTTTGTGATAAACCAAATTTATGAACTGCTTTTGGAACTTGACATTCAATTTTTATGAATAAAGTTAGTGATCTTGAATTATTTATGAATGATGATTCTGCAATTATGGAAATTGCTAAATCTTGAGGAGCAAAAGTTGGAGAGAGAATCTTATTTGTAAGAAATGAAAATATTAAAGAAATTACTATTTCTTAATTATTAAAACTATTTTTAATAGTTTTTTTTCTTTTTTAAAAAACTATGAAATTTTTTTCAATTTTGAAAATTTATAAATAGAAAATAAAAAAAAGTATTTTTTTATTTTAAATGAAGTATAATATTTTTTGTATGAAGTCTTAATATACATATTTTTAAATAAATATATATTAATTAATAATATTTAAATATATTAGAACTATTTTCTAATAAAGGGGAAAAAAGGGAAATGAAAATTACATTACTAGATGGACAAGTAATAAAATATGATGAGCCGAAAACAATAAAACAAATTGCAGATGGTATAGCAGTTTCTTTAGGAAAAAAATGTGTAGGAGCTGTTATTAATGGAAAAGAAATTGTCCCAGTAGGTGCAATAATTGACAGAGATTGTAAATTAGAAATTATTACAGATAGACATGAATTGTATAATTCAGTAATAAATTATACAGCTAAAGTAATTACAAGTTTAGCTTTGAAAACAGTATTTCCAGATGGAAATGCAGTTCCAAAAATGGATGATTTATCTACAACAGAATTTTTTGCTTATTTTGATATAGAAAAAAAATTAAAATTAGATGATTTAAAATTAGTAGAACAAAAAGCAAATGAAATAATTGCAATGGGTCTGGATATTTTATACATTAGTGGTTCTGAGGAACAATATCGTAAACAAATGCAAAGTATGAATGTGAATCCAAAATATATTGAAGACTTATTAATTGAAAATAAAACAAGATATATTAAATTTGCAACAAGTTCTTTGGCAGGTGTTGAATTTTTACCAAGATTTGCAATATTAAGTAATACAAAAAAATTATTTAAAATTGAATTATCAGAATTAACTGGTGTATATTACAATAATGATTCAAATGAGAAAATGGTTTATAGGGTTCACGGTATTGCAGCTTCTAGTGAAGAATCTTTTGAGAAAAAGAAAGAAGTATTAGAAGATATTAAAAATAGAGATCATAAAACCATTGCAAAAAATTTAGAAATTTATCATTTGGATCCGTTAATAGGTCAAGGTTTACCTATTTGATTACCAAATGGGGCTATTCTTAAACAAGAAATAAAAAAATATTTAATGGAAAAAGAATTTGAATATGATTTTATTCAAATTGAAACTCCTGTAATTGGAACAACAGAACTGTATAAAATGTCAGGGCATTGGGATCACTACAGAGATGAAATGTTTGCACCAATGGTTTTACCAAAAGAGGAAATGGTTTTAAAACCAATGAGTTGTCCTCATCACATTTCAGTTTATAAATATAAACAAAGAAGTTACAGAGATTTACCATTGAGATTTGCGGAGCATGCTACTCAACATAGATATGAATCATCAGGGAGTTTAACAGGAATTGAGAGAGTTAGATCAATGGAATTAACTGATGCTCATATTTTTGTAAGACCAGATCAAATTAAAGAAGAATTTATAAGATGTTTTAATTTAATTAGTGAAGTTTTAAAGACATTTGATATTAAAGTAAGTTATCTGTCTCTTTCTTTAAGAGATCCAAAAGATAAGACAAAGTACTTTAATGATGAAAAAATGTGAAATAATGCAGAAACAGAATTGGAAAATGTTTTAAAAGAATTTAATATCGAGTATAAAAAAATGATTGGTGAAGCAGCATTTTATGGCCCAAAATTAGATATTCAAGCAATTACAGCATTGGGGCATGAAATTACAATTTCAACAATTCAATTAGATTTTCTTTTACCTCAAAAATTTGATATTTCTTATATTGATAAAAATGGTAATGAAGCAAGACCGATTATGATACATAGAGGTCTTGCAAGTACTTATGAAAGATTTATAGCTATTTTATTGGAGCAAACATTAGGTATTTTGCCATTATGATGTACACCTGTTCAAATAGAAATTATACCTGTAAATATATTTAAAAACTCGAAATATTCTAATGAAATAAGAGAAGAATTTAAAAAATATTTTATTAGATCACATATTGATAATAGAGATGAAAGACTAAGTTATAGAATAAGGGAAGCACAAATTAAAAAAATTCCTTTCCAATTAGTAATTGGAGATAATGAAGAAGAAACAAAATCAGTTACATATAGGAAATATGGTTCAGATGAGCAAATTAATGTTAGTTTAGATGAATTCCTAGAAATAATTAGGGAAAAAATAAAACAAAAAATTTATAATTAGTGAATTGAACAGGAGTTTTATCAATGAATAATAACAAAATAAAAAAAATTGAAGAAGAAATTAAAAAATTAAAAGAATTTGATTATAGTTTAATAGAGGCTGAGCATTCATTTATGGTGAATGGAACATTAGGTGGGTTTAAATCAGCAGTACAGAAATTAGAATATACTTTTTTCAAACAAATTTTATTAGGAATTATGAGTGGTGTAATTATTGGGTTTGGGTATATTGCTTGTATTACAGCAATGGTTTCATTACCTGAATCTTGAAATACATTTGGAATAGTATTACTGGGTTTTATTTTTCCGGGTTGTATTATTTTGATAACTTTTTTAGGAGGAGGATTATTTACTAGTCATGTTTTTAGTACGATACCTGTATTAAAGAAATGTGCAAGTAGTAATGCCTATTTTAAAGGTATTTTTGGAGTATTATTGGGAAATATTTTAGGAACATTAGTTTTTGTATTAATTTTTGCAGGAGCTGGAGGTTTACAAAATATTGATAAGGGTTCACTTGCAAATAAAGTATACGATATGGCAATGCATAAACTTTATTTAGTAACTGATGAGATTTCTACAAAAAAATCAATTACTGCTGTAAGTGTTATCTTAACAATTGGGATTGGAATTTGTAGTGGAATTTTATGTAATATCATGGTTTGTGCAACGTTACCATTAACAAATTCTACAAAAAATCCTGTTGCAGTATTTTTATTCTTAATTTTTCCAATTGCATATTTTGCAATTGGTGGTTTTCAACATGGGCCCGCTAATACTTTCTTTTTGTGAATGATGCTTGTTGAAATAATTTTTAGGCCAGATATGCAATTTGGAGAAAATAACATTTCACCTGAATTTATTCATTTTATTTTATTTATATTTTTAAGTACAATTCCTACTTTAATTGGTAATTGAATTGGAGGAGCAATTTTTCTTCCAGGAATTTTATATTTGATAAACAGTAAATATACTTCACTTTTATTTAAAAAAATGAAACTTGAATATTTAGAAAAACAATTATTGATAAAAAATAGTCAACTAAAAACTGGTGAAAATAAAAATAAGAAAATAAATGTATAGGAGATAATTATGTTAAAATTTGTTAAAAAAATAAGTAGAGGCAAATGCAAAGAGTTTAAAAAATTTTGTTAACAAATTTAATAGTTAAATCTTTAGTTTTAGTTCTTAAATAAATTCAGTAATTTATAATATTTTTAATGTAAAAAGCATAAATTATATCAATAGAATGTGAGAATATAAAAAGTGTCAAATAAAAACAATAACAATCATTTTACTAAAAAAAACATAAAGAAAAAACAATTTAACAAAAAATACCAACATCATTTACAAATTTATTTATGGTTTTGGTATTCATCATGATATTGTCATGAATTCTGCACTATAGTGGCTTAACTACTGAAGTTGTTGTAAATAATGAAACTACTACTGAAAAAATTAGAGCTATTGGAATAATTGATTTATTTGTTTCAATCTTTAAGGGATTTGAAGATAAAGTACAAATTATAGTATTTGTTAATGTCAATTGGTGCATTTATTTTTATTGTTATGAAATCAAAGGCATTAGATGCAATGACTCAAAAAATTGCATGAAAATTTAAAGAAAAAACTATTTGGGCAATTCCAATAATTATTGTTTTTTTAAGTTTTTGTGGATCTGCATATGGGATGGCAGAGGAAGCATTAGGATTTCATATGATTGTAATTCCACTTATGTTGGTTGCAGGCTTTGATTCATTTACAGCAATTTTAACAGTATTGTTGGGAGGTGGAATTGGACCAATGCTAGCTACTTTTGATCCTTTTCTAATTTTTACAGCAGTAGATGCATCAAATGCAGCAATTGGAAGTGAAGTTGTTACATCAACAGATGGATTAATTTTTAGAGCAATTTCATGAGTTTTAATAACAACTTTTACATCTGCATATGTAATGACTTATGCTTATAAGGTTAAAAAAAACCCTGAAAGATCATATACTTTTTCTACTTTAGAAGAAGATAAAAAATTTTTCTTAAAAGAGCAAGTAGAAAAAGTTGAATTAACAAAAAAAGAATAGCAATTAATATTATTTTTTTGTCACTATTTCTAATTATGATTGCATATCTTTTTCCATGGGATACTTTATTTAATCTTAATGGAAGTAGTTCATTTTAAGGTATTGGAAATTGAATTAATCAAAATATTCCATTTTTAACTGGTTTAGTTCCAGAAATGGGGATTGGTGGATTAACTGAAGTATCTGGTTTTTTCTTAATTGGTTCATTAATTGTTGCAATAATTAATTGACAAGGTGAGGAAAACTTTGTAAAAGATATGCTTGAAGGTGCAAAAGATATTGTGGGAGTTGGATTTATAATTTCAATTGCAGGAGCAATTACAATTCTTTTAAAAGAAACTTATATACAATCTTTAATGTTAAATGCAAGGCCTACACAAAATGGAAGTAGCTCTATGAATCCATTTTTGTTTATATTAATGACATTCTTTATATTTTTACCTTTATCTTTTGCTTTACCTTCAACTTCTGGATTTTCTTATGCAGTATTTCCTGTTTGAGGACCACTTGCAAACACTGTGGTTACATCAACTGGTGTAAGCATGGTATCAGGAAGTATCACAGCTTTTGCTTTTGCTAATGGAATGGCAAATATGATATCACCAGCATCAGGAATTGTTGTTGGAGCAGCACAAATTGGAAGAACGAGTTATGCAAATATTATGAAAGGAACTTGAAAATTTCATATATCACTTTTAGCAATTAATATTATTTTATTATTAGTTGGAACAAGTATGAATTATATTAATAATATTAAATTCTTTTAAAAAATATCCTTGTAAAGGATATTTTTTAGTTGTATTATAAAGTTAATAAGCCCTACTTGGGCTTTTAATTTTAGGGAGCAACTTTTATGAAGAGGAAAAAATTTCAAAGTGATAAAGCATTTTCAAAGAAAAAATTTATTGATTCACTACTAACAATTTTTGAAGGAATTAAAAAATTTCCAATAACATTTTTAGGACTATTTTTTTTTATTATATTTGATTCATTGCTTTTTTCTTCAACTGCTGTAATTGTCAATAAAATGATTTCAAATATTCAAAATACAGGAGGTCAATTTTTTTTGGATTTAAAAATGACTTGAGAAAGTTGAGCATATTTTGGATTAGTTTTATTTATTGCATTAATAGTTTTTGAATATTTTACTAATTTATTCTCAGGGCTTTTTTCAAGAAAAATGGAAGTCTATTTAAGAATAAGAGCATTAAGAAAATTAATAGAAATTGATATAAGTTATTATTCTAAAACTCAAATTGGTTTAATTATGTCAAGAATTATGACAGATAGTCAAGGAGTTGGAGACGCATTTAATGAATTTCTACTAAATTTTATTTATACATTAGTTAGTTTAATATCAACTCTAATTGTTTTATATTTGATTGATGTTAAGTTAGCTTCAATAATTTTAGGTTTATTTATTTTTATGGTATTTGTAGTTTGATTTTTATTTTTACATTATAGAAGAGCAATAATATATTCTGTTGATGAAAAACAGGCAATTGATGCAGATATTACAGATAGGTTAATTAATATTAGAGCAATAAAAGCAGTAGGTGCAGAAAATAAAGAAGTTTTTAGAAATGCAGAATTACATAAAAAATATGACGAAAAGTTAAGAAAAGTTATTGGCTGGCAATCAATTTTAAGTTTTTTTAGTAATACTTTTGCTTGAACAATGCCTACAATTGTGATTATTTCAGCTGTATTAATATATAATGACATTAATCCTGCAGAATTATCTGTTTTAATTATTTCTTTTTCATCAGCTTGCTACAATATTTTATATTCAATTTTGAGTCTACCAATGTGTATGAGAGGACTTACAAAATTATCAAATTGTGTAATGAGATTAAATTATATTAATAATGCAAAATCATTGATTGAATTTAAAAAAACTGGAACAGAAATTGAAAAAATAGACACAGTTGAATTTAAAAAACTAAGTTTTTCATATCCTGAATCTCCTTCAAAATTAATTTTGCCTGAAATTAATTTTATTTTTGAAAAGGGTAAAAGTTATGCATTTGTTGGAGAAACTGGTGTTGGTAAATCAACAATAGCAAAACTTATATTAAGATTTTATGATCCAACTCATGGTAGTGTTTTAATAAATGGAATTGATTTAAAAACATTAAAAATGTCAAATTATTTAGGCCATGTTGGTTATATTGAACAAGAGCCACAGATTTTATTTGGAACTGTTATGCAAAATATAAAATATGCAAGTTTTCAAAAAACTGATCAAAGTGCAATAGAAGCTTCTAAAAAGGCCAAACTTCATGACTATATAATGTCATTACCAGATAAATATGATACAATTTTAGGGGAACGTGGTTTTATGTTAAGTGGAGGGCAAAAACAACGTCTAGTAATTGCAAGGTTTTTTTTAAAAAATCCTGAATTACTAATTTTAGATGAGGCTACTAGTGCTTTGGATAATGTAATTGAAAAAGAAATTCAAGCTGAATTAGATGAATTAATGATTGGAAGAACAACAATTATTATTGCACATAGATTAAGTACTATAAAAAATGTGAATCAAATAATAGTATTGGATAAAAAAGGCATTGTTCAAACTGGTAGTTTTCAAGAGCTCAAAGAAATTTCCGGAAGATTTCAAAAATTATATAAAATAGGCTTAATGAAATAGAAGAAATTTATGGAAAAAATAAATTTAGAAGAAGTCTCTATGTTTATTATATCAAGTGCTGGAATTGCAAAATCAAATGCAATTTTAGCAATTAAAGCTGCAAAAAAACTTGAATTTGAGAAAGCAGAGGAATTATTAAAAATAGCAGAGCAGGAAATGATTAATGCACACCATGCACACTTTGAAGTAGTTAGTCGTGAAGCAACAGGTAAACAATTGGACTTTAAACTTCTTTTTGTACATGCAGAAGATCAATTTTTAACAACTCAAGCAATGATTGATTTAAGCAAAGAAATGATTGAAATGTATAAAATTGTACATAAAAAATAGAATTTAAATTTTGGGAGGGTTATGAATATGGCAAAAGTTTTTGCAATAGATTTGGGTGCGACTTCAGCAAAATGTGCATTTTTTATAGATGATGAAGTTGTTGCAAATTTTAATTATGATACTACAAGAAGAGAAAACTTATTGGAAAATATAGCAAAAAAAGCAACAGAAATTGCTAAGGAAAATAATATTATAATGGATGAAGTTGATTTTGTTGGAATTGCAGTTTGTGGAATTGTTGATAATTTAAAGGGTTCAGTAGTTTATTCTGCAAATTTGGGTTGAAAAGATTATCCTACAAGAGAAGAATTAAAGAGAATATTTAAAAATGAAAACATTGTTGTTTTAAATGATGCAAAGTCTGCAACTTATGGTGAATGAAGCAAAGGATTAAAAGAAGAACCAGATTCAATGGCTTTATTTACAATTGGAACAGGAGTTGGAGGAGGAGCAATTTTTAACAGAAAATTGGTTTTTGGGGATAATACTGGTTTTCCAAGTGAGCCTGGTCATGGAGGAGGATTTCAAGATGAGGTTCAATGTATTTGTGGATTAAAAGGTTGTATTGAACCTGTTTCTTCAGCAACTGGAATTGAAAAAAAATTAAATGAAGTGGCAAAAAACTCAACAGGAAAATTAGGTAAAGTATACAATGAACTTAATAGAGTTATTCATATTAAAGATATAGCATTTTTAGTTCAAGAAAATGATTCAGAAGTAATGGAAATTTTTAATAGTTGTCTTGAACCACTTGCAAAATGTATTTCTGTTTTAATTCATTTTTTTGATATTTCTATGATTGTAATTGGAGGAGGTCCTTCAAATTTAGGAGATCCACTAATTAAAATTATTAGGGAAAAATTAAAAAATTATGTTTTACCAGAATTTTACAAAAGATTGAATTTAAGAAAAGCAATTTTAGGAGATTTGGTTGGAGCATGAGGAGTTTATCAATATGGAAAAAATTACCTATTAAAAAAATAATAAATATAACAATAAACATATATTTATTTGTAATCTAAATAAGCGAGTTAATTCTCGCTTTTTATATTTGCAGAAATTTTATTCAGACTTTTAAAGTATAGAAAATAATTATTTATATGTCTTATTTTTTATTTTTATTTAAAAAATATCAAAAACATATAAAATTATAAAAAGGTGTGCTTCTATGAAAAAATACTATCTTTAATTAGCGCAATATCATTATCAATTTTTGCTACTGTACAAACACTTTTTGTAGTAGGATGTGAAAAAAAATATTCAACTCAAATTCAAGAAATTTTAAAAAAAGATGTAGAGGGTTTAACTGGTGAAAAATATTTTGAACAAGTTGATACAGAAACTTTTTCATTACAATTAAATCCAAATATTTATGAAAATAGAGAAAAATTGAATTTAATTATTGAAGAGAGTTTAATTTTGTATGAAGAAGTATCAACATATTTTAATTCATCAATTTCTTAAGATATTTTGGATTGAAAGTATCTAGTCTGAGATGATAGAGTTGGTTATGGTCAAGTTTTAAAAATAATGACGTATGAAGCAGAACAAAATTTTTTAAATTTTTTAGGAGATATAATTATTACTCCAGAATTTCAATTAAATACTGCTAAATTAGCAGTTTTAAAAAATAATTATAAATATATTCAAAAATGAATAATAGATACAAGTGCTGTTCCAATTGCAGAAGAAAATTTAAATTTGTAAAAGTAAAGGAAATGGCTAATGTAATAAATAATGATTATTTTGTTCCATTTTTTAAATTTATTCAATTAGAAAAAGTAAAAAGTCATGGTGTTTCTAGAACATCGATTATTTTTGATACAAACCTCAATAAATATTTAAAAGTTGGTATACACAGTGTTTCTGAATTTGCAAGTATTAACAAGTTTATAGATGAAAATAATAATAGCTATGAAATTTTGGATCAAGATGACGAAGATGAAACTACAAAAATAAGAAATAGTTTAGCTCAAATAATTAATAATTTTGAAATGTCTATAATTTATATGTATGGATTTAATTTGGAGGAAATTTTATAATTATGAAAAAATATGAAAAGTTTTCAGAAATTTTTAATCTTTATAATTCATTAAATATATATAAAAATTTAATGAAAGATTTAAAGAAGGAAGTTAATAGTGCAAAATCCGAATTACATAATAAAAAGGTTAAACTTAAAGAAATTAAGCCAATTTTTAATAAAATTGAAAAAGATAAGTTGAAGGAATTAAATACTTCATTAAATATTTCATTATTAAATGCTAAATATTCAAAAACAAATATTAATCAATTATATGAAGATTTTAATAATGATAAAGAAAAATTAAAAAATGAATATATTAAAAAAAAACAAAAAAGAATTGAAAAAACTATGTCAGAAATTGAAATGATAAAGGTTAAAAATAAAACATTATTACAACAATGAAAAGAGATAAAATTAAAAATTAAATCTACAAAAATTGAAATTAAAGATAAATGAAATTCTTTTGAGAACTTAAGATTAACAGAAGAAGTTAAATTAAAAGAAAACTTAAATATTACAAAAAAAGAAGTTCAAAAAAAATAATTGAATTAAAAAATGAATTTAAAAATAAAGAAAGAGAAATTTTTACTAAATGAGAAGAACAAAATACATCAGTTAATAATTATGTTTCAATTCTTAAAAAACAAAAAAGAAAAAAATTAAAATCTTTTAAAAAGGATATTGAGGAAAAATTTTTTGAATTATCTTTAGAGTTAAATTCTTTAAAAATTGAGTATAAAAAGAAAATTTCATTGCAAAAATTAAAAGTAAAAAATGAAAAACTGGAATTAAGATACAATAAAGGTAAAGCAGAGCCTATATCATTTGATGTAATTATTAATCAAGTAATTTATGGTTCTGGTAAATTATCTAATTGAAAATTTATGATAGCTTTAAAAAATGGATTTTTTTCACTTATGCCCTTAGTTATTGTTGGAGCAGTTTTTATATTAATTAATAATATTTTACTTAGTGCGGGAAATGGAGGTATTTTTAATTTTATTAGTTTAACAATAGATCAACTTGATATTTTAAATAAATTTAAAAATATTGGTAGTTATATTTGGAATGGTACTTATGCTTTCTTTGCTTTTTTATTATCAGGAGCAATTGCTTTTCATTTAGCTCCTTATTACAAAGTAAGTCAATGATCTACAGCAGTTGTTGCAATGAGTTCATTTTTAATTATGAATCCAACTTTTTGAGGAGACTTAGGAGTTTTTGGAACAACAGGAATGTTTACTGCAATAGTAATATCTTTTTTATCAACAATTTTATATGGAAATTTATCAAAAAATGAGAAATTGAAAATTAAAATGCCTGACTCTGTTCCAGAAGGTGTTGCAAAATCATTTAATGTTTTAATTCCATATGCAATAACTTTTTCAATATTTGGTTTAGTGGCTTTTGGAATTTCAGAAATTGGTGATTTAGTTGGTGCAATTCAAGTTGGAAAAAATTCAGTAACATTTTCAAGTATTAATGGTTTAATAGTTGTTTTAATTCAAAAACCACTTGTAAATGTTGTTTCTGGATTTGGTGGAATGATAGTAATTGTTTTTGTTTGACAATTATTATGATTCTTAGGAATTCACGCAGGGGGTATTTTGTCTCCAATAATTGAACCTATTCAACTTGACGGTTTAACTCAAAATCAGCAAGCACTAGCAGAGGGTGCAAACCCTGAATATGTTTTTACAAATTCATTCATGAATAATTTTATTCACATTGGAGGTACTGGGGGAACTATAACATTAATTATTGCAATTTTTGTTTTCTCAAAAAGAGGAGATTATAGAACAATGGCAAAAATGATAATAATTCCAGCCTTATTTTGTGTAAATAAACCATCAATAGTTGCTTACCTATTGTACTAAATCCAATATTATTTATTCCTTTTATTATTGGACCATTGCTTGCAGGAATGTTTGCTTATTTTGCAACAATTACTGGAATGATGGAGTATTCAAGTGTTGTTGTTCCTTGAACAACACCACCAATATTAGGTGGTTTATTAGCAACAAAAGATATTTGAGGTGGAATTGTTGTTGACATAAATATGGCAATACTATTTGGTTGTTATTCACCATTTGTTTTATTAGCAAATAAAATTGAACAAAAAGAATTATTATCTAAATTTACAAAAACACAAAATATTGAAGAAAAAAGTATTAATAGAAGTATTTTAAATTAGAAGGAGATTAATATATGAAAAGAATATTATTAGCTTGTAATGCAGAAATGAGCACATCAATTTTACTTAAAAAAATGCAAGATTATATTTTCGAAGATGATTTGGATTTAGAAGTAAAAGCAGTTTCAATTAATGAAGCAAAGTTGATTGGAAATGAATGAAATATAGTTTTAATTGGACCACAAGTGGCTTTTGAGTTGGATGAATTGAAAAGTGTTTTAAATGTACCTGTCTTTGTTATTGATCAAGATGATTATGCAAAAGCAAATGGTAAAGCTTTATTAACTTTTGCCTCAGAAAATTGGAAATAAAAAAATCTCTTTAAAAGAGATTTTTTTATTGTTAAAATTAATTAAAGAGGTATTTTATGAATAAAAAAATTGGTATTTCAATTTATCCAGAGCAATCTTCATTTAAAGAAGATAAAAAATATTTGGATTTTGCAAAATCTTTAGGGTATGAATTTGTTTTTACAAGTATATTACATTTTGTTGGTACAGAAAAAGAAAAAGAAAAGGCTAATATGGTATTAAAGCCTTTAAAATATGCAAAGGAAATAGGTTTTTACACAATTTTAGATGTTGAATATAAATCAATGAAATTAATTGAAATATCTGTAAATGATTTATCAAAATGTATCCAATATGGTATTGATTGTTTAAGATTAGACTCACCAAGTTTACCTGCAGAAATTTCTAATATTACGCATAATAAATATAAAATAAATATACAACTAAATATGTCCAATAATGATAATTTAATTACAAATGTTATGGATTATCAACCTATAAAAAATAGATTGAGTGGTTGTCATAATTTTTATCCATTAGAATATACTGCTTTACCATTTGATTTTTTTACAGAAGCTAATCAAAAATATTTAAAATATAATATTGAAACATCTGCTTTTGTTGGAAGTCATTTTGGAGAAATGACAACAGCTATTGGTTGAAAAGAATTACCAACTTTAGAAGAACAAAGAAATATTCCTATTTCTTCTCAAGCAAAAATTTTATTTTATTCTATTCTAATCAAATTGATAATGTTTTGATTGGTAATGCATATGCAACAGAAGAAGAATTAAAAAAACTTGCCCAAATTAACAGATATGAAATAACTTTTGATTTAAATATTGAAAAAAATTTGACAAAAGAAGAGATAGATATTTTACAATTTGAACATTATAGAAGAAAAGATATAACAAAATTTTTTATTAGATCTACTTTTTCAAGAGTTGCTTTTAAGAATTCACAAATTCCATTAAAGAATGGAAAAAAAATTTTTAATAAAGGAGATGTTGTTATTATTAATGACAATGATCAAAAATATAAGAGTGAATGTCATATAATTTTAAAAGATGGATTTGAAGATAAAAATTCAAAATATAATTATGTTGGTAAAATTGAAAGTTATGAAAATAGATTAATTGATTTTATAAAACCATGAAGTTATTTTAGATTTAGAATAGGAAAGTAATTATGCTTATATTAACAGAAACTACAAGTGTATCATCATGACTATTATTAACATTTGGAATTTTAGGACTACTATTAGGTATTTTTTCAACAATTTTTTTTCTTAGATTTAGAAAGAAAAAAAATTTTGAAAGAGATTCTTTTAATGTAACTCCAGGCAAATATAAATTTTTTAGATTTTGACAATTTTATGAAATTTTTACATTAGCAGCTGTGGGTTATCTTGCAGCACTAATTTTATTACCAATTGCAATAGAACAACTAATCTAAATATTATTTTTATATTGGAAAAATATTTTATAATTTCAAAAAAACCTGGAAATTATTTTTTTTTGTAAAAATAAAATTGTACTTTTATCACTCTAGAAAGGTTCTAAAAAATGGCTGAAGCAAAAGTAAACTTAGATAATTCACTATCTAAGAAAAAAGTAAAATTTTCAAAAAACAACTCAGCTGGGCCAAACACGTGAAGTAGATTTTTAACTCTTCTTCAAGAATTAGGAAAAACATTACAATTTCCTATAGTTGTTTTACCTTTTGCAGCAATTCTAAATCGTTTTGGTGCTTTGGAAATATCTCTTGCAGATGAAGGTTCAGTGGGTTATTGAATTTCATTAATTATTCAAAAACCAGGTTCAATTCCATTTGATAATTTACCATTATTATTTGCAATTGGTTGTGCATTTGGTCTTGCAAAAGACCATAGAGGTGAAGTTGCGTTAGTTGCAGTAATCTTTTATCTTTTAATTGCAGCCTTAACAGGTGAAGGAACTTTACCATAAATCATTTCTGGTAAAGTTATGACATTTAAAGATACAGGGGGCGAAGCATTTTCTGAATTAATTTACGTACCAGTATATGGTGATGATGGAAAAACTATTACAGGGGTAAACTATGTTTTAAATATTGGTGTCTTAGGGGGAATTGTGGCTGGATGTATGTCTGCATATTTTTACAATAAACTCAAAGATATAAAATTGCCAACAGCTTTTTTTTTTTTTTTTGGAGGAAGAAGATTTGTACCAATGGTTGCATTAGCAGCATCAATACCAATGGCTTTTGGTTTTTCAATAGTATGACCTTGAATTCAATTTGGTCTAATTAAATTTGGTACAGCTGTAGCTGATCCTACAAATCCAGCGTTAGCAATACCTGGTACAACAATTTATTCTATTCTAAATAGATTGTTATTACCATTTGGATTACATCAAATAATGAATACATTCTTTTGATTTCAAATGCTAGTAAGTGGTTTTAAAACAGATCCAATTACAGGTAATTATGGTGAATGAATAACAGTAAATGGAGATATTAATGCATTTACAGATGGTGTTTCTACATCAGGGTTATTTCAAGCTGGTTTTTTTCCAAATCCATTATGATTGCTTCTATTAGCAGCACTTGCAGGAGTAACATACTACTTTATTTTCTATGTTGTTATTAAAAAATTAAATCTACCAACACTTGGAAGAAAAGTAAATACTTCTGGACAAGTGGGAGAATTAAATAAGGTAAAAATTTCTGAGTCTGCAAATAAAAAAATAAAAGTTAATAAATTTGAAAATATGGCAATAGAAATTATTGATGCAATTGGCAAAGAAAATTTTGTATCTATAGATAATTGTGCAACTAGATTAAGATTAATTCTTAAAGATAATTCAACAATTGATGATAAAAAAATAAAAGCAGCTGGAACATTTGGAATAAAACGATTGGGAACTGAAAGTTTACAAATTGTTATTGGTCCTGATGTAGAACATGTTGCAAATGAAATGAGAAAATTATTAATTTAATAAATATATAAAAAATGAAATGATAATAACATTTCATTTTTAAAATAAAGAAGAAAATATTAAGGCTTTTAATTTTGAAAAGGATACGGATTGAATTTTTACATTTTGTAAAACTTGTTGAGATTTTAAAAAATTTGTTTTCCAAAAGCAATAAATTTTGAAGCTAAAATTGATTATCAAGGAATTTGTACAAGTTGCAGTGAAGAACAAAGAATAAATTTAAAGGAGGCAAGAGATTATTATGATCATTTAAATGATCATAATAATTAAATAAAATGAATAATTGACCTTTATGAATTATTTTAATAGTATTAGTTATTATTTTAATTTTATATTTTATAATTCCATGAAATAAAATTTATAAAAAGAAAAATGAAAAACAGTCGTTAATAAATGAACCAAAAGAGTATATTAATAAAAATAATAAAATTATTAAAAGACAAAAATTTTAGAACCAATTGAAAATGAAAAAAACAGACCTTTATTAGGCATTTATAATTGATTTGAAAAAAAAGAAGCTTTAAGAGTAAAAACATTAGTTTATGTACAATCAGAAGAAGAATCATGTGATTTATGTATACCCTTTGAAGGTGAAGTATTATCACTTGAACAATACGATAATAAATATATAACAATGAGTGAAGCAATATCAAAAGGTTATCATCATATTGGTTGTAAACATATTGATTTAGATTTTTTCCCAGGGACAACAATAATTGAAAAAAATGAATTTAGTGAGGATATTCAGAAAAAAAATCACAATAAAGTATTAGGTTTATATAAACTGGAAAATGAAATTAGAAATCTTAAATATGAGTTTGATAATATGAAAAAAACTAAGGATATTCCATTTAAAATTGAAAAAAAAGAAAATGAAATTATTAGATATTGTTTAAAAAATAATTTATTAAGAAATTTTGAAAGACAAAATCCTTATATTAAATATATAGACAAATTTAGATAAATATAAAATAAATTTGGTTCATATATTTTTATATATAATAAAGAAGCAAAGATAAAAAAATATACAGAAAAATTTATTTGTTATCGAGAACTTACTACTTAAAATAATATTACTTTGAAAACAAAATTATTGTAGTAAAAACATTTTTTTATATATTAGGAGGGTAGAGTGAATATTATTAATATAGAAATATATTAAAAAAATTTTGAGATAAAGTTGTATTAAATAATTTAAATTTAAAGTTTATTTTAAATAATATTTATGAACTATTAGATAATAATAGAACTGGAAAGAAAACTTTAACAAAAAATATTTTTCCTAAACTTGAAAATAAAAATGGAATAATCTCATATAATGATTTGTCGTAAAAAAAGATAAAATATAAAGAATGATTTTATTTTCAGAAAATGATGATTTCCATTTAAATATAACTGAAAACAATATTTAGAATATAATGAAAATTAATCTACTTTCAAAAAAAATTTGAAAGTAGATTAAAAAATTATTAAAGAAATTGTAAAAATAAATCATTTTTATAATAAAAAGATAACAAAATTATCTTCAGGTCAAAAAAATTACTTACTTTATCACTTTATATAATTTTAAAACAAAAGTATTTTTTTTTATTTTGATGAATCAACAACAAATGTTGATATCAAAATAAAAAAATTTTATTAAATGTTATAAAAGAATTAAAGGACACAGAAACTACAAAGTAGTAATTACTCACTTAATTGAAGAAATTAAAGATATTTTAGATCAAAGTAAAATAATTTACAATAGTCAGTTTGATAGTGAAGAAGAAAAATATCTTTATTATTTGATATGCATACATTAAGTAGTAAAACAATAATTTTGATATTAAAGAGTATATAAAAATGAAAAAAAGTTTATATAGTGTTTGGAATTTATTTTCTACTTTTTTTAGTTTTGATATAAAAAATAAAAAAGTAATAATTTTTTCGTCTTTTTTAATTTTATCTACTTTAATTATGAATGTAATTTGATTAATTATTTTAAATATGAAAATCTTATCTACACAATTATATTTATGATCAATATTTTTCAAATATTAAATTTAATTTTTTAGTTTATATATTTCTTCTAAAATATTTATGTTTTTTTCAGAAATAATTATATTTATTTTAGAAAAAAGATATGATTATAAATTAATTTGAATCTACATTTCAAAAATATTATGTGATTATTTTATTACCTTTTTATTTAATAAGTTTAATAGTATCTTTTATATTTTATTTTAGTATTTCAAAAATTGAATATGACATTTCAATTTATCAAAATTATGTTTCTGTACAGGGATAATATTTTTTAATAATATTTTTAATTCCAATTATATTAATATTTTGAGATTTATTTTCAAAAGGAAATTTGACAATTATCTTATCAACTCTATTTAGGTCCTGAGATTGGTGATTGAAGTAATGCTATTAAATATAATGAATATTATAAAATAGCAATTAAGTAATGTATTCTACATTACTTATGATCAAATTTCATATTTTAGTAATAAAACAGTTAAATTTAAAAAACCAACCCAAATTTTACTAGAAAATATAGAAATTAAAGATAAATTTTCAAAGTTAAATGTAACTTATTTTAAATGCTTTAAATAATTTTATAGTTAAAAAAAACTTATAATATGAAAAAATCAACAAAAAGATAATTTTAAAATTAATAAATGTGGAAATAATATATTTTATTAAATTTACTGTTTTTTATATTATCATTTTCCTTAATTTAGTAAATATTTGTTAAACTTATTATTTAATTTTATATAAATATTAAAAATAATGTACTTTTTTAATAAAAATGTATTATAATAATTTTGGTTTAAAGAAAGAAGCACATGCTCACCGTTACTTTTAGGAATCGGTATTAAAACTTATTTTAAATTTTTATTATTTAATAAAATAAAATAATCTTTTAAGTGTGCTACTAGTCTTTTAACGGCACACTTTTTATTTTGGAGGACAAATGGCGGAAAATAAAAACATAAAAACAGAATTTGTAAATAAAGAAATAAGAGCAAAACAAATTCTAATAATAAAAGAAGATGGTGAAAAAATTGGACCATTAAATAAATTTGATGCTTTAAAATTAGCTGAAGAAAATAATCTAGATTTATTACAAGTTGGTATTCAAGATAATTCTACAGTTATTGCAAAAATGTTAGATCATGGAAAATTTAAATATGAACAGAAACGTAAACAAAGAGAAAATAAGAAAAATCAAGTTAAAGTAGAAAATAAAGAAATTCGTTTAACAGTTGGTATTGGTGAACATGATTTAGACACAAAAGCAAGAAAAGCAAGAGAATTCTTAGAAGCTGGAGATAGAGTTAAAATTTCTTTAAAATTTAAAGGAAGAGAAATTGTTTATCAAGAATTTGGTAAAGTAACTCTAGATAATTTCTTTGCAAAAATTGAAGATATTGCAAAGATTGAAAAGGAAGCCAAGTTAAATACACGTTTTTTAGATATGTATGTAGTGCCTAAAAAAGGATAATAGTTGGAGGAAAATTTATGCCAAAAATGAAGACAAAAAGCTCATTAGCAAAAAGAGTTAAAAAAAATGGTGCTGGTAAATTAAAAAGAGGTCAAGCTTATAGATCACACTTAGCACAAAATAAAACAACAAAACAAAAAAGACATTTAAAAAAGGCAACTTTTGTATCTGCAGGAGATATGAAACGTCTAAAAGGATTATTACAAAATTAATAAGGAGTAGAACACTATGGCAAGAGTAAAATTTGGTAAAGTAACAAGAGCAAGAAGAAAGCGTTGAATTAAACGTGCAAAAGGTTACTATGGAACTAAAAAGACAAATTTCAAAAAAGCACATGAACAAGTAGTACGTTCTATGGCTTATGCATTTGTAGGACGTAAATTGAAGAAACGTGATTTTAGAAAATTATGAATTATTCGTATAAATGCAGCAGTTAGACCATTAGGATTAAGTTATTCAAAGTTTATGAATGGTTTAAAACTTGCAGGAATTGAAATAAATAGAAAAATGCTTTCTGAATTAGCAATTCACGAACCAAAACAGTTTGAAGCATTAGTTGAAACATCAAAAAAATCATTAGATAGCAAAAAATAATAAATAAAGTTAAAAAATCTACACACTATTTGAATGTGTAGATTTTTTTAATATAATAATTAAAAGAGGTTTTTTATGGCAAAAATTTTAGATAATAATGAAATAGAATTTTCATCAATTGATATTGAATCGGCTTGAAATAATTCACCAAAGCTAATTAATAAAGAAATTGATCAATTTAGAATGTGTTTTATATGTAAATTTATAATGAATAAAAAAGATTTTAATAATGGAGAATTTGGATGAGTAGTTGATTTTGTAAATTTAAAAAAAATTACTTTTGAGACAAGTAATTTTATAGCAATCCATTCTGTTTGTTTAGACTTAAGGCCAAATGAAAATTGTAGTAAAGTTTTAAAAAAAGTAAATTCAATTAAATGAGCATTTAATGAAGAAAATAACTAATTATTTTCTCTTATAGTTTAATCCAGTTAAATTCAAAACCTTAGTTAATTTTTTTCTTGCAATATTTTGTGCTTTTTGAGCTCCATCTTCTAATCATTTATCTATTTCTTCAGAATTTAATAATTTATTATACTTTATTTGAATTTTTTCAAGTAATTCTACAACAACTTCGGTCACTTTTTCTTTTAAAAACCCATAATCCTTATTTTTAAAAATTTCTTCAGCAGTTTCCAAGTTAATATTTTTTAGAGAAGCAAAAATTGTAATTAAATTACTAATTCCTGGTTTTTTTTCGGTATCAAATTTAATAACATTTTCTGAATCTGTTACTGCTGACTTAATTTTATTTTTTACTTCATTAATATTATCAAGAAGTCCAATAAAACTTTTGGGATTATTTGACGATTTTGACATTTTTTTTTCAGGATTTTGTAAATCCATAATTTTAGAACCAATTTTTGGAGTATATTCTTCTGGAATTGTAAACATTTCTCCATATTTATTATTCATTCTTTCAGCAATATTTCTTGCTAATTCAATATGTTGTTTTTGGTCTTTTCCTACTGGTACAAATTGTGCGTCATATAATAAAATATCTGCAGCCATTAATGCTGGATAAACTAATAAACCTGTTGGTATAAATTGTGTACCGTTATCTAATTTTAAATTATTTGTTTTATCTTTAAATTGAGTCATTCTTTGCAATTCACCTAAAGTTGTATTGCAAGTAAGTATTCAACCTAGTTCGGTATGTTCTAACACATCACTTTGAACAAAAACAGTAGCTTTTGATGGCTCTATGCCACACGCAAAATAAAGTGCAACCATACTTTTAATATTTTTTCTTAAGATTTCTTTTTCAATTGGTTTTGTAATACCATGAAGATTTGCAACAAAAATATACATTTCAAACTCATCTTGTAAGGCAACAAAGTTTTTCATTGCCCCAATATAATTTCCTAATGTCATCGTACCAGTTGTTGTTATTCCAGAAACCATTCTTTTTTTATCTGACATATTTTAACTCCTTAATTTACAAGTAATATTATACAATTTTTATTTATTTTTAAATAAAAAATAAGTAAAATAAAATTATGTTAAAGGTGGAGTAGTTATGCTTTCATTTAATATAGTTAAAAATGATTATAAAACCACAATTCAATCAATTTCTGATTTTAAAGATAAATTAATTAAAAGAGGTTGAATTTTAAAAGAAAAAAATCCTCAGTTCGTTTTTATTTTTGGTGGAGATGGAACTTTTTTAAAAGCAATTTCCTTATATAAAAAACAAATTGATGATGTTTTTTTTGTACCCTTTAAATCTGGAGGAATTGGTTATTATACTAATAAAAATAGAATTGATGAATTTGATTTAACATTAGATTTAATAGAAAATAATACTTTTTCAATTGATAAATTTGAATTATTGGAAGTTCAAAATAATGGAGATAGTTATTTAGTTGCAAATGAATTAAAAATTTTAAATGAAAAATCAGCGCTTTATATTGAAATATTCATTAATGATGAATTTTTAGAAAAATTTCATGGAACTGGACTTGTAATTTCAACTTCAAATGGAAGTACAGGTTATATGAAATCAGCTGGAGGAGCAATAATTTTACCAAAAAATAGTAAAATTTTTCAAATGCAAGAATTAATTCCAGTTAGTACAAATAAATTTAGAACTTTAAATGCTCCTTTAATTTTAAATGATAGTCATTTTTTAACTTTAAAATTGGAAGAGAAATCAAAAGAAATAATGATTATTGATACTATTGAAGTACCGATTATTGATAAGTATATAAGTATAAAAGTTTCAAATAAAATTATTAAAGTAATAACAAGTTTAGAAGGTAAAAAAAATAGTAAAGTTGAAATATTAAGAGATATCTTTATTAAAGATAAGGAAATTATTGAATAATGGTAACAACAGTTTTAATATTAGTTGCTATTTTATTTGTTGTTTGTTCAATAACTTTATTAATCTATATTTCAACTAGAAAAATTGTAATTCAAAAAAACTCATTAGATAAGTTAGAAAACATTCCTTCAGTTTTTACTTTTAAAAATATAGTCAAAGCTTTAGGTGGTTTTGAAAATATAGTAGAAGTTAAAGATAAAAAAGTAAAAATAGTTGTTCTTTCTTTAATCAATAAAAAACATTTAAAAATTTTGGGAATTAAATGAACTTTAGAAGAAGATTTTATTTTAATGTCTGTAACTGGTTTTAATTTAAATTTATTTTTATTAAAACTTGAAAGAGAACTAAAAAATTTTAAATAATATTAAAAAACAACTTTCAATTTAAAAGTTGTTTTTATTTTTACTTTATCTTTTTATAGTATTTATAAACACCACCAGATAAAGTTCTTGCATTATAACCATGATCTAATAAGAATTGTGCAGTTTGCCCACTTCTATTTCCGGCATTACATACTGTAATAATTGGTTTATTATTTGGATTAAATTTTTCCAAATAATAATCATAATTTGAGATAAAATCACTATATTCAATATTTGTAGCTCAACTAAAATGTGGTAAAGTTTGAAATTCTCTTTTTGTTCTTACATCAAGTGTAAAGACTTCCTCTTTTATTTCAAAATATTCTTCTGGTTGGATATCCATTTTTTCACTTCTTTCATTCAAGTTTATTTTATAGTTAATTCACTTTTTTTAAAAGAATTTTTAAATATTTCTTATCTAAATTACTTTTTTTTTGGAATTAAATAAATTATAATAAAAAAGTAATTAATTCTGATTTAATCATGACCTTTTAAGAATGATTGAAAAATAAATATAATTAGATAATATTTTTGAAAAAGATAGGAGAAATAATATGGCAGAAATTAAATTTATGGCCCTTGGTGGTCAAGACGAAAGAGGAAAAAATATTTTTATTATCAATATTAATGAAGAACTATTCATATTTGACGCAGGTATTAAATTTCCAGAAAAAAGTGTTTTGGGAATTGATGTAATAATACCTAGTTTTGAATATTTAAAAAGTAATGTTAAAAAAATTAAGGGAATATTTTTATCAAATCCAAGCTCAAATAATGCAGGTGCTATTAGTTATATTCTGCGTGAAATGGATATACCAGTTTATTGCAATGAACTAACATCAACATTATTGAAGTATAGAAATTTGAAATATAGAATTAAAAATAGAGATAATAATTTTAAAATTATTAATGATAAAGATATTATAAAATTTGGAAATATTAGTATTGAAGCATTTAGAACAACTGCAAGTTTTCCAGAATCATATGGATATGCAGTTCATACTACTGATGGAACTATTGTTTATGTTGGTGATTATATAATTGATGGTAATGAACAAGCAAACTTTTCAACAGATATGAAGCATTTAACACAAATTTCAAAAAAAGGCGTATTAACTTTAATTAGTGATGCAGAATATGCTTCCAGAATAGGTTATACTGTACCAAATCATAAAATTGAAAAATATATTTCAGCTCCAATGAAAGATAAAAAAAGAAGATTAATTATTGGAATGTTTGAAGAGGATGTTTTTAAATTATTTGAAATAATTAAACAAGCAAAACAAAATGAAAGAAAAATTGCAATTTATGGAAAAACAATTGTAAAAGTTGTTGAATCAAAAATTATTCAACAAAGTATACAAATTAGTAAAGATGATATTTTTTCTCTTGAAGAATTTATGAAGTCAAATGATGGAATATTATTAATTACTGGAGCTGGAGACTTATTATACTCAAGACTTGCAAAAATAACAGCAGGAAATGATGAAATAATAGAATTTACTGAAAACGATACTATAATTTTGGCAACTCCCCCTGCAGCTGGTGTTGAAAAAAGACATGCAGAAATTTTAGATGAACTTGCAAGAAGTAATGCAAAATTAATTTCTTTAAGTGATAGAAATATTTGATCAATGAGAGCAAGTTATGAAGACATTAAATTAATGACAAGGATTATGAAACCTAAAAGTTTTATTCCAATTAAAGGTTTATATAAAGACTTTTTAAATGCTGAAAGAGCAGCAATTGAAGCAGGAGTTTCAAAAGAACATATTCAATTAATAAATAATGGTCAAGTATTAAAAATTTCCAATTCTGGAAAATTAGTAATTTCAACAGAAGTTGTTAAAACTGCTGATGTATATGTTGATGGTATTGGAGTTGGGGATATTGGAGCTGTAGTTTTAAATGAAAGAAAGCAACTAGCAACTGATGGCGCTGTTATTATTGGAGCAAACATTAATGAAAAAACTAAGGATTTAATTTCATTAATTGATATTCAAATGCGTGGAGTAATTTATATAACTGATGAAAATCCAATTTTTAAACTTATGCAAAAATATATTGTAGATATTCTTGAAAAACATAAATTGCAAATAAAAGAAAATCCAAAATCATTTGATATTAATATTATTAAAAAGGAAATTATTTCAAAAATAAGAACTACTTTAAAACAAGAAACAGGTAAACAACCAATAGTGCTTGTAGTTATCAATGAAATAGGTAGTTTTGCTTATCAACCAAAGAATAATAAAATAAAAAACTCATAGTAACTAAAATAACTATGAGTTTTTTAAATATATGTAAATAAAGTAAAATATATATTAAAATCATAAAGTAAGGCAATAAAAATAAGGTGATAATATGAACGATTATAATGGGCAAAATAATAATTCAAAAGATAATGATAGAACTATTGCTTTTACTGTCCAAAAAAAAGAAAGAAAAGCAGATTCAATTTCTTGAATAGTAACAGCATTAATTTTATTTTTTATTAATGTTATGTCAGTAGGAAGAATAACAATTGTTGGACAATTCATTGACGATATTTTATTTACATTACCATTTGGTTGATTTAAATATTTTTTATATCTACTTTTTTTTATTTTGGATTTCTCTATTTATTTTGGGATCAAATTTAATCCTAAAAAAAGATTTATTGCAATGGTAATTATTACCTGATTTGTAATGTGTTGATTGATAAGTTCGATACTTTTTATTGTAGCAAATTTAACAAATTCAACTGATTTTAATATTGAAAATGTTTGGTCAAATTCAATTTTAAAAGATTCAATAGTTTCTTATGTTAATAATTGATATTCACATTCACTTTGAAAAACTACAGGTGATTTTATAATTGCTGCTCCTGAAAGTTATTTTACTTTATGAGCAGGTGGAGGTATGATTGGGACAGTATTGGCAGGAATATCTTCATATACTTCAATTTATGGAGGACTAGTAATTTGTCTTTTTTTCTTTTTTATAAATATGTTATGAATTTTTACAGGAGATCCATTTTTTATATTTAAACCAAAGAACAAAAGAATTGGTAAAAGGTTAAGAATTTTATCTTTAAAACAAAAAAATCCACTTTTATATCAAAATCAAAAAAGACATAATAATTATAAGAGTATTTTTAAAATTATAAATGTGAGTGATGATGATACTTTCGATGAAAAACAAATTTTAGCATCAATGAAGGAATCAGATATTACAATTGAATTACCAAGTTATAATAAACATTATAACTATAATATTTATGATGATGTAAAAGAAGATTTTTATCATGATAATTTTGAATCAAATTTTTTTGATGAAAATCAATTTAGTAATGATCACCAAAATCAAAGTTTAAATAATTCTAACTTGGATTTTTATAACCAAAATAAAGGCTATATTGAAAGTAATAGAGGATTTAGTAAAGTAACAGAATTTGATCATGATCAAAAAATATATGAAGCTCAAGAAAGAGTTGCCAATAATTTACAGAAACAAGAAAGCCAAAATTATGTTCCAAGAAGATCTCGATTATTTGAAAATGATTTACCTGCAGAAAGTAAATATGGACAAATTAGTACTGAGGAGGCAAGAAAGGAATTTGAAAAGGAATCTTCTGTTACACCTTTTGGTGCAAATGGTAAAACACAAGAAATTATTTCTTCAAAATTAAATAAAGATAAGAAAAATTCAACTTTAAATAATCAAATTACATTGGAGCAATTTATTAATGAAGTTGAGCAAGAAAAACAATTAGAAAAAAGATATGAAAATTTTCAAGATTATACTTCACCAATGCAAGATAATTTTGCAAAAACTATTATTAATAATTCAAATAATAATTTTTATTCACGAAGTCAAAATAATAGAACCATTGAAGTTAATACTTCAAAAGCAATTGAAAAAGAACAATATGTTAATCTTGGTTATCAACTTCCATCAATTGATATATTAAATCCTGATTTAAATAATGAAAAAGATCAAATTGAGTTAAAAACACAAGCTGATTTAAAAGCAACAACAATTACAAATACTTTTAATCAATTTGGTGTAAAAGCAACCGTTAATCATATGAATATTGGACCAAGTGTAACTAAATTTGAAATTCTTCCAGCACCTGGTACAAAAGTTAATAGTATTACTTCACTAGAAAATGACTTAAAATTAGCTCTTGCAAATCAAAATGTTAGAATTGAAGCACCAATTCAAGGGAAAGCTGCAGTTGGAATTGAAGTTCCAAATGATAAATCCTTAGTGGTACCTTTAAGAAGTGTTATAGAGAAAACTCCAATTCAAAAAATGAATTCAAAGTTATTATTTGCAATTGGTAAAACAGTTACAGGAGATTTACTATTTGGAGAATTGGATAAAATGCCTCACTTATTAGTTGCTGGTTCAACAGGGAGTGGAAAATCTGTTATGATTAATGGAATTATTTCATCAATTTTAATGAGAGCAAAACCACATGAAGTAAAATTTTTAATGGTAGATCCAAAAAAAGTGGAATTATCAATTTATTCTTCAATTCCACATTTACTAGCTCCAGTAATAAGTGATATGAATATTGCAAATAATGCACTTAAAAAAGTAATTAATGAAATGGAAAGACGTTATGCATTATTTACTCAACATAGTGTAAAAAATATTGACGGATATAATTCAAAACAAAAAAAACCTTCAACTAAATTGCCCTATTATGTAATTATTATTGATGAATTGGCAGATTTGATGATGACAGCAAATAAAAGAGATGTTGAAGATTCAATTATGAGATTAACTCAAATGGCTAGAGCAGCAGGTATACATTTAATTGTGGCAACTCAAAGACCCTCAACAGACGTTTTAACTGGTGTTATTAAGTCAAATATTCCAACGAGAATAGCTTTTGCTGTTGCTTCATCAATTGATTCTAGAACAATTTTGGATTCAACAGGAGCTGAAAAATTAATTGGAAGAGGAGATTTATTATATATGCCACCTGGAAGTTCTTCATTAACAAGGGCACAAGGAGCATATATTAGTGATGATGAAATTGAAAAATTAGTTAAATATTGTTCAAATCAACAACAACAAATTTTTGATGAAGAATTTATGAGATCAAATGATGAAATTCAAAATAATTACACTCAATCAGGCAATAAAGATTCAATGTTGGAAGAAATAAAATTATTTGTAATAAAAGAACAAAAAGCATCAACTAGTTTAATTCAAAGAAGATTTAGTATTGGGTATAATCGTGCAGCAAAAATTATTGATGAATTAGAAGAAAATGGAGTTATTGGTCCTCAAAATGGTGCAAAGCCAAGAGAAGTTTTTATTAAAAATGAAGACATTTATTAAAATCAGTTCTTAACTGATTTTTATTTTTAAAATACCATATATAATTAAATATAAGGAAATAGATTCAAATGGAAGAAATAATTAGTAATTTGCCACAAAAACCTGGGTGTTATTTATTTAAGAATAAATTGAATAAAATAATTTATGTTGGTAAAGCCAAAAATCTTAAAAAAAGAATATTGAGTTATTTTAATAAGGCTCATAATTTTAAAACAACAAAATTAGTAAGAGAAATTTTTGATTTAGAAGTAATAATTACTGATAATGAAAAAGAGTCTTTAATTTTGGAACAAAATTTAATTAAAAAATATAAACCGCGATATAATATTGTTTTAAATGATGATAAAAAATACCCATATATAGCAATTACAAATCAAAAAGATCCAACGTATATTTATACTAGAAATTTTGATGAAAAAAACTTAATTTCTTTTGGTCCACTTCCAGATGGAACTAGTGCAAGAAATATTTTAAAAGCACTTGAAAGAATTTATCCTTTGAGGAGATGCAAGGGGAATTTAAAAAAACCTTGCATTCATTATCATATTGAGCAATGCTCTGGTGCTTGTTTTAAAAATGTAGATAAGAAATACTATGATAATCAAATAGAAAAAATTAAGAATGTATTTGAAATTAAAAATGATGAATTTAAAAAGAAATTGGAAGAAAAAATGTTTATTGCTGCTGAAAATTTACAATTTGAAGAAGCACAAAGAATAAAAGAAATTATTAATCATTTAGATTTTTCAATAACACAACAGTTTGTTGATTTTAATGATAATTTAAATAGAGATATCTTTAACTATTATGAGTTTGAAAAAAAATTATGTTTTGCTGTATTATTTTATAGAAGTGGTAAATTAATAATGAAAGATCAAATCGTTTTAGAAAATGAAAATAATCAAATAATTGAATTATTTGAAAGTTTTGTTACACAAATTTACTCTAAAAATATGCTTCCTGATTATATTGTTATTCCAGAAATATTTAAAGAGAGCTCTCTAAAACTATTATTTTTTGACAAATTAACTTTTGAAGATACTATAGTAAATAAAAATTTATTGCAATTGGCAAAACAAAATGCTGAGGAATATTTAAAGCAAAATCAAATATATAAAAATCAAATTTCATTAACTAGAGATGAATTACTTGAAAAATTACAAAAAACTTTAAACTTAAAAACTTACCCATATCATATTGAAATGTTTGATGTTGCAAATATTTTAGATGAATTTGTAACTGGAGCTATGGTAGTATTTAAAGGTGGGCAACCAAGTTTTAATGATTTTAGAAAATATAATATTGCAATTGATCATGCAAGTGATTATCATAGAATGCAAAATATGATTTATAGACGATATCAAAAAGACTTAAACAATTTTTCAAATTTACCAGATTTAATAATAATGGATGGTGGAAAAATTCAAATTTCAGCAGCTAAATCACAATTAGAACTATTGGATTTAAATATTGAAATAATTGGTTTAGTTAAAAATGAAAAACATAAAACAGATTATATTTTGAATTCTAATTTAGAAGAAGTAAGACTAGAAAAAAATGATGAGATATTTAAATTTTTAGAATTAATTCAAAATAGAGTTCATAATTTTGCAATTACGGGTTTTAGAAATAGACAAGCAAAAGCAATTATAAATGATGAACTCATTACTATTCCTGGAATTGGTAAAAAAACGATTGAAAAAATAAATGAAGCTTTTCCAAATAGAAAAGACTTATTTAATGCAAAAAAAGAAGAACTTGGGAAAATTATTAAAAATAATGAAGTTTTATCAAATTTAATTAATTATTTTAATTTAAAAGAATAATTTTATTTTTTTATATAAAATAACTAATGAAAAATAAAGGAAAAAAAATGTATTTAAGAAAAGCAACAATTCAAGATTTTAAAAAAGTTATTGAATTATTAAATAAATCTATAAATTTATTAAAAAGTGAAAATATTGATCAATGACAAGATAATATGCCAAATGAGGATACTTTTAAAGAAGATATTGAAAAACAAAGATTATACGTTTTAGTTTTTGATGGTCAAGTTGTTGGTATGGCAACAATTCATGAAGAAATTGAAGAGAGTTATGAAAATTTAAATTCTGGTAAGTGAATTAATGATGATAGATATGCAACAATTCATAGATTTTCAGTTGATACTGATTTTTCTGGTAAAAAATTTGGGAACTTTTTATTTGCATGTTTAATTTCAGTGGCAGTAAGTAAAGGTTTTAAAACTATAAAAATAGATACACATAAAGATAATTTAAGAATGCAGTATTTGATTCAAAAAAATGATTTTAAATATTGTGGTAATTTTTATATTGATGGAGTAAATGATGAAAAAAATTTTAGATTAGCTTATCAATGAGTAATTTAAAATTATTTTTAATAATTATAAACATTTTTTTTTATTTATTTTTATATATAAACAATGTATAATAACAAAGTTAAATAAAGGGGACAATTATGACAGATAAAGATATTATTTTAACAGCAGAAGGTCTTCAAGAACTAAAAGATGAACTTACTCATTTAATTAATGTTATTCGTCCACAAGTTATTGAAGAACTTGTTGAGGCAAGAGCACAAGGTGATTTGTCGGAAAATGCAGATTATGATGCAGCAAGAAATAGGCAAGCAGAAGTTGAGGCAAGAATTAAAGAAGTAGAAGCAATGCTTTCAAAAGCAAAATTAATTGAAGATAATAAATCAAAAACTAAAGAAGTTAAAATAGGTAGTCAAGTTACTTTTACTAGTCACAAATCTAAAAATGATATGACAATTAAAATAGTTGGTGCTATTGAAGCAGACCCGTTTGAAAATAAGATTTCTAATGAATCACCATTGGCAAAAGCAATGATGGGAAAAATTGAGGGTGACTCAGTAGAAGTTAGAGAATTAAAAGAACCTTATAAAATAACACTTAAAGAAATTAAGTAGGACCTAATAATTTAAATTAGGTTTTTTATATATTTGGAGATAAAATTATGAAAATACAAAAAACTTTTAGAAATCAATTATCAACAATTTATTTGGTAGGAACTCCAATTGGTAATTTAGAGGATGTTTCAACAAGAGTGATTAAAACTTTAAACGAATCTGATGTTATTTATTGTGAAGATACCCGTGTAAGTTTAAAACTTTTTGAGAAACTTAATATTAAGAAAAAACTTAAATCCTTGCATAAATTTAATGAATTATTAATGGTAAATGAAATTTTAAATGATATTAAAATATATAATAAAATTTCAATAATTAGTGATGCAGGCGTGCCTTGCATTTCAGATCCGGGGGCTTTAGTTATTTCAAAAATATTAAATTCTAATGTTGATTTAAATATAACTTCAATTAATTGTGGTCCAGCATATATTCATGCTATTGTTTCATCTGGTTTTGTTGCCTCACAAAATTTATTTTTAGGCTTTTTAGATAAAAAAAATATTCAAAAAAACTTAGTAAATTACTTGAATAATTTTAAAAATTCCAATATTTTAATAACTTTTTATGAATCAGTTCATAGAATTGAATCTTCTTTAAATTTATTATCAACAATTCTTGAAGATGATACAAATATTGTTATTGCAAAGGAATTGACAAAAATTAATGAAGAGTACATAAGAGGAGAAATTATTGACGTTTGCAAATATATTTCAAGTACAAAATTTACTAAAAAGGGAGAATTTTGCATTATTATTAATCCAAATTATAAATTAAAAAATGAAATTGAGATTGATATGAAAAAAATTATTTTTGAAGTAAATAAATTAATTTTGGAGAAATATAGTAAAAAAGATGCAATTAAAATTATTTCAAAAAAATATAGTATTAATAAAAATGAATTAACAAAAATTTTTTATAAATAATTTAACTTTTTAATAAATTTATCGATTATTTTGTTGGAGGTAAATATGGAAAAATTAAATAATAAACAAAAAAGAGAAATAATTGGTGGAAAGGGTGTTACAGGTTCTTTACTTGGTGGCATTGCTGATATTGTTAAACAAACAGGTGGTTTTTTACAAATATGTTTGGAGCTATATCAACGACAGTTTTTGCAAATAAAATGAAGAATAAAAGTGATAAATTTGAATTAAGCATTGGAGATTCTACTTTAAAAGTAGATAATTCTGTTTCAAATAAAACAAAAATTGATTCTAAGAGTTCTTATAATATTATTGATTTAATTTAAAAAAATGTATTTTTTTATCATATTTGTTATAAAATTATTTAGGTTGCTAGTTTCAACCGCTCTTTTGTATGTTACAAAGAAGTTTAAAACTCACATACAAGGCGAGTCTAGACTGGAGGAAAAGAAATGTTTGCAATTATAAAGACTGGTGGAAAACAAATTAAAGTTTCATCAGGAGATGAAATTTATATTGAAAAAGTTTCTGTAGAAGAAGGAAAAGAAGTTATTTTTAACGAAGTATTAATGATAGATTCAAATGTAGGGAATCCTTTTATTAAAGGTGCTGTAGTAATAGGTACAGTAATTAAACAAAGTAAGGAAAAAAAATTATGTGTTGTTAGATATCACCCAAAGAAAAATGTAAATAAAGTATATGGACATAGACAACCGTTTACTAAGGTTAAAATTGAAACAATTTCTGCATCTGGGGTAAAAACAACTAAAGTTTCAGAACCCAAAGAAATTTCAACTACTACAAAAACAATTACAAATGCTAATGCAGCAAAAACAACAACTGTAGCAAAAACAACAACTGTAGCAAAAACAACAACTGCAGCAAAAAAACCTGTTGCTAAAAAAATAGAGGAATAATTTTGTGATATTGGCTAAAATTTTTAAAACTAATAATGAAATAATATCATTTAATATTAGTGGTCATGCAGAAAGCAATAAATTTGGTGAAGATTTAGTTTGTGCTGCGGTCACTGGTATAATTAATGGTGCATTAAATGCTTTAGATTTAAAATTTGGTAATAATTTAGAATTAATTGTTAAAAAAAATGAAATTGTTATTAATGTTAAGGAAAATAATAACTTAATTCAAGAATTATTGGAATTTCTAATGATTCAATTAGAAACAATTTCTATTCAATATCCAAAAAATTTTAAAATAGAAGGGATGATTTAATATGCGTTTTTTATTAGGCTTACAGTATTTTGCTTCTAAAAAAGGAGTAGGTTCAACAAGAAATGGACGTGACTCTGAATCAAAACGTTTAGGAGCTAAAAAAGCTGATGGACAATTTGCAAATGCTGGTTCAATTATTTTTAGACAAAGAGGAACAAAAATCCATCCAGGGGCAAATGTTGGTCGTGGTGGAGATGATACACTTTTTGCTTTAGTATCAGGTATTGTAAAATACCAAAAATTTGGTAAAAATAGAACTAGAGCTGTTGTAATTCCACAAGAAGCTAAATAATTTTAAGGCTCCAGTTTATGGAGTTTTTTTTTTAAAAAAAGAAAGAGGAATAAAATGTTTATATATGTTTCTTTAGGATTATTACTATTAGTTGCATTAATAGTAACTATTGTTATGATCTTTAAATCAAAAAAAACTGAGGCAAATAAATTAAAACAACAACTTTATAATTTCAAAAAAATTTTTCAAAATCAGGAAAATAAAAAAATTAAATTGAAAAAATTTGAATATATTGAAGTTTTTAATAAATTTCCATTTTTGTCAAATTTTTCCGAAACAAGTATTAGATTAGAAAATAAAAATATTAAAGAAATATTATTAAGAATGCAAGGAAATTTCTATAATTATTGAGCAAATACCGAATATGATTTTTTTTTACTTTTTGAAAAAATTTCAAATGAAGCAAAAGTGCCTCTAAATCAAGAAGAAATTTTAAAAATTTACAATGTTTTTGCACAAGAGAGTTTTGAAATATTTAAAAAAACTTTTATTAGTGAGGTAATGCCAGCTTTAATTTGTAAAAGTCAAAATAAAGTTTATAAATCTTTTAATGAAAATGAAATTAACAATTTTGTTGATAGTCAATTTTTATTTTTTTGCAAAGAAATTGATAATCTATTTAAAAAAATAGAAGAAGATATAATTTTTGAGGATAATAAAAAAAGTAGTTCAAATAATCAATATTTTAAAAAAGAAACTAATTTATCAATTAATAATGCATACAAAATACTTGGCTTAAAACCATCTGATTCAGATGAAAAAGTTAAAAAAACTTATAGAAAATTAGCAAAAGAATTTCACCCCGATAGAAATAAAAATGAATCTGCAAAAAAGAAAATGGCAGAAATTAATGATGCTTATGATAAAGTTATCAGTGATAGAACAAAAAATAGAAAAGGATAAATAGTGAAATGAATATAGATAAAGAAAAATTATTAGGAGAATATTTTAACAATGTATTAATAGAAACAAAAAAATTAATAGCAATACCTTCATATAGAAAGGATTTAACAAAGGGAGCTCCAGTTGATAAAGATATTAGAAATGCGTTAAAACATTGCATTAATTTATGTAAAAGTTTTGGTTGAAAGACTTTTACAGCACCAGATTATAGATATGGTTATGCAGATTATGGTTATGGTGAAAAATTATTTGGAATAATTTGTCATTTAGATGTTGTACCTGCAGGAAATTTAGATGAATGAAATACAAACCCATTTGAACCAGTTGAAATTGAAGGAAAATTATTTGGTAGAGGTTCTTTTGATGATAAAGGGCCAACCATGGTTAATTTATTTGCATTTAAATATTTAATTGATAATGGTTTTGAGCCTGATTATAAAATTAGGTTTATTTTTGGTACAAGTGAAGAAACTAATTGAGAATGCATGGAAGCATATGTTGCAAATGAACAATTATGTGATTTAGGATATGTACCTGATGGTCATTTTCCTGTTGTTTATGCAGAAAAATGAATTGTAGATATGGATTTAATTGGAGAATTTAACTCAGAATTTACAATAACAGGTGGAGAAGTTTATAATGCAGTAAATGATTTAGTTAAGTATGAAGGGCCAAAAATCAACGAAATTCAAAACTTTTTGAAAAGTAATAATATTCAAACATACATAGAAAAAGAAAGCCTTTTTGTTAAAGGAATTTCAGCTCATGGAAGTTTACCTTTTAAAGGAGTTGCAGCATCATCGTGATTGCTAAAAGCAATTAATGAGGTTGGAATAAATCACCCACTTGCTTTATTTATTTCTAAATACTTTCATTTAAATTATGATATGAGTGATATCTTTGGTGATTTAACAGATGAAACTGGTTCTCTTACTACTTGCAATGGTATTATAAATGTTTCTAAAAAAGATTTTAGATTTACTTTAAATTTTAGGGTTCCATGTACAAAAGACCCTCAAAAAGATATTATGGATGTCTTAAATAATTCTGTAAAAAATTATAATTTAAAAACTAAATTAATTTCAATTGAAGATAGAGTATATTTTCCAAAAGATAGTGATGTTGTAAAAAATATTATGCAAGTTTATAGAGAAGTCACAGGAGATAATAATGCTGAACCAATTGCAATTGGTGGAGGTACTTTTGCTAAATCAATGCCAAATATGATAGCTTTTGGAGCAGAATTTGATTTAAATGAATCAACAATGCATGCTTATAATGAATATGTAAAAATTGATGACTTAAAAAAAATGATGGAAATTTATGCAAAATCTTTAATTAAACTAACAAAATTTTAGTTTTTAAAATAATTTTTTAAACTTTATAAAGTTATAATCTTTAAAGGAGGTATAAAAATTATGTTAAATAAAAAAATTCAAAAAGACTTACAAAAATATATTGATGAGCATGCAATAATGCAAAATAAATGCTTTAATTTAAGTAAAAATTGCAATGAACTAGGTTATCCAGGTTTCACACATTTTTTTCAAGTTCAGGCACAAGATGAATTCTTACATCAAAGAAGAATAATGAATTATCTTTTAGGAAGAAATTCAACTTATATAATGAATACACTTGATTTACAATATAAAAATTTTGATTCAATTATTGAAATTATTGAAGAATATAAGAAATGTAGGGAGCATTTTGCATTAATTTCTAATGAATTTTGAGTAAATGCTCAATCTTTAAAAGATATTGCTTCTGTTAAATTTTATGAATGATTCATTATTGATTTTTATGAAGAAATTTCAGAAATAAATGATTTGTTAGATTGGATTAAAATGTCAAATGGCAATTTTTATAACATTGATAAAAAATTAGCAAAAAGAGAAAATCCTGATACAGAATTAGTTGTCGATCCATTTTCACCTCATAGTTAAAAAAAAAATTAATTGTAATTATTTTTCAATTAATTTTTTTTCTTTTTAAGAAGCTATTTTTTACTATTAGTTAGTTTTTAAAAATGTTATACTAATTATGTTTGTATATTTGATTTTTAGGGTATGCAATCACATTTGGGAATTTTTTATCCTAGTGCTTGTTATTTTAATAAAACAAGTGGATAATTTTTGAACCATATGGAAGTTTAACGAATTTAATTATGAAAGGAGCCTTAAAATGGCAAAAGACTTAACAAGAGAACAGCTTTGAGATGCTGGAGCGCAATTTGGTCATCAAACAAAACGCTGAAATCCAAAAATGAAACCATACATTTATGGTGCAAAAAATAAAAATCATATTATTGATTTACAACAAACAATTTGAAGATTGGAAGATGTTAAAAAAATTGTAACTTCAATTGGTCAAAGAAAAGAAAAAATTATTTTTGTTGGTACAAAAAGAAGCGCAAAGAGTGCTGTTAAAGAAGCAGCATTAAGAAGTGGAAATTTCTTTGTAAACTCAAGATGGCTTGGTGGAACTCTTACTAACATGAAAACTATTTCATTAAGAATTAAAACTTTATGAGATATCGAAAATGAAGAAAAAACAGGAAAAATTAATTTAAGACCTAAAAAGGAACAAATTTTAATTAAAAAAGAAAAAGCAAAATTGGAAAAATCTTTAGGTGGAATTAAACAAATGCATAAATTGCCTGCAGCAATGTTTGTAGTTGATCCAAAAACAGATGAAATTGCTGTTAAAGAAGCAAGAAAATTGAGAATCCCTGTAATTGCAATTTGTGATACTAATGTTGATCCAGATATGGTTGACTATGTAATTCCAGCAAATGATGATATTCAAGAATCAGTTAATATAATTACAAATTATGTAGTTGATGTTTATGCTGATGCAGCAGGAATTAAAATGCAACCAAGTAATTTAAAAATAATTGCTCCTAAAAAAGAAGATAGACCTGTAAGAGATGAAAATAGATCTTTTTCAAATAGAGGAGAAAGAGATTCAAAATACTCAGGTCCAAAAAAAACTTTTGATAAAAGACCAGAATCAAAAGAAGTTGCAAAACAAGAAAAAGTTGGGGAGGAATAAAAATGGCAGTTACACCACAATTAATTAAAGAATTAAGAGAAATAACATCAGCTGGTATGATGGACTGTAAAAAAGCTTTAGAAACTACTGAAGGAAATATTGATGAGGCAATTGTTTGATTAAGAGAAAATGGTCTTGCAAAAGCAGCTAAAAAAGCAGATAGAGTTGCAGCAGAAGGAGTTGCTTTTGCAAAAGCAAATGATAAAAAAGCAATAATTTTTGAAGTTAATTCTGAAACAGATTTTGTTTCTAAAAATGATAAATTTATGTCTCTTATTGAAGATATTTCAAATTCTTTATTAAATTCAAATGCGTCTACTTTAGAAGAAGCATTAAATGTAAAATTATCAACCAATCAATCAATAGCTGAAGCTTGTGTAGAAGCAACAGCAACAATTGGGGAAAAAATTGAATTAAGAAGAATGGAAACTACTGAAAATGGAGTTTTATCAATTTACAATCATGCCAATAAAAGAATTGCAGTTCTTTTAAAATTTGATGGGTCAATCTCAAATGAAGATGCATATAATATTTGTATGCATGTTGCTGCTATGGCACCAAAATATCTTTCATCTGATGAAGTTCCTCAAGAATTTAAAGATCAAGAAATGCATATTATAAAAGAAACAACAGATTTATCAGATAAACCTGCAAATGTAGCAGAAAACATTTTAAAAGGTAAATTAAATAAAAGAATTGCAGAAGTAACATTATTAGAACAATTATTTGTTATAGATGATAAACAAACAGTGGGAAATTTTATTAAATCAAAAAATTCAACTTTGGTAAAAATGTTTAGATTTGAAGTTGGGGAAGGAATTGAAAAAGTAACTACTGATTTTGCAGCAGAAGTTGCTGCTCAATTAAAGGGGAATTAGAAAATGAATTTTAATCTTTTGGCCGCAATATCAGGTGGAGAACAGCTTTTAATTTTATTAGTAATTTTATTAATTGCAGCACCCTTACCAGCCATGGTTTCTTGAAATTTAGCTTTAAAATTTAGAACTAATAAATCTGAAGAAAAATATATTAATAAAACTTTATTTTCAATAGTAGTTTTAATTCAATCGCTAGCAATATTAACTTCAATTTTAGGAATTATATTTTATTTTGTTTCAATAGATAATGAAAGTTTATCAAAAACTCTTGTAATTGTATTTATTGTTTTAACATTTGTACTTTGTGCATCTTGATATTCAATAATTCTATTTGTGCCTCAATATATATGATTTATCTTAGAAGAAGAAAAAATGACTACAATTGGAGATACTTTAAAATTTTTAAAAATTAGAAAAATTATTGATGATGAAGAAAAAGGAATAGTTTATATAAATTATTCTGAAGGTAAAAAAACATTAAAAAAATTAAAATTTAGCAAAAAAACAGAAATAGGTTTAAATTTTATTAGATTAGCTGATAAAACAGGAGTAAAAATTGAAAAAGGTAACCAAATAGAATATTTTAAAGAAGAGTTATTAAAATTAAAGGGTATTAATATTAATAATGATAGTAAAATTATAGAAGATAATTCAAAACAAAAAGATTCAACTAATTTAGAAAAAGAAAATAAAAATAGTGAAAAAAATACTATAAAAAATGAACCAAAAAAATCTAAAGATGTTGAAGATAAAAAAGATTAATAAAATAGTTAAATATGTGAAAATAATTTTCAAAAAAAAATATTTTCACATATTTTTTATTTTTTTAATAAAATATAATTGAAAAAGGCAGAGGTAGCAATTGCTTGAGAAATACTCTTAGAACCTGATCTAGTTAATACTAGCGTAGGAAGTCCTTTATAAAGACAATTCTGCTTTTTTCATGGAGGAAAATTCATGAATAAAAAAGTTATATTAAATATTATTTTTTCATTAATTAGAATGATATTATTTTTTGGAGTAGCAATTTGATTAAATATTGAAACAAAAAATAATGCAGATGCTGTTGAAAATTTGGCTTCTGTTATATTTACAACTATTCTAATTTTAATATTATTATTGTTATTTAATATTTTAGCAACAATTTTAAATGTCTATTCTGAGATTACAAATAAAAAATCATATATCATAATTTCATTATTAGCTCTTAATATAGAAAATTTATTTTTTATAAAATTAAATTTTTATCAAAAACATAATTTTATGAAATGAAAAACTTTAGATATTGCAATGATAGGTTTATTATTAGCATTATTTTGTTCAATAAATTTGATTACAGATATAATACCACCAATGCCTTTTTTTGTTACATTATCTTTTAAATTTTTACCTTTATTTTTTGGAGCATATATTTTAACTTTTAGTCAAACCACACTATTATGCTTTATTGCAGCAATATTTACTTTTATTTTTCCAGGCACATATAAAATATCATTTGAACAATGATTATTTGATTATTTTTTTACTGTTTTTAGTCCTTTTATTGCAAGTTGCTTAAAACCAATTAAAAATAATAAAAAAATTTTCGAAACTGTAGATTGATTAATTTTTATTACAGTTCCTTTATTAATGATATATTTGTCAAGAGTTGTTGCTGGTGCATTATTTTGATTTGAAAATGCTTGAGCTGGTTTTGGTTCATGAGGCTATTCATTGATTTTCAATTCTTTTAATACAATTTTTGATTATATTTTATTAATAGTTTTAGTTCCCCCAATGTGTATAACATTGGATTTCATAAAATACAAAATGAAATCATTTCATAATAATGAAATATTAGAAGATAAAAGTAATATTATTAAGGATAAAGATTAATATTAAAAAATAAATTTTTAAAGATTTATTTTTATTTTTCTATACTAAAAATTACCTTTTTGTTATAATTTATCTAGCGAGGTAAATATGGCACTAAAATTTAAAAGAGTTTTATTGAAAATTTCTGGTGAAGCTTTGAAGGGAAATGATGATATTTATGCAAAAGATAAATTAGATGATGTTGCAAAACAAATCATAAATCTTTCAAAAGAAGGTCTTCAAGTTGGAGTTGTAATTGGAGGAGGAAATATTTGAAGAGGTAAATTAGCAGGTACTTTAGAATTACATAGAATTGAAGCTGACTATATGGGCATGCTTGCAACAATTATGAATGCTTTGGCTTTTGAAGCTACTCTTAGGAAGTTAGGTTTCGATAAAGTAAAAGTTTATTCATCTTTAGAAATAAAAACTGTAACAAGTTCTTATAATTATAGAAATGCAAGAGAAAAACTTGAAGAGGGTTATATTGTAATTTTTGCGGGAGGTACCGGATATAGTTATTTTACAACTGACACAGGAGCTTGTATAAGAGCTATTGAAATAAAAGCGGATGCTTTATTAATGGCAAAAAATGGAACAAAAGGCGTTTATGATTCAGATCCAAACATAAATCCAAAAGCAAAATTTTTAGAAAATTTAACGCATGATGACTTAGTTGTTAAAAATTTACAAGTAATGGATTCAACAGCTGCAATGTTATCAAGAGATGGAAAATTGGAAATAGTTGTATTTGATATGAATGGAAAAGATAATATAGTAAAAGTTGCACATGGTAATTTAGAAGCAACAAAAATTAATTAGAATGGAATTTTTTATGCAAAAAGAAATATTAGAAATGACAGAACTAGATATGCAAGAAACTATTGAGCATTTCAAAGATTATTTATTAAAAATAAGAACAGGTAGAGCAAATTCAAATATGTTAAGTAGTGTAATGGTTGATTTTTATGGAACATTAACACCTATAAATCAAACATCACAAATTTCTTCTCCTGAACCACAACAATTAGTAATTAAACCATATGATAGAAGCCAAATTGCAAATGTTGTTGCAGGAATTAATAAAGCAGCATTAGGATTAAATCCAATTGGTGAAGGTGATTTAATTAGAATTAATATTCCACCATTAACCGAAGAAATTAGAAAAGATTTAGTTAAAAAAATGTTAAAGGAATTAGAGCAATTTAAAATTAGAGTTAGAAATGTTAGAAGAGATTCAAATGATAAGATAAAAAAAGATAATTCTATTCCTGAGGATGCAAAAAAAGATTTGGAAAATGAAATTCAAAAATTGACAGATAAATATATTTCTCTACTTGATCAATTTTCAAAAGAAAAAGAAAAAGAATTAATGAAAATATAAGATACTATTAAAAATAGTATTTTTTTTGTTATTATATTAGTAATTATATTTTAGAGGTTATATTTATGTTTCAAAAAAGTAGAGAATTAAAATTTCTACTTATACCAGGAATAATCTTCTTTTGTATTACTTTTATTAGTTTTGGTGTTAGTAGTTTTTATGATTTAGAGGTTCAAGAATTTTTAGCAAAGGGATTTCAAATTTTTAGTTCGAAAATGTGAATAATATTTTTTGATGTATTAGGGAATTTTCAATTTTTTCTTGTAATTTTTATTTTTTTATCGATATTATGAAAATCTTTTTTTACCTTTTGAAAAAATAAAACAAAAAAACATTTTTATTAGAAAATCAATGAATCTTATATATTTTTTATATTATTTTTTTACTATTTTGGGGTTTTTACTCATATTTGTTTATTGAAAATTTATATACAAAGGATGAGGGATTTGGAATTGGAAATGATGCTCTTTTGCTTTTACCAATGGAATACAGAATTATAATTGCATGATCAATTATTTCATTTACTTCAATAATTATTTGTTTTTGTTTTTATTATTTAAGATTTAAATTTCCAAAAAGAAATGATATTTTTATTCAAGAGTATTGATTAGATAGTATAAAAGGTTTGCTTTTTATTTTCTTATGCTATTTAATGATTGCATTTTTTAAACCACTTTTTGGAAGACCATATTATTATTCAGTTATATTCAATGATATATTAACTGAGTATTTACCAAAAAACTGAATTTATGATAGTAGTAAATATATATGAGGCTCAGGAATTGATGGTACAGGAAATGTAGAATATAAAAATTGATGAGAAATTAATGATTTTTTAGAAAATCTAAAATATTGATTTAGTGACACAGCACATTTATTTCAAACAGATGGTTGAATTAATCAAGATTTTCCTTCAGGTCATACAATTTCAACTTTTTGTGTCGCTACAATTATGTTTTTATTTGTAAATCAACAAAAAAATAGAGAATTGACAAAAATTAAAATTTCAATTATTTGAATATGATTTACTTTTATATTATTTTCAATGAAATTTTCACTAGTTGTCGCAATGACCCATTGGTGAACTGATTTTGAATTCTCAACTTTATTTGGTCTTTTAATGTTTTATTTAATTTCGAAAATAGTTGATTCAACTTGAAATGGAATTCTAATTAAAATAAAAAAATAATAAGAGAAATTAAAATATCAATATATAACTAATTTTCAAGAAATAAAAGTCATTTTTTAATTTCACTTCCAAATCTAAAATTAATTATATTTTTATTTTTTGATATAACTCTGTGAGATGAAATTAATAATAAAATTAAATTTTTACTAACAGATGATGCAATAGCTCTTGTTGAATTTCTTAAATTTAATTTTTGTGCAAGTTCGCTATAATATATTGTTTCTTCATTTTTAATTTCTATAATTTTTTTTCACACTTTAATTTGAAATTCACTTCCTATTAAATAGAGCAAATTAATATCTGTATTTTTTTTTCAAAAAAATCATCAATTATATTATTTATTCATGTAGGACATTTTTCATTATTTTCAATAATAAGAAATTTGTTTCTAGGAAATCAATTAAAAATATCATCATTTGGAAAACCAATAAAACATATTTTTTCATCAATGATTCCAATATTTATGGAAAATTTGTAATTATCATTTTTAAATATATTTATTTTTTTCATGTTTTTCTCATTTCTTATTTTAAATATCAAATATTTGTAAATATTAATGTTTAATATATACTAATTATATAGGAGATGTTAGTATGGGCTTTAAAATAGGGGTTATAGTTAATTATAACAATGAAAACTATATAATAATTGATGTAATAAATAAAGAAACATCTAGTGGAAAAATCACATTTTTAAAAATAAAAAATATTTTAAATCAAGAAATTTTTACTGTAGACTCAAGAAATGTTAAAGAAATTAAACTAAGAAATAATAAAATTAAAGAAGAAAATATAACAGATACAGGCTATATTGAATCTCTTTTTGATTCAGTTGGAAACTTTGAAGATAAACAAGAAAGTATTTTTGATTTATCAGGAGAAAATACTTATACATTGGATGATACTTTCCTAGAAGAAGAAATAGAAACAAAAAGATTAGAGCAATTTTCAAATTTAATTCAAAGTTTTCAAAAACCTGAGCATAATACACAATTAACTCCAAGAAGAAAAAAAGAGCAAATTGCTTTTGAAAGCTCTCCAGTTATTAATGAGACATTTAGTAATTTAAATGTTATTGGTGAGATTGAAACTACAGAAATAATACCAAGAAGAGTTTTAGAAGAAAAAAAAGAGAAAAATTTTAATTTTAATAATGATCAAAATAATATATATATTTCAAGAAATACACAAAATGAAACTCTATTAAGTGAAATTAAAAATAATCAAGTGCTTGAAAAACTAGAAGATACAGCTGATTTTAATAATGATATTCTTAAAAATTCTAATTCAAAAATAAATATTGAGGGAACAAACAATTCTTTTAAAAATGATGTGAATACTAATCAAATTAAAATTAATGACTTAGAAGAAGAAAAATTAGAATTAGATATGTTAAATCAAAAACATAAAGCAATAGATAATTCAGTTATAAATTTGGTTCAAAAAATCAATGAAAATTCAAATATTAATGAAGAATATAGTAGAAAAATTGCAGTTAATATGGAATATGAAAAAAATTTAACTGAAACATTAGATTCTAATGAGGTGGAACAAGAAATTTTAAGAGATAATTTAAAACATAATAATAGGTATTTGGACAGCAAGCAATTAGATACACTAGAAACTGGCCCATTAAATACAAAAAAATTTATGGTTAGTTTTACAAAGCAACAATCAATTCAACAAAATTTAAAAAATAATTTTGAAAATAATAATGATACAAATACTTTATTTGGATTGACTGCAGGTTTTGACAAGGAAACTTTAAAAAAATCAAAAATTTATAAAAAGTTTAAAGTAATGAATTCTTGGTTAATTATTTTATTTACTTTAATGATATTGACTCCTTTATTAAATTATTTTGCAAAAACAGTCTTAGTATGATTGGACGAAAATTTAGAATTTTCTTTAATTAATATTTTTTCATTATTTAAATTGGAGCAATTTTTTATAAATGATATATTGTTAATAGCTTTATCTTTACTTTTTATGCTTGTATTTCTTGTTTATCTTATTATTTATCTAATTTTAGTTGGAGATAAACAATATAAGAAAATTGCATATTATAATTTTCAACTAGAAAATAAAATTGAAGTAATTGATTCAATTCAAAATTATAATAGTGAATCAAGCTTATATTTAATTAAAGTTCACAATGAAATAAAAAAAATGAGAAAGGAAATTAAAGAATTAAAAAGGAATAAGATTTCTTCTGATTTTTTATCTTCAAAAAAAGAAATTTCAAAAGTTTCACATTAAAGGTTTTATAACCTTTTTTATTTATATTTTTTTAAAAAAATTTGTTCAATGTAATAAAATAATATGTGAGGTGCAAAATGCAAAATTGAGACTTATTAATATTTTTTCCTATATTATTTATTTTTGCAATTTTTGCAATTTCTTTTATGTGTTATAAAGAAAAAATGCCTAAAAAAAGTTATATTTTAATTACGCAAATAATTTTATTTTGATTAATAATTGGATATATTGGAAATAGCTTATCCAATAATATTTCAGCTAATAAAATTAGCTCACTTTCAACATATATTATTTTAATTATTTTTAGTTCATCTATGTTTTTAATTTTCTTAAAACCATTAGCAACATGAACTACTGGTATTTTAAAAAATAGAAAAATTTGAATGCAAATTTCATATACATTAACTGCTATAAATTTAGTACTTTTGATTTTCTTTAGTAATAATTTAACTTTATGAAATATATTTCTTATTTCAATTTTCTATTCACTTTCTTTATCAACTTCAACATTATATTATTTATACTTTAATGAACAATTTTTTTATAGAATTTATACTTTGCCAACAACATGAATTATTTTTACATTAATATCTTTTTCAACTACTTTTGGATTGTATTTAAATATTTTAAATTTTGAAATTATAAGTTTGAAATTTAATATGGCAATTCCAATATTTCTTATTTTATTATTAATTATTTGTTTTTTATTTTCTTTTTTACAAAAAGAAAATAAAAATTTAGTTGGTTCCTTTGATACAGAAGTAATTTCTCAGTTACCTAAAAAAAATAATTTAATTTTTATATCAATTTATCTACTTGTATTTTTAACATCAATAACAGGTGCACTAAATAATTCATTAATTATAAAAATATATATGGCACTAAATTTTATGAAATTAGATTATTTAAATTCTGATATTGAAATATTTTTAAGAATTAATAATTTTATATATTTAATTCCCTCAATAATAGTTTCATATTTTTTATATAAATATGCTTTAAATTTTTTAACTCAAAGAGATTTTTTATTTATAAATATTTTTTTATTATTCATTTTTTATACAATATTGGCTTTTGCTAATAATCCTTTCATTTTTATTGCTGTTAATTTTTTTACAGGAATTTGTATAAATCAAATTTTATATTCTTTATTTTCTATATGCATGTTTTGAAATTATAGAACACCAAAAAATCCTGTAACTGGTTTTTGAGGTAGTGCTTATTTTGGAGGACAATTTTTAGTTATTTCAATTGAAGAAATTCTTTCAAAATTAAAAATTGGAATTTTTAAAGATTTTTCAAGTGTAAATGAATTACTTTCATTAAGAGATAATCAAAATTGGCAACAGTTTTATTCAAAATTTAATGATGCTTCAACTTTATGCATGACTTTAGCTTGTGTATTTTCATTAATTGTTTTATTAATATTTTATTTTAGAAATGCACAAATATTTGCAGATTTCTTAAATTATAGATTAGCTATACAAAATTTAAAAATTATATTAAAAAAACGTGTAATTGAAAAAACAAAAACACAAATGAAGATTTCAATAGAAAATTTTGAGGAGAGTTCTTAATATGTTAGTTTTGGAAAAGGATAATATAAAAATTTTGGTTTCAATTAATCCATTTGAAATAAAAAGTATAAAATTTGAAAATAAGGAAATTCTTTATCAACAAGAAAATAATTGAAAGAAAACTTGACCTATTCTTTTTCCAATTTGTGGAACTTTAAAAAGTAATTTAAAAGTAGATGGAAAAGAAATTTTTTTAAAAAGACATGGTTTTTTTAATGAAATTATTGATTGAAAAATTTTAGAACATTCACAAAAAGGAATATTAACTGAATTTATTTCAAAAGACAAACTTATTAATCAATTTCCATACAAATTTAAGATTTTATTAGATTTGCAAATTATTAATAATCAAATTAATTTTGATATAACTATTGAAAATATAGATAATAAAAAAATGTTTTTTTCATTTGGACATCATCCAGGTTTTATTATAAATGATAATACTGAAATTATTTTTAATAAGAAACAACAGTATTGTTCTGATTTTAAACGTGGATTAATAATTTCCAAACAAAGTAATTTTTTTGAGATAGAAAAATTAAATAAAAATGACTTATCCTTTAAAAATTCAGATTCTTATTTAGTAAGAGAAAATAATTGTGATAGAGTATCTATTAAAAATGATTTTGTAGAATATGAATTAATTTTTGAAAATTATAAAAGTCTTATTTTATGATCTGAAAGTAATGAAGCAAATTTTTTATGTATTGAACCATGAAATGGACTTCCTGACTTTGAAGAAAAAAAATCTGATGAATTAAAAGATAAGGAAGGTATTTTAAAATTAGAAGTAAATGAAATTAAAAAATTTGAATATAAGATTATTTTTAAAAATGGAGAACAAAATTAATTTTGCTCTCCATTTTTTCATATATCATAATATTCTAAAATTAATTCTTTAAGTTCAGGAACAAGTAAATCCTGAGATACAGTCTTATAAATTTTTCCCTTCTTAAAAATAATTCCACCTTTATTTCCACCAGCAATTCCAATATCTGCTTGACTTGCTTCACCAGGTCCGTTAACTACACATCCCAAAATTGCAACTTTTAGGGGGAATTGCAATTTTTCTACAAATTCTTCAATTTCTTTAACGACATCTCTTAAAGCAAATTCTAATCTCCCACAAGTTGGACACGCAATAACCTCAACCATATTTTCAAAGAGGCCCATAGAATTTAATAATCTTTTAGCTACTTTTATTTCTTCCACTGGATCTTCACTTAAACTGATTCTTATTGTACTACCAATACCCTTAAAAAGCAGATAACCTAATCCAAAACTTGATTTAATAGCACCATTTAGTAGACTACCTGCTTCAGTAATTCCTAAATGTGCGGGATAACTTCAATATTGACTTGCTAATTCATATGCTTCAATTGCCATTAAAGGGTCTGTTGCTTTTAAAGAGTAAATTATATTTGTAAAATTATATTTTTCAAGAATTTCAATATGTGTTCTAAGAGATTCAACCATTGCTTTTGGAGTTCAACCATATTTTGCTACCATATTTTTTGGCAAGCTACCTGAATTAACACCTATTCTAATTGGAATATTTTTTTCTTTACATTTCTCAACAACAGCAATTGTATTTTCTTCAATTCCAATATTCCCAGGATTAATTCTTATTTTTGCACATCCTGCATCAGCTGCAATTAATGCAAATTTATAATTAAAATGGATATCTGCAACTACAGGAATTGGAGATTTTTTAACAATTTCACTTAAAGCATTTGCATCATCAATTCCCAATACAGCAACTCTTGCTATTTGACAACCTTCTTTGAATAATTCATTAATTTGGTCTACTGTCTTTTCAATATCATGAGTTTTTGTTGTGGTCATTGATTGAATTACCACTTTGTCATTTCCACCAATTTGAACATTTCCTACCATAACAGGTTTTGTATTTTTTCTTAAATGCATACTTAATCTCCTTAAAAAAATTTACTTTATTTCTTTTGTTATTATACACTTAGTTTGTTTTAAGAGTGTTTAAGACTATAAATAAATTATTTTATGTATAATCTAAATAGGAGTGGAAAAAAGTGTCTGAAAAAACAACATTAAAAGATATCGTTGAAATAAATAAAGTTTTAACAATTAAAAAATATGATTCCTATAAGGAATTTTTGGTATATACAGATATAATTCAAGAATATATAGATGATACTTTTTTTAGAAATGATGTAATTATTGAAAGATTAGTGGAGTATGCACAAAAAAGTGCCCGTTATTTAGATATCACTTTTAAAGAAAAAAGTGATATAAAATTAACAGTAGAAAATATTCATGATTATATGTTACATACAAAAAGAGCTGTAGAAAAAGCACTTTTTATTGAAGATGAAGCATTTAATTTTTCAATTTTTGTTGAAATAAGAAGTATTGTTAGATATTTTTTGGAAAAAACTTATGAATTTGAATCACTTAGAAATTATGAAATTTTATATGGAATAAATACAATGGAATTTCATCAACAAAATGAATCTTTTAAATATCTATACACAGTTTTTGATAAGTTTACATATATTTCAAAACATTTAAATGAAAAATATGTAAAGAAAAATGAAAAATTATCATATCAGGATGTGCAGTTAAAATTTTTTACACATTTTTTAAAAGATATTTCTTTTCTTTCAAAAAGTACTAGTGATTTTCAAAAATTAAGTGATATTATTGAATTAATTACATACTCAAAGGCTTGACATTATATTAGAAGATTAAGAAATTCAATTGAACACGATTTTGTAGATCCAACATATAAATATAATATTTCACTTTCTCTTGAATTACTTTTTATAATTATTGGTAGAATAATGCTTGGTTTAACAAAATATTTAAAATCAGAAAATGAAATTAGAGAAACTTTAGATTCTTTAAAAAGTGAAAAACTTGAATAAAAGGAAAAAATATGCAAAAATGAAATGAAATACAATTAAATAATTTTAATGGTCCATTAGATCTTTTGCTTCATTTAATTAAAGAAAAAGAAATTAATATTATGGATATTAATTTACTTGAATTATCAAATCAATATGTAAATTATATTAGAGAAATTGAACTTTTAGATTTAGAAATTGCAAGTGAATATTTAGTTATGTCAGCTTATTTAATTGAGTTAAAATCAAAATTATTAATTCCAAAAGAGGAAGTCAATATTGATGATAATTATGAAGAATTAGAAAGACAAGATTTAATCAGAAGATTAATTGAGTATCACAAAATTAAAGAAGTAACAAATTTTTTTAAAACAAAACAAGAAGATTATTTAAAGGGTTTTAGTAAAATAAAAACAATAATTAGAATTGCAAAAATCGATGATAATGAGTTGCCATTAGCAGAAAATAATATTAATATTGATAAATTTTCAAATATTTTTTTAAAAGCAATAGAAAAAAATAAATTTAAAAAAATGGAAATTAATACTATTAAAGCAGAAGAAATTTCGCCAGAAAAAATTTCAGAAGAAATTAAATTATTTTTAAAAAATAATAACGTTAGTGAAATTGATTTAGTGAAATTGATTGAGTTAAAAGAATTTTCAATAAAAGTAATGGTTGCAACTTTTTTAGCAGTATTAGATTTAGCAGCTAAAAAAATAATTACAGTTTCTCAAAATGAAAATGAAGTTATTGTAAAATATATAGGTTAAGGAGTTTCATATGGATAACATAAAAAAAATATCTGTTATTGAAGGATTAATATTTGTTAATGGTGATGAAGGAACAACAATGGACGATTTAAAAATTATTTTGGAAGAAAGTAATGAACAGTTAATTGAAAAGTTAATTGAAGAAATTACTCAAAAATATAAAAATGATAAATCTTGTGGATTGGAAATTCAAAAATTTGCAAAAAATAAATATAGAATGATTACAAAGAAAGAGAATGCAGATTTTTATTCAAAATTAGCAAACGTAAAAACAGAATCAAAATTATCAACAGCAAGTATAGAAACTTTATCAATAATTGCTTATAAAGGCCCAATTACAAGAGCAGATGTTGAAGACATTAGAGGTGTTAATTGTGAATCAATATTCCATAAATTAAAATTAAGAAACTTAATTATTGATGCAGGAAAATCAATGGAACTTGGAAAAGCAACTTTATATAAAGTTACTGATGATTTTTTAAAGTATTTTAATTTAAATAGTTTAGATGAATTACCAAAATTAAAAGAGGTAATTGATGAAGAAAAAGAAATATTTAATAGAGGTTAATTATGATAGAAGAAAGATTACAGAAAATAATAGCTTCAAGAGGTTATTGTTCAAGGCGTCAAGCTGAAAAATTAATTGAACAAGGTAGAGTAAAAGTTGAAGGAAAAATAATTAAAGAATTAGGAACAAAATTTGAATCTAATGTAGAAATATCTATTAATAATAAACCTTTATTAGAAGTAAAACAAAAAGTTTATTATTTATTTAATAAACCAAGATTAGTTTTAACAACAATGGATGATCCCAAGGATAGAAAAACAGTAGCTGATTTTTTTAATGATTCAAAAATAAGAGTTTTTCCCGTGGGAAGACTTGATTATGATGTATCAGGAGCATTAATAATGACAAATGATGGAGAATTTGCAAATTTTGTTATGCATCCAAAATTTGAATTTAGAAAAACTTATCAAGCTTTATGTAATGGAAAAGTAACTAAATATCAAATAAGAGATTTAATTAATGGAGTTACTATTGACGATGATTATAAAACAAAAGCTATATATGCAAAATTATTAAAATATGATGATGAGTTTAATGAATCTGTTATTGAACTAACAATTGCAGAAGGAAGAAAACACCATGTTAAAAAAATGTTAGTTGCAGTAAACATTTATTTAAAAAAATTAAAAAGAACACAAATTGAATTTTTGGAAATAAATGATATTGAAATAGGTAAATTTAGAGAACTTAAACCCCATGAAATAAAGCAATTTTATGGAATTTATAATTCTTTAAAAAACAGAAAAGGAAATTAATATTATGAGAATAGCTATTTTTGGTACTGTTGGTGCTGGAAAATCAACAATTTCAGAAAAAATTTCAAAAAAATTAAATTATGAAATTTTTCCTGAACCAATTGATAATAATCCATATTTTGATGATTATTATAAAGACATGGAAACAAATGTTTTTAAAATGCAAATTTATATGCTTACAGCAAGAAGTCAACAATTAATTAAAGCAAATTCTATTAATAATGTTATTTTTGACAGAACTATCTTAGAAGATCCAATTTTTGTGGCTGTAAATCATGATTTAGGCACAATGAATGATATTGATTATAAAACTTATACAGATTTTTATGAACAAGTTGTAATTCCAAATTTAACACATAGAGTCGAATTTGATTTGGTTATATATTTAAAAGTTTCAACAGATAAAGCAATAGAAAGAATTAAAGAACGTGGTAGAATTCAAGAATTAGAAACTCCAAGAATCTATTGAGACACTTTGAATAAGAGATATGATGATTTTTTTAATATAAGAAAAGATATGTTTAATTTTTTAGTAATTGATGCAGAAACAGATGATATTGATTTAAAAATTAATCAAATTTTAGATAAAATTAATGAATTGGAAAAACTTTAAAAAAAGGAGAAATAATTATGGGAAGAGCACATGAAGTTAGAAAACAAAGTATGGAAAAAACTGCTGCAATGAAATCTGCAATCTATGGTAGGGCTTCAAAAGAAATTTATATGGCAGCGAAAAATGGAAGTAAAGATCCAGAAGCAAATTTAGCATTAAGAAGTGCAATTGATAAAGCAAAATCTAAACAAGTACCTGTTGATGTAATTCAAAGAGCAATTAAAAAAGCAGAAGGTATGGATGGAGAAATTTTTTTTTCAAACAGATATGAAGGTTATGGACCAGGAAATTCAATGATAATTGTAGATTCATTAACAAGCAATGTGAACAGAGCAATTGCAGAGATTAGAGATGCGTTTAATAAGAATGGGGGAAAAATTGCAACAAGCGGTGCTGTTTCTCATTCTTTTCAAGCAACAAGTATATTTGCTTTGGAAGGACAAACAGTTGAAGAAATTTTAGAATTTTTAATGATTGAAGAGTGTGATGTTAATGATGTATTTGAAGACGAAGAAATGCTATTAGTTTATGCTCCTTTTCAAGAATTTAATAAAGTTAAAATAACATTGGATAAGTTTGGTATTAAAGATTATAAAATGGCAGAAACTACAATGTTAGCTGATGAAAATATAGTTATAACAGATAATGAAGCAAAAATTAAATTTGACAAATTAATTAACAGACTTAATGAATTAGAAGATGTTCAAGATATTTATCATAATGTTGAAAATTAATAAGTAATTTTAATTAAAAAAATCATACACTTGTATGATTTTTTTAATTATCAAATTTTAATTCTATTTTCTTTTTCCAAAAACATTCCATCACCTTTTTTTGTTTCAAAAGTTTCGTGAAATTCGTCAATATTAATTAAAACACCGTTACATCTAAATTCTTCTGGAGAATGTGGATCAATTAGAAGTCTTGTATTTTTTAATTCATCTGTAGATTTTCTTTTTCAAATAATTGCATAATTCTCAAAAAATAATTTTAAATCATTTGGAAATTGCTCTTTACAAATATCTAAAGCAGCAACAACTCCACTTAAATCACCAATATTTTCACCAAGAGTTAATTTTCCATTTACTTTTGAACCATTAACCTCATAATTACTATATTGTTCTACTAATTTTTGAGTTCTATTGCTATATTGCTTATAATCTTCATCAGATCATCAGTTTTCAAAATTTCCATCTTTATCAAATTTACTTCCTTCGTCATCAAACCCATGGCTTACTTCATGACCAATTACAGCACCAATTCCACCTAAATTTTTAGCTTTAGGTTCATTAATGTCATAAAATGGAGCTTGTAGTATTCCAGCTGGAAAACAAATTTCATTTGATGTTGGATTATAATATGCATTTACTGTTTGAGGATACATATATCACTTTTCTTTATCCACTGGAAGATTAATTTCTTTAATTTCTTTTTTTGTAAAGTATTGTGAAATTTTTGTTAAATTTTCATATAAATTTCCACCATCTTTATAATCTCTTATATCAATGCTACTAAAATCTTCTCACTTATTTGGATAACCAATTTTAATTTTAAATGTATTTAATTTTTCAATTGCTTTTTCCTTAGTTGTATTTGACATTCATTCTAAATTTTGAATTCTTTTTGAGTATACTTTAATTAAATCATTTACAATTTTTAGAACATCTTCTTTTGCTTTTTCAGAAAAGTGTTTTGAAATATATGCTTTTCCCAAAATTTCTCCTAGATGTGAATTTGTAAATTCCACAGCTCTATCAATTTCAGGTTTCATTTCTTTCATACCGCTAAAAACAGATGAGTATTCAAAACTAATTTTATATAAATTTTCTGTTAATAAAAAACTAAAAACCATAATTACTTTAATTTTTAAAATATCTTTAAGGTCATCTAATTTAATATTTTCCAACATTTCACCTAATTTTTTCAAAAATTTAGGTTCACTTAATATAATCACTTCTGCTTTTGAATATCCAATTTTTGTTAAATGTTCTTTTCAATCAATAAAATTACACAATTCATTTAGTTTATCTAATGTAACTACATTATAAATATTTTCTGGACTACGCAATTCCTCTTGTTTTAACATTGCATGAGAAATTTCTTCTTCAAATTTATAAATTAAGTTAAAAACATTTTCATTTGAAAATTTAATTTGACTCTCTTTTATTAAATCATTTATATATTTTTGATATCCACTTTTAATTTCTTTATGTCTTGGATGGCTTTCATCATAAAAATCCCTATTTGACATTCCCAAACTCATTGCAGAAATTCCTAAAGCTCTTTTATTACTGTTTTTAAAGTCTGAATCTACTCCTTTTGAATGAAAAAAACTAATATTAAATTCTTCAAAACATTCAGTTAAAAAATTTGAAAAATCCTTTTTATCATTTAAATTATTAATTTTATTAATAATTGGTTCTATTGGTTTAATTAATTGACTATTTCTTTCTTTTCAATTTAAATAGTTATTAAAAATATTGACAATTTTCTTTTCTTCTGAGTTAAGAGAATTGTAATTTTCTTTAAAATCTAGAATTAAATTTTTGATATCATCAATTGATTTTTTATGAAGCATTTCAAAACTTCCTCATGATGGATAACCATCGGGAAGTTGAGTATTATCAATTCATTCTTTATTTAAATAATCATAAAAATTATCTTGAACTCTTATTTTGTTTGACATTTTTATTTCTTCCTTTCTAAACATATTATATTGTTAATTTTAAAATAAACAATAGATAGTATAAAAATCTAAATAGAAAAATTTGCTATAATTAAAATTGATTTAGAAAAATTTATTTTATGAATAAAGATATTGTTTTATTAAGAACTGTTGAAGTTGCTGCAATTGCTTCATATAAATATATTGGAAAGAAAAATAAAGATTTAGTTGATCAAGCTGCTGTTGAAGCGTTTGAAGTAATGCTTAAGAATGAAAAAGGTTTTAAATTAAAAGTTGTAAATGGTGAAGGGGAATTAGATATGTTATACGTTGGTCAAATTCTTGGTGATACTACTGACCCATCTGTAAATACTTTTGATGTAAGTGTTGATCCAGTTGAAGGCACTAATCCTGCAGCATATAATTTTGCAGAAAGCATTTCAACAATTGCAATATCGGGTGAAAATACAATGTTACAATTGCCAGAAATGTATATGGAAAAATTATTCGTAAGTGATGAATTTAGAGATGTTATTAATTTAAATAATGGAATTATAGAAGTTGTTCGTGAAATGCAAATTTTTGCAAGAAGAAAAGATTTAAAATGTATTATTTTAGATAAACCAAGACATCAAAAAATAATAGCAAAATTAAATGATATGGGAATAATAACAAGACTTATACAAGATGGGGATGTTTTAGCAGCAATTGATGTTGTTAATGGTACAGCAGATTTTGTTTATGGTATTGGTGGAGCTCCAGAAGGTTCACTTATGGCTGCATTGTCAATTTCTTCTGGATGTAAAATGCAATGTAAGTTAATATCTTATAAGGAAGTTTGACCAAATGAATCTGAAACTGAAAGTAGAGTTTTAATTGAACAAGCTTGATTACAAAAACATAATTTAGATTTTTCAACAATTTTAAGTGATTTTGATCTAATTGCAGATAAAAGAGCATGTTTTTTTTGCAGCTGGTTTAACAGCTGGGGGAAGTTTGAAACCTATAGATTATAAAGGTGAAAAATTTTACGTTAATGCTTTTATGTCTTCTCATGGAATTACTAGAAATATTAAAACAGTTTATGACGTTAAAAAAGTTAATGATTTAAAACCAGGAATTAAGTATTTATTTGATAAATATAAAAGATAATTTAACTAATATTTTGTAATATAATATTGCTAGGTGATATTTGTGGAGTCATTAACAAAAATACTTTTAATTGCATTAATATTGGCTTTTTTGACTTTATTAACTATAAAAATTTTAAATACGTTATTTTGTTCTAAAGTAGAAATTAGAGAAATACAATCAGCAGATAGTAATATTTCATCTTCAAAAATTGAAGAAATAATTAAAAAATTTCAGCATTATTTAAAAATTGATGATTTAAAAGTTAATTATGCAGATACAGATACATATATTAGAATTACAGATATTTTAAGAAAAAGAAATAAAGAAATAAATATTCCAAAATGAATAATGCCAAGTGTTGGTTATGAATTAGATTATATTCTTGCAAATATTTGATATAGTGCAAAATTATATCAAAAAAATAAACAAGTTAAAAAGGCTCAATTATTTATAAAGTGACTACCATTAATTTTTAGTAATCTATTTTACTTAAATTTTTTAATATCAATCTTTTTATCTATATTGTATATATCTTTTTTTACTTCAACTTATCCTGGTGAATTTTTATTATTTTTATTTAGAATTCCAATATTTGAAGTATTTGGTTTAGTTTCTTTTTTAATTTTAATTACTATTATATTTTTCTTAAATAATATTAAAAGTCATTTAGAACTGAAATATGAAAGAGAAATTATTTCTTTTGTAAATAATGAATGTGCAGGATATAAATCAGATATTTCTGCTGCAAGAGTATACGCAACGGGTTTTGAAAAATTAATTTTTAAAATTTTTAGATGAAATAGCAAAACTTCTAATTTAAAATTTTTAGGACCTTTTACAATATTATAAAAAAAATGAGATTATATAAATCTCATTTTTTTTATCCTTTGCCAAGTCCTTTAATTTTTCATTCTTCCATTATTTCTTCTTTTCCACCAGGCTTTAAATATCTATCTTTGTAATGTTCAAATCTTTCTTTACATTCAACTAACTCATGCATTGCTTCATCAACATTACCTCAACCATTAATTTTTACTTCTTTTTTTTGTAATGCCTTATATTGTAAAAAGAAATTTTCTATCTCATCTTTCAAATGTTGTGGAACATCTTTTAGTGTTGTAAATTCTTTAAATCTTGGATCATCTGAAAAAACCCCAAATAGTTTTGTATCAATTTCTCCAGCATCAATCATTTTAATTGAACCAAGAATTCTAACATTAACAGCTACACCTGGTAAAGTAGGGTGAGTTGCTAAACTAATTACATCCAAAGGATCTCCATCTCAGTCTAGTGTTTCAGGTACAAAACCATATTCTCCTGGGTAAAAATTTGCACCATATAAAACTCTATCTAAACTAATTTGATTTGAATTAATATCGTACTCATATTTATTAGAGCTACCCTTTGGAATTTCAACGATCATTTTTATAATATTACTTTTCATTTTTAATTTCTCCTTTTACAAATTTATTTTATAGTAAAATTATTATTGTTAATAAAAAAATTTGGATTATTAGAAATTGGAGTGTAGAAATATGGAAAAATCTGATATTAAAAATGAAAAGCAACTTTTAAATTTAGATAATCAGGATAATTTTGATTTAGTTTTAATAAAACAAATAAAAATAAACAAATGAAAAAATTATTTTAAACTTACTTCTCACAGAATTGCGCTATTAGCTATTGTTTTAGCATTAAATATTTGTTTATCTTTTATAAGTGTATATTTATTTCAGGGTTTTGCTTTTTTAGGTTTTTTAAGATATGAAATTACATTTATAAGTTATTTAATTTGTTTAAAAGCAATTAATTTATTTTATAGTAGCTTAATTGTTATTATTGCTTCATGAATGAGGTTTATTGGAATTGACCCAATGGCAGAATGAGTTGGGGTATTAACAATGAATCTTTCAGACTTATTTGCAATTTGTATTTTTGCATTATTTTTTTATTTTTCAAATATTTTTTTTAAAAATAAAAATTATGAAGTTTTGAAAACCTTTATAATAGCTTTAATTGTTAGTATTTTAGTTTCCTTTTGAAACATAATTTTAAACTTTAGTTTTATTCTTTATCTTTATGATAAATTTTATGGTAATTCTAGCGGTGTTTTTTTAGAATTTAAAACTTGATGATATGCAGGAGTTTTATTTGGTTTTAATATTAGTAAATATATGTTTAACTTTATTATTTTTTTATCATTAATTAAACCTTTAAATAGAATAAAAAGTAACTCTAATTTATAAAAATTATAAATTTAATTTATAATTTTTATAAATTAGTTTATAATTATTTTATAAATAGGAGGTCAATATGTCTGATAACAAACATTCAGTTCCTGATCATTTAGATGAAAAGGAAAATAAAAAAGATCATTACCACAATGAACATCATTATGATAACAAAGGAAATCATGACGATATTATTGATGATGATTTTAATTTCAAATATTCAATTTATATCAATAAAAAAAATCTATTATATAGATTAGCAGCTGCTGGTGTATTTTTAGCACTTGCATCAATATGTACTTTTTTTGATTCCATGCTTGAAAGGATTTTTACTTTACCTCTTGATGGTGTAATTTTATCAGTTAGATATTTAGATATTTTTGTTATTACACTATCAATTGGGGTTTTAGGCCCAGTATTTTCAAGTTTAATTGCTTTTATTGTTCCATGAATTCATTTATTAATGGATGCAGAACATGGTCCATTACCATCATTAATTGATTCATTAGGTTATTTTGCAATAATATGAATTTTATGATTATTGTATTATGTTATATTTAAAAATTCATATATTCATAAAGATCCAAGTAAAAAAAAGGATTTAATTAAAAGATGAGTACCTATTGCAATTTTTATTCCAATAACTTTAATTCTATATGTTCCTTTAACAATTTTAATGATATATATTTCTAATCCTGATCATGAAGTTGAAGAAGTAAAAAATCAAATTTTAAAAATTGTTAATTATCATGAAACACATGAACATGGTCACTGAACGGATTTTAAAGAAAAATATGTAGTATATACTTTTATAGTTATAGGTTTTGAAACACTTAGATTTACAGTATGTTACTCATTATTCGCAGTTATTGAGCCACAAATGAAAAAATTAAATCATATTTATAAATAAAATTAAAAGATTTTATTTTTTTTCTTTAATTTTGATAAAATCATTAATGATAATATATAGATTAGTGAGGAAAAAAAATGGCAAACAAAAAACCAGTTTATATTTCAATGGATTTAGGAACAGCTTCAACTTTAGTTTATATTTCAGGACAAGGTATTGTTTATAACGAGCCTTCAATTGTTGCATATAAAGTAAAAGAAAATCGTATTATTGCGGTTGGTGAAGAAGCATATAAAATGATAGGTAAAGGTAACAAAACATTAAAAATTGTTAGACCAATGGTTGATGGTGTAATAACAGATATAAAAGCAACACAAGCACAATTAAAATATATTTTTGCAAGATTAAGATTAGAAAAAACTTTAAAGGGTTGTGTAATGTTATTGGCTTGTCCATCAGTAATTACAGAACTTGAAAAATCTGCTCTTAAAAAAATTGCAGAAAGTCTTGGAGCAACAAATGTATTTATTGAAGAAGAAGTAAAAATGGCTGCTCTTGGAGGAGGTGTTAATATTAATACACCATCTGGACAATTAATTGTTGATATGGGTGGAGGAACAACTGATGCAGCTGTTATTTCTTCAGGTGATATTGTTTTATCTAAGTCTATAAAAATTGCAGGAAATTACTTAAATGAAGAAATTTTAAAATTTACAAGAGCTCAATATGGATTAGAAATTGGAATTAAAACAGCTGAAACAATAAAAATTAAAGTTGGTTCATTGGCAAAATTCCCTGATGAAAAAACTATGAAAGTTTATGGACGTGATATTGTTTCGGGATTACCAAGAGAGATAGAAATAACTCCTCAGGAATTAAGAGAGGTCTTAAAAATTCCTTTATCAAGAATTATTGATTTAGTAGTTCAAGTTTTAGAAGAAACTCCCCCAGAATTGGCAGGAGATATTTTTAGAAATGGAATTACTTTATGTGGAGGTACAGCATTAATTAAAGGAATTGATAAGTATTTTGGTGATACTCTTCAATTACCAACAAAAGTTGGTGAACAACCTTTATTGGCTGTTATTAATGGAACTAAGAAATTTGAATCAGAAATCTTTGAACAATTGAGAAATAGACAAGAGTAATAGAAATTTAAAATATTTGTTTTATAAAACAAATATTTTTTTTATTTTAAAAATTAAAATAATTTACTGGTAAAAAAATTCTATTTGTTTTTATAAAAGACAATTTTTTTTATATAGAATGTTAGAATAATATTCGTTATAGGTCACCTATAATTTGAAATATAGGTTTTTATGAAAAAGGATGTTAAAAAGTTTGTATCCATAGATTTAGGTACTTCAAATACTTTGATTTATATAGAAAATCAAGGTATTGTTTACAATGAACCTTCAATTGTAGCTTATAAATTTAAAGAAAATCGTATTGTTGCAGTAGGTGAATCTGCATATAAAATGATAGAAAAGGGAATAAAACATTAAAAATTATTAGGCCAATGGTCGATGGAGTTATAACATATATAAAAAGTACTGAAGCACAATTAAAGTATATATTTTCAAAATTAAGAATAAATAAATTTTTAAAAGATTCAGTAATGTTGTTAGCTTGTCCATCAGCAATTACGGAATTGGAAAAATCTGCTCTTATAAAAATTGCACAAAATTTGGGAGCATCAAATGTATTTATTGAAGAAGAAGTAAAAATGGCCGCTCTTGGTGGTGGTGTTAATATTTTTACGCCTTCAGGAAAATTAATTGTTGATAGCGGAGGTGGAACAACTGATGTTGCAGTTCTTTCAGCAGGAGATATTGTTTTATCAAAATCAATTAAACAAGCAGGAAATAAATTTAACGATGAAATTCAGAAATTTATGAGGTCTCAATATGGTTTGGATATTGGGATTAAGTCAGCAGAAATAATAAAAGTAACTATTGGATCACTTGCAAAATATCCAGATGAAAAACGAATGAAAGTTTATGGACGTGATATTGTTTCGGAATTACCAAGAGAAATTGAAATTACTTCACAAGAAATTAGAGAAGTTTTAAAAGTTCCTGCTTCAAGAATTATTGATTTAATAGTTCAGGTATTAGAAGAAACTCCCCCAGAATTGGCAGGAAATATATTTAAAAATGGTTTAATTTTGTGTGGAGGAAACTGTTTGATAAAAGGAATGGATAAGTATTTTGCAGATACTCTTCAATTACCAACAAAAGTTGGTGAACAACCTTTATTGGCTGTTATTAATGGAACTAAGAAATTTGAATCATATATTTATGATTTGTATTTACGTAAAATGAAAATTAAAAAAGGTTTTTTAAAAACCTTTTTTAATTTTCATTAACTTTAACTGCACCAGTTGGACAAACCATTTGACATTCAAATAATTCTAAATCATTTTCTTTTGCTTCAGCGAATCCATCATCATCCATAAATAATGTTTCAGTTTCATCCATTTCTACACAAGCCATGCAACCAATACAAATTGATTTATCAATTCAGGTTTTTTTCATATAAAAACTTTATCTCCTTTTATAGTATTATAATAACAATAATTTTAATTATTTATAGAATTAATTTATAATATATAAGACAATGGGGTGAATAACTTGGCTATTGAAGCAAGAATGGAGCGAAATAAAGCTTTACATGAAAAAATAAAAAAAGAAATTATTTATAAAAGAACTATTCAAGATGAAAAATCAATTATAAATTCTACTTTTGAAAAATTAAAACAAATTGACTTAAATTTTTTTAAAGAAAAATTAGATATTTTTGATAAAAAACACCAAATTGAAAAACCCTATTTAGATAAAGATAAATCTAACACTCTTTTTCCTGAAGAATTAAAATATGATATAAAAAGAGAAATTTCGGAATTAAAAAAAATTAAATTAGTGGAACCTTTACAAGAAAATCATGATGATGAAGAAGAAAAAATTTATTTTAAAAATGAAAAATATGCAAGATATTTTAATGAACTTCAAAAAAATGAATTAAATTTTCAAAAGAATATTAGTAAATTAAAAGAAAAGCAAAGTAAAAAAAATATAATTAACAATGATGATATTCCAATGACAATAGTTCAACAAATTAGAAGTAAGGATAATAGAACAACTCACCAAATGTTAGTTGAAGTTCAAGATAAAGTTGAAAAGTCTCAAAATAGATTGTTAAAAACTTGAAAAGGTTATGATTCAAAATTTAGATTTAAATGAGCTAATTTTATTTTAATAATTCTAATTTTAATAATGCTTGTTTCAATAATATTGCCAATTTTTATATAATAAAGGAGTTTTTTATATGTTAAAAAAAATTAATATTGCCGTGGATGGAACTGCAGGAAGTGGTAAAAGTTCTGTAATGAATGAAGTTGCTAAAGTATTAAAAATGAATTTTATAGATACAGGTGTTATTTATAGAGCATTTACAAAATTTTGTGTTAAAAATAATATTAATTTTTTTGAACCTAAAGAAATTGAATCTCAAATTGATTTATTTAGTTATAAATATATAAATGAAAATGAAATTTTAGTTAATGGAGAAGATTATGGACCATACATTTTTGATTATGATGTTGTAGAAAATATAAAGTATATTGCTCAAAATGTAAAAGTAAGAGAATATATGGTAAATTTACAAAGACAAATGGTAATAGAAAAAAATAATATTGTAATTGGCCGAGATATAACAACTGTTGTTTTACCCGATGCTGAATTAAAAATATATTTTGATTGTTCAGTTGAAGCAAGAGCAAAAAGAAGATTTGAACAAAATATCAAGAATAATATCTTACCCAATGTATATGAAGATATTTTAAGACAAATTAAGCAAAGAGATGATTTTGACAAAAATAGAAGTACTGGTCCACTTAAAATAGATAAAGGAGCTTGAATTTTAGATACAAGTAATTTAACTTTTGAAGAATCAATGAAAGTAATTTTAAATAAAATAGAGCAAATTTAAAAAAAGGAGTAAATTTATGGTTAGAAAAGGAATTGTTGCAGTTGTTGGAAGACCAAACGTTGGTAAATCTACACTTTTTAATAGAATAATAAAAGAAAAAAAGGCAATTGTTGAAGATAAACCTGGAGTAACTAGGGATAGAATGTATGGTAATACTGAATGATTAACAATGCCTTTTATTATTGTAGACACTGGTGGTATTACATTGCAAAATACAATTTTTTCAAAAGAAATTAAAATGCAAGCTGAAATTGCAATCAAAGAAGCAGATGTAATAGTTTTTGTAATTAATTATAAAGAGGGTATTACAATAGAAGATGAAATGGTTGCAAAAATTTTGTATAAAACAAATAAGCCAGTTATTTTAACTGTAAATAAATATGACAAAAAAGAACAATATGATGAGTCATATTCTTTTATGAGTTTAGGATTTGGAGAACCTTTTTTAATTTCTTCAACTCATGGAATTGGTATTGGAGATTTATTAGACAAGATAATAAATTCAATACCAAAGTTTTCAAATCAATTGAATGAAAATGATTTAAAATTAGCAATTGTGGGTAAACCAAATGTTGGTAAGTCAAGCTTAGTTAACTCAATGATTGGTGAAGAAAGAATGATCGTTTCAGAAATCGCAGGAACCACAGTTGATGCAGTTGATAGCAAAGTAAAATTTAATAATAATGAGTATATAATTATTGATACTGCAGGTATGAGAAAAAAGAAAAAAATATATGAAAATCTTGAAAAATATAGTTATTTAAGATCTCTTTCAAGTATTAACAAATCTGATATAGTTTTATTAGTTTTAGACTCAAGTCAACCAATTACAGATCATGATACAAATATTGGAGGGTTTGCTTTTGAAGAAAATAAACCTATAATAATTATAGGAAATAAATGAGATTTAATTGAAAATAAAGAATCAAATACAATGAAGAAAAAAGAAGAAGAAATAAAAGCTTATTTTAAATATTTGAGTTATGCAAAAGTACTTTTTTTATCTGCAAAAGAAAATAAAAGAGTTCATAAAATTTATGAAATTGTTGAACTTGTAAAAACTAATATTAAGAAAAGAATTCGTACAAGTTTATTAAATGAAATTTTTAATAAAGCTCAATTAATTAATCCTGCTCCAAATCATAATGGGGGTAGATTAAAAATTTATTATGCATCACAAGTAGAAGCATATTTGCCAACCTTTGTTTTATTTGTTAATAACCCAGAATATGTACATTTTTCATATAAAAGATTTTTGGAAAATCAAATAAGATCACAATTTGATTTTACTGGTGTGCCAATAACAATTATTTTTAGAGAAAGGAAATAAAAGTATGATTAAAGAAAAAATTGCAATTATTGGAACAGGAGCTTATGGTACAGTTTTGGCAAATGTATTAGCTGATAATGGGCATGACGTAATTATGTATGGAATTGAAGAAACACAAGTGGATGATATAAACAATAATCATTTAAATTCAATGTTTTTTTCTGATTTATTACTTAATACTGAAATTAAAGCAACAATGGATTTTGCAGAAGTTATGGAAAAAGCACAAATTGTTATTTTAGGAGTTCCTACTTTTGCTTTAAATTCTGCTATTGAAAATATTATCAAATATGGAAAAAGAGAAATGCATATAATAAATGTTGCTAAGGGCTTAGATGAAGAAAATTTGGATGTTTTAAGTAAAAAAATTAAGAAAAAATTTGAAGGTACAGGTGTAATGAAAAGTTATGGTGCAATATATGGGCCCTCAGTTGCAATTGAGGTTATTATGAGAAAACCTACTTGTGTAATGAGTTGTAATGAAAATGAGCAAATTGCATTATATATGGCAAATATTTTTTCAAATGAATATTTTATAGTTAAGATATCAACAGATGTTATTGGTTGTGAAATTTCTGCAGCTTTAAAAAATACTGTCGCAATTGCAGCAGGAATGCTTCATGGTTTTGCAGGAGCAGACAATGCAAAAGCAAGTTTAATTACAATTGGAAATGCAGAAATATATACTATTGCAAAATCTTTTGGAGCAAAATTAGAAACTTTTATGAACTTTGCTACTTTAGGGGATTTAATTTTAACAGCTTCATCTTCAAAATCTAGAAATTTTTCACTTGGTGTTGAAATTGCCAAATTAGATAGTGCAGAAAAAGTTTTAAAATCTCATAAAAAAACTGTTGAAGGAGTTGCGGCTTGTAAATTAGGGTATGAAATAGCAAGAAAACAAAAAATAAATGCACCAATATTTGAAATAATGTATAGAATACTATACAATAATGATAAGCCTAGTGTATTAATCAATGAATTTTTCAAGTGCGCTAAGGTAGTATAGAATATAAGGGGTGTATACCATGACAAAAAAAGAATTGTCTGAAAAATTATCAGTTGAATTTGGTAGTACAAAATCAGAAGCTGAAAAAATGATAAATTTTATATTTGAAGAAATGACAGATGCATTAGTAAAGAAAGATGAAGTTTCAATTGCAGGATTTGGTAAATTTGTTACTTCAGAAAGAGCTGCTCGTGATGGAGTTAATCCAGCAACTGGTGCAAAAATTAAAATTCCAGCGACTACTGTAGCTAAATTTAAAGTTGCAAAACAACTAAAAGATGCTGTTGCTAAATAATAAAAAAATTAAAAGTTGCAATTGCAACTTTTAATTTTGTAAAATTTAAAAATGTTAGAATTATTTCAATCTGGAATTATAAATAAAAAAAGTTTATTAATATTAAATTATTCAAAAATTAATTTAAATGAAAAACAGTTAGCTATAGTATTAATAATTATGGAATTATCAAGTTATGAACAAAGAAATTTTACACCATCCCAAATTGAAAATTATATGAATATTACAAAGCAGGAAATTGAACAAGAAATTGCAGATTTATTAAAAAATAGATTTATTAAAATTGATCAAAAAGGAAAAAAAACAGTTTTAGATCTTTCCCCTTTATTTAATAGACTTCTTGTAAAACTTGAAGAAGAACATTCAATTCTTAAAGTAGATAGTGAATATAATTTTTTAGAAAAAATATTTAATAATAAGCTAGTAAAAGAAGAAATTTTAAAATTTGATGAATATATTGAATCAGGTATTTCAAAACCAAAAATTTTAGAATATATTCATCAGTATAGCATTACTAATGTAAAAGATTTACTTTTGAAATTAGAAGAAAAATCTAAAAAAAGCTCAGTTAAAATTACAATGTATAATTGGCTAAATGATTAAAAATATCTTCAAAATTAATAAAAATACCGTTAAGTTTAACTTCTTTAAAATTTTCAATAAAAAAGTTAAAAGGTATTTTTTATTTTCTAATTTTAATATTTCATTTATAGTAAGACAAAAGCACTTATCAAATTTATGAAAATATATAATCACAAATGCTATACTATTGTTTTGATTTACTAAAATCAATTTTTGTAATTGATTTTTCTTAATATTGTTAGTATTAAAATATTCTAGTTATGTTTCTTTTGCTTCAAATTCTAGGTAAGCGCCATTTCATAAATCTATATAATCACAAAAAAAATTTTTATTTAATTTTGATTCAACAATATTATTTTTTATTGAAATAATTGAACTATTGAGTGGCATTTTTTGAATAACTGCAGTATTTTCAATTAGTAATTTTTCAATAGTATTATTAATAATTGTTTCTAAAAACATTCCTTTATTTTTTAAAATCATTAAATCACCTCAAAATAATAATCGATAAATTTTAAAAAATGTATAAAAAAAATAAATATATCTATAAAATTAAATTAAAAGGAGAAAACTTAAATGGCAGATTATATAAAATTATCAAAACAAGAAATTTTGGATAAAGATTTTGAAGTTGAATATAAGGGTTATAAAGTAGAAGAAGTGGATTCTTTTTTAGATATGATTGCAGAAGATTATAGAATTTTTTTAGAAAGAGATAGACAAAAAGATAAAAAAATTTCTGATTTAGAAAATAATTTAAAAGTACTAAGTAATGAATTAAATGAAACTTTGGCAACTTTAAAACTAAGTGAAAGTCAAATGGAGCAGCTTGCAAGAGCAGGTTTAAATTCTTCGGCAATAATTCAAAGAATATCAAAATTAGAAAAAGAAAATTTTAATAAATAAAATAGTATAAAATAATTAATGAGATTAATTTTGAATCAACTGCTATATTTGAAAAATAATATAGAGGAAACTCCACGCTTGTACATTCTGAGATGAATGTAGTGATTGTGCTAGAGAAAAAAATAACTCTAGGTATCATATAATGATAACGACTTGAGTCAAATCTAAGGAATATTTATTCTATGATAAAACTCTTTAAAGTGCCACAGAGACGAGTAACTAGAAATAGGGAACTGGAACGGGTAAACTCCACAAGCAAGAAACCCAAATTTGGTAGGGGAACTAGAAAATCAGAAAATGAACTGAATTTTTTGGATCACATAAGTGATAGATAGATAGTTGATGCACATTTAATTGTGTTACAGAACGTGGGTTATGATAAATTAATTTCACTATATTTTTTAAGGATTTGTATATGAGAAAACTTTTAAAAAAATTATTACAAAAAAAATATACAATATCAGCTTGTGAATCATTTTCTGGTGGTATGTTTTCAAATGAAATAACAAATATAAAAGGATCAAGTGATTGATTTATGGGAAGTTTTGTTTGTTATTCAAACGATTTTAAAAATAATATTTTAAATATAGATATAGAAATAATTAAAAAATATAGTGCTGTATCATTTCAAGCAATAAATTTAATGTTAGATAATACTTTTAAATTACTTAATACAGAAGTTGTATTTGCTTTTACTGGTTATGCTACTCCAATTGATATAACAAATGGTAATTCAGGTTTAAGTTATATTGGTTTTAGATTCGAAAACAAAAATCATATATATAAATTTGAAATTAAAAAAAATATATCAAGAAAAAGATATAAAAAAATGGCAATAAAATTTATTATAAAGAAATTTTTATATAAATAATTTTATTTTTTCATAAATTCACCGATATATAAATTGAGGAGGAAATTATGTTAGAACAAGAATTAAATAAAAATAAAAATGAGGTAATTTTAAATATGGATAGAGAAAATATATATGATGATCCAGCTTTTAAATCTGTCTTAAAAGATATTGAAAAAACTTTTGGAAAAGGTTCAATTATGAAACTTGGAGATGATAATATAGTTAGTATTGAAACTATATCATCTGGAAGTTTTTTATTAGACAGGGCAATTGGAATTGGAGGATATCCAAAGGGAAGAATAATTGAAATTTATGGTCCAGAATCATCAGGAAAAACTACTTTATCATTACATGCAATTTCAGAGGCACAAAAAAATAATGGTAGAGCAGCATTTATTGATGCAGAGCACGCACTAGATCCAAGATATGCAAAAAATATTGGAGTAGATATTAAAAATTTAGTAGTAGCACAGCCAGATTCTGGTGAACAGGCACTAGATATTTTAGAAATGCTTGTAAAATCAAATACTATGGATATTATAGTCATTGATTCTGTCGCAGCACTTGTTCCAAAAACCGAACTTGATGGAGAAATGTCAGATCAACAAATTGGTTTACAAGCAAGATTAATGTCAAAAGCTTTGAGAAAACTAAATGGAATAATTTCAAAAACAAATACAACAGTAATTTTTATAAATCAATTAAGAGAAAAGGTTGGAGTAATTTTTGGAAATCCAGAGACTACTCCTGGGGGTAGGGCATTAAGATTTTATTCTTCTGTTAGATTAGAAGTAAGAAAGGGAGAAATAATAACAAATAACGGTGAAGCAACAGCTAATAAAGTAAAAATAAAAGTTGTTAAAAATAAAGTTTCTTCTCCTTTTAAAACTTGCCAAATTACAATTGGTTATAATAGGGGAATTGAAAGAGATTTGGAAATTGTGGAAATGGCTACAATTTATAATGTACTTTCAAAATCAGGTGTTTGATACTCATATAGTGATGAAAAAATTGGACAAGGGAAAGAATCAGTTAGGGAATGATTTAAAGTAAACCCTGAAAAGTATGAAGAAATTCAAAATAAATTAAAAGAAATAATAGAATAAGAATTAAAAAACTTGGAAAATTTCAAGTTTTTTTTATATTTTAATGTAGAATGATATTGTTGCAATTGCAACGTCCACAGTTTTCCAAGAATGGAGAATTTAATTGTTAGGGACAGAATTTTGAGAAAATGCATTTATTGTTGCGGTTACTTTATTAATTGTAATAATAGTTGTACTATGTACAATTATTTTATATTTAATATTATCTCGTCAACGCAATAATATTTTAAAAAAAATAAATGACGAAGGAAAAAGAATTCAAATGAAAATTATTGCAGATGCTAAAGCAGAAGCAGCAATTTTAAAATTGAATTTGGAAAATGAAATGAAAGTAAAAAATGAAAGTTTACTTTTACTTGAAAAAGAATTAAAAAATAAAAAAGATGAATTATATTTGGAAATTGATGAAATAAATAAAAAAGAACAAGATTTTATTAATGAAAAAGTAGAATTAAATAAACTAAAAAAACAATTTGAATTAGGTAAAAAAAATATTCAAATTTTATTAGAAGAAATTTCTGGGATGAGTTTTTTAGAAGCTAAAAAGGAATTATTAGATTTAGTGGAAAGCCGATATTTAAAAGATTTATCAGAAGAATTAAAAAAAGCTGAGGAAAATTTAAAATATCAATCGTATAAAAGAGCATCTAGAATATTGATTGATGCAATGCAAAAAAGCGTTGTTGAAGTCACTACTGATAAAAATACAACTTTTTTTGAAATTGAAGATGACTCTTGAAAAGGAAAAATAATTGGTAAAGAAGGAAGAAATATTAAAACATTTCAACTATTTTGTGGTGTAGATATTATGATTGATGATACACCAAATAGAATTTGAATATCTTCATTTAATCCAATTCGCAGAGAAATTGCATATTTATCTTTAACAGAACTTGTTAAAAGTGGAAGAATACAACCTGCAACTATTGAGGAGCAAATTTTAATTCAAACTGAAAAATTGGAAAAAAGCTTTTTGGAAATAGGTTATAAAACTGTAAGTGATTTAAAAATTTATGATCTTCCCGAGGAAATAGTTTATTTACTAGGCAAAATGAAATTTAGACACAGTTATGGACAAAATGCTTTACAGCATTCACTTGAGGTTGCAAGATTTTCAAGTTATATAGCAGGTCAATTAAACTTAGATGAAAATATTGCACTAAAAGCAGGTTTATTACATGATATAGGAAAAGCTGTGGATTTTGAAGTTGAAGGAACACATGTAAAACTTGGTGTAAATATTTTAAAAAAATATAATATTGATAATTTAATTATTAATGCAGTTGAGGCTCATCATAATGATGTAGAAAAAGAATCTTTTTATGCTGAAATTGTTGCAATTGCAGATACCATGAGTGCAGCAAGACCTGGAGCAAGAAATAATGATGCAAATGAATATTTTTCAAGGATGAAGCAACTAGAAGATACTTGTCTTGGAGTTGAAGGAGTTTTAAAAGCTTATGTTTTGCAATCTGGGAGACAAATAAGAGTTATGGTTAATCCATCAATAATTGATGATTACAAATTAAAAAAGTTAGCGATTATTTTAAAACAAAAAATTTCTTCAATTAATAAAACCCCAGGTGAAATAGTTATTACATTGATTAGAGAAAAAAGAGAATCGATAAAATTATAAAATATACCAATATTAATTGGTATATTTTTCTTATGCTATAATTATTAAGTGATTGGAGTTGAAAATATGGGATTTGGAGATTTTTTAAGCAATAGAATGAAAAAATCTATTGAAAAAAATTTAAAAAAAACAACTTTAAATGAAGAAAATATAAAAGAAGTTCTTAGAGAAATTAGATTAGCATTACTTGAGGCAGACGTAAACATTGAAGTGGTTAAAAAATTTATTAAGAATATTGAAACAAAAGCTTTAGGTAAATTTATTGAACAGGGTGTTAGAGCAGACCAACAAATGGTTAAATTAGTTCATGAAGAATTAGTTGAAATTCTAGGAAAAACTAATAAGCCATTAGAAATTAATAAGAAACATTCAATAATAATGATGGTTGGATTACAGGGTGCTGGAAAAACTACAACAGTAGGAAAATTATCTAATTTAATTTCAAAAAAACATAAGAAAAAAACATTAATGGTAGGATTAGATATTTATAGACCAGGTGCTATTGATCAATTACTTGAATTAGGAGAAAAAAATAATTTAGATGTTTTTGAAAAAGGAAAACAAGATCCTGTGAAAACAGCTAAACAGGCAATTGATTTTGCATCAGAGAATGGTTATGAAGTAATAATTTTAGATACTGCTGGAAGATTACAAATTGACAAAGAACTGATGAAAGAATTAAATAATATAAGAAAAATCTGTTCACCACAAGAAATTATATTAACTGTTGATGGTATGACAGGACAAGATATAATTAATGTTTCACAAGAATTTAATAAATTATTAAAATTATCAGGTGTAATTGTTACAAAATTAGATGGAGATGCTCGTGGGGGAGCAACACTTTCAATTACTGACATCACTAATTTACCAATTAAATTTATTGGTGAGGGTGAGGGAATTAATGCACTTGCTGAATTTCATCCAAAAAGAATGGCAGATAGAATTCTTGGGATGGGAGATGTTGAAACATTATTTGAAAAAGCAGCTGATGTTGTTGATCAAAGAACAATGGAAAAAACCATGAAACGAATGTTTGCAGGTCAATTTGATCTTGAGGATTTAAGAAATCAACTTGAACAAGTTGCTAAAATGGGAAATCTTGGTGGAATTATGAAAATGATGCCTGGAATGAATGGTAAAATTTCAGAACAACAAATTAATCAAGCACAGGATAGATTAAGAGTCGCTACAATTTTAATGAGTTCAATGACTATAAAAGAAAGAAGAGATCCTAGATTATTAAAGGCAATTACAAGAAAACAAAGAATAATAAAAGGTTCAGGAAGAACAGAAAAAGAATATAATGAATTAATTAATCAATTTGATAAAGGTAAAAAACAAGTTTTGGAAATGGCAAAAACTTTAAAGTCAGGAAGAATGCCAAATTTAGGTGGATTTGGAAAATTTTAAACTAGATTTAATCTAGTTTTTTTATTTTTTAATAAGAATATAATAATAGTAAGGAGAAAAATTATGAAAAAATTAGTTGTTATTACTGGAGCTTCAAGTGGGATTGGAATGCAATTGGCAAAAAAATTTGCAAAAGAAGGACATCCAATATTGCTTTTAGCAAGAAGAAAAGAAAAATTATTAGAACTAGAAATTTCAAATGCGATTTGTGAATCTGTTGATGTAAAAAATTTTAATGATTTTAAAAATGCCATTGATAGAGCAGAAAAAAAATATGGAGATGTAGATTTATTAATTAATAATGCAGGAATTATGCCATTGGATAAAATTTATTCATTAGCCATAGAAACTCAGCATGAAATGGTAGATATTAATGTAAAAGGTGTTTTGAATGGAATTAATATAGTAATAAAAAAAATGAAAGAAAAGAAAACTGGAACAATAATTAATGTAAGTTCTGTTGCTGGAAGATGAACTTCTGAAAATAGAGCAGTATATAATGGTACAAAATTTGCAGTTCATGCAATTTCTGAACAAACAAGAAAAGAGCTTGCTCCATTTAATGTTAGAGTTTTAACTGTTGCTCCAGCATTAGTGGATACAAATTTAATTAATACTACAGAAAATTCTGAAATTATTGAAAATTATTATGATTTTAAAAATAAACTTGAGGGTGGGTTAACTGCTGAACAAGTCGCAAATATTATAATTTACATGTATAATTTGCCTCAATCAGTATCTTTAAAAGAAGTAGTTTTGAGTTCAACCCAACAAGAAATATAAAAAACTAGTTATTTATAAATAACTAGTTTTTTAGTCCTATTTTTTTAACTTCTTTTTCTTTTAAAGAAATAGCTTGTAATTTTCTATTTGCTTCTTCAATTGTTTTTTGAGTTAATTCATATTCAATTCTTCTTTTTTCAGCGTCTTTAATTTCTTTTCAAAGTTCCATTTTCATAGTATCAGACATTAATAATACCATTAACATTGCAATATTAAATAAATCATCAATATTTTTTTCAACAAATTTCTTATCTTTTGGTGTAAGTTTATCTGATTTTAATTCCATTAAAATTTTTACATTTTTAAAATATTCTTCTGCAAATTCTTTACCAAATTTTTGAAATAATAATGCTTCACCTTCACGTAAAAACAATGCAATATTTTTAAATAAAGTTAATTTATGTTCTATTTCATGTTTTGCAGATGACCTAAATTGACCAATTATATTATTCAGTCTATCATCATGATATTGATCAATTAGTTCTTCTGTTACAATTCTTGAGGTTGTACTTACCAGTTTTAGAACTGGTTTTTTAGTTGCTGTTTCAGTTTCAATAAATTTATAATTCATTGCGCAAATATATTTTTTTATACGTAAAGGTAAAATGTACATATCATATGCAATATATTCAGAATATCTTCATTTTCTACTAACAATTTGTGTAATTATGTTATAAACCATTTCTAATACAGTTAAATTTAATGATCTTTCATTTAACTTAAATTCTAAATTATTTAATCTTAACAATTGAAAATATTCATATCCATAATATTCCATTGCAATCATATTAAAGTATGTTTGAATAGTTGAATTATTCATAATTGCAGAGTATGAAAATTGTATATCTGGAACTAAGGCATCCATAATATTTTCAAATTGTGGTCTATAATCTAAGATTGATTGAAATTGTTTTTTTTCGGCCATTGTATTTCCCCCAAAATCATATTTATATTTTATCATATTTTTAAATAATTATTTGCTAAGTAGTATAATAATAATAATTTAGGAGAAAACTGTGAAAATAAAAATTGTATGTTTTAATAAAATTAGTAAAGAATTTAAGGATGCATATAATATGTATTTAGAAAAATTATCAAAACATTCTAAAATTGATGTTATTCAAATTCAAGAAGTTGATTTTGGAGATATTAAATCAAATAGAGTAAGAAATGAACAAAATATTTTGGAAAAATTAAATATTTTAAATGGTTTTGAAATATTTTTACTTGATATTAATGCTCGTCAATATAGTTCTGAAGACATTGTTTCAATTTTGAAAAGAAATCAAAATTATAATTCTGCAAAATTATGTTTTATAATTGGACCAAGTGACGGTTTTAGTTCTGAATTTAGAATTAAATGGCAAAATAAATTAAGTTTTGGTCCATTAACTCTTCCTTATAATCTTGTAAGAATTATTTTATTGGAACAATTATATAGGGGATTTAAAATATCAAAAAATCAAAAATATCACAAATAGTGTTTAATTATATTAAAATAATATTGCACTACTTAAGGAGGAACTATGTTCAACGAAAAATCTAGTTTTAATTGATTTCCTGGGCATATGAATAAAAGTATTAAAGAAATTGAATCTAAAATTTCTATTGTAGATTTAGTTATTGAAATAGTGGACGCAAGATCTCCTTTTTCAACACAAAATTCTTTATTTAGAAAACTTTTAAACAAAAGACCTAGGTTAATTATTATGTCAAAGTTTGATTTAGCAGATGTTGAAGTAACAAATCAATGATTTAATTACTTTTTATCTTCTGGAAATAAACCATATTTAATTAAAGATAAACAAGCAGATATATATAATGACATTTTAAAGTTAATAAATGAAATGACAAAAGAAAACCAAAATAAACAAATTAAGAGAGGTATAGAAAAACCTCAATTAAATGTGCTTGTTGTTGGAATTCCAAATGTTGGAAAATCTACAGTTATATCAAAACTTTCAAAAGGTAAAACAGTAAAAATTGGAAATAAACCTGGAGTAACTCGTGGTTTACAAAGGATTGTAATGACACCAAATATAACTCTAATTGATACTCCAGGAATTCTACCATCAAAATTTGAGAATGAAACAATTGCATGCAATTGTGCTGCAACAAATTCTATAAAATTGGAAGTTGTTCCCAAAGAGAGACTTGCAACAAAACTTATGAGATATATTTACAATTCATATCCAGATTTAATTGAAAATACATATAAAATAAATAAAAATATTTTAAGGCCAATAAACTATGATGATACATTTATAATTTTTGAAGAAATAGCAAAAAGAAATAAATTTACAATTTTTGATAATATGGCAGATGTTGAAAGAGCAATTGAATTATTTGTTCATGATATTATAAATAATAATTTGGGGAGAATATCTTTTGAAAAACCAATTGAAATATCTGAAATAAATAAAAAAACTATTGATGAAACAGATTTGGATTTTACAGTAGAAAGTGATCTAACAGTTGAATGATAGAAAATTTAAGATATTTATTTGATAAAAATATTAAAGATAAATATAAAGTAAAATTAGTTTCAGGCTCATATGAAGTTGGAAGAAGTGCTATGGCTGGACCAATTGTTGTTGCTTCAGTAATATTAAAATTAGATTATTCAAATTTATTAATAAGAGATTCAAAATTATTATCAGAAAAACAAAGAGAAAAACTATATGATGAAATAATTGATAATTGTATTTCATATAGTATTTGTGAATATGATTCTGAGTTTGTTGATAAATTTAATCCAAAGCAGACAAGTAGAATTGGAATGATTGAAACAATTAAAAATCTAAAAGTGAAACCTGAGTTTTGTTTAATAGACGGAGAATCAATTGAATTACCAGAATATAAATGTTTAAAAATAATTAAAGGGGATAATCTAAGTTTAAGTATTGCTGCTGCAAGTATTTTAGCAAAAGTTTATAAAGATAGAATAATGATTAATTATCATTCTAAATACCCTGATTATAATTTTATAAAACACAAAGGATATTGTACAATTGAACATCAACTAAAAGTACAACAATTTGGAATATTAAATTTTTATAGGTTATCTTATAAATTAATTATGAAAATAAAAGGAGAAAATAATGAATTTTGACAAAAATAATACTATTTATCAAGAGTGAATCACTTCACAACATTTGGAAACAGAATTAAAAGAGGAATTACTAAATGCAACAGATGAAGAATTAAATGCTGCATTTAATATTAATTTAGAATTTGGAACAGCAGGAATTCGTGGTATTTTAGGTGCAGGTCCTGGTAGATTTAATTTATATACTATAAAGTTAGTTACAATAAGTTATGCCAAATTATTAATTTCAAAATACCCTGAAGAGTTAACTAGAGGTGTTGTAATTGGCCATGATAATAGAAAATTTTCAAAAGAATTTTCACAATTAGCTGCAGAAATTTTAACTAGTTTTGGTATTAAAGCATATCTATTTGAAGATAATAAAATGAAACCAACTCCAGTTGTTTCATTTTCAACAAAAGATTTAAATGCAATTGGTGGAATTGTAATTACAGCAAGTCATAATCCAGCAATATATAATGGTTATAAAATTTATGATGAATTTGGTTGTCAATTAATTGATGAAGAAACTGAAATTATTGCAAATCATATGTCTGAAATTTCAAATATTTTAAATTGAAATTACAAAGCTGATCATTCATTGATAGAAAATATTAATAATAATGTTTTAAAAAACTATAAAAAAATGATTAGTAATTTACAATTTTATAAAGATCAATCAAGAGATGGATTCAAAATGATATATTCAGCCGTTAATGGAACAGGAACAGAATTTACACCTCCACTTTTAAAAAAATTTGGTTATGAAGTAATTGAAGTGGAAGAACATGCATTTGAAGATTCTACTTTTAAAAATGTTGGAAATCCAAATCCTGAATTTGAACCAGCATGAAAAATTCCATTAGAATATGGAAAAAAACATAAAGATGCTTCTATTATAATAATTCAAGATCCAGATGCAGATAGAATTGGGTGTGCAATAAATCATAATGGTGAATGAATTAGAATTGATGGAAATCAAACTGGACCAATTCTAATTGAATGAAAATTAAGTCAAATGAAATTAAATAATTCTACTCCTCAAAATCCAGCTATGTATTCTAGTTTTGTAACAAGTGATTTGGGAGATAGAATTGCTAGTGAAACTTATGGAGTTAAAGTAATTAAGACATTAACAGGTTTTAAATGAATGGGTTCAGAAATTTTAAAAGAACCAGAAAGATTGTTAAATTTTGTTTTTGCTTATGAAGAAAGTTATGGATATGTATTAGATTCATCAACAAGGGACAAGGATGGAATTCAAGCAACAGTAATGCTTGCTGAAGCAGCATGGTATTATAAAAAACAAAACAAAACCTTAATTGATGTTTTAGATGATTTATATAAAAAATATGGCTATTATTATACATATACTGAAAATTTAAATTTTAAACCTGAAGAAATAAAATCTAAAGTGGAACCAATAATGAAAAAACTTAGAGATAATTCTTTTGATCATTTAGGTGATTTAGAATTAAAATATGCAGAAGATTATATTTATGGACTATTCGGAATGCCTGGTCAAAATTTATTGAAATTTTATTTTACAGATGGAAGTTGAATTGCAATTAGACCCTCAGGAACTGAACCTAAAATCAAAATATATTTTGTGTGTATTGATGCAAATGAATTTAAAGCTAAACAAAAATGTGAATCACTATTTAAAAATTTAAAAAAATTTTTGGAAATTTAATAAAATAAAAAAATCTTATAGTTATAATAAAGATTTTTTTATTTTTTAAACAAAATTCAATATTATACATATAATATAAATGGTATTAAAGTACCATTCTAGATATTTAGGAGTTAAAATGAGAACAATAATTATTGGTGGTAGTGCAACTGGAATGGGAGTTGCAGCAAGATTAAAAAGAAATTTACCAGATTCAGAAATAATTGTTTTTCAAGAAAAAAAATATGTTTCTCTTGGCGCTTGTGGTTTGCCATATTTTGTGGCAAATAATTTTACTGATGAAAATATATTAATAGCAAGAACAAAAGATGATTTTGAAAAGACAGGTATAAAAATTTATTCAAATATAAATGTTAATACAGTAGATTTTGAAAATAAAAAAGTTTTTTTTAATAATCAACAATTAGAATATGATAATTTGGTTATTGCTGTTGGTGCAAAACCAATTATTCCAAATATAAAAGGAATAAATGGTAAAAGTGTTTTTACATTAACTACTTTAGAAGATGGAATTATGCTAAAAAAGAAAATGGAAGAAGATAATAAAATAAAAAAAATTGCTGTAATAGGGGCAGGTTTTATTGGTTTGGAAATGTGTGAAACTTTTCGTGAATTAAATAAGGAAGTATATTTAATTGAAATGGAGAAAAGAATTTCTTCAAAGGCATTTGATGAAGAATTTTCTGATTTAATTCTTGAAAAATTAAATCAAAAAAGTATCAATGTTTTATTAAATCATCAAGTGAGTGAAATTTTATTAAATACTAATGATGAAGTTAATGGTATTTTGCTAAAAAATGGAGAGAAAATAAATGTTGATGCTGTTTTAATGGCAGTTGGATTTAAACCAAATACAGAAATTTTTAATAATTCAAAATTGGCAATTAATTCAAAAGGGGCTATCATTGTAAATACAAAAGGTGAAACAAATATTAGTTCTGTTTATTCAGCGGGAGATTGTACAACATCAAAAAATTACTTAACTGATGAAGATATTTATTCTCCACTAGCAACAGTTGCCTCAAAATTTGCCAGAGTTATTGCAGATAATATATCAGGTAGAAATGAAAATTTTGTTGGTTCAATTCAAAGTGCAATGATAAGAATTTTTGATTTAGAAGTTGCAAGAACTGGATTATCTGAAAATGATGCAAAGGAAAGAAACATAAATTTTAAATCAGTATTAATAAAGGATAAAGATCACACAGCATATACAACTAATCAAAAAGATTTATATTTAAAAATAATTATGAATAATGATTCAAAAGAAATCATTGGTGCTCAAATGGCAGGAAGTAATAATTCAATTTTAAGAATTAATGCATTATCTGCTTTGATTTGACAAAAAGCAAAATTAGATTCAGTTTTAGAACAAATTGATTTTGCATATGCACCACCATTTTCAAAAACAACAGATATAGTTCATATTGCTATGTCTAAATTAAAAAAATAGGAAAGGAATGAAAAAATGCTTTTAGCAGAAACAAATGACTTATTAAGAAATTTTCTTGCAATTAGTAGTTGACAATCGGCTGTTGCAATTTTATTTTTTTTGGCATTACAAATTGGTTTTTGATTTTTTCTAAAACGATATAAGATTGCTTTTATGTTCAGAGTTATATCTGGGATGGTAATTGGGTTAGTTTATGGAATAATATTACAAGCAATTATTGGGTTTCCAACAGGAGATGAATTTAGCAGTTTAACAAATGAAGATAATTCAATTAATTATGATAATAGATTATACTGAATAATGGAATTGAATATATGGGCTTCATTATTCAAAAATATATTTATAAATGGAGTTTACTTATTAACAGTACCAATTGTCTTTCTGGCAATTTTCAAAATTACTTCAAAACCAGGGGAAACTGGTCTTGCAAGAATTACATTAAAAGGGGTTGGTTTATTACTTTTTAATGTTGCATTAATGTTTACTATTACATTTTTCTTAGGAGTGGTTTTTAAAATTGGGAATGGTTTTGATCTTGAAGAAGGAGCTTCAATTACAGGTGCGGGAAGAGATAATGTACCAATACCACAACTTATTTGAGGATACATTCCTAACAATATTGTTGGGGCGTTAGCAAAAAATTCAATATTACCTGTAATGGTAATTGGTGCACTTACTGGAGGTTCTGTAAAAATTCTTTCAAAGAAAAAACAAGTTGAAATGGAAGCAGTAAGAAAAGCTATGAATACTGGCTGAGATATTATGATGTCAGTATTAATGACATTTATGAAAATAATGCCTTTAGCTGTTATGTCAATGATGACAGTTTCTCTTACTTCAAGAGAAATTGGAGCGCTTATAACAATAGGTAAAATTATAGGACTTGGATATTTGGGAGTTTTTATTGCAATTGGATGATTAACATTATTAATATTCTTATCAGGAGTAAAAGTTGGAAAATGATGAAAATTTGCATGAAGACCTTTAGTACAAGGATTTTCAACACAATCATCAAATGCAACACTTCCAGTAACAATGAAAACATTAAATGAAGAAATGAAAGTTGGAAGTAAACCAACAAATACAATTGCTCCGCTTTCAACAACCATGGGACTAATTGCTTGTGCTGGAGTTCAATCTGGTTTAGCAACAAGTATTTTATGAACTGCGTCAACAACAGATAGTTCAATTCATAGTATGGGATTATTTACATTTTTTATTTTGGCATTATTTGTAACAGTAATTGCATCAATTGGAATTGCAGGAGTTCCTGGTACAGCAACAGTTGTTACAGTTGGAGTTTTAGGTGGATTAGGTTTTGGAAGTTATACAAGTAGTGTATTAAACATTATTTTACCACTAGATGGATTATTTGATATGGGAAGAACTGGAGCTAATGTTTTGGGTGGAGTTGCAGTATCAACAGTTGTTGCAAAGTCTGAGGGATTAATTGAAGAAGGATCGCAATTATTAAATGAACTTGGTATTGCAAAACAAAAAGCAATAAAAATGTTAAAAGAGTCCAGAGATATTTATATTGAAAAAATTCAAACTATGAAAAATGAAATTTTTAAAAAAATAAGAATAAAAGGTATTGAAATTGAAGAAAAAAAACAATTAAATTTAAATTTAAAAGAAAATTTAAAAAAATCTAAAGAAGAGTTTTTAGCAAAAAAAATAGAAATATCTGAATCATTTAAATCTTTTAAAAAACAGTTTAATTTAAATAAGAAAAATTCAATAAAATCTATTGATACAAAATCAAAAAGAGAAAACTAAATTTGTAAAAAAATTATAATTTATTATAATTTTTTTTATTTTTTATAAAAAGATCGATATATATAATGGAGGAAGAAAATATGAATAATGTCACAATTATTGCCAATTAGAAGGCATACCACAACTTGTATTTAATACAAAAGATGGTAAAAAAAATTATATAAATTTATTATAAAAGTTCCAAGAACTTATAAATCAAAAACGGGTAATCAATTAGAAGATTATATAAATGTAAAAGTTTGGAATAATGTTTTAGGAGATGAATATGAATATTTTGATCAATCCTTTATTGGTGTTGAAGCAAAAATAGTTTCATTTGGTAATTTAGAATCAAATGGTTATGGTAATGAACTTGTTGCTAACAAAATAATTCATTTAAATTAAAATGGAAAATGTACTACTTTATTTTTCACTTAAATACAATGAAACTTGAGATAAAATTTATCAAGCATTGGAATCAAAAGAAAAAATAACTTATAAAGAGCTTGAAGATGTTACAACTAGAATTAGTAGTGATTTTATAACTATTTTAAGCCCTTTGTATCCAAACTATTTAAAAAATACTCACAAACCACCATTTGTAATTTATTACAAGGGAGATATTTCATTACTTAGCAAATATACTAAAACAGTGGCAATGGTGGGTGGTAGTGAAATTAATGATTATAGTAAAAATAATATTGAAAAATTAATTAAAGATTTTTCCAAAAATTAAATTATTATTAGTACTTTGGAGAGAATTGGAATTAATTTAGAAATATTAAACTATAGTATAGAAAACAAAAATCAAATTATTTTAGTATTAAAAAGTGATATGCAAAGTTATGTTGAAAAAAATTTAGATTTAAAAGAAAAACAAAATTTTTTAGTAATTACAGAGATATATGAGAGCGGAAAAGATTTTACTAATCAAATTGATGATTATTCATCAAGACTTATTTGTGGAATTTCAAAGGGCATTGTTTTTATTCACATTAAAAACAATGATTCATTAAATAAATTATTTTCATTTGCAATAAATGAGGGAAAAGAAATTTTTGCAATACCAGATTCATTAAACGGTTTAGATGGAACTAATAAAATGATAAAAAATGGTGCAAAATTAATAGAAAATGCAAAAGCTGTGTTAAATGATTTATAAAGTGTTATAATCAAATTGTGATAGAGATATCACACTTGTAAGGTTAAAGCCTAAACTAAATAAATTAAACTAATCATTTTATTCCCGACACACAAATGATAGAATAATTTTAATTTGGAGAGATAATTTTTATCTCTCTTTTTTATTGTTGGTGTATAATAATAATTAATGAAATTAGAAAGGGAAATTATATGAAAAAAAATAGTGAAATTAATAATTTAAATGAAACTATTAATACTGAAAAAAATTTGAAAAATAATCAGGAACCTAATTTTAATTCAAAAAAAAATAAAGGCAAAACTTTTAACGGTATAATTTTTGATTATCTAAAAAAACATCCATTTTTGGCATTTTTTTTAGTATTTTTTACACTAGCATCATCATTTACAACAATTTTAGGACCTAAAATTATTGAAAATATGATGTCATTATTAATGGCACCAGGTTCATTACCACAAGAAGGTGCAACAGAAGAAACAATAAAGCAATGATTAGCAGAATTAAATAAAACAGGAAATATATTTTTGTATGTTGATTTTTTAGAAGGAAAACCTGTTTTTTCTTCATCATTTTTGGGACTACATTTGACTTGACAAGAGTGAATATATGTACAGATTTCTTTATTTGGAGCTCTTGCAATATTTACATTTTCTTCAAACTATCTAGCAGGTTTAATGGGAAAAAATATTGAGATAAGCTTAAGAAATAGAGCATTAGAGAAACTTGTAAAACAAGATATGAGTTATTATTCTGATAAAAAAATTGGAGAAATATTGACAAAAATTGTTTCAGATACACAGATCATTGGAGATCAAGCACAACAAGTTCCAGTAACATTAATGTCTGCAACTTTTACATTTTTTGGTGCACTAATAATGATGACAACAATAAATACAAATCTAACTCTTGTTGTTGTTGTTACAATGTCAATAATTATTGCAATAATGTTTTTAACATTTGGAGTTGTGAAAAAACTTTTATTTAGAACAAGAGATTCAATTACTTCAATCAATGGAGATGTAACTGATAGAATTGGTACTGTAAGATTAATTAAAGCATCAGGTACTGAAAGTTATGAAACTAAAAGATTTAAAGAAATTCATGAAGATTATTACAAGAAATCAAGTAGCTTAATAAAATTACAATCAACAGTAATTACAGTTATGGTAGCTGGTGTTAGTTCAATTCAAATGGTTATTGTTATTGCAGCAGCACTATTGTATAATGATGAACCTCATCAATTATCAATTGTATTATCTTCATTTATAAGTAGTGTTGGAACTATGGTTGGACCATTAATGCAAGTAGCAAGAGTAACTGCAGGATTAGCTCAAGCTTCAACATCTTCAACAAGAATTGATCAAATTCTTGTTTCTGTGCCAAGAATTGATCCGCACTACAATGATAATGAAGGAATATATATTGATTCAATTGATGGAGATATTAAACTAGAAGATATTGAATTTAGATATCCAGAAAAACCTTCAAAAGTTATTTTGCCTAAATTTAGTTTTACTTTTGAAAAAGGAAAAAGTTATGCTTTTGTTGGAGAAACAGGAGCTGGGAAATCAACAATTGCAAAATTATTACTAAGATTTTATGACCCATATGAGGGAAAAGTTTTAATTAATGGGAATATTGATTTAAAAGATATTCACCTGTCAAGTTATTTAGATAAAGTAGGTTATGTTGAACAAGAACCTCAAATATTATTTGGAACAGTTATTGATAATATAAAATACGGAAGATTTGATGCAACAGATGAAGAAGCACAAGAGGCGGCTAAAAAAGCTGAATTACATGATTTGGTTATGACTTGACCAGATGGTTATGACACAATTTTAGGTGAACGTGGTTTTATGTTAAGTGGGGGTCAAAAACAAAGATTAGTAATAGCTAGAATGTTTTTAAAAGATCCACAATTACTTATTTTAGATGAAGCTACAAGTGCTTTGGATAATATTGTTGAAAAAGAAATTCAAGTAAAATTAGATGCTTTAATGGGTGGTAGAACTACAGTTACAATCGCTCATAGATTAAGTACAATTAAAAACGTTGATCAAATTATTGTTCTTGCACGTGATAAAGGAATTGCTCAAATTGGTACTTTTGATGATTTAAAATCAAAACCAGGTCATTTTAAAAAACTATATGATGCAGGTTTAATAGATTAAAAAAAGAAAGAACTTTAAAGTTCTTTCTTTTTTTTAATACTAAACTTTTAAAATACTAGTAATGATATTTTATTTTTTGTTATAATAAACAAATGGAAAAAATAGTAAATATAATTGGTGCTGGTTTAGCAGGTTGTGAAGCTGCTTGACAACTTGCAAATAGAAATATTAAAATTGTACTTTTTGAAAAAAAAAATCTTGAAAGAAATTCAGTTCAAAAGCTAGAGTATTTTGCTGAATTAGTTTGTTCAAATACACTAAGATCTACTGACTTAAAAAATGCTGTGGGAACTTTAAAAGAGGAAATGGGATTATTTAATTCTTTAATACTGGAAGCTGCACAATTTGCACAAATACCTGCTGGTGGAAGTTTAGCAGTTGATAGAGAAATTTTTTCAAAGTATATTACTGATAAAATTAATAGTCATAAAAATATTACAGTTTTACAACAAGATGTAGAAAAAATAGATAAATCAAAATTAACTTTAATTGCATCAGGACCGTTAACATCAAAAAAACTTCAAAAGGAAATAATAAACTTAATTGGTGAAGAATATTTTTATTTTTTTGATGCAGTTGCACCAATTGTAAAGAAAGATTCACTAAATATGAATATAGTTTTTAGAAAAAATAGATATGACAAAGGTGAAACAAAAGATTATATTAATTGCGGAATGAATAAAGAACAATATGAAAAGTTTTATAATGAATTAATTAATGCGGAGCTTGCAAAAATGCATTTAGATTCTGAAAAGCAAATGAAATATTTTGAAGGTTGTATGCCAGTTGAAGCAATGGCAAAAAGAGGTTATGATACATTGAGATATGGACCTTTAAAACCTGCAGGTCTTAAAAATTTAGATAATACAGAAAATTTTGCAGTAGTACAACTAAGACAGGATAATGCTATTGATGATTTATATAATATGGTTGGTTTTCAAACAAATTTAACATGTTCAGAACAAAAAAGAGTTTTTAAATTAATTCCAGGTATGGAAAATGCTGAATTTGTACGATATGGTGTAATGCATCAAAATAATTTTATTAATTCACCAAAACTTTTAAATCACTTTAATCAATTAAAAAATAATGAAAATATTTTTTTTGCTGGACAAATCACAGGAGTTGAGGGATATATTGAATCAACATCTTCTGGTATAATCGCAGCAATTAACATTGAAAAATTTTTAAATAATGAAAATTTAGTTAAATTTCCTCTTGATACAGTTATGGGAGGATTACAAAATTATATTATTTCAACTAACTCAAAAAATTTTCAACCAATGAAAGCAAATTGGAGTATTGTTGAAAATTTAGAGCTTTTTAATAAAATTAAAAAAGAGGAAAAGAAGGAATTATACTCAAAAAGAGCAATAAGTTCTATGAAAAAATTTATAAAAAATATATAGTTAGTTTAAAATTATATATAGAGAGGTAAAAATGAAAGAAACTGATAAACAAAGCATTTTTTGATATGGTTTACATAAAATTGCTTATGAAAATGCGCAATTCAAATACTATATAACTACTCAAAAAGAATTGATCTCAAAGTTATATCCAATTGTCTATATTGGAGTAACTCAATATACTCTTTATAGAGGAATAACAATTAATGAGATACCTGTTGATGAATTAAATACATATACAAGTTATATAATGGAAAATTATGAACAAATTTATAAAATAAAGTATAGATTTGTTAAAGAAAAACCAAAAAAACTTAATTTTAAGGAAAAACAAATTTATGATTTGAGTTGAGAAATAATAGCAGGTCTACTTTTGCCTTATATAAATGAATTTTGTTTTAAAAATTATGAACAATGAAAAAATTTAACGAAATCTTACATTAGAGAATGTGCAATAATTTATGAATATGATATTAATCATGAAGCAGAAGATGGAAAAATAAAAACTAGTATTGCATATCCATTTATTTTTACTTTAAATTTAATCAAAATTTATGAAAAACAAGGTTTATATCAAAGAATACAAAAATGTTATCAAAAAGAAATTTTATTAAAAAAATTTAATTCAGGAAGAGAGTGAAAACAAAAGGAACTTGATTATTTGCAAGAAACTTATGAATTAATTCAAAATGATGAAGAATGATCAATGTTTTTGAGTAATTTTTCAAATTTAAAATGAGATAGTTTTGATCTCAAAGAAAGATTTAAAGGATTATTTCAATTAACAAAATTGACAACAATTTTAATGAAAGATGAAATTTCAGCTGTTACTATGCTAGACGATGGTGCTGAATTATATGAATTAATTGAAAATTATTTACCATTATTTATTTTTGAAGATAAAATAAAAAATTCAAGTAATAATTTAAATCAAGAGTATAAAAACTCAAAAATAAAAGTTTTATCTCCTTTTAATTATCAAAATATAAATATTGAGACTTTAATTCCTTATGTTTGTTCAAAAGGTGAAAGATTTGTTGAAATTGATAAGGAGCAATTAAAAAGTTGTTCGGAGATTATTGCATCAGTTTTTTCTAATTTAAGAATGACTTTACTAATTCATGAATATCTGCCACAGTTTATTGATTCAAGAATAATAGTTCAAAAAAAACTATTAGTTAATGTTTTGAAAATATTTGAAGAAGTAAAAGAAAATAGATTTAAAAGAAAGATTGATGTTGAAAATCTTCTTGAATCTGATTTCTTTATTTCAGAAGAAGAAATAATTGATATTATTGAATTACACAGAAAAAATTTACCTGAATTTGGTGAAAATAGTTCTTTATTAAAAGTTGGGAAAATTATGAGTCTAATGTTAGGGATTGAACCAAAAACTGCTTCAAGTGTTAATTATGACTTGAGACAATTAATAAAAAATATTTTAATAATTTTTGGACCACATCCCCTAGATCATACAGTACAAACAAGAGAAAATATTAATTTTATATCAACTATTTTTGAAAAAATATGTAGAGAATATGAAAAAAAAATGAATTTAAATGACTTAGATAATCAATTTTCAAATGCATTTGAATTACCATTAAAGTTATTAAATTGAAAAAAAGACTAATAATATAGTAAAAATATAAAAAATTTGCTATTATTATCTTGTCTAATTTTGCCCACGTAGCTCAGTAGGATAGAGCATGCGCCTTCTAAGCGTAGGGTCAGAAGTTCGAATCTTCTCGTGGGCGCCATTTTAAGAAATTTATGTTAGTGTGAAAAACTAGCATTTTTTTTATTTTTTTGTAGTATCTTTTATAGTAGGAATAGGAGATGAAAATATGAAAAAAAGAATTAGCTCAAGAGTTATTGAAAATAAAAAATTCAATATTGCAGCAACAGTTTATTTGAATTACTATGTAGACCCCTTACATAAAACTATTGAAGAACAAAGTTTTGAAAATTTTATTTTTTTAAAATTTTTTACTTATCCTTCAATTATTGCATTAACAAATTGAAATAAAAAATTTAAAAATGAATGCATTAGTAAAATAAACTTATATAAACCAAATTTTTTAATTAATTTTGCGACAAGTATAAATAATGATTTTAAACTTCCACAATTAATTAGATTTAAAGTAAGATATAAATTTATGGCATTAAATTTAAAACAGTTAAAGAAATTTGTTATTGATGAAAAACCTTCATTAGATATTTTAGAAGTAAATGATGAGGAAAATTTAAATGAATTTGTTAAAGTTATAAGTGATACTACAACACTTCAAGTTTCTGATAAAGAGAAATTTTTTGGAATGTTCGAATTAAACAAAGAAGAAAAAATTAATTACTTATTGCTAGCAAAATATAACTCTGAATATTCTGGAGTAGGTCATTTGATTTATTATAATGAAAAAATAGGGATGATTGATGATATCTCAGTTAAAGAAGACTTTAGAAATAATGGTATAGCAACAATCATTATGAAATCACTAATTAATAAAGCAATTGATGATGGTTTAGATGAACTTTATTTATTTGCAAGTGAACAAGCAATTGAAATTTATAAAAAATTAGGTTTTATAGAAGATGATTTTTGGTTAGAACAATATAACATTTTATAAAATTAATTTTTGAAAAATGAATAAAAATTGAATTTAAAATAAAAAAAATAAAGGACATTAATTTAATAAAATAGATATATAATGAAAAATAAATTTTTAAAAAATCCTGCTTTAGATGTAATTTAAAAATTAATGAAGTAGAAGAATATAAAATTGATAAAAGAGAAGATATTTTTGGAAATATAGTCTACTATTATTCTCATATTAATTGTCCAAAAAATAGGTTTGTTAAGTAAAAATACTTGACAAACCTATTTTTTAGTTTAATATAATTTATGTTCTTAAATAAAAGGAGGAAATATGGTTAAATTAAGATTAAAAAGAGCAGGTAAAAAAAGAGCTGCATTTTATAGAATTGTTGCAGCAGATTCTCGTATTAAGCGTGATGGTGAATATATAGAATTAGTTGGTACATATAATCCAATAAATGGTGAAGTTAATGTTAAAAATGAAATTGCACTTAAATGATTGCAACAAGGTGCACAACCAACTGAAACTGTTAGAAATATTTTTTCAAAACAAGGGATTATGACAGAATTACATAATGTTAAATTGGAAAATAAAAAAAATGAACCAAAAACAGAAAAAAAGATAAAAAAAGTTGCTTCTAAACTAACAGTAGCTAAAAAACAAGTATCAGGAAAATCAGCAGTTGCTAAAAAACCATCTGCAACTAAAAAAACAGAAATAACTTCTGTTGAATAATTTTAAATTTTATGAAAGAAGTTTTTAATTCAGTTAATACTTTGCTAAATAATATTGTGCCTAAGGAAATTAATTATGTATTTAAGGAAAAATTTGAGACTGAAAATACATTCGAATTTATTTTATTAATAGAAAAAAATAATTTAAATTTTTTTGGAAAAAATCAAAGTGAGGGTTTATTAGAAATTATTTTAACAATTTTAAATTCAGAAATAGGCAAGTTTAAAAAGGAAATAATTATTACACTAGAGGTATTTGAAGATTATGTTTGATAATTTAATAAAAATAGGAAAAATTGTTTCTACTCATGCAATAAGAGGAGAAGTAAAATTTTTATTAGACAATAAATATTTATTATTAAAAGAAATAAAAAATATTAAAATTTTTCTTGAAGATAAGCAGGGAAAAATTGATGTCTATGAAATTGAAAAGTCATATTTTATCAATAAAAAACAAATTTTAAAGTTAAAAAATATTAATAATATAAATGAGGCTAAACCATTAATTAATAATATTGTTTATATAATTAAAAATGATGAATTAATTGAAATTAAAGAAACTTTTATAGAATTTGAAGCATTTTATAAGGAAAGCAAATATGGAATAATAATTGATGAAATGTATAATGGAGCACAAGACTTAGTGAAAGTTAAAAATCAAAAAAATGAATTCTGAATTCCTTGTGTAGAAGTTTATATTGAAAGTATAGATTATGGTAGAAAAATTATTTTTTTTAAAAATATTGAGGGTCTATTTTAATGAAATTTTCAATAATAACTTTATTTCCAAATTTGATAGAAAATTATATATCGCAATCAATTATTAAAAGAGCAATTCAAAAAAAATTTATAGATATTGAAATATTAGATATTAGAAATTTTACAAATTATTCTCATAATCAAGTTGATGACTATCAATTTGGTGGAGGAAAAGGTATGGTATTAATGGTAGAACCAATTGTAAATGCAATTGAAAGTTGCAAGACAATTGATAGTTTAATAATTTTAACAACACCTCAGGGTAAAACTTGAAATCAAAAATTTGCAAGATCATTTTCAACTGAATATAAACATTTGATTATTATTTGTGGACATTATGAAGGGTTTGATGAAAGAATCTTAAAATATATTGATCTAGAAATTTCAATTGGAGATTATATATTAACAGGAGGTGAACTTGCAAGTTTGTGTTTAATTGATTCAATTACTAGAGTAGTTGATGGTGTAATTTCAAATGAATCTCATTTAAATGAAAGTTTTGAAAATAATTTATTAGATTATCCAGTTTATACAAAACCACTTAATTTTAGAAATCAAAAAGTTCCAGAGGTCTTAACTAGTGGGCATCACGCAAAAATTGAAAAATTTAGACAAGAAGGTAGAATAAAAAACACTTATATCAAAAGACCAGATCTTTTAAAAGAAAATCAATTATCTAAAAATGAATTAACATTTTTAAAAGAATTAAAGAAATCGAAAGGAGAAAATTAAGATGAACATGTTAACAAAAAATACAAAATCATTAATTGATGAACAATTAAATTCTAATATTCCAGACTTTAGTTCAGGAGATACAATTAAAGTTAATGTAAAAATTAAAGAAGGGGAAAAATACCGTATTCAAGCATTTGAGGGTGTTGTAATAAAAACACAAGGTAGTGGAATATCATATTCTGTTTGTGTAAGAAAAAACTCAGGTGGTATTTTTGTTGAAAGAACTTTTCCAATTCATTCACCAATTATTGACTCAATTGAAGTGATTAAACGTGGTCGAGTGAGAAGAGCAAGAATTTATTACATTAGAAAATTATCAGGAAAAGCGGCACGTATTAAAGAAGTTATTAATAATAAAACAAAAGAAGTATCTGTAAAAAAAGCAATAAAGCAATAAAGAAATAAAAAATATTATTAAACCCTAAAAATATTATTTTTTTGAAGGGTTTTTTTTATCTAAAATTCATAAATAAATGTACAATATTGGTAAAAGTAGGTAAAATATGAAAAATTACTATGAAGAATTAATTAAAGAAATAGATTTAGAAATCGCAAATAAGAATTTTGAAAATGCTTTAAATTTGATTAATGAAGAATTAAATGCCCCATATATTCCTGTTGAATTTGAGAATTATTTAAATGATAAATACATAGCTATATTGGAAAATACGGAAAATAATAATTTTATAAATGAAAGATGAAATTTTGATAAAATTTTAAAATCAATCAGTCAAGTAGAAGACCAAGAAATTCACTTAATGGCATTTGATGCTTTAAGAACTATGAATATTAGAAAAATTTTACAAAACTTAAAAGAGTATTTGTTAAATGAAAAAATAAAACCATCTAATAAATCTTTTTTATTATTAATTTTAATTGAGCAATCAATAAATCAAGAAATTTTTGTTAATAAAAATGGAAATACTATTTCAATTAACCCCTCAAATTTTGATCTAATGAATTCACAAAAAATTTTAAAGAATATTGAGTTAAAATTAGAAAATTTAGTTTATGATACAAATCCAAGTCTATTTAAAATTTCGAAACATATTGCAAATAATTATTTTTATTATGTTTTTCCTAATCTAAATTTTAAAAATTACTCTTTAAATGATTTATGTGCAGCAATTATAATAAAAGCAAATGAAGCACTTGGAACAACTCTGGAAAAAGAAATTGAAGAAAAAATAATTTTTAATAAAGAAAATACAATGTTATTATTAAATGAGTTAACAGAAGTTGTTTAGGAGAAAAAAATATGCAAAAAATAGTTTTTACAGAAGAAGATTTTATTAAATTCGAAGATAGAAAAAATATAATGATGCAAATATTTGGGATTACTTGCTCTGCTTGTGGAATTGATGAAATTGCTTATGTTGCAAAAAATGCACCACAAACTTTAGGCAATGTTGCTGAAAATTTAATTAAGCAAAATCCAAATATTAGCGATGATGAATTGGATTTATTGCTTAAATCACCAATTAAAGAATGACAAGAAGTTGATGATTATAATTCAAAAATTGGAGTGCCAACCTTTGTATGTGATAATTGCTATCAACAATTAATTGATAATGAAATTTCAATATCATTAGATGCTATTGAATAAAAAAAGGAGATAATGTTCATGAAATTTGTAGATTTAGCATTTTTTAATATTAAATCGGGAAAAGGTGGAGATGGAGCAGTTTCATTTCGTCATGAACTTTATGTAGCAAATGGTGGTCCAAATGGTGGAGATGGTGGAAAAGGCGGAGACATAATTTTAATTGCAGATGAAGGAAAATCTTCTCTCTTAGACTTAAAACTTCAAAAATTTTATACTGCTCAAGATGGTTTTAAAGGTGACATTAAAAATATGCATGGTAAAAATGGTAAAGATACTATTATTAAAGTTCCAATAGGAACAGTAATTTTTAATGCAGACACAAATGAATTGCTAGCAGATTTTACGAAAAATAATCAGACAGAAATTATTGCAATTGGTGGAAAGGGAGGAAAAGGAAATGCAAGATTTGTAAATTCTAGAAATAAAGCTCCAACAATTTTTGAGGCAGGAGATCTAGGTCAAGATTTTAATATAAAAGCTGAATTAAAAGTTTTAGCAGATGTTGGATTTGTTGGTTTGCCAAATGCTGGAAAATCAACTTTACTTAGAACAATTTCAAATTCAAAACCCCAAATTGCTGATTATTCTTTTACAACTTTAAATCCACAATTAGGAGTTTCAAGAGATAAGCAAGGGAGAACCTTCACTGTTGCTGATTTACCAGGTTTAATTGAGGGAGCTAGTCTTGGTAAGGGATTAGGGCATGAATTTTTAAGACATATTGAGAGATGTAAAATTATCTGTCATGTTATTGATATGTCAGGTAATTATGCAACAGAAGATGTAATTAAAAATTATGAATTGATAAGAAAAGAGTTAATTGAATATAACTTAAATTTAGAAAAAAGACCTGAAATTATTGTTGCTAATAAAATGGATATTGAAGATTCTAATATAAATATTTTGTATTTTAAAGAAAAATATTTTAATAAAAAAATAATTGAAGTTTCAGGTTTAAATAAAATGAATATTGATAAATTATTATTTTCAATTGGTTCACTTCTTGAGGAAGTAAAAAATATTCCTTTATGAGAAATTAAAGAAGAAAATAAAGAATATAAAATATATACTTTTGAAACCGATTTAAAAGATATTCAAGTTAAAAATTTAGGGAATAAAAGATGAAAAATTGAAGGTCAAGATGTTTATAAAATTTATCAAAAAACACCAATTTCAACATATGATAATTTATTATTATTCAATGAAAAATTGAAAAAAATTGGAGTTTATGATATTTTAAGAGAAAAAGGAGCACAAAAAGGAGACATTGTAAAAATATTTGATATTGAATTGGAATGGATGGATTAATATATGGAATTAAAAGATTACTTAAATTATTTAGTTGAATGAATTAGAGAAGAAGTAAAAAAATCAAATCAAAAAGGTGTAATTGTTGGTATAAGTGGAGGAATCGATTCTGCACTTGTAGCTGCTCTTGCAAAAATAGCATTTCCTGAAAATTACTTAACTGTGTGAATGCCTTGTGATTCAAGTAAATTAGATGAGGAATGTAAAGAAGAATTAGTTAATACTTTAAAATTAAAGTCAGTAACAGTTGATTTGGCAAAAACATTTTTAACCTTGAAAGAGGATTTAAATTTTTCAGGAATTACACAATCAAAGTTAGCACTTGCAAATACAAAAGCAAGATTAAGAATGACTACTTTATATTCAATGGCCCAAACACATGAATATTTAGTATTGGGAACAGATAATGCCGATGAATGACATATAGGGTACTTTACAAAATTTGGGGATGGAGGAGTAGATTTATTGCCAATAGTTCATTTATTAAAAAGAGAAGTTAAAGAAGCTTCACAAATTTTAAATATTCCTCAGAAAATAATTAATAGAGATCCAACTGCTAGTTTATGAGAAAATCAAACTGATGAATCAGAGATTGGTTTTGGTTATGATTTAATTGATAATTACTTAAGTGGAAATGAAGTTCAAAGCGAGGTAAAAATCAGAATTGATCAATTGCATAAAATTTCAGAACATAAAAGAAATTTAGCGCCAGTACCTAAAAAAAGGAATTAAGTTTATATAATTAAAACTTTATTGTAATAATAAACTATTTTAATAGATAATTAAATTAATAAGGAGATTTTAACATGACAGAAATACAAGCAAATGAAATAAGTGAATTTATAGATCAATTACATGATGAAACAGCAGATAAAATGTTTGAAGAATTAATTGCAGGTATGAGCTTATATTTCGCAGTAGTTTTATTTGGAGAAGAAATTGATAAAAATTATGAAAGTTTAATAAAAGAAGGAAAAAGTATTGAAGAAATATCAACAGTTGTTAAAAATAGTGAGCTCGGAGAAGAAGAAATTTATTCAGCTTTAATGGGGTCCTTACAAGAAGAAAGTGATGCTGAGAATTTTGCAGCAGATTGTGTACAATCAATTGCATTCAGTCCAGAATATCCGCAAGAAGTTTTAAAAAAATTAACAGAGCTAGAAATAGAATTGAGTGACTTCTCAGCTAATTTAATAGTTACATTTAAAGATCAATTTATAGATTTTTTTGTAAATGATTTAGATGTAATTGAGTGAAAAAATGATATTATAGATGCACTTGTTGCAAGTTGAGATTAAAATGAATTAATAATTTATTTTTTTATTTATTATGTTAATATAATATTGATTGAAGATAGGGTATCTGCAATTATGGGCTCAAATAAAGGTGATATTAATGATAGCATTATTTTTAGTAGAATTTAAGGTATTAAATTTTGTTTTACCACTTTGATTAGTTTTACTAATTTTTGCTTTTATTGGTATAATTTGTCTTTTATTATATTTTTTAATTCTTTTTCAAAAAAATAGAAAGTTCTATTTTGAAAAAGAGGAAGTTTCAGCAGCAGAATTTAAAAGATTAGAAAAATTTGAAATGCAAAGAAATTACTTTGAGTTAGAAATAGCTAAAGTAAAAAAAATATTAAAAAATAAAGAGAAATAAATATTTATTTTTTGCTTATAAAAAGGGGGCGTTTTTATGAGTGGATTATTTAATCCTTTTAAAAATAATTTTAAAAATAATGACCAGCAAAATGCTGGAGATTTTAACGTTCAATCTTCACAACAACCTGTAATGACCCAAAATTCATATAATAATAATAATTTGGACGAATATCAAAGAAATTTAATTAATAAAAAAAATCAAAATGAAAATTTTATTAGGCCAAGAAAAATTGAATTTGAAAATAGCTATTTAAATCAATTAAATCAAACGCCACAATTTTCAAGACAAAATAGAGAAATTATTCAAACTAATTATATTAATTCTAATGATCCCCAATTTATGAATAATCAAAATAGATTTATGAATCAAAATCAAAATATTAGACAATCTGCAAATCAGCAATTTATGCAGAATAATTATTATCCTCAAAATAATGCTCAAAATTATAATTTAAGACAAGAATATTTAGATTTTGAAAATCAAAATTATTTTGACTATGGAAATTATAGAGATGAAAATCAAAATAATAGGATGATTTATAATTTTCAGCAACAAAGTAATTCAAATTTTTATAATCAACATAATAACTTTTATAATGAACAACCTATTTATGAAGAATTTTCAAATTATAACAATAATATGCATTTTGGTTATTCAGATTTCTCAAATAATAATCAATTTTATAATTCAAATGATAGATATAATTATAATCCAAATGTTAATTATTCATTAAATAGTGCAAATCAATACAATCCATATAGTCAATCATCTTATAGAAATAGACTACAATCATCAAATATAATTCCAAAACCAATTTCGAAAGAAATTAGAAGTGAGAAGTTTAGATTATTTTTCATGTTTATTTTTGGAACAGTAGGAATAATAACTTCATCGTTAATGTTAGCAGTTTATTATAAAACAGTTGGTACTGAAAATAAAATTATTGGCTTAGATTATACATCAGTTATGTATCCATTCTTTTCAATTTTATTATTGATTATTGCTATTGCGTTCTTTGGGGTTAGTTTAACAGACTATACTTTATTGTATTCAAATGTTAAAAAATATGAGAGAGAATTACTCTTAGGAAACGAGTCAGTTCCGTATTTTATTACAAGAAATTACAGATCACTAATTTCAAGAGCAGTATATTTAAATTGATTTTCATTTTCATTTTATATAATTAGTGCAATTATTTTAGGATGTTTATATGGTTTACAAGCTCAACATGAAACAGGCAATACAGAAATTTATATTTTATTTTGAAAAATTGGTGAATTAAAATCTCTTGAATCAGAAATTACGATAACAATAATTATTTTATTTACTGTTCTTGCAATTCATGTTGCAAATATTGTTACTTCAAGAAGCAGAAAAAATAATATTATTTCTTATTATGGTTATGAAGTAATTCCTCAACAAGAAATTAAAGAAATTAAAAAAAGAGCAAATAAAATATGCTTAATTATTTTCTTCGTAACTTTAGCAATAATTTTATTCTTAATTGTAATTCCTTGATTAATAATTAGAAAAAAAAGAGGTCAATCACTTAAACCATGAGGAACAAAGAGTTAGTAAAAAGAGATATTGATAGTTTATATGTTCACATTCCATTTTGTGAACATATTTGCTTTTATTGTGATTTTGTAAAAGTAAAAAAACCAAAAGATCCAATAGTAATTGATAAATATTTGAATATTTTAGAAAAAGAACTAGTTGATTATAAAAATAGATTAGAAAGTATAAAAAGTATTTACATTGGTGGAGGAACTCCTAGCTGTCTTGATAATGAACAAACTAAGAGAATGTGTAAAATTCTTAATAAGTATGTAAATGAAAAAAATGTTGAATTTTCTATTGAATTAAATCCAGAATCAGTAACTGAGGAAAAATTAAAAATTTATAAAAGTTATAATATAAATAGATTGAGTATTGGTGTACAAACTTTTGATAATAATTTATTAAAAAAAATTGGTAGAATTCATGATAATTCAATAGCCCTAAATGCTTTTAAATTAGCTAGAAAAGTTGGTTTTAAAAATATAAGTATAGATTTAATGTACAATTTGTATGATCAAACAAAAGAAAATATTTTAGTTGATTTAGAGTATATTAATAAACTAAAACCAGATCATATTTCTTGATATTCATTGATAATGAAGGAAAAATCAGTTTGAGGACGTAAAAATATGAAAGTTCCTGAAAACGATGAATTATTTGATGATATTGTAAATGATGGTTTGGAAAAGTTGGGCTATATTCGCTATGAAATATCAAATTATGCCAAAAAATTAGAAACTAAATCCATTCATAATATTTCATATTGAAATAATTCATTATTTGCAGGAGTTGGAATTGGTGCAACAGGTTTCGAAATGATTGATAATAAGTATTTTTTAACAAGAAATGAAGGAAATATATTAAATTATAAAAAAGAATTTGAAGAATTATCAATAGAAGAATATTATTTTCAAGTTATTATGATGAGTCTTAGATTAGTAAATGGATTAAACCTGTTAGAAGAAAAAAATAAAGAAATTTTTATTTTTTTTAAAGAAAAAATAAATTTAAAAATAAGTCAAAATTTATTAGAAATAGTGGATAATCATCTTAAATGTACAAAGAGAGGTTTTAATATCCTAAATGAGATATTAATTGATTTTTTATAAAATGAAAAAAGCATTAATTGTTGTAGACTATCAATATGATTTTGCAGATCCAAAAGGTACTTTATATGTACCAAATGGAGAAACTTTAAAAAAAGGAATTCAAAAGAAAATTATTGAGTATAAGAATAATAATAATTTTGTAATATTTTCTGGAGATTTTCATCCTAAAAATCATGTTTCATTTAAAGTTTGACCAGAACATTGTTTAATAGATTCAAAAGGTTGTTCTTTTTATATAGATTCTTCAAAAGCAGATTTAATTATAAAAAAAGGGTCAGAAAAAAATTATGATAGCTATTCAGCATTTTATATTGCAAAAGATTTGAATATTGAATCAGAATTAGATAGTTTTCTTAAGAGAAATAATATTAAAGAAATAGAAATTTGCGGATTAGCCCTTGATGTTTGCGTTAAAGATACATATGAAGATGCAAAAAATAAAAAATATAATGTAAAAGTCAATTTAGATCTTTCAAAATCTATTGACCAAAATTTTATTTTAGAAAATTAAGAATATTTAACTTTCTATTTTTTTAATCGATAGTAAAAGTGGAGGAAAAAAATGGAAAGTAAAAAAATACTTACACAAGATGATAATCTTATATTTCTAAAATTTATTAATGAAACAGGGATTATTAATTTAAAAGAATATATTTACAATTTTTTAAATGAAAAACCAACTAAAATAAAAGAAAAATATAGTTTCTTAATAAGTGAGGCAATTAAAAAAATTGTTTTAAAAAGGTTGTTTCAGAAATAGAAATTGATTTTAATAATAAGTTTATATTATATAAATTAATTGAATTTATATAATATAATACAAACTTCTTTTTTTCAAAAAATTTTAAAAATTCTGAAAGCTTAAAAATATTATTAAATGTCTTTATTATTAAGCAAGTATTTTTAAATCAATTAAGATATAATCCTGAAATTTGATTTAATTTATCAAAAACTCAAAAGAAAAAAAATAATTCTAAAAAAAGAATAGGTAAGTTAATTACATGATGAGTTTATTAATAGTTGATTTTTCTATATTTGAAAAATCAACATTAATATTTTCAAATGAACAAAAAGAAATTTTATCTTTGATATTAAAATCTGAAAATATTGAGGATTTTATGGAATTAAAAAAATACTTAAAAATAAATGTTTTTAAATATTTACCACTAAGAATTATGTTATTACAAAGAGAAATTATCAAACAAAAAAACAAATTATCTGTTAGAGAAAATTCAAAAATTACTTATAATACTTTTATGTAAATGATAAGTTTATTTGTAGTTAATAATTTAACTAAACAAAATTTGCATTAAAAAGCACTTTTAAAGTGCTTTTTAATTTTTTTAAAAAAATAGCACTTAGGTGTTGACTTTGCTAAAACTATAGGTAATATATTATTGATTAGCAATTAATTAGATAGAGTGCTAATTATAGGGAGGAATAAATATGGATTTTTTACAAAAACCAGATCCTTTAAATGATCCAGAGATTTTAAGTAAATATACTAGAGATCTTACATTGGATGCAAAAGAAGGAAAAATTGATCCAATCATTGGACGTGATGATGAAATAATGAGAGTAATAAGAATTTTAAGTAGAAAAACCAAAAATAATCCTGTTTTAATTGGTGAACCAGGAGTAGGTAAGACTGCAATTGCAGAAGGTCTTGCACAAAGAATAAATAAAGGCGATGTTCCCAGTGTTTTAAAAAATAAAAAAATTTTAGAACTAGATATGGGTAGTGTTATGGCTGGAGCTAGTTTTTTAGGTGATTACGAAGCAAGAATTAAAGGAATTATTAATGCAATTCAAAAAGAAAATGGGGAAATTATCCTATTTATTGATGAATTACATTTAATTGTTGGTGCTGGAAAAACAGGAAATGGTGGAGGAATGGATGTTTCAAATTTACTAAAACCTGCTCTAGCGAGAGGTGGAATTAAAGTAATTGGGGCAACAACTTTAAAAGAATATAGAGAGTATATTGAAAAAGATGCTGCTTTGGAGAGAAGATTTCAAAAAGTTTATGTTTCAGAACCAACTATTGATGAAACCATTTCAATTTTAAGAGGTTTAAAAGAGAGATTTGAAACTTATCACGGAGTTAGAATTCATGATAATGCTCTTGTTGCAGCAGCTCAATTAAGTGATAGATATATTTCAGATAGATTTTTACCAGATAAAGCTATTGATTTAGTGGATGAAGCAAGTGCAACAATTAAAACAGAACTTGCTTCTGTTCCAACGGAGTTATATCAAATTGATAGAAAAGTTATGCAACTTGAAATTGAGAGAGCTGCTCTTTCACAAGAAAAAGATGATAAATCAAAAGAAAAACTTCAAATTTGTGAAAAAGAATTAGTTAGTTTTAAAATAAAACAAAAAGAACTTAATGATAAGTGAGATGAAGAAAAGACACTTTTATCAAAAATAAATCAATTTAGATCAACAATTGATGGCTTGAAAATTGAATTAGAGCAAGCACAAAATGAAGGAAATTATCAAAGGGCTGGGGAAATTCAATATTCTTTGCTTCCTGCATTAGAGAAAAAATTGAATAATGCTTTGAGTGAAAACGCAGAGAAATTAATATCTGAAGAGGTAAGTGAAAATGAAATTGCATCAATTATTGCAAAGTGAACAGGGATTCAAATAGAAAATTTAATGGAATCAGAAATTCAAAAATTACTTGGATTGAGCACTACCTTAAAAAGAATGGTAAAGGGACAAAATGAAGCAATTGAGTTAGTTGCTGATGCAATAATGAGGAGCCGTAGTGGAATAAAAGACCCAAGTAAACCAATAGGTAGTTTTCTATTTTTAGGACCAACAGGAGTTGGTAAAACTGAAGTAGCAAAATCATTAGCAAAAAATTTATTTGGAAGTGAGAAAAAAATGATTAGGTTTGATATGTCTGAATATATGGAAAAACATTCAGTTTCAAAACTAATTGGTTCTCCACCAGGTTATGTTGGTTATGAAGAAGGGGGAAGATTAACTGAAGCAATTCGTCGTGCTCCCTATTCAATTATTCTATTTGATGAGGTGGAAAAAGCTCACCCAGATGTTTTTAATATTTTTTTACAAATATTTGATGACGGAAGAATTACAGATTCATTAGGTAAAACAGTTGATTTTAAAAATACCATTATTATAATGACTTCAAATATTGGTTCAGAGTACTTAATGTCAACTCCATCAGAATTAATTAATCAAGAAGTAATTGATGAACAATTAAAAAAATTTTTTAGACCAGAATTTTTAAATAGAATTGATAATATTATTAACTTTAATCCATTATCAAAAGACAATATAAAAGAAATTATTGTAAAAACTTTAAATGAATTAAAAGAAAGAGTTTTTGAAAAAAATGAATTTATTATTAATTTCACAAATCAAACAATTAAAAAAATTTTAGATGAAGGATTTAGTAAGGAATATGGTGCAAGACCAATAAAAAGATATATTGAAAAAAATATAGAGACTTTAATTGCTAGAGCAATTGTGGCAGAAGATATTGAACCAAAAAGAAATTATGTTATTGATGTCGAAAATGATATTTTTAGAATAACTAATTCAAATAAATTAAATTAGCACTTGATTAATAAGAGTGCTATTGGTAAACTAAAAATGAGTTGTCAATGGAGGTATTTAATGTTAACAAATCGACAAGAATTAATTTTACAAGCAATTATTGAAGAATACATTAAAACGGCTTTTCCTATTGGTTCAAAAAGAATACAAGAGGTATTAGAAATAGAAATATCTTCAGCAACAATTAGAAATGAATCTGCTTTTTTAGAAGAACAAGGTTTTTTAGAAAAAGCTCATACTTCTTCAGGTAAGGTTCCTTCAACAAAAGGTTATAGATATTATGTTGATAATTTAATGAAGTCAAATAATATTGATGATATTAAATTACAAATAGAAGAAATTTTTAAAAAAAGGGGTGCAAGTATTGATGAAATTTTGGAACAAACTTCAGTAATTTTAAGTGAAATGACTAAATTAGCAACAATTGTTGCAACTTCTAATGAATTAGAAGAACTTCTTTTGTCAAAAGTTGAATTAGTTCCAATTTCAAATCAAAAGGCAATTATTTTATTTGTACTTTCAAATGGACAAATTCAAAATAAAACAATTAGTTTGGACAAAATTTCATTAGAGGAATTAAGAATATCAATAGATTTATTTAATGAAAGATTAATTAATTCTAAAATTTCAGAAATTGAGACAAAGTCACAAGTAATTATTCCTATTTTGAAGCAACAAGTTAAAAAATATGAATTTATTCTACAAACCCTAGTAAATGCTTTATTGCATACAGATTCAAATAAATCTAAAACAAGGGGTGTAAAATATTTACTTGAAAATCCAGAATTTAATGATCCGTTAAAAATAAAAAAAGTTATTGAATTTATTGAAAATGCTTCACCATTTTCGTGATTTAATTATCAAAGCAAAACTGAAAATAAAGCAGCTGTTGCTATTGGATTTGAAACAGGAATTGCAAATGATGATATAGCAGTTATTGGAACAAAATTCCCCACAAAAGGTGGGGGAAAAGGTGCACTTGCACTAGTTGGGCCTAAGAGAATTGAATATGATAAAGTTTCAAAACTTTTAGAATGAATCTCAGAAAAAATTGAGGAAAAATTTTCAATAGAAGGAGAATAAAATGGATAAAAAAGAAAAAAAAATTATTTTTGATTTATTAGACGATATAAAAATAAATTTAAATATTGATTTAAAATCTGATGATAAAGATAAGAAGCTAAAAAAGGATAAAAAAAATGAAGATGAAATTGAAATAGACATTGAAAAAAAAGAATTATCAAGTGTTGAAAAACTTGAATTGGAAATTGCAAATTTAATGAATGAAATTTCAAAATTAGAGGAAGCAAAATTAATGGCTATTGCAGATAATCAAAATACTGTAAGAAGATTTCAAAATGAGACCATGCTTATCAAAAAATATGGTGGGGAAAAATTAGCAATTGAATTATTACCAGCAATTGATATGTTTAGAACTGTTTTAAAATCTTCTCCAGATAATCCTGAAATTAAAAATTATTTAATGGGATTTGAAATGATTATTAGTCAAATTGATCAAGCATTATCAAATTCTGGAATACAAATAATTGAAGTAAAATCTGGAGATGAGTTCAACCCAGAACTTCATACAGCAATTGAACAAATTGAAACAGAAGAGTTTGAATCAGGTAAAATTACTTCTGTAGTATCAAATGGATATAAATTACATGATAGAGTGATAAAACATGCAGCTGTAAAAGTTGCTAAATAAAGTAAAAGGAGATTAAAAATATGGCAAAAGAAAAAATTATAGGAATAGATTTAGGTACAACAAACTCATGTGTGGCTGTAATGGAAGGGGGACAACCAATGGTTCTTGAAAATCCAGAAGGACAAAGAACAACTCCATCAGTTGTTGCTTTCAAGAATAGTGACATTATTATTGGAGGGGCTGCAAAAAGACAAGCAGTTACAAATCCAAATACTGCAATATCAATAAAGCGTGATATGGGAACATCAAAAAAGGTAAATCTAGAAGGAAAAGATTATACACCTGAACAAATATCTGCAGAAATATTGAGATATTTAAAAAAATATGCTGAAGATAAAATTGGTTCAAAAATAACAAAGGCTGTTATTACAGTACCTGCATATTTTAACGATTCACAACGTAAAGCTACAAAAGATGCAGGTAAAATTGCAGGTTTAGAAGTAGAAAGAATTATTAATGAACCAACTGCAGCTGCATTGGCATATGGAATTGATAAACAAGATAAAGAAATGAAAGTTTTAGTATATGACTTGGGAGGAGGAACATTTGACGTTTCATTACTAGAATTAGCTGATGGAACTTATGATGTTTTGGCAACATCTGGGGATAATGAACTTGGTGGAGATGATTTTGATAAAAAAATTATGGATTGAATAGCTGCAGGAATTAAAAAAGAGCATTCAATTGATTTATCAAATGACAAAATGGCATTACAAAGATTTAAAGATGAAGCAGAAAAAGCAAAAATTAATTTATCAAGTCAATTAGAAACAGAAATTAACTTACCATTTATTGCAATGAATCAAAATGGACCAGTTAACTTTTCAACTAAATTATCACGTGCTGAATTTGAAAAAATGACAAAGGATTTAGTTGAAAGAACTAGAAAACCAGTTGAAGATGCATTAAAAGAAGCAAAATTAAAAGCAATTGAAATTGATCAAGTATTATTAGTTGGTGGTTCAACAAGAATTCCAGCTGTTAAAGAATTAGTAACATCATTATTAGGAAAAGAACCAAATAGAACTATAAACCCTGATGAAGTTGTTGCAATGGGAGCTGCTATTCAAGGTGGAGTTTTAGCAGGTGATGTTACAGATGTACTTTTATTAGATGTAACTCCATTAACTTTAGGTATTGAAACAATGGGGGGTGTTATGACACCTTTAATTCAAAGAAATACAACAATTCCAACTGAAAAAGCTCAAGTTTTTTCAACAGCTGTAGATAATCAACCAGCAGTTGACATTAATGTTTTACAAGGTGAAAGACCCATGGCAGGAGATAATAAATCACTTGGTCAATTTCAATTAACTGGAATAAAACCTGCTCCAAAAGGAGTTCCACAAATAGAAGTAACTTTTAAAATTGATGTTAACGGTATTGTTTCTGTTACGGCAAAAGATAAAGATACAAATGAAGAAAAAACAATTACAATTTCTAATTCTGGAAGTTTGAGTGAATCAGAAATTGAAAGAATGGTTAAAGAAGCCGAAGAGAATCAAGAAGCAGATAATAAAAAACGTAAAAACATTGAATTAAAAAATAAAGCAGAAAGTTATTTAAACATTATTGAAGATTCTTCAAAGGATTCTGGTGCTCAAATGACTGATGAACAGAAAAAACAATCTGAAGATCTTGCAAAAGAAATTAGAGAATTAATTGCAAAAGAAGATTATGATACTCTAGATAAAAAAATGACTGAACTTGAACAAGCAATGAAAATGGCATCAGAAATGGCTGCGGCTCAAGCACAACAAACTCAAGAAGCTAAACCAGAAGAAAATAAAGATCAAAGTCAAGAAGAAAATAAATAATTATAAAACAAATTATATTTGTTTTATTTTTTACAAATAGATAAAGAGGTATATTATGGCTAAAAAGCGTGATTATTATGAAATATTGGAAGTAGCAAAATCTGCAACCGAAGATGAAATAAAAAAAGCTTATCGTAAATTAGCTAAAAAATATCATCCAGATATTTCAAAAGAACATGATGCTGAAGAGAAATTTAAAGAAGCAACAGAAGCAGCCGAAGTTTTATTAGATAAAAATAAAAGACAAACTTATGATCAATTTGGTCATGATGGTCTAAATGGCATGGGAGCTGGTTTTGGAGGATTTGGAGGTTCTGGATCTGAATTTAGTGATTTCTTTTCAAATATGGGAGGAGCTTCAGATTTCTTTTCAGATATTTTTTCAAGCTTCTTTGGTGGTTCAAGAACTTCATCACGCGAAAATAGAAGAGGAACTTCAAGAGGTAGAGATATTGTAATTGAAGTAATTCTAGAACTTAAAGAATTATTGTTTGGAATTGACAAAGAAGTAAAACTTGATTTAATTTCAAAATGTGATGATTGTAATGGAATAGGTGTTAAATCTAAGGCAGATATAATGGAATGTGATGTTTGTCATGGTATGGGTAAAGTTTTTGTAATTCAAGATATGGGAATTGCAAAGTTTCAAACTGAGAAAATATGTCCAAAATGTAAAGGCATTGGAGAAATTACTTTAAACCCATGTAAAATTTGTCGTGGTGATGGAACAACTCTGAAAAAAGAAACAATAGTAATGCCAATACCAAAAGGTCTAATTCCAGGTCAACAAATTGTTTTAAGAAATGTTGGTAACTATTCTAAGGATGGAGGAGAAAAGGGACATTTATATGCAAATATAAATTTAAAAGCTTCAAAAAATCTTAAAATAGTTAATGAATATGATATAAAATTTAAATTTAATTTAAATTACATTGATGCTCTACTCTCAAATGAAATTTCAATTGATACATTGGATGGAGTTATTAATGTAAAAATTCCAAAAGGTATAAAAAATGGGGACTTAATTACTGTGAAAAATCATGGTTTATATAAAGGAGTTAAATCTTCACATAGAGGAAATTTATTATTAGAAGTAAATATAGTTCTTCCAAATGAAGTATCAAAATCTGAAAAAATTTCATTAGAATTGATTCAAAAAGATAGTAATTTTAAAGTTAATAATAATCTTAAAGAATAATTTAGATTTATTATTGAAATTAGAAAGCCCATATTTTTATGGGTTTTTTTAAATAAATTACAACCTTAAAATAAACTTAGTATTTATTAATTCTTTTAATAAATGTATAATTTAAAGGGGTGTAGTTATGGCAGATAAAATAAAAATAATTAAAATCAAAAAAGCATTTTCATCTGAAGATGAAAATAGTAAAAATTCAGATAAAACAAAATTTTGATTTGAAGATGATGTAAATTCAATTTCAACTGACTTTGATAAAACAATAAAAATTGAAAAAAAAAGCTTATCAAAAATTAGTCTTGTCCAAAATGCAAACTCCCATTTTTTTAGACCAGAATTTAGCTCAGATTTCAGTTTTAAAAAAAGTGATATTGAAAACTCAAAATTTGACTCTTTAAATATTTTGGATGGATTTAAAAATAAAAAACCTTCAAGTATTCGTGAAGAAATTTTAATTTTGCGAAGACAAAGTTATAAAAATGAGCAAATTGAAAAAGAAAAATTATTGGAAAAATTAAATGTGGATTTAAATTTTAAAGATAATTTTAAAAACTATAATTTAGTTGAACAAAATTCTGAATTTATAATTAATAGCAATGATAGCAATGATAGCAATGATAGCAATGATAGCAATGATAGCAATGATAGCAATGATAGCAATAGTAATACCAATAGCAGTTTAAAAACTTCATTTGAACCTAAGCAGTACCCTTTTATTGACCCAAATAACTTATTTTTAACAAAAAAAACAAAAGTTAGTAATTTAAAATTTTTTTCCAAAAATAATTGAATTTTGTTTAATAGTTCACAGCAAAAAAATGAGAATTCTACTAAAATAAATTTGAATGAAGAGAAAGAAGTCTTTTCATCAACAAATAGTAGATTCATGCCTGAGGAAAAACAAAAATTTTTAGAAAAAACTAAAACTGAAACAACTTTTTTAAATAATTTAGAAAGTAAAAATATGGAAAAAATTATTCCTAATAGGCTTAAAGAACAAACTGAACAAAATCAAGCAGAAAATAAGAAAAATATTGATATAAATTTTAATAAAAAACCTATTGAAAAAGAAATGAATTTAAATGAATTAAATAATTTTTTAGATAATTCTCATAATTTATCTTTACCAGTAATTAATGATTTTAATTACACAGTTGCAAATATGACAGATGATTTGCAAAGAGCAATAAATAAACTTGAAGAAAGCAGTGAAAAAATTAGGGAGCGAGAACGTTTTTTTGAACAAAAAAACAATACAACACAATTAATAAATAATCTTGTTCAAGACGCAAAAAAAATTCAAAATCATCAGGTGGATCCTTCAAATTTTGATGACTTTGAAAGTTGACTTGAAAAACCAAAGATGACAAAAAAAATGCAAAAATTAGCTAAAAAAGAACAAAAAAATATTAAAAAACAAAAAAAGAAATAAGAGGAGAAACTATGAAAAAACAAAAAGTAATAGTTGGATTAAGTGGAGGAGTCGACTCTTCTGTTGCTGCTGCAATTCTTCTTGAACAGGGTTACGAAGTAGAAGGTCTTTTTATGAGAAATTGAGATAGTAATTTAAATAATGATATATTGGGAAATAATCTAAATACAAGTATTTGTCCTCAAGAACAAGACTTTTTAGACGCTCAAAATGTTGCAAATAAGTTAAAAATAAAACTTCATAGAGTAGATTTTATAAAAGAATATTGAGACTATGTATTTGATTATTTTGTAACAGAATATAAAAAAGGAAGAACACCAAACCCTGATATTTTATGTAATAAATATATAAAGTTTAATAAATTTTTAAATTATTGTATTGACCAATTGGGTGCAGATTTTATTGCAATGGGTCATTATGCTGGAGTTAATTATAATAATGAACAAAAATATTATGAATTACTAAAAGGTTTTGATGAAAATAAAGATCAAAGCTATTTTCTTTGTCAATTAAATCAGAAACAATTATCAAAAACAATTTTTCCTCTTCATAAATTTAAAAAAGATGAAATTAGAAAAATTGCAAAAAAATATAATTTAATAACTGCAGATAAAAAAGATTCTACTGGTATTTGTTTTATTGGTGAGAGAAATTTTACAGAATTTCTACAAAATTATATTCCAAATAAGCCAGGAGATATAATTGATATTAAAACAGGAAAAAAAATAGGAACTCATATTGGTGTTATGTATTATACAATTGGTCAAAGAAAGGGTTTAAATCTTGGTGGTCAAAAAGAACCCTACTATGTTGCTTTAAAAGATGTAGATAAAAAAATTATTTATGTTTCACCATTAAGTGATACAAAGTACTTGGAGTCCAAAAAATGTATTGTTTCTAATTTTAATTTTATTCTAGATTATAAAAAAATCTTTAATTCAGAAAAATTTAATTGTAAAGCAAAATTTAGATATCGTCAAAAAGATATTAATGTTTCAGTTATAGTACTTGAAAAAGATAAAATTGAAATAATTTATAATGAACCAGTAAGAGCAGTTACTGAAGGGCAAGAAGCAGTTTTATATTTAAATAATATTTGTATTGGTGGGGGAACAATTGAGCAAGTTAAAATATAGTTGTTTTTAATTTAGTAAATAATGTAAAATCAAATTAGAAAAAAGAGGGATACAATATGACATCGATTGTTATTGGAGTAGTAGTTGTTATAGTTTTAATCTTTGTTATTGTTTCATCAATTACAAGTAAAAAAGCTCAAAAAGTTGAACAACAAAAAAGAAAAAAAGTTGTTAAAGAAGAAATAAAAAATTATTTATCAAAATCACAAAATATAAAAAATGTTAAATTAGAATATGAAAAGGTATATGCGAGAAAAGGTGTTGAATATAAGTATAGAGACGTTTTTGATGTTGTTGTTCAAATATTTGAAGCAAAAACCAATAAATTAATTACAACAACTGCATATGAAGTTGAAGGTATTACTACAAAAACTGCAAAAAACAGTTATACTACTGCTTGACAAGTTAATGATGAATTAAATTTGGATGAAACAAAAAAAAGAATTGCTATTGCTGAAAAAAAAATTAAATTAACAAGACAAGAAAAAATTGTTTTGAAAAAAGAAGAAAAAATAAAAGCGTTGGATCACAAAAATCAAGTAAAACAGGAGTTAAAAGTTTTAAAAGAAGAAAAGAAGGAACAAAAAAAGGAAATCAATTCTTCTGTTGAAATTGATAAAGCAATAAAATCAACAACTGTAAAATTTATTCCAAGAAGAAATAAATAATTAAAACATATTTATTAAAATATGTTTTTTGCTTATATTATAAATAGAGGTTATTTTATGAATAAAGAAATGTTAGCTGTTACAAAAGAAGATTTTAAAAGATATTTAACAGAATGTCCAAAAATAGCGTGAATTTTTCATAGTTTTGAAAATTTTCAAAAAACAGTTCAACTAAAAAAACAAAAGAAAATTGAAATACATTATAAAACCCCAACTGATAATGAAGATGATTATAATAGTTCTGCTGGTTTTGAAGTATTTGAATTATATTTTGATTTGTTAAATAAAAATGAAAATGAATTAGATGAAAACCAAATTATTCAGAGAGAAATTCTTAAAAAACAATTGAATGATACTAATGGTTTTGAAATTATAGGAATACCAGCAGAAACTATCGTTGATGGGAATGAAGTGGGTCTTGCAGCAAGAGAGTATTTCATTGAGAAATTATATAAAGAAAACCTAAAAAACAAAACTAATTATAAATATTTTGATTTAAGTAATTTAAATTATGAAGAGTCGATTGAAAAAACTAAGGAATTATTAAAAGATTTAAATTATAAATATTTATTTGAACCAACTTTTGAATTTATGAACTCCAAACTAAAAATTAGATGTGATGTTTTAATAAATCACGGTAATAATAGAATTGAGATTATTGAATTTAAAGCTTCTACTTCTTCAAAAGTTGTTCATTTTTTTGACGTTTTTTATCAAAAAAAAGTATTGGAAAAAAATAATTATATAATTGACGATATAAAAATTGGTTTAATCGAAAAAAATTACCTTAGAGGAGTAGGAATAATTTCAGAAAGAGATCACTTTGAAGTAATAGAAGAAGATATTAGTTTTGAAAATGATATTAAACTTTTTATTGAAAAATTGGTTTTACCAAATTTAGGGGAAAGCGATTTAAATTATAACCAATTAATAAAAATTACAAATCAATTAGAAAATACAGTAACAAAACCAAATTTATTAGACTTAATAAATAAATTTGAGGAAAGTGGATTTGATTTTGATGAAATTATAATAGAAATTTCAAATTCATTTAAGGATGATGAATTTCTATTTAAAAGATATTGCAAAAAATTTCATTTAAAATATAAAGCATCTCAAATTATTGAAGAAACACCTTTTTGTAAAACAACTGTTCCATATTATGATAAAAAAGAATTTAATTTGTATGAATTAACTAGATTTAAAAAAGAAGCTACTATTATAAATAATCTTTTTGAAAAACAACAAGAAATTTATATTAAAAATTTACAGGATTTAGATGATAGTAAATATATATATATGAATAAAAATATATTTGGAGCTGATCAAAAAAGAATTATTAAAGTAGTAAAAAAATATTTGGAAACTGGAATTAATGTTCCTGCAAATTTAATAAAAGAAGAAGGTTATGATAGACTATTAAATTTATTAAAAGATTATTACAAATTTCCAGTTTATATGTATGATTTTGAAACAGTTAAGTGAGCTATTCCAAAGTATGACAATTCATGAAGTTATGAACAAATTCCATTTCAATATTCAATACACGTAATTGAAGATGAAAAATTTGATTTTAATAATTCTGATTTAACTATGAAGCATATGAATTTTATTGCAAACAAACAAGAAGACCCAAGACCTGAATTTCTAGTTAATTTTGTAAGAGATTGTTTTAAGTATGGACCTGGAATTTATGTTGCTTATAATAAATCTTTTGAGAAAATGGTTTTAAAAAATTTAATATTTTTATATCCAGAATTTGAAAAACCATTAAAGTATATTTATCAAAATACAATTGATTTAATGAATTTCTTTAAAAAATCAAAAGATAACTGATTAATATATCATCCTGATTTTCGTGGTTCATATTCTATAAAAAAAACACAACCAGCTTTAGATAATAGATTAAATTATAAAGATCTAAAAATAAATAAGGGAGATAAGGCTAGTCAAACTTTTAGACAATTTTTAGATGAAGTAATTTCTATAGAAGAGTATCAAATAATTTTAAAAGAAGATATGTTAAAATATTGTGATAGAGACACACTTGCTATGGTTGTTGTTTTACAAAAAATAATTGAATTAGTAACTCAGTATGATTGTAATTTTAAAGAGAAAATTGACAGGTTATTAAGGGAGGAGGAAAATGATGTATAAAATTATATATTGTGGAACCCCTGACATTTCTGTAGAAATTCTCAAAGGTCTGGAAAAACTTAATTTAAACATAGTGGGTGTTATAACTCAACCAGATAAAGCAATTGGAAGAAAAAGAGAAGTAATTTTTTCTCCTATAAAACAATATTGTTTATTAAAAGGTTATAAAATTTTTCAACCTAATAAAATTTTAACAATTTTAGATGAATTAAAAAAATTAAATCCTGATTTTTTAGTAACATGTGCCTATGGTCAATTTATACCACAAAATATTTTGGATTTATTTAAAAATGCTATTAATGTTCATGCAAGTTTATTACCTAAATATAGAGGAGGAAGCCCAATTCAATTTGCATTAATAAATGGAGAGAAGAAAACAGGTATTTCTTTAATGAAAATGATAAAAAAAATGGATGCAGGAGAAATATATTTTCAAGATGAAATTGAAATATTTGATGAAGATGATTCAGGAACACTATTTAATAAATTAGCGATTTTTGGAAGAAAAGCTGTTGAAAAATATTTAATAAATATTTTTGAAAAAAAAATTTTGGGAAGTAGTCAAAATGAGGAAAAAGTAACTTTTGCATATAATTTATCAAGTGATCAAGAAAAAATTGATTGATCAAAATCTGCATATGAAATTAATAATTTTATAAGAGCATTAAGTCCTTCTCCAGTTGCATTTTCTTTTTTAGAAAAAGAAAGAATTAAAATCAAAAAAACAAGATTAATTAGTGTGGACGAAAAAATTACAACTTTGGATAAAATTTTTGAACCTGGTGAAATAATTTTTTTAGATAATGAAGGCATAGTTGTATATACAAAAAATGGACTTCTAAAAATACTTGAATTACAAAGAGAAGGCAAAAAAATGGTTAGGGCAGGAACTTTTAATGGACAAAATTCAATTGTAAAAGTTGGCTCAAAATTTAGATAAATTAGAAAAATGTAGAATTTTAGTTATAATTTATTTAGTAACTAATAAGGAGAATAATTATGTCAGTAAATGATTTAAGACCAGGAAGTACATTTCTTTATGAAGGAAATATTTTTGTAGTTTTGGAGAATTCTTTTTCTAAAACAGGAAGACAACAAGGAAAAGTAACAGTTAAAGTTAAAAATTTAAGAACTGGGGCAAGAGTAGAAATTACTTTTACAGGTGGGGAAAAAGTAGATAAAGCATTAATTGAAAAAAAAGATATTCAATATTTATACAATGATGGAACAAATTGTGTGTTAATGAATACGGAGACATACGAACAAGTTGAAATTAGTTCTGCAAAGTTAGAATGAGAATTGAATTTTTTAACTGATGGTGTTATGGTAAAAATGACAGAATATGATGGAGAAATTTTAGGTATTTCAATTCCTGAAAAAATTGAATTAACAATAATTGAAGCTGAACCAGCAGTAAAAGGTGATACAACAAGTGGCGCACAAAAAAAAGCTAAAGTCCAAACTGGCTTTGAAATTACTGTTCCATTATTTATAAAAGAGGGAGAAAAAGTTTTAATTAATACAAATGATGGTAAATATTCAGGTAGAGCAAATTAGTTAAACGAATTGAGGAAAGAAAAATGTATATTTCTATGGAAAGAAATTCTAGAGGCAATCTAGAAATTGAAGAACAAATATTAAATAAAATTATTGAGTTTTATGTTATTAACAATATAAAAGGTTTTGAAAAGATAGAACCTTTAATAACTTTACATCAAGAAAATCATATATTTATTACAATTAAAATTTATGTTAAAAAAAGAGATAAATTAGTAATTGATGAAGTTAAATTAAGTGAAATAATTTCAAATTCAATTGAAAATACTTTAAATTTAAAACCAAAAAATATTGCTTTTGCCTTTATAAAATAAAGGCTTTTTTTTCAAAAAATAAATTTTAAAGTATTTTAAATTTTAAAGTTTTTACTTGGTATAATAACCTTTAAATAATGACTAAAATAGTGTATAATAATTTTGTCTTAAATTAGGAGGAAATTTGGTATGGCAGCACAAAAAAAAGTTAATAATTCCAAAGAAAAATCTAAATCTATAACATTGACAAAACCTGGTACAGAATATGTTTTTCAGAAATTTAGTCCAAAAGCTTTAGCATTAATTAATAAATATAATTTACAAACAGATGATAGTTATAAAAAACTTATTTCATCTTTTGAAAGAATTGAGTCATTACCAAAAGATGATCCAAGAAGACCAAATCTTGTTGAATTATGAGAAGGCGAATTTAATAGAATTTTTAAACATTTTTGAGAAAATTTTTCTTCAGTACAAAGAGTTTCTGAAACAGGAATTGCTGGTTGAAAAGATAGACTAGATGTAAAGCCAATTTCTATGTCTCCAGATCAAAAAAGAAAAGATTTGATGTCGAGATTATCTCCAAATGGAATTTCTGTTAATAGAACTACTAAAGAGCAAATTTTAACAAAGGCTGGTTATCAACAAAATATAAAAACTGATCAATTTAATTTTACTGCAATGCCAAAAACAGGACAAAATATTTTTGAAATTGAAAATATTTTAAGTTCTTCTGATAATAAAGAATTTGGTGAACCAGAAAGTATTCTAAGTAATAATTATGCAGTTTCTAATGGAAATAAAGATATTAATTTATCTCAAGAAGAAATTAATAATATTGATCAATTGGTTTCAAATTTAGAAATTGATGAAGAAACAGAATTAATGACTTCAGAACCAGTAAGAGATCCAGGTCTTTTAGAATTTGTAAGCGATGGAAAAATTGTTAGTTCAAATGAAGAACAAATTACAAATAATGAGAATAAAGAACTAAATAGTTATTCTAAAGAATATATTGTAAATGAAAAAATGAAAAGAGATGAATTTAACAGAACTAATAACATTGAAATTAATGAAGAACAACTTGAAGAAGAAAATTATGCTTTTTTAGAGTTAGGTACTGATTTTTTTCAAGAATATATTGGAACTGAAGGATTACCTGCAAAGGAAATTACAAAAAATGGAAGTCTAAATTTTGAATATACAAAAAAAGATGAGGAAATTAATCCTGAAAAAAGAAATATTTTATCAAAAGAGGGTTTTGAAATAAATATAAATTCAGAAAAAACTGATTTAATGGGAAAACCTGCTTATAGTGTTCAGAATGGAAAAGTTGGAAGTAAGCCATTCCATGAAATTCACCCAATTGGTTACTACCCAATGAATTATGAAGCATCAAAAAGACCATCAATGCAAGATTTAATGTTATCTAATAAAAGAGAAGGTAACTCATTAGATGAAATGTCTCAAAAAATTGAATTTTTAAGAGAATTAAGAAATGAAAGACGTCATAGAATTAATATGATGAAGATTGAGCGTGCAAACAGTTATATTCTTGCACGAGCAAGAAGACTTGCAGAAAACCGTGAACTTAGAAGAATTAAAAGACGCGAAGATTTAAATTTAAAATCAATTGAAAAAGCAGAAAGAATGCGAAGATTGCAAGAGCGTCAAAAATTAATTGAGTTAATGAAAGAACGTCAATTAAAAAGAACTGAGGAAAAACGAGTTGCTACAGTTTTACGTTTAGAACGTGAAAGACGTATGGAGAGAGACGCAAAATATAGATCTGAAATAGCTCTAATTGATTCACAAATTAAACATGAACAGGAAATGATTAAGCGAACTGAATTAAAAATGAAAGCCTATTTTACAAGAGTGCATGATGATCAACTATTTGATGAATCTTTAAAAATTGCTAAAGATATTAATGAATTTAAATCATTAGAAGAAAAAGCAAATATTTTAAAATCAATTGAAGAACAAAAAAGAGCAGATAAAATTGAGAAGATTAGCAGAAAGTTTATTAAAAATATCAAATAGCATAAAGTGGGCAAGAAAATTAATATCAACTTGCCCACTTTTTTAAAAATTAAGGAAAAAATATATTTTTATGGATGAGAAGTAGGAGAATGAAATATGGCAAAAAAAATTGAAAAAAAGTCTGATATGGATTTTACTTTAATTTCAAATAAAACAAAACAACGAATTAGAGGTTTAATTGAAAAAAGATTAACCCCAAAAACAATTATTTTATTTGCTCAAGAATATGAATCATATGAAAAAGCAGTTAGAGAAGAATTAATTAAATATATTGAATTTCTTCTAAAACAAGAAGAGGAAAATTTTATTAGAGAATCTTCTTCCTATTGACAGGATCCACGCTTACAAATTATTCAGGAGAGAAAAAAAATAGAATTTACAGAAAAACAACAAAATATTAAAAAGATTCAAGATTATTTAATTTCAACAAATATAAAAAAATTTGTTGCACCACTTCCAATTAAAAATAATGAAATTAAAAAAATTGAAGTTACTCCTATTTTTAAAAGATATGAGATAGCTAACAAAATTAGTGAACAAAATAAAAAAACAAGTGATGCACCTTCAAAAGTAAATAATACTACGATTCCTACTGTGAAAAAAAATAATACAAAAGTCAAAAATAAACAAGTTAATCTGAAAAATATATCAGCAACTTCCTTAAAATCATCTTCTGTAGAACCTAAAAAAATTACAAAATCAAAACCAACTATTATAGATAATAATAAAAATAGTAAAATTGATTTTCTTTTAAAAGAGGCTCAACAAAGAGAAGCAGAAGAGATTAGAATAAAAAAAGAACAAGAAGAAAAAAATAAGCAAGCAGAAGAACAAAAAAATAAAGAGATATTGGAGCAGAATGCAATCAGGGAAAAACTTTTAAAGGAAAAACAGGAAAGTGCTAAATTAGCAAAACAAAAAAAACTTGTAAAAAAAGTAAATTCTGAAAATATAATTAAGCTTGAAAAACAAAAAAAACCAGAAATTATTATAAAACCTGTTAAATCAAAATACGAGCAAAAATTATTGGCTTCATCCTTTAAAGAATCAAATAGTCAAGGAAGAAATTATTTAAAAGAACAAGAAGAAAAAGAAAAATTATGAAAAGAACTATATGGTAAAACTAGAGAGGAAACATTAAAAGAAAGAAAAGATTCAAATATTAATATAGTTAATGAACTAAAAACTTCAAAAAAACTAGTAAATTTTGATACCGAGGAATTAACAGAATTTAAGGTTTTAAATAATACTTTTTTAATTGAAGAATACATTGATCCTAAAAGTAAATATTTTAATTTTTGAAAAAAAATGAGAAAAAAATATAAAATGTCTAATATAACTGTTTGATTAAGTTTAAATGGAAAAAAACATAAGAAAATTTTAAAAAAGAGATTAAAATTAGAAAAAAAATTAGGTAAGAAAAACATTGCCTTAAAGTCATCAAATAATACAAAAAGTGCAAGTTCACAATCTTTTAAAAAGTAAAATTTAGTTAGTAAATAAAAAGGGTAAAAAAATTTGGGTGAATGAGAAAAAATAATTTTATTAATTACATTTTTTGTATTTATTTTAATAAGCATATTATTTACAATATTAAAAGTATTTTTTTCTAAAAAGAATAAGAAAACAGTTAAACAAATTACTGAAAAAAATTATTTTATAAATGAATCACATAAAAATGAAAAATGATGAGTTTTTACAAGTGGCTTTTTCGAAAAAAAATGATTTAAAAGTCAAAATCATATTTTTAAAATTAAATATTTTAATTATAGTGAAAATTTTTCTAAGGGTTTTTTAAACTCAAGTTTTATAGAAACAAAAAAAATTTTGAAAAAATTTATTAATAGAAAAGAAATTAAAAATCTAATTCAAGACTTAAAAATTTATATAAATTGTTTGGAAAATATTTGATAAAAAAAATATAAACCTATTTTAAGAAAAATATTTTTAGAAATTTGTTAATTATCAGATTTATCGCAAAAAATTTTTTATAAAAATTACTTTAATTTTCTTTTTGAATTAAGATTTTTATTAAAAAAAGAACTTTGCAACTCTATAATTCAAAATGTAATTTTTACTTGATTTAAAAAAATGAATATTGACAACTTAAATTTTATTTTAAATTCTAATTTAAGAGAAAATATAATTGAATCATTCAAAAATGTTAGTGATAGTGCAGAAATACTTTTAGATGACCTTTGATTTAAAATAAGTAATTATAAATTTAATAGTAAATAGAAGTTGATTTTTTATATATTCAACTTTTTTTGTTAATAGATTCAATAAATAAAAGAATTTTATTAATTATTTAATATAAAATAATTAAGTTATATATAAAATATAATGTAAAGGTACAAAAAATGAAGTGTTGTAAATATATAGAATTAAATGAAAATTCCTGTTCTTGTTCAATTTTTACTAATATTTGTAAGAAGAAAATTGAATGTTGATGTTGTTTTATTGATTGATGAAAAGCACTAAATAATGATGGTTTTTCAGAAATTAATTTATTAGAAATTTCTAAGAATATGTCAAAAAATAAATATTTTCCAAAAACTTTTAGAAAAGGGTTAATTGAATTTTTAGAAAATATTGAAAATTATAAAAAACAAATTGCTGATTTAGAGAATAATTTTAAATTTTCAAATAAGGATTTTAATAATAATCCAGAAATAATTTATAATTCAATTGAAATTTCATTAATAGCAAAATTACTTTCTTTTGTTAATATTTTAGATTTATATATTGAAATTTGTAATTTATTTTTGGAAATAATGTATTTTGAAATAGTTAATCTAACTTATACAAATTTATTTAATTTTTTAGAAAATATTGATAATACAATTCCATATTTAGTTAAAATATTTTTAGGATTATCAAAAAAAATTAAAAATTCGATAGAATTTTCAACTTTAATGAATAAAATGATTAGTTTTGACAATAATTTAGTAAAATTAAGTGAGGAGTTAAACATTAAAATAGTTAATTATAAATAATTAATTTGTTATAATTAAAATTGTTATTTAAAAAGGAGAAATTTATGAAATTTAGTGCAAAAAAAATTACAGAAAAAGGTCAAGGAGTTTGAATTGTAACAATTGATGGTGAAGAATGAATAAATGCAGTTAAAAAAGGAAAAAATAAAGCTGCTTCAAATATTGAGATACCAGGTTTCAGAAAAGGAAAAGCTCCAAAAGATAAAATTGAGAAATACTTAACTCCAGTAAAATATTTAAATGCAGCAGTTCAATCTGTTATTGAACAAGCATGACAATTTGCAAGAGAACAAAAGTCTGATATTGAACCATTTAATTCACCTGTTCCAACCCCAACAAAAATTAATGAAAAATCATGTGAATTGCAATTTATTTTTGATTTAAAACCTGAAATAAAAATTGGAGATTACAAAGGTTTAAAAAATAAAGATTTGGTTAAAGAAGAAATTAAAGCAACAAGTGAAGAAATTAATAAAGCAATTGATCAATATAGAAATAGATTTGTAATGGAAAAAGAAAAACCAAATGGTTCAAAAATTGAAAAAGGTGATGTTGTAATTCTTGATTTCGAAGGTTTCATTGATGGAGTTGCTTTCAAAGGTGGGAAAGAACTTGATTTTAAATTAGTTATTGGTAGTGGACAAATGATACCTGGTTTTGAAGATTCAATGATTGGTAAAAAAGTAGGAGAAACATTTATTCAAGCAACTTTTCCTGAAGATTATATTAAGGAATTATCTGGTAAAACAGCTGAATTTAAATTAAATATAAAAGAAATTAAGGAAAGAATTTTACCAAATAAGGATGATGAATTGGTTAAAGACCTAAATTTACCGGGAATTAAAACTTTTAAAGAACTTGAAAAAAGTGTTAAAACACAAATTATAGATCAAAAATCTATTCAATTGAAAAATGAATTTGTAAATAAAGTTATTGATTTGATAAGAGAAAAATCTGTAATTGAAATTCCTCAATCAGCAATAAATAAAGAGATTGAAAATTTATACAAAGAATTTGAAGCAAAAGTTCAAAGTCAAAAAATTACTATGAAAGAATACAAAAAACAAACTGGTATGACAGATGAAGCAATAAGACTAGAATTATTTGATGATGCAAAAAAACGTATTGAAAGTTATTTAATTACAGATAAAGTTAGAAATACTGAAAAATTTGAAGTTTCAAAAGAAGAGTTAGAAGAAAAATATTTAAAATTAGCTAAGTCATTTGGTGTTGAACCCGATTATATAAGAAATTCTTTATTACCTGAAGCAAATATAAAAGAAGAGATAATAAGAGAAAAGATTATAGATTTTTTATATGTAAATAATGGATAAAATACAAAAATAATTGTATTTTTTTTATTTTTTTAGCACTTATACCTTGCAAGTGCTAAAAAATATGTTATGATAATTTTGTACCAAAGGAGGATTAAAAAATGAATACTAAAAGATTGCCAATGTTAGTTACACGAGGTAGTTATATTTATCCAACATTTGAACAAGTTCTTGAAATTGGAAGAGATAAAACTACTGTTGCTGTAAAAGAAGCAGTTGAAAAATATAAAGGAAATATTTTAATTATTTCTCAAAAAAAACCGCTAGAAGATGAACCAAAAATTGATGAATTATTTTTATTTGGTGTTCTAGCAGAAGTTAAAATAAAAAAAGAGTGAAAAGATGGTACATTAACTGTAAATATAAAATCACTTACACGTGCTGAAATTAAAAATGTCGAATTAGGTGATTTTTATTCAGCAGAATATATAGAAAAAGAAAATCTTAAAACAAATGATAAAGAAGCATTAACTAAAATTACAAAATATATTAAAGCAATGATTTCATCACAAGATGAATTTCCCTCAGAAATTGATGAAATTATAAAATCTGCATCAGTTGATGCTGACCCTAATTTTATTGTTGATAGTGCAGCACATTTAATGCCGTTTATGCCTATTGATAAAAAACAATTAATTTTAGAAGAATTAGACCCTGTTAAAAGAATTGAGATAATAAATGAATTTTTAGATGAAAAACGCCAATCAGCTGATATCGAATCATCAATTAGCAAGAAAATTAAATCAAAAGTTGATGAACAACAAAGAGAGTTTTATTTAAGAGAAAAACTAAAGGCTATTAAAGAAGAATTAGGTGACATGGATGGTGAAGGAGATGATCTTAAAAAATATAGAACTCGTCTTGAAAATGAACCCTTTCCAGAAAATATCAAAAAAAGAATTTTGCAAGAAATTGATAAATGTGAAGCTCTTCCTGCAGCATCTTCTGAAGCAAATATTATAAGAACTTATATTGATTGAATGATGCAAACACCATGATGGCAGGCAACAGAAGAAAAAACTAATTTAAAATTTGCAAAAGAAATTTTAGATAAACATCATTATGGATTAGAAAAAGTTAAAGAAAGAATTATTGAATATCTTGCTGTAAAACAAAATACAAACAAAGTTAAAGGTCAAATAATTACTTTAGTTGGTCCTCCAGGAGTAGGAAAAACAAGTCTTGGTAAATCAATTGCAGAAGCAATGGGAAGAGAATTTGTAAAAATGGCTCTTGGTGGAATTAAAGATGAATCTGAAATAAGAGGTCATAGAAAAACTTATATTGGAGCTATGCCAGGTAGAGTTATTCAAGGAATGAAAAGAGCTGGTGTAAAAAACCCTGTTTTCTTACTAGATGAAATTGATAAAATGGCAAGTGATTATAGAGGAGATCCAGCTTCTGCAATGTTAGAAGTTTTGGATCCAGAACAAAATTCAAAATTTTCTGATCATTATTTAGAAGAAGAATATGATTTAAGTGATGTTGTTTTTATTGCAACAGCAAACTATCCAGAAAATATTCCAGAAGCTTTATATGATAGAATGGAAATTATTGAATTATCAAGTTATACTGAAATTGAAAAAATGAAAATTGCAGAAGAGTATTTAGTTCCAAAAGTTTTAAGTGATCATGCGGTTTCAAAAGAACAAGTTACTTTTACAAAAGAAGGAATAAGTGAAATAATTAAACACTATACTCGTGAAGCTGGTGTTAGGCAATTAGAAAGATGAATAGCATCAATTGTAAGAAAATTTGTTGTTAAAATGCTTAACAAAGAAATTGAAAAATTAAAAGTAACTCCAGAAGTTGTAAATGAATTATTGAGAAAACGTATTTTTGAACATACAGAAAAAGAACAAGAAGCACAAGTTGGTGTTGTGACTGGACTAGCGTATACACAATTTGGTGGAGATATTCTACCTATTGAAGTAAACCATTTCCCAGGAAAAGGTGGATTAATCTTAACTGGAAAATTGGGTGATGTAATGAAAGAATCTGCAACAATTGCATATGATTTTGTAAAATCAAATTATAAAGTATTTAATATTCCAAAAGAGGTTTTTGTGGAAAATGATGTTCATATTCATGTTCCTGAAGGAGCAGTTCCAAAAGATGGACCAAGTGCAGGAATTACAATTACAACAGCAATTGTTTCTGCTTTAACAAATAGACCAGTTCCAAAAGAAATTGGAATGACAGGTGAAATTACATTAAGAGGATTGGTATTTCCAATTGGGGGTTTAAGAGAGAAATCAATTTCTGCACATAGAAGTGGTTTGAAAAAAATCTTAATACCTTATAAAAATCAAAAAGATATTGATGATATTCCTGAAGAAGTTAGAAAAGATCTTGAAATAATTCCTGTTCAAAAATATTCAGAAGTATTTGAAAATGTTTTCGATTCAAAATTAGATGAATTAATTAGAGAATTGCCTATTTCAAATTTAAAAGATTCAGAAACAGAATTAAAATCAATTTAACTTAAAAAACAATCATTTTAAAAAAATGATTGTTTTTTATACTTTTAGCATTTAATATGCTAATATTAATTTTAAATGAAAAGGAAGTGAAAATAATGATTGAAACAGTAAGCGGAGGAATGAATCCTATTAATGATGCAGCAACACATAATTCAAGTGATTTAGCTAAAAAAAATACATTTGATGCTGATAAAAAAATTTATGAGTATATTAAAAAGCGTAAAAAATTAAGCTTTTGAAAAATTGTCTCTACATATGGTTTAAAATATAAATCTCTTTTTATATCTGTTATATTTGTAGTTTTAATTACAGCTGTATTAATAAGTGCAAATTCGCTTCTTATTAATATGACTTTGAAACAAGCAATTTTTGATTATACTCCACAATCACAACAAGATCCTTCATATGATTATGGTTTACCTTGGTGGGGTTGACTTGCAATAACAGGAGCTGATTTAGTAATTTTATATACTTGTACATTTTTTAGAAACTTTTTATCAATTATGTTAGCAGTTAGAATTGAAGTAGAATTAAGAAATTTAACTATAAAAAGGTTATTAGAACAAGATATTTCTTATTATTCTGATAAAAAAATTGGTAAATTAATGACAAAACTTGTTGGAGATACCAATGTTGTTGGAAATGAAATAGCAGGATTACTTTCAATGGTTGTTCAAGCTCCTTTGGTAATAATTTTTGGAACAGTTGTTTTATTTACAATTGACATTCCTTTAGCAGGAGTTGCTTCTGCTTCTGTTTATTTACTTGCATTATTTGTAGTATTATTAGCTTTAAGTTATCAAAAAAAAGTTACTGTTGTTAGAGAAGTTATATCAGATATTAATGGTGATGTAATTGATAGAATTTCATCAATTAAATTGGTTAAATCAAGTTCAACAAGAGTTTATGAAGAAGAGAGAATTGAACAAATTCATAAACCTTATATAAAAGTTTTTAAACCAATTTCAAAAATTGATGGGGAATTACTTGCTATTTTAATTGCATCAGATGTGATAATTAATTTATTAGTAATTGTTTCTGCAGTTTTAATATATGGAACTAGTAACCCAGAAAACTTTATTATTTTGATTACACCAATATCAACTGCACTTGTAAGTTTAACAAGACCTTTATGACAAATTGCAGCAATTATTCCTGGACTTTCAAGAGCAGGAGCATCATCACAAAAAATATATGAAGTAATTTGTGATGACCCTATTCTTTCAGATAATGAACAAAATGGAACTTTATTTGATGAAAATATTTATAAACTTGAATTTAGAGGCGTTAAATTTAATTATCCAGAAAAACCTGAAATTAATATTGTTCCAAATTTAGATTTAGTTTTAGAAAAGGGAAAAAGTTATGCATTTGTTGGAGAAACTGGTAGTGGGAAATCAACAATTTCAAAATTATTACTAAGATTTTATGACCCAACAGAAGGTTCAGTTTTGGTAAACGATAAAAATTTAAAAGAATTTAATTTAAGAAGTTATTTAACTCATGTAGGATATGTTGAGCAAGAACCATCAATTATTTTTGGAGATGTTTATGATAATGTAAAATATGGTTATTTCCAAGCAACTGATGAAGAAGTTCATGAAGCTTGCAAAAAGGCTCAAATTGATAAAATAATTATGAGTTGACCACAAGGTTATAATACAATTTTGGGTGAAAGAGGACTATTACTAAGTGGTGGTCAAAAACAGCGTTTAGTTATTGCAAGAATTCTTTTAAAAAACCCTGAATTATTAGTGCTTGATGAAGCAACAAGTGCACTTGATAATATTGTTGAAAGAGAAATTCAAAGTCAATTAAATGAACTTATGAAAGATAAGACATCAGTTATTATTGCACATAGATTAACAACAATTAAACATGTTGATCAGATTTTTGTCTTAGAACCTGGAAAAGGAATAGTTCAATCAGGGACATATGAAGAACTTATAAAAATTCCTGGTAAGTTTAAAGATTTACATGATGCAGCTGTTGCATAGAAAACTAACTTATTGTTAGTTTTTTTTTATGTTATGATTCAAATAGGAGAGATAATATGAAACAAGCTTTAAGTTTTCTATTAAGACCTAAAACTATAAATGATATTATTGGTCAATCTCATTTAATTAATCAAAAATATGGTTTAGTGTCTAAAATGATAAAAAATAATTTTCTAACTAATTTAATTTTTTATGGGCCACCCGGTATTGGAAAAACATCAATGGCAATTAGTTTAGCAAATGATTTAAATTTTAAACATAAATTTTTTAATGCCTCAAAGGATAAAAAGGAAAAATTGCAATCAATTATTAACTTATCAAATCATGAAGAGCAATTAATTTTAATTATTGATGAAATTCACAGAATGAATAGAAATATTCAAGATTATTTACTTGAATTTATTGAGTCTAGAAAAGTAATTGTTTTTTTAACAACTACTGAAAATCCATATTTTGTAATTAATCCAGCAATAAGAAGTAGATGTAATATTTTAAAATTAAAGGAAATCACAAATCAAGAAATGGAGAAAGGAATTAATAGAGTTTTGCAAAATCATAATATAAACTTAGATATTGAAAAAGATGCATATCAAATGATGTGTAGTTTTGCAAATGGAGATTTAAGAATAGCATTAAATTCTGTTGAATTATTAGTAAATTTATATAAAGATCAAAAAATAAATAAGGAAATAATTTTTTCTATTTTTGATGAAGCAAGTTATAAAGGTACTGGAGAAGGAGATGAGTATCATGATTTAAAATCTGCTCTTCAAAAATCAATTAGAGGAAGTGATGTTGATGCATCACTTCATTATTGAGCAAGATTAATGCAAATAGGAGATTTTGAAACTCTTATGAGAAGAATGGTAATTATGGCCTATGAAGATATTGGTTTGGCAAATCCAACAATTCCAATAAGAGTATTTCAAGCTTGCCAAGTTTTTAGACAAATTGGAATGCCAGAGGGAAGAATTATACTTGGTTTAGCCATTGTTGAAATGGCTTTAAGTGAGAAATCAAATTCTGCATATCTTGCAATAGAAAAAGTTTTAGAAGAAGTAAAAAATGGAATTACTCCTCCAATTCCTGCGCATTTAAGAGATACACATTACAAATCTGCTTCAAAGTTTGGCTCTGGAATTGGATATAAATACCCTCATGATTATAAAAATGATTGAGTTGAACAACAATACTTACCTCTTGAAATAAAAAATAATAATTATTTTTTATTTAAACCTCATAGTAGTTATGAAAAAAAATTAATGGAAATATACATAAAATTTACAAATAAAAATAATATAAAATAATAATTATTAGAAAGGTAAAATATATGAAATCAAGCATTCAAATAAAAAAAGATTTAGCAAGTCAAGGATATATTTGAACTCCAAATTATAAAGATATTCTTGAAAAGGTATGAGCACATACAGAAACATATTTTGATGACGATGAAAAGGTATTATCAGCACTTTGGGCTTCATTTAAGAGATATGATGAACAAATGGTTGGAGTAGTTTTTATTACATCAAAAAGAACCTTTACTTTAGAAGTTGTAGATAATAACATAAATTCTCAAATAAGATATTTACCTTTTGATTCATATTCACTTCAAAAAATTCAACTTCAATTATCTAAAACAGATAATGCTTTAAGTTATGTTTCGCTTCAAAATGATAGTTTTGGAAATGGAATAACTTTTGGAACTCCAAATAAAAAAGTAGCACAACATTTTGTTGATACACTTAGAAGTAAAACTAATGGAAAAATTGAAATTCTTCCAGAAAGTGATAATCCACTTTTAGCAGAAAATGAAAAAGAGCAATTAATTGATGAAGATTTAAATAAAGCTAAACAAGTTGTTCCTCATAAGTTTGAAGAAAAACATGAAGAAATTAAACCTATGAAAGAACACGATGGTTGAAGAAAAGCACCTGTTGAAAATAAAGACAAAGAAGTAGAAATAAAAATTGTGCCTCCAAAGAAACCCTTAAAAGATAAAAAAATAAAAGCAACTGGTTATGCAAAAAATTGAAAATCAAAAATGTGACTTTTGTGATTTATTTTGCCAATAAGTTTAATTTCTATTACTTTAGCATTAATTTTTATTTTCTATCAATTGAAATAATTTTTCAATTTAATTCATTTTCTTCCAATTTTAGCTTAATTTGATAATTAAATTTTGTTTTTGAAATTGGGTCTATAAAAGTTGTAGTATAAGTAATTCCTGCCTCACTTGTAGAACTTTCAATTCCATAATAATTTTCAATATTATTTTTAAAATTTTCTTCTTTAATAAATGGTTTAAATAAGTTATTTGCAACTTCATTTTTAATTTCTGTTGTTTCTTTAAAACCATTTAAAATTTCATCAGTTAAATTTTTAACAATTTTCTGATCAAAAATTATATTTAAACCATTTAATAAAGAGTCCTCTCTAAATTTTGTTTCAGAAGAACCATTTGTTTTATATTTAACACCAATTGCTTGCATTCCTGCTTTTATTCCTTTTAGTTCAAAATCAATTTCATCATTTAATGGATCTTGTTGAACTTTAAGACCTTGATTAAGGGAAGCATAAATTAAAGCTTCTAAAGAACTATAATTTTTATCATTACCATTTCAAGGTTCACCGTTTACTAATAATTTAAATTTTCTATTATATAGAGAATTAGCAGTTTGCTTTAATCCAGATGCCAGTGTTTCAATTTCTGATTCAGTTACTCTATTATTTTTATTTTTAACAACATAAGAATTTGTATTAATTAAAAGTCAATTTATTAATTCAGAAATATTCATTTCGTCATAAATTTTACTACTAAATAATGAATATAAAGATAAATTACTTAAGTTTCCTAAGTTTGGAAGTAAGCTTCCAAGTAGTTCACCAAGAACATGTGTGTCTTTATCTCATATGCCACTAAATGCATTTTTTAAATCATTTGCAACAGCATCTGATAGTGAAATAGGAATATCAATACTCACTAACTTAGTTATTTCTTTTAATAATGAGGGTAGACCACTTAAATTTTTATTTTCTGAAATTCCATCAAGCAATGCAGATTTTAAAATCATACCTAATTGCTTGGGTCCGATATTTAAAAATTCAATATTTTGTCACTTTGCGATTCCAAACCCCAATCCAAAAATTAATGGACTTAATCCTTCTCAACTTGTTTTATCTCCAGCAAATAAAATTGACAATATTGAACCTAAATCTCATCCATTATTTGGTTCAATTATTTCAGTAATTTCTCCCCCTGAATAGAATAATAATGAAATCAATTTTTCCAATTGAAATCCTTTTTCATTATTACTAATTGAAGTTGCAGTAAAAATATTTTTTATTGTTTGTTTACTATCAAGTTTTTCATAATCTGTTGTTCTTAATTTTTTTAAAAATTCACTATTATTTTGGGTTTCATTAAATAAATTCTGACTACTTGTTGGTACAAAAGAATTAAAGTCAACTGATGATATCATTTGTAATAATCCAAAAACAATATATAAAATATCAAAAATACTTGGTAAAATACTTGATACAGAAATATTATTTAAATTTTTTAAAAATTCTCCACTTGTAGTACCTATTTTTTTTGAAAATTCTAAGTCTGGTGTTTTATATAAATCTGATTCAATTTGATCAGTTTTGTTTGCAAGTCTTGCAAAAACATTATTTAATCTAACAATTACAGAATTTGTTATATCTCCATAAGTTAAATTTTCTTTTTTATCCATTGTTAAAATTGAATTTCCCAAGTTATCTACTAAAGAATATAGGGAATTAGAATCAATTGCTTTAAAAAAGTTCACAATACCCTCAATTATTGTTGAAAAATTGAATTCTTTAATTGCATTTATAAAATTTACATTTAATAAATTTGCAATTAAACTATAAACTACATTGCTATCTGAAAGATTTGCTATTGTTTGTGAAAACATATAAGCATTATCTTCTAATACTTTTGCGATTGGTTCAAGAGAATCAGGATTTAAGCTATTTGCTAAATCATTACTTGCAATTAAAGGTAATGCTCCTTCAATTGTTCCAACAAGACTTGAATTAATTCCCCCACTTGATTTAATTGTACTTATTCCCAAAGTTAATAATCCACCAATTGAGTCCAAAGGTCCATTTGGAGATTTTACACTATCTGTCAAAAATTGTTTTTCATTTCAAGTATTAATTGTTGCTCTATCCAATTGTTGCCCTGGAAAATATGAATTTTTCAATGATTCCATAGTTGTTTGTGGACTTGTCTTAAAGTCTTTCATTAAATTTAAAGCATTATTTCCTAAAATCATTGAACTTAAATAATCATTATCTAGTGCTAAACCTCTATTTAAATCTTGAGTTGCATTTTGAATTATTGCGCCTCTTAAAAGAGTACTTGAAATATTTACTAAGTTTAAAACTTTATTTTTTACATATTGTTTTGTATTATTAACTAAGCTACAAGAAGCAACAGATGTTGTTGATGCTGCAATTGCAATCACTCCTAGTGCTGATAAAAGTTTTTTCATTTTTCCCGACTTTCTCCTTTATTTATAAAATAAGTATAAAATAATAGATAAATAATTACAAGTAATGTAAAATAATATTATAAGTCGGGGGAATTTATGAAAAAAGCAACATTTTTTTTATATTTAAAACAGGGGATAAAGGGTGTATTAAAGTTTAGGATACAATTTTATGTAATTATTATTTTGACATTTTTGTCTACTTTAATTTTAACAATTTCAATTTCAACATCTGAAAGATTGAATCAAAATTATAATCAAACAATGAATAAATATGAAAAATTTGATTATATTAATCAAAAAGCAGTTGGAATTCCAAGTGATGGTAAAGAAGCTGTTACAGTGACACCATTAATTGATTTTATAAATGATGAATTTTTAGCAGTTTATGACTCAACAGATTTGAATAATCCTGCAAACAATAAAGGAATTGAGTATAATTTTAATTTATCATATTTTAATAATCAGTATACTGATTATGGTTATAAAGAAACTTTTTTAACAAAAGCTTTTGAAGATCAAGAGGTTGAAAGTAAACTTTTTGATATGTTAAAAAATGAAAATTATTATAATAATATAGCAAGTTTTATTTTTGATTCTGCAAGAGTATATAGAGATCACCAGTTTATTGGAACACCTTTTGGTGATTTTCAAAAATTATTAATTGAAAAATCAAAAAATTATTTTTTAGATGATTTATTTCTTAGTGATGGAACAAGTAAAGAATATCTTTTTACAACTCCTTTTTATAAACTGAAGCAAAAAAATTTAATTTCTAGAGAAGATTTTACTTTAGAAATTGAAAATTATAATGATAGAAATCAATATAATAGATATTTTTATTTTGCAATTGATAATCTTGCAGGACAATTAAATGAAATGATTTCAAATTATATTAATTATTTTATAAATCAATCTAAAAAGGAATTTGAATTACAAACTGAAATAACTGATATGGAACAATTTTTTAATGAAAATTGATATTCAAAAGCAGGCTTTAAATGAATTAAAAATGGTTATACTGATCAAAATAAAATTGAACTTGCCACAACTTTGTTTATTTTTTTATTGGGAAGAGCACCAATAAATGCTTCAACTCTAAATGAAAAACAAAGTGCAATGATAGTTACATATTCTGAAAATGCTCAGCAAGAAATAAATACCCCTTGAAGAAATAGAAGAGATATGTCAGCAGAAGTAAAAAACAATGAGATATTAAATTCAAAATTTCAATTATATCAATTTGGAGCAAGAGGAAGTATAACTCAGTTATATGGAAAAATTGCAACAGAAGGAGATAATATTAATAAACTAATTGATATTCCTAAAAGAACAATTAATCCATTATTTTTAAAACATGAAAATTCTACAAATTTTATTGCAGATATAGGATCGGGTTCTAATTTTAGTGATCTTACTGCTTGAAAAGAATTTGATTTTGGTTCATTTAATAGAGCTAAGGCATATTTTTTAAGAAATGAAATTTTATCACAGGCTGTGGATTTAAAATATGAAGCAAGAGCAGAGGTAGTACTTCAAGATAATGTTTCGGAAATAAATTATAGAATAATAAATCTTGATAATACTTGAAAAGATAGAATAACTATTTATGATGGTTTTATGCCAAGAAATAAAAATGAAATTATAATTAATTCACAATTTGCAAGAAAAAATAATTTAAAACTTGGAAGCAATATTACTATTGGTGGAGGAAATTTTACTATTTCAGCTTTTGGAGTAGATCCGTTATCTTATTATCCAATTACAGATTTACTAACTCCAATACCAAATAATGAAAAATCTGCTATTGTTTTTGCAGATAATAGTGTTATTTCTGATCAAATGATAACATTTGATTTTTCAAAATATGCTACAAATTATGCATATAATATTTTAAAAAGTTCAGATTCACAGAATGCACAAAAAGGTGTGGCAGCTTTTGTAGCACATTCTTTTTCAAGTATTAAAAATTTATTATATAATTATAATTTTTTATACAATAAAAATGAAATTGATCAAAATTTTTATGATTCTTCAAAATATAATGAAAATTACACTAGTTTTAATAATTCTCCATTATCTTATAATTGAACTTTGACACCAAAAATAACTGAAGTTTTCAATATTATTTCAATATTATTTTCATCTCTAATTTGTTTAATAACATTAATTGCAGTAGTTGTTGCAGTTAAAAAAACTATTCATTTAAATTCTGGAGAAATTGGAATATTAAAATCTATGGGAGCAAAATCATCTGAAATAGCTTCGTCTTATTTATCATATGGAGTAATTGTTATGTTTATTGTTATACCAATTGCTTGGATTATTGGGTCTTTTCTTCAAGAACCAGTAGCATCATTTTTTTTACAATTTGTTAGTGGACAGTATAATTTAGCAATTTTTAAATACTTACCATTTGTTCTGGGATTTTTAATTTTTGGAGTTTTTTTAGCAATTGTTTCATACTTTACAGCATTTCTTTTGATTAGAAAACCAACTTTAGAAATATTAAAGAGAAAAGATAGTCAAAAAACAATTCTTTGAATTAGAAAATTAAAGTTGGCATTAACTAATAAAAGTAGATTTTCAATTAGATTTAGTAGTGAACTTGCAATATCAAGTTTTTCAAAGACTTTATTAACAGCTGCAACAATATTTTTTGCAGGATTCTTCGTTTCAGGATCTTTAGCAATTCCTGGAATTGTAGATAATTTTGTTAATAGTTATAATAGAAATATTAATTATTCAAATAATTCAAGAAATATAGAATTAATTGGAAATGCTCCTCTTGCAAAAACTTCGCTTTCACCAACTCAAGAAGTTGATGAATATGAAGAGAACTTATTTAATACAAATAATATTTTTGGAAGTGAAATTGAGCAGATTTCTAAATCTGTTTCTCAAATAGGCCCTTCTCCAGATAGTTCAGTAATTCCTCAAATTCTTATTTCTCCAGAAAATAATAATCAATTTTCAACATCTTGAACTTATGATAAACTTTCAAGTACATCTTCTCAATATGATTTTTTAGTTCGTGAAGAAGCAATTGATGAAGAAACAGAATTAAATTCATTGATATCAATAATTGCAAGTATTTTAGGAAATAATTTATCACAATTGGTGGGAAGTGGAATATCAATAGCAGATATTCAAAAAATGATTGAATGAACTGTTCATTCAAATTCAAGTGAATTAGAAAATAATTTTTCTGTTAGACTTAAAAAAATTTTAGAAACCTCTGATTTATTGACTAATGGTCTTCCTCAATTACTTGTAAATTTTATTAATAATTCTTCAACAACTGAGGGAAATTGAAAAGAACAAATTATAAATATTATAATTTCTCAAACACCTTCATATATAAAAAACTATGTAACAAAGAGTGAAAATAGGCTAAATAACTTTGAATTTGGATGACAAGTAAATAAATATATTCCAGGAGTGGATAATTTATATACAAGTATAAATATAAAATCACAAAATGATAAGAATTTACCAATTATTGGTTTAAATTCAAGTCAATCTGCGTATAATATTGAAAAAGTTAATAGTGACAAAATATTTAAAAGTGAATATCAAGCTCAATTAATTAATAAAGTTTTATATGGAAATACACTAGCAAATGAAGATTATGAATTAATAAGTGATATCTATGATAAAGAGACAAAACAATTATCAGTCCCTGTTATATCAAATGAACAAACAGATTTTAATATTAATAATAATTGAGATTTATTAAAAGATATTAATATAAATTCTAAAAGAATGGTAATTACAAGTACTCAAGAAAATATTCCAAATGATGCTTGAATGTATGATGATAGAGATTGAAATCACTATAAGGCATCAAATATTTTAAATGAAAACCAATTTTTAACAATGAGTTCATTACAAGGAAGTAAGTTTACTTATGCTCCAATATTTGATTATAAAAATGGAAGTACAGAAGTAAATGATTTTTCTAAATATAAGTATGCAGATCTTAAAAATAATTCCTACGCTTTTTATAATTTAACTTCAACATTTAACAAAGATGGTAGTGAAGATTTAAACTTGGAAATAAGACCATATTATCAATATGAAAATATAGTTTTATTTCTTCCTAAAAAATTTCAACTAGATTTTGAAAAAATTAAAAACTTAGGTAATTCTGATAGTTCAGCATGATGAATTGAAAATCTAGATTTCATTCCTGAAAAAACTTTAAATGCGTGAAAAAATACTGATAGTAGTTTAAAAGATGAAAATGACTTTTTCGCAATTAGACCGTATTCATTATTTTTTGACCAAAGAGGTGAATACAAAAGAGAAAATGAAAATTTATCAGGAGAAGCACTAAAGAATATTAAAGAAGCTTACAATAACTTTTTTGCAAGATCAATTAGAGAGGCAAATGGACCTATTAGTTTAAGTAATATTGATTTAAATTGAACTGGTATTTCTAATGGTAATGTTTCTAAAATTAATTTTAAAAAAGTTGGAAATATTGAGGTTTATGGTAAATCATTAATTATTGCAGATCAAAATTTAGTTAATTTAATAAATGGATTTAGTATTGATAAATATACTCCATTTAATTTACAATATGAAGACTTTAATTCACAAAATAATAGTAGTTATACACAAGATGGAGTAACTATAAATACATATGAAAAATTAAACCCAAATACTATTGTTAATAATGATAAAAGTCAATGAGTTTATGGAGAAGATGAAGTTCAAAAATCTGTTAGACCAAATATGTGATATACTGGAATTTATTCAAATGCTGAAGAACCATATTTTATTACAATACAAGCTTCATTTGCAAGAAATCCAAAAATTGGAGAAGATACTTTAAATGGTAATACTCCTTATAAAAGCTCAATTGAAATTGAATCAACAACTTTCTTAAGTCAAGAAGAGGCATTAATTAATCAAATATCTGCAATTGTACTATCAATTGGAATATTATTTATTAGTTTATTAATAGTAATTATGATTTTAACTGTAACATTAATTAATGACTTATTTGTAAATCAATATAAGCGATTTATGATTGTTATGAAATCACTTGGGTATTCAAATTTTGAAATAATTTATTACACTTTTGGTTTTGTAACTGGATTTTCAATTTTAACTTATATAAGTGGTGTTAGTTTAAGCTATGTTGCAATTTATGCAATAGTTAAAATAATTAATTCAATAATTGGAATAATTCCATTCGGAATGACTTGATGAGCGCCATTTGTAGCAACAATTTTAGTATTTGGAATGTATATAATTTCAATTACAATAACTACAAGAAGAATTAGAACAGAATCACCAAGTACATTAATGGCTTAAAAATTATTATTTATTAATAATTTTTTTCCTTAAAAAGTCACTTTATTTATAAAAAATAAATTATGGTATAATTATATAAATTAAAGGGGCAAATTATGAGTGAAAAAGTTTATCAATTAAATTCAGACCAAATTGGTGTAGTTAGTTTTTCAGAACCATGATTTTTAGGTCATATTGAAATTGAAGGAGAGACAGAACAAGTACAAATGTTTTTTCCATCTTTAGAAGAAGGACTTAAAAAATTTGCACCATTCTTTAAAAAACATGTTATTGATTTTTGAAAAGAACAAGGGGCAGAAGGCGAAAAAAAAATAAGGGATTTAAAAAATTATGTTTTAAATACGTGAATGAATCCTGGTATTGAAACAATGAGAGAAGCAATGTTTGAAAAGTATGGGCATGAAGAATTTAAAGATAAAACAGGAGTGGAATTAATTGAAGATGGTTATGATTTTTTAGCAGTTACAATTGGTCATATTTGTCTTCGTTTTAATAAAATGCATTTCTACTTTAATGGATTACATGTTTCAACAAGAACTGTTGATAAATTCTTGGCAGTTAATTTCTGATCAAAAGTTAAAGAAGAATCTTTAAATGAAAATCAAGATCAAAATATATAAATAAAAAATCTCTTAATTGAGATTTTTTATTTATATATTTTTAGTAAATCATTCTTTTTTATATTTAAATATTTATTTGTATTATTTGCCAAAACAAATATAGATCTTGCTTCTTGGTTAAAACTTGTCATTTTATTTGGTTTAAAGTTTGAATAAATAGCAATTACTTGATTATGAATATCACAAAAAACTAAATCGACATCTTCTTTAAAACCAAAGCTATTAAATCCTTTTGTATATATTAATCTAAAACCATTTTCAGATGAAATTTTTTCTTTAAAAATTAGCGAATTAAATTTTTTTGTACTATTTCTTATAGTTCTAACATTTATGTCTATAATTACTTGATTATGAACTAATTTATTTGAAAAATTTTCTCTTGAAATATCTTTTCTATTTTCTTTTTTTGCTAATCTGAAAAGAAAATAAATTTTTCTAATTAAAGACATAATAAATCACCTAATATTAATTATAACTAAAAAAATAAAGTATAATATAAAAAAAGAAAAGAGGTAATATATAATGGCAAAAGTTGCTATATTTGTTGCTAATGGTTTTGAAGATACTGAAATGGTTGCAACTTGTGATGTTTTAAGAAGAGCTGAAAAAATGTTTTCAGGAAGTTTTCCTGTTGTGGATATTGTTTCAATAAATGATTCAAAACATGTAAAAGGTGCTTGAAATATAAATGTTATTGCAGATAAAGTTATTAGTGAAATAGATTTTAATAATTATGATTGTTTAGTTCTTCCTGGAGGAAGAACTGGAGTAGATCATTTAAAAGAATCTGAAATATTAATGAATGCTCTTGAAAATCATGCAAAACAAAATAAAATAATTGCAGCGATTTGTGCTGCTCCAGAAATACTTGGAAAACTTAAATTAGTTGACAATGTGGAAATTACTCACTATCCTGGTTGTGATAAAGATTTAGATAATGCAATAAAAAAACCTCACATTGCAGCAATTAGTGATGGAAATTTTATAACAGGAAGTTCAATTGGTGCAGCACTTCAGTTTGGTTTACAAATTGTAGATCACTTTACTTCAACAGAGCAAATGCTAAAACTACATGACTCTTTAGTTTTTAATTATTAGAATAATTTAATATTAAATTAGATGAGAAAATTACTTTCTATTAGAGAAAGTAATTTTCTCATTTTAGTTTTTCATTGCTTTTTTTTTGCAAAATTCTTTTGAAAGGAAAGCAAAAAAATGGAAAAAAAATATATTCACCAGTTAATGGTGAAGTTGATTTAATTGAAAATTTAAATGATGGTGTTTTTTCTGAAAAAATGCTTGGTGATGGTTTTTACATAAAACCAAAATCAAATCATTTTTTATTCTCCAATTGAAAATGGAAAATTAAAAATGATTTTTGATACAAAGCATGCATATTATTTTGAAATTAATGAAGAAGTTAATTTTTTAATGCATATCGGTTTAGATACAGTTACATTAAAGGGCAAACCCTTTAATGTAAAAGCAAAAGTTGGACAAAATTTAGATATCAATTCTCAAATAGTGGAAGTTAATTTTGAAATGATAAAGCAAATGGACAATACAATTTCAATAGCAACACCAATTGTTATGGATTTTAATGAAAATTTAGGTTGAAATTTTAAAATTATAAAAAAAGGAATAGTCAAAAGGGGAGAAATAATTGGAGAATTTTATTATGAAAAAAACCTAGAAAATTCTGTAGATTTTAAAGATAAAATTCAATCTATTGTTAATTCAAAATCTAGATATGATCAAGCAGCACAAATAATATATAAAAGTATAGGAACTCATTCAAATTATACAAAAGTTTTTAATTGTATGACAAGATTAAGATTTGAAATAAAAAATAAGGATTTAATTAATGAATTAGAAATTAAAAAAATTCCAATGGTAAAGGGCATTATTTGATCTGGTAAACAATTGCAAATTATTATTGGTGGAGAAATATACAAAGTAAGAGAAGCTGTAGAAGATTATGTAGTAAAAACTACTTCGGGAAATAATGAAAATATAAAAATAATTAACTTACAATTGGAAGAAGACTATTAGGAGCAATAACAGGAATAATTTTTCCATCGTTGCCTATTTTAATGGCAGGTGGATTATTAATGAGATTAAAAACAATTCTTGTAGTATCTGGTGCTATTCAAGATTTATCCGTTTCTGATAGTTCAGGCATACAACCAGATTTATTTTCATATGCATTTAACATTGTTGCAGAAACAAAAATTAAATTATTTGGAATTTATATGGGTTATAATACAATGAAATATTTAGGTGGCCCAACATTGCTTGCAATTTTTATGAGTTTAGCTCTTGCTGGAGCTACATCAGTTCAATTTTTAACACAAATGTCTGCTTTTGATTTATTTTCAATAGGAACATTATCAATTAAAACAGGTATATTTACAAATTCGGTTTTACCTCACATATTTGCTGCAATTGGTTTATTTTATTTAGATAAATGAGTAAAAACTTGAATGCCCCATCAATTGATATATTGTTTAAACCATTTATTGTATTATTTGTAGTATTTATGTCAATGTTTTTTATAGCAGGTCCTATTCTTTCTTTGATAGAACAAACAATAGGTCTTGGGGTAGGATATTTATCAAAAATACCTTATGGAATTGGTACAGGAATTATGGCGTTGACATGACAACCATTAGTAATTACGGGTATGCATGTTCCAATTGTGATGCCTGTTGCAATTGGAGTTAGTCAGGGTATATATACAACATTAATGTTTCCATTAAATATAGCTACATTTACTCAAGTTGGTGTTGCTATTGCTGTTGGAATAAGAACAAAAAATATGAAATTAAGACAAGCAGCTTTTGCTGCATTACCTGGTGGTTTTGTTGGAGTAACTGAACCAATTATTTATGGTGTTAATTTACCAAAAGTAAAACCATTTATTATAGCAATAATTTCAGCATTATTTTTAGGAATACTTGCAGGAATTCTAGGAATAGAAGCAAGAACTCCTGGTGGTCTTGGAATATTTGGAATTTTAGGTACTTTAATGGAACCAAGATTAGCTGAAGAAGTTGTATCAGGACAAACTTTACTTCCAAGTACAATTAATTTATTTACAGGAGAAGCAAATTCTATGCTTTTAAATGCAATACTTTATGGATTAATGTTATTTGCTTCAATTGCAGTATCTTGTAAAATAGGAATGTTATTTTATACAGAAAGAGTTAAAGAAAGTAAACAAATAAAAAGAAATAATGAATTACTAGTTAAAATGTATGCTCTTTCAAAAAAAATTAGTATTGAAGATGCAAAAAACAAAATTGAAAAAAATTTAAAATAATTTAATTTAATATTTAATAAAGATATCATTGAAAAAATGAAGCAAGTGAAAAAAAATTATGTTCAAATAATTAAAACAACAACAAAACTTGATTCTTTAATAAAATCAAATGAAAATAAAAAACAATTTATTGCAAATAGGGTTAAAAAATATTCATCTAATATTCAAAAAAATGAAAAAAATTAAAAATTTTAATAGAAAAATATGAACTACTTTCAAATAATAAAAATATAGTAATTTTAGAAACTGAATTAAAAACACTAAATGCAAATAGAAAAAATATTGAGTGATTTGAAAATTTTCAACTTGAATGTAAAATTGAAATAACAAAAATATTTGAAGCATTAAACTTAGATACTAATAACTTAAACTTTGATTTAATAAAAGATAAATATTGAAATGCTTTGCATGTTTTGGATATAAGTTATATGATTAATGAAGTTAAAATTCCAAAAATTACAAAAAAAAATGTTTTTATCATAGAATAATTTATTTAAAATAAAAAAACACGGAGTAAATACTATGATTCATGTTTTTTTATTTTTATATGTTTTTAAATTAGATTTTTATTAAATATGTTAACAAACTACTTTCTATTAATGAAAGTAATTTTTACATTAAAACAATTGATTGTTTTTTTATTGGAAAATTCTTTTGAAAGGAGAGAAAAAAATGGAAAAAATTAAAGTATACGCTTCAGTTGATGGAGAAATAGACTTAATTGAAAATTTAAATGATGGTGTTTTTTCTGAAAAAATGCTTGGTGATGGTTTTTACATAAAACTAAGTTCACAAATATTTAAATCACCAATTGAAAATGGAAAATTAAGTTTAATTACAGATACTAAGCATGCATTCTTTTTTGAAATAGAAAAAGAAATTAGTGTATTAATGCACATTGGATTAGATACTGTTTCTTTGAAAGGAAAGCCATTCAATATTTTATCTAAATTAAATCAAAATGTTAATTTAGATACAAAAATTGTTGAAGTTGATTTGGAATTAATTGAAAAATCAGGATTAAGTAGTATTTGTCCAATTACAATAAATAGTGAAAAAATTGCATATAAATTTAATTTATTAACAAAAACAAAAAATGTAAAAACAGGAGATTTAATTGGAGAATTTGAACAAGTTGATCAAAAAGAATTAGAAAAACCTGTTATTAGTATGGAAGATTTCTTTAGTTCAGATAACACATATAGAAAAGTTGCCAAAAAATTAATAGTTGGATCTTCAAATTATGACGAAGTTTTCAACTGTATGACAATACTTCGTTTTAAAATTAGAGATACTCAAAAAGTAGATGTAGAAAAAATAAAAAAAGTAGATCTTGTTAAGGGTATTATTTGAAATGGAAAACAATTACAAGTAATTATTGGACAAGATGTTTATAAAGTAAAAGATGAGGTTCTTTTATTAAATCAACAAAACGTAGGAGATATAGTTCTTTAAGCTAAAAATGCTGTACCTTTAGGCATGAGATTTATGCAAATGTTTACAGGTATTATGGCTCCATTAATTCCAATATTTATTGGAACAGGGTTATTTCAAGCATTAATCGGAATATTAAGTTCTGATATGGCAGGAAATTTAATGCCCACAATTACTGGAAATATTTTAGATACAGCAGAGTATGGCGTGGGTTGAGCATTATTACATGCCGTTGGAAAATCATCAATAATTTTTATGGGTATTGTAATAGCATATAATGCGGGAAATTATTTTAATCTAAATAGACCAATTTCTGTTGGTATTGGTATAATTATGTCTTCACCATTATTATTTGGTACTGGAGGACCAGCATTAATGGGTAATTAATGAATTTTAGCAGATTTTGGAGATCCACTTTCAACAGGAATACCTATTTTAGATGGAATGAAATTAGAGGGGACAGATATATGAGTAATTTTACCCCTTAATGTATTGTCAATTGGACCTCAAAACCAAAAATTATTTGTAATTATTTTTACAATATTTTTAGCAAAAAAATTGATAATTGAGTAATTAAGTGAATACCAAAAGAAATTGAATTAACTTTTAGATGATTTATAGTTATTGGTCTAACAATGATACCAGCATTCTTTATTTTTGGACCAATATGATTTTATATTGAAAAACTTATAGGAATAATATTCTATTATGTTACAAAATTACCACTTGGTATTGGAGTTGGTTTAGTTGCAGCAGTTTGACAACCAGCTGTTATATTTGGTGCACATATGGCAATAGGAATGATATTTATGGTAGACCAAATGTCAAATCTTGGTTTTGGTAATTTTGGATTTACTTCATCATTAACAGTTTGAGCTCAAACTGGAGCAGTTATTGCTGTTGCAGTATTTACTAGAAATGCAACTCTAAAAAGAGAAGCAATTGGTTTAGGAATTCCTGGCATTTTTGGAATTACAGAACCAATTTTATATCAAATAAACTTACCAAAAAAAAGACCTTTAATTGCAGGGGTTATTAGTGTATTTTTTGTATCAAGTATATTAAGCGCATTAGGTGTAACTTCAAGAGTTACTTCTGGGGTTGGAATATTTGAATTATTTGGATTCTTTAGTGATGCTGGAAGTTTTGGAGTCACTGATCAAACTGGCCAACAACTTAGTGGTATTACAAATGAATTGTATATGGTTGCAGGGTCTTTTGGTTCATTTGCTTTAGCCTTTGTAATATGTATGTTTTTATATAAAGAAAGAATTCTTGAAAAAAAACAATTTTTAAAAGAAGAAAAAAAATTAGTAGAATATTTAGTATTAAAAAATTTAGTTAAAAAAGAAGAAGCAGAAGCATTATTAAAAAAATTCAGTGAATTTTCAAATACAGTACCAATTCTTGAATTTAAAAAAATTGAAAAAAAATATCAAAAAATATTATTATTAATAGAAAAAATTAATGTTTTGGATAGTAAAGAAATTAAATATAAAGATAAAATCATAAATAAAGGAAAAGAACTTTTAGCTAAAAATGATAGAGAAAAAGCTGAAATTTTATATAAAAAATTTAATATTGATAAATTTACTAAAATGAAAAAAGAACATCAAATAAAATTAACTGAATTACAAAAATTATAGGATGAACAATTTGTTATTAATTTTAGAACTGAATACTTTGAAAAATACAGTAATTTACTAAATTCAATTGATTCTTTAAAAAATAACTCAGATCTTGAATTAATTTTAACAAGATACAAAAATATTTTAAATTCATTACGTATTACATATAGATTAGATGAATATGATGAAGCTGAGATTAATTTTTCAAAAGAAATTAGAGAAATGAAAAAGATAGAAAATCAACATAAAAAGGAACAAAAAAACTTTTAACAACTTAAGGAGTATTAAAAAAATGAACAAAATACCAAATAATTTTCTTTGAGGTGCATCAAGTAGTGCATATCAAATTTAAGGAGCATATAACGAAGATGGAAAAGGATTAAGCGTTCAAGATGATACTAAAGGGTTTATTTCAAAATTTATAACTGATGAAATATCTGATTTTAAAGTTGCCGCAGACCATTATCATAATTATAAAGAAGATGTTGTTTTAATGGCTGAAATGGGATTTAAATCATATAGATTTTCAATAAATTGAACAAGAATTTTTCCAAAGGGAGTAGAAAATAAACCAAATCTAAAAGGAATAGAATTTTATAATAATTTAATAAATGAGTTAATTAAATACAATATAGAACCTTTAGTAACAATTCATCATTTTGATCAACCATTACATTTGGAAGAATTAGGTGGTTGAGCAAACAGGATGATGATTGATGCATATTTAAAATATTCAAAAACATTATTTGAAAATTTTGGAGATAGAGTGAAATATTGACAAACTATTAATGAACAAAATATGATGATTTTATTTGGACACTTATTCTCAATAAAAGCAGAAAAAGATGAAGGAACAAAAATTTATTAACAATTTCATAATATGAATGTTGCACAAGCAAAAGTTATAAATTTATTGCACTCAATATATCCAAATTCAAAAATTGGTCCAGCACCAAATATTGCTTATGTATATCCAGCAACATCAAATCCATTAGATTCAATTGCTGCAAATAATGCAAATTTAATCAGAAATTGAATTTATATTGATTGCTTAGTAAAAGGTGAATATAGTCAAATTCTTTTAAATTGATGCAAAGAAAAAAATTATCAAATTGAAATTTTTGATGGAGATATGGAAGAAATGCAAAGTTGTAAAGTTGATTTTATTGCATTTAATTATTATTCAACAATGACCGCAAAAGTTTCTGTAAAGAATTCTGAATTTAAAATGGGAAATCAACAACAAGCATTTAATATTGAAGGATTATTTCAAATTATTGAAAACCCAAATTTGGAAAAAACGCAATACGGATGAGAAATTGATCCAGTTGGATTTAGAATGACTTCAAGGGCTTTGCATGAAAGATATGGTTTGCCAATAATAATAACAGAAAATGGCTTAGGAGCAAAAGATATTTTGACAGAAGATAAAAAAGTTCATGATCAGTATAGAATAGATTATTTGAAAAAACACATTGAGCAAATTCCTAAAATAATTTCTGATGGTATTAAACTATTTGGATACAATCCTTGAAGTGCAATTGATTTAGTTTCAACACATGAAGGAATTAGTAAAAGATATGGATTTGTTTATGTAAATAGAGGTGAAAAAGATTTAAAAGACATGAAACGTTATAAAAAGGATAGTTTATATTGATATAAAGAAGTTATAAAAAATAATGGAATTTAATAAGTGATTTTAGAATAGAGAATTATATATAATTCTCTATTTTTATTTTAATGTGATATTATAAAATGATTATATGTAAAAAAAGGATATTTATATGAAATTTGATAAAAACAAATATTTATAGATTTGTATTTTTATTAATTGGAATTTATTTACACTAGGTTTAAGTTTATATTTGCCAACAGCTGTTGGTGTAATGCATTTAGATTTTACAATTTAATCTGTACTAATGGGTTGAAAAGATTTAATAGATGATAAGAATTCATCTGAATATGGAACTCTTGATGCTTCAGTTTCAAATGGTATTTACTATGAAATTGTTTTAGTTATTTATTTTTTTATTATTTCAATTATTTCAATTATATTTTTGATAATTTCAAAAAGTAAAAGAAATCAATTTTGTACAGGGAATAGTAAAATTAAATTACAAATATTTTTTATTTTTTTATCAGACATAGTTATTGTTTTTCTAGAACCACTTTTTCTAATGATGCATGAAAAACTTTATATTACTCATGAATTTGTAAAAGAAATTAAAAAACAATCATATCAGATAAAATTATGAATATTTATTTCAGGTTTTTTACTGACCGCTTTGGGCGATGCAATTTGAATTAAAACAAATATATTTTTGGGTCCTTATAATTCTATTGTCCCAAATTTTCAAAAAATGACAAAATGAAATTATATTAGCTCTAGAATATCGATTGATATTATAATTTTAATTCCAGGAATATTAATATCATTATCAATAACATCAATTAATTGAGATTTAAAATCAAAATTTTTTTTAGATTATTTAAATGTAGGTACTATATTTTTTATAATATGTTTTGGTCCAGTGGTTCATTTCATTCAAAAGTTTATTGATTTATTAATAGGAAAAATAAAAAAATCTAGATTTAGTAGGAAAATATTTTTTTAATATAAAAAGTTTTTATAAAATTAATAATTTCCTGTAATATTAGTTAAAATTAAAAAAGAATAAAAAGTAGAGAAGAGTAAAAAAAATGAATATAAAAAATTTTAGTAATACTAAAAATTTGGGAAATAGTTTTTTAATAGAATATGAAGCAAAAAAAGCTATTTTAATTGATACTGCAATGAACTCAGAAGAAATATTAAGTTATTTAAGTCAAAATCAAATTGAATTGACAGATATTTTTATTACACATGGTCATTTTGATCACTTAATAGGTTTGGAAAAAATTTTAGAGAAATTTGAAAATGTAAATGTATACATTGGTCAAAAAGATGTAATGTGTTTGTATAACAGCAAAAAAAATTTATCAATGCTTAAAAAAAATAATTGAAAATTAGAAAAAGAAATAAAAAATGTAATTGCAGTTACGTATATTAAAGAGATTATAATAGGTAGTTTAGATATTTTTATTGAATGTGTTGGTGGTCATACCCCTGGATCAATTTTTATAAAAATTAAAAATTTTAATTGATTATTTGTTGGAGATACTTTATTTAAAGAGGGATTTGGTCTAAATGGAATATTCATGCCAAGATGTAGTCAAAATAGATTTAGACAATCAATTAAGAACATTTATCAAAATAATGATAAACATACACTTATTTTTCCAGGCCATAAAGATTTTGGAATGAAATTAGAGTCAATTAAAAATAAATATCACAAGTATTTAAAACAATAGCAAAATAAAAAATATTTTATAATTTAAAAAATGCTTTTTTATTAAAAAAAGTTTATAATAATAATGTCATATTAGAAAAGAAGAGGGAACTCTTCTTTTCTATTTGCAAAATAAAATTAATGAGATTTTTATATAATATAGGAGGAAAAAATACCATGATTGATGGTGCTCAGTTACTTGATGCAATTTATGAAATTGTTCAAGATAAAAAAATAGAAAAAAGTATAATTTTTGAAGGAATTAAAGAGGGTTTTCAAAAGGCATATGAAAAATTCTTTGATCCTGAAGCAATTGTAAGAGTTGATATTGATGAAAATACAGGCCAAATTAAAGTTTTTAAAGAATTAACAGTTGTTCAAAAAATTGAAGATGAATGATTGGAAATAGGAATAAATGCTGCTAAAGAAAAATATGGAGAAGATGTTTCAATTGGTAATAATGTATATGAACCTGTTGAATTTACATTAGATTTTTCAAAATTAGCAGTTATGCAAGTTGGACAGATTATTAAACAAAAAATTCGTGAAGGTGAAAAAAATAAAATTTATCAGGAATTTTTGGAAAAAAATCATGAAATTGTTGGTGGTTTTGTAAAGGATATTACAGAAACAAGTTATTTAGTTGATATTGATGGTTCAATAGTGCCAATTTGATATAAAAAAATAATTCCAGGAGAAACTTTTGATATTGATCAGAGAATTTGTTTTTATATTGAAGAAGTTTCAAAAGATAATAAACATTCTCAAATTCAAGCATCAAGAATACACCCTGAATTTTTAGCTAAACTAATTGAAATAGAAGTTCCAGAAATACTTGAGGGAATTGTAGAAATTAAATCAGTTGCAAGAGAACCAGGAAATAGAGCAAAAATTGCTGTTTATTCTCATGAAGAAGGTGTAGACCCAATTGGTAGTTGTGTTGGAGCATCTGGAAGTAGAATTAAAAATGTTACAAAAGAATTAGCAGGAGAAAAAATAGATGTTGTTTTATATAGTGATGATAAAAAAACATTTTTAATGAATTCACTTGCACCTGTAAAAGTAATAAGTATTGAAATTGATGAAGAAAATAATGAAGGCTTTATTGTTGTTCCAAATGAACAGTTATCATTGGCAATTGGTAAAAAGGGAATGGCTGCAAGACTTGTTGCGAATTTAGTTAACATGAAAATAAATATATTTTCATTAGAAAGTGCAAATGAAAGAAAAGTTGCAGTTCATTGAAATGGGAATATTACAGAAAGTGAGTTAAATAATCCCGAATTTATTAATAAAGTAAATAAAAGAAGAGAAAAAGCTTCAAGTAATAACTTAAAAACAAATAGATTTCAAAAACCAAAAACTGAGAGTACTCAAGAAATTGATAATTCATTATTTGTAAAAGACTCTTCAATTGATGAAATTCAAGCATCAATAGCTGCTTTTGAAAATTTAAGTAATAATGAAGCATCATCATTTGATGAAATTGATGACCAATATGATGATTATTACGAAAATAATTAAAAAAATTTCAATTCATGGAAAATAAATATATTAGTCTTAGAAAAGATGTTTCATCAAATAAAATGTTTCCCAAAATAGAGTTAATTAGAATCGTTAAAACAAAAGCAGGAGAAGTTTTTATTGATAATAGTAAAAAAGCAAATGGTAGAGGTGTTTATATTAGACCAACTATTGAAGCAATAAACAAAGTTAAAAAGACTAAATCTTTAGAAAGAGGTTTAAAAACTAATCTTGATGACTCAATTTATGATATGTTAATTAAAGAGGTAGAAACTAATTGGGATTAGATGTACAAAAATTGCTAAATTCATTAGGTTTAGCTTCTTCTGCAAGTAAATTAGTTTATGGAGAAAAGCTATTTGAAAATATTAAGCAAAAAAAAATTGGTTTAGTTTTAACAACATCCGATATGGGAATAAGTCAGTTAAAAAAAATTAACAATAAATGTGTTTTTTATAAAATAAAAATTATAAATAATTTATTTAATTCAGAACAACTAAATCAAGCAATTGGTAAAAAAAATATTAAAAGTATTGGAATAAGTGATAGAAATTTTATAAAATTAGTTCTAAAAAATATTGAATAAATAAAGAAAAGGAGATGTAGATATGGCAAAAAAGGAAAAAAATAATAATCAAAAGCAAGTAGCCAAAAACAAATCCAAAGCTCATACTGCTAATCTAAAAAATCAGTTAAGAGAAACAAAAGAAACAGGTTTAATTGATGGTGTTTTTATATATACAGAACCACTTTCAATTGCAGATTTTGCAAAAAAATTAAACAAGGGGCCTGCTGAAATTGTAAAGTGATTTTTTACTAATGGAAGTATGGTAACTCAAAATCAAATTTTATCTGAAGAACAAATGGGTGAATTATGTTTAGAATTTGGATATTATTTTAAAAAGGAAATGTCTGTTACAAAAGAAAATATATTTGAAACTTTCGAACAAAAAGATGACCCAAAAGATTTAAAAACAAAACCACCTGTTGTTACAATAATGGGTCATGTTGATCATGGTAAAACAACTTTGTTGGATTCGATAAGAGATGCAAATGTAACTGAGGGTGAATTTGGAGGAATTACGCAACATATTGGTGCTTATCAAACATCAATAAAAGGTGAAAAAATAACATTTATTGATACTCCAGGTCATGAGGCTTTTACAGAAATGAGAGCAAGAGGGAGTGAAGTTACAGATATTGTTATTTTAGTTGTAGCAGCTGATGATGGAGTTATGCCACAAACTGAAGAAGCAATAGACCATGCAAAAGCAGCTGATGTTCCAATAATTGTTTTTGTAAATAAAATAGATAAACCAGATTCTGATCCAGAACGTGTAAAAATTGAATTAATGAAATTTGGTATTGTTGCAGAAGAATATGGTGGAGATATTCCATTTATTAATGGTTCAGCAAAAACTAAAATTGGATTAGATAGTCTTTTAGAAACTATTCTTTTAGTTTCAGAGTTAAAAGATTTAAAAGCAAATCCAAATAAATTTGCAACAGGAACAGTAATTGAAGCTAAATTGGATAAGAATCGTGGACCTATTGCTACAATTTTAGTTCAAAATGGTTCATTAAATTTACGAGATATTTTAATTGCTGGTGCAACTTTTGGATCTATTAAAGATATTGAGAATGAAAATCAATCAAAAATCCAAAAGGTAAAACCAGGTCAACCTGCTTTAATTATTGGATTAAATGAAGTTCCAAAGGCTGGAGATAAATTTATTGTTGTTTCAGAAGAGAAAATTGCAAGAGATATTGCAAAAGCACAATTTGAAAAACAAACAAATGATGCAAGACAAAAAAACAATAGTTTTACTCTTGATTCAATAAAAAATCAAATTGAAGCAGGAGAATTAAAATCAATTAATATTATTCTAAAAGCCGATGCTCAAGGAACAGTTGAAGCAGTTAGAAATTCAATGTTAAAAATTAATATTGAAGGTGTAAAAATAAATGTAATTCGTGCAACTGTTGGAGCAATTTCTGTAAGTGATGTTACACTTGCAATGGCTTCAAACGCTCTAATTTATGGTTTTAATGTTAGACCAACTTCACAAGTTAGACAAAAAGCAGAAGATGATGGTGTGGAAATTAGATTACATAATATTATTTATAAATTAATTGAAGAAATTGCTGAAGCAGCAACAGGAATGTTAGATCCAGTATTTGAGGAAAAAACTTTTGGTGAAGCAGAAGTTAGGCAATTGTTTAGACATTCACAAGTAGGAACAATTGCTGGATGTAGAATTATGAGTGGATTAGTTCCTAGAAACTCAAAAGTTCACATTTTAAGAGATGGAATTGTTATTTATACAGGAGAGATATCTTCTTTAAAAAATAAAAAAGATGATATAAAAGAGGCAAAAGAAGGTCAGGAATGTGGAATTACAATTAAAAACTTTAATGATTTAAAAGAAAATGATATTATAGAAGCATATAAAATAGAAGAGGTGAAATAATTTTATGTCAAAAGATATTAAAATAGAACGTACTCAATCAACTATTTTGAGAGAATTGAATTTGATTTTACAAAGAGAATTCCCAGACAGTGAATATTTAAATTCTTTAATAATTCATGAAGTTAGACTTACAAATGATATGAGTCATGCAAAAGTTTTCTATTCATTTTTAGATACTACAGCAAATGTTGAAGAAGTTGAAGATGAACTAAAACAAAATTTGAAGGAAATAAGAAAGTTACTTGCAAGTAAAGTTGAAATGAGAAGTGTACCAGAATTGAATTTTGAATTGGATAAAACATTAGAAAATGCAAATAAAATTGAAAAAATTTTAAAAGAAGTTAAATAAAAAAAGATTGCTTTAAAGCAATCTTTTTTTATTTTTGCAATCTGGATAAAATCTTTTGAATTCTACTTGTAGTGAGTGTGAATAATATAATTGCAAATAAATCAAAAATCATAAAACTTAATCAAGCGTTGAAAAAGATTATAATTCCATAACCATTACCATATTCAATATATGTCCAAATATAATTCAATATTGCTGAGCTAAAAGGAGCAAAAATGAAAATTATCATACTGGCAAATGTTGAAGCAACAGCTTTACCGTATTTGTTTTCAATATTGTATATCCTAAAAACTTTTTCATATAGTAATCAAAATAAAACTACTCAAATCATCAATCCAATAGCAGATGTAAGCCTAAATAAAGGACTTAGACCTCAGATTAAAAATTGTAATAAACCATCTAACAAACCTAGAGTCATACCCCAGTATATACCGACTACTTGAAAGCTTATAGCTATAATATAATATTTTAAAGCAAATCCCACATTTACTGATGTAATAAATAAGGGAATGATAACATTAATAAAACTAACAGCTGTAGACATACTTAGTAACAAACTGACAAGAGCTATTTTTAGAGTCTCACTCTTAATTCTTGCACGTTTGTTTGTTTTGTTAAGTTTGCTGATTTCATACTCCAAGTCTATTGTATTTATAGCTACAATATCTTGATTTAATTCATCAGTTTTTTTCATTGTAATTTTTTAAAATCTCCTATCTAAACAAACAAAAATTTGAATTCAAATTATATTCACCTCATTTAATATTATATTATAATTATTTTAGATAATGAGGGAATTTATGCATAATTACTTTACAGATAATTTAAAAGGAGATATTTTCGAATTAAGCGAAAAAAATTATCATCATTTAAAAAATGTTATTAAAATTAATATAAATGAAAAAATAGTTTGTGTATATAATTCAAACAAGTATTTATGTAAAATAGTTGAAATCTCTAATGAAATTTATTATGCTAAAATTGAAAAAAAGCTGGAATTTGAAGAATCATATATAGAAATTAATTTAATTGTTGGTATTATAAGAGAACAAAAATGGGACTTTATTTTACAAAAAGCAACAGAATTAGGTGTAACAAAAATTGTTCCTGTTGAATTTAAAAGAAATGTTGTAAAAATTGATTTTAAAAAAGAAGAAAATAAAATATCTAGATGAACAAATATTTGTAAAAGTTCAGCTGAACAATCAAAAAGAAATTTTGTTCCCATAATTGAACCAGTTATTAGAAATTTAAATGAATTAGTAAAATATAAAGCTGATTTAAATTTAGTTTGTTGAGAAGAAGAAAAAAAATTAACTTTTAAAAAGGAATTAAAAAATAAATTTAGTTCAATAAGTATTGTAATTGGACCAGAAGGTGGTATTGAAAGGGATGAACTTGATCTTTTAAAAAAAATTGGTTATAAATCAATAACATTAGGAGAAAATATTATGAGAGCAGAAACTGTTCCATTATTCATTATAAGTTGTATAAAATATGAAAAAAGTTAATGAGGGAAAATTGATGAAAAATGAAAAAAATGTCAATTTTATTATTGAAGATGTTAAATTGATTAATGATCAGTTAAAAAAAGTAGAATTAGATTATAACTTAAAAAAATTTATTGATAAAAATATTTATTTTATAAAAAAACAATTATCTGACTTTTTAATTGTAAAGAAACATGGAAGTTATGCAATAGATTCAATTTATAATTTTGATAAAAAAATTAATGTAGATTTACTAGCAATTAAATATGTCAGTAAAAAAATGTATAAAATTTATGAAAGTGAAATATCTACAAAGGAGCATTTTGCTGATTGTTGAATTTGTGAAATCAACCAATTAATTTTTAAAAAGTTGGTTAAAAAATATGAAATAAGTGATAATGTTAAAGTTGAATGGAAAACTAAAAAATATAAATTATTGAATAATAAGGAACTATTTATTTTTAATGATTCAATTGAAATTAGTTTTTATAAAAATAATTTAATTGGGTTTTCTATTATTATAAGAACAGTACTATTGCATAAAGATTATCCATTAATTATTTGTAGTAAAAATAAATATAAAAGAAGTTTTTCATTAGAATTTGTTAAAACATTTAGAATTTTAAATAAACTTTTAATGAAAAAAATGCAAATTTTATTTTATATTATTAAATTAAAAAATATAAATAAGAAGCAACGTTTAATATTTAAAATAAATATTATGTCAGACATTCAATATCAACTTTTAAAAAATGAATATTTTAGAGTTTGATTAGATAAATCTTTTGCATTTAATTTTTCTTCCAAAAAAGATGTTGACAATTTATTAGAATCAAAACTTATTTATTATAAAAAAAACAAAAAAATTTCAAAGTTTTATAATTCTTTTAAATTAGTAAATTTAATTTGAGTTTTTAATAAAACACATACTGATACAAAAAAATTCTTAGATTTTTATTTAGATTTTTGTAAAAAAATTTGAAGTAATAAACCTAATAAGATTTATTACTGATATGATACAGTAGCTTATTTAAAAAATATGCAAGGCACAACAAATATATCAATTAAAAAAAGTTCAAAAAAATATGATAATTTAGAAATGGAAATCATTTCAAGACCAATTTATCCTTTAAATAAAGAAAATGGTATATTTTTGGTTTTTTTGCAATATTATAATTTTGAGATTAATTAGGAGATAATAATGAAATTGAATTCAGAAATTTGAAAATTTAATATACAAGTCAAAAAGATTACTACTGAAAATATTGAATTTGCTAATAAAATAAATAGTTTTTTTAAATTATTAAAAAAATCTTTTAATGAGAAAAATATAAAACTACATAAAATAGGTGATTTCGCCTACAATTCATATAATGTTTTTAACAAAGTCTTAAATATAGATTTGGCAGCATTAAGATATTTTTCAAAAATTAATTCTAAACCAGTTGATTTGCAAGAGGAAGTTTTGAATATATGTAAGGATTCAAAAATTATAAATGAAATTCATACTGATAAAAATTATATAAATATTATTTTTAATTTTAAAAATATAATAATAAATTTTAGAATTATATCATTAATTTTTTTAAAAAAAGATAAGACAAAATTCTATATTGCAAATGGAAATAAAAATTTACAAGAAGATTTAGCAATTCAATTAACAAGAGATTTTAAATATGCAAATAAATTAAGTTCAGGATTATTATTTTCATTAAAAAGATTAATAAATTATGTAATGAAAAATGAATTTTGTTACACCTATAATATTGATATTTTAATTTTAAGATGATTTTATGAATTTATTTCAAAAACACTAGAAAATTTTATTCTGAATATTTATATTAATACTGAAAAAGAACTTGATATAAAAAAATTTTTATTAGTTAATAATTTTAAATTATGAATTAAAAAAAATGTGAAATTTTATGATCTTATTACTTTTATTATTCATAAATTTAATCAAACAAATACTTATTATTTTAATAGTTTTAATTTTCAGAATGAAGAAATTTTTGAAAATATTTCAAGATACTCTATAAATACAAATTCAAATTTTAAAATGCCACTTGATTATTTAACAAATATTAATATTTTTGATACAAATGATTATGATCAAAAAACATATATTCAAAATAATCTTTCAAATGTGGAAGGGCTTTCAGGAATTTCTTGAGATAAATTTAAAAATGAGGGACATAGATATATTGTTTCTCCTCTAATAAAAACAGGAATAGCAAATATAGCAATGTTTCAAAAATGATTAACAAATAAGTCCAATGAGCTATATTCAAATTTAAAATCGGAGTTAAAAAGTGAAATAAAATCTACAAAACAAAGAGAAGCAATGGCGGAATTAAATAAAATAGCAAATAATTGATTAGTAAAATATCAAAGTAAATTAAATTATCTAAAACCTTTTTTTGATAGAAAATATCCATTTGTATCATTATATAACCCTGAACAATTGGCTTCATTAATTGTTCAAACAATAGACAAAATAGATCAATCACAGTGAATAATAAAAAATGATAACTAAAATGTTATCATTTTTCTTCATCTTTTTTTGATTTTAATATTTCAGTACGTTTTTTTACGTAATCTTTTTCGACTTTTCCAATATGATGATATAAATCTCGACTTGCCTTAATCCTTAATTTTTTTAATTCTTCATCACAAAACACTCACGTTAACCAAACTATATGGAAATGTCTTAAATATTTAATTTCTTTATCATTATACATTTCATAACTTAATTTTTGTGCTTCATTTTGTGCATAATCAATTCATTTTTGTGGGTCAATATCTTCATTAAATGAATCTCTTGCTAATTCTTGATAAGTTAGTGCTTTTTTAACAATAATATCTTCTAGTGATTGAAGAGTTGAAGCAATTTCTGTAACAATTGCTTGATCAAATTCAAGGTATGAATTGAATTGATGTTTTGATAAATAAAACATTTTAGTATTTAAGTTGTTGACTGGTGTGCCACCACTACCTAAATGTTCTTTTTCAGAAATAATCTTAAACTCAGCTTCTATTTCTTTATAAAAATCTGATTTAACAAGCATAAAAACCACTTCACTTTCAATTTTTATTATTATACCATAAAAATATTTCAAATTTAATTTGGAAGCAACTAGAAGGAATGTATAATAAATCTAGTACTATTTTCAGGAGATGATAATTATGTTTCAAAAATCAGGAGTTTTTTTAGTAAATAAACCATCGGGAATTACTTCAAATGATTTAATTCAAAAAATTAAGAAGAAATTTGATTTAAAAAAAATTGGTCATGCAGGTACTTTAGATCCATTAGCAAGTGGATTAATGGTTGTATTAGTAAATCAAGCAACTAAAATTTCAAATTATCTTTTAAGTAGCGATAAGAGTTATATAGTGACTATGAAATTGTTTTTACAAACTGATAGTCAAGACATAACTGGAAAAATAGTTGAAGAAGAAGAATATAAAAAAATTTCTAAGTCCTTAGTTAAAGAAATATTAAATAAATATGATGGATATATTTATGACCAATATCCACCAATGTATTCTGCAGTTAAAATTGAAGGAAAAAAACTTTATGAATATGCAAGAAATAATCAAGAAATTTCAATTACTCCAAGAACAGTTACTATTAAAAAATGTAATTTAATAGATTTTAATCAAAAACAAGGAACGATTAAACTTTTTGTAAACTCTAGTAAAGGAACATATATTAGAAGTTTAGTAACAGATATTGCAAAAGGTTTAGGAACTAGTGCAACAGTTTTAGAGCTAGAAAGAATAGGTTCTGGAAATTTTGAACTAAATCAAGCAAAAAACATTGAAGAAATTCAAGAAAGTGACTTATTAAGTATGTATGATTCTTTAATGCAAAATGAGCATGATTTAATAGAGTATCATAAAATAAAAGATATTAAACAAGGTAGAGCAATAAATTTACCAGGAATTAATGTTCCATTAATTTTTATAATTGATGATAATAAAGAGGTTATTGCAGTTTATAAACATATTGCACATGATTTATATAAATGTCAAAGAGGACTTTGAGAAGAATCACCGTGAGAAACTTTATCAGAGGCTGAAAGAGATAATAAAAATGGTTAAAATTAATTCAGATTTGAGTGATCATCAAAATTTTAACTTTGACAATACAAAAACTATTATTTGTATTGGTTTTTTTGATGGTTTTCATAAAATACATCAAAAAATAATTCAAAAGACAAAAACACTTGCAATTCAAGAAAATAAAAAGTCAATTGTTATAACTTTTTCTCAAAAAGTTAATGATTTTCTAAAAAAAATTAATAATAATATTCAATCACAAAAAATTAAATATAAATTAATTGAAGACAATGTAAATCCTGATTATTTACTTGAAATTCAAGTAAATAATCATACTTTAATGATTTCTCCAAATGATTTTTGTAATTTTTTATTAAATAAACTTAATGCTTCAAAAATAATTGTTGGAAGTGATTTTAAGTTTGGATATATGGGTAAGGGAAATGCAGATTTTTTAAAACAATATTTTGGAAGTGAAAATATTATAATTTTTAAAAGAAATAAAGATATTTCATCAACACAATTAAAAAATTTATTTGAACAAGGTGAAATAAAAAAACTTAATAAGCTTTTAAATTATAACTTTCTTCTTGAGATTAAAAGAGAAAGTGACAATATTTATTTAATTGATAAAATATCAATTAAATTAGCAAATGGAAAATATAAAATTAATATTCTAAATCAAAGTTATATAGTTAATATTATCAATAACTCTATATTTTTTAATGAAATAACTAATTTTAATAAAGAAATTATTGAAATTTTAGAAAAAATAGAATAAAAGAGTTTTAATTTGTTATACTTAATAAGTATTGATGTTTTTACGTTGTTATGATTTCCCTAAAATTATAACTTTGTTAAAACAATTTCAATCAAGAATTAATAGGGAGAATTTTAAAAGAATGGTTTCAAAATCACAAATTGAGAAAATTGTAAAAGATTATGGTGATAATGGTAAAGATACTGGAAAAGCAGAAGTTCAAATTGCAATTTTAACAGTTGATATTCAAAACTTAACTGAACATTTAGCAATTCATAAAAAAGATATCACTTCAAGAAGAAGTTTATTAAAAAAAGTTTCTCAAAGAAGACACTTATTGAACTTTTTACTAAGTAAAGATGTTAACAGATATAAAACAATTATTGAAAAATTAGGATTAAGAAAATAGTAATTGTTAAAACTTCATTTTAATGAAGTTTTTTATTTTTTAAGAAGTTTAGATTTATTTTTTTACTTATTTGTAAAAAAATAAATCTTTAATATAAAATATTATTGTATGGATATATTTGCCCTTGCAAAAAACATAATATGTTTAATTTTTACACCTTATAGATAAATTATTTTTTTTAATGTATAATATAAACATATTTTGGTATCATAAGTAGATAAATATCAAAATTTATTAATTTTTTATTAGAAAGACGGTGTGAAATATATGGCAAATTCAAAAAAAGGACCAGATAAAGTAGCTGTTAAGAAAGCAGCTTCAAATGCAAAAAGATCAGAACACATTCAAACAAGAAAAAAAGTAACTGATCCAAAACCAACAAAAATAGTGGATAAATCAATTAAATTATCTGAAGGACAAGAAAAATTTATTTGAGAAAAAGCAGAACCAGTTTCAGCAACAAATCAAACAATTTATAGACAAGATATTGCTGGAGCGTTAATTAAATCAAATGAATTTGGTTTAGAATCAGAATTTGGTTGAGTTTATGCTTTAATTGATCCTGAGGGTGAAACAGACGATGTAAATAACGTTGTTGCATTGCACTGATTAAATGCTAGGGTAAAACGTAAAGTAGATCAACCTTGAACAGCTGTTGTTACAGGTTCAAGAGATATTTCTGGACTATTTAATTTTAAAAAAGAAGTAAAAATTCATGGAAATGCTTTGAGCAAGACAAGAAAAACAGTTTTATTCCAATCATCTGTTGTTGAACCAAAAAAAATCAATGTTGAAATAAGAACTATAACACCTAAGAAATAATAAAAAAATACCTGTTTAGGTATTTTTTTATTATATAATTATCTTGTCCTTCGGGACGCCAAGAATATTTGTTATTCTTTATGTTTGTGTGAGACATTTAAGACCGCTCAATAAATAAGTATTTCCTATCTCATGCATTTTATAGCGGGCGGAAATATTTTTTTTATTATAAATTCTTTTAATTTTGGGGGAGTGTTTTGCTTGCAAAAAATCATTTTAATAGTCGGGCCAACTGCAAGTGGAAAAACAGATTTATCAATTAAAATTGCAAAAGAATTTAATGGTGAGTGTATTAATTCAGACTCAACACAAATATATAAAGGAACAGATATAGCAACTAATAAAATAAACTCTGATGAAATGCAAGGAATAAAACACCATTTACTTTCTATTAGAGAAGTAAATGAAACTTATTCTGTTGCTGATTTTCAAAAAGAGGCTAGGGGTAAAATAAGGGATATTATATCAAGAAACAAAAATCCTATAATTGTTGGCGGAACTGGACTATATGTGAATGCTTTAATAATGGATTACAATTTTACTTCAAAAGATCATATTAGTAATTTTAATAATAAATTTTTACATTTAAGTAATCAGGAATTATGAGATTTACTAGACAAAATTGATAATTTGGAAGCAAAAAAAATTCATCCTAATAATAGGAATAGAATTATTAGAGCATTAGAAATTAACAAATTAAATGATAACATTAAAAGCAATATCATTAAAAACAATAAAAATTACATATATGATAATTTATTAATTATAGGCTTAATACCGAACAGAAGTGACTTATATAATAAGATAAATAATAGAGTATTACAATTAACTGACAGAGGACTATTTGATGAAATAAGAAGTGCTTATATAAAAAATAATTTTAATAAATCTGCTCAGGCCTTAAAATGTATTGGAGGTCCTGAAATAATAAAATTTATTGAAAAGGAAATTGACTATGAGCAATGCATAGAGTTAATGCAAAAAAATAACAGGCACTATGCAAGAAGGCAAATAACTTGATTTAAAAATCAATTAAAGGGTGTAAACTGATTTGAACATGATTATTCAAACTTTGATGATGTTTGCAATGAAATAATTATTTTTATAAAACAAAAATATAATAATTATTAATATAAAGAGTTAGGAGACTTATTTTATGTTATCTGTATATGAACGCGTAGAAAACTTAATTAAAGACAATAAGAATACAACTTTTAAGCTAATTGGAAAGCAAATATTAACAGATTGAAATATTGGAGTATTCAAAACACAGAATGAAATTTCTGAAACTTGTTTTGTTTCTTTAGCAACTGTAACTCAATTTGCAAAAGCCTGCTTATGTGAAGGTTATAAAGAGTTAATAATTAGATTAAGAGTTGAATATGAAAATGTAATGCAAAATTCTGCAAAAGTAAATTTGGGAAGTTCAGAAAATAAAAATCAAATGATTAATATAATTAATGATTGAGTTGAGCAAAATGACGAATTTATTTCAGATTTGGCAGCAAAAATTATGAAAGTTAAAAAATTATGAATTTGCCCATCATTTCAAGGAATGTATTCAGCAAAATTTTTGGAAGATGCATTAACAAATTTGGGAATTCAAGCTAAATTAATTGATTTATCAATTAATTTAGAAATTGCAAAACATGTTGATTTCAGAAATGAATTAATAGTTGTTCTTTTAACAGGAAGAGACACTGAAACTACAATAAGAACTTTAGAATATTTAATTCAATTTAAAAATGAAGTTTTTATTATTACAACACCAAGTAATATTATTGAGTGACCAGAAATTCAGAATCAAAAACATATGTTAGTAAACTTTCAAGATAATAACTTCTTTTATAAATATAGAAGTTATGCGTTAATTACTTTATTTTTTTCTTTAACAGAAAAAATTTCAATTTAATTTTTTGAAAAAAAGTATTGACATATCAAAATCAATTATGTAGTATTTAATATGTAATTGATTTGCGGGTGTAGTTTAATGGTAGAACTTCAGCCTTCCAAGCTGATTGTGAGGGTTCGATTCCCTTCACCCGCTCCATTTAGAAAAGTAAACTCCTTTTAGGGAGTTTTTTATTTTTAAAATGGAGTAAAATAAAAAAAGAGGTTAATATGATAAAAAATTTTTTTGATAATTTTAATCAAAATAGAACTCCATTTTTTATAAGTAGTTTTTTTCTTTTGGTTGAATCAATTATTCCAGGATTTGCAATTTGATTTTTAATTGGATTTGATTTTTCATTTTCAATGAACTTTAAGTTACCATCCCCAATTGGTTTATACATATTTTTTATTTGTTTGGGTTATTTTTTCTATACTTTTCTAATAACATTAATTTTCTATAAGTTAAAATTACACAAAACGGATAATTTTATTTATTCTTTGACTATAAGTTTAATTTTTATAATTATTACATCGATTGGCTCTTTTTTAGAAAATGCAACTTGAATGATTATTGTTAAATTTTTAATAGTTACATTATTAGTAGTTTTTTTAATTCCTTTATTTGTATTTATTTCAATTTTTTTTAGAAATCAGGAATTAAGAAAGCAAGAGGATCTTGAAAAGATATATAATGCATTTAAAAATAATGAAATTATTCCTACAAAAGAACTTTTAAAAGCACAAAGATATGAAAAATATTTAATAAAAAAAATGAAAGAAAAGGAAGAATTAGCTCAGTTTAAATTAGAATTGGATGAAAAATTAGAAAAGGAATTAAATAAAAAGGAATTATTGAAAAAAGAAAAATTTAAAAAAATTAATGAAAAATTAGATAAAAAAGAGCAAAAATTAAGAGATAAAGAAACTAAATAAATCTATTTTTTAATCTTAAGTATTTTTCTTGACAAATTATTTTATATATATTTTCATTTGTTTTTTCAAACATATAATTTGCTCACAAAGTTCATAATAAGTCTTGATACTCTATAATTATTTTTAAATAATTAATGTCCTCTTTTTTAATTAATTTTTTTTCTATACATTTTTTTATAAAGGAGTTTATTAAAAGATTATTATCATTAAGTGTTTCTGTGATAAAACTTGCAATATCAAAAAAAATATTGTTTAACATTACAAAATCATAATCAATTAATTTAATTTTTTTGTTTTTTATTAGTATATTTCCAGGAACTAAATCATTGTGGCTAATAACTTGCTTTAAATTTTTAGTGAATGCAATCTTTTTAATTAGTTTTTCATATTCATTAGAAAAATCATATAAAAAATTATCAATATTATTTTTAAAAATATCTAAATAATTACTATAATTAAATTTCTTTATTTTAGATTTAATTTTTATTTTATGAAATTTTTTTATTCCATAAATAACTAAATCTAAAATATCATCAGTAATATCAATTTCATTTATTGATTTAAAATTCTTTAAAATTTTAAATTTTGAAATTAGTAACCCATCTTGAAAATAAAAATCAAAAGACTTAATCATTATTTTTTGATAATTTTGTTTAAATTCTTTTAAAATAATGAATTCATTTTTTTTATCTAAATATAATTTATTTACTGCTTTTTCTTTTTTTATAAGAATGTTTTTTTCTACAGTTATTTCATTTGTTAATCCTTTAAATTTCATTTTAACTACCTTAACCTTTATAATTATTATATTATTATTTAGAACCAAAAGGAAAACAACTAATATGAAAACAATATGATTTGCTTCAAATAATGAAAACAAAATTAATGAAATGAAATATTTATTTCCAGAGATTGAAATAAAAAGTATTAAAAATTTTAATAGTAATATTGATATTCCAGAAAACGAGCCAACATTTGAAGGAAATTCATTATATAAGGCAAAATTTTTAGCTAATCTAGTTGGTGAACCTGTTATTGCAGATGATTCAGGAATTTGTATTGAAGGTTTAAATAATTTTCCAGGCATTTATTCTGCACGTTGAGCAAAACCAGAAAAAGATTGGAATATTATAAATAAAATGGTTCTAGATAAAATGTTGGAAAATAATTTAATTAATCAAGAGGATAGAAAAGCATATTTTATTTCAGTAACTTCATTTGTGGATTTAAAAAATAATATTGAAGAAATATTTATAGGTAAAACAGAAGGGATTATTGTTAAAGAACAATTAGGAGAAAATGGCTTTGCTTATGATAAAATTTTTAAACCTTTAAATTGTGAACTTACTTACGCTCAAATGTCAAAAGAAGAAAAATCTAAAATATCACATAGAAGAAAATCAATTGATCTTTTAAAAAAATTTTTAAAAGATCATAAATACTTATAATTTATAAAAGTAGGAGTTTTAAAATGAGAAAAATTAATATAGTTTTATATCAACCAGAAATTGCAGATAATGTTGGAGCTATTATGCGAACATGTGCTTTAATAAATGCAAAACTTCATTTAATTGAACCTTTTGGTTTTATCTTTGATAAAAGAAATTTTGTACGAAGTAGTGCCAATAATTTTGAAAGTTGTGAATATATAAGATATGATGATTGAAATAATTTTAAAGAATTAAATCAAAGTATTAAATTATTTTGTATGACAAGATATGGGAAAAAACCAATTAGTGATTTTAATTTTTCAAAAGAAAATGATGAAATATTTATAATGTTTGGAAAAGAATCAACAGGAATTGCAAAAGATATTTTAAAAAAAAATATAAATTATTGTTTTAGAATTCCAATGGTGCCAACAGGAAGAAGTTTAAATATAGCAAATTCAGTTGGTATTGCAGCTTATGAAGTTTTAAGACAATGGGATTATCTTAATCTTTCAAAAGTTGAGGTTGAAAAGGGAGAAGATTTTTTAGAAAAAGATTAATTACTATATAATTAGTTATATTATGGAGGTATGCTATGAAATTTTCAGATTTTGGTTTTAAAAAATTTATTAATGATGCTTTAGAAGAAATTGATTTTATTTATCCTACATCTATTCAAGAAAAAGTTATACCTCTAATTAAAAAACATAAATCAGTTATTGCACAATCTCATACAGGTACAGGTAAAACGCATTCTTTTTTATTGCCAATTTTAAATAATATTAACTATGAAGTTGATAATAAAATTCAATGTGTAATTATAACTCCAACAAGAGAATTGGCAAGGCAAATACTTGATAATACAAAAGATTTATTAAAATTTAATTCAAATGGAAATGTTTCATTATTCATTGGTGGAGATGATATTGAAAAACAAAAAGACAATTTAAAAAACAAGCAGCCAATGATTGTTATTGGAACTCCAACAAGATTAAAAAAACTTTATGAAGAAAATTTTCTTCAATTAACAACAACAAAATATTTAGTAATTGATGAATGTGATATGATTTTTGATTTAGGTTTTATTGATGAAGTAGATTTTTTAATTTCAAAAATTAATAAGGATGTTAATATTTCATTATTTTCTGCAACAATTAATAATTCTATTAAGCCATTTTTAAGAAAATATTTATCAAATTCAATTTTTATTGAAAATATAGATAAAAATCCTACAAATAAAAATATAGAACATGTTTTAATTTGAACAAGAAATAAAGAAAATAAAGAAATTTTAAATATTTTGGTAAATAAAATTAATCCATATGTTTGTATGATTTTTTTGAATAGAAAAGATAAAATTAAAGAAATAGTTTCTTGATTAAATGATTTTGGAATAAAAAATGTGGGGGAATTACATGGTGGCTTAGATCCAAGACAAAGAAGCAATATGCAAAAAAGAATTCAAAATATGGAATTCAAATGAATTGTTGCAAGTGATGTTGCTGCTAGGGGAATTGATATTGATGGAGTAAGCCAAATTATTTCAATTGATTTACCAAATGACCTTGATTATTATATTCACAGAAGTGGAAGAACAGGTAGAAAAGAATATTCTGGTCAAAGTTATGTTTTATTTAATTCAACAAATCAACATTTAGTAGATGAATTAAAATCGAAAAATATAACTTTTACAAATTTTAAATTATCAAACAATGAATTGGTTGAAATCATTGATAAAACAAAGAAAAAAGAGTACATTGCAAGTTTACCTGTAAATGTTGAAACAAATAAAATTGTTAATAAATATAAAAGTAAAAAAGTAAAACCTGGTTATAAGAAAAAGAGAAAAGCTGAAATTGAAAAAGTAAAAAAAGATATTAGAAGAAAACACATAAAAGAATCAATTGCAAAAATCAAAAAGGAAAAATACAAAAAACGTAGAGAAGAACTATTTGACAATTAATCTTTGATAGGGTTTTAATTGTTATTTTAATGATTTATAATTATATTGTTTTAAAAGGGAGTTAAAAAAATGGATATAACAGAAAGAATTAATAAGTTAATAGACCAAATTTCATATCAAGTTTATGAAAAGGAAACAATTTTTAGACTTGCTATGTTGGCTTTATTGGCAGAGGAATCAATATTTTTACTTGGTAAGCCTGGAATTGCAAAATCACTTATTTCTCGTAGAATGAAGTTTGCAATTAAAAATGGAACAAATTTTGAATATTTAATGAATAAATTTTCAACTCCAGAGGAAATCTATGGACCGGTTGATTTAAAGCTTCTAAAAGAAGGAAAATATATTAGAGTGGTTCAAGATTATCTTCCAAGTGCAAATGTTGGTTTTTTAGATGAAATTTGAAAAGCTGGACCAAGTATTCAAAATACTTTATTAACAATTATTAATGAAAAAATTTTTAGAAATGGTGGAAAAGATATCAAGGTTCCACTAAAATTGTTAATTTCAGCTTCAAATGAGTTACCAGCAGAAGGTGAAGGTCTTGAAGCTTTATTTGACCGTTTCATAATTAGATTTATTGCAGAAGGATTGAAAGATGTAAATAATTTTGAACAATTATTAGATGGTGAATCATCTTTAGATGTTGAAGTTGATCCAGAACTACAATTAACTCTTGACGAATTAAGTGTATGAAAAAAACAAATAAAAGATGTAAGAATGAGTAGAAGAACTCTTGATTTTATTCATTATTTTAGAAAAAAAATGACTTTAGAAACAAATGGTGAAGGATATATTTCAGATAGACGTTGAAAAAAAATATCAGGTCTTATTAAAACAAGTGCTTTTTATAATGGGAGAGCAAAAACAGATATTCCAGATTTATTTGTTATTCCATATTGCATATGAGATAATGAAGAGCAAGAAGAAAAATATTTTTCAATTTTTTATCAAGCATTTTTAGAACAATTTGGTTTAGAATGAAGAAATGAAAAAAGAAATTTGTTAAATCAGTTAGATTTAATAAATTCTCAAATTGGTCAAATTGAAGCCCAATACTTAAGATTAACTCCATATGATAATCCATTTAAACAAAAAATTAATCCAGGAACATATTATTTTATTAACTTTACTGATGGTGGTGATGAGTATAAAGTTTGTTTAATCTCTGCAGCTGATTGAAATAAAGTTAGAAATTTACCAAGTGAAGAATTTGAAATTGAACTTCATTTTGGGCCAAATTTAAATAAATATGTTGGTAGTCAACTTACTTTAATAAAAGCATATAAATCAGATCAAGTTTTATTTGTAAAGGAAAATAGAAGATATCAAATTCAAAATGATAATGCAGCAGAATACAACAATCAAATGGTTAATTTAAGTCAAAAGATCACTGAAATTGAAACTTTAGTTAAAGAAGTTTCTGCAAAAATGTTTAAAGAGTATAAAAAATATACAAATATGAATTGTATTTTCTTTAAAGATATTTATGATGAAAAAATTGCAGAAGCATTTGATACAAAACCAAAAAATAAATTAAGTGATTCTTCACTAGCAGAAAATGAAGTTCAAGAATTTGAAGATTTAGATATTAATATGAAAGTTTAATAAAAAAAGGGAGAAGGGCTATTATGGAATTTGATCTACAAAAACCTGTAAATGAGATCAAAAATGAAATTGAAAAATTAAGAAAAAAAGACTTTCATAATAGTGATTTTCTTTTATTCAAAAAAAATCATGAATATGCTGCAGAACAATTAGATGATAAAATAAATAATTTTTATAGTGCATCAAATTTGTCAATAATTAAGCAAGTTAAAATTCCTGAACCAATTAGAAAAGAAATTGTTTATTATAATTATATTTCAGAAAAATTTGATGAAGTTTCATTTTCTCAAAATTTAAATTTAATTCAATCAAAACTTATTGAGTTTGATTCACCATTTTCAACATATATTGACACAATGAAATGGAAAATTGATAATGGTTATTTTGAGTTAAAAGGTAGAGAATGGTATACAGAATTTTTTAGAACTTGAACATTTATGTTAACAAAAAGAATAGTTGATTTTAGAATGAAAGCAGTAGAAGATTTGAGATATAACTATTTGGTTGAAATTTATTCTATAATAAAAAATTATGGTAAATATGCAAAAATATATAAAACAATTTATGATGTTTTTGGTAAAATTGCAAATGTTGAAGATGAACTTAAAAATCAAAATATTGAATCAATTGCAAGATTTGCAGAATTTCTATATAAAGATCCCTCAATTTTAAGAATTGCAGAGTTGCTTGGTAGATTAAATGGTGAAGATGATTTAATGGAAGTTAATATTACAGAACAAATTGTTACTTACCCAACTGAAGTAAAATTACCATATAACCCAGAAGAAATTGTTGGTTTAACTGTATCTAAAGATTTAGAAAGATTATTACTAATGGAATTTGCAAATCTATTTGATGAAGAATTGGAAGTAATTTTTTATAAAAAATATATTGAATCTCAACTACAAACATTTTTATTTGAATCAAATGAACAAATAATTGAACATGAAATTGAAGAAGTTGAATATGAAGCACCAATACCACTTGAACAAGGAAAATTTATAATTTGCATTGACACTTCAACTTCAATGGAAGGTGCTGGAGAATATATTGCAAAAGCGCTTTCAATTGCTGTTGCAAAAGTAGCTTTAAAAGAAGAACGTGACTTAGTTTTTATTAATTTTGCAAACGAACATGTTGATGAATTTATAATTAATGCAAGAACTGTTAATGTCCAAAAAATGTTAGATTTTCTTGCAAAATCATTTTATGGTAAAACAAATGCAAGACCTGCTTTTCAAAAGGTAATTGAAAAAATGCATTCACAGGATTTTAAAAGAGCTGATTTATTAATGATTTCTGATTTTATGATGGACTCAGTTTCAAATTCAATTAGAGTAAAAATTGCTGATTTAAAAGATAATTATAATAGATTTCATTCACTTGTTATTGGAACAATGCCAAATGTTGAAACACAAGATATTTTTGATAATGTCATGTATTATGATCCAAACGATCCATATGCAACAACTCAAATTGTTAAATCTCTTAATGAAACATTAAGAGATTTAAGAGAGTTAAAAGAAGAAGAACTTGCTTATAGAGATGAACAATTGGCAGAAATTAATACAATTAGAGATAAAAAAAGAATGCGTGAAGTACACAAAGATGATCCAAAATCAAAAAAACTTGAAAAGAAAAAACAACAATTAAGGAAATTGGAAAAACAAAACCAATAAAAATAGATGAGGTAAGCATGATAGTAAATGAAAAATCAAATTTATTAATAGTATATTTTGAAACAGGTGAAGAGGTTATTAATCAAATTAGTAATATCATACGTGAATATAAATTAATTGATGCAAAAATTTCAGGTTATGGTTATTTGGAAAGAATTGAATATGGGGTTTTATCTCAAATTGATCCATTTTTTTTATCAAAGCATCTTCAAGAAGGTTTAATTACAGTTACAGATTTTTTAGGAATGATTGAAAATAGAGAATTTAATATTATGGTAAGCAGTGTGGACTCAAATTTTCTAAGACATCAAGGTAAATTAATTAGTGGTATTGTAATTAATTCTTTTACTTTAATTTTAGAAATTCTAACAACAGAATAAAAAGTAGTTTATATTTTATATACAAACTGCTTTTATTATTTTTCTAGAAGTTTATTAATTCGACTAATAAAACTTTCTCAAATAGATATCATTCTTGTAAGTTCTCTTTTTCCTAAAAGTGTTATTTTATAATATTTTCTTGCTGGTCCTTGTTCAGAGTTAATTAAATAATAATCACAAAATTTATTATTTAATTAACTTTTTGAAAATTGCATAAGCTGTTGACTCATTGATTTGAACAAATTCGCTAATTGCTTTATTTAATTCATATGTATAATAATCTTTTTTATTTAAAAAATATAATACTATCATTTCTAAAATCCCTTTTTTTAACTGAATATCCAAATTAATTAAAATTGAAACTGAATTGCAATTGTTCAGGTTTTCAATTCATTATTGAGTTATATCATTCTAAATTAGGGATTACTATAGAAATATTTTTTATTTTATTTTCTTCTTGAGTAACATTAAAAATAATTTTTCCATTAATAATATATTTTTCTTGTAAATTATAATTTCTTTTTATATTAAAATTAAAAGTATTTTGATTTTCATCGTTTTGATCAATAAAATCAAAATCTCTTCATTCATTAGAATTTTGCTTAAATCAAGATGTTTGATTTATTTCTTGAAAATAGTGCATTAATTTTTCTTTGTTAATTTTATTTTCATCAATAAAATTATTATCTAAGTTTATTTTTTCAATAAATTCTTCTTGATTATTAAAATTTATTAATTCTTGAGATTTTTTGTATCTATTATGAACTATATAATCAATGTATCCATTTTTATATGCAAACCCCATTGTAAACTCTAAAATAATTGCCATAACAACTTCTGAAACAATTATTTAAATTATTCAAATTTTATAGAAAATTGTTTTTGGTTTTTTCTAATTTTAAAAAAATTTGATAATTTTAAACTTGATTTATATAAAATAGTTGTTAAGAAAAAAACTAATACAGTTGCAAAAGGAACAATTGCAATTAGAAGTAATGAGATACTGGTTCCAAAATATGGGTCGTAGTTTATATAAGACATTGCTACTGCAACTATTAATGAAATTGGTGTAATAATTGCAGTTATTGCAAATGCAATTGTTAGTGTTCAGCTAACTAAACTAATCATAAAACTCAAGATTGCTGCAAAAATTTTTGAAAAACTTCATCTAGACTTTTCTTGATTATTTTCATTATCAGTTATTTCTACTTTCATAATATTTTTCTTAATTTTTTCCTTTCTTTTTGAAGAATCTTCTATATTGAATTCTTCATAAATTTCTTTAACAATTATTGGAATTGGTCTTAAATTAATTAAAATTGATTCTGGACTTTTTCCTTCACTTACTTCTTCACTAAATTGTTCTGTATAACTTAGTAAAATATCATCTCTATCTTCAATCTCTAATTTAGATAAACCATTTTTTAAAAAAAGTATTCACTTTTTAATTTTTTTTGGCAATAAAATTTTTTCTGTCATATTAATTTTCTCCTAGATTTAAACTAAACAAAGTATTCTATAATAACAAGTAGTAAAATAAAGTTAAAAATAATTTATAAAATTTAAAAGAAAATATTTTCAATTAAAAATTTTCTTATTTTTTGACTTAAAAAAATAGTGTTTTGTATAGTTTTTTAGTATAATTAAAATAATCTTTATCTATGCTAATAAAGCATAAATTGAGGTAGAAAAGAAAATATAAGAGGTGACCTAAAAAATGATTGGTATTATTTCAACAGCTTATTTTACAGTTAGAGATCGTGAAGGAATTAAAACTGTAAGAAAATATTGATGAAGAAATATGGTAATTCAACATGTTAAGTACAGAGGAAAATTTTTTGTAATTGCAACTATTGGATATGGTAAAGCGAATGCAGCCATGGCAATTACTTACTTAATGGAAGAATACCCAACTTTAGAAACAGTTCTAAACGTTGACTTAGCTTTATCAACAAATGATAAATTCGACACAACAGATACAGTTATGGCTACAAAATTTATATACAGAGATGCAGACCTAACAGTATTTAAAGATATTAAATATGGACAAATCGTTCATGAACCAGAAGCATTTGCTTTTAATACAGAACTTGAAACACAAGTTAAAAACTTTAAATTAGGAGTTTCAGATGGAATTATTGGTACAGCTGATATGTTAATTTACAACTCAAAACAATTTAAAGAAATGGTTGATAAATATGGACAAACAATTGATGTTATTGATTCAGAAGCTGGAGCACTAGCTCAAGTTGCTAAAAAATCAAGTGTTAACTTTGTAGCAATGAAAATTATGTATAATAATGCATTATCTCCATGAGATAATGATCCGTTACATAAATTTAAAATTTATGAAACAACAAATACATTAAAATATTTAGTAGCAAGATTATTTAATCTATTATCATCAAAATTATTTATTGATTTTTCAAAAAGCACTATTGATGAATTAGATGTTATTAATGAATTATTTGAAATGGAACATGATGCTTGAACAAAACGTTTCAAAAAAAATGTTTCTTCATTACTTTCAGGATTCGGACCTTCATTGATGTTGGTTGATAGTAAAGCAGCAACTCCAGAAGCAGTTGATATTGTTGAAGTTATGAAAACAAAAATTGAAGATGAAGGACCAAGTAAAATCATTTTAGGTGAAGATGAATGAAAAAATGCACCAAAAAAATGATTACGTAAATTAATGTTCTTACAAAATGTTCATGTAAATGATGATGAACTGTTATGAAATAAATCAGCAAAATATGATACTAGATCACATAAAATTAATTCAATTGAAGATGTTGCAAAAGCAATTTCAAAAGCAATTTCAGATCGCTCACAAGATAAATCATCATATACTTATGATGGTGCAACAGTTGCTAAAAAACACTTATTAGTAACAGTTGATGCTGCAATTTCATTCTATATTACAAATAATTCAACACATGAATTTGTAGAAGAACCAAAATATGGTTCAAAATTAGTTGCAAATGAATTTACAAAATTCTTAAATGAACAATTAGCAGAGGTTGATTCACCATTTGAAAAAATAATAGTGTATATTAAAATTCCTGCAATTGGAGCTTCAAAATTACCTGTATTTATTCAAACAAAATCAAAAGCAAATACTCCAATTGTTTTTGGTGGATATTCAGCAAAAGAACAAAAAACTTATACAGTTGTAGATATTACAAGAAATGATTATGACCCATTAAAAGTTGGTTCATTCAAAGTAACTATTCGTTTGAAAAATGAATTAAAATAGTAAAACAAATAAATGAAAATCACGTTGATCAATATTTCAAGGTGATTTTTTTATTAATGATTTTATAATATAAAAATCATTTTATATTATAAAATCATTTTTATATTCCTTAATTTAAAATTAATTTATAGTTGTCTAAAATATTTTAGACAATTTTTAAAATATAAGGAGTTAAAATGAAAAGAATACTATCGTTTTTAATGTCAAGTACATTAGTAATTACTTCAACAAGTCAAATAATTGCCTGTACAAATCCATTAAACTCAGAAAATTCAAAAAGTAATATAGATTATTTAAACATAGGAAAAGATATAGATACGAAATATGCATATAATGATGGAGTTAATTCAGAAGAACATGAAGGTTTTACAAATTATTATATAATTGGTGATAGTTTAAGTGACATGGATGGTTTAACTACATTTTTTAGTGATTATCTTGGAGAAACAGGAAAAACTAAGCAATCTTCAAATAAAATTAAAGAATTTAATTTAAAATTTAAAGGTGGTTATGGATTTGATGAAAATGAAAAAAGAAGAAATCCATTTACAAATGGTGAACCAGCAGGTTATGTAATTGCTAAGGAATTACATTTTGATAATCTAGAAGCAAGTAATTATTATAAAAAAATAGATTTAGATATAAAAACTGATTATGGAAATAATTATGCAGTTGGAGGAGCAACGGCTGCAAAATTTGATTCACCAACTTCAAAACTTTTATTTAATAATTTTATAATTGTTGAACAAACAAAGGCACTAATTGAACAACACAAAATTGGTGCAAATGATTTTACATTATTTCAAATCGGTCCAAATGATTTATTTGCAATAAATGAAATGACAGATGATAAAGATATCGATAAGTCAATTCAAGATGTTATGGATGCAATTACATATTCATTTTTTAGCTTATTAAATAATGGAGTAAAAAATGTTTTATTTATGACACCCCCAACACTAGATACAATTCCTCTTTACAACTCATATTCTGAAGAGCAAATAAATAAAATAAAAGAAATTGGAGAAAAATTTAATACAAATTTAATAAAAGTTATTAATCTTGTTATGAAATTCTATCCAGAAAATGTTCAATATTATGATTTATATAAAGATTTTGAAAATGTAAAAAGAGAGTATAAAGATTCAGATTTAAATACTTCTGAAAATAGTAATAAATTAATTTTGGATAAAGGATATTCAAAGGAAAAACAGCTATTACTAACAACACCAGATAAAAAACAAAATGGACAAGATTATAAATTTGAAATTAATTCATTTGATGTTAATGACTTAACTGAATTTTTACAAGAAGTTTCTAAAATTTCAGAAGAATTAAAAGGTAAATCAATTGATATTAATGGAACAATGACAATGGCGTATAATTCTGAAAACGGAGACGAAAATATAGAAAATTACTTTTTTGTAGATGATGTTCATCCTTCAAAAGGTGTTCATAAATATGTTGCAATGAAAAAAATTTTGCCAATTATTAAAGATAAGTTTATAAAAAAATCTTAGTCAATCATTTTATAATATCAATTAGTATTTTAATGATTTTTTAAGGAAATTATTTTATACTATTTATATATAGAGGTGATTCTATGACCAAGAGAAAACTTACCAGAGATGAAATTGAAAAAAGTATAGAACTTGCTTTTCAAGAATTACTAGAACTATCAACAATGGATTTAGAAAATAATTCATTTCAATTAGAAGAAGATAAACAGAAATTCAAAAAAAATATTAAAGAAAACCCAATTAAAAGTAATTCAATTGAAAAAGTAAATTCAATTCAAAAAAATTCTAAACAAACTGATTTAAAAGCAATTATAAGTTTGGCAAAACAAAAGGGTAAAGAAATAAATACTGGTAAATGAAAAGATTATGATTCAAGTAGAGAAGATGAAGTTCTTTTAAAAGCAAAAAAAGAAGGTAAATCAGCATATGATTCAGATGTTTTGAGAGAATTAATCCTGGAAAGACAAAAACAAAAAAGAAAAACAAATGATGTTAATGAAATTATTTATAAAAAAAAGTAGTATTTTTTAAGATTTAAGATATTTTTTTCAAAAAATATCTTTTTTTTGAATTAATTATAATATTATAATTCTATTGATAAAAAAAGAGAGATTTTAAATGGAAACAAAAGATTTGGTTAACAAACAATTAGCAGATGAATTAGAAACTACTTTAGAAGCTGTTGAAGAATATAATGATGAATTTTATTCATCTGATGAAAAAAAAGCAATTAAGAAAAAAGCAAAAGAACTTTCAAGAAATCATACAGAATATTTAAATACAATTGAAAATAAATTACTTTCAAAAAGAGAACAAACATTACTAGTTCAAGAATATTTTAAAACTAAATTTCTAAAAGAATTAAGAAATGTCGCATTAGCAGCACTTTTTATTACTATCGCTTTTGACTATTTTATTACAACAACTGGAAGATCGGGATTATTTCCTGCAGGTTTGGGGGCACTTGCAAGATTTTTTGCTATTTTAACTTTTCCTGACGATAGTCAATTGCAAAGTTCTTTTTACTTTATTTATTATTTTGCTTTAAATGTTCCATTAATTATTTTTGGTTACATAAAACTGGGTAAAAAATTTACTTTTATTACTTTATTATTTATTATTCTTCAAATTGGTTTTGACCAAATTATTCAAAATCTACCAGTAATAAATCCAACTGATTTTCATATAATTATTAACTATAAACTTCTTCAACAAATGCCTAATTCTTGAAATATATCTATTTGATTATTTATTTTTGGTTCACTTGGTGGATTGCTTTTAGGTTCTTCATATTCATTAGTTTATAAAATTGGTTCATCAACAGGTGGACTTGATTTTATGACAATCTACTATTCAAAAATAAAAAATAAACCAATTGGTTCAATTAATAGAAATGTAAATTTAATAATTTTGGCAACAGTTATAACTTTAAATACAATAATTTTACCTGCAGGACTAATTAACAGTGATATAAAGATAAATGTTCTAAATAATCTAGGAGTAGATAATGCATATAAACACTTTTTAAGTGATGGTAAATCAATTGTACAATCAATGTGAGATTTTGCAGCTAATGATGCAAAATATGATGGAAATTGAGCTTTGTGATTTAAAGATCAAACAGATTGAAATAATTTATCAAAAGAACAATATGAATTTTTAGTTCAATTTGTATCTCAAAGAGGATATGGGGATGATTTAAGTTTAAATATTATTGTTAAAATGAAATTTATGTTTTTATTTGGACCTTCATTATTTGCCTCAATTGTTCTTGTACTTTGTTCTTCTGTTGCAACAAACTTTTTCTACCCAAAATATAAAGTTAGAACTTACTTAATTACAACAAATCATCCAAAAGAAGTTAATTCTCTTTTATTAGAAAATGGTTTTCAAAATGATATTTTAACTTGAGATGGAACAAATAGAGTAAATGGCAACTATTTACATAGAAGTCTTATAATGGTTGCAATGTCTGTAATGGATTGAGATAAATTAGAGAAGCAACTATTTTTAGCAGATCCTCAAGCCAAAATAAATATAATAAAAACAAAAAGTGTAAAAGGTTTATTTAATTATGAAATTAAAAAGAATGATGATAGAGATATAATTCATGACAAAATTTCATCTGATGAAATGGAACTTGAGAAAATAAGACAAATTGCTATTGTTAGATTTAATAAAGAAAATGAAAAACTAACGAAAAAAATTAAAAGAAAAATAAAAACACCTTCAAAAAGTAATGAATAATTACTGAAAAATTAGTTAAAAAATAGTTATTTTATTGAATTTATAATAAAAAAAGTGTTTTTATTATAATTTTTTGTTTATAATTAATTGAGTAGTGGTGATTTAATGAATAAAAATTCTCTAGAAAAAATAATTTATAAAATGCTTGATTTAAAACTTTTAGAAGTTAAAAGAGAAATCAAGAATATCTCCTTTAATGATTTATATGGTTATTTAATGGATGTAATCTTAAAGAAAAATTCTGTAAAGGATCTCAATGATATATCATTTTATATAATGAATATAAAAATAAATAAATTATTTGAATATATGAATTTAGTAGAAATTACCCAAAAAAATGACACAGTGATAAATGATTTAAAAAGTATCTTAGAAGGATAAGTGATTCAATGTCTAACAATCAAGAAATTAAAACAAAAAAGAAAAAAATATCTTTTTTTAGATTTTTTGGAATTTTTACAATATTTATATCACTTGTTATTGGAATAGTATTCTCATCATGAAGTTTTGCTGATGGTTATAAATTAGGTTCAGATTTTAAAGGTTATTATTCTGCATTAGTTGCAGTTGACAATTTAAATTCAGAAGCAACCACTAATGGTCAACCAAATGGAGATTCTGAAGAGGGAGCAAAAGCTTTAAATAATAGATTAAATCCAATGGGAAATAATCAAATAATAATTGAAACAGCGGGGAAAAACTATTTAAAAGTTTTATCACCCGTTGATGCATATGAAAATGAAACTATTTTTAAAAATCAAATTCAAAGAAATGGTGGAATAGTTCTTTTAAGTGGTGGTTCAACTGATACTCCATTTAAAGATTTGCAAATAACAGGAGAAGGTTCTTCAATTACAAGAAAAGGAATTAATGATTACTTTTCTTCTGCTGTTTCTTCAGCAGTAACAGGTTCAAATCAGAAAGTTCCTGCAATTAATTATGACTTAAATGGAGATACATTTAAATCATTATTAACAGCTGGACAAACTGAAGAACAACAAGGAAGTGGAAGTCTAGATTTAACTATTTTGTTAGATGCTGATGGATTTTATAATGATATTAGAAACTATTATAATATAGTTTCTGGTGATGATTTTGACCAAAAAATTGAAGATTTTTATGCAAATGTTCTAGAATATTTTAAAAATATTTATAGAAGTTCAACAGATCAAGTAGTTAAAGATGCTTTATATGACTTATTTTATGGAAGATGAATAGTAAGAACACAAGGAAGTGGTATTGAAATACCGCAATATGGTTCTTTAATTGCTCCAAGAAGTGATGCAAAGATTGCAACTGCAGATGGTTTTAAAGAAATTGCTAACTCATTTACTTATATGTCAGAAACATCAAAATATGTTTATGATTCAAATGCTGTAACAGAGGACTTTACAGATGAAAATGGAAAATATTCATCAAATGTAGAACTTTATAAAGAAAGCAGTAGTTCAAGTACTCAACCTTCTGTAAGAGTAGATAAACTATTTAATAGTTTAAATCCAGAAATGATTAAATTCTTTTCAGATAAAAGTCAAGGTTCTATTGAATCAACTTTTATTGATCACTTAAGAAGTAATTACTTTTTATTTAGTGGGAGTGTTTCAGAAACTGAATCTCAAACTTCAGCTGGTTATATTAAAGACAATAGTTTAGTAACAAAAGTTGAAACTTATACTAAAGCTCAAGTTGGTGCTTCACTATTTAATGCATCAGGAAAAGGTTTTGTATTTACAGTTAATAGCATTGCGACTTTAAGTGGTCAGGTTACAAATGTAATGTTAATGATTGGAATAATCTTTATGGCAATTGTAACAATATGCATAATGATTTATATGATATTCTTCTATAGATTATTAGGATTATTTTCAATGGTTATAACATTAGCAATTATAGGTTTAACTTTGTTATCAACAGTTTGATTTGGTTTAACAATTGGTCCAGAAACTATAATTTCAATGTTTATAATAATTGCTTTAAATGTAGAAATTTTTTCACTAATTTTTGAAAATATGAAACAAAGTGTTTTTGATAAACAACGTGGCTTAAAAACAAGTTTTAATATTTCTATTAAGGAAAATTTAGGTCTAGTTTTAGATCTTGTTGTCTCATTAATAATTCCTGGTATTTGCATGTTTTGATTATCTTCAAATGCAATTCGTTCAATGGCAATTGTTTTATCAATGGGTTCTTTATTTACACTTGCTTTTTCAATGATTATTGGAATGATAGCATTTAAAATTATTGTTAATGCTAAGTTTTTTACAAAAAATATAAAATTATTTGCTTTGGATACAAGTTTTTCAAAAGAAGGAAATTTTTTATTAACTTATAAAATTAGTAAAATAAAAAATAAAATTCAAAAATTAAATAGTAAAGATTTAAATAATAAAGTTAAACCTTTAGAAGAAAAACTTTTATCTTTAAATAATAAATTAGAAATTATTAAAGATAAAAAGTTAAAAAAACTTGAACTAAAAAATAATAAGATTCAACAAAAACTTACTTTAAAAATTGAGAAACTTAATAAAAAAATTTCAATATTAGATTCAGAAAAAAATGCAAATAAAATTCAAAAATTAAATTTTAGAATTAATGAAATAAATTATTTATTAACTGATCAAACACAAGAAATAATAGAAGCTGAAAGCATAATTGTTACTTCAAAACAAGAAAAAGTAAAAGTGAAAACAGTTGAAAAAAATATTTATCATGGTTTAAAAACTATTTCAATATTTGGAATAATTATGATTTTATTATCAGTTGGGATTTCATTTATATTTGGTATGAACTTTGATTATACTTTTGGTGGACGTACAGATTATACTTTTTGAGGGGAAACTGTAGATAATTTTTATAATGAAATGGATACATTTGCAGAGGATGAAGATGCAATAAATCAAAACCCTGATTTAAAACCTCTTTATGACTATGCAAATGTATTAATTGATGAAGTAAATAATTTGCCAATTGGTACAAGTGATACAGATAAAACTTTAAAAAGAACTGAATCTGTTTATAAATTTATTGATTTATCATTTTCAAATGATATATATTTAAACTATTTTGCAACAGCTTCAAATGTTAAATCATATCAAAAACATAAATTTTCTGTTTCATTTGGAGAAAACTATAATTTTAGTTCTTCTGCAAATCAATCATCAAATATTGCAAATTGAATTACATTAACAGTTTATACAACTGATAATAATCAATCAGCATTTGTAAAAAGATATTTTACAACCTTTGGTGTAAGTAAAGATACAGAAATAACTTCTGTTAATGGTTTTATTTCAAAAAGAATTAGACCAGCAACAATGCAATGAGCACTAATTGAAATTGGATATTCATTATTGGCAATTATTCTTGCTTTAATTATTTATATTTTAATTAGATTTAAATGAACATACTATATTGCAATGGTTGTTGCAATCGTTTTGGCACCAACAATAACAGCAGCAATCATAATTACATTACAAATTCCATTAGGAAATTCTGCAATTATTGGAATTGTTGCAACAATTGTATTTGCTTCAGTCTCTGCATTTGTAATTTTTGGAAAAGCAAGAAGTTTTATTTCTTCAAGAAATGAAAAATCATTAATTAATTTCTTTAAAAAAGAAATTGAAATATTAAATGATATTAAATTAGCTAAAAAAAGAATTAAGGATGAATTATTTTTTGCAAGATCAGATTTAAAATTATTATTTAAATCAAATGATTTTGATCTTGCAGAAAAAAGAAAAAAAATTCTTGATTTTAGAGAATTAAGACATCAAAAGAAATTAGAGTATAAAAATATTAAAAAAGAAAATAAAATAAAAATTAATAGAGTATCAAAAGAAAATAACTATCTATCTGAAGTTTTAGTAGAAACTTTTAGATTTGGAGTTAAAAGATCAATTTTATTATCAGTCTTTTATATAAGTATTGCATTATTAATTTCATTTGCTATTGCACCAATTATTTCTTTTGGTATTACAACAGCAGTTGGAGTTTTAATTGCAAACTTAGTAATTTTATTTGTAGCATTACCAATTTGAATTGTTTTTGAACAAATCAGAATTAGAAATCATTTAGCAAGAAAACGTTTTATAAATAGTTTAAAAGTAACAAATGAAGAACAAATCATTGAAGGAATAAATGATTAAAATTATTGAGGTAACTATATGGATTTAAAAAAATTTATTTGAGATGTAAAGGACTTTCCTATTAGTGGGGTTGTATTTAAAGATATAACACCACTTTTAAATGATAAAAATGCATTTAAATATGCTGTTAATAAATTAGTCGAATATGTAAAAACCAAAAAAGCACAAGTTATTGTTGCACCCGAAGCAAGAGGTTTCTTATTTGCAAGTGCAGTTGCTTATGCTGCAAATTGTAGATTTGTTTTGGTAAGAAAGCCTGGGAAATTACCAAGAGAAGTTTATGATGTTGAATATGAACTTGAATATGGAAAAGGACATATACAAATGCATATTGGTGATTTAAAAGAAAATGATCAAGTTGTTATTGTTGATGATGTATTGGCAACTGGGGGAACAATGAAAGCTATTGTTAAATTAGTTGAAGATTCAAAGGCAAATATTAATGGAATTGTTTTCGTAGCAGACCTTTCTTTTCTACATGACAGTGAGTTATTTGCAAAATATGATCCAAGTAGCTTAGTTACATACTAATATAAGAATTAAATTAAGCATCTATTATAAAAATTAATTTATAAGTAAAAACAAAAATTACTTATAATTATTTATAATAGATGTTTTTATTTTTTTAAAATGATAATGTTATATAATAGTATTAACTATTTTCTTAAATAAAAGGAGGATTTTTTATGCATAATCAGGAAAAAAATGATTTTCTTTTTGTTGAATGTCGTGATGTTGAAGTTCTTATAAATGAAATGAAAAAATATATTAAAAATAAAAAAATTATTGAAGAAGTTAAAAGAGCTTATTATTATGCTGAAGATAAACACAGAAATCAAAAAAGGAAAAGTGGAGATCCATTTATTATTCACCCACTTTCAACAGCATATTATTTAGCACAATGAAGAATGGGGCCAAAAACAATTATTGCAGGTCTTTTGCATGATGTAATTGAAGATTCACCAGTAACATTTTCAGAAATTGATGAACTTTGAGGAAATGAAGTTGCCGATATTGTTGAAGCAGTTACAAAAGTAAGTTATTTCACTAAAGAAAACCGAGAACAAATGAAAGCAAATTATTTAAGAAAGTTATTTTTATCAATGATTCGTGATATTAGAGTAATTATTGTTAAAATTGCAGATAGAATGCATAATTTATTAACTTTAGGTTTTATGACTCTTGAAAAACAAAAAATAATTGCAAAAGAAACATTAGAAATTTATTCAACAATTGCTCATAGAATTGGTATGAAATCTGCAAAAAATATCTTAGAGGATTATAGTTTTGAATTTTTAGATCCAACAGAGTATCAAAAAATTAAAAATTTATTAGAAGAAGATAAAGAATCAAGAAATGAAATAATTTATGACATGATTGAAGATATTAATAAAAGACTGAAAAATGAAGGATTAGCAAATAGTACATCAGTTTTTGGTAGATGTAAAACTATTTATTCAATTTACAGAAAAATATCACAATTTGGAAAATCATTTACAGATATAAATGATATCTTAGCAATAAGAATAATTACTTCCAGAGTAGAGGATTGTTATCGTGTTTTGGGATGAATTCACCAGATGTATACACCGCTTTCTGGAAGGTTTAAAGATTATATTGCAACTCCAAAAAATAATTTATATCAATCTTTACACACAACACTTGCAAATAAGGATGGTGTAATTTTTGAAGTACAAATTAGAACAAAAGAAATGGATGATGTTGCTGAACATGGTGCTGCTGCTCATTGAAAATATAAAGAAGGTGAGCATAATGTTGATATTGCAGAAAAACAAAAAGAAATTGATGAAAAAGTAGATATGTTCACAAGGTTAATGAATCTTGAAAAATTAGCATCAGAAGGTGTAGAAGTTGAATATGAAGAAAATCAACTTTTGGATTTTGAAAATGAAGTAGAAGAAACTTTTAAATCAGATTATCTTGCACCATTAATATATATATTAACTCCTGATGGAAATGTTGTAACACTTCCATTTGGTTCTACTGTTATAGATTTTGCATATAAAATTCATACAGAAGTTGGGAATAAAACAATTGGTGCAAAAATAAATGGAGTTTTCTCACCATATAATACAACTTTAAATTCAGGAGAAATGGTTGAGGTTCAAACTTCAAAAGAAGCAGTACCAAATGAAAAATGATTAAGATTTGCAAGAACTAGTGTTGCAAAAAAAGCGATTGAGCAATACTTATCTGAAGTAAGAAAAAAAGAACTTGAAAAGGAAAAAATTACAAATCAAAAAATTATACGAAATACAAAAAGAGAAATTGATAGATATATAATTGCAAATAATCTTAAGTGACAAGTAAAATCAATTGATGAAATTCAATTAAAGTTAAAAGTTTTAGATTATAAAAATGTTGATGAATTTTTATTATCAGTAGGAAATGGAGATTTTTCAATTCCTGAGGCTGTTGATGTTGTTTATGTTTCAAAAGAAGAATTAAAAGATATTGAAGTTATCAATGATATGAAAACTAGAAAATATAAATCAGTAAAAGGAAGAGATGATTTAAAAATAAATGGTATAGATAAAGTTAATTGTACATTAGCACAATGTTGTTTTCCAATTCCAACTGAGCCAGTAACTAGTTTTATGTCAAAAACTAAAGGTATTCAAGTTCATAGAAGTGAATGTTCAAATATATTAAATATTAGAAAAGTTAAAAACTTATTAAAAACAGAATGAATTGTCAAAAAAATTAAAAATAAAACTTATAATACAAAATTAAGAATAACAACATATGATAGACCAGGATTATTTTTAGATATTGTAACTGTTTTTGCTTCACAAAGAATAAATATTGTAGAAACAAAATTAATTTCAAATGAAGAAGATTATAGTGGTAAGGGAAGTATAATAGTTAGTATAACAAATTCAGAACAATTAAATTATGTTTTAAAAAATTTAAGTGAAATACCAGGAGTCATAAAAGTATCAAGAGCAACAACTTCTGGAGATGATTTTAATTAATTTACAATTATTTTACACCCATTGTTTAAGGCAAATATTATTTTAATTTTAAGTATGATATAATAATTAATATATTTGGGGGTTTTTATGAAAAAAGAGATGGTCAATCTATCTATTTTAGAATTTGTTGAAGCTAATTTAGATTTTAATATTGCTTCAAATAGAAAAGAATCAGAATATGATTTTAATTTTACTAGATGAAAAACAATGATTTTTTCAAGTCAAAAGTTAAAATTTATTTTAAAATATGTTCAGTCTGTTTTTCAATGATTAAGTAAAGTTGTAAATGTTCAAAACTTTACAGTTTCAATTGATACAACAACAGTAGATAGATTTAATTTATCAGTTTATGAATTCGAAACACATATTTTTAATTGTTCATTATTTACAAATTTTTATCTAATTCCAGAAGGTGATTGGTCTTCAAAAATTTTTGAAATGCATTTTTCCAAATATGATTTAATAAATGGCGATTTAATTATAAAAGAAGAAACAAACTTTTGAAAAGGTGAAGATGGTTTTGAAAAGTTTGTCAATATTCTTTATTTAATTATAAAAGAACCATATAAATTTGAAAAAAACTTACCAGTACAATGACAAATTGACTTTAAAGATAAAAAATTGTCAAGTTCTCAAATTAGAATGCAACTTGCATCATTGGTTCAAACAGGAATTCGTCCAGAGGATCCATATTTGACAATTGAACAAGCAATGAAAATTGAACAAGGTGCAAATCCTGAAACCATTGCACAAGAGCAAAAAGAGGTAAATTTATCAAAAGAAGTTATTAATCCAATTTGAGATGAAGCAATAGAACAAGAAAATAAATATAATGATTTGAATTTTGCAATGGCAAAATCTAGAGGTTTAATCCCTTTTGAAAATAAGAAAAGAAATAAAAAAAATAAATAATTTTATAAAAAGTAAAAAATATTTTTAAATTATTAGAAAATATTTTTTTTAAAGTATAATAAATTTACTTATTATTTAAAACTATATAATACTAACTAATTATAGGAGAGAAATTAGATGAAAAATTATTAACTTTATTGGCTAGTGCTACTTTAATAACAAGTACTAGTGTAACAGTTATTGCTTGTGGAGATAATGACCTGAGTAACCCAGAACCAGAAAAACCAGAATCTGGTTTTCAAGAATTAATTAACGATTTTAAAAAAGATCTTACTACAATTAAAGATGAGTATTGAAGAGAAAAAACAGATAATTTCTTTTCATTAGTTGAATTTAATGAAGAAATATTTTATTTCTTAACAAAAGAAAAATAACAACTTTAGTTGATAAAAATCAAAACCAACCCGTTACAAGTATTAACGAAGATGATAAATTTCTATTAAAAACTGATATTGAAAAAATAATTAAAATCGATGAGTTGAAAGAAAAAATAAATTCATCAATTGATAAGGAAAAATATGGAATTTTAATTAATGGAAATAATTTTTTTTCAGGAATAGATTTAAATTGATCAACATTAGAAATTAATTATTCTAATGATAATTTAGAAAATCAAAAAGCAGGAGAAAACTTCATTTCTTATGTAAAAGTTGATTTAAATTTACAGTTTAAATATAAAGATGAAAATCAAGAGGAAAAAAATTTAGATATAAATCAAAATTTTGTTTATATACTTACATCAAATCAAGCATTAATCGACGCAATTAAAGATTTAGAAAAAAATGTAAGTAGAAGTTTCTTTTTATCCGGAAGTGAATTTAGTTTTCTGGATAAAGAGGACTTTCAAATTGATTTAAATGAAACTTAAGAGTCAATATTTGGAGAAGATTTAAATTTTAAAAAAATTTATGAAAGTGAAGAATTTAGAGAATCAATTTTAGAGTTTATGTAGACTAAATATTTTTCAAGTTTTTCAAATTTACCATTAAAATTTAAAAACACTAACACATTTAGTGAAATTATTTTGCAAAAAACATTAGTTCAAAATGAGAAAAAATTGAAAAATGCTCTTGAAAATTATCAAGATGAATTATTATTTAATTCTATTTTTAACAAAATTACAGAAAATGATGAAGCTTTAATATTTGAGAAAAGTAATAAAAATATTAATTCTCCAATTTATAAAGAGATTAGTTCATCATTTATGAACGTTAATAATGAGTATGAAAAACAATTTGCAAGTGAAATAACTAATTTTGAAGCTTTGACAGGTGATAAACTTGATGATTCAGTAAAAGCAGTTGTAAATAATTCAATTAAATATTATGAAGTAAAATTAAAAAATCTTTCAATAAAAATTGGAACAGCTTATGAAAATCCAATTAATAATTTATCATTTTTTTCATCGTTGCAGTTACAAATGATGAAACTGCAGAAAATAGAGAAAATATTACAAAATCTAATTTATTTGGAGCAATGTATTACAACGTAATTTCAGGAATTAAATCATATCAAAATATTTTTGGAATTCTTGATAGTAATGAAAGCGAAGGAATACCAATCGCTAGTTTTACAGGTATGTCAGCAAACTCAGAAAATGAATTAGAAAATCTTTGAAATATGTTTAAAGATCCATGACCTAATAATACTGCAGAATTACTTAATGAAAACTTATCTTTAACATATGAAGGTTTAAACAAAAGTAGAAAAAGATTACTAAATGAAGGATTTCAAACTAAATTTAAATGAGGTTTATATAATGGAGGGCTTTCTGAAGAAGCACATAAAAATGTTATTTACATGATATCAAAAAAAGGATTAGAAGTTCTAGAATTACAAGATCCTCCTGGTCCTGTACTTCCTTCAATTGGTTTTTCACTTAACTTTATAGATATTAATTTTGAAATTAATAATAATGATTTAATAACAAAAAATACAACAATAATTAAAAGAGTTAATATTTAATTTTGTTAGTATAAATTTTTAAATAAGAATAAACAACCTTAAAGAGACTAAAGTTTTGTAAAAGGTTTTTTTTAGAAAAATAGAGGAAAAGTAATTAAAATAACAATTAAAAAGTATATAAAGGGCAAAAAGTTAAAAATATAGTAAAAGATTTAAATTTAAAATTTAGTTCTCAATTACTAAAATGGTGCAATCCTTTTTGTATAAAGATGAAAGAAAATTAGACTATTTTGAAAATAACATGAAAGTTAAAAAAAAGAGTACTTACTTTCATATACAAGATTAGAAGTTGCAAATTTCTTACATACCAATAAAAATGTTATGTTTTAAATATACCAAAACATTCATATTATAATGAATTAACTTATTTATAAAAAAAATTGTTACCTCTATTTATCTAATATTAATTAAAAAAATATTATTAGTTCAAAATGAATTATCTATTTTAAATAAAAATAAAATAATATTTAAAAATATGAAAAAATCGAAGTTCAATTTTATTGATTCTAATTAAGAATTAAACTTTAATTTAAACAGCAATATTTTTTAACCCTTTTTTTAAAGTATAGTAATTAATACTTATTCATTAAAAATATTAAACGTTCTATAAGGAGTATTAACATGAAAAAATTGTTATGTTTTTTAGGAAGTTTTACTATATTGACAAGCACATCAATTAGTGTTATTGCTTGTAATTCAGATTTAAAAGATTTAGATGAAAATAATCAATTTGATTTTCAAAAATTAGTAGAAGATTTTTTAAAAGATCTTACTACAATTAAAAATAAATTTTGAAATGAAAAAAATGATAGTTTTTTTGCTTTAACTGAATTTAATGAGCAAGAGTTTGCTTTTTTGGAAAAAGAAAATATAATAAAATTAGTTAATCAAAATAATAATAAACCTGTTGACAATTTAAGTGAATCGGATAAAACTTTGCTAATTCAAGATATCAAAAAGTTACTTTCGGAAGATGAATTAAAAAGTAAATTTGATTCCTTATTAAATAAGGAAAAATATTCGCTTTTAATTAGTAATTCAAATTATTTTTTGAGTTTTGATTTTGATTGAAGCACATTAGAAATTAATTATACAACTCAACAATTAGCAAATAAAAATTTTGAAAAAAATGAATCGTTTATTTCCTATGTAAAAATTGATACAATATTGCATTTTAAATATTATGATAATAATTTTGAGCAAAAATTTTTTGACTTAAATCAAAAATTTGTTTTTACATTGACAACAGATGGATCATTTATGGAATCAATAAAGAATTTTGAAAAAAATATCAAATATAATTATTTTTTAAGTGGTCAAAAATATAGTTTTCTGGATAAAGATAATTTTGGAATTGAACTAGATAAAAATTCTGATGATATATTTGATAAAAAAATAAATTTTAGAAATGTTTATGAAAATCAAGAATTTAAAAATAACATAATTAATTTTATTAAAAAAAAATATTTCCAAAATTTTGAAAATATTCCTTTAATTTTTAAAGAGAGTAATATTTTTGGAGAATTCATTTTATTAGAAGAATTTTAAACTTATCAAGATTCTATTTATGAAGTTCCAATTGAAATGGAGTCTGAAAAATTATATGATTCTATTTTTAATAGAATCACTTAAGAAGACTCAAAAATGATTTTTAATACTAATTCATCACAAATTAACTTATTTATATATAATGAATTAAATTCAATATATATAAAAAATTATGAAGTTTATACTGAAAAATTAAATAAACTTGTTATTGAATTACAAGAAGCTTCAAATATTTTTTTATCTGAAGCTGCAAAAGATTTTTTATAAAATTCAATTAAAATTAGTGAAGTTAAATTAAATAATCTTTCAATTAAAATTGGTTCTTTATATGAACACCCACTAAATAATTTGTCTTTTTATACGTCAATTGCAGTTACAAATGATGAAACAGAGGATAGTAGAGAAAATCCTGTTAGGTCTAATTTGTTTGGAGCAGTGTATTATAATACAATAACAGGAATTAAATCATTTCAAGATGTTTTTGGAATAGTGGATAGAAAAAAGAATGAAACATTCTCACCATTAGCAATTTTTACTGGTAAAACTAATGATTTCTCTGAAAACTTATGAAATAATATTTTTTTTGAATTATCTAATGCTGAAATAAATAAGTGATTGTCTTTAAATAAAGAAGAATGAATAAAGCCTAAAGAAATATTATTAGATAATGAAAGACAAAGTAAATTTTCATGAAATATTTTAAATAAAGTTGATTCTTTTTGAAATGAAAATAGAGCGGTTTATTGAAAACAAGATTCAACAGGAATTAGAATAAAACAAAGTTTTGAGCAAATAGAAAGTCAAGTAATATCTATAGAATTTAATTTTATTAAAATAAAATTTAAAATAGTAGATGTTTTTTGAAAACAAGAAGAAAAATTGATTTTTCAAAGAAAAATATAAAATATAAAAAATAAATTTCCTTTACACAACTCAATTCCTTTTATGATTTTATTACTATTTAATATTAAGTTCTTTAGCTTTTGGAATTATTACTAGTTTTACTAACTCTCAAGCTTCTGTTATTAAGTACTTTAATTTTTATGTTTTATTTTATATATCTTGCTTATTATTTATTTTAATTCTAAGAATGGTTCAATTCTTTTTTCATAATAAAATTAAAGATAAAACCATTTTTATTGCACTATCAAATCAAGTCTCAAGATTAAAATTATTTATAAGTATTTGAGTATTAATGTTAATTGTAGCAATTTCAAATTTCGTTATAACATTCTTGTTAATTAATTCTTTAAATTTTTTATCATCTAGTTTTATATTTAATGAACTTCTTTTTAAAATAACATTGACTTTTTTAATTTATGTGTTTTATCTAGTATATTTTTAGTAAATTTCATAATATTTTTAATTTTTGTTTTTTCTTTACAAACTACAACAGTAATTTGTACTTTATTATTATCTGTTTCTTTTATTGCAAATTTACCAATGAGTTTTCAACAAGCAAATGAAAAAAAATTAACTATTAATTTTAAAAAAAATGGAAGTGAAATTCAAATAAGACTTCCTGAACTTTATGATTCGTTTTATTTGCAAAAATATGTAAATGAGGAAAAAATGAAATATAAAAATATTTCAAAATGAATTAATGATATTTTTATTGAAAATCAATATTATTTAAATGATTTTTCTTCCGATAATTCATTTATTCACAACGAAAGAATTGATGCAGTTTTAAAAGAATTGGGTGCTATAAATACTTCTTCAAAAGTAATTAAAGCAAATAACTTAGAAATTAGAACTTTAACCTCAATAAATTCAAATATTCCAGTTAAATGATCAAAGGGCGATAAAGTAGATGTTGAATTAACTCTTAACAATACATTTATTTCTATTGAGCAACTTGAACAAAAAATTTTAAATGAATTAAATGAAGTTAAAAAGCAAATATTACAAGATCTATATGATTTTGCACTTTATATTAGAAAAGAATTTTTTGATTTTCAAAAAGAAAAAACTGATTTATTTGATAAATATATATTTTTAATAAATGAAAATAATGAAAGTAAAATGATAAATACATCAAAAGATTATTCCGAAATTACTTTTAAAAAAGAATATTTAAAATCAATTTATAATTATAGATTAGATGGAAGTTATAATGGTGATTACTTTACATTTACAGATAATAGTGTAACTAATTTAGTAAGAAACGACTTGAATTTTGAATTAATGATAGTAGCTCTAATACTTGAACAATATTTTATTAAATATACTAGCAATTATTTAAATGCTATAAATAACTCAGTTTCTATTTCTTCAGGAGACTTTGAAAATATATAAATTCAAGAAATAGTTTAAATATACTTTCATATATAAACTTATATAGTGGTATGTGATCTGCATATACACTATACTCTGGTTTTTCATATGAAGATTTCTGATTTTTATCTTCATCTGATTCTAAAATTGCTTTTGATGAACAAAAAAACATGTTTCTTGGCTATACAGAATTTTCTTTTAAAATTGATGATGGCAACAAAATTATTGGAGATTCCTACAATAATTATATTAATCCATTAATTTATGTTTTTATACTCATAATTTTTTCAATGATAATATTTATTTTTGAAATTATAAAATTTCAGAAAAAAGATTTAAGCTAAAGGGGGTGTATTAAAATTAATAATAAAAAAAAATGAATTAAATTATATAATTGAAGTTAAAAATTTTAATAAAAAATTTAAAAAGAATTTAGTTGGTAAATTTTCTTTCAAAATAAGAAAAGGCGAAATTACAGCTTTGCTTGGTGTTAGTGGTAGTGGAAAGTCAGTTTTAATTAATTCTATTGTAGGATGTTATAAAAAGTATTCAGAAGATATTAAAATAAATAAAAAATCCATTAAAAGTCAAGGTGGTTATAAACAAAATATAAATATTGGATTTTATACTCAAATTGATTTTTTCTTCAAACTCTTACTTTAAATAAATATTTAATGAATATGTCATTAATAATGGGAATTAGAAAAAAAGAAGTAAAAGCGAAAATTAAATATTGAATTGATTTTTTTGAATTAACAAATTCAAAAGATAAAAAAATTAGTAATTTTTCATGAGGAATGAAAAATAGAGTAAATCTAATTTTAGGCCTTTTAAAAGAACCAGAAATTTTAATACTTGATGAACCTGGTGCAAACTTGGATTCATATTGAAGAAATAAAATTAAAAATTTATTAATTCAATATAAAAATGAAGGTAAAACAATAATTTCAACTTCACATAATATTGATGAAGTTAGTGAAATTATAGATAATTTCTTAGTTATTGAAAATGGGAAATTATTATTTGATGGATCAACAACAGATTTAAATATTTATTCTAAATATAAGATATTTACTACTGAAAAATATGATGTTGACGAATTTAGAAAATTTTTAGAAAATAAGTCAATTAAATCTTTTAAATTCGATGAGCAAGAAAACTCTATTACAATTGCAATTGATTATTACAGAGAATTAAATTATATATTTCTATATTTAATTAAAAATAACTTACCTTTTAGCAATTTATTAAAATTACCAATAAATATGAAATCAATAAATAAAGTCCTAGAAAGTAAAGTAAAACCTGGTTATAAAGAAAATAAATAGAATTTTATTAACCAAAATATTAAAACATAATTATAAAAAACCTTAAAAATATTTTTAAGGTTTTTTACGTTATATAAAAATATTTTATATAACGTAAAAAAATGTTATATAATTAAAATAGATTTACAAATTTCAAATTTATTTGTATTATCTGATTAGTAAAGGTGAAAATAATATGAAAAAATTATTAAATTTATTGGCAACAACAAGTTTAGTTGCAAGCACATCATTAACAGTAATAGCATGTGGGAATAATTCAAATTCAAATGAAACTGTTCCAGATCCAAATGAAAAAGAACCAGAACCAGAAGTGGTATATGAAGACGTTTTAAGGGATTTTGAAAGTGATTTAACTTCATTTAAAGATACTTATTGAAATTCAAAAAAATCTAATTTTTTTGCATCAACAACAGGTTCAGAATCTAAACAATTTTTTATTGAAGAAGATATTAAAAAAATTGTTGATAAAGCAAAAGAACCTGGAGCTGAGACTAATATATATGATATATTAACTACTCCACAAAAAGGTGCATTAAAAACAGATATTGAAAATACATTAGCAGCTTCTGAATTAACATCTTATTTTAGTAATAATATCGATAAAGAGAAATATTCAATTTTATTAGATGGTAGTGATCTTGGTCCAACTTTGGATTATGATTGAAATACGCTTACAATGGACTATACAAATGATGCTCTTGGTGGTGAAACATCAAACTTTATTTCTTATACTTCAGTAGATGTAAAATTTGTTTTTAATTATAAAGATAAAATTGGAGAAACACAAAAATTTGAAATAACTCAAAAATACATTTTTACATTGACATCTGATAATTACTTAATTCAAGCAATTCAAGAGATGGAAAATAAAATTCAGACTGATTATTTTTTAGCAAATGAAAAATATAGTATTTTAGATAATTCAAATTTTGATTTAAAAGACGAAAACTTAGGAAATATTTTTGGAACATCAAATGATGATATGAAAACTGCATTTGAAAAAACTTATTCAAGTGATGATTTTAAAAATAATATTACTTCATTTATTACAACAAATTACTTTGAAAATTTACAAAATATTCCATTGGAATTTGCTCCTGGTTCACTTATCTTCCAAAGTTATAGTGAAACAGATTATTTAAAAACAGATACTTCTTATAACAAACAACTAAGCACACCTGCAGGATTAAATATTTATAATAATATTTTTAATAATATGAAAACAGAAGGAAGCACTACTTTAATGGGTGCAACTGTAAATAATGTAAATAATATAATTCATGCGGATTTAAGAAGTAATTATACAAATTATTTAAGTAGCTTTAATACTAAAATTAATAATTTTGTAGAAACTTTAAAAAATAGCAGTGAAATAGTACCAACAGAAACTTTTAGTGAAAACTTAAGTAATTCATTTTCATATGGAATAGTGAAATTAAAAGGATTAGAAATTATTTCAGGAGATTATCACCACCCAATTAATGAATTATCAATTTACACTTCATTAGCAGTTAAAAAAGATGAAACAAAAGAAAATAGAGAGGCAGCTACTGTATCTAATATTTTTGCTGCAATGTATTATAATACAATTGCTGGAATTAAAAAATTTCAAGAAATTTTTGGAATAGTTGATAGAACTGATACTGGAGAAGTATCCCCACTAGTTAGATTTACAGGTACAAGACAAGGAACAGAGTATGATTCAAATCAAAATATTTGGTCTCAAGGATTTACAGCTGATAATAATCAATATTTGAATAAATTAAAACAAAGTATGAGTTTAACTACTACAAACTTAAAAAAATTTAGAGATTATATACTTAATGAAAGTAATCAAAGAATATTTAATTGAGCTCTTTATAAAGAAAATTTTTCAACAACATCAAATATTGGTCTCTCAAAAAATACAAAAGGTATTTATATAAAATATAAATATTATAATGGTGAACCGTCATTAAATATTCATTTTGAACAAAATTTTGTTAACTATTACTTTAATGTAGCTGAAATTTGAACTTCAAGTGGAACAGTTGTAATAGAAACAATGCCCACAGTATAATTCGATAATTTAAATGAACAAAAAATTATTCTTATATAAATCAATTCCATTTAGAGTTTTGCTACTTTTTAATATCAAAAATATATTTCATGAATTAGTATTTTTAATATTGAATACATTATTAATTTTTAGCTCATTAGTCTTTGGAATTATTTCAAGATTTTTTGATACACAAGTTTCACTATTAGTTGCATTTAATTTTTATATATTATTTTTTATATCTTGTTTATTATTTATTTTAATTTTGAGAATGGTTCAATTCTTTTTTCATAATAAAATTGAAGATAAAACTACTTTTATTACACTTTCTAACCAAGTATCTAGAACAAAGTTATTTCTTAGTACTTGATTTTTAATGGTTATAGTTTGTATATTTAATTTCTTATTATCTTTTATATTTATAAATTTTTTAAACTTTTCATTAAATAAATTTAAATTAAATGAATTGCTATTAAATATTACTTTAGTATTTTTGATTTATGGAAGTATTTGCAGTATTTTATTAGTAAACTTTATAATATTTTTGATTTTTGTATTTTCTTTGCAAACAACAACAGTAATTTGTACTTTATTATTGTCACTAAATTTTCTTGCAAATTTGCCAACAAGTTTTCAAACTGCAAATGAAAAAGATATGACAATATATATTGAAAAAAATAGTACACCAATTGCAATTAAATTAACAGATATTCAGGATGCATTTTCATTACAAAAATATGTAAATGAAGGAAAAATTAAATATAGTCACTTATCAAAATGAATTAATGATAAGTTTCTTGAAGCTGAATATTATGAAAATAATTTTACTACAAATGAACAAAACAATAGAATTAGATTGGAAAATGTTTGACAACCATTAGGTATAATCAAGTCTAATCCAGATCTAATTGAAAGAAAAAATTTAAAACTTTATACAGTTCCTTCTACAGATTCAGCAATTGATACTTCTATTTGAAAAGCCGGAGATACTATCGATATTGATTTGCAATTAGACTATTCATTTGTAAATATTGATGAATTAAATAGAATGGCAAATGAGGAAAGTGACTTAGAAATAAAATTAATATTAGAAGATTTATTTAATTTTGCAAATTACATAAAAAAACAATTTGCATCTGATCTTCAAATTGAAAAATATAATTTATTTTCAGATTTTATTTTTGTAAATTCAAATAGTAAAATTATAAATAAGAGCAAAAACAATGTGACAATTCCAATTAAAAAAGATTATTTAAAAACAATTTTTGAATTTTATTTAAAAGGAAATTATTCTAGTGGATATTTAACATTAGATCCAACTACAGCAAGGCAATTTGTTACAAATGATTTAAATTTTGAATTACTGTTTATAACTAGAATATTGGAGAATTACTTTATAAAATATACAAGTCATTATTTAAATACAGTAAATTATAAATTACTATTAAATTCTGGAGATTGAACTAAATATGAAGAATCAAGAAAAAAATTAAATCTTTTTTCATATTTTAATGTTTTTAATGGTTTATGAACAAACTATACATTTAATTCAGGATTTTCATATGAGGATTTCTGATTTTTACCAAGTTCAGAATCAAAAATTAATTTTGCTGAACAAAAAAATTTATTTTTAGGATATTCTGACTTTACCCTTAAAAGAAATGAATATGATAAAATTGATCAATATTCATATAATAACTATATTAAGCCATACTATTATTTGATCGCTTTGTTAATTTTTTCATTAATTACTTTTATATTTGTAATATACAAATTTCAAAAAATAGATTTAAAATAAAAGTTAGGTGATGAATATGAGTACAATTATTGAGGTAAGTAAATATAATAAAAAGTTTAAAAAAAATTCAGTTGGAGAATTTTCTTTTATGATTAAAAAGGGAGAAATTACAGCTTTGCTTGGTGTTAGTGGTAGTGGAAAGTCAGTTTTAATTAATTCAATAGTTAGTTGTTATAAAAAATTCTCAGGTAATATTAAAATTAATGAAAAATCAATTAAAAAAGCTGGGGGCTTTAAGCAAAATATGCTTGTAGGTTTTTATACTCAGATTGATTTTTCATTACAAAGTTTTTCGCTTATTCAATTTCTTTTAAATATGTCTATGATAATGGGTTTGAAGAAGAAAGATGCGAAGGAAAGAATAAATTATTGAATTGATTTTTTTGAACTAACTGATTCTGCAACAAAAAAAGTTAAAAATTTTTCATGGGGAATGAAAAATAGAGTTAATTTAATTTTAGGTTTTTTAAAAGAACCAGAAATTTTAATACTTGATGAACCTGGAGCAAACTTAGATTCATATTGAAGAAATAAAATTAAAAATTTGTTAATTCAATATAAAAGTCAGGGTAAAACAATTATTATTACATCTCACAATATTGATGAAATTAGTGAAATTATTGATAATTATTTAGTTATTGAAAATGGTAAATTACTATTTGAAGGAACTACAAAACAATTAAATATTTATACTAAATATAAAATTTATGTAAAAGAAGAATACGAAGTAGAAAATTTTAGAGAGTTTTTAAATCAAAGAAATATTAAATCATTTAAATATGATAACATTGAAAATTCGTTAACTATTGCAATTGCAAATTATAAAGAGTTAAATTATATATTCTTATATTTAATTAAAAATAATTTACCAATGAAAAATTTAGTAAAATTGCCAACAAATATGGAATCAATTCATAAAGCTTTAGAGGATAGTGCTGCAAAGGAAAAAAATAATAAATAATTTATAATTATTTATTTAAAAATACAATTTTTATTAAATTACTATATAATAAATAAAGCGTTATTAAAACGCCTCTTTTGATGTAAGTTTTTTTACCTTATAAGAGTTTTAGAAAGGTGGAAATACTATGGCATTTGAAAATAATAGAGATAGAGACAGAAGTAGAGATAGAAATAGATCTGGTTTTTCAGGTAATAGAAGTCAAGGTTCACAAAATAATGGTAGAATCGAAAACTTTGAGAAACCTTTAATTCAATTATTAAAAGAAATTAATGAAAAGCTAGATATTTTAATTGAAAAAAAATAATAAAATAACTTATAAACTTTAAAATTATGTTTATAAGTTATTTTTTTTATTATTTTTTGGTTGTTTTTGGTTGTTTTTTATCATTTTTGGTTTATTATAATAATGAGGTGAAAAAATGCTACGTGAAGAAAGATTGAAATTAATTTTGGATTTTGTCAATGAAAGAGGATATTGTACAAATGAATTAATTTCAAAAGAACTTGCTATCCCATTCACCACTCTAAGAAGAGATTTGACAGATTTACATGACGATTCAAAATTAAAAAGAGTTCATGGTGGTGCAAAATCTATTAGAGAAAAATCTATTTTAGAGGCTAAATTAGATGAAAAACTTGTCTTAAATATAGAAGCAAAAAAAATAATTGCTAAAAAAGCATTTGATTGTATTAAACCATTCGAAACAATTTTTTTGGATGCAGGTTCAAGTACATATTTTTTAGCAGAATTAATTAAACCAGATTACAATAATAAAGTTTATACAAATTCAGTTATTAATGCCCAAGTTTTGGCAAATAACTCAATTTGCAATATTTATCTATTACCTGGTAAATTAAAATTATCTACTGGTGCAATATGTGGGGTTGAAACTATTCAAGCTCTTTCAAAATATAATTTTGATCTTGCATTTCTTGGAATTAACGCTGTAGATAATACATTTAATTTCTATACAACAGATGAAGATGAGGCTGAAGTAAAAAAAATGGCTATTGAATATTCACAATTTGCTTTTGGTTTAGCAGATAATTCAAAAATGAATTCTAAATCATTTGTAAAATTTAGTGATAAATCACAAATAGCACTTATAAATGAAGAGGTTTAAAAATGATTTATACATTAACATTAAACCCAGCAGTAGATCACATTATTTTAACTGATAAAAAAATTGAACTTTGCATTACCAATTATTACCATGATGAATATAAAGTAGTTGGTGGTAAAGGGATTAATGCTGGGATTATTTTAAAAAATCTCGATACTGAAATAATGGTTATTGGAATTTTGGGAGAACAAAATAAAGAAATTTTTACTAATAAATTTAGTGAAATAAATTTAAATAATAAATTTTTCTTAAATAATGGTTTGACAAGGGTTAACTATAAAATTAAAAATTTAAATTCAAAACAAGAAACAGAATTAAATGGTCTTGGTTTTGAAACACAAGATGAAGTTCTAAAAGAATTAATTTCTTTTTTAGAAGATAATCTTAAAAAAGAAGATATTGTTCTTTTAACAGGAAGTGTGGCAAGAGGAATATCAAAAAATATATATCAAAAAATAGGCCAAATTGTAAATGATAAGCAAGCAATCCTAATATGTGATGCAACTAATGAATTATTATTAAATGTTTTAAAAGAAAAACCATTTTTAATAAAACCTAACTTAGAAGAAATTTGTTCAACTCTGAATTTAGAATATAAAGAAAATATTAGTTTTGATGAAATTAAAAAATTAATTATTGAATTGCAAAAATTGGGAGCACAAAATATTCTTTTAAGTATGGGTTCAAATGGAAGTATTTATTTTGATTCAAAAAATAATATTTATAAAGTTGGAATTGCAAAAGGTAATCTTGTAAATTCAGTTGGAGCTGGAGATAGTATGCTGGCAGGTTTTATATATGGTTTATATAAAAAATTAAATATAGAAAAGACACTACAATATGCAGCAGCAAGTGGAGCTGCAACAGCATTTACTGAATGACTTGCTTCAAAAGAACAAATTGAAAATTTAGTAGAAAAAATAAGCATTGAAAAAATATAGGAGGTTCTAATGGAACTAAAAGATTTATTTAGTAAACAAATTAGTTTCTTTGAAGAAGATTTAAATTCAAAAGATGAAGTAATTGAATTTTTATCAAAAAAACTTCAAGAACAAAAATTTGTAAAATCTGCAGAAGACTTTAAAGCAGCAGTATATAAACGTGAATCTGAAGGTTCAACAGGTGTTGGAGACGGAATAGGTATTCCACATGTGTTAAACAAAACAGTTTTAAAATCAGCAATTGCTTTTGTAAAATTAAAAAATAAAATTGATTGACAATCACTTGATGATCAACCAGTTGACTTAGTTTTTATGATTATGACAAATGGAGTTGATAGTGATGAACATTTAACTGCTTTAGCTGAATTATCTGGTTTTTTAATGAAATCAGAAATTCAAACAAAATTAAGAAATGCAAAATCAATTAAAGATATTGAAACTGCATTTACTAAAAAAGAAGTTAAAGAAGTTAAAACTTCAAAAAATGGACATTTTGATGTTATTGGTATAACAGCTTGTCCTACAGGAATTGCACATACTTATATGGCAGCAGAAAAATTAGAAGAGTATGCAAAGTCATTAAATATGAGTGTAAAAATTGAAACTCAAGGTAGACGTGGAACTGAAAATAAACTTACTGATGAAGATATAAAAAATGCTAAAGTAATTATTTTAGCACATGATAAAGCACTTCAAGGTATGTCAAGATTCAATGGTGTTGAAGTAATTGATACACATACAAAAGAGGCAATTTTTAAAGGAAAAGAATTAATTTCGGGGTTTTCAAGAAATCCTGATAAAAAAGTTATTAATGTAGCAGATGATGGAAGTTCATCAAATGATGAATTTTCATTAAGAAAATTCTTAGACTTTAAAGGTAATTTATTAGCTGGAGTATCAAGAATGTTACCATTTGTTGTTGCTGGGGGAATCATATTGGGAATTGCATTCCTAATAGACTTTATAGCAGGAACTCCTGGTGGTAAAGATTTTGGTACAGTAAATGAAGCAGCTGGATGATTTGCTGCAATTGGTAAAACAGCAATGTCAATTATGGTACCAGTGTTAGCTGGATATATTGCATATACAATTGTAGGACCACAAGGATTAATGCCAGGATTTGTTGCTGGACTACTTGCTGATGGAAGTGGTTTTGCATATGGTGGAGTTGGTTCTTGAAGTGGACTATGAATAAAATTATTCCCAAATCAAGATATTCCAATGGTTTCTGGATTTATTGGAGGAATGGTTGGTGCATATGTTGCTGCCTTAATTATATTTGGATTGATGAAATTATTTAGTAAATTTACTAAATCATTCCATGGTGTTCGTGATATTGTTTTAGTACCAGTGTTATCACTATTATTAACAGCTTTAGCAATGTTTGTATTAAACATTCCTTTAGGATATACAATGTGAGGAATAAAAGAAGGTTTATTATTCCTAACAAAAACAAAAGAACTATTACCATTATTAGGAATGATTATTGCTCTAATGATGTGTGTTGATATGGGTGGTCCAATTAACAAAATTGCCTATACTTTAGGAACTTTAAGTGTTGGGGGAGGATTAGGAGATGATCCTAAACTAACAATTATTATGGCAGCTTCAATGGCTGGGGGAATGATTCCACCATTGGGAATTGCTTTATGTAATGTATTATTTTCAAAAGTTTGAACTTCAAAAGAACGTGATGCAGCAAAAGCCAACTGATTAATGGGAGCATTCTTTATTACAGAAGGTGCAATTCCATTTATGATTACTGATGCAAAAAGAATTTCAATTTCAGCATTAATTTCTGGAGCAATTACTGGTGTATTAGTTGGGCTATTTGGAATTACTTTAGGAGCTCCACATGGTGGGGTTGCAGTATTTCCATTACTTGAATTTACAGCATTTGATGTAGCTTCAGGAACAGCATTAGCTAAAGGACTTGGAGTAAGTTTATATATACTATCAATTATTATTGGTACTGTTATAATGGCTTTAATTTTAGGATTCTGAAAAACAGCAGATGTTAAAAAAGGAAAATTAGTTTTAGCTTCTTCAAATGGTGTTAAAGAAAATATTGAATTTAAAATTAAAAAAATTAATGAAAATAAAAACATTTCAAATGCAAAAAAAAAAAAAAATTATCAGTTTTAAATAATAAATTAGAAAAATATAAAAACTTTGAACTTGAATTAAATCAAAAACAAAATGCTTATCAACAAAAAATAGCAGAACATGCTAAAAGAAAAGCAACTTATTCTAAGTAAAAAATATAAAAAAATCTTATAATTATAAGATTTTTTTATATTTTTATGAAATTTTATAAAAAAATATTATATAATTATGCTAATTAATAGGAGGCTTAGTATGAATTTTACAAATTTTTTATGAAATACTTTTGAAATTCATTGTAAGCAAATTCGAAAACTTTAGCACTTAATACTCTATTTTCTGTTATTGAGTATTTTTTGTGCTTTTTTATCTAAAATAATTTTTTTAATAATAAAATATTATTTTTCTTTTTAACAGAAATAGAAATTAAAAGGAAATTTTAAATATGTCATCGAGAGTAAAATCGTTAACAAAATTCACGATTATCTTTATGAGTTTTGTTACAATTTTTGGTTTTAGAAACATTGTTAATAATCAAAATCAATTTGGTTTATTAGCGTGTATTTTATTTTTAATTGGGGGAGCAATTTATGCACTACCAATGGTGTTTATTTCTTCTGAATTAGGAAGTGTTAAAAAATTAAAAGATCAGGAAGCTGGTCTTGGTAGTTTTTGTGTATTTACATTAGGGCAAAAAAATGGTTTTATTGCAGCCTGAGCAAGCTATTTTGGAAATTTATTTTTCTTTGCAACTCTTGCACCATTTACTGTAATTGCACTTAGTTTTTTCTTTTATGGTGCAAATGGATTTGATAAAATGGCTGAAATATTTTCAGAACAAGGATTATCTGAAAATAATGCAACAAGAGCGAGTGCTTGTATTTTATCACTTTGTGCAATATTAATATTTTGAGGGGCTTCATTTGTATCAAAAAAAGGTCCAAAATGAATTGGAAAATTAACAACAATTGGGGGAGCTGCTAGTTTAATTTTGGGTTTAGGTTTTATAGTAATTGCATTAGTATTTACTTTACCTGTGCTTGGAGTACAATCTGACTTTAATTCTCAACAATTAGATCCATTAAATGATCCATCAATGTTTGATGGAGATTGATGAAGTTTTATTTCAGCTGTACCTTGATTAATTTTTGCATATGTTGGAATTGAAACAATGTGTGTTTTTATAAAAGATACAAAAGGTGGAGCAAAAACTTTTAAAGTTGCTACATTTATAGGAATGATTATTGTAATAGCGTTAATGGTTTTGGGAAGTTTATTACTAAGTTTAACTATTTCTCAAAATGCTATTAATAAATGAGGAATTTCTAATGCTTATTATTTAGTTTTTCCAAAATTAATGGGTCTTGAAATTGATTCAACAGCAGGAAAAGTGATTATTCATATAGTTGGTTTAGTTACAGCATTTAATGGATTAGGTTCATTATTCTTTTGAATAGCTGGACCTTCAAAAGTATTTTTTTCAGAAATACCCCCAAAAGCAATGGGAAAATGAATTGCAAAAACAGATAATAATGGTATGCCAGTAAATGCTTTATTTATACAAGCAGTTATTGTTTCAATTATTTTAATGATTGTTGGTGCAACAACAACAGGAACTCTTGGTCAAGGATCAAGTGTATTTTTAGAAAAAATAATGCAAGCAACAACTTCAACAGCAATTATTCAAATGCTATATTTATTTGTTGGTTATATTAAAATGAGAATAAAAGATAATGATGTTGAAAGAGATTATATTTGATTAAAAAATCATAGGAATATAGTTATAGCTATTTCTTCGGTTACTGTCATTTTACTTGGTGTTGCATTTATTTTTGGAACCATTCCAAGTCCAGAAAAATGAAAAACTGATTGATTAAATGCTTTAATTGATTTCTTATTTATATTTGGTGGGTTTATCTTCTTTATGGCTTTTGGATATATTATTTGATGAATTAACATTGAAAGACCATTGAAAAAAATAAATAAATCAGAAAATTTAGAAGTAAAAACTAAAAAAGTAGTAAAAGAAAATGAATAGATGTCAATGAGCAGAAGGCAATGAAATTTTAAAGCAATATCATGATATTGAATGAGGAGTTTGTGTATATGATGATGTTAAGTTATTTGAAATTTTAAATTTAGAGTGTATGCAAGCTGGTTTGAGTTGATTGATAGTTTTAAAAAAAAGAAATTCATATAAAATTGCTTTTGATCATTGAAATTATAAATTAATTGAAAAATATGATGAAAATAAGATTTCATTATTAATGAATAATGTTGAAATAATTAGAAGTTTAAATAAAATTAAAGCTATAATAATGAATGCAAAAGCATTCATAGAAATTCAAAATGAATTTGAAACATTTAGTAATTACATTTGACAATTTGTAAATAATAAACAAATTGTCAATAATTACGAAACAATAAATCAAGTTCCTGCATATAGTGATTTATCAAATAAAATTAGTTTAGATTTAAAAAAGAGAGGTTTTAAATATACAGGAAAAACTAGAATTTATTCTTTTTTACAAGCTTGTGGAATAATTAATGATCATATTGATAAATGTGATTTTAAAATAAAATAGAAAAAAGGATTTTGTCTTTTTTTTATTTTTACTAATTACTTTTTTCAAAGTCTACTTTAAAAAAAGTGTAAAATAATAAGGTTGGAGGTTTAAAAAATGATTCAAAAACCAAGAGGAACAGAGGATTTAATTGATTTAAAAGCAAAAGAATTTTTTGCATTAGAAATGATTATCAGAAATATTGTTGATTTATTTAATTTTAATGAAATTAAAACTCCAATTTTTGAGAGTTCGGATTTATTTAAAAGAGGAGTTGGAGAACAAACAGATATTGTTTCAAAAGAAATGTATTCTTTTTTAGATAAAAAAAACAGGGAGTTAACCTTACGTCCTGAAGGAACAGCACCAATTGTAAGAGCAGTAATAGAAAATAAATTATATATAAATGAAAATTTACCGTTAAAATTTTTTTATTTTGGTTCAATGTTTAGATATGAAAGACCACAAAATGGAAGAACCAGACAATTTAATCAATTTGGAGTTGAAGCATTTGGTCCAAAATCTGCTGAAATGGATAATGAAATTATTTGTTTAGCATCAACAATTTTAAATACTATTGGAATTGAAAAATATACAATTCACTTAAATTATTTAGTTAATGGAGAAGAAAGAAAAAAATACATTGAAGATTTAAAAAAATATTTAGCAACAAAAAAATTATGTGATGATTGTAATAGAAAATTAAATACAAACCCGTTACGAATTTTGGATTGTAAAATTGATTCACCAAATTTTAAAGATGTAATTGATATGAAAGACTATTTATCAAGCGATGATAAAAATTATTTTGAAGAATTAATTTTCAATTTAAAAAATATAGGAATCAATCCTGTTATTGATAAAATGCTTGTTAGAGGATTGGATTACTATACAGGATTTGTTTTTGAAATAAAAGATGCAAATAATTTAACTTTGTTGGGGGGAGGAAGATATGATAATCTTGTTAACCAATTGGGTGAAATAGATTTACCAGCAGTTGGTTTTGGATTTGGTCTTGAAAGAATTTTACTTTCTTTAAGCGATATAAATGCTTCTCTTTCTCAACCTACATATTTAGATGTATATATAATTGGTTTATCAAAAAAGGCAAAACAATTTTCAAGTATTCTGTTACTAATGATAAGAACAGCAGGTTTAAAAGCAGATTTTGATTTTATGAACAGAAGTATGAAATCTGCTTTTAAACAATCTGAGAAATTAAATTCAAAAAATATAATTATAATTGGAGATAACGAATTAAAAGAAAATGTTGTTATTATTAAAAAACAAGAAACTAAAAAAGAACAAAAAGTAACTTTTGAAAAAATTGTAGAAACTTTAATGAAAGGATAAAAAATATGAAAAGAACACATACATGTGGGCAATTAACTTTAAAAAATGTAAATCAAAATGTTATTCTTCAGGGTTGAGTTGCAAAAATTAGAAAAATGGGAGCAATGACTTTTGTTGATTTAAGAGATAGATATGGAATAACGCAACTTGTTCTTGATGATTCAATAAATTTAGAAAATATTAAAAGTGAATATGTAATTGAAGTAACTGGAATTGTAATTGAAAGAAAATCAAAGAATTTGGAAATTTCAACAGGAGAAATAGAAATTAAAGTTAGTGAAATTAACCTAATTAATAAATCAGAATTAACTCCTTTTGAAATTAAAAATAATATTGATTCACAAGAAGAAACAAGATTAACTTATAGATATTTAGATTTAAGAAGACCTGAGATTCAACAAAAAATAATTACAAGAAGCAAAATGAATCATGTAATTAGAAACTTTTTTATTGAAAATGATTTTATTGAAATAGAAACTCCAATATTTGGTAAATCAACTCCAGAAGGTGCTAGAGACTTTTTAGTTCCTTCAAGGTTAAATGAAAATAAATTTTATGCTTTACCTCAATCACCTCAACTTTATAAGCAATTATTTATGATTTCAGGATTTGATAGATATTTTCAAATTGTTAAATGTTTTAGAGATGAAGATTTAAGAATTGATAGACAACCTGAATTTACACAAATAGATATGGAAATGGCTTTTGCAGACAAAGAAGATGTTATGCAAATAATGGAAGATTTAATAAAAAAAGTAATTTTAGAAATTAAAAGAATAGAAATAAAGGATTCAATTCAAAGAATAACTTGAAAAGAATCAATTGATAAATATGGAAATGATAAACCAGATTTAAGATTTAATTTAGAAATTGAAACATTAAACCATTTATTTAAAAATACACAAATACCTTTATTTTCAAATTTAGAAAATAAAGCAATAAGAGCAATTTGTGTTAATTCTACTTTAAATAAAAAAGAATTAGAAGAATTAACACAAACTGCTTTTCAAAATAGTGTAAATATTTTAGGATTTGCAAAATATGATTTAAATGATTGAACAGGTTCAATTGGATCAAAATTAAGTGAATCAGAAAAAAAAGATTTAATTAAACATTTTTCAATAACTAATAATTCAACAATTTTATTTGTTGTAGAAGAATATTTTAAAGCAAGTCAAGCAATGGGAGCAATTAGAAATCATGTTGCAAAACTAGAAAATTTAATAAATAATGATGAAATGAAGTTACTTTGAGTAGTTGATTTTCCTTTATTTGAATTTTCAGAAGAAGAGAATAGATTTGTAGCAGCACACCATCCCTTTACAATGCCTTCAAAATCTTCATTACAAAATTTTGAAGAAGAAAAAGCTTCTGCATTAGCAGAAGCATATGATTTAGTTTTAAATGGTTTTGAAATTGGGGGAGGAAGTCAAAGAATAACAGATCCCATTATACAACAGAAAATGTTTGATGCAATTGGCTTAACTCAATCACAAGTTGAACAAAATTTTGGTTGATTTATAAATGCATATAAATATGGTGCTCCAAATCATGCAGGGTGTGCTTTGGGATTGGATAGAATTTGTATGATATTAACTTCAAGTAATAATATACGTGAAGTTATTGCCTTTCCAAAAAATTCATCAGGAGTTGATTCAATGACAAATGCACCTGATATTGTAACTCAAGAACAATTGGATGAATTATCAATTAAGTTAAAATAGTTTAAAGGAAATTTATTTCCTTTTTTGTTTTTGATTTTTTCCATATATTGGCATGAATGATGAAAATATGAATTGATTTTTTAGTTTTCACAATAATACAGATAATCCTCATATTCACTTAGCTTTTTTTGAAAAGAAAGCAACATATCCTAAAAAATATAGTAAGACTGAATTTAATTATCGCTATAAATATAATTTAGATAAAGGAACACAAGCTGAAATTAACAAAAATGGTTCTATAAATTTAGAATATGATAGAAAAAGTGATTTTAAATTAAATTTGGAAAAAGAAATTAAATTAAATTCTTTAAATTTAAAAATTAATAATGAAATTAGAGATAATCTTATTTTTCATTTTAAAGATAATATTAATTGACATGCAATGAAACAAAATATTAATTCTTGAAATACAGATCAATTAATATATAATGAAATTCGAAATAATTATCATGATATTGTTGATAAAATACTTGATTTTAATCAAAAAATAAAAATGAAAACAAATAAATTTCAAAATCGTCTTTTTTATAATTCCAAAGATAACAGTAAATCATTTAAAACAATGATTGATAAGTTAACTAATTTTTTAATAGAACAAAGTCCTGAATTAAAATATGTTTTTGATGAATATATTACCGAAATTAATCAATATCAAGAAGGATTAAATCAAATTAATGAAACTAATAGCGAAGATTATGTTCATAATGCACTATATGGAAATGACGGACTCTATTCAAGACTAGGAAATCATATATTAAAAACAATTTATAAACTAAAAAGTGCAGAAGAAAATTTGTCTTTATTTTCAGACCAGTTAGATAAACAAAAAATGTCAATTATTGAAAAATTACTTTATATGATTAAGGGATTTTTATATAAAGAATATCATTTAACTAAAAAAATGAGAGAAAGAACATGAATGATTGTCAATCAAAGAGAGAAAAAACGAAAGGAATAATAATATGGTTCAACAAATAATTAGTGTAATATACTATTGAAAATACAAGAAATAATTTAGCTAAATCAGTACTTACAAATTATAATTTAACAGCAGATGGAGACGTATTATTCTCAAAAATTGGTGCAACACCAATGATTGGAGTAAATGATACAGTTTGAGGTGTATTTACACTTGAAGATGCAAAAGAATTATATAACTATGCACATTCTGTAGGTCTTGCTTATTTATCAATGTGATCAATGAACGATGATAGAGGTAAAGATATTTACAGTGGTAAACCAATTAATAAATCATTATTAACTCATGGTTTAGGTTATTTAAGAGAGTATGACTTTGCAAGAGCATTTAATGGTCAATGAGATGATGGAGTTAAAAATCCAGAAAAATCAAATTAATTTATAATAAAATAAAAAGTAAAATTAAATATTGAAGTTAAACAATATTTTAATAAACTTATTTTATATTTCTATTTTTTAACTACTATAATGAACTTTCTAAAGATTTCTTGGATTAATTATTACAATCTAAAAAAGAAAATTTATTAATTCTCATTCAAAAACATTAAAAAGTAATTTTTTATTAAAGCTAATTTTAAAATAATTTTAACAATGTTTTATAAAGTACTGTTTTTTTTTACTTTAATTAAAGATATGAAAAAAATATTCATAATCTTTTAATATTTTCTTAAAAAATGTTAAAAAAGGCAGTATTTTTTTCAACATTTTTTAAGAATTTTATCTTTAAAAGCCAATATTTATTTCTTCTAAAAATAAACATTGGCTTTTTAAAAATAATCAAATTTAAAAAGACATTAATATCTATTTTTAATGAAAAAAAATTTTACAAAAAAAATTAAAAAACTAATACATATATTTGCTATTTTTTTAAATAAAAAAACACCATAAATAGTGTTTTTAATAAGATAAAAATAATTTAAAAAATATAAAATGTAAAAATAAATTTTGTATGTTTTTTTAGTTTTAGTACTATAATGAAAAAACTTAAATGTAAGTTTAAGTGGGATGGTGGGTGGGGAACTAATTTAATTTTTTAAATAAAATTAGTTAAATTTTATGTACTATGAAGTTTACATGTTTGTATATTTTTATTACTATTCCTTTAAAACAATACTATGTAAAGTTTATATATAATATTTATTTCAAATAATTTCACCAAATTCCTTATTTTTTTATAATTTGTATTCAGCTTAATAAAAAGTTTATATTTTCTATTTACTATTTTTAAAATAATTTTACGTGCTAATTTTTTGTTAACTTTTTATTTTTTTTCAAAGTTGAATAAAATTTAAATAAAATTTCTCTTATTTCAGGTGAGCATTATTTAAAAAATAATAACTCTAAATATTTAGTCCTATTTATGAGTTAAACTTTTATTTTTTAACAAAATTCTACTTTTAATAGAATTTTGTTTTTTTTTATTTTTAGTAGATACTTTCAAAAAATATTGATCCAAAATTTGAAAATGATAATGCAAATATTATTAATTCTATTGTACTTACACTTATGCCTATAAATTCATCTTCTGTAATTTTATTTTTTTTCTTTAAAATTTTTGCATATTTTAATATATTTCTACAAACGATATCAATTCTGAGAATAAAATTTTTTGGTATAAATACTCTTTCAAACAGTATTTTTATATAGTCATCTTCTTTTAAAATATTAAATATTTCTTTTTTATAAATTTCGAAATTTTTAAAAATAATACTATTAAGTAATAGAAGTGCGTACTCTTTTTTATTTGAAATTTCTTTTTTTTGAATGTCATTCAAAAAAGAACAAATAAACTCAATAAAATTAGTTCAACCCAATAATGAAACATAATCTCCGATTAATTTATAAAATTTTCTTAAAATTTTAATATTTGATTTTATTAAGTTAATTTTTTGATTATAAAAATGAATTCAATTATCAATTTCTTTAAATAATTGATTATATTGATCATAATTTACAGGAAAATTTATTTTAAAATCTTCAGGGTTTTTTTTAAATTTAATTAATCAATTTTTTAATTTTTTAATTAATTTATTAACATTTTTATTTCAGAAAGGATTAATATTTTTCAAGTTTTGAATATCTTCTTTTGAAATATTAAAAGACTTATAATTTCTTATCATTTTATCAATCTTTCTATGAAAAACTATTTTTATTATATATGATAAATATAGAAAAAAGGTAGTTAAAATGCTAGGTAAATATGATTTTAATGATAACGATATTAAAAAAATAATGAAATTCTTTGAACCATCATTACATACAATTAAAGTTTTATTAGAAGAAACTAAAATTGATTTACAAAAATTTAATCTTTTAAATGATAACTTTTTAAAAATTTATCATAATTTTGAAAATTTAGTTTTCTTTGATAACTTTTTAGAATTTAAGGATAGTTTCATTTATTTTTATGAATATATATTAAATACTTTAATTATTAAAAATAAAACAGAAATTATTGATCGACATATTGTAATGCCAAATATTGTTCAATTATTAGAAATAGTGCTATTAGTAGATTATTTAATTAAAAAGTCTTTTGAAAATGTAAGAAATAATAATAATGTACTTGATATTAAAGAAATAAAAATAATAATTTTAGAAAAAATTAATACTTATTATTTTCAATTAACTGAACTTAATAAAAATTATTCACAAATGTTTTGTCAACAAATAAAAGATTTACTTCTATTTTTAGAAAAAAAAGATGATTTTAAAATATGAGAACAATCTTGTGAATTAATGCTTGCACTACTTGAGGATATTAGTTTATTAAATGAGAAAATTCATGATATCTTTGAAGAAGGATCCAATATATATTGAAAAGTTTTTAATTATTTGAATAAAATTTTTATATTATCTAGTTTTTCTATTTTTCTAGAATAAAATTAATTTATAAAATATAGTTTTTGGCAAAAGTTTAATGGTAGATGGTTGTTGATTTTTAAAAAAATAAAATAAAATCTAACAAAATTTAATAATAAAAAAACTATGATATTATTAAGAAATGAGGAGTATTTGAAGGAGAAATAAGGTATGGAAAGTTTTTTAATTACTTTAGGAGCATTCTTTATGGTTTTACCTTTTTTTATTTGATCGGGAATGGCATTTTACTCAAGAAAAAATAGAAAACCTATTAATAATTTTACAAAAATAGTACTTCTATTAATTATTATTGGTTTTATTCTTGGAATTTGTTGCATTGTTATGGTAGTATTTTTATTTTAGAAAAGTGAGATTTATAATATGAAATATGATTTAAAAGATAAGGCTATTATTAGTGATGAAAATGAAATAAAAAATTTAAATAGTGAATTTGAAAAATTAAATGAAAAATTTAGAGAAAAAAACATGCTTCATTAACAGAAGAAATGCATAGAACAATTAGTACTAATCTTAAAGCAGTTTTAAATTATAATGTAGAAACTGTTTTTAATAAATTTTTACAATTAGCAGCAAAAGACATTAATAGAAATTTAACAAATGATGATTTAATTGAAGATGCGTATTTTTATTCAAAAAGGGGTGGAAAACAAATATTATTGTTAAGTGAATTAACAAAAAATGAGTCTATTACAATTGAATGATTTGCAAATGATCATAAATTTACAAGAAAAGTAGAATTTAGAAAAAAAGGAATTGAAAAGACAAAAATTAAATTTTTTGATTCTGCAAAAGGTATGGAAGCTGTTTGGGGATTTATGAGTAATTATAGAAAAGCCACTTATCAATTAGAAGTAAAAAAAACATTTAATATTCAAATTCTACAAATACGTATAAATCTTGAAGAAGATGAAAACAAAAAACAAAAATTTATAGGTCGCGTAAAATTTTTGGGGGGTAAGAAAAACAAGTAAATATGGTATTGAACTGCTGAAAAGCAGTTTTTATTTTGATTGGTTATAAAAATGAACATGGAGATGATAGATTATTTGCAAATCCGCAATTAAAATTTTAAATAAGCTAAGTGCTTAAATATTTACCCTTAAACAAAAAACAGTCATGACAAAATAAAACTTTAGATTTTAAAAATGTAGTAAAATTAACATTTATATTTTGTTATGAAAAAATCAAAAAAAAAAAAAAAACTGATGATTATAATCAGCGATTATTATCTAAAATTAACAAATTTATAAATTATATAAAAATAAAATCAATAGTCTCTATATTTTAAATTAACTCTATATCAATATAATCTAAGTTTATAATCTAGGACTATAAAGTTATCTATATTTTCCCCAGGGAAAACTCAAAATAGAAGGGATTTTCAAACTGATGGGAAAAAATCAAAAAGTATGACTTTTAAATGCATGATTTCATGGATGAAACGCTAATAAAACAGCATTTGCAATTAAAAGTCCATATAATACGAAGGGCTTAATTTGAATTCATAAAAATTATTATTTATCAAGCAAATATAAAGGTAGATTTGGAATAGAATTTAATATTCTAAATTACAAAACAAGCAAGCCGCATTATTATCAAGAAGTAATCTATACTTTGAATTCTAAAATTGTGAATCAAATTTCGGGTGAACAAATTGCAGAATGATTTGAAAATTACAATTCAAAAAATTCTGAAGAGTATAGATCATTGGTAAAAACTTTAAATGGAGAAAAAATATATGACTAAAAGTAATGTTAATATTGATCATGATTTAGAATATAAAAATTTTGAAAAATTGTATCCATATTTTATAAATAAAAACCTAAGCAATTTAAAAATTAAAGGTATTTATATTTATGGAATTTCAGGAGTTGGAAAGACTATGTTTTTGAATAAACTAAAAAAAATTTCAACAAAATCAATTGAATGAATAAATATGGTTGATTGGATTAAATCTCATCAACAAGCTTGAGGAAATTTAGGTTATGAAGGAATTCATGTGATTTCAGCAAATAGAGCTGCAATAAAAGAAATTTTATTTATAGATGATTTAGGAGCAGAATTTTTTCATCCATCAACAATGCATTATATTTATGAATTATTTGAAAAAAGATTTTCATATAAAAAACAAGTTCCAAATATAATTACTATTTTTACTTCAAATTATTCGCTATTACAATTAGAACAAAAATATACTAAACAACTTGGTAAAACAGACACAGAACGAATTATTTCAAGAATTAAAAGTTTAGTTGATTGTGAAATATTGTTTGAAGGAATAGATAAAAGATCAACTTCGACTATTAATACTAAATTTATTAATGAGATAGAATTTTAATTTTCCATGGGAAAATGAATAAAATAATATTTTTAGTAGGGGTCGGGGGAACTGGTGGATTATTAGCAGGAAAACTTGCAAAATTTTTAGCACAAGAAGATAAAATTTATCTAATTGATGGTGATAAAGTAGAATATAAAAATGTTGTACGTCAACCTTTTCAAATTCATGATATAGATGCTTTTAAAGCTGAAAGTTTGGCAAGAAAGATTAACAGCATAAGTCAATTTAAAAATTGTTATTCAGTCAATAAATTTTTAAATAAAGAAGATTCACTCTTTAAAATAGTAAAGTCAGTTCAAGAACAAACAAATAGTTTAGTAATTATAAGTTGTGTTGATAATCATAAAACAAGACTTTTAATTGAAAAATCTATTCAATTATTAAAAGAATTTTTAAAAAAAATGGATTATTCCTATGTAGGTTATCCTAAACCATCTGATTTATTTTATATTGACTCAGCTAATGAAGATGATTATGGAGATATTTTAATAAATGAGTTCAGAAGTAAAATTTATAAATTAAAAATTGAGAAAACTGATGAGTTATTACTAACAGAAGACTCATGTGAAAACTTAATAAATGATGGAGTCATTCAACAATTTGCTACAAATGATCAAGCAAGTAATTTAATTTTAAGATTTTTATTTGATATTGAATATTTTAAGAATAAAAAATGTCATATTAAGTTTGATAAATATAACTCTAAAATTGATATTTTGAAAGGAATTAACAAATAATGGAAATACATCATCTAGAATATTTTTTTCAAGGTTTAGAAATTATAAATAATGTTAATCTTGATAGAATTAAAACTTTAAGACGAGAAATTTTGACAAGCAATATTTATTTGTTACCTTATCAAAGAAACAGATTAATTAAAAGAATAGTGTGTTTTAATGAAATATTTCCAAAAAATGAGGATCGCTTTCATTTACATGAAACAATTTTATTAAATTTTTATAATTATCAATTTGAACCAAGATTTTTATTTAAAAATACTTTTGTTAGTTCAACACATCTTCAAAAATTACCTAAATATAAAAAAAGATATATATTAGAAAAATTTAAAAATACAAAAAATATTGTAATTCATAATATTGATAATGAAGTATATTTTGAGATTAATTATGTTTTAGAAATAACTAATAATAAAGATTTACTTTTTTTAAAGGAACTAGCAGTTAAATCAAAGGAAATTTTATTTTTAATCAATGAAGCTAAAAATATTAGAAGAACTTAATTTATTATCTGAGAATCCTTTAAAAAGTAAAAAAATTGATAAAAAAGAATATGATGTTTTTCTTGAAAAAAATAAAGAAAAACAATATTTGTCAGATCAAATTAAAAAAATAAGAAGTATTTCTAAAACTTGATATATATATGAAAAAATTAGTTCAGACTTAATGAGCTGATCAAAAGATGAAGTTGATTTTGCATGAATTATAGAAATAAAAGAATTGATTTCGAAAAATGGTGCTTTATTGAAAATAAAACCTATAGATTTTTATAAATTTTGAGAAGAAAAAAATAATATTGAGAAAAAATTGAAAATTACAAAAACACCAGAAAAAGAAATAAAATGTTCGAACTTAAAATTTGAAAGGACTGATAACTATGAAATCCTTTTCTAAACTAAAATTAAATTTTGATAAAAATGATAAAGGTTTTTGCCAAGTGGAAATTATTAATAAAAGTGGAATTAGTAAATCTGGTTGAATTAAATTCAATGAATTTCTAAATTGATTGTTCTTAAATACTAAAAATAATGAGAGTAATATAGGCTCAATAGATTTTTCCAAAAATCTATTGACTACTAAAACTAATGGAAAAATAACATCATATTATTTTTTGTATAATCCCTCAATTAGAGATATTTACGCCTATCAAAAGGGAAAGTATTCTCATAAATCAATTTTTTTACCACCATTAATAACTGAAGTTCAAATATCGAATGAAAATATTAATTTTTGAAATATTAAATTATTTGCATTTAATGGGGAATTAAATGCAAATACAAAATTTTATGCATTAAAATTACCTCATTTTTATAATGATGGAAGTTTATGCTTAGGGAATTTAACAAACTTAAAAAAAGTACAAACTATAAGTCAATTTGATAATTTACTAAACTATATTTTTTCAACAAAATTTAGTCATTAATGAACAAAAGAAAATGAAGAATTTACAAAACCCTTACATTACAATAATGGATTTGAAGGCTTGAAAAATTATACATTTATAAAAACTAAATTATTTTTTGAATAATTTTCCCCAGGGAAAATATAGATAACAAATAGAGGAGAAAACTATGAGTATTTTTAATCAAGAAGAAAATAATAAAAAAATAACATGACCTGAATTTAAGTTTAAAACAGGTAAACAAATCGAAGAAAAAATTGAACAAAAGTTAAAGAAAACAACTACAACTGATGAGCAAGTTTCTTCAATTGAAATGATTTCAACGCAAGAAAGCAAAGATAAAGTTTTAAAAGAAAATAAAGTAGAAAAAACTAAAATTGATGAAATTTTAAATATTCCAGCGGGAAGTATATTGAGAATTGATGGTGAAGAATATCAAATTCATATATCAATATCACCAGGTCAAGAAGTTACAAAAGATTATATTCATAAAAAAGTAATTGATCCAAATGGATTAATTAATAAATGGGAATATAAGAATGCAAGTCTTTCATATGATAAAGAGGATAATATTTTCTATTATGTAATTGAATCACCGAAGAAAGGATAAATTAATATGTTTAAAACAGAATTAATTGAAATTGCTAGAATACAACCTAATCCTTCTCAACCAAGAAAAACAATTAATAGAGATTCGATTATTGAATTAGCAAATTCTATTTTAAAAGTAGGTTTACTTCAACCAATTATAGTTAATATTAATACCAAAAATGAGGTAAGTTTAATTGCTGGGCAAAGAAGGTTAGAAGCTTATAAATATTTAAATAAAAAACATATTGAATGTATTTTAGTTCCAGGAGATGCCAGTCAGAAAGATTTTAAACAAGCATCCATAATAGAAAACGTTCAAAGAGAAGAAATGACTAATTATGATACTGCATTACCCTTAAAAGAACTTAGAAATGACGGTATGAATTTAGAAGAAATTTCAAGTCAATTGGGTAAATCAATAAGTTGAGTTTCAAAAATGTTATCGGTTTTAGAATTAAATAATGATGTTCAACAACAAGTTATAGATGGTAGTTTAGACATTTCAAAAGCAGTAATTATAGCTAGTCAACATGATTTATCCGATCAAGAAAAAACAATTTTAGCTAATGATGTAGTAGAAAATAAAATTACTAAAAAAACATTGGAAGATAAGGTTAAAAAAATCAAAAATTATATAGACCCTGAAATTATTCAAATGCAAAATCATATTCAACAGAAATTAGGAACTAAAATTGAAATTAAAGAAAAAAAACTAATAATGCATTATTTAGGAATTGAAGATTTGAACAAAATTCTTGAAGTTTTAAATTTGAATTATAAGGATTAGAAGTAATAATGAATAAAAAAGAAGGTGAAACTTATGGGATACAATTTGCTATCAAGAGAGCATTATTTGTGATTAGTAAATATTTCAAAAAATAATAATTATGATGATATACATGAAGCAATGAAAATTATAAAGTATCAAAAAAAAGAAGCTGAAACATTGAAAGAAAAATGGATTAATACATCAAAATTAAGTAGAAACCAATATTGAATATTATCTAGTTTATTGGAAAAATATAAATATAATGACATATTAAATGCTTTAACAAATATCTTTAGTAAATAAAGAAACTCAAAAATAATTAATAACATACTTTTTAAAGATATGTTATTATATTTATAAGGTAAATAGAGCACTAGTTTTGTAGCTAGACTCTATTTTTTTATATTTTGTGTAACTAGTTATAAGGCTAGTTTTTTATTTACCTGATATTTATTTTCTCATTAGAGATGAAAGGAAAACAACAATGAATTCAGTAAATTTAATAGGAAGAATAACAAAAGATCCTGAACTAAGAAAATCTTCAGGAGGTAAAGACTATGTAGCCTTTACTGTTGCAGTAAATGAATTTTCAGGAGGGAATCAATTTACACAATTTGTTCCATGTTTTGCTTGGGAAAAAACAGCAGAAAATATGGCAAAATATGTAAAAAAAGGTGCACAAATTGCAGTTGAAGGAAATTTAAATGTTAGACAAGATAACAACAATGGACAATTTTCTACAGTTATTTCTGTTAGAGCGAATAGAATCCAATTTTTAGCATCAAGACATAATGATGAGAATCAACCACATGATTATGAATTAGTTGAAGAAGATACTTGAACTAATGATGATTCTATTTTATGAGAGGACTAATTATGAAAAAACATTGGTTAAAATTTGTACAAAATGTCTTTTAAAAATTAAAGAAAATCAAAGAATTAATTCATTTAAAAATATTGATATTTTTGGGAATGACATTTATGAATATGTTCATGAAAGTTGTACTAGCATTATTGACTAAAAAACATTTAAAAAAGGAGGATTAACAAATGATCAACAAAATTATTAATAAAACTTTTATTAAACTTAATAAAAAAGCAAAACTTAAATTATTAAATGCTCATGGAAATTATAGAAAAACTTTAAAACATAAAGTACAAAATCAAAAGATGCATAAGATAAATTTTAAGGTAAAGAAAAATATTCAAAAGAGTTATGGTATTGCACGTCAAAACTGAACTTTCTTTTAACTATAAAAACTATTTAAATAAGTTAATTGTTAATATTTCTATGATTCTAAAAACAATTATATAAAAAATAACCTGAGAGGTTATTCTAAATCAGTTAAGTTTAAATTTATAATTTTTTCTCTATCTTGGAATACCGCCAGATTTGAATTATTTTTTCCACTAAATGTTCATATAGTTTCAATAGTTTGGTCTTCGTTTGTCTTATTAAATAATATCTGTGTAATTTTAAGAGTATCCTCATCAAAAATTGGTTCTAATTCTTTAAATTTTTGTAATACTTTTTTCTTAATATCTTTTTTTACTCTATTTAATAAATTTTCTTTTTCTGTAAACATTTTCTTTTTCCTTTATTTATTTAATTATACCTTATTAAGAAAGAAAGAGAGATAAGATGACTAAACTAGTTATATTGGAATCGCCAGGAAAAATTAAAAAAGTAAATCAATTTTTAAATGAAATTGATAAAAACAATAATTATATTGTAAAGGCTTCTGTAGGACACGTTAGAGAACTATCACAAGAGAATGAATACAATATGGGATTAAAACTTAACTCAATGGAACCTATTTTTAAAGTTTCTCTTGATAAAAAAACTATTGTAAATCAATTGATTGAATACTCTAAAAAAGCAGAACAAATAATAATTGCTACAGATCCTGATAGAGAAGGAGAGGCAATCGCTTGACATTTATATCAATTATTAAAACCATATAATCAAAATTTTAAAAGAATGAAACTTAATGCAATTACAAAAGAATGTGTACAAAAAGAAATTTTAAATTTGGGATCTATTGATCAAAACTATGTTAAAAGTGCATTAACAAGACAAATCATTGATAGAATAGTTGGCTTTAGAATTTCTCCTGTTTTGCAAAAAACTATTGGGGCAGCAAGTGCTGGTAGAGTTCAAAGTGCTGTTTTAAGAATTTTATGTGATAGACAAAATGAAATTGATAATTTTAGTAAAAAACAATATTTTTATTTGCAAGATGAAGTAATTGATCAATTAATATTTAAGAATTGCATTTATAATGAACATAATAAATTAGTTATTAATAAAATATATGATAAATCAAAGATATTAGAACTAAAAAATAATTTAGATATTAAATTTTTAATCCAAGATATAAAAGAAACTAAATTTGAAGAAAATCATTATAAACCTTTTTCAACAGCTGACATGTTAAAAGCTTCAAAATCTAAATTAAAGTTAAAAGCAAATGTAACAACGAATATAGCTCAGAGTTTGTATGAAAAGGGATTAATTACGTATATTAGAACAGATTCAAATAATTTGGATAAAGAAACAAAAAATAGTTTAATTAATTTTATAATTTCCTATTATGGAGAAAATAAATTAGGAAAATTAATTAAAACTCAGATAAAGGAAACCGATCAAGAAGGACATCCAGCAATTACTCCAACTCATTTTGAATGATTGCCAGGAGAAATTGAAAAATATTGTACTGAATCATTATCTAAAAATGAAAAGTTGTTATATTGATTAATATGGCAAAATACAATTAATTCAATTTATCAAAAACCATCTGGAATAAGAAAAGAAATATTTTTAGAAAATAGGAAAAATTTATTTTATACTACAATTAAAAGCTATAATGTTCTTGGATATTATGAAATTGATGAATCATTAAACGTGGAAGAAAATATTAAATTTAATTATTCAAAGAATAGTTTTATTAATGTAAATAATATAAAAATCGTTGAAGATTATGATAAACCACCAAGTAAATTAAATGAGATAACTTTGATTGAACAATTACAAAAACTAGAAATTGGCAGACCAAGTACATATAAAAATGCTATTGAAATAAATGTCTTAAGAGGTTATGTTGATGTAGAAAAAAATAAATCAGAATCAATGACTGTAAATGATTTAGGATTAAAGGTTAATGATTTTTTAGTAAAAAACTTTATTGATGTAATAAATTTAGACTTTACAAAAAATATGGAAAAGGATCTAGATTTAATTGCAACAGGCCAAATAAGTGATTTTAAGGGCTATTTAAAAACGTTTTATACTAAATTAGATAAAATAACTTCGGATTATAATTATGATGGAATGAAGTGCTTAAAATGTAATAAAGGCTATATGATTGAACGTTCGTATATAGATAAAAAAACTAAGAATACAAGAAAATTTTTAGGATGTAGTAATTATCCTGAGTGTAAAAATGCAGAATTTTAAAATACCTTTATTATAGGTATTTTTTTGTTATTATTAAATTATTAGTAAGGACAAATTGGTATGAGTTGATTAGATGTTTTACAATATATAATTTCTCCAATAATTGGTGGATTAATCGGTTTTTTAAGTACTTATTTTATTTTTTTGATAACCAAAAAATCTGAAAATAACTGAAAAGAAACTTTAAAACTAAATTTAGAGTCAAGACATAATAATGAACATTTACTAAAACTGTATTTTCAAAAATATTTTATTAACTTTGTAAATGAATGTACAATAAATCAAAATCATTTTTGAAAAAAAATAAATAAACTTTATATTAAATTATATAATTTGCAAATGGAAATATGGAATTTAAATCCTGAATATATTTATAAGGAATTTAAAATTCATTTACTTCTAGAACTTAGACCAAATTTTGTAGAATCATATAATTTATTTGAATATTCTATAAATAAAACCCAAAATTATAAATTGACACCTTCGATTTTTATTAAACAATTAGAAGTATTTAACTTAGAGTATAGTTTTGGAATTAGAAATGAAAATACAAATACTTATATAAAATATCCTGATTTATTTCATCTCAGCGCTATAAAGATTTTACAAAATAAAAATTGGAAATCTCCGAAAATTCTTATGAAATCAACTAAAAAGTATTTAACTAAAATAAATAAATTATTAAAGAACAATAAAGATATAAAACAAAACTATATAAAAATATGCATTGAATTTAAAAGTCCAATATAAATTATTGTGTTATTATATTTATAAGGTAAATAGAGCACTAGTTTTGTAACTAGCGACTCTATTTTTATATTTTGTGTAACTAGCTGCAAGGCTAGTTTTTTATTTGCCAAGATAATTTTCCCTGGGGAAATAGAAAGGTAAAAATATGAGTAAGTTTGAAAAATTAAAAAAAGTTATTTTAGATATGTGAGATGAAGATGAACTTAAGGAATATGAAGAACTTTGTCAAGATATTGAAAATGAAGTAGTTTTTTCATATGAAGAAAATGAAAGACACACTCAATTAGAAGAAAAATATTCAATTTTAAGCATTTTAAAATCAGAAATAAAAAGCATCGAAAATAAATTAGAAATGGAAATATAACATGATCAAAGATGCACCAGGAGTAATTTTTAAGGTTTTAAAATATAATAAATCAACAAATAGTAATCAATCTAAGAAGTCACGTGATCATTATTATAAAAATGGAAGTTATTTAGATTATATTTTAAGACCTGATGCAATTTTCAATTTGGATTTAACAGACGAAGAAGTAACTAAACTATATAATTTGAGAAATGGTAATAATTCTCAAAAAAATGAATATCGAAAAATATTAAAAGGAATTAATTCAAAATTTAAGTCAACGGGATTATACGGAAAAAACGGAATTATGAATGAAGATCAAGTAAAAGATTTAAGAAAAAACATGAAAAAATTAGATGATAATCAAATCATTTGAGATACTATAATTTCATTTTCAGAAAAATTTATCAAGAACAATAGTTTATACACTCCTGAAAAGATTGAAAAAGCTTTAAGTAAAGAAATTCCAAAATTTTTAAAAAATAATGGAATGAATCCAGAAAAAATGGAATGATTTTATACAATGCATACAAATACTGATAATAATCATATCCATTTAGGTTTTTATGAAAAGGAACCAACAGATTTTGATTGAATACGAGATAAGGATAAAAATCAAGTTTTAAATAAATATGGTAAGCCAATTGGTAAAAGAATTTATAAACGAACTGGAGTATTAAAAAGTAAAGCAGAGTTTAGAGCAGGAATAGATTTAGAAATTCAAAAGGAGTTTATTAATAGTCAAAAATTTAATAAAGATAAATCCCATTTAAGAACACAATTTAAAGAATCATGATTTGAAATAGATAAAATAGATAATAAAATATCGTGAAATGAGTGTAAACAAATTTATGTTGATATAAATAAATCTAAAGTTGAGTTATTAGATAAAATTGAAATGTTTTCATATTCTTTAAAAGAAAAATTACTCTTAAATTTTGAAACTTTTAAAGATATTCCTATAAAAAAAATAGGATATGGAAGTAAATTTTTAACAGAAACTGATAGAGAAATGATAGATGAAATTACAAAAGATTTTATTAATAGTGATTTAAATTTGAAAAATACATACGATTCTTTTATTAATGAGAATAATGAAAGGGCGGATAAAATTTCAAAAATATATGCAATGTATGAATTTGATGAACTCAAAATTGAAGAACAGCCAATATCATTAACAACTGAAGATTTACTAAAAAATGAAAAAGATTGAAATTTAAATGATCCTATTGATAAGTTAAAATTTCAAAGATTAAAATTTAGAAATCAACATATAAAATCAAAAAATATTGATGGATATTATCAAGGTGTACTTCCTGAATTTGGACAAAAGCTATTAAGAAAAATAATTAATAAATGAAAAGCTGATGAATGAAAACCAAAACCGTGACTTGAGTTTAACCCTAGCGGCTATAAACGTAATAAAAAATATTTCAGTAGTTTATTATATTTACCCAAAAATTTGTTCAAATTAATTCAAAAAGAAAAACAAAAAGCAATAAAAACTGCTAATAGAATTGAACATGACATTTAAATTTATAAAGAAAAACAAATTCAAAAAAATGAAAGGGAGCTGAAATAAAAATGTTTTTAACAATAATAGTATCAAGATACTTATCTGCCTTTGCAACATTATTTTTATTATTCATATTTTTCTTTAGTTGAAAACTAATCAGATTAAAATATAAATTAAAGAAAGATATAAATGTTGAAGCTGAATCCAAATTTAAAGTAAGAGCAATTAAAATAAAGAAAAAAATAATAATTGGGTTAATAATTTCTATTTGCTTATTTGTAATTTTTACTATAGCAACCTATTTAATGGTATATGCATAATGAAAGATACTAAATGATTTAATTCAAATAGAAAAATCTTATTATTTATTTTATTATTTGTTTCTGTAATATCAATTCCTTTAACTTTTATAATTTTTGTTTTTATAATTTTATTGTTCAAATATAGATTTGATTATAAAAAAATTATTGATGTAGTATTTAATTTGAATTTTGAAAATGAAAGCACGTTGCTGATTTTAGTGGCAATAATTATTATTGCAATCCACATTATTGCTATATTAGTATTAATTCATCTTAAAGGAAAAGTAAAGGATACAAGATTAATTAGAGAAGCCAAAGAAAAAAGTTTTGGTAAAGCTAGTTGAATTTTAAATGAGTTTGAAAAACCATTGTCTAAGTCAGAAAGGAGAGGAAAAAACTAATGAATCGATTATTGCAATTTGAAAATACATTTACAAGAAATTTCACTGAACCAAGTTTCATAACAAGAACTGAATTTGATCATAAAACTAAAAAAATATTATTTTGAGGAATACCTGTAAAAAAAGCAGTACATACTATTACGATTGGTTCAACGGGTAGTGGAAAATCCCAAAGAGTAATTATTCCATCAGCAGTTATTAATGCTCGCTTAGAATTCGAGAAAAAACCATGTATGGTATTTTCAGATCCAAAAGGTGAGTTACAAACAGAATTATCTTCAAAACTGATAACAGAAGGATATGAAGTGTTAATTCTAAATTTACGTGAACCAATGTATTCAAATTCTTGAAATCCCTTAAACAATGCTTATAATTTATTAATATCAAGTATTAATTATGTAAAAGAACATGTTAATGAAAAAACATTTAATACTAAAATTCTTTTCAATGATTATGTTAAAAACTCATTATGTAAAAAACATAAGAAAAATAATTGTGATACTTGTATTAAAGAAATATTAACTATCTCAGATAATATTGATAATGAACAAACAAACAAAAATAGTAATTTAAATAGTGTTAAATATCCATTGATATTAACTTTTAAACCAGTTACTATTTTTGAAATTGATGGTTTTTGATTGGTTGATCCAAATTTGGCTAAGGAACTTATATCTGGTGAAATTAACAAACTAAAAAATTTAGCTTATGGTGAAATTAATGATTTAGCCGCGACCTTATTGAATCCTGGAGCTGATGATAAAAATAAGCAATGATATGATGGTGCACAGGGAATATTTAAGGGCGTAATATTTGCAATGATGGAAATGATCGAAGAAGATATTGATTCAATTAAAGAAAATCAATTTAATATTGTAACTGTTACAACACATTTATCGAACAAAGATAATTTACAAAAATTTTTTAAAAGTTGAAGTGTAGGAAGAGAAACAAATCAATCAGTAATTGCTGCAAATAAAGTGCTTACCTCTTCTCCACAATCTATTGGTAATTTCTTTTCTATTGTATCTACTGCTTTATCTTTATTTGAGGGAAATGAATTAAGAAGTTTATTATGTAAAAATGATATTAATTTATTTGAATTTATTCAAGAAGAAAAACCAAAAGCAATATTTATGGTTGTTCCAGATGATCGAACAGAAAAACATCCTTTAGCAAGTTTATTTATTTCACAATTATATAAAGCGGGTGTTTTTTGTGCGAGTAAAAATTTAGTTAAAAGAGGTAAAGATGCATTAGATAGAGATGTAATATTTTATTTAGATGAATTTGGTAATTTTCCTCCAATTGTAAATTTTTCAACTATCTTGACTGTCTCTAGAGGAAGAAGAATGTTCTTCAATTTAGTTGTTCAAAGTTTTGAACAACTAGAAAAAAAGTATGGAAATAGCGATGCAGAAACAATCAAAGCTAACTGTTTATTGACAGTTTATTTAAGATCTGCAAGTTCAAAAACACATGCTACAATCAGCGAAATGTGTGGTCAAACTACAGTAGAAGTCAGAAATAGTGAACCATCTATTGGAAAAGATGGAAGAAAATATTATCCATATCATTTACAAAAAAAGCCTTTAATTGAACCAAGTGACATAAAGCATATATTTCCAGAGCCCAAACCAGGTGAAACAATATTTAATAAATATGCAATAATAATTTACCAAGATTCAAATCCAAGTATTGTAGAACTTGAATATGCTTTTAAAATGGATTTAACTTTAAAAGAAAATGAAGTTACAGATTTACCCATTAATAATGCTATTGATTTTGAAAATAATTATTATGTTAATTTATTTAAATTAACTATAAAACCTAAGATTCATGACATTGAACAAATAACAGATGATGTTAATTTAAATGAAGTTAATTTAGAAGAGGAAAATCATAATAAATTTAAAAATAGATTGTTTAAAGATTTATCAAATGCAACAGAAAAGGACATTGATGATTTACTTGAATTAAAAACTAAAGAACGTCAAATTAGAAATGATTTATATGTACTTCAGTCACGTAGTGAAGATTTATTAAGTACAGATGAAAAAGAACAAATTAAGAAGTTACAAAAAGAATTAAAATTATTGCTCAAAAAATTATAAACACTTATTAATAAGTGTTTTTTTGATATTATTTAATTAGATAGAAATAAAGGAGAAAATTAATAGTGAAAATTAAATTTTGGATTCAAGATTTTAGATCTATAGTTGAGTTAACAGAAATAGAATTTGATTTTAATAAACCTTCACATATTTTTGGATTAAATAACTCAGGAAAAAGTAATTTATTTAGTGCAATATCTTGATTTTTTGGAAAATTAGGTAATAAAGAAAATATATATACTTTTTTAACTGAAGATGGGATATTAAAATTTGAGGGGGATTATCTAAAATATAAACTTAATCATCTTCCAACTGTAAGGGCAAAATTACCAATGAATGGTTTTAAAATAAAAGGAAAATTTGAAAGAGTTAATAATATAATTAAAGATTATGAACTTAATATTTCTTTTAAAAATGGTTTTTCTTTTGAAGCGACAAAAAAAGAAACAAAAGGTTATATTGATATTTTTTATAATAATTTCGAAAATTACGAAACAGATATTTCAAAATTATTTAATGAAGGTTATAAGAAATTTGAATCATTTTGACCTCAAAATTTTTTTACTGAAGTAATAAGTAATGAAACATCTACTTTTATTCCTAATTTGAATAACTCAAATTGAATAGAAAAATTGAAAAATTACAAAAAGGAAAAATTAGTTAAGGAAATTAAAGAAAAAATGATAAATCTATATGATTTATTATATGAATTATATAATGTTTTAAAAAATGATCGAAAAGGGTTTATTGATATTGAATGAACATGCGACTACATTTCAAATTTAGAGACCGAGAATAAAGTGCTATCTAAGTTTTATTTAGATGATTTTTTCAATGGTACTCTTGATGAAAATTCTAAAACTTTAAAAAGAATTTTAAAATCATTAAATGACGATAATAATATAGAAGAATTACTAGAAAAATATTATAAAACTAATGTTGAAACAGTCAAAGATCAGACATTAAAAACTGGTTATAAATCAAGTTTTGTAAAATTATTTAATAAAAGTTATTCAAAAATATTTAGTAATATGGCAATGTCAAAAGTACCAATTTGTGATATAGATCAAAATACATTAACTATATTAATAAATGAAATTGAAAATAATGGGGATGAGATAATATATGGAACTCCTGAGCCTGAAGAACAAAGCTCTGGTTATAAGGCTATTATTTGATTTTTAATAATGTTTATTTCTTCAATTAAAAGTTCAGATTTTAATCTTATTTTGTTAGATGAACCAGATAAGAATTTACATTATAAACTCCAAAAAAAATTATCTCATTATATGCAAACAGTTTCACAGGATAAAAATGATTGGAAAACATTTATAGGTATAATTTCTCATTCGCCTTTTATGTTATTAAATTTTGATCATGAAATTATTTATGTAACAGACGTTAAAAAAGATGGTTCAACAACATTAACTAAACCTAACGGTAATTTTGATAATATTTTAGAAGAATCATTAACTCCAATTGTTACAGGGTCTATATATAGAGAGTGATTAAACCACTATCTAAAAGAGTACAATAATCCTGAATTATTTTATTTAATTTTAGAAAGTGATTTATATAGTAAAAATATTCAAGACATTGAAACAAATATTAAGAAACAATATAATGAATTGGGAATTAATATTAAAGTTGTTGAAAAAAATTATATATTAAATCCTTTAGAAATTATTGCAGTTAAAGTTGAGGATTCACTACAATTACATAATATTTTAACTACATCGTTTAAAGGAAATACTTCTAAAAAAATCTTAATTTCAACCAAGTTTATTGAAGATATACTAGATATAAAATAAAATTTTTATGTTATTATATTTATAAGGTAAATAGAGCACTAGTTTTGTAACTAGCGACTCTATTTTTATATTTTGTGTAACTAGCTGCAAGGCTAGTTTTTTATTTGCCAAGATAATTTTCCCTGGGGAAATAGAAAGGTAAATAAAAATGAATGGAATAATTCCAAAAAAATTAGGTAGTCAAAAATTAAAAGTTAAAGGAAATGTAACAATAATTGATCTAGTTTGTATATTAGTTTTTATTGTGATTGCTGTAGCTGTGGCCGCACCATTAACAATTATTGGATGATTAGGACAAACTATAATAGGAGTCGCAATTTTTCTAACATTAACAGTCTTATTAATTCCAAATAAGAAGACTGGAATGAGGCTTTATAATTTAATCTATTTTATGTTTAAATTTAAATCTTCAAAAAAAGAATTTTTAAAAGAATCAAGTGAGAATAATACTGCTTTATTAATGCCTTATAAAGAGTTAGTGGACAATAACGATGATTTGGGAATAATAAAAACTGACTTTTTATATGAGAATACTGCTTTTTATATTGCAGCAATTGAAATCGAAGGTTTTAATATATTAAATATGTCCTTTGAAGAACAAGAAAGAAAAATTAATGCAATTAAAAACTTATGAGCAAATCTTGAAATAAACTGTTCTTTGATAAAAATTGAAAAAACTTAAAATTGAAATTTATAGAACATCAATACAATGATCAAGAATGTATATTGATAAAGAATTTAAACAAGTATCTAAGATGCAATTAATTTTTATAGAAATTACTTTTCAGAACTAAAAAAAGCAAAAGTTAGATTAGTTGTAAATTTATTTCATTTTGATATTCCAATCGAATTTTTGAAACAAAAGGGTTTTGAAAATAAACAAATTATTGAAAAATATGTTGAATATGCTAAAGTTTGTTTTGATAATTTTAATGATCTAGTAGATGATTGAGCAACTTTTAATGAACCAATGGCAAATGTTGATTCACAATATTTAAATGGACATCATTATCCAAAAGAAAAAAATTTATATAAATCAGTTCAAGTATTTTACAATATGATGGTTGCTCATGCAAAAGTTGTTAATTTATTTAATAAAAATTATAAAAAACTAAATCAAAAAATAACAATAATTATTTCATTAAATCCAGCACAAGTAAGAGACAAAAATAATCCATTAGATGTTCTAGCTGCAAATAAATGTGATTTACTTGTAAATTTTTCTCAATTAGATCCTGTTTTAAATGGAAAATTTGATTCTCAATTAATTTCAATATTAAAGGAAGAAAATTTATTACCAATTTATAATCAAAATGAATTAAATGAGATTGCTAATGCAAAAATAGATTATATATCTTTAAATTATTACCAACCAATAAGAGTAAAGGAAATTAAAAAAAATTCAAATCACATTATGTCAAAATTTTTTGACTTTTATGATTGACCAGAAAAAAGAATTAATCCATCAAGGGGTTGAGAAATTTATCCAAAAGCAATTTATGATATTGCGATTATTATAAAAAATAAATATAACAATGTTGCTTGAATTATTTCAGAAAACGGAATAGGTGTTCAAAATGAAGATCAATTTAGAGACAAAAATAATGAAATAAATGATCAATATAGAATTGATTTTATTTCAGAACATCTTGAAGGATTACAAAAAGCAATTTCTGAGGGTGCAAATTGTTTTGGTTATTCACTTTGAACTTTTATTGATTGTTGAAGTTGAAGTAATGCATATAAAAATAGATATGGTTTAATTGAATACAATTTAGAGAATGATAAATTTATAAATAAAAAATCAAGTTATGAATTTAAAAAATTAATAGAAAGTAAGTAAAAATAAAATGAGAGTAGCAATTGATATTGGAGAAAAATCTACCAAAATTTGCATTTTAAAGGAACTAGAAATATTAGATAGAGAAGTTATTGAATATAAAGAATTGATTAGTGCTAAAAAATTATATGAAAAAATTTTGCCAATTCTTGAAAATAAATTAACTAAATTTGATATTTAATATATAGGATTTGGAATTCCTGGAATAATCAATCCAAAAACAGGAGAAGTTTCAGGAATTAGTGCAATACTTGAAAGAGAAAAAATTAACTTTAAATTTTTAATTGCTAGTAAATTTAATATCCCTGTATTTGTTGAAAATGATGCAAACTGTGCTGGAATAGCTGAAATGATCTATGGACATGGTAAAAATTATCAAAATGCGGCATTTTTAATTGTGGGTACAGGAATTGGTGGAACTATTTTTTTGAATAATAAAATTTTTAGAGGTCAAAATTTTCTTGCAGGGGAATTGGGGGTGCATGCTTAATTCTTCAATTGATAATGAGCAGTATTTAAATATGTCTTCATTTTGTGGAATGAATGCTCTTGAAAATAATTATTTTCAAAAAATAAATAACAAAAAAACTGGTAAGAAAATTTATGATTTGTATGAAATTGATAATGAAGCTAAAAAAGCAATTGACGAACAAATTTTTAATTTGGCAAAACTAATTATAAATACATCTTTTGTTATTGACCCACAAATATTTATAATTGGAGGAGCAGTTTCTAAAAATTCCTTATTTATTAATTTATTAAATGAAAAAATTACAAAATTGTATAAAATGTCAGCTATTGAACAAAAGTTTAATGTAGTTGTTTGTAAGTTTTATAATGACTCAAATATAATTGGAGCAAGTGTTTTGGATATGTAAAATATTTTCATTTAATCAAATAAAAATATTTTACAAAATTAATAAAATTAGTTTTATTTTAAAAGAATGAGATAATATTGAAAAGGAATTAAAGTAATGAAAAAAGCAATATATCAGATAGTTTTTATTTCAATTATGGCATTTCTTTATTATTTTTATAGTGCATGAATTAATGAACTAGAAAAAGATAAAGATAACAATACTTTGTATCAAATTTTTAGTCCATTTAAATTAATAATTTTGGGGATGATTTTTACAATTATTTATGCTTCAATAAAAAATTTAATGTTTTCACATTTTATTAATTTAAAAAAATACAGAGCAAGTTTAAGGGATAATATTTTATTTGAATTTGACAATACATTAAATTATTTATCAGCATTAAAAGTTTTTATTGAAAATAATGATAATAAAAATATTAAGCTTAAATTAAAAGAATTTTCATCAATTAAATATGCACCAGTTTACTTAAATGATTTTATGGAGCAATTAAGTAATAGTTTATTAAAAGAGGAAAAAATTAATTATTTAGTGCAGCCTTGTGAAATAATAATAAAAAATATTGAATATAATTTTGAATCAGAAAAAAGTAAAAAAATTTCAAATAAAAATGAAAGTTTTTATGAAATAAAAATGGTAAACAACTATTATTCTTTAAGTAGTTGACAATCAATTAATTATTTTTTATCTTTAGAAAATGAAAGAGAAAATAACAATAATAAATGAAAAATTACTGGTTTATATATTTCTAGATTTTCAACATCTTTATATTTATCAACATTATTTACAACAATTTTATTTGTAATTATTGGTTTGACATTAAATTTTAATAATATTTCATTAAATAATTTATTTTATGGAGTATATATTTTTGGAATGTATATTTTTTCAATGCTTTTCTATATTTTATTATTATTTAATTTTTCAAGAAAACATAAGATAAAAGTTTATTGATTACAAATATTAACATATTTTATATTTATATTTTTAATATTTTTGAATATATTTTTGAATATAATTTTATTTCCACATGTAAATGCAGGCCAACATTGATATGAATCTACTTTAATTAGATTTTTATTAGCGGGATTATATATAATTCTTTCAACAATGTTACTAGCATTTGTTTTATCAGGAATATTAGAATTATTTGAAACTAAAAAAGTAAATGTATGAAATATTATTAATACTTTTATATTACCTTTAATAATATACATTCTTTCATTTACAATGTATTTATTTTCAATTAAAGAAGGCAATTCAAATGAAATTTATCTAACAAATTTTACAATTATATTTATATATTGAACATTTTCTGCTATTTTTAATAAATTATTGTCTAAATAATAACTACCAATGATGATTTAATTTATCCTCTTTTTTTGATATAATTAATATAATAAAAATGTGGGAGAAATTATTTATGAAAATTAAAAAAATTATATTAAAAAATTTTATTGTCCCAGGAGAACAGATATTTGAATTTAATGATCAAAATATTTTAAAAAGCGGTATTTTTCATGATCAAAATGATCTAAAAATAGTAAATCAATTATTAAATGGTAATTGATTTGATTCTTCATTAAGTTTTGAAAAATACTATCCTAAATTTGCAAAAAAATTAGATAATGAGAAAATGAATTTTCAAATTGATGCGTTATTTTATATTTCTCAAGAAGAGTTAAAAATTTTAAATAGTTATGTAAAAAAACTAGAAATTTTAATACCACTAAAATCTCAAATTTATTATTATTCTATTAAATGTATATATCCCTATATTTTTCCAATAGTTTCTATTATTCCAGCTGAAAAAAATGGAGATAAACCATTTGGTTTAGGTATTCACTATGATAAATTTTTTAAATCAAATTTAACAAAAAAAGACATCTTAACAATTGCAGGAATTAGTGCAGTTGGTCAACTAAGAGATAAATATTTTAAATATAAAGATGCAGAAGTTAATGGAATGTCAAAAGAAATTTATAATCGTTATTTGGAACTTATTAAGTCAGTGTTTAGATATAGTGAACAATTTATTGCAAAATTAGGACAAACTATATTTAATATGGATGATGGGGACATAATTAATTATGGCGAACAAAAAGAATATTTTTTTAGAAATGAAAAATTCATTGAATTTTTAGATAATATTCCCTTATTAAGTGAAGATAAAGTTGTAAGAGAGGATTTTTGCAATTTACTTTATGAAATATATTTAAAGGACTTGCAATGAATTTACTCTGTTAAGTCTGCTAATGATATTATTGAAATTAGAGAAAATATATATAATAATTTTTGTGAAAAAGCCATCTATTCAAAAGAATTAATTAATTTTTTTAGAACAGAGTTAATTTTAGATAATAAAGTATTTGATTTTAATTCAGCAATTAATGAATTTAAAAAGAAAATTGATGAATCATTAGTTTTTAAAGGTGAATTAAAAGTTACTAAAGCTTTTGAAAAAGGATCTTCTGATGTTACTTCAACAGAAGAGGTAAAAGAAATTATATTAAATAAAAAAAGAAAGAAAAAGAAATTTAAATAAAATACTTTTTCTTTTTTATTTTATTTGAAATATTTTATAATTTAACTACTTTATTACTTAGTTTTTCCTTATAATTAATAAGAGGTAACATTATGGGCATCAAAAATAATCAAGAAACTAAAGATTTATTAGAACTTGTTGATAAACAAGCACTATATAAGGAAATTAAAAATAATAAATTATCTGATAGTGAAACACAAAAGTTTGTTGAAGCAATTTTTGAAAATTATTTTTTAGATAATGATAATATTAATTTTTTAGTTAATAATGGAATTAATTTTTTTAATTTTGAAGAAAATGAATTATGCTTTTGTCTAAGCGGAATTAAATATAGTGAATGTTGTTTTGCAAATTTATCAGATAAAATCGATGAACAATATATTCCGTTTTTAAAAGCAATTTTAAATAAAAAAGATTATGATAAGTATTTAAGTTTTTCAAATAAGACTTTTCAAAATGCATATAAAGATTTTGCTAAATTAGAAAAATGTAATTATTCAAATTGTATATCAAAAGCTGTAGAAAATAGATTGTATAATTTTGATTTTGAAAAAAATATGTATGTATCAACAAATAATACTAATCCATTTAACAATAATTATAAAATGGGGGATAATTTTTTTAATAAAGTAGATAATAATAATTTTAAATTTTTTGGTTTTTGTACTAAACATTATAATGAAATTAATAAAATTGTTATTAATAAAGAGAGCTCTGATAAAGATATTTTATTATCAAATTTTTCAATAATTTTATATAAATTATTTATAGCTAGAATTCAACTTTTTTGCTTAAGAGAAGAATATAGAAATTATTTTAATAGTATTAAAGATGAAAATATTAAACCATTATTTATTTATAATTTGAAAAGAATTTCGAATCATGTTTCTTCACTTGTGGATACTTATAATTTTATTAAAAAAAATATAAATCAAGAATTAAAAAATTATAAAATTCTTAAATTTAATTTACCGAAAACAGATATTTTTACTATTTCTGATTTGATTTATCCTCAAATTTGTCCTGAAGATTTTAAATTAGTAAATTCAATTAATAATATATTTATTACTGAAAATAGTGCATTCTTAAAAATGTGAGTGAATAAAGATAGTACACTTATTACAATTATTTTTAATAATGATAATAAAATTTTGAATAATTTTTTTAATCAATATAAAAAAATTATTCATGCAAAATCAAAATATGAGGCTGCATTCATTTCAAATTGTGCATTAATTTTAGCCGATAATATTTTATTTGATAAAATTTGATTTGATAAATTAGAAAATAATAATAAAGCATTATTTTCAGCTCTTAATAAATTTAGGTTTGAGCACCCAAATATGGGTCAAGAATATTTAAAAATGAAATTTTTTGCAGGTTTTAATAAGGGAAATAACTTTTTTTAAGAAAGAGTAAAATTAATGAATTTAAATATAAATTTTGAAAATACTGTTAAAAGTATTGAAAATTCACTAAATAATAAAGAAGTGAATTCAATTTTATTAAATGGGCCAACAAAATCTGGAAAAACATCAGTGTTAAATCAATTAAAATTAAAAACTGATTCAGAAGGGTGAAATACAATTTATTTTAATATTTCAGAGTTTGATCAATCAAAAGATTATTTGGAATATTTTTTAGCTAGACTTTTATCATATTTTAAGGATATTATTGGAAAAAAGGCAATTTCACTTTTTTTAAAACAAAGAGATATAAAAGGAATTATTAAGAAAAAGATTAAAACTAATAATAGAGCTTCAGAATTTAGATTTCAATTTAAGCAAAAATTTAAGAAAGATGAAGTAGATAAGAAAAAACTTAATAATATTCAAACTCTTATAGAATTAAATAAAACACTAGCAATTTCCCAATTTAAATGAATTATTATTTTTGATGAAATTGACAATTCAGAAATTTACAATATTAAACAATTTTATGATACTTTAACAATTGTACAAACATATTTAAAATCCTTTAAAATAATTATTTCCGCAAACTTATCTAAAATTGAAAATGAATATGAAAAAGCAAAAAGTATTAATACTTCATTTGATGCAAAAATGGATTTAGAATTTGCACTAGATAATGCTAAACATGAAAATATTCAAGTGAATTTGTTTATTAAGCAACAAAAGGTAACAAATTTATTTTTAATAAATTCAATTGATACTTCATTAATTGAATTTGAAAAATGGATTAATAAATACTACAATTTCAATTATAATGAAAAAGATAAGAGATATTATTATGATGAAATTTACTTCTTGGCTTGATTTTTATTTTATTTAAAGAATGAGAATAATTTATTATTTAATATTCTTAAAAATAATTTTAATTTATATATGCAAATTATAAATGAAATTGATGTAAGTTTAATTTTGGAAAATGATGAAAAAATTGCAAATTTAAGATATATTGAGTTATTGTTAAAAAATAAAGAATTTAAATTTCAAACAAAATTAAAATATTTAGAAATTATAAATTTAATAAAAGATCCTTTTAATTTAAAAATACCTATTTTTCTTACAACAGCTATAAAAAATGACTTTTTAAACATTATTAATGAATTATCATCACTAATACTTTTTAAATCTACATTACTATATTCTCAAAATTTAATTGAAAATTATGATTCATTAACTTTTCAAATTTCTGTTGAAGATTTTGAACCTGAATTAAAAAGCTTTATTAAGTATTTAAATCCAAGAAGTATAGAGCAATTAAAAAATTCAAAAGTTAAATCTTCATTTGATAAGAATTTAAATACTATTATTGAAAAAATTTTTTCATTAATTAATTAAATATAATAAAAAATGACATTTTAAATGTCATTTTTAACTTTTAAATTTATATCAAATAAGATTATTATTCATTTTCTTCATATACTGAGTGACTTCAATCAATATCATTTTCCTCTTTTTTTGCATTAGTATAACAATTATCGCAAACTGATAAAGGTATTTCATCTTCAATTTTATCGTCATAAACATAAATTCTTTTTGGATCAATTGAATTTAATTCTTTATTACAATTTTGCATTTCACAATATTTTTTCATTTTATTCATCTCCTAGAACTATTTTACTAAAAAATGATGTCATTATGATTAAAAATGCTTTTAAAAGTAAAATAGCTTAGCTAAAATAAAGTAGGATAAATAAATTTCAGACTTTAATAAATAAAATTATTTTTAATTGTATTTGATTGAAAATATATTATTCTATTGCAATTATCTATAATTAATTTTGATATTATTTTTTAATCGCATCACGTAATTTATATTTGTTATAAGTTTTTATAACAGGTATTTATTACTTAATATTTATTTCTTAGTGCTAAAATAATGAACTTTTTATTAAAAATTACTTGTTTTTAAAATTACATAATCTACTTTTTTAATATCTTGGATAGTTTTACCCCCAGAATATGAAATTGATGATTGTAAATCTTCTTGCATTTCTTTATATGTTTCTGCTAATTTTCCTCGTACTTTAATTAATTCTTTCTTTCCTTCCACATATCGCTTTTCGCCTTTATTATATTCACTTGCACTACCATAATATTCTTTAAATAAAACGCCATCTACTTCAACATTTTTACCTGGTGATTCTTCATGAGCTGCAAAAAGGCTTCCTATCATACAAATAGTTGCTCCAAATCTAATTGATTTGGCAATATCTCCATTAACTCTTAAACCACCATCTGCAATTATTGGTTTATTTGCTGCTTTACTACATCACTTAATTGCTCCCAATTGTCATCCACCAGTTCCAAAACCTGTTTTTAGTTTTGTTATGCAAACTTTTCCTGGACCAACTCCAACCTTAGTTGCATCTGCTCCTCATTGTTCTAAATCTCTTACTGCATGTGGTGTTCCTACATTCCCAGCAATTATAAAAGTATCATATTTCATAAATTTTCTAATATGTTCAATCATTTTTTTAACATTAATTGAGTGGCCATGTGCAATATCAATTGTAATAAAATCGGGAATTAATTTTTCTTTTTCAAGTTTTTCTATTAATTCATAATCCTCTTTTTTAACACCAACACTAATTGATGCAATTAATTTTTTTTCTTTCATTTTTTTTGTAAATTCTAGACTATCAACATTAAATCTATGCATTACATAAAAGTAATTTTCTTTTGCGAGTTTTTCACATAATTCTTCATTAATAACAGATGCCATATTTGCAGGTACAACAGGCATTTTAAATACATATTTTCCAAGTTTAACACTAGTATCACATTCACTTCGTGAATTAACTGTACATAAACTTGGAACAAGTTGTATATCATCATAATCAAAAGCGTACATTTATAAATTCTCCATTTCATAGGTGATTATAGCAAAAAAATAAAAAAAATTCACAAATGTGAATTTAAAATTTTTTAGCAACTTCAATAATTTTATCTGCAATTTGACCAATTGCTTCATCTGTGTTCATTGTTGAAACTGGCGCAATTTTTGTTCCAGCAAATAATATTGGTTCATTCACTGTTGAACCAACAAATTCTCAAGTTCCTTTTAAGAATTCTGTGTGATTACCTCATGGATATCATCCAAAAGGGGCACCTTGTGTTGTTAAAATTTGAACTTTCAAGTGATCTAATAAACCAATTGCGTCACCTTTTTTAACATATTTATATGAAAATGTTTGATCTGCAAGTAAAACATGATCTAAATAATTTTTAATTAGTCCACTTACATTAAAATTATTCATTGGACTTGAAATAATTACTTTATTCACTTCTTTTAATTGATTAATATATTTTAATGCATCAGCTTCATTAAAATAATTTCCAAAATTATCCCTTGAAATTGTTTTTTGTGCCATTGGTTCGTTATTTAAATCCAATCTAATAATCTCATCATTAGGATTTAATAAACTATATTCTTTTATAAATCTATTTGTTAATGCCACTGAAAATGATTTTTCCAGTGGACTTACAGTACCTGTTATTACTAATACTTTATTTGACATATTATTTTTCCTCCTGATAGTTTTATTTTATAACTAAATTATTGAAAAAAATTTTTATTATTTTAGAAAATTCTATTTATATTTTCAAAAAAAGTTATAAAATAAAAATTAGTAATAAAGGAAATAAGAAATGCAAAAAGTAACTATTATTACGATTGCTGGGGGAAGTGCTAGTGGTAAAACTACTGTTGCACAAGCCATTGCAAATCAAATTTTTAAAAATGAACCAATATGCCATATTTCAATGGATAATTATTATAAAGATTTTAGCAACCTTTCTTTTGAAGAAAGGCAAAATTTAAATTTTGATCACCCAAATTCTTTAGATATTGATAGACTTTGTAAAGACTTAGATGATTTAAAAGAGAATAAGTCAATCGATGTTCCGCAATATGATTTTAAAACTCATTCTCAATCAGGGAATTTTACGACATTGGAACCATCAAATATTGTAATTTTAGATGGAATTTTATCATTACATATTGAAGAAATAAGAAAACGAAGTGATATTAAAATTTTTATAAAAACAGATGATGATGTTAGATTTATTAGAAGATTGTTAAGAGATGTTAATGAAAGAGGGCGTCAATTAAATGATGTTATTGCTCAATATTTAGAAACTGTTAAACCAATGCATAAATATTTTGTTGTTCCTTCAATTGATTATGCCGATGTTATAATTCCATATTATGAAGGAAATACAATAGCAATTGATTTAATTGCTTCTAAAATTAAAAATTTACTAAAAATAAATTCAACTACAAATTTAAATGTAGCAATTAACAAATAATTATTTATTGAAATATACAGAAATGTATATTTTTATTTTTTCAAGTTTTAAAAATGTTAAAATTATTATTAGTTATAAAGAAATTTTGTTTTATAAAAAATATTTGAGGTGAGTTATATTAAAAGGGGTTTAAATATTAAAAAATTTTTAATTATTCCTGCAATATTATTTCTTTTTTATTCTATAATAACATTTTTTATTTCTTGAAAATGAGACTGAGAAATTCAATCATATGTGGGAAAAATGAATTATAGTGTTTTTGAAAAAATATTTGAAAATTTTTATGATGTTTTTGGAATTTTTCCATTGCTTGTAGTAATTTTTATTCTATTAGCAGTAATTTGAGAGTCATTTATCTTTTATAGTAAAAATAATGCAAAAAACAATATAATAAGAAATAATCGATGAATTTCTTATTTATTTTATATTTTTACTTAATTTTGTTGAGTAATTGTAACCGCAACTTATATTTTTATTAAATTAACAATGGATAATGGATAATGGATAATGGATTTGGAATTGGAGTAGATACTAGAATTTTAGATACAATTTGGTATCAAATTGGAGTAACAATAGCTATTAAATTAATTGAATTGGCAATTATTACTTATACAACTTATTACTTAAGAGTGAAATTTTCAAAAAGAGAAGATGTTTTGCAACAAGAATTTTGAATCGATAGTATGAAAGGTTTAGTCTATATAATTATTTGTTATATTATGATTGGTTTGTTTAAAACTATTTTTGGTCACCCATTTTATTACTCAACAATTTTTGATCAAATATTAGTGCAAGCAAAAAATCTTGGTTATAATTACACAGTTTCAGTTATTTGAGGTTCTGGACCAGAAGGAACAGAAGCTGTAAAATATTATGAGTGATGACAAGTGAATAATTTTTTGGATAATATAAAATATTGATTTGATTTTGACAGCTCAACTAAAATGACAGAAGGATGATGAAATCGAGATTTTCCATCTGGCCATACAGTATCAACATTATCAATACTTAGTGTTATGTTTTTATTTATAAATCCAAGTAAAAATAGAGTTTTAAATAAAAATAAAATAAGTTTTATATATTTTATTGTTTTTATTCATCTCACTCTAATGAAATATGCTTTAATGTTGTATAAAGTTCATTGACCAACAGATTTAGAATTTTCATCAATTTATGGAACAATTGCTTTTTATTTTGCTATTTTATTTACAGATAAAATTTTAAGATTAGCTATTAATAGTTTTAAGACTAAAAGATTAAAACAATCTTTAAAAGGAACAATAATTTTTTAATTCTAGAGTTGGATATTTTTTATATGGTAAAAATAAAGAAAAAAATTACAAAAATTTTAAAAAAATATAAAATTATAGAACATGAAACTAAAAAACAACACTTCAAAAGAAAAGCTTGAATAACTAATATTTAATTTTTTAATTAAAAAAGTTCTTTTTTTGAGTAAATTTGAGATAAAAAAAACATTTTTGAACAAAAATGGTTAAAGTATTTAATGTTTTTTTACAAAAAAAAACATTTTTCTATGTATAAAGCTAGTTTTTATGGGGCTTTTTCAATAAAATTTATTTTTCCTAGAAATTATGATATATTTATTTTACTATATATAATGAGGTAGAGATATGGCAGAAAATAGTAATTTAAATTATACAGAAGATAGTATACAAATTTTAGAGGGTCTTGATGCTGTAAGAAAAAGACCAGGAATGTATATTGGTTCAACAGACTCAAGGGGATTACATCATTTAGTTTGGGAAATAGTGGATAACTCAATTGATGAGGCACTTGCAGGAATTTGTACTGAAATTAATGTATCAATCGAAAAGGATGGTTCGATTACTGTTAAAGATAATGGTAGAGGAGTTCCAATTGGAAGCTATAAAGGGACAAATCAATCAACGCCTGAAATTATTTTTTCAGTTTTACATGCTGGGGGAAAATTTGGTGGAGATGGTTATAAAACTTCAGGAGGCTTACACGGAGTGGGCTCTTCTGTTGTAAATGCATTATCAAGTAAATTTAAAGTAATTATTCACAGAGATGGTTTGATCTCACAAATAAAATTTGCAAATGGGGGAAAACTTGTTCAGCCTTTAAAACAAACAGGTAATTCAAAACAAACAGGAACAACAGTTAATTTTTTACCAGATGAAACAATGTTTTCAACTGTTAAATTTTCTTTTTCAACAATTTCTGAGAGATTAAAAGAATCTGCACTTCTAAATTCAGGATTGAAAATAACTTTAAGAGATAATAGAAGTGATAAATATGTTGAGTATATTTATGAAAATGGTCTTACTGAATTTGTAAAAGAACTAAAAGGTGATCAAAAAGAAATAATTAGTCAGCCAATTTTAATTAAGGGAAATGAACAAGAAATTGATGTTGAAATTGCCATGACTTATACAAGTGATTTTTCAGAAACAGTTTTAGGTTTTGCAAATAACGTTAAAACAAGTGATGGAGGTACTCATATTACAGGTTTTAGAACTGGATTAGTAAAAGCATTAAATGATTATGGTAAAAATCAATCAATTCTAAAAGAAAAAGATAAAAAATTGGATTCTACAGATATAAAAGAAGGTTTAATAGCAATTGTAACTGTAAAAATTCCAGAAAATTTAATTCAATATGAGGGACAAACAAAAGGTAAACTTGGAACTGTGGAAGCCAAAACAGCATGTGAAAGAGTTACAGAAGAAAGCATTAATTTTTGGTTGCAAGAAAATAAGATAATTGCAATTTCGATTATTGAAAAAGCATTACTTGCTCGTAGAGCGCGTGATGAAGCACGTAAGGCTCGTCAAGCAGTAAGAGATCAAAAAAATAAATTAAAATCTAGAACAATGCTTGGAAAATTAACTCCAGCACAAGGAAAAAATAAAACTTTAAACGAATTATATTTAGTTGAAGGTGATTCAGCTGGTGGTAGTGCTAAATCGGGTAGAGATAGAAAATTTCAAGCGATCCTGCCATTACGTGGTAAAGTAATAAATGCTGAGAAAACTAAATTAATAGATTTACTAAAAAATGAAGAAATTACAACAATTATTAATGCAATTGGTGCAGGAATTGGTAGTGATTTTGACATTTCGGATGTTAATTATGGGAAAATAATAATAATGACCGATGCTGATACAGATGGTGCTCATATTCAAACATTACTACTAACTTTTTTTTACAGATATATGAAAGAATTAATAATTAATAAAATGATTTATATTGCTATGCCTCCATTGTTCAAAATTACAACAAGTTCAAATAAAAAGGATTTTATGTATTTGTGAACTGAAGAAGAACTATCACAACATATGAAAAAATCTAAATCTAAAATAGAAATTCAAAGATATAAAGGTTTAGGTGAAATGAATGCAGATCAATTATGGGAAACAACAATGGATCCAGAATATAGAAAATTGATTCAAGCAACAATTGATGATGCTCTATCTGCTGAAAATGCTTTTAGAACATTAATGGGAGATAATTCTGAAAAAAGAAAAGAATGAATTGAAGAAAATGTGAAATTCACTTTAGAAGAAAATGTTGATTTTATTTAATATAAAATAAAATTGGAGGGTAATTCAAATTATGCAAGTTTTAACTTTTCAAAAAAAAATTAATTATATTTTAGAAAAAATTGCAGAATATAATAAGATAAATAATGATATTAAACGTTTTGGTATTTTTAATAGTTTTAATATTTTTCATGAAATTGATGGTGAAAATTTGTATTTTGATATGAAAAATACAGACGATGAAGGTGGTATTTCATTAGCTTCTATAATCTCAGAACAGTGGATTCAAATTAATACTTCATTAGATAATGAAATTAATTGATTGATAAAAACAATTAATCGTTTTATTGAAAAAGCAAAAGAATCAATGAAAAAAGCAAGAGAACTTGCAAAACCACATGTAGGAATATTGATTTATGATGAATTTACCGATTCCTATTATTTAAATCCAATTACAGGTCCAATTTTATTAAGATCTAAAGAAATTGCAAAAGAAATTTCTTCAACAAGAATAGATATCTTCAATATTTTTATCAATTTGAAATCAATTTTTCTGGAAGATCATCAATTGGGAGAGATTATTGGAAAATCTTCAGAATTCATTATTGAAAAAATACATAAATCTTTAAAATTTATTAAAGAATCAGAACTAAAACTTGCAAGAATTGAAGGAATACCAAGATATGTTGCCAACTTAATACAAAATAATGATAAATTATTATTTAATTCATATGCAACTGTTGATTTTGGTCTAGAAATAATAAAAATAAATAAAGTAAATGAAGTTTTAATAGAAGCTGAAAAACTCAAAATTGATCAATTAGAAAAAATATATCTTCAAGTGAGAAGAGATGAGGAAGTATCAAAAATCATGATTGATTTAGCTAGAAGTTTAATTTCAAAAAATGATCCTAAAATGTATTTTCAAGAGGGGTCATCAGGGTTATGGTTTCTTTCAAAAGAAGGAAAAAAAACAATTCAAAATTTAAATATCATTGATTTTATTGATAATGATATTAATGAAATTAATTTTGAGATTAACTAGGAGGAATGAAAAATGTCAAATAATAAGGAAAAGGGAATTTTAAATTACTCACTTGAGGATTTGATGAGTGATAGATTTGGAAGATATGCAAAGTATATTATTCAAGAAAGAGCACTTCCAGATGTAAGAGATGGCTTAAAACCTGTTCAAAGACGTATTTTATTTACTATGAATGAATTAAACTTAACTCATGATAAAGCATATAAAAAATCAGCACGTATTGTTGGGGATGTAATTGGTAAATATCACCCACATGGAGACACTTCTGTTTATGACGCATTAGTGCGTATGTCTCAACATTGAAAACTTAATGTCCCATTAGTGGATATGCATGGTAATAATGGTTCAATTGATGGTGATAGTGCAGCTGCTATGCGTTATACTGAAACAAGATTATCAAAAATAGCAAGTACTTTACTTGCAGATTTACAAAAAAATACAGTATTATTTGCTCCCAATTATGATGATAGTGAAAAAGAACCAACAGTTCTTCCAGGTTATTTTCCAAATATTTTAGTAAATGGTGCAACAGGTATTGCAGCAGGTTATGCAACAAATATGCCACCTCATAATATTGGAGAAGTAATTGACGCTACAATTGCAACAATAAAAAAACCAAATATTAAACTTGATGAAATTTGTAAAATAATAAAAGGGCCAGATTTCCCAACAGGAGGAATTTTAATGGGCCAAGAAGGAATAGAATTTGCTTTTGAAACCGGTAAGGGAAGAGTTATTCTTCAATCAAAAATGCATAAAGAAGAAAATAAAATTGTAATTGATGAAATTCCTTATGAAGTAGTAAAACAAGATTTGATCAGAAAAATTGGAGATGTAATTGATGCAAATCAACAAATTGAAGTAAAAGAAGTTAGAGATGAAACAGATAGAACTGGTTTAAGAATTGTTATTGAGTTATCAGAAAAAGCAGACTATGATTTAACAAGAAAATTTTTATTAAAAAATACTCCTTTGCAAATTTCTTATAATTATAATAATGTTGTAATTGTGGATAAACAACCAAAGCAATTGGGAATAATTTCAATATTAAAAGCTTATATCAGCCATTACAAGGATGTTTTTACAAAAAAAACTAAATTTGATTTAGATAAAGCAGAAAAAAGATTAGAAATAATTGATGGTTTAATTAAAGCAATTTCTATTTTAGATGAAGTAATTAAAATAATTAGAGAATCTTCAAACAGAAGTGATGCTATTTTAAATTTAATTAATAAATATCAATTTACAGAAACACAAGCAATTGCAATTGTAGATTTAAGATTATATAGATTAACTTCAACTGATGTTGTTAAATTAGAAGAAGAAAAAAATGAACTTGTTAAATTAATAAGTGACTTTAAACAAATTCTTGGAGAGCCAAAAGTTTTAGATAATAAAATTATTAAACAATTAACAGAAACTAAAAATGAATTTAATGTTGCAAGAAGAAGTGAAGTTGTAAAAGAAATCGAAAATATTGAAGTAGAATTCAAAAAAACAATTGTTGAAAAAGATTATACAATTTGAATATCACAAGATGGATATTTAAAGGCAATTGAAGATTCACAATTAGGAAAACATCCAATGAGTGATTTTAAAAGGAAGCCAAATGATATTTGAATATCGCAAGTTCCTGCTTCAAGTTTAGATTTTTTATTGCTTGTTTCAAGTGCTGGAACTTACTATTCAATTCCAGTTTATAAAATAACTCCAAGTAAATGAAAAGAAACAGGAATGCATATTAATCAAGTAGCAACAATATCAGGACAAGAAAAAATTTTGGCTGCTTTTGTTGTTCATAAGTTTGCAAATGCTAAACAAGAAATTCTTTTAGCAACAAAAAAAGGAATGATAAAACGTACTCCTATTGAGGATTTAGAAACAAAAATGTTTTCAAAACCTTTTAGAATTATGAAATTACAATCAGAAGATGAATTAGTATCTGCATCATTGGTTACTTCAAAAACAAAAACAGTTACAATGTTAACAAGAACTGGTTTTGCTGTTAGATATGACATTTCTGAAATTCCAAGTGCAAGTGCAAGTGCAAAAGGTGTCAAATCAACAGTGGTAAAAGATGAAGATATTGTTGCAGGAAAAGCATTTTCAGAAGGTAATATTTTAATTATTACAAACAAAGGAAATGTTAAAAAAATTAAACAAGATCATGTTCCAATTATGAATAGACCAAAACGTGGTGTAAGATTGTATCCTTGAAATAAAAAACGAGATGAATTTGCTACTTTTTTATATAATGTACAACAAAATGATATTTTAAACATTTTAGATGAAGAAGATAATTTAACTCAGTTACATGTTAAAAATTTTAAATTTGCAGATTCAGAAGATGTTCCTGAGGATTTGGATATACCTGAGATTATAACTTCAACTTTGGAAAAATCATTTATAATTAAAAATGGTGATATTCCACCTGCTCCAAAAAGTGGTGATGATGAAAATAATGGAAGTAAGGGACATTCAACACCAAGTTCAAGTAGAAATTTAAAACTAGAGAATAAAGAAAAAACTAATCAACCAAAAGGTGATAAAGTTTTAAAATCAAAAACAGAAGAAATTGTAAATATTGTATCAGAACAAAAAGAATTAAAAACAATAAATGATGAAGATACAAGTGAATTGAAAATTGATGTAGAAGATTTAATATAAAATGACAAATAATTGTCATTTTTTTGTTTTTTAATAAATAAAAATTTTTAATTATTTTAAAAAGATAATTTACAAATAAAATGGTATAAATAATATGGACTAAAAATAGCACATAAAAAAAGAAAGACTTTTGTCTTTCTTGCCTAAAAGATCACGTACTTAACATACGTTTAAAATTCAAAGTTTATTTGATTCTCCCTAAAAATCTTTAAATAATAATAAATAGAATTTCAAAAAAAGTCAATAGAAAAAGGTGTCAAAGAAATGTATATTTCAATTGATGAATCTGGTGTTGATAATCCTGTTATAAATAATTATATGATTATAGGAGGTTTTTTTGTAAGAGCATTTCTCAAGCTAGATCTATTCATAAAAAAATTGAAAAGGAAATTAAATTAAAAAGAGGATGAATTGTTGAAAACTCAAAAGAATTAAAAGCAAAAAATTTGAATTATAAGGAAAAGATATTTATCTTAAATGAAATTACAAAAATTAAAAACTTTGTCCCATTTTGTATTTATTTTGATACAAAAAATAAAAATTTATTAAAAAATTTAAAAATCCAAATGAAAAGTATAATTTTTTATTAAACCAATTATTAGATAATTTATACTTTGAACACTTAAAAATTAATAATATTGTTAATTTAATAATTCATTTGGATAATAGAACAATAAAGACAAGTTTCAAATTATCTGTAAAAAAATATATTTCAAATAATTCAAATTTAGGATATAAAATAGAAATTTTAGAAGCAAAATTTTTAAATTTAAAAAATAACAGAGATATTCAAATAGCAGATTATATTGCAATTTATTATTTTGGAAAACTAAATTATCCACTAACAGATAAGGTCTCAAAAGATATTGATTCAATTTATAAAAAATTTATTTATAATTATCCATCAAATTATATTAAACATCAAACAATTATAACCAAAAAAGAAGTTGGTAATAATTTTGTAGTTTTAATTAAAAAAATGTAAATGAATATAGCTAATTTGAATTTGCAAATATCTATAGAAGATATTCAAAAAACAGTGTATAAAATGGAAAATATAACTTTAACAAAATTTGCAAATAACACTTTATTAATTCAAGGGAATAAATTAAAAATTAAAAATTTTTTTAAAGAAAATTTTAGTGATTTATTAGTAACTTTTAAAAAATTATTTTTTTAAATTTATTGTACTTATTTAATAAAAATTAATTAAAATAAAAAAGATGTTATTAATTTGGAGGTATTATGAAAACTTACAAAGGAAAAATTAATAAATTTCTTTTTAAAGGAAGCAACGGCTATGGCGTTGCTCTTTTTACTTTGTTTGAAAATTCAAAAAAAGCATTAATAATTGTTGGTACAATTTCGACAATGGAAAGTGAAGTTATTTATGAAATAACAGGAACAGAAGTTGAAGATTTTAAAAGAAAACAAGTTAACTTTAGTGTAACAAGTTTTAAGCAAACAAAATCATTCGATAAAGAAGGGTTAATAAAATATTTAAGTTCACCTTTATTTCCTACAGTTGGTAAAAAATTAGCAGAGCAAATCGTTGAGAAATTTAGCGAAAATATTTTTGAAGAAGTTCTTGAAAATAAGCAATTATTATTAGAAGTAAGTGGAATGACTGAAGCAAAAGCTGAAATAATTTATGATGTAATTGAAAAAAATTTTAGTGATAAAAATATTTTAAATATTTTTATTCAAAATAATTTAAAAATAGAATTTTGAAATGAATTAAAAAATGAGATTAAAGATGAAAATTTAATTGAAGATATTTTAAAAACATCATTTTATCAATATGCGTATGATCATAAATTTTTTCCTTTTGAAGAAGTTGACAAAGTTGCCTTACAATTTGGTCAAAATATTAAAGGTGAAGAAAGAGTTGCTTGATATTCACACGAAATAGTAAAAAAAATATTATTTTCTACAGGTAATACTTATACTAATTTTATAAATTTATATAAAGAATTTAGTTTAAAATTACCATTAAATATTTCTCAAGTAGAATTTGAACAATTTTTAGTTTATGCAAAAACTCAAAAAATATTGTATTTTAAGGATAAAAAAATATATACAAAAGAAAGTTTTGAAGATGAAGTTTACATTGCAAAAGAATTAGCAAACTTGAAAAAACGTTCTTCTTTTATTAATAATGATTTTGATTTTGACAATTTATTACAAATTGTTCAAGAATTTTTTAGTAATAAAATGAATAAACCTGACTTTAAGTATAATGTTGAACAAATTGAAGCAATTAAAAATTTTGTAAATAATGGTGTTTCAATTGTTACTGGTGGTCCTGGAACTGGAAAAACTACAGTTATTGCAGCTATTGTAAAAATGTATGAATTAATTTTTAAAAATGCTGAATTTGCAATAACTGCACCAACTGGTCGAGCAGCTGGAAAAATTAAAGATGATTCAGGTTATAAAACTTCAACAATTCATCGTCTATTACAGTATACAGGAAACGATAATTTTGAGGCAAATGAAACAAAACCAATATATAAGGATTTAGTTATAATTGATGAGTGCTCAATGATTGATAATCATTTATTTGCTTCTCTTTTAAAAGGAATAAAAGGTATTAAAAAAATAGTTTTAGTTGGTGATGTTGAGCAACTTCCAAGTGTTAGTTATGGGAATCTTTTTGAAGACTTAATAAATTGTAGTGAATTTTCTACAACAAAATTGAAAATTAATAATAGACAAAAAGAATCAGATGGAGGAGAAAATTTAATAATTAAGCTTGCAAACGTAGTAAGAGATGAAGAAATTGAAAATTTCGATTTTATAAATTCATCTAATGTGAATTTTTTATTTAATTCAGAATCAATGGAGTTATTAAAAAAATTAAAAACTAATTATTTAAATTTAAATCCGAATTCATTACAAGAACAATTAACAGATATTCAAGTTATTGCTCCAATGTATAAAGAACAGTTAGGAATTACAAATCTTAATAAAATTCTTCAAGGTATTGTAAATCCAAATAATTTAAATTCATACAAAAGGTTTGATTATGAATTTAGATATAATGATAAAGTAATGTACACAGAAAATGACCCATTTTTAGAATTATCAAATGGTGATGTTGGATTTATTAATAAATTTGAATATTTAAATAATAAATTAAGAGAAGCTGTTTTGACATTTAGTGAAAGAAAAATTGAAATGGGTTTAAAAGCCTTTAATAATGTAACATTAAATTATGTTTGTTCAATTCATAAAACTCAGGGTAGTGAATATAAAAATGTTTTTATTGTTTTAGACAATTCAAATAGAACAACAAATTTTTTTGTAAATAAAAAAATGATTTACACTGCGATCACTCGTGCAAAAGAAAAATTATTTATTCTTTCAGATAAACAAACTTTTATAAATGCTTGTTTAAAACAATCAATTCAAAGAGAAACAACTCTGAAAAATTTTATCATTGAGGAATTTAAAAATTATTTATAATAAAGAAGAGGTAAAATAAATGAAGAATAAAAATATTTTCATTACAAATATAATTTTGGCAATATTGATTATTATTACTCTTATAGTTACATTAGTACAATTACTTTCAATTGATGTTTCAAAAGAGTTAAATATTTGAAGTTGTAAACTTAATGATTTTTCAAAAAAACTTGAAACAAATATTTCAAATCCAATTGATTTAGCTTATTTTTTATTTGGGTTTATTGGATTTTCAGAATTAATAGCACACAATTCAATTTCAATGATTTTATTTGCTATTGGGTGAGTTGTATTTTTACCAATTTTATTCATATTATTTTCATTTTTTTTAACAACATATATAACATTATTTTGTGTAAAAAGAATAAGAAGAGAAATGGATTATAAAACTGTAAAGACTGCTGGAAAATGAGGAATGTATGCTTCTTTTTTATCTTCAATATTATTTTCATTAATAGCATTGCTTTTAGTTTCTTTTTTAGAACCTTCTTTTAATAAGAGTCAACTATCAAGCAATCTGCAATTAACTAAAAATTATGATGCTTTTTCAATAATTACTTTACTAACTTATTTAACAAATTCAACTATTTTTGGAGCAGCATCAAATGACTTTTTAGAATTTTTAGGTCAAAATTTTAATCTTCCTTTATTTATTACAACAGTTATATTTTTAGTAATTTTTTTACCAATTAATGGTTTAGCATTAGTATTCTTTTCTTCAATGTGAGTTTCTACTTTCATTACTGATAGAGGTGGAACACATTCTAAATTTTGATTGTGATTAAAAAATATTAGAATTGATTCAAAAAGAGAATATTATGGTCTTGTATTTAAAAATATTTGATTATGACTTCTTGTTGTTAGTTTCTTTATTACAATTTTAATGCCAGGCTTAATACACCCATATGAAAATCTAACTCAAATATTAATTGCAGTGTTTTTTATAATAATAGCACCATTAGTTTTTTTACCAATTATGGTAGGAATTTATATGGCTGCAAAAATTAAAAGATTTAATTATAATTTATTAATGTTTGTACAAATACTTGTTTTATTATTTACAGTTTTGGCATTACAAATTAATATTTGAATTTTTTTAAAAGCAGATATAAATGTATCAACAACAATTAGTTGTTTAGTACCGTTAATAACTATTTCTTTAGCAATGTTTGGATTTTTTGGATTTATAAAATTTCAAAAAAGATAATTAATTTTTAGAAACAATATCATTAATTGTTTTTCTGGTATTAATGAATCTTTACTATTTAAACAAAAATAATATTAAATAAACCTTTTAGGTGATTTTTTCTTTTTTTGATCTTTTTAAATTTATTGTCTTAAAATATTAAAGATAGGAGTTTTAATATGATAATCAAAAATGCAAAAATTGTTTTAGAAAATGAAATTATTGAAAAGGGTTGAATTGAAATAGAAAATGAAATAATAAAATCTATTAATAATGGAGAAACTGATTTAGACGGAATTAATGCAAATTTAAATTGATTAGTTCCAGGTTTTATTGACTGCCATGTTCATGGAGGATATGGAGTTGATTTTGAGACTGGTACTATTGAGGGATATAAAAAATTTGCAAAATTAGTAGCTCAAGAGGGAATTACAAGTTATGTCCAAGGAAGTGTAACTAATTCTAAAAAAAATAATCATAAATATTTTACTGAATTTAAAAAATTTATGAAAGATCAAGAAAAATTGAGTTCAAAATGTTTGGGATGTCATTTGGAAGGCCCATTTATTTCACCAGAAAAAAAAGGTGCTCATGAATTAGAACTATTAGAACTACCAAATATTAATTCATTGCAAGAATTAATTGAACTATCAGATAATAATATTAAAATTGTAACTTTTGCACCAGATCTTCAAGATGGTACTTTTACAAAATATTTAATAGAGAATAAAATAATTCCAAGTGCAGGTCATACAAATATTAGTTTTTCAGATTGTCGAAAAGATTTTAATTTAGGTGTAAGACACATTACGCATTTATTTAATGGAATGAGTGGTGTTTCACAATATGAACCTGGTTTAGCAACATGAGCTTTATATAACGATGAAATTTTGTGTGAATTAATAACAGATGGTATTCATATTCACCCAGATACCTTAAAATTAATTTATAAATTAAAAGGTCCTGAAAAAATTTGTATAATAACTGATGCAATGAATGCAAAAGGTTTAAGTGATGGTGAATATAAATTAGGGAATTTGGAAGTTATAAAAAAAGGAATGAAAGTTTCTTTAAAAGAAAGTGGTCTTTTAGCAGGTGCTGGGGCTACATATGATCATAATATTAGAGTAATGAAAAAAACAATAGAAAATTTATCAATGAGTGATTTAATAAAAATGACTTCAATTAATATTGCCAAACAATTAAATATTTTTGAAAAAACAGGAAGTATTGAAATAAATAAAAAAGCAGATTTGGTAATTTTGAATAAAGATTTATTTGTTGAAAAAACAATTATTGAAGGTAAAATTTCATATGAAAAGTAGTTCAATAAACCCCAAAAGTTTTTTAATAGTAAAATTTTTATTAACTGTTAGTTTATTTTTAAATTACACTATTAATTTAGTTGTTTTGTTAAATGTATTAAAAAGTCAATATAATAATTTTTGAATTGATAGAAATCTTTATTTTTCTTTACAAATTGTTCTATTTATATTTTCTGTAATTGCTTTTTTATTATTTATACTAATTAGATTTCACTTACACAAGAAAATGCAATATAAATATAACAAAAAGGAACTTATTCAAATATTTTTACTTTGTATATTTGTTTTTCTTATCATAACAATGAGTCTTATTGTAATTTTTATAGATAGTTATTATTCTATTAATAAACTTGCATTTGTAATTTCATTAACTATAATTGAAATTGCTTTTGGTATTACTTCTTCAATTCTTGAAAGTTTTTCAAGAATTAATGAACAAGCAATTGTTAATAGAGAATGAAAATTAGAACCAAAAGACAATTTACTTGAAGAGGAAAAAAATGAAATAAAATCTACACAAAAAAATAAAGTTAAAAATCCATTTTTAGAAGGAGAAGATATAGATGATTAAATTTGCAACTATAGGAACTTCAATTATAACAGAAGAATTTATAAAATCAGCAATTAAAAATCCAAATATTAAAATAACTTGTTGTTATTCAAGAGATAAAGTAAAAGCAAAAGAATTAATCAAGAAATTTCAATTATATGCAAAAGCAGTAGATCAATTTGAAATTTTAGTAGATGAAATTGATGCAATTTATATTGCTTCTCCAAATGGTTTACATTATGAACAAGCAAAATACTTTTTATTGCAACAAAAACATGTTTTTTTAGAAAAACCTTTAACATTAAAATATGAACAAGCAATTGAATTATTTGAAATTGCAAATAAAAATAATGTAATTTTAATGGAAGCTTATAAAACAGTACATGCTCCTCAATTTTCAAATTTAATTGAGTTTGTAAAAAATTTTCAACCTTTTATGGCAAGTTTTAATTTAAATAAATATTCTTCAAGAATGCAAAAAGTTAAACTTGGAATATATGATTCTGTTTTTGATGCAAATTTAGGGAAAGGTTCAACATATGATTTATTAGTTTATCCAGTTGAATTAAGTATTGCTTTATTTGGACCTGTAAAAGAATTAAAAGCAATGGGACAAAAGTTACCAAATGGAAGTGGTTTAAATGATTATGTAATTATAAAACATGAAAATGATGTAATTGTGAGTATAGTTTGTAGCAAAGCAAGTGAAGGGAAAATTAATAATCAAATTTTATCTGATAATGCAACATTAGTATTTAATAATGTAATTCAGTTGGAAAAAGTAGAACTATATAACAATATTGATTCTAGTAAAAAGGTATTATTCGTAAAAGATGAAAATCAAAATTTATTTGATTATGAATTATCTGTATTTTGTAAAATGATATTGACAAATAATTTTGATTTAAGAGATTATTTACTTGAGACTTCATGTGAAGCAGTAAGAGTTTTAAATTTGATTGAAAAAAATCAAGAAGAATTAGGAGAAAATTAAAATGAATTTAAATAAATATATTGATCATACATTATTAAAAGCTGATGCTTCAAAATTTGAAATTGAAAAATTATGTAAAGAGGCAATTGAATTTGATTTTGCAACAGTTTGTATAAATCCTGGAAAAGTTGCATATGCTAAATCAATTTTAAAAGATACAAATGTTGGAATAACAACAGTTATTGGTTTTCCACTTGGAGCAACAACAACTGAAGTAAAAGTTTTTGAAACAAAACAAGCATTAGAAAATGGTGCAACAGAAATTGATATGGTTATTAATATTGGTGCAGTAAAAGATAAAGATTGAGAATTTGTTTTAAAAGATATGAGAGAAATTAAAAATATTGCACCAAATAATAAAGTAAAAGTAATTTTAGAAAATTGCCTATTAACAAAAGAAGAAATTGTAAAATGTTGTAATTTAGCTCTTGAAGCAAATCTTGATTTTGTAAAAACATCAACTGGTTTTTCAACTTCTGGGGCAACCTTTGAAGATATAAAATTAATGAAATCAATTGTAAATGATAAGGCAGAAGTTAAAGCAGCTGGGGGAGTTAGAACTTTTGAAGATGCATTAAAAATGATTGAAAATGGAGCAACAAGATTAGGAACAAGTGGAGGAGTTTCTATAATAAAAGGTCAAGATAATAAATCAACTTATTAAATATTTTAAAAAATAAAAGAGGTGAAAAAATGAAAGAAATTATTTTAGCTGCAGGTTGTTTTTGAGGAACTCAAGCATATTTTGATAGAACAACAGGAATTGTTAAAACTGAAGTGGGTTATGCTAATGGTAATAAAGATAGCATAACTTATCAAGAAGTTTGTAAGGGAAATACTAATTTTGTAGAGGTATGTAAAGTTATTTTTGATGAATCAAAAATAACTTTTGAAAAATTATTAGAGGATTTTTTTTCAATAATAAATCCCACATTATTAAATAGACAAGGCAATGATATTGGAACTCAATACAGAACAGGAATTTATTATAATGGTGATGATAAAAGTTTTTTTGAAGAAAAAGTAATTAGTAAAATTTCTCAATTAGAAGAGAAATTATCTAAAAAAGTATATACAGAGTTTTTACCATTACAAAAATATGTTAAAGCAGAAGAATATCATCAAAAATATTTGGATAAAAATCCAAATGGATATTGTCATATTGATATTACAAAAGCAAAATAATTCATAAATGTTTTTTATGTTTAAAGGTCTTTATTTTCTTCAATAAATAAAAGCCATTTTTTGATATAATTATAGTGATTTTAATCATTTAAGGAGCTTTTTAATGAAAAAAAGTAATAGTGAACATCTAGATTTTGAATTAGATTCATCAATTAGAAAAAGAATTGATGCTTTAGTTGATTTAAATATAAATCCTTCGACAATTAATTTAATAACTGCTGAATTTGCAACATCAAGTGAAAAAATAAGAGAAAATATTGGAAGATACATTGCTAGATTACTTGAAATTGAATCTGCTAGATTGACAGAACAATTTAATAGAGATTCAAAAAATAATAACTATATAAATTTAAAACAACAAATGAATTTAAAAAATCGTGAAACAAATTTATTAAGAATTCAACAAGTTTTTGTGAGTAAAGATAAGCAAAAAAATGATGAAAGTTTTAAAAATAAATTACTTGTTAATAATAATCAAGATAAATTAATAGCAAATATTGATTTTAAAAATGCAATGATTGTAGATAATCAATTAATTTCTGAAGATGAATTGTTAAAAAATAAATTACAAGATTTAGCTAATAAGAAAAGAAAAATTGAATTGGCAATTTCAAATCAAAAACAAAATATTATTCTTGCAAAAAAGCAATATGAAAAAGCAATAAGTCAAGATGATCAAATAACACAAGAATTAAAGTTAAATGTTATTAAATATGCAAATCAAAAATTATTTGAAATTTCAGAAACTATTAAAAAATATAGAACAGTTAATGCGATTCCAGATGAGATAATTATGAATTTTACTGCTATGAATAATTATGAGTATAATGATAATCATACAAATATTTTTTCTAGTAATAAAATAAATTCAAATAATAATCAATTTGAAGAAGTAAAAAATAAAACATATACAAATGAACAACAAACACAAAAAACTTTTGATATTGATCTTGAAACTTTTTTTGATGTTCCAGGTTTTGATGAAGAATTTGAGAGAATTTTTTCACAAACTCCTGATATAACTTCAAAAAAAACTAAATCTTTAAAAGAAAAAAATATTAAAGAAACTTCAAAAAAAATAAGTAAAGAAAATAATAAAAAAATATTTGAAAATAAGAAAAATGATTTGTCAATTAAAAAAACTAATGTAGAAACAAAGTTAACAAATGAGAATACAAATTCTAATATTGAATTAAAGTTAAAAAAAGAAGACCAATATACTGTAGAAAAACCAAAAACAAAAGTTGAAGTTATATCAAAACCCAAAAATGTTAAGCAAAAAGAAAATATTTTAATTGATAAAGATAATCATGTTTCAGAGCTAAAAAAACCTTTAAATAATTTAGTTTCAGATGAAAAACTTAATGAAATGGATTCAGAAAAAATTATTAAGAAATTCAAGAAGAAAGCTAGAGCAAAAGATAGACAAATTGAAAAGATTACACGTGAAAAAGAAAAAATCCTAAAAGAACTAAAGAAATTAAAGGAACAAAATAAAATTGAAGAGTTAAGAAAATTTGAAAATAAGAAAAAAGAGTCAATTGAAAATACTGAAAGAATTCTAAAAAAAGATAAAAGAAAAGTGGAAACATCATTTCAGATATTAGAAAAAAAATGAAAAGCATTGGGTATTAGTAAACAATTATTTTCAAAACAAAAAGCATTTAATGCCGTAAAACATATTAAAGAAAAACAAGCATTAATAGAATCAGAAAAAATAAATGAAAATCCTGGTGCTTTGATTAATTTTATAGAAAATAATTTAAGTGTTTTAAATGAAACAATAAAATATGATATTGAAAAAAAAGCAGATGAAGATATGCTTATAGTAACAGAAACTTTTGATGATGTTGTTGAATTTGATAACAATAAAGAAAATAACTCTTCAAATATTAATAATACTTATGAAAAAATTAGTTTTTCAAATAATCTAAATGATGAAGATTTTGAATTTGAAAATAAAAATAATTGTATTAATGAAAGAATTAATTACTTACAAAAAAGAAAAGATTTAAATATAATTAATTTAGAAGAAATGAAAGAATTAAAAAATAAAAAGAAAAAATATAATCAACATTCAAAAAAACTTAATTTATCAAAATATAGATTAGTAATTAAATAAGGAGATTAACCTTGTTTTTTTATGCTAAAATGATTTTGTAGATTTTAGGTGAATTATGAAAGAACAATTAGAAATAAAAGATTTTAGCTTATCATGATATACAAAAAATAGTATAAAATCATTTTTTAAAAAAGTTGGACATTCTTTTGGTTTCGTAATAGTTTTAATGCCCATTTTTGGAGTTATATTTTCAATTGGAAATATAATCGCAAAGTATGAAAGTGAAGCAAATATTTTTGCCAAATTATTCACCTCAACAGGAAGTATTCTATTTTCAAATATTGGATTGTGATTTACAATTGCAATTATAATTGGTTTTACATCAAATAAGGGTGTTGCAGTTTATTCAGGTATAATATTTTACTTAATCTTTAATATTTTTATTTCATCTTTTATTTCAATAAAAAATGCGGAAAATAATTTATTTAATATTTGATTTTGAAAAAATCTTAATCAAAAAACTTTATTAACAAATTTCTTTTTTGGTAATATTAAAGTTTTTAATTCAGGAGTAATTGGAGGAATAATAATTGGTACAATAGTTACTATTTCTTATAAAAAATTTAAAAATATTACACTTCCAAAAGGACTAAGTTTTTTTGAAAAAGAACGTTTTGTTTTATTAATTACTCCAATTTTTGCTTTTATATTAGCATCATTGTTTATAATCATTTGACCATTAATCGGTATTGCTATGTCATTTTTTGGTTCTGCAGTGGCAAAATCCCCAATTGGTCTTGATGCTTTTATTTTTAGAACAATTCAAAGAATGTTAATCCCATTTGGATCTAGTTTATTGTGACAATCACCAATGTGATACAGTCAAATTGGGGGAGAATTAGCAAATTATCAACAAGATTTATTAATTGAATTTTTATTAAGACATTATGGTGAATCTTCATTACAATGAAAAGATATTTTAAAATCATTACCCCAAATTGATTGAAATTTAGCAGATTTACAAGAAAGTTTTAGCTTAGCATTAAGTCAAAACTCTATTTCTGTTCCTCAAGATTTTAATGAACAAATTAAAATTTGATTTGAAAATACTCAATACATTTGAGATAGAAATCCTGTGGGAGATCAGTTTATTTCAATTGAAGTTTTATCAAATAATTACATAACAATTGATGATTGTTGAAATGTTGGTCTTAGAGTAACAAGGTTTTTGACAGGAGGATTTGTAAATTCAATGTTTACTTTGCCTGCAATTGCTTTTTCAATGCTTTTAGTAACACCAAAGGGTCAAAGAAGAGCAGAGGTAGGAATGTATATTACAGCTTCTCTAACAGCATTTTTAATTGGAGTTACAGAACTAATTGAATTTTTATTTTGTTATTCATTACCTTTATTTTATTTTGCAATTTATTGTCCTTTTAATGGACTTATAGCTATGATAACTTCATTATTTAAAGTAAAAATAGGAACAACTTTTTCAACTGGTTTAATGGATTTTACTTTTAATGGAGTAATTCCAACAGTAAATGGCCAAAATACAAATATATGAATATTGCCAATTATTGGTATATTTTCTGCAATATTAATTTTTATTATTTCGCAATTATATTTCAAAAAGGTCAAGTTTAATCCAAGTAAAATTTTGGATAATAAAAACTCAGATAAGGATAAAGTTTTAGAAGTTTTATCAATTTTTGATGGAATAAAAAATATAATCAAAATTGAAATTAAAGATAATAATTTATTATTAACTCAAAAAAATCAAAAAATAGATGAAAATTGATTAAAATGATTTGATAGTATTAAAAATCAAAATCATGAATTGGCTTTGGAATTTAAACAGGATAAGACTAAAATAATTGAACTATTTGTGGTTTCATTGAATTCAAACTTTAAAATTAGAGAGTATAAGAAACAAGATTTAAATAAGTATAAAGAAATTAAAACAATATTTAAAAATAAGCAATAATTTTGCTTATTTTTAAATATTTTGATTAATTATTTTTATAATTTCTTTTGCAATATTTGATTTATGCATTTTTGTAATGTTGATAACTTCTTTAGTTTTTGTAATAATAATTTTTAATTCATTGTAGTCTGATTCAAGAGCATTTACTAAATTTATAATAAGCATATCCAAGTTTTTTTCATTTATTTTCACTCATGCTTTATTTAAGTCAAATTCATTTGATAATGAAAAGCCAACAAGAAATTGATTTTTCTTAATTTTACCAAGTTCTTTTAAAACATCGATAGCTTCAACTAAGTCAATTGAATTTAATTCATTTTGTTCTCTTTTTTCGATTTTTTTATTTATATAATTTTTAATTTTAAAATCATATAAAGCAGCAGAACAAATAACTACATCAGAGTTGTAATAATTTTCTTTCATTTTTTCAAGCATTTGATTATTTGTTTGTACATAAAAATTTTTATCATCACTTTCAATAGGTATTTGAGTATCTCCAAAAACAGTAATTAATTCTTTTGAATTAGAAGAAAGAATTTTTTTAAGTTCTAAACCCATTTTTCCACTACTTGAATTTGTTATATATCTAACTTTATCAATATAACTTCGTGTTTTTCCAAAATTTAATAAAACTTTTTTATCTTTAAGATTTTCAAATTGAGTTTCTTCATTAAAATAATCATTAATTATTTTACAAACATCTACAGGTTCAATTGCTCTTCCAATTCCATTATGTCCACTTGCAAGTCTTCCTATTGCAGGTTCAATTCAGTCAACATTACTTGTATTTAAAAGTATTTTCTTATTTTTCTCTAAAATAGGATTTAAATACATATTTGAGTTCATACTAGGAAATAAAATAGTTTTAATATTTGTTATTGCAAAAATTAAAGAACAAATATCATCTGCAATACCATTTGTGATTTTTCCAATATAATTATAAGTTGCAGGATAAACAACATTTAGATCGCTGTTAAAAGCAATTTTTACATGTTCTGCATAATGGTGATTATCAAAATAATATTCTTTTTCAAAAATATTGTCTATATAATTAAAATCTGAAAAATTGACAAATCTTTTTGCGTTTTCACTTAAAATAATATTTATATTATAGTTAGTTATTAATAATTGATAAAGTTCTTTTGCTTTGCTTGCAGCAATTCCTCCAGTAATTATTAAATTAATTGTTTTTTTCACTTTTCCACCTCATTATATAAGAAAAATATAAGTTTATTTATATAATAAATGAGATTAAAAAAAATTAAAGTTTTTTTCATTTTTTTTAAAAAAATATGGAAACTTTTGAATAATGTCTTTATAATTACATTGACTAGGAGTTGAAATTAATGGCAAGTGTTGTTGTGCGCGAAGGAGAGCCTATTGAAAAGGCTTTAAAGCGTTTTCAAAAAGTAGCTGCTTCAAATAAATCTGAAGCAAGAAAACGTGAATACCATTTAAGTAAAAAAGAAAAACGTATTTACAAACAAAAGCAAAATAAAAAATTTGGTTAATTCCAAATTTTTTATTTTTTAATACATTTAATTAATATATAATAATATTGTTTAAAAATCTGTACGAGAGGTAAAAAAATGGCAATGAACAAAGAAATATCAAAAAAAACAAAGAAAAATGTTGTTTTAATTTTAAAAGAAGTTGGTGATGAAAAGAAAATGTTTGTGGGTAGAAAAGTTCAAAGACCATCTGTTTTAAAAAGCAATTATAATAGAGTTGAATTAGCAAAACAAACAATGTTAAATTCAAAAAAGGGTAAAAATGTTACAGTGGAATTGCCTGTTGCAATTCAAGATTCAGTTAAAAATAAGGAGAGAATTGAAAACATTTTAAATCTTAGATCTTCAAATTCTCCTGAAGATATTAGAAAAAAATTATCAATTGAAACAAAACCACTTACAAAAAAAAGAGCTGAGGAATTAAAAGAAGAAAGAATTGCTTTTTTTCAAGCAAATATTAAAAAAAATCAAAAAGAAGTTTCTTTAACAAATTCTAAGTCAAAAAGAAGTTCAGTAACTTCACAAAAAGTAAATAAAGAGTCTAAGAAGTCTAAAACTACAAAAGCCAATGTAACTTCAAAAAAAACAGTTGCAAAGAAAAAATAATTTAAATGAGCTAGCTCATTTTTTTTATTTTTACTAGAAATAACGATAATACTAATTAAGGAGGAAAATATGTATTATTTAAAAGCAAAAGTCATATGACAAAATGAAAATGATTTAGTTGTAGAAACAAACAATATTGGTTATAGAGGTAAAAAAATATTTAATGAAAATCTGGAAATAGAAAAAGAATATAAGCTTTATTTAATAACTTATCATAATGATTTTATTCATCAATTATTGTTTTTTAGTGATAAAAAAGTGAGAAATTTGGCTAAGATTCTTTTAAATATAAAGAATATTGGCATTTTAACAATCATAAAAATTTTTAAAAATTTAAACATTGATGAATTTCTTATAATTTGCAAAGAACAAAATATTAATAGTATTATGATAAAAACAAGAATAAGTGAAGGTCTTTCCAAAAAAATTGTTCAAGAAATAAGAAATAGAATTTTTAATTAAAAATATAGTTCAAAGCAAATGAATATTATTAATTCATTGAATAGATTAGGCTACAGAATTTCAGATATTTATAAAGCAATTGATGGAATTGATATAAATTTTAAAGAAGAAATTATTTTAGAAATGGCAATTCGCAAATTAAATTCATATGAAAAATAATTTTTTTAGACCTTATTCTTTTGATGAATTTATAGGACAAAAAAATATAATTTCAAATTTAAAAGTTTTTATGGAATCAGCCAAAAGAAGAAACAAAAATTTAGATCATATTATTATTCATGAAAATAATGGGCTTGGTAAAACAAGTTTAGGATTATTAATTTCAAAAGTACTAAATTAAAAAATTTATATTCTAAATGGACCAAGTCTACAAAAACCAAGTGATATTATTTCACCGCTTACTAATCTTAAAGAAAATGAAATTATTTTCATTGATGAAATTCATGCAGTTTCAAAAGAAGTTCTTGAAGTACTTTATCCTGTTCTGGAAGATAATAAATTAAGTATTATTATAGGAAAAAAATATAATTCAAAAGTTGTGAATTTAAAAATTCCACCTTTTACATTAATTTGCGCAACAACAGAAATAAATAAATTAACCTCTCCATTTGTAAATAGATTTCCAATTAACTTTCATTTTCAACATTATAATGAAAAAGAAATTGAAAAGATCATAAAAATAAATTCATTAAAATTAAATATTTTATTGGAAAATGATGTTATTAGTTTTATTTCAAAGTATTGTCAAAATAATCCAAGAGTTTCAATAAACATTTTAAGAAGAATTTATGATTTTATTATTTTTGAAAATATTTCAAATATTAATATTAATTTTATTAAAAAAATTAAAAATATATGATTATGGATTAAATTCACAAGAAGTAGAATATTTAAAAATTTTAAGTAAATCAAATTTTTTAGGAATTGAAAGCTTCAACAAATTTTAGGACTACAACAACAAATTATAATTAATAATATTGAACCAATTTTAATTAGAAATTTATTAATTGTAAAAACATCCAAAGGAAAAAATTTAACAGAAAAGGATTAAAATTTTTAGAATCATTAGATAAAGAAACAATTGCTAATTAATGGTAAAATAAATTTATATTTAATAGATAGGGATTTTAAGATGAAGTTAGCAGTTTTTCATGTTTCAAACTTTATTATGCAAAATGAAATTGAATATAAAAATTCAATTAATTTTTTTGAGGAAAAAGGTTTTAAAGTAATTAGGCCAATAGAAGAATTTAAAAAATTTGATAAGGAAATTGCTTTACCATTTGAGTTTAATAAAGTTATAAAAAGAGATTGTGTTTTAGCACTTCCTTCTTTTTGCGAAAAAGATACAGATTACTTTTTAGATAAAATTGATTATAAAGATATTTCAAAAACCCAAACAACATTTTGTGGAAATTCATTTGTTACGCCAATATTAAATGCTATTTCAATTAAAAGTAAAAATCCAGTTTTTTATGGTCCAAATTTTATTACTCAATTTAATTTGGAAACAAAAGAAGAATTATATATTGATTTAATTCAAAAATTAACATCAAAAGAACAGTTAAAATACTATAAAGATGAAAACTACTTATTTCATGGAAGTAAAATAATTAAAGGTATTTTAATAGGGGGAGAAATTAATTCTTTAATAAAATTTTGAAATACTAAGTATAGTTTTAAAATAAATCAAAATTCAATTTTATTTATTGATGGAATTATTAATAATATTGATGAATTAACCAAAATATTAACTTTTTTAGATTTAAATAATGTATTTAAAAAAGTAAAGGCAATTATTTTTTGTGAAACAATCTTAGATGATAGAGTTATTTTTGAAATGTTAATTAAAAAATTTAAAAATATTAATAAAGCAAATTTGGTAGTTGGATTTTCTGGAATGTTTTCTAGTAAAATATCAATTATAAAATTGAATTCTGAAATTAAAATTGACTTTAAAAATAAAGTTATTATTCAATAATTTTATTTTTAAAACTACTTTTATTTTTTGAAAGTAGTTAAATTTTTTATTTTTTTTTTCAAATTAATGTTATATTATTAATTTGTTATGGAGGATGTATAAAATGAAATGATGATTTTCAAATTATGATGGTACTTTAAGAAGGGGGTCGGGTACTAAAATTGAATCAGAAGATTTGAAATTTATTGAAAAATTTCAAAGTCAAAACAATAAATTTAATATTGCAACAGGAAATATGCTTTGTGATATGAAGTCAGTTTTACCAGAAAACTTAAATTATGAATTTATAATTACAAATAATGGAAATTGTATTTGAGATAATAATGATAAAATTATTTTTTCAAAATCAATTGATATTGAAGAAAGAATTAAAATTTTGGAAATATTACAAAATTTAAATGAAAATTTAATTTGTACATTTAATTTATTAAATGAAAGAAAAAGTTTTATTTTTAAACCAAGTTTAGAAGTAAGCTCAAAAATGAGTAGATCAAAATATTTTAATATATTTTTACCAAAAATTGAAAATGAATCTGAAGCAATTGAGGAATTTTTGACTAATGAAAATATTAATTGTATTTCAATTTGAGGAGATGATGAGATTGTTAAAAAAATTTTAAATATTTTAAAACCAAATCTTATTAGAACAAAAGTAATGTATGTGAAACAGAATCTTATAGAAATAATTGATGTAAACACTTCAAAAAAAACAGCTATTGAATACTTGCAAACTATATATAATTTTGATAATGATCAAATCATTACTTCAGGTGATGGGGGAAATGACATTGAAATGTTAAAAATGACAAAAAATTCTTTTGCTATGTTGGACGGAAGCAATGTTGCAAAAATTGCTGCAAATCATATTATTTCACGAGTTCATGAAATAGATAGATATATGAAATAGATTTTTAAGCAAAGTATATTTATAATTTATATTTACTTTCAAATATAAAAGAATACTATATAAAAGAGGTGAAAAAATGTCAAAAAACTTAGATAATGTTATTGAAATTCTAGATTTCACTAAATATGATTTTGATGAAATTAAACAATTTTTGAATGAGGGAAAAACAATTAAAATTGCACTTGAATTGGGTGAAAATGTTAAACGTTCTTTAACAAAAGGTTATAGTGATCATTTTGATGCAAATATTGAATTAATTGAGGAAAAAGAAAATTGTGGAGTTTGTGGTTGTGGTAAACCAGCAAATGCTTTATTTTATTTTTATAAATAAAATAAAAAATATTTTTTAACATAAAATCTTTTTTATTTTTTTGTTACTATATTAAATATTGAATTTTTTATTTTCTCTATAATAATAAAAAGTGTTATTCATTTAAAGGAAATATAAAATGAAAAAATAAAGATTTTACTTTTTAAAAATGCATTCAAAATAAGTTGGAGAAGCCCATCACAAATAATTGGTCTTTCTGCATTAATAATGTTAGTATCAATGATAATTTCTTTATTGTCCTCAACAGGAACAAGAATTACAAATGCATATGAAGAATTGATAGTAAAATCAAATTTAAGAGATGTAGTAATGGAAATTGATTCAAATACATCACGTTTAAAAGAACCTCTTGACTATAATTTAAATATAAATAGTCAAGAGGTTTATCAACAGTGAATATTAAATAATTTATCAGATAAATATAATTTTTTTTGATCAAGAACTGATGGTAGAGTTTTTTCAAGTGCTATTTTAAATAATGAAAAACTTTTATTAAAAGTACTAGCAAAATTAAATCAAGAAGCTAATAATTCAGTTGATAAAATGATAATTTCTTCCGGAAGTCATTTAAACCCTGATGAAAAACTTGCAAGAAGAGAAATTATTGTTGGAGATTCTTTTGCAATTAAAAATAATATTAAAATTGGAGATATCATTAGAGTTCAAAAAGATGAATATGGAAGTGATTTATTTGTGAAATCAAATCCTGAAATTGCAAAAATAATTAATTAATGAGATTCATTTTATGAAATAGAGGATTCAGAATTTTTGGGAATGAATTGATTTACAGTTGTTGGTTTTGAAACAAGTGCAGATTTTACAATTTTAATTATCAATTCTTCAACAGTTTTACCAAATGTTTCAACAGAAGCAATTATGTATGTTCATTCAAGTTTATTTGGATTTTCAAAATTTAACTATGAAAATAATAATCTTCAAAAAACTTTATATACTTTTGAAAATAAAAATTCATTACTTTCAACTTCTTCTTCATCAGATGAAGAAATTTATTATTCTTTAAAATTTGAAAACAAAAATTTAGATGATGATTTAATTTTAAATTTAAATGATGATTTTAAAATTAATGGGGGAATTGAAAAATAAATTTCTTTTTTCTATTTAAATAATGATGGTGATTATAAATTTAGTTTAAGAACATCAACATTAATTCCAGTATTTAAATAAATCAAATCCCCCCCAAATAATTTACATGATCTTAAGTGCTTTTAATTTGACAACAATTGCATTATTAATAATAATATTATTAATATCTGTTTTTACAATTGTTTTAATTACAAGAAAACAAATTGATAACATGAAAAGGCAAATTGGTTGTTTAAAATCTCTTGGTTATAAAAAAAATGAAGTTATAATTAGATTTATTTCAACACCTTTAATTGTTTCAATCATGGGAACTTTATTGGGTTATTTTATATCTATTTTCATAAGTTCAGTTATTGTAAAATTTTTCTCCAATTATTTTAATATAGCGTTTATTGGATTTAGTTTTAATATTTTTGCTTTAATTTTATCAATTTTATTTATTTGAGCATTATTAAATTTTACTGTAGTAATTATGGCAATTTTTACAATAAAAAATTCTGCTTTAAATTTATTAAAGGGAAATGCAAGTAAAGGTATTTCAAAATTTGGGTTTTTCATTAAAAAAACTTCACCAAAATGAAGTTTTAATTCTCATTTAAGATCTGCACTACTAACAACATCATTGGGAAAATTTTTTGGAGTAAGCGCAACAATGTTGCTTGGTACTTTTATGTTAACAACAACAATCATAGCACCAAAAGTTTTAAAAGATAATAAAACTGCAACTTTTAATGGTTTAAATTTTGAAAATTAAATTGAATATACTGCACCAATTTCTTCTAATCCTTTATCTTTTTACAGAACATATAATTCTAATTTTGAAAGTGAAGATTGAGGATATAGTGATGAAAAATATGTAGAAACATATGCAGGAAAAGACAAGATTATTGCAAAAACTGCTTCACCAGTTACTAATGATGTAATTCCAAAAATTGATAGTAAAAAAATTATTTTTCAAATTTCTTAAGGAAATATACATTCATAATTTTATAATATTGATATTTTTGGTGATAAAACTGGTTTAAATAAAAACCCTTATTCTTGAAGTGTTATGAGTTATTTAAATTATAAAAATTTATCAACTTATTTTTTAAAAAATTTAGATCTAATTCATTTGGAAGAAGGATTAATAAATAATATCGGATTAAATATTCTTTTAAATCAATGAGTGGATTATGGAATTTTTAAAAGTGAAATACAATTATTAACTTCTCCTAAAGAATTAGCAAAAATTTTACTTTGATTTTATAAAAAATATACTTCAGGAATTTCAATAACTTTTAATCCAAATTTTACAAATGGTTTTGATTTATTAAATTGGGATAATTGAAATTGAAAAAGAGAAAATATTGATGATATGTTTAAAAAGAAAATTGATTTATGAAATGGAAATGATCAAGATATTTTTGAATTAACAAATAAAAATTTTATTCCTGATTTAAATAAAAAAAATAGGTATGGCTGAAATTAACTTTTATAGCAAAGATATTAAAAATATGTATATTGATAATTTTTCAGAAGTAGAAATTTTACAACTAAATCAGGCATTGGTTATGTGATATACAGCAGTTTTTCAAAATAGATTGGGTGTTGTTGTATTAGAAACAGTTTATTCAAGAGCACTTTATTTTGTGCAACAATATTTAAAACAGGCATATGAGAATGATGAATTATATAATATATCATTTAATTTAATTCCTTATGATCAATATTCAGAAGAAATTGGAACATATTTTGATGCTAACTTTTATAATAGAAACAATATTTTAGAAGATGCAAAAATATATGGAATTAATAGTGATACAAAATTACTTGATCTTAGATCAAAAAATGGAGAAATTTTAAATAATAACCTATTTAATCAAAACTTGGAGGAAAATGTTATTCCAATTATTATTAATGAAATAATTGCAAAAAAGGCAGGTTATCAAATAAATGATATTATTGATATTCAAGTATTGAAAGATGAAGTGTATCAAAATAATAAAAAATTAACAATTGAAGATTTTTCAAAAAATAATCAAGATTATTTTAATGAATATAGATCTAAAACAAATAGAACATATTATTCAAGTAGTGGAAAAAGTTTTGTTGATAATACAATACCAATAATAGGAAATGTTGAACCATTAAGTAATGTCAATAAAGAAACTGCATTTACTTCAACAAACACTAATCCAATTCATTTAAGTATGCTAGAAGGAAAAACTTATTTAACCAAAACAAGTCAATTATATAAAAATTTTAAAATTGTTGGAATTCAAAATGGTTATGGAAAGCCTCAAGGTTGAATTTCTAATGATGATGCTAATGAAATTTTAAATTACAATAAAATAAAAAAATATAATTTTAAAAATTATTTTATAAATGAGTGAGCTCACTTACCTGAATTTAACTCTATTTTCAATGAAGAAAAAGTAAAAGATTTTTTTCAAAATTCACCAGAATATGAAGATTTTTTAATAAAACTATCATTAACTCAAAATAACAAAAAAATATTTGAAATAAAATTAATGATTTTTTTAATAATTTATATCCTATATTTAATTATAAAAATTCATCAAATTCAGAATTTTTAGATTTAACACAAGGTTTTTCTTCTACTCAAAAATTTGCAGATTTCAGTTCTAGGGGTTTAAATGGAACATATTCAGAAGATAATGAGAGAAATATTCTTGAGTTTGTTGAGGGTCTTGGAATTGGTTCATTATCAACAATGATGCCATTAGAAAAAACAAGACAAATTTTAGATCAAATTACTCAAATTGTTAATATAACTATGATTCTATTTATGGTTATAGCATTAATTGTTTCAATTACAATAATCTTGCTGACAACAGGGTTAATAATTTATGAAAATAATCAATTTATTGCTACTATGAAAATACTTGGTTATTCAAACAAATATATTGTAAGACAAATTTTAGGAATGTACTTATTGCCAATAGTATTAATGTTTATTTTAGGAGTTACTTTAGGTTGATTTATTTTTGCTTATGTTGCAGATTTACTTGCTTTGTCAACTTCTTGGGTATTGCCTGTTACTTTTGTATGATGAATTCCATTAAGTGTTTTTGCAATTATTATGGCAATTTATATAATTAGTTTTGCAATTGGTTGAAAGAATATTCAAAAAATAAATCCACTTGAGGCATTAAAAATAATAGATTAATTATTTAATAGATAAATTTTGAAAATTGTTTAAAAATGCTTAAAACTATGTATAATATTATTTATTAGAAAAAACTTAAATTTTTCAATATCAAATTATAAAAGAACAAAATATATTCAACATATTGTTTTCAAAGAAGGGGATAATAATTTAAATTTAACACTATTTTAATTTTTTAAAGAAAAGGAGAAAAAAAGTGAAAAATTTAAGTAAAAATTTAGAAAAAAAGAAAATGTCATTTCGGTTATTGATTTAAATAAACAATTTAAGTCAGGTTATGGTATAAAAGATATTAATTTTTTAGTAAAAAAAGGAGCAGTTTTTGGTTATTTAGGTCCAAATGGGGCTGGAAAATCCACAACGATTCGTTCTTTAATGGGGTTTATAAAACCAAATAGTGGAGCATCAAAAATATTAGATTTAAATAAAAAAACAGAAAATATTGAAGAAATAATTTCTTATGATTCTTGAACTGATAGTGATAAAATTCAAAAAATAATTGGTTATGTTCCTGGGGAAATTGCTTTTCCAGAAAATATGACTGGAATTGAATTACTAAAAATGGTTTTTAAACTTAGAAATATGTCAGATTGAAATGATGTAAAAAAACAAATTTATTATTGAAAATTTGACCCAAGTTTAAAAATTAAAAAAATGTCAAAAGGGATGAAACAAAAATTAGCTTTATGTATAGCATGAATGCATAATCCAGATATTATAATACTTGATGAACCAACAACTGGTTTAGATCCTTTAATGCAAGAAAAATTTGTAAATCTTGTTAAGAAATCAAAAAAAGAAGGAAAGACAATAATTTTATCTAGTCATATTTTTTCTGAAATTGAAAAACATGTGATTATGTTTCAATTGTAAAAAGAGGAGAGATAATTTCAACAATAAATATTTGAAGATATTCAATATAATGATAAAAAAACTTATGAAATCAAGTTTAATAATGAAATACCAAGTAATATTTTAAAATCAGATAAATGAAATATTATATCAAATAATAAAAATTCATTATTTATTTCTGTTAAAAATATAAATGTAAATGAATTAATAAAAGAAATTAATAAAAGTGAAATAGAATTTTTAAAAGAGCATCCATTGGATTTAGAAAAATATTTTATGAAATATTATCAAAATGAAATAAAAAAAGATATTGTAAATACTATTGAAAAACATAGTGAAAAAATTTCAAATTCAAAAAAAATTCAAAAGCAATATTTGAAGTAATAAATAGATCTTACAAATCAATGTTAGTAATGTGATCTTTTTTAACTGCAATTACTTTAATCATGATAGTTGCAATAGTAGTAACTTTAAAAATAAATGATTCTTTTGTCCCAGTTCCTGATCCAGAAACCGGACAAACAATACCAGTAGATATTTATGTCAATAATTTAGTTCAACAAGTTATTGGAGATATGGTATTTGGAAGTATGGGTTATGTTTTAATTGTTGTTTTCGTTTTAATGAATTCTTCAAAAATAGTTGCTTCAGAAGTGGAAAAAGGAACATTAGTAAATTTATTAACAACAAATTTAAATAGAAAATCAGTAATTTTATCAAAAATGAGTACATTTATTAGTTTAATTTTTATTTCAATTCTTAGTCAATATTTAATAACAATTATTAGCTTACAAATAGTAAATCAATTACAATATGTTGATTTAGGTATTTTTACTTTAAAAGCATTTGGAGCATTCCTACTTTTACTATTTACTTCAGGGTTTGCGTTTCTTTTTAGTACATTATTTAATAGAAATTCACAAGCATTAGGATTAAGTGGGGCAATTGTAATAATTTCATGAGTATTTCAAATAGCTTCAAGTTTTAGAACTCTGGATTGAATGAAATATTTATCTTTAAATTCCTTATTTATTCCAGCTAATATTACAAATATAAGTGAGTTTTCAAATTATCTTGGACAATATTTAACTCTAGGAATTGGTTCAATTGACTTATATATTGGTGCATATTTTATCTTTATTAAAAAAGATTTACCTTTATAATATAAATTAAACCTTATTAAGTAGTCATTAAAAAAATTTTAAAAATGATGTATAATATTCTTAATATATTTAATGAGGTAAGTGTAATGGAAAATAAAGTTTATAATTTAAAAAAATCAAGTTTGGGAAAGATGGAATTTGTAGAAGGTACATCATTTTTAATGATCGCTGGAATTGGAGATAATGATAAAATATTTAGAGAAATTTTAATTGTAAAATCATCAGAAGATGCAATTAAAAAATTTCCTTCATGATCAATGGAAACTATCTATACTCATATTTCAGATAAATCAAATTTTCATAATTCTGTTGTAAATTGATTAATTGAAAATTGATTAGATGAGGGTATTATTACTTTTAAAAATTCAATGTATGAAAATTTTGGATATGATGAATTTAAACAAATGGATCCAATTGAATTTATTAAATCAGAGCCTGAAATGGTTCCATTATGTTTAGTGCATATTGCAGTTAGATTTACAAATGGTTATTTAAAAATTCCAGTCAATGAATTGGAAATATCAATAAGATTTGTAAAAAATGTTTTAGGAATTAATTTTTGAGAAGAGGGAAATCCAAAATCAAATGAACCTCAAATGTAAGAGATAATATTATCTCTTTTTTTATTTGTTATAATTAGTTTAAAGGTGAAAAAAATGAAAAAATTATTAACTGCAATATCATCAATTAATATATTTAGTTTATCTTTTTATGTTATTTCTTGTGGAGTTGATCCAACAGAAGTTAATTATGATAATGCAAATCATAGATATATTTTAGAAAATTCTTTTTTTAATGGAATAGAAGAAAATAAAAAATATTTTAAACTTTTACCAAATTTAGAAACAATTAAAGAAGAAAGCCAAAGCTCTCAATTAATTTTTAGTGATGATAATTATTTGAAATTTGATTGTAAATTATATAATTGCTCACCAGATGATTTTAATGGGGTTAATGTTTCAACTGATGAATATAATTCACCAACAGATTTAACTGATTTTAATCAAATTTTAAAAATTCAAACAGCATATGATGAATTAGCTTACTGATTTCAAATTATGCCATTTTCGAGTGAGGAAAAATATATTATTTATGATTTTTCCACATTATCTTTGAATGTTGATTATTCAAAAAATTTATATTTCTTTGATAAAACAGAAGAAAATTTTATTAAATTATTTTCTCAACAAATTTTAAATATTTCAAAACAAGCTGAAATAATAACTAAGGAATTTAACTTTATTATGGAAGAAAATACTTTAAATGTGGATTTATTTAATAAATACCTTTTAAAATCAACAGCAAAGTTTGATTCTGATTCAAAAGTTCTTATTTTTCAACCAAAACCAAAAAACCAAATTAATGAATTAAGTGAGCAAGAAGAAATAGAACAGGTTGAATATTACTCACCTTCTGAGATAGAATCAGAAATTAAAAGAATTTTATCTTTTTATCAACCAAATTTGGCTTTTAAAACTGAAGAACAAAAAAATAGTGATGAAAGCAATGAAGAAATTCAATTTTATGTTTCAAAAAAATCTTCAAATTTAGACTTTTTTAATATTAGTGATTCTGAAATTGTAGAAAATATTTGAATTGAAGAAGCAATAATCCCTGATCCTGAAACACCTGATCCTGAAACACCTGATCCTGAAACACCTGATCCTGAAGTAAATACAATAAGATTAAAAATTCCAAAAGCAAAAGAATTTTTATTTATAAATTATGAACAAAAATTTATTTTAAATAAAAAAAGTGATGGGGGAAGTAAATAATATGAAAAAATTACTACTTATATTTTCTTCATTTTCAATATTTTCATTTCCAGTTTTAGTTACAGCTTGTGAAGCAATTGAAACTTTTCCTTCAAAAAATTTCTCAACTACAACTAATGTTATTAATAAATTTTTTAGTGAGGAAATAAATAAAATAAAGCCATATAATTTTAAATATTTACAATTAATAAATAATTCATGAGAACATATTGGATTTGAATCAAATCTTTCAACTCATAAGGCAAATAATGTTATTTTTGATTCTAGTAATTTAACTATCGAGGAAAAGTCATTCGTAGATATTTTATCAAGCCTTTATAACCCAATAATAATGGATGATGAAATAAATTTTACAGGATTAACTTTTGCAATTGAAAATATTTTTTTAAATTCAATTACTTTGAATAAAGAATTTGAATCAGTTGCACAATCTGAAATTGCAATTACAATTAAGAAAGGTTGAAAAATATCTGGAAAATTATTATTAACATTGGAAACATCAAGTAATGATTTAATTCCTAAAGAAGAGACTTTTCAATTTATAAATAAAATTATTGAAAGTTTGAAATTTAATTTTAAAATTCAAGAAAATTATGAATTTGAGGAAACTGAAGAAATTGCAGATGATTACGATTTTTATATTACTGGTAACATTGATTCAATAATATTTGATTCTTTTAGAGAAGAACTATTGAAAAAACAATTTATTTTAAATGGTTTAAATTTAAAAAATAGTGATATTCAATATGAAGAAATTGAATCAAATGGGGAAGATTTAATAAAAACAATTACAATTGCGGGAATTAAATATAGGTTTGTATAAAAAAAATAAAATATTACAGTAATATTTTATTTTTTAAATATTACTTTACTTTCTAACATTTTATTAATTAAACTTAATTTTGAGTATAATTCATCACAGATCATAATTCCTTTATTAAAAATAATGATTTTTGAATTGCTATTTAAATTTTGAGGATTTAAATTAGTTATTTCATTTTCATCAATATCTGCACCAATGATTGTATTAAAATAATGTTCAATAATTTCACTTGCCATTTTTTTCTCTATAAAACTCTTATCTGATTCTAAAATTTCTAACTCATCTTCATAATTTTTGCTTTGAATTGGATTTTGTTTTGATCATATTTTTAATTTTTCTAAACTTATTTTATAATTTTCATTAATTATATATTCTATATCTTCAAGTAAAACATCTTCAATTAAAGTATCTTCTCCAATTTTACTTAATAGTGTTTCTAGAGTATCAACTGAATATTTAATATTTCTTGTTATATTATTTATTTGCATTTTAATTATAATTTCTGTTATTTTTTCTTGAATATTGTTTGGATTTTTATTTAAAGTTTCAATTAGTTCTGATTGAATTTCATCCCCGATAATTTTTAAATTTCCTTTTGCATTGTTATTAAAACTATATTTTGCAATAAAGGCCTTTAATTCTTCTAATGAATCAATATTTGCAACACTTTCTTTTATTCCATTTAAAATATAATTCATTATTTTTATATCAGGTTTAAAATCACCAAAAGTTTGATCTGAATTTTCTAAAAAGCCAAGACGCAGACTATCAACTTTTTCTAAGAAAAAATCTTTAAATCATTGACCTGAGATATTATTTATGAATTCTTTTAAAGTAGTTATTTTTTTCATTTTTTTCACCTTAGAAATATAATATCTTATAAAACAAAAATTTTATATATTATTATTATGTTATTATATTTTAAAGTAGGTATTAAATATGAAAAAAAATTCAATTCAAATCATTGATGATGGTTTTTTTTTATTAAATGAAAGACAAAATTTTAGATTTGATAAAAATATTGCAAAACAATTACTTGAAAACATTCAATTTCCAATAATTGTTTTAGATACTGAATTTTTTAATCATTCACATGATATTGGTGAGTTTGATACTAAATTGTATGATGAAAAAAATAAGGATTTAGTATATGTTATTCAATATTCTTTTGCAAAATCTTTAAAAGAAATTTCAAATAGAGATAATAAAAAAGCAATAAAATCAATAACAATAAAAAGAGGATATAGAGACTATTCATATGATTTTCATAGTCAGTACTCAAAAATGATTAAATCTTTCTTAAATATGTGCCGTAATAAAGAAATAAGAACAATTGTTTGTGCTGGAGCAAGCAACGATGTTAAAATTATAAATCAATGAATTAATGATAATAAAAGTTTATTTACAAGAAAACAATTAAATATGGCTTTTTATAATAAAGAAAAAAAAGAATTAAATGCAAATTACTTTGATATTTATCAAATATTGGAAAATTCATTTTCTTTTTCAAATACAAGAAAAAATGGTCTTGAATTTTGAAATAAAAATAATTTGCCTGTTGGAAAACAAAATGATGAGATGATTTCTTTAACAAGTACTAAAAAATTTTTTGATTGATTTGAAGAAATAAATAGTGATATTTTTAAAGCAGAAAAAGAAGAGATATATTCAATGTGCTGTAGTGCCTATTCTTTTTTTTCAAGACCTAAAAAAATGGATATGAGTTTTGAACAATATAAATTAATGAATAAAAATATTAAAAAAGTAATTGATCATTGTTATAACGATGTTTTAAAAGTATTAATTTTTTTAACATTTATCTATGAATTTACTTATCAACCCTATAATAAAAATAGTTATATTCAAAAATAAAAGGAGAAATTATGAAAATATTATTTATTGGTACAGGTGCAATGGGTGAAGCAGTTTTAAAGTCAGTTACTGATAATTTAAATAATGATGAAATTTCTATTATTAATAGAAATTTATTAAAATCTAAAAAAATTTCAGAAAAATATAACTGTAAGTTTTTGACACAGTTTGAAGAAATTAAGTCAATTAAATTTGATATTTATATAATTGGGGTTAGACCAATTGACATCAATCAAGTATTGATTGATTTAGATAAAATTGATATTTCAAACAGTTTGATAATAAGTATGGTAAATGCTTTATCAATAAGTACAATTCAATCTGCATTTATTAAATCAAAAGATATTTCGATTATTAGAATGATACCAAATATGAACGCTATAATTGGTAAATCATTAACTAGTTATACAACATTTGGAAGTGATATTAAAATAATTCAAAAAGGAGTAAATATTTTAAAAACTTTTGGCGAAATTTTTGGAATTAATGAAGAAAATTACCCATCATTTGTAACTTTAACAGGAACATCTCCTGCATATATATTTGCTTTTTTAAACGCTTTTGAGGAATTTGGTATTGAAAATAACTATGAACCAAAATTTTTAAAAGAACTTATTGCAAAACAATTTATAAACACAATTGAAAATTGAAAAAATAATGATAAAAAAACTGTTGAACTAATTTCTGAAATTTGTGTCCCTAATGGTTCAACAATAGCAGGCTATGAGGTTCTATTAGAAAATAAATTTAATAATATTGTTAAAAAATGTCTTAATAAATCAAAAGAAAAGTGTTAATTTTAGTTAAAATTTTATTATTTGGTTTACCTTAAAAATCAAACTTATTTATTTTATTGATTACGTGGAAAGAAAAATTTAGGGGAAAAATAACTGAATAAAGCATATTAAAACTACCACAAAATGGCAGTTTTTTTGTTTATGAAAAAAGGTTATTTGTTTTTGAAAAGGAGAAAAGCAATAATAATGAGGTAAAACTTTTACCGCTAAATCTTAGATATAATAAGATTAATAATATTAATATTAGAGACTTAAATTCAAATAAAGATAGTTTTAGAGAAAGTACTTAGAAGTAACAAAGGAATTATTGAAATATGAAGATATTTTACAAGATATGATACAAGAAAAAAAAATAATAAATTATGCCTAGATGATAATCATAAAATTTATAGATATATAGTTTTATGTATCAATATTTATTTTCAATATTTGAAATAATTGATAAAAGTTCAATATTAGTAATGGTTATTAAATATGTTTAGAAAGTAAATAAAATTTATCCTTTGATAAAATATGAAGTGAAAACTTATGTTATAAAATTAATAAATTAACTATAGTTAAAATTTACACTGAATCAATTAATCAGAACAAAAAATCTACTAATTCAATGTGAAATAGAGTAGAAAAATCAACAAGAATTGATAAAAATTATATATTGAAAAAATAATTATTTTTTAATATTTTAAAGTAAACTTCAAAATATTTAAATTTAAAATTATCTATTATATTTTTAATAAAAGCATATTAAAAATAGCAAAATATAGATTTTGAATACCTATATAAATTTAAAAAGTTTACAATTATTTATTTTTTTTGTATGATACTTATAAGTGGAGGATAAAGAGAGGAAAACTTATTTGAAAACATCGAGCAAAATAAAACATCGTTGTTATCATTAGATAATAAATTTGATGTTTAATAAGCACCAATATGTTGTTGTACATCAAGTAGTTTAAGTTGCTAGTTACTATATAATATTTGAGTTAGCTCAAATATTATATTTTTATAGTAGGAAAAAATGAGTTTGAATGAGAAGAAAATTAAAAAATCTATGTCAATTAATTGCAAGACTCAGTATATTTTAAAATAGGCTGGCAAAGTATTATCAAAACAATATTATATAGAATAGCAATGAATTTTTTGAAAAGAAAATTCTGAGCTGTTATCGTTGGATTTTACAAAAACTTTAAACAATAGAATACTGAAGATAATTATTTTAAATTAATATTTAAAAGAAAAAGTTCAAGATATTTTTATTCAAGTAAAATTAATAACTTGGATAAAGGAATTTATAAATATAATAAGTATTCACATTCAATAAGTTTAGTTAATCAAACTGAAATTAATTTGGATAAATAATTTTTTTAAATAAAAATATAGAAAATAGGTCTTTAATATTTTTTTATTTTTTTAATCAAAATATTAATTTGTATAAATATCAAGATTTGAGTACAATACTTTTTTTGAGAAGCAGGAGCAATTTCACAAAATGTTTCATTAATTGCTTAATCTTTACTTTTAGGATCTTGTGATTATGGTGGAATGATACCGTAAAAAATTGTTGACTTTTTAAAATTAAATAAATATTTTAATCAATCAGTAATTGGATTTACTCTAATACGAAAGACAGAATAGATGAAATATGTAAAATCTATAGATACTAATATTTATATAAAAGAAAATTTAATTTTCAGTTAAGTCTGATGAGCAAGTAAATGAAGACTACTTCTATGTAATAGATAATCAGAAACTTTGTGAAATTAATAAATATTTTTTAAATAAAAATTTAAAAGTTTTTAATGTCAGAAATTTTATTGAAATTAAAAATAATGGAATACCTATATTTATACTGAAAAATTTTAATTATAAAAATTGATTAAGCATAAATTAAAGTCTAATTTCAAAAAAAAAATAAGCGTATATTTATTTAAACTTATAATTAAATTTTAAATATAATTTACTATTATATGGATTATTGTTACTAATACTTTTTTATTTATTAAATATATTTAGAACCAATTTCATAGATAATATATTTTTTCAACCTAATTTTTATTTTACCTATAACGCAAAGCAAAATTGAAGTTAGGATTATGTTTTTATTAGAAAGCATAATCATGAAACTTTATACAAATAATATTAAAAGAAAATTTTCAAAGGAGGATAAATATGCTTAAAATTACTAATCTAGAATATTCAATTAAAAAGAAAAAAATTATAAGCATTCAGAAACTAAATATTAGAAGTGGAGAAAAATTGGCAATAATGGGTTTGAACGGCTCTGGGAAAATAACTCTTGTTGAAATTATATTAGGAATAAGAAAAGCATAAAAAGGAATTTTAGATTTTGATAGTAAATATATTTTAAATGCTGTTTTTCAAGAATCAAGTTTTGTAAATGATATAAGTTTAAAAGAAATATTTTACTTATATTGCAGTTTGTATAAAGTTCAAAAAAATCATATGAATTATTTTAAAAAATTTAATTTACTTGATATAGAAAATAATAGTTATAAAAAAATATTTGGTGGTCAACAACAAAAATTTAAATTTTTAATTTCATTATTAAATGAACCTAATTTACTTGTTTTAGATGAAATAACAACATCATTAATATGTCAGGAACAGTTTCAAAAGAAAAAACACAAAAAACTGGGGGAAACTTATTAGGAATGAGTGCAAATCCTTTCTTAAAAGCAAGTGAATGAGGATGACAAATTGATGGTCAAGGGTTAAGATATACTTTAAATGATTTATGAGATAGATATTATTTACCATTATTTATTTCAGAAAATGGTCTTGGTGTTGATGAGAAATTAAATGAAAATAACACTATTGAAGATGATTATAGAATCGATTATATGAAAGAACATTTTATTGCAATAAATGACGCAATAAATGATGGTGTAGATGCTATGTGAGGAGTTATTGATTTAGTAGCTGCTTTAACTTGTGAAATGTCAAAAAGATATGGATTAATTTATGTTGATTATGATGATTATCATAATGGAACTGGAGATAGATTTAAGAAAAAATCATTTAATTGATTTAAAAATTTTAAAGAAACATATGAATTATAGTTTTTTTACGGCTATTTAGTGAACATCTAAAATAAGATTAATAATATTTATTATTAACCTTATTAAAGATGTTGTTTTTAATAAATAAAAACCCATATAAATTTTGTATAGGGAATACTCGACTTTTTTAATCAATACAATCTTTTGTTACTATTAAATCAAAATTATTATGTAAAGTTAAAATAGTTGCTGATCATTTTTCACTAATTTTTTCAGAAAGCATCATTTTAATTGCTTCTTTTTTTTGAAGTTCCATTGGCAATCATTATTAATTTTTTACTGCTCATAACTTCTCTAGGACCAATTGTTACAAAATCACCACTAATTTTTTCTTTTAAATTTAAACTTTCTTCCAAACTACTTAATTAATTTTGAGGGATTTTAATAAGTCTTATTTTGGATCCAAATTCCACTTCACCTGATAAATTTCCACAAAAATGCCCATCAGCCCCTAAACCAATAAAAATAATATCTAAACCTCCATTAGATTTAACAATATCATTTCATTGTTCATAATTTTTTGTATTTAAATGAATAAAACTACTTTGAGATAAATCAATTTTATCTAAAATTATCTGTCTTAATTCATTTTTAGTTGCACCAAATTTTATTTCACTATTTTTATATTCGATTTCATCAAAATTATAAATTTTTTTATTTACAATTTTCTTATTCTTTAACATTTCTGCAAGAATTTCATAAGCTCTAATTGGTGTTTTACCCCCAGTTAAAGCAATATTTAATGGTTCGTTTGTTATTAAAATATCATATAAAATTTTTGCAGTATATTCACTCATTTCTTCATAATCATTTTTTACAATTAAATTCATATTTTTTACTCTTTTCTTTCTATAGATATATTTTAATAATAAAAGTATATAAAGTAGTTTATAAAATATAAAATACTTTACTTTTAGGAAAAAATTCCAAACAATTTGTTTTTTTCAGTTTATTTTAATGTATAGTTAGAGTAAAGGAGAAAACACATGGATAAAATTGTAAAAGTAACTATTACTAAAATTGTTGACTTTGGTGCATTTTGTGATGCAAGTATCGATGGAAAAACTTACAAAGGGTTAATTCATATTTCTGAAATAGCTGATAGCTTTGTGACTAATGTTTCTGACTATGTAACAGTAGGGCAAGAAGTTGACGGTTATGTTATTTCAATCGATGATAACAAAGATCAAGCAAAAATATCATTAAAAAGAGTTTAAACGATTTATTCACTGTTAAGTTTATATATATAATTGATCTTATTAGTATTTTTTATTAATGTGTTATCTTATATAAAAATTTAAAGTATTTTAATCAGTATAAAATTTAATGAAAAAAAACTTATAGATAAACCTATAAGTTTTTTTATTTGTTTTTATATACTATAAACTTCCTAGTATATCTGCAACTTTTGCTCTATATTCTTCAAGCTCTTCTCTTAAAGCATTATTTTGCTCAAGCAAATCTGTAATAACTTCTTCAATTCTTTCAAAAGCTAAATCACTTGTATTTTTTAAATTATTTAAAGAATCTCTAATCTCAGTAGAAGATACGTCTCTTTTACTTGACTTTGCCATATTGTGTTACCTCCGTTAAGTTCTTCCCTAAACATAAATTTATTATATATTAAATTACTATTAAATTCTAGATTTTATTTTATGTTATAAAAATTATTAAAATCTATTTTATAACATAAAATAATATAATTACCTTATAATTATTGTATGTAAGGATGTAAATAAAATATGGAATCAATATTTGAAAAATTGGAAAATACCTCAAAAGATTTTAAAGATACAACATTTAAATTAATAGCAAATCAAATTTTAAGTTGTTGGCAAACAGGTGCTTTTAAAAATCAAGAAACTTTGAGTAAAGAATGTTTTGTTTCTAATTCAATAATAACTAAATTTTCAAAAGGATTAGGTTATTCAGGATATAGAGAATTATTGTTTGAACTTAAAAGAGAGTACAATCATTATAGTTTTAAAAATGAAAATTTTGATGAATTTAAATTTGAAAACTTTATTTACTCATTAGGTGAATGAATAAAAGAAAATAGTAATTTTATAAAAAAAATTTCTAAGAATTTAATTAATGTTAAATTTGTGAAAATATATTCTTCTTATCAATCAAGGCTTGCAAGTAAATATCTATTCGAGCTTTTATTAATGCTTGGAAAAGTAACAGTTATTATTGAACAAGAATATAGTTTACTTGGTAATCCAATTGCTGATGAAAATTCATTAGTAAATATATTAATTTTAGCAGGTAGGGATAATGATACTTTAATTAGAAAATTTAATAATGATGTAAATAAAAATTCAAATTGTTATTTAATTACTACTTCAAGACAAGTTCAAAAAATGGAAAATTCATTTCAAGAAACATTATTAATAGACTTTGAATTTGATAACTCAAGTTTCTTTTATAGAAATATTGCGTTAGAATTATTATTTTTAGAAATTTTTCATCAAATAATGTAAACATTATTTTAAAGATTGTTTTAAAAAATATTAAAAAAGTGAGTTTTTGAGCTCACTTTTTATTTAATAAAACTTAAAGTAGTATTTTTATAGTTTTCTAAATTCATATGCATTGAACTAGAATGCTTTGCATTATCATAAATCACTATTTGACTAATTGGCTTTAACTCAATTTTAGTTTTTAAATAGTGCATTACAATTGAATTATGATACATTATAAAATCATCTTTTTTACCATGAATAAATAAAATTTTTAAGTCTCTTATATTTTGATTAACTAGTAGTAAATTTACATCTTTAATATCTGATTGAGTATATCTTCTAAAATTATAATTAATTCCTAATGACATCAGTCATCATGGAAGCTTCAAATATTTTTTTAAAAAAAATCTAATTTGAGGGACTGCTTCAGCAAATCCACAATCTGCAATCATTCAATCAATTTTATTATTTTGATAGTATTTATTTGCAAAGTATAATGCTGAGGAAGCACCCATACTAACTCCAAAAACTCCAATTTCTTCAACTTTATAACAACTTTTAACTCAATTTATAACTTCATTTAAAATTTTTGAATTTGATCAACCAAAATCAGATTTTGTTCCATAAGTTTTACCATGAGCATAAGCATCAAAAGTTATTATATTATATCCTTGTTCATAAAAATGGGATACATTTCTTAAACCAATATATTTATTTCTCTTAAAACCATGTAATCCAATTACTCACTTATTTGAATTTTTATTTCTTACAATTAATGCACTTATTTGTTCTTTAAACAATCCAATATTAAATTCCTTTATTTGTTCTTCTGAAATATTAAAGTTTTCAATATTTTTTACTTTTAAATCATAAATAAGATGTTCGTAAGTATTTAGTTCTATATTGTGTTTGTTTTTTCCACTTCTTTGATATTTAAAGAGATAGCCAAGAAATAATAGAACACATAATCAGCTCATTAAAAGAACAATAGGAAAAAATATAATAGTTAAAGTAATATTAAATCAATTATAATGATATTTTTTTATTTTTTTTAAACTTTTTTCATAGTTCATACCAAATCATTCCTTTTTTCTATTTTAGCAAATATAAATAAAAAACAAATTGATAAAATGAAAAATATTTTTGAATACTTTTACAATATAATAAATTCATTATTAAAAGGGGATAAATAAAAATGAAAAAGTTTTTAATTTTTTTTGGAGTTGTAGGAAGTTTATCTTCATCATTTTTATACACATCTGAATTTATTAATGAAGCAAAAACTAATATAGATTATATAAAGAAACTTAGAATTATTAACAATTTAGAAAGTGATGAAAAAATTGAATATAATAATTTTATAGTTCCTAAAACTACAGTTAATGGTGAAGAAACAGTAATGTATTATGGAAGAGTTTTGAAATACTTTTTTGCAAATAGTGTAGAAATTTCTAATGAAGTTTTGGAAAATCTAAAAAATCAATTTTCAAAAAAAAGTGAATCAATAAGTGCACTTTCAATTCAAAATTTATTAGCTTCAACAATAAATTTAAGTATTTATGGCTCAAGTAGTGATGCAGAGTTTTTTGCAGAATCTTTTGCAAAATGATTAGATACACCGGATGAATTAAAAAATAAAAGTTGAGAAATAACAAATAATTTTTTTACAAATATTCTTCCTGAACTTTTGAAAACAGGTGCAATTTTAAAAGATCAAGATACTAATGCTGAAAAAACTATTGTTAATTTAGTTTCTAATAATATTTCAACTATAAAATACAATATCAATTTAGAGGTAAAAGATTCAAATCCAGTTGATCTAAAGTATCAAACAACAGATTTAATTTTTTCTCAATCTTATTGAAAAGGAAGTTCTAACTATAATGGAGCATTAAATTACATTGCTAAGCAAACAAATAATCAATCAGTATTAGAAACATTTGAAATAATTAAAACTTGAATTAATGATAACTATACCCGTGCAAGTGAAGCATCTATTCAAAAATTTAATGATTTTAATAAAAATAATTTTAAAAATTTTGATGAATTAGATAAGGAATTAGTTAAATATTCAATTGATAATGAAGGAGTTAGCAGATTACCTTTTAAAAAAGTTTATGATAATTTAGAAGAAAATTATTTAATAAGTATTCCTAGTTACTTTAATGATTCAGAAAAATGAACAACAACAGATACAAAAAATTTAAAACAGTTAACTTTATTTTTATATAATATTCTTTCATCTTTAATTGAAAATGAAATTTGAGTTAGAAATCTACTAACAGGATTTATAATATCACCCGATTACCCGCTAATTGGCGCTTCAAATGGAACAATGGGTTATACAAGTACTGCAGGTTATACAAATAGAGCTACTGGTAAATATGCTAGTACTACATACTCATATATAGTTTTGACAGGAGTTAGTTTAACAATTAAAGAATTTAATAGTAATTATAAAATGGGATTTTGAAGTTCACCTATAAAATATAATGTTCTAATTCATGAATATGGACATGCAATTGATGCTTTTGGAAGTAGATTAAATGAGAACAGAAATACAAATTATAGTAATGATATTTCCTATAAAGAAATGTATTCTGGTAATATTTTTGGAGATTATAAACAAACTTCAACTTCAAATTCATATTCTGTAAAAACTTGAGTAATTATTGTTCTTGGAGTAATTGGCTCTTCAATTTTAATTATTGGAATAAGTTACACTGTTAATATAATTAGAAGTAAAAAGAAAAAAGTATAAAAATGAAATAAAACACTTTTTATGGTGCTTTTTTATATACAATAATAAAAGGGAGTGTTTTATGAATAAAAATGTTTTTTTCAAAAAAATTAATGAGATATTAACAAAATCTGGTTGTACACAAATAGAATTTTATGAACCAAAAGATGTAACTGTTGAACATCAATTTAAACAAATAAAATTAGAAAGTATTTTTAAAATTCATTATTTAAATACAAATTATAAATTTATAAATTTATATATTAAATTTAATGAAATTGATTTTTTATACAAGGCAAGTAATCAAAAAGATTTAACTCTTTATTTAGATTTAACAAATAAAACTATTGAAGAAAAACAAGTTTTATTAGATTCTTATTCACAAAGGGACAGTCAATTGGGATTAACAAAATTAAAACCAAGTTTACAATTTGGGCCAATTCTTTTTTTGGAAAAATTTAAAGATAATGAGTTTCATATATATATTGAAATTCTAAAAAATAAAAATATTTTGGATCAAAGTAATACCAAATTAGATTTTTTATATTTTGATACTGATTTTGAATTTTTTAATAACTTTTTACCAATTTTACTTTAAAAATTAGGAGAAGAAAATATGTATAAAAAAATAATTAATAATTTATATTTAGGTGGAATGAAAACAATTCCAAATGATGCTGATTTAGTGTTAAGTTGTGCTGAAGAAATTTTTAATGATATCAATGACTCAAATGAAGCCAAAAAAATTATAAAAAATAGTGTAAAATCAATATATTATAATTTTGAAGATTATCCAAATATTCAAGATATGGATATTAGTCTTATAAATGATGCAATTAATCAAATAGAATTAAATATTCTAAATAAAAAAATATATGTTCACTGTGTATGAGGAGTAAATAGGAGTGCTAGCATTGTTTTCATGTATTTGGTTAGAAATAAACTTATTGGTGGAAGAAACTATAAAGAAGCACAAAATGAATATTGAAAAATTTATCCAAATCATAGCCCAAATCCTGGATGAAAAACTTTTTTAGAATTTAATTTTCCATATAATTTCATAAAAAAATAATGCAATTTTATATTTTAATTGCATTATTTTCTTTTTTAATTTTTTAAATAAGCTATTAAAAATAGTATTCCACTAATTAAATTAAAAGATATACAAGTTGAAATAACATTTCATAATGAAACACACTTATTTTTTTAAATATTTTATTGTAACTAAAGCAAAACTGATAATTTGTAATACTGTTGAAAATAATAAAAAAATATTTTAAATATTTTTCATAAATCTCAAATATTTTTTATTTCATCATTGTTTATTAATTATTGAACAAATGTAATAAAAATTAATACTATAACAATAAAATTAATAATTAGTCCAGCAAGTATTAATTTTCTAATTTTTCTAATTTCATTATTTGTTTCCATTCATAAATTATAACAAATTAATTAGTGTTGATGCTATAGGAAATAATCCTGAAATACTAATATTTATTTTAAAAGTAGATAAGAGTTATAATTTTTATATTTTTTTTAATTTATAAAAATTATAATTTAAAAAGATTGCATTTTAAATTTAAACCAATATAATAAAAAAGTAATTAAATATTTTTTTACTAAAGATAAAAAAATTTTAACTTTACTTTTAGAAAAAAAATATATTAATTTTTTTTCATTAATATATAAAATTAAATCATTAGGGGGTAAATATGAAAGCTTTTAACTTTCAAATAAACTATAAATTATTTTTTGGATTTTTATCTTTTATAACAATATTTTCTTGTTATCTTTATAAAATAATTGATGGTTCAGAAGTAATAAATAACTATTCAGGAAACTATGAAATATATACAATTGATTTTTTTACAACGTTTACATTATTATCTAATGTTTTTGTTCAAGTTTGATTTTTATATGCTGGTTTCAATCATAAAAATGAAGGAAAAACTAAATTTCTAAGTCATACTACAGCAAATAGTTTAGCTACAATGATAACTGTAACTTTTCTTGTTTATAATTTTGTTTTAGTACCAATAGATACTGGGTTTCCAAAAGCACATTTTGATAGATATGTAACTGTTGTTGATCATATGATTACACCAATTGCATTTGTTATTTATGTAATATTTTTTATGGCAAATAAAGAAAAAATAAGTTTAAATCAATTTTTTATTAAAAAATTTTGAACACAATTTACTTTAGTTTTAGGATATTGTATTTTTGCAATGCTTAGAGGTGAATTAAGATATGGTTCAAATTCAGATCTTTATTATAAAGAAGAAAATGGTGAGGTTGTAAGAAATATATTTTATCCTTATTTCTTTTTGGATGTACATCATCAAGGTCCTTTAGGTCTTAGTGGTGCTGTATGATTTATAATTGCGTTTGTTTTAATTGTAAGTATCATGATTGCATTTAGTTATTTATATAATTTTTTAAGTAACATAATGATGTCAAAAAACTATTATAAAAAAATTTCAAAATAAAATTTAATAAATATAAAAAACTTCTCAAGATGAGAAGCTAAATTAATAATGGAATTTATAAATATTATTTGATAAATTCATTAAATTTAATTGTATAAATACAAATTTTAAATAAATGAAATATTAATTAATCTTTATAATAGATATATTTCCAAAAGTTATCATAAACTTGGGAGGGCTTATAACAACGACATAAGTGTCCCTAAGGACATTATTAATATAACAAAAAAGTAATTTAAATTCAAATTTAACTGATTTAAATATGTATTTTTCAATACTAATATAAATTTTTTAAGTGTTTTTTTGGATAATTTTATTTATATTTAAAAATACTTAAAATTGTGGGTGTTTGGGTGGGATTAGGAAAAATACAAGTTAAATGCTGCTTGTAATAGCTTTTTAAAAAAAGCAAATAAGTACCTGTAAATCAATTTAAAAGTTGCTAAATTTAAAATTATTTTACCCTTAAATAGTTTTTACCTAGAGTAGTGATACTCTAGGTTTTATTTTCCCTTTATTATTAAAAATAATAAACAAAATTTATTATAACTTAATTTTTTTTTGATTTTTTGATTTTTTGATTTTTTTAAATTTGAAAAAAATTTTTACAACAAAGATTAATTAATGAAAATCATTCATAAAAACTAGTAAAAATCATTTTAATATTAAAAAATAAATAAATTTTAACTTCAGCAAAGTAATAGAAAAAATCAAAAAAATAAATATAATATAGAAAGTTAGTTATGTGTCAAAAAAAGACATAAAAGATTAATCATCTTTTATGTGTAGGGTGGGGATAGGGAAACTAACTGAAAAGTTAGTATTTAATATTTTTTATAATAAGTATGTATAACAACAAAAAAAAAAAAAAATTCAAATAAAATTATTATTTTTACCCTTAAATAGTTTTAACCAAGTGTCTCGAATCACTTGGTTTTTTTGTCCACAAATTAATTTTAACAATGTTTTTGCATTTTTTTTTGAAAAGTTAAGTTTTATTTTTCAAGTAGTATATTAAATAAAACTCAGTTTAAAAGAAGAGAAAATTATTGTATAATTACTTTATAAATTATTTTTACTTTTATAAATTATTTTATTTAGATTTTTAGGGGAATTTTATGGCAACAAAATCAAGAGTATATGATAGTATTCCATTTTTCCATTTTTTAACTTAGTTGTTTTTACTATAAAAAATATTTTAAAAGAATTATCATTTATTGTTTTAAATATTTTTTTAGTAATATTCTTTTTAATATTTGCATTTTTATGTGGATTTTTAACAACTGGGGCAAATATTATTATTTTCTTTAATTTTTTTGTTCTAATATATATATCATGTTTTATATTTATATTTTCATTACGTATGATTCAGTTTTATTTTTATAATAAATTTGAAGATAAAACTACTTTTATTGCGATCTCTAATCAAGTTTCAAGAACTAAATTCTTTTTTAGTCAATAATTTGTGATATTTACTACTTTGATTGCAAATATTTTTTTAGTTATTTTATTGTAAATATAATTAGTCTTATTTTTAATTCAGATTTAATCTCACTAGTTTTTAGAGTTACTACAGTTTTTTTAGTTTATGGCTTATTAAGCACATTTTTAATAATGAATTTTGTAATTTTTTTAATTTTTACATTTTCACTTCAATCAACAACAATCATTTGTACTTTATTATTAGCCTTTTCTTTTATTGCAAATTTACCAACAACTTTTAATGAACAAAAAGAAGAGCGTTTAAGGTTAGGAGTAAATTATAATGGCGAAAATCCATTATACTATGTTCCTGATATATATGAAACTTTTGACCTTCAAAAGAATGTAAATGAGGGAAAAATAAGATACAAATATCTTTCAAAATATATTAATGACTTTTTTATATCAAATTCTTTTTCTTTTGCTACTTTTAATGATGATGAGTCAATAATTGCACAAAGAATTGATTATTTATGAGGAATTAATGGACTTGGTATTACAAGAACAGAGCCATATAGTTTTTCAACATTTTCTGGTAGATTGAATTCAATTCCAAACGATTATGCTGATTTTGATACATTTTCAGATGTAACAATTTCTATTAGTTTAAATAATACTTTTATTTCTCTAGATGAATTAAAAGTAAGAATTGATTCTTCAATAAATATAGATCAGAAAAATGTATTAAATGACCTATATAATTTTAAAAATGAAATTGTAAAAGAAATTGGTGGATCATCTTCTACAGATTCAAATCAATGACCCAGAATTTTTCAACAACAGAAAAACGAATTGTTAAAAGATTTTATTTTTATAAATAAAGCAACAATGACTCAAGCAAATAATGAAATAGATTTAGGAAAAGATGATATTGATTCTATTTATAAATATGAACTTGTAGGAAGAAATAACTCAAATACTTTAACTTTAGAAAGTGGAATTGCAGATAATTTTGTAAATGAAATGTATTTTTCATTATTATTTGCATCAAGAATTTTAGAACAATATTTCATTGATTATACAAGCAGGTACATTATTTTAACTGAAAGTCAAATTAATAAAACTGATACAGATTGAAATAAGTATGTTAACTCAAGAAAAGTGCTAAATGGAACACTATTTGTTAATCTTTTTTCACAACTATTAACAAGTTATACTCTATATTCAGGTTTTTCATATGATGATTTTTGATTTGATGTATTTTCAACTTCAAAAATAGAGTTTGAAGCTCAAAAAAATTTATTTCTAGCTTATCCTCAATATACTTTTAAACTTAACAGTGAAGAAGTAATTGAAAAGGATACATATAATAACTATATAAATCCTATTTATTACATAATTATCTTATTTATATTTGCATTATTTTGTTTAATATATGCAGTTGCTAAATTCAATTTAATTAATTTTAAATAGAAAGGAAAAAAAGTATGTTTGAAAATTTGGAAGAAAAAAATGTAAATGAAGAAATAATATTAGAAAATCAAGATATTCAAAATTTAATTTCGTCTGATTCTAAAAATGCTATTGAAGTTTCAACTTATTTGAAAAAATTCAAAAAAAATAAAATTGGAGAATTATCTTTTTCAATAAATAGTTCTTCAATTACAGCAATTTTAGGAAGTAGTGGAAGTGGTAAATCAGTTCTTATAAATTCAATTATTGGTGCTTTAAAAAGATACCAAGGTGAAATTAAAGTGAATAATGTAAAAATTAAAAAAATAAAGGTTTTATTGTTAATAAAGATATTGGTTTTTATACGCAAATTGATTTTTCCTTAATAAATGTAAGCTTATATAGTTATTTAAAAACAATGTGTATTATTATGGGAATTCGAAAAACTTATGTAAAAGAAAGTATTGAATATTGAGTAAATTTTTTTGAACTTGAAGAATCATTAAATAAAAAATTGAAAAATTTTTCATAAGAAATGAAAAATAAAGTTAATTTAATTTTGGCTTTTATAAAAGATCCAAATATTATAATACTTGATGAACCTAGTGCAAACTTGGATTCATATTGAAGAAACAAATTGAAAAAATTACTAATAAATTTAAAAAAAGTGGTAAAACTGTTATTATTACTTCTCATAATATTGATGAGTTATTTGATATTATTGAATATTATGTTGTAATTGATAGTGGAGAGTTATTATTTGAAGGGTCTACAGAAAAATTAAATATTTATACTAAATATAAAATTTTATTAAATGATTCTTTTGATAAAGAAGGTTTTGTAAAATTTTTAAATACATTAGATATTGAATTTTATAAATTTGATAATGAAGAAAATGCAGTTACAATTTCTATTAGAAAATATAAACAAATTAACTATTTATTCCTTTATTTAGTTAAACAAAATTTACCTATAAAAAATTTAAGAAAAATTCCAATAAATATGGAATCAATTCATAAGGCAATTGAAGATTATAATAAACATAGTTAATTTTTATTATAATTTCTTTTAAAGAATTATATTAAAAATATTTTAAAAATGTAAAATATTTTTAATAATAATATTATAAGTTTTTGTAGTTAATTATTTAGAGGTGTAGAATGAAAAAAATATTGACATTATTGAGTACATTTTCCATTGTAAGTGCTCCAACATTAGCTTTTGTTGTAAGTTGTGGAACATCAGATGAAGAAACAAATGAAGATAGTATTGGTGCTTTATTGCAATTAATTGAGAATTATAAAACAGATATTTCAACTATTATTGAAAATTTTGTAAAAACAAAAATAGATAATTTGTTTATTTCAGTTGGATCAACAACTGAAAGTAAAAATAAATTTTTACAAAGAGATGCATTAACAATGATTGTTAGTGCTAATGGTAATAATAAAATAACTAAATATTCACAATTAAATACTACTCAACAAGCAAATTTAAGAAATGATTTTGAGAACTTAATTAGTTTTTCAAGTCTTTCAAGTACATTAAATTCACAAATAAATAAGAACAAATATAATTCAATTGTTCAAGGAATTAGTGATGTTTTACCATCTTATTCAATTGATGAAAATAATTTTAAAATAAATTATGTTACTTCTGGAAATGTTTCAATTGGTTTTAGCTCATATGTAAAAATGAATTTTAATTTTAATATTAAGTATATTAATGCTAATAAAATTCAAGAAACATATGAATACAGTAAAAAATTTACATTTAATATTTCAAGTGGTGAAGCTGTTTTAGGAAATGTTAAAAATTTTACTAAACAAATTGATACTTTTTTATTAAAAGAATACGATACATCAAGTTTTCAATATGGTTGACTTGATCAAACAATGATAACAGATTCTAAAAATGGACTTTCTTATTCTGATATAACAAATAAAGGAAAAATTTTAAAACCTAATTATAATTCAATAAAAAATTTATTCACTCCTAATAAATTTAAAACAGAAATTAATGAGCAATTGCAAAATAAATTTTTTCAAGGATTACCAAATTTAGAAAATATATTTCAAAATACACAAGTAGTTGAGAATTCGACTTCAATTGAAGGTTATTTAAAAAATGCTTCAATTTCATTGGTGAATGCTATTAAACCAGAAGGTGTTAAATTATATAATCTAATTTTTTCTAAAAATTCAGATTTTTCTACACTAGACGATAATACAAAAAATATTTTAAAATTAAATTTAGGACTTGAATTTGAAAATTATAAAAAAATTTATGATGCAAAATTTATTAATTTTTTAGATAGTCTAGAGGAAAAAAGCACAAGCAATGATATTGGTGATAAGGATTTTAGAAATAAACTTGATATTGCAAAAAGTGAAATTGCAACAGAGGGTTATAAAACTCTTGATCCTTTTACACAACAAATTTTGAGATCAGCAGGGTACATAAAAATTTCATTTGATAAAATAGAGATTAAATTAACAAGTGAATATATAATACCAATTGAAGATTTTTCTACATATGTTTCTATTACGTCAAATAATAATGATAATGTTTTATCAATGCTTGAAAAAAGTAATAATTACACTATTATTCAGATTTATTCTTAAGTATTTTTGATAATACAATCCTTGCAATTCAAAATTTTCAAAAATTATTTGGAATTTAAGAGAGATTAGGTATTTATGGAGAAAATCAAGAAAAATTAATTGAAACAGGTTTTCCATTTGTAAGATTTAATGGAAAATATAGCGAATTTCCAAGTGATATTGATAATTTATGAAATTTTTGAAAAAATGTAACTAGCGCAACAGATCAATTTTATAATTCAACAATAAATAATTTTTTATCTCTTAGATATCAAGATAGTACAAGTTCAACTCCAGAAATTAATAAATTTTATAAAAAATTATTAGAAATAACATATCAATCAAGTTTTAATTGAGGCTTTTTTGAAAGTGGAGCTCCTTTAACTCAAAATAATCCATTAATAGGTAATATAATTGCTACATGAAGTTATGATACATCAGAAAATAAAGGTATTTATTTGTTAAGAACTCCTAACAATAGTACTTTAACAAATATAAAATTTAGTTTTGATTTATTAAATATTCGTTTTGATGTGGGTAATTGATATAGTTATAGAAATCCAGGAACTGGATATAATTCAAGTAATTTAGGAAATTACTTTATATGGAATGGTTAATTTTCATAAAAGAAATGAGGTTTTATTATTAAAAAGATATTAAATATTTTTTCAGTTTTTTCATTATTATTTGCACCTGTTTTTTATGTTATTTCATGTGGTAATAAAGAAGCAGAAAATAATCAAGAAGCAAATACTGTAAAAGTTGTAGAAGATAAAATTGAAGTATTAAAAACTAGAATTTCTACAATTATTGAAGATCATTGAGATAACTCTAATTTTTTAAATAACTTATTTCAATTTTCTGAGTCTCCCACAATTTCAAATTTAAAATTTTTCACTAGAGAAAATATTATTAAATTAGTTGAAAATTACAGAGATGAAGAAAATTCAAAAGTCATTTTAAATCTGGATCAATTAGAAAACAGTGCTGAATTAAAATTAATTTTTTTTAATAATTTTGAAAAACTGATAAAAATAGATGAATTGGAAAAAAATATTAATTTTTTATCAAATTCAACAGAATTTTCAATAATTAAAAATTCATCAGGAATTTTTTTTGATAGTATTTCAATTGATTATTCAAATGTAGAAATGAACTATACAAGTAAACAACTTCAAAATGACCTAAAAAATCAAAATAAAAATGCTGATGCATTTAATGGAAACATAATATTAAATATCAAAGTAAATTATAAATATCTTGATGCACTAAAAGTTAAACAAATTGGTAGTTTTGAAAAAAAATATAATTTTGTTATTTCTTCACAAGAAGCATTAATTGATGCTTCAAAAAATTTTCAAAATAATATTGAATTAAACTTTTTGGAATCTGTTTTAGATTCTGCGTTTTTAGATTCTAGTTTTTTTGGTTTTTCAGCACCGGAACTTTTACCATGAATGCATAATTTAAGTTCAGATCAAGTTTCTGCAAATTTAAATACAAAAGAAAATTTTAAAGAGAAATTGATTAATTTTGTAAATAGTACTTATTTTAATGAATTAGGTTCAAATATACCTTTAGAATTTAGCAATAAAAATTCTATATTTAACAGTTTTTCTACAATTGAAACATTTTAAAATACTTATGCCACTTTTTACAAGCCGGAGGAAATAGCTTTTAATCAATTATACCCATCAATATTTAGTGAGAGAAATAGTGAAAATAATACAACAATTGAATTAGAAAATTATTTACTAAATACACCTTCTTCAAGTGAAAATAATTTGACAAAATGACATGGTGATTATTTGGAAAAAATAAATACATATTTAATAGATAAAAAATTTAATTTAAATGATAATGTTGCTAAAAAATTAAGTAAATCAATAATGCTTGCAAAAATTCAAATTACTGGCTTTCAAATAAATTTTGATTCATTAAATTATGTATATCCTTTAAATGATTTTTATGTATATATTTCATTTGCAATAAATAATGAAGAAGAGAATATATATCAAAAAGAAAGTAAGTTTTTTAATTCAGTATTAAATAATGCAATTTTAGGAATTACTGAATTTCAAAAAGTTTTTGGTATAAAAGCATTGGATTATAAAAATTCACAAAGTGGGGGAACTTTTAAAAACTCTATTTTAAATATGAGTGGAACTAGTACTTATTTTCAAAATTCAGTAGATAATTTATGAAATAAATTTGAAGCTATGGAAGAAGGAAGCGACGATTCTCAAAATCTAAATAATTCATTGAGTTTAAATGATACTACAACGACTTCTTTTTCTAAGTATAAAGATAAAATTTTAAATACTGGAAAACAAAGAGATTTTATTTTTCAAATTAATGATAGTGGTAACTCATCTGGAACTTATGAAAATGTTATAAAACCTCAAAATAATTCAGATTATAAATATGATTTTATTCAAGATAATAAAATGAATAGTATCTTATCAATAAAAAAGAAGATGGCTTATATGTTACAAGCAAAAATTATACATATGAAGATAAGAACTTGTTTATAAATTTTAATATTAATTTTATTAATATCATCTTTGAAATAAAAGGTGAAAATCTAGTTAAAACTGATGAAACTTCTGTTGCACTATTTAAATATATAACTTAATATTTTTAATGACATAATTTTAATAAAATTATGTCATTTTTTATTGAGTAAATTATATGTATTTAAAGTTTAAAAATTATAAAAAAATGATATAATTATATAGAAATTAATAGAAATAACAATATTTTTTAGTAAAAAAAATAAGTTATTTCAGTACACGGAGGTAGGTATATATGTATTACGTTTTTTGAAGAGAAAATAGTTTTTATGTAATTGATAAAGATATGAATGTAGTAAATAGGTTTTTTTCAATGGATGAAGCTCAACAATTATGTTTTTATCTAAATTATAATAACAGAATTTATAATAATAATTTTTATGAAACTCCTGCTATTTTTACAAAAACTACTAATTCATCAGGATTTCCAAAACAAAGAGAAGAATTAACAAAATTAAATACAACTTTCTCAAATGAACCAAAAAATGTATTTAGTTCGCTTACTCCAGGAGTAAGTTATGGTAATATAACAATTAATATTCCTCAACATGAAAGTTATTCTCACAAAAGAGAAGAACCTGTTGAAAATATTTTTACAAATGATTTTGTTGTAAAACCGAAGAAACAAAAAGTAATTGACAAATCTTTATATGAAGATGATCAAAGTATTGAGGATGATTTAGAATTTACAAAAATTAGAAAAAAAATTGAACTAGAAAAGTTGAAAAAACAGTTAGAATTAGAAAAAACAGCGACTAATTTAGAATTAGAAAAATTTAAAAAAGAATTGGAATTCAATCAAACTTCAAATAACTTAGAATTAGAAAAAACAAAAAAGCAACTTGAACTTGAACAAATGAGAAAACAATTAGAATTAGAGCAAAATGCCTCTAATTTAAATGCTCAAAAAATTAATAATAATTTAGAATTAGAAAAATTATCAAAAGAACTAGAATTGGAAAGAGCAAATAAGCAAATTGAACTTGAAAGAATGGCAAAAGAGCTAGAATTGGAAAGAGCAAATAAAGGTAATGTAAATAATGAAAATGATTCATCATTTATATCCGCAAATGAAATTAATAATTTCATAAAAAAACTTGAAGAATAATTAACAAAAAGGAAAATAAAAATGAAAAAAACCCAATTTATACTTTTATATTTAATTTAAATTTTATAATTTTAATGCTATTTATAAATCTTATTTTACTACTTTTAAAAATTGATTGAAACATAATATTATATGTCAATATTCCAGATTTATTAGTATATATATTAAATATTAATCTTCTATTCTTATTTAATAGAAAAGAAGAAAAACCACAAAAGATAGAACTAATTCAAAAAGAAGAAAAAAAAAATTAATTCTTTTGAGTTAGAAACTAATGAAAATTTAAGAAAAGAATGAGAAAAAAAATTATCTGATTCAAAAAAAATAAAGTAGGTAAAGAAATATTTTAGTTTTAAAATAAGCTTAAAAATATGCTTATTTTTTTATTTTAAAAATAAAAAAATACAAAATATTAAATATTAGATATTAAATAAAAAAAATATTAAGATATAAATATTTTATGTATTTAATTTTTTAGGAGTATTTTTATGAAGACAGTTATTGTAATTGCAAACCCAAAAGAAAATAGTTTTAATCATGCTATCGCTGATGCTATTATCGAAGGTTTAAAAATAAAGAATAAGGAATTTAAGATTTGAGATTTAAATAAAATGAATTTTAAACCTGTTTTAAGTTCAGAAGAGTTTGAAAAATTTGGTTATGGTAGTGTTTGTCCAGATTTACAGAATTTTTTAAATGTTTTAATAAAAGAATGTGATCAAATTATATTTATTTATCCATTATTTTATTTTGATTTTCCAGCAATTTTAAAAGGTTTTTTTGATAGATTATTTATTGGAACTTTAATTAAAGATGGTTTAGAACCTGTAAATTAAAAATCATCAATTGATATTGAAGAGACATTAATGATTCAAACATCTTTAGGAGATAATTGGAGTCTTTCACCTGAAGTTTCAAAAGAAACTTTTAATAAGGCTATTAAACTTTTTCTATATAAAATTGGTTTATATAATACTGAAATTGTTCATTATAAAAATATTTCTAAATCAACAGAAGAAGAAAGAAAACAATTTTTGCAAAATTTTAAAGATAGATTTTCCAAATAAAATATTTTTTAAAATCACTTATGTGATTTTTTTACTTGTTATAATAGATTTGAATGGAGACAAAAAAATGGATAATAAGACATTGTTAATAATTATAATTATTAGTATATGAATTATTAGTCTTTTAATTGCAGGAATTCTTGCATTAATTTTTAAAGAAAAATATAAGAAATTGAAAAAATTTAATGGAGAAATAATAGCAAAACTAGAAAATTTAGAAAAAAATTTTCAATTAAAAGAGGTAAAAATTGAATTCGAACTTTCAAAGAATGAAAAATGTTTTTTCTATCAAAGAAATATTAACGCCTTTCAAATTAAAATTAAGTCAAAAAATATAAAAAGAAAATTTAAAAATTTTAAAAGTAAATTAAATATTTATGTAACAAATAAAAGAATATTATTTGAAACTTTTGAAGAATACTTACAATTTCCAATAAGTAAAATTAACTCTTATTATAATTCACCAATTTATTTGAATAAAAATTGAATTAATGGACTAACTTTATTTTTTCAAGAGAATAAAATTGTAATAGAAAATGATAATAGCTTTAATTTATTTTTAACACTTAAATCATTGAAACAGGAGAGAAAATATGAGTGCTAATTTAGTTAATATAATAATTGGTTTTATTTTAATTATTTTAATGAATATGGTTTCTATTTATTTCTTTTTGGATTTTTTCATAAAACTAAAAAAAATAAGAAAAATAAAAACTGAAGATTTTTACTTAAATATAAGAGTTTTAAATTTTTTTTTAATTTCATTCTTATTGTTGCTTCCAATTTTACTATTAATTTCAGTAATTCTTTTTATTTTGAGTTTGACTTTTTTTAGAACAATTGGCTATATTTATATAATTTTTACCTGTTTTTATTTTTTAGATTGTATTTTTATTTTTAGCTTAATAATTAAACTAAACTTATATCAAAGATCAATTTTTTTATTAAAATTTGAAAATAAAATTGTGTTAATTGATGAAATAATTGATATTTCAAAAATAAAAGAAATATCTAATGATTTAAAAAGAAAATCAATTTTTATTAGATTTTTAAATGATAAAAATGAACAAGAATTTTTAAAACTTAAATATAATTGGAAATTAAAAGATTGAATTTATAAGTAAAATATTATAATTTTAATAAATCTTTTTAATTTATAAAAATTATAAATTAAAAAGATTTATCTAATTTATAATTTTTATATCTAATAGAAATATTAGAAATAGAAATAAGGTAAGAATAATGAAAAAAATATTAACATTTTTGTCAGTTTTTGGAATGGTTACAACTACAAGCACAACAGTTATTTCTTGCAAAACTGAAAACTCAATTGAAAATACTATTAATAATTTACAAAAAGCTTTAAATAAAATAGCTATTGCTAAAGAAGAAGAAGCTATTGAAGCAATTAAATCTACTTCAAAGGGAATTGAAAATGTAATTATGGATGAGAGTACATTACCATCAAAATCATTTGAAATTTTATTTTTAAATGCAGAAAAAGAAAATGATGATTCACATGACGAATTAAAATTTTCAAATTTAAATCAAAAGGCAGGTCATGCACATATTCACTACATTATTACTTATAAGAAAGCAGAACTATTATCAACTACAAAAACAGAATTTGGTTGATCAAGTGATAGTTTTAATTTTGAAGTTGAATTACATGTTGGTTAATTAAATTAAATATTTAATTAATAAATCTTAACCCTTCAAAACTAAAACAATTTAAAAATTTTATTTTTTTTCTAATATAATAATATTATACAAAGGAGTTATACATATGATTGAAAAATTCCTAAATAGGGAAGAAAAGAAAATTTTTTCAAAACGTTATTTAAATAAAATAAAAAAAGAAGATTTTTTCAGTTATTTAGAAATGGAAGAAGCGTTGTTAGAGTCTTTGAAAGATAAGTATAAAAGAGATAATTATGAAAATAAAATAACAGAAATAAAAATTATGAATCAACAAGAATATGTTGATAAATTAAATTTGTATTATTATGATGTTGTTTTATTAAATAAGAATTCTTCAAAATCAGAAGAAAAAATTACACAAGAATTTGATGATTTATTGAAACCATTTAAAAAAATTCAAAAGTAATTATATAAAATGGAGAAAAATTTATGATAAAACAAGCAAAATTTATTACTTCAGCTGCAAATAAAAGTGGTTGAATAAATGATCAAATTAATGAAGTTTGTTTTATTGGAAGAAGTAATGTTGGTAAATCAACTTTTATTAATGCATTAACAAATCAAAATAAATTGGCAAAAACATCTTCAACCCCTGGAAAAACAAGACTATTAAATTTTTTTGATATAAATAATAGTCAGTTTCGTATTGTAGATGCGCCAGGTTATGGTTTTGCAAGGGTTAGTCAAGAACAAAAAATTGCTTTTGCAGAAATGATGGATGAATATTTAACAACAAGAGAAAATTTAAAATTTGTTTGTCAACTTGTAGATTTAAGGCATAAACCTACAAATGATGATATTGAAATGTATCATTTTTTTAAACATCATAATATTAAAGTTTTTATAGTTGCTACCAAAAAAGATAAGTGTAAAAAAAATGATATTTTGAAAAATGAAAAGTTAATTAAGCAAACTTTAAATTTAGATAATAATGATAAGTTTCTATCAATTTCTTCAACAGATAAATTAAATCTTGATGAAGTTTTAAATATTTTTTATGAACTTTTTAAAATTCAACCTATTTAGGTTGTTTTTTAATATAAAATCAAGATAGTTGTCTAGGAAAGGTAGAAAAACTATGGAAATAAACAAAATTGCAGCAACCGATTTAGATGGTACCATTATTTTTGAAAGAGATAGAATTAGTGATGGTAATAAGGAATTATTATTAAAATTTCAACAAAAAACAAATAATAAATTAACGATTGTAACAGGACGAAGCTATTTTTTAACAGATTTTGCAGCAAAGGAATTAAATGTTAAATTACCTGTAATTTGCTCAAATGGTGTTAGTGTGATTAATCCAGAAACTTTTGAATATATTGCTAAAAATCACTTTACAGAAAAAGAAATATTAAATTTAATGAAACTTTTTATTCAAGAAAAGATTGATTTTAGTATAGCAAATGATTTTACAACACATTTTGTAAAAGGAATTGGATGACATTCTGAGTTTTTTTCAAACGAAAATTTATTTAATTTTCATAAATTACCAGTTGATAGAGTTTTTCATGAATATAATTCTATAGAAGAGTTAAGTCAAGAATGTGTTAAAACTGATTCAACTTTTGTAAGTATAGTTTTAGAATGTAATTCAGAAGAAAAATTACAGAGAGCAAGAATTCTTGGAAAAGAACTAGAGTTAGAATTATTAGAATTTAAATATCATAATGGAGAAATTGGAAGAAGAATTGAAGTATATAAAAAAAATTCAAGTAAAAGTTGAGGATTAAATGCTCTTGCAAATTACTTAAATATAACAAAAAATGACATTTTTATTTTTGGAGATGAGCATAATGATTATGCGATGTTTGAAGATTTTCCCAATTCGTTTGCAGTTGGAAATGCAATTGAAGGAATTAAAGAGCTTGCAAGTGAAGTAATAGATACAGTTTATAATTGTGGAGTAGGTAAAAAATTAAATGAAATTATCAATAATTTCATTTAAAAAATATTTAATGTAAAAAATATTTTTTTTATATTTATTAAATAAGTATAATTAAAAAGGAGTGAAAAAAATGAAGAAAATATTACAAAAAACTTTAAAATTTAATAATGGATTAGAAATACCACAAATAGGTTTAGGAACATATAAATTGGAAGATGAAAATGAAACACTTCAATCAGTTAAAGCAGCAATTGAGAATGGTTATAGACATATAGATACTGCTTCTATATATCATAATCACAAGATTATTGCACAAGCAATAAAAGAAAGCAAAATTGATAGAAAAAAACTTTTTATTACTTCTAAAATTTGAAATAGTCATCATGAATATAATTTAGCAAAAATTGCAGTTGATGAAATTTTGGCTGAATTAGAACTAGAATATATAGATTTATTACTAATTCACTGGCCCACAGAAAATAGATTAGGATGTTGAAAAGCGCTTGAAGAAGCAGTTGATCAAGGAAAAGTCAAATCAATTGGAATAAGTAATTTTCAACCTCATCATATTGAAGAACTTTTGAAAAATTGTCGAATAAAACCTGTAATAAATCAATTTGAATTACATCCAGCTCTTCAAAATTTGGAAGTTGTAAAAATATGTAGAGATAATGATATTATTGTTGAATCTTGAGGAACAATGATAAGAGGTAAATGTTTTGAAATTGAACAAATTCAACAATTAGCAAGTAAATACAATAAAACTGAAGCTCAAATTTGTTTAAGATGAGGATTTCAAAATGATTATGTAATAATACCAAAATCTTCAAAGCCAAAAAGAGTTATTGAAAATATTGATATAGAAGATTTTGAATTAACTGCAGAAGATATGAAAATTTTAGCAACAATTACAGAGCAAAGAGATGGTCCAGATCCAGATAATTTTAATTTTTAAAAAATATATTTTAAAAAAAGGAAGAACTTAAAAAAATGGAAGAACTTAAAAAAATGTTACCTTTAATTGAACTTGATAGAATTATTTTAAGAACTTTTAAATTTGAAGATGCAAACGATATTTATGAATATTGTTCAAATCTAGAAAATATTAAATGAATAAGTGTTGAACAACATAAAACTTTGGAAGATTCTATTAATTCAATAGAAAATTACTTTTTAAAGCCACATTATGGAAAATATGCAATTGTTTTAAAAGAAGAAAATAAAGTAATTGGAGCAATTGATATAAGATTAAAAGAAAATATGATTTATGATATTGGTTATGTAATTAATTCTAAATATCAACAAAAAGGTTATGGAAAAGAAGCTTTAAAAGGTCTTATTGACTCTTGTTTTTCTTTAACAAATATAAAAGAAATTTTAATAAAAGTTGATATAGAAAATAATGCATCAAACCATTTAGCAAATACTGTTAGTACAAAAATTATAAGGCAAGAAGAACAAAATAATCCTAAATTTAGTGAACCAAGAATTTTGAATATTTACCAAGTATTAAAAAACCAGTTTAAACTGGGTTTTTTAATTTATATATTTTAAATTCAAATACTATTTTTTCTAAATTTTTATCTATAAAGATAAACTAAAGTATTTGCTGGTTTTCCACAACCACAAACTCCACAATTATCTTTTTCTTCTTTAAATTTAATATTTGCAAAGCCATCATTCATTTTTCCTGTTTTTAGAGCTTCTTCTAGTAAAGGACCTTTTTCTAAAGCAGCTAAAACAGTTTTTCCATTATTTAATTGTTGGCTTATTTCATTAAAATCTCCATTATTTATTTCAACAAGATTATTTAAGTCAAGTGCCATTTTTTTCACCTCCATTCATTGATATAATATCTATAAACAAATTGTTTTGTAAGTAGGTACTTAAAAGTAACCTAATAGTATAAGGGAGTCAAAATATGAATGAATGTCCAGTTGAATTTAGTTTATCTATTCTAAAAAATAAATGAACAATTTTTATTATTCGTGAATTATTAGTTTCAGAAAAAAGATTTAATGAGTTAAAAAGAAATTTGTCAGGAATATCTAAAAAAGTTTTAATACAAACCTTAAAACATTTAGAAAAAATAAAATAATTATTAGAAATTCATTTGATTCATTTCCACTTAAAGTTGTATATTCTTTAAGTAAACTTGGTAAATCCTTAAAACCAGTTTTGGATTCACTTTCTAATTGGGGATTAGAAAATTTTAAAAAAAATCAAGATTTGTATTAAAATTTTTATGGATAGGGAGAATAATTTATGAGAGATATATTTGAAAGAGATAAGAATGGTGAATTAATTTCGTTTTTTTGATCCAGAAAGTTATAAAATAACAAAAGAAATTATAAAAACACAAAAACAAATTACAATTTTGAATAATAAAGCAAATATTACAGCAAAGCAATTAAAAATGTTATCAAAAATTACTAATAAACCAATTCCTGAAGGTTTTTGATTTTTAGCCCCAATTTATATTGACTATGGTAAAAATTTAATTTTAGGTAAAAATAGCTTTATAAATTTTGGATGTTCATTTTTAGACAGAGGAGGAATTGAAATAGGAGATAATACTTTAATTGGCCCAAATTGTAATCTTATGACAACAAATCATCCAATAGATCCAAAAGAAAGAAGATCTACAATTTCTAAAAAAAATAGTTTTTGAGGAAAATGTTTGATTAGGTGCAAATGTTACAGTGTGTCCAGGAGTTACAATTGGAAAAAATTCAATAATAGCTGCTGGAAGTGTTGTTACAAAAGATATTCCAAAGAATTCCATAGCTGGGGGAATTCCTGCAAAAATTATTAAAAATATTGAGTAATTATTTATTTTCTTTTTTTATTTAAAAATATTTTTATTGATTTTGTCTTTATATTATAATTATATTAAATTTTTTTATTTAGTAATATTAAAGGAGAACATAGGAATGAAATCAATTTTGCAATTAAAAAATGTTTTTAAATATTTTGGCAAAAAAGAAGTTTTAAAAGGAGTTAATCTTAATATAAATTTTGGTGAACGTTTAGCTCTTCTTGGAGGAAATGGTCAAGGAAAATCAACTTTAATTGATTTAATATCACAAGTGGAAAAGCCAAGTGGGGGCGAAATTGATATTGCCATTGAAAAAGATATTAAAAAAGAAATAGGAATTCAATTTCAAAATGGAGAATGACCAAGGGGTATTACTTCAAAAGACATGATAATTTTATATAGATCTATTTTTCCAAAATTTAATGAAGAGTGAGAAAAACAATTATTAGATGTATTTGAAATTGATGAATTTATAAATAGACCTCTAAATAAATTAAGTGGTGGTCAAAAACAGAGATTTAATTCAATGATTTCACTAATGAATCAACCTGAAATTGTTATTTTGGATGAATTTACAACAGGATTAGATTTAAAATTACAAATAAAATTAATGAATTTTATTAAAAAATATTGTGATGAAAAAAATAAAACTCTATTAATAGTTTCACATTCTCCAGAAGAAGTTGAATTATTATGTCAAAGAGTTGCAATTTTGTTTGATGGAAAAATTATATTTGATAATTCTATTTTAGAAGTAAAAAAACAATTTGGTAGTGTTAGAAACTTAATGAATAAGCATTTTGCAGGAGAAATATAATATGGAAACTAAAAAAAATAAGAAACTTCTTAATTTAGTAACAATTGAAGAAAAAAATAATTTTAAATCAGGAAAACTTTTATTTTGAAATTTATTATTAATAATTTCAAAAGCTTTTATTAGAAGTCCTAAAAATATTATTTTTACAATTGTAGTTCCAATTGCATTGGCAATTATGTTTTTCTTTATTATGGGAAATAAATTTGGGGGTCATTATTCTTTATTAGTCTATACACTTTTGCCTTCAATAACAGTAATGCTATCTTTATCAACTTCAATTGTAGAATGAAAGAATTCAATTTTTTTAAAAAGAATTGATAACACAGGTGTAAAGAAAATTAACTTTTTACTTGCTTTGTGACTTTTTTATAGCTTAATTGTTATATTAAGTTTTTTTATAATGTTAATAGTTATGATAATAATTGGTTCAGCTGTTAAACCAGCTGCTAATTTTCAAGGAGCAAATGAAATACCAGAAATACAATATTCTATTTTTCAAATTCTTTCTAAAGTTAATTGATTTTATATGTTATTAGCATTTATTTTAGTTGGTTTTACATCAATTACAATAGCAACTTTTATGGGAGGTATTTTAAATCAAGAAGGGACTGTAAATGGTATTAACTTATTAGTATTATTTTTCTCTTTATTTTTTAGTGGTTTGGTAATTCCCCCAAATTTAGCAATAAGTAGTGAAATAATGAAGATTATTACTTATTTTATTCCTTTTAAATACTCTGTATTTTTATTTTTTTATATTTCACAAAGAAAAATAACTCAACCTGAAAATGGTTGAAATGCACCATTTAATAATCACGGTCAATCAGTGGGATATGATTTTACACAAACTTATCAGCCAATTTTAGCTTCAATTGCTATTATAATAATTTTTATTTGCTTAACATTAGTGACTTTCAAATGAGTTAGCAAAAAATAAATATTTTTTTATTATTTATAATTTCTAAAAAAAATTGTTATAATCAACTACAAGAAAAGGATTAGTGGAACTTTATAATGGACGAACATCTGTCGAGCAATATACAAAAACTAGAAGAATTATTTGAAACAAATATAGATAAAGGGTTAACTTCAGAACAAGTTGAAGAAAAACTTAAAAAATTTGGCAAAAACAAACTACCTCAAGGTAAAATAACTCCTTGATATATTATTTTTTTAAAAACATTAATTGAACCAATTGTATTGGTTTTGATGGCAGCAGCAGTAATTTCAATTATTGCTCCAATAATTGACAAAGCAGCTAGTGGGGCAAAAATTGAAGTATCAATTGAAGAATTTATTGATGCAATTGTAATTTTTTCAATTGTTTTAATTGACGCTATATTAGAAACAGTGCAAACACTTAAAGCAAGAAAATCAATGGATGCTTTAAAATCACTTTCTAAACCAAAAGCTGTGGTAATTAGAAACGATTCTCAGCAAGAAATTGATGCATCACAACTAGTTCCTGGAGATATAGTTGTGTTAGAAGCAGGAAAATATGTTCCTGCTGAATTGAGAATTGTTCAAGCAAGTGATTTAACAATTGATGAATCACTTTTAACTGGTGAATCTTTGCCTGTTGAAAAAATTGCAGATCCTTTAATGGAAACAACAACAATTTTAGCAGAAATGAAAAACATTGCATTTATGTCTACTTTTACAACAAATGGTAGAGCAATAGGAATTGTAATAAAAACTGGTAAATTTACTGAAATTGGTAAAATTGCAGAATCAATTAATGAAAATGATGAACAAGAAACTCCTTTAGAAAAAAAATTACATTCATTTACTTATTGAATTTCTGCTTTAAGTTTTGGATTGGCAGTTTTAATATTTACAACTTTATTCCTAAGTGGAAGTCAAGCAGCATGATCAAATTACTTAATGATTGCAATTACATTAGCAATTGGAGTAATTCCTGAGTGTTTAGCAGCAGTTGTTTCGATTACTTTAAGTATAAGTACAAAAAAAATGGTAAAACAACACGTAATTATAAAAAAATTACAAGCTGTTGAAACATTGGGAAGTGTAAACATAATTTGTACAGATAAAACTGGAACTTTAACCCAAAATAGAATGACAGTTAAAAGAATGATTATGGACAATAAAATTCTTGAGTCAAAAATATATGCAAAAGAAGCAAATGATAATCATATGGATTTATTCTTAAAATCACTTGTTTTATGTAATGACTCAGTTACTGAGGGAACTGAAAGAATTGGAGATCCAACAGAACTTGCACTTGTAGATTATGCAGAAATAATTGGCTATGATGAACAAGATGCAAGAGATACTTGAAAAAGAATTGATGAAATTCCTTTTGATAGTGAAAGAAAAATGATGACAACTGTTAATAGTATAAATGGTATTAATACAACTTTTACAAAAGGGGCAATTGATCAATTATTAAAAAAATGTACTAAAATAATGATTGATAATGTGGAAAGAGAAATAACTCAAGAAGATATTAAACAAATTCTTCAAATTTCTGAGGAATTATCAAGTAATGCACTTAGAGTTTTGGGTTTTGCTTTTAATAATAATTATGATAATGAAAAAGATAAAGATCATTTAGAACATGATCTAGTATTTTTAGGTGCTGTTGGAATGATAGATCCAGTTAGAGAAACAGCAGTTAATGCTGTAAAACAAGCACATAATGCTGGAATTAAAGTTGTAATGATTACAGGAGATCATGCTTCAACTGCACTTGCAATTGCAAAAGATTTAGACTTAGCATATTCTACATCAGAGGTAATGAGTTCAGTAGTTTTAAATAAAATGTCTGATGATGAATTATTAAAAATAATTGAACAAATTAAAGTATTTGCAAGAGTTAATCCAGAACATAAGGTTAGAATTGTTGATGCACTTCAAAAAAATGGAAATATTGTTTCAATGACTGGAGATGGAGTTAATGATGCACCAAGTTTAAGCAAGGCCAATATTGGAGTGGCTATGGGAATAACAGGTACAGATGTTGCAAAACAGGCTTCTGATGTAATTTTAACAGATGATAACTTTGAAACAATCATTCGAGGAGTTAATGAAGGAAGAAACGTTTATCAGAAAATTAAACGTGCTATTGCATTTGTAATTGGTGTTAACCTTGCAAATGTACTATCAATTTTTATTCTTTCTGCAATAAATACAGTTTCACCACTTGAAGCAACAAATATTTTATGAATGAATTTAATTGTAGAATCAATTGTTGCTCTTTCAATTGGAATGGGTTCAAATGATGATACTTTGATGAAAATAAAACCAATTAAAGGTAAAAATTCATTATTTAAAGGACTAAATTATACATTTGCAAAAATTATTATTTTTACTTCAATGACATCAATTGCAGGATTTTACTTTGGTATGTCATTTATTTCAGAGCAAGAAGTTTTAAGTTTGACAAATAACACACATACCACTTGGTTTGCTGCATTTAGAGATGCAAATATTAATATTAATAATAAAATTGAACTTGGAGATCACGGAAGAACTGCAATGTTTATTGTTATAACTTGTGCACCATGTTTTTATGCAAATTTTATTAAACTTTCAAATTGAAAATCAGATAAAAAAATTAAATTAGTTATTAATAAACCACTATGAATTGCAAGTATTGCAGCAGTTATGTTAAATCTTATTGCAGTTTTCATTCCTGTACTTAATAATGATGTTTTAGATTTAATTAGTTCAAATAGCTATAATAATACTAATTGATACTTAGTTCCTTGTGCTTTATTAATTTCATTAATACCAACAATATTAATGCTATTATTAGACTTTGTTACATTTTCAACATATCATTATTTGCCAGATCCTTGAAGAAGAAATCGCCTAATTACTCAAGAAATGGTGGAAAAAGATAATATTGCAAAAATTCAAAAAAATAGAAAATCTAAAAAACCAATAGATTAATAAATAAAAACATATTGTATAAATATGTTTTTATTATTTTATTATTTTTTTAATTTTACTTTAAAAATTATAAATAATTTTCTTATTTAATTCATAAATATTTTTTTATTGCTTTTAATAGCCCTTTATTGTTTAATCATTTCATTGGTTTATCCAATAAAAAGAGAATAAGAATGAAAAAATTACTAAGTTTACTAGCATCAACATCGATGGTTACAACAGCTACTGTTAGTGTTGTTGCTTGTGGAAACAAAGAAGGTTCAGATACAAAACCACCAGTTCAACCTGAACAGGATTTGACTGCTTTAATTGCAGATTTTAAGAAAGATATTACTGCAATTAAAGATGAATATTGAAATGAAATTAATAAAAGTTTTTTTTCATTAGTTGATGTTAATCAACAAATTTATCAATTATTAACAAAGGAAAAAATAACTCAATTAGTTACAGAAAATGGTAATAACGCTGTAACTAGTTTAAATGAAAATGATCAAAATTTGTTAAAAATTGATATTCAAAAAATTATTAAAGTAGAAGATTTAAAACAAAAATTTATTTCAAAAATTAATAAAGAAAAATATTCAATTTTAATTAATGAGTTAAATTGATTTACAGGATTTAGTATAGATTGATCAACTTTGGAAATAAATTTCACAGGTGATGAAATACCAGAACAAGCAAATCCATCTTCAAAAAGTGATTCATTTCTTTCATATGTGAAAGTGGATTTAAAATTTGAATTTAAATACTTAGATAAAAATGGACAAGAAACAACTTTTAATATAAATCAAAAATTTATTTTTACTTTAACTTCAAATAAAGTATTAATAGAATCAATTCAAGCATTGAAAACAACTATTAAAACTGATTACTTGTTGGATGGACAAAAATACAGTTTTATAGATAAAAGTGAATTAGGAATTAGTTTAAATCAGGGTTCAGGAAAAATATTTGGAAATGACTTAAATTTTAAATCAGTATATGAAAGTAATGGATTTAAAAATGACATAATTTCATTTATGAAAAACAATTATTTTGATAAATTTATAAATATTTCTTTATCATTTGAAGGAAAATTTAAAGGCAGATCAATTGAAAAGCTTAAATATAAATGAAATTAATTTTAAAGCATTGTACAATACAATCTTTAATAATATCACTGAAACTGATACAACATTGTTTTTTGGAAGTCAAGATGAGAAAGCAATTAATACACATGTTTATACTTATTTAAAAGATAATTGAAAATTATTTTATAAATCTTATAATGATAAAATAAATAAATTTATTTCTGATTTAGAAACAAAGACAGCAAAAAAAACTAGAAGAAAGTCAAAAAGATGTAATAGCAAATTCATTTGCATATGGAAAAGTAAAATTAACAGGTATTTCAATTAATATTGGACAAAGTTATGAACACACGATTAATGATTTATCAATTTTTACATCATTGGCTGTTACAAACAATGAAACAAAAGTTGATAGAGAAATAGAGGTTAAATCAAATTTATTTGGTGCAATGTATTTAATTTAGTTGATGGAATAAAATCATTTCAAGACACTTTTGGAATAGTTGATAGAGAAGATAATTTGCAAGAAGGAATAGCACTTCCAATTGTTAAATTTACAGGTTCAAGTAAAGATAATACAGATCCTTTAGAAAATATTTGAAATGGTTTAAAAGTAGGCGATGGTTCATATGTAAATCAATTAAACGATAGTTTAGGTCTAAGAAATCCAGAGTTAGCAAAGTATAAAGATAAATTATTAGAAAATGGAAATCAAAAAGAATTTAATTGAAATCTTTTAGGTAAAAGTTATCCAGAAGATAATCAACATACTAAAACAAGGTTTAAAATTACAGATACTGGAATTATAATAGATGGGTATTATTTGATGTGATGAAAGTTTAGATATGAATTTTTATCAAAATTTTATTAATGTTAATTTTTTAATATCAGGAATTTGAACAGATAGATATTCAGTTGTATTTGAAAAAGCAACTGTAGAATAAGAAAACCTCATACTTATATGAAAAATAATTTTTTGTTATACAAATAAATACCATTTAGAACATTATTATTATTTAATATTAAAAGCATTTTTCATGAATTAGTATTTTTAATATTAAATTTTTTATTAGTAATGAGTTCATTTGTTTTTGCTATCTTGTCAATTTTCTTTGTAACTCAAGCAGCATTGATAGTAGCTTTTAATTTTTATATTTTACTTTATGTATCTTGTTTATTATTTATTTTAATTTTAAGAATAGTACAATTCTTTTATCATAACAAAATTGAAGATAAAATAATTTTTATAACATTATCAAATCAAGTTTCTAGAATTAAACTTTTTATTAGCATTTGAATCTTGATTTTAATTATATTTGTATCAAATTTTACAATAACATTTACAGTTATAAATTTAATAAATTTATTTGCAAATAGTTTAAATGTAAATTATTTGCTTTTAAAAATTACTACAACTTTCCTAATTTATGGAATTTTTTGTAGTATATTTTTAGTTAATTTTATAATATTTTTAATCTTCATTTTCTCGTTGCAAACAACAACAGTTATTTGTACTTTGCTTTTATCATTAACTTTTATTGCAAACTTACCAATGAGTTTTCAACAAACCAATGAAAAAAATATGACAATAAATTTGCAAAAAAATAATGGTGAAATACAAGTAAAACTTTGAAAATTATATGATTCATTTTATTTACAAAAATATGTTAATGAAGGACATATAAAATATAATTATTTATCTAAATGAATTAATGATAATTTTGTTGCCAATAATTACTTAGTCAATGATTTTTTCACTGATGATATTTCAGTTCATGCAAAAAGAATTGATAATGTTTGAAAACCATTAGGCATTATAAATTCAAGTCCAAGAATTATTAATGAAAATAATTTGGAAATTAGAACAGTTCCATCGAATGATTCAAATATTACATCTGATTGAATTAAGGGTGATTTAACAAATATTGAATTAAGTTTGGTAGAACTTTTATTTCCTTAGAAGAATTACAGCAAAAAATTTTTCAAGAATATGATGAAAATATGAAATTAATTTTGCAAGATTTATATAATTTTTCAATTTATATAAAATCTGAATTTTCTGACTTTCAAAAAGAGAAAGTAAATTTATTTGATAAGTTTATTTTTGTTAACTCAGATAGCAAAATTATAAATTTAGAAAAAAATTCCAATTCTATTTTATTTAAAAAAGAATACTTAAAATCAATTTACAATTATAAATTAGATGGTACATATAATGGTGATTATTTTACTTTTACAGATAATAGTGTAACTAATTTAGTTAGAAATGACCTAAATTTTGAATTAATGATTGCAGTAAGAATTTTAGAACAATATTTTATAAAATATACAAATAATTACTTAAATGCAATTTATAATTCAGTTTCTTTTACCTAAGGCGATTGAAGTAAGTATAGTTCTTCAAGAAAAAAATTAAATTTAATTTATTATTTAAATTTTTTTAATGGAATTTGATCTAATTACACTTTATGTTCTGGATTTTCATATGATGATTTTTGATTTTTACCAAATTCAGAGTCATTAATTTCTTTTGAAGAACAAAAAAATTTATTTTTGGGTTACCCTGAATTTACTTTTAAAATTGATAAGCAAAATGTAATTACTCCTGACTCTTATAATAATTATTTAAATCCTATTATTTATATAATTATTTTGTTAATTTTTTCTATTTTAACATTTATATTTATTTTAATTAAATTTCAAAAGATTGATTTAAATTAAGGTAATTAGAATGAAAAACGATGCAAATAAAATAGAAAATATAATTGAAGTAAAAAATTTTAATAAAAAGTTTAGGAAAAATACAGTTGGAGAGTTTTCATTTAATATTAAAAAAGGAGAAATTACAGCTTTACTTGGTGTTAGTGGAAGTGGAAAATCAGTATTAATTAATTCAATTGTTGAATGTTATAAAAAATATAAAGGTAAAATTTTTATTAATCAGAAATCAATAAAAAAAATGAAGAGTTATCAGCAAAATGTCAATATTGGTTTTTATACGCAAATTGATTTTTCACTTCAAAATATAAGTTTAAAAAAATACTTTGCAAATATGTCATTAATAATGGGTATCAGAAGAAAAGAAGCAAGAAAAAGAATTTAATATTGAATAAACTTTTTTGAATTAACTAGTTCAATTGATAAAAAAATTAAAAATTTCTCATGAGGAATGAAAAATAGAGTTAATTTAATATTAGGATTACTAAAAGAACCTGAAATTTTGATACTTGATGAACCTGATGCAAACTTGGATTCATATTGAAGAAATAAAATTAAGAATTTATTAATTCAATATAAAAATGAAAGAAAACTGTAATTTTTACTTCTCAAAGTATTGATGAAATTAGTGATATTATTGACAACTACCTAATTATTGAGGAAGTAAAATTGTTATTTAATGGTTCTACAAAAAAACTAAATATTTATATGAAATATAAAGTTTTTTTAACAGAAAAATATGAAATTGAAGAATTTAGAGAGTTTTTAAATAGTAAAAAAATTAAATCATTTAAGTATGATTCTATTGAAAATTCAATTACTATTGCAATTAGTAATTATAAACAATTAAATTATGTATTTTTGTATTTAATTAAAAATAATTTGCCTTTAAAAAATTTTGTTAAATTACCAATAAATATGGAATCGATTCATAAAGCTTTAGAAGATAATATTTAGAAATAAAATAATAGTAAATATTATTTAAAAAATTTTTAATGATTTTTCTTATTTAATTCATAAAAAATTTTTTTATTATATTAAATAAAACTTTATAGTTTAATTTGCCTATGGGTGTACTCATTAAAAGGAGAATAAGAATGAAAAAATTATTAAGCTTATTAGCAACAGCTTCATTGATTACAACAACTACTGTAAGTGTTGTTGCTTGTGGAAACAAAGAGAAATCAGGTACAAAACCCCCAACAGAGTCAGACCAAGATTTGACTGCTTTAATTTCTGATTTTAAGAAAGACATTACTTTAATTAAAAATGAATATTGAAATCAAATCAATAAAAGTTTTTTTTCACTAGTTAATGTGAAGCAAGAAATTTATCAGTTATTAATAAAACAAAAAATGACTCAATTAGTTACAGGAAATAGTAATAATGTTGTAACTAATTTAAGTGAAACTAATCAAAATTTGTTAAAAATTGATATTCAAAAAATTATTAAAATAGAGGATTTAAATCAAAATTTTACTTCAAAAATTAATAAAGAAAAATATTCAATTTTAATTAGTAAGTTAAATTGATTTACAGGATTTAGTATAGATTGATCAACTTTAGAAATAAATTTTACAGGTGATGAAGTATCAGGAGAAACTGATCAATTATCAGAAAATGCTTCATTTCTTTCGTATGTGAAAGTCGATTTGAAATTTGAATTTAAATACTTAGATAAAAATGGACAAGCAACAGCTTTTAATATAAATCAAAAATTTATTTTCACTTTGACTTCAAATAAAGTATTAATAGAATCAATTCAAACATTAGGAAAAACTATTGAAAGTGATTATTTCTTGAGTGGACAAAAATATAGTTTTTTAGATAAATCTGATTTAAAAATTAGTTTAAACCAAGATTCAGGAAAATATTTGGAAATAATTTAAATTTTAAATCAGTATATGAAAGCGATGAATTTAAAAATAACATAATTTTATTTATGAAAAAAATTATTTTGATAAATTTACAAATATTTCTTTATCATTTGAAGGAAATATTATATTCAACGAGTTTATATTGCAAGATAAAATTTTTGCAAATCAAAGCCAAGAATTAAATTTAAATGAAATTAATTAAAAATCTTTATATAATGCAATATTTAATAATATTACTGAAACTGATATAACATTATTTTTTGGAAGTCAAAACGGTAGAGTTATTAACTCACATGTTTATACTTATTTAATGAATAATTGAAAAACATTTTATAAATCTTACAATGATAAAATAAACAAATTTATTTCCGATTTGGAAACACACAATGGTAAAAAAACTACAAGAAAGTAAAAAAAGATGTAATAGCAAATTCATTTGCTTATGGAAAAGTTAAATTAACAGGTCTTTCAATTAATATTGGACAAAGTTATAAACATCCAATTAATGATTTATCAATTTTTACATCATTGGCTGTTACAAACAATAAAACAAAAGATGATAGAGAAACAGAGGTTAACTCAAATTTATTTGGTGCAATGTATTATAATTTAATTTCTGGAATAAAATCATTTCAAGATACTTTTGGATTAGTTGATAGAGAAGATTATTTACAAGAAGGAATTAATGGTCCAATTGTTAAATTTACAGGTTCAAGTAAAGATAATACAAATTCTTTAAAAAATATTTGAAATGGTTTTAAAGTAAATAATAATCAATATATATCTGCACTCAATAATAGTTTGTCATTAAGACATTCAGAATTAACAAAATATAAAGATAGATTGTTAGAAAATGGATATCAAAAACAATTTAATTGATCATTTGAAAATGAACCTGAAAATGGGAATGGAACAGTTTATACTTATTTTGGTGTTACAGATAAAGGGGTTATAATAGATAATTACTCTTATTCTGGTGATGAAAAGTTATATATAAATTTTTATCAAAACTTTATTAATGTTAATTTTGTAATATCTGGAATTTGAAAAAATAAAAAATCTGTTATTATTGAAAAAGTAAATATAGATTAAAAAATATTTAAAAATTTATAAAAATTTGAATTTTTATTAAAAAATAGACATTAAAATTTATTAATTTAATCTAAAAAATTGAAAAAAACGAAATTTTTAATTTTTCAAAAAAAACTAAAAATTTATTTGAAACGTTTTTAATTTATAAATTTAAATAAAATAACAATTTTTAAATACATATTTAAATAAATAAAGGAATTATAAAATGAAGTTTATATCTTTTAAAAGATATAAACTTCATTTTTTTATTAAACATAAAATTATTTTTATATAAACAAATGTTTTATTTTTTGTAATTAAAAATTAATTTTATTTTTTGAATTATTTATAAAATTTTTTTAAAAAATGTAAAAAATCAATATTTTGGTTTTCATAAATTATAAAATAAAAATGTATTTATAAAAATACAGTCATAATTTAAAAAGGGAAAATAATAAAAATACTTGTAATTGAAAGAAATAATTTTAAACCATTGAGAGCTATTAAAGTTTTTAGAAATAATAGACTAAAGATTTAGAAAATACTTTACAAAAGAATTACATTCATTTTTTAGTTTCTTAAAAAAATTTGTATTATGTATTCGTATTTTAAAAAATAAATGTATAAATTATAAATACTAAAATATTTTTAAAATATAAAAGTATTTTAGTATTTATATAAGATTTTAAAAGTTTGGTTATTATTTTAATATAAATAGTTTATATAGAAATAGGAGAAATCATGTTTAAAAAAATATCATTAAACTCATTATTTAAAAAATTTTCAACTAAATCAAAAAAAATAATGGGAATTTCAATATTAACTTCAGTATCATTTTTTTGATTACTTTCTTTAATATTAACTATTCCAGGAATGGGAATTCAGTCTTTACAATTTATTTCATCAGTGGAAAAACAAATTACAAAAATTATGCCAAAAAATAAATTTGTTGTCGATCCAAATTACTCTCTTTATGAAACTGTAATGGACTCTGCAATAAGATCTTCATATATTGCAGATGCAGTATCTACAATAAATCACAACGATGCAGAAGATATGGCACAACATAGAAAAGTTTATGAAGATTTTGCAAATAACTGATTTAATAATAAATGAGGAGAAAAAATTAAAAATAAGGAACAAATTGATTTATATGATGTTGGTTTAGATGTTATTGAATTTGACCAAGAAATTGCCAAACTTTATCATTCATATGGATTTGTAAATACTGGAATTCAATGAATGTTTCATAAAAACGGAATGAAGGAAATATTTTCAGATTCTGTTTCAACAATGGCTTTAAATAATCAAACAATTATTGACCAAGAAATTTACAATAAAACAGTAAAGTCAGAAATAGGAATGACAGGTTTATCTGTATCTTATTCTCCAGGAACAATGATTTTAAACAACAAAGTTTGATTTTTAAATCAACAAATTGAATCATTAAAATTTATTTTAAATTTACCAATTAAACCTTTTATGGATAAAACACTAACAAAAGATACTTTAAATAATTTAGAAGTAACAGTAGATGATTTATTTGTACCTAATTTTTTAGCAGGTATGCATTTAGCGCAAGCAGGTTCAATTATGTTTATAATTGCTTTAATTATTGTAATTCCTGGACTTATTATTGGAACTGTAGCAATTTTAGAATATAAGAAAGAAAAATAGGAGAAATAAATAATGAAAAAAATGTTAGCAAGTTTAGCTGTTTTATCATTTTCTGTTTCAATTGGTTCTCAAGTTGTTGCTTGTATGCCAAAACAGGGAAATGTTTTACCTGAAAATGATCCATTATTATATGGAAAAGATATTGATAAATCAAAAGCAATTGATGATTCAAAACAAACAGAATCTGGTTATACAAATTATTTTATAATTGGAGATAGTTTAAGTGATGTTGATGGAGTTACTTCATTTTTAGAAAAAAAACTTTCAAACTTATTAAACGAAATGATTGATTTAGATATTAATTTTGGTGGAAAATATGGTTGAAAAGATGAAAAAACTGAAATTTGACATAGTGCATTTACAAATGGAAAACCCGCTGCTTATCTATTAGGAGAAGAACTTGGATTTGGTGAATTAAAACCAAGTAATCAATTTTTTACAGAACCTTATGATCAAACAGAAGGTTATGGAAATAACTATTCAGTTGGAGGAGCAACTGCTGCTAAAGTTGGGGGAGGATTGATGAGTGTTGATGATGTTACAATTGATACTCAAGCAAGAACTCTAATTGAACAACATAAGTCAAGTGCAAATGATTTAGTTATTTTTGAAATTGGGGGAAATGATTTGTTTGCTTTAAATGATTTACAAACAGATCCTAAAAAACAAGTTTTATTAATTAATGATGGTTTAGAAAGACTTAGAAAAGCATTATTTACTTTGTTAAATCAAGGTATTGAACATGTTGTATTTATGACTCCACCAAAAATGGATTATGTTTCAACATATACAGATAATAGCTCTGGAAAATCTCCAGTTTTTGATAAGGATGGAAATCCAATTGCAGGAAAAGAAGCAGAAGCAGAATATATACAAGATATTGGCTTGGAATATCAACAAAGACTATTAGATTTAATTGAAGAAATTAAATCATACTATCCAAATAATTTTCAGACTTATGATTTATATTCAGATTTTAAAGACTTAAAAACTAGGTTTGAAGCAACTGTTGCTGATGGAAAATATAATGGACATAATGCATTTACAAATAAAAATGAAATATCAATTAAATTAAATGGCAATGATCTTGAATTATCTGGTGGTTTAGATTTTTCAAGTTTAACACCAGAATTTATTCAAAATATTTTAAGTGAACTTGTTGGAAATAGTGAAGAAAAACCAAAAGTTGAAATTACAATTTCTGCTATAAGAGAAGAAGAACAAGGAAATGAAGAGCAAAATATTGATAATTACTTTTTTACTGATTTTGTTCACCCAACTGCTGGAGTTCATAAAATGGTAAAAGATATATTTTTAGATATTGTTAAAAAGGAAGTGAGTAAATAATGAAAAAATTAATAATCTCATTAGCTTCAGTTACTTTAACTGTTGGTTCATCTGCAAGTGTTTTGGCATATGCAGTTAATGCAAACAATATTAAAATTAGTGAATTAAATGCAAAACAAAAAGAAATTAGTTTAACTTTAGAACAAGTGGCAAAGTCTCTATCATTAAATTCATCACAAAATGGGGGATATCAATTTGATTATTTATTTAATATTGTTGCTAAAAATCAACAAATTAAGTGATTGAATTCTTCAATTACTCTTGATGAATCTTCAAATTTAACTAAAAATAATCGTTTTTATGAGTTATATAATAAAAATTTTAATAGTAATTTATTTTCAAATGATTTTGTTTTTGAAAATACAGATTCTAAAAAGACTTTTTCATTAAAATCGGGAATAGCACCTCAAGAAGCTCCATTAGGTTCACTTGTTTCAACTTTGTCAAGTTTACTTCCAATGGTAACTCAATTTATTGCAAATAAAGATATTTTAGGAATGGTTTCTTATTTATTACAAACTTTTATTTCAGTTAATCCTGAAATCATTTCAGAGTTTTCATTATTAAAATTTGCAAAAGCAATATTAAGTGATGAAAAAATTGAATCTTTATCAAATGCATTTGATAAAGATAAATATGCAGATTTTAGTGTTCAAGAAGCTTTAAATTCTTCAATAATTGGTTTAGTTAATGGATTGGGAAAAATTACAAATACAAAATCGGAATTTGAAAATTCTACAGTACAGAAAACTAAGGATAACTTTGGTGCTGCTATGAAAGAATTAGAAGTTATTTCTTCTTCTTTATTAACAAAAATAACAACTTTAAACTTTGATTTAGTTGAAAGTTTTGATGCAATAATTGAGGTTGTAAACTTTGGAAGAGTTTTAATGGTTTATTTAAATGGATACATTAATGAAGTTAACTCAGGAAGTTTAAAAGATGCTGATTTACAAAATAAAACTATTAGTTTTGATCAATTAACAACATTAAGAAATAAAAAATTTAGTGATTATTCAAATTCACTTGATATTAAAGAATTTTTAAAATATATGCAAACAATGTTGGCAAATGATAGTGGAAATGGTTTAAAAAATTTAATTGCTTTATTATTTGTCGAAAAACCAAAAGAGGATTACATAAGTTCACAATTACAAATTTCAGATACTGTTTCAAAATTTGATGTACTTGGTGCTGTACTTGGATCTGAAGGAATTGGTTCAATAGTTGAACCAGCATTAGATTTAGTTGGATCATTAAAAAACTTTATTGCTTCAAATTCTAAAACAGATTATTCTCAAAATTATGGTTTATCTTCATTATTTAAAGCAACTTTAAATGGAATAGCTGATGTTAAATCAATTCTTTCATCACTTCCAGAAGATTTTAAACAATATCTTGATGTAATTGATACATTACTTGGCTTGAGTAATGCAAAAATTGGAACAATATTAACAAATATATTAGCAATGATGTCATCTGATATTTCAATTATGTCAAAAAATGTTAAATTATTTACTGATTTGCATGCAAGTTGGGGATTAATTGAATTTGCAGTTGGATCACTATTTCCTGAATATAAAGAAATTATTACAACACTTGGAAAAATTATAAAATTTAATTTTAATGAAATTTTAGCTCCAACTAATGCTGATGGAAAAGAACAAGATTCATTCAAAAACTTATGAAGTGGAAAAGCAGATTTTAGTGGAATTTTAGAACTATTAGGAATGAATGTTGTAACAGGAGGAAAACCTTTTAATTTAAAAAGTGTCTTTACTTTACCAATTACAAATATATTTAGTTCAGGTCTATTAGGTTTAAATAGTGATAAAGCAATTTCAACAATGCTTGATGAAATTATTGAATCAATGGGGGATAAAAAATTATCTATAAACTTTGATAATGCCAAAGGTCTTGTTTTAAATCTAAAAGGTATAATCGATGTTGGATTAAATGATCCTACAAAATTAATGGAAAAATTAGGTTTAAATTCTGATAAGACAATTAAAGAAAATTCTGCATTAGATTATCTATCAAAAATATTTGCAGATTTGGATGGAATTGGTGCAATTGCAGAACAATTAAAAGCAGCTGCAGATTTTTTTGAAAAACAACAAGCTCAAATTAAGTTAGATGTTCAAAATAAATTTAAAGAAATTTCAGAAAGTAAAATTACAATTGATGTTATTGATAATTATAACTATACTTATTTAATTGGGGTAGATAAATTTGAATTTACAATTAAAGAAGAAGCAAATAAATTTGTAATTTGAAAAATTGTTATCAAATAGTTTATATTTACATTATTTATTTAAATATAAGTATGAAAGGATTTTAATATGAAAAAACTTTTAACTTTATTTTACTCAATTAGTGTAACTGCAATTCCTGTTTCAACAGTTGTTGCTTGTGCTGAAAAAGTAGACTATAGAATCGATTTAAATTCTATAATAAAAAATGTAGCACTTGGAAATCAATTGGAAAATTGAGATGATTCAATTATTATTAACGCTGTAGTTGAAAAAAATCAAATAGAAAATGTAAGCTTTAAAGATGAAATAGTAGTTTTAGATAAAACAAGTACTTCAGCAATAATAAGTGCAAAATCAAGTTCACAAACTTATAGATCTTCTGTTAAAGTAAGATTCACTCTAAGTAATAGTGCCGTAAATATTGGAAAAGATATAGATAGATCAAAAGCAATTGATGATACAAAAAATACAAGCTCAGGTTATTCAAATTTCTTTATAATTGGAGATAGTTTAAGCGATGTTAATGGAATTACAAATTTTATTCCAAGTAAATTTGGGTCATTATTAAATTTATTTAATATGAAAGTTGAGGCAAACTTGACTGGAAATTATGGTTTTGATAGAAATGGAAAACATTATAGTGCATTTTCAAATGGTCCAACAACTGGTTTTCTATTAGGAGAAAAACTTGGTTTTAATGACTTAAAATCAAGTAATCAATTTATGGATCCATATGATCAAACAGAAGGTTATGGAAATAACTATTCAGTTGGAGGAGCAACTGCTGCTAAAATGGATGAAGATTCAATAGGTATGAGTGCTTTTATGAGTGTTGATGATGTAACAGTTGATGAGCAAGCAAAAGCATTAATTGAGCAACACAAAATTGGTTCAAATGATGTTGTATTATTTGAAATTGGGGGAAATGATATTTTTGCAATTGAGGCAAAATATAGAGAAGGTAAACCTAATGAAGAAGCTGCTCAAAAGTTAATTGATGATGCAATGGTTAGAATTCGTCAAGCTTTATTTACTTTGTTAAATCAAGGAATTAAAAAAATAATATTTATGACAGCACCTCCAATGCAAACTGTACCAAAATTTTCAACTTATTTTGATGTATATAGAGATACATATTGTGAGGGTTCAACAGATTGTCAATATATAAATACTGAAATAAAACCAGATGATGTATATTATGTACAAAAAGCAAAAAATATTCTTAATAAAGGAAAAGAATTTCAAGATAGAACAAAAGAAATATTAGACGAAATTAAAGGATATTATCCTGATGGAATTGAATTATATGACTTATACACTGAATTTCCAAATTTAGTAGAACAATTTAAAACTGATTCATCAGTTAATCCTTCTGAAGTAAACGTATTAGATCAATATTCAAATATGGAAACTGGAATAAGTATGATAGCTGAAGTTGATGGAGAAAAAATATTTGAAATTCAAGAAGGTAGTGGAATTGGTGGAGATGAAATGAATGATTTGGTTTCTAAATTATTTGGCTATTTGGGTTCAGATGAAGAACATAATCTAAAAGTTAATATCAATATTGGAACTGATGCTGCAGCAAAAGATAAATCAATTATTAATTATTTCTTTACTGATTTTGTTCACCCAACAAAAAGAGTTCATGAAATAGTTTCAGATTATTTATATAATACATATCTAAAATAGATTTTAAATCTTTTTTTTAATATTTTGTCCATAAAACACAATAAGGAGAATTTATATGGTTGACATTAAATATATTGAACAAAATTTTGATACTGAAAGAAAATGTATGGAATTTTCAATTCAAAAAAAACAAACATTAAATTTAAAGTATTGTAAATGTGGATGTAATTTAAGTAATCTTAAATGTTATGAAAGTAGAAGTTGTTTTGTTTGTTGTTGTAATAACTTTATTTACCCAAGAAAGGATTTAATTTTTGAAAATTCAAAATTACCTTTAAAAACATGGTTTTTAGCTATTGCTATTTTTCTAAATAATTCAAAAATTACTGCTGAAAGGCTTAGATTAGAACTAAATATTAATTATAAAAGCGCATATTATATGTTAAAAAAACTAAAAAATGAAAAAAATTTAATATCATTTTTTGAATAAAAAAGGAAAAGAAATATGAATAAGGAAATTAGAATTTATATTGATGCATTAGATTGTGCTTCTTGTGCAGTTACAATTGATAAAACAATGCAAAGATTAAATATTCAAGATTATAATGTTTTGATTCCATTAAAAGAAGTTCAAATCTCTTTTGATGAACAAATTGTTAGTGAAAAAAATATTTTAGGGAAATTAAAAAAAGCTGGATATAAAGGCGAAATCATTAATGACTAGAAAAGTTAAAAATAGAATTTTATTTTATTGTTTAATACTACTTTGATTATTAGGTATTTGAATTGTAGTATCAATGTTTTTAGCAAAATCAAATAATTGATTTATTATGATAGGTCATAATAAATTCTTTTTATTATCAATTGCTATATTTGTTATTTATTTTTTTGGGTGAAAGTATATTCATAGATGTTATTTAGAAATTTTTAAATGAAAAAGAATTGGAATGAACTTTCTAGTAACTATGTCCACTCAAATTGCACTTTATTTTTCAATATACGAAATTGCAGTGGGGTTATTTCCAAATTTAATTGAAGTTTCAATTTTTGTAATTTTATTTTTACAAACAGGAGATATAATTAATGACAAATTAAAGAAAAAAATTTCAAATGAATTGAGTGAAATTACAAAAATTCAACCAAAAACAGTAAAAGTCATTTTAAATAATGAAATTATTGAAAAAAATATTAAAACTGTTGAAATAGGAGAAATTATTTTTATTGAAAAAAATTTTGTAATTCCAATTGATGGAAAATTGATAAATGAAAAAGCTTCAGTTTTAACCCAAATAATTGATGGTGAAAATGATTCAAAAACTTTTTTTAAAGATCAAAACTTATTTGCTGGAATGCAAAATTTAAATCAAGATTTAAAAATGGAAGTAAATAATTTATCAAAAGACTCTTTATTAAATCAAATGATTTCAAAAATATTAAAAATTCAATCTACAAAATCTGGAATGCAAAATTTAGTAGATAAATTATTAATTTATTTCACACCATTTCTAATTTTATGTTCAATTATTGGATTTTTAGTTTCATATTTTTGATTAAATCCAAATAATCTTTATTTTGCAATGCAATCATTTGTAACAATTTTGATTGCAGCCTGTCCTTGTGCAATTGGTATTGCAATTCCAATAGCAGTTGCTATTGGAGCTTCAAATGCTGGAAAAAAAGGAGTAATTTTTAATAAACCTGATGCTTTTCAAAAATTAATTGGAATAAAACATATTGCATTTGATAAAACAGGTACTTTAACTCAAGGACAAGTAAGTGTTAAAAACTATCAAGGAGAATTCAAATATTTATCAATTATAGGACTTATTGAAAAAAACCAAATACATCCACTTGCAACGGGTTTTATGAAATATTTAAAGGAAAAAAATATTGAGCTTAATTCTAATAGAATTATTGAAAAACTTGGAGAATTAGAATACAAAATTGATGAAAAAATTTATAAATTAGTTTCATTAAATGATTTAGATAAAAAATTGGATTCAGATATTAGTATAGATTATTCTTATTTAGAAAACACAACTTCTTTTTTACTTGAAGAAAATAGGGTAGTTGCTTATATTGAATTTAGTGATGAAATTAGAAAAAATGCACTTATTTCCTTAGAAAAATTAAAAAAACAAAATTACAATTTAATAATGATTACAGGTGATAATGAAATTATTGCTAATAAAGTTGCATCAACTTTAAAAATTGATGAAGTATATTCAAATCAAAAAGCAAATGACAAATATGAAATAATAAAAAAATATCAAGAAAAAAATCAAAAAGTGGTTTTTGTGGGTGATGGTGCAAATGATGTACTTGCAATTCAACAAGCAGATTTGTCAATTTCAATAATATCACCAACAACTTATTTATCATTAGATTCAGATATTAGTTTAATAAAACCAGACATTGAATTAATTGTAAATGCAATTTACTATACTAAAAAAACTAGAAATATTATTTTAACCAATTTATTTTGAGCTTTTGCATATAATTTTACAATAATATCGTTAGCAATGTTTGGATTTATAACTCCTTTAGTGGGTATGATTGTAATGTTTTGTTCAACTTTATTAGTTTTATTAAATTCATTGTTATTTAAAATTTCAAAATAAAAAGTAGAAAGTAAATTTCTACTTTTTATTATTTTGTTAATTCTAAGATTACATTTGCATATACTTCTAATGCTCTTTTTAAATTTTCAATAGAAACTCACTTATAACTTTTATGAGCAGATAAATTTGATAAATCTTCAAGAATTCCACATAAAATAATATTTGGTACTACTTTTGCGTAGGTACTTCCTCCCATTGCAACAGCTTCAACATTACAATTTTGTGAAATTTGTCTATATATTCCAATTCTAATATTATATTCACTTGTATATTTTTCTAAAGGATCAATTAAATCTGTTTGTATCATTTTTGTTACAGGAAGTCGATTATTTAGTCCTAAAATAAATTTTTCATTATCTAAATCTATATAATCAAGTCTTGTTGTCAAAAAACCACTTTCATTATTTAAATTACCAACTAATTCTTTTAAAGAGAAATTATTTGATAGGTATTTTTCACAAAATTTAATTAATGGATGTTCTACATTAATTGAGCTTAAAGCTTTTATTAATCAAATAACGGCATTTACTTTGATTTCAATACCATTTTGTATGGCTTTTCCTAAAATATTTAATTCATTTTTTTCTATATAATATTTTATTTTGTATAAGTCCAAATAATTTTTTATATCAGTAATTTTTTTACCAGTATAAATAATATGCTCTGAAATATTCGATAAAAACTCATTTTCTGGTTTTTTAATATTAAAATCACATTTAAAACTACCAGTAAAATTTAAATAACAAACTGATTTTTCAGCATAAACACATGGAAAAATCCATCAGGAGTAAAACCTAATGTTGGTGCTCCAAAGTCTTGTATGTATTTTTTTAAACATCTCATTTCATTTTCTTCATCTAATCCAAAAACAATTTTTACTATAAAATTATTTGGTTTTCAATTTTGATCAATTAAGTATTTTAAAGCATAGATTGCCATAAAAGCAGGGCCTTTATCATCATTTATACCTCGTGCATATATTTTATTTTTTTCAATTTTAGGAATAATCTCTATATTATTGAACTTCTGGTCTTCTGGAAGACTTACAATATCAAGATGGGTTACTATAAGAAAAATATCTCTTCCTTTTCCATATTCTAAAAAGCCATAATGTCCTTCTGGTTTAATATAAGTTTTTCAATTTCATTTTTTGCTAAGTCTAAAGTAAAGTTTAAACTTCGATTGTTTTTAATCCAAATATTGCTCCAGGTAATGGTTTACTTTGTATACTTAGTATTTTTAAAATTTCAATTAAATTCTTTAATGCTTCATCAAAATATTTAGTAGTGAGTAATTTATTATCAATTATCATTTGCTTTCTCCTTTATAAAATAAAATAAGCATAATACTCAGCTTAAAAACATTAAACTTTATATTATGCATAGACAATTATTGAATTAAAATTAATGTTTTTAAATGAGTATTTTTATTGTTATAAAATATGTATTTTTGTATTTATTTTTGTATGTAATGGTTTTTTATTTGTATGAACATTCTATTAAGTTTTTTCACTCCTTTCATAATTAATTCTATATTTAACACTATGAAAAACTTGTTCATTCCAATTTTTTATTTTTACAAATAATAACATTTTTTTGATAAATTTATGAATTTTTTTTCATTCACTTTAATATAAAAGCTAAGGTAATAAAAATATTATTTATTTTACTAAAATCAATATTTTTGAAAAAATATTGATTTTAGAAGTTAAAAAAATTAAATAAATACATTATAATTAAATTAATCTATTAATAGGAGATTTAAATGGAAAATTCTATAGTTAAAATAAAGCAAAAAGTCTTTAAAATAATGGCATCTTCAATTTTTTTATTTTTTTTATTTTTAATTTTAGCTATTATTGTTGGTTTTTGACTATCAATTAATATAAGATGATATAAAATTGGTTTACTTTTTATTTTTAGTATAGCAACACTGTTTTGTTTTTTATCTTGAATTGGAGGGTGCATTTTTCTTAAAGTTAATAAAAATTGAAAGGAAATAAAAAATATTAAAAGAAAAGCAGCTTTGGATTGAGGAATATTTTATTTTTCAGTCTTAAATAAAATTGAAGCATTACTTGAAAAAAATTTAGATAATCAAGATAAAAATATTTCGTAGATAGATAAGGAAAATTATTTTAGTAATATAATTAAAATAAATATTGTAAAATATGTAAATAACTTTTATTTTAGCTCAGCTTTTTCTAAAATAAAACTTTTACATTTTTATTGATTATCAATAGTTTGCTGTATTATAATGATAATATTGAGGTTAAAAAGTTTTATGAATTCAAAAGATTTATTAAAAGATTTTAAGGGAATATTACTAAATAGCGGTAAAAATACCTCTATTTTTTATGATAAATTTAAAAAAAATAGTACATCAATTAATTTAATGAAGTTGGAAAAATACAATCTTCTAAGACGTGGTAGAAATGACAAAAACCCTATAAGTTTAAAGCAAGCAATGCAATATGATGAATTTTTTATCTCATTTATGGATATTAATCAATCTGATAAAGATTATAAGAATGCATTTAATTTTTTATATGAGATAAATAAAATTTTAAAAAAATTTAAGGAATCTTATGAAGAGACAAATTTACATACATTATATATGGGTAGATACTATATTGAAAGTGCAATAATTGAAAGAGTAAATAAGGACTATTTTAGATGTCCATTGATTCTTCAATCAGTCTCTTTAGAAAATGTTACTCCTAAGATTTTTAAAGTTTCAATTAATGAAGATAAGATATTAAATAATCCATTATTTAATATAATAGCGACAACCAGTAAAAAAACATACGAATTCTTGGAACTAGATGATGAAAAAATTAATGATTTTGAAAGTATCAAAAAATATCTTACCAATTTACTAACAAATATAGGATATAAATTTAATAATATAGATGTATATTTAAATGCATTTGAAAATCAGTATGATTCATATGTAGCATTAAAAACAAAAGATGATGAAGCAAAAAGATTTTTTGAAAAAAATATAAATATACTTGATAATGTTTATGCTTTAAATTTATGTAGTATAGGAATATACAATATTGCAAGTAGTAGTATTTTATCTGCATATAAAAAATTGGAAGAATTAGATGATGGTTTTATAGACGAATTACTAAGTGAAAGTGGAGATAGCATTGGTTTAAGAAATGAGGAATTTAGTGAAAATGATATAAAAACTATATCTACATTAGATTATTCACAAAAAAGTGCTATAAATTCTGCATTAAAATAATCAATTTATTTGTTTGGGTCTCCAGGTACAGAAAAATCACAAACAATAGTAAATCTAATTGCAAATATAATTGATAGAAATGAAACTTCCTTATTTATTACTGAAAAAAAAAGTGGCCTCTGAGGTTGTCTATAATAAATTGGAAGAACTGAATGATTTTGTATTAATGATTCATAATAATGAAAAGGTCTCAAGTATTTATGAAAAACTTAAAATATTTGTCACAAGAATTGAAGATTTTTACAATACTCCAGAAAAATATAAAAGTATTTACAATCATTATGTAGAAAGAGAAAAATATAAAGACATTGATGATATTTTTAATAAGGTAAATACATATAAAAAAATTATGAATAGTGAGCAAGGAAAAACATATCAGAAGTTTCAATGAATATCTAGCAATTATAATGGAAAAATATATAATATAAGCAATGAAATTTTTGATTTTTGCAGACATGAAGTAAAGTTTTTACTGACAATAAATATATATTAGATTCATATATTTTTCTTAGAGAATATCTAGGTTTAAAGTCAATAAAAAATTACCAGTTAAATGCACTTTATGAAATCGAAGTAAAAACTAATGCATTTTTATTTAATACACTAGTACTAAATAAAACTAAAACAATGGTCTTGATGCTGAGATAAATAGTGAATCAAAAAATTTATTTGAAGGAGAAATGCAAAGAATTGCTATTGCAAGAGCATTAGTTCACAATAAGAAAATTATGATTTTAGATGAAATTACTGCAAATTTAGATAAAAATAATCGAGAAATTATTGAAAATTTAGTAGGTGATTTAAATAAAACAATCTTGTATATTTCTCATAATACAAATTCAGATGGAAATAAAAATTTGGATCAAGTTATTAAATTATAGACAAAATTAACTTAAAAAAACTTTATTTTTAAATGAAGTTTTTTTATATTTTCTTTGTTTATTAAGGAAATATTAGTTCTTGTATCTTCAAAATAATAAATATGACTATATTCATCGTGAATAGTTAGTATAAGTGACAAATTAGCACTCTTATACAACCCAACATTTTCTAAAATTTGCAATATTTTCTAAAATTGTTTATTATAAGTGTAGTAGGAGAATTTTTTTATGAAAGTAATAGGAAAATCTAAAAGAATTATTAAAGATTCTAAAGGAATTATATTACTTTATGCAACAATTGGTATCTTAGTTGCACTTTTTTTGTTATCTCCATTATTAGATCATTATGTTGAAACTGTATGAGAATCTAGAATGCTTATATATGCTAAGCTATTATTGGGATTTTTTATTACTGCTTTAATTTTAAGAAAACTTTTTTTTGAAATGGTAAGTTTTATTGAGAATTATGAAATAAAACAATCAATTGTAAAAGATTATAATTGAATAATTAAAAGAGAAAACCTTTCAATTTTTATAAGATCAATTTTAATTTTAACTCCATTTATTGCATTAAGTTTTTACAACATAATAGCTGTAACAAATGAAAATCTAGAAGTTAATCAAATTCAAACTTTTGATATTTTTGAAAAAGTAATGGTAAATTTTAAAGAGGATAGCTTTAAAATTGTTTTAAATAAATTATTTATTTTAATTTTTTCTGGATTCGTATCAATAATTTTTGGAAGTATTGTTTTTGTTTATTATAAAATTTCTATGAAAATGTTTTATGAAGATATTGATCAACAACTAAAAATTATTTCAAAAAAAAGCAAAAATGAAGAAAATAGAAAACAAATGTTTGGTGAAACAAAAGAAATCTTTATTAGAGAAAAAGCACAAAGTCAAAAAGCATTTTTATTTGAAAGAAATGGAAAAATTTTAAATTTTATTAAAAGTTTAGAATCTGATAAATGAAAGGAAATTAAGAAATCAACATGTCCACCACTATATAGATTTAACTCATTAAATTTATTTAGTTAAAAAACAAGTTGATATCTTATTATTTTATTGTCGGATTTAAAATAATAGAAAAAAGACTATATAAAGTAGTCTTTTTTATTTATTTATTTGAAAAAAGACTATTATTACTTGCTATAATTATCTTGTAATAGCTTATAAGGTTTCAGAGAACTGATGTTTGGTGTGAATCAGTATTTAATTTTATTGAAGGTTGTATAAGCATATAAAAGTTAATATTTTTTGAGTGGACTTGAAATAGTCAATTAGGATGGTACCGCGAATTGAAAAAAATATTCGTTTCTATTTTTAATTTATAAATTAAAAATAGGAATTTTTTTATGGAGGTTTAAAATGAAAGAATTAGATAAAAAATATAATCATTTAGAAGTTGAAAAAGATAAATATAAAAAATGAATCGATTTAAACATTTTTTGTGCAGAATTTGATTTAAAAAAACCTGCATATTCTATAGTAATTCCTCCACCAAATGTAACTGGAAAATTACACCTTGGTCATGCCTGAGATGGGGCATTACAAGACTTTTTGATTAGATTTAAGAAGTTAAATGGTTTTGATACTCTATGAATTCCTGGAATGGATCATGCAGGCATTGCCACTCAAGCAAAAGTTGAACAAAGATTAAAAGAACAAGGTATTTCTAGATATGATTTAGGAAGAGAAAAGTTTATTGAAAAAGTATGAGAATGAAAAGAAGAATATGCAGAAAAAATTAGAAAACAATGGGCAAAACTTGGTTTAGGGCTTGATTATTCAAAAGAAAAATTTACATATTCAGAAGACTTAAATAAAATAGTTAATTATATTTTTGTAGAAATGTATAAAAAGAAATTAATTTATAAAGGTAAAAAAATAGTAAATTGAGATTCAATTCAAAAAACAACAATTTCAAATATTGAAGTAATTTATAAAGAAACAAAAGGAGCAATGTATTATTTTAAATATTTTTTAGAAAATGATATAAATAATTTTTTAACAGTTGCAACAACAAGACCTGAAACAATGTTTGGAGATGTTTGTTTAGTTGTAAATCCAAAAGATAAAAGATATCAAAAATATATTGGAAAAAATGTAATAAATCCTGTAAATAATAAAATAATTCCAATAATTGCAGATGAATATGTGGAAATTGATTTTGGAACTGGTGTAATGAAATGTACTCCAGCACATGATGTTAATGATTTTGAATTAGGAATAAAATATAATCTTGAACAAATAAATGTTATGAATGATGATGCAACAATGAATGAATTTGCAAATGAATTTATTGGTTTAGACAGATTTGAAGCAAGAAAAAAAATAATTATTAAATTAGAAAAAGAAAATCTATTTTTGAAAGAAGAAGAAATAATTCACCAAGTTGGTTATTCTGAAAGAAGTAATGCTATTATTGAACCACTTATTTCAGATCAATGATTTGTAAAAATGAAACCACTTGCAGAAGAAGTTTTAAAACTTCAAAATTCAAAAGATAAAATTAATTTTTTTCCATTGAGATTTTCAGACACATTAAATAAATGAATGGAGTCAATTCATGATTGAGTAATTTCAAGACAATTATGATGGGGACATCAAATACCTGTTTGATATCATAAAAAGACTAATGAAATTTATGTAAATGTAAATCCCCCAGAAGATATAGAAAATTGGATTCGTGACACTGATGTTTTAGATACATGATTTTCAAGTGCTTTTTGACCATTTGCAACAATGCAATGAAGTCCAAAAGATTCTTCAGAATTAATGCAAAGATATTTTCCTACTTCAACTTTAGTAACAGGTTATGATATTATCTTTTTTTGAGTAGCAAGAATGATCTTTCAAAGTCTTGAATTTACAAATCAAAAGCCTTTTCAAGATGTTTTACTTCATGGATTAATTAGAGATGAAAAGGGGCAAAAAATGTCAAAGTCACTTGGTAATGGAATTGATCCAATGGAGGTTATTGAAAATTATGGAGCTGATTCACTTAGATTTTTCTTATTAACAAATTCAAGTCCAGGTCAAGATTTAAGATATAGCGAAGAAAAAATAATTTCAACTTGAAATTTTGTTAATAAAATTTGAAATGCTTCAAGATTTGTTTTAATAAATATTGATAAAGTTTATTCTGATACTGAGTTTAAAGAAATTATTAAAAATTTAAAAGAAGATAATTTAATTGATAAATGAATTTTAAATAAATTATATAAATGTCAAAAAGAAGTTTATGAAGCTGCGAATAATTATGAATTTACAGTTGCAGGAAAAATTTTATATAATTTTATTTGAACTGAATATTGTTCTTGATATATTGAACTTGCAAAAGTAAAAATGTTAAGTGATAAATTTAACTCAAAAGATATTGAAATAACAAAAGCAACTTTGGGATATGTTTTGAAACAAATTTTAGTGATGCTTCATCCTTTTACACCATTTGTTACAGAAGAAATATATTCAACTTTAAATTTAAAAGAAACAATTTTAAAAGAAAGTTGATTGAAAGAAGAATACAATTTTAAATTAGATGGATTTAAACATTTAAAAGATATAATTTCAGCAATTAGAGAATTTAGAGCTTCACAAAATATTAAAAATAGTATTTTCTTAAATTTATTTTTAAATTTAGATAATTCAAAAAGTAAAAAAGAAATTGAAAGTAAATTTGAATTCATAAAAATAATTATTGAAAAAATTACTAATTCAAAAATTATATTAAATAAAAATGAAATAAAAGATTTTACATCAATTCAGATTAATGATTATTTTATAGAAATTTCTAATGATGATTTTTTAGATAATGAAAAAATTATTTTTAAATTAAATGAAAAATTATTGATCTTAGAAAAAGAAATTAAAAGAAGTAAAAAAATGCTTTCAAATGAAAATTTTATAAATAAAGCAAGTTTAGAAAAAGTAGAAATAGAAAAACAAAAATTTGAAGATTATAAAAATCAGTATGAATCTCTTTTAACTAAAATTAATAAAATAAAATAATGTTTTATTTTATTAAAATATTTTACACTTTAAATTAAATTAATTTTTAATGAGTATTTAAAATAAAATTAATTTGGAAGTTTGTGATAAATTTAAATTTAAAACTTCTAAACAAATAGGATTAAGAGGTGTAGAATATGGCATTAACAGCAACATGCAACTACTCTGGGTGTATTGCTAAAACAAAAAAAGTATCATTAGGGAGTTACTATTGTACTTATCATTTTAAATTAATAAAAAATACTGGAAAAAAATAAAAAAAAGATAAGTCAAATTTTAGCTTATCTTTTTTTAAAAAAATTTATTTAAAAGTTTCTTTTAAATTTTTTATTTCTTCTTTTAAATTTTTTATTTCATTTATAAAATAATTTTCTTCTTTAAATGTTCAATCCATTTGTTTATTTTTATTTTTTAATTTTTGATTTAATTTTAAAAATTTTAATTCAGTTATCAACTGTTCTCTATAATACATAATTTCTTGAAGTTCTTTAATATTTTCATTGTCTTCATTTAAATTCATTTTTTTTGAAATATTTTTTATTTGAAAATCAATTGATTTTAAAATTGTTCTTTTATCAATAATAATTTGAGAAAATTGAGTTTCTTCAAAACTGGAAACTTCAAAATCATCTTTAACATCAATAAAAGTTGCTTTGTCAACTTTTTTTCATTTTAAATAAAAAATAATTCCTGCAATAATGGCAGCAGGCATTTCTGCAAATGAATAACATAAAAAGTATAATCAATCTTTTGAACCATCATTTGATGCTGCTTTTGCTGCATAATAACCAATAAATACAAATGCTAATTGAAATACAAAGGTTCTAATAACTGCAATAATTGTTGAAGTTGTTCCTTGTGTTGTTCCATTAAAGTAAAGCATGATTGTATAGGTTACTGAGGGAAATAATAGACAAGAATTATACATTACAAATCATCAACGCTTGTCGTCTCCAGATCAACTTCCAGTTGTTGGTCCTGAAAATAATTGCATCATATATGCTCCAAAGAAAATTAATATTAATAGAGCAGATAATAATCAAGATATATTAACAATTGCTGCAGCTTTAACAATTTTTAGCATTTTTATATTTTTCTTTGCCCCATAACTATAAGCAACAGAATTTACTCCTCCTTGCATAATTCCAATTACAGGTGCATATAGAATAGTAGATCATGGAAATGAAGAACTTAATACTCTAACAGCATTTGTAATATACTCAGTGTTTTGAGTACCATTTAGATTTTTTGTATCAGCATAAAATGTAAATTTAATAGCTTCATGATCTAAATATAATTGATTTCCATCTTGAATTGTACCAATCATTCTTGTTGAAACAGCACTAATAATTGCAAGTGATCCACTTAAAACAAATGGACCAACTCCGTTTAATCAAATTTCACCATTTTCTTTTAGATTAAATTTGTAACTACTAAATTTTGGTTTTAAAAATGTATTTTTTGAAAAAACAATAACTATGATTGATGCAATAATCATAAATGCTCAAGCTACCATTGAACCATAAACAGCACCAGCCATTCCAAGTTTTAATATATCTAAAAAGATGTAACCTAAAACCATATTTATAATTAATGATATTGATTGAATTGCTATAACAGTATAAATTTTGCCCTCAGTTCTTAACATTGTTGTAAAGAATGTTCCAAAACTAAGTAGTGGAAAACCAAAGACAAACATTTTACAATATTCAATCGATAAAGAATATGATAATGCAGAGTCCTTATTTGCAAAATCAACTCCTGATTGAAAAACTAAGATATATTGAGATAGAAAATACATTATTAACATTATAAAAAATGATGAAAAAAATGTTTGAATAATTCCATTAATAAATGTTTCATTCATTTTATTTTGATTTCTAGCCCCCATGTGTTTTCCAAAACTAATTGCAGTACCTACAGCTGTCAACATTGATATTGCAGATAACAATACTACAACTGAATTTGAATATTGTGTTGATACGTTAATAACTTGTTTAAAAATATCTGTTTGAGATTCATTTACTAGAGAATCAGCATAAATATTAATTCCAGGTCCTCCAGTTTGATTTAAAAAATTTTCATATAATTTTTCAACTTCACTAATTGCAAAGTTTAAAGTTAGTTGTTTATCAACAATTCCATATAGTCCATTTACTAATGTAATAATTATCATTGGTCCTGCCATAAACATTAAAGCAATAAATGGATTTGAATATCTTAAAATCCATTCTCTTTTTGTTAAATGAACTGTTGCTTTATTTTCAAATTCAATAGAATTAAAATTCAATTCATTTTTTTGTTTTACTTTTTTTCCATATTTTTTCCTTTCTGTTTTAAAATAGAAACTTAATAAAATTAAATAATAAGTACTCTCTTAATAATTATAAAACTTAATTTAGAATATAAAAACATATTTATATTTTTTTTATATTCTAAGAAAATAAGCGATAAAAATTAGGAGGTGAAAATAATTTGAAAAATTTTAAATATTTTATTATTTTATTCATATCATTATTGGATGGAGTTGTTTTCTATTTATTATCTAATTCCTCAAAAGAAGAAAATAGTCAAATTACAAATTTAGAAACTTATCAAGTTTATTTTAAAGTAAAGTATGATATTAAGTTAAAACAGAATCGATTGTTACCAATAAAATTAACAAATGAAAATAAAATTAATGATCTTGATAATTTTATTGAAGAAAAGAAAATTGATTATTTATATAATTTTTTTAGTATTGATAATAATAAAGAATTACTTAAAAAAAATGAAATTATAGTATATCCACTTGAAAATACTGAAATAGTTAAAACAAGTAGATATATAGTGAATTTTGAGTTTTTTAAATCTAAAGATGTTAGTGAAAATATTTCTAAAAAAACTGTTCTTATTTTAAATGATATAAAAAATGATTAAGATGATTGCTTAAAAAAAAATTAAAAAAATCTATGTAGGAAGTAATTTTATTAATGAATTTTATTCAAAAGATATTCCAAAATTGCTTTTTTAATTTTCTTTTTTTAACATTTATTTTAATTTGTATTTTTGTTTATTTTGTATGTTGAATACCATATATTTTAAAAATAAAAAAGAAGTATAAATTTTTTATATTACTTATTTTTTTTGAAATATTTTTTAATTTTTTATAAATTTGATGTAAATATTTTTATAAATTCAAATACTTATCAAGTGAGTGAAGTAAAGGAAAAATATATTTTATTTAAAAAAATATAAAAGTCTATATTATTTACAAGTAGGGGAGCAAAAGTTCTCAGTAGGGGAGTATGTAAAGGCAATAGGGGAATTTAAAAAGATCAGTGTTAATGCTAATTATTGAGAATTTAATTTTAATAACTATCTTTTAAATAACAATGTAAAATAAAAAATCCAAAATGCTAATTTATATCAAATTAATAGATATGGAGTAAAATATTGATTTTATAAATTGATAAATGAATCTAATTCTTTAACAAAATTATTTGTTTTTCAAAGAAGAGAAAATAACGAAATATATTTAGAGTTATTAGGTTTAGGTTTAAGTTATTTAATAAATTTTAGTGATCTAAATATTTATTTATTAAGTTATTTTTTAAACAAAAAAGTTTTTAAATTTTCAAGAAAACAAAAAAAATATCGAATAATATTAATAATATTTTTTTTATTTTATAGCTGAATGCTTAATTTCAAATTATTTATTTTAAAATCTGGTATTTTGCTATTAATTGAATGAATTGAAATAAATTTTAATTTTAGGGAGAATAACAATAACTATGTTATCAGGTGCTGACACCTTTACCGGTGGAGCTGCTGGAACAGCACTTAAAATAGCTAAAAAAACAGGGGGAGCTGTTGGTTTAGCTGCTATGGCTCTTTCATCTATTTATTCTGCTAAAGCAAGGTCTGGAATGAGTGCTAAAACAGCAGGTTTTAGAAACTCATTAGCACAAAAAAACAAGCTGTGCAAAATTGAGTTAAGCAAAATTCACCTATAGACAAAGATCCTGTCAAAAGAGCTAAACAGGAAGAAATTCGTAATGCTAAGTTAGAAGCTAAAAAAACCAAAAAAAGCAAAAACTTTGAAGAATACAAGTCAAATATCCAAGACAAAATTTCTTCTACAGATTCAGGAATGCAAAAACTCTTATACCAACAAGAACTTGCTAAAAAAGAAAGAAAACACAAAAAACAACAAGCAAGATACGACTATCTTAAATTTAGTTCATCAGATTCTAAAAATGATAATGCTCGTAGGATTCATAATTGAAGAAAAACTAAATTAGAATATAAAGCAGCTAAACATGGTGATTTATTCCCTTCAAAAGCTCAATCTAAATTACAAAAATTTAATTCAAAAGAAGAAAACTGAATGAAGAAAAAAGGAATTGATCTAAATTTAGATAAAAAAGGTCAAAAAGATGATTTCAAAACTCTTTCTTCAATGAATAGAAACAGTGAAACTAAAAAGGATATTAATTCTATTTTAGAAAAATACACTGCAAATGATAAAGATAAAAAAGTTAGAAAACAAAATCAAAAAAATATAAATAGAAACTTAAATAAAGAACAATTAGAAATTTTAAGAAAACACAAAAATCAGAAAAAAGAAAGTCACATTAAAGATGAATTTAAAAATCAAAACTATCGTTTTGATGAAAAACAAGGAAAATAACATTTTCAAAACATACTTCGTATGTTTTTTTTGTTTTTTGATGGTATAATTAATTTATAAATAATCTAAAAGAAAGGTTTTAAATCATGGTGAGACTTAGAACAAAAAAAATATACTAACAATTTAACAATTCCAAATGATTGATTAATTCCAAATTATAATCATAAAAATTGGATTGATTCATTTCAAAAATCAACGCGTAATAGAAAACTTTTAGAGACAGGTGAAGGTATTTCAGCTGATTTTTTATCAGAGTTGAGATTTTATTTTCTTTTAATAAGAGAAAACGCTGCAATTGATGATTGTAGAAAAACACGAGATCTAAGAGCTAAAAAAGGTTATCAATATGAAATTGATGAAATAGAAAAAGGTGTTGAAATATTTAATCGACTAATGCATGGTGCTCCTATTCAAATTCCAAGTGATTCACCTATTTGAGATGGTTTTTTGAGAATACATTGTTGCTCATGGAACGTTGAATGATCCATTGAGTGTAGGAATTAGGTGACCAACACATGAGTCAAACACACACCAACCTCATACTATTAATTTATCAATTGAATCAATTCAACAACACAAAGATTATAATTATATAACTGGACTTGCTTATTTGTGAGCAGACTTTGTTTCACAAAAAGAAAAGTGAAATGAAGAGATGAAAGAAGAAGGTGAATACTATAATTTAGGATATGGTGTAATAGAACCTTATAGATCAACAGCTTCTGAAGTTGTATTTAATTTTATAAACATAGCTTTTTGATATCACCACCCATTTTTCAATTATCCCCCACTTTATAATACTTATCCTTCAACAACAAGACCAGATGATGCAACAATCGAAAGAGTAAAACAAAATTGACCTAATATAAGATTGAAAGCAGAAGAATTATTTAAAAAAGAAGTTGAATATTTACAAGGTCCATATTATATTGAAACCCATAAACCTTTAACAGATGAGAATTGAGAAAAACATTTATTGTATGCAAAAGAAGTTGAATTTATTAAACAACAAGCTGAAGCAGCAGAAAAAGAAAAGTGAGAAAAAATGAAAAGACAACAAGAGGATAGAGAAATTTCTCAACCTCACAATGCTAAAAAAGAATTTGAAAGTTTACCGATTGATGAACAAAAAATTATTTTAACAGCTTCTCAGTATAATGAAATAAAAAGAGTATTTAAATCTCAAAAAGAAAAAATACTAAATGATGAAAAGTTGATAAATGGAATATTTGGTTCAATTGACCGAGAATTAGAATAAAGGCGGTGAAATATGAAAAAAACTGAGTTTGAAAATGTTAAATATTTCAATAAAATTATAGGTATAGAAAATAAAACGGATGGAACTTTATTTATATATCCTACTCCAAAAGATAAAAAGTTAGGAGAAAAAATAAGTAGAAAACCAGACGGATATTATTACATGGATGGAGTAACTTTCATATTAGATGCTAAAGCAGAAGGTAATGAATTTTCTGGGCAACTAGAAGATTATTTGAAATTAGAACAAAATAAAAATAATGTTGGTTTTAAATATTCTGGCATTTTTTTTCAATGTTTTATTAATGGTGTTTTAATGGAAGAAGAAATAGAACCTAAAAATGCTGAATATTACATTTCGAAATATTTCAATAATAAAATAACTAACGAAGATATAGTTAATAACTCTGCTAAGAAATTAGCAAATATGTTTAGAGATTCATCAATAGATAAACAAATGAATGTCCCATTTATAGGTTCCGTTATGCTTTGTCAAAAGTTTGGTAAAGATATAAGTGGAGATAGCACTAAAAACATTATCAGAAACATTAAATCAGCTATTGAAGAAATTATTTTAAATGAACCAAAAACAAGACAAGAAAAAAAAGAATTTATAAAAACAATGTTAGATGATCCATCTTTGAATAAAACAAAAATAAGCGATATTATTCAAATAATTTCTGAAATTTCAACAGTTTACAATTTCATTAATGTATCTGATAAAAAAGGTCATGACACAATGAATAGTTTTTTGAAAATTTTTAGAAAATGAAATTCAGCTAACTCTAATGAAAAAGGTGAGGTTTTTACACCAGATCATATAGCTCAACTTATGTATAAAATTATTGATATTAAATTTAGCGATACTGTTTTGGATCCTACTTGTGGATCGGGGACTTTTTTAGTTAATGCTCTAACAAATATGCTAAACGAAACTGATGATGAAAATGAAAAAAAGAAAATAATGGAGGAAAGGGTTATAGGTATTGAAAATTTGAGTTTCAATGCAACTTTGGCAGGAATAAACATGTTACTCCATGGTGACGGTGCAAGTAATATTTTTGAAGAAAATTGTTTTAAAAAGTTACCTCAACTAAAAGGTGAGTATAATAAAGTTTTAATGAATCCACCTTTTTCTCAAAAAGATAAAGAACTTAAATTTGTTTTAGAAGCATTGAATAATATGAAAGAAGGCGGAAAACTGGCAACAATATTACCTATAAATTGTATTTTAGGTAGAGGTGATAAGCAAAATGATAATTTAAAACTAAAAAAAGAAATTCTTTCAAAACACAAAATTATAAAATCTGTAAAATTACCTAATAAACTTTTTGAACCAAACGCTAGTACAGAAACTTGCATAATTGTTTTTGAATCTCACGCTAAATTAGAAAAACAAGTAATAGAATTATATGATTTTAGTAATGATGGGTATGAAATTAGGATGAGATCGGGTAGAGTTCCTATAAATGAAGAGGAAGCTATGATTAGTTTCCAAAATCAAAAACCTATAATTAAAGAAGTCACTGAAAAAGATGATTGACTAATAGAACCTACACTTGATATAAATTCTTTTTCATCAGAAATTTTTCAAGCAGCAAAAATAGATTATGAAATGAGAGAGAAAAATTTAATAGAAATTTTGTATAAGAATGAAGGCAAAATAGATTTAAAAATCAGCACTAAATTCAAAGAAATGAGTTCTTATAATTGAAAAGAGTTTTTAATTTCTGATATTTTCGAAATTGAGGGAAAAGGTTTAGATAAACCATTGTACAACTTTGATGATGAAAATAAAATAGCTTGCATAAATGCTAAAAAAAATAACAACGGTATTGGTGGTTATTGTTATAACCCTAAGAAGATTTTTAAACCTAAAAGATTTACTGTTGTTTCACAAGGCGATGGAGGAGCAGGGATGACTTATTTTCAAGATGATTATTTTTGTGCTACAACATCTGTTTTTGTATTAAAACCAAAATTTGAGGTTAATGTTAATGTGGGTATTTTCATAGCAAAAATTTGTAGTTTAAAGTGAAAAAGAATTTATTCACATGGTAAAACAATTACTAGGGAAGTTTTGTTGAAACAATCAATACCTTTACCTGTATCAGATGAAAATAAAATAGACTTTGAAACTATTGAAAATATAATGAAATAAAAATTAAAAATTCTTAATTTTATAATTTGATTTAAGCGGAAAATATTTTTAGTAGTCGTTATAATTAAATAGACAAGCATAGCACATATTGTCTCAATCAAAAAATATAACAGAATTAAGAACTTTTAATTCTTGGTTAAAAGATGGGATAAATGTTAAAAAGGGATCTAAAGCTTTTTATGTATTGTCACATTTAAAACTCTGTAAAGAACATCAATATGCCAAAAATTGCCCTTTGGAGTGTAAGGAACAATTTTTTAAATACAAAAAGGTTGTTTTGTTTGATGCAACACAAACTGATATGAAAGAATTAGAAATAAACAAAATAATGAAAATAAAAGAAGAAAAAATTAAAAACAATAAAGAATTCACCCCATTGGTTAATTTCTTAAAAAGTGTAAAACCTTTTGATTTGGAATTCGCAATGTCCACCGAAGGGGAAGGAGGGTTCACCAATGGGGAAAAAATAGTTATATCCTTGGATTTAAAGGATGAATATAGATTCAACACTCTACTTCATGAATTTGGTCACCATTATTTAGATCACGCTGTTGATGGTAAGGGTTATGAAGGACATGTAAGAGGCATAAAGGAAAGATTTTATATGAAATTAATTTATATTCTAATGATAAGCAAAATAAAGATTGAACTTTTAATATTGTTTATGATTCTGAAATTAAAGAATTTAGATATAATTTAATTCATTATTATGAAAATAAAGTTGATAAAAGCTTTAGTGAAAAATTAGATACTCATTTAAATTCAAATAATTTTTTTAGGTATTTTTTTTACACCTTTAATTGAAAATCAAAGTCCATACTTATTTAATGCAAATAATTTAGTTTTTAATTTTATGTTTTCAGATTATTTAAGAAGTATTGCTAAAGAAGAAATGGCAAATTATTATGAAAGTTTTTTTGTTGATTTAACTAAATATTTTTTTGAATTAAACCCATTAACCTCTGTTGAATTTATAGTTCCTAATTATAAAGATAAAAATGGAGTTTGGAAAAAAATAAATTTAAATTATAATATGTTCATTAAAAATGGGTTTAATTTATACCCTAAAACTTTATTAATAAGTAGATTAGACTATAATGGTGGTAATGCTCCTTACCCACCAAATATCAATTTAAATTATAAAAATATTAGTAATATAAACTATGATACTAATTTAAATTATTATAGTTATTTAAATTCCAAAGATATAATAGGTCAGTATATAAAAGTCGGAAGTACAAATTATTTGAATGAAATAAAAGCTTATACAATTGATAAAAATGTTCAAGGTTTTAATTCTGTTACTGCTAAAATTGAATCTACCGTACTTAATACAGGTAATGCTAATAATATAGAAAGTAAAAAATCTAATTTTTATGGTTTTAATTTTGTTATTTATAATAGTGATGATTGAAATAATGTTGTAAATTCTCCAGACCAATTTTTTAATATTCCTTACCAAAAATGTGGAATAACAAATATTATGGGTTGTATTGCAAATGGGTTTATATGAGCCGTAAATACATTAATTGATTTTACAGGTTTTAGTAAATTTGTTTCTCCTATTGTAACTGCAGGAGTTGCAACAACAGATTTATTGAAATCAATTCAAAACTTATTTGCATTTAATGTTACTTTTTCAATTATGATTTATTCTATTATGACTTTAGCAATTATAATTGCGATAGGAAAAATATTTTAGAAAAAATTTCTAGCATATATATTTAATTTACTATAAACATTGATTTATTTTAATTATCGATTTTCTACATGATAAAAATTTCTATGGTTCTCAAGAATGGTGAAGAGATTATTTAAACAATTTATTTGATTTAAATTTATAAAAATTAAAAGCGCAAAAAACATTTATGTTTTGCGCTTTTTTTGTTATATTATAGATAGTGTTGTGTACTTGCCCGAAAGGGCAAGATATTAGAAAACGAGCGAAGCGAGTTTTCTTACTTGAGGAGAATGGATTAATGAAAGAGGAAAACAAAGAAAGTTTAAAAATCTTATTTTTGAATACAATATCATCAATTTTTTGCAGATTAACATATTTAATTCCAGTTTTAATTATTGGTATTTTTTTCAGATGAACATCATGAAATATGTTTATTTGATTAACATCATTTCAATTTTTACCAATTACTTTAATAGTAATTTCATTAATTTATCAATTAAAATTTTTAAAAAATATTAATAAAAATGGCTATAAAATATTATTTATTTTTTTACCACTTGTTTTTTAATAATTGTTTTAATAAGTAAACAAGATTTATTAGTAAATAAAGAAAATAGCAAAAATTATAAAAAAATATTTACTGTTTTATTTATCATCTTATTTGTTTTTATTTCAATTAGTTATTTATTAGCAATTATTTTTTCATTTGGCTTTATTGATACAGTTACTTTAAAGGATATTTTAATTTTATTATTACTTCTCTTATATCTTTTAGTATTACCAATAGTATATATTGGAATTAATGAATTTATTTCAAAAATAATTACTAAAAATAAGAAAAAATTAGTTGTTGAGAATTAAATAAAATTATAATTAAGTAAAATATATGCTTACTTAGGAGATTATTAATGTTATTATTTCAATGGTGATAAATAATGAGTATTATACAAGTTCAAAATTTAAAAAAAGAATTTGGTAAAAAAATTGCTGTTTTTAATCTTTCTTTTGATGTTTATGAAGGAGAAATTTTTGCTTTATTAGGAACTAATGGTGCTGGTAAATCAACAACAATGGAGATAATTACTAAAATGATAAATAGTACTTCAGGTTCTGTTAATATTTTTGGAAAAAACATTAATACAAACTGAAATGAAATCTCTCCAAAAATAAATATAGTTCCACAGGAAAACGCAATTTCTGATAATCTAAATGTCAGACAAAATTTGGAGCTTTTTTATGATTTATATAATTTGGATAAAAAACAAAAGGGCGAAATTTTAGATAAACTAATTTTAGATTTTGAATTAACTGAGTTTGCAAAAATAAAAGCAAAAAAATTATCTGGGGGTTTAAAAAGAAGACTTAGCATTGCTGTTGCTTTAATAACTCAACCAAAAATTTTAATTTTAGATGAACCAACAACAGGGTTGGATGTTATAAGTAGAAAACTACTTTGAAAACAATTATTATCACATAAAGAAAAAAATAAAATGACAATAATTATTACAACCCATTATTTAGAAGAAGCAGCAGAATATGCAGATAGAGTAGCTATTATGCATAATTCATACTTAAAAATTATAGATACAGTTGAAAATATGTTAGAAAAAACAAAAACTTCTAGCTTTGATGATGCTTTTATTAAAATAACGGAGGGCATTTAAATGAATTTTCAAAGAATATTTGCTTTTTCTAAAAAAAATTTAATTGAGTTATTAACTGATAAAATTGCAATTTTTATGACAATTTTATTTCCTTTTATATTTTTAATATTTTTTTTAATTATTGGTGTTTTAAGAATTCCTGAAACAAATCATTTGGAATATTTTTACAGAACACTTACAATTAGTACTTTGTTTGCATATGTTTTATTATGTTTATATATTGTTAGTGCAATTTCTAAAGAAAAAAAGACAGGTCTTTTAAAAAGAATTGCAATTTCACCAATAAAGCCAGTGGAAATAATAATTGGATATTCAATTCCATATATTATATTAGGATATTTTGAATTTTTATTTTTATCAATTATTACTTTTTGTTTTGGAATGAACTTTAATGTATCATTTTTATTAAATTTTATTATTTTAATTCCAATTTTATTGTTTTTTATTTCTTTTGCTATTTTGTTTGGTTCACTTGTAAATGAAAAAATGGCAGGAGTAGTTGGAATAATAGTAACGGGTGGTATTTTTATTTTTACTCCATATTTTTTAGATATTTCAATAAATTCTGTTGATGCTATGAGTATAATTTCATATATTTTACCTTTTGCAAATATTTATGATTCTATATTTAAATCAATTACATCAGAATTTAATTTTATTATTGTAAATATTTTTATAACTATTATTTATTCATGTTTATTTGTTTGAGGTTCAGGAGCAGTTTTAAAATTAGTTTTAAGAAAAAAATAAAAAACACATTTTAAATGTGTTTTTTTAAAAATCTTTATAAATTATATTATTTCATAAGTCTAGATTTTTCTCTAGCTGCTTTATTTGCTTTGTATATTCCTTTAGTAACTGATTTGTCTATTAAACTAACAGCTTCACTTACTAAAACATCTTTTTCTTTTAAATCCTCAGATTTTGCAACTAGTGCTTTTTTTATAGCAGTTTTAACTTTACTTCTAAATGCTTTATTTGCAAGTCTAGATTTTTCATTTGTTAAAATACGTTTTTCTTGTGATTTTATATTTGCCATTTTAATACCTCCTTTAAGTAAGAATTATATATACAAATAAAGTATATAGTAAAAATGGTTATTTTTTAAAAAAAATTAAAAATATTGTATATTTTTAATATATTATTTAAGTAAATAGTTAAAAAAAGGAATGTTATAAATGTAAGAAATAAAATTATTTTTTATTTTAGTAATTAAGTATATAAAGGTGATTTAAATGATATTTGTTCAATCAAAAGATGATTTTTTAGTAAAAAAACAAGTAAATAAATTAATCGAAAAAATAAATATTAACAATCAATATGAAATTTACGAATACTCATTAATTGATGATTCAGTAATTAAGATTCTGGAAGAAATTAAAACATATTCATTTTTTTCAAATAAAAAAATAATAATAATTAATGATTGTTGATTTGTTAATGAAAGTAAAATTAAATTGCATAAAGATTTTGATATTAAATATATTGAAGAGATTTTTAATATCAAAAATACTGAAGTAGAAATAATCATGTCTTTAAATTCTGAAAAATTTTCAAAAAAATTAAAGATTGCAAAACTTACAGAACAAAATGTTAGATTATTTAAAATTGAATTGCCTACATATAATCAAAAGAAAGACATTTTTATAAGAAAAATGCAAAAAGCAAATATTGATTTTGATCATAAATCAGTTGATTTATTCATTGAAAAAATACCAGAAAGTATGCAAATTTTTTCAAATGAAATTGATAAATTATTATCATTAAATAAATACATTGATAATAATTTAATTGAAGAAATTGTTTCAAAGTATTATAGCTATGATACATTTGAAATTGCAAATTGTTTTATTTCAAATGACATAAGTAATTTTTTAACTCAATGAAGTTCTTATAAGCAAATGAATAATGATATTTTTTCATTTATAGCATTGTTATCAAGTAATTTTATTTTATTAAGAAATATTCTTTTATGTAAAAAATTAAATTATTCAAATAATGAAATTTTTTCAAAATTAAATGTAAATCCATATAGAATGACAAAATTATTGGAAAAAAATAGATTAAATATAGAGCAGATAAATGATAAAATCAAGGTGATGTATTCTTTAGAAAAGAACATTAAAAATGGAAAATATGATAGCAAAGTTATTCCTGAAATTAAATTTCTAAAGATGTTTTTTTAATCTAATGAAATTAGATTAAAAACAGAAGGGAAGAAAAAAATTGGAAGCTAACAAAATATACCAAAATTCAATTACAACATTAGCTAATCTAATTAAAAATGAGAAGTTAAGAACAAATCTTTTGTATTTAATTGAATTAAAAACACAATCAATTCAAATTATAAATAATTTATTAGTTTTAGAATTAGAACATGAATGTACATTTAAAGATAAAAAATGAAGTGCAATTTTTGGAAAATCACTAGTGAATATTTTAAAAGAAAAAATTAAATTTGAAAAACAAGATAATAAAAGTTTAGAAGATATTTTATCAGACATTGTTTTTTTTCAAACATATTGTTTTAATAACCTACAAGTTTCAAGAGATGAATTGACCAATGAAAGTTTTGAAATAACAGAAGACTTTGTTAAGGAAAATTCAAAAATAACAGAAGAATTAAAAGCAAAATATGGAGAAACTGTTACTCCTGAACCTGAGGTTGTTGATAAACAAAAAGAAAAACCAAATGATAAGAAAAGTAATAAAACAGCGGGTGCTGGAATTGGGGGAGGACCCATCCCGGGATTTAATAGTCAATTTAATAATACTTTTACCCAAAATGGTAATCTTCCATTGCATCCACTTCAAGATCAAAGATTTTATCCATATAATGGAAAACCAAAATATATGAAATATTTTAAATGAGGTTTAGGGGTTTCTTTAATTTTAAGCGCATTATTTTATTTTGTTATTTCATTGTTTATAACTTTTGATTATTTTACAATAAATAAAGATACTCTAAATGGTTTAAGTTCAGTTGATCAAACTGTTTTGGAAAAATTTACTTCAATAAAATGAACTTTAAGTAATTCAATATATTCTAGTGGAGCAAATGGTATTTTTGGAATAATAATATTAATTTTGATGGTTTTAATGATTGGATGGATAGTTTATACAATAGTTCAACCACCAAAAATATATAAAGAAAAATTTATGATTCCAGGAATGACACTTGTTGTTCCATCAATGTTTATATTTATGATGATTTTTTCTTTTCTAAATGGATTTAAGTTTTTGTTTGGAACAGATATACAATTAAGTGTTCTGGCAAGTTATTTTGGTAACGAAATTTTGGGCAAAGAGGGCGATGCACTAAATACTTGAGCAAATGAAAATAAAGCTTGATTGACAGAACTATCTTCATTATTGGATGGAGAATTAAACTTTACATTATTGCGCGTTTTATTATGATTATTCTTTATTTCATTAATTGCATCAGGAGTTATCATTGTTTTAATATTAATTCTAAATCCAAAAATTGATAGACAAAAACTTTCTTTTGCAAATGAAGAATATCAAAAAATGATTACAGCTGCAATGCAAGGACAAAAATATGAAATTGATTCATCAATTTATGAACCTCAAGATGAAATTGATGCTTTTAATGAAGAATTAAAAAATCGTCAAGAGAAAAAAAAATACGATCAAGAAGATGAACAATAATTAAAAATATTTTTAGAAATAAACTAGTACAACTAGTTTATTTTTTTATCTATAATATATATAGAGGTAAAGAAATGAGTTATTATTATAAACATAAATACGGTTTTTCAACGCATTCAATTCAAAGAATAAGGCAAAGATTAAGTTTGCCTGATGAAGAGGAATTTAAGTTAAAAGATAAAATTATAAAACTTATTGAAAAATCAACTTATAGCTTTGATACTTCAAAGTTTACTTATATTAAAACTCCAAAAAAAGATGTTTATTTTGTAATTGACATAATTACAAATACAATAATAACAGCAACCCCAATTAGTGCAAGTAAACAATTATGATTGATTGAAAATGAATAGATGAGGTAATTTAAAAATGAAGAAGCTTAAGAAAAACTTAATTCTTCCAACAGATTTTTTAACAAATTGGTTAAGTGAAAATGATGATGGAACTCTTTCTTTTAAATATATAGATTTTGCAAGTGATAATATTGAGGAAATTGAAATAGAAAATGAACCATTTATTAAAGTTTTATTTGATAATTTTGATAATTTTGATTCAAACAAGATTTTAAATCAATTTAATCAAATAGCAAAAGTTGCAAGAGCAATTGTTATTAAAAGAATAAAAAAAGCTAATGGTGAAATAAATTTAACTGGTAAAGAAGTTTTATTTTTAAAATACTTTTATTTTTTAATTACTCTAATTAATGGGGAATATAAATATGCATTTGAAAATGTAAATCAAAAATATAGAGTTTTTGATGTATTGAATGAAGAAGTTGATTTAAAAATAAGGGTTACAATTTTAAATGTTTTAAGTTATGTTTTATTTGAAATGTATGACTATATTTTTAGTCAAAGAACATTTGAAAGTTTATATGAATATGTTGAAAATTCATCAGTTAATTTTGATTATCAAGAATATCAAAAAAGAATTATTGTACCAATTGAAGCATTAAGAAATCAAAACTATAAATTTGTTGATGTTTATTTTCATAATATTGTTAATAATACTTTTTTTAAATTTTTTGAAGTAAATCAGTTGGATAGAAGTGGCTTTTTATTGACAAATAAGACAATTGCAAATTTTATTGACGATAGAACAAAATTTAATATTTTAAGTTTATTCGTAGTTGATCCAAGATGAGCTATAGGAATAGTTAATTTAGGGCCAGGAAGAGGTGAATATAGACCTATGTTTAAGTATTTAACAAATAATATAATTAATAAAGAAATTATTCCAAATTGCTTAGTTCCTGAACATAAAATTGAAGAAAACGGAATATATTTATCTGGGGAACAAAGATTTTCATTTACAGTATTTGAATTAGTAGAAAATCAAGTAAAACTAATTAATGATTGTTTAACATATAGAGATTTAAAAACTGATTTTGAGCAGTTTTTAAAATATTAAATTTTTTATACTTTTTAATTAGCACTCAAAATTCATTATGGTAAACTAATTATATGCTTTATAGGGAGGAATTTGAGAATTATGAAATTATCATGAGCATTTCTTGTAGGAAATTTTTTCTTACTAATTATATTTTCAATGTTATTTTATCTTTTACAAGATAGTAAGTTTTATATTTATGAATGATTTTGGGGAAGTAGTTTTCCAGGAAATCAAATAAATATTTGACCTGTAATTATAATTGTATTTTCATGAATTGGTGCTGCAATAGGAATTTTAATTTTATTTTTAAATTTTAGAGAAAATGTTGATTTAAATAAAATATCGATATATATTATTATTGCAATTAATATAATAATTTTAATTTCAGCAATATTAATTATTACATCAGCTATTATGTGAAAAAGTGATAAAAGATTATCATTAGTAGTTTTTTCATTTTTATCAATTTTTTCAATTTCGACTATTGGAACAACTTTTTGAGTTGTTAAAAATGAACTTTTAAAAGGAAAAACTAAAATTAAAAATGATATTGAAGAATCAAAATAAAATTTTAGTTAGATTAATAAAGGAAAATTTTAAATAAAAAAGTTACTTTTTTATTTAAAATTTTTTTATTTCGTAAATGAACTGTTAATTTTGCTGTTTTAAAAGTTAATAAAATAGTGTATAATAATTATAATTCTGAGGAAATATACATGGATAAAATAAAATTATTATCAAAAAATAAAAAAGCAAAATTTATGTTGTGATTTTTATTAATTTTTTCTTTAATTTCTTTTTTATTTGGTATTTTATTATTTATTTCACCAGCCATTAACGACGAAAATATTAATAATATAAATAATTTATTTTTAAATAAAGAAGATCAAACTCAAGGATATAAATCTTTTTTTCTGATTTTTTTAGTTAATTTAAATGGTAATTTTGTTATTATGACAAGTACTATTTTAATTATTTGACTTCCTTTTGCATTTGGATTAATTGGAATAATTTTATTTTCATCTAGATTTATTATTCATTTAGTTGGTTATAATTCAAAGACAAAAAATGGTGTTGCAAGAATTGTTAAACCAATTAGAAGTTATCAATTGACAATGATTTTTGCTTGAATATGACTTATTTTATTATCTTTTATATTATTAATTGCATATTTATCTGCCTCACCGTTTCTAGTTGGTTCTACTTGAGTTTTTAGTTTTACAGGTGCTCCTGTAATTTCTCCTGAAAGTTTGGAAATACCTAATCTTTTACAAGGCCAATTTTCAAATATTTATTGATTAACTTATTCTTTATTTTCTGAATTAAATTTGGGTATTACAGCTGAAGTAGATTCTGGAAATAAGTGAATGTGAGTTTTAATGCCTGTAATTATTCAACTAATTTTTTTATTTTTTTCATTTATTGGTGTAGTTTTAGGTGAGTGTAGTTGGTGATCAATTAACTTAAAGGTTTTAGAAAGTATTGACTCACAAGTTGGAACACAATTATCTCATGAATATACTAAAATTGAAAAACCTATAATTAAAAAGGAAAAAATCAAAAAGACAAAAGTTAAAAAGGAAAAAGAAATAATAAAAGATCAAACAGATAATGATATTGTTACTTCAGTTGTTAAAATAAAGAAAGTAAAAGAAAAATATTCTAATAAAAAATTAGAAGCAATTTTATATTATAAAAAATTAATAAAGTTACTTGAAGAGTCAGGCAATTTAAATTCTTCTTTATATAAAAATGCAATAGAAAAGTTAGATATTTTTAGTAAAAATGAAATTAGTGATTGAAATGAAGTAACAAATCAAATTGAATTGGAAATGGAAAATTATACATCAACAGATCAAAAATTTATTGCTTTAATTGAACAATTAATGGAAAATTCAAAAATTAATTTATTTGGTAAATATAAACATGACCTGGTTAATTTAATAAAAGAATATAATAAAGCGTTAATTTCTAAAGACTTATTTGAAGCTGAAATTAAATTAGAACAAATATTTGCAATTACTTTTAGAAAAGAAGAATTATTAGCAAAAGTTGGATTTTGCTTAAAAAATAGGATACTTACAAATTATAAGTATATTGATGAAAATTTAAATGTAATTAAAAGACTAAACGAAGCAAGAGAATTTGATGATATTGATGGTTATAGAAAAATTTGTTTTGAAATAATTAAGCAAATGTCACCAATTAAACCAATAATTAGTAGTTATATTGAGAAAATAATTTATAATTAATTAAAAGAAAAATCATATTATTATGATTCTTTTTTTAAAGAAAAGGTGTTTTTAATGATAATTATTGGAGTTAGTGGTGTGATTGGTTCTGGTAAATCAACAATGCTAGAACATTTAAATAAAATGGATGGTGTAAAAGTAATTGAAGCAGATAAAATTTCAAAGCTAGTCTTAAATGATGAAAGTATAAAAGAGTTTTTAAGAGACCAAATTTCTGAAGTAATTGAAAATAATGAAATAAATAGATCATTGTTGAGAAATAAGGTTTTTAATGATCATGAATTAAATGAGAAATTTACAAGTAAAATGTGACCTTTGATTTCAAAGGAAATTAATAATTTAATTTCCAAACTGAATTTGAATTATTATAAATTAGTTTTTGTAGAAGCAGCTGTAATTACTGGATTGCAAGTAAAATTTGATAAAACTATTTTACTAGAAAAAGAAAATAATAAAAGAATTAAAAGTGTTCAATTTAGGGATAAACGAGATCATCAAGAAATTGAATCAATTTCAAAATTTCAAATGGAAAAAATAAAAAATTATAAGTTTGACTTTATTTTAGAAAATAATTCAAATAAGGAAAAATTCTATAAAGATATTGATAATTTAATAAATAAAATTAAGAAATAAAAAAGCAAATGAAATAAATATAATAATTATCTATTTTTCGTTATTTTCTTTTTTTGTTTTATTAACTTGACTATTATTCTTAGTTTGTAAGTTTTTTGAAATGGGTGCTTTACTTGAAGAAGTTTTCTTAATATTTATATCTTTTTTCTTTTTTCCACTTTTCTCGTCAATTATTCCAACTTGTATTAAAGCTTCTTTAACAGCATCTTGAATTAATTCTTGTGTTTCTTCTTTTGTAAAAAGTTTTTCTCTATTTTCTTTAGTAGTAGTTGCTTTTTTTGCATTTGCATTTTTTTTAACTAAATTAGTAGATAAATTTTTAGAATTAGTTTCTTTTTTGATTGAGCTCTTTTTAATAGCTTTTTTTGTGATAGGGGGGACTAAATTTTCTTCTTCAGAGGAAAGGGGGGAGTCTCCTGACATTTTTGCTCTTAAAGCAGCCATCCTATCACCTATTTCAGATTCAATAACAACTTGTCCTATTTCTTCATTAACATTGTCTATTCCCACAATGTTTTTTTGTTCTTGAATTCTTTGCTTAGCTTTTTCTAAAATATCTCCAAGTGTACCAGGTAAATGCTCTCTTTTTTTATCTTCAACTTTTAATTCTTCTTCGGTTTGTGTACCGTGTAATCTTCTTACCTTAGCACCAATATCTTCTTCAATTTCCTTATTTTTATTAAAAACATTTTGTAATTCACACACATGTATTTTTAAGTGAGTGGGGCAAAACTTTGGTGCAAAACTACTCATATAACCTCCATATATTGATAATATAATTTTAACATTTTAATAAATAAAAATAGATTTGACTTTATTTTTTTAATTAGTGTATATTACAATATACACTAATTAAAAATTTTGAAATTTAAATTACAATCCAAACATTTTATATTCAATTCTTTTTCTCTTGTATTGTTAATAATTGTGTTACACCCTTTACATATATATTTTTTAGATTTATTATATCCTTTTGGTGTATGTTCAATAGCATCTTTATGAATTAATTTTTTAAATACATTTATATTAAAGTCAATTCTATTATTTATTAATCAAATTAATTCTTCACTAAGTTCTGTATATGCAAAACCTAATCTTACATCTCGAGATTTAATTTTTAATTTTGCAATATTTATTGCTGTATTTCTAAAATTTTTGTTATGTCTTTGATTATTCTCAGTATCTTTTAAATTATTTTCAAAATTAAATTGATGAATCATTTCATGAAGTAATACACCAATTATTTTTAAATAATCTCCATTTAAAGCTAATGTTCAAATAGTTATTTGATTTCTTTTATCACTTCAATCTTTTGAAGTAGAAAAGTGACCCAAAGTTAATCTATTTTTTCTTATGCTTGTTTCAATATTTATTTTGATTGGTTGAAGAGAATTATCAAAAAGAATTTTATTTAGTTGATTGTGTATTGAATGTAATTCAAGTATTAAATCATCAATTCTGTATTCCATTTATGTAAATCCTCCTATTTTTTCTTACTTCATTTATCTATTATTTGATTATTCGAAATATGTACGTCATCATTCTTTAAAAATTTTGATTGACTTATATTTTTATTCATATATTTCAATAATTTTTCACCAGTAAAAATTTTTTCTTTTCCAAATTTTAAATTTAAATTGTAAATTATTTTTTCTATTTCATTAAAATTTAATGTTTCATCTAAATTTATTTGATCTATTGAAAGTTGTTTCACTTCTTCAATTTGATTAGAAAGTTTTGATAATCTAACTCCAAGTAATAAAATAGGATCTCCTTCTCATAGTTCATAAAAACATTCTTTTGCAATAGAATAAATCTTTTCAACATTATTTGTTGGTTTTGAAATTGATTCTTGCTTTGTAATATGTTTTTTTCTTTTTTGTTCATTATAAATTTCAAATGAGTTATCTTCTAAAAATTTTAAAACAATTGAAACTGTTGAACCTTGTAAATATCTTTGCTTAGCTCTGTTAGAAACTTTTAAACTTAATTCATAAATCATTTCTTCAATTTCATCAGAATCTGTTGTTGTAAAGTTTAAAGTTAATTCGTTACCAATACTTTTAAATTCACTTGCATCACGTGAAATTTTATTTTCACCTTTTCCATTTGCCCAATATCATAATACCAAACCTCTTTTTCCAAAAAATTTTGAAATTCTATTTACATCAAAAAAAGCTAAATCTTTTATTGTAAAAATATTAAATTCATTAAATTTTTTTTCTGTCGAAGGACCAACCATAAACATTTTTCTAACCTCAAGTGGTCAAAGTTTTTCTTCAATTTCTTCTTCTAATAAAAATGAAATTCCATTTGGTTTATTAAATTCAACTGCCATTTTAGCTAAAAATTTATTTGTACTAATTCCAATTGAACATGTTAATTTAGTTAGTTTAAATATTTTATTAATAATTGTTTGAGCAGTTTTTTTAACACTTCCATATTTTTTTCAAATATTTGTAACATCAATATAACATTCATCAATTGATGCAACTTCAAAGTTTTTTGTAAAATATTTATATATTATTTCAAAAACCATTTCTGAATACTTTATATATAATTTAAAATCAGAATTAACAATGTATAAATCCTTACACAACTCTTTTGCCTTAAAAACAGGTGTTCCTGCTTTTATTCCAAACTTTCTTGCATTATAATTAGCTGTTGTAACAATTCCTCTTTTATTTGGAGAAGATACAACTAAATTTTTATTTATTAAACTTTGATCTTCTGCAATATGACAACTTGCAAAAAATGAATCCATATCTAATAAAAATATAATTCTTTTACTATTCATAATTGTTTTCAAAAAAGTCTCAACAAGTATTAATTAAGTTTGAAATATTATTGATATTAAATTTATTTTCAATTTTTTTAGTTTTTTTAATATAACACAAGTATTCAATATTTTTTTTCTTATTTCCAAGTATAGGAGATCAAATAATATCTATTATTGAAAAATTATTTTTGTTACAATAATTTAAAACTCTAGTAATAGATTTCATATGTGCTTCTTTTGAATTTATTTTTCCTTTTTTAACATCTTCTTTATCAGATTCAAACTGTGGTTTTATTAAAATAATACCAACAATATTTTCTCTTATAATATTTTTTAAAGGAATTAATATTTTTTCTACCGATATAAAACTCACATCGCAACAAAAAAAATCAATTTCTTTTTCAAAAAAATTTATTGTAACATTTCTAAAATTTGTTTTTTCCAGTGATTTAACTTTTGAATTATTTCTAAGTTTTCAATCTAATTGATTCGTGCCAACATCAACTGCAAAAACAAAACTTGCACCATATTGTAAACAACAATCGGTAAATCCACCAGTAGAACTTCCTATATCTAAACAAGTTTTATTTTGTAAATTAATTTTTCATTCTTCAATTGCTTTGTATAATTTTTTTCCAGCACGACTTACAAATTCTTTTCCCTGTGCCAACAATTTTATTTTAATTTTTTCTTGATTAAATAATGTTCCTGGTTTAGTAATTTTTTCATCATTAACGAGAACTTTACCATCAATTATAAAACCTCTAGCTTTATTTCTATTTTCTACTAAATTTAAATCTAATATTATTTGATCAAGTCTTTGCTTCATATTTTTTTTCCTTTCTACCAATTTATTTTATAATTTTGATTTTTTCTTTTTTAAAGCTTCAATTTTATTTATTCTATCGATATTACTATATAAAGCATTTTCTTCTTGAATTCAATTTTTTATTTTTTTAAATAATTCAGAACCATAAGTTTTTTCAAAACCTGTTTTCAATGCTTCTAATTTTTTCATATATCTTGCACATGATATTGTAATTGGTTTTTTCAAATTTAATTTTTTATAATGACCTGAATTTAAAATGTTTTTTATATTTGAAATAATAACTTCTTTTTCTTCTTCATCATTAACAATTATTTCTTTTTGATTTGTTAAATAAGGTTCTATTTCATCTTTTTCTAGTAATTTTGAAACTAAACTTTTGTCTTCCCCAAAATATTCATTTGTTAAATTTTCTTCTAAATCTCTAATTGTAATATCATTAAGTGGGTCAAGTGCTGTTTTTTCTCATAAATCTGTAGTTCTTTCTAAATCACTTGAGTAATCTTGAATATAAGGATTAGATAAATTTAATATATTTTTAGGTGTTGATATTTTTTTATTATATTTATCTTTTTTTATATTTTCAAAATCCAATGTATAAAAATCTGGAAAATCGTTATACATCTCTTTATTAAAAATATGTAGTTCTCTTATTAAAGTTTCTTCAGTCCCTGTTGGAATAATAATTAATTCATCAAATTCATCTAAAATTCTTTTATCCGTTTGATCTTTAATATGTAAAACTCTTCTAATTTCTTGCAAATTTTCAAAAAATGATAAATTATCTTTTCTAGACTGGTTTGAAATTAAATTATTAATTTTTCTATCTTTCAAGAGTTTATTTAAAAAATAATTTTGATCATATATCCTTCTCATTCTATTCCTCATATTCTATTTGATTTACAATACTTTCAATATCCATTTTTAATGCTTTTAATATATTTTTTTTATCACCATGATGAATATTTGTTTCAGAAAAAGAAAAACTAAAAATATCATTTTTATTATATAAATACTCTTTAATATTAGTAAATAAATTATTTTTGTCAATCACTTGTTCATAGACAAAAAGCTTATTTTCTTTATGTTTTTCAAGCATAGTCTTATCTATTGGATTAATAAATCTAGCATTAATTAAGTTTATTTTTAAATTATTTTCTTGAAAATAATTTAAAAAATCTTCAAGAATTGAACCATAACTAATTAATGTAACTTTATTATTTATATTATATTTTAATTCTTCTCATTCTCCAATTTCAAATTCATTTTTATTATCATTCATTATAGTTTTTTCATTTTCATAACGTATAAAAAATTGTTTATCATTTGTAAAATATGCCAAATCAATTAGTCTTTTTAAATCACTATAACTATAAGGTTGAGCAATTATAGCTTTTTTGAAGTTATTTATAAGAGATATATCAAAAATACCATGATGACTGATTCCCCCACCATAGTTTAAACCTCCCCTATCAATTAAAAAAGTCATTGGTAGATTATTTCTAAAAACATCATGTACTAATTGATCAAAAATTCTTTGTAAAAATGTTGAATATATTGAAATAAAAACTTTCTTTTTTGAATTTGCAATAGCACAAGCTGTTAAAATAGCAAATTCCTCATTAATTCCAACATCGATTACATTATTTTTAAATTTTTGTTTTAAATTATTAAAATTGGATGAATTTAACATTGCAGGACATACTAAAAAATCATTCTTTGAAAATTTTGTTTCAATATACTCTGCAATTAGTTTTGAATATGAATTTTCAATATTATTTTCAATTGAATGATTAAAAACAAGAGATCTTTCTCCGTTATAACCAAGTGCTTTTTGTGTTAAACAATGAATTACAATATGCTTTTTTGCTTTTTTAGCAATTTTAATAGCAAAAAATAGCTTTTTAAAATCATGACCATTTTCACAAAGAAAGTACTCAAAACCTAATGATTCAATATATTTTTTTGAATCTTTTAGAAATAAAGCATTTTCTCCAATTGCTTCTCTATTATCATTTAGAATTGTAATTGTTTTTTTATTAACATTATTTAAATTTAATAACCCTGAATGAACATAGCCTGTTAAAAATGCAGCATCTCCAATTATTGAAACTATATTTTTCATATTATTTGCTAAAGCATATCCAAATGCATATCCAAGTGAAGTTGAACTATGCCCTGTACTAATTCAATCAAAATTTGATTCATTTATTTCTTGAAAATTACTTAAACCATTATATTTTTTTAATGATTTAAATTTTTTAATTCCATTAACTAATAATTTATATACATGAGATTGGTGGCCTGTATCAAATAAAAGAATAGTATTTTTTAAATCAAATTGTGCAAAAATTGCAATTGTTAATTCAACAACACCTAAATTACTTCCAATATGACCGTTATTTAAATTAACAAAATTAATTAAAAAATCTCTAATGTTTTGCGATAGTTCTTCTAATTCAGCAATATTTTTATTATTATATAATTCTCTAAAAGTTAATAGTTTATTTAATTTCATAATAATTCTCCTATATAATTTTACAATATAGTTGATAAAAATAGAATAAATAAAAAAAACCACATAAAATGTAGATAAAAAATTCATTTTTACTTACTTATTTTTTTTGGAATTTAAAAATAAATTATAAGTTTTTTCTTTAGAATTTGGAGTAATATTTATTTTTAAAATTTAATTCATTTTTTAATAAAAATTAAAACTCTTCAGTTTTATTATCATCTAAAACTTTTTTTACTTCTCCTTCAAGTGATAATAATTGTTTTTTTGCTTCATTAATTAGTTCTGTACCTTTTTTAAATAATTCAATTGATTCTTCCATTGAAGTATTTGAGTCGTTTAATTTATCAGAAATAATTTTTATTTCTTGTAAAATTTGATTGAAGTTTTTTTCATTCATATTATTTTTTTTCTCCTTTAACAGTTAAATTTATTTCTCCATCGTTAATAATTGCAACAATGTCTTTAGTTTTATCTATTTGTTTTATACTTTTAATAACTGTATTATTTTGTTTTAAAATCGAATATCCTTTACTTAAAGGCAAAAATGGGTTTTGTAACTCAATTTTATCATTAAAAGAATTCAATATATTTTTATTAACATCTAATTTATGTGAAATTATTCTTTTTCAATTATTTAAACTATTAGTAAAATTTTGAGTAATTAAATTAAGTTTATTTTTAATAATAGAATTAAAAATATTTGAACTATTTCTAAATTCTTGTTTTAAATAACTAATTTTATTATTTAAATCGACTTTTAATTTATTTGAGTAATTATTTACTTGATCTTCAATTTTATCAAGTTTATTTTTTAAATTTTTTCCAAAATCATTTAGTTTTGAATTTAAGAGATTAATTATAGTTTGATAATCTGGAGTTGATTTTTCTGCTGCTGCTGTTGGAGTTGAAGCACTAAAATCTGCAACATAATCAGATAATGTAGTATCTGGTTCATGACCAATACCTGTTATAACTGGAGTAGTACACTTTTCAATTGCATAAATTACTTCTAATTCATTAAAACTTCATAAGTCCTCATAACTTCCTCCCCCTCTTCCAATAATTAATGTATCTAATTTAGGAATAAAGTTATCAGCTTGAATTATTTTTTTTGAAATATCTTTTGCAGCTTCTTCTCCTTGAACAAGTGTAGGAAAAATAAAAATATTTACAATAGGAAATCTTCTTTTTATTGTTGTAACTACGTCTCAAATTGCGTCTCCAGATGCAGCGGTTATGATTCCAATATTTTTAGGAATATTTGGAATTGTTTTTTTCTTTTGTTGATCAAATAAACCTTTATCTTTTAACTCATTATATCTTTTTTCATATATTAAAGAGAGCTCTCCGATACCATCAATTTTTACAGAACTAATTGTGAAAGTAAATTTACCACTTGGTTTATAAAAAGTTAAAACCCCTTTTGCTATTATTTCTGTCCCCTCTTTAACAGATAAATTTATAAAAGATTGAGTATTACTTTTTCAAATTGCACAATCAATTCTTGCTTCATTATCTTTCAAAGAAAAATAAATATGACCAGATTTATTAAAAGTTAAATTAGAAACTTCTCCTTTAATATTTATATTTTTAAATTGATTTGTTTTTTCAACAAAGTTTTTTATATTTTCATTTAATTCACTAATTTTAAATATTACCTTTGACATAAAAAATCCTTTCTATAAATTTTTAATTAATAAATTCAATTTCATTTAAGCAATTTTTAATTTTAATATATAAAAAATAAAAATTCATTAAATCCTGTTTTGAAATTTTTTTACTTTTTAAATCCATAATTAATAAATCTTTTTTACTTACTAAAAATTCCATTACTTCTCTGATATTTCTATTATTCATTTTCTTTTTAAAGATTTTATATTTTTTACTATCAAAATTTGTAGAAGTTAAACTTATTTCATTTTTAACTTTATCAAATAAATTTATAAAACCATTAAATTCTTTTATAATATTTTTTAAATCGTTATTAAAATAAAACTTCTCTTCTTTAGTAATATGATCAATAATACTAATATTTTTATTTTTATCGTGTTTATTTGATTGAGAAAATTTTTCTGCTTCTCCAAAAGTAACTGTTTGTAAAAGATCTTGTGTATCATTTCTTTCACTTGTATTAAATTCATCAATAAGAGCTTTATTTTTATTATCAGAAATAATATCTGATCAATATCTTGTTAATGTATTTGTAATTTCTGTTTTCTTTTCTTTAATTATTAGTTTTTTAACAACTTTTTTATTTACATTTAAATTAAAATCAGAAATATTTTTAAATTCATTTAATGTTAATACTTTTAATAAGTTAAAATATTTATTTTCACCAACTATATAGATTGGACATTCATTTTTAATTATATTATAAAAAATGTTTAAATTATTTAACATTGCGGTCTTGTAATAAGATTTTTGTTCTAAGTTATTTAAAAAAATAAAAATAGTTTCTTCATTAAAAGTTTGACTTATTTTTTTCAATTTTATTTTTAAATATTCTTCATCGTATTTAATTGGTGTATGAATAAATTTTTCTAAACTTGATATGATTTTTTTATTAAAAAAATCATATCAAATTGATTTAAAATCAAGTTTAATTCCCCTAAATTTATTTTCTGTAACTTTATTAAATAATTCTTCATCATATTTATAAAAGATTCTTTTTACTTCTTTAACATATTGTTCTAAATTTTTTGAAAATTTTATATCTTTTAAAAAATAATCGGCATTGTATCAATCCAAATTTCTTATAAATACATTTAATTTTAAATCTTTTGTAATATAATCAATTGCTTTATTAACTTCTTGATCATTTTTTAAAATAGGTTTTGCAGAAATAATTACAATATTTTTAAAAACTTTTTGCTCAATTTTTTTAGAACAATTTTCTAAATAATTTGTTATTAATTTATAATTTTTTAAACTAAAAATTGTATTTTCAAAATTATTAATGTAGCTTAAAGAAATATATTCACAAAAAGCATTTGTTAAATAACTTTTTTTATCAATATCATTAATTTCAAATTTAATTTTATAAATAAAATTTTTAAATTCTTTAAACATCATTTCTTTTATTTTATACTTTTCAATATTATTAAATTTCTGAAGTTCTTCTTTTAATTCTAATGGATTATTTAAACTCATATTACGAACCTTTCTAATTAAATAATTTTATCTAGTAAACCATTTATAAAATTTGTATCTCAACTTGGAAGATACTGTCTTGTTAATTCAATACTTTCATTAATAACTATAGCTTTTAAAGTAATATTATTTTTTATTTCATAAGCTCCATTTATCAATATTGCTTGAATTATTTTTGGAATTCTATTTCAATTTCAATTATTTTCTAATAAATTTGAAACAATTTCAATTAATAAGTCTATTTGTTCTAATAAATTAAATAAAAATTCATTTTGATTTTCATCTATTGATTTTAATTGAAAACCATCTAATATTTCTTGTTTAATTTTATCAATATTATTATCTAATAAAAAAAGGCGATAAAGTATTTGAATCGCTTTTTTTCTTCTATTTTTTAGTTCATTTATCGATTTTTGCATAATTTATTGCCTTTCTTTATTAAATTTTTAAAGAACTATTTTTTTTGAAATTGAATCTTTTTTTCTTCTGTTGTTATACCAAGAACAGTTGCAAGTTCAACAATTTCACCATTTTGTAACTTTTTAAAAAAATCCTTAAATTCCGTATTCTTATTAGCACTTATAATTCAATTAATAAATTGTTGTTCAGGACTTAAAAGAATATAGCCAGCCTTGACTTCTCCTTTAATTGAATAATTTTCTCAAGATACTCTCCTTTCAAAAAATAAATTACTATTTTTTGATTGTAATGTTTTTAAAATACCTTTAATAAATTTTAATGATGTTGAATTTTGTATTAATTCAGTACCATTGCTGATATTTGCCCATGTTACTTTTGAAGATAAAAAATAACTATCTAATTGATAAAAACCATCTGTAAAAGTAAAATTATTAAAATCAAATTCTGAATTTAATGTTGGTATGTTTGTTATATTTATTGGCAATTTTGAACTTTCACTAGTTTCAGTTTTATTATATGTAAAATAAATAGTTTTATTTGCTTGTTCATTATTATATTCTGTAAACTTTGAACCTAAGTAGCTAATTAAATCATTTTCAACATCTAAATTATTACCGTTTGAATAATAAAAATTAAATTTCAAATTTTTAAATTGATCTTCTTCCACCAAATTATCTTCATTTTTAAATCTGTAAGCAATTAAATTTTTTAATAAATTTTCTAATTTAGTTTTATCTAAAGTTACCTTATTATCATCTCCAAATTTAGCAATATCAAAAATACTAATTGTTTTAAATTCTTTAAAATCTCAATATTTTTCTATATCAGATAAAGTTTTAAAAGTATTATCTACTGGTGTAACACAACTTATAATTTGAGTTGCTGGAGTTAATGTAATTGTAAAACTTGATAATAATATTAATAATTTTTTCATTTTTTCACCTAATTTACTATTATTTTACATTATTATAGTAGTATTTTTTCAATAATACTTTTAAAATAACACTTTTTTTAAAGAAATAAAGTAAAAAAGTTACTTTATTTCTTTATCATTAAATGGATTTGTAAATTTTTTTTCCTTTAACATTTCTATTTCAACCTTATAAGGACTTGTTTTTGCATCAAGTCAAGGAGTTTCAAGCAAAATTGGAATTTCTTTAAATAAGGGGTTGTGAACTACCTTACAAAGTGCATCAAAACCAATATATCCATAACCAATATTTTCATGTCTATCTTTATGAGAAGAAATTGAATTTTTACTATCATTTAAGTGAATAGCCATTAATTTTTCCAATCCAACAATATTGTCAAATTCTTCTACAACTTTATCAAAGTTATTTTTTACATCATATCCTGCATCATGCATATGACATGTATCAAAGCATACTCCAACTTTTTCTTTTTGTTCTACTAGATCCAATACTGTTTTGATTTCTTCAAAAGTGATACAAACTTCAGTCCCTTTTCCAGACATTGTTTCTAATGCTATTTTTACTGGTGAATTTGGCAATTCTTTATATACTAAATTTAAGCCTTTAGCAACACTTTTTAAAGCATCTTCTTTTAATGCCCCAACAGCAGCTCCTGGGTGTAAAACAAGTAAGTGAACCCCAATTGCTTCAAGTCTAATTAATTCTTCTTTTAATAGTCTTACACCAAAATCAAAAGTTTCTTGTTTTACTGTATTTGCTAAGTTAATTGTATATGGACCATGACAAATTACTTTTGTAATATCAATTTCGTTTTCAATTAATAATTCTTTAAATTCTTTTATATTTAATTTTTCAGTTTCTGTTCTTCGAGTATTTTGTGGTGCTCCTGTAAAAAACATTAAAGTATTTGCATTGTTTTGGATTGCTTCAAGTGCACTTCCAACTAAAAATTTTCCAACCCCGTTCATTCCAACATGGCTTCCAAGATAAAAATCAGGTTTTTTCATATTTTTCACGCTCTTTCATTTCTAGTTTGATTATAGCAAACTAAAAAGAGATTATATAATCTCTTTTTAACACCATCAAAATTAAATGAAATATTACCAAAAAATAAAAAAACAAGTAAAAACTTGTTTTCTAATATACGATAAATATTTTATTTGACCTATTTACCTAAAATTTTAACATTTCTATTTTTTTAGTATTTTCAATATCTAATGCTAACATTTCTTTTAATTCTTCAAGATCATTTACTTTAACATTTTCTCTTAATTTTTTAAAAGGAGTTATAACTACTTTTCATCCATAAATTTCTTGATCAAAATCAATTATATTTGTTTCAAAAACAAGCTGATTTAATTCATTTGTTCAATAACAACCTGCTCCTAGAAAATGTTTTTTTAAGTGATCGATATAAACGTCACAAACATATACTCCTGGTTCAACTAATATTTTTTGAGGAGTAATTAAGTTAATTGTTGGAAAACCAATTTGTCTACCAAGTTGTTTACCGATAGATACTCTACCTGTAAATTGATAATAGAAATTTGTTTTTTTCTTAAACTCATTAAAATCACTATTTTTAATCAAAGAAATAAGTTCTTTACATTCTTTTTTTTCTTTAAAATTCCCAACAATTAAAGCGTTTTCTTTTCAATTATCTTTAATAAATTTTGTTGTAAATTTAGGTTCTATTTCACTTTTAAAATCCTCTGCAATCATTATTTTTTCAATACTCAAAAAATTTGAAATATTATCAAATAATTGTTGTTCTGTCATTAAATTAAACATTGGGTTTATAAAATAAAATAAAATTAAATCAATATCAACTTCATTTGCTTTTTTTATTAAATTTTCTTGATTTCATAATCCAAAATTCAATTCATCTTTAACAAGAACAAATAAAGTTGATTGCAAATTTTGCTCTTTTGCTTTTGCTTTTAACTCTTTAATTTGATTATCTTCAAACTCATTTCAATTCTCAAAATCTGTAATTAAACCAATTGATGGTTTTAGATGTACCATTATTAAAGTCATATTATTATAAAAAAAAGATTGAACCATATTTTTATTCCTTTTCCTCTTTTTTTATTTTTTTAATTTCACTTATAAATCTTTTTTCTTCATCTTTAAAATCAAAATATAAGACTATTCTTGATTTAAATTTTTTCACTCTTTTTTCATTCATTATAAATTTTGTAAAACATTTTGTGCATTTATAAGAATTATCTCTTTTATCAACTGCAATTTTTAAATGAATGCATCTAGAAATTCCTTGTGTAACATAATATTTTTGAATTTCCCATTCTAGATTTTCATCTAGATCAAATATATAATCTCTCATATTTCCAACTCACTTTTTAATATTTTACCATATTATTTGTAACTAACAAAATTGATTACTTATTATGCTACAATACTTTTTTACTAAAAATCATACTAAATAATACTGATTAAATTATTAATATTTAAAATTTTTCTTATTTATTTTTTTTATTATTATTGTGTCAAGCATAATAAAAATAAATGAATATATAAAATTAATTCTATAAGTTCAATAATTTGAAATAACTAAAGGTTCAACTTTTGTGTAGTTCATAAAAATAATATTTAAAAACGGTAAATACATTATTGTATTTTGAATATAATAATTGATATTACTATTTAAAATAAGTTGTAACATTTTAAATAGTATTGAAAAAATAAAAATTGAATATGAAATTATATAAAACCAGAACAATTTATTAGTTCTAATTTTAAAATAAAAAGCAAGCAAAACAAATATTCAATATATAGTAGTTAAAAAAATAATAGAAAAAACAATTCATAAATTAAAAAATCTTTATTAAATTGATAATCAGCTGCATATTTTCCTATAATAAAAATAAAAAACATAAATATTAAAGTTGCTGAAATAATTATTAAGTAATTTATAAAAAATTTATTTATAAATATATATAAATTATTATTTTTTTTAAAAAATTGTTATAGTTTGTATTATTAAGTTCGATTGTTATAAAAATTAATATTGCTCCAATTAAAAAAAGTGAACTAGACAATACACCAAAAATTTTTAAATTATTTATTCCATCTTCAAATACAATATATAAATAAAAAGTATTAACATCAGAAACAATGTATGTAATTAAAAAAATAATTATATATTTTTACCATTTATCAAAAATAAAGTTTCAATTTAATTTAAAATTTATTTTTAAAAAAATATTTTTCTTAAAAATTATTTTCACTAAAGTCTGAGTTTTTTGCTCTAACACAAAGACAAATCTCCATTTTTGTATATAACCCATTAACATGATAAACATTGTTAAATACAGTTGCAATTTCTAACATTGAAAGTCCTAACACTGCGCCAATAGATATTCCAATCACTGGAATTTGTGTAAGACCATTTAATATTTCTAGTATTTCTGCTAATCCTGCTCTTCCAGTGTATAAAAATCTTCAATAGAATTTATTAATTTTTCCTCAGCTTCAAAATTTCATAAACCAATAATAACTTCATATCATTGATATCTTGTTATATATTTATAACCTTTTACATTTCATTTTTTTCATAAGTTCATCTTGTATTAGTTCAATCAAAATTATTAATTAATATTTTAAGTACTTCTTTTGGTATTGCTAAATTTATTAAAATATTTATTGTTTTTTTAGTTAATAAATTCAAATTCAATATTTCATCAATTATTTTTTGATCATTTTTATATTTATATAAAAAATTTAAAATTTTATAATTTTTTTCTTTTGTTAAAATACTCATTTCATTAATAAAATTATCTTTATAATCATTAAGCATCAAAATTTCTAAATTTTTATTTATAAAATTTAAATTATTATAAAATTTTTGATTTTTTAAAATTTTTTCACTACTTTTATCAAACAAATCTTTTTTTATTTTCACAGGAAAATTATTGCAGCTTACTATTGTTAAAGTACTAGAACTAAATAAACCAATAGAACAGACAGTAGATAATAGTTTTTTTCATCTTTTTTCTCCTTAAAAGTTTTTAAAAATTATTATTTATAAATTAGTAATTACTATTAGATTTTTATTTTGATACAAAATACTTTATGTTAATTCAAGTTAATAAAAAAATAATTATTTTTACCCTTTTTCTCCTTTAATCAACATTTTTATATTATTTTTTTTATAAAAAAAATCAATTTTATTTAATTATTTTTAAAAAAAACTAATAAAATTAACTTAAGTCAATTATACTATCAATTAGTTTTTAATTTTCTTCTGTAAAATTAGGAGAAACCATAATTGCAGTTTTACCTTTTTGAGATAAAACTAATTTTTCAATATCATTTTTTTTAATTGAATCCAAATTTGCAGTTAATTCATCTAAAATAAGTATTTGCTTTTGATTATACATATTATAGGCAATTGACTGTTTAAATAGGTAAATATTTTGATCAATATAATCAATTTTATCTCTAAAACTTAAAAAATTATTTTGATTTATTTCAATATTATTTGCAATCAAATTACCATTTTCAATATCTACAATTCCAACAATTGCTTTTAATAAAGTTGACTTACCAGATCCACTTGTACCTGTTATTAAATATTTTTTGTTTTTTAAAAAATTATAATTAAAGTCTTTAATTATTTTTCTATCTGCAATTGAAATATCAATATTTTTTAATGAAATATCATTTATTACTTCTAATTTTTTTGATTTAGAAAATTCTTTTTGAGTATAATTAAATTATTTATTTAAATATCGCCCATTTTTTATTTGTCCAAAATAAATCCCAGAAGATATTACTAATGAAATAAAGGCTTCACTAACAGAAGACATTAAAATAACGTTTGCAATACTTAATCCCCCATTTAAATAAAGATAAACTACTGCTGCTAATATTGAAGCTGAAAATAAAACGACAAACATTTTTAAAGGAATATCCACAATTCCATATATTTTTGTAAATTTATTATAATTTTTTTATCTAATTGATATGTTAAAGTTATTTTTTCTTTAAATTTTTTTATTCTATTTCCAAAATAAAATACTTTTATTCCTAAAAGAGTTGACATTAGCCCATTTACATAAATTCCATAATTTTGAATATATTCAAAAATAGCTTTATTAAATTTTTTATATAAAATATTTGAAACTAAATACATTATTAATGCAAAAGCTAATAAGATTAGAAATAATACTCAACTAATTGTTAGTAATGCAGCACTATAGCTAATAGCACTTGCAATTATTCCAATAAAACTAAACAAAGTTATATAAATTTGTCCTGAAATTGTTGGAACATCGATACTATAGTGATTAACAATTTGACCAACTTCTTTTTTATTGTTTGAGTATAATCAAGATTTATAAATTGCTTTGTAACTCTTTTTCTTAAATCAAAATTAATAAGTGAAAGTGTTACATCTTGAAAGTATTTTGCAATAACTTTTGCCATTTATGCTCCAACTCAGATTCCAATAATAATATAAAGTTGAGTTCAATTAATATTTGTTTTATTTGTTTCATCAACAACAGTATATAAAAATTTTAATTGATAAATAGAAAAGAAATCAACAATGGATGAAATTAATAAAACAATTATTATTAAACTAAATAATAATTTAGTTTTCAATGATAATGTTTTCATTTTCTTTTATTCCTTTAAGTTCTATTTGTTTATCAATTAATTTTAAGTTTTCACTTGTAAAATCATGTGAAATCATAATTACTGTTAATTGTTTATCTTCTAATATTAATTTTTCAATTTCATTTTTTGTATTTGGATCTAAATTTGCAGTTGATTCATCAAGTAATAAAAATTTTTTATCACTATATAAAGCTTTTGCTAAAGCAATTCTTTGTTTTTCTCCCCCACTAATTTTTTGACTAATTCCCCCAATTTGAGTTTCTAAACCTTCATTTGAATTCTCAATTAAATAATCTAATTTCACTTTTTTAATAATTTTTTCAATTTTATCTTTGTCGTATTTTTCAGGTAATGCAATATTAAATGCAATTATTTCATCAAATAAATATATTTCTTGTTATATATATTCAATATCCGATCTTAAATTTATTAAATTCTTTTTTTTAATTTCTTTTGAATTTATAAAAACTTCTCCATTATTTATTGGAAGTAATCCAATAAAAGAATTTAGTAATGTTGACTTTCCAACACCACTTTTACCTGTTATTAAATATTTTTTATTTTCTTTAAAAGTAAAAGATAAATTTTTAATTATTAATGAGTCATTTCTTTTTATAGAAATATTTTTAAATTCTAAAGTTTTAATTTTTCATTTACTAATGTCTTTAATTTATTCATTATTTTTCATTTTAAATTTTAAAAATAAATCTTTTGAAGATTTAAAATTTTGAATATTTTCAAAAATACCAAAAATATTTGTCGAAAAAGTTATTGCAGTTAGACTTATTGAAAGTAAAACCCCAATTTGTACAAGATTAAATTTATATAAAAAAACAACAATTAAAAACATCCTAATAATTATTGCTGTTTTAAAAAATGATGTAAAAAATTCAATAATATTTTTTTTGACTATTATCTTTTTGTTCAACATTCATTTTCTCATTTGAATGTTTATAAATTAATTTTTCATATTCATCAATTTTATTTGAAGAATAATAAATTTAATAACCTGAAATTACATCAACTAAATTATTTTTATAACTTTGGTTACCAGTTGATATAGAAATATTTATCTTGTTTAGTAATTTTGAAGAAATTGTTAAAATAACTAACAACATTAAAATTGAAATTAAACCGAACAAAGATAATCATGGACTAAAAATAAACATTGTTATTAAATTTGCTAATAATAATGTAGAAAAATTAAATATTTCAAAAATAGCACCATATCTATCTTTTGTTAATACATCAAGATCGTTTGAATATCAAGAAATAAAAATTGCAGAATTTATTTCTTCAATTTCACTATAAGATAAATTTAAAATTTTATTTGTAATACGAACTTTTATATTTTCTCTAAATAATGTTTTTACTTTTATAACTATATAATAATTTAAAAAATAAAAACAAAATCCAATAATTGAAGTTGTAATAATTATTGAAACTAATATTATAATTTCTTTTGTATTATAATTTCCTATTTTACTTAAATTTGCCATAAAATAAGTAGAAACAGAAAAAAAGCCAGCACTTAAAATTATTGTAAGAATTGCAATAAAAATTCAAATTTTCATTTTCATTTTTTCTCCCTTCAATAAAATAGTGCTAAATTATTTAATTTAGCACTAGATACTACTTAATAATTATAATAACTAACCTTGATTTAATCATAAAATCTCACTTTCCTTTTAAAATAAATATATCATAATTAAAAAATTTTATTTATCTTTAAGTAATACAAAAGAAGTTTTATTTTTTTAAAAAAAATACTTTGCAAATGATAAAATTTTATTGATTACAGGAGAGAATAATGTTTGAGTTTACTTTAGTGGATATAATTTCATTAGTTACAGGAATTATAAGTTTAATATTAGCAACTTTTATCTCAATATGAATTTATAGAAAAGATGACTTTAAGGATTTTTATAGAGAATTTAAAGAAAAGTATTTTTTTACTTTCAATAAAAATTTATTAAAAGAAATTAATGCTTATATAAATATTAGTGAAAAAAATAGTGAGGAAATTGATTCAATTGAAAATCAATTAAATAAAATTTTATATTTTCTAAGTTTTTTAATTGAAAATAAAAAAACTATTAAATCAATTTATAACAAATATAAAAAACATATTAAAAATCATTTGAAGAAAATGAAATTTAATTCTTTTAGTATTAGAACAAATAAATCAACTAGACAAATTACTCTAAATAAAATTCCAGATACAGAAATGGATTTTTTACAAAACTTTAAAGATAAAAAAATAAATGAAATATTTAATAATTTTAATAAAATATATAATAACCTTTTCAGTATTTTTATTGATAAAAATACTGAAAAACAAAAACTGGATCAAACTATACAAGTTTTAAGTTTTTTATCTAAAACTGAACCAGATATTATTTTAACAATTCTTTGAATTTTTAAATTATCAAAAGCTGTTAGTGATTAAAAAAACCTTACTTTTGTAAGGTTTTTTTAATCACTCAAAATTATAGACCATTATTTTCAATCACTTTTTGATATCAATAAAAACTTTTTTTTCTATATCTTTTTAAATCTTTTAGATCATCATCAGTTCTATTTACAAAAACAAAACCATATCTTTTTTTAATTCCTTCATGAGTTGAAACTAAATAAATTGCACTTCATGGATTATATCCAATTAATTCAACTCCATCATTAATAGCTAATTTTAATTGTTCAATATGTTTTTGATAATAATCAATTCTATAATCATCATTAACTTTGTCATCAATTAATTCATCATATCCACCAATTCCATTTTCTGTAATGATTAAAGGAAGTCTATATCTATCATAAATTTCTCTTAATGTTGTTTTTAATCCAATTGGGTCAATTTCTCAACCAAATTGAGTTTTTTGTAAATTTGGATTATATACTTGTCTGTATACTCCTTTGATTGATCTCACTTTTTGTTGATCTGTTAGAGTTTTAAAATTATCATTTTCATATGACATTTCAGCAGTTCCAGAAGCATAATAATTAAAAGCAATAAAATCAGGTTTTGATTTTTTTAAAATTTCTAAATCTTCTTTATAAATTTCGAACATAGAATTGTGTTTTTCCAAATAATTTAAAACAAATTTATTGTATATTCCAAAAATATAACAGTCTAAATAAAATCAATTTCTAAATATTTTCATATTTAGAGCTGCGATTTGATCTTCAGGTTTATTTGTATTGGGATATATTGCAGCAATGTTTGGAGCTGAACCAATTTTTCCATTTTTTACAGTTTGATGGCATATGTCCATTGCTTTTGCTTGTGCTAACATCATATGATGATTTACTTGATAAGTATTTTTTAATCTCTCTTTTCCTTCACCAAATTTAACACCAACTATTTCACCAAAAATAATCATTACATTTTGTTCATTTATAGTTAATCAGTATTTTACTCTATCCCCAAAATTTTCAAATAGAATTTTTGCATAATTTGCAAAATGATCAATTGTCTCACGATTTAATCAACCTCCATTTTTCTCAAGTTCATTTGGTAGATCAAAGTGATACATTGTAACAATAGGAATTATATTATATTTTAATAGTTCATTAATAATATTATTATAAAAATTAATTCCGTCTTTATTTATTTTACCAAATCCTTTTGGCAAAATTCTTGTTCAAGAAATTGAAAATCTATATGATTTAAAACCCATTTCTGCCATTAAAGCAATATCTTCTTTTCAATTATTATAATGATCTGAATCTACTTTAAAATCAGTTGTTCCATTAGGTATATTTTTTCTAACATCTTGAATTAAAGGACCTTTTCCATCACTATCCCATCCTCCTTCAAATTGATAAGCACTTGTCGATGCTCCTCATAAAAAATTTTTTGGGAATTTATTTGACATTTTGTTTTATCTTTCTATTTTCTTTAAAAAATTTTTTAAATATAAAATAATCTATTTCCTGTTCTTTAATTACTTCATAACTAATTTCCAAATTATTAATAGCATTTTGATAAGTTAATAAAATATTTTTTAATAGTTTTTCATCTATTATTAATTTTGAATTTTCTAATAATGTTTCTATTTCTGATATTATTTTCATATTAAATGTTTTATAGTTAAGAGTTACTTCATCAACTTGTTTAGTTAATTGTTAAATCTCTAATTTTATTTTTTCAAATTTTTCATCTCTTTGATAATTATTATAATTTGTTGCAAGTAAATTATATTTTTCTTTATTAGTTTCAATATTTTTAATTGCCCTATTATAAAGTTTATCCTTATGAGTTGTAAATATTTCATTCGTTCTTTGTAATTTAATTTCTTTATTTGAAAGAGAAATTAAATTCTTTTCATATAACTTATAATTATTTTCTAATTTAATTTTATTTTTTATATTTTCTAATTCTTTTTTTAAATTAATTATTTTAAAATCATTTTTTTCAATATTATTGCTTGAAATTATTACTTTAAATAATAAATTGCTTACTTTATTAAATTCTTTGACTTCAGATTTTCTGTCAATATATAAAATAAATGTAATTAAAAATGCACTTGTAATTGAGATTGCTGATGCAATTAAACCCATAATTAGATTAGAATCAAGTCCTAAACCAATATATGACATTACACCAGTTCCAGTTCTTGAAACTTGATGAACATCTAAAATTCCTCCCACTGTTGCCCCAATTAATGCTCCAAAACTACCATACAAAAATGGTCAAAATTTTCTAAGATTTACACCATAAATTATTGGTTCTGTAATTCCAAAAATAGAACCAGGTAAACCATCAAAACATGCTTGTTTTATTTTGTTATTTTTTGTTCTTATAGCAACAGCTATTGTTGCCCCAATTTGTCCCACAATTGCAATTTGAAGTGCTGCATACATTACTGAAGGTTCAACTGGAGTTTGAGTCATTGGTAAACTTATTGCAGTAACAACAGCAACATGAGTTCCTGTTAATACTAAAGTTTGTCATAACATTGCAAATATTCCAAGTCCTAAACCATAAGGGATTTTTTCAAGTAATATTACAAATTGTGAAATTAATTGTTCAATAATTCTAAAAAATGGTCCTACTGTAAACATTATTATAATAAAACTAACAAATACCACAAATGCAGTTCTAAAAACAACATCAATAGCTGAAGGCATTCATTTTTTAATTCATACATTTAAATAATGAACTAAAAATCCTGCAGCAATCATTGGAAGTACAGTGCTTTCATAAGATTTTATTGAAATAGAATTACCAAGAAATGTGAATAATACTCAACCTGCACCAAATATATATCTACTTGTTAATAATAAGGCAAGTAATAGTGCCATTGAAGTTTCACCTTTTAAATATTTCACAGTACTATATAGAAATGCAACACCAATTAATTCAATTCCTACTCTTGATCCTACATAAAATAAAGCACTTGCAATATCATGATTCATAACTTCTGATGGACTTGCTGGGTTTTTTAAAACACCCGAAACCACTAAAATAGCTTGTAATCCCCCAATTATTCCAGTTCCAATTAATAAAGGAATAGTTGGAAATAAAATTGATGTAATAGCTGGTGCAAGTTTTTTCTTAAATGGAATTTTTTTATTTCTTCTTTAACATCTAAATTATTTTCAATAATATTTGAACATTCTTGCCTAACTTTATATACTTCTCCCCCAATTATTATTTGCAATTCCTGACCAGCTCAATTTATTCCTTTAACAATTGAAATATTTTTAATTTTAGTTTCATCAACAAGATCTTTATTTCTAATTTTAAAACGAAGTCTTGTCATGCAATTATAAAAATTTGTTTGATTTTCTTTCCCCCCAATTGCAGATAATATTTTTTGAGCTGTATCTACATATTTATTTATTTCTCTATCCATTTTTACAAGATCACTTGTATTAACTTCTTTTCTTTCAAAATCAATTTCAAAAAGCAAATCTCCTTGTTTTACTGTTTGATTTATTTTTTTTAGATTTATTTTATATTTTTTAAAATTTAAAGTTTCTATTAAAATAGATGTTTCAAGTGAAATATGACTAGATATACTACTTTTATCTAATTTCATTATTTCACTTTTTTTAGAAACTTTATCTCCAAGTGTTTTTAGTAATTCAAAAGGTTTACCTTCCAAATTTACTGTGTCTAAACCTACGTGAACTAATAGGTTAAAATATTTATTTGAAAAATAATATGCATGTTTTGTATCTGCAATTAATTCAATTTTTGCATTATCAAGAGGACTTGTCATTATATTATTTTCTGGAATAATAAATACACAATCTCCAAGTGATTTGGATGCAAATGCAGAATCACTTATTTCTTCAATTTTTTTGACATAACCATCAAATGGTGAATATACATTTACTTTCATTTTTTACCTCCTAGTTTTAATATAATAGGTGTAGAAAAAAATTCTATATAAGAAGCAAAAAAGTCTAATACTTTCCAAAAAGAGAAATATTAGACAATCATACTTTGTAAAGTAAGTAGTATATAGTCAATACATATTTTTCTATATTTAAAATTAATATATTTTTCATTATTATAAATAACAAATTTATCATTAAATAAATTTATTTTATTGGATTGAGATTCTGAACTAATTATAAATAAATTTTCTTTTTTACAGTCTTTATTTAAAAAATTAATAAATTCTACTAAAAATGTATTATCTTGGCCAGCAAGTAGCAATAAAACAGGTGTATTTTTAATATTATTAGCAACAATCTTATCTGATATTATTCGAATTTCTGAAAATAAAACTTCTATACCAATTTCTGAAAAAATATCATTTGCATATTTTGCACAAGGAATAAGTTGATAAGAAGAAACAATTATTATTTTTTTTGTTTTAATTATTTTTTCTATCAATTTTTGTGAAAAATCATTATTTTTCAAAATTAAACTATGAAAATAATCAAAAATTGTTTTATTAAGTTTATAAGATTCATTAAAATTTTTTTTTAGAATTATAATATCTTTAATATTCATTTTTTAAAGAAAAATTAAATTCTCTAAAACCACTAAAACCTAATTTTTTTGCAAATTTTGTAAGTACACTTTCACTTACAAAGCACTCTTTTGCAAGTTCAATTTGATTTTTAAATATTCCTGTATTGTAATTTTTCAATATTATTGTTGCAATACTTTTATATGAACTTTTTGAATTACTTTTAGATAAATCAACTAATAATTCTCTTATATTCACAATAATTCCCCATTCATTTTTTTAATTTAATACTGATTTAATGCCCAATTAAATTATCAGTTTGTTGTTCACCAATTTTATGAACATATTTTGTTCATTTTCCATTAAGTCATCGTATTACATATGTAATTGATCTTGAAACTGGATCTGTAATTAAAGTTAAGTAAATTAACAATAACCCTCAACCTTCAAGAAATTCAAAACCATAAACAACAAGCATAGGTAGACCAACCATCCCTATTCCCATTGTTATAAAAGAAACAAAAATTGGATATCACAAGTCACCAACACTTCATAAAGCTCTTAGTAAAGTCATATTGACTGTATCAAATAAAATTTTAATAGCATAAATTGTTAGTAAAGATATTCCTCAAGGCATCAAGTATTTTTAGGTCCCATTAATTCTAATAAAGGTCAACTCAAAGCAATCATTATTACATTTGCAATTAAAGTTGCATAAATTGATGCTTTTCAACAATTAATTGCAACTTCATATGCACCTTGCTTATTATTTTCTCCAACTTTTCGAGCAACAAATACACTTGTAACTGTTCCCATAGCTTGAATAAAAGCAGAAGAATATTGGCCAATGCTTGTTGCACTTCTATGTAACACTAGTCATGTATCGTTTCCTGCATTTGGAGATAAATGGGCAATTGCAGCTCCTGTTCCAAAATTACATAAGTTTCAAACACCCATTTCAATTGTAACAACTGTACTTTTTTTCATTGATTGTAGTCCTGCAATAAATACTTGAGGTAAAGACATCATTATTAATTTTATATTCATATATCTATAATAATCTGCAACAAATTTTAGTTCATTTGGTTCTAAAATAACATTATTATAGATAATTTGTGTATTATTGCTTGCACCCATTAAATAACCAATTTCATTTGCAGCAGCTTCTATTGAAATAAAAATTACACCTGTAATTGTAAAATTTACTAAAAGTCCTGTAACAACAACTTTTGAAACTTCTTCTTTTTTTCCTTGTCCAATTAAGTTTCCAGCAACAACAATTGCTCCTGTTGCAATTAAACTTGGGATAAATTGTAGAGTATTATAACTTAAAGTTGCTTTTGCAACAGCACCAGCATAAACTTCATCTTTATAATGATTCAAAGCAATTAAATTTATTTGAGAAATTAAAATATTAAAAAGCAATTGTATAAAAATTGAAATTGCCATTATGGCAATATCTTTTACATTATCAATTTTATAAAAAGGCGTCTTTATTTTTTCAAAATGACTTACTTTTTTAGTTTTCATTCTTTTTTCCTCGTTACAATTATTTTATACAAAAAAAAGTTTTAATAATAAAACTTTTTAAATTATAGTAATTATTTTAGAAATTTCTTTTAGATATTATCAATTTTTTTCTTAATGATTTGAATTTCTAATTCAAGATATATTAAGTTTTCTTTAACTTTTGCTAAATTATGATAATTTTTATCATTTGTTTTTCTTTTATTTAAATGAATTTGATAAATTAATAGTCCAAAACCTGGAATAAAGTATCATCAAAATAAATTTTTTTTTAACTTTTTATTTACTTCTTTTTCTTTTTTGAAAATATTTTTATATTCAATTTCTTTTTCTTTTAAATTATTTTCTAAATCAGGTTTTTTCATATTATTATATTTTTCAAACATTTTAAAATCCCTTTTCTCTCTTTTAGTTAGATACCAATGCTTTTAAAATCTCATTTATTAAATTATTCATTGATTGAAAAATTATTTTTAATTCGTTTGTTTGAGAAAGAAACACTGATTTATGTGCTTCAATTCCTACACCCTCTAAACTTGAATAAATATTTTTTGTATCCTGAATAAAATGTACCATTTTTTCAGTTGCTTCTAATTTTTTTGTAAAATCAGGATTATAAGTCATTTCAATAAGAATCCTTTTTAATTCTTCAACAAATTTTTTATTTCAAGATTCAACATCAAAATCTTGAATAGATTTTAAATAATCTTTATTAAAATAATCAATTTGAGCTGCAAAAAATTCTGAAATATAATCCATAAATATCATTCCTGAATCTGTTATTGAAATATCTTCTTTAATATCATTACAATAACCTATTCATTGAATAACTGCATTATTAAAATAATGATATCTTTGTAGTAAAAGAGTTAGCATTAAATTAAAATCCATTGAAGATGATTCTTGATATTTATTAAAGAAATTATCAAGTCCTTCAAGTAATGTTTTACTGTCTTCTGTTTTTGCAATTGCTTCTAATTCTTCTTTTTGTTCCTGACTGACTTCAAAGTCAGGAGAAGTAATAAAATTTTTAATATCCTTTTCATAAAACTTGAAAATTATTTTTCTAAAGTCTACTAGTTCAATTAATTTCATAAATTTCCTCCATAAATAATTATTATAAATAATTTTAACTCATTTATTTGCATAATACTATATTTTTATAGTATGATTATGATTGTATAAGAACAAGAGAGGGAGAAAAAATATGTATTTAGGTACTGTTTTAGCCTCTATTATTGGTTATTTTATAGGAAGTTTTAGTTTCTCAATTACAATTGTCAAATTTAAAGCTAACAAAGATGTTAGAGAATTTGGAAGTAAAAATGCAGGAGCAACAAATGCAAGTAGAATAATTGGTAAAAGTTGGGGTGTTGCAATTATGTTGTTGGATTTAACAAAAATCTTATTTACAGCAGTTGTTGCAATGTTAATTAATTTAATTCCCTCTGATTTATTTAATCAAACAAGCTTTATTATTCCAGGAATAATTGCATTAATTGGTCACTGTTGACCAATATATTACAAATTTAAAGGTGGAAAAGCTGTTAGTTGTTTTTTTGGTGTTTTACTTATTAGTAATCTTATTATATTTGCACTATTTTTTATTTTATTTATGATTTTACTTTTTACAACAAGAAAAGTAAGTATTGCCTCACTTTCAAGTGCTATTATTGCAACAGCTTTAATATGAGTACCTCAAATTTCAGGAGGTAATCAATTTATTTTTAGTGGTTATGACTTTTTTTATCAAGTATATGAAAATAATTTTTATGCAGTTTGATTTAACAAATTTCATGATTTAAGTGTAGACAATAAATTTTATGATAGCTTTATAACAATTGATATTGTTGTTACATTAGCTTTATTTCTGTTACTTTTTAGACACAGAGAAAATATAATAAGAATATTTAAGGGCACTGAACCTGCCTTTTTAAAATCAAAAAAAGAAAAAAAGAAATCAGAAATTTTAAAAACAAATAAAGAAGATATAAAAATGATCAATTAAAAATTGATCATTTTTATATTTCAAGATAATTTCTATTTTCTTCTTCTAATAGTTTTATATAATATTTTTTTAATATATTTTCTTCTTCTAAAATATTTCTTATTAAAAATCCATATTTATGATGACCTGGAAATATTGAATATTTTTTTGAAAATGACTGAAATAATCATTTCATTGTTCTTAAAATTTCTTTTTCCTTTATCTTATCGTTTTGGCTAAGATTAAGTCCATCAAATTCATTATAAATTAAATCTCCAATAAATAAACAATTTAATTCTTCAAAATCAAATATTAAACTTCCATTAGTATGTCCAATTTTTAAATAAATATTAATGTTATAACCATTTATAAGAGTTTTTATATCATTTGAAATAACTTTTAAATTCTTAATTGGTTTTGCAGCATACAAATCAATTTCTTCATATAATAAACTTGTATTTTTTCTTGGATCAAATAAAAATAATAAATCATCTTTACTAATATAAACATTAGGGTGATTTTGATTTTCACAAATTTCATTAATACCATAAAAATGGTCAAAATGACCATGTGTAATAAAAATATCTGTTATCTTAATATTTTTTTCTAAAATAAAACTTAAGATATCAGTATAAGAAAGATAGCAAGTGTCAATTAAAATTCCTTTACCCTCTTCATTATAAATAAGAAAAGAATTAGTGTTCTTAAATTTCTTGCATGAAAAGATTTGTATCAAAATATACTTCCTTTCTTTTAGCAAATATATATATTGTTTCCCTTTAAATTATATATAAAATAAAATATTTTACAATAAATAATTTTTTAATGGTTGTATAAAAAATGTGGGGGTTTTATTATTATAAATTTGTAATAAATAAAATATTCAGTTTTTGCTTGATTTAATTATAACTCTATTTTATAAAAAATATTTAAAAATTTAAGGGTGTATAACTTAAAGGTAGGGAATGGAAAATGCGATTTTTTCATTCAATTGTACTTTTATTATACATTTTTTAACATTTAAACAAAACAAAAATTACAAATTTTTTAGATTTGTTTGTCATTTATTAAATTACATATTATTAAAAGATTAAATTATTGTTCAATTTATATGCTCTTTCATTGAGCATATTTTTTAATACGGTTAATGAATATACTTTACTTCCATAACCCAACGCAGACTTTACAAGCCTTGAAACATCTGATTCAGCCGATACTCCAATATTTCATTTTGTACCTTGATTGATTATTCCTACCTTATTATTTTTAAAGTATTTAAAGACTTCTTTTGGAGCCTCAATTTCTAGTAATTCTATTAGATCATCATAATTACCTGAATAAAATAAATCTATGGCGATTTTAAATAATTCTTTACCATGATATTTACCACTAAACAAAAATAGCTTTCTAAATTCTCTAACAGCATGAAATCTATCTAAAATATAGTTAGCTCCCATAAACGAAGCTAATTCCTTAATTCAAGTAGCGCCATCTCCTCCAACTACCAATTTAGCATTTTCAAAGTTTTCTAGAAATTGCATCCTAATTCATAAATTCTTATAGCTAGTTCTTCAGTTGTTAACTTTTCATCTTTTCCCATAAAAAATGTAGTTCTTTTATCTTTTAATTTTCTACGCTTTTTATGAATTGTTTTAATATCAAAACCTGTGCAAAAAGAAATTACTCTTATTTGAGTATCCTTATTTCTTTTTAATTTTCTTCATTTATATTTATTTTTAAATCTATCAACATTAACAAATGCATCATCAACAAAAATATATACTCTTTGTTTATCAACTAAATTAACTTTCCTCTCAACTTTATTTCTTTTATCTTGATTTTCTATAGATTTAAAGATTCTTGAAATAGTCATTGGTGATAATTGAGCTTCAGGAAACATGTCAATAATATCTCTATAACGTTTACCAGTACCTAATTGTTCTTTGATTAATTCAATTAAATTTGAATCCAGTTTAGATCATTTCTTTAATTTTAATTCTTCATCAATTAGTGCTGTATATTTTCATTTTTTATTTATATAATGTTTATAGATATGTCTATCGAATGTTAAATTTTCAAACTCTGTCGTAATTGTTCTGGATTTGACTTTAACGAGAATGTATCTTTTTTTGTCTCTATTTTCAAGAAGTTCCATGTCTCTAGTCTCTATTTCTTCCTTTCTTTTGTTTAATAAATATTTATATTCTTCCTTACGATTAAATAACATATTATTTACCTCCTTTCTAAATAATTATATTATTTAATTAAATAAAAAATAGAGCTTATGCTCTATTCAAATTTAGTATTAACTTTTATACCATCTCAATATCAATTATTTATATTTTCACTATTTTGTTTCGGTTGCAAATTTCCAATACCAATAATTGCAAATTTTATTATTTCTTCATATTGATCTATTTCTCATTTAGAACTTTTAATATTCATAACTAATTCTTCCAAAGACAAATTCAATGCGCTTGGCAACATTTCAAAATATTCGCCATTTTTATTCAATAAAGAATATTTAATAACTTCTGAATCCTCATTGGAAGTAACATCAAATTTAGGATTAAAAAAATAAATTGAAATATCTAAATCTTTAAATTCATTTCATTTATTTTCAAATTCTTTTTCCGAATAAAAGTTTATTTTTTCATTCTTAAAAGAATTAAATATTTCTACCTTTTGGTCATCCAATTTATCAAAAAAATCCTTAACTATTATTGATTTTTCTATATTAAAATTATCAATTTTTTTTGATATTTCAGTAATTAAAGACAAATCCTCATTAGTTAAAGAATAACTTAATTTATCATTAGAACAAGAAATTACAGCCATTGGCGTTGCCGTTAATACAGATAATGATAATAAAGATAAAAGTTTTTTAAATATTTTTTTCACCTCTATGTATTATATTATCATTTTTACCCTAGTAATATTTTGTTTATTAATTTTAAATAATGTCAAATTATCTATTGAAATAACCTTATTATTTTTGCCAACTAACTTTATTTTTTCAATTACCTGAACCATAAATTCCGGAGATATCTATTAGCTTTGGATTTAATGTATTTAGTTCAAAATTATATTCTAATAAGTTATTGTTATTTAATTTAATTATATTATGATAATTAATTTTAAATAATTCATCTTTTTTACCAAAATAATTAATTCACTCCTTTGAAACTTGAACAATAAATTTTCCTATGTTTTCGTCTTCTAATTTAAAATCTTTAACAGATAATGAAGGTAATTGTGTTTCATCAATTTGATTAGGTAAAAAAGGTCAAATGAATCTATTTTTAGTTGTCTTAATTGTCAATGAATCTGAAATAGTATTTTTTAGCGAAATATTAGTTGTACCATTCAAAATATTTTCTAAATTAAAATATAAACTTTTTAATTTAACTTTAATTGAGTCTTTAAATTTTCAAATCCCAGTACCATCATCTTCAATAGTTCCAGTTCATATAGGTTTAGTTTGTAGTTCAAAAAATCAAGGTAACAAAATTTTATTATCTTCATTTAAACCTTGATTAATTGATAAAGAACCAAATATGTTATGTGATAACATTGCTCTAATAGATTTATAATTTTTGTATTGTTCTTTATCGATGTAATCAGGAAAATTTTGTTCTCAATTTTTTTCTAAACCGTCAATATATTCAACAATTGTTTTACCTTCAAATTCTTGTTTATATTTTGCCATTTCATTAAGTTCACCAGTCTGATCATTTTTATATCCCGAACCTTTAAAATTATTTTTATAATTATAACTAGCAGTAAGAACTTCATATAATAAGTTTAGTAGACTATTTGTTATTAAAATTTTTTCTCTATATAGTGTAATAGAATGTAATTTTTCATAACTATTAGCATATTTAATTTTTCCATCTTGTTTCTCAAATGAAGGACTATTACCAGGGATTTGCTGCGTTTTTCTTTCAGGATAAAATTCTTTTGTATCTCAATAACCTTGTCCAATACCTGTTATTACTCATGTTTTTTTCAGTGTAATGACCCTTATAATCAAACTCAATTTTTTTTAAATTTTTACCTTGTATGGTTTCTATTTCTATTTCAGTTTCTTCTGAATTATCTACAATTAAATCATTTATTTCTTTAGTATTTATAAATTCTTTTGCTTTCTCTCAAGGCAAAATATCTTCTATCATTCAAAAATTAAATAAATTAGCTTCTCCTTGATCATTGATTTCAATTGGATTAACTCAAATGGGTATTAAATCACTTTTGGATATAATTTCAGGAAATAACTCAATGCCCTCTTTTGTTTCTCCTAATACTTTTAAATTTGAAAGTAAAAATGAACTTGGTGCAGTTATTTTTAATTTCTTTAATTCAAGAGAATCTAACTGTTTACCAATTCTAAAAATAGCATTATTACTATCACGTGCAGCTCATGTATTTAGATCTACAATTTCGATATTTTTATTTCCATTCATATTATCTGTCAATGGACTATCTGCATCTATTTTTTGAATTAAATAACCAAAATTAGTAATGTCATCATCTGTTTCTAAAATGAACTCAGATACCATGTATAACTTATTTCTTGAGTATTTAAATGTCTTCCCATTTTCAAAATTTAAAGAACCTGTTAAATCCAAATATGAATATACGTTCTCTTTTTCGTATTGTGCAATATCAACTTCACCATCCATATTAGATACAGATTGTTTTGTACGATATTCATATGTTTGAGCATCTGGTCTTCAAGTTTCAAATTTTAAATACTCATCTTTATAAATAATTACTAAATTTACACTATTTGGTGAAAAAGTTAAAAGCGAATCTGTCTTACCTTTTATAAGTTTTTTAAGCTCATAAAGATAATATGTCTTTCTTTGACCGCTCGGAAGACTTTCTATTTGATCATCTTCTTCATATATAATTTCATTTGGATTTAAAGTCATAGGATTTGGCATATTAATCTCCTTCGTATTCTAAACGTTCTTTTTTCATGTATGAAATATAATTTTTCATCATTGCATATGTTCTAGCTTTACCATCTTTTCAACCATTTTGTTTAGCTAGTTCATTATATTCTTCTTCTATTTTTTGATAGTTTTCTTCTATATCTTTTTTAAACCTGTGGTAATTCACTGGGTCTATCTTCTTGCGAATCTTTGGCATATATTTCCTCCATTGATGGTGTATCCATCGCCTTCTTTAAATAATTTCATTTATCATAAGAAGAATTAGCTTTATGTGTAGTTTCTTCTAACTGATTTTTTAAAGTATCTAATTCTTCTAATAAATTAGAATTTATTAATTTACTCTGTTGAACATCTTCATATTTAATTGAAATACCTTTTTGTTGTTCTAGATGCAATTGGTATTCTTTAAATTTTCTATTTGTTTCTTTTTTAATTTCTTGTTGTTTTGCAATTACTTCTTTTTCTAGGTCATTTTTATAAGCTAAATTTAGTCCATGTTTTTTTTCTAATTCTAAAATCTGCTTTTTAAGATTTTGAGTTTTTTTATACTCACTAATTCATTTTTGTTGTAGATCCATCTTGTTTCTCCAATCTTTTTAATTGAACTATTTTCTTTTCTGTTTTGATTAGATACCAACACACAATTAATGTAATAACGGGAATAAGTTTTATAATTGCATTTACAGTAAACTTAGCCTTTTTACTAGGAATAAATTTATGAAAATTATGCAGTAGCGCGCCACTGGCACCTGGGATTAAAGTAAGCATTAATTGATTACCTCAATTATTAGCTCCAAAACCTTCCATGCCCATATTAGCCCATTCTAGTCAATATGGTAAGTCAATTAAAGAAGGTAATAAAGTTCAAAGTGTAGTAATAATTAATATGAATAAAGCACTAATGCTATTTATCATTTGACCTTGTTTCTTTCTAATTTTTTCAATTGGATTTAAAAACTGATCTTCATACCTTTCTCTATCTTTTACATAATCTCTCTTAGTTCTATTAAATGGTATAGAGCAATGTCAGGTATAATTAGGTTTTTCAATTTTATTATTTTCTATTATTTTTCTCCTTTTATAGTCTATTAGAAACCATATAATCATATAAAAATTCAGGTACTCAAATATAATTTATATTTTCAATTTGACCCTTTCATTAATAATAGTAAATGATGTAATAGTACTTTGACCATTAACTTTAAGGACTTTTCCATTATCATTAATATAAATACCATACATAATGATTAAAGAATTTAATGGTCTTTCGTTTTTTAATCTATCTTTTCAAAACTGATCGGATAATAATACTGTTTTTGGATTAAGTAATGTTTTGCTTAGTAAATTTAGTTTTTCAGTGAATTTAATTTCTAATTCGTTTTGTTTAATTTCTAATTCGTTTTGTTTAATTTCTAATTCATTTAATTTTTCAGTGAATTTAATTTGTAATTTTTCCTCAAATTTATTTACTAAATCTTCATTATCTACTAATTTAGTTGCAATATTGTTAATTAACTCTCCATCTTGACTTAATTCTTTTTTATATTTATCTAATCTATCTTCAACATAAGCAGCAATATCTTTAAATAAATTTTCAGATTTAATTCTGATTATTTCAATTAATTCATCAATTTCAGCTGCTGTGTATATATAATCAAAATTTTTATCCTTAATATGAGAAAATACTTCTTCTCATGTTGAATATACTTTTCATAGTTGTTTGATTTGAGTTTGATTAAGTGCCTTAATTGCGCTTGGAGTAAATATATCTTGATAATGGTTAGTTTCTCGTGTTTGATTTTCTTCGATTGAATATCCAGAATTATTTGAAAATGTTTGCTTTACATTTTTATCTGTAATTAACATTCCATATAATTTTGAAATAAATGTAGAATAGCATGCTGCTTTAATTAATTTTAATTTATTAATAGAAAGTACATATATTTCTATGTGAGAAAATAATTCATTAAAGAAAAAAGTACACCATAAATTGCAGGTTCAGTTATACCAAAGATTCCAGAAGGAATTGCTGCAATTGAATCATTTTTAGTTTTATTATTTTTTGAAATAATTGCCAATCCAATTATTGCTCCCAAACACCCCCATTGTGTCATTCCAACAGCAGATTGTAAGAAAGAAACTCCCCCATCTTTTTGAGCAACAGCAGTTAAAATTGTAATTATTGGTAAATGCATTCCCATCATAACCATTAAAGGTCAAAATATGCAAGAATTGCTTGTGCCATTCCAAATGGTGTAAGTGTCAAATAATAAACAATTCAGAAACAATTTGTTCTATTACATAGTAAATTGATCCTAATATAAAGAATGTTATTAGTGCAATTGAGAAAATAACTAATAAAGGTCTAAAAACTGTTTCAAATGATGGTTTAATTCAACTTTTAATTCAAACATCTAATTTACTTGCAAGATATATTCCATAAATTATTACAAATGGTCTATTTGTAAAAGGCATTACTTTAATTTGTGCAAGACCATATCACGCAGGGTTTTCATTTACACTTCCATTAATTCCTGTTTCAAATAATGTTCATTCAGTTCCATAAAGTCCATTTACAGTACTTCCACCATTAAATAAAATAGGATTTGCAATAACTAAACCAATTGCAGAACCAATTATTGGTGAAAGTCCAAAATAATTTGCAGCAGTAATTGCAGCAAATAGATCTAAAAATTTTAAAGGTGCATCTGAAATTACTTTTAAAATTGCTAAAAATACATTAGCATCTTTTAACAAAACAGAACCTTCTGGTATTATTCCATTTGGTGGAGTTTCATAAAGTACATTTGGCATTACTTTTGCAATTTGTAAAATAGATACAATTCCCATCATCATTACAGATGCAATTAAGACAGGAATTAATGGAACCATAACTCCACCAATTACACCAAAAAATCTTTTAAATAATGAGTTTTTTTGATTATTTGTTTTTACTGCAAAATTTGCTTGAGAAGAATTATTTAACTTAACAATTTCATCCTTTACTTTATAAACATCTTGACCAATTACAATTTGAAGTTCAACTCCATTTCAAATTAAACCTTTAACTCCCTCAGTATTTTTTATTTCTGATTCTTTAACATTAGTTTTATTTATTACAGTAAATCTTAATCTAGTTATACAATTATAAACTTTACTATAATTATCTTTTGAACCAACTAAAGTATTTAATTTTAAAGCTAATTGTGAGTAAAAATCTTTTTGATTAAAATAACTTTCAAGATCAATATTTAAATTTATTTCTTCATTTTTTACATTTGCAATAAATGTACCTATTAACTCTCCCTTTTTATAATTCAATTTATTTTTAAATATAAATTCATAATTAATATTTTTATTTTGATTATCAATTGTTATTGGACAACTATATTCATATCCTTCATTTTTAATACTTTGTAAATCAACATCAACAATTTTTGTATTTAAATTAACTGTGTCACCTAATTTAACATATTGATTAAATGGTTTACCATTTAATTTTACAGTGTCCAAACCAATGTGCATTAAAATATTTACATTTTCATTTATTTCAAAAAAATATGCATGTTTTTTATCAGTTACTAATGATAATTTTGAATTTTTTAATGGTGAATTAAAAAAACCATTTAGTGGTTCAATTCAAAAACCATTTCCAAGCATTCTAGTTGAAAATAATCCATCATTTAATTCTTTTAAATCATGTGCAATACAATCAACTGGTACATATATCTGAATTTTTTCCATTTTATTATTCTCTTTTCAAAATAATTTTCCAATAAAAAAAAAAAAAAACAATTTTATTAAGAAACTAAAAAATTACTTTCATTAATAGAAAGTAATTTTTAAACTATATCAATTATCATTTTAATTATTGAAGCTCATATTAAGATGATTAATAATCATTTTATATATATTTCTTTTGTAAAATATTTTTTTAAAAAAAGGCAGAAACAGTTGAAATTATTGCTGCAAAAGAGAGCGGTAATAAGAAGTTTAAAGTTATACTAGAATTCGTAAAATTCTCATTTTTTATAATTAAATTAATTAGACTTGAGATCATTATTATTGTGTGACTAATTGGTGCAGCTTCTTTCATATTTAAATAACACAATAAAACTAAAGCAGGCATAATAATTGGTCCTCCACTCATTCCAGTTAATGAAGTTATAATTCCTGCAAAAAAAGTAATTAGAGATATTTTTAGCATATTAATTTTTGTTTCACTTTTTTTATTAATATTAATAATTAAGAAATTTTTTTTATAAATTATTTTATTTGAACTTTTTTTTAAAAACATATTCAGATAAAATAAGCAAAATAGTCACAATTGTCAAAAATATTATTATTATATAATTTATATTTTTTTTAAAGCACTCTAAAATTACATTAAATGTTGCACTAATAAATACTAAAAAAGTCGATATAAATTTAATTTCTTCAAGTGCATATGTAGTTAAAATAACTAGAAGCAATGGAACATAAAGTACTCCTCCACCAACTCCAGAAATTGAACCTAAAAAAGAAACTAATAATGTTAAGAAAAGTAATAAAATGACAATTTCAATTGTTCCCATTTTAATTACCTCTTAAGTTATATCTTCTACAACTCTAAATCCTGTATTACTTGATGAAGTTGCAGCAGAAGCACCATTTCTAGAATAAACTTTATATCTTTTGCAATAAGAATCATGATATAAAAATGACCCTCCTCTAATTGCAAACATTTGATCTGAATTATAGCTAAATTATTCTTTCATTTTTAAAGCACTCATTTCATTAAAAAATTTATAATCAATTCTTGCTGGATTTAAGCATCATTCTCAAATATTTCCAACCATTTGATAAAGTCCATAACCATTTGGTTCAAAACTCTTTACTTTTATTACACCATTTTTAGTTTCAAAATTAGTAGTTTCACTATATTTAAATTCTCCTTTTCAAATATTACATCTCATTTCATTATTGCTATCAAGAAAATCATTTCCTCATGGATATATAGAATTTAGTAAACCACCACGAGCAGAATATTCTCATTCAGCTTCTGTTGGCAATCTTTTATTTGCTCATTTACAATATTCTAATGCATCATTTCTTGAAACATGAACAACAGGAAAATCTCACCTATTATCAATGTTGCTTTCTATTCCTTCTGGATGATCTCAAGTTGCTTGAGTAACAACATATCATCAATCAGCATTTGGAACTTTTGAATATTTTTTTCTTTGTTCATCATTTAATAATGAAAAAAATACATAACTAAATCCAAATTTTTGCGCGTCAGTAATGTAATTTGTTTTATCAATAAATTCTTTAAATTCCAAATTTGTAATTGGTGTTTCACTAATTTTAAAATCATTTACTTTAACAAGTAATGCTGGAGAATCATTATCAACTGTTTTATCTTTTATTTGTTCATTGCCCATTAAAAACTATTTCCCTTAATTTTAATCATACATTCACCATTTTCTTTCATTATAATTAATTTGATTATATCATTTATAAAAGAAGTGTTTTTCCCTATAAAAAAATAATTAGCATAATTTTATATAGTAATAAAAATACATGAACTATTTTTTCATTCATGTTTAATTTAAATTTAATTGCTACAATTACTTTTTTTACTTATTATTAAATAATAGTTATTTTGAAACTAAAGTTATCTGTACCTGGATAAAAAAGTGTTATTACTGTTTCACCAAGTTTATAGATTTTAAAATTAATAAATATTTCTTCACTATTAGTATCATTATAAGAAATTGAATAAAATTCAGCTACAGAAACATCACTTGATAAAATTTTTGAAAATGGTCTATAAAATCAATCTTTTATAATAACTTTAACTTTTTGAAATGGTAAATTTTTATATCATTTAAATTCTTGATCTGTTGTTCCTATTATAACTGCTTTTTTTGTTGTTTGAACAGTTAATGATCCCTTAAAAAAATCTGAATCTTCTATTGCAATTATTGTTACTTCTTTATTTGCAATTATAATATCATTCTCTATAGCAGAATCTTTTAGAAAATCTATCATAAAATCTTTTTCATAAGATACACGGTCAATTTTTAATAAAAGATTTAATTGATTTTTGACTAATTCCAAAATATCATTTCTTTTATTTCCTGCTTGTATAATAACTGAAAAATTAAATATATCAAATTTCTGAGTTATATATTCTTTTGAACCTCTAAAAAATTTATTGTTTGCTTTACACTCTACAATTAAATTTTTATTTTCCATAATTTGATCATTTAGTAAATTAAATGAATTTTTTTCATAAATAAAATTAAAGTCATTTTTAGAAAAATAATTAAATTTATTAAAAAATAAAGAAATACTATTTTGAAAATTATTTTCTATTTCTTCTTTTAGGAAACCTGCATTTGGAACAAAATTTAATTCATCCAATTCTAAAAAGCTTGATTTTATTTTTTTAACCCCTTTAAGAATATTATTGACATTATTATTTGCAGAAATAGTAATTATTTTGTCTCCTACAAGAAAACCATTATCAAAAGATTCGTTCTCGTAACTAATTGAAAAGTTATCAGCAGTAAATACATTTTTATTATTTAATTTATTTAAATTTTCAAGCACTTGCTCTAAAATAAATTCTTTTTTTGAGCCTGCATTAATTTTCAAATCTAAATTTTCTAAATCTAATCTTAAATCTTCATTTTTTTGTTTTTCTTCACAAGATACTACAGTAATACTTGGAAAAGAAAATAAGCCTATACTTCCAAATAACCATATTATTTTTTTCATATTTATTTTTTTCCTTCTATTTTATGTTCACGTTTAAATATATTATTTTTTTCTTTTGAATTATTTTTCAATAATTTTTCTTTCTTAAGTTTTCAATCTTTAATAATTTTTCTAATTATTTCTATTTCAAATTCAAGATCTTGAGTTTCTCTTTTATAGAACTCAATTTCTTCTTCTAAATAATTCTTTGCACCAATCTTTTTTTCAAATTCACTCTTTCTTTTTTTAGCAATTACTTCTTTTTCTTTTATTTTTTTATCCAAATCTGTTAAATATAAAAATGACTCTTTACAATATGACATATTTTTCCCTTTTTAGTTTTATTCTTATTTATTTTATTGCTAAAAAAAATAACTAAAAGATTTAAAAAAAAATAAAATATTTTTTACAAATAGTAAAAACATTTTATTTTTCATAAATAATCTAAAGTTTCTATTTTTCAAAACTTTTATATAAGAATGATTTTTTAAAAATCATTCTTATAAAAATTATTTTTTTGAATTTTGAATTTGAATTTTTACAAATTACAAAATTTTTAAAACTTTTTAAAATTTCAAAAGTTACTACTTTTTCTCCAAATAACATAAGAGAATTATTTTCCATTTTTAATATTGAAAAATACTTGCAAAATAGAATCATATATATTACAAAAATAATTTCATAGATAAAATAAACTGCAGATAAAATAATATAATTTTTGATAAAAAATTCATTTGTAATGTCTACTTTTAAAATTAGTTCTGGATTAAATAATATTAAAAATCAAAAAATACTTATAAATAGTAAAGATAAAAAAAAGAAAATATTTATACCTAAATAAGTGTAGGATATTTTAGTTTCTTTTATTTTAATAATTTTTAAATAATTAATAATAATTCATAAATTAATTAAAATAAAATTAGTAAATGAAAAATACGATAAATACTCAAACAATATTAAATATCAAGCCATTACTTTAATTCTCCCCTTGAATATATTTTTATTAAGTTAATTAGATTTTTATATCCTTGAATTTCATCATAATCAGATAGATTTAATTGATATTCAATAAAAGACTTATTAAAATATAAATTCTTTTTAAAATTTGTATCACTATAATTAAAATCAAATTTAGTATTACTTAATTTTGGACCTTTTTTTAGTTCCCTTGATATATTAGACTGTAAATCACTTTTATTTAAAACTCCTTTGTTAATTAAGAAATTAAATTTATTTGTTAAATTTGTACCAACTTTTAATTGCTCAAATCTAATTGAAGGAAGAAATTCAACACTTAAATCACTCTCAATTTGACCTGATTGAGTAACATGATCATATTTTGGATAAGCCCACATTGTATCTCCAGAAATATAATTTAAGTCTACTCATGGATAATCATCAAAATCTGAACTTCAAACATTATTTCCATTTTGTCATCCTGTTATTACATATTTTAAGAATGAAGGAGACCCTTGTAGTAATAGTGCCATTTGCATATATCCCAAAATACCTGGTTCTGATTTTGGTAAATTAAACGTGTTATCAACATCTAATGAATATTGACCTGTTTTTAATCCCAATTTATTTCTATTATTTAGCAATTTATTAAAATTTGGATTTGCTTCATTATAAACATCTAAAAAATATATTCATAATTCATCAACAAAGTCATAACCTGAAATATAATTATAATCAATGTCTCTATCTCAATCAGAAACAGCTAATTTTAAGTATTTCTTTTCTGGATCAATTTCTTTCATTCAATTATTATGTTGAGTTGTAGTTCACTTATCTTTTTCATCAATATAAAAATACAAATCTAGCTTATCAAATCAATCAGGATTTTTTGAATCAATATGATTTTTAAACTGCTCAAATCATCAAGTATTAAATTTTTTACCATTTTTATCTAAAATTGAACTGTTTGCAGTAAAATATTTTTTAGTTTTATCATTGTAAATCATCAAACCACCTTGATTTTGGCCTCAAACTGTATTAATTGAATTTAACATACCCCTTTTCATTCCAACTTCAACCATTAAATTTAAAAATTTATCAAATGTTGCTCAACTTTCATCACTAATATATAAATCATTTACAATTTCTTCAAAAACAATATCATTACCAAATAAATTATCTGTATTTAAATCACCCTTATATTGTCAAGGAATAAAATTCATTTCTTTTCTTCTATTTTCTCATCCATTATTTAATTCTTTTTCACCAAAATTAGAATTTCATTTTTCTGAAATATTCATTTGAAATCAATTCATACCCATTTCTGACATATAAGTAAATTCATTTTTTCAGTATTTTTCTCAATTATAATCAATATATTCATTCATATCATTTTTATTTAAAATAGTACTTGGTACTTTTCCATTATTATAATAGTAAGAACTTCACTCTGGAAAATGAAATAAATTATAATCAGAAACTGTATTATCAAATGATAAATTTAATGCATTTATATTAATATCTAAAATATTTGAAAATATATTTAAATTTTCTTGATTTGATGAAAAAACTTTAAATTTTGCTTTTATACTTTCATTACTTGTTGAAAGATACTTTGAAAAATCATTTGATTTAAATGAAATATATACAATATAAATTCTATTTTTAATAGCATTATTTAGTGCCTTATTTGAAGTCATCTTATCAGGAACAAGTAAAGTTCTATTAATTCCATAAGGGTTATACATTCCATTAGATAATTTACTACCTGATGCATAAATAAATTCTGCAAATCCATAGTTAACTTCAATTCCAATTTCTTCTAATTCCTCTTTATTTTGCAATTCAACAGATAAATTTAAGTTACTTATATCATTTTTTATAACAATTTGTGAATTTCAAAAATCATTATTTCATAAATCAATTGAATAATTTGAATTATCACAATAAGAATAATTATCATAATTTCCATAAAAAGAGGCATTTTCCAAATTATTGCTTTTCTCATTAGTAGTATATAAAGCAAAATTTTCAAGCCCATCTGCTGCAAATGAATGAATTTTTTCATTAGAGATATCTGTTGATGTTTCGCTAGAATGTTCACAACCTTCTAAAAAAACATCTCTAGTTAAATCTTTTTTTAAAGCAAAAGTTACAATTATTAAAATAAGTAAAGCTGTTTGAAATACTAAAATAGTAAATATCAAAAATTTGGTTTTCATGTTTAATACCCTTCTTAAAAAATTAGTATAAAGTTTTTTATGTTTTTATAATATCAAAAAAATAGTTTTTTATTTTTTAAATTAGATAATGATTAAAAATTTGAATATTTTTTAATCATTATCTTAAACATTAATGATAATTCTTTTGTGTTTTGTTCTGTAAAACCCATTTCTTTTTCATATTCATTAACTCATTCAATAATATCATTAACAACACTTTCTCCCTTTTGAGTCAAATAAATTTCATTTTCATTTGCTCTTGAAGAAAGTTTTTTTTCAATGTAATTATTTTTTATTAAGCTTTGAATATTTCTATGCATTGTTGAAGTATTTGTGTCTGTTAAATCTGCTAGTTCAACTTGACTTATTCCTTCCACATGTTTTATAAACATTAAATGTAAATATGCAAGTCTATAAAGATCTTGGTATTTTCTGATCATTTTTAAACTTATTCTTTTACTTAAAATAATAATTACTAAATTTCCTTTAACTAAAGTGCTTAAATTATCTAAATTATATTGTTTTTTCATTGACACCTCTTAATAGATATTATATGATTAACTTGTTTCATATGAAATAAGTTAATTTATTTGAAATAAAAAATGTTACTACCATAATTTATTATAAACAAAATAAAGGAGAAAATAATAAAATGCTTATTAAAAAAAGGAAAAAAATTGAACTATACACGCATTTATTCAGTGCACTAAAAAATAAAAAATTCTTAACTTTTTTAATGTTTATTTTAACAATAACTATTGCTTTACTTTTTATTTGAAATATTAAAGCAATTGAATATATTACAGCACTATTAGTCTCAAAAAGTGTATTGGATTCAATGTTATCAATGAATACAACAGATATTTATGAAATAATTCAAAAATTAGGTTTAGATTATACTCAAAGTCAAATTGATGAAATTTGAAAAAGTTTAAATTTTGGTTCAAATGTCTATGAACAAATAATTCAAAAATTCTTTTATGATTTTGTTTATTATGATGATGGCAAAAACTTATATTTGGTTTTTTGAAATATGAAATTTAATCTTTATTCACTTTCATTTACTATGATTGGTGATGTAAGTATTATAGTAGTACTTTCATATTTTAATTTTATTACAAGTGGTTTTATCGCTCAAGCTTATGAAAATGATTTAAAAAGAAAATTAATAAATAAAATAATTCTTCAAGATTTACATTATTTTAATTCAAATAAATCAGGTCAATTAATTTCAACAATAGTAAAAGATAGCTCAATTGTTACTTCATATATTAAAGAAGCACCAATTATCTATTTCTTATCAATTATTACAATTTTATTTTCAGCAATTGTTATGTTTAATATAAGCTGAAAATTAGCTTTATGTGTTTTTGGTTTATTACTAGTATTTATGCTAATAATTTTTATTACTATTTTAATTTCAAATAGTTCTACAAGAAAAATTAGTAAAATTTCACAGGGACTTGATAATGAACTTAGTGAAAAAATTTATAATATCAGACTAATTAAATCAGTTGGAACTTTTGAAAAAGAGAAAAAAAATTTTGATGATATGATCAATCATGTTGGAAAGAAAAAAAAGAAAAAATTCTTTGCTTCTGAAATCCCTTCTGCATTAATAATTGGGGGAATTGGAAGTTTCTCAATGGCATCAATTATATTTGGAGTATTTCTATTTTATAATGAAACACAAGCGCTTATTAGTATAATGACCTCTTTTACAGCAGGCGTTATTGTAATGACAATTCCAATTATGCAACTAAGACAAATAATTGGTGATGCTCCTCAAGCCAGAGTTTCTGCTGTAAATATTAGTAATTTAATAAATAGTGAAATATTTATTGAAAAAAATAATACTTTAATGATTAATGAAAAAATTAATTCTATAGAATTAAAAAATGTTGGTTTTGTATATTCTGAATCAAATGAATATGTAATTAAAAATTTTAATATAAATTTAGTAAGAGGAAAAAAATATGCTTTTGTTGGACCAACTGGTAGTGGAAAATCAACAATTGCAAAATTATTATTAAGATTTTATGATCCACAAGATGGAGAAATACTGATAAATAACAAATTAGATTTTAAAAAATTGAATTTAAAATCTTGATTAGATAAAATTGGTTATGTTGATCAAGAGCCCCAAATTTTAAGTGGAAATATTTATGAAAATGTAAGTTATGGTTTAGAAAATAAAACTCAAGATGATATTATTGAGGCCTGTAAAAAAGCAAAAATACATGACTTAATTATGAGTTGACCAGAAAATTATGAAACTGTTTTATATGAACGTGGAGCACAATTAAGTGGTGGACAAAAACAAAGACTAGTTATTGCACGATTAATTTTAAAAGACCCTGAAATTTTAATTTTAGACGAAGCTACAAGTGCACTTGATAATATTGTTGAAGCAGAAATTCAAAGTGAACTTGAAAAATTAATGGAAGGAAGAACAACCATTTCAATTGCTCATAGATTAAGTACAATAAAAAAATTTGATGAAATTTATGTATTAGAACAAAATAAAGGAATTGTTGAAATTGGAAATTTTGAAAAATTAATTTCTATTGACGGTTTATTCAAAACATTATATCAACTTTCAAAATAGAAGAACCTCATAATATTATGAGGTTCTTTTTTATTAAATTTTAAATAATGTTTCTAAGGTTAATTTATGAATTTGTAAATCTAAATCTACTATTGGAACAATTATAAAATCTTCTTTAAAACCAAAGTAAGGAATTTCAATAATATAATTATTACCATCTTGCTGTTCAATTATATTTTTTTGATTTGAATTTTCATAATCATTAATAAAACTTCTATTTCTTCATAATTCAAATTGTCTTTCATTTTTATTTTTTGGAATATAATTTTCCACTCTTAAAAATAAACTTTCTTTAACCATAACTTTGCAATCATTAACCTCAGTATTACATCAACCTTTTTTAGATTTTTCATCAACAGATATTTTCATTTTTTTTGCATTAAAATTTGAATTTATATATAGAGTAATTCAATTAAATGAATTTGTTGTAGCTTCACTAATAAATAACTTTTCATAATATTCTGGTAATTTATTATTTAAACCAATAACATATAAATCATTATTTTCTCACCCTATTTCAAAATATCCATGCAAAGTAAATTTACTTTTATTAGAAAAATTTAAGTAGTCTGATTTGAAAATAGTATTTTCAATTATATTAAAAGATAATTTCAATTTTTTATAGTTTTTGACACCCTCTAAATGAAATCAATTTTTTTGTCCATCATTTTTTACTTCAATTATATTTTCATTAGAAGTTTTAAAACCATTACTACTGTAATTAAGTATAATATCAAATTTTTCAGTTTTTATTTCATTTATATTGAAATGACATTCATTCAACCCATAATATTAACTTCAATTTTTTTATAATTTACACCTTTAAAAGTGTCATCATAAATTAATTTAAAATAAATATCATTTTTATTTATATTAAGAGATAAATAAAATTTATCATAAAATTTTACATTATAAAGTTTTGTAAAATTTTCTTTTAAGATTTCTGTTTTTTAAATTAAGTCTTCCATATTTTTAAAGTTTCCATCTTCATATAATTCCTGTACTTTTTTTAAAAAAATTTTTTCAAAATTTGGTGATTTTTCATAAACTGGTGGATCATATACAAAACTTGTATTAGAACATGAATTTACAAAAGTTATAGGTATAAAAGTAAGATATAACACAAAAATGCTTTTAATAATTTTCTTCATTTATTTTATTTCTCATTTTAAAATTTTTAAATCTAATGAAGTATTTTGTCATTTACTACCAAAACCTGTAACTCCTATAGAACCATAAATTTTATATTCCAAATCATAATTTAAATTTATTCTAACTGTTATATCACTATCAACTTCTGAATATACACCAAAACTAGTTTTTTTAAATTTTATTAATTCCACTTTTTGTTCAACATTTAATTTCATTTTTTCTAATGAAAAATTTGAATAATTTTTAATGTTATCATAACCATTTACATTAAATTTTAAATTTTTAAATTTATTTGTAAAAGCTTTAAAGTAATCATAATTGGCTGTTTGTTTTTGCTCATCTGTTAAGTAGTCTTTCAAATTTAAAGCTTTATATCAAATATTATTATTTTCTCAAAAATATGTATTAAGCGTACTTCAATTTGAACTAATTTTTTTATTTATTTTATGAAAAATTTGACGATTTAAACTGCTATAGTCATATGTAACATGAACAATTGCATTTAAAGAATTATGATTAAAATTAACAAAATTTGTTGAATTAATTATTACTTCGAAATAAGCTTCAGTATAACCACTGCTTTTATATGGTGATTTTATTTTTACATTTAAATTTTTAGAATTATTTTGTAATAATTTATCATAGTTATTATTTCCTCAAATATTATTTATTTTTGGCATCAAAAAATCATCAATAGCTTTTAATGCATCTGTTTTATTTAAATTTAATGATTCAGGAATTTCATTTTTTTTTCATCATTATTGTTGTTTGATTTTTTGAATTATTTGGATCAAAAAATTTATCAAATTCTGATAAATCGATACCTTGCTCAAATGGAACTAATCAAACATTAAATCAAGTAAAACCTTTAAATAACGAATTAGTTGGTAAAGCAAATATTAATATTTCATATTTATTGCCAATTGAATTTTTGAGAATAGTAAAATCTTCACCTTCAATAATGTAATTATTTTTATTTAATCAAACATCACTTAGAAATGCAATATCTTCTGGGTATTGTTTAATTAATTGTAAATATACGTAATTTCTAATATTTTTTTCATCATTTTTTATAGAAATACTATTTGGCTTTAATTTAAATTTTGAGATATCTTCTTTTTGATCAATTTCTTTTTTATTAATTGAATTTTCCTGATTATTTAATAATGGTACAGTATTTGTTAAAGTACCTAATGAAAATAAAGTTGCTAATAAAAAATTCATATTTTTTTTCCTTTATATTTTAAATTTGCATTTTTATATTTATATTTATATTTTAGTTTTTTAAATGCAAACTTATTTACATTTGTAATTTGTTAAATCAAACTAAATTATTTTTATTCCTCCTTTAGTTTCACTATATTTTCAAATTTTTTAAAAAAATTAAGATATTTTACTTTGAAAAAAAGTACCATAAGATTTTTAAAATTTAAAATTAGTTTTTTTAATAAAAAATAAAAAAATCTATAAAATTAAATTTCATAGATTTTTTATTTCTAAATTATAAAATTATTAACTAGATTTATTTCTCATCTCTTCAAGTAGTTTATTCATTCTTGGTTTAATTGCTTCTTGTTCTCCACCATAAACTATGTGAATACTGTTTCCTTTTACAAGACTTCCAGTAGTTCCTCCAAGTGCTTTAATTCCATTTAGATCTGCTATTGAAGAATCTTTTACAGTTAATCTTAATCTTGAAGCACATGAATCAACATCAACAATGTTGTCAGGCCCTCCAAGGAATTCAATAATTTTTGCAGCTTTAGCAACTCTTGCTTCTTCTGCCTCTGCACCTTTTCCTTCTTTTTTAGCTTTAAAGTCAGCTTTGTTAAATAATTTAAAGTCAACTTTACCTTCTCTACCTGGAACCATAACATTTCCATATTTTACTGCAAAATAGAATGCAAAGAAGTATGCAAATGCCATTGCAACTCCAACTAATAATACACCAAATACATTTCATGCACCCATTGCATTATTACCAAAGAATGGAATTAATCCAAAGACAATATAATCAATAAATCCACCACTAACTGTCATACTTACATGTGTTTGTAATAAACCTGCAAATAAGAATGAGAAAGCAGCTAATGGCATATGTACTCCATAGAATAATCAAGGAGCTAAGAATAAGAAAGTATATTCTAATGGTTCTGTAATTCCTGTTAAGAAACAAGTAAATGCAGCAGAGAAATAAATTCCCATTACTGATTTTCTATTTTCTTTTGGAACATTTAAGAACATAGCAACTCCAGCTGCTGGTAATCCAAATAACATAAATCCAAATTTACCACTTTGGAATCTTCCAATATTTAATCCTAATTCTTGTAAGAAAGTATAATTCATTATATCTAAGTTACCATTTACAGCATAAGCCATATTTTGATCACCCATTGCCCCTCAAAGTGAAGTTTTTGCAATAGCTTCTCTTAAATTAGCTCAACTTGTAAAAGTATTATTTTTGAAAAATGAATTATATAAGTCAAGTAATCTTTGTTGTTCAGTTGCATCTTTTACATTATTAAAAGCTTCTGCAATTGAACCTCCTGCGTTTGTTCATCATAATGGAGCATAAAATACGTGGTGTAATCCAAATGGTACAAGAGATCTTTCAATTATCTCAAATACAAATGAATCTACTCCATATCCTATTTCTCCTGATTTTTGTCCAAATCAAGCAAGACCTTGACCTAAATATGGTCATAGGAACATAAATATAAATGATAATGGTACAACTAACATAAATGCAATAATTGGTACAAATTTTGTTCCACTAAAGAAACTAATTGCACTTGGCAATTGAATTGCATGAAATTTGTTATAAGCGTATGCAGAAATTGCACCAACAAAGATTGCTGCAAAAACTCCAGTATTTAATGAATTAACTCCTAAATTTGAAGTAATTAATCCATTAGGAATTCCATTTATTCATAATAGTGAGTAAAGGATTTTTCCTGCTCCATCAATTTTTTCTAAATTTGAGTTTAACATTATTGTATTACTGTCAATAACACCCCCAACTGTTGGTGCAACACTACTACTAAAGTAAGTAATATTTTGTCCAACTCCTGGGGTATCCCCAACTCAAGCTGCTCATTCTCCATTTGAATATGATGCAAATCCTAAAATTTTTCCATCAATATCTGTTAAAGCAGCATAAACATTATTTTCAACAGTTTGGCTGTGTAATAAAGCTGCTTGCATTCCGTTTAAAACTAAAAATCCAACAACAGCTGTAATTGCAGCAACACCAGAATCTTTTGTATATGCCATAGCAACTGAAATAGCAAATAAAATTGGTAAATTTCCAAAGCAAACATCACCCATTTTATTCATAGTTGATCCTAAATAAAACCCAAATGATGCATCAGGACTATTTGAAGAAATAGCTGCCCCAACACCCAAAAATATACCTGCAATTGGCAATAATGCAATTGGAAGTAAAAAAGCTTTACTTAGTTTTGATAAAGTTGGTGAAATTCTTTTTCCAAAATTTTTTCATCACTGTTTTGAAAAGAAAACAACTTTATTTTGATCTATCACTTTTTCTGTAATATCTGTTTTCATTATTTATTCCTTTCTAGTAATATTTCAAATTTAAAAGGCTTGAATTGTCATTGCAATAAAAGTAATTACTATTACTACCATTAATAGAATTGAAAAAAATAAAATATTTTTTTTCAAAAAATTTCAAATATTATCTCTATTTGATTTTCCTGCTAAATTAGACTGAACATAATTTCTATTATTTTTAATTCAGTAATAAACTACAATTAAAATAATTAAAATTACAAAAGAACTAACCAGTCCACTAATAGAAATTATTTGTTCATTTGTCATAATTTTATACCTTTCTATTTAGTAATTCATACCTTTAATTTTTAGTGAGACTAATCTCACTTATAATAATAAAGAAATATAAAAGAAAAGCAATATTTTCTCCAAATATGTTAATTTTTTTAGAAATCTAATTGAAAATCTAGCATTTTTATTATTATATTATAAAAATATTTTTATAATTGGTTAAATGATTTACTTATTTTAAAATATAAATTATTTTTGTATTTTAAAATATTTTTGATTCCAATTTAAATTAAAAAGGAACAATATAAAATATTGTTCCTTATAATTATTTTTTTATTTACCTCTTTTAACAGCATTCATTGTTTTTTTAATGTCTGTTTCTGTAGGTTTTCTTCCCATACTTCTATACATTGCTCTTATTTGATTTTCATTAATTGGAGGATTATCTCTTAATTGTTTTTGAATTACTTTTCTTGTAATTACAAAACCAATTATTCCTCCAACAACAGCTGCTGCTATTCCAATTAACAAAGCTCCTCATCATGCTATCATAGTTAATATTCTCCTTTATAAAAAAAATATGTCTTATTAATAATAACATATTTAATTAATCAATACTATTTAAAATTTCTTGTGAAATATTTTGTGCATCAAATTTAATATGTTTTAAAACATCATTAAATGGTGCTGAATAACCAAATGTATCCACACCAAATGCTACTCCACTATCACCTAAAAATTGGTGTCAACCAAAAGTTGATGATAATTCTATTGAAAATCTTTTTGTATTTTTATCAATTATTTGATTTTGATATTCTTTTGATTGAAGTAAAAATTCATTCATATTTACCATTGAAACAACATTTACCTTATGATTTTTATTTTCCAAAATTTCTTTAATTTCTAATGCAAGTTGAACTTCACTTCCTGATGCAATTAGAGTTATATCTGCATTTTGTGATTTTGAAATTAAATAAGCTCCTTTTTTTACTTCATTTAAAATATCTTTTGAATGATCAAGCTCTTTTAAATTTTGACGAGTAGCTACAATAACACTTGGTTTTGTTTTATTATTTAAAGCACAATAATAACTAGCAAGAGTTTCTGCCATATCACAAGGTCTATAAACACTTATATTTGGTATACTTCTAAGCATTGCAAGTTGTTCAATTGGTTGATGAGTTGGCCCATCTTCTCCAACAGCTATTGAATCATGTGTAAATACTGAAAGTGTTTGAATTTTCATAATTGCACTCATTCTTAACGCTGGTTTTAAATAATCTGCAAAAACAAAGAAACCTGATGCAATTGGTAAAAGACCAGTATGTAATGCAATTCCATTATTAATTGCACTCATAGCAAATTCTCTTACACCATACATAATATTTCTGCCTGTTTTATTATTAAAATCATAATTGCCATCAGCACCTTTAATTTTTGTTGATTCGCTTAAGTCTGCACTTCCCCCAATTATACTTGAAATATTTTTGCTCAATCAATTAAAAGTATTTGATGAAGAAACTCTTGTTGCTTGTTCTTGTTTTTCATTTAAATTCATTAATTGATCAATATCAATATCTCATTCTTTATTGATTGAGTTTAAAAGTTGAGTTGCTAATTGTGGAAAGGTTAATTGATATTTTTCAAATAAATCGTTTCACTTTTTATTTGATTCAACTCCCCTATTTAAAACATTTTCTTTATAAAAATTATATACATCACTTGGAATACTAAAATCTGATTCATTTCAATTAAAATAGTCTTTAACTACTTTAATATCTTCACCTAACGCAGCACCATGAACTTTTACAGTTCCTTGATTTGTTGCACCAATTCCAATTATTGTTTTTACCTCAATATATGTTGGTTTATCATTTTTTTGAGCTTTTTCTATTGATTTAACAATGTTTTCTAAATCTTCACCATTATCAATTCTTAAAGTATTTCAACCTGCTGCTTTAAAGCGATCAGCAATATTTTCACTTTGTGCAACATTTACTGGTGCATCTAATTGAATATCATTTGAGTCATGAATAACAATTAATTTATTTAATTTATATCTTCCTGCAAAACTAATTGCCTCTTGACAAACACCTTCTTGTAAATCTCCATCTCCACATAAAACATATGTAAAGTGATTTATTATTTCTAAATCTTTTTGATTATATTTTGCAGCTAAATGACTTTCTGCAAGTGCCATTCCAACTCCCATTGCAAATCCTTGTCCTAAAGGACCTGTTGTTGCTTCAACTCCTGGAGTATGTTGAAATTCAGGGTGACCTGGTGTTTTTGAGTTTAATTGTCTAAATTGTTTTAAATCTTCAATTGATAAATCAAAACCTGATAAATGTAATGCACTATATAATAATCCACTTCCATGACCTGCACTTAACACGAATCTATCTCTATTAAATCAAGTCGGGTTTTTAGGATTAATGTTCATTATCTTTGTAAATAATGAATAAACAATTGGTGCTGCACCAAGAATAATTCCTGGGTGACCTGAATTAGCTTTGTTTACAGCTTCAACTCCAAGAATACGTAATGCATTTAAATTTTTATTGTTTTTGTTCATAGCTCTAACCTCTTCATTTCACTTTTATTATATATTTAAACATTAAGAAAATTGCACTATAAATTAAAATATCTAAAATTGATTTATTTTACAAAAATTTTAATTTTTTTACTTTTTGAAAAATAAAAAAATGTTAAATTAAATAACATTTTTTAAAAAAACTGTATAACTAACTTTTTAAACATATAAATCTTCTTTTGAAAAGATAATTTTTTTATATAAATAATTATTGATGAAATCCCTAAATAAAATATTGGTATAAAAATATTTAACCAAATATTATCTTTAAGTTTATATTCTTTAATTATTCATCAATAATTATTTTCATCAAGTTCTTGTGTTTTTATAAATTCTGAAGAAAAAAATAGTGGATTTATAATTAAATTATCTAAACATAAATAGCTAAAAATTTTAAAATTTATATAATTATTTTCTGAAATATCTCCCCCATTTGTCTTATACATGTAATAAAAAAATCAAGTTATTAAAATATAAGAAATAATTATTGTATAAATTATTATTGAAATAAAATTTTGTTTTTTTATTAAAAGAACAGCAATAAAAATTAAAATAGAAGTTAAAAATATATTAAAAATGATAAATTGTAAACAATATCAAAATAATCTGAAAAAATATTTATTTGCGTCTGTTGCAAATGCACGAAATATTAATATAATAAAGAAAATTAAAGAAGATAATATAATATTTAGAATAATTATAGCCAAACTTTTCATAATTATAAGTTTTTCTCTAGAAATTGAAAGACATAATCATGAAACAATTTTTCCACTTTTTATTTCAGAAATAAATATTTTATTAATAAAAATAACTGAGGAAATTGCTAAAAATGCTATTGTAGGACCTGCAAATAAAAAATTTGAAAGTAATGTAGAATAATTATTTGATACATATTCTGATTGAAAAATTCATTCAACATTTGGATCTCCTAATGGGGAGAAAGACATATCTATTTTGCCAATATATGGTCCACCTAAATGTTTTTCAATAGTTATTTTGTAATCTAAAAACATATAAATTGAAATTAAACCAATTGTATAAATCGTTGTTATTATTAAAAAGTATACTAAAATTTTTCAGTACATTTTAAAATGAGATAGTAAAATTTTATTATCATTTTTTAATTTTATAAAAATTTTCATTTTATTTATATAGACTTAAAAAGTCCTGCTCCAATTGATTTACATTTTTATTATTAATCTCAATTTTTTTTATTATTTTTCCATATTTTAAAAAGCCCACAAAATTAAATAATTTTGCAACTTCTTCAAAAATATGTGAACATAATAAAACAGCTGTTCCTAATTTTACTAAATCTTGAATTACTTCATTAAAAACATTTTGCATTAAAGGATCTAAACCACTTGTGGGTTCATCTAAAATTAAAATTTTTGGCTTGTTCATTAAAGCAGCAATTATGGCAATTTTTTGTTTTTGTCCTTTAGACATTTTTTTAACTTTTATTTTTAATATATCTTTTAAATCAAATTTTAAGATTAATTCTTCAATATATTGATTTTCATTAATTTTTTTATATTGTTTCATAAAATTCAAGTATTTTTCTCCTGTCATCTCATCAAATAAAATGATTTCACCAGCTACATATTCAGTTTCCTCCATTATTAATTTTGAATTATTCCAAGAAATAATTTCATTTAACTTAATTTCACCTTCAGTTGGTTTAATAAAGTCCATAATTTGCCTTATTAATGTAGTTTTTCCAGCTCCATTTGGACCAAGAATTCCATAGATATTAGATTTTTTTACATTTATATTTATATTTTCATTAATAATTTTATTATTTATAATTTTTGAGACTTCTCTAATTTTTATCATAAATTCATTTACTCCCTTATTTTGCAATAAGTTTTACAGCAGAAATATATCTTTGAACATTTAAGGTGCATAACTTAAAGGTAGGAAATGAAAAAGACATTTTTTTCATCAATTGTTAATTTAATTATTCCATAATTCTAGTCAAAATAAAACAAAAATTACAAATTTAATAAATTTGCATAAATAATATAATTAAATTAGAAAGGAGGCATTATTATGTTTTATAAGTTAAAGAGTCAAACATGACCAGATAATTATTCAACAGGTATTGAAGGAGTTATTATAAATGTTGCTCATATTATGAGAGCCTACAAAGTTGATTTTCAATATATTATTGTATTTCAAGATAATAGTAAAATTTCTCTAATGTACAATGATTCAAAAAATGATATAAAAGAAATTGAAAAATTAATGAATATCACTAAATAAATAAATTATTATTAAGTTTATATGCTTTTAGATTGATTAGCTTTCCTATTAAACGAATTTTTTAATAATCCATTAACTTCAATATAATAACCAATTGAAATTTTTTTATATTTATTTCATAATTCTAAATCTTCAAAAATTAGATCTATTCATTGATTATTGTCAAAAATAATCTTAATTTTTCTAATTAATCATTCACCAGAACCGTTAGCATTTTTACCAGAGCGTTCTTCTGGGTTTGAATAGACTTGTCCTGATAAATGAATTAAATTGTTTTTAACTATATCTTTATTCATTATTATCACCGTTAAATTTTTCAACTGTTAAATTTTTAATGGTATTTGATTGAGTATTAATTATCTTTAATAAGGTTTCCATTTCTTTTTATATCTTTTGACTTTTTCCTTTATATAATTTTTTTAAACGTAACTCTATTTCTAACTGATTGCATTTATTACAAACTTTCAAAACTTTACTTTTATTAATTAAATATCTAGTATGTGGAAAATAACTAAATTCTCTACTACAGCTTGTATTTTGACATTTATTTTTCATTTTAAATTACCTCTATATTTCTATAAAAGTATAAAAAATAACATTCTTTCCAGAGCCCGCTCAGGTTAGACGCACTTTGCACTATAAAAAGAACAAAGTGCAATTCTTTCGGTCACCACGCAACGGCCAGCATGCATGTGAGTATCATTTACATTTTCTACCCCAAAAACCTTTCACAAGGAATCTCACTTATGCAACTCATAAGAGTTTAGACTGCCATTTTTTGTTAATATCTAATAATTAGGTACAACAAAAAATCTACCTCTATCCATTAAAATTGGATAGCCGTACTTCAAGCGCAACCCTGAAGTTACCCCGCCTTTTATAGATGCGGTCTCTAATGGTTCACGTATACCACATAACCGGAGAACAATTTTTTAAAGAGTCACCCCAGAACATAAGCCGCCTCTAGCCATCCTTCATTTTAATGAGGATTAATTTAATTCACTCTCTTATGAGCTTTACTTTAACGTATATTTATTATACCTTCTTTTTTTGCTGATCCATAATAGTAGATAATAATTGCATCCACTTCATGCTCATTAATGCGTTTGGAGCACCAAAATCAACCCCCAGCACGACCAACTTTAAATATGAGTCCCTCAATTGATTTTTTATTATTTTGAATTTTATCTTTAAAGTTTTTAATCATAAATGAATTAATTTTAAATATGTTTTTATATTTAATTTCAATAGCACCTATTAACTTTGAATATGAAACCATATCTGTATTAGCTACATTATTTTGTAAGGGTCTCATTTCTTCAAAAATAATACATTCATTAATTGATGGGTATAGACCTCTAATTTTTTGTATGAATTTAAAATGTTCTTTTCACTCTTTACTAAAAAAAGTATGAATATTAAAACCATCAAAAATTGAGGTTGTACCAGTTCCAGAAATATCGATTCCTAAATAGTAACTATTAATATAAATCAACTCCCATACTTTTTGGCCTTCTTTGAAATTTAAATTCAATAGCCTCAAATGGAATTTCTAGATCTAGCATTTCATACACTTCATATAAATTATTTTTTAATCAAATTAGACATTCTTTAACTTTACTGCAAACAGGTAATTCAAATTTAATAATTTCTTCTCATTCTAATTGATAAGAACTGAATTCTTCAATTTTGTATAAAAGTCTAAATTCTTTAGAACCTCTAGAAAAACTCATATATTTAAATTCTATTCTCGCATGCATATTAAAATCTCTTTCCAATATTTATACGAAGTGTTTATTTGGTTTTACAAAAGAACAAAAAAAGACGAATTTATCGTCTTTTTTCTATTTTCCTACCTCTTTGTTATACGCCCGAACATTTATATATTTTCTAGTTAAACTTGCATTTCTAAAATTAAATGATACATTATATTTTACTACTAGTCTTCCTGCATCTGATCAATATAAACCTATATTTATCATTGCTAATTTTGGATAATTTGCATCTTCATCTGTATGAATAAATACAAATGAACCTATTTGTTTTCCATAAAATCCAGTGTCTGAAGGATAATTTCAACCCACTTTTAAATAACTTTCTTGTTTTTGACTTGGTGTTGTCAAGATTGGTTTATTATAATCACTAATATATTTTAAATCTGTGAAAAAATTTAAATAACCATTAAAAAAAATTATAAGAATTTCCTTCTGATTCATAAATTCCAACTAAAAATATTACTTTTACTTCAACAGAAGTATAATTTTGATTTATAAAATTCATATTACCAATTAAATTTGTATTCAAATAAACATCTCCTGTTCTAAAGTCTCCTTTTGTACTACTTCCTCAGCTTGAATAGCCCCCTTCAGTAAAACCTTCATTTGTTGGACTGTTAATAATAACATTGCTTTGTAGTTTATTTGTAATTGGACTTTCATTCAAATTATTTTTTGTTTGAATATTAGTCATTGATAATAAACTACTTTGAAAAATACACACTAATGATAAAATAGATATTCTTTTCATTTTATCCCCTTCTTTTGTAGTTACTTAAATTTGTAACTACAAATATTATACTTTTGCAAAAAAAAATATTTTAAAAATGCTAAATTCCTTTTAAAATATAAAAAATCTATATATTTAAAAATACATAGATTTTGAATTTTTCTAATGAATTATATATATTATATATTTTTATTGTGCTGCTGTTACTGTAACTGTAAAAGTAACATCTTGGGCACCAGTATAACTTACTGTTATTTCTGAATCACCAGCTGCAACACCTGTAATTTCAATTTTATTATTTTCTTTTATAGCAACTGTTGCATTAGCAATTGTTGCTGAAGTTGCACTAATTTCTACTCCATCAACAGGATGTGCAATTTCTACAGTAACTTCAATTTTTTCACCAGCAACAACTGTTTTGTTTTCAATTGGTGATATAACTGGTGCTTCTGCTTCTGCTTCTGCTTTAACAGTTACTATGAATTTTACACTTGTTGCACCTTCATAACTTACTGTTATTTCTGAATCACCAGCTGCAACACCTGTAATTTCAATTTTATTATTTTCTTTTATAGCAACTGTTGCATTAGCAATTGTTGCTGAAGTTGCACTAATTTCTACTCCATCAACAGGATGTGCAATTTCTACAGTAACTTCAATTTTTTCACCAATAACAACTGTTTTGTTTTCAATTGGTGATATAACTGGTGCTTCTGCTTCTGCTTCTGCTTCAACAGTTACTATGAATTTTACACTTGTTGCACCTTCATAACTTACTGTTATTTCTGAATCACCAGCTGCAACACCTGTAATTTCAATTTTATTATTTTCTTTTATAGCAACTGTTGCATTAGCAATTGTTGCTGATTCTGCTTTAAGTTCCACTCCTTCAACAGGATTTGTAATAGTTACATCAACTTCCAATTTTTTACCAATAACAACATTTTGATCTTGAATTGCTGATATAATAGGAGTTTTTGAATCATTTTCTTTTAGTTTAACAACTGAAACACCTTTTTTAACACTATCTGTATTTTTAACAAATTCATTTTTAGCTGTTCCTGCTTTTGTTGCATAAACTTCAATATCAAATGATAATTCAGCTACTTTTTTTGAAGTTTGACCAATTTTTAAGATTAAACTATCTGATTTTAATCCTGATAAACTTTCTGCATCTTTAACAACGTTTCCATCTTTAACAACAAATTTTGAAAATGTAGCATCAATAATATCTTGTGCTGTTGTTGTTCCTTCAATTCATGAGTCATTTCCTTTAGAAATAAACTCTTTAACATCATTTACTAATTTTTCAGCTGCGCTAACTTCTTTGTCACCACATGCAACAACAGTTGCGCTGGTTGTTGCAACTAAACCAGTTGCAGCTAATAATCCTAATAATTTTTTCATTTTTTCTCCTTTATTTTTTTGAATAACCCGACTTTAAGTCTATATATATTTTAATATGTACTACTAAGGTTAATTTATTTTAATCAAAATGAAAAAAAATTTAGTAAATAAAAAATAATATATATTTATAAATATATTATTTTTTACATTTTAAAAATAATTTTAGTTAATTTTGTTAAAATCAATTAAAACACTTGGAGAGTTATTTCTAATTTTTCAAGTTGTTATTAATAACGAAATAAAATATAAAAGAAAAATTAATATTCCAGCAGTTAAAGGAGCCCATCAAGTAATCCCAAAAGAAATAATCCCAATAAAGTTAATTATAATTTTAACGGATGTATAAATTGCAAGATAACTAAATGAAGCTCCAATTAAAAATGAGAAAAATGAAGTAAGAATTAATAAACCAAATATACATAAGAAAATTTCCTTATTTGAATATCCAAAATTTTTCATAACAATCATAAATGTTCTATATTGACTAACATATAAATCACTTATTAAAATAATTGTTAATATCATAATTGGAATATTTATTAATTCAGGTTTTACAAAAATCATATAATCAATAATAAGTATCATTTACCTTATTTCTTTTTGCAACAAATCTATCAACTGTATTTACTCCTGCAACTTTACCAAAATTAGATGCTACACCTTTAACAACATTTTTAGTAGTTGCTCCCATACTTGCTCAACCTTTTCTTGAAAATAAACCTCCAGCAAATGCAACACCACTTGTTGCACTTCTTGTAACTTTTCCAATAACACTTGGAAAACCACTCCTTTTTTGTTTTATATTTTGAGCAGCTGCAACATTTTGTTTTCCTCCTTCAATTGAACCATCTGGGTCCGAAGCAGAAAAGTTTTGTATTTTATCAGTAGCTTTATTTAATGCATTGGTTGCAGCATTTGAACCTTTAGATTTAAATAAAGCCATCATTCCAGCTCCTCCAGCAGCTCATCCAAGTTCTTTCATTCCGGCTCCAAATATGCATTTACCGTGTTTTTGCACTTAAAAGAGCATTTTGACCTTCACTATGTGTTACACCTTCTCCACCAGTAAAACTAGCTATAATTTGAGGAGCAACAAGTGCAAATGTTGATACACCAAAAATTACAACAATTAGTAAAAACATTTTTGTTGAAAATTAAAATTTATTAATTGATTTTGAAATAAATAACATTAAGAAATTAATCATTACTATGTAACTTAAAATATTTCCTATACTCACCAAAGCTTTAGCAATAATCATGTATTTTCATTGTTTCATTCTTATACCATGATCATTTACCATTCATGCAGCAACAAGTGGTCCAATTAAAAATAATAAAAATAACTCAATACTTTTTTGAACAATTGCCATACACAACATTATCAAAGTATAAAGTAAAAATGCAACTGCCAATATTTCTACAACTATATTATAGTTTCTAATATTTCCAGGAACTGCATAATCACTAGGTATATTTTCAAAATCCCCTTTTCAATCAGGGTCACCCATTTTATATAACAAATCTGCTAAATTGGCATTTTTTAAACCAAAAGCTAATTGAAAAGCTTTTTGTAAAAATTCGATTAAAAATGTTAATCCATAAAAAAAACAATTGGTATAAAAAATATAAACACTATTGCAAGTGCAGTTGATTTTAAAGATTTTACAATTCTTGTTTTTCAATCTAAATCTTCATTAAAAGTATTCGTATAGCAATAGTTAAAACTAATCCTAAAGTTAATGAATAAATTTTAATTACATTATCAATTTTTTTAATCATAAAAAGCCTCCAAACTATTTTAAAAAAATTTTTATTAAAATAATTTAATTTTATCATAATAAAAATTTTTAATAAATTAATTTTATACTCACTAAATACTCTTATTTTTTTATTTTATTTACTTATAAATTAAAATTCTAATTCTGAATTAACTACTTTAGAATTATTATAGTTTTCAATTTTTAATATTTGTTTTGAATATAAAATATTTGTCAAATAATTTAGACCACACCCTAAACCAACAGGTGCAAATACAACTGCAATTAATTCCACAGAAAATACTCCTCATCCTACAACATATGGATCTATTTGTGGATAAGGAAATGGTTTGTATGCACCCATTTCTCTATCATCTGGATAATAATTTATTAACATTGCAGCTCTAGTTAAGATATATACAGTATAAGTACCAATTAAAAGTATATTAAATCAACTATATTTTTTAAAATAAGTTTTATTGTTAACAATTCCTTTTGGAATTATAAAATAAAATACAATAACCAAAATTGGTGTTAACACATGTTCAAAAACTGATTTAAAAATATTATATCAAGTGTCAAAACCAGTCATCCCACTTCAATTTTTAGTGACACTAGATATTATTAATTGTGAATTATATATTAAAAAAGTAACAATATTTATTACAACAAGTCTAGTTAAATTATTTTTTCCTGAAATTCACTTTGGCATATTATTATAATTGATACTAATTCAATTTGTAATTCCATAAGCAGATGTTGCTAATGCACTTCAAACAGATAAATAAAGTGATTGAGAAATTAATGCATAATCAAAATTTACTGTATATTCTCCATCTTTTCCAGGTCCATATTTTGGTTGAATTGTTGTGAAAAATAAATCCAATAATACACATAAAATAGGAACTAGAGCAAATCAAATTAAAAAAGTCTTTTCAATTTTCTTTTGATTATGATTATTTTGTTTCAGAAAAAAATACATTTTAAATCCCCTTTACTATTATTTAATGATTATAACTTTTATGGTATAAAAAAACTTTTTAAAAAAGTGATATATTTTACTTTTAAATAAAATATATTACTTCAAGTTAAGTTATTTTATTCTGACAAAACTGGTTCATCCATTTGTTTATTTATTTCCATTTGGGGACCTGAATTTAATTCAGCAGGTGCACATAGAATTAAAATACCACCAATTAGTCCACTAAATAAGATTCCTAAAACGCCTAGTGCAACTTTTAAATTTGTTGATTTATTTTTTAATGCTTTTACAAACAAAATTAAAGTAACTAAAGTCCCTATCATAAATGATCCAAGGAAAAGAATAACTATAATAGTTGCTATTACAAATTCAATTCCTTGTTTAATTCCTAATAAAATTATTATTAGTGCATAAAGTAAGAAAAAGCCTAAACTTAAAGAAGACAAAACAACAGTTATGATTACTCCAACTTTAAATAAACCTTCAAATTCTGTTTTATTTTTTTCCATATTTTACTCCTTTTTATTAGTATACAAGTTTTTAATAAAATAATAAATAAAACTAAAAATTTTGGGTGTATAACTTAAAGGTAGGGAATAGAAAATGCGATTTTTTCATTCAATTGTACTTTTATTATACATTTTTTAACATTTAAACAAAACAAAAATTACAAATTTTTTAGATTTGTTTGTCATTTATTAAATTACATATTATTAAAAGATTAAATTATTGTTCAATTTATATGCTCTTTCATTGAGCATATTTTTTAATACGGTTAATGAATATACTTTACTTCCATAACCCAACGCAGACTTTACAAGCCTTGAAACATCTGATTCAGCCGATACTCCAATATTTCATTTTGCACCTTGATTGATTATTCCTACCCTATTATTTTTAAAGTATTTAAAGACTTCTTTTGGGGCCTCAATTTCTAGTAATTCTATTAGATCATCCTAATTACCTGAATAAAATAAATCTATGGCGATTTTAAATAATTCTTTACCTTGATATTTACCACTAAACAAAAATAGCTTTCTAAATTCTCTAACAGCATGAAATCTATCTAAAATATAGTTAGCTCCCATAAACGAAGCTAATTCCTTAATTCAAGTAGTGCCATCTCCTCCAACTACCAATTTAGCATTTTCAAAGTTTTCATAGAAATTGCATCCTAATTCATAAATTCTTATAGCTAGTTCTTCAGTTGTTAACTTTTCATCTTTTCCCATAAAAAATGTAGTTCTTTTATCTTTTAATTTTCTACGCTTTTTATGAATTGTTTTAATATCAAAACCTGTGCAAAAAGAAATTACTCTTATTTGAGTATCCTTATTTCTTTTTAATTTTCTTCATTTATATTTATTTTTAAATCTATCAACATTAACAAATGCATCATCAACAAAAATATATACTCTTTGTTTATCAACTAAATTAACTTTCCTCTCAACTTTATTTCTTTTATCTTGATTTTCTATAGATTTAAAGATTCTTGAAATAGTCATTGGTGATAATTGAGCTTCAGGAAACATTTCAATAATATCTCTATAACGTTTACCAGTACCTAATTGTTCTTTGATTAATTCAATTAAATTTGAATCCAGTTTAGATCACTTCTTTAATTTTAATTCTTCATCAATTAGTGCTGTATATTTTCATTTTTTATTTATATAATGTTTATAGATATGTCTATCGAATGTTAAATTTCCAAACTCTGTCGTAATTGTTCTGGATTTGACTTTAACGAGGATGTATTTTTTTTTGTCTCTATTTTCAAGAAGTTCCATGTCTCTAGTCTCTATTTCTTCCTTTCTTTTGTTTAATAAATATTTATATTCTTCCTTACGATTAAATAACATATTATTTCCTCCTTTTTAAATAATTATATTATTTAATTAAATAAAAAATAGAGCATAAGCTCTATTCAAATTTAGTATTAACTTTTATACCTTCAACTCATGCATTTTTAGGTTGATCTTTATCATGGCTAATTTTTATATCCCCTAATACTATTAACATATTTTTTGAAATCTCAAAAAAATTGTCAGTTTTTCATCGTTCACCAGTTCTTGCAATTGAAAAATCATTTATAGATAATTCTAATCATTCTGGCCAATTACCTTGATTAAATTGCTCTAAATTTTTATTATAATTTTTTTTATAATAACTTCACCCATGACCAGTTTCATCTTTTAAAACATCATATTCTTTATTAAAATAAACAATAGATATTTCTAATTTATCAAATTCTTGTTTCTTTTTATCAAATTCTTGTTCAATATAATTGTCTTTGGTTTCTTGTTTAAATTTATTAAAAATTATTTCTTTTTGTTCATCAAGTTCTATAAAAACATCTTTTAATAAAGTTACTAATTGTTTTACTTTTTCATTATTACTATTTTTAATTTTTTCTTGCAATTGTCTCATTATTTCAACTGAAACTTCATAATCCATAACTGTTCCATTTAGTTGTGCACCATTTGGTTCATTATTTCAAAATCAACCATCAAATCCCATTTTCAATGCCATTTCTATTAAAACATCAACAACTAAATATTTTCCTGTTGAATCTTTTTCAATAAAACCTTCAATTAATGGTTTTGTTAACCCATAATAACCATCTAAAAAAATATTTCCTAAAACTTTAGTTCCATTTAAATGAGCTTTTTAACTTGATTTTTTGCTGGTGGAACTATTATTCCTTCATCAATTGCACCAGCTCATGAAATTAAAATATCATTATATTGATAGTTATTAAAACTTCTTTCATAAGTTCTTTTTTTGTCAATAATAGTATTTTCTTTTGAAGTTGATTCTATAATTGTTGTCATATTTGCTTCAAGTGCTTTACTACTTTGACGATCAATTCATTTTTGAGCAACTTTTTCTTTATTTTGAAGTGGAATTCTTGAAGTATTATATTTTGCATCTAAATCATCTTCATATTTTCAATCCACAATTTTATTTTTTACATCATAAAGTTCTATTTTATTTATTTTCTTAAAATTAGATACAAAATTTCCATTTGGTAAAAACTTATTATTTAATGAAACTCCTGTTGCAACTTGTTTTTGTATTTCCATTTTTGTTTTAAAAGAAGTATTAAAATTATTTAAATCTAAATAACTCCCTCTTGACTCAATATCAATTTTTCCTAAATCTTCAATTTTATTTTCTGTTTTTGAAATTGGTACATTTCACTTATCAAGATAACCATTAAAATATGGTTCCTCATTTGTTCAATTTCAATTTGCTATTTTTGATAAATCAGTACCAAAATTATTACCCACACCACACGCAACAACAGAAATTGAAGGCGCAAAAAAAAATATTGATAATGTTATTCTCAATATTTTTTTCATCTTTTATTCCCACGATATGTAAATATATTATTTAAAAAAAAATTAATTTTCAAGTAGTTAGATAGAATATTTTTTTAATAAAAAAAAGAAATCTTTAAAAGTTTCTTTCTTCTTTAAAAATTAATTTTCTTTTCTATTTAAAATAATATTATTTTTATTTTCTATTGTAGTTTCAAATTCAGGTAATTTTAAAGGATTAATATCTGTTGCTATTGTATTAAATTGAGCAGTTGCTCCAACATAACTAACTTTTGAAGTATTTTCACCTTTTCAAAATTTATCCATTGTTAATTCACCATCTGACTTATACATTCCCACTTGAATTTCATTTTTAAATACTTTATCTCTAACTGAACCTCCTGGTTCAGCACTTTCGATTGTGTTAAAATTATGGTTATCTTTATCGCCTAATAATTTTGCAATTTGTGCAATTATTAAATTTTGACGATTATAGACTTGACCATCTTTATAATATTCAACTTCTTCTTCACCTGAAATTCATTTCTCATAATCTGTTTCAGTATATGCTTTTTCATTTGAAGGCATATAACCTGTTCAAATTGCCAATTTTGCCATATTATCTTTATTCATTAAAAAATGAGTAAATTCTTTTGTTACATTTGTTTTTTCCTCAGTAGTACTTTTAAATGAACCAAACCCTGCACCTTGTTGCATAATATGAGAACCACCTTTTTGAGTACTTTGTGCTAAAACTAAAATATCTGTTGGTTTAACAGCAACATCACTATTCACAGTTTTTCCAATATTTGCTTCAGGTGTTCATCATAAAAATGATTGTGAATTAGAACCTGATGCCATTAACATTGTTCCTTGTGAAAAATAATTAAATGAATAAATTTTACTTCCTGTATCTCTATTTGAAACAAATAAAGTTCCAGTTTCATCTAATTTTGATATATCTGAATTTAATGAACCAGTTGTTTTGTTATTATTATTTTCAATTAATCTCAATTCTTCCAATCAATCAACTGTTTCTTTTACACTTTCAGAACCACTTTGGTTATTTACATATAATTGATCATTATAATAATTATACAAAAATTTTTTATTTTCAGATGTAACTTTAATTCTTTCTTCACCAAGATTATTTGCATAATTTGAATATACTTTATTATCCATTGAATCAATTCCTAAAGCAAAAGCTTTTGCATATTCATTTTGTTCATTTTTTGCATTTTTTGTTTGTAAATTTTTAAAGTCTTTTGCAAGTTGAGCAACATTTGTATTAAGTTGTAAAATTTTTCTTAATGCATTTACACTATTTGCTTTTGCAATATCATTATATAATTCCTTATTTTCTGACACTACTATTTGACCATCAACAAATAAATCAGAAGATACAATTTTAATATCTTCTCCCTTTTCATCTTTTATTCCTAATTCATTTTTCATAAAAACTCCATTTGAGTCATAATTAGTTCCTGGATCTTTAAAAATATCTACCATTTCTTTTAATAATCTTAAATTTAAAGATGATGTATCAAAAGATTTTAAAACAGGTAAAACATACATACCCCCAGCAATAACACCTTCATCTAAAAATGTTTCTTGATATGGTGTAAATATTGAGTCATTTGGTAAATAACCTGCTTCTTTAACATCGACAACTTTTTCAGGTGCAAAAGCTTTATATTTTGCCAATACATCTGCATAAGTTATATATAAATCAGGTAAAACTTCATTTGCTTGAATTGAATTCATAATTTGTCCATCACCCCAAATTTGTAGTTCAACCTTAACATCAGAATCATTATAATTATTATTAAAGTCATCAATTACATTTTTATACGCATCAGAAATAGTTTGTGTTGTTCATTCATCAAGCATAAAAATTACTTTATTATCACTATCATTTTCACATGCAACAATTGTTGTTGTTGCTGAAACAACAAGTGTTGCAGAACTTAATAAACTTAATAGTCTTTTCATATACTTTTCTCCATTTAATTTAAATAATGTGAAATCAAAAATAACTTTTTAGATTTATACGTAAATTAATTAGTTTATTCAGTTTTAAAATTAGGAATTTATAATTTTTAATATTAACTCATAAATTTCTCATTGGTGAGAAAGTAGAAACACTAACCCGTTATGTTAGTTTATATAAGTTATTTATGATTCCATAATTATTTTACTATATAAAAATAGTTTTTTTATAGTTCTTTATTAATATTTTTTATTTTAAATTTAAAAGCTAAATTATTAATATACATTAAAAATAAATGATGTGCTGTTATTCAAAAGAAAAATATTACAGATAATAAAATCATATAGCTAAAAATTGAATTACCAATAAATAAATTCTCAAAATCTAAAAAAGGATAAGGTCATGCTCCAAAACTCAAGCTATCTTTTTCATACATCAACCCTCTTATGTAAATATAAAACATATATAGAAGAGGATATAACATAGCAATATAAATATCAAATTTTTTTCACATATTAAAATATTCAATTTTTTCATTTCCCATTACAAATCAATAAATAATTATTAAGCTTAATGGTGCAATAAAATGGGTTACAATTGTACAAATTATTTGGTTTTTTGAATAACTACTAATAAATTCAGCATCTTGATGAATATAATAAATTATTCCAATTCAAAATATTATGAAAACAATTAAATTTCAATTCATAATAACAATTCTAAATCGATCCGAATTGACTCCATACTTTCTTTTATTAAAAAAAATTAGAAAAAATATTATTCAAACAATTGTCATAATATTTACTTGAACAGATAAAAAACTCATTAAAATATCAAAGTTAAAAAAGCTTGAATACTCTGCATACCAATATTCTTTAAAGGAACATAAATATAATCCCCATAAAATAAAAAATAAAAAAAGTAAGAGCAATGCAAAATGATAATATCATATTCAATTTTTATACCATATCCTATTATTCATAATTACACCCTTTTAATTTGAATTATAACATAAGAATAAAATTTTTTTTAATTAAAATTTTAACAATTAAATAAAAATGCAAAATTATTTTAAAAAATTAATTTTGCATTTTAAAGTTACTTATTATAATTTGGTGTTTCTTTTGTCATTTCAACATCATGTGGATGTGATTCTCTTAAACCAGCACTAGATATTTTTACAAATTTGCAATCATGTCTAAGATTTTCAATGCTTTTACATCCAGTGTAACCCATTCCACTTTTTAACCCACCAGCTAATTGAAAAATTACATCTTTTAATTTTCCTTTAAAAGGAACACGAGCTTCAACACCTTCAGGTACTAATTTCTTGGCACCTTTTTGAAAATATCTGTCACTACTTCCTCTTTTCATTGCAGCTAGAGAACCCATTCCTACATAAGATTTATATTTTTTTCCATTAGCAATTATTTCTTCTCCAGGTGATTCTTCTGTTCCTGCAAAAATACTTCCTAACATTACACAATGTGCTCCCGCACCAATTGCCTTTACAATATCTCCAGAATACTTTATTCCCCCATCAGCAATTAAAGTAACATCTTTATCTTTTGCTCAGTTATAAACATCATTTATTGCTGTAATTTGAGGAACACCAACTCCAGCAACCACTCTTGTTGTACAAATACTTCCAGGACCAACTCCAATTTTAATACTATTTGCACCAGCCTCATATAATGCTTTTGCACCTTCAGCAGTACAAATATTTCCAGCAATAATTTGTAAATCTTTATATTTACTTCTAATTTGTTTTACAATTTCAATTATTCCTTTGCTATGTCCGTGTGCTGAATCAACAACTAAGATATCAATTCCTGCTTTTACTAAGGCTTCAACTCTTTGCAAACAATCTTCTGAAACTCCAACAGCTCCCCCAACTCTAAGTCTTCCTTTTGAATCTTTACAAGCGTTTGGATGATCAATTGCTTTATCAATATCTTTTGATGTTATTAAACCAATTAAATTATTTTTTTCATCCACAATTGGCAACTTTTCAATTCTATTTTTATGTAGTATTTTTTTAGCTTCTGCTAAACTTGTTTTTGAATTTCCAACAATTAAATTTTCTTTTGTCATAATTTCTTCAACTTGTGAGAAAAAATTTTCAATATATTTTAAATCTCTGTTTGTTATTATTCCAATTAATTTATTATTGTTATCCACAACAGGAAGTCCTGAAATTTTATATGTTGCCATAATTTTATCTGCTTCTTCAACTGTTGTTGATTTTAAAATGGTAATTGGATCTGTTATAAAACCTGATTCGTTTCTTTTAACTTTTTGAACTTCTAAACTTTGTTCTTCAATTGATAAATTTTTGTGAATAATCCCAATTCCCCCAGCTCTTGCCATTTCAATTGCAAGAGCTGATTCAGTTACTGTATCCATTGCTGCACTTATTAAGGGAATATTTAATTCAATATTATTTGTTAGTTTTGTTTTTAAACTAACTTCATTTGGTAGAATACTTGAATAATTTGGTACTAATAAAACATCATCAAAAGTAATTCCTTCACTAAGGATTTTGTTGTTTAAACTGTTTGTACACATTTTTAAAAACTCCTATTCTCATTCAATTGTTCCTGGTGGTTTTGAGGTAATATCATAAACCACTCGATTTACTTTATCTACTTTATTAATAATTTCATTTGTAACTTCATCAAGAAAATCTCAAGGTAAATGAGTACTTGTTGCTGTCATAAAATCAATTGTATTTACACAACGTAATGCAACAACATAATCATAAGTTCGATTATCTCCCATAACACCAACTGTTTTAACTGGAAGTAAAGTTACAAAGGCTTGAGATACTTTATTATATAAATTTTTTTCAATTAATTTATTTATAAAAATATCATCTGCTTCTTTTAGAATATCACATTTTTCCTTACTAATTTCTCCAATTACTCTTACTCCAAGACCAGGCCCTGGAAAAGGATGCCTATTAATCATTAAATCTGGAATATTTAATTCTTTTCCAACTGCTCTTACCTCATCTTTAAATAAATTTCTTAATGGTTCAAGCAATTCAAATTTTAAATCATCGGGCAATCCCCCAACATTATGATGTGATTTAATTGTTTTTGAACTGTGACCTTTTAAAGAAGATTCAATAACATCAGGATAAATTGTTCCTTGTGCTAAAAATTTTGCATTTTTTAAAATTCTTGCTTCATTTGAAAATACTTCAATAAAATTATGACCAATAATTTTTCTTTTTTCTTCTGGATCTTTTATACCTTTTAATGCATTGTAAAACTTCTCACTTGCATCAACAAATTTTATATTCATATCAAATTCCTTTGCATATAAATCCATAACTTTTTTGCCTTCATCTTTTCTCAATAAACCTGTATCAACAAATATACAAGTCAATTGCTTATTAATTGCTTTGGAAATTAAAGCAGCTGCAACAGAAGAATCAACCCCTCCACTTAAACCAAGAATTACATTTTGATCTTTAACTATTTCTTTTATTTCTTTTACTTTTTCTTCAATAAAACTTTCCATTGTTCAATCTTTTTGACAATTTGAAATATCAAATAAAAAATTTTTTAATATATCAATTCCATAAATTGAATGTGTTACTTCTGCATGAAATTGTATTCCATAAATATTCTTACTTAAATTTGCAATTGCAGCAACACTATTTTCAGAAGAAGCAAGCTGAACAAAATTATCTGGCATTTTTGTTACATGATCTGCGTGACTCATTCAAACCTGAGAATTATTTTCAATATTTTTAAATAATTTATTTTCAATTTTTTCTAAATTTAAATTTGCTTTTCCAAATTCTTGACTATCTGCAAGTTCTACTTTTCCACCAAAAGTTTCAGTAATTAATTGCATTCCATAGCAAACTCCTAAAATTGGTAAATTTAAATTAAAAATTTCATTATCAATTGAATATGCATCATTTGCGTAAACACTTGATGGACCACCAGATAAAATAATTGCTTTTAAATTTTTATATTGTTGTATTTCATCAGCTGAAATATCGAAAGGTAAAACTTCTGCATAAATATTTAACTCTCTAACTCTTCTTGCCAAAAGTTGTGTATATTGACTACCATAATCTAAAATAATAATTTGAGTATTCATTTATTTCTCCTATATAAAATAAAAAATAAATTTCTATTTTTTATTTTGAATATTTTATCTTATTCAAAAGAAATATTTTTAAAATAAACTATTTCTTTTTATTTTTATTTTTATTTTGGAGTAACATCATTTCCAAACTCATCAAGAACAACAACATTTTTAAGTTGTTGTTCTAATCCACTTCTAAAAATTTTAATATATTCTTTTCTTAACTCATCCCGTTCTTTTAATTCTTCAGAACTTAATTCTCTTTCTTTTGCAATTTTTGCAAGAACATTAATTCTTTCCAATATTTTTTGCATAATTCAATTATTCCTTTATAAAAAATGATTGAAAAATTAAAATATTTTTCAATCATTTAGTGCATAATATGCACTTCCAACCATAGCAGAATCATTTCCTAATTCTGCTATTTCAATGCTCAATTCTTCTTCTGAAGTATCAATAGTATATTTTTTAATATTTTCATTAATTATTTCTAATAAAGCTTCACCTAAAATAGTTAAACCACCTGCAATAATCAAGGCTTCAGGATCAAGTGCATTTACCATTGTTGCCATATGCATAATTAATGGTTCAAGTGCTTGTGTAAGTAATTCTTTAATCTCTAGTGGGTGATTTTCAATTTCATAAATTTCAAAAATTGATTTTAAATTAATTACTTCTAAATCTTTAAAATAAATTGCTGCAGGATGTTTTTTATTTTCTTTAAAAGTATCTGTAAAAAATGTTTCAATTCCTGTAACAGAAGACATTGGTTCAATACAACCTTTTAAACCACACTTACAATTATATTTGCTTTGAAATCAACCCCCACCATGACCAAATTCACCAGCATATCCTCTAGCACCAGGCATAAGTTTACCATCCAAAATAACAGCTCCTCCAATTCCTGAATCAATAAAATAAAATACTATTGAATCATACTGTTTTGCGACTCCAACTCAAAATTCACCAAGAGCACTTGCATTTGCATCATTAAGTACAAAAATTGGCTTTTTGAATAATTCTTCTGCTTTTTCTTTTAAATTTAAATTATTTCATTCCAAATTAGCAGAATAACGAACAATTCCAAGCATATGATCAACATAACCAACTGTTGCAATTGCTATTTTTTCAATTTCTTCTTCATAATTTACACCAATTGCTTCTAACCCTTCTACAATTTCACTGTGTAAATTTTCCAATAATTTTGCCTTATTATGTTCAATAAAAAATCTTGCCTGTAAATCCCCATATTGGTTTACTAAACCAACTTTTGAAGAATTAACACCAATTTCAATAGATAGAATTAATTTCATTTCTATTCCTCCTTAATGTTATTAATATAAATATACCACTTTTTAAATAAAAAAATAATGTTTATACTAAATTAATGCTGGTAAGTTAGTTACTCTTATTCCATATTCAGTTTTTGGTACAGTTATTTCAATTTTCATACCCTTAAAGGTAGTAACATTAACTCAACCAAGTCCAGAAATATGTAAGTCAATTTTTTTTGTATCTTTAAATTCAAAACTATGCGTTTCAAATTTAGAGTTATAATCTAACAACCTTGGAGATAAAGAATGACGATTTTTTTTAAAGTAATCATTAACATTATTTACTTTTGTTCTATGCAATGGCATTTGCTTATTTATATAAAAATGAAAACTTGTTTTTTGAGGTTTATTGTTTTTCTGATTATATTCAATCCCATCAATAAAACTAATTCAAGCAAGACCTCCATAAAATATTGTTTGACCTGCAAATAATTGATAAGTTACTTGTTTTATCTCTTTTTGAAAAAAGAAAAAATCTCAATAACTTGGTGCTGTTGCTATTGCAATATGATTATGTTTCACAAGTCCTGGAGTATCATATATATAATTTTTTTCAGTAAAGTTAATTTTAATTTTATCTAAAGTAGTATTTACATATTTTGATGTAACAATTGAAGGAATTTGATTATTTACTTTTAAACAAGCATTAATTAAACTAGATTTTCCAGCATTTGAAATTCCAACGATATATTGATCATAATTTATTGACTTTAATTCATTAACTAAAGCAAAAACATAGTCTTGTTTAATTGAAGAAGTCAAAATAATTTTTGCATTTTTAATTGGTGAATCTTCAAAAAAAGCTTGTACATATTTTAAAATTTTTGTTTTTTTGACAGCTTTTGGAAATAAATCAATTTTATTTACTAATAATACCACTTCTTTTTTTGAAATTAATTGCTCAAGTCAAGTTAATCTGCTACCTGGTAAATCAAAAATATCTACCACATAATAATAGCGAATTTTTTCAGTTGTAACGTTAATTTGATTAATAATATCAATAAAATCTTTATCATTTATTTCTTGTTCAACTAAACGATTATAATGTTTAATTTTAAAACATCTTAAACAATAATCTTGTGAATCAATTTTTAAAACATAACCTGGTTTTGTTTCATCTACTGTTTGAAGAATTTTTCCACATCCAACACACTTTTTTGGACCATTACCTTCTAAATTTGTAGTATTTCCAATACCAGGTTTTATTTCAGTTAATGAAACTTTACTTTTTTGTTTAACCTTAATAGTTTTATTTTTTAGAGAATTAATTTGTAAAACCTGATCTTCCAAATTTTCCAATTCTTTTTCAATATTATCAAACTCATCTTTAGAGAATTTCATAGTTTCCTCCAATTTCTCCTTCATTATAAAAACCTTCATGCAAGATATTTTTTTGTGATAATTTTTTTAAAATATGGTTTTCTAAAAATTGTACTATTTTATTTTCTTGATTATTTCTACTTAGTGGTGAAACTAAAATACTTTTTATATGAGACCTATTTGCAACTAAAACATCTGTTACTAATTGATCTCCAATCAAAATTATTTCATTTTCTTTATATTTAAATAATTTCTTAACAATTTTCATCTTACCTAACAATGGTTTTTTACAATCCCAAAAGTAATTTTTAATTCCTGCTTTTTTTGCAAAATTTTCAACTCTACTTTTTACATTATTTGAAAATAAAACAAATTCCATATTATGTGCATAAACATTTTTGATAAAATTTAAAATATCCAAATTTGGTATTCTTTCATTTCAACCAATTAAAGTATTGTCCATATCACATAATACTAGTTTTATTCCACTATTTTTTAGTGAATCCAAATTAATTTTTTTAAAACTTTCAAGATAAATTGAAGGTTTAAAATAATTTAATAATAAAAAAGTATTTTTTTTATTTGCCATTCTTTAAATTCACCTCTTATACTTAATTATTATACCTAAAAAATAAATAAGTATTTAAAGTGCAAAACATATATTTATAAAAAAATAAAGCATTGCCTTATTTTTTTATAAATACTAATGATAATTTATTTTTTAAGTTGTTGCAGTATTAAGTGTATAGGTTACAACAACACTTCCCCCTTCAATATAACTTACAGATCCACTTTTTACCTTAATTGTTGCTTCAATTAAGGAAGGTGTTCCATCAACTTCAACTTGTGAAGTATCTAAATTTGAATTTTTTGCCTTAGCTGCTGCTAAAATTTGGTCATTTGTTGGTGCTATTGTAGTATCATCAACTACAATTTCACCAAGATTTGTTTCCTTAATTGATTCATTTAAAGCAACTGTTTTTTGACCTAGTGTATAGGTTACAGTAACACTTCCTCCTTCAACATAACTAGTTGATCCACTTTTTACCTTAATTACAGCCTCAGTTAATGAAGGTGATCCATCAACTTCAACTTGTGAAGTATCTAAATTTGAATTTTTTGCCTTAGCTGCTGCTAAAATTTGGTCATTTGTTGGTGCTATTGTAGTATCATCAACTACAATTTCACCAAGTTCTAAAACTGTAACAACAGAATTTAATGCAACTTTTGCAACAAGAGTATAAGTTACATTAATTGTATTACCCACAACATAACTAACAGCATCACTTTTTACCTTAATTACAGCTTCAGTTAATGAAGGTGTTCCATCAACTTCAACTTGTGATAAAACTAAACTTGAGTTTTTTGCTTTAGCTGCTGCTAAAATTTGGTCATTTGTTGGTGCTATTGTAATATCATCAACTATAATTTCACCAAGATTTGTTTCCTTAATTGATTCATTTAAAGCAACTGTTTTTTGACCTAGTGTATAGGTTACAGTAACACTTCCCCCTTCAATATAACTAGTTGATCCACTTTTTACCTTAATTACAGCCTCAGCTAATGAAGGTGTTCCATCAACTTCAACTTGAGTTACAATTAATGAAGGATTTTTAGATTGTACCGTTAACAATATTTCTGCATTTGAAGGAGAATTTATATCTAAAACCAAAATTTCTCCTAAATCTAAATTAGTAATAACTGTTGTAATATTTATTTTTGGTACACTGTTCAATGTAAAAGTTACAGTAACACTTCCTCCTTCAATATAACTTACAGATCCACTTTTTACCTTAATTACAGCTTCAGTTAATGAAGGCGTTCCATCAACTTCAACTTGTAAAATGTCTAATTTTGAATTTTTTGTTCTTAAAAAATTCAGAATTTTTTCACTTGTTGGTGCTGTTGAAGTATCTGACGTTTCAATTTTACCTAAATCTAAATTAGTAATAACTGTATCTAGTGCAACTTTTTCATATTCTTCTGGCACTAATATTTCACATCCAACAATACTTGAAGAAGTCATTGAAATTATAGATATTGTTGTTAATAAACTTAATAGTTTTTTAATTACTCTCAGTCCCTTCTAAAATAAAAAAATTAAAATAATATTTTTATATAAAAATTATTATATTTTAATTTTATTATATTTTTATTATATTTTTCATATAATAAAAATATTTATTTAAAAGATTAGATTACATTTTTTATTCATTAAAAGTTATTAATTTCTCTACTTTTTTTAAATTCGGGTATTCAAGTAAATCTTCAAAAAAGGCTTCATCCATTGAATTAACTGCAATATTTTGTAATATATCTATCTGATCTTTTGGTTTAATTGCTAAAGCAATTACCACTTTAATTTTTGTTTTATCACTCAAAAAATTGAATTTTTTAAGTGATAAAACAAAATAATTGATTTTTCTAATACTTGCATTCCTTCATATGTTCCATGTGGAATTGCAATATTATTGCCTATATTAAAAGAACTTATTTTTTCTCTTTCTAAAATTGAATTTATATAAAATGAATTAATACCTTCATTTTCAAATTTCTTAAAAATGTCTTTTAATACTTCTTCTTTATTATTAAAATTTTGATTTAAAAATATATTTTCTTTTTTAACATTTTATTCTTCCTTGCTTAAAATATAATTTACTTGTTCTTGTGAAATGTTATTAATAATCTGTTTTATAATATTTTCATTTGTTATATTATTTTTTTTTGCATTTCTACAAGTTTTTTTCCATCTAAATCATTAGGGTTTAAATACTCAATTACATTTAAAATGCTTTTTCTTATATTTAAAGTTTTTAAATTTAAACATAAACCAATAAATAAAGGCTTTAAAATTCTTTCATTTAATTGTAATTTTAAATATAAATTTCTTCCAACTCTTTCCAAATTATCTTTGATATAAGGATTTTCAAATCTTTTTAATATTTCATTTATAATTTTTTTTACTTCTAAAATATCATAATTAAAATAATTAGAAAAAATTAATCCTACTTCTTCTAAATATGATAGTAAAAAAGATTTTAGTTCTTTAATTTTTAAGCTTTCATAAGTAAATGGTGAATTAAATTTATTTAATCTATATGAAGCTCAACTTAAACTTGCATGTCCTCCATTTAATAATCAAACTTTTTTACAAATTTCTGCATCAATATTTTTAGAATAAGTTAATGCATCCAATTTTTCTATTTCCTTTGGTCATTGATTTGTATCTACTATTCATGAATAATATTTTTCTACTTCAATATCTAAATTATTCATTTCTTGATCTGGAACAATCCGATCTACCATTACATCAACAAAATATATAAATTTCTCATTAAATTTATAATTTTTTATAATTTCTTTTTTGAATTGACTAGAAATTTTTTCACCATTTTCACAACACATTATTATTAAAACTTTTTTATTCAATTCACTTGTTTTTATAATATCTATTATTTGAGTTTTAATATATGTTAAATTTTGTGCTCCTATTGATGTAGTACAAATGTCTACATTATATTCTTTTAATTTTTGATTTAAATTTTGATTTGATACAGTTATTATAATAATTAATTCTACAAACTTTAATTACATTTCTATTTTATTATAAAAATTTAATAATATTAAAATAACCTTAAAAGTTCATTAGCATAGTTTTATATCTAATTCAATTACATAAATAACCTTTTTTAGTTTCAAAACATATTATTTATAAAATATATGAGTTTGATTATATTATTATTTTTGAATTATTTTTATTATATTTATATTAAATAAAGCATTTCTTTTTTGTTTTTGTAGATAAAATTCATTTAAATTATTGATTTACCTTATTTATTTTCCTTTAAAAATGTAAATAATTTAAAATAAAAATCTATCTTATTTAAGATAGATTTTTTCATTTAATTGTAATAATCTTTTACTATAATCTAATTCATTAAACAATCAAGAACCTACAACAATTAAGTCTAATCCTGTTTTAATTAAGTCAATAATATTTTCTTCTCTAACTCCCCCATCAATTTGTAATAAATAACTATAATTATTTTCTTTCCTTTTCTTAACAAGAAAATCAATTGTATTTCAAGTTAGTTTATTAAAAGCTTGACCAGCAAAACCTGGTTTTATACTCATAATTGTAACCAAATCAACTTGATCTAATAATTTTGAAATATCATTTAAATTATCATCTAAGTCAATTCCAATTCCAATTTTGATGTTTTTAGATTTTATTTTTTTAAATAATTCTTCAAGATTTGTTTTTTGTATCGAGGAAAAATGAATTGTAATATAGTCAACATCATTTAATTGATCTAAAATATTTTCAATATTATTAACCATTGAATGAAAATCTATTGTAATGTTTGGAAATATTTTTTTAATTTGTGAAGACATCATTGGGGTTAAACCAAGATTATTTACAAATTTTCCATCCATTAAATCAAAGTGAATTCAATCAATTCCAGCCTTAGACAGTTTTGTTAATTCAGTTTGAATATTTAATAAATCACAAGTCATAAGTGATGGTGTAATTTTATAATTCATATTTTTCTAAAAATTCTGTTAATTTTTCTTCTATTTCATCATTATCTAAAAGATTATTTAAAACTATTTTTTGTTCAAAATCAATTGAATCTGACAAATCAATTCCACATATTACTGCATTAATTGAAGAATCATTACTGTCAAATAAATTTAAATTTGCATGTTCAACAATAATATCATCTCTTCCCATTTGATTTAAAACATTTTTAATATTCATTTCAATTATTAGACTACTTCCTAATCCTTGACCACAAACTGCCACAAATTTCATATTTCTACTCCTTTCTAACTAAAGTTATTTTTGCTTCATATTCTTTATTTAAACTATTTAATAACTTATTATGTTCTTTTGTTAATTGCTCAATATTTTTAATTATTTGAGTTTTTTTATCTTTTTCTTTTTCTGTTTTTAGATTTAATTTTAAGTCTTTTAAATTTTTTTTGTAAATTTTAAATTCACTTTTTTCTTTTTGACTTTTTTCTTTTTCTAAATCTTTTACTTCTAAATAAACTTTTTTATAATTTTCATTTCTCATTTTTAGTGAGTGTAAAATTATACTTATCAATGGGAACATTAATCATAAAACAATCATTATACTTAATAGACCTCATTTTCCTGATAATTTTAATAATAATGCTGGAATTATCCCAACAATAAAGTCTGCATCTGCTCATGTTATATAAATTTGTTCACCATTACTTGAAACTAAATTTGGTGTTAATTCAAGTCCAATGAATAAATAAGGTATGATTGAAATAATAATTCCATTAATAAATGCTCCAATTAAACAACCAATTATTCCTCCCTTTGCATTTCCAAATACTCCACTAGTAGCACCAGTAAAGAAATGAGGAATAATACTTGGAATTATAATTGCAGCTCAAGGACCTGTTTTAATTGCAGAAGACATTCCTATATTTATTCCAAAAGCAATTAAACCCCCAACTGTTGAAGCAATAAATCCCATAATTACTGCATTTGGTGCAAATGGAAATACTACAGGGCAATCTATTCCAGGCTTTGAACCTTTAATAACTTTATCTGCAAACCCTTTAAATGCTGGTGTTATTTCTGCAATAAACATTCTTACACCAATTAAAAGAACTTCAACTCCAGCTGCAAAAGTAAATGCTTGAAGTATTCCTTGTACTATTGGAGAATCATTTTTTCCCAAAATTCCTGCTTCAACCATTGTATCAAAACCTTTTACACCTCAAACACTATAATAAACTATGCTAAATAGTATAAACATTGTTAATGCAATTGAAACATTTGTATTTCTTAAAAATGCAAGACCTTTTGGAAAATTAATATCTTCTGTTGATTTAATTTTTCCTTTTTTTGCTTTATAAATTAGTTCACCCATATATCCACTTAGTGCATATGTAATTGAACCAGTGTGAGCAACAGCTAAACTATTTCCTTTTATAATAATTTTTGTATGTCTATTTAGAAGAGCTGGAGAAATTACCATTCACATTGAAACAAATAATGATCCTGCTAAAATAACCAATCACATATCTGCTGTTGAATTTGCTCCACTAATTCATAAAACACTTGCAATCATTGTTGAAAAATATCATGCTGAATGTCCTGTTAAATATATATATTTTAAGTTTGAGAATTTTGCAATTACTATATTTAATAGCATTGCAAAAACTAAAATAAGTGATCCACAAGTTGCTATTTGTGCCATTCCTTCTTGTGATAAAAATAAACCTGGCATAACATCATTATTTGCAAGTCACCCTTCTCTGCCAAATAATAAATTAAATGCAGAACCAAATTTTCCAATTGAACCTGAAATAATTCCAGCTCCACCCCCAATTATTAGAAAACCAATTACTGTTTTAAATACAGATGTAAGAGTTTCTGCAAAGTTTTTTCTTTGTACTAAACAACCAATTAACGCAAATAAACCAATTATTAACGCTGGAGTTCCAAAGAATCCATTAATAAAGTTCATTAATTGATCTTGAACTGTAAATAATTGCATATTTTTTTCCTTTCCTAATCATTAAAGTATTTTTTATATATTTTTAAATATTCTTCATATGAATTTATTGACTCTAATTCCTTTATAAATTCTTTATTAGAAAAAGTTTTTGAAAATTTTACCAAATAGTCCATATGATCATCTGGTGAAGTTGTTGTTAAAAAGAAACAATATAATACTTTATGATGTTCTTTATGTGAAAAAGATATTTGTTCTCCTAATTTAATTAACATTAAATTAGTTTTCAAATTTTCTCCACCTGGTGAAATATGAACTAAAGATATATTTTTGGAAATTATAAAATAAAAACCCAATTTTTCAATTTCACTTAATAATTCATTATAATAATTTTCTCCAACAACTTGATCCCTTTGTAATTTTTCACAACCTTTTTTTAATAATTCTTTTCAATTTTTCGCACTTTTTAAATACATGAAATTGTTTTTCTCAATCATGTTTTTCTTTACACCTCTTTTCTAATTCACTAAAATATTATGTTACTTTTGGAAAATATTCCATTATTTTATAAAAATAGAAAAAAATAATATAATAATTAAAAAGAAAGAGGAAAACATTATGTTTATTGATGAATATTATTTAAATTTAACTAATTTGGAAAAAGAAATACTAAATATAATTTTTAAAAATGCAGAAGTTTTTATAGATATAAAAATACAAGATTTTGCAAAAAAACTTTATACAACAAGTGCAACAATTACTAAATTAATTCAAAAAATTGGTTTTACATCTTACAAAGAATTTCAAAAACATTTGAAAGAAGAAATTACAAATAGAAATATAGAACATAAAAATTTTGATGCATCAAAAATGGAAATAATAGCACAATTAGAAGAAATTCTTGAAAATGCAAAAAAATTCATTAAAAATGAATTTGAAGATATTAGTGAAATAATAATAAAATCACCAAAAATAATTACAATTGGTTTTGGAAATAGTTTAATTGCTGCAAATGAAATGTTTCAGTCTTTATCAAGATTAGGTTTAGATTCTTATTGTACAAATGATATTTTTGGTAATTTAACTTTATTTGAAAATATTTCAAAAGAAAGTTTAATTATTTTTTATTCACATCAATTTAAATCCAGAACTGTTTTTAGAGCATATGAATTAATAAAATCTTTAAATTTAAAAATAATATTAATTTCTTCAAATAATTATATTAGTGATTCATTTAAATTTTATAAAGTTATAATCTACAAAGATAAAAATAACAAAAATAAAAGTTTTAGTACAAAAATAAATCAAATTACTATCAATTTTATTTTGAAAGATTTAATTAAACAGAAACTAAACAAAAATATTAAAGATAAGCCAAGTATTTTAATTTAATTAACTTTTAGCAAAATAATTATTTTATAGAATTAAAACCCTTATTTGCAACTTGAGTAATATTCATTCAATACTTTCTTTCTCTACTTATTTTTTATGCCCTATCAATAAAAAGTATATTACTTATAAAAATTTAATTTATAAAAATAAAATGAAAAAGCAAATAATAAGTTTGATATTAATAATATTATAAAAATCAGCAGAAATAAATTTGGTCCCTTATATAAATAATTTATTATTTTATAATAACTATTACTATTTTCTTTAAATTCTTCATAGTTTACTTGAAAATAATTATTTGATATTGAAACTTGAAATGTTTCAATTGGTAATAAATTATCATAACTTTTAGTAACAAATCCAAACTTAGATAGATATTCAATTCATAAAAAAGGACTAGTATAGTAATGAAAAAACTGACCTCTTGTTGGTGTTTTTATTGCAGGTTGAGTTTTGAATAATTGATTTAAAAGTTTCAAGAGAATTTAATTTTCATTGATTAAATTGTTCAAATACTTCATTATTATCTGTTTTAGCTCTTAAATTTGCTTCAATTACTATAAGTTTTCTTATAATTGAAGCAACAAAAGCAAAGCTATCGGAATCTGCTATTAAAATGTTTTTATTTTTTTGAGAAACTAAAAATGATACTTTAAATTTTTCAGCAACACTTGTGCAACCAAAATTGCATAATTGCCACCTTCTTTTGCCATATCTTCTGTTAATTTAGATTCTCATGTTTCTTTTCATTCACCATTTTTACATTCAAAAACTATTTTTCCTAAATCAACTTCATTTTCTTTTATAATTCAACTTCATTTTTCAATTTTTACCTTTTATTTTATTATTTAAAATTCTATTTGTAGCACGAGCTACTTTTAAATCTGTTATTTATTTTGACATTTATGTTTAAAATTTTGATTTTTTATCTTCAATTTTTACAATAAGAATTGCTACAAATTCATTATTATTTTTATTCGTATAGACATTTTAAAAAAAACACTAACATATGTTTTTGTTACTTTTTCTTGATTTATGTTTTTCTCCTTTCATATCTGAGGAAAAAATAAATATACAAACAAATAAAAAACTAGTTCTCTATTTACCTTTTAATATAATATCATAAAAAATTAAGAACAATTTTCAGTTATAAATACTAATAATTCTTCAATTAAGTTATCTAAAATATCCTTGCAATAACCTTCTGCCTTACTATTTGCAATATTAATTTTATTCAATTCTTTCTGAATATTAATTATCTGTTCTTTTGATTTTTGTAACTTTTTACTCAAATCAATAGATATTCAATTAAAAATTTTAACTTTTTTTTCTTCTATTTGTTCATTTGAAACATATTTATTAATTAATTGCATTTCCTTATTCAGCATAATTCTAACAATTTGCGTAACAAAAATATAATATCCTGGATTACATACAAAAATATTTTTAGACGGAATTTTTTTAAAACCAATATCTCCAAATTTTTTGTTAAATGAATTTGCCAATAAAATTCCATAATTTCCTTTCTCTTTAGAAATATCATCTTCAAATTTTGATAATCATTCTGATTCTCATTTTTCTCCTGATTTAAGTTCAAATATTATTCTCCCAATTTCACTATCATTTTTATGAACAATTTCTCTAAAATCTGCTCCCTTTCCTTCTGTTTTATTAGTTACAATTTTCTCTATAATATCCTCAGGAAAAGTTGAATTTAAATTAGTTTTAAATTCTTCTTCAAATTCTTTACCAATTATTTGAGATGAAAGAGTTTTTTTAGAAATTATTTTTTTTTCTAAATTATTATTTTCTTCTCTCAACTTATTAATTTCATCATTTTTCAATTCTTTTATTTCTGAAACTTTTTCTGCTATTTCTTTATCAGTAACTGTCTTACTAGTTTCTAACTGAGTTTTCAAATTACTAATTTCTTCTCTCAACTTATTAATTTCATCATTTTTCAATTCTTTTACTTCTGAAACTTTTTCTGCTATTTCTTTACCAGTAACTGTCTTACTAGTTTCTAACTGAGTTTTCAAATTACTAATTTCTTCTCTCAACTTATTAATTTCATCATTTTTCAATTCTTTTACTTCTAAAACTTTTTCTGCTATTTCTTTATCAGTAACTGTCTTACTAGTTTCTAACTGAGTTTTCAAATTACTAATTTCTTCTCTCAACTTATTAATTTCATCATTTTTCAATTCTTTTACTTCTGAAACTTTTTCTGCTATTTCTTTGCTTACAATTAAATTATTTTCATTAATAAGTTCTTTTTTTATAAGTTCTTTATAATTATTTTCTCTTTCTTTTAAATGGCTCTCAATATAATCATTTAATTTTTTGTAATTAACTTCATTTTCTTTAAAACTTCCTTCATTAATTACTTTACTACAATAAGGACATACTATTTCTCACATATCTTTTTCTCCATAATTAAATAATAACAAGAAATGCCTTTAGTTGCATTTAAATTTAATTTTTTATAATTTGGATAATTAGTACATTGAAAAACTTTTTTGTTTTTAATTTTTTATCTATATTTTTTTTATTATTACTATAATCTGGTTTTGCAAATTCAATATACTCACAATTACGATAATTTGAGCAAATTTTGAATTTGATTCCTTTTTTACTTATTTTATCAAAAATATATCATTATTATATTTAAAACACTTTTTTGGGGAAGTTTTATTTTTGTAGGATAATTAATTTATAAAAACTAATGTTTATAATGATATGGTATTTATCATTTTTTAAAGTTTTAAAATTTTTTATCTGTAAAAAATATAAAATCTTTTTATAACAAAAAGGATAAATTATTTAAATTTGTTACATTTTGGAAATAGTGCATTTTTAAACCAAATCATTATATTTAAAATTAAATTTTTATGTTTTTAACTAAATTAAATATTATTTTAAAACTTATTAAAGATATTTTATTTTATAATATAACAAAATTAATATTTCTGTAATCATAAATATTTTAATAGAATAAAAAAAGAAATAAATTAAATTAATAACATATCTCTTTTATAAATAATATTGATATATTTCAAATACTAAAATTTGTATATTTATAAAAAATATTGTGCATTTTACTATTTTATTTATCTCTTAAACTATATCAAAATCCCATACTTAAATAATATCAAATATCTGATTTTTTAATTATTTGTCTACCGTATGTTCTTCATGGTCAACCATAGTTTACTACATATTCATTTGTTGATTTATTATAGCCATATATTACAATTGAATGTGCTTCTCCTCTAACAAAATATGATAATAATACAGGTCTATTATATTTTTTAATTCAGTCTTCAGGTTTTGAAGTGTGAGATCAACTTACTGAATAATCATCAATTAAATTTTTTGAATACTGACCTAATCATGTTTTCATAATTTTTCTCAAACTTTTTCTTTCTCTGATATCATATCATCTTCCCCCATATTTATCAGATACTTTTTTATACATCAAATAAGGAATTGCACTCTTATTACCACTACCACTTTGATAATGAATTACCTCACTAGAGTTTAATTTTTCAAAATATTTTTCTTTATCATAAACAGAATATAAATTATATTTTCCAAAAACCTGAGAATAGTTTATTAATATATTTAGTGCAATATATTCACATAATCCAGTTCCCCCAGATACACCATAATTAAGTAAATCTGTATAAGCTAAATTTTCTTCTTTATTTATATTTTCTATTTATCTCCAATTAGTAACTAAATTTGAAAATTTAGAAATTTCTTCAATTGTTCCAATTCTTCTTGTTATATTTGCATTTTCTGTAATTGAATAAAAATCAATTTTATATTCTTGAATTTTTTCATAATTATAAGTAAATTCTACTTCGCCTGTAAGAGCTGGTTTATCATGACCCTCAATAACTCTAATTTTGCATGAAGTTTTTGTTGGCAAACCAACAAATGCAATATGTTTTAATGGTGCTGATCAACCTCAGTCTTCAACGTTTTCATGTGCTTTTGAAATTCCATTATAGATAATTTCAAGACTTGGGACATCTTCTTGTCCTGAAATTGTTCCTAAATCAAAAATAATGAATGCATCCTTAAATGTAGTATAAACTTTTGGTGTTGTATCAAAACATGAAACAACACTTGATGATGAAGTTAAAATTAAAGTTACTGACCCTAACAAAATTAATAATTTTTTTATATCTTTTTTTCTCCTAAAAATATTTTATAACTTTTAAATATTGATTATAAAATTTAAAAAGAATTAAAAAATAATTATAAAAGAGAAAATATTTTATATTTATACTAATTTAAATAATATAGATAATAAAGTAATTATAAATAAAGTAAATTTAGTGCATGCAATAAATTTAATTTATTTATACTTTTTTGATTTTTCCACTAATTAACATATATTTTGAAAAAAATTTAAATATTTATTATAAGTATCTAAACTATTTTGTTAATTAATTTATTTTCATAAATTTTCTACTTTTAATTAATTACTTATAAAGTTTTTTTCAACTCAAAATCGATTTCACATTTTATTCCATATGGAATAATAGTTTTTGGGTGTGCATGCCCAAAGTTAACATTATAAATTATTGGAGTTTTATATTTTTCAGTTATATCTAACAATAATTTTTTATATTCTTCATAAAATCTTTCGTCTTGAGGTTTACCAACAATTATTGCACTTACATTTTATAGGTTTTTATTTTTTCCAATTCTTCTAATAATTTTTGATAATAAGAAATTTCTTCCTTTGGTTCACTTGTTTCTATAAAAAGTATCTTTCCTTTTCATTCATCATTTTTTGGAACAAGATTAAATTGATCTGCAATGGCTTGTTTAGGTGAATTTTTATCAATTAAAGAATATATTGTGTCTATACAACCACCAATCAATTCTCCTGATATATTTCCACTTTCTCTCAAAACTTCATAACCTTTGTTATCTAAATGTTTAATTCTTGAAGTTCCCATAGAATCCATTGAAAAATCTTTTCTTTCTTCAAATCAATATTTGCTAGCCTCAACTTCAATATTTTGGTTATTAAAAAATAATATTTCAAATGCTTTTTTGAATATTCTAGCATTTGATCATCTAACTCAGCAAAATCAACTAAAAATGAATGCCCATAAAAAGTGTTTAATCCTAATTTTCTAAACATTAAATGATTAACTGTTGTATCTGAAAAACCAATAAAAATTTTTGGTTTTTTTTGTACAATTTCTTTAAAAAAATCATTATTTAATAAAAATGGCGCTGTCTTATATGTATTAAATCCCCCAATAGCACATAAGATTTCATCATTTGCAAAAGCCTCAATTAAGTCATTTGCTTTAGCTTCTGGATTATTAGCTAAAAATTCTGTTCCTTTTAAGCTATTAGGCATAAAAACAGGTTCTAATCCAAGTTCTTTTAATCTTTTTATTTCTAATTTCAATTAATGTTTACAAAAAATTTCACCAAGAATTCCTGATGATAAACTAACAATAGCAATTTTATCTTCTATTTGTAATTTTTTTGGTTTTATTTTTCTCCTTTATTGATTATGTATGTATTTAATAATTTTCTTATTATATTTTTTATGTAAAATGATTAGTATATTTAACTTTAAATATTTACAAATCTTTAATTTTATTACTTCTTTAATTGAAGTTAAAATTACTTTGTCATTTTAAATAATATAAAAATACATAGTTTTTTATATTATTTATATTTATCACATGTATTTATTATAATAAAAAAATAATTTTTTATTTTTCAATTATTCAAAAAAATTGCAATTCTGAATATAAATGCTTTTCCTTCTTTTAATATTATAATCAAAATAATTAATTTAAATATTTAATATTAGTTATCTTTCTATTACAGTAAAATTAAATTTATTATTTTTATATTTTAAACTAAATTTAAAATTATGCAATGAATATATAAAACACTTAAAATAAATATAATTTTGTATAAAAAAATCTTGTAAAATTACTTACAAGATTTTTATAAACTATTATTTATACATTTCAATTCTTTTTTGATGTCTGCCACCTTCAAACTCAGCATCAATTCATTCTTTTATAATCATTTTTGCTAATTCTAGTCCAATAACTCTTGAACCCATAGATAAAATGTTTGTATTATTATGCTCTTTTGAAAGTTTAGCACTATAAGGTTCACTACAAACCACAGCTCTAATTCCATCTACCTTATTTGCAGCAAGAGAAATACCAACTCCAGTTCCACAAAAAATAATACCTAAATTTACTTCATTTTTTGCAACAACATCAGCAACTTTTTTTCCATAAATTGGATAGTCAGTTCTTTCTTCTGAATCTGCACCTAAATCAACAACTTGATAACCTAATTCAATTAATCATTTTTTAATTGGTTCTTTCAATATAAAGCCAACATGATCACTACCAATTGCTATTTTCATATTACAATCCACCCTCTATTTTTTTAATTTGCTCAATTAATTGATTATTTGCAACATTTATAAAAGCTCCTACAACCATAACTTCTGCACCACATTGTTTTAATTTTTGATAAGTTTCTTCTCTAACTCCCCCATCCACTTGTATAAAAAAATTTAAATTTTTATCTTTTTTATAATCTGAAAGGTATTTTAAATTATCATAAACTAATTCATTTAATTTTTGACCATTAAAACCAGGTTTAATAGACATACACATTACACCATCTAAAACTGATAAGTATTTATTAATGATTGATGGATTTGTTTCTGGATTTATAGCCATTACAGCTTGCATATTTTTACTATGAATATTTTTAATAATATTTATTATATTTTCTTCACTTTTATCAGTCACTGATTCAAAATGAAAATTAAAATATGTTACACCGCTTTGAGCAAAAGAATCAATATATCTTTGCGGTTCTAAGCACATTAAATGTGCATCAATAGTTATATTTGAATATTTTTCTTTAATATCTTTGCAAAACTTTTGACATAACGCATAATTATTAACAAAATTTCCATCCATTATATCTACATGAATCCAGTCAATTCCAACATTGATTAATTCTTCAATTTTCTTACCAATTTCTAAAAAATTAAATACATATATGGAAACTGCTACTTTATTCTTCATTTTTTTTCTCCATTTCTTCTTTAACATCTAAAGCAATATTCGAAACTTGGGGACCATATATAATTTGAATATTATTTTTCTTTTTAATTATTCCCATTGAACCTGTTTCTTTTAAAATTGTTTCATTTATTTTTTCTATATTTTTTACATCCACTCTAAGTCTAGAAGCACAATTTTTAATTTCTATTATATTTTCCTTAGTGCCCAGTCCCTCAATTATTTTTATAGATTGATTTAAGGAATTTTTATTTTTTTTATTTTTATTTAAAGAATCTACTGTCATTTTCAATGAAATATCATTTTCGTTTGATATTCTTCCAGGAGTTTTAATATTTTTAAACTTAATAAGAGCTCAAAATGAGAAGTAATATGTAGGACCAATTATAAGCAATCCATAAATTAATATTCATAATGCTCCATTTCTTCCAGCAAACATACCAAATATTTTTTTACTTTCATCACCAATTATGTTTACACCTGTTGAATATCCTGGAAGTAATCCAAAGAATACATAATCTATTAGTCCCGCTGTAAATCCATTACCTGCTTGAACATTTAGCAAATATGCTAATAAATAACTGATACCACCAATTAGAGCATGAACTCCAAATAATAATGGAGCTACAAATATAAATGAGAATATCAATGGTTCAATAATTCCAGTGGCCATTGATGTAATAATTGCAGATCCAAGTATTCCAGTAACTTGTTTTCTATTTTCTGGTTTAGCCATAAAAATCATTGCTAAGCCTGCAGCTGGTAAGCCATAATTATACACTGCAAATCTACCACTCATAAAGCCTGTTCCTACTTCTGTTGTATAGTGATTAAATGAAATGAAATAATTATCTCCATTTTGATATAACATATCTAAATAATTTGTCATATTTTGATCAATTAATTGTTGATATGCTGTTGGTGAAAGTTGAAAACTTTGCCCAACTCAATTCATTTGTTCAAAAAATACTGTATATGCTCCTTGAACTGAATTAAAACTTGTTATAACTCCATCAGTTACAACTGGAGCATATCAAGTACCACCAACTGAAGTAAACCAAAATGGTGTATAAAATACATGATGTAAACCAGTTGGAATTAATAATTGTTCAAAAACTCCAAAGAAATATGCTGCTATTGCTCCTGAAGTTCTTGTATATTCTTCTTTACTCCCAACATTCATTCATGTTCCAAGTCCCTCACCTGTTTTAAATAATGCAATCATAATCATAGGTCATATAAAGAAAACAATAATTCCTAATCCAATACCCATGAAAAATGCAGCAATTGGAACAAATTTTTCTCCTCCAAAAAATGAAAGCATTCTAGGTACCTTAATATTGTATGTTTTATTGTGTAGAACTGCTGTTAAACTTCCCACAATTATTCCACCCAAAACAGATAAATCCATTGCTGGTGAAATACCCATTACACTAGAAAGCATACCCTTATTTTGACCAACTGAAACCAATTTATTTTCACCTGTAATTTTTCAGGGATCAAATGTAACAACTAAATCACCATTTGAATTTGTATAAGGTATAAATAATGCAGAAACAGTAACTGTCATAACCATAAAAGCAATCATTGCTGAAACAGCTGCAACACCTCTTGATTTTTTTGCAAAACCAAATGCAATTGATGAAGCAAATAAAATTCCCAAACATGAAAATATTATATTTCCAATTGTTTTAATAATTTGAAAAAAATTTATTCAACCAACTCCTCATTCATTAGTTTGTGCAGCAGCTAAAAAGCCACCACCAATGCCTAACAATATTCCAGCAATTGGTAAAACTGCAATAGGAAAAACTATTGCTCTTGAAAGATTTTGAATTTTACTACCAGTTTTATTTCCAAAAGTTTTTCAAGATTCTTTTAACTTTAAAAAATTCATAATTTAATACCCTTCTATGAGAACTATATGTTCTTCATTTTTATTCTATTACTCAAAGTAAAAATGAAATAAAAATTTTATTTTTTGTTGCTAAGCAACAATTTTTAAAATGGTATAATTTTTTTAGAAAAGATGTGATTTTAGTGGAATTAACAAGTACAGAAAAATTAATATTATTAAAAATAAAAAATGATATTGAAGTATTCACAACAAAATCAATTTCTGAATTGAGTAAACTCTATTATGCCTCTGATGCTTCAATCTTGAGATTAGTCAAAAAATTAGGCTATAAAACTCTAAAAGAAATGCAAATTGAATTTGGTAGTAAGTTAAAAATTGACAATATGTTAGATGATTTTAAAGAAGATTTTCTTTTTGATGAAAATGCTAATATTAGTGAAACTATTTCAAGTATTACTGCTTTGAGTTTATATTCAATTTTTAAAACTGAGGAAAATCTAAATAAAGATTCAATTGAAGAATTTGTTAATATAATCTCAGATAGCGGTGAATTATCAATTTTTGGAATTGGAAATTCAAAAAATTCTGTTGAATTTTTAAACAATCAATTAAAAAGAATTGGAGTAATCTCAACAATACATAATTCTGTTCATGGTTTTTTAATTCATACAAATTTTTATAAAAATAAAAATATTGCATTAATAATATCAAATTCTTTAAAAACAAAAGAAGTGACATTTATATTAAATTACTTAATTGAAAATAAAATTCCATATTTAATTATTAGTTCTATTGATAGTACAAATAATAACTTGTTTATAGAAAAGGCAAAGTCTTATATTCTATATTCAACAAATTCAAAGGAAAAATATTCATTTCCTATGATAAGTTCTTTTTACTCACAAATTTTTATAATAAATATAATTTTCAATAGATTAATTCAAAAGACAAATGATTTTAAAACTAAAATTGAACTTGGAAATAAATTAACTAATAAGTGAAATGAATCCTAATTAAGTATTTTTTACATTAATTTAATCAATATTTCATTAAAAAAATATATAAAAATATTTTTATTTTTTTATTATTTGCAGTTCCTTTATAATATTAAAAAATATTTCTTCTATTAATGAAAAAAGTACTATTCTTAATCATCCTATATAAAGAAAAACTTGATTATATAATAAATTAATATCTCCATGCATAAATGAATTTCGTAAATCACGACCATTTTTTTTCTTATCTAAATATAAAATTCAATATATAACTTTAATACTTTCTTTAGATATAAAATCTTTAAAAATTTCATTAAATTCAAATATTTCTGCTAATTCAGTTTTTATTAATTTTTGTGATATTTTAAATTCTTCACTTCAAATATCTAATTGATTTTTATATACAAAAATTTTTTTGATAAGTAACTCAATTGCCTGAAGCATGCAAAATAAATGCCCTTGATATCTATAAGAATTTATTTCATTTTGTACTAAATTAAAAGATTCAAACACCGATTTTATTCATGAAAAAAAATATAAATATTCAGTATTAGTAAAATTAAATTTTTTTGTAATTAATTTAAAGTAGTAAATAATTCGATTAAAATAATCATAACTTATACTTATATTTTTAGTAAAAAATATACCATATAAGTTTAAAAAAATATTGAAAATTTTTACAAAAATAGAAACATCTAGAGTATTATATGTTTTATTTTTCAAATACCTTAAAAGAGAAAAATTTTCTTTAGATTTTGTTAATTTTCAAAATGAAGTATATGTTTTTTTAAATTTATCATATTTCAAAAAAATAAAAAATTTATTTTTGAAAAAATTCAATAATTCTTTTTCAAAAGTTTGATATTCAGTGAAATCTTTCATGAACTTTGTACTTCCTAATTCAATCAAATTAAATTCTTCAAGATTAATTGTTTTTCTTAAATTTTCTAATTCTAAAATTATATTTTTATTATTAATAATTTTTGTTTTTTCAAAGATTTTATTAAAATTATTTTAAAATCCCAATTTAAAAGTTGAAGATTGCATTTCAACTTTTTCTACTAATAAATTAATTTTATTTTCAATATAATTTTCATCTTTTATAGTTTTATAGTGAATTTTCAATAAATTTAAAAATATTTCAAAATTTAATGAAATATCTTCATTTAAAAAATTATCATCAATATTTTTTATAACTATTTTTTTTGTTTCATTGTAAAAAATATCAAAATTTTTAATAATGTAATTAATAAAATACAAGTCATTAGAAAAAAAATTTACAATTTTATTGACTACTTTAATGTTCTTTTTAATAAGATTTTTTTTCGTTCAAAAAATATGTTCAAAAAATTCTGAAAAGTAATCACTAAATAAGTTTGTCTCAAAAAATTTAAATTTATTTCAGTTTTTTATTAAAAAGTTAAATAAAAAGTTTTCATATACTATCAATTTATCAGAAAATAGTAAAATAAGTTCTTTTATAATATTTTTATAATTATCTTTAAAATTTATCTCAATGTCAATATTATTAGTTTTAATATCATTTATAAATTTTAATATCTCCCAATAATAAAAATGAAATTTAATTTCATAATTAATTTTTTTCTTATTTATTATCTGATATTCTTTTAAAGAACATTTATGATTTATTAATTCTTTCAAATCTTTTTCAATTTAATTTAGAAAAAAAATTAATGAATAATCATCTAAGCCATAGTAATTATTAAAAATATATTCTTCCTTCATAATTTACCTCAATTTTTTAATAAATTTTTTATTCTTGTGTTTTTAATAATTTATTATACATATTTGTTAATGAACTTTCTTTTACTTTTAAAGCATTGAAATTTTCAATTAAATTTTCAATTGTTTTAAATAAACTTTGTATTTGTTGATCATAATTTTTCATATATTTTATAACTTTACCAAGAATTTTAATTTTCTTATCAGCTTGATTTATATTATCAAATAAGTTCATATAATGATCTACAGAACTTATAATTCCAACTAATTTACTTCGTCCAGCAATTATTACTTTATTTTTAAACCCTTCATCAATTAATTCTGCAAAGCTACTTAAAAATGAAAAGATTCCTTCACTTGGAATAAACATAATTGAATAAACTGTATTGTCTTCCTCACTAATATATTTACTGGTTTCTTTTATTCTAGCTTTTATATCCGCTTTAAATTTTTTAATATTGTTTTGATAAACCTCACTATTATTATCCAAATTCTGAATATCAAGATAGGCATTAAATGAAAATTTTGAATCTATTGGAATATTTACAAATTTTTGTCCCTCTCCTTTAATAAATAAATCAGGTTTCAAATTTTTATCTTGTTCATCTTTTTTCTTCATTGTATATTGTCGTTCAAACAATAAATTATTATTTTTATTAATTCCAGCTAAATTTTCAAAAATTCTTTCTAAAAAATATTCTCCAGATTTTCCAGCTTTATTATTTTGACTTAAAAGATTATCTAATTTATAAATTTTTTCTTTAACTTCAAAAATTGGTGTTGATTGATCCTTTACTGTGTTTAATAAATTTCTTACTTCTCTATTTGAATTATCCAATTTTTCTTCTGTATGTTTAGTTTGACTTTCAATTCAATTTTTTACTTCTTTTTCTAGTGAAATAATTTTTTTAGTTTCTTTAATGTTTGAATTATAGAATTCTTCTTTAACTATTTTTTCAAAATTAGTTAATTTTTCTGAACTTTTATTATTAATTTCATTCATAAAATTTTTTAATTCCTCAGAACTTCTAATATTTAAATTTTCAATTTGTGATTGAAGCAGCTCCAATTCTACTTTACTAACCCCTTCGACTTTTAAATTTGATTTTTTTAATAAAAAAACAATACTCAAAATTATTACTACTGAAATTAAAATTATTACCAAAATTAATAGTGTAATCTCCATAGTTTTCCACTTACTTTTATTTATGTAAATATTTTATTATAAAATATTTACATAAATAAAAGTATTTTATATCTTTTACTTTCAAAAAAAAAATATTACATTAATATGTAGTTATTGATTTTTTATTTATAACTATATTTAATTTTTAAAATATAAAAAGCAACCTTTTGAAATTGTTTAGTTTTTTTAAAATGCTAAACATTTCTTTTAAGATTGCTTCTTTTACTTCAGTATTTATTTTTTTATATTAATATTAGTATCTAATAAAATAAAAATTAATTAGTTGCATTAGTAGTTTCTTGAATATATTTAAATCTACAATCAATTTTTCCAATATAAGCATCATCTTTAAGAACTACAGATACCTTATTTCCAAAATTATTTTCTAAAACTAATTTATCTCTAAAATTTTCCAAATCAGGATTTTTATCTATAATTACATTAAGAAGTTGCTCAATTGTTGGTCTTTCTAATGGACCCTTAATTTTGCCATGTTCACTAACTTTAAGTAAACTAGAAAGACTTTTTACATTTAAAGAATTTAAAATAAAATTATAAATAGATTCTAAATTTTTTAATGATTCATTAACTAAATCTTGTATATCTTTTAAAAAATCAGAACTTTCCTTCAAAATTTTAATAATACTTTCAATATTTATAATATTTTCATCTCTAGTAATTCCAATTTTGCTTTCAACTTTTATTGAATTCAATTCTATTGTATTTGTTTTTGGGTTAAAATCATAAACTTCAAACTCTGTTGCATTTGGATTAAATTCTAATCATTCTCCAAGAAAAATACCAATAATATTTTGTTCTTCAAAATATCTTTCTAAAAATAGAAACTCATAAACTTCAACTTTTTCTATTTTAAGGTTTCCAAATTTTTCATATTGTTTTTTTAAAGTTTCAGCAAATTTTTGAGAATACTTTAATAATCCTTCTTTTGCACTTTCTGATGTTGTAGGTCATGATGGTAGCAGAAAGTTTGTATTATCTTCAACATCAGAGTTACATGTAACAACTGATCCTACTGATGTAGCTGTTAGTGATAAAACAGCAAATGTACTTAATAATTTTTTCATTTTTTCTCCTTAATTTATAATATTTTTTATATCAATATTTTAAGTAATTTGTATAAATTTAAATTATTATTTATTGCAATTAATAAATATAATTATTTTTTTTAAAATTATTATTAGTTTTTTAATTTAAAATTTTATTTATCACGTTCATTACATGAAAAAACACTCAAAACTGGTGTTGTTGTTAATGAAAACATTGTCATTATTGTAATTAATTTTTTTATTTAACTACTAACTCCAAAAACACTATCATAATCTTTTTTTATTTCTTGTGCATAAATTCAACCATATGGTAAACCATTATTTTCAACTCAAAAATCATAAAATTCTAAAAAATAATCTCAAATATTAAATTCAGAAATAAAATCTCCTAAAAATTTATAATCTTTATATTTTTTCTCTAATTCATCAAAATTAAGATATGCTGAAAAATGATCATTAATTATAAGTGCATACATTTGTCATAAGTTCATTATTGCTGAAACAAACCCTATTCCTCCTTCTCTACTTCCCTTTTCTGCATCATTAAGTAATATAAAAACTTCTTCCATTTTTTGTTGTGCATTATCATTATTTATTTCTTTTAAATCTAAATAATAAAAGTTCCCATATTTGGAGCTTCACGTTCATTACATGAAACAACACTCAAAACTGGTGTTGCTGTTAATAAAAACATTGTCATTATTGTAATTAATTTTTTTATTTAACTTCTTCTTTCTTATTTAACTACTAACTCCAAAAACACTATCATAATCTTTTTTTATTTCTTGTGCATAAATTCAACCATATGGTAAACCATTATTTTCAACTCAAAAATCATAATATTCTAAAAAAGATTCTCATCTATTAAATGCAGAAATAAAAGTAGGTCAATGATAATAATCTTTATATTTTTTTTCTAATTCATCAAAATTAAGATATGTTTCAAAATGATCATTAATTATAAGTGCATACATTTGTCATAAGTTCATTATTGCTGAAATATAACCTATTCCTCCTTCTCCACTTCCCTTTTTCTGCATCATTAAGTAATATAAAAACTTCTTCCATTTTTTGTTGTGCATTATCATTATTTATTTCTTTTAAATCTAAATAATAAAAGTTCCCATATTTGGAGCTTCACGTTCATTACATGAAACAACACTCAAAACTGGTGTTGCTGTTAATGAAAACATTGTCATTATTGTAATTAATTTTTTCATATTTTCCTCTTTTCTTTAAAATTATATTTTTTAAATGTAATAAAATTTTTTTACTATATTTTTTAAAAATATTTTATTCATTTTCATTTTTTGAAAAAAATTTTTACATTTAAATTTTTTATAAAATTATTTTTGACCAAATAAAAATAATTTATTTTTAAAATTAAAATTTTTTATACTTTACTTTTTTTCTTTTTTAAATAAAGTGTTGCTTGAAAGGAAAAAAAAATTTATAGATAAAGTTTTTAAAACAATTTTTAAAAATAAAAAAAATATAAATAAAAAAAAGAAAAGTTATAATTTCATCAACAATTTCTATTAGTTTAGTTATATTATTAACACTTGGAATTACTTTACCAATGACACTAATTGATAAAAAAATTTATTTTAATAATATGATTTTTCAAAATGAAGAAGATTTATATTCTTATGCTAAACAAAATGCAAAAAAATCTTCATATTCATTTGACACAAAAGAATATATTTTTGATGATAAATTATTTAATAATTCAATATTATTAAATAATTATATTAAAGAAAAATTTAATATAATTAAGGAATTTACAAATAGAAATATTCAAGAATTTGTAATAAATACAGCTGGAGAATTAAATTCATTAGTTGAAATGGATAATAATGACTCTATTTATGAAATATTTGAAGGTAATGATTCTCTAAGTTATTTAAGTGAAAATGAAGCTAAAAAAACATTTTCAAAAAATATTAAAAAAAATTTTGCAATAGAAAATAAATATTTTGAAAATTGATTTTCTGCAAAAGAATATTTGAAAAATATAAAAATTGCAGAATTAGAAGAAAATAAAACTTCTGAGTGCTATATAGTTTCTAGCATTTGCTATACAAAAGACGAATTAACTACAAATATTCGTAATGAAATTTACAGTGGTTTTATACTTGAAGGAAATGAATTTTCAGATTTAAACTATAGTGAATTTTTAGAATACACAAAAGTATTAAGTGATAAAACAATAAATAAATATATAACAGAAAATATTAATGCAAAATATAATTCATATTGAATTAATCATGAAACAAAAAATTCTACAGGAACATTTTCAGGACCTCAATATGTAGAAACTGAAAATAAATTAGATACAAAACTCGAATTTAATTTAGTAAGTAATACTGCAATAAATCAAAATTTTGTAAATATTGCTCTATTGGGATCAGTTTTAAAAATATTTATAAATTTAAGCAATAAAGAAATTATTGAGGAAAATGATTTTAAATTAGATAACTTTTTAAATTTAAATTATAAAAAGTTAAACATAAGTCAAGAAAATTATAATTTAATCAATTCATTTCTACAAAATAACCGAAATTTATCTTCACAAATCAATCAAAATTTAAATAAAATTAAAAGTTCTGATTTTACACCAACTCATAAATTAATGGTTGCATTTAAAAGAATATCAGAACTAAATAAAATTTATGATTTAAAAGTAGAAGAAATAAATATTGAAAAACTTTTAAAAGATATTATGCTTGAAATAATTTTAGCTAATGATAATTTTTAAAAAAAAATGTCAAATGATAAAAGTTGAGTTTTATTATTAAGTGATGAAAAAATAACTTATAATGACATTTATTCAATATTTATAAATTTTCAAGAATTTATGTTAAAAGAAAATTGATATTCTGCTTTTATAAATAATTTAATTAATATACAAAAATTTTATGATGATTTAATTAACAGTTTTGATTTATTAAATGGAGTTGCAGATGCAACAAATGAACTTTCAAAAAAAATGCAAGATAAAAATAATGAGAAAGCTGTAAAAGAGATTAAAAAATAAAACCAAAAATTAACAAAATTATTTTTAACTAAACAAGATGAAATAATGGAACAATTTCACTTAGAAGATTTGAATTCTCAAACTTATGTTAGTCCAATTATTGTAATTGATCTTATTGTTAAAATGTGAGATCTAATGAGTGTAATTAGTTTCTTTTCATATAACACATATGAGGCTAAAATTGATAATACACAATCATTACTTTATTCTGAAATGGGAATTAAATTACCACTATTAAACATTCCCCTTTCACCTGTTGGAGCAAATGCAACTTCAGTATTATTAACTGAAAGTCCATTAGAAACAATGCCTGAAATTGAAGGAATTGAATCAAAACAATTATTTGTATTTAGAAATAAATATTTTCACACAAAAGAAGATGCAATAAATGAAATGAAAATTGATATGTATTTACATCCAGAAAATTATGCAAATACAACAAAAATGATGACAAATTCATTTAATAAAGAACATATTTTTACTTATGAAATACCAAAAATTTGTACAGTAAATAATGATGAAAATGAAAATATTGATTGTATTACTTAACCTCAATATGAAAAACAAATAAATATTGAAAAAGAAAATTATAATCAACATTTGAAGATTCAATAAATTGTTGATAGAGTTTCATATCCTTTAAATAAAAATTCAAATTATCTCTAATTTCAACTGGTTTATAACTTTCAACTCCACCTAAAATATAATTAACAATAAAATTATAAAAAGTTAAACTTGATCCTGAACTTATAGACGGATTATTTATTTGATTAAAAAAATCACGATTAATTTGAACTGGGTTATTTCTATCTAATTTTACATATTTATCACTTAGTGTATAAGAAATTTCTGTAGTACTAACTTCTTCAGTTTTTGCAATATATGGAATTCCATTATTTGAAAAACTAATAGGTGAATTTTTTTCTTTTCTGTTAAAAACGTTGCTGGTAAACTTGCAATAAAATTTAATGATAATAATAAAGTTATTATTATAGTTGAAATTTGTGCTTTTAATTTTAAACTTGCTAATGTGAAAAAACTAATTAATACTAAGTAAAGAAAATTAACTATTGTAACTTTTAGTACAAAAAAAATTAAATTTTAATTTTATTAATGAAGCTAATATATTTAGAACTGAAAAATTAATAAATCCTATTAAGATCAAATATAAAAATATAATAAGTAATTGAAATGTAATAATTTTAAATCTAGAAATTTGTTGTAAAGAAAGTATGTAAATTGTTTTATCATCAATTTTTGTATATAAAAATGAAAGAATAGTTAAGACAACAACTGCCTTATTTATAACTAACAATTTAAAATTGATACTTGATATTGTAAAAAACTAATATTTTTTTTCATTAACTATGAACCTACTTAATTTTAATTTCATAAATAATTAATTAATTTTTTTATTTACCCTATAATTAATTTTAATTTAAATAATAAATTTTATTTTTTTATTTTAAAGTTAAATTTCTAAATAATTTTATTCATCTTTAATAGTTATTAAAAAAATAATTTTATTATTTTTAAAATATGTAATCTTTATTATTTCTTTAAAAATAAAGATTACAATTAGTATAAATTCAAAAAAGAAAAAAGAATTATATTTTATAAATATAAAAAATAATTTACATTTATAAAATATTTCATTTTAATAAAATAAAAAGTTAGATTAATTAAATCTAACTTTTAAATATTTATTTGAATTGTATTATTACAAATTGAAAGTAATTTTCTTATTTAATTTAAACTATCTAAAATTGTTTCTTTATGTGTTATTGTTTCAAAAGTTTTATCTGCTTTTACTTTAAACTCGTAACTATAATTATAATTATCTAAGTCCCTAGTATTATCATTATATGGAGTTCCTGTTAAACTTAACTCTTTATCACAATAATTTGAAAGATTATTTAATGCACTTGTTGTAGGGAAAGGATGTCCCCCATCAAATTTACTTCAATTTGGTTCTTCAGATTCACTTGAAGTTCCAGAAATATAACAATATTTAGGTTCAATTTTCTTTAAAAAATTTGGACCAGCTGAATTTGCACTTCCATGATGTGGTACTTCGTATACATCAATTCGAATTAAGTTTATATTATCATTATTAACAATTTGAGTTGCTTCAGCCGCTTCTGAATCTCCAGTTATTAAAAATGAAATGTCATTTATTGTAAATTGCAAGAACGTACTTTTATTATTTTGATTAGTTATTTTTTTCAAATAATCTTGAATATAATAAGTTCAATTATTAAAAGTAATTCCCCCAAAATTATATTCTTCTTTAAAATCTGTAATTATATTAATTTCATCTTTATCAACCAAAATTTGACCTTTATTGATTTTTTCTAAAAAACCGCTGTGATCATATGGTAATACTAAATTATTTTTATTTTAAATTCCTCATCCACTTTATAAAGATTTGCATAATGATCTGTATGGTAATGTGTTAAAAATATTGGTTCAATTTCTTTAACACCTTGGCTTTTCATAAAATCTGATGAAAATGGATTTTTTATAAAATCATCTTGGATTCATTGTGTTGGATTTCCTCCAACTCCAGTATCAAAAACAATTGCTTTATCAGTATCATACTTTAAAAATGTAAATAAACCATTTCCAACAGATAATACATATAATGAACTGTCAATAAAAACTACATTTTTTGTTGAACAAGCAATAGCAGATGAAGTTGTTGATGCAATTAAGATTGTACTTAAAAAGGTTAATAATATTTTTTTCATAACTAACCTTTTTCTCCTCTTCCTCTTGTAATTCCGTTTATAATTAATCTATTTGTAAATAGAAACATAATTAACATTGGTAAGATTGATAAAGTTGCACCAGCTAATTTTAAATTTTGAGGATCTCTTGCTAATTCTTCTAAACCAACATCTCCCCCAACTCCCCCAGTGGCACTCATTATTCCCCATAACATCATAGGAACAGTTGCTCATCCTGAATCAGTTTTTAAAATCATTGTTGGTCATAAAACAGCATTTCAAGAAGAAATTAATGAAATAATTAATGAAGTTATTAAAACTGATTTTATTGATGGAAGTGCAATTTTTCAAAAGTATTTAAATGTTGAAAGACCATCAACTTTTGAAGCACTTTTTACACTTTTTCCAATTCTTTCAAATGCTTGTGACATTAAATAAATTGTAAAAACATTAGATAAGAAAGGTAAAATTAAAGCTAGAATATTATCTTTTAGTTTTAGTTTTACCATAAAAATGTATTGCCCTAATAAAAGAGCTTCTCCTGGAATCATTAATGTTGATAATAGAATTATTAAAATAACACCTTTTGCTTTTGTTCTATAATTTGCAAGTCCAAAACCTGCAATTACAGAAACAACTAATTGTAGTGCTGTTGAAATAACACTAATAATAATTGAATTTAAGAAAAATCTTGGTACACTAACAAAATACTTTAAATCATTTGAATTAATATATTCAAATAATGCTTTATATCCTTCTAAAGATCATGTTTCAGGCCAAAATGACATTGGTCTTGTTGGATCTAAATCATTTGTTGTTCTAAATGATGTTAATATCATTCAATAAAAAGGAAATATAATGATTACTGCAATAACAAATAAAAATAATGCTTGTAATACTTTAAGAATAATTCTTTTTTTTAAACTTTCACCAGCCATTGATGAAGTAAAAATTGTTTTTCTATTAATTAAATAATTATATTTAAAGTTTATAAAATAATTACCTATTGAATTAACTTTTAAGCTTAATCTTAAAGTTATTGATAAAAATAATTTGACAAATAAATTACTTGTTATTTTATATAATTCATCATGTTTTTCATGCTTATTTATAATTTTAAATTCACTTAGTTCTTTTCTTTTTTCTCTAATTAATTCCTTGTTACTTGAAGATTCTTTTAGTTTTAAAAAATTAGTTTTACTTTCTAAGTATTTTTGTTTAAAGTGAAGATTAATTTCTTTTCTATTAATTAGTTCACTTGTTTGTGATAAATTATTTTTTTCCATTAACTTTCTCCTTATCCATATTTCTTATTCAAAATATTACTAATTCTTTTATTTACAATTGTTAAAGCTAAAATAATTGCCATAAGAATAATTGAAGCTGCCCCTGCTTTTTGATATGAAGGAGAAGTAGAAGAAGCATTAATTTTATCATAGATATAAAATACAACAGTTTGACTATTTGAATTTGTTGCATCAATGTATGAACCAAATAAACCTAATGGAAAAACTTTAAAACTTGAAATTATTCCTGTTGTTATCATATAAACAATCATTGGAACAACTCCAGGTATTGAAATTCTTCAAAATTGTTTTCATTTTGGCATTCCATCAATACTTGCTGCTTGATAATATCTATTATCTAATTTTAAAAATGCTCCTGTAAACATTATTATTTCAAATGGCAATGACCTTCAAATTCCATAAATCATAACAAGTATTATTCCCTTACCTGGTGATTTTCATAGAATTGAATCTACTCCAAATCATCCCAAAATTCTATTCATTAATCCAAAATCTCCGGATGAAAAAATAAAGGAAAAGGACATAGCAATTGCCATTGATGAAGTTACATATGGTAAGAAAAATAATGATTGTAGAAATGAGAAAACTTTTTTATTTAATATATTAGAAAGAAATTTTGCTGTTGTTAATGTAATTAATAAACTAATTGGAATAACAACAACTGTATAAATTAGTGAATTTCTCAAAGCAATTGTAAATGTTGAATCTGAAATTACATTTTTAAAATTAACTGTTGAAAATTGAAAGTCAATTAATGGTCTTTTTGCTGAATTAAAACCAGTTTGAAATACTATAAAAATCGAATAGTATAAAAACATTGCTAACAAAAATAAAGCTGGTGTCATTCAGATAAGTTGATTAACCAAATCAAACTTTCTTTTTTCCATATTATTTAATTTATTTTTTTTATTTTTCAAAATTTTATCTACTTTTAGCCTGAACCATGATTTAGGTTTTATTTCTGAATTGTTATCCAACTAAATCACCTCCAGTAAATTTTTATTTTCGTCATTTTCAAAAATATAAATTTTATTTTTTAAAATATTAAATTTAATCTTTTGTCCAAGTTGTACATTTTCTAAAATATGTGAATCATAAATAATTCCAATAGTATTATTGTTAAATTTTAATTTAATAAAGTTTGTTTTTCCTAGCATTTCAAAAGATGTGATTTCTCCAATTAATGGTTTTTCATTTGAAATGTTTTGATTTGTTTTTGAAGAATCCAAAATTAAATGTTCTGGTCTAATTCCTACAATTACATCTTTATTTTTTAAATTAACTGATTTGGCAATTTTAACATCTTGTAAAAATATTTCTCCCTTTTCAGATATTTTTGTTTCCAAAAAATTCATTGAAGGTGTTCCAATAAAATTTGCAACAAATTTGTTAGCTGGTTTTTGATAAATTGATTTAGGTTCTTCTCCTTGTTGCAACTTACCTCTTGACATAACAAATACTTTATCTGAAATACTTAATGCTTCTTCTTGATCGTGTGTAACAAAAATAGTTGTAATTTTTGTATCTTGTTGAAATTTTTTAATTCATTCTCTTGTTGAAACTCGAAGTTTGGCATCAAGATTTGAAAGTGGTTCATCAAGTAATAAAATTTTTGGTTTTTTTATTACTGATCTTGCAATTGCAACTCTTTGTTGTTGACCACCACTTAACTCATATGGTTTTTTATAAAGCTGATCTTGTATTTCAACACGTTGTGCAACTTCAAAAACAGCTTTTTTGACTTCACTTCTAACAGAAGAAATATTTTTTCTGTAATTTAAAACCTCGGTTTTAAATTCTTCTTCTGTAAAGAAAATATCATTTTTTGAAAAATCCGTTATAATTTGTGACAATTTAAATTCCAAATCAATTAAGAATTTATCTATTATTACTTTTATTTCTTTATCATACTTTAAAGTAAAATCATCATTTATTGATTTAGCATCAATATTAAAATTTTCAATTATTTCTAGATATTCTGTATCATTTTTATCAAACAAAAATTCTTTTCCTGTTGTTTTTGTTTTTCTAATTTGCATTTTTTTTTCAAAATCAAATGACTTATTATGTTCATTTAATGTTCTTTTTGTTTCTTTTAAATTAAAAGAAATTTCATCAATATATTTTAGCTTTAAATCTTTTAAAAATTTATTTATTGAAGAATTAATATATTGATTTTTTTCTTTTTGATTTAATTCCTTTTTAAAATTTATTATTTTTAATTTAAAATCTCTTAATAATTTCAAATAAAAATCCAAATAAAATAATTTTGATTCATCATACATTCTTGAAATTTGTTTATTTTTAAAAACCTCAAGATGCGAACTTTTATAAAGTTCACTAATATATTTTTCAATTATTTGTCTGTATTTATCAAATAAATAACTTTCTAAATTTAAATATTTTTCATTTAAATCTTTTAAAAATTTATTAAATAATTCGAATAATTTTTCTTGAAGATCAAAAATATTTTTTTTCATGTTAGATTGTTTTAATTGATAAATTAATCTTGAATAATTTTGATTATTTTTTTTAACTTCTCTTTTAAAAGTTTTACTTTGATAAAGTGGGAATGCAATATTCTGAAATACATTTAAATGAGGATATAGTGAATAGTTTTGAAAAACTAAACCTATATTTCTCTTTTGAGTAGTTTTTTTTGAAACGTCAATACCATCAAAAATAATTTGACCACTTGTTATATTTATTAATCCTGCAATTGCATTTAATGTTGTAGATTTTCCACAACCACTTGGCCCCAGTAATGAAGCAAGTTCACCTGTTTCTATATCAATTGTTAAATTATCAACTGCAAGAAAGTTTCCATAATCAATACTAACATTTCTTAATTTTATACTCATAGTTTCATTCTCCTAAAGTAATTCATCAATATCTTTAATTATTGCATTAATTGTTTCTAAATCAGGAACAATTGCTCCTGCAGCAAGGTCATGACCTCCACCACCATATTTGGCAGCAATTTTATTAATTACTGTTTCTGCACTTCTAAATTCAACTCTATAAGATTTATTTTCAAATTGTGAAAATGTAATTCAAACTTTTATTTCTTCAAAACCTGCTAAAGTATTTGCATATTTATTCATCATTTCTGCTGTTAAATTATGTTTTTTTAAGTCTTCTAAAGAAATAATTACATATGCTAAACCTTTTTTTGTTAGTTTAAAAGTATTAAAAATTAAATTTGAAAATTCTAAATCTGATAATTTTCTTGTATTCAATTTTTTATAAAGTGCAAATAAATCAAATCCTGTTTTTAATAAAACAGAAGCTACTTCAAAAGTTCTTGCAGTTGTTCCTCTATATAAAAATCTTCCTGAATCTGTGACTGTTCCACAAAAAATTACTCTTGCTGCTTCTTGGGGAATATTTCAATTTAATTGAACTGCTAAATATCCAACCATTTCTGATGCAGAAGTAAAAGTAACATCCACTCACATTATATATCCATATGGAGTAACATTTGGGTGATGATCAATTTTAATAATTTGTTTTGCTTTTGAAAATCTTTGATCTGAAATTCTTTCTACATTAGCACAATCTGTAACAATTACTAATGCTTCTGAAAATACTTCATCATCAATTTGATCAACTTTTCCTAAAAAACTTAATCACTCAAATTCATCACCAACAACATAAACTTTTTTATCTTTAAAATTATTTTCAATTAAGTGTTTTAATCCAAATTGAGAACCATAAGCATCTCCATCAGGATTAACATGCCTTTGAATTATTATTGTTTGAAATTTTTTAATTTCTTCTTCAATTGTTTTTAATAAATCCATATATTAATCTTCTTTTCTATTTGGTAAAATTACTTGATAATTTAAACGTGTAGTTTCAAATTGAGCAGATAAATTTGGGTCTAAATCTGTTGCAATTATTTTAAATTCTTCAGTTGCACCTGTATATGAAACTCCTGATACTTTTTCACCATTTCAAAATTTATCAATTGTTAATTTTGAAGGTGATTTATACATACCTGATTGAATTGTATTTTTAAATACTTTATCACGAACTGCACTTCCAGGTTCTGAAGCTTCAACTGTTGCAAAGTGATTATTAGTTTTACCTGCAAGCATTTTATCAATTTGTGCAAAAATTAAATTAGTTCTATCATATTTATTTCCATTTTGATTACTAATTACTTTTTTTGTTCCTTTAACTCATTCATATAGTCACTATCACTATAACTTTTTGCATTTGCAGGCATATAACCTGTTCAAATTGCCATTTTTGCCATATTACCTTTATTCATTAAAAAATGTGTAAATTCTTTTCAACAGAAGCTTTTTCATTACTTGAACTTTTAAATAATGCAATTCCAGGACCTTGTTGCATTACATATGAATCACCTTTTGCTGTACTTGAAGCAACAGCAAATAAGTCAGTTGTTGCAACAGCAACATCAGCCATTACTTTTCCAGCTTTATAATCTGCTTCATTTTCAACAATTTTACTTGGTGTTGTTGAATAGTAGAATGATCCTGCACTTGAACCTGATGCCATTAACATTGTACCTTGTGCAAAATAACTTGAAGAATACACTTTGCTACCAGTATCTGAATTGGCCACAAATAATGTTCCAGTTTCATCTAATTTTGATACATCTGAATTTAATGAACCAGTTAAATTTTCAATTTTTATTAATTGTTCTAATCATTGAATTACTTCTGTAATACTTTTAATACCTGAACTATTATTTATTTTAAATGAATCATTATAGTAGTTATAAATAAAATCTTTGTTCTCTGAAGAAGTAACTATTCTTTGTTTTCCTAAATTATTTGCATAATTTGCATAAACTTTATTTCCCATTGAGTCAATTCCCAAAGCAAAAGCTTTTGCATATGTATTAGTTTCATTTTGAGAATTTTTAGTACTTAAAGATTTAAAATCTTTTGCTAAAATAGCAATATTTGAATCTTTTTGTAAAATTTTTCTTAAAGCTGATGCATCTGTTGCTTGTGCAATACTATTATATAATTCTTTATTATCTGAAGTTCCTGTTTCATTAGTAAATAAATCAGAAGCTTCAATTTCAATATCTTTTCCATCTTTTTGCAGTCCCAATTCATTCTTTAAAAATACACCAGTTGCTGCATATTCCACAGTTGAATCTTTAAAAATTTCTGTATTTGGTTTAATAATCTTAGATTTACTGTATTAATGTTAAAAGATTTTAATACAGGTAGAACATAAAGATTTTCTCCTATTGTTCCTTCTTCTAAGAAAGAACTTTGATATTCACTAAAAATAGTATTATCTGTAATATACCCTTCACTTTTTACATCCACTATTTGATCTGGAATTATTGATTTATATCTTGCTACATTATCTGGATAAGTTAAATATAAATCAGGAAGTGCTTCACCTGCATTAATTGAATTTAAAATTTGACCAGCTGATGGTGTTTCAATTTTAACTTCAATACCTAAATCATTATGATTTTCATTAAAATCTGTCACTACATCTTTATAATCATTTATAATCGACGAACTTATTGTTGTTAAAGCATCAATCATAAAAATTACTTCTTTAATTGATGATGCTGGTGATGATGAATCTTCATTACCACAAGCAATAACAGTTGTTGCTCCTGAAACTACAATTGTAGTCATACCTAATAAACTTAATAGTTTTTTCATTAAGGTGAAATCAAAAATAACTCTTAGTAAGCTCATGAGAAATCATAAATATTTATTTAGTTTTAAAGGGATTTTCATAAAAATTTTTTAAATCACTCATAGTTGTTTTATTGGTAAAACAGTAGAAACATCAACCCTTTATGTTGATATATATAAGTTAATTTATGATTCCACAAATATTTTACAATAAATAAAAAATATTTTATTAGTTTAAAAAATATTTGCTAATTTCAAATTTAAAACCCTATTTTAATTGAGTATATTTAAAAATAATATTTTCCATAAAAATATTAAATAATAGATATTTTTTCTAAATTATAAAATAAAATTTTTAATATTTAAAATTATTTTACTAATTAGACTTTTCTATTTTAAATAAAAAATATAGTTTTAAAATCATTTTGTGTTAAATAAGGGGGAAAAATGAAAAAATTATTATCTATCTTTGCAGCAGTTGGTTTAACTGCTACATCAAGTGGTTTAGCAACCACAGTTGTATCATGTACAGATTCTCTAAATGATGAAAATACTTACATTTCATATTACAATGAAAATAAGGATAAAAATAAGGAAGAATTAGAAACAATCTTTGCTGATTTAAAAGAAAAACAAAAAAAAAGCTAGTGATAAAATATTAGAAAGTTTGAGAAAAGATCAAATTAGTGAAGTTGATAAAATTTATATTTTTATGTCAAAAGTATTAGAAGATAAATCTACAATAGAAGATATATCTAAAATCTTTGCAGAATATTTACCACAAATTGAGAAACTTATTGGATCTGATTTTGTAAATAGCTTATATAAACTTAATATTATTACAATATTATTAAGGGCTTAAAAAAAATAAATAAAACCCTTTATTAAAGGGTTTTATTTATTTTTTTGTAAAAAACCTATTTAGTTTATAAACTATTTTTTTTTAGTACTTAATTGTTTAAGTTCTTCATAAGTTAATTGTTTAGGTTTTTGTTTTTGCAAATTTTTATTTAATTTTATTCAATTTAAAAAGCCATATATTGAATTAATTAAATATGAAATATGCATAATTATAAAAATTATTGCTGTTGATTGTTCATAAGCTTCATTTTCAATATTTACTAAAATAATAATTCACATAACTAAGTTTATAAAATTTACTAAAAGTCATAAAAATCATTGATCTACATATCTAAAAATCATTAAAATAACAGCAATAATACTTTCCACTAAAACAAAAGAATCTAATCAAACATTTTGTGCCTCAGTAAAATTAATCATTATTAATGAGTAACTTACTCAAATTAAAATAAGTGTAACACAAACTAAGATAATTCCTTGAATTGATAAGAATCTTGCAAAAACATCTCCTTGGTTATTTCTCTTTTTAAATCATAATGCAAAACCAATAATATTCATTGGAATATAAAATCCTGCATGTAAAATTACAGAACTGAGCAACATTCCTTCTAGAGCAATGATTATATATAAAATTGAATTAATTGATGCAATTATAAAAGAACTAATTTTTCCCTTTGCACCTAAAATCACTCCAATTGTTCCAGTAATACCTGCAATTATTGTAATTGCAATATCTTTTGCAATAATTCCTAAAACTAAAATTAGTATTAAGAAATAAATAACAAACATATTTCAAAAATATTTCATCCAGATAATTCTGTTTTTAAAAAATGCCATTTTGATTTTTTAATAGTTTGATTTTGATTGTTAATGTTATTCATAATTTTCTCCTAATTCTTTTAAAAAATTTATATTATTTAACTTTGTTCCTCTAATTTGAACTATTTGTGAAGAAATTAAATTTGCAAATTTTAATGCTTCTTTTATATTATTAGTTTTTCAAAAATAAAACATAAAGGCCCCAATATGTCCATCACCAGCCCCAGATGTATCTTTAATTTTTTTTACTTTATTTGCTTCAACTTTTATAAATTCTTTTCCATCATAAGAAATTGATCCATTTTCTCCAAGTGTAACAATAATTAAATTTTTATTTTCTAAATAAAGTTTTTTTATTGAATAAGTTAATTCAGTTTCATTTGTATATTCTAAAATTTCTTGTTCATTTAAATGAATTATTGGTTTTAAAAGCATTATTTTTTTTAATATTTTTTTATCAATTTGATTAAAAACAGGACCTGGTGCAAAATAAAACTTTTTATCTTTTAATTTTAATAAATAATCTATAAGTTTTAATGCATCCAAATTTTGCATTTTATATCCTTCAAAATAAATATTTGAATAATCTTCAATATTAATATTATTAAATCAATCCTGATAAAAATTTTGTTCTAGTCCTGAATAAGTTACAAAAGTTCTTTCACCATCAGGTTCTACAAAAGCAATACAATAGCCATTATCCATAGTATCATTTTTTATAACTATCTTATGTTCATCTTCTATTAATTGTTTTTCAATTATTTTTGAAAAAAAACCTGTACCAATTGGTGCAAATAATGTATATTGCATATCTAATAGTTTTAAAATATTTGCAACATTATAAGCACATCCCCCAACAACAAATAAACTATTTTTTGAAATTACATCTCCTTTTCTTTTTGGAAGATTTTCAACTTCAATAATAATGTCAACAATTGCAGAACCAATTACTAATGTTTTCATATAAAATTTCCTATTTACTTATATAACTTTCTATTTTTTCTACATAATATTCAAAATTAATATTATTATTTTCTTGAATACTTTTAACAAAATTTTTATTTATTTTTTCAATTCCTGTATATGCACCACAAATTGCACAAGCCATTGCCCCAATTGTATCTGTATCTACTCCAAGATTTGCAGATAAAAATGCAGCTTTATTTACATCTTTTGCATAATATGCAATTGCAATTGCACAAGGAACAGATTCACTAATATTAACACCCGCCCCAATTAAATCATATAATTCATCAATAAATTCTATATCTCTATTTTCAAATTTTTTTGCAATTGTAATTGCAAGTTTAATTATTTTTGTTAAAGAAGGACTATAAGTTTCAGATGCAACTTTTAGTGCTAAGTCATCAACAAAATAAATATTTTCAAGTATTTGATCAAAACTTAAACCATACATTGCACAACTTACTGCTGTTGCAATAATTGAAGCCCCTGAAATTGCAATATCACTTGTGTGTGTTACTTGTGAAACTTTAAAAACATAATCAATTAGTTCATTATGTTGGTTTGGTTTAAATAGTAAACCAATTGGTGCAATTCTCATTGAAGCACCATTACTTAATGCTTTTTTTGTAATTTGACTTGGATCAATATTTTGCTTAATTAATTTTAGTGCTTCTTTTGAAGTTGGTCCTAAAATATTATTTTCAAATGCATTATTTTCTTCTGCCCAAACTAATAAATTTTTTGCAATTATATTCTTATCAGGAACAAAATTATTTTCAAATAAGGAATCTAAAATAACTAAAGCTTGTGCTGTATCATCTGTGAATTGAGTCTTTTTATAATTCTTAGCAGCTTCATTTTCTTCAGGACCATCTAAAAAGTCTGTTATATAGCCTGAAAAATAATTTCTAATTTTTTTTCTTGCTCATAATTCTGAAGGCATCCCCATTGCATCTCCAATTGCCATTCCGTAAATAACACCTTGAATTTTATTTTTAAGTATTTATTTCCTCCATAATATTAATAATTACTCTTACTTTTTTATTATATTTGAAATTATAAATATAAGTATTTTAATATTAAAATAAAAGAAAATGTCACAAAATTTGTAACATTTTCTTTTATTTTATTGCTTTTTTCTTCTTTTTAATAAAAATTATACTTAATGAAATTATTGTTGCTGTTGCACCAACTGTAACTAAAACTATAATAAATATTTCAAGTGTACCTAAATTATTTTGCAATTGAGCATTTTCAAAAAAAGTTCCCTCATAAAAATCATAATAATTCAATTGACTACTATAATTAATATCTCTATAGTTATTCATTTTACTTCCAAAACCATCCAATGCATGACCGAATTCATGAATTAAAACACTATATTTTGCAGGTGAACTTCAAAATCCCATTGTGTAATCAGAATTAAACTGTTTAAAAGTTAATGATAAACCTGTCAATAGAATTGATGAATATGCTGAGCTTGAATAATCATTATAAAATCAATTAGATGTTATTCCCATCACCCCAGTTAAGTCCTCAGTTTTAGAATATATAGGATAATCAGGGGTAATTATAAATGCTGTTAATAAGTTTTTAACTCATGCTTCATTTTGAATCATTGAAAATAAAATATTATATAAAAATAAAGTTAATTCTTTTAAGTTTTGTGTATCTGATGTTGTTCATTTTTCAGAATCTTCAAAATTCATTGGTGTTGAATTTAAATATATTTTTTCAAGAGCACTATAAGTTCTTTCAAAATCAATTGTACTAATTTGATTAACATCTTTTGTTCATAAAATAAGTTTACTATTTAAATCTTCAAAACTTGAAAAATTATTTGTATTAAAATTTTTAAAACTTTCAATTGATTCATCACTAGCTTTTGTATAACTATCATTTAAAAAGTTTTCAAAAACAGATTTAAATTCTGCAGCATTTGTAATAGAAAAACTTACATAATAAGTATTAGCAATTCGACTATTAATACTTGATAAAATATTAGTTGTATTATTAATACCAAAATAATAACCTTCTAAAAAAGAACTCGACATATATTGCAAATCTACACTATTACTAGAAACATTTAAATCAAGATTATATTTTGTATCATCTGCTTCAGTTTTTTCTTCTTCTAAAACTTCATCAATTGATTCAATAATAGTTTCTTCTAAAGTAGAATTTTCAATTGTATTTGATAAAGCTCCACCTGTTTTTAAAATTTCAGGTAATACTGTTGTAAAAAAATCATTTGTTATTTCTCAACTTTTATTTTTTAATTCATCTGGAGTAGTCAATCATTTTGAAAAAGCTTCTGCAAAAAATTCTGCATCACTACTTGAACCATAAATACTTAAATTTATTGTTGAAGCAAAAATATTTTGTAAAAAAAGTTGTTTATAAAAATTATCATTTTGATTTTGATTTAAGTTACTATATTTTACTACTAAGTCATTTTCCAATTTAGTTAAATTATCTTCAGAAATAATAATATTATTTGCATAATAATATTTTAAAATTCTTCCAAAATACATTAATGTTGACTGATTATTTTGGCTAATAATTGGAGAAAAATAACTATTATACTTTAATTCTTCTGCTTTAGTATTTGCTTTATTATCAATTGTTAGTTTATTACTTATTAAAGTATTGTTATTATTATTTATTACTTTTATAAAACTTAGATTATATAAAAATAATGATAGCATAATAAGAATTTTACTAAATAGTTTGAATTTTTTATTCATTAAATCACTTCTTCTCATTTAAATAATATTACTACTTTTCTTTAAAAAAAGAAAGTTTTTTTAAAATAACGGTTGTATAAAGTTTTTTGGGGAGTATTATTTTAAGGTGATTTTAAAATATATATTATTTGCTTTTAAAACAAACACTTTTCTTACAAATCTATTTTAACAAAAAAACTATCATTTTTTAATATATTTATAAGTTTAAAGACTAAAAAAATACAAATGGAAATTTTTTTGCATACTAATGACTGTTGTGCCTGAAGCCTGGAACATTAAAAGTACCATTACTTCCTGATTTAGTGCTTTTATTTGTTTTCTTATCTCTATTTAAATAACCAATTGATTTATAATGATAAACATATTTAAAGTCATACTCTAAATTATCAATCTGAATTGTTTCTAAATCATATTCAAGGAGTGAGCTAAAATTATATCCATTAGTTTTCAATTTTTTAATTAAAAGTAAGTTATTAAAAGTCAAATAACTGTATATTTTTTGCATATCCTAAAATTGACTTAATAAATCAAGAAATCATTCCTTCAGTGTGAGAACTAGAATCAAAATTTTTATAATAATTTTCAATTTCTACTTTATTTCTCTTAATAAAAGCTATAAATGTTTTAAATTCTTCTAATTTCTCAAGTCATGATTGTTCTTCTAATCATAAGTATATATCATTGCATTTTTCCATAATTTCTTCAAATGAATGACCTTCTAATATTTGTTTTCTCAAACTATAAAAAAATATCTATATTTATCAACTATATCATTTTTTCTTCCACGAATAGGAAAAATAGCTTTTAAAAGTTTTAATAAATGAAATTTATCTAATACATATTTAGCATTCATTTCTGTAGCTAAATTTGGAATCCATTGTGCCGCATCTCCAAGTAAAATTAATCGTTTTCCTTCAACATTGCTAAACCACTTATTTAATAGTCGGCTGATTCTTTGAGCATATTTATTAGTTTTGATTGTTTCACCATTTTTAACTAATAAATAATCAACTCTTTTATTTTCTAAATAATTTCGTTTATGCAAACCTTTTCTAGAACCTGTATGCACAGTTAATAAGCGGACTCTATATTCTTGCTTTTTTTTATCAAATTTAAAAATTGGAAAGGTATCATCTGTTTCCAAATAAATATATGGTTTATCTAAAACATCAATTTTATTGCATTCCAAATCTAATAGAGCTTCATCAGAAATATTGAATCTCTTTACTACATTTGAAATAGTTTGCTCACTTATATCTGCATCTCTCAATGAATCAATAATGTCACAATATCTATTACCATTTCCTACTCTATTTAAAATTTCAACTTCTAAACTTGGTATTAATCTTTTATACTTTTTAATATTTATTTGATCATCAACTAAATATTTATATTCTTTCGTATGCTTATTTTGATACGTTTTTCTTGGAAAACAAATTGCTCCATAAATGGTTTTTTGCTTCCTAAGTCTTGTATCTTTTACATATCAACCCTTGTTTATTCTTTCAATACTATTCTTTATTTCTAAATCCATAGATATAAATTTACTAATTAGTTTTTCTATTGCCTTTTTTAAAAATTCTTCATGTATTTCTTTAAAAAAATTAATTTGATCAAAACATAATTTTTGTATATTTTTTATTAATTCAATCCTTTTATTCACTCTTTCATAAAGATTTTACCAAAAAAATATTTTTCTTATATTTTGTTAGCTTAGATTATGAAAAATAAAAAGCCTAATTTAGGCTCTTTATTTTATTTAATTTTTTTGGGCTTTGTTCTTTTTCAAATTCAATAAACAAGTAAACTAAAACTAGAATTAAATTTAATTGTTCTTGAATCAATTCCAATATAAGCTCCATGTCTATAGCTTGATCCAGCATTATAATTTAGCATTGTGTTTGTGGTAATTTTAAAATTTAAAGTATTTCCACTTCATGAATGACTTAATTTTGCTTCTATTCTATGGTAATCATTTGAACTATGATTAAATGATGGATTTAAAAATATATAACTTCCACTACTTGAGTTTAAATTATAATTAAATATCTTTCTAGTTGGCGTCCCCATATTCATTTTAGCGGATGATTGTTGTCACCCTTTACTTCCATTATTGGTAAAATTATATCCATAATAAAGATCAGCTGTAATTGAAGTATAATTTTTTAAGAACTCTGCTTTGGATGGAACATAATCAAGTGTATTAATACTTAATGTAGTTCATTCTTGACCTCATCATTTATTTCTATCACCTTTTGAAATTTCCTTATTGAAGTCATAAGATGAATTAAAACTATTTAGACTACCAAAGTCACTATATCGATGAATAAAAGTTCTTCTATCTTTTCCATAATAATTCATATTTTTTGTAAAAGTTGGATAAGTTGGATTATATCTTAAACCAGTCTTATAATCATAATCAACATTTGAATCATAATTTTGAACATTTTCATATTCTTTTTGAACATTTTTATCTAATTTTTGACTGTTTTCTTTAAAATTAGAGTCATTAAATTTAATTAATAGTGGCATTGTAATTAAAGTTGATAATCCTATTATTGATAAAAATATTTTTTTCATGCTTTTTCCTCCATTATTAGATAAATAAAAAACAAAACATTTGTTTTGTCTCGTCTTATCTTCCCTATAACATTAATATTAGTTTCCTATCTTTGTTTAGAATCTAATGTTTTTTCGTTATCTTTTTTATTTTCTAATTTTTCTTGTTGAAATTTATTCATTTCAGAAAAAATTGTTTCGATTTGATCACGTGAATAAACTCTATTTTCATAACGACCAGTTTCACCAGCAGCTTTTTGTTTCTCAGTTGCTGGACAAAACACAGTTGCTGGAAATGAATTTCAGGGTTTTTCCATTTCATTTGTTGTAGCATTTAATATTTCTTTTCCAACTGGAGGTAAAGAAATCTCAAAAGCTCCAATTGATACATGAATTATCCTTGAAAAATAGCCTATACTTCTCAAGTAATTTCTGCAATTGGTATTGCAATAATTGGTGCATATTTAAATATTTGAATTAAAAGAGTATCACCAAATGTTATTAATCAAATTACTGTTCCAACAATAACAATTCTTGGTTCTTTCACTATAAGATTATTTATTATTGGACCAGTTGGATATGTAATTGGTTCTGCAATTGGTATTGCATTTCAATGAGCTTTAACTGATGGGATTGCAAAATACTTTTTTGTTATTATAATTGGTTTATTTCACGCTGGATTTGTAATTACAGGAATGTATCACTTACTAAATGCAGTAATTTTACAAAATGTTGCTCAAAATTGAGGAGACTTTATTTTTATGAGTATTTGTGCTCAAGCAATTGGACAAGGAAGTGCTGTAATTGGGTGAATGATTCTAAATAGAAAAGACCCAAAAACAAAAGAAGTTGGAACTGCTTTAGTTGTTTCTGCCTATCTTGGAGTAACTGAACCTGCACTTTATGGTGTAAATTTAAAATATTTATTCCCTTTTATAGCTGGTTCAATTTCAACCGCTATTGCTTTAGAAATTTGTGTAATGTCTGGGGTAACAGCACAATCAATTGGAAATGGAAGTTGATTGGGAATTTTAAGTGTACAAATTAATTCAAAAGTAGAAGGAGTTAAAACATGAGCTGGTACTGCATACTTATGATTTATGATTGCCAATATTGTAAATGCAGCATTAGTTATTTCACTTTCTTATATATTTGGAAAAATGAAATTCTTTAAAAAATTTGATCCAAATTTTGTGGAATTAAAAAATGAAAATAAAAAAATTAAAAATAAAGAAAAAATAGTTGCATAATAATTTTGTAAGGAAAGGAAAATTAAAATGGCTAGAAATATTGATAAAACTGAATCAATTACCAAAGCAAGTTATTTTTTAGGAGTAGTTTGATCTTTGAGTTTAGTTATTGGAACAATACTAGTTTCAATATTGGAATTATTTAGTTTTTGGTGAATTTTAATAATTATTACACTTTTAAGTATTGGATTATTTATTATTCATTTAAAAATAACAAGAAATATTATGAATAACATCAATGTTGATAAGAATATTTTTATACTTCATTGATTATGTTTTATTCAATTACTAGCTTTAAATATTCCTTTATTTGCATATGAGGTAATTGGAATTTTATTTTATAAAAAAATTGCATATATACTATAAATTCTATGTTAACTAAAACTTAAAGTATTATTATAAAAGACATATAATAGTAATTCTAAGACCATGATGTAGTTCTTTGTAGATACTTAGATAATTGTAGTGTTAACTGCAAACTTACATTAGAAGTTTAATTACCCTTATTATAAGGGTGATTTTACATTTATACTAATAAAAAAAGTAAAAAAAAATAAATTTAATAAATAATTTTATAATTAAATAACTATAAATAAAAAACTCTGTTAAAACTAACAGAGTTTTTTATTTATTATATTCTTTTAAAATTTTTTCAAAATTAAGTTTATCAACATTTTCAAAAATTATATTTGCTTGACTTACCTCTTCTTTTTCTCCAACACCAATAGCAAACATTTTTGCAGATTTAATTGATTCAATACCTATTTTTGCATCTTCTACTCCTCAACAATCTTTAACATCGATTCTAAAGTAATCAGCTGCTTTTAAAAAGATTTCAGGATTTGGTTTATGTTTTAAAATATTTTTTGGATTTACTAAGTAATCAAATAATTCAATAATATTTGCTTGTTCCAAAATAAATTTTGAATTGCTACTAGTTGATGCCATAGCAATTAAAATATTTTGTTCTTTTAAGATTTTAATAAATTTTATTGTTCCTTCATAGATTTTAATGTTATTTTTTTGTTTTAAGTGATTTAAATAAACTTTATTTTTTTCAAAAATAATTTCCTTTTTTTCTTTTTTTGAAAACTCTCTTTTACTTATAAATGATTTTAAAATTAATTCTAAACTATCTTTTCTTGAAAGTCCTCTAAATTTATTTAAAAAACTTTCATCTAAATTAATATTTAACTTTTTATTTGCAACTTCTTTTCAAGATCAATAATGTAAATATGCAGTATCACTAATAACACCATCACAATCAAAAATAACTAATTTTGGAAATTTCATTATAATTGAATTTCCAAAATTAGTTATTAATTGGTACATTTTTTGATTGTGTTTAATATTTACATTATCACCTGATATTTTTTGCAAATATAAAATTTTATTTTTTAATTTAAAATTAATTATTGCAGATTGATATTCAATATTAATAGAATAAGAATTTATTTGATCATTAAATACAGGATCAATCATTAAAAATTCTTCTTCAATGTTAAATAATCCATAAATAACAAACATTCTAACTCCACCCATATTTGCCATATGTAATCCTCTATCTGTATTTTTATGAGTGTCATATAAATCAAGATTAATTGACTCTTTAAAATATTTAAAGCCAAAGTCTTTAATTTTTAGTCTGACTGCCATTATTGCATATACACACTTAGAACGTGATGAATCAGCTGTATCGGTTTTATCATAAAACTCTCAATTATTAATCATTGTTTCTTTATCAACTTTGTCATAAAAAAACATATTTGCCGAAACAACATCTGCTTGTTTTGTAACTCTTAGTGTATTTATTGATAAAGAATGTAAAGTTCTTAAAAAAGGCTTATATTTTTCAATATACTCTTTTGTAACTGGCTTTCTTTTTAAGAAATTATCGTGTTGTGGATTTAAATTCAATTCTTTATTATAAGGAATTAAAATAACATTTGCTAAATTTTCAAATTCCTTTAATTCCTCTTCAGTAATTTTAAGTTGTTCTTTTTTTTGATTATAGAGATTTATGTTTTTTTCTTTTAACATTTTAAAACTTTTATTTGCTCATTTTAAATTATATTGAGCAACACAATTTGTTCAATAATCATCATTTACAAGAATTTGATATTCATCTGGTCCTGTAACTGAATTAATATGTCCAACTCCATCAGTTACAACAATTTTATCTTCTCAAACTCTTGCAGTTTCAATTAAAATATCTAAACCATAATTAAATAAAAAATCATAATCTTTTGTTGCTTTAAAATAATTTATTATTGTAAAACAAATATCTCCATTGATATGATATTGAGCAGTTCCAGCTGGAAAATATGTGCTTGTTTCATCTCCATTTATTGTTCTTCAAGTAAATAAAGCACCTTTTGGGTGAGCTAAAAGTTTTGCTCTTTTTCTTGCACTATCTAAAGTATTATATCTAAACATTAACATTAATTTTGCAAGTGTTGGATCAAATAATGTTAAAGCAATGGCAATATAAATTTCTGAATCTCAAAAATAATGACCAGCATATCCTTCTCCTGTTAATCCTTTTGCAGCAACATTTGTTCAAGCTAATTTTCCAATATTTGTATAAAGTTGAAACATATTAAAATTATTTGCTAATAATAAATTTTGATTATTTTCTCCAAAATTACAGTTTGCTCTTTTTCAAAAATCTATAAAAAAATCTTCTTGTTGTTTTAAATAAAATTGATAATTATTTTTTGCAAATTCCATTAACTTTACTTTTGCTACGTTTATAGTTGGTTTTGAATAGTTTTGTTCATACAAAACACTAATTTTATCAATTATAATAGTTTCATTTAAAATTTTTTTTAATAATAAGTTTTCTCTTCATATTCAGAAAAATTAAATGAATTTAAGCCACTAATTTTTGTTGCATAAACAACTTTTTGATTTGACTTTAATGTTTTATAAACAATACTTTGAAAACTATTTGAAGATTCTCTTTCAATTTTATTAAAACTTTTTTGATCTTTTAATAAAGCTCTTGGGTCATTTGGTATGCCTTTATCTGTTGATGTTTCTTTAAAAATTAGTGGAAAATTAATTTTTACCTCTTTTTCACTTTTAAATGAAGTTGTAAAACTTATTTGTTGCAAAAATAATTCATAACTTATTTGAGATAATAATTTAGAAAAATAAAAATCTATATATTCTTCATCATTTAAGTTAAATCTATATTTTCTAACAATTTGACCAGATTGCATTTGATATTCAATAGAATAATTTGATGCTTTAGTTGGATCAAATAAAATTCTTTTATCATCAATATATATTTCCAAATTTTGAATATTGATTAATGGCATCATTCTTTGATATAAATCTGGATATCCTGTATATTTAGCTGCATATTGAATGTCAAAATAATCATAAAAAGCATTAATATAAGTGCCTTCAATTGAACTATTTTTATTCAAAATTTCCTCTTCAAATGAACCTCTAATTCCAATATAACCATTTGATATTGAGAAAATTAATTCTTCAACTTTTCTATTTTCAATTTTAAATTCTTTTTTTTCTATAAGTAATTCCATACTAACCTCCTTATAAATATTTTATTAAATAAAAGTAAATTTAAAGAGATTAAATAGTTTTAGTTGTATATACAAATAATTTAAAATTAAAAAAATGACTAGATTAAGTCATTTTCTTTTTTAATTCCTCACTATTTATACAGTCACTATCATTTCAATTTGCTAGTAGATTTATATAATTCATAAGTTCATATCCTTTATATATATCAATCAAATTATGTTTCTTTATTAATTCAAATTTTAAGTTAATATTCTTTCTTTTTCTTAAATGACCTCTAAAAAACTTCATTACATCTCTTACAATATCATAATTTTCATATTCATCTCCATATTTTTTCATAAATGTTTTAATTATTTCACTTACTTTATGCTTGTAAGATAAAACAGGATAGTATTTTGTATCATAAAAAAAATCATATACATCAATAAATTTAGAAGACATGCTTTCTAAATTTATCATAAAATTTTCAAAATTATTTGAAAAGAAAGATAAGGCTTGAACTTCTTGAAATTTAGACATGTAAAGTAACTCATCAATATTATTTTCCTTAATATATTGAGCAATTACAAAACTCATTTTTTCAAGTTCATTCATTAATTTTTTTTGATTTTTTCAAGTATTTGTAAATTGATAAACAAATTCATTTGATAAAATAAATTGATTTTTTTCCTCATTAAATTCCAAAATTCCCATACCAACAGTATATGGTATGTCATTAATTGTAATTTTTGGAAATTTAATTTTATATTGTTGATAAAACTGAAATGATTCAAAATCAATAATACATATTTTTTTTAATTTATGTTTTACCCCATTTATATAACATAGAAATTAAATTTCTATGCTTAAAATAATTATAAATTAAAATAAAATAAATTTAAAAAGGTTAGAAAGAGGAAATTTATTTTATCAATAAAATTTAATTTTACTAATGCAAAATTTTATTAATTTTGATTATAATTACAAACAATTTAATAAAAAAAATGTTGTAAAAATTATTAAAGTAAATTTTGATAAAAAAATAAAACCAAAGGTTTTATTTTTCATTAGTTAAAATTTTAACTGATTTGTCACTATCTGGATTTTTTGCTTTTTGTAATTTATTTTGAATATGATATTTTAAAAATCCTACTGGAACTAATAAAATTACAAGTAAAATCATAACAATTGGTTTTCATATATCTTTAAGTTCAATTCCTGTTAACAATAACATAAATGAACCAATTAAAGTTAAAATACAAGTTATATATGAAAATACAACAAATACTCAAAATAATCAATTTTTATATATTTTTTTATAATTTTGGTCTTTTAATCTTAAGTAAACTATGTTTGTTGTCATTAATATTTTTAATGAACTTACTGCAAGTGAAAAGTAACCTAATAATTCTCTTATTTCATTAAACATAATATAAATTGATGCAATAGCCATTAATAATAACATTGAGTACATTGGTCTTCCTGATCATTTTGAAAGTTTTAAGAAATGATGACTTAAATCTTTTTCTTCTGACATTTTTTGAACTAAACTTGTTTGGTATACTAGATAAGCATTGATACCACCAATAAATAAAACAATTGCAACTGAATTAAATACAATTGTTGCTCATTTTGGAAGTAAAGCAAATCCATTTAAAAATCCATCTTCTACTTTTCCAATTGATAAAATTGCAATTGCATATAATACATAAACTAACATAACAATACCAACACCAGCAAGAATTACTTTTGGTGTTGTTTTTTCAGCATTCTTAATTTCAGCTGTTACATATGTTGGAATTTCAGTTCCTGAATATGAAAACATTGTCATTGTTATTGCAGGAATTAATAGTGTTCCTCCAATATATGCCTGAGATAAATTTTCTTTCATAGCTCCTGAATTTAATAAGTTTTCACTTGTCCCATAAACTAAAGCTAAAATTAAAATAAATGCTATTGGAAAACTTTTTAAAACCATAAAAATAATTTGACTAACTTGACTACTATTTTTAATAAAGATTTGTGTTCCTCCAATAAAAAATAAAATTAAAATTGAAATAAATTTTCACAAATATTCATTATCATAGCCTGAAAAATCTCTAATAATATTTGTTAAAGCTAGACTTGCTGTTGCAATAGCAACAGCAGAAACAAATAATGTTAAAACTCAACCAAATCAAAAAGCCATAACTTTTCAATTTGCTCTTCTTAATCAGCTATAAGCTGTTCCATTTTCTTGAAATGAAATAGCTGGTTCAACCATTAAGAAAGTTTCAGGAAGGATAATAATTCCCCCTATTATTCAAACAAAAATCATTAATAAAGGATTATTTCCTGCCAGTGAAGAAACACTACCATAAGTAACAATAATGCTTGTTCCGATTGTTGCTGTAAGTGTTAAAGCAAGAACCGTTCAAAAACCCATTTTTTTAGTTTTCATTTACTTTTTTCTCTCTTTCATTTGCAAAATTTAAAGTCCTGTCCAAATATTGTTCATTGTAATCTGTTATTACATAAACATGATTTGACCCTTCTGGAGTTCAAATTTCACTAAGAGTATTTGATTCAAATTTTATTTTTTTATTATACATGTCTAAACTCATTTCATAGGGAATGAAAGTATCTCCAATTGCATGAATAAATAAAATTGGTATTTCTTTATTTAGATTCATTAATTTTAATAAATCATACTTACTTTGATTAGTTTTTGTAAGTTTACTAAATTTTTTTGTATATCCCATTCCCACAATTCATCACGGTTTTTTGAAAAAATTATTTTGAATATAATATCTATATTGAAGTTTTATACTACTAAAACCACAATCAGCTACAACTCAACTAATATCATCTTTAAATTTTCCAGTTTGAGAATAAAGAATTGATGTTGAAGCTCCCATACTATTTCCAATTAGTCCAATATTTTCAACTTGATATTCTTTTTTTAGATTGTCAATTATTTGATCAATCATTGAAATACTTGAATATCCAATATCAGTATTTTGCCCATAACTTTTTCCATGAGCAAAAGCATCAAAAGTTAAAATATTATAACCATTTTTGTAAAAATGATTAACTAATCTTAAAGCAAGATATTTATCTTCTGTTCAACCATGCATTCCAATAACTCATTTTTTTGAGTTACCATTTAATGCTTTTAAACAACTAATATTTCCTTTATCTGTTGTAATATCAAATTCAAATAAGTCTTGTTTTTTAAAAGAATCTTTGCCTAAATTCATTTTATCAATATCTCAATAATGATATTCTAAAGTATTAACCTCTACTGGAATATGGTTAAATTCTCCATTTGGTCCTTCATATTTTCCAAACCTTGGATATGTATAACAAAAGTACTTATATAATTTGAATAATTTATTTGATTTAATAAAGATTATTGGAAATAAAATAGTTGATAATATAATTTTTAAAAAATTGTATGTGTATAATTTTATTTTTTTTGACATAAATACTCCATTTAAATTTAAACCATTATATAATGATTACTTCTAAATTTTAAAATATATAAAAAAAAATATTACACTTTTTTATATTTTGAAATTTTTTTTCATAACTTAATTTTCAAATGTAATTTTTTTTTTTTTTTGCTAAAATGCCTTTTGTGTATATAAATGCATATAGAAAGAGGTAACTATGAATGGATTAGCAAAGGGTGGAATTATTACTAATTTTGTTGGAACAGCTTTAGCAGCATTAATTTCTATAATACTCTTAATTGCTTCTTTGCTTACTACAAGTACTTTACCAATAGCTGGAGGAATAATTATTATATTTACAATAATTTCTCTAATTTCTTCAATATTGATAATTATTTTTGGAGCTCTTGCATTAGCAAAAGGAAACAACAAATTTAAAATAACTACAGGAATAATTGGAATTATTTCAATACTATTTAATTGAATTGCATATTTCTTTGTTGCAATTATAATATTAGTAGGATCAATATTAACTTTATGCGGAAAAGCAAAAAATTAAATTAAATAAACTTTTAAATTATGAAATAATAAAAAGCAAGATTTTTTCTTGCTTTTTATTATTTCATAATTTACATATCAAATTCTGCTGTTAAATAATTATCTACAATCATATTATTAAAAGTGCCTATACCAATAAATTTATATAATTTCAAAAACATATTTTTCTGATTATAATTTTGTTTATCATGAATAAACAAATATTTTTTTATTTCTAAATTATTAAAATCCTTAATAATTTTATGTTCTAAAGTCATATTTTCTGGAATTGATCAATAAAATTTATTATTTTCCATATCATATTTAGTTAATTTGCCATACCCCATTCCATCTTCATCTGCTAAAATAATTTGCTTTGAATTATCAAAAGTCAAATAACCAGCTTGAAAAGTTAAAACTTTTAATTGCTCTCGGTAAAATAAAAAATTAGTACGACCCACTGCTGCTAAACACTGTTTTACTGTATATGTTGAATTTATAGAAAGAAGTTTTTCTGTATTATCAGAAAAAATTAATGTTTCATTATCTAATTTATATTTAAGAATTAAAATTATTTCTTCAACAATTAACTGATTATTATCCATAAAATACTGAACCAAATCATCTATTTTCAAATAATTAGGATATAAACCTAAGAATTTTTTCATACTTGTTATTTCATATAAGACTGATGTTATAAAAAGATTATCTAAATCATAATCAATATTTAATTTTTCAATTTTTCTTGTCAATCTTCTATAAAAATAAGAAATTATTTTATAGTTATCTAAAAATATAAACTGTTTTAAAATATTTTTATTTCTTTTTGTATCATTTTGAGTAGGTAAATAATTTGATATTTGCTTTGCAGTTTTTATAAACAAATCATCTAAATTATTATAAAAATCTTGAAGAGTTAATTCATAATCTTTAATTATCATTTCTAAACTTTTTAAATTATATTTTTGAAAATATTTAACTACTTGTTCTTTAATTATATTTTTATTGCCATATCATTTTTTTAAACTTTTTAAAATAATTTCTTCAGCATTTTTTTCTAAAGTAATCGTTGAATTATAAGGCAAGCCATGTTTGGTTGAAATAAAATTAGTTCCAATAATTTTTGGCTCAAAAAGATTTCTTATTCCTAAAGTTAAATCATACTTATTATCTATATTTGAAATTAAATCATAAACTTCTAATTTATTTTTCAATTCTGTCTTTCTTAGCCCTCTACCCAATTGTTGAAGATAAATTGTTTTTGAATTTGTTGGTCTTAATAAAATTATTGTATTTATTTCTGGTATATCAATACCTTCATTGAAAATATTTACAACACAAAGATAATTTATTCTACCTATCGAAAATTCATGAATAATTCTTTTTCTATCATTTTTATTCTGTGATGTTAAGACTTCTGCTTTTAAGTTTTTGGCTTTTAAAAAAGTAGCAATAATATTTGCATGCTCGATTGTTACACAAAAAATAAGTGCTGTTGGTCTAGCATAAATTCCAAGATACTTTTCAATTGTTTTAAATAACAATTCATTTCTAGATTCAGTATTTATTTTTTTAAAAATTTCTCTATCTGAATCTAAATCAACTCCTGTTAAATCAGTTTTACTATCATCAATACAATAATAATCAAATGGGCATAATAGTTTTTGATCAATAGCATCTCATAATCTTAATTCAGAAGCAAATTCATCATTAAAATATTTTTTAATATTTTTCCCATCTTCTCTTTCAGGAGTTGCTGTTAGACCAATAATTTGCTTTGGTTGAAAGTAATTAAAAGTTTTATCAAATGTATTTGCAGCTATATGATGTGCTTCATCATATACAATAATATCAAATTGTTCTTTTTTAAAATCTTCTAACCTATTTGATAAAGATTGAATTGTTGCAAATAAATATTCTGGATTTTCACTAATAATTTTTTGATCATATAAAACTTCACCAAAATTTGAGTCATTTAAAACTTGTCTATATGTATTAATTGCTTGATCAATTATTTCTTTTTGATGTGCTAAAAATAAAATTTTTAATTTTTTATTTACTTGCTCTATCTGTCTTTTATAATCAAAAGCAGAAACTAAAGTCTTTCCAGTACCTGTTGCCATTACAATTAAATGTTTATTTTTATTTAAAAACCTTCGATATGATAATTTATCTATTACTTCCTTTTGAAATTTATATAAATATTTTTTTGAATATTCAAATTTTGAATCTTGATTTAAAATTTCTAATTGAATTTTAGAATCCTGATTTTCTTTAATTCTTTGAATTAGAAAATCTCTTTCAAAAGAATTTGAAAAATCAACAAAATCTTCTTCTCATAAATAATCAAATTCTTTTATCAGTTGATGAACTAAATCATTTTTTTCTTTTGAAATAATTTTAATATTCCATTCCCTTCCGCTTATCATTCCTTTATAAGTTAAATTTGAAGAACCTATTATTGCACTATCTTGTTTTACTTTTCTTTTAAAAATAGCTGCTTTAATATGTATTCTTTCACTATGCTTTTCCAAATTATCTTCAATTTTAATTTTTATATTTTTATATTTTTCAGAAATTTTTCTTATTTCATTTAAATTATTAAATTGTGCTAAATCATCAAAAGTTGTAGAAATTATTTTAATAATAATATTATTTTTTAAACAGTATTCAAAAGTAGGTTCAATTTTATTTAAAATTGCTTTTGATATGAAAGGATAAATTAAATAAACTTCATCTGAAGTAACTATTTCATTTTTTATTTCACTTAAAAGTTCTTGCTGATCTTTATTTGTAAAAAATTTATCTTCTTTCATTTTTTTAGTTCCTTTTCTATTTTATTATTATATAGATATTAAAAATATAAACTAAAAAACATAATTTTTACTGACTTTTCAATTTAAAAAACCCAAAATCAATTAGGTTTTTTAAATAAAATTTATTTTATTATATTTCTTAATTTTACTTCATTTGCTTTTTCACGTTTTAAACAAATGACCGATATTATTCCTGCAATTGCTGCTAAAATACCAATTATAGTTATAACAGATAAACTGATTTGATTTGCAAACTTATTTGTTGCATAACCTGCTTCTGTTTCATATTTTTTTAATAAAATTGAATCTATTTGTCAAAACCAAGCATCTGGTGAGAAAGCAATACAAGAAATAAAGCCAACACTTGCTGCATATTCTTTTTGACTAACTTTAATTTCATAAATAGTAGCTCATCTATTTGTAACTAATGCTCAACATGATATTCCAAGCATTAAATAAAGAGTTGAAACTGCAACTTGTACTATAATTTTTCCAGTATGGCTCATACTTAAAAATGAATTCTCACTTAAACCTGAATTATTATTGCAATAAGACATAAAATTGATGAAATAAATAAACCAATTGTTATAAACAAAATATATTTACCTGATTTATCTGCTAATTTACCACTAGGTGCTGAAAAAATTGCTCTAAATAAATAAGTTCTTAAAATCCCCAAAGCTACAACCACCATAGCTGTAACTGTAAGTGCTTCTTGAATAAATGTTACAAAAACGCTTAATCCTGATTGAAACATATAAACACCCATTATTAAAAATGTTACTAATCAAATTTTGTAATTTTTTAAAACACTTGTTAAAGTATGTAAATCAAATTTATCTTCTTTTTTTACTTCATTTTTTGTTTCTGGTACAAAAAAACAAAGCAAAATACCATTAATTGCTATTAAAAAACTGAAAAAAAACCAATGTTGGAAAGGCTCAATTTCCAAGAGAATCTACAAAAACTGTTCCCATTATGTAGAAAATTAAATATACAAAACCAATAACAGCTGTTCCAATGATTCCATTTAAACTACCATGAACTCCATTTAGAACTCCATTTTGCTCATTTGTGCCTTGCTCGGAAAGAAGTTTTCATAAAGCACTTCAAAATATGAAGCAAGTTATAAAACTTCAAAGAGAAAATATTATATAAACCTGTGCTACTTTTCCTTCATTTATAAAAGGAATGAATCCATACCAAACTCCAATAAAACCTACTCCTAAAAGTCCAATTAAACATAATTTTTTTAAACTAATTTTATCTACAAAAAAACCTCCAACAAAATAACTTAATATAGCAACATATCCATAAATTGAATTTACTTGTGAAAACTCTGATGGTAAAATTTTTAATGAATTTGCAATTTTTACAGATGAAATTACATTTTTTAAATAAAATGGTACTGCCATTACAAGCACATCTGCTAAGGTTAGAATTGAAATGATTGATACAGTTTTTTTTACTAAGTTTATTTTTCACTTTAATTTTTTTTAAATCCGAAACTTCTACTTGTTTTTCATCCATAATTATTTATCCCCCCTTTTTTTCTAAATATTTATATCTAAATCAGGATTATCACTAATAAAAGAATTTATTAATTGGGGTTTATACATTTTTTTTATAATTTTTACATCACTATTATTTTTAAAAGTTCAAATATTCATTGGCAAATTTATTTTATTTATAATTTCAACATTATTTTTTTGTTTTAAAGATCCTAAATAAGAATTCAAATAGTCAAATTTTCTTATTAATTGCATATTTATATTGTTTAAACTTTCACATAAATAGGCTTTTTTAAAATCACTATTTAAAGTTAAAATAAATTCCAAGGCATTTTTTCCAAAAGATGAAACTATTATTTCAGCTTTAGTTTTTTTTCTAAATAAATCTAAAGCTGAATATAAAATTTGATATTCTTCTTTTGTATATCTATCAGGTTTAATTTCAACATTAATTACTTCATACTGATCACTTAGTTTTTCAATGAATTCTTCAATAAATAAACAAGGTATTCATTCAGGATTTTTTTGAAGTAATTAATGTTTTTTATTTCTTCATATGTAAAACTTCTAACAGTTTCGTCAATTGAACCAATTCTCTTAAAATTATGATCATGAAAAATAATAATTTTTTTATCTTTTGTCATACGAATATCAAATTCTACAGCTCTACATTTTTTTAAAGCATTTTGAAAATCAATAAATCTATTTTCACCATTTGGATTTCTAAAACCTCTATGTGCAACTAATATCACTTATATCATCTCTTTTCTTTCTTAAAAATTTTTTTACTCTATATCGGTTAATCATGAAAATGTTCTTTGAACAGCTTGTCTTCATCCTTTAATTAAATGATCTGCTTGTTTTTGTTCAATTAATGGATTCATTTCAAAGTCAAATTCAATATTTTTTCTAATTTCATCAATATCTTTTCAATAACCAGATTTTAAACCAGCTAAATAAGCTGCTCCCATTGCTGTTGTTTCAATATTTAATGGTTTTACAATTTTACATTGTGTAATATCTGATTGAAATTGCATCATAAATTTATTTTGAGATGCTCCTCCATCCACTTTTATACTATTAATTTTAGCTTTAACGTCTTTGCTCATTGCACTAACAACATCATATGCTTGATATGCAATTGCTTCTAAGGTTGCTCTAACTATATGTTCTCTTTTTGTTCCCCTATCTAAACCAAATATTGCTCCACGTGAATATGAATCTCAATAAGGTGAACCAAGTCCAGTAAATGATGGAACAACATAAACTCTTCTATCATCTTTTGTTTGACCTGCATATCATTCTGTTTCAATTGCATTATAAATAATTCTTAAATTATCTCTTAATCATTGAACAGCTGCTCCTGCAACCATTACAGAACCTTCTAAAGCATATGTAATTTTTCCGTTAATTGAATTTGCTACAGTTGTTAAAAGTCCATGATTTGAAAAAATTCTTTCTTCTTCTGTATTCATTAATATAAAACAACCAGTTCCATAAGTTACTTTTGATTCTCCCTTATTTATGCATAATTGACCAAATAAAGCAGATTGTTGGTCTCCAATTGAAGAATAAATTGGAATTTGTGTTTTATCCGTTTTTGAAATTAATCCAGGAAATGTATTTCCAAAATGAGCATTACAATCTTTAATTTCTGGAAGAATATTTTTTGGTATATCAAATAACTCTAATAATTCATCATCTCAATTGTTTGTATTAATATTGTATAACAATGTTCTTGAAGCATTAGTATGATCTGTTAGAAAAACTTCTCCTCCTGTTAATCGATAAATTAATCAAGTATTAATGGTTCCAAACATTAATTTATCCTCTTTTGCCAATTGTCTTGCTCCTTCAACATTATCCAAAATTCACTTAATTTTTGTTCCTGAAAAATAAGGATTAATTATTAATCCGGTTTTTTTTCTAACCATATCTACTTGTTGTTGATTCATTGATTCACAATATTTTGCTGTTCTTTGATCTTGTCAAACAATAGCATTATAAATTGGAAGTCCTGTTTCTTTATTTCAAATAACCACTGTTTCACGTTGATTTGTAATTCCAATTGCTGCAATTTGTTCACCTGAAATTCCAGATTTATTTAAAACTTGAACTAATGTTGAACGTTGTGTATTTCAAATTTCTGTTGCATTATGTTCAACTCAACCATCTTTTGGAAAATATTGAGTAAATTCTGTTTGATCAACTGCAACAATTTGTCCCTTTTTATTTGTAATCAATGTTCTTGCACTTGTTGTACCTTCATCAAGAGTAATAATATATTTTTCCATATTTCTCTCCTTTTAAACTATTGGAATAATTGCTTTTTCCTTTGAATTTCATTTTTCTTTTTTTTCTAATTTTCCATTAACATTCTCTATTAATTCAATTACCATATCTGCTATGGCTGGTGCTGATGCTATGGCTGGTGATTTCATTCCCCCAACATTTATAAATTTTTTATCACCACTTGCTGGTTTTATTCAAAAATCATCATAAATTGGTTCAATTGGTCTTGAACCTGAATAAGTCATACAAGTTTTTTGCATTTTAATATCGGGAATTAATTTTTTTCCAATTTCTCCAATAAAATCAAATTGTTCTTTTGTAACTAATCTTGTTTCATCTTTTGGTACTCCATCAACTGCTGTTGGACCAACCATAATATGTCCTGTTAATAATGGAGCTACAATAACTCCTTTACCGTGAATTGTGGGAACCATAAAAACAACTGAATTAACTATATTTTTTTCTGTTTTTTCAAGTATTCTATATTCTCCTCGCTTTGTTACTAAATTAAAGTCTGGATAGCCAGCCATTTTTGAAATTACATCTGCATAATGACCTGCTGCATTAATTACATATTCAGCAATAATTTCTTCATTTTTTGATGTAGTAATTGTATATTCTTCATTATTGTGTTTTATATCAATAACCTTTGAATTAACTCTTAATTCAATTCCGTTTTTAATTGCATTTGTAAATAAAACTTTAGTAAGTTCTGGTGTATCTACTGCAATGGATGAATTACAAACTAAAGCACCAATTGCTTCTTTTGAAATATTTGGTTCCCTTTTTTGTAACTCTTTTGCATCAATAATTTCTAGTTCTGAAGATTTTAGTCCGTTTGTTATACCACGCTTATACAACATATTAATATGTTTCATTTCTTCATCATTAAATGCAACAACAGTTGAATTTATTCTTAAAAAAGGAAAGTCCATATCTTTTATTCAATCTTCATATCTTAATTTACCGAGTTGATTTAGTTTTGCATTTAATTTTCCAGGTGTTGGGTCAAACCCACCATGTACTAGACCTGAATTCCCTGCTGAAGTTTCCATAGCAACTCTTGAATTTGCTTCTAAAACAATAACTTTTTTATTATATTTTCCAAGTTCACGAGCAATTGAAGCCCCAATTACTCCCCCACCAATTATACAAATATCATATTTTTTCATTATTTACCTAATTTCTATTTTATTTTTAAAAAAGTAAAAATATAGCTCCAACACTTACTCCTGCTAAAATTGCGGCAAGAACTGGAACAAATGAATATGATCAATCAGATTTTCCTTTTTCTTTTAATGGCATTAACATATGAATAATTCTTGGTCCTAAATCTCTAACTGGATTAATTGCATACCCAGTAGTTCCTCCAAGTGATAGACCTATTGAAATAACTACAATACCAATTACAATTGGACCAAAGAATGTTCCAGATGCAAATTTTCCCATTGCTAATGCTGCAAATACAAGTACAAATGTTCCAACAAATTCCATAAGTAGATTTAATAAAGTTGTAAATGAAAATAAACTACCTTTAAATGTTGAAGAAGTTGAATGCATTCCTAAAACATTTGCTGTTGAAAATTCTTCTTTTGTTTGCAAAGTTTTTTGAATATGTTTAAAATATAGTAAATCAATTATTATTTGCCCAAGCATTGCTCCAAGTAATTGAACAAAAAATAAACCAAAAAACAATCCAATTGCTCCTGAAGTTGAACCAGTTAATTGAATCATTAAGTCTCCTTTATCTGCAATTGTTGCCCCAACCATTACTGCTGGATTAAATCAACCTGGTGCACCATTGAATGATGATGCAATTAAAGCAGAAACTGTAACTGCAAATCCTCATCCAAGAGCAATTGCCACTAATCCAGCATTATTTCCCTTAGTATCTTTTAATACACAGTTTGCAACAATTCCATTTCCTAAAATAATAAGTAAGGATGTTCCAAAAAATTCTGTTAAAAATAATTCTGTTAAATTCATAACAAAAAACCTCCTTTTATTTTTTATTATTCCCCATTCAAGTTTAATAAGTAAAAGAATATTATTGTAAATTAGAAATATAAATTTTATTATATTTAAGCAAATTACATTATCAAAACATATTCTTTTTTTAAATTGAATAAGATGATTAATATAAACTATATTTGTAATGCATTTTTATTTATACATTATTTGTTAACAATAAATACTGTAAATAATTTTTTATTTAATTTTTATTAACTATAAAATTACTAGAAAACTAAACTAGTTCTATTAATTTAATATAGCAAATAAAAATACCCTCTTCTTTTACTCCTTTCCTAATTATTCTATCTAAAAAATGGAAAAAATTTCATTTTCATATCAAAATAAAATATTTTTTCTATTTATTTATTCTTTTAGACTATATTTAACTAATTCATTTTAATTTATGCATTAAATTTTAAATAAATTCAAAAAAATAACCATTAGATTATTTTTTTAAATTTATTTTTTATAGAATAGCAAAAAAATGATATTTTATTTAAATTATCATTTTTTATCTTAAATTTTTTAATAAAAAAATGTCTAATGTTTTTTAGTGTTATATTTATTTTTAACTTGTTGAATTTCTTTTTCCATTTCAAGTAAATTATTTTTGTCTTCAGTTTTAACTCAATGTGATAAATATATATTTTGAAATCTATCTCAAAAAATAAGAATTAAAGTAAATATAATAGTTAAATATAATGATCAAAAACTTGAAAGTGTATAAGAAATAATTTTAAATTTATCAACAAATTTAAATGAAAATATTGAAATCAAGAAAAAAACAATATAATTTAAAGGTAATAAATAAGATAAACAGTTTTTTAAATTGGAGATTAATAAATATTTATAAAGTAAATTTAGTAAGTATTTTGAATTAGTTTTTGATAAAAAAATAACATTAATTTTATTATCAATTAAATTTAAAGATTTATAAAATGATATTTTTAAAATTAAAAATTTTAATTCATAACTTTTAATACTTTTGATTCTTTGAATTTTTCTTTTCAAATTATTTAAAAATTTAAATTTTATATTAAAGATTTTTCATTCTAAATAGACAAACTTAATTGCAAAAGTAATTCCTACTGCAATAAAGGCTTTCATTATAATTGACAAGTATAGTTCAACAGAATCATGAAAATATATTTGTATTGTTGTAAATATAAAGTTTGTTTCATTATACAATGTTAAAATTGTAAATTCCTTTAAAAAAAAGGAATTTAGTGAATTTGCAATAAAAAGTAATAAAGCATTAATTTTTAAATTTAGTGAAAATAAATTTAAAAGAATAAAAATTAAAAATGGAATAATTAAATATAATAAATGATTTTTTAAAATATAAATTCCATTTATATACGATGAAAATTTTTGATAACCTATTGTAAAAAACATTATTGTAGAAATTATAAATATAGGAAATAGTATTTTAAATAAAGTAATTATAATTTCAGTTTTAATATAATTAAAATTTTTATTTTTAAATAGTTCTAAACTATAATAAAAAATCTCTACTAATAAAACTGCTGAAATTAAAGCTCCATATATCATCAAATTTTTTTCTCCAGTAAGAAATTGAATTGGATAAAAGCAAAAGATAGGAATAAAAATAATTCTAAGAATTCTTTTTGATAAAAACATTTCTAATAAAAATGTCCATACAAACATGAAACCAACAATAATTGATTGTTTTATAACTCTAAATATTAAATCTCACAAACCATAAATTGTGTAATTACTCATCATTAAATAACCACAAAAAATTAGTAAAGTAATTTCAATTAAATTATATTCACGTTTTATTTTTAATTTAGGTTTTTTCTTATGATTGAAATATTTTATTATTGAACCCAAAATTATAATTATGAATATAAAAGCACACAATAAAAAATTAACATTATCTTTTTTATTTTCAAAAAAATAGATAGTTAATAGTCAAGACAATAGAATAGAAATTGCAATAAACAATCTAATAAAAATTTGAAAATTATAGTAAATTTACTATTTTTACTCATTAACTTAGTATTTCTTTAACTACTTCTCTTAATTCATCATCATTTTTATAAAAATATAATTTTAAATTTCCATTATCATCAATATTAATATACATATAAATGATTGCTTCTTGACTTGAATATAATGTACTGTGTGAAATTCCCTCAATTACAGAATTTAATGCTCTTTGATAATCATAGAAATATATCTTTCCATTTGTTGAAAATTGAGAATTTACACTATAAATTGTATAAATTCCATCTTCTACAATATCATTAAAAGATCTTGGTCTCCCATTTCATGAACTATAATAAAGACTTTCCTTTATATTATCTTTTAGCAACAGGTATTTGATAAATCAGTTGCAATTAATTAAGATTTTAAAATTTAAAGTGTATAAAACTTTCTTGCCATCGTGAAATTAATATTAATTGAAATTCTTTAATTATTATCCACATTTAGTTTTCAGTTCTTTTGAAGAATGCATTTTATACTTATAAAAATTAAAAATCAAATCGCATACATATTCTTGATAAATCACTTACAGTATCACATTGGTTTTTTTATTGTGTAATAACATTTACATTTAATTTTTTTATGAAATATAAAAAATATTAAATCAGTATTTTTGTCTCATTCATAATTAATTCCAGAATTTACAAATCTACACATTGAATTAACTAGACCTGCACAATAGTCAGAATAATGAATTAAGAGATTATTTAAAGAATTTAGTTGAACAACTTGTAAATTTGAATTTATAAATTTTTGATTTAAAAATCAAGTAGTTTTAATAAATGCTTCCAATGATTCTAATTTAACACCATTTTTATTATATATATTTGGTACTACTTTTCTTTGATCAATATAAATATTAATATCAATCACTTCATTATTATCAATAAATAAATTACTTAATGTTCTTTCTATTATATAAAACACCATTATATTATGAATTGAATCCAAATCTGTTTTTCATTTTTCTTTGAAATTCATTTTTTTTAGATTACTTGTTATACTAATTTTTTTGATTGTAATTTTTTATATTATTAATTGAAAATTTTTTTAATCAATAGCAAAATTATAGGAATTAAAATTTTTGGAATTTAAAAAGACATATTCAAATTGAATATGTCTTTTTTTAACTTCTATTTACCTGTTTTTTCATGAACAATATTTGCAACATGTTCAACATCTGTTTCAATAATTAATTGTAAACCTTGATCTCCAAGTCTTTTTATACCATAAATTCCAAGAGCTTTAAGTTTATCATCATTAATATCTGTTTTATTATCTTTTACTGTTAGTCTTAATCTCGTACTACAATTATCTACTTTTATAAAATTATCCATTTTAACTATTTCAATAATAGCATTTGCAAGATTTTCATATTTTTCATTACTATTTTTTGCTTTACCTTTTACTAATGATTTATTTGAATTTACATCCCCAATTGTTTCATTTTCATCATCACGTCCAGGAGTTTTAATATTCATTTTTTTAATTATAATACTAAATGTAAAGTAATATGCAGGAAATGCCAGAGCTGCTAGAGCAAACATTCATAATGGATTTGACAATACTCCATAAGTTCCCCCATTTACAAGACCTTCATATTTGCTCATTCCTCAACTATTTGCAAAACTAATTATATAATCGATAAATCCACCACTAAATCCAAAACCAATATGCAGATGCATTGCAATTGCAATGGCTGCAAATATTGAAGTATAAACAGCATTTACAACTCATAATACTGGACCAACAAATATAAATGAAAATACTAAAGGTTCATCAATTCCAGTTAATGCAGCAACAATAGCAACTCCTCCTAAGAAAGTTGCAACTTCTCTTCTTCTTTCTTTTTTAGCACACATTATCATAGCAATAGCAGCACCAGGTAATCCTCCTCAAAACATTGGAAAGTATCCTGTTTGAAAGTTACCAGAAATCATTGATTTTTGAAAAGCATTTATATCCCCAAAAATTGTAAAACTAGGCAATCCACTTGTGGTTTGATTTAATAAGACACCTGTTGGGATAATTCCTTGTCTAATTGCAAAATATTCTTTAAAGTTTTCTCCTGTAATTGGGGTTGAATTGAACATTTTATTTGCTATTTCTTGAAGCATATTTTGTCCAAAATCACTTAATCCTCCATTTGCATTTAATAATGCTTCACTTGTCATTTTATTTCAAAGAACAATATGTCCATTAAAATCAACAATATAACCTTCAATTGGCATCTGGAATCACAAGAATGTATTTATAATATGGTGTAAACCTGTTGGTTGAACCAATCTGTTTAAAAGTCCATATAAAAATGCACCAGGAACAGCTCAAGAATCTCCTGAACTTACAAGTTTACCAAAAGAAATTAGTCCATATTGAAATCATGGTCAAATTATTGCAAATAAGAAAGCAACAGGAACTGATGCTACCATTATTACCATTGGTACAAATCTTCTTCCTCCAAAAAATGATAAGGTTTTTGGTAATTTAATATTTTTAAATTTATTATATGATCAAGCACTTAAACATCCTGCAACAATTCCACCAAGTACTCCAATATTTAAAATATATGTTCCCCCAATAATTTGTAATTTGTCATTTACCATTCCATAATTTGGAACATAAAATAAACTTGAAAGTTTACCAGCTACTTCTCAATTTCCTTCTGTATTTTTTGCAAAATAATCAAATGTTATTGTATTGTCATAAAATAATTTTGGCAATCCATTTTCACCAAGAAATGTAGTTAATATAAGGTAAAAAGCAGCACCAACTAATGCAGCTTCTCCTCTTTGATCTTTTAAAAGACCAAAAGCAGTTCCTATTGCAAAAAATAATGGTAAATTATCAAATATTGTTGAACCTGGTTTTTGAAGTATAAAACCAATTCATCAACCAGCATTATACTGATGTTCAACATTTAATTCCATAGCTAAAGAACCAAATCTGTTTAGTAAAGCTGCAAAAGGCAATAATGCTATTGGAAACATTAATGATTTTCCTAAACCTTGCAATTTTACTAGAAAGTTATTTCAGTGATTATTTCCAGCTTTATTTAATGGTTTTTCTGAATCTACTGTTTTAACTTTTTTTTCTTTTTTTGAAAGCATATTCACTCTGTATTCCCTCCTTCTTTCATTTTTAGTTTATAAATATATAAAAAAAAAATCAAATAATTTTAGAAATTATTTTATTTTTTATGAAAGAAAATGGAAATTTATTTCATTATTTTGTTAATTCAACAATTAACATTGAAAAACAAAAAATAATAACTAAGCAAATAAAAAATAATATAAAGGTTTTTAATCACTTACTAAATAAACTATAAATTTCTTTTTGAGGTCTTAAGTTAATTTGATTTTCCTTTTGCATAACTACTTTATTTTTTTTATTTCATTTTAAGTAAAAAATCATTAATATAAGAGCTAATAAAGCAAATATTAATCCACATAATAAACCAATTTCAATACCTGTCACTAATTAAAATCTCCATAAATTTTTACACCCTTAACAACACGATTAACTTCACCACTTGGACAAGGATTGTCTGGATTTATATTAACAGCTACTGAAGTATTTACTGCTAATAGCTGAGCAAATAAAATATAATATATACCAATTATTATTTCATTTAAATCATTTGTATCTAAATTTAAATAAAACTTTGTAAATTTTTCAAGATTTACATCATGTTTATTATCTAAAATAACAAGTTGTTTTATTTTTTTATCATTAGAAATTTCTGAAATTAAATCAAATTCATATTTTCTTGAATATTCATCTTTACTCATTAAAAAAATAATTGTTGTATTTTCATTTAAAATTGATTTTGGTCCATGTCTAAAAGCAAGTATTCCATTATAAAATGCTGGAATAATTCCTTGAGTAAGTTCTAAAAGTTTTAAATATGATTCAATTGCAATACCTTTAAACTCCCCACTTCCCAAATATACTACTCTATCATTTACTTGTAAATTTAAGTTTTTTATTGAATTGTTAAGTTTAAATAATATTTTGTCAAATCTACAAATTGCATTTTCAATTTGATCAAAACAATTTTGATTTACAAGTTGAGATAAAAATAATAAAGCTGCAATTGTCATTCCTGAATAACTTGAAGTCATTGCAAAACCTTCATCATTTGATTCTTTAGGTAGTAAAAATAATTCACTATTTGCTGTTTCTTTTGCTTTTTTTGCCAAAACACCGTTTTGATTACAAGTTATAACTAAATTAAAAATATTATTTACAAATTGATTTGCAATATCAAAAGTTGCAGTTGATTCAGGTGAATTTCCACTTCTTGCAAAAGAAATTAGTAAGGTTTTATCATTTGGATTTAAATAATTTTTTGGATTAGAAACTATATCTGTTGTTGGTATTGAAACTATATTTAATCCTTTTTTAAAAAAATATGGGCAAAGTGCATCACCAATAAATTGACTAGTTCCAGCACCAGTTAAAATTATTTTATAATCTTTGAACTTACTAATGAAATTTTGATAAAAATCCAAATTTTCTTTAAATTGATCACTAATTTGACTTCATATAATTGCTTGTTGTTGAATTTCTTTTGATGTTTTAAAATCATCAATATTTATTTTATTACTCATTTTTAATTCTCCTTTGAAAATACAATATTTAAATACTCTATTTTTTCAGTTATTAAACCTTTTGCTTTTTGATCTGTAATTAAATTATTAATGTCATTAACACTAATTAATTGATTTATTCCTTCATTTACAAATTTTGAAGAATCAACAAGAAGATTTTTAACAGTAGAACGCTTTAAAACTTCTATTAAAACATCTAATTCTGGTGCAAAATCATCATAGATATTTCCTTCATAATCAATTGAATAGCAGCTAAAAAATGCATTTGAGAATTTTATTCCTTCTAAATATTTTTTAGTATCTCTGTTATAAAAAACTTGAGACTTTTCTTTAAAAATACCACCAAGTAAAAAAACATCTTTTATATTTTTATTATTTCAAGCTGATAAAAAAACAGGAAAAGAATTTGTTACTAAAACTTTTATTTTTTTATCTATTTTTTTAACAAAATGTTCAATAGTTGTTCCAGGAGCACAAAAAATTACATCATTTTCTTTTAATAATTTTATAGCTTCATTTGCAATAGCTACTTTTTTGTACAATTCTTTTTGAGCTTTTTCTATTCTTCCAATTTCTAATTCGTTTTCTACTTTTGAAATAATTCCCCCAAAAGTTAAAGTTATTTTGTCTTCTTTTTCTAATTCTTTTAGATCTCTTCGTGCAGTACTTTCATTTATTCCATTACTTTGAGCATATTCCAAAAAGTCCTTTGAAGACATAAAGTTTTTTTCCACAATTTTTTGTAGAAGAATTTCTTTTCTTTTTAACTTATGCATATAACCTCCATTCACAAATATTATAGACATTTTTTGAAATAATTTGAAATAATTTGAATTATTAAAAATAAAATATAAAAAGCATATTTAAAAATATGCTTTTTATATTTTAAATGTTATATTAAACAATTGTAAATAAAATTATTAAACCAATTCCAATAATAATTAAAGTTGAAAAAGACTTCTTACTATTAATTTAGTATAAAAATTTTTATTTTCTTTTGAAATAACAAAATCCTTTGTAAATTCTGTTTTTTGTTTCAATTTTTTTTCAAAAAATAATAAAAGTAAAATTGAAATAAAAATTATTAAAATACCCAAAATCATTAAAATACCCAAAATCATTAAAATAATTCTAGTCATTTTTTTTGTTTTTTTCAAAATTCAATTAAATTATATGCAAGGTCTTTTAATAAAAGTGTTGTCATTAAGTGATCTTGACCATGAATTATAGTCAAAGTTATTTCATTATATTCTTCTTTTGCTTCTTCAAACAACATATCTGCTTGACTTCTATGTGCTTGATTTAGCAATTCTTCTGCTTCTTTCATTAACTCATCAATTTTTTCAAAATCATTATTTTTTGCATTATTTATACATTCCATAATTAAACTTCTTGCTTCACCTGCATATGCTACTAATTCTAAACCTTTAATGTTATTTCTCTTTTTTTTGACATATTTTTTACCTTCTACTCTGTCATTCATTTATAGATTTATTATAATAAATTTTTTTCTACATTATCTAAAAGTTTATCTAAATCAACTTTAGTATCTAATCTATCTTGTTTAGTCTTTTCCAATCATCAATAAGCTAAAAGTTTTTCATATCTCTTTTGATTTTCAAAATCTACATAAAATAGACCATATCTCTTATTATATCCATTAGTTCAATTAAACATATCCATATGACTTCATAAATAATAATGCTCTATTTTTTCACCTTCATCAATTAATTTTTGAATTATATCAAAGTGTTCTTGAATATAATCAATTTTTTCATAATCTTTAATAAAAGGAGTTTTTTTATATCTTCTAAATCACCAAAACCATTTTCTGTAATAGAAATTGGTTTTTTACAATTAAATTTTTCTGAAATTCATTTAACAACTATATATAAACCTTTTGGATAAATTGTTCAATCTCAATTTGTGGTTTTTACATCCGGTCTAAATACTACTTTTCATAAACCAGGAATATTAAATTTAGATTTTCCTTTATCACCTGTTGAATTTACAGAAAAGTCTATTATTTCATCAACTTTTTCTACAAAATTTGTAAAGTAATAATTTATTCCAATTCAATCAATTTGTTTTGAAGATTTTTTAATAATATTCAAATCTTCTTTTTGAGGTTTAAATGTGAAATCATATAATTCTAAAACAGAATTAATTAAATTAAGTGCTTCTTCAGAGTATTCCCCAGAACAAATTGGCTCAACAAAACTTCAATTTGTAATTGAATTAGTTCTATTTGAAGCTAAAATATCTTCTTTTTTTCTGTATTAGGAACAAAAGGACAAATATTTAACGGTATTCCTATCTCCCGTTTATATTTTTTTTCTTTAAATAAATTAACAGTTTTAGAATGAGCTAATACCATATTATATTGTTGTTTAAAAAAATGACCATATTCAAGTGTAAAGAAAGGTGGTAATGCAGCTTTAATATTTTTTTGTTCAGAATAAGCATTTATTTCATTAATTGTTGATCAATATTTTATTTCTTTAAATTCATTAAAACAAAAATCAGCGAATTTTACAAAATCATCAATATTTGTTTTAGAAAGAAAATCTCCTTTTTCAACAAATCATTGTGGAGAATCAAAATGATGCAAAGTAACATTTGGTTCAATTCCTTTTTCCTACATAGATTTAAAAAAGTTATGATAATGCTCTACTGCTTTTTATTAATTTCTGTTGAATTTGAAGGAAAAATTCTAGATCATGCAATAGAAACTCTTAAAACTTCAATTCCATATTTTTTGGCTAATTCAAAATCAGTGTTATATACTTTATAAAATTCACTTGTTGGTTCAGGACTATATTTTGCAATTGACTTATTATTTAATAATACATCATCTCAAATACACTTACCTCTTCCACCAGTATTTAAATTTTTTTCACATTGAAATGCAACTGTTGCTGTTCCAAATTTAAAATTTTTCATATTATTTTTTCTCCTTTTAATTTAAATTTAAACCTTCTAATATTTTTTTATAAGTAACTTTTTTATCTTTAATCATTTCAATAAATTCTGTTCCTTTAGTTTGATGAACAGTTAATTTAGTTTGTGTTTTTGCAAGATCCATTAAATCTTTTTCAATTGATCTTGCTTGAGGTGAAATAATTACAAGATCTGTTTCTGCAATATAAACTGAATAATTTTCAATTGAACAAGCTTTTGCATTTATTTTGTATTCAGATTCTTTAAAAACTTGATTAATTGTTTCAGCAAGCATTGCGCTTGTTCCTGCACCCATACAGATAACTAAAATTTCATATGTTTTCTTTGTAGAATTGTCTTCTTTATTAATTTGTTTTGTTTCAATAATTATTTCATCATTGTTTAAATTATTTTTTAATTGTTGTTTTTTATTTTTAATTTCTAAATGAATTTTTTTTCTAAAAAATAAATCGCCTAAATATTGAATTCCATTTCTAAAATCTACAAACTCTTTTTCTTTAGTTGCTTGACTTAATTCTTTTTTGTAATATACACTATCTTGTAAAATTAAAAATGGTGAGTACATTCCAAAACTTATTAAAATTCAAATTAATGGTAAAATAAACGATTCTCATTGGAAACCAGTACTTAACGGTAATGCAAAGAAAGTTGGCATACTTCAAGGCATTGCAATATAACTAGAATTCATATTTAAAACTTCAACAAAAAAACTCCTAGTAAACTATTAAATATTGGTGTTAATAAAAAGGAAATTGCCATCAATGGATTTAGAATTGTTGGAATTCCAAATAAAACTGGTTCATTTACTTGAAACATTATTGGAATTATTGCAACTAAACCAATTGATTTAAGTTGTTTTGATTTACAAAATAAAATTATTGCTAAAGGAACAGCTATTTGAGCTCCAGTTCCCCCCATTGAAAATGCTCCCATTTTAAATGGATCAGTGCATAAATTTGATGCATGTTCTCCTTGATTAACTAAAACAATATTTTCTTCTAATCCTAGTGCAGCTAGAGTATCTGTTATTCCACTTCAAACAGAAGTATAAATACCTAAAAATCATGTTAATGACAATACAAAAGCTCATATAACAAAAAATCAATTACTATTTGCCCCTTTTAATAAAGGAGTTAATCAATTAAATAGAACATTTAAAAAGGAATCTCCTAAAAAAATGCAAATAAAAATCCAAAAACTCCAAATACAATTATTACAAATAATAAAGAAAAAATATTTAAAAATGCTTGTGATATATTTTGAGGAACTTGTTTTGGTAATCTAATTATAATATTAAATTTATAACACAAATAAAAAAACCAAGGTACTATTGTTCCACAAATTATTGATATAAAAATCCCTTTTACACCAAAAATACTAAATAGTATGTTAAAAAAGCTACCATCTTTTGAATGTCCTACAGAAATTAAAAAATAAGCTATATATGTTGAAAAGGCATTAATGATAATATTCATTTTTTTGCTTGCTTCAAGTTTTGAATTTATTTTTTCAGACATTCTAGAGGAAATCGCAATACATAAACATGCACCCAACAAACCATATGATAAATTATACAATCTTAAACAAAAAGCTTTAAAATCATTATATCAACTATCAGCAGATGGTTTATAGCCAAATGAAATAGGTAACTCTGCTATCAATATAAATAAAGTTGAAGCTATTATAATAGGCATAACAAGTATAAAACTTTCCATAATTGAGGCTACAAATTTATTTTGAGAAATTTTTTGTGCTAAATTTATTCCTTTTTGTCCAAATTTTTTAAATAAGTTTTCAACTTTTCTTTTTTCTTTTATCATTTTATACTCCTTTAAAGAAATAAAAATTAAATTATTATACTTTTCATAATAGAATTCATCATTTCATTTTTTAATTTCTTTATCAAAAATAGTATCACTATAATCATTTTTAATTAATTCATTAATTTTATTAATAACAGCATCATTTTTACCTTCATATTTTGTATTAATAAAAGATTCAATAATTTAATACATTAATCCAAGCCCTATTATTCTTCCCCCAAATCCAACAATATTTGCTTCATAATTTTTACGTGCATCTACAGCTGAAATAACATCTTTTGTTAAAATTACTCTAGCGCCCTTTACTTTTTGTGCCCCATTTGAAATTCCAACACCTGTTCCACAAATTACTATTCTGAAATCTGCTTCATGTTTAACAACTTTATTAGCAACTCTTTGTCCAAAAATTGGATAATGAGTTCTTGTAAAATCAAATGTACCACAATCTATTACTTCAATTTTATCTCTTTTTAACATTTCAATTATTTTATCTTTGATATCAGTTACTATGTGATCACAACCAATTGCAATTTTCATTATTCACCCTCCAATAAATTATTTAACATATTAATTCTTACTAAATGTCTTCTTGCTTCAAAATTAGCATTTAAATATGAATCAATTATTTCCACCATATTTTTTTTGCAATAATTTTGTAACCTAAAGATAAAACATTTGGATTATTATGTTGAATTGTCATTCTTGATGAATGAAAATCTGAAATTTGAGCAACCACAATTCCTTTATTTTTAGCCATTATTAAAAATGGTAATGTTCCATAATCATCAATAAAAATAACTCTATTAATTTCATTTGTTTAAATTTCTTTAACTAATTGTTTATAAACTTCAAAAATATCATCAATTTCAATAAAATTTATTTTAAAATTATTGTTTTTAATATTTTCAATTAAATAATCTTTGTAACATTTATTAATATTTTTATCAAATAATATTTTTATTTTTTCCATTTTGTATCTCCATTAATATAATACAACAAAATGATAAAACAATAAAAAAAATGATAATAAATTATCATTTTATATCAATATGTGATTTTATATTTTCAAACTCTTTTTTTATAATTTCTTCATTAGTTAAAAATAAATCTATTTTTGAACTATCTACAATTTTGCTACCTGAAGGTGTAGGATTAAATTTTGAACTATCTACTAAGCAAATTACATTATTTGAATTTTTTATTACTAATTTAATTAATTCAGCTTCATCATCATTGTTATTATATAAGAAAAAATTTTTATCAATATTTGTAACAGTTATAAATGATTGAGAAAATCTCAAATCCTCAACAGTTTTGTTTGCAATTGGACCACATAATGCACTTGACTGAAGTCTAAGTTTTCCACCAATTATTACTACTCTGTGAATATTTTTATTTGAATTTGCAAGTCTTGCTATTTCAAAACCATTTGTATATACAATTTTTATTGGTCTGTCGATATTCTTAACAAAATTTTCCATTGTTGTTCCAGCACTTATAAAAATTTCATCAGCATTAAGTTCTTTTACAGCTAATTTTGCAATATTATTTTTTTCTTCTTTATTTTTTGCTTGTTTTTCAATTCTTGTTGTTTCATATTCTTTATTTTCAACTAATTTAATTAAGCCCAATTCCTGATAGATATAATTTAAATTTATTAATTCTTTTAGATCTCTTCTTGCAGTTATTAAAGGTATATTTTCTAACTCTGCTAAATTTAAATATGCTTTCATACTTATATCTTTTTCTTCTTTAAAGAAATCAATATATTTTTTAAACCTTATATGCTTTTCAATTTTCATATATTCACCTTTTTCGTTCACTTATATTTAATCATATTTTATAAAAAATAATAAAAAATTATCACTTTTTATCAAAATTTATGATAGTTTTAAAGTGAGGTGAATATATGAAAACTAAATTAAAAGAAGAATTATTAAAAGCAAAGCAAGGTAAATATGCTATTCCTGCTTTTAATTTTGATAATTTAGAAATGATGAAGGGAATAATTGAAGCAGCAGAAGAAGAAAAATCTCCTGTAATTCTAATGGTTACAGAGAGTGCTGCAAAATATATGGGAATTGATTATGTATTTAGTTTTGCATTAACTGCAACAAATAATGCAAATATTCCTGTTATATTACATTGAGATCATGGTTTTGATATTGATTTAATTAAAAAAGCAGTTGATGCTGGTTTTTCAAGTGTAATGCTTGATTCTTCATTAAAACCTTTTGAAGAAAATGTAAAAGAAACTATTGAAATAGTAAATTATGCTCATTCAAAAGGTGTTCAAGTTGAATCAGAAATTGGACATGTTGGGGGAAAAGAAGATGATAGAAACTCTGATTCTAAAGGTTATACTGATGTAAATGAAGCAATTGAGTTTGAAAAATTAACAAAAATTGATGCTTTGGCAATTGCAATTGGTACAAGTCACGGTTTATTTAAAGGACAAGTTAAACTACAATTTGATTTACTAAAAGAAATTGAATCAAAAGTATCAGCTCCCCTTGTAATTCACGGCTCAAGTCAAGTGCCACTTGAAGATTTACAAAAAACTATAAGTTTAGGAATTACAAAAATAAATATTGGAACAGATTTAAAAATGGCTTGTGCAAATGGTTTAAAACATTGATTTGAAAAAAATCCACAAGGATTTGATGCAAGAAAATATGGAAAAGAAGCAATTGAGTTTGTAAAAAAAGAAGCCAAAATTAAAATCAGAGCATTTGGTTCAAATAATAAAGCTTAAAGAAACTAGTAAATTAATTTTTTCCTTCTAAATAAATTAACAATAAAATTTAAATAAATAAAAAATAACCTATTTGAAAAAAATTTACAAAATATTTTTCTAGGTTATTTTTTAACAAAATTTATTCTATATTAATTATTTTTAAACTATCCATTGAAAGTAACATTTCTTCAATTAGCTCTAATGATGCTATTTTATCTGAATAAGCAGTTGCACTTCCACAAACTATTCCCATTTTAAGAGCTTTAGTATAGTCTTTTGTTTTTATATATTCACTTAAAAATCCACCAAGCATACTATCACCAGCACCTGCTGCATTAACTAATTGTTTATTTCAATTACCAATACTACACTTTTGTGTAATTTCTTTATTTAAGAAAATAGCACCTTCATCTCCCATTGAAATTAAAATGTTTTGAACACCTTTATCTAATAATTGTTTAGCTGCTTTTAATATATCATTTTGATTTTTTATTTCTGAACCTGTTGTTATAGACAATTCTTCTATATTAGGTTTTATTAAAAATGGTCTTTTTTCAATGGCATATTTTAAGGAATCACCGAATGCATCAATAACACAATGTGCATTTAAAGAATTTGTTAATTCTGCAATTTGTGCATAAATTTTATTATTAACTCCTGTTGGAATACTTCCTGTGGCAATAACATAATCATTTGTTGATACATTTTCTTTTAAATATTGCATCAGTTTTTCTAATTCTGAATTTTCAATTTCTGAGCTAGTTACACTACATTCAGTCTGATTTTGATCAATCAATTTTAAATTTATTCTAATTTCTCCGAGGGAATTAAATTTTTTATATTTAATTTTCATCAAATCTAAATTTTTATAAAAGAATTTTTCAAAATCACCATTTGAAAAAATAATTGATTCATTTTTTACTTTTAAATTATTTAGTAACATTGAAATATGAATTCCTTTTCCTGCAGGATACATTTCAACATTATTCGGTCTATTTGTTTTATTCATTTTAAGTTCATCAAATTTTAAAATATAATCAATTGCTGGACTTAATGAAATAATATATATATTATTTGCCATACTTAACCTTTCTCAATTTATATTTTTTATTAAAACATTAAATTGCTTTTGCTTTAATTAAATTTTCTTTAATTTCTAAGTAATGAATATCATCAAAATATTGATTTTTAAATTCTTTTAATTTTTTTTCTTTTACTTTTTCAATTTGATTTAAATTTTTTTCAATATCTACATAATATTTGTTAGTTTCAATTTCTAAGTTTTTCTGACTATCTGAAATTATTTTATTTAATTCACTAACTTGATTTTTTAGTGTTTCAATTTTTTCTAATTTGTAATTATTTTTTTCAGACTCTAAAATTAATAAATTTCCCTTTTCAGTTTTGAAACTAATGTTTGTATTTAAAAGTTTTTGTCCCTTATTAAATAATGAAGCGTTTTTTTCTTCTCTTAACTCTAAAAATCTATTTATTGTATATTCTAAGTTTGTTTTTTTTACAGTCAATTTATAATGTTTTTTTGTAACTTGATTTAATTCTTTTAAAAGTTTTACATTATTTTTAAGTTCTAAATAAATTTTATTTAATTCAATTTGTCTTTCAGTTTTTACTTCTTTCAACATATTTAATAAATCTTTTGTTAATTTAGAATTTTTAACATCATTTCTTAAATTTAAAATAAAATTAATTATTAATGGTTCTAAAGATTTATTTAATTTAATTACTTGAACTTTATTTTTTTCAAGTTCTTTAATTAACTCTTCTTTATCAACTTTTTTATTATTACTTTTTTTAATTAATTTAATTGTATTTCTTGCAGAAAAATCAATTTGACCAATTAAAAATTCTTGTTTTGCTAATTTTAAAGTTGTTTTTAATGCTAAACTTTTTTCTGTTTTTTCTTCTTTTCAGAATAAATAAGTAACTAAAATTCCCAAACCAAATGAAGCTAAATCAATTAAGATTGCAGCTACTAAGTCATCAGTATAAGCTAAAAACCCAACAATTCCACCAAGACCTGCTAAATTATCTAAACTTACATTGAAAATTCCAATTAATCATCCACCAATTCCACCTGCTAAAACACCTGTTAAAAATGGAATTCCTTTTGGTAAGTTAACCCCATATATACAAGATTCAGTTGGACCAGAAATTAAACCTGGTAAAGCAGCTGCAAATGCAGCAGATCTATCAATTATTTTTCTTGATTTAATACCAACAGCAATAGTCGCTCCCATTTGTGCTCATGCTGCTGCAAAAGCAGCTGCTAAAAATAATGAAGGAGTTCCTTCTTTTAAACTAGCAACAGCTGCAAAGAATAGGATATTGTGTACTCCTAAAACAACTAAAGGTTGTCATGTTAAACCAACTATTAAAGTTCCAAGCCCTATTGGCATATTCATAAATCAATCAAATGCAGTTAATAAAGCATTTTCTACAACACCCATAATTGGTCCCATTATAAAGAATGCTAATAATCCACCAACAAATAAAGTTAGAAATGGATTTAATAAAAAGTTTGCTACTGGGTGAAAATATCTTTCCATTGATTTTTGTGCATATGCAATTATTACACCCATTGCAATAAATACTAAGATTGTTGAATAAAATGGCTTAATTACTATTTCTCAACTACCAAGTTTTATTAAATCAATTCCAGCTTCTGGAATAATTGGTGAAACCATTATTAATGCAAGCGCTATTGCAATTGGAGTTTTACCTCCCAAATATCTAACAGTAGATCACATAGCAACTACACCCATCATTTTAAATCCAGTTGAAGCAATAACGTTTAGAACATAATCAAAAATATTATAATCTATTCCTAATTGTGATCCATCAGCTGCTGGATCAGATGCAACTCCACTTCTTATTAATAATTGTTGTAAAGCCATAATTAACCCAACACCAATTAAGAATGGAATTAATGGTCCAAAAATTGCAGAAACCGATTTTATAAATTTTCTTCAAATTGAAACATTATTTTCTTGAATTTGTGCTTTCACATTAAAATCTGTATTATTTTTATTATTATTTTGGACTTCACTTTTAAGATTGTTCTTAAATAAAGCAGTTATTTGAGATACCTCAGGACCAATAATTAATTGTAATTCACCATTTGATCATAAAGCACCTTTAATATTTGATATAGTTTTTAAATCATTTATGTTTGCAGCATCTTGATTATGTAAAGTTAATCTCATTCTTGTTGCACAATGATATACATCTTTTACATTTTCAGGGCCACCAACTTTATCGAAAATATTTTGAACTAATACTTCTTGCTTTTCAATTTTGCCCATTGAATATAATTTCCTTTCTACATAAATTGTTTTATGTTAGAAGAATGATTTAAAATCTAACTAAAACAATTTAAGCGTAAATAAATTTTCCTTTAAAGTCAGAGGGAGATTCTTTACTTATAAGAGCAGTTTCTTTTTTTACATCAACCTTAATTCTGTTTTTTGAATAAAATTTTGTTGGATCCATCAAAATATATGATTGTTCTGAATTTTTAATTACTTTTTCTTTAATCATAGCTTCTTGAATATTTGTTGTATAAAACTCATTATTATCATAATTGTTCATACCAACAAATGCTTTATCAAAGTAAAAATTATCAATGAATTTTAAAGATAATTCACCAGCTGTTGCATGTGTTGAAGGAATAATTGTTCCACCAACTAAACAGACTTCCATATCTTGTTCTATTAATTCTAATGCAATAGAATAACCATTTGTTACTACTGAAATTTTTTTATTGACTAAATATTTAATCATTTGTTTTGTTGATGTACCTGTATCTATAAAAATTAGGTCACCATTTTCAATTAATTCTGCAGCTTTTCTTGCAATTTTATCTTTAAATTCAATATTCACTTTTTCTTTTTCCTCATCAAAGTGTTCTTGCATACGTTTTGAAGAATTTTGCAATGATTTTGCACCACCATAAACCTTAATAATTTTTCCTTCATTATGAAGTTCATTTACATCTGTTATTATTGTTTGAATGGTAGAATTTGTTAACTCAGACAATGTTATATTTTTAACAAAACCTTTTTCATTAATTATGTTAATGATTTTTTCTCTTCGTTCATTTTTTAGCAAAGAATATTCCTCCTTCTTTTATAATACAATATATTTTAAAAAAGTTTAAAATTATTTAAAATAAATTAAAATAAGTTTAAAAAAGTTTAAAAAATATAGTAATATAAATTTGTAATATACAATTATTATAAGGAGAAATTTTATGAAAACTAAATTAAAAGAAGAATTATTAAAAGCAAAGAAAGGTAAATATGCAATTCCTGCTTTTAATTTTGATAATTTAGAAATGATGAAAGGAATAATTGAAGCAGCAGAAGAAGAAAAATCTCCTGTAATTCTAATGGTTACAGAGAGTGCTGCAAAATATATGGGAATTGATTATGTATTTAGTTTTGCATTAACTGCAACAAATAATGCAAATATTCCTGTTATATTACATTGAGATCATGGTTTTGATATTGATTTAATTAAAAAAGCAGTTAATGCTGGTTTTTCAAGTGTAATGCTTGATTCTTCATTAAAACCTTTTGAAGAAAATGTAAAAGAAACTATTGAAATAGTAAATTATGCTCACTCAAAAGGTGTTCAAGTTGAATCAGAAATTGGACATGTTGGGGGAAAAGAAGATGATAGAAACTCTGATTCTAAAGGTTATACTGATGTAAATGAAGCAATTGAATTTGAAAAATTAACAAAAATTGATGCTTTGGCAATTGCAATTGGTACAAGTCATGGTTTATTTAAAGAAGAATTTAAACTACAATTTGATTTACTAAAAGAAATTGAATCAAAAGTATCAACTCCCCTTGTACTTCATGGCTCAAGTCAAGTGCCACTTGAAGATTTACAAAAAGCTATAAGCTTAGGAATTACAAAAATAAATATTGGAACAGATTTAAAAATGGCTTGTGCAAATGGTTTAAAACATTGATTTGAAAAAAATCCACAAGGTTTTGATGCAAGAAAATATGGAAAAGAAGCAATTGAGTTTGTAAAAAGAGAAGCCAAAATTAAAATCAGAGCATTTGGTTCAAATAATAAAACTTAAAAAAAGCCTTTTAAAAGGCTTTTTTTATTTATATAAATTTATTTTTTTACACTTTCTTTATCTTCAAGTGCTTTATTTATTGATTCCATATTTATTGGTAGTTTAATTAAATTTAATATTGGATTTGTAAGACCAATAAAATATAAGAAAACCCAATTTATTTCTTTTAAAGATTTTGTTGCAAACACAATTGAATTTTCATCTTCATCATAATTGAAACTTTTAATGTTTTTTTCTGCTAAAAATGCTCTAAATTTTGGAACATCAAACTTTTGATCTAAGAATAATTTATATTTATTGTATATATTTAATTCTAATTGTGAACCTTCAAAAATTTTTTTGCCATCTTCAAGAATAATATAGTCATCAATAATATTTGAAATTTCATCAATATTGTGTGCTGTAATAATTACAGTTTTACCTTGTTTTTTATAATCATATAATAAATTTTTAATTTTATTTCTTCAATAAGAATCTAAATTTGCACCTGGTTCATCTAATATAATAATTTCTGTTCTTTTAATAAAACATAATATTAAATTCATTCTATTTTTCATTCCTCATGAGAAATTTTTAACTTTTTTTGTTCTATCTTCTCAAAGATCAAAATATTTCATTCAATATTCTATTTCTTCTTTTATTTCATTTTTATCTAAATTAAATGATAAACAAATTAATTTTAAAAAATTATAAGCTGAAATATCATATAATGAAAAATCCATTTGTGTATAAAATCCAAATAATGTATTTTGTAGATATGATCTACTTTTTCTACGATTTTCTTCATTAAAAATAATATCTCCTTTATATTTTTTAATTGCACCAATTATTGAATTTAATATAACAGATTTTCCACTCCCACTTCTTCCACATAAAGCTGTAATTTTTCCTGTTTTAATCTCTAAGTTAATTGGACCAATTTTTGTTTTTTTAAATTTTTTCTCAAAATTTTGAAAATTTATAATTATCTTTTCCATTATACAAAGTCCTTTTTCTTATAAACATTTAAACAAATTAAATTATTGAATAGTGCAATAATTAATTGAGCAATTGCAAAATAATACGGATTTACAAAATTATTATATGTTTCTGGTTTAATTTTATTTGTTTCATCTAAGTCAAAGTAATATGTTGAATAACTTAAAAATAAATTGTGTTGTTCAGATAAAATTATATACGAATCACTTTGATTATTAAATCAAATATCATCTCATGATTCTCCTGAGTATTTTGTATAAAGTGAAAACATATTTGCAATTGAATTCAAGTAAAAAAATGTATTATATAAATTTCTTCTATTTTTATAATTAATTCATTCATTTTTTGAAGTATCAAGTGAATAGTTTGTCAAAGTTATGTAAGTTGAAGTATAGTTAATAAAATATTGTTCCAAAACTCTTATTGCAATGTATAAAGGATCATACAAGATTTCATTAAATAGTTTTTTTGCATTTGCATCTCTAATAAAACCAATTGAATTAATACCATCAACAAAGTGAAGTCTATAACCATCAACTAAATAAGTTTTTGTGTATGTTTCACTAACATTTGGATTTGATGAAAGCTTAATTTGGCCATCATCAAAATTTAATAAATCTCCATACCACTTATAATATTGATTTTGATATTCTTCAGTTGATGAAAAATCTTCAAGCAAAGCAATTGAAAAGTTATATAAATCATTTAAGACTAATTTTTTACTATCATCTGTTTGTTCATCAACTAATGTTTTTAATGACTCTAAAGTAATAAATTTATTTTTTTGAGTAATTGAAACATTTACACTATCTCCTAATTTAATACATGTATCTCCATCATTTGAATTACAAGTATCACTTCAATTTGTTGGTAATTTAGAAATTGTTAAGTTGTTTGCACTAATTAATGAATTTGTATTTTCAATAATATCAAGTTGTTCTCAAAAATTAAATCTTGCGTTAACTGTTGCTTGATTAGTTCAGTTACTATTTTCTCTTAAAAAATTATTTATAATAAAAAAATCATTAATAAACTTTGATAAATATTTATATTTTATTTTTTCATTTTTTATGTGTTCTTGTAAATCAAATGCTTTATAAATTTCTTCAATTTTTTCAACATATAAATTTCCATTAGGTGAAGTAAAATACAAGTTTTCATTTTTTTCAGAAACAGAAATAAATTGATATGGAAGACTTGCAATAAAACTTAAAGCTAAGATAAGAGTAATTATAATTGTTGTTATTTGATTTTTTAAAAACAAACTTAAGAGTGTAAAAAAATTTATTAATAAATAACTTATAAGAAATAAATAAATCATATGAACTAATGTTGCATTTAAAATCACATTAGTATTTTTTAAATTAGTTATTAAAGCAAAAATGTTTATTATTAAAAAGTTTGTTAAAATCAACATTGATACATAAGTAAACAATGCAATTGTTTGAGTCAAAAATATTTTTGAACGCGAAATAGTTTGTGTTGAAATTATATAAATAGTTTTATCTTCAATTTTAGAATACATGAAAAGAAACACTAATCTCATAATTAATATTATTCATATAATTCCAGTAATAAACAGAAAATAATAATTATAGTAAATTATAAATTGCTCACCACTTTTAATAGCTAACAAAATAAACCCAAACAAAACTGCAAGGGCTGATGCTATAAAAATTATAATGGATGATGCTTTATCAAAAAACATTAATTTGAAATCAATTTTAAACATTGTAAAAAAGCTTATAGATCTTTTTTTTAATTGTTTTTTATTGATCTGATTCAGCATAAAAAATTGCACCTTTATGACCAAATCTATATTTAAAATATCCTAAATTTACAGTTAAATCTTTTGTTGTTGTCCCATCAGAAATAAGAAGACCTTCAGTTCAATTATATACATAGCTATTAGAATTACCTTCAATTTTTAAAATATTATTTTCACCATTAATAACTATTTTTTTCAAAGACTCATTATAATCTTTTCAAAAAAATGATTTATAAGATTTTCCATTAAAATCCAAATCAAGATCACTTCACAATGGACTATTTTTAGTTGTACTTGTTGCTGCTAATGGATTATTTCTAACATTACTTTTAGTATTTTCAATAATTTTAGTTTTTTGATGAAAATCAGAAAGTAAGTTTTTTAGATAAGCTTTTGCTTTAACTGAAGTTCCTAAAACATTGTTTGAACTTATTGTTGTAATATTTGATTTATAAGTAAATGGCATTATAATTTGTCCTAAATTTATTTGATTTCCTCCAGCATAACTTAAATTTAAATTATTTAATTTAAATTGACCAAATGAATATGCTCCTGTTAAATAATTTGTAATTTCTTGAATAGATGCACTTTCGTCCACTCATAAATTTGTAAAATTATTTACAGAACTTTCAAAATTTTTATATGATTCAACATTAGTTTCTAAATTGAAAAATTGATTTCAAAGTTCATCAGTTGATTTTGTTTTAAATACTAAGTCATTAAAAACCTGTAAATCAGTATTATAAAGAAACTTATTATTTGTATGACTAAAATTATTACTTACTTTTAAATCTTCAAAAAATGAATTTGTATCATATGTTATTTCAAATTGTTCATTATCAGTATATTCTTTCATTTTTTGTAAAAGTGAATTTATATTTTTTTCAACTTTAAAAAAGCTTGTAATAGTTTCTGAAACGTCTTTCCAACTTTCATTTTCAGTAATGTTTAAATCAACATTAGAAAAATGCAATGGTGATTCTAAATCACTGTAAAATTTTTTACCTACTTCTGTTAGTCCAATTATATTTGCGATTAATTCTTCATCATCTGAAATTGTAAAAGTTCCTTTGTAATCATAATTTTCAATATTAACTGCTTGTGTGTAATATTGTCATTTAAATTTAACATTAAAACTTCCTGAATAAGTTACATTGTTATTATTATCTGTTTGTTTTTTTATAGTTATTTCTTCTCCAAAGTCATAACCAACATAAACATTACTTACCTCTGATAAAAATACTGAATAATTATTTTCTGTATTATTTTTAAATGAATCAATACTACTTGCCAAATCTTGAAGATTTGCAAAATTTTGCATATCATTTTTAAAATAGTCAATATCACTCAATGAATTAATATTTAATGTTACTTCACCATCATTTGGATTTGAATATAATTTTTCTAAATTTGATTTTTTAAAAAAATTATACTTAATTGAATTTTTTGAAGTTTCTATAAATGGAACATTATTTTTTATAAAATGTTCATCAAATTTTTTATTAATATCATTTTTTAATGAATTTAATAACTCTTGATCAACAGTAGATTGATTTGATTTTGGTTTTGTACCACAAGAAACAATTGATGTTGTAGAACTAGCAACAATTGTTCCTATTGACAATAAAAACAAAAAATTTCTCATTTTTTCCCCCTTTTTTAGTTAGCATTAACTAATTATTTTTATTGTATTGTATAACCTATACAAAAAAAAAAAAAAATAAAAAAAAAAAAAAAATCTTATTAAAAATTTATTTAGTTTTGATAAATTATTTTTATAAGAATAAAAGTAAATTAATGTAAAAATTAATAATTTTATTTTTATTGAAATAAAGATTTTTAGTAAAAAATAAATATATTATTTAAATTAGAAAAAAAGAGAAAAAATATGAAAAAAATATTAAGCCTATTAACATCTATTATTCTAACAACAGCAAGTTTAGCAACTGTTGGTTGTGGGGTTTCAGTTAATGAAAATCAACAATATGAAGGAGGGAGATGTTTTTACAAGTTCACATCTAAATAATCAGTTAATGGATGATGCTATTGAAAAGACATCTGGTTCAAATAGAAATAATATCTCTGTATTTTATATAATTTGATCTGGTCAAATTCAAAATTTACAAACAATTTGAGAAATTATGCTTCAAAAACAATTACAACCAGATAAAGAGATTTATTTATATCTTGGAGCTGATGTTTTTGATCCAAAAATTTATGATTATGTTAATTTACTTGGAAAAAATCAAAATGGTAAAAACATTTTTTAAAAACACTATAAAGATGATGGTGAAAAAGGAGCAAGATATGGTGTAACGGATAAAGAAATAAAAGAAATGTACAAAAACATTGATATAAAAACAGGAGATAAAAAAATTGATTTCTATATGGGTGAGGAGGTAAAAAACCAAATAAATTAAATTAATGAAAGTAAAGGTTTTACACAAGGAATTTTTAATTTTTTAAAATATATTGATTCAATTAATTTTATTACTGATGGAACTTATAATTTTGTAACCAATGATTATACAAAAACCTATATTTCTTCAAGAACAGAAGAAGAAATAAATCAAGCAAAGCTATTGTGAAAAGATATATTTAATCAAACAAAAACAATTGATGATTTTATTAGTGAGGGAAAAACTATGCATGGACAGGAAAATTATAGACGTGTTGAAAAAATAAATTCTTTTGAAAACTTAGATGAAATGCTTCCACTATTAGCGTTTAATGATGAATTTAAAAATGAAAATGGTTCATATAAAATTAAAAGTTTTACGATCGATATTGACCCCTATTTAAATAATAAAGATAATAGTAATTATTGAAATCAAAGAGGTCTTGGTTTATATAAGGCATGAACTTTATTATCAAAAGATACTGATAATTATATATATGCTGGGGACATTATTGATGAAAACGAAGAATTAACAAATTATAACTTTAATATTTTAAAAACAATGATTAAAGAAAAAATTATTCCAAATAATAATCAAGGAAATATTATTTTAAAAGTTCATCCTCGTTCTGAAAATGAAGCTATTAATAAACTAATGGAGAAAATAAATAATGAATTTAAAGGTACTTTAAATAGAGACGTAATTATAAATTTAAAACAAACTGTAATTATTGAAGTATATATTTTAAGCGGATTAATAAAAAATGATGCTAAAACAAAATATCATTTCTCAGTAAATGGTACTTCAACTTCTGTATTAGGATTTTATGCTGCAAATCAAATTGAAATGATTGATGAGTTTATATTTGAAAATCAAAATGCTTTAGATCAATATAAAAAATATTATGGAGAAAATAGTAATATAATCGATTGAAGTAAAGTTATTAAAGCATGAAAATAAAAATGCTTTTATATTAATCTAGTTAATATAAAAGCATTTTTTATATCTATTTAGTTATTATTGGTAAAATAAATAATTTATAAAAAATTTTAAATAGTTCATTAATTTTATGAGAAAACTTATATTACAAATTAATGTTAAAGTCACTTAGAAAATATATGGTATTTAAATTTTTTTGAAACATTTTTTTATCTCGTCATGTACTCAATCAAATAGTGAAACTTTAAATATAATTAAAATTATCAACTATAATATTAAGTTATTATATTAAAAAATATTTTAATTATGAACTTGATTTAGTAATTTTCTAAAATAATTTTTATTTGTATCAATATACTTAATTAAACTTAAATAGCCACACTTTTTGCATCTTCATAAAGTTTTTTAACTTTAATTTCTTTATTATCTTCTAACATAACATAATCGTCCATTGAGTAACTGTTTATATTCATAATTTTATATACAAAAAAAGTAGAATAAGCTATTTTATTTCCTTGAGGAGTAAAAAAGGTTGATTAAAAAAATCATCAAGTATTTCTTCATTTTTATAATTAACTTTTATAATATAAAATTTTGATTTAACCTCTTTTAAAATATTTAAAGCAACTAATACATCAATATATTGTCTTATTGCACTTCTACTTACATACTCTTTATTTGAAGGAGTGATATTGCTTTTATTAGAAGATAAAAAATACTTATCAGTAGTTGAATAATTTGAAATTAATACCTCATCTCCAATGTTTAAATTGCATTCATACATTTTAAATCTAAATTTTTCAATTATTCCACAAATATCAGTTCCTATATTTCAAAATTTATGCTTATTAGTATTCATATATATCAATTGCCAATCTTTTACTTAAATATTCTGTTCTTTGCTCTACTTCATCAAAATTTCAAACTTTTGCATTTAAAATTGTTTTTTTAGAAGCTATTGAATAATTCTCATAAATTATTGGATTTCCTTTATCTTCAAGTAAAATTTCCTTTTTTCTTGTAAAAGACCTATAGTCTGCTAATTTTACAAGTAATCTTGAGGTAACAACAGATTTTAAGTTTTCAAATAATACAACGTTTAAATCTTCAATAGGAATTTTATAATTTTGCTCAACAGTTGATATGACAATATTATTTAAAAATAAACTAACTTTTTGTCCATCTTTAATTACAAGAATTTTTCAAGACATATATCTTTGCATAAAAAAAAAGAAACTAGGTTTCTCAGTTCCGGCATAAAACCTTATATATGATAGTCCTGTAAAATTATGTAGTAGAACAGTATTTCATATATAAAGTTATTATTATATATAAATTAAAATTATTCTTTTTTCTATTTTTTTATTTATATATTTAAACTCTAATTTATCCCCATCATTTGTTGAACCAACTATTATATAGTTTACAAGTTTCTGTTGATAATCAAATTCAAATTCATCGTATTTTGAAATATTAAATTTAAAAATATAGTCATTTGTAATTTTTCTTTCTTCTAAAATATTCTTATATTTTTCAGAATTTCTATCTAATATATTATTATTATTAAATTTTAATACTTTTATGTTTAATTCCACAACTTTATATCTATTTAATTTTTCACTATAATAGATGTCTCAACCTATTTTTTCCAAACTTGTATGAAAAATAATTTTATTATTTTTTACTTTTTCAAATTTATGTATAATTTCATGATATCTTTCATTTTTTGACTTATCTAAATATCTTAAATTTTTTATTAATGGCGGGTTTTTTTCTATTGATTGTTTGCAAATAAGTTGTCTTTCTACATATCTAAAATAACTAAATAGATTTTTAATTTTTATCATTTTATTTTTGTCATCTTTATACTCTTTATTATAATAAGTATCAAAAATATTCTTCAAATAATTAAAAGTTTTTGGATCAGATTTTTTAATAAATAAATCATAGTCATTAGTATTAAATAAATCATTTAATAGTTTAACTTGAAAATCATCAAATATATTCACTTTTAAAGTTTTTCTTAACTCTCCATTAATTTTTTTACCTATATAAATAGTTTCATTAAATAATTGATTATTATTTGTCTTTATATTTTTCTTTGTGAAAACATAATTAAAATTTTCAATTTCTCTTTTAATATTAAAACTATTATTTTCAAGCTCCCTAATATTATCAATTTTTTCTCCTTCTAAATGAAAAGTATCATTTTCAACATTATCTAAAATTGAACCAATAGTTTCGTTGGAATTAATTTTTATTAATTGTGATAATGCAATTACAACAGCATCTTTTGCATGATGAGAGTAATCATCTCTATTTTTTTGAGGTAATTCAAATATTTTATTTCTTAAAAAACTTGTAAATTGACCGTTTATAGTTTTGATTTTTCAAGGTTTATTTAATTCTCTTTTAAAAAATTTTAAATAATTTTTTACTCCCATCATTGCGTATCTAGTGTCATTTAAATTTCTTGAAATAAACTGCATTTGTTCTTTAATTGAAGTAAAATCTGATGTATTTACTAGATTTAAAAATTTTCTATATCCATATTTACCAAAACGTTTTGAATTTATATATAAATCAATTGCAGCTATTTTAAATTCTTCAAAATTTCTTCCAATTTTTCTAAAATATTGATATGGAGTTAATTGTTTTTTTTCTTGATTTTCTTCTCTTAAAACTAAAACCTTATTTGTTTTAGAATCATCAAAACTAATTGATAATGAGATTATATGATCAACTTCACAATAATTTGGATCTGTTTTTAATCTTGTAATGTCAATTGTTTTTCCAGAATAAGCACATTTTCCTTATTGTTCTGATAATAATAAAAACTTTTCTTTCATTTTAAAGTTTAATTTATTTTCATCCAATGAATAATCATTTGAAAGTTTTTTAACTAAATCAACATTTTGTCTTTGTATTTTTGAAATGAATTGTTTTTTTTCTGCAGAATTTTTTTTTGCCATTTCTATTACTATATCTTTAATTTCAAAATCCTTAAAGTGTCTTTCTAATTCTTTAATTATTTTTAAAGATTCTATTAAAGCTCTTTTAACAACTGGAGAAATATACATTTCATTAATTTTTTCTCTAAGAATTGGAATTGTTTTAAAATTAGTTAAATCAACTTTTAATTTATAATCTGGTTTTATTTTTAATTTTGCTAATGCTTCCATATGATTTAAATTATCATGAAACATTTCTTCAATTAATTTACTCATTGTTTTTTTAGAAAGTGCATGTGTACCTGTTAAAGAAATAACTGCCAATTTTTCACAAGTTTCTTTATCAAAAAAATCAAAATTCAATTCTTCAAGCTTTAAACTTTTATCTTCTATTGATTGATATTTAGTTAAAATATCAACAATTTTATCAATTTTATCAATATTTTCCAAACAAATGAAATCAATAGATTTATTATTTTTAACAAGAATGGAGCGCATTTTATTTGCACTCTCAAATACAGTAAAAATTGATTCATTTGAATTGGGTTTTAATCTATAACCTGTTATATTTTTTTCATTTATTTTTAAATATTTAGCAATTTTTTTTAAAGTTATATTTTCTGCTTTTTCTTTTTGATTTATAAGTGTTAAATTAATTAAATCTTTTTTATTTTCATATGTTAACTGGTTTCTATCTCCATTTATACTTAAATTATTTAAGTCATTTAAAATATTAAAAAGATAAGAAGTTAAACTATGTTTTGGAGCCCTTTGTTCTTTGCTATCATATGTATCTTTTCCAGCAAATCTATCAAAAAATTCCTCTTGATTTTTTCAACCATATTTACTTGGATTTAATAAATTTTTGTCTTTTGGTCCAGGACCATCATAATATTCTCTTTTTCTATTAAATAATTTTAAATAGTCCTTTTTAAAATCAAGATTTATTAATTTATTTTCAATTTGAGCATCTAAAATTAGATTAATTTCTTTAACATATCATTCATGATTTATTAAACTTTTTTCATTGTTTATTTCTCTAAACTTGTTATTTTCTTCTTTTAATTCAAATTGAATATCAACAGGTAATTTAAATTCACTTGATGTTTCTAATTCTTCTTGCGAAATATTTTTAAGTTCACTTAAATCTTCTCTATAATTAAAAGAACCACGATGTTTAATATAATTAAATAAAATAATCAACAATTGTTCTAATTCTATTTTAGAATTTATTGCTTTTTTTCTTAATTCTAATAAATCAAAATTAAAATCTAATTCATAAAAATCATTTTCTTTTTGTAGAAAATTATACTTAACAAATAAATTTATTAAATCCTGCTTTCATGTAATTTTTCTTCTTAAATTCCTTCTTCTTCCTCTTTGTTCTCTTCTTTTTGACGCAATTTTATCGCTTAAATTAGCCTCGTCAAATAATCTGCTTCCTGCTTTTAAAATTTTTCTAGATCACATTCAATAACTGCTCAACCAACAGAAGCAATTCCAATATCTAAACCTATATTTATTTTTTTCATAAAACATACCTTTCACTTATTACTTTCATTTTGATTATAAATTATTTCAAAGATTAGTTAATATAATTTTTAATGTTAAAATTATATTAACTTAATAAATTTAAAGCACTTATATAAACTAACATATTGGGTTAGTGTTTCTACCTCTTAACCAATTAAGAGACTATAAGTTTTTTTAGTCAAATTAAAGAAATTTATTTAATTTTTTTTAGTGTTTTATATATTAAGGGTTTTAATAAAGCACGAAAAAAATAAAGAATAAATGAATAAAACTAATTTAGAAAATCTAATGAAATTTGAAATGCATGTTCATATTGAAGGTACAATTTATCCTGAATTTCTAATTCAAAAAGCTAAAGAAAATAATATAAAAATTGATTTTGATACACCCCAAGAGTACTATGAGGATTATAAAACTAGAAATACCTTGCAAAAATTTTTAATGGCATATTATGGTAATATGAGAGTCCTTTGCAATGAAAAAGATTTTTTTGATTTAGCTTTTGAACATGCTAGAAGAAGTTCTTTACAAAATGTAAAGTATTCAGAAGTATTTTTTGATCCTCAACCCCATTTATATAGAGTAATAAAATTTGATGATATTGTAAATGGGTTATATAAAGGTTTTCAAGAAGCTGAAAAAAACTAAATTTTAAAGCACAATTAATTATGTTTTTTTTAAAAGATTTACCAGAAGATAATGCAGAACAAGTATTAGAACTAGCAAGAAAAGCAATTGGAGAAAATAAAATAATTGGAATTGATTCTAGTGAATCACCAAACTGAGTACAAAGATTTCAAAAAGTTGTTTTAAAAGCAAGGCTTTTAGGATTAAAAATAGTTACCCATTGTCAAGAAAATACAACAGATCAATCAGGAGGTGAAGTATTACACTTTTTACAACCAAATAGAATTGATCATGGTTATTTTATGCATGAAGACCAAAAAATTCTAGAAAAAATAAAAAATGATAATATTCATATTACAATGTGCCCTTTTTGAAGCACAAGAGGAAGTAAATTTCCTAATAAAAAGGATTATCCAATAAAAAAATACTTAGATTTTGGATTATCAATAAATATAAATTCAGATTACCCAGCATATCATGGGGCCACAATTAATGAAGGTCTCATATATGTTCAAGATATGTGAAATTTAACTAAAAAAGAATAAAAAAAAATTACAATATACTCAATTAATGCAACATTTCTAAAAAAAGAAGAAAAACAAAAATATTTAAATGAAGTTGAAGATTATTTTGCTAATTTCTGAATTGATTAAAAAAAAATACTTATATATTAATATAAGTATTTTTTTATTTTTTTAACTCAGCACTCATAATTAAAATATCTCGTTATTTTACAAAAATACAATTAGTGAAAGACTTAACATAAATAAAGCCCCAATTAATAATGGAACTGATGTTCTTTTAACTAGTTGAAATGGAGAAATTTTTATCTTTTGAGAAACAATAATTATTACTGAAAAAACTGGTGACATTCCTCTAAAAATGTTTCCAGCCATTTGTAATGGAATCATTGCAGCAATTGTACTTATCCCTGCAGCTTGTGCATACCTTTTCAAAACTCAGGAGTTAAATCAATTGATTTTCTTATACTTTTCATTCTTATCGATTGACAAATAATTGCAATTATAAAACTTATAAAAGTTACAAGTTCTACTGAAAGTTTTAATTTTCCATTAAAAGCACTAACACTTATAATAAATGAAATAATTACTAAAATTATTGAAAGTAATGGAAGAATAGTATAGGTTGTTTTAAATAATTTACCCCCCTCAATTAAAGGAACATCTAAATATTAATCTTCAAATTTCATTTTTCTATTTCTTTTTAAATCTCTTTTATCACAAAATAATTGCCAAAATAAATGACCAAAAGTCATTAGCAAAATTGTTGGTAAAGAAATAATAGCATGATATTTAAGAACATATTGAGTAACTGATATACCCATTTCTTCTGCAATAATAACATTATCACTTCCTAAAGGTGTTGGCATTATTGTTGCGGTTGTTGCAATAACTGCAGCTGCCGATAATGGAGATATTCCTGTTTTTACCAAAACTGGAAATAAAGTAGCCATTAAAATTAAAGCTAATGTTGCAGATGATGGTATTGCAAGAGAAAGTAAGTGTTCAAAAAGAAATACAAACGGTATCAAAAGATACTTCTTTTTAATTTTAAGTAAGGGTTTTGTTAAAACATTAATTACAACTTCATTTGCTTGAATTGTGCTCATAAAAAAACTATATCCGCCAAGTAGCAAAATTATAAACCCAGCTCCTGAAACCCCTTTTATAAAACTTTGTTTTACAACTTCTATAGGATAAAAAGCATTAAGTGGTTTTTCAATTTTCACTCTTCTTATAATCATTGCACATATACTTAATAAAATTCCAATTGTAAATAAAACTATAATAGTGTTAATTTTTTTAATTAAGAAAAAAATTAACGAACAAATTGCAAAAAAACCAAAGATATACATGAATATATCTGCTAACATAATTAATTTAGATTAATTAATTTTTCAACAATTAAGTTATTAAACTTAATTTCATCTAAATCAACTGCAACATTTATATTTGGTTCTTGCTTCAAGTAATTTTTGAAATCAATATAAGTAGTTCCTGCAGAAATACTATTTTGTGTATCTACACTAACATAGTATTTTTGAATTTTAAAAATAAATGGATTTAAAAGAAAAATAATAGAAAGTGAATCATACATTTTTAATCCTGTCTCAAAACTTTCCCCTCTATATTTTTTAAATAAAGAATAAAAAACTTCTCCAAATTTATTGGAAAGTTTTATTTTTTCAATATCATCTTTTTTAATTAGGGCCTTTAAGCCTAGGTCCATTGGAAATAAAATTATTTCAATTTTTGATTCTAAAACTATTTTTAAAGCTTCTGGGTCAAAAGCAGCATTAAATTCAGAATATATTCCTTTATTTTCTCTTCCAAAACTACCACACAGCATTAAAATTTTTTTAATCTTATTTTTTACTTTTGGAAATAATGTTAATAACATTGCAATATTTGTTAATGAAGCTAAAGTCACTAATATAATTTCTTCAAGAGCCATTATTTTATTGTAAAGTTCAAAAACTGCATGATTTTTTAATAACATATTATTAGAAGGTTTTTAAAATCATAGCCATCTAATTCTGTATTGCCATGAATATCATAAGCATAAACAGGACTTCTTAAAATAGGTTTATAACAACCTTTTGAAACCTCTATATTTGCATTAAATAAAGTAATTATTTTTAATGCATTTTCAGTAACTAAATCAATATTTGCATTTCGTGCAACTGTGGAAATTAACTTAATATCAAATTTTTCTTGGTTGATTGCAATTGCCAAAGCAACAGTATCATCAATACCTGGATCAGTATCGATAATAATCGGTATTTTATCCATTTTTTTTCCTTAAAAGTCCTAATAAAAAACTTGAAAAAAAAATGGTTAAAAAAACCATAAAACTTATAGACTTCTGATAGGTCAAAAGGTAGAAACACCAACCCAATATGTTGACTTATACAAGTTTTTATTAAGATATTTTTATAATAACATACAGATTAAATTGTATAAAATATTACTTATTTTTTATATAACTCAATTAAATGTTCTGCAATTTCTAAAATAATAAATCTGATATACCTTTGTCAATTTATAAATTCATTACAATAATTGAATTAATTTTAAAACAAGGAAAATTTTTCAAAAGTTAAAAATATAAAATTTAATTTTGTTTCAATTTCTATATTTATATATAAATCCATTATTTTATTTCTAATATTCAGTAAATAAAAAACACACAAAGTTTGTGTGTTTTTTATTTATCTAAACTTATAACTCACAACAACCAATTAGTGTTGAGTCATCAAGTTCCTTTGCAAATTCAAATTTAGTTTTATAACTTATATCAGAGGTTACTTCCAATACTTTATTAAAAATTGCATTAAATCAATCTTGATTATTCATAGCAACACTTCCCCCAATTACAATTATTTCTGGATTTAAGAAATAGATTGCTGTTGAGAATAGACTGATTAACTCTATTTCCATTGTAATAAAATAATCACTAACTATTGAATTTTTTCTTGTTTTAAAAATTTCAAAAGCTTCTTTTGCATTTTCCACTTTTACACCAAGTTCTTGTAGTCTTTTGGCAATATTTTTTCCACTTGCCAAGTATTCAAATCCACTTTTTGATGGTTCTATTGTGCTTATTTTTGGTAAAGCGTTTGCAATTTCACATGCTTTACCAGTAAAACCATTAAAAATTTTTCCTTCATTTATAAAACCAGCTCCTATTCTTGTTGAAACTGTAAAATATAATAGTGATTCAATAACTTTTCTTATAGAAAATTGACCTAATGCTGCAACATTTGCGTTATTATTAAATTTTATTTCCTTATTTAAAAAGATTTTTTTAAATTCTTCTACTAAATTTTTACCATTTCAAGCTGGCAAATTTGGAGTATTTATAATTTCTCCTGTTTTTAAGTTAAGTGGTCCAGGACAAGCCAAACCTATGAAATCAAAATCCATTTTTCAAAAGTCCACTATAGTTTTAATTTTTTTAAGTTAAAATCAAAATCATTTGGATTTGTTTCAAAAGTCTCTTTGGAGAAAATTTTTTTATCTTCGATAATCGCAATCCTAATTGATGCCCCACCGATATCTACTGCTAATTTTTTCATTTAATTACCCTTGATTTTCTATTTTTTATAAACGAATGTAATTGTTTTTACACTCGTATTTATTTTACTACCATAATTTAGTAAAATATTTTGCTTTTTGTAACGAATTTTAGTCAAAATTTGTGAAAACTCCTCAACTCCATATCAATTTAGTCTAAATTCTTGTTTTTCAACTAATTTATTATCAATAAAATAACCTATTTCATTAATAGTATACTGTTCAACTCAATTTATTAGTTTTGCATAATTTTTTATTTCTATAAACTGATTATTAATAGTATATGAATTTGTATACTCTGACCCAACATTAAAATCTGTTGGCAAAATTAAATCAATTACTAATTTACCATTTTTTTAAAGATTTATAAAAATTTTTAAGTATTTGTGTTAATTCATCTCTTGTTTCAATTAAATTAAAAGTTGCATTCGGAATAATTATATATTCAAAATAATTTTCTCTTTCAAAATTAATTAAGTCCTGATTTAATAATTCACAATCTAAATTATTTTCTTTTAATTTTTTTTACATAATTTGATCATTTGTTTAGATTTATCTATACCAATAACATCAATTTTATATTTTAATAACGGAATCAACATTCTTCCGTTACCAACTCCAGCTTCAAGCACTTTTCCTTCAATTGGAATTAATAATTCTTTATAAAATTGAATGTCTCCATCAATTGAAGTACCTGGAGGTTTGTATAATCATAAATTAAACTACTTATTTCTTTATATAAATTTTTCATATTACCTCATTATGTAATAAATTTTTTTAAATCATTTATAAAAATTTGATTTTTATCTCTAAAAGTTATTTGCTCTTTAAATTCATTAATAAGCACACTTTGAATATATTTTGAATCAAAAATAGCACCTGAAGCAATTATTTTTATTTTAGTTCCTAAACTTTTTTGCATTTTTTCAAGAGCAAATTTTAATTTATTTTTAAATTGAATAATTACAGAATATAAAAGATCTAAATCAAAATCAAATTCTAAAAATTTTGTACTAAATTTTCTAAAGTTTGCTTTTTCAAAAAAGTTTATTTCTTCTTCAATGAATGTACATTCACTTAAATCAAAATTATCAATATCTTTGATTGAAATATTTAATTGAGAGCATGCTATAAAAATATTATTTCCCCCATTTGAAGATACTGTTCCATAAACATATTTATTATCTAAAGTTTCATAGCAATATTGTTCTTCAAGTAAATTTTGAATAGGTTTATCAACAAGTAATCTAATTCCAAATGTTCTATTTGCAGATAAAATAGCTACATTTTTTTCTTTTAAAACATTTAAACCTAAAACTGTATTTGGAATTCCAAAATTTACTTTGCAATCATAGTTATTTAATTTTATATCATATCACTCTAATTTTTTATAAATTTCAGGACATATAATATTTTCTCTATTTACATATTTTAATAACTTTGGACTAAATTTAGATGTTTTAAAATCTAAAAGACCGGTTGAAGAAGCATCAACTATATCAATTATATTTTTATTAATTAATTTAATTGCAAAATACCCTTTTAAAGTTGTAAAAGAATAAGCCTTTATTGGTGTTTCTTTTAATTTAAATGAAGGAAAAACTGTAATATTTAAAATATTATTAATTTTCTTGGCAGCAATTAAGTCTTGTGAATTAATTTTTGGAATTAAAGCATCATGTGGTGTATAACCTTTTCCAATTTGATTTAAATTTTCGTCTAGTAAAAAAAGAAACATAGTAGAACAAGTAAAAATAATTCTTAGTCCTTTTTGATATTTATCTGTAAATTTAGTTATTTTTTCATTAAATCAATCTATTGCTTTATTTGCTGAGGCAAAATTGTGATTATCGAAATATATTTCAGCATTTGATAATTTTTCATACTCTAATTGATTATTATTTTGATCAAAAATTTTATACTCAATATACATATCTCCAAAATAAATATAAATTGTATTCATACATACCTCACTAAAAATATTATAAGTTAAAAAGCAAATTTAAAAATAAAAATCAGCATATTTGCTGATTTTTATTTTTTTTAGCCATGATTTTTATCATTTTTGCACATACCACAATCTTTGCAATTATCTTCTAATTTACATTCTATTATTTTTTCACTTCCTTTTGTAAATATTTTAAAACTAATTATATAAAAAAAGATACTTATATAAAAAAACTAATTATTTTACTTTTTTTGAATTACTTTTTTTGAATTAAATCTTTTTTTTCTTCTAATTCAGGTCTTTTATAAGTTTCTGCACCAATCATTCCAAAAAAAGAACCTGTAACAACAAATATCCCACTTATACCAAAGAAAATAAATAATAAACCTGAAAGTAAAATATATATACCTTGACTTACTGTTGAAGAAACAATAATAAATGGTAAAAGTGAAGCTAATATTAAAATTGTACCAGTTGTTAAGCCAACAAAATAGCCAATTCTTTGTTTATATGCTTTTCTTGAATTTATAAAAATTAAGAAAAAGTAATAATTACAATAATAACTAATGAACTTATAAATAAAGATATACCTATTGAAGTTATTTGAGTTAATACTTTTTCTGATAAAGAATTAAGCCATTCACCAATATCTCTTAATTTACTAAAACTGTCTATTGCAATTTGTTTAATACTCATCATAAAAACAGAAACAATTAGTATTGGAACTAATGAGGCTAACATAAAATGGGATCCTATATGGCATAATGTTTTTGAAACTTTAGTCCTTTTTATATCCTTTCTAAAAAAACACTTAATGTTTTTGAAATTATTTCACTACCTTTAGAAAGAATTTGTCTAAATTGTTCTTCATTAGTTTTACTTCCAATTTTATCACTTATTACTTTTAAACTAATTATTGGCTTTTTAAAAATATATGCTGCTTGAAAAAAAGCACCACATTCCATATCAAATATTTCAATTGATTTATCAATTTTGAAAATTATTTGATCAAATAATTTTTGTGAATTTATAAAAACATCACTTGAACAAATATTTGCATATTTAAAATTTTTATTTAATTTTTCATTTAAGTTTTTATCTGATAAATAATATTCTTGCATTTTTGGCACTTGACCTAATTTATAACCAAAACCAGTTGCATCAACATTTCCTAAATATGACTTATTAACTAAAACAACGTCTAATTGATTTAACACTAAACCAACACAACCACTTAATCCTGCATTAATATAATAATTAAAATCATATTTTTGATTAACATATGTAAAGCAAGTTGAAGCATTTATTAGACCAACATTAGAAATAGCAATATAAATATTATTTGAACAATAAATTTTAAATGGTTTTTCTTCAACTAATTTTGCATTTATATTTGAAATAAATGCTTTTGCTTCTTCTTCCATTGCAAATAATACACAGTATTTTTCCATTATTTATTTCCTTTTACTCAATATTGATAACTTTGTTTTAAATCATTTCCTATAGAATCCATTCCTGTTTTTTTAATAGCTTCTTCATATTGATTTTCTAAAAGCATTTTAAATCCTAATACTAAATCTGATTTTACAATTGCTCTAAATTCATCAACTCTTGGATAATTTCTTTCTGAAGATATTTTATCTGCGCAAAAAACTATCATATCAAGAATACTCATTTCTTTTGAAGCCACTGTATGTTTAAAAATTGAATTAATAATTTCATCATCATTAAATAATCAATCATATTTTAAATGCATAGCGCCAACATAAGAATGTCAAACTGGTTTTGGTTCATTAATTTTTTCAATGCAATATTTTTCTAAATATTTCATTAAAACTTTTTCATCTCATTGTTTTGAAATGTCATGTAATGTTCCTGCAATAAATGCTTTTTTTAAATCATAATTATTAAGTCTTGCTAAATCTAAAGTCATTTGCCCAACATTTAGGCTGTGAAAAAATCTTTTCTCATCCATTTTACTTTCTAATCTTTCATATAAATATAAAAGATTATAATTTACATAATCATTAATTTCTTTAATTTGAAGATTTAAATCCTCTAAGTTTCTAATTTTTGTAGAACTTAAGTGATTATTTTCAAATTCAAATGTTTCCAAATTATATTTTTCCACAATTTTTTGATTAATATCTTCTGTTCTTAAAAAAATTTTAAATTCTATTGCTTTAATCAATTCGTTAAAATTATCCCATTTTTCAAAATTATCCAATTGATCTGAGCCCATTATAAAGGCAAAACTTATATCAGGATACTTATTTTTATAGTATGAAACAGTATCATATGTATAACTTCTTTTAGTTTTTGAAATTTCATATTTTTCAATTTTTACATATTCCAAATCACTTAATGCTATTTCAAGCATTTCAAGTCTTTGTGCAACACTAGAGCTTGAAATAGTTTTAAATGGATTAACATATGCTGGAATAACTCATACTTCATCAAAACATAAATTTTTTTTACAACTTTTTATTATATTAATATGATCTGTATGTACAGGATCAAAACTTCCTCCAAATAGAGCAATTTTTTTCATTCTATTCTCCCTTTTTTTAATTAGTTCAATTAAATACTTTCCAACTCCATTATTATCAATTGTATCAATAACTTTTGAAGCAATTTTTTTCAAATTTTCCACAGAATTTCCTACAGCAAGTCCATTTTGGCTTCCCCTAACCATTTCAATATCATTATTATTATCCCCAATTACATGAATTTCATTGAAATCAATTTTCATTATTTCTGCTCATTTTTTTATTCCATATAATTTATCAATTCCCATTGGCATTGCATCCATTATTATTCTCGATTGCATTTTTGTTGAGGGATGATATAAATTTTTTTGTTCTAAAAATTTATCTAATTGTTTTACTTTTTCAACATCATTTCTCTCATCTAATGAATACATTAATTTAATTGCTTTATGAATTCCATTTTTTACATCATCAATCATTTGCAAGTAATTATCATATAAAAAGTAGTTTGGTAAATACTCTTTTGGATAATGACCATATAATTCACTATATTTTCTTATTCTCTCAGAATTTTTTAAAGCACATAGTGATGTTGCTGTGTATAAAGAAACATCTAGATCATTTTCTATTGAATAATTAAGCAATTCAATAACTAATTCTGTTTGCATAATATGCTCAAAATAAACTTTATTTGTTATTGGATCAGTAATTGCAGAACCATTTGAACTAATTACTGGAAGTTTTATATCAAGCTGTTTTATAAAATATTTCATATTTTGACTAGCTCTTCCTGTAACTATAAAAAAACTATTATTTGATTTTTGTTGATATTCCAAAATATCTTTAACTGTTTCATCCAATATTTTAAAATCCTCATTGTTGACAATAGTTCCATCAAGATCACTTGCAATAAATGGTAATTTCATATTTTTTCCCTCTTCCAATTATTTTAAATATTATTTTTAAAAAATATACTAATTTAAAACCTTAATATAATTATTTTTTATATAAAAAATTGTTTAAAAAATAATCTAATGTTGTAATATCTGCTATATAAAACGTTAAATCTTTAAACTTAACCTTTGGATATAAATTTAAAATATCATTTGTTATTATTATAAACTCATCTACAGTATCTTGTTTTATTTTTAATTGTTTTTTTATTTTTCTTATATCCTTTTCAAAAGTAGAAATTTTAGCAGAATAATTTTTTTGAAAAATATTATTAAATTCATTTGTATTTTCAAACGATCTTTTCATATTTTGCTCATTTTCTAAGTTATTTATAAAAAAATCATTAATTACAAAAAAAGTTTTATCAAGTCTTTTTTCATATATAACTGAGTTTACTTTTAAATTTCTAACATCTTTTTTTGCTTGTTTTCAAAAATATTTATTATTTTCTGGTTCATAAACAACAATTGAAGAATATTTTTTTGAAATAATCTTCAATTTATTATTTAAAAAATAATGTAGTTCAACTTTAATTTCATTATTAAAAATATTTAATATTTCTTTTTCAAAGTAAGTATACTTATTTAAAAAATTTTCAGTTAATCATATAAATTCTGGAAATGAAATTAAATATCTAGTACTAGTAGAATTCGTGAAAGATATAATTGGATGTTTATAAAAAATTGAAATAAAATCTTTACTATTTTTATAATTTAATAGCATTTTAACTAGTGAAAGTAAATCATCTTTTTCAATATTTTTATCAATATTTTCAATGACAATTTCATGCAAACTATCAACATATGTTTTTAACTCATATAAATCACAAATTTTAAAAGACATTTTTATTTGTTCAAGAATTAAAAATCATTGATATAAAGTAATTGAATTAAATAATTTTATTTTTTTAAAAACTTTATTTTTTAATTGTTTAATTTCAAGTTCAATTTTTTCATCCTTTCTTTCATAGAAAGTTTTAATAATATCAATTCTTTTTTGTTTTTCAAAAGAATCTTCTTTTTTAAAAAGAAGATCATAATTAATTGGATTTAATACATTAAATCGAAATTCAATTTCTTCTTCCAAATTATTAATACTAAAATATTCTTTAATTTCACAAAACTCTTTTATATAAGTATGCATTCAAATACAAATAAATAAATCCTTATATAATTTCAAGTTATACGCTTTATTTTCAATTAATTTATCTAAATTAGAAAAAATATTAATAGTATCTGAATTATTTTCAAGCAAAGGAATAGTCCAAGAAAAAATTGATTGATAATATTTTTTTAGACTATTTTTATACATATAATATTTAAATTTTTCATTTCCAAATTTAAATACTTTTAAATCTACATTAAAAGTTGTTTTATTAGCAGTTGACAAAAGAACAAATTCTTGTATTAGTAGTCTTGCAGCAGTATAGAATAATCCACTTAAAAAAGCTTTACTTGCAATAAAATCTGCTGGAAGTGTAAGTTTATGTAATTTACCATTTATATAAACGTTACTAATATAAAAACTAATTTTTTCATTTATTTTACTTGAAAGAATTTTTAATAAAAATTCTGGTTTTTTTTGATTCATTTTAAAAACTTTAAATACATTTTCTAAATCTCGATCGGTAATTCCAAAATAGTCGAAGTAATTTAATTGATTATTGTAATCATAAAAATTTGCCTTTCCCGAAATTTTATTAAAGTCTTTTATCATATAATCAAACCTCATTAAATTTATTATACTAATAAATAACTTAAAACATTGATAAAATATATAAGTTAATTACAATGCTTTAAAATCTTTAAAAATACATATTTACAATAATCGGTAATTCTATTTAATTGTGAAATTAAAAGATAATTTGCTTTATTTTTACAAATTATACAAAAAACATCTTCATTATTAATTTTTTTAGCTTTTAAATCAATTAAAACACAGTTTTTGCAAATATACTTAAAATTATTTAATTGATCTATTGATTTTAACTCTGCATTTTTTCCACATTTAACAAATAATATTTTCATATTCTTTTCCTCTTTTGTAAATATTTTATATATTTTTTAAAAAAATCAAAATATATAGTAAATATCACATTAAAAAATTAAAAAAAATAATTTTTTTTTAAAAAAAGTTGCATTTGTATATTTTATTTGATATATTTATTTTGTCCTTTGGACACACTATGGCAAGGTTAATTTTTAATGGTTTCATTTCCCTTTACATCACTTTCAAGAGATGAAATTACATTCTAATTAAATTTATAACATCCTTTCTTTCGATTTGGCTTATTCTGAGCTTGTCATAGTTTATAAACAGGAATAAGTCTTATTCATTACTCATTCATATCTTTTTAATTATTAGCAAATCAACAATTTAAAAATGCAAAAATGCATAATAATAAAAAAACACGTTCTGAGTGTTTTTTTCTGTTTAAATACAGTTATAAAAATAAAACCAAACATTAAAGTTAAAAATAAACTCTAGTGTTTGGTTTTTTAATATATTATCCAGTAATTTCAACTTGATTAATTGCTCATAAATTATTTTCTTTTGCAATTGAAATTGTAACAGTTTTTCCTGAGCCAAGATTATATTTATATTTTTCTTGACTAATAATTTCTGAATTTGCTACTGTTAATTTATTGTATTCAGTTTTAATATTTTCAATCATTTTTGCTTTTTGATCTGCAACTGTATCTTGAACATATTTCAATAAATCTTTCAGTCCAATTAAATTGTCTTTTACTTGATATAAATCAGCCAAAATTCCAGCTTCTTTAATCTTGTTGACTAATGCATCAACACTTGTTGGCATATCTTTAAAGATTGGTGCTAATTTTTTTAATAAAGATCCAATTGCAGTAAAGTCTATTTTAATTTCTTCTGCATTTTGTATTTTTTCAAAAATTAATTCCACAATTTCTTTTAAAGTTTCTGCCCCTTCAATAAATTCAAATTCTAAAATATTATTAATTCCTAATAATGAAGATAATGGTTTTTCTAATAGATTTTTTAAAGCTCAACTTTCATTTGCTGGTTTTCCCAATATTGCTCCTAAAAAATCCTCATTTCATAAAAGATTTAATAAATCAACATCGTTTTCTCCATTTAATCCATCAACTAATTTTTGAATTTTACTATCTTCTAGTTCTACACCTAAAAGAGAAAATATCAATGTTATTAATGCAGAATTCAATCCCTTTGTTATTGGAGTATTTGAAGCTATTTTTCCAATTAAGTTAACTAAAATAGCTGGAATATTTAAGTTTAATGCCTCAATGATTCCTTTAAACATATCTGGAAGTGAATCCAATAATTTTTTAATATCAATTGAACCGTTTAAAATTCTTGTCATTGCATAATTAAATCCTAAATCTCCATCAACAAAATCATCTTTTTGAAATTCTTGAAGTGATTGTATTATTTTTTGAATAACCTCTGAAAAATCTGATAAGTCAATATCTGATAAATCAAAAATCATATTTTTATAATAATCTTGTGTTGTATTTAAAAATAGTAATTTTAAAACATTTTTTAATGCAATTGGTGCATTTGTAGAGCTATTACTTCCAAAAATTGTTTCTTTAACCTTTTCAAACATTTCTTTAAAATTTAAGATATTTGAATCTGCAATTGTAGATATTTTCTTATTTCTAAATTCATTTACTTGCTCAGCTGTTAAATCAACTTCAAATTGATCACTTACAATAAAGTTTGAAAGATATAACATGCAAATTCTTGCAAAATTTACAATTTTTGCAATTGAATCTAAATTAGATAAAACAGTTGTTTCATCTAAAACTATTTTTTTATCTCTTAATTTTGTTAAAGATAACTCCAAATTTTGCATTGCATTTTTAAAGTTTGTTGCAGAAATATCTTCTTCATTGAAATCAGCTGTTGAATCCTTAACTAATTTTTTTAAACCATTTGCAATACCAATAAATGATAAATTGATTGTTTGAGTTCATGTCATATTTTGATATTTTTCCATACTTAATGCATCACCAAATGATTCAAGTGAATTTGCAACTTGGTCAATAATTGGTCCAGCTTCTTTAATTGTTTCTGGTGTTAATTCAACATTAAAGTATTTTAATAATTCTGACAATGTTGTTTTTAAACTTTCTGCTTTTTCCTCATCAGTTTGTCCTGATAATGAAAAAATTGAATTTGCTACAGTTGTTATTCCTAGAAGTAAATCTTTATCTCCTGGTTGTTGTCCTTTTGTATATTCAAATCCTGTTGTTTTTAGATTTGAACCAATTAGTCCATTTTTAAAATATTTTTCTTTAAATTCTTTTAATTCTGAACTTGTTAAACTTTTTTGATTTGATTTAAATGAATATGTTTCTAAAACATAATCAATATTATAACCACTTTTATTTAAATAAAGTGATTTTGAAACTTCTCCAAGAAATTCTTTCATCTTTTCTTGATCAAATGTTTCATCTTCTTTTGGGGTTTTTGTTTCACATGCAATAACTGTAATACTTGTTGATGTAATTATTGAAAGTGAAGCCAATAAAGATAATAGTCTTTTCATATTAAATTCTCCTTATTTATTTTTTATTATTTTGTATCATCATCTGAAAATACTATGTTTATGCTTAGATTATCTTTTGTTAAATATTCAAATTTTCCATTTTTTTCGCTTTCAAAAATTACTCTTAATTGCATATTTTGAATATGCAATCTAAGTGAATCATATCTTGCAATAACATCACTACTAATTGATGAAACCATATTTTCTCAAATAGCATTTTGTCCAATTTTTTTAAATTGAAAAACAAATTGTGCTTTTTCAATTATAACTTTTGAATTATTTAAATATTTTTCTTCAACTCCCAATCCCTTAATTAAAGAATCTGGAATTAAATTTATAATCATTTGCATTGACATTTCAGGTAGCATTTTATTTATTTGTTCATTTAAAGTAGTTGTAACTGTATCTTGAAAAAGAGGCATAAGAGCATCAATTGCTGTTCTTTCAATTGAACTTAAGTCCATATCATCTAAAATTGCAGAAATTTTTATAGAATCATTTGTAAAAAAGATCATATTTAAATTTGGACCTAAAAATAATGTATCCAATTCTAAATATCCTTTTTCACCTAAATTAAATAAATTATTAAAAATTTTCAAAACTATCTGTCCTGGACTGATAACAATTTTATCTAATAATTCATAAAGTGTTGCATTTTTAAACATTGTTTTTTTTACAGTTATTCCCAAAACTTTCAATTCAATATCCAAATTAAGTTTTATACTTAAATTTAATTTTTCATCAACTCTATTATTTTTATTGTAGTCAAGTAAAAGATTAAATAAAAGTGAGTCAATTCCCATTGTAGAACCACTTGAATCTGCACTATGGTGATTTTTATTATTTTTTGAATTAATAGTAAATAATCTATCATCCATTTGAGTAAATAATTCTTTTAAAAATAAGTACAAAAAGTTATGAGAACCACCTTTTGTTGTATTATATGTGTCGGGATTTAAAAATTTTGAAAACATTAAAACAATATTTGGGGCTACATTTGCAAGAATATCTCCAATTGCTACTTTATTTTGCACACCCTTTGATCCAATTTTTAAATCGATAAACATTTTTCCTTGTGCAACTCCACTACCAAATTCTTGTTCACCATTTATACTTGATAAATCTAAATCTATTAAGTCAAATAAATTAACATTTAAAAACTCAGAAACTTTAAAAGTAAAATCAGGTTTTTGTTCATTTCCTGCAATTGTAATTTCATCTTTTATTCCTAGAGACCTTAATAAATTTCCAAAAGCTGAAAATAAATCTTGCAAATTATTTCTAAAATCTCTGTCAAAGTTTTCATAAATTTGTTTACCATTTTGTTCATCTGGATTTGCTTGTGCAAGTTGATTTACATCTTGATTAACAAGATTTTTAATTGGTTGAAGTAATGGACCAATAAGAGATAAAATATCATCCATTCCTCCAGCTCTTAAACTAAAATTAGTTACTGATTTAATATTCAATAATTGAATTAATTGATAAATGGTTCCTAATGTAATTTTTATTCCTGGCACTCCCATATCAGCTCAATCAAAAAGAATTAAATCAACTTTTTTTGCAAGTAAACTATCAGGATTGGTAAAACTGTTTGTATGTAATGAATTTATAACTTTTTCAACGACATCATATTCAGGGACTGTTCAATTAAATTCTTGTGTATAAAGTTTTTTATTTAAGTAAAATAAATCTAATTTTGCTTTTCCTAAATTAACATTAGCATTTTGATCAAAAGTTATTCCATCACTTCCAATTCCATACAATTCAGGAAGTTTAAAAGTATTATCATTGCTAATTTCAATTTTAAAGTTATCATCTTTTATGTTTACTTGTTTTTTTAAGTATGAAATTAGATCATCTATTGCAACTAAATGATTTGCTATGTTTCTGGAAAGAATTTTTAAATTATTTTCTTCTTTAATTTTTACATCAGCAATAACAGTTGAATTTAAAACTGATTTAACATTATTTATTATTTCATCAGGACCATCTAAAATAAATTCTCCATCATTTTCATCAGAACCATCTTTATCAAATAAATTACTATAATCATTTCAATTTGAGCAACTAACAACAGTTAAACTAGAACTTGTAATTAAACCAATACTAGAAATTATTATTAATAATTTTTTCAAATAAATTCTCCTTTCTAATTACTAATTGTTAATGAATCTACTGGTTTTATTCTTAAAAATTGTTTATATGATATTAAGATTGTTGCAATATAAATTGATATTAAGATTGCAATAACTGCAAATGGTTGTCAAATTGCAAATTCATATGGAATTACAAATGAATAATTTGAAGACATATAACTTACAATTTTTTGAATACCAAATCACGCAGTTAAGAAACCAAAAATAAAGGTTGTGAAAATTGGTAAAATATAAATTCCCAAAATTTGAGCCATAACATAATTATTTGTATATCCCAAAATTTTCATTGTTGCAATAAATTGAGCATTTTCTCCAATAATCAAAATTGTTGTAATAACAATAATTATTATTGAAATTGTTAAAGCAATAAAAGTAATCAAATAAATTATTATTCTAATAATTGCTTCAACCTGATCTAATAATTCTCGTTTATCTTTTAATGAATCAATTTTATTTAAACTATTTTCACTATATCCTTGTGTATATGATGTATATGTTGTTCCAGTTTCATTATCAATTATTAAACTGGATTTTCCAACCATCCCTATTGAACTATAATCACCAAAAGCTTGTGTTTTTGAAGTATTTATTAATTGATCATTATATAAGTTTCAATTAGTATATTTATAATTAAATATTGGATATTCATTTTCAAATATTTTTCATAAATATTTTGAAGCATATTTATATCCATTTGGATCTACATAATCAGAAGATAATTTTAAAAACATATTAATAAATTCATCATATGGATTATCTGCACCAGTTACAAATTTATCATTATTATTTGCTTGACTTCATTTTGTAATTAAAAAATTAAAATAGTCTATAAATTTTTCTCATTGTGCTTGAGAAATTTCATACATAGTTTGTGTATCATAAAATTTTTTTAATGCAGGGCTTTCTTTTCATTCATTTAGGAAGAACTTATTAAAGAAATATTTTTTAATATTATCATATTTTAAAACTTTATTTGCATTTTCATTAGAAATTCATGCTTTTGAATTTCCATAATTTTCAGTTACACCAACTATTAAAAATTTTTTATCCGATCCCGTAAACACTTTTTTTATTTCTGATTTATTAGCAGCAGTTTGAATTTCTGTTTCTTTTGATATTCCACTTAATGTTTCTGATGCTATTTTTTTACCATTAATTGTTGCAACAGAAATTGGAGATTCTGAATCTCAAGTTTGATTTAATTCATTATACGCAAAGTAATTTTTTTTATGTTCAGAAATATAATCATTTACTGTTTGAGTTAAATAGTTATATTCTGATTTAATTCCCATATTTACATTATTTAAATCAATACTATTATTTTCTTTATCAACTAACTCTTTTTTAAGAATTGAGACATTCATAATGTCTTTTATTCCCAAGTTTAATTTTTTAGAAATAGTTTGGTTAATAATAATTGGAATATATTCATTATAATCAGAATTCAATTTTTTAAATAAATTTTCTTTTATATCAGTTCCTTCTGAATCACGTAAATAAACTGAAACTGAATTTGAATTCAATCCATAAATTTTTATATTTTGTTCATTTTTATTTGAAAAGTAAGTTCCATTTATCATGGTTCCTAATTCTTCTGTTTGATGATTATAAGGAATAATATTTGTTGCAATATTATAATCTTGATTTTTCAACAAAGCTTCTTTCATTGCTTGCTGAATGACATTTGTTTCTTTTTGATATGTTGACTCCATCAACATTGTTCCAAGTTTTGATTCAAAATGAATTCAATATCAAAGAATAATATAAGTATTAAATTTTCTAAAATCTTCTATATCTCATTGACTTAAATCATTTAAATCGATTTGCATAACATCAATTCCATTATAAAAAATTTTATTATTTTCAATATTAAAATCTGAATATATAAAATCATCTAGAAAATTTTCTCATTTTGAATTTATTGTGTCATTTCCATAAAACAAATAATTTGTTCCTTTTGTTGCAAGTTTAAATGGAGTTTTTACTTGATAAGTTTCGTAAACTTCTTCTCCTGAAGTTTCAAATAATTGATCATCAAAGTTAATATTTTTTATTTTTCCATAATTTAATGATTTTAAATCATTTTCATTTAAGTATTTAGAGTTTATATTTAAAGGTAAAGCATTTATATATTTTTTATAAAAATTTTGCAATTCTTGTGCTATTTTTTGTAAAGTTTCTTTTAAACCATCTTGATTACCCTGTTTAATAAGTTTAATAGCACTTGCTTCAATACTGTCAATTAAAAAGGAATAATCTGCTCATTGATTTGCAATTGAAACTATTGAATCATAAGGAACTCCTTGTGTATTTCTAGAAGGAATTTCTAATTCATCTAATTTTTTTAAATATTCAATTGAAGTATTTTTTCAATTTGTATAATTATTTTTAGCTATTTCTTTAAATAAATCATAATTATTATTTATTATTGGAATATTGTAAGAATAAAAATTATTACTAATATTATTATTCATTAAATCTCCAATAATTTGATCAGTGTCATAATTATAAGTTTTTGTTGTTGAATTGTACTTTAAAGGATATGAAGTTATATATTCTTGTTTTGAATTAGTAGATTCACTAATATCTGTTACATGATTTTCTTGATTATAACTTCATTTTTGTTCTTTAATCGGATTGTAAGTTTTTAGAAAAGTTGAAGGATTATTTGAAACTGGTTCATTAAATTCAACAACATCCTTATAATTTAACCCTGAAAATGTTGCTTTACTGTTTTTTTCCATGACTAGTGGTGTGATAATGGCTGTAGAAATTAATAAAGTAGAAACAAATAAAGTAGCGGATGTTCCTAATATTTTTCCAGTTGAACTCATTAGTAAAGCAGAATGTAATTTAAGAGTCGGATTTGCTTTTCTAAATAAAAACTTAAATCCTCTTCCTATTTTGCTATTTCTTTTCATAAAATTTCCAGCTAATAAATTTAATGCCCTTTGTTCAATTACGTTATAGGCAATTAATAAAGTTATTAAAGTCAATGTTATTAAAACAGATATAAATATTGCAAATGTATGTAAACTTAAAGAATCAAATCCTTTATAGTGAATATTAAAGTAATTTGCAAATATCGAAATAATATAATTTTGTATAACAAGTATTGATATGTACCCTAATATAGTTCCAACCAAGCTAATTACAATTGGTGTTGATATAAAGAACATTAGCAATGAGCGATTGGAATAACCCAAAGCTTTAAATGTTCCTAATTTAGATTTAGTTTCATCAACTTGTTTCTTAACAATTAATATAATTATGAAAACAGAAATTAATGCAATCAATATAAGTAAGAATGTTGAAAACACTCAATAAACTCAAATGACATGTCTATAACTTGCTGTTCTAAAATAAAATTTATATTCTGTATCTCTTAAATCAAAAAACATTTTTACAGCTGTCGTATTTAAATTTCCATACTCAATTCATTCCTTATTAAAAGCCTTTAAATAAGATTCTGAATTATGAGACTTACTTTTAAATTTTCCAGAAAAATAAACTTCTCTATCACTTTGTGATTCAAAATTTAATTTTGAACTTGAAAGGTCGTAGCTATAAATTTGCATTTTTGTTCCTTCTTCATTTTTTACTTCAACTTTATTAAGTCCAAAAATTGAAGGATCAACATATGCAATTAAATTCTTTTTTATTGAAGGTATTGTTGATTTAAAGTCTGTTACAGGATATACAAAATCAGCTGAAGAACCAAATCCAATTACTTGAAACCAAACTTGTTCTTTATATTCTGATGTATTAATTCCTAAAGTTGAATCATTGATACTAACACTTCCACCAAAAGTTAAATTTGAAATGTCATCTTTAACTAACAACTGATTTCCATAAATATCTGCAGTTAATCTTATGATATCTCCTCTTTTGATATTATTTTGGTTTGCAAAATTGGCTTGAATGATAACCTCTCTTGAAGCAAATTGCTTATTTTCTGAAAAATATCTATCTTTTTGGTTATCTTCTAAAATAATTTTGTCAACCAAGATTTGTTCAGTTTTTGTTTCATCAAACCTTTCATCAATTATTGATGTCTTAGTTAATGCTTTTATATTTAAGTCATTATTTTTCAGTTTGACATTATTAAATGTTCTTCCTTCTGTTCGAGATCAATTAAAATAACTATCTCCTTGAACAATTTGATTTTCAGATTTAATTCCTTTTCTTGAAAGAACATTAATTAAGTATTGAGAATATAAATCTTGATTTGCATATTCATCAATATTTTCTCCTCCAATTCATTCATTTTCATCAAATGAAATTCTTGTTGAATTATCAACATTGACTATAAAGTCATGTTGATTTGATTGATTTATAAGTTTATTATAACTTTCATCTACCCTGTTGATTGTTATAAAAACAGACATACCAACCATTATTGCTATTGTTACTAAAAAACCCAATCCAATTAATTGGCCCAAATTTTTCAAAGTAGTTTTAAATCCAGATTTAATAATTAAAAGTTTTTTGTTAGGTTTTTCTTGAATTTTCATAATTAATATCATTTACTTTCTAATAATTTTAAATAAAGATATTAAATTAAATCAATACTATTAATTACTACTGTTCAAGAGGATTTTAAATCATTACAATATGATTCACTGCTTAACTGTGAATCAATTTTTACTTTTATTATTAAATAATCAATATTATTTTCTTGAGTTTTAGAAATTGAATAATATAAATTACTTTTAAATGAATATGAAACTTTTGAACGACATTTAAATCAACTTACCTCTAAAAAAGGTACATTAAATTGTGTTCCATTAGTTGAATCTCTAAATAATTTATAATTATCATTTGTTGAAATTTGATCTAAATTTTCAGTTATTATATTTGTTCTTTCTCCATTTTTTAAAAATGATGCTGAAACTTCTTCGCTTCCACTAATTTTTTTAGGTCTTGTTGTTAAATTTAATTCAACATTTTGCTTATAATTTTTAGCTTCATCTAAACTTAAAGGGATTGGATATTTTAATGAAAAACTAGACTGTGGTGTAATTCAAGGTTTATTTGAAGCACCGACTTTTCAACCTAAATTTTGTTTTGATTCAAAACTTACAGCTGTTGCTGACCCATTTTGGGTATTTTCAATATTAAAACCACTATCTTTTTTAAAAAGTGTCTTATATCTTATAATTACATTTCCATAAAAAACTTTTGATTCAGGTTTTGCTGTTAACTCAATTTGCTCATATGTTGGTGAAGAATAATTAATATTACTCTTTATATTTTCATTTGTAATTCGATTTTGAATAGCATTGATAATTTCATCTGCTGTAATTCAATATAATTCACCTAAATTATGATTTGTAATATTAATAGCTGTTGATATATTTTGTCTTTTTATATTAAAAGACATTTCAACTGAATTTGTAAAACCAGTAATTGATAAGTCAAATTTTACATTTGCAATTGTTTGTTGATTAATATCAAAGCTTGGATATCTAATATTTTCTATTTTTAAATTACTTTTTTCTGTTAATTCTAATAATTTATTTTTTGATAATAATAAACTAATAATTTGCTCATTTGGATTATTATCATTGTAATTTGAAATATCTCCAATCTTTGTAACTTTTACAATTGAGTTTATATTTTCAATACTAAAAGTTAAAGTTTGAGCATTATTTAAACTATTATTTCTAATTGTAGCTTGTGATAATGAATTAAGTTCAATTATTGAATTATTTACATTTGAATATCTTGCAAAAATTGGATTTAATTCTTTTACTTTATTTAAAATTGTTATGTTTTCTAAATCATCAAGTGTACCTAAGTTTGTATTTTGAATTAATGTAACAATATCATTTGCATTATATCTAACAATTACTTGTGAAGAATCTTGAAATATATAAAGTTCATCATTATATTTTAAAGATATTGTTACATTTTCTGGTCCTTGACTATTTATATCTGAAATAAATAATTTATATTCATCATTTTGTAAAAAAGAAATATCTATTTCATCATTTATATTTACGTTTAATAATTTATTTGTAATTCAATTTTCGCTAATATCATTTGTTTCTCCTAAATCTCGAGTTACTAATATACTTTCTAGCGATATAGGTTTATATTCTAATTGAATTACTTCATTTTTTGCTTTTGTATCATTTTTTCAACTTATATCTATTTGATTTAAAGATTTTACTTTAATATCAAGATCATTTGAAAAGTCCATTCCTGAAATACCAGGATTTAATTCCTTTATTTTTTCTATAATGGTATTATACTTAATATTTTTTAGACTACCTAGTTGTCTAATTTTAATTAAGGCATCTAAACTACTAACCTCAAAACTTCCTACAGTTGTGCCAAAATAGTTTTCAACTGTAAATTTAACTTTTTTTAAAGATAATCCTTTTATATAAATTGTTTTATTTTTTAAAACTGAATTATATTCTTTAATTCTTTCAATAAGTGAATTATTACTAACATCACTTATTTCTCCAAGATTAGTATTTAAATTTAATATATTTATATTTTCAAATCCCTGGTTACTGTCATGAACATTATCGCCAACAACACCATCTTCTTTTTCGTTTGTGTCTGGACGATATTTTTCAAGGCTTTTTACAAAACCTTGCATTACTAATAAACTTGGTGTAACTATTAAACCAAAAGCTATAGTTATTACACCACTTATAATTAGTACTTTTTTCATATACTTAACACCTCTATTACTTTTAATTTGAATAAATAATAATAGATTAAATAAGTGGTATTTTGCTTCCTTTTCTTACAGTTAATAATATATTTTTTTGAGTATATGCAAAGATTTTATTAATAACAATTCTTTTAAAAAAAATTTTAATTGAATTTATTAAGCTTTTTAACTTTCTTTTCACTTTTTTATCAATTCAATTTTTTTTAAAAATAAATAAAAATGGTTCAATTGATAAAAAAATAAATGGTTCAAAAACTATAAAGTCATTTCTGTTTTTAAAAATTTTGTAAAAAATTAACATAATTAATAATGAAATTATTAATGATGTGTTTATTACAAAGAAAAATAAAAAATGAATTTTATTATCAATATTATAATGAATATTGTTTATTATAAAGTTTGTACTTGAAACAAGAACTATTGGTGCAAAAGCAAGTAAAAATTTTAAAATAAAAATTGATGCTAATCTTCGATTATATAATTTTAAAAAAGATTTTCATTTAAATTTTTTATACTTAATTTTTATTAGAACACCCATAAAGGTTATAAATAAAATTAATAGTGCAATTGTAAAAAATATATTATTAAATCAGTATTTTTGAAGTATACTTACTAAGTCAAAATTAATATTTCCGAATAAAAATATAGCTAAATAAGCAATTAAAAAAATATATAGTAATGATAATGATACTACATGTCGTGTTATCAATATATCTTTTATTTTTTTAACCATATTTTTTACTCCTTATCTCTTGACTTTATCATAATAAAAAGTTAAAAAAATAAGCATACTATAAAAATAAATTAATTTATTGAATTATAAAAATATTTTAAAATAATATAAAAAAATATTTTACTTTCATAAAATATTTTTTTATATTATTAAGTTTTACATTTTAATTTCTGTAATTGTATAACTTTCTATTATTTTCTTAATTTTAATTGTTACTTTTCTTCCTTGCCCTAAATTATAAGAATATTCGTTAGATGAAACTGCTTCAGAGAAAGCAATTGTTAAAGATTTATACGCTGAACTAATTGACTTTATTAACTCAGCTTTTTGAGTAGTGACATTTGAATTAACTCAATTACTTATTTCATACAAACCATTCATATTCTCTCTTGCAGAAATTAAACTATCTAATAAAGCTGAATCTTTTTCTATTAGATTAACTATTCCTTCAACACTTGTTGGCATATTTGAAAAAATTGGTGCTAAGCCTTTAATAACAGATGAGAGTTGTGAAAAATCAATTTTTGTAGGTTTTCCGTTAATTAATTCTTGAATTTTTTCAATAATAGATTTAAGTGAATTTGTATTATCTAATATTTCAAAACCTAAAATACTCTCTAATCCAAATAACTCTCCTAAATCACCAGTTAAAATATTTTGAATAGTTCCATAACCTCAAATATCATTATTTCAAACTACACTAAATAAATTTCCATTTGCTACTGTATTTGTATCATCAGTTGCTGATATACTATTAATTAATTTTTTAAAAGTTTCTTCAGTAAATGGTAAAGAAATTAAATTATTCAATAAACTAAATGTACTTGCCAAAGTTTCTCCACTTGTTTTAGATAAAATTGGTTTTCCAAGAGCTAATTTGCCAATCAAGTTAACACTAATATTTCCTAATTTTAAACTACCTAATAAAGGGAAATAATTGATCCCACTCCCGGTATTAACCCTTCAATAATTAAACCAACATTTAATTTATTGATAACTTCTGCAAGTCCATAACTGAATCCAAAATCTCCTTTATTAAATGAAAAATCATTAAATTTATCTAATCCTATTGTTTTTATTATATTAGATAAGTCTCCCCCTCCACTAGTAATTGAAGCAATTATATTTGCTAAGTTTATATCTAAAATCATATCATCACTATATTTTGATTCATCACTTACAAATAACATTTTTATTGCATTTTGTAAAAATGCTGGTGCTTTTTCATTATCACCTGAGCTAGTTGGAAATAAAATATCATGTACTTTTGCTAATAATTCACTTAAATCAATTGAATTATCTTTTTGAGTAATTTTTTCATTTCTAAATGATACTATATCATTTAAATCAATTTCACTATCAACATCATTATCAATTATAAAATTTGAAATATAAACTAATTTTATTCTTGCAAAATTTACTATTGAAGATATACTCTCCAAATTATTTAAAACTACACTATTTTCAAGTGGTTCATTTATTAATTTTGCAGCAGTTTCTCCAAATTCTGCTATTGCTTTTTTAAATACACTTACATAAGTATCATCTTTTGCATTAATTAGACTATTTGTAAAATCTGAATTTCCTCCAGATAATTTAATTATTCCATCACCCAATTCTGTTAAAGCCAAATTCATAGCTTCAGTTCATGTTTTATTATCATATTTTGACATATCAAGTGCGTCACTAAAAAAATTTAGTGAGTTTCCTACTGTTTTAATTGTTTCTTTAACTTCATTTGTTAAAGTTTCACTATTTAAGGTTACACCAAATGAATTTAAAATACCATTTACAACTTTTTCTAAATTTGAGCTTCCATCAGTGTTCTTTTTAACTGAAAATACTCCTGAAACAATATCTGTAATTTGAAGCAATAAATCTTTACCAGAAGGTTGTATTCCTGTTGTAATTGAAGTTATATCTGATGATATAAATTAATTTTTAAATCAATTATCTTTAAAACTTTTTAATTGTGTTCCTGTTAATGCTTTTGATGAACTTGAAAATGAATATTCATTTAAAACATAGTCCATATTATATCCATTTGTTTTATTTAAATAAGCTAATTTTGCAACTTCACCTAAAAATTCTTTCATTTCATCTTAATTAAACTCTTCTTCTGTTGGTATATTTGCATTATTACATGCAACTACTGTAATTGTTGTTGAAGCAGTAATGGAAACTGCTCCTAAAAATCCTAATAATTTTTTCATTTTATTTTTTACCTTTTTCCCTTAATTTTATTTTTTACAAATTTTCATTTGCATCTTTTGATGAAAATACTACATTAAAAGCAATATCTTCTTTTGTTAAATAACGAAATTCACCATTTTCCTCAGAAACTAAAGATATTTTTATTTGAACATTTTGAACATGTAGTCTAAAAGTATCATTATTATTTAGAATTCTATTTGAAATATTTCCCGATTGATTTTTTCATTCCTGATTTTCACCATATTTTTTAAATTGAAAAACAAATTGTGCTTTTTCAATTGTAATTGTTGCTTTATCTAAAATTGTTTTATCAAAATTAGAAGGAACTAGTCCTTTTATTAATGCATCAGGAATTAAATTAATAATTGTTTGCATTGAAATTTCTGGTAAATTACTATTTATTAATTCATTTAAAGTAGAAGTAATTTTATCTTCAAATAATGGAAGAAAAAGTTCAATAGCAGAACTTGCAAGATCTCCTAAATCTAACTTTTCAATTAATAACGTAGTATTTAAAGCAATTAATTCATTAAAATCCATATTTAAATTTGGTCCTAAAAAATCACTTATTTTAATTTCGTGACCATTTATTTCTAAGAAATCACTTATTCCAAATGTTTTTAATAAATTTCCTGTTTCTTTTAAAATTATTTCAAAAGCTGAAATAAATTTATTTTAAAATTCTAAATATTGTTCTTTTTCTTCTTGTGAAGAAGGGTCTAATTGAGCTAAAGCACTTAAATTTAAATTTCGAATTATATCTAGATTATTTCCAAGATTTGCATTTAAAGTTTTTAATAAAGGAACAAAAAAAATTAAGCTAGATAACGTACCTAATGTAATATTTAATTCTCCAATTATTAGAATATTAAATTTTGCCAATAAAGGATCAAATTTATTATCCTTAGTTTGAATATTAAATAGATCTAGCATTGATAGTAAAAAGTCATAACTAAAATAATTTCAATTAACTTTTTTGTTGAAATAACTTGTAAATTTTTTAACAATTCAACATTTACTACACCCATTTTAACTTTTGTTGATGTTGTAATTTGATTTTCTTCATTTATTCCTTCAATTAGAGGATTTTCAAATAAATTATCAATTAAATTTAAACTATATACTGTTCAATCTATATTTACTTTTTTTTGAATTGCGATTAGTAAATCTTCTTTTTGCTTTTCAAATGTTTTTCCTTGTTTTATAAAATTATTTATTAATTCAAATCTAGTTTGTGTTTCATCATTTTTTGAAGTTTCTGTATCAACAATTAAAGTATCATTAAGTGCATTTTCAAAAATATCTTTAATTTTTTGATCTTTATTTGAATTATCTTCAGGTTCTTTTTGAGATATATTCGAATTTCCACAAGAAATTACAGTCGTTGTTGCAGAAGCAGTTAAAGAAATGGCTCCTAAAAAAATTAAGTAATTTTTTCATATTTTTCTCTTTTTTAAACAAATTTAAAAATAAAAGTTAAATTGCAAAATTACCTAATTTAAAAAGTTTGAAAAATTTAATAAATAGTTTTTAAAATACAAAATTATTATATAAAAATCCAAATATAATACCCTTAAACTAATAATATATGATTTTGTAAAAATATTTTTTTGTAATACTAAAAAAAAATTATTATTTAAAATAATTTTTATTTATAAAATATTAAACAGATGGCTTATAGTCTGGATTATCTTGATTTTTCATGACATTATCTTCTCAATAACTTTTTAATTCATTTATTATTGAATTATCATTAATATTAATAATAACTTTCAAAGTTCCTAATGCTCTTTCTGAATCTTTCCATCAATTTGTAAAATCAATAATTTCGTCATATCTTTTACCATATGAATTTGTTTTTCCATAAAAGATATTAAAATCAAAAGAAATTTTATTATCAATTACACTTAAACCATATTGATAGATTTCTTGACTAAAATTAGATTCTTGATTGGAATTTACATCAAGTATTGCTAAAGGAATTTCCTTTTGTTTAAATAAATATCCAAATGCAATATCATCATCTCTATTTTCCATTGATTTTGCAATGCCATCTAAAGAAATATTTTTATCTCATATTTTTGGAGTTTGATTTATTTGACCATTTACTGGATCAAAATCCACATTAAATACACTATTTATTTCTTCATTCAGTTTTTTATTCATCAAGGAAACTAAATGATAAATTCTTCAACTTGAGCTTGTAACATTTGATAAATCCGATCCTGAATCCCCAAATGAAATTGCTTCCTTTAAGCTATCAAGCATTGTTTGAGAAACATCATTGTTCACAATATTAAATCCAAAAGGATCTACACTAAATTTTGAATTTGCATTAATTTCATAATTATATTTAGAAATTAAACTTGAATCTGAAATAAATCTATTTTCCAAGTAAATATTTTTAAAACCTGAATCAGCTATAAAATCTTGAATTTTATATTCATCTGGTTTATATCATCTTTCATCCCTTCCAATTTCTGAGTTACTTCTTCCATAATATTGAATTTCAAATTTATAATCATCATTATAGCCAAAATCTAAGTATTGCTCATTATAGCTTAAAGATTCCTGAACATTTGTAATTGCATTTTTCTTAAATAAATTCAAAGAAAGCTCTTCTTTTGCAAAATTATATTCTTTTGAAGATGAATTATTTGCTTCTCTTGAAATTTTAATAACTTCTTGCAATTTTACTTTAAAATCTTGAATTTCTCCTTGAGATAAACCAGTTTCTTGATCAACATTATAAATATTTTCCAAATTTTCTTTAAAGTCCAAAATTTCTTGAATTAGATTAGTTTTTAATATTTCCTCTAAACTCTCTTGTAAATCATTAAACATTTTGGTCATTAATATTTTTGAATATTCCAAATCATCATCAGTAAATAATTGTGTACCATCATCATTTGTTAAATTTCTTCTATTCAAGGCTTGAGAAAATAAAACAATATACAATTGATTTTTAAATCTTAAATATACATCTGTAGTTTCCAAACCTTCACTTAAAAATATTGGTTCTTCATTTAAATAATTATTAAATTGTTCTTCAACTTCCTTTTTTGAAGCTGCTAAAAGAATATTTGTAAAATCTAAGCTGTATATTAAATTATTTACAAAATCTGTTGCACTTGGTGAATAATTTATTACACCTGGAGCAATTTTTCCAATTTCATCTACAAAAATATTCTCTAAACTTAACAATTCACTTGAAGAGACAAAACCTTGATAAATTGAACCAACTCTATCATGTTGAACTGTTTCACGTGAAAGAAATTCACCATTTCCTCAAACACCCTCAGGATTTGAATAATCTGAACAACCTAAGCTTTGATAGTTTTGTTCAGTACAAACTTCTCCATCTTTTGTTGCTACTAATTTTTTATTAATATTTATTCTTGCGTAAACTGGTAAATTATCCCCAGCTCATCCTGTTTTATCTTCATTTAAAAATGTTACAGAAAGAGATCAAGAATTTAAACTAGGCATTCACCCACTTACATTATTTGATGCACCAATTTTTCCCTTATCAATTAAATCTTTAAGACCTCACTGAGATTGTCAACTTAATTTTGTTGAAATTCAACCATATCCTGGAATTTTTGATGAAATTTCATTTAGTAGAGCATTTGACATAACATACATTGTTAAGCTACTTTTAAGTAAAATTGCAATATCACTATCTTCATTATTTTCAATTAGTTCTGTTAAATCAAATGCCTCAATTAATGCATCAATATCATCATTTGATATACCTCTTTTTATTTTTACTCCATTACTTTCAAGCATATCTTTTGTTAAGTTTCTAATTCCAACCATTTTTTCTTCATCTGTATAATTTGAAAAAGTTCCTAAACCACTGTTACAAGCAACAACACTAATTGTTGAAAAAGATAAAATTGATAATGTCGCAAATATTAAACATAATTTTTTCATTGGTTCACTCACTTTCTAATTAGAAAAAAAATTATTTCTTCGTTTTTTTTCTTTCCTGTTTTTTTTGTAATTTTTCTAATTTTTGAATTCTTTTTGAATCTCTAACTTTATCTAAATATAATTTTATCATATTTAGTAATTTTTGAATTTGTCTTCCAATTCATTGTAATGCAATTCAAATAACTCAGAAAATAATGATAATAGCAAATACACAACCAACACCATAATATAAAAAAGCACTAATCCCAGCAACTCTACTCGTTAAATCTGTTGTGAATGTACCTTGAATAGCTACATATGTTTTGTGTGGTAATAAACTTCCCCCACCCATATATGATAATGCTCCGGGAATTAATAAAAATATTATTGCTATTCCAGAAAAATGAATAAATTTTGATCAATATAAATATTTTTCTTTTCCTACATTAATAAAACGATCACTTAATTTTTCTTGAATAAATCAATTTGCAAATGTAAAATACAAAATCGGAATTATAGGAATTATAGGAATAAATCCTATAATTGTTGCTGCAAAAATAAAACCCTGTGCAGAATTTGGTTCTTGTCTTGAATTTGCAAATAATGCATATAAACCATTAATTCAATAATAAAAACCTCCTTCTTTATGGGGAACTAAATATGAAAAGGAAAGCATTAATATTTGAAAAATAAATAAAAAAATTATAATAAAACACATTCAAAATATCTTATAAAGTCTTCTATATGGTTTTAATTTTATTAAAAAATTTGAAAAACTTTTCATTTATTTGCTCCATTCCATTTCATAATTATATTTTAAAGCAAAAAATTACTTTTAAATAGTAAAATAACATTAATGAGGTGAAAAAAATGAATGTTTTTAAAGTAACTCCCCGTGGTTTTTGTCTAGGCGTTGTAAAATCAATTAAAATGGCAAAAGCAGCAATTAAAGAATATTCTGACAAAGACATTTACATGATAGGTTTAATTGTACATAACAAGATAATTGTTAAAGAATTAGAAGAATTAGGAATTAAAGTAATTGACGATTGGAGAAAATCAAGAGCAGATATTATTAAAACAATCCCCAAAGGAAGTGTAGTTATTTTTTCAGCACATGGAACAGACCCAAAAGTAATAAAACTTGCAGAAGATTTAGGTTTAATTATTGTTGACACAAAATGTGAATGAGTTTTAGAAACTGAAAATTTAATTAATAAATACATTAATTTGGGATTTGATATTATTTTTATTGGAAAGCACTTTCATCCAGAAACTATTGCACTAACTTCTTTACACTTATCAAAAATTCATTTAGTAACAAATACTGATGAAGTTGAAAAATTGAATGTTTTAAATAGCGATATTTTTATAACAAATCAAACAACTTTATCAATAATTGATACAGATTTAATATATAAAAAAATAAAAGAAAAATATCCAAATGCTTTTTTTAAAAATGATATTTGTGAAGCAACATTAGTTAGGCAACAAGCAATTTTAGATTTAGATCCTAAAGAAATAGATTTATTATATGTTGTTGGAGACTCAAGAAGTAATAACACATTAAAACTTTTAGAGTTAGCAAGTGATAAGGGAATTAAAACAAAAAGAATTGATAATTTTAAAGATATTAACGATAATGATTTAAAAGGTATAGAAACAGTTGCTGTAACAGCAGGTGCTTCTACTTCAAGTTTAATTCAAAATGAGGTAATAAAATTCTTAGAACAAAAATAAAAAATACTTTCATTTATTTATAAAATAATGAAAGTATTTTTAATATCAAAAGCACTAACTTTTAAATCATCGTTAAAAGTTTTAAATAGTTTTGCTTTTATATCATCTATAAAATGGTTTTCCATATAATGTCCTAAGGTTAACATATCTATATTATTTTGATCTGCATATAGTCATTCATTTCACTTTGCCTCTCCTGTTACAAAAAAAGAATTTTGCAATTGTAGATTTACCATAGTACTTGCGCCAGCGCCAGGAGTTAAAAATATACTTGAAATTTCAGAATTCAAATCACTTTTTCTGCTTAATAATGCTTGTTGCTTTCCAAAAATAAATTTTAATTTATCAACTGATTCTTTTAAAGATATTTCTCTTAACAAATTTATTTTATATCCTTCTTTAAATAATCCAATTTTCTCAACTTCTTTTATATTAAATTGAGTACTTATTAATTCAATTATATTTTGATTATCGCTATTATCATAATTTGTATGAATTGAAAATACTTGTATTTCATTTTTAATACATAAATCATAAATTTCTTTTTTTGCTATATTTTGCATTTCTAATTCAAATTCTAAAAATAAAAATGGATGTCTTGTAATTATAAAATTTGATTTATTTTCAATAGCATATTTTACAGCTTCTAAAGTTAAATCTAAACAAATAACTACATGAGCAATTTGATCTTGACTTTCTAAATTATAAACTTCTTCAATTTGAAGTCCCACTTTATCTCATTCAGCTGCATTTTTTTGTGGAAATAAATCATTTAAATAATTAATTAAAGCATTTGCCTTTATTTTATTCATTAATTAAAGTTCTCCTTTTTAAGATTTTATTAATATTTTTTTTATATTTTAAAAATTCCTTACTTTTCTTATCTTTTACTGGTATTTGTTTTAATAAATCTAATATTTTCTGTTCTTCCTTTAATCATTTTTGAAGAAATAATTTATTATTATCTTTTCTTAAAATTGGTCCAAATAATACATCTAATTGATTTTTAATTTTATAACCAGCAAATTTATTTATTTTAATCAATTCATAAATTATTTTATTATCTTCAATAAGCAATTCTTTCTCAATAAAATATTTTTTTTGTTTTGCTCATTTTCTAATAGGTTCTAAATTTGTATTTGAAGCAATAATATAGCAATCAATATTTACATTATCTTTTTTTAGAATATCCAAAATTGTTGAAGAACCCATTCCCGCAATTATACATGAATCAAGTTTAATATTATTTGGAATAGTTCATTCAATTCCATCTGCCAGCATTGTTTCAACTTTATCTGATACACCAAAACTTGCTATATTATTTTTTGCCACACTTAATGGTTTTAAAGCAACATCTGTTGCATAAATTTTTTTAGCTTTTCCATCTTTTGCTAAAAATATTGGTAAATAAGCATGATCCGTTCCAATATCTGCAACAATTTCTCCTTCAGATACCATACTTGCCAACGCAAAGAGTCTTGGGGTTAAAAAACTCATAATTATCCTTTAAAGAAATCTCTTAAGGCTTTTGCTTTTGGATTTGAAGCTGATGGTTTAAACTTCCTAATTGTTTTTGCTTCAATTTGCCTTATTCTTTCTCTTGTAACTTTTAATTCTTTTCCAACTTCTTCAAGAGTTTTTGGAGAATCATACTTTGAAAGATGTAATTGAATTATAGGATTTCTAAATTTTTGAATTTTCTCAATTGAAGTATCATAGTGAATGTCTAATTCTGTAATTGCTTCTTTTAATTGCTCATAAGTTTCATCATCACATTCTTTTGCAAGCCTTACTAATGCTCTAAGTTTTGTTGGTAAAATACCAAATCTCATTCTTACAACTTTTTCTTCTCTTGGTGCAAGTATTTCTGAAAATACATCATCAATAACTTCTCTTAAAGCTTCTTTTTCAGCATATTCATCTGGAGAAGAAATATCTTTATCTTCTACAAAATCACCAAAGTGAGTATCATCTTCATCACCAAATGGTTTTTCTAAACTAACTGGTTCAATTGATAATTTCTTAATTTCAACAACTTTTTGTGGAGTAATTCCTTTTCCAAAAGTTTTTGCTATTTCTTTTGAAGTAGGTTCTCTTCCTAATTCTTGAGTTAATTGTCTTTCAATTCTTGTTAATTTATTTATAGTTTCAACCATATGAACAGGAATACGAATTGTTCTTGCCTGATCTGCTATTGCTCTAGTAATTGCTTGACGAATTCATCATGTTGCATAAGTTGAAAATTTAAATCCTTTTGTATAATCAAATTTATCAACAGCCTTCATTAGACCAATATTTCCTTCTTCAATTAAATCAGCAAAATCTAGACCTCTATTTAAATGTTTTCTTGCAACAGAAATAACAAGTTTTAAGTTTGAAGTAATTAATTTATCTCTACCTTCTTTTGCAATATCAGGATCAGAATCTTCTAACATTTTTGCATATTCTACTTCTTCATCTTTTGTAAGAATTTTTGATGATCCAATTTGATTAAAATAAGACTTAATAATATCTTGAATTTTTGTCTCATTACTAATTCCCCCAACTCTATATTTTACAGGGCCACTATTTTCATTTGCTTTTTTTAAGTCTTTTCTTACTTTTTCTCTTTTTTTGAAACTATCTTCAAGTTCACCTGCTGTTTCAGAATCATCTTCATCACCATCTTCAATGCCTTCAACAAAAGATAAGTCTTTCAAATCTTCATCATCTACTAAATCATCTGTAAAAATAACTTCTCTATCACTTAATTCCTGAAATAATTGATTTACTTCATCTTCATCAATATCTTTAAATTTTTTAAATAAAACTTCTTGAATCTCCTCTTGAGTAATTTCGTTATCATTTTTTTCAAGATAATTTCAAAGATATGTTTTAAATTCATCAATTGTTTCAAATTTTTTAAAATTTAATGCCATTTTTATGTACTCCTCTTCATTAAAATTTTATTTTTTTGTTTACGTAATTCTTCAATATGTTCTAAATAACTTTTTTGTAGCTCAGAATCATAAGTTTCTGAAATTTTTAAATTAAATTTTTCAATTTCTAAAGCTAATTTATAAATTTCAATTGCATCAAAAGCATCATTCAAACCTTTTTCAGTTATTGAATGTTCAATTTTTGCATAAAATTTATTTCTAATTTCAAAAATATATTCACAATATTTTATATCTATTTTTTTAATATCATTTGCAATTAATTCTCAATCATGACCCACATAGTTATTATTTTCATATTCTTCAATTATAAAATTAATAATTTTTTTTATACTATATGTTTCAATTTTATTAATATGTTTTTTAATTTCATTGAGAATTTTATCACTATTTAATAAGCTTCAAATTATTGAAGATTCCGCCAATTTTGCTGCTGTTTTATATTGATTTTCATAATTTTTTACTTTAAATTCATTAATTTTTTGAAATTCAAACCCTTGCATTGGTAGATTAGAATCAAAATTTTCCTCTTGATAATATGAATTCATCAAAGTATTTATTTTATCTTGATCAAAATAATCTTGAATATTATTTTGATCTGCTTTTAATTCCTCTGTATTATTTTTATTAATTTTTATTCTATAATTTTCAAATAATTTTTCAATTGCTTCTTTTTTAATTTGAGAAATATTTGCTAAAGTTTGTAAAATTTTATTTATTGTAATTATATTTATTTCATATTTTAATAAGTTAAGTATATTCGAAATAAATTCATTAATTTGATTTGAATCATTTATATCTAGATCTTTTGAGTAATAATTAATTGCAAAATCGACAGGGTGTTTTGCATTTTCAATCATTTGATAAATTAAATTTACCTCCCCATCTTTTACAAGTTCATCTGGATCTTTACCCGTTGTATTTTCAATAATGGTTACATTAATTCTTTTTTCCATTAATAGAGCTGCTGTTTTTAAAGCAGCTTTGATACCTGCATTATCACCATCCAAAAATAACTTATAATTTTTAGCAACTCTTGAAAAAAGTTTTATATGATAGTCAGATAAACTTGTTCCCATAATTGCAACAGAATTCTTAATATCAATTTTCTCTAAGCTAATTACATCCATGAAACCTTCTAAAATTAGTATTTCATTTTTAATTCTAGCTTCTTTTTTTGCGTTATTAAAATTATATGCCAATTTCGATTTCTTAAAAATTAAATTTTCAATAGAATTTTTATACTTAGGATTTTCATCAACATCCATTATTCTTCCTGAAAAACCAATAATATTTGATTCCTCATTTCTTATTGGAAAAATTAATCTATTTTCAAAAAATGATTTATAAGTCACTCCTTTTTGATAAACTAATCCAGATTCAAAAATTTCTTCTTTTTTAAAACCTAAGTCAATAAGATAATCAAATATATTAATATTTATTGGACAAAAACCAATAGTAAATTTTAAAATTTCACTAGCATTAATTCTTCTTTCTCTTAAATAATCTCTTGCTTTTTTAGATAAATTTGATATTAATAAACCATTAAATAAAGCAGCAATAGACTCATTAATTAAAAATAATTTAGATTCTTTTGAAGAATATTTTGGCTTATCATCATAATCTTTAATTCCGTCAATTTTTATTTTTAAATCTTTTGCTAATAAACTAACAGCTTTAAAAAAAGTAATATTATTAAATTCCTGAATAAAGGTAATAACATTGCCACCTGTTCCACATACAAAACACTTAAATATTTTTTTATCTAAAGAAACATGTAATGATGGGTCTGAATCATCGTGAAATGGACATACTGATAAATAATTTCGACCTTTTTTTTGAAGATCAAGATATTTACTAATTACATCAACAATATTTGCTTTATTTAAAACTAAATCAATTTGTTGTTGTGAAATTGCCAAATTTTTTCACCTCTCTTTAAATATTCTTTTCTAATAAATACTTATCTATTTCTTCAATTTTAATTCTTTGTTGCGACATTGTATCTCTATCTCTAATAGTTACACAATTATCAACTTCACTATCAAAATCCAGTGTTATACAAAAAGGTGTTCCAATTGCATCTTGTCTTCTATATCTTTTTCCAATATTACCAGTATCATCAAAAACTGCATCATAATTTAATAATAATTTCTCATATAAAATTTGTGCTTCTTCTTTTTGTTGTTTTTGAAGTGGCATTACTGCTATAGAATATGGTGCAAGTTTATAAGGTAATTTCATAACTATTCTTTCACCATTATCTAATTTTTCTTCCTTATAACTTTGGCAGAAAATTGCAAGCAACAATCTTTCAACCCCAACACTTGGTTCAATTACATTTGCCAAATATTTTTCATTAGTCTCAGGATCAAAATAAGTCAAATCTTGACTACTATATTCTTGATGTTGTTTTAAATCAAAATTACTTCTATGCGCAATTCCTCATAATTCTCCTCTACCAAAGGGAAAATTAAATTCAATATCTACTGTTCTTTTAGCATAATGTGCAAGTTCGCTTTTATCATGTTCTCTAATTGAATAATTTTCCTTATTTATTTGAATAACTTCTTCTAAAAAAAAGATTACTTTATTCAATCAATACTGAAATCAATCGTTTTGATCAGTTGGAGCAAAGAAAAACTCAAGTTCCATTTGTTCAAATTCTCTAGTTCTAAATATAAAATTTCCTGGTGTAATTTCATTTCTAAAAGATTTACCAATTTGACCAATTCCAAATGGCAATTTTTTTCTAAGTGCTCTTTGTGAATTTTTATATTGTACAAAAATACCCTGAGCTGTTTCAGGTCTTAAATAAACAATCGAACCTTCATCCTCAACAACACCTTGACTAGTTTTAAACATTAAAGTAAATTGCCTAATATTTGTAAAATCATTTTTTCCACATTTAGGACAATTAATATTTTCTTTTTTCAAAAAGTTTTCAAGTTGATTATTAGTTCAACCTCCAACATTTAAATCACTAAATTTTTCCTCAATTAATTTATCTGCTCTAAATCTTGATTTACAAGATTTACAGTCAATAAGTGGATCATTAAAATTACCAAGATGCCCTGAAGCATTTCAGACTTTTGAATTTAAAATAATAGAAGTATCTATTCCAATATTGTATTGATTTCTTCTAACAAAATAATCTCATCATAATTTTTTTAGTTTTGTTTTTACTTCGGCCCCTAATGGTCCATAATCTCATGAATTTGCAAGACCACCATAAATTTCAGATCCTTGAAAAACAAAACCCTGACTTTTTAAATGTGAAATTAATTTATCAATTTCTATATTCATATGTTTCTCCTTATTCAAAAAATGCACTTTAAAAACTTGCAAACTGAAATTAGTCCTTAATGATTTTCTATTTTTAAATAGAATGTGTCAATACACTATAAGTGTTATTTATACAAATCTATTTTATTTATAGGTACATTTAAAGTAACCTCATTTCTTAAAAAGAAAATTGGTCCTAAATAAAAACCTAATTCTCTTTCATAATAGTCAATGATTATATTATGTAAAACTACTAAATCTAAGGAATTGTACTTTTGATCAAGTAAAGAGTAAATATTTTTTTTACCAATATCTTGTAATAATTTCACAAAAGACTCTAAATGTATTTTTTCACCAGGTCATAAGCATTTTTTACAAATCAAACCTTTTTCAACATGCTCATATCTCACAATTCTTGAATTACTTTTTTTACATCTAACACATTTTGTCAATCTTAATGGTTGAATACTTTCTTGAATTAAATAGGTAATAAAAAATAAATAACTTTGAAATGAAAAAATATTTTTTTCAATATTTTCTAAAACATAACAAAACATTTTAAATATTTTGTATTTCTTATTAGAAATTTGTTCAATTTGTTCAAGAATTTTTATCATAATTGATACATAAATATAATTTCTATAATTTTTACTTATTTGAAAATATTCTTTTTTTAAAATACCAGTTTTTAATTTACTTATTTTATCTTCACTTTTTGATTTAAATATTTCAAATTCACTTAAAGATAAAGTTTGAATTGAATATTTATTTTTTGAAGTTGATTTATTAACTCCAGGAGCAAAAAATGAGAGCTTTCCATATTCTTTTGAAAATACTGTAATTATTTTTGCATAATCATCATAATCTACATTTGAAATAACTATAGCATTTATCTTTATTGCTCCCATTTTTTTTATCTCCTAATAACTATCTTTATCATAGCCCATTTGTTTTATTAAAGATGCAGATTGTCTTCATTTTTCCTTTACCTTAACAAATAATTCTAAATAAAATTTTTTATTAAATAGATCTTCTAATTTTTCACGTGAATTAATTCCAATTGCTTTAATTTTTGTTCCCTTATTTCCAATAATGATTCCTTTTTGACTTGATCTTTCACAAATAATTGATGCAATTACTTTTATAATATCTTTCTTTTCTTCAAATTTATCAATCAAAATTGCAACTGAATGTGGAATTTCTTGTTCTGTTTGCAATAATATTTCTTCACGAATAATTTCTTTTATTAAAAATCTTTCTGGTTGATCAGTAAGCATATCATCTGGATAAAATTTATTTCCAGTTACTGGTAAAATATCTTTTATTTCATTTAATAAATAATTCAAATTAAATCCCATTGTTGAACTAATTGGAATAATATTTTCAAATTGAAAATCCAAAGATTTTCATTCATTTATTTTATCTTGTAATTGTGATTCAGAAATTAAATCACTTTTAGTAATAATTAAAAATACAGGTAAATCTCTTTCTCTTAATGCTTTTATAATAAATTTATCATTTTCACCTATAAATTCATTACTTGGTGCTAAAAATAAAATAAGATCCACACCCTTTGTTGCAGAAAAAGCAACTTTATTCATAAATTTTCCTAATTCATGATTTGCTTTATGAATTCCTGGAGTATCTACAAAAACAAATTGATAATCTTCTTTTGATAAAATACCATTAATTTTATTTCTAGTTGTTTGAACTTTATTTGTTACTATCGAGACTTTTTTTTCTAAAAGTGTATTCAAAAGAGTTGATTTACCAACATTTGGTCTTCCAATAATTCCAATAAATCCTGATTTAATATTATCCAATTTTTTAATTTCCTTTTCTAAATTGTAGTTTCTGATTCTACTTCATTTCTTTCTTCTATAAACTTTTCAAACTCATTATCTTCATCAAACATATTTAAAACAATTGCTTTAATTTCTTCTTTATCTTTTAAGGTTCAAGTATACTTTATTGCAGACCTTAAACTTAAAGCTCATGGAATAATTAATAATATGTATAAATATAAATATCATTGTGAATAAATTCAAGCTTCATTTTGAATCATATATAATCCGTATGTAAATAATGAAAATAAAAATATTTGATTTGTTCAATAAAAAATTAAACTTATTTTATTATATGGAACAACATAGGCTGCTAAAAAAACAATATAACCAAAAATTAAAATAACATATTTAACGCTATTAAAACCAGTTGATGCAAATATATCCATTAGATGAAAAGCACTTGCAGTGAAAATACAAAATCAAGCTGCCACAATCATTAAATTTCTTGCAGAAATTTCTCCAGGAGTAACTCATGTTTTAAAGATAAAGGCATTTTCTCTATCTTCTGTTTTTCTATATCTATCAACTCTAATTCATTCTCTATTTCACATATTAACATCTTTAAAAATTGATCTTAATGGGCTAAAAGACCACATTGCAATTATAATTGCAAATAATCAAAGTCATTGTGTACTCAAAGCGAGTAATAATTCTGCTGGGTTTGAAAATTTATATAATAGTCCTGTTCAATCTAAAATGAATAAGAAACTTCCATATAAAAGTGCTTCACTGAGATATAAAACATTAAATAGTGCTGTAAAAATAGTTGTTCCTCTTCCAAGTGTCATATTCAACATAACAATAATTACAGAAGAAAGAATAAAAATATGATAAAGTTGAATTACAATAAACACATTTAATACATTGATTTGATCTACAATTAAAAGATTAGTTATCTCACTGTTTGTTTGTGAATTTAAAAAATACGCTTCAACAATTACTCTTGCATAAATAAAAAAACATGTAAAAAGAAATTGAACGGGTAGCGAATATGTTGCTCTACATAAACAACGTAATCTTGCAAGATAATCACCTTCAGAAACCATATTTACATTTCTTGATTTTAAAAATCTTTTTGTAAACATGTCTCCCATTTTTCCTGCAATAAGCCTATTAGTTTTTTGCATTTTTTATTCCTCCCTTCTTATTAATTAAAAAATACATTAATAAATATAAAAATAAATCCTAAAATTCAATTTCCTATTGAAAAGTAAAAAATAATTTTAAAATCCTTTCAAACTTTTTCCTTTTTTGTTAAATTTATTTGTCTTATATCATCATTCACTATTTTCTTAACTTTGCTAAATTCTAAAAATTTATTAAGAATACTTATTCCAGATGCAAATGTTATTAAAACTCAAATTGAAATTATTCCTGATGTTTCAACCATATTAGACATATTGAATATTCAAGAAAAAAAATCAAAATATGTTCCACCCATGATAACTAAAATTGTTCCAATTCAAATTCAAGTATGTAATCATGCTTTTTTTCTAATATTATTATGAATATGTCTTTTTGCATATAATTCATTAAAATATCATATGACTTCTCTTGAATTATATTCCATAGCTCCTCTAAAAATAGATTTTGCATAATGTATATCTGTATACAGTCTTTTTTTATTAACATTTGTTATTTTTGAAAGTTTTAAATCATATTTTAATTTTTCAAATAATTTTTCTCCATCCACTTTTGTGTGAAGTCTTTGGTTTAATATTTTTCTCTGTAAAGAAGAAAAATATAATGGAGAGAATATAAGGATTAATACTCCAATAGCAGCTAAAACGTCTGTTACTATTGTGTTTCAAGCTATCATAATTTCCCTCCAATCTATTTGATTATATAAAAAAACTAGTCAAAAACCTAGTTTTTTTATTCTATATAGTTTTTTTCAATAAAATTAAGATAATTTTCTGATTTTTCAATTCAAAAATCTATTATTTTATAAAAATATTCCGATCTTTTTCACTTGATTTCTGATAAGCCAGCAATATCCATATAAAAATTATTTTGATAATTTCCTAATATTTCTAATTCCTTAAAATTTTTTGGAAAGACAATCATTGGGCCGTAACCTTTATAAATAAGCATAGCTTGCATTAAAAATATAAAAAATAGACTTGTTGCTTTCCCAAAAGTTCCCTCAAGATAATTTCTATGATAAAAATAAGAGATTGTTTCAAAAAAAGATTTAAGGTCTTTAATCAAATAAATTTGCTCTTTTAAATCTTCCATTTCTTTTACTACATTCAAAGAATCTGGGCTTTCAAATTCAAATGTCCTTCAAAATTGACCATTAGGTTCTAATATTAGATATAAAGTTTTTAAATCTTCAACCCTAACATTTCAGTTTTCTCGACTCTTTACTTCATCATGTTTTTTACTTATTAAAATTAATCTTCGCACTTCAATTCAAGCATTTATAACCATTTTTAATTTTTTATTTCTAAATTCTATTTCTTTATTATTTTCAATTATTTCTTTTAAAATTAAATTTAAATCTTTCAAATTCATTTTGACCCTCATTGAGCGCAAAATACTTCAACAAAAATCAGCTCCACCAATTATTCAAAAATTATTATTAGTATAATACATTTATATCCTCATTAATAACTTTATAAAAAATTAACTAATATAAGTTAATTTTTTCCATTCTAAATAATTCAATTTTATTAGTTCAAAAATTTACAACTTCTCTAAACTGTTTTAAATTTGAAAAATCTTTTAATAAATATTTTTTAATTTCAATTGTAATTTTTTCTTGTAAACCAAAAATATATCTCAATTCTGATTTTTCAGTTATAATAATGGGACCATAACCTCTTGAAATTAAAACACATTCTAGCATGAATCAAAAGTAAATCCCTGTAAGTTCTCCTAAATCTTTTGTAATTAAAAGCTCAATAAAAGCAACCCCTAAAAACTCTAATAAGGGTTCTACAGTTTCAGTTAATGAAATTCTTTCAATAAAACTATCTAATAATCCAATAAATTTTTTACTCTCACTTGTTTTTCCTTCAAACATTGATAAGTATCTATTAGTTGGATCTAGAGTTTTATATAATAAAATAATCTCATCGTATAATCAACCTTCAGATATTTTTGTTTTATCTGTTTTGTGTTCCTTTATTTTTAAAACTAAAACTCTAACAATTTCTCAGGCTTTTGCAAGATTAATATAGATAGGCTCATAATTATCATTAACATCTTCATTCAAATATTCTCTTTGCGATATAAAATCTTCCATCTCATCTTTTGAAACTTTTACTTCCAAATAATCAAGTATAGTTGTAATTATATCTGCACCTGTTTCGACTCAAAATTTATTACTTGTATAAAACATTTTATCTCCCTAACTTTTAAATAAAAATTTGCTAATAAATTTTTAAGTCAAGTTTTCAAAAGAAAAACTATAAGGTAAAAAATCCTTCACAGTATAACAACCTAAAAATTCTTTATTATTATAAACTCAAATTGATTGATTTTCAAAAACTAATTCCGATAATGTTTGTCTGCAAGTTCCACATGGAGAACCAAATTTATTTGAATCTGTATAAAGTGCAATCATTTCAATATCATTTTTATTATATCCTTGTGTAATTAATTGTGATAAAGCAGTTCTTTCAGCACAAATAGTTGGATTATAAGCAGCATTTTCTACATTAACTCCAAAAACTTTAATACCATTTTTTAGATAAATAATGCAAGATACTTTAAATTTTGAATAAGGAACATAAGCATTTTCCTTTAATTTTTTAAGTTCTGCATAAACTTCTTCTTGATTTAATTTTGACATTTTTTAACCTCCAGCAAGTTCAGTTATTTTTTGAATTAATGGTGGTAAATAAATCAAAAATCCTATAACAACAGATAAAAGAGCATTTAATATGCTTGCAGCAGCACAAATATCTTTTATCTTTTTAACTTGAATATTATATTCAAAACTTAATAAATCAACTAAATTTTCAATTGATGTATTTACAAATTCAAAACCAATTAATACACCAATTGTTAAAATAATAACAGATCATTCTAGGGGAGAAATTTTTAATCAAATCCCTAACCCAATGCAAAATAAAATAGCAACTAAATAAACTATTAGTGTTGATTCTTCTTTAAAAGCAATATATATTCCTCTTGCAGCATTTGCAAATTTATTTTTTACTCTTATTCTTACATTCGCTTTTTTATTAATATTATTTTTTTTCGCCATTTTTTTTACTTTCTTTCTGCAAATTTATTATACTTTATTTACTTTTTTTTTGCTATTTTTAGAAATTTTATTATTAGATTGGATGGTGTTTTAAAAGTTAGAAAAAAACAAAGAAGTAATAGTTTTATAATTAGTTTTAAAAGTCAATTAAAAAGCCTCTTATCATTATCATTATAAAAAAAATAAAGAGCTTTTAAATATAAATAATAAAACATATTGTTATTTCAATCAAATAAGCAAGATTTATTACACTACCAAAAAAACCAATTTAATTAGTAATATACCCTTGAAGGTTGCTTATTCTAGCATTTTTTAAAATTTTCTGAAACTTATCCCTTATTTAGAACTAAAGTATAAAACACAATTCAAACTCCATTTCCTTTATCATAAATTGACAATATTGCAGAGTTTTCAAATAAAATAGATCTACAGATGTAGTAACTTAAGCAGTTAATCTGAAGTTGTTAAAAATAAAGATGAATTTAAACCAATTAATTCTCCCCCTGGATCATTAATAAAGTTTTAAAATTTTTTACATTTAACATGACCGATATGCAATTTTCAAAACTAAATCAATATCATTGTATTTTAACTGAAATATCATTATATTTCCTAATATTTTCATTATTTTAAACAAACAGTAGATTAAAAGCTTTAACAAAAGATAAATAACCCATTTTAAACATATAGTTTAGGCTTTTCAAAAAATATTCTTATTCAAAGAAATGTAATATTTACGACTTCATTTTTTAATGTTTAGTTTATTAAAATTAATTTTTGCAATTCATTGTTCAACTAAATTAAAATGTTTATCATTAAAAACTGATGAATTGTCAATTCATTCAAGGTTTTAATAAATATTATTTATTTTTAAAACATTTATAATTATATTATAGATAATATTATTACCCCACTAAACTTAATAAAAATTTCATTGTTAATCATTCCCTTTTTATTGGATAACTTCGTTATCCAGATTTATATTATTCTCAAAAAATAATTATTTTCTAAACCTTTAAAAAATGAAAAAAATATACTATATGAATAATTTCTTGATATAGTATATTTTTAATATTCTACATTGTTATAATTATTAAAACTAATTATACTTCTCTCAAACATTTATTACACTACCTATTTGATTAAAAAGGCATATTATATTTTATATTAATTTCTTGAAGAATCTGATCAGTTAAATCAAACATAATTTTTGCATTATTTTCATTTTCTTCATGATCATATCCCAAAATGTGTAATAAACCATGAGTAAATAATCAACACATTTCTTCGTAAAAACTATGATTATATAACTTTGCTTTTCTGATTGCTTCATTGGGTGCAATAAAAATATCTCCAATTTCTTTAAAATCTAGTTGATCATATATTCCAAACTCATCATTAATCGGAAAAGAAATTACATCTCCAATGTATTTTTTTTGTCTATATTCAGTATTTAGTTCAATTGATTTTTCATCACTAATATAATTTATTGACATACTTATTGGTTTACCCAACTTTAATATATCCTTTGTTATAATTAATAAATTATTGAATATTTTTTCAAAATCCATTAAATCTTTATTTTCCACTTCATAATTAAACTCTAAAAAATTATTCATATTATTTCTCCTAAATTAATTATACAACTAAACTAAATTAGAAAAAAGAAATGCTAATATTGAGGTTGTATAAAAAAAGTGAAGTTTTATTATTATAAATTTGTAATAAATAAAATATTCAGTTCTTGCTTGATTTAATTATAACTCTATTTTATAAAAAATATTTAAAAATTTAATCAGTTTTGGCTTTGCCAAAGAAATGATACCACTTTCAAAATCAAGTGAAAAAAACCCCTTATTATATAAGGGGTTTTTAAACAAAATTTTAGTGCTATCATTTTAATTTAGAGTACTAGCACTATTTTTAAACCATTCAATGGGTAAAAATGGTGGTGTGCTAGCACTCCATATCCTGCTACACTTCGTGAAATAGATATGGATAAATATTGAGTTAAAATTATTACTTTGAAGTAATAAAAATGATTTTAAAAGTAAAAAATTTTAGATAAAAGATCTAAATTAAATATTTTAATTTGAATTATATTAATTTTTATTGGTCCTTCAAAAGTGTTTTCTTCTTTTCATGTTTTTTGTAAATCTTTTATTCATTCATTTACATTAAAATACATAATTTTATATTTTGGTATTAAAAATCTTGAAACTTTTATTTTTTGATTATTTATTTTATTTGCCAAATTTGTTAAAAATGTTTTCTTGCCAACTCCTGGTTTTCCAAAAATATAAATATTTTTATCCTGAGTTTAAAAATTAATTAATCGTTCAAATGATTTATATTCTTTATCATTATCAACATTAAATTCTTTTAACATAATTTATCTCCTTTTTAATCATCTAAAAATTGATTTCTTTTATTTTCAAAACTATTTTTATACCTTAAAGATATAACTCTAATTTCTTTGCTAATTTCATTAAAGTTATTTTCTTTACAAATATGTGTTAACACTGCAAATTGATTTCTTTCTAATTTTTCTATAATTTGATAATCTTTATAAAGTTCTCAAACATATTTATTTTTTGATTTTAAAAATATCATTTTAGCTAATATATTTAATAATGATTGGATGTTTTTTTTAAATCAAAAAATCTTAATAATAAGACAAAACATTTTATAGTTTTTTCTTGTTATATTTTCTTTATTCATAAATTTTCCTTTCTTTTTATTATCAATAGGTTGAATTTTTATTTTTTTGTCCTTTGAGATATGTAAATATATGAATATTTAAGCAACAATGATTATTGACAATAAAAAAATACTTTTTCAAGTACTTAACATATTTTATTTAATTTTACAACTTTTTGACCCCCACATTTTTTATAAAACCTAATATTAAAATATTTTCAGAATATATCAAAACATCATTATTTGGGTATTTTAATACTGAAATGTTTTCAATTTCAACTTTTATAAATTCTTCTGAATACTTTAAAGAAGATGAATTTAATTCTAAAAAGCCTTGCTTTGTTTCCAATAAAATTTTTTTAATTACGGATATATTTAATTTTTCATTACTTAATAAATAAACTTCATTTTTCTTTTCATTATATTCATTAAAATACTCTTGAATAAAAATTGTTCCAGCTAATATTTTTTGTTTTGTAAATAAAGTTAAAGAAAACAAAAAAGCAGCTATAGATAATAAAAGTAAGTATAGAATAGTTAGATTGTTTTTCATTATAATATCTCCAATCTTTTTTGAAAAAAATCCATATAAGTTAAATCATGATCACACATAATAATTAAAGATTTTTTCTTATATTTAATAAATAATTTAAATAAGTAATATGCAGTTTCTTTATTGACATTACTTAATGGTTCATCAATTAAGTATATATCTTTTTCTGTAAAAAAAAGACTTATAAAATTTATAATTTGTCTTTGTCCCTTAATTAAATTTATTCCATTATCCTTAATTGTCTTTGAAACTTGAATATTATTTTTTTCTAACAATTTAAAAAAGTCTAAGTCTTTAAATAAATTTAAATCAATTTTATTTTTAAATTGTTGAATATTTTCTCGAACAGTTCCATCAAATAAATAATCATATTGTCCCAAATACAAAATTTTATTTTTATAATCTTTTAAATTAATATTCTTAAAATTTATTGTCTTATTTATTAAAAATAACCCTTCATAATTTTGAAAATTTTCAGATAAAAATTTTAATAATGTTGTTTTTCCTGTTCCACTTTTTCCATAAATAAATGTATTTGTTTCAAAAACAAAGGAAATGTCATTTATCATACATATTTCATTATTATATTTATAAAGGTTTTCTACTTTAATTTCATCTATTTTATTAATTTCAAATTGTTCAACATCACTTTTAATTTGTTTTTGAAATAAAAATTTAAGTGAATTATTTGAAATTTTTATTTCTTCTAAATTTAATATAAAATTTGTTAATAAATTACCAAAATTATTTATATATAGGCTAATTGAGGTATAAAATAATAAATCACTTGGATTAAATTAATTTTTGTTTATTAAAATATATGCAATAAAGAAAATTATAAAAAAGAAAAGCTTATTTACAATGGTTATTGCCATTGAACTTTTGCTATTTAATTTAAAAATTTTTTTTGATGTATCTAATGTTTTATTAAATTTTTTATCAATTTCTGAACTAATTTTTTTCTCAATATTTTTATATTTAATTTCTTCAAAGCCATTTAATAATTCTCTAAAAGTATATAAAAAATTTAAAATGTTTTTTTCCATTTTTAATTTATATTCTTTAATAAGATAGGTTACAAAAAAAGAGATAATTAATGTGAGAAAATTTTGAAGTATAATAATAAATAAAATTATTGAAAAAATTATAGTTAATATTATTGAACACATTAAAAAAAGTGGAGTTTCTAAAGGTAACTTTAAACAAATAAAAACTATAAAATCAGACATTACATTTATATGAAAAAGTTTTTTTGTTCATTCTTCTTTTGAGATTGAATTAAAGTTTTCAATATCTAATTCAATTAAGCTATTTTTAAAAGAATTAAATATATTTTCATTAATTTTTATTTTTATATTATTTAAAACTTTGTTTAAAAAATATGTAATTAATATTTGAAATAAAAATACTATAATAAAAATTATAAAAATTTCTTGTTGAATTTTTAATATATTTATTTTTACATTATTTAGATAAATTTTTAAAAAATTATTATTTATTAATATAAATAAATTTGATAATAATGAAATTATAAATATTAATAAAATTGCTAATTTAAAACCTCTAATAAAGAAAAACCAATTCAAAAAATTATTACTTTTAAATTTTATTTTTTCAATTCTCTTTGTAAATCCAAAATATCCTTGATAAATCAATTTTAACTCTTCTTTAGTAATTCATTTTAAGTCATTATTATTTGGATCTGCAATTAAAAAATTATTTTTTCTTTTTTTATAAATAATAATAAAATGCTCACTATTATCTTCTGTTTTTGTATTTACAATTAAAGGATTTGAAAAATCGATATTTGTTAATTCTTCAAAAGAACTAGAATAAGAAGTAAATTCAATTTTATATTTTTGTAATATTTCTTCAATATTATAAATACTTAACATATCATCTGATAATGAATTACTAAATTTTATTTCCTCAATATTAAAATTTTTATTTTGATAAAAATTAATTATCATTGTACAAACAGCAATGCCACAATCATAATTATTTAATTGTTTTGTAAATTTATATTCCAATTTATCACCCTAATTTTTATCGCTTAAAAAATAATAATTTTAATTAAATAAATAAAAAAAAATTAAAATTTTATTGCAAATCTTATAAAGTTTATATCTGCTCATTTTAATTTTATTTTTTTAGGTTTTCCTTTTATAAAGAAAGAAAATGTAAATAATTCATCTTTTTCTTCAACTAATGTTGCTTGAAATTCACTAATATTTTCAATTGGATTATTTACTTTTAAGTAAAAATATTGATTTATATTATTTTTAAGAATGTTAGAGTCCCTAACTTCCCTTTCTGCTCCCGCACTTGATACTTCCAAAATATAAGGTTCTGTTAATTCAGTTAGTGAATCTAAAAATATAGAAATTTTTTCATTTGCTTTAATTAAAAAATCAAATTCAATATCCTTTTTATTTAAATCAATATTTTCTACCAAAATTTGCAATACAATCGATTCATATTCATTAAGAATATTAATTTCATATAATTCAAATTCACATTCTTGTAGTAATAATTTAATTTTTTCCAAATAGTTTTGTTTAATTATTTTTAATTGCATTTTTTTTCCTCATTTATAAAATATTTTACATTAATAAACAAAAAAGATAACATATTTCACTAAAAATCAAATGAAAGTTGTTCGTCATCTTTTAAGTTATCTGTAATTTTTAATTTACTAAAAATTTCAATTTGTGTTTGTGTTACTTGTGTTCTTTGTTTTAAATCATTTACATTGACAATTTGTGTTTGAGTTCTTGCTTTAACAATAGAATTTGCAACAGCTTCACCTAAAGAATCAATTACATTAAATGGAGGATAAATTACTTTTTTTCCTGTATTTTCATCTTTTACAATAACAAATTTCATTGCATCAGAAATATTAAAATCTATATTTTTTATTTCAATACCTCTTTCAAGCATTTCAATTAATACTTCATAAATTGTCAATAATCCATTTTCTTTTGCAGAAACTGCTAATTTAGCATTTATTCTGTATTTTATATCTTCCATTTTAACTTTAATTTTATTAATACCACCAATACAACTTTCTAAATCAAAAAAATCTGACCTTGTTGTAAATCAAGTTGCATAATATTCTTCAGGATAATAAATTTTATATCAAGCAACTCTATATGCCATTAAAACATAAGCGGTTGCATGTGCTTTTGGAAACATATATTTAATTTTTAAACAACTATTTATATATCAATCTGGAACATTATGTTTTTTCATAATGTTTATTCATTCTCCAGAAAGACCGTTTCCTTTTCTAACACTTTCCATTATTTTAAATGAAGTTGAAGAATCAATATTTTTATTCATCAAATAAACCATAATATCATCTCTACATCCAATAACAGAAGATATATTTGCAATTCCATCACGAATTAAAGTTTGCGCATTTCCAACATATACATCTGTTCCATGACTTAAACCAGAAATTTGTACTAAATCTGCAAAAGTTTGTGGCTTAGTTTCTTTTAACATAGCTCTAACAAATTGAGTTCCAAATTCAGGTAAACCAATTGCTCCTGTTGTTTCTCCACCAATTTGTTCTGGTGTTAAATTAAGTGCACTTAATTCTGAAAACAAAGAATAAACTTTTTTATCATCTGTAGGAATTAATATTGGATCAATATTTGTTAAATCAAATAACATTCTTAAAGCAGTTGGATCAACATGCCCTAAAATATCCATTTTTAATAAATTATCATGAATTGAATGAAAATCAAAATGAGTAGTTAGTCAATCACTTTGTGAATCATCTGCTGGAAAATTAACTGGAGTAAAATCTTCAATTTCAAATTCTTTTGGTAATATTATTATTCCTCCAGGATGTTGTCCTGTTGTTCTTTTTACTCCTGTTGATAATTCTGCAAGTCTTTCAATCTCAGCTTTTCTAAAAGTTTCTAAGTTAATCTGTTTTTTTTCAAGATAACCTAATGTATATCCATAAGCTGTTTTTTCAGCAACAGTTGAAATTGTACCTGCTCTAAAAACATTTTCTTCACCAAACATTTGTTTTGTAAAATTATGTGCAATTGGTTGATATTCTCCAGAAAAGTTTAAGTCAATATCTGGTACTTTATCTCCATCAAAACCCAGAAATGTTTCAAATGGTATATCATGACCATCTCCCATTAATTTTTCATTACAATTTGGACATTTTTTTTCTGGTAAATCATAACCACACTTAAACTCTTCTAAAGTTTCAAAATCTGAATATTTACATTTTAAACAACGATAATGTGCTTTTAATGGATTTACTTCAGTAATTTTTGAAGTTGTTGCAACAAACGAACTACCCACAGAACCACGACTTCCAACCAAATAGCCATCTTCATTTGATTTTTTAACAAGTAAATGACAAATTCAATAAACAACAGCAAAACCATGTTTTATTATTGAGGCAAGTTCTTTTTCTAATCTATCATTAACAATCTTTGGTAAAGTTTGACCATACAACTCTTTTGCATTTTTAAAACATTCATCTGATAATAATTTATCAACATTTTCAATTTTTGGTGTGTATAGACCAAATTTTATTGGAACAACATCTTCATCAATCATATCTGAAATTTTTAAAGTATTTTTTATTACAATTTCATGAATTAATTCACTATCTTCAAGCCATTTAAATTCTTCTAACATTTCATTTGTTGTTCTCAAGTGTTGATCTGGATTATCTTTAACTCTTTGCTTAAAATCATAGAGTGGATGATAAACTCCACCCAAACCTTTTGTATTTATATAAATATCACGAATTACTTTCAATTCAGGCTCGACATAATGCGCATCACTTGTTGCAATTATTATTTTATTTTGCTTCTTAGATTCCTCTATTATTTTTTTAAGAATTAATTTTAAAGTTTCCAAATCTAAGTCTTCAGTTTGAATTAATTTTTTATATACGCTAAGTGGTTGAATTTCAATATAATCAAATATTGAAATAGCTTCTTGTAACATTTCAAATGTTCCAGTTCTTGCATATTCAAAAACAAGACCATTAATACATCCACTACCAATTAAAATATTTCCTTCTTTTCTAAAATTAAGTAATTCTGATTGAAATATTTTTGGACTATTTAAAAAGTTTTTTACATGTGAATAAGAAATTACTTTATAAAGATTTTTTAAACCCTCATTATTTTTTGCAAGAACATTTACATGATATCCTCTAATTCTTTTATAATTTTCATCTTCAAATTTATCTTTTGCAAATTTATTTCAATCTATATCATAATCTATTGAAGTTATTTTTTTTGCTTCATTTCACATATGTTCATAAACATTTGTTAAAACTTCTGCATCATAATCTGCACGATGGGCAATTTTATCATCATATAAAATTTGATATGCTTTAGCAACTGTTCCTAATCTATGATTTTTCAATTTTGGTTGTAAAATTCTTGAAAGTGCCAAAGTATCAATAACTGTATTTGTAAGTTCTGCATAACCAAATTTTTTTGCACAAACTTGCAAAAAATTAAAGTCAAAATTAGCATTATGAGCTATTAAAATTCCATTTTGAATTATTTCCATAATTTTTTTAAATTCAATCTCAATTGAATTTTTAGTTTCTAACATTTCATTTGTTATTCCTGTAAGTTCAATTGTAAAATTCTTTAATTTCTTTTTTGGTTTAATTAAAATATCATATTTTTTATGAGTTCCTGCTGCATAATCATAAACATTAGCTCCAAATTCAATTATTTCATCATACTCTGGTGACAATCCAGTTGTTTCTAAGTCCAAAACAACAAATTTTGATTTTCGTAAATTTTGATTTTTTGGATTTTTTATAAATCAAATATTTTCTTGAAGCATTGAAAGTTCACTACCATAAATTAATTTTATTTTTTCCTCTGGTTTTAAATTCTTATTTACTTCTTGAAGAGCTCAATATGCATCAGGAAAAGTTTGAACATTTAAGTGATCTGTCAAAGCAATTGCTTTTCAACCAAATCTTTTTGCAGCATGAATATAATCTTTTGCAGTACTTACTCCATCCATTACTGACATTTTTGTATGAATATGCATCTCTACTCTTTTTTCAGATGAACTATCTTTTCTAAATACCTTTTTTGATTCAATTTTTTTATATTTTTCAATATAAAAAATATATGTTTTATCAAAAGTAGAAAAATTATATTTACCATTAAAAGAAACTCAATCACCTTTTCTTATTATTTGATTCTCATAACCAGTTAATTTTTCCTTTGTTTCTTCAGTCAATTCATCAAAAAAAGTTGGGTCATTATTTTTTTGAAAAAAAATACAAGTTACAGATGAGCTTCCATCTGTGATTGAAAGATTATAAATATTTCTTCCAGCTTTTGATTTTCGAATTGATTTTGAAATAACTTCACCATGAATTGTAATATTTTGAGCATTTTCTTCTAAATCTACCAATTTTGAATAGGTTGGATTATTTAGTATTTCTTCATTTGAAACAAACTTTTGTCTAAATGAAGCAACTTTTTTATCAATTATAGTATTTTCACTTTTTTGAATTTCTGACTTTGTGTTTAATTCAACTGATTTCACATAATCACTATGAACATTTTCTAGGACATTTTTTTTATTTTTTTCCAGAATTTTAATATCTAAATCAATATTTCTAAAACCATATTTCATTAATTTATTTTTATAATATTCTCTATGTTCTTCAAGTAAATTTTTTTCTATCTCATTAGAAACATTAAAAAAAATTATTCTATAATCTTCAAAATATTCAACAGTTAAAGGAGATAAAATCTTTATTGCTCCAGTTTTAATTTCTGCTTTTAAGTCTTTAATATATTCGATATGATTTCAAATTAATTCTTTTGTATAGTTTTGATTTTCTACTTCTAAATTTAATTTCGTTGGAATAAAAGTATTTGTTGTTAGAGCACTTTCCACTTTATGAAGAATATGTATTGGTAGAAAATCACTTAATTTAATAAATACTCTTAATTTACTTAATTCTCTATCAAATTCTGCTTCCTTATAAAATATTGCATTTTCAAAATATTTTTCTTCTTCTTCATTAAGAAAAATATTTAATTTTTCAAATAATTCTTTAATTTCTAATTTCAATTCTCTAACCTCGCTTAAACTTACCTAAATAATGAAGTCCTTTATTGTAATTATAATAAATAATAATAAAAATAAAATTGCTCCAACACTATTTACAATGATCTTATATTTATATGGTAATTCTTTTTTTATAATCATTTCAATAAAATTTTCTAATAATCTATATCCATCAAGTGGAGGAATAAATATTAAATTTAAAATAAATAAATTTGCACTGATCATTGCAACATATAAAAAGAATTGATCTGCACTTCCTAATAAAGTTGCTGTTTGTCTCGCAACTCCAACTGGACCCGCCAATTGGTCAAATTGACCTGTAAAAACCATCCCTAAAGCTTGAAGAATTGAAATTGAATCTTTAAAGGTTTCTTTTCAACCTGCACCATAAGCTTCCCCTACACTTCTGTAAAGTCTATTTGGAGCAGCAATTCCAATTGTTTCTCCTGATTTATAATCAGAAAATTCTGTGTATTTTGGATTTTCATTTGAAACTCCCGAATATTTATCTACTTTTTTATAACTAAACATAATTTGAACATTTTCATATCCATTTGCTTTAGATAAATTATTTAAAAAATTGTATACTGTTTTTTCATAATTTGCAGATTGATTATTGTCTTCAGTATTTATTTTTTCATCAAGACATTCTGTTTGATTTTGTTCTGTTGTATTACAAATATTGTCAAATAAAACAATTTCTTCTTGAGATTCAGGATTAATTGTTTTCATTGTTCAACCTCAAATTACATATTCTTGACCAATATAATTAATTTCTGGATTATCAAGTTGCTCTTTTTTTAATATTAATTTTGCTGCAATTTTTTCTTGATCATAAGTTGCACCAAAATAAGACATATCATTTTTTTTAACTTGTAGAGCTGCAAAAATTGAAGTAAATAAAAGCAAAGCAATCGCTAAATTCATAGCTGGACCTGCCAAAATAAAAAACATTTTTTTTCATCTTGCAATATAATCTAATTTTCTCTCATTTGGAACTTCTTCATCTTCTCTTTCACTTGGAGGATCTACTTTATCAGATGCAATAGAACAATACCCACCAAGTGGAATTACTCTTATTGAAAATCAAGTTTCTTTTCTTTTTCATACAAAAATTCTTGGTCCAAAACCAATTGAAAATTCATAAACATATGCATTTGATAATTTAGCTACTATGAAATGTCCAAATTCATGTATTGTAATTAAAATTAACATTACTAATATACCAATAAAAAATGCCAATACTATTAAACCACTACTCATTAATAAATCCCTCTATTATTCTTTTTGTTTCTATTCTTATTTCTTGATCAAAATTAAAAATCTCTTCATAATTATTGTAATTAAAATTAATTGTATTATTAAATATTCTTTCAACAATTTCTGTAATTTGAAAAAAATTTATTTTTTCTTTTAAAAAAGAATCGACGCAAATTTCATTTGCTGCATTCAAAGCAATTGCTTTTGAATTTTTTGAGTTAATACAATCCAAAGCAAATTTTATTGGTTTAAATCTTAATTGATCTATTTCTTTTAATTCTAATTTCACTATTTCTTTAAAATTAATTGCTTTTTGATTTGTAAATTTTTTTCTATTAGGATAATTTAAAAAATAATTTATGACTTGTTTCATATCTGGAACTGATAATTGTGCTTTTATACTAAAATCGCTAAATTCCACCATCGAATGAATTATTGCTTGTGGATGAATTAAAGTTACTATATTTTTAACTTTAAACAAATGATAGGCTTCTAGTATTTCAAAAGCTTTATTGAACATTGTTGCACTATCAATAGTTATTTTATTTCCCATATTTCAATTTGGATGATTTAATGCTTCTGTTTTTGAAACGTTTTTAGTTTGCTCTAGTGTTAATTCTCTAAAACTTCCTCCTGAAGCTGTTAAATAAATTTTTGAGGGCTTGTTTTGAGTTTCTAAACATTGAAAAATCGCACAATGTTCTGAATCTAGTGGAAATATTTTAGCTTTAGGAAATTCTTTCAATTTTAAATTTATTAAGTCTCCTGCAGTCACAAAAGACTCTTTATTAGCATTTAATAAAATTAAACTTTTTTCAATTGACTTTAATGTAACTTGTAAACCGAAAAAACCACTTAAAGCATTTATTACAATTTCATCTTCAGTTGAAAATAAACTATTTATATTATCATTAAAAAAACTAACATCTTTAAATTTTAAATTCATTTCAGTTTTTTGTGTTGAATAAACTTTTTTAATATTTTTAAATTCCTTTAAAATTAAATCAAGTTCTGAAACATTTTTACCAACACTTATAGCAACTAAATTAAATTTATCTTTATTATTTTTTAGTATTTCAATACATTGCTTTCCAATATTTCCTGAAGCTCCAAATAAAATTACATTTTTCATTTTTTAAACCGTATTTGCTAAAGTAAGAAATAGAAATAAAATAAATAATGAAAAAACTATTGAATCTAATCTATCTAATAAACCACCATGACCTGGAATTAATTTAGAAAAATCTTTAATTTTTACAGATCTTTTAACTCATGAAAATAACAAATCTCCAAATAAACCAATTATAGGAAATGCAACAGCTAATAAAATATAAATCAATATCTGTATTGCTTGAGATTTTGTTTTTATTAGTTCCATTGTTTCATTTAATGGTTTATAGTCATCTAAAGTAAATATAAATATTAAAGCATAAATAATTCCAAAAAATGTAGACACACTTAAACCAATTAAAGCACCTTCTCAAGTTTTTTTTGGAGAAATTACAGAAGCTAATTTTGTTTTTCCAAGTGTCATTCCTCCAATATATGCAAATGAATCACTTAAAATTATCATTAATCATATTCAAATAATTGTATTAAATGAAAATCTTGCAGAAATTGATTCTGTTACTTCATAAAATGGATTTAATGATAATGAAGCAATTGAAAAACCTTTTAACCCAAAAATTATTATCATTGATATCATAAAATTTACTAAAGTATCTTTTTTCAAAATGCTTTTATTAATAAATGATGATAAAAAGTAAAAAAATAAAATAATACAAATAATTACTGGTAATTGTCAAGAAGAAAATCAAGAAGATAAATTCATTTTTTGATAAAAAGAAAAATTATATAAATCTTTTGATGTTGGAAAAATATATATAAAAATACCTACTAAAATAAAAAACATTTGTAAATATCATTTTGAAAAGTTTAAAGCCATATTAATTTCAAATAAACAAAATGAAAGAACTAATATCGTTGAAACAATTGAAAGATATGAAAAAATATCTGTGTCAAAAATGTTTATTAATGATGTATAAAGTGCACCAGTAACTATAAAGAATAATAAAAATAATAATAAAATAATTGTTGAAGCAAATCTAACTTTAAAACTATGTATACCATCTTTTGTTTTAAAACGATTTATACCAACTTCATTATTTTCAGGTGTTAAATCAACAATTTCTGTTAATTCAAATTCTTTACTCTTTTTATTTTTTTTCATTTTCCATTATTCCTCCAAATCTTCTATCTCTTAAATTAAAATCTTCAATAGCTTCTTTTAAATCATCTTTTGAAAAATCTGGTCAGTAAACCTTTGTAAAATATAGTTCTGAATAAGCCAATTGCAATAGCATAAAATTACTAATTCTTTGTTCCCCACCAGTTCTTATTAATAAATCAACTGGTGGAATATTTTTAGTGTATAAATTATCTATAATGTTTTGAATACTAAATTCATTAATATTCATTTGATTATTTATAATATTATTTAATACTATTTTAAATGAATTTTCTAGTTCAACAAATGATCCATAATCAAATGCAAAATTAACAATAATTGTTTTGCATTCTCTAGTTTCATTTTCTAAGTCCTCTAAAATTTTTCTAACTGAATCAGGAACAATATTTCTTCTACCAATTCAATTTATTTTAATGTCCTCTTTTAAATATTGTTTTTTCTTTTTTTCTGAAAAAATTTCACTTGGAAATTTCATCAAATACTCAATTTCTTTTTTTGGTCTATTTCAATTTTCAGTTGAAAAACAAAATAAAGTTACATATTTTATATTATATTTTTTTAAATTTAAAATTGTGGGAAAAATATTTTGCATTCCTATTTTATGACCATAAGTTCTCGGTTTTTTTCTTTCTTTTGCTCATCTTCCATTGCCATCCAAAATGAAGGCAATATGTTGTAATTTTTTAATAACTACCGCCTCTTTTATTTTACTATTTGTAACTCTCTTAATGGAGTTGTTAAATATTCATATCCATCTTTTGTTACAAGAATATCATCTTCAATTCTAATTCCACCAATTTCAGGAATATAAATACCTGGTTCTACAGTTACACACATTCCTTCAATAAGTTTCTTATTACCTGCAACTGAATTATATGGTTCTTCATGAATTTCAATACCTAAACCATGTCCTGTTCCATGTGTAAAATATTTACCATATCCTTTTTTATCAATGAAATCCAAACAAATTTTATGAATTTCACTTCCTAAAATGCCTGGTTTAATTGCTTCAATTCCAAGTTGTTGAGATTGATAAACTATTTCATAAATTTCTTTCAATTTTTTATTATCATCATTTCCCATTGCAAATGTTCTTGTTTGATCAGAACAATAACCATTGTAAATGCAACCCATATCTAAAGTAACAAAATCACCAATTTCGATTATTTTATCAGTTGGTACTGCATGTGGTTTACTTCCATTTCTCCCACTTGCAACAATAGTATCAAAACTTAATTTTTCTGCACCATTTTGTAAAAAACTATTTGTTACAAAGTGAGATAATTCTTTTTCTGTCATTCCAGGTTTTACAAATTGTAAAACATCTAAAAAAACCTTGTGAGTAATTTCACAAGCTTTTTTAACTTGTTCAATTTCTCATTTATCTTTTACCATTCTTACACTATCAAAATTATAACCAATAACTTCTGCTTTAATATTTCTACTAAATGATTCTGCTTGATTTACAAAAATTCAATCATTTTCAAAAACTATTTTTTTAATAGAATTTTGTTCAATTTTTTCATTTATTAATTCATACACTTTTCCAAATTCAATAATTTCATCAATATTATTAATTGATTTTGATTCTCTTGCAGTTGTTATATATCTTCCATCTAAAAATAGAAAACTTTTTGATTTTGTATATAAAATGTATCCTAAACTTGATTGAAATCTAGAAAATCAGTATCTATTTTGTGGTGAATATAACAAAATTGCATCCGAATTTGTTTCCTCTAATATTTTATTTAATATTTCTTTTTTCATAATTTATCACTCTTTCCTTCTTTTTTATAAAAAAAGGAAACAAAAAGTAAATTTCACATTTTGAATCCTTATTTTTTTTGTTTATGTATTTGGTGAGAATTACATTTAAAACAATGTTTTTTAACTTCTATTTTATTCTTTCTTTTATCATTTTTTGCAATATAATTTTCTTCTTTGCAAGTTGAACAACGTAGAATAACTCCTTCACGCATATTTTTAGCCTCCTTATTTTTATTAAGATATTAAGCAAATTAATAATATCAAAAAAAATTATAAAAGTCTTATTTTTTTATTTAAATACTATTTTTTTAATAAAAATGTGTAAAATAATAATAGTATTTTTAGGAGTGATATCATGAAAAAGTTACTAAGTGCAGTTTCGGCTATAACGTTAGTATCATCATCAACAATAACTGTTGTTGCTTGTAGTTCAAATGAATACTTTGAAAAATTTGAAGGTTGAATTGCAAATAAAGAATCTTTTGTACTTTATATTGGAGCAGATGATTGTGATTATTGTGTTCAATTTGAAAACGCAATGGATAATCAGAAAACTTATGTTGAACAAAAACTAACTAAAATGAGTACAGATTACCAAAATTTATACACAGAAAATGTTTATCAAGATTCTTTAACAGCTTTTGGAGAAAAATTAACAAACAATAAACCTGTTGACTTTAGAACATTTAAAACAGAAGAAAAAGCAAATAACTTTAAAGAAAAATGAAGTATAAATTTATTAGATTGAATTAAAGATAAAGTAATTGAAATATATTTTGATAATTTAATTGCTTCATCAATAAATAATTCAGATCTATATAAATTTAAAAAAATTGCTAAAGAAAAAGTAAATACTTACTTTGATTCTAATAAGGGTACTCCTTTCTTTCTAACTATTAGAAATGGAAAACTAGTTAGTTGAACTCAAGGATTTGAAAAAGATTCTTTAGGTTGAGATGAAAATTCTTTAAATAAGTTATTTGATCCAATTGTTAGTGAGTTTTTAAATAGTGAAATTGAAACTGAGATTGTTAATAAGATTAATGGTTCTTCAACTGGAGGAGAAGGTTCTACTGATTCTGCTGCAATGAAAGTAAATAATTATAATTATACAAATAATCTTGATGAATATTCAAAAAATTATGATTTACAATTATTACTAGATCAATATAAACAAACTTTATAGTTTGTTTTTTTATTTCTTAATTTAAAAATAAAAAAACACTTTTGAAAAAAGTGTTTTTAAATCAAGTCCTAATTTGGTCCCCGGGGCCGGACTTGAACCGGCACGACCGCTTAAAGTCGCTGGATTTTAAGTCCAGTGCGTCTACCAATTCCGCCACCCGGGGAATATATAAAAAATAAATGGTGTCCCGTATAAGACTTGAACTTATGACCCACTGGTTAAAAGCCAGTTGCTCTACCGACTGAGCTAACGAGACAATAATAATATAAAAATAAATGGCTGGGCCAGCAGGATTCGAACCGGCGCATGATGGAGTCAAAGTCCATTGCCTTACCGCTTGGCTATGGCCCAATAAATGGTGGGGAGAGACGGATTCGAACCGCCGAACCGTTAGGAGATGGTTTACAGCCACCCGCGTTTAGCCACTTCGCTATCTCCCCAATATAATATAAGTGGTGCTGACTAAAGGACTCGAACCTTCGACCTATTGATTACTAGTCAATTGCTCTACCAACTGAGCTAAGTCAGCAGTATTCTTCTTAAAGTAAGAACCTTTTCAATTATACAAAAAAATAATAAATAAAGTCAATATATTTTTAAAAAAGTATTATATTTTTTATATTTAATTTCAAAATAAAAGTACTCTGGGCGGAGTACTTATTTTATAAGAACTAGAACAAGCTTAAATTATAAAATATTATAAATTTAATTATTTTGTTCATTTGATAGGGCTAAATAAACATTTGGGCTAATGTAAAAAGCAAGCTCTAGTCTAAAATATTATAAGTTATATGAATTTTAATTTCAATATTTAATAAAGTTTTTTTAATTTTTAATAAAATAAAAAATAAATTTTTTTTAAATATCCTTTGAAGAAATTAATTTTAAAATTAAATTATCTTCACTTTTTTGATTACTTAAAACAATTAATTCTTTTGCTGTTTTAATAAAATTTTCAATGTCATTTCTATTTGTATATAAAGTCATAATTAAATCATCTTTTTTTACAAAATCATTAGTTGTTTTATTTAAATAAATTCCTGCTGCAAAGTCAATTTGTTCCTCTTTTGTTGCTCTCCCTGCCCCTAAAAGTACTGAAAGATAGCCCAAATCATCTGCAGTTTTAAAAGAAAGATAGCCATCAGTATCTGCTTTTATTTCAATTTTATGTTTTACTTTAAAACTATTATCATAATCTAAAATTAAATTAAAATTACCATTTTGAGCTTCAACAAATTCCTTTAACAAAGGTGCTGCAGATTTTTCTTCTAAAACTTTATATAATTCTTTTTTTGCAATTTCTAAATTTTTAAAAATATTATTTTCAACAAGTGTTAAAGCTGCTGCAATAACACATAATTCTTTTAAGTCCTCAGGACCATTACCATTCAATGTGTCTCATGCTTCTTTAACTTCAATTGCATTACCAATTGCTCTACCTAGTGGTTTATCCATATTTGTAATCATTACATTAACATTTCTGTTATGTTCTTTTCCTATAGAAATCATTGTTTTAGAAAGTTTAACAGCACTTTCCAAATCTTTCATAAAAGCTCCACTTCCCATTTTTACATCAAGAATTATGCTATCTGCTGGTATAACAAGTTTTTTTGACATAATACTAGATGCAATCAATGGAATTGAATCAACAGTTCCTGTAACGTCTCTTAAAGAATAAAGTTTTTTATCTGCTGGGACAATTTCTTTTGATTGACTCATAATTGAGATACCCACTTTATTTAAAGTTTCTTTAAATTTTTGTTCTGAAATTTCTCCAGTTCAACCAATACAACTTTCTAACTTATCAATTGTTCCTCCAGTTGGACCTAAACCTCTTCCTGAAAGTTTTGCAACTTTTACACCAAATTTTGCAACAAGTGGTGAAAAAATTAAACTTGTTTTATCTCCAACTCCACCTGTTGAATGTTTATCAGCTTTTATACCATCAACTCCATCAAAATTATAAGTTTTTCCTGAATTTATCATTTCTTGTGTAAAAATACCTAATTCTTTTGGAGTCATTCCATTAAATCAAACTGCCATATTAAATGCAGACATTTGATAATCTTTTAATGAATTATCTACAAATGATTTTATTAATCATTTTATTTCTTTTTCATCTAATTCAATAGATCTTTTCTTTTTTTCTATAATTGTTGAAAAATTCATTTTAATCTCCTATTCTATTAATAAAATACTACTCTACTTTTTTTATCAATTTTTTTAGGTGTTATATTAAGTTTTTTTGGATCTCAATCCTTATATAAATCCATATTCTTTTGAACTTCTCTTTGAACATTTTTTGTTAACATTTCTGTTTTCAAAGAAATAAATTTTTCAGGCATTAAAGGTTTTCCAAAAATAATCTTAATTCTAAATTTTCCTTTTGGTCTTTTAATGAATAATTTATATGAATCAATAATAGTTACTGGAACTATTGGTACATATGCCATTTGAGCAACTTTCATACTTGCAGATTGAAATTCACCAATTTCTTGTTTTGCACTTCGAGTCCCTTCTGGAAAAATAACCAAACTTCTTTTATATTCAGAAATTAATTCTTTTGCTTCTTTAACAGCAGTTAATGCACTTCTTGGGTTATTTCTATCAATCGGTACATTGTCTGTTAGATTCATAAAATTTTTAAATATTTTTTGTGTTCATAATTCTTTTTTTGCAATAAAAGCCACAGGCTGTTGAATTAAAAAATCATTAACTGAAAACATTAAAATTGGATCTAAATTTGATTGATGATTTGGTGCCAAAACAATTCCTCTATCAAGTCAATTTTCAATTCCTACAACATCAATATAAACATTTGTTAATTTTAAAACTTTTCTACACTTTTTTTTAACTCAATTATATCTTCATTCTTCTGTATAAAAATTAGGATCATTCTTAATTTTTTTATTAATTTTTTTTGCTTTTTTAATAACTGATCAAATACTAAGCATATTAAAAAATAATTTTGCTTTACTTAAATGAGCAGTTTCTGTCTTTTCCTTTGCTTCTTCTATTTCAACAGGGCTAAGTTCTTCAATTTTATTAACATCAGTTTGTTCTTCTTTTATTTCATTTTTTATCATTTGTTAATTCCTCTCATACACATAAACAATAAATTCTTCAAATTCAGTTTTGGACTCTAATCTATATTGTTTTTTATCTCATTTTGGTGCAAAAGTATCTCCATTATATTCTTTTTTTATTTCACTAATAATTAATTTATCTGCAAATTTTAATGCAGTTAAATAAATTTGTAGACCACCAATTACATATAAATCTTCTTGAGAATTTCTGTATTTCTCCAAAATAAGATCTAAGTCTGTTGAGATTTCAACATTATTATACCTTTTTTCCAGACTTCTTGAAGTAATTAAAATATTTTGCCTATTTGGTAGTGGTTTTATAGTTAAAGATTCTCAAGTATTTCTTCCCATCAAAATAGTTTTATTTTTTGTTGAATTAATAAAATGTTGCATTTCTTCTTTTATATTTCAAGGAAGTTTATTATTTAAACCAATAACACCTTTTTTTGTTTGAGCTCATATTAATATAACCATTAAACAGCAACCTTTCCCTTGATTGAAGGATGACTTTGATAATTTTCAATTTTTATATCTTCAAATTTAATATCATAGATTGATTTATTATTGAAATCTACTATTAATTTTGAAAGAGGCATAGGTGTTCTTGAAAGTTGAATGTTAATTTGATCTAAATGATTAAGATAAATATGTCCATCTCCAATTGTATGAATAAAGTAGCGTGGTTTTAAAGAACATTCTAAAGCTACTAAAGTTAATAATAAAGAGTAACTTGCAATATTAAAAGGTATTCCTAAAAAAATATCTCCACTTCTTTGATATAACTGTAAATCTAAATAACCATCCTTTGATACGTAAAATTGAAATAGTGAATGACATGGAGGTAAAGCCATTGTTTCAATTTCTGCTGGATTCCAAGCAGATATTATTAATCTTCTTGAAAATGGATTTGTTTTAATATCATTTATTAATTTTGCAAATTGATCAACACCATTAAAATTTCTCCATTGTTTACCATATACTGGTCCCAGATCACCATGTTTCTTTGCAAAATTATTATCCTTTCTTATTTTTTCAATAAATTCTGTTAAAGACTCATTATTATAATCTTTTGACTTTTTAAATATTTCAAATGGTCATTCATTTCAAATATTAACTCCATTATCGATTAAATATTTTATATTTGTATCTCCTTTTATAAATCATAAAATTTCATGTACTATGCCTTTAAAAAAGACTTTTTTTGTAGTTATTAATGGAAATCCATCCCTTAAATCATATCTTGATTGAATTCCAAATTTTGATATCGTACCAGTATTTGTTCTATCTTCTCTTTTTTCACCATTTTTTAAAATATCATTTACTAATTCTAAATATTGTTTCATATAATCACCTTTATAAATTATATATTAGATTAAAAAAAATAAATTAAATATAAATTTCAATAAAAAAATCTATATCACTATAGATTTAATGCGACTGCAACCGAATATTTTTTTTCATGACTTATAGATATTTCAATTCCTTTTAAATCATCATTTAAAATAACTGGTTTATTATTAATGTAGACAATATTTATTTTACTCATAGAAATTGGTTGTTCAAAACACTTTATAATTGCTTCTTTTGCAGCTCATCTACCACTTACAAATTCAATTTTTGCTTCTTCAGATGAAAATTTATTTAATATTAATAATTCATCTGAGTGTAAAATTTTTTTAAAAAATTTCTCTGATAAATTAATTCTACTATTTTCAATAATATCTATTCCTATTTTTGCCATTTTTTTTAACTCCACAAACTACTATTTGCAAAATCAAAATAGTAGCGTATTCAATAATATCCTCTTTTATTATAATTTTCTCAAAAATTATTTTCATTTATGCTTATGTCAGCAATTGTTTTGCCTGTTGATAAATTATTTGAAAATTGACCAAATTTAAGTTCTCCTGAAGGTACTATTTCCAAATTTTGAAATAAATAAGTCGAAGAATAACTTGAAGAAATAAAAGGTAAAGTATCCAAATTCTTTCTTGTAATAGAATTCACATAATTAATATTTTTTAAAAATTTATACACTAAATTTGGATTTTTCAAAACAGAAACAATATATCTTTCCTTTATTGTTTCTGTTGTTGCTCAAGTTTCATTAATATTTTGTGCAAGAGTTAAAAAAGGATTTTCCATTTGATTACTTTCAGCCCATGAGTAAAAATTAACCATTTCTTCTTCATTTAATCAAGCATCATGAATTCCCTCTGTTGAACCTTTTGTAGAAACATAATATGAATCTAATGCATTAATTAAATCAATACTATGTAAAGAAGTATTTTCATTAGCTGAATCTTGTGCTGCAAAAACTTTTGAACCATATAACATTGCTTCAGAAAGTAACCTGAAAATAGATCTCGAATCTTCTGGCATTGTTTCTATACAAGTTGTAATTGGTGATTTTAATGGATTATCTGATGAATAACCCTCTGTTAATAAATCTTCATAAATTATAAAGAAATTTGATAACGTACTTAAATTTTCATTTTTAGATAATTCTGTACCCATAACTAACATTGGTTTAATAATATATTTTGAAACACAAGAATTAGTATATGTAAAAGAAAAAATTGGAATACTTGGAATTGAAGTTGTTATATTATTTGCTATCGAATATTTTTTATATGATCCACCATTTTCAATATAATCATAATAATCTTGATCACTTCAATTTGAAGTATCAGTAAGACCTATTTTTTGAGTATCTGTTGAAAATATTGGAAAACTTGCAAAAAAACTCACGCTCATTGATAATATCATACCCAAAGCTAATCCATTAAAAGCCCCTAATAAAGTATCAACACTACCAACAACTTTAATAGATTTAAGTTTTTTCTTAATTGGTCAGTAAAGAATAAATCCAATTAAGTTAACAAGTGAAAATATAAAAATACTTAAACATAAATATAAAATTAGTGCTGAAAATGTTTTTAAAACCTCATAAGAAGCACCAGAACCGTCAATAGATAGATTTTCAGTTCCTCCTGGTAATAAACCAGTAATAAAGCCTGATAAACTATCTCCAAATGCACTAAAAAGATCTGTTAAACCAAATTTAACTAATAGTTTCATTACCAATGGATTTAATGAATTTGTAAGTAATGCTGGTATAAACATTAAAATAATAACTGCAATTACTTCAACTATTAAAATATAAAAAGACATAAAAAATCCACGAGCTATTCCAAAAATAGTACAACCTATTATTACAGAAATTGCTATTAAATCAAATAGTCATCAAGGTCCAATATTAATTAGCATATTTCACAAACCCTTCTACTAAAAATTATTATACCAATTTTATTAGTATGATACCTAATACTTATTTTACTTTATAATTTATTAAAAGAACGGTGGTTACTATGAATAGCTTTAAAAACGTTGAAATTTCAATAATAAATACAATTATCAAAGATAATAAAAAATTTTTAATAAGTAAAAATAATAATGCTAATATAAGATATTTTTTTCGTTTAGAAGATAATACAGTTATAAATATTTATAATAATAAAACCATTTTATTTCAAGGAAAAAGTGCTAATTTACTAGCAAATAAATATAATTTATTAAAAGATAAAAATTTAATTAATAAAATAGTAAACAATAAAATTATAGAATTACCTAATATTGGTTGTGATGAAGTTGGTGTTGGTGATTTTTTTGGTCCTTTAGTTACTTGTGCTTGTTATTTGGACAAGGACTTTGAAAAAAATAACTTAAATTTAATAAATATGATAAAAGATTCAAAAACTATTTCAAATGAAAAAATTGAAAAATTATTTTTTCAATTAAAAGATAAGGTTAAATTTAGTGTTTATATAATGAAAAATAAGGAATACAATGAAAAATATACTTTTTATAAAAATACACATTTTTTAAAAGCAATCGCTCATAATAATTCACTAAAAAAAGTAATTGAGTTAAATAATGATTTAAAAACAGTGCCTATAATTATGGATCAATTTGTTAATGAGAATAAATATTTTTATTATTTAGAAAAAGAAAAAGATATTGTTAAAAATATTTATTTTCAAACAAAAGCAGAGTCAAAATATTTAGCTGTTGCTTGTGCAAGCATAATTGCAAGATATTTTTTTCTAAGTGAAATAGAAAACCTGCAAAACACTTATAAAATTAAACTTCCTTTAGGAGCTGGGAATAATGTTAAATTATTTGTACAAAAATATAAAAAAGAATTTAAAGTTGAATCTATTAATTTTATAAAATTGCATTTTAATGATGAAATTAAAAAAAAGATTTAAATTAAATCTTTTTTTTAATCCATTATTTTTAGTTTAACTTCTTTTTTATTTTCATAAATAATTCCCGCATCATCAAGCATTCTTTTTGCAATTTTATTTTCAATTGTTCCATTATATTTATCATTAGAATATATTATTTTTTTTATACCTGATTGAATTATACTTTTTGTACATTCATTACAAGGAAATAAACTCGTATAAATAATACAATTTATAACTGATTCTTTTGAAGATAATATTGCATTTAATTCAGCATGTACTACATAAGGATATTTAGTATTTTCTAATTCGCCTTTTCTATTTCAAGGATAATTATCATCGCTTAATCCTCTTGGAAGACCATTATAACCTGTTGAAATAATTTGTTTTAAATCATTAACAATGACAGAACCAACTTGAGTATCTGGATCTTTACTTCTCATTGCATTTAATTGAACCATTGCAAGAAAATATGTGTCTCAATCAATATAATTTTTTCTTTTCATATTTTATAACCCACTATGTAAAGTGCCACTAGTATCATATCACCAGTATCAACCGTTTAAATTAAATAGTTTATTTGCACCTTCAATTGAAATATAACCTTTTTGTTTATATAAACTAATTGCATTTAATGAATAAATATCATGTGCTGAAGAAAATGATGGTATAAAAGTAAATGTAAATGCTGCCAAAATACATGCTGCTAATATAAAAATTGGTAAAATAAATAATTTATCTCTACTATTTTTTCAATCATATGTTAAAAGTACAGTAATACTTGTACTAATTGCAGCAGAAGCAATTATTAAGATGTATTGAAAGTATGAAGAAGTAAATAGTGGATAAATTACAAGCATAATGATTGGAATAACTAATCTATTTTTTGAGAACAATTGGATTGCTTCTCTTTTTTTAGATCAAGTTGTAACACCCAAAATACCAACAATACTTGCTAAGAATCCAAGACTACCAGAATAAATATAAGTTTCAGAAACAGAACTTGTTGATACAAAAAAACCTGCTAATGGATATGTAATAAATACTGCTGCAGCAAATTTAATTGAGCCAACAAGTCCCTCAGTATATCGAGATAGTTTAATTGCCATTCCTGAAATAAAGAAAATTTGAATTAAAGCAAAAATTATTCCACCAGAATTTGTTGTAAACCCATAAGTAAAAACTCTTCACCATTGTTGACCATTAATTGTTAAATTTCTATTTGTTCCACCAAAAAATAAATCAACAACATAACCATTTATTGATGAATTTGAAAAAAACATAAAAGATAAAATAACTGTAACAATTGGCATAATTATAAAAATTAATGAAAGAACTATTGAAATATTACTATGACGATTCATTCTTGCTACTGCATTTTTTAACTTAAGATTTGAAGATTTTGAAGGATTTGTTAACATTTCAATAACTTCTTCTGTTGAAATATTTTCAATTCCGTCTTCGTCCTCTTCTTTTAATTGATTTTTAAATCTTTTTTCTAATGAATTAATTTTTGGAAAAATTTTAACTAACCTTTTCATAGCTAATTCAACTGAGTCAACTATAACCAATTTCCCTTCAAATTCCAATTCAATTTTATCTGAAGTAATTGCAATATTCAAAATTTGAATTTTTTGTCTTTTTGCTTCTTTTAGTTCTTCTTTCAATTGTTCAAGATTTTTATCTGAACTAACAGGTGATCCAATAGTAATTCTAATTATTTTGTACTGATTTTTTTTATTTACTAAATAAGAAACATAATCAGAGCTAAATTTCTCAACTGCTTTATATTTTTCAACTTTAACAAAATAATTAACTAAATTAAGTTTAAGTTCATTAAAATTTGTTTTCATATTTTATACACCTATCTTTATAACTCTTTTATTTTATCATTAAATTCCTTTGGTAATTCACATATTAATTCTAATTTTTTATTTGTAATAGGATGATTAAATTCAAGCTTGTAAGCATGCAAATATTGACCAAATTCTAACTTTTGATCTTCTCTATAGGAATAAAGATAATCTCCTAAAACTGGATGTTTAATGTAATTCATATGAACTCTAATTTGATGTGTTCTTCCTGTTTCAATAACACAGCTAATTAAAGTATGTTTTTCAAATCTTTGAATTACCTTAAAATTAGTTTTGGCATGTTTTGAATTAATGTCTGTTACGGTCATTTTTTTTCTATCAGTTTTGTGCCTACCAATTGGTGCATCAATTAATCCTGCATTTGGTTCAATTACTCCATGTACAATTGCATAATACTCTTTGTGAATTTCATTTTTTGATAACATATCTGTTAGTTTTTTATGTGCATTATCATTTTTTGCAACAATCATTATTCCTGTTGTCATTTTATCCAATCTATGAACAATTCCAGGTCTTAAAACTCCACCAATTGAAGATAGATCCTTAATTTTATAAAGTAAAGCATTAACTAATGTTCCTGAAGGATTTCCAGCAGCTGGATGAACTACTAAATTATTAGGTTTATTTAAAACTAAAATATCATTATCCTGATATAAAATTTCAAAATCAATATTTTCTGGTTTAGCACTCATTTCTTCAGGTTCATTAATATTTATTGTAATGATATCTCCAACTAAAAGATTATATTTTGAAGTTGTAAAAGTATTATTTATTAAAATTTCTCCTGAATCAATCATTTTTTGAATATAACTTCTTGAAAAATTATATTCCTGTTTTAAATAATTTGTGAGATATTTATCTAATCTTTCTGAATCATAATCAATCTTTATTTCTATATGATTCATTAATTATTCTCCTTTTTTTCATTTTTTCATTTCATATTAAAACTTTTCATTTTTTGAATATATTCTTTGTAAGAAATTTTATTTTCTGAGTCTTTTTTATAAAAAGTTGATCAATATATTTCAAAAGTAAGTAATTTTTGTGATTGAACATCATTGTATATTTCAAAAAGTTTTTCATTCTTTTTTAATTTTAATTCATAAATTTCACAATATAAATAAATAATTAAAGCAATAATAATTAATATTACCGAGATTGTAACTCAAGCATCAGCTAAATTAAAAATATAACTATCTGATCCTAAAAAACTAAAATCGAATTTTAAAAAATCAACAACACCACCATAAATTCCATTTTCTGTTGGAGGTGCTCAAATTCTAGCAATTAAATTTCCAAGGCTTCCTGCTAACATAAAATTTATACCTAGTATTCATCATTTGTCTTTAACAAAAATAAAAGCAACTATTATAAATAAACTCACAAATATTGCAATAGAAATAGCCAATGTTGGTAAATCTGCATTTATCCCATAAGCTGCGCCAGGATTAATTGTATACTCAAAATTAATTAATCCTGAAATAAATTCTTTATCATCACCCAAATTCATTGTTGAAGTAACTATTCCTTTGCTCAATCAGTCTAAAAAAAGTAAAAAAAGTATGATTGGTAAACATCATACTAATTTGTACTTTAAGATATAATTATAGTTTTTTAAAGTTCCCTTTAAATTAAAAAAGAATTCTTTCATTATTTCACTTCCTAATTTATTACTTCATGACATCTTTGACAAATATCATCTATTAAATTATCAAAAATAGCTCAACATCTTTGACACTTTAATCCTTGTTTTAATTCTACACTAACATTTGCTACTTTATAATTAATATTTTCTTCTCCTGAAATAAATTCAATTGAGTTAACTATTAAAATTTGATACAAATCTTTAATTTTTTTAATATAATCAAAATCTTTTTTTAATTGAATAAATATTTTTGCTTCAAAACCCTTTTTTATAATTTTTTCATTTCTAGCTTTTTCAAGTGCCTCATTTACATCATTTCTAAGTGCAAGAACTGCATTTCAACGATTTACAAATTCATCTTTTTGAATAAAACTTTGTTCTTTTCAATCAACTAAATGAATTGAATCCTCTTTTTTAATGTTTTTCATGTGAGTATAAACTTCTTCAACAGTATGAATTAAAATTGGCTTTAACATATCAAGTAATGCTCATAGTTGTTCATACATTACTGTTTGAACTTGTCTTCTTCTAATTGAATCCTTTGCTTCAACATAGATAATATCTTTAATAAAATCTAAGTAAAATGATGATAAGTCATTTGTAATATAATTATTTATTAACTTAAAAACATTATTAAATTGATAATTTTCAAAAGCTTGTTTTATTTTATCTTTTGTAATTGATAAATTATGTAGTGCAAATAAATCAACTTCTTCTAAATCTTTTTTATAATTTAAATTTGGATCAAAATCAACTAAATTAGATAAAATAAATCGCATTGTATTTCTAATTTTTCTATATGATTCTGAAACTTGTTTTAATATTTCATTTCCAATTCTTTGATCATCTGTAAAGTCTGTTGATAATACTCATAATCTTAAAATATCTGCACCTAATTCATCTGCAATTACTAAAGGATCAATTGTATTTCCAATTGATTTTGACATTTTTTTACCTTTTTCATCATTTGTCATTCCATGAGTTAAAAGTTCTTTGTATGCTGGCTTTCCATCAAAAATAACTGAATTTATCATTGATGAATTAAATCATCCCCTATATTGATCATTTCCTTCCAAATATACATCAAAAGGTCTTTGTAAATTGAAATTTTGCTCTAATGCAATATTTGAACTTCCTGAATCAAATCAAACATCTAAAATATCTTTTTCTTTTGTTCAACCTTGATTTCTATATTTTTCAGGTAAAAAATCATCTGCTGGTAATTCAAATCAAACATTTGTTCCTTTTTGTTTTATTACATCAATTGCATATTTTACAACTTCAAATTCAATATGAGGATTTTTTTGTTTATCAAAAAAAGCTATAATTGGTACTCCTCACAATCTTTGTCTTGAAATAGTTCAATCATTTCTATCTTTTATAATATTTCTTAGTCGTTCTTTTGATCATTCTGGATTAGTTTTAACATTTTCAACAATTACTTTATCAATTTCTTTTTTTACTTTATCTAAACCAATAAATCATTGATGAGTTGCTTTTCACATTACTGGTTTTTTTGTTCTTCAATCATGAGGATATGAATGTTTTATAAATTTTAATTTTAATAAAAGATTTTTTTTACTTAAATATTCTCCAATAATTTTATTTGCATCTTCATAAAAAACTCCTTCCAATTTTTTATCATTTACTGTAACATCAAATTTTCCTTGTTTATCAATTGGTGCAAAAGCTTCTAAATTATTTTCTTTAACTATTTTAAAGTCATCTTCTCCAAATCCCCCAGCTGTATGAACTAAACCTGTTCCTGATTCACTTGTAACATGATCTCCAATTACAGTAAAACCTGTTTTTTGTTCATATCAAGGATGGTGATAATTTATGCCTTTTAACTCAATTCCTTTATATTTATTAATTACTTTAACTTCTTCTCATCCAATAGTTTCACTGACTATTTGTAATAAATCATTTGCAATTATAAAATAGCGAGAATCATTTTTAACAGATATTTGAACATATTCTAAATCACTTGCTATTGCAATTAATTGATTTCCTGGAATTGTTCAAGGTGTTGTTGTTCAAACTACAAAATATGTATTTTCAAATTTTTCATCCTTTATTTGGCAAGCAACATAAATACTCGGTGATTTAACTTCTGCATATTCAATTTCAGCTTCGGCTAATGCAGATTCACTTGAAGGTGATCAAAAAATTGGTTTTAAATCTCTATAAATCAATTGTTTTTCAATCATTTTTAAATAAAGATTTAATTCACTATTTTCAAAATCTTGAGTTAAAGTTATATATTTTACATCATAATCTGTAAAAATACCCAATCTCTTAAATTGTTCAGATTGAATTGAAATTTGTTCAAGTGCATAATTTTTACACATTTCTCTAAAAGTAACAGGACTTAATGTTTTTCTATCTACTCCAGTTTTTGCAATTGCAGTTTCAATTGGTAAACCATGAGTATCTCAACCCATTATATAATTTGAATTAAATCCAATTTGATTTTTTCATCTAACAATAAAATCTTTTAAAATTTTATTTAATGAATGACCCACATGAATATTTCCATTTGCATATGGTGGCCCATCATGAAGAGTGAAAGTAGGTCTATTTTTTACTTGTTTTAATCTTTTATTATATATTTTTTCACTTAATCATTTATTTTGAATTTTTGACTCTTTTAATTTCAAATCCGCTTTCATTTCAAAATCAGTTTGATAAATTAGCAAAGTATCTTTATAATTTTTTTCCATTTTTTAAATTCCCTTCTTAAAAATAAAACACTCCTAAATATAGGAGCGTTTAACCGCGGTACCATCCTATTTATATAATCAAAAAATGATTATATATCTTTTAATAGATTTATACGCAATCCTAACGAGGAGTTCTAATCAGTGTAAAACCTTTCTTCTCCTAATAAAATGAGTGATAAGCTTAAAAACTCCTTGTTAATTCACACCAAACATTAACTCTCTGAAAAGTGTTTTTTAAACTTGTGTCTCATTATTTTCTTCTTTTATTAATTCATCAACCAAAGTTGAGAAATAATCACTGTAATTAAATTTTAAAGTTTCAGAATTAATTGGAAACTCATTTGAAATAACTTGATCAATATTTATTGCAAAGTTGTTTAAGCCAACAAAATTTTTTAATTTACTTTGATCAACATCTTCTTTTAACTGATCTAGTGCTTTTTTATATTTGTTGGTTCGTTAGTTTCACTATTTATATCTTCTACTGTTCCTGCAATTGCACCATATTTATCTGCTAAACCAATTCTTACAGGTTTATTTACAAGTGAATAATAACCTGATCCATTATTTCAAGACAAATCAATTAAACTTCTAATTATTAAATAAAAATATTCAGGTTCTTGAGCACCTAGAGCAGAATATATTATTTCACCCTTTTTTAAATTAACATTTTTACTTGTAATTGTTTCCTTTGCAATAATGCTATATTTAGTTCTAAATATATTTGTAATTAATACATTTATATCTTCATACCATCCTTGTAATGATTCAATAAAAGGAATATAACTTGCAGAATTTCTTTCATAATCTTTTAAAAATAAATATTGTAATTTTGGAGATAATGTTAGATAAAAATTTTTATTTTCTAATCACTTTTCAATCATTACTTCTCTAATAGCTTGAGAAATAGTTTCTTGGCTTTCTCTATTATATAAAGTTTGACCAGAAATTGCTAAATCAATTCCATCTAAATTTAAAGTATCTATTTTTTCTTTTAAAGAAATTTTTAAATCATTTTTTTGGTCTCATGAAAAAAGCATTCTATCTCCTGTTGCGCCACCAAAAAAAGCTATGTATTTTTTTTGATCAATATTTTTATTTCTAGTATTTAAATAATCAATATTTTCCTTAGTTAATCACAAATCAAGATTTGTATCATAATTTTTAGTTGATAATAAATAAGCTAAATTAATAATTGAGTAGCTTGAATCTTTTAAATTTACTAGTAATGTATCTTCTGCAGATAAAGTTTTTGATTCAATTTTAGTTTCTCATTGATACCAATAACCTGATATATTATGCTCAGTATATTCAATTGGTGATTTTGCCTTTATAATATCTGAAACTTTTGCTTTAAAAGTAATTGTTTGATTTCTTTTAACTATTTTTGAATTTAAATTTGATGAAATTTTTGCAGTATATTGCATTATTTCATCTTCTCTTGGTTGAATTGTAGAATTTAGTAAAGTTATTGAAGAAAAATCAAAATAAATATTTACAAGTTTTTCAATATCACTTTCATTTTCTATACTAATTTTATTAATTTCTGCAAGTTTTTTAATAATGTATTTTTGATTAATTATTTCATCATCATTAACTTCAAAATTTCCTAAATCTCATTTTCAATTTAAAGATGAGAGATCTAATATTGTGTTATCAGAACAAGCAATTACAGATGTTGTTGAAGTTGCTACTAAACTTGTTACTGCCAATAAACTAAGTAGTTTTTTCATTTTAAAATCTCTCCCATATATAAAATTATTATACAATAAAACAATTAGTTTTATGAAGTAGTATCTTTATAAATTTTATCAACAATTTTTTTTATTAATTCTTTTAATTCATCTATTTCATCTGTAAGAAAATAATTATTTTTTTCAATAAATTCATCAACATATTTTTCAAAATTATTTTTATCTTTTTGGATTAAATAAAGAGTTTCTGAAATACTTTTTTTAAAATCATGTGTAAAGGTTACTGCTTTAAAGATGATTTTTTCTGCATTTTGTCTTGCAATATCATAAACTTCTTTTGTTTTTTTAATACCTGCTTCTGTATATTCTTCTTTTTTATAATAATTCTCTAATTCTTTTTCTAATTTTTTTATTTTCATTTGTAATTCATTTTTTTCCATTATAAATGTCCTTCAAAATTCCAATTTAAAGAAATTTCTGCAGTTTTTGCAAATTTTTCCTTAAATTCGTCATTTAAACTAACTATTATATTAAAAATTAAGTCAAAAATAATCATCTCTCCAGGAACTGAAGAAATTGATGGATATTTTATCTTATCATCTTTAATAGTTTGAGTTTCTATTATATAAATTTCTTTAATATTAACTTCTGGCTCTAATTGTTTTTTTGTTACTTCAATATCAGCAGTCAATATTAAAATAGGTATTTTTTTTGAGTATGTTCACTTAATTGATTCAATAATTTCTTTTGTTCAACCAGTTCTTGTAATAAAAATTGCAAAATCATTTTCATCAAAAAATATAACTCTTTGAGCATAAGTATGAATATTAGATACTCCTTGAGCTGGGATATCAATTCTTCCTAAGTTAAAAACAAATGAATTTGCACTAGTTTGTTGTTGCTCTAAACCAAAAATAATTATACGATTTGATATATACATTCTTCTTGAAATATCTTCAATTGTTTTATAATGAATATTACTTAAAGTTTCATTAATTGTATAAAGTGCAGCACCTCTAACATTATGAACAATTTGTTCAATTGTTTTATCATCACCCAATTGATAATAATCACTTTCTAATCTTGATTTTTCATAAACAAACATTTGAATTGATTTAAAAGATTTAAATCCCAATTTTTGACAAACTCGCGTCATTGTTGAAGGACTAACATTACTTTCTTTTGAGACTTCTTGAATTGAATGAGTACAAAAAAAAGTCGGATCATTATTGATTAAATTTAAAATTGATTCTTCAGTTGCATTTAACTCTGTTTTATCTAAATCTATAATTTTCATAAATTTCTCCTTATCTATTTTTACCCTTTTTATGCTTTAAATTTTTAAAATTGCTATAACCTTCATTATTTTTAATATAATTACTATCAAAACCTAATTGAGTTAGATGTTGACTTCTTAAATTATTTAATTCTTCAATATTAGTACACCTTTTGATATCTCTAATATATTTTGAAGATAATTTCAAAACAATATTTGCACCATAACCATCTTTTTTTCTTCTTTGCACGTTAATAATTATAAATGTAATTAGTAAAATTGAAAGTATTAGAATAAAAGAAAATGTAATTAAATAAGGAATTAATAAATTTTCTCTTAATTTAAAATCTACTTTATATTGTCCATTATTCTTTCCAAGGTAATTTAAATTTGTTGCATCAACTCAACCAGCCTGCATAACATTCATCATATATCTTTGAGGAACAAAATATAAGACAAAATTTAATCAAGGAGCATTACCTGCAATTGTTTCATAAGGAAATGCACAACCTAGTAAATTATATGAAATCAAATATATTAAACTTGCAATAATATTTCCTCAAGTTTGATTTTTACAAAATACATAAATTGAGTAACTTATTAAAACTGATAAAATTCAAAGTAAAAATGCTCCTGTTAAAAACATAGTCCAATTAACATGTTCAAACATATTCCTTTGTTCTTTAAAAAAGATTATTATTATTGTTAACATTAACATAAGAATTAAAGCATTTATTGTAAATGATGCCAAGATATTTGCAAAAGGCCTTAAAAAACCATTCATACCTGTAAATTTCATTCTTTGACTAAAACCAACAGTTCTGTTCATATTAACATTTCTATAGAAAGTATGAACACCATTTCGTGCTATTAAAGTCCCAATTGCACTTGCAAAAATAAATGGGTCATCACTTTTAAAAAGTAATCAAATTATTAAAATAAAAAGTATTAAAAAAACTCCTAAAAACATATTTAAAGGTGAATAAAGAAAGGATTTTATTGACAAAATATATAAATTATAAAAAATCTTTAAATTTAATTTGAATTTTGTTTTTGTCATTCTTTATTCTCCTTTTTTTATTTTCTTAATTTTTATTTTCTTAATTCTTAATTTTTTCATTTTTTCATTTTTTGGTAATAATGAATTTCATATTTTCATTGCTTCTTCAAGTTCACTAATAGTTGAAGCTCTTTTTATTGAATAAATAATTGCTAAGTGTTTTTTTGTATTTGAATATCTTTTGTATTTTTTGTTTTCATATTCAAATTTCCTTCTAAAAATAAATATCAAAATAATTAAAAAAACTAAAATTAAAATAAAGCTTACAACATAAGGAATTCAAAAATTTCCATTATAACCAAAGGATTCATTTTGCATATAAAAATCATTAATTCAACCTGAATCCATAATATTTAAAACATATCTTTGTGGAAAAAGAAAACTGATTATTATAATAGTTTGAGAGCTTGACAATGTACTGTATGGAATACCCAAACCAAGTAAGTAAACAGAACCAAAATAATAGATATTTCCATAAACTGCTGCTATTTCATATTTTTTTATTGTAAATGCTAAAATGAAGGCAATTAAATTTGACATTAAAAGCAATAAAATAAAGCCAAGAAAAAATGAAAATCAATTAACACTTTGTATAGATTGTCTTTGTTCTGGAAATAACATAGATAAACCAACTAAAAATAAAGTGACACAAGAATTCATAATTTGATTGAATAATATCATTGTTCCAAAAATAAATGTTTTTGATATCTTTGTATTAAAAAGCCTTTCAAAAAATAAAGTTGATTTAAAATCATGAAGAGTTTTATGAAAATTAAATAAACAATTTCTTATTCCACTAATACCAATAGCACTAGCAAGAACGAATTCATCATAAGTCATTGAACCAGAATTTTTGAATGCTAATCACACAACTAAAGTAATTGTTGTAATTACTCAACCAGAAAAAATATTAAAGCTATCTTTTTTATAATTATCTCATTGAATTTTTCAAATAGATTTAAAAATACTTCATCTTGATTGTTGCATAATTCATTCTCCATTAATTAGTAGTTTGTTTTTTTATTTTTTCTTGTCTTTTAAAATTTCTGTTTTCTAATTTCATTATTCTTATTTCTTCTTGAATATACTTTTTCTTTAAAAAAAATAACTCTGTGACTTCCTTTTTAGTCAATTCTGCTGTTAATTCATTTTCATTAACTAAAAATTTACTTGATTTAAAATTGAGGTATAATTCTTCTTCTAGATATTTTAAAAACATTGCAATTTTTTTAAAAAAAGTTAAGGCAGATTTTTTGTACTCTACTTTATTATCCATTTTATTAAATTGTCTTTTAGTTTTTTTGATTAATTTAATTAATTTTTTTGTGTTATTTTTAACATCATCAACATTTTTTTTATTTAAGGCTGATGTTGAAATATTAATTAATTGGTCATGTAATTCATTAACATGAAAATTTATATTTTTTATATAAATAATTTTTTCTTCATTTTCAAATTGAACATTTTTTTCTAAAAAAGTTAAAAATTTTGCTCTAAATTTTTCTAATTGACTTTCATATTTTCTTAAAATTGGTTTAAAAACTGGATCTGGATTAATATTGACTTCTTTTTCTGCAATTGCTTGCATTATTTGCAATGAATATTTATCAAAATCTAAATTTTCATTTCATTCAGAAATATAATCATCAGATATAATAAGTCCATTATCTAAAACAATAATTCTTTTACATAAATAATTAAAAGTAGTTTCATCTGGTGAAATTATTATAAAAGTTGCCTTGTTTTCATCTCTATATTTTTTTAAAAAACTTAATACTTTCACTTTAAAGTCTATTCCTATAGTAGATGAAACTTCATCTAAAACAACAAATTCTGGTTTATGAAGTATGGCAAGGGCTATAGAAAATAATTGTAATCAAGAATTATTACACATTGATAAAGTTTTTTCTCACCTTGATGAAATATCAAAAACATTTAAGATTTCATCTAATCATTCCTTATCTTTCATATTATAAATATTTTTATACAATTCAAAAATATCTTTAACTTTAAAACCATCAGGTCAAGATGTTTGTCTAAATTGAAAACCAATTGAACTTAATGCATCTCCATTTGAAAAGTAATATTCTATGATTCCACCTGTTTGTTTTATTTGACTTGCAATTAATCTTCCTAAAACACTTTTACCAGATTGATTTGGTCCAATAAGAGCAATACCTTCACCTTTATAAATTTTCAAATTTATCTTTTTAATTGCTCAAACTTTTTTGTTAAATATTTTTGAAACATTTTCTAAAACTACAATTAATTCTTTTTTATTCATATACTCACCTATTTAACTTTTTTAATAAAATCCTCTACAAGTTTTCAATACATTTTATTATGACTAATTTGTGTTCTAATATGTTCTCCTGTTTGAAAAATATGAATCACATCTTTTTCATTTAAAATTTTTCTTAAACTATAAAGTTTTTCACTATCAACATAATCTGTAATTTTATCTTCTTTGGAATGAATAAATAAAATAGGAAAAGATTCTTTACATAAAGGTAACATGTATTTTGGTGTATTTCCTTTTACATCGATATTATGATTTTGATTATACACTTCTATTACGTCTTCTACTAGTCCATCTAAAAAATTTCCAACTAGAGGTCCTCCAATTGTATTTATTATTTTTTTTAAAACTTTTTCTGTTTCAAAATAGGAAGAATCAGAAATTCCAAATGAAATTTTATATTTTTTTGGATTTATATCTAATGCTAATCTATTTAAAGTATGAGCACCCATACTAAAACCAATAAAAGCAATTTCTTTTGGATTAAAATTTTCTTTAAGGTAGTTTAGAGTTGCTTCTAAATCTTTTTGTTCATTTATTCCTAAAGTAATTTGAGCATCATCTGATTCTCCATGATTTCTAAAATCGAATGAAAAAATATTATATCCTAAACTATTAAAATAATATGCTCCCACAGCTGATGCTTCTTTTGAAGAAGAATAACCATGAATTGATATAATTCATTTTTTTGTTTTTTTTGGATTCAAATGATAAATGCCAACAATATTTTTATTGTCAAAAGATTTATATTCTACTCTATTAAAATTATTTAGATTTAACTCAAGAATTTTTTCATCTTTAATTTCATTTGCAATCGCTTGTAAATAAATTTTAAGTAAATTTTTATATCCTTGATTTTTATATAATTCAAAATTATTTCTATTTTTATCATTTAAAATTTGAACTATTTTTTCAGTTATTTTACTAGCCATTTTTACACCTCAATAATATAATAAAATAAAAATTCTACATTAGTAGAATTTTTATTTTATTATAGTCAGTGTACTATTCCTTCTCTATGAGTAGTCCAATCAGCATCGACTTCTTTTTTATTTTGATTAAATGTTTTCATAAAATCATTTATTTGTTCTCTTGTTCATAATTTTTGACTTATTTTTGCACCATAATAACTATATTGTGCAGTTCCAAATGCTTCATAAGATTTTGAATATGGAATTAAATTGCTAACTGTTCAAGTAATTGGCATTGCTCTTGTATACAAAGGAAGTCCAATAAATGTTTCATAGAAAAATGAATATTCTTGTTCTGCAAAATTTTTATAACGCTCTTGTTCTTCAGTTATATTTGCATCAATATCTGAAGTTTTATTTGTATAATTAATTCATGCTTCTAATAAATCTTTTGCAGCTGAACTGTTATCATTATTAGTAGCAGAAAATGCTATTTCATAATCATCTACAGAAATTGCTTTTGTTAAATTAGATTTAGTTTCTCCTTTCTTTTTAAATAATTTTGTATTTCCATTATAATTTGAATATGCTCCACCAAGAAATTGTGTTTCTAAGAATGAAGAAGGATCTTTATAGTCAGGTGATCATCCAGATATGAATAGATCAAATTTTCCAGATTGTGCTTTTGTAACATATTCATCTGTTGAAACTGGTGTTGTACTTTCAACATAAATTGGATTATTTTCTATTGAATTAAATGTTTTAATCATGTAGTTTACATATGGATTTGTAGAAACACTTCCTGATGGTGAAAGTAAAAATGATAATTTAACTTTTCCATCTTTATTTTTTACTAATTCATTTTTTGAAATAAATTGATTAATTGAATCCATTAATTCATTTCTAGATTTTCCATATAATTTTTGAGAGTTATCCAAGAATACATCTTTTCCATCTTGTAATGAATACGAATCATCAGTTGGTGGAGTAGTTCCTGTTTTATTATCATAAACATCTGAAACAAATTTTGTGTAATCTTTTCCTTCAAAACCAGCAACTTCTGTTCCTGTAAATGTATTTCTAAGCATTTTTGAAGGTTCACCAACTTCATCAATTGTTTTTGAAAAGTATCTTACAAATTTACTTCTGTCAAATGTAGTTGATAGAAAAGCTCTTACATCCTTTGATTGTAATAATTTTGAAGCTGATTCAGCAATTTTTTGCTCAGTTGGATTTGAAGCATCATTCATATTTCAATTATAAAAATTGTAAAATATTAAAAATGACGCTGCACTATCTGCAGATTTAGTTGTATATGCTCCATCAAAAATTGGATTTTCATAATCATCTCCGATATATGTTTTTCAACCTTTTAAATCATCTGCTGAAATATTAAATCCTGTAGTTGAACCTGATTCAAATAATGTTCTTGTTCTAGATGAAGAAGAACCTTCAAGATAACTATATTCAATTGTTTCAATATTTACATTATCTTTTAAAGGATAATCTTTATTTTTTTGAAGAATTATTTTTCCATTTGGATTAACTTCTTTTGGTAAAAATGCTCCATTATATCAAGTTTTAGTATAGTCAGTAATTACACCTGAGTATGCTTCAATAATTGGTGAAAACACTGAATATGTTAACAAACTTTCAAAGTATGGTGCAGATTTAACTAACTTAAAAGTTACAGTTTTTTCTTCATCATTTGCTATAATTCCAAATTTATTATTATTGATATAATCTTTAAATATTCTTTCTACAATTTCTTCTGAACTTTTTTTACTTTCTTTACTTTCTTTACTTTCTTTACTTTCTTTATCAATTTGTGCATTTATTTCTGCTGCTCCAACAATAAATGATGTTCATAAACTACTAACATCAGAACCATTTGCTGAAACTAAAGCATATTTTGCAGCTGTTATAATATCACTTGGTAAAACATCTCTTTGTATCACACCATTATGATCACTTCATTTAGCTTCATTTCTTATTTTATAAGTTCACTCTGTTTTATTATCATTTGTATCTCCAACATATGAATATTTATCATCATTTGAATGTTTTGATTGACCATATGTACTTTCAACAAGAGAACCATAAATTCTCCCATATTCATCAGTTTTTAATAGTGTATCAAATACATTTGATAATACTCTTTGATCTTCTGCTTGCATAGTGTGTGCAGTATTTCAACTTGTAATATTAAATGAATAAGTATCTTTAAACACATTTGGGTCAACAATTCTATTCATAAGTGAATCAAGAGAAATTCCACAAGCAACAATCGAAGAAGTAACTAATGTAGTTCCTAATGTAAAGCTAAATAACCCTAATGTTTTTTTCAAAAAATTTTTTGCCATAGTTATTTTCCTTTCTCTATTTTAACTTTCTTTTAATTTCTCTAATCTCTCTCTTATTTGCTCATACAAAATGACCTGGTAGAACTTCTTTAAAATAAGGTAAATCAAAAATATAATCTCTATGTTCTTCTTCTGGAATATAAACAATTAATTCTGTTTGCTTTGCAAGTTCAGGAACTGGAATTGGAATTGCAGATAACAATGCTTTTGTATATGGGTGTAAAGGATTTCTAAATAATTCCTCAGCAGGAGCTAATTCAACAATTTCACCATGATATATTACAGCAATTCTATCAGCAATGTGTCTTACAACTGAAAGATCGTGAGCGATAAATACATATGTTAAATCCAATTCTTCTTGAAATTTTTTAAATAAATTTAAAACCTGTGCTCTAATTGAAACATCAAGAGCACTAATTGGTTCATCAGCAATAATTAATTTTGGCTTCATTGCTAAGCTTCTTGCAATTCCAACACGTTGTCTTTGACCTCCCGAAAATTCATGTGGGTATCTTGACAGATGTTCTGGTAATAAACCAACAGATTTAATTAATTTTAAAATAATATGTTTTTTTACTAAATTTGGAGTTGCTTGTTCTATTGTTATCATACTATCGGGATTTTGTTCATTAAATTCCTTAACATACAATTCCTTAAAAATTTCTCCTTTATATAATTCAGGGAAATTTTCCATACCTTCTGCAATTATTTCTTCAATTGCCATTCTATCATTTAATGATGAACCTGGATCTTGAAAAATCATTTGAATATTTTTTCTAATTTCTCTTTTTTCTTTTTTTGTTTGTTTTTGAAAAAAGAAAGATTTTTTTACTATTTCATCAATTGATGGTAATTCTAAAAAATCACTAAGTTCTATAAATGATTGAATTTCTTCTTCTGTATAATTTCTTTCTATACCTTTTCATTTATAAAAGTACTCAATTAATTCTTTATCTTTTATGATATTTTTTTCAATAATTTTTTCAATACTTTTAAGTTCATCCTTCAATTGTTTTAATTGATTTTCAGTAATAGATTTTTTTTCTTTTATTATTAATTTTAATTTATCCTCAAATTCAGTATTTTTTAAACTTGAAGATAAAATTTCTAATTGTGAATAATCAATATTTTGATTTTCAAATATTTTAAGAATTTTTTTACAATTATTTAAATTCATATTTTTTCTTGATCAAAAATCAGTCTTAAAGTAATTTATTTTTTTAAATTCTAAATCATTAAAATCTGTATTATTACTCTCTAAAATTTTTAATTGTTTATTGCACTCTTGAAAAAAATCATCACGTCTTACATAAAGTAATTTATTATAATAATTAATAAACTTTTCACGGCTCTTTAATGGAGCTGATAAGGCATGCAATTGAAATTGCATTTCCTTAACTCAAACTAGTTTTGCTAAAAATTCCTTATGATTTTCAACCATTTCTTTTCAAAGAGCAAATAAAATTTTAAAAGTTTCTTCCACATTTTTAGATTTTAATTTAAAATATTTTTCTCTTTCTTTTGCGATATTATTACAAATTTTATAAATATTTTCAGCATTCTCTTTTAAATCTAACACTGCTTCTTTTGTTTCTTTTAATTTTGAAATAACAGAAGTTTCTAATTTTTTTGATAACTCAGGAATATAACTATTTAAATTATCTACAAATTTAATCATTTTATCTTCATTTTTGATAATTTTATTTATATACTTTAAGTTTGACAATAAAATTCCATTTAAATAAGTTAATTTTCCTGCTTTTAACTTCATTTCCAATTCTTTTTCAATATCTAAAGATAAATTATTTTTAAATTTATTATAAACTTCTTTTAAAGCTTTAATTCTTGATTGAATTTCTTGAGTTGTAATATCCATTTTTAATGACATATTATCAACTTTTTTTGAAATTTCTTTATTTAAATTATATAAACTTGTTGGTTTTCCAACAACAATAGAATCCTCCATATAAATTGCACCATTTTTTAAAGGTTGTACTCCAACAATTGCTCTTCCAATTGTTGTTTTTCCACTTCCTGATTCACCAACTAAACCAAATATTTCTCCTTTATAGATATCAAAACTAGTTTCTTTTACAGCATTAAATTTTTTGCCCTTATTGCGAAATTCAATCACTATATCTCTAATATTTAATAATACATCTTTATTAATTTCTATTGACATAATATTAACCTACCTTTTCTGCTTCTATAATTCTTTGAGTTAAATTTTTTAAAATATTTGGTTTTTCTATTTTTGGTGATCTTGAATCTAAAAGTCAAGTTTTAGCAAAATGAGTTTCAGAAATTTTAAACATTGGAGGTTCTTTAATATAATCAAGTTCTAATGCATATTTATTTCTTGGAGCAAATGCATCTCCTACAATTTCATTAAATAGTGATGGAGGAGTTCCTTCAATTGAGTACAATTCATCTCCTTTTTTACCAAGTTGAGGTAAAGAAGATAATAACGCTCAAGTATAAGGATGTTTTGCATTTTCAAAAATATCTGTTGCTGTTCCAACTTCAACAATTTGTCCTGCATACATAACAGCAACTCTATCTGCAATTTTTGCAACAACTCCTAAATCATGAGTTATAAAAATTACAGTAAATTTATATTCTTTTTGTAAATTTTTAATTAAATCTAAAATTTGAGCTTGAATTGTAACATCAAGTGCTGTTGTTGGTTCATCACAAATTAATATCTTTGGTCTACATGCTAAAGCAATTGCAATTACAACTCTTTGTCTCATACCCCCAGAATATCTTCCAGGAATATCTTTAAAACGTTTTTCAGGATCTGGAATACCAACTTTTCTTAAAAGTTCTATTGCCTCCTTTTTAGCCTCCACTTTTGAAAGTCCTATTTGCTTTCTTAAAACTTCAGTTATTTGAAATCCAACAGGCAATAAGGGATTTAAAGAAGTCATGGGATCTTGAAAAATTGTAGAAATAGTTTTCCCTCTTAATTGTCTTATTTCTTTTAAAGCTTTAATTTTATTTACTACATCAGAATTTTTTACTCTCTTTCAATCAACTAAAATATTATAAAAGTGAGCTTGATCAAGTTTTTGTGTATTGATAATTGAATAAGAAAGAATTTGTAATTCCTTTTCAAATCTATTTAAATATTCTTTTGTTGAAAAATATTCATTAACAAATTTGACTTCTTCATCATTTCAAGCCATATTAGTTGATATAAAATTTTCAATCATTGCAATTATTTTTGAAATCTTATTTCTACTTTTTAAAGTTAAGGGTTTAATTTTATTAATATCAATTTTATATTTTAAAATTTCTAAATATTTCTCTTTTATAACTTCATCTCTATAATTATTATCATTAATAAATTTTATAGTATCTTTAATAACCAAAATTTTAGCCTTTGTTTTTAAAATTTTATTATTTCTTTTATTACTTCCATTAAAATCGACATTTGATTCCAATATACTTAATTCTTCTTCTTTTTTAGTTAAATAATTTTTAAATTTCAAATTATTTTCCTCTTTTATTTGTTTAATATTATGTTCATTAATTAAAAAATCTTGAAAATAATTATCATAAGTTTGAATATTTGCTTTTATTAGTTCTGTAATTTGCTCATTTGTTTCATTTAATAATGAATTTTCTAATCTGAATAAATCAAGCTCCTTTTTAATAATATTTTTTGAATATTTTGGATTTAATTTATAAATTTTTTTAATTTCCTCAATAAGATTTTTAATCTTTAAATTATTTATTTTAACAACAGTTTTAATTGAATCTTTTGTAATTAATGGACTTTGTAAATTTACAATATCAATTGGTTCTTTAAAGTAAGTTTTTTCATCACTAATTGAATTTTGATTTGGTCTATAAACAATTGAACCATTACTAATTCATCCATTTGCTTCAAGCATTCCAGTAAATGTTTTTGTAATAACTGATTTTCCACTTCCCGATTCACCAACAATTGCCAAAACTTCTTGATCATAAATTTCTAAATCCACATTTCTAATTGCAGTAAGAAATCTTCCTCTTACTTGAAATTTTACTTCCATATTTCTTACAGATAAAATTCTATTTTCTTTATTCATAAAAATTTTTTTCCTATCTATGTGTTTTTGGGTCTAATGAATCTGCAAATACTTTTCCAACAAGGAAAAATAATAATGAAATTCCACCAACAAAAACTACTGGAATAATTAAAAGATGTGGATAAACTTCTCAGTCTGAACCTAATAATAATTCATTAAGAATTGAACCAAGAGAAGCTTGATCTAAAGTATTTGTTACAAATCCAAAGTTATAATAAGCTAATAATGAATCTATTGCTATTGCTGTTGGTATTGCAAAAGTTGAAGTTTGGATAACTATTGGCAAAATTTTTGGCATAATATTTTTTCTAATAATTTTAGGTCCTCTTGTTCCTAAAACTCTTGAAGCAATATTATATTCTGCATTTCTAATAATCATAATTTGAACTCTTATAATTCCTGCAAGAGCAATTCAACTTGTTATTGATATTGCAAAAATTAAAATTGGTAATGAAGTGGAACCTCCAAATAAAAATATAACAATTAATCATAAGATTAATGATGGAATAAGACTTAAAAATCTTGTTATTTCAATAAACACCATATCTAATTTTGAGTAAAATCCTCAAATGGCTCCTAATAAAATTCCTAATAAAATTTGAATTGATGCAACAAATAAAGTAAATATTAATGTTGTTCTAGTTCCAACTCACATTTTTGTTCATAAGTCTTCTCCAAATTTTCCCAATCCAAATAAATGATCTCAACTTGGTGATTCAATATCAACTCCTGGTGTATCTACTGGAACAGGTTCTGCACCAATTCCTATAGAAAATGCCATTAAAATAATTGTAATTAATAAAATTGATGAAATAATAAATGTCTTTGATTTAATAATTCTTGCAAATACTGATTTTCAATAACTATATGGTTTATTGCTTATTTTTTCTGCTTCCTCAAGTTTGCTTCCCACAACTGTAAATAATGAATTATTAATAGAATTCATTTCTTCTTGTGAATATTGTTTTTGTTCCATAATAATTCCTCCTATTTTTTAGTTAATTTAATTCTTGGATCTAACATTGCTAGTAGTAAATCTCCAACTAAACTTGAAAATACTCCAGCAGAAGCAGAAACAAAAATATATCCTAAAACAACAAATGTATCTTTATTTGCAACACCATTTAAAATGAACTTACTCATTCCATCAATTGATCAATGTCTTTCAACCAAGATACTTGAACCAAATAATGTAATTATAAACACTTCAGGCATAGTTTTAATTAATCTAATACCTGCATTTCTAAAGATATGAATATAAAATACATATTTTTCACTTAATCCTTTTGATAAAGCAAATTTTGCATAATCTGCTGTCATTTCATCAATTACATATCTTCGAGTACTTACAATAATCATTGGCATTATAAGTAACATAACCCCAATTACTGGTCAAATTTTAGTTCCAAAAGAAGAACCATCATATGTTCCATTTGCACCAAATACATAAATTGACATTTTATATAATAGTGAAATCAATACTAATGCAGGAATTGCACTAATTATTAAACTTGTACCATTAATTGCACTATCCGATGATTTATCTTTATTTTTTGCAGCAAGAATCCCCAAAGGAACACCTAAAATATAAGAAAATACAACTGCAATAGATCCAACTGCAAATGATGTTGGAATAGATCTTGCAAATGCATCTTGAACAAGAGATAAAACTTGTCCTCCACTTGCTTTATTCATAAACACACCTAAATAAAATCACATTTGTTTATGTTCTCCAAGAACATTTCCTGAAGTATCAACAACAGGATTTAATAAAATGTCTTTAGGTATAAATGGTGTTATATTTCTTAAATAAATAAATAATTGAGTAATTAAAGAACCATCTACTCCAAATGCTTTCATTCTATTATTTAGCAAATTATAGTATGCATCTGTTCCAAATTCTATTCCCATTTTTTCTAGATTAATATCTGCTAAATAAGCAGAATCTGTTGTTACAATTCTTAACATTATAAATACAAAAGCTATTGCAATATATAATGTTATAAAAGCATAAAATATTCTTTTTAATGAGTAACTAAAAAGTGGTGTCTTATCCATAAAATCTTCAAATGAAGAGTTAACTTTATTTAATCCAAATTTTAGTTTTTCAAATTTACTAGTTCTCAAATTAATTATTTCATTATCTAAATTTGTACTTTCTACAAGTTCATCTAACGAGAGATCACTAATTTCTGAACTATTTTTTTCTAGTTTCATATTGATAAAATTTCCTTTCTATATTAGCTTTTATATGCTACTCTTATATAATAAATAGAGGAGTAAACACATGAAAGAACAAAAAAATACAAGTAATTTAAAAAAATTAAAAGATTTACGTGAGCAAGAAAAGTTAGCTCACAAACAAGAGATATCAGATAAAGTTAAAAAACTTAATTCAGATCCTCTTGAAACTAGAACAAAGTTTATTCATTCTAAAAAACTTCGCTGATATGATTATTTAATCATATTTGGTTTTAGTACATTTATTATAGGTTTAGCTTTTATTTTAGGTATTTTTGCTTTCCAAAACATTGAAAAAACTGAATGAATTATAACTGCAATTGCAGTATTTGGTTTACTAGTTTGATTAATTCTTGGATGATACAAAAATAAACAAGTTGCTAAATTTTATAATGATGTACGAAGAAGATATCAATCTTCTCTTTCTGAAGAAGAAGGACATTTAAGAAGAATTTCTAAAATTATTCTTCTTATTTGTTTAATATTGGTTATAACTTCAATAATTCTTGGACTTATACTTTGAGTATAAGTTTTTTTATATTCTTAAAAAAAGAGTATTTTAATTTAGAAGTGTAGTAAATTTTATTACCTAATTACTTATAAATTAAAATACTCTTAGTATTATTAGAAACCTATTAAAAATTAAATATTTTATATCAATATCATTTAGAATAGTTTTTTAAATTTTATAAACAACTGGGTCATTTTACCATATCTTTTTCATTTCATTTATACGCTCTACGACTCATTACATTGCCTTTAAAAAACTTATTTTTAAATGACAATGGAGAAAACACAAAAAAGACACAAAATTTATTAACTTTTTTTAATATAGAATGCACCATTTATTCTGGTCTCCTTCATCGTCTAAAACAATAGTACCAAATATAGAAAAATTTTCAATCATTAGATATAAAAAAATAAAATTAAAAAACTTTACATTAAAAATGTAAAGTTTAATAAATTATTTAAGCTTTTCAAGCAGATGAATTTTGATGTAATTTTGGATCACCTATAACATCTGCTAATGCACTTTCAAATGCTGCTTTTAATTCTTTTATTTTTTCTGCAGACAATAATTCAGTATTTAATTCAACATCTCAATATCTATATTTTCCAAGCCCATATGGAGCTGTTGATTTTGAAAATGGTTGACTATATGAAACACTAAATTCTACTGGTGCAGCTTTTGTAAAAATTGGTAATAAATATGCATTTTCATATATTAATGTTGCTTCTTCATCAGCAAAATGTTCCATTCTTATATCTTCTGATTCACTTTCATCAATTGATTTAATTTTTTGTGAATAATTTGAAAGTAGTTCAAAATGATTTTTACTTACATCATCAGTTTCTACAAGAACTTTCGAATTAATATCAGTTTTAACACTATCTCATTTATTTTCATCTAATGAAAGATCCACTGAAGAATCTAAATTTTTATACATTCTGTTTGAACCCACATAGTTCTCTAAATCTCCACCAATTCTGTAAGTTGATAGATATGTATATGGATCTGCATAATCAGCACTTCATCCACTTAATGATAAGTAAATTTTTCCTTCATTTGTAATTTGTTTGTAATCATTTGCACTATTTACTCCTGAAGATTGAATAATTTCAATTTGATTTCCAGCAATACTATTAAATCCAGCAAACATATCTAATAATTTTGGATTTAAAGTACTATTATCATCTGGATTCAATGGAAACTCTAACTTTAATTTTCCACCATTTGCAGCTAAATAACTTTTTATAGCTTCATCTTTTTCAAAGTAATCTGCAACAGCTTTTAGCTGTTCTTGAAGAGTTCCTCCAGCATAATTTTCATTTTCATAGAAAAATTCTTTTCCATCTGCTAAATCACCATTTTTTATATCACTAAAGTCATCTTTTTTCTGTAATGATTCTGTCAAGAAACTAACATAATCTTTTCCATTTGATTCAATAAAATCAGGTGTATATGTATTTCTTATCATTTTTGAAGGTTCACCATCTTTATCAAAAGCAGATGAAAAGTAAGATACATATTTTGATCTATCTAAATTTGCAGATATAAACTTTCTTACTACTGGATTTTGTAAAGCTCTACTTGCAATAACTGCTTTTTGACTTACAGCTGAATTTGTTGATTCAATGTTTGAATTATATATATTAAACATTAATGTCATTGACGAAGAAACATCGAGTGAAGCACTTGAAGACATTCCTGCTGTTGCATTAGGGTTTTCTCAGTTTCCAACATACTTTTGTCACCCCGCAGTATCTGCAACTGCTGGTCTAAATGCATCAAGTGCTTTAGATTCAAATAATGTTCTTGTTTTATCTGACCCCCCAGTAATATAAACATATTTTAATCTATTTATATGTGTATCTTCTACTAAGTGATAGTTTGGGTTTTTATCAAGTATAATGTTACCTGTATTTACATAACTTGTTGGTAAAAATGCTCCTGAGTAATAACCTTTTCTATAGTCACTATCTGCTAATGGATTTGTAACTGCTGCTGAGTAAATTGGTGAAAACACTGAATATGTTAATAGTGTTTCAAAATAACTAGCAGATTTTTTTAATTTAAAAGTTACTGTATTTGCAGATTCATCAACCACAATTCCAAGACCAGCTTTATTTGCTTCTCAAATTGAATCAAAACTTCCATTTGGATCTGCTTTTGAAGCTACATATATTTCATCAGTTCCTTTTATAAATGATGTTCAAATACTAATAACTTCAGAACCATTTGACGCATTTAAAACATATTTTGCTGCATTTAAAAAGTCCGAAGCTGTTAATGTTGCAATTTTATTTCCTTGATAATCACTTCAAGTCGCATCACTTCTAACTTTATAAGTAAATTCTGTAAAATTCTCATTGTGATTACCGATATATGTATTTGTTTTACTATAATCTGTATTTGTCAATTCAAATATATCACCATAAATTCTTCCATATTGATCTGAAGCAAGTGGTGTAGCATTTGTATTTGCCAATATTGTATGATCTTCTGAGTGCATTGTATATGCTGTATTTCAGTGACCAACAGGCAATGAATAGCCTAGTTTAAAAGTATTTTCTGGATCTGCATTTGATCCACAAGCAATAACGCTTAAAGTTGTTGAACTAATTAGAGTTACACCCATTAGTCCAAATAATAATTTTTTCATTTTCTTTTCTCCTTTTTTATAATTTATCTTTTATTTCTTTTAATTCTCTTTTGTTTAAATAAACAAAGTGATTTGGTTTAATTTCTGTAAATCTTGGTAAATCGAACATATAATCACTATGTTCTTTTTCAGAATTATAAATAATACTTTTTTCTTTTTTTGCCAATTCTGGTTCGGGAATTGGAATTGAACTTAATAATGCTTTTGTATAAGGATGCAATGGATTAATAAATAATTCATTTGCATCTGCTAATTCTACAATTTGACCATGATAAATAACTGCAATTCTATCAGCTATAAAATGCACAACACTTAAATCATGTGCCACAAATATAAAAGTAATACCTAATTCTTCTTTAAATTTTTTAAATAAATTTAAAACTTGTGCTCTAATTGAAACATCCAAAGCACTAATTGGTTCATCAGCAACAATAATTTTTGGTTTCATAATCAAACTTCTTGCAATTCCAATTCTTTGACGTTGACCACCTGAGAATTCATGTGGATATCTTGATAAATGCTCGGGAATTAAGCCAACAGATGTTAATGCATTTAAAATTAAATATTTTTTAACATCTTTATTTTTAACTTGCTCTAATGTAATTTTTTGTTCTGGATTTAATTGATTATAATTAATCATATATTCATTCCTAATTTCCTCAGATTTATATAATTCGGGGAAATTCTCTAATCCTTCGCCAATAATTTCTTCAACAGCCATTCTATCATTTAATGATGAGCCTGGATCTTGAAAAATCATTTGAACATTTTTTCTAATCTGTTTTTTTTCTTTTTTTGTTTGTCCTTTAAAAAGATATGATTTATTAACTATTTCATCAATTGAAGGCATCTCCAAAAATTGCACAAATTCCTCTAAATTTTGTCATTCTTCTAAAGAAATATCTGATTCAATATTTTTTCAAAGCATATATTCATCAATAAGTTCTCTATCCTTAATAATATTTCTTTTAACAATTTTTTTTATATAATCAAATTCCTTAACTTTATCATTCAAATTTTTTTGAGAAATATTATTATTAATTAAAATATCTTTCAATTCATTTTCAAAATCAGTATTTTTCAAATCCTTTGAAATTGATTTTAACATTGAAAAATTTGGATTTACCTTTTGCATTTCAGTTAAAATTTTTGTACAACCATTGATATTCATATTATTTTTTGATCAAAAATCATTAATAAAATAATTATATTTTGCAAGAGTTTCATCTTTTTCAAAATTTGGTTTTTCTTTCAATAATTCTATTTGTCTTTTGCATTCAATTAAAAAATCATTTCTATTAATAAATATTTTTTTATAATAATAATTTAAAAATTTATTTTTTCTTTTAAAAGGTGCAGATAACGCTTGATTTTCATATTGATAGTTTATTGTTTCATCAAGTTTTTCTAAAAATTTCTTATGATTTATTATTATTTTATCCAATTTTTGAAAAATATTTATAAAAATTGTTTTAACATCAATATCTTCACAAGTGTATTTTTTTTGTAATTTTAAAATTGGCTGTGCAATTTCATAAATTTCATCTAATAGTTTCTTTAGCTGTAAAATACTATTTTTTACCTGATTTTGTTTTAATAAAATTGTTTTTTCTAAGTCTAATGAGATTTCATCAATTGATTTACTTATATTTGTAATAAATCTAATAATTCTTTCTTCATTAAGAAGAATTCTATTAATATACTTTAAATTTGAAAGAAATATATTATCAATAAATTCAACTTCATTTTTTTTAAAATTTTTTTTAAAATCTTCATTTGAAAAATTTTCAAAATTTGGATTTTGTTTATAATTTTTTTTTAAATTATTTATAAAATCATTTAAATAAATAGTTGTTGCATTCATTTTTATTTTCATGCTATACAATTTTTTTGTAATTTCTTTATTTAAAATAAATAATCTTGCAGATTTTCCAGCAATAATATCATTTTCCATATAAATTGCACCATCTTTTAATTGTTGAATTCCTACAATTGCTCTTTCTAAAGTAGTTTTTCCACTACCTGACTCTCCTACTAAACCTAAAATCTCTCCCTTTTTTATATTAAGATTAGTTTCTTTTACGGCATTTAATTTAGAACCTTTTGATCTAAAGACAACTTTTGCGTCTCTTATTTTCAAAAATGCATTTTCTTCATAAAATTTACTCATAAAATTCCCTTTCTATTCTTTCATTTTAGATTTTAAATTTATAATTTCTTTTGGTTTTTCAACTTTAGGAGCTCTTTTATCAAGCAATCAAGTCTTTGCAAAATGAGTTTCAGAAACTTTAAACATCGGTGGTTCAAAATTTAAATCAACTTCCATTGCATAATTACTTCTTGATGCAAATGCATCCCCCTCAATTTTGTTAAATAAAGATGGAGGTGTTCCTTTAATAAAGAATAAATCATCTCCCTTTGTACCAAGTTGAGGTAAAGAATACAACAATGCTCATGTATATGGGTGTTTTGGATCATAGAAAATATCTTCTGTTGTTCCAATTTCAATTATTTGTCCTGCATACATAACTGCTATTCTATCAGCTAATTTTGCAACAACACCTAAGTCATGAGTTATAAAAATTACTGTAAATTTATATTCTTCTTGTAATTCTTTTATTAAATCTAAAATTTGTGCTTGAATTGTAACATCAAGTGCTGTTGTTGGTTCATCACAAATTAATATCTTTGGTCTACATGCTAAAGCAATTGCAATTACAACTCTTTGTCTCATACCTCCAGAATATCTTCCAGGTATATCTTTATATCTCTTTTCTGGATCTGGTATTCCAACTTTTCTTAAAAGTTCTATTGCCTCTTTTTTCGCAGAACTTCTACTCATTTTAAGTTGCTTTATTAAAATTTCAGAAATCTGAAAGCCCACTGATAATAATGGATTTAATGAAGTCATTGGATCTTGAAAAATTGTTGAAATAGTTTTTCCACGTAATTTTCTTATTTCTTTTATTGCTTTAATTTTATTAATAAAACTAAAATTTTTAATTTTACTTCAATCTAATAAAATATTATTTAAATGATCTTCATCTATTTTTTTTTCATTTATGAAATTATCAATTAGGTCTTTTAATTCTAATTCAAATTTCTTAAAATGTTTCTTATTTATAAAATAATTATTTATAAAATCAATATTTTCCTGATTTAATTCAACATTATTTTCATAACTTTTCTTTAGAACTTCAATCATTATTGATATTTTTCTTCTTTCAAAAAAGTTTAAGTGTTTAATTTTTGAAATATCAATTTTTAATAATTCAATACTATTTTGTAAATCACTAATTATGTCATTTTTATATTCATCGTTAGAAGATATTTTTTTCAGTTCTTCTAAGTTATTTAGTCTAAATGTCAATCTATCAATTTTAATACTAGCATTATTTTTTTTAGAGAAAAAAATTTTCTCTTGTTGTTCAGTAATTTTTCTTCCAATTTCTAAAATTTGATTTTCGGTTTTTTGACTGTCTATTCCATTTATTTTTTTTATTTTTTTATCAATTTTTCTTATCTTTCTTTTAGTAATTTTGATAATTGATTTAATTGTAGTTTTTTCCATTAATTGATTTTGAAAATTAACTAAATCAATTGGTTTTTTAAAATATGTATTTTTATCATTTTGGGACTCAAAGTTTGGAGAATAAACTATTGACCCATCACTTATTCACCCATTATTTTCAAGCATTCCTGTAAAAGTTTTTGTAATAACTGATTTTCCACTACCCGATTCCCCAACAATTGCAATAATTTCCTTATCATAAATATCAAGTGAAACATTTCTAATAGCTGTTAGAAAATTTGATCTTACTTGAAATTTAACCTCTATATTTCTAATTGATAAAATTTTATTTTTCATATTCAATATTTCCTTATCTATGTAATTTTGGATCTAATGAATCTGCAAAAACTTTTCCTACAAAAAAGAATAATAGTGATATACCACCAATAAAACAAATTGGTATTATTAACAAGTATGGATAAGCCTGTCATGTTCCATCAGCAATAACCTCATTTAAAATAACTCCTAATGAAGTTTCAGTTAAAGGATTTTTTACAAATCCAAAGTTATAAAATGACAATAATGAATCAAGCGCTATAGCTGTTGGAATTGCAAAAGTTGAAACTTGAATTATAATAGGCAGTATTTTGGGAAGAATATTTTTTCTAATAATCTTTGGACCTTTAGTTCCTAAAACTTTTGATGCAATATTATACTCTGCATTTTTTACAAGAATAATTTGTACTCTTATAATTGAAGCCAATGAAATTCAACTTGTTAGTGAGATAGCAAATACTAAAATACCAAAACTTGAATTACCTCCAAAAACAAATATAATGATTAGCCATAAAATAAGTGATGGTATCATATTTAAAAATCTTACAATTTCAATAAATAAGATATCCAATTTTGTATAAAATCCCCAAATTGAACCAATAAATATTCCTATCAAAATTTGAATACTTGCAATAATTAATGTAAATAATAATGTAGTTCTTGTTCCTATTCACATTTTATTTCATAGTGATTCACCTAGTTTTCCAAGTCCAAATCATTCATCTGCATTTGGTTTGGCAGGGCTATTATTTGGTCTATCAACTGGAACAGGCACTTCATCTAAGGCAATACTACACGCTAAAACCAAAAATACAACTAAAATTAAAAATGATACGATAAATAGTCTATTCAGTAAAATTCTTTTAAATACAGATTTTAATAACTATATGGTTTAGAATTAATTTTTTCTACTGTCTGATCTTTTATTTCAATAAATTTAAACATGGAACTATCTATTTGATTAAATTTTTGAATTTCTTTTTCTTTACTATAAATTATCTCCATAAATAATTCCCTTCTATTTTGTTAATTTTATTCTTGGATCTAATAATGCCATTAATAGGTCACTCAATAATGAAGTAAAAACTCCACTAGCTGAAGAAATAACAATATAACCTAAAACAACATATATATCATTTGTACTTACACCACTTAAAATATATTTGCTCATTCCAGGAACATTTCAAAATCTTTCAACAAGAATACTTGAACCAAATAAACATAATATAAAGGCTTCAGGTAAAGTTTTTATAACTCTAATTCCTGCATTTCTAAATATATGAACATAAAATACATATTTAGAACTTAAACCTTTTGAAATTGCAAATCTTGTATATTCTGAAGTCATCTCATCAATAACAAATCTTCTTGTATCTACAACAATTATAGAAATCATTAAGAAAACAACCCCAATAATGGCAAAGAAATCTGAATAAGAATTTTCACCTCAAATTCCCATAGAACCAAATACTTTAATTGATATTATTCAAATCATGGTAATTAAAACTGTTGCGGGAATTGAGCTAATTCCTAAGAAAAAACCTTTTATTCCATTATCAATTGTTTTTTCTTTATACTTTGCAGAAAGTATACCTAATGGTATTCCAATTACATAAGATAATAAAAGAGCGACTCCACCTAATAAAAATGAAATTGGAATAGCTCCTTTAAATTCATCTAGAACATTTGAATTTACAAAACCATTATTCTTATTCATTATTACTCCAAGAAAAAATCAAGTTTTTTCATATGTTCCTTCAATTACTAAATTATTTATTCTAATTGGTAAAAAAACTTCCTTAGGTATAAATGGTGTTATATTTCTTCAATATATTAAGACTTGTTTTATAAGTGACCCACTTAAACCATAACCAATTTTTCTATTTTCAATCAAAGCATAATATTCAACACTTCCAGGTTTAATTGAAGTTGGTTTTCCAAAATCATAATCTGAAACTAGTGCTGAATCTGGCATAAACAATACAAGCAATATATAAACTATTGCAATTGATAAATACAAAGTAATAAAAGCATACAATATTCTTTTTAAAGAATAGCTGAATAAAGGTGCTTTTTCAAAAAATTCTTTTCTGGTAGAATTCAATTTTAAAACTGAAAACTTAAATTTTTCAAAAAATGATCCTTTAGTTTTTTTTACTTCTTCGTTTAAATCAACAGATTCAAGTAACTTCTCTAACTCCAAATCACTGAGTTTGTCTTTTGATACATTTTCCATAATTTCCCCTTTCTGAATAAATATTTTGATAATTTAATTAATATACTAAAATTTAAAAATTGTAATTTTATTTAGAATTAGTTAAATTAATTTTTTCCTTAAACTATTTTGAATTATGTTGTTTTATTGTATTTATAAATTTCTTTTCTTTCTTATTCATTTCCTATTTTATAATAAGTTTTCTATTCCAATATTAGTTTCCCTTCTACTAATAAAAAAATAGTATATCCTTTAGAATTTATTTAAAATTTATTTAAATATTTTCTGTAGATATACTATTCTTGTAATTATTTTACCTGGTTCACTTTATTTTAGTTTGAACTCGAATTTCAATCTACATAAAAAGATTTTTTTATAATATTTTTTAAAATTAGGCGTGTTAAAAAAATAATTGTGAACAATTTTTATTTGTTAATTTTAGTAAATGAAAAAGATCACCAGCTGCTTGTGATTCATAAATTTTTCCTTCAAGTGCAAATAATCTTATACTAATCATTACTTATTACCTCAATTAAATTTTTTTATAATATAAAAATATTTTATGTTTGTCAACTGTTTTTATAAAATTAGTTTATTTTATGTATATTACAACAGAAATTTTAAAAAATTAGTCAAAAAAAAAGTGCAAATTTGCACTTTTATGAATAATTTATAATTATTGATAACATCGAATTATTTTTTCAATTATAAGTTTTTACTATTTCTCATTTTTTTAAATTCTCTTTGATTACCATACACAAAATGATTTTTACTTACTTCTTTAAAATATGGAATATCAATTTCATAATCAAAGTGTTCTTTTTCGTAGTTATAAACTAATAGTTTTCTATTTTGTGATAAATCTGGATCTGGTATTGGAATTGCACTAAGTAAAGATTTTGTATAAGGGTGTAATGGGTTTTTAAATAATTCTTCTGACTCCGCTAATTCAACTATTTTTCCCTTATAAATAACAGCAATTCTATCAGCAAAGTATTTCACAACAGATAAGTCATGTGTAATAAATAAATAAGTTAAATCAAATTGTTCTCTAAATTTTTTAAATAAATTTAAAACTTGTGCTCTAATTGAAACATCAAGAGCACTAATTGGTTCATCAGCAATAATAATTTTTGGTTTTAAAGATAAAGCTCTTGCAATACCAATTCTTTGTTTTTGACCTCCAGAAAATTCATGTGGATATCTTGACAAGTGTTCTTCTGATAAACCAACTGATTTAATAAGTTCTAATATTAAATCATTTTTAATTTTCGAAGATTTAATATCTTTTAAAGTTATTTTATTTTCATACACTGCATTATATTTTTCAAGAAATTCTTGCTTTGCTTCTTTTGATTTATAAAGAAAACTAAAATTATCAATACCTTCAGATAATATTTCAGAAATTGACATTTTATCATTTAATGATGAGCCTGGATCTTGAAAAATCACCTGTGTATTTTTTCTATTCATTCATTTTTCCTTCTTAATTCTTTTTCTAAATAGGAATGAATTTGTAACAAGTTCATCAATTGATGGCAATTCTAAAAAATTAATAAATTTAAGTATTTCCTCTTTTTCTAAACCTTCAAGAAGTTTCTTTTCTGGTTTTCAATTTAAATAGCTTTGTATACTTTCTTCATCTTTTAGAATATCATTTTTAATAATTTTTAAAATATATTCATATTCTTTTTTATATTCTTTTAATTTTAATAAATCTACTTTTGAATTATTATATAAAAAACTTTTTAATGATAATTCAAATTCTGTTTGTTTTAATGAGTTTAAAAGTGAATTAATTTGATTCTGAGTATAATTATTTTTATTGATTAGCTTAAATATTTTATTAATTGATGCTAAGTTCATATTTGATTTTGATCAAAAATCTTTTAAATAAAAATTCAGCTTTTCAATTTCTTTATTATCACTAATATTCGATTTCAATAATAAATTAAGTTGTTTTAAAATTTCTTCATAAAACAATTCTCTTCTAATAAAGACTAAATCATAATATTTTTTTGAAATTTTATTTCTTTTTCTTAAAGGTGATGATAATGCCAGATTTTGTTCCTCTAAATTAACAATTTTCTTATAATTTTCTACTATATTTGTAAAGAAGTTAGATACTGATTTTATATTTTCCAAAATACGAATTAAATAACTATTTGAAATACTTTCTAAATTATTAGATTTACTTAGCATTTCTTTAAATAATTCTAATATATTTAATAAATATTCATAGCTTGAAACAAGATTATCTTTAACAAAAATAACTGAATTTTTTGTTTCATTATTCTTTGAAATAATAGCTTTTTCTAATTCTTTTGGTACCTCTGGAATATAAGAGTCAATATTCATAATAAATTTATTGATTCTGTCAAAATTTATTAATATTGAATTTATTGCTTTTAAGTTCTTAGAAATTAATAAAACTAATATTTTATTTTTTTGCTCTAAAAATTTTAAAGCATTTTTTATTTTTTCTTCACTTATTTTTTCAAGATAATAATCATCTGAAATTAATTTAATATCTATTAATTCTATAAATTCATTAAACAATAATAATAATGAATCAATTTTTAAATTCATTTCCTTTAATTTTTTTGTAATTTTCTTATTTAATTTAAATAAACTAGTTGGAGTTCCTGCAATAATTTGACTTTCCAAATAAATGGCACCATCTTTTAATTGTTGAACACCAGCAATTGCTCTTCCAATTGTTGTTTTTCCACTTCCCGATTCTCCAACAAGCCCAAAAACTTCACCTTTATATATATCAAAACTCACATTACTAACAGCTGTATTTTTTTTACTTCTATTTCTAAATTGAACAACAATATCTCTAACATTTAATAATTCTTCTCTATTACTCATTTTCTGTTCCATATCCATGTTGTTGTTTAATAAATTGATGTAAATTATCTAATGCAACTGGCCTTTCTAATTTTGGTGCTCTTTCATCTAATAATCAAGTTTTTACTAAATGTGTATCTGATACTTTAAAAATTGGTGGTTCATATAAATAATCAATTTTTAATGCATATTTATTTCTTGGAGCAAATGCATCTCCATTTATTTTTGAAAATAGTGATGGTGGAGTTCCTTCTATTGAATATAAGTTTTCTCCTTTTGTTCCAAGTTGAGGTAACGATAACAATAAGGCTCAAGTATATGGGTGTTTTGCATCATAAAATATTTCTTTTGTTTTTCCCATTTCTACAATTTGTCCACAATACATAACTAGTATTCTTGTTGCAATTGATGCAACAACTCCTAAATCATGTGTAATAAATACAACTGAAAAATTATACTCATTTTGTAAATCCTTTATTAATTGCAAAATTTGAGCTTGAATTGTAACATCAAGTGCTGTTGTTGGTTCGTCACAAATCAATATTTTTGGTTTACATGCTAATGCAATAGCAATTACCACTCTTTGTCTCATACCACCTGAATACATTCCTGGAATATCTTTATATCTTTTTTCAGGTTCAGAAATTCCAACTTTTCTAAGTAGTTCTATAGCCTCAACTTTTGCTTCTCTTTTTGATAACTTATGATGTTTTCTTAATACTTCAGAAATTTGAAATCCTACTGATAATAATGGATTTAATGAAGTCATTGGATCTTGAAAAATTGTAGCAATAGTTTTTCCTCTTAATTTTGTAACTTCTTTTAAAGATGTTCTTCTATTTAAAAAATTAAAGCTTTTAATTTTTTTTCAATCTTGCATAATATTTAAAAAATGTTCCTTATCTTCAAAAACATTTTTTTTCAAATCAAAGTAAATTTTTTTAAGTTGTGAGATAAATCTAACCGAATCGGATTTTGAAACTAAGTATTTTTCTATAAAGTAATCTTCTTGTTTTGTAAATTCCAAATTATTCTTAATTTTAGATTTTATAATTTTTGTTATTTTATTTAATGTAAATCTTTCAAAAATATTTAAAGTTTTATATTTAAAGTAATCAGATTTCTCTTCATTAATTTTTGTATTAATTTTTTCTAACTCTTTATTTTTAAAATCTTCATTTTTTAATTCATTTTTATATTTAATCAATTTCAAATTTTTTTCTAATTTACTAATTTTAAAATTTATAAATCATGAATTTTTAAATAAATTTTTTTCTTTTAATGTTTTTAATGTTTTTTCATTTTCAATGATCATTTTATCTCAATCATTTAATTTTTCTTTTAAATCACTTTTATTAATAAAGTTTATTTTGGAATTCATTTTTCTTATTTTTTTCTTACAATTTCTAAGAATAAATTTTCTTGTTGGTTTGTCAATTAATTGTTTTTGAGTATTAACTACATCAATTGAACTTTTAAAATCTTTATCATCTACATTTGGAATATATATAATTGAGCCCTCACTTATTCAACCATTACTTTCTAACATACCCGTAAAAGTTTTTGTAATAACTGATTTGCCACTTCCTGATTCTCCAACAATAGCCAATATTTCTTTTTCATATAAATCAAAAGAAATACCTCTAATAGCAGTTAATAACTTACTTCTTACTCTAAATTTAACTTCCACATTATTAACTACTAAAATTTTTTTACTTTCCATTTTATTGTTACTCCTTATTTCTTTCTATTCCTGGCTTAAAAACTTATTTTTTATAATAATCTTATTTATAAAAACCACCCCCTATTATAAGGTGGTGGTGTATAAATTTCTTTATTGAATTCAAACATTAAATTATTACTTAAACTCTTTAAAATTTAGTAATACACTCACTAAAAATAGTTTATTTTTTAAATACAATTAAATATATTAAAGTGATGGGTTAATAGTAATTTCTTTTTGATCTGATAAATATTTAGAAACATTTGCTGCCTTTATATTTACTTTTTTTCCTTCCACTAAAACTTGTGGATTATCTGATGACAAAGCACTATCAGATTCATAATCAATTTCAAAATCAGTTGGTGATACAGCAGAATTTACATTTTCTAAAGTTTTTATAGCGTTAAGAACTGCAGCATCTGATTCTTCTTTTGATTGACCTGCTCTTAAAGTAAGATTTAAAGTATCTAATGAAATTTTAACAACCTCAGGAACTTCAACTTCACTTTCAGTAGCAATTACTTTTAATTTAAAATCAACAGAAGGAGCATTTCCATATGATAGTTTAATTGATACATTTCCAACTTTAAATGCTTCAAGTTTTAATCTTAACTTTTTAGCAGGAACTTTTACTGTACTTCCATCAGATACATAACTTAATTCATCAGTTTGTACTATTTCTAGAACTTTTAATACTGAATCATCTGATGAAATAACTGCTAATTCAATGCTTTCTTCATAACCTCCTACAAAAACATCTGCATCCATTTTTTCACCAACATGAATTACTTGAATATCATTTGGTGCTGTTAAGACATTTTTAGGTTGTGTACTTACAGAATCACTACCACAAGCTACAACAAATGAACTAGATAAAGAAACAATACTTACTGATCCAATTAATGATAATAATTTTTTCATCTCTTTTTCTCCTTTATTCTAATCTTCGTAAAAGATATTTCCATTTTTTTTATAACTTATATCAGTATTAATTTTTTCTTTTTCTGCTTTATACAAATCACTTCAATCTTTTAATTGTTGTTTTGTTCATAATTGTTCATTTATTCTTCTTGTAAATAATTTATTTGGGCTTACACCATAAGTTGCATATCCATATGTATACTGTCTTAAGTAAGATATTGAATAACTTTTCAATGGCGCTGCATTAAAGTTTGGTAAAACATAAAAATTTTCATAAATTATTTCAGTTTCTAATTCACCAAAACCTTTTAATCTTTCTACTAAATCATATTTTTCTGCTCTATCGATTTCATAAAATTTATCTGTAGTATCTTCAATACTTGCAACAAATGAGTCACTTACAGTTGTTTTAAATTTATCATTTACTTTATATGTTAAATTTTCTTCTCCAACACCTTCACTTGCATCATCTCTTTTAAGCAATAATGGTGTTGAAGAACTTAATTCAGTTTGGAACCCTGTAAATTTAGATAAATCTCCATCAATTCCTAATGTTCCAACAAAACTACCAGGATCTGAGAAATCTGGTGTTCAAGCAATATTAAATAAATGAAATTTTCCTCCAAAATAAGCTTGTAGATAATCATTATAGGCTAGAATATTAAATTTAATTTCTATTGGATTATTTGGAATTTCATTAAATTGAGCAATTGTTCTTGTTAAATATGGGTTTATAGATGTATTATGTGTATCTGAACCAACATATTCTAACTCAATTTTTCCTTTTGAATTTTTAGTTAAATTATTTTCTTCTATAAATTTACTTATACTTTCAACTAATTCTGCTTTTGTTTTTCCAACATAAACACTTTCTTTATTTAAAAATGAATCTGTACCATCAACAAGTGTAGTTACAGAATTAGGTTTTGCACCAAATTTCTCCTTGTATGAATCTTCAATATATTTTACATAATCTTTTCCATTAGCATCATATGTTAATTCCGGTGCTGTAAATGTATTTCTAACATTTCCTGATAAATTAGGATCACTATCATATTTTTCAGAATAATATTTTGCCAAAACATTTCTATTAAATCCTGTTGATATAAAAGCTCTAGCTTCATTAAATTGAAGTAATTTACTTCCTGAAATTTTGGCTGCATCATCAACTGCACCAGAATTATAATTTGTATTATATGAAAGTGCAAAAGTTTGAGTTGAAAGTGCTTTTCCAACTGAAACTTCATCAATTTTGGGATTATTTATATCACTTCCCACATATCTTTCTCAACCCACAGCATCTGCTGGATTAATATTATATGAAATTGTTTCACCAGTTTCAAATAACGTTCTTGTTAAGTCAGTTGATTGTGTTGTAATTTTTTTATAAATAATTGTTTCAATTTCAGTTTTATTTGCAAAATAGTGACTATTATTTTTTTTGAAAACCATTTTTGTTCCATTTAAAATATTTTCCACATCATTTGGTAAATATGGCCCTGAAAACAATGTTTTTGATGGATCTGGTACAACCCCATTTGCTCCATTTGCATAATTTTCAATTGGAGATGGAGAAAATACGTTATATGTTAATAATGATTCAAAATAAGGTGCAGGTTTTTCTAAATGGAATGTAACGTTGTATCCATCATTACCATCATCTGCAATAATTCCAAATTTAAAATCCGCTATTCCTGCTTCATTTTTTTGAACATCATTACCATTTGCATCTTTAACAGTATATAAATAACCACTTTTAACTTTTTCAATAATTTGATCAAAAGTTAAAGTTGCATCCTTAAGTCTTCCAATTGCAGTTGATACTTCGTTTGCCCCTTTAATGAATTGCAATCATAAAAAAGATGTAGCAACATTATTTGCAGGAGTTAACGCAAATTTTGCTGAATTTAAAAAGTCACCCGCAGTAATTCTTCTTACTTTTGAACCATCTGCTTTATATCAATAAGCTTCATCTCTTAATTTATATTTTCATGTTGTTAAATCAATATTTGAATTTGTTGAATCGTTTCCAACATAAATACTTTTCCCACTGCTTGATCCTGAAACTCCAGCATAAGCTGACTCAACAAGATCTCCATATGTTCTTCCATATTCATCAACACTTAATATAGTTCCAAAAATATTTGCTAAATATTCTGTATCACTTGCTGATGAAGTTGCAATTGGGTTTCATGATTTTGGAGGAGCTGTATATACTGCTACATACTCCTTTGTATTAATTTTTTTATTTCTAATACTGGCAAAGTCAAATCCAACTTTACATGCAACAACAGAGGAAGTCGTTGTTGAAACTAATGTGACAGCTGAAATTGCACTTAATAACCTTCTTAATTTTATTTCCATATTATTTTTTCCTTTTATCTATGATTTTTTGGATCAAGAGAATCAGCAAATATTTTACCAACAATGTAAAATACTAATGATAATCCTCCAATAAATACGACTGGTACTATTAATAAATGAGGTGCTATTTGTCAATCAGATCCACTTAATAAATCAGTTAACATAGAACCAAGTGATGCTGATTTTGCATCTGAAACAGAAACGAAACCAAAACCTAAGTATGCAAGTGATGAATCAATTCCAATAGCTGCAGGAATTGAAAAAGCAATTGACTGAACTATTATTGGTAAAATTGAAGGTAAAATATTTTTTCTAATTATTTTTCCTCCCTTTGAACCTAAAACTTTTGATGCAATATTAAATTCCTTACTTTTATTTAAAAGAATTTGAAATCTAATTAAGGATGCTAATCCAATCCAATTTGTAATAGATACTGCTAAAACAGCTACCCACATACCTCTATTTCCTGAAAACAGAAATATAATAAATAATCATAATACAAGTTGTGGAATAATTGATATAAATCTAATTGCTTCTATAAAAGCAATATCAAATCTAGTATTATATCCTCAAATTGATCCAATAATAATTCCAAGTACTATTTGTATTAAAACAATTATTACTGTAAATAGTAAAGTTGTTCGAGTAGCAATTCATGTTTTATTCCATAAATCCTCTCCCATTTTTCCAATCCCAAATCAATGTTCACTTGATGGAGCTTGATTTATTGGGCCATCTGGATATGTTGGAATTGCATATTGTCCTAATGCAATTGTCATTGAACATATAATTATCAAAATTATTAAGACTAATGAAATTAGAAAAGCTGGATTTTTAAAAACCTTTAGAAATACTGATTTCCAATAACTATAAGGTTTTGTAACAATATGTTCAGCAGTAACTTTATCTTCACCAACAATAAGAAATAATTCTGAATCTAATTTCTCAAAATCATAATTTGTATTTTTATTTAAAATTACTTTCATAATTATCCTTTCTTTTTCTCCATTAGTTTTACTCTTGGATCTAGTAATGCCATTAAAAGATCACTAATTAAACTTAATAATAATGATATTGAAGCACTAACTAATACAATTCCCAAAATTAAGAAAAGATCAGTTTGACTAATTGCAGAAACTGTTGTATTTGCCATTCCAAGAACACTTCAACTTTGTTCAACAAGTAAACTTGCTCCAAATAAATTGGCAATTAATGCTGCAGGAATACTTCTAATAATAGCAATTCCTGCAATTCTAAATATATGAACAAAGAAAACATATCTATTTGTCATTCCTTTTGATAAAGCAAACTTTGTATAATCTGCACTCATTTCATTAACAATGTATCTTCTTGTTTCAAAAATAATTGCGGGTGTTCCTAATAAAACTAAAAGTAAAACTGGGAATATCTTTGTATATAATGTTGAATCAGTTCATAACGACCCTGCTCCAAGATAGTATATTGAAAATTGGAAAAATAACCTAACAATAACTAATGCAGGTAATGCAAACATAATTAAACAAAACCAAGTTATAAAATTATCTTTAACATTTTCCTTATTTATTGCAGCATAAATACCAATTGGAATACCTATAAAAAATGATATTACTGTAGCAATTGCACCAAGTTGAAAAGAAACAGGCATATTATTTGATAAAATTGTCTGCACAAATGTTCCTTTTGCAAATCCACCACTATCAGTAAAAGTAATACCTAAGTAGAAAAGCTTAGTGACCATTGTTCCTGTAATTGAACCATCAGATTCATAATGAGCATCTGTTAAAATTTCTTTTGGTATAAATGGTGTTATATTTCTTAAATAAATAATAATTTGTGATAGTAATGATCCATCAACACCTAATAATTTTTTTCTATTTTCAATTAAATTGTAGTATTGTTCTGAACCATAAATAATATTATTTTTATTTAAATCAATATCTCCAATATAAATACTGTCACTTGCAACAATATTTAATAATGCATATAAAACAGCAATAGCAATATATAAAGTTATAATTGCATAAAATATTCTTTTTAAAGAATATGTCAGTAGTGGATAACTACTTAAAAAATCATTTTTCTTATTATTTAAGACCCCTATTTTATAATTTAAAATATTTAAATTCACTTTCTTTTTCTTAAATAATTTGTTCTTTTTTATATCTAAAATTAATATTTTTATTCTTTCTTTCTCTTTCTCATTTTTATTTATATATTCATTCTCATTTTCTTTTAATTTTTTTATATTATTTTTCTCATTCATTTTTTCCTTTCTAATAATAAAAAAATAGTATATCTTAGAAAATTATTTAAAACTAATTTAAATATTTCTGTAGATATACTATTCTTGTAATTATTTTACTTGGCTCACTTTATTTTAATAGGAACCCGAATCTCAATCTACATCAAAAAAAACTTCCATGCTTTCATCATTCATGAAAATATTTTTTTTGGTAATATTATTGAAAATTGGACATTGTAAAAAAATAATTGCAAACAGTTCTTTTTTTGTTAATTTTAGTAAATTAAAAAGTTCACCACATAATTGTGATTGATAAACTTTTCTTTCAAGTATAGATATTTTTATACCACTCATTACTCATTACCTCCATTAACTTTTTTATATTAAAAAAATAATTTGCCTTTGTCAACTTTTTTGAAAAAGAATAAATTTATTTACTTATTCAAAAATAATATATACTTTTATCAATTTTTTTGTAATTTCCATTAAAACCATACATAACACCTGTTAAAAAATCAATAAGTCTTTTTCTTTCATCAATATTAATCAATTTTAAGCTAATAGTTACGTGATTAAATTTTAAAAGACAGTCTGCTATTTGTTTTGTTTCACCATAATTTAAAGGTTCGAAATGTGTTTTATTTAATTTATCAAATTCAATATCATCAATAAAATCTGAATTTTCATCATTTAAAATACTTTTATTATTTTTTTCAATTTCTTTATTGAAAAAACCCATTAATTATCAGCTCTTTCTTAAAAAAGTTGGAAAATCTCCATCTTCATCATCAGAAGATTCTTCAATTTTTTGTGCAACTGGTTGTTCATTATGATTATTATTTCATTGTTCAATTTTTTCTGGCACTATTTTTAATTCTTCTTCTGCTTGTCTAACATACTCAGGTCTTTTATCTTGATTATTCATAAATGAAGTTCTTTGTTCATAGACAGTTTCTACTTTTGAATTGTCACTATATTCCATTTGACCTTGATTTGAAATATCCTTTCTCTCATTAAATTGATTTGATTGATTTAGATTTGGGGCAACATAATCTTCATCAAATCCAGTTGCTATAACTGTAACTATTAAATCATCATCTAAATGTTCATTAATTGCAATACCAAAAATAATATTTACATCTTCTCCACTTGCTTGTTGAACAATATCAACTGCATCATATGCATCATTTAATGAAACTGTTTTTCCACCAGTTACATTAATAATTGCATCTTTTGCTCCACGAATTGATGTTTCTAATAACGATGAGGTTATTGCTTTATTTGCAGCTTCTATTGCTTTATCTTCACCTGAACCAATTCCAATTCCAAATAAAGCATTTCCTTTACCTTTCATTACTGTTCTTACATCAGCAAAGTCTAAATTAATAACAGCTGGAACAGCAATTAAATCTGTTATTGTCTGAACACCCTGTTTTAAGATATTATCAGCTTCTCTAAATGAGTCTTGAACTGGAATTCCTCCAATTATTTCCAATAATCTATCATTTGAAATGATTATTATTGAATCTACATATTTTCTTAATTCACTTACACCTTGAATTGCATATGAATTTCTCATTCTTCCTTCAAATCTAAATGGTTTTGTAACAATTGCAATAACTAATGCACCAGTCTCCATTGCCATTCTTGCAATTTCAGGTGCAGCACCAGTTCCAGTTCCTCCACCCATTCCTGCTGCTACAAAAATCAAATCTGCTCCTTTTAAAGCTTCTTTTATTTCAGTCTCAGATTCAATTGCTGCTTGCTTTCCTACTTCAGGATTTGCACCTGCTCCAAGTCCCTTCGATATCTCTTTTCCTAAAATTATTTTTGTTGAAGCAGAACTTGCCCCTAAAACTTGCATATCAGTATTTGCAACTATAAATTCAACTCCTTGAACATTATCATCAACCATACGATTAACAGCGTTGCAACCTCCGCCTCCAACTCCAATAACTTTTATATTAGCATTTTGATTAAAATCTAAATTTATAGCCATTTTATTACCTCACTTAATTATCTATTTCTTTGTGTATTTATAATACCATTTTGTTGTGGTATGTTTCTATTGTTTTGAAAATTTGAAACTATTCTTTGATTGTTGTTTACAATTTTATTTCTTAATTGATTATTTTCAATATCTCTAATTAACTCACTTTTAGAAATACTAAATGTACTTGTTTTTATTTCTTTATTATTTTTATTTGCAATATGTGCACATTTTATCATTCCACATATAGCAGTTGTTCATATTTCACTTGCTCCTGTAACAAGTGAAAAATATATTTGACACACATCTTTAAATTGACTTCTAAAAAGAATTTTTTCAAAGCCAGCAATTGTTGTAACTTTGCCAGTATGATGAATTTGAAAATTTTTAATTCTTTCAAATTCCCTTTTGATTAAAATATCTGACTTATCAATAATTGAATTTATTTCTTCTAAAATAATATTTTTTAAATCTTTTGATCTTAATTCATAATTAAAACCCTTTGAACTAATATATTTTCTATAAACTACTGTATCATCCAATGTATTTGATGAAAAATCTAGTATCTTAAATAAATATTTTTCTGCTATATCAAATTTTGCTTGCATTCTTTCTGCAACATTTTGAATTATGTTTTTTATTCCAAAATTTATTGTATCTTTTTTTGCAAGAGTTTCTTTTGAAAAATAACCAATATCAGTTTTTTCTCAATCCCAATTAATTATTGCAAAATTTTGTCTAAATGTTTGATCACTATTTGATTGACGAGCTAAAGCATATAATTCATTTGTTGAAATTAACTCTTCAAGTTTTAATGATTTTAAAATTTGATTAAAAGATTCTTTTACTTTTTTAGAGATTGTATAAACTTTTGCCTTCATTACAATATTTTTTGCTCTGTGGTTCAATGGAACGGTTCCCATTTGAGTTACATTATCTAAAGTAAATAAATATGGTTTTATATTTATTACTACATGCTTATCATCATAAATAATTTTTCTAGCTGTTGAATATAAAGTTTTAATATTTTCTTCTTTTATAACAAAATCAGCACTATTAATAAATTCTGTTGCTATTGCATCTTTAATTTGCATTGTTAATGTAGGATAAACAATTGAAATTCTTTCAATTTTTTGTTGAAATGTGGTATTGAATTTATGAATAATTTTACTTAATCTATGAGAAATTTGATTTGGATCTATAATTTCATCCTCATTTGTTAATCAATTTCCAGAAATTTTTTCCTTAAAGATAACTTTTAAACCTGTATTAATTTTATACTTACCTACTACAAATCTAATATCTTTTTTTGTCACTTGTAATACAGCATAAATTTCTGTTTGCATATTAATCTTCCACCTTTCTAATTGCTCATAGTTTTGCACTATGAGATCTCCTATTTTCTTCTAATTCTTGACTACTTGGTAAAATAGGTTTTTTAATAACCAATTCAAAATATCTTTTTGCTTCAATTGAAATTGGTAATTTTTTTAAAAACTTATCTTCTTTTAAAATAGTTTTAGTTTTAAAAATATCTTTAATTATTTTTTCTTCTAAAGAGTGAAAAGTAATTACTACTAGAACTCCATTTGGTTTTAATAATTCTAATGAATTACTTAAAGATTTTTTTAAAACTTCAAGTTCATTATTTACATAAATTCTTAGAGCTTGAAAAACTTTTTTTGCTGGGTGTTTTTTTTGTTTAAGGACTTTTTGAGGAAGTGAATTTTTAATTATTTCTACTAATTCAAAAGTTGTTTCAAGTTTCTTTTTTTTTCTGTATTCTATAATTTTTTTAGCAATATTATAGGAAAATTTTTCTTCTCCAAATTTAAAAAAAATATCCGCTAACTGCTTTTCTTCATAATTGTTTAAAACAAATTTCGCAGTTTTTATATTATTTTTCTGATCCATTCTCATATCCAACTCAGAATTAAATCTATAACTAAATCCCCTATGTCCTTGATCAAATTGTGGACTAGAGACACCTAAATCATATAAAATTCCATTAACTTTTTCTACACTATTTAATGCTAATAGAACTTTTATATCCATAAAATTTCCCTCTAAAATAGTAAAATTACTTGATATTTTTTCAAGTTTTTTTCTACTTATTTCAATAGCTTCAGCATCTTGATCAATTGAAAAAAGATGACCATTTTCTATTTTTTTTAAAATCTCTGCACTATGACCACCTCGCCCAAGAGAGCAGTCAACATATATACCATTTTTATCTATATTCAATAATTCAATTGATTCTTTTAATAAAACAGATTTATGCTCATGTTCCATTACTTAACTCCGCCCAATATTTCAGCTGCATCCACTAATTGATTTTTAATCAATTTATTATATGCTTGATGTTTTTCCTTATCTCAAATTTCAATTCATTCACCAGCCCCAGTTATTTGAACTGTTTTTGAGATTCCAACTTCTTCTAATAGATTTGATGGCAGTTTAATTCTTCCTGAATTATCTATTGATAATTCATCAGTATTAGAAAAAATTGTACGAACTATAGTTCGTGTAGAAGATAAAAGTTTATTTTGAGATTGTAATTCTTCATATCATTTTTTAAAAACTTCAGGAGTTCTCAATTCCAAACATTGCCCATCAATGCTTCTTGTTACATAAATTAATTCTCCTAATTTATTACGTAATTTTGAAGGTATTGTAACTCTTAATTTATTGTCCAAATTATGTTCAAATGATCCAAATAACATATTAATCTCCCACTTTTTCCCACACTTCTACAATTATATACCACTTTTAAACATAATCAAGTATTTCATTAAAAATAGTCCCACAAAATAGAAAAAATGAACAAATTTTAAACAAGTGAAGATAAATTTTGCATGCAAAAACAAGTGTAGAATTTATTTATAACAAAAAATTAAATATTAAGTAATTAATATCTGTTATACAAACCTATCACAAATATGAAATATATTGTGCAATTAAAAAATAATATCAAAATTAATTCTAGTAATTGTGACGTTGTATAAAAAGATAAAGTCTAATAACTTTAAATTAAAAGAAAAAAAGAAAATTAAAATTTAAGAATTTTGTAAAAAACTATAGACTAAAAAAAGACGATAATATAATTGCAATAAATTTATCAAATACAACTTAAAATAATCTTTATTTATCTACTGCTATTAACCTTAATAATTTTGCATAAAGTAAAGAAATATCAATGAGTAGAAATAGACATTGGATAATCAAGAAATTAAATATTTTTTGTTGCTTAAAAGGGGAAATACTTAAATAACATTTAAAATCAAAATATAATATAGCAGAAATATATGCCCATATTAATTGATACAATAATAAAATATAAAAAGATTAAAATAAAAAAACACCAGCTTATGCTAGTGTTTTTATTAATCTTTATTAAAGTATAAAATTTATTTTTCCTACTTTATTTTTTTCTAATGCACAATTTTAGATTCAATTGTTTTAATAGATTTGGCTAATTCTTCACCAAATATCTTTTCTGATTCTAAAACTCATTCAAGTGCAGTACTATTTTTTTCTTTTAATTTAAAAATTAAATATTTTGATAAAAATATTTTGTAGTATAAATAAAAAGCTTTTAATAAATCTGCACAAACAACAGGATTAGAATTGTTAACAATTTCCCTAAATTTTTCCATGCTCACTTCACATTCTAAGATGCTAAAACCATTTTCTCTTAATGAATGAAAAACTGATAATGGAACAATGTAATTTGAAATTTGATTTACAAAATTTAAAATAATTTTCACCTCCAATAATATAATCGTCATATATAAAAAAAATAAAAATTTTTTTAAAATAAAAATACAACCTTAAAGGTTGTATTTTTAAAAATTGATTAATCAACTTTTTTTGCTTCTTTATTTTTATAATAACCACATTCACGACAAACTCTATGTGGTTTTATCATACTACCGCAATTTTGACATGGAATAATCGATGAACTCACTAATGATAAATGACTTCTTCTTTTATTTTTTGCAGCTTTACTGGTCTTTCTAAATGGTACAGCCATATTCTCCACCTCCGTTATTCTTTAAATTTAAAATCTTTAAGTTTTTCTCATCTTTGATTAATTTGATTCATTTGTTCTTGTTGGTATTCTTCTTCAGACATAAGAATATAATCTTTACCGACAAATGAAATTTTACCATAATTAATGGTCAAATTCATAGGAATATTTAAAACAATTTGTTCCATTGTATAATCTAAAATATTAAATTTTTCCCCAAAAACAACATTTGACTGATCATTATTTATATTTTCAAAATAATATTCATCAACTCATTCAAATTCTTGATTAATTAAATTAATTAAATTTCCATCACGTGCATCAATTGCTTCAATATCTGTTTGAATTTTTGCTTTTACAATTAAAGATTTAATAGAATCTCGATAATCAAAAGTGCCTCGAACTTTTAGGTTTGAAATTTTTTTTATTAAATCATGATTATAGTTATAATTTAACGGTACTTCTATTTTTTTATCAAATTTTATGTGTTTTTTAAATATAATTTCTTTTTTAAGCATAAAATTATCTAACCTCAATTTTTAATTTTTTAAAATTATCTAATAATTTTTCTCACTCTATTTGAACATCTTGGGTTGTTAATTGATTTAACACATTATTAAATTCAAATGACACAGAAATAGATTTTGAATTTGTCTTTTTAAGTTCATCATCTTGATATATATCAATTAATTGGATATTTGTAATAAATGAAACATTATTTGTAATTGATTTTATAATTTCATCATATTTTTGATTATTATCTAAAATAAATGAAACATCTCTTGCAGTTTTTTGAAATTTTGAAATTTCTTCTGCTCTAATAAATGAATTCATATTTTCTTGGAGTTTTGTTATATTTAATTCTAAAATGAAGGTTGAATCTAATTTTTGAGATTGTTCAAATCTTGGATTTAATTTAAAAATATACCCAATTAATGTATTTTTAATAACTATTTTTGCATTAATAAAAGGATGCATATCACTATTTACATTTTCATATGTTTCAAATTTTATATCATTATCTTTTATATTGTAGTGGTTTAGTATTTCATCACAAATTCCTTTTAAGTATTGATAACTTGCTTTTATATCTAAATTATAACTTTTTTGCTTTAAAATATCACCACTAATTAAAACAGCTAAATGCCTTTCTCTTAAATTTTTTAAATTATATATATCTGCAAATTCATATAATTTTAAATTTCTATTTCCTCTTGAGTAATTCAAAGAAGCCGTCTCTATTATTGATGATGCCAGACTCAATCTGTAAACTTCTCTTAATTTACTTAAAGGAGACATTAATTTAATTGAATATGTAATATTAAATAAATTTCATCTTTCCATTAATTCATTTGAAATTAATGAGTAACTTTTAATATTATTAAATCCCAGACCTACTAAAAAATTTTCAATTTGATATTGTAAATTTAAATTTAGATTTTTATTTTTATAGTTTGAAACAATAACTGGGGGGACTGATTTGATATTATCATATCCATAAATTCTTGAAATTTCTTCCACTATATCTGCAGAATGATTAATATCTCTTCTATATTGATCTACTTCAAAATGAAGCTTACCATTTTTTTCTGTTACTTTAAAATCCAAAGTTTTAAACAGTTTTATAATTTCTTTTGTTGTTAATTCAATTCCAATTAATTTATTTATATATTCAAGTTCAACTTCAATTAATGTTTGTTTTTCATCTATTTCTTTGAAAATTTCCATTTTACTATTTGATTCATAAATATTGTATTGATCTAATCAATACAATACTCTATTTTCTGCAAGATTATAAAGTCTTGAGCTAATTGGTTTCATATAACGTTGTAAATCAATAGAGGATATATTAAATTCTTTTTGTTGTTTTCTCATAAAAATAGGATCTAAAGATAAATAAATAATCATTATTTCTTCTGATTTAGCTGTTGGTAAAAAATCTAAATTAAAATCTACACCTAAGGTTGAAATTATTTCATTTTCACACATTAGTTGTAAATTAGTTTGATGAGTTTCAGTTTTATTATTCCTAATTTCCAATTGAGCTGTTAATTTTTTTGGGTCTAGAAAAATAATAGGTTGCCCTGTTTCAATAGCAATTACATTTGCTAAATCTAATCAAAAATTATGAGTAGTTTTTACATTGTTAAATTTTAATCATATGTCATGATTAGAATATATTTCATTTTTAATTTGTTCAATACTTAAAATTTTCTTTTTTAAGACTATTTGTGAAGCAATTGTTTTTACATATTTTTCAATTGATTTCTCACATTTTATTGAAACTGGTAATGATAATTCATTTTGCTTATGTTTATAATTCTTTGTTAAATCCGATATATCTTTATTAAAGTAATTTGCTATTTCTTTAACCAATTGTAAAGCTGCTAAAGCATCACTTCTATTTAAAGTTAAGTCTATTTCTCAAACTGCATCTAAAAAGCCAATTTCTTCTAATGCTGTCTCGCTACCAATTAATGAATATAAATCTTTTTTTGATTTGATTGAATAAATTTGTTCTTTTTCTTTATCACTTAAAACCTTTACATTTATACCAATTTCTTCCAATGAACAAATCATTCCTTCTGAAATTTTGCCCTTAATTTCTTTTTTTTCTAATTTCATTCCTGTTGAAATAGTTTTTCCGGGTTCTGCTAAAATTATATATTGACCTTCTTTAACATTACTTGCACCACAAACTATTGGAGATACAAGTTCTTCACCTTTATCAATAAAGCAAAAATTTAAATGTGTATTTTCAATTGGGCTAACATTTCCAACATGTGCAATTTTAAGTTTGTCATTTAATTTTGAATAATCTTTAAATGAATCAACTTCAAAACCAAGAGAATTAAGTGCAATTGTTATTTGTTCATTTTCAATTCCCACTAAATCAATAAATTTATTCAATCATTTTCTTGTAATATACATATTCTAATTACCTCTAATTTCCAAAAAACTTAAATTGTTCAAGAAATCTTATATCATTTTCATATAAATCTCTTATATTTTTTAAACCATATTTTAACATAGCTAAGCGTTCTATTCCTACTCCAAATGCTAGACCACTCACTTTATTTGAATCTAATCCATTTGCTTGTAAAACCTCTGGTGCTAACATTCCTGAACCCAATATTTCAATAAATCCAGTAAATTTACAAATTGAACATCCTTTTCCATTACAATTCATACAACTTACATCAACTTCTGCTGATGGTTCAGTAAATGGAAAAAAACTAGGTCTCATTCTAATAACTGTATCATTTGAAAATAATCTTTTACACATATATTCTAAAACTCATTTTAAATTTGCAAAACTCATTTTTTCACTTATTGCAAAAACATCCATTTGCATAAATTGATGTGAATGTGTTGCATCATCATCATCACGTCTATAAACATTACCATAACTTAATGCAGCAACATTAATATTTTTTGAAATAGCAGCATTTGTTAACATTCTTGCTGTCATATTTGTAGCATGTGTTCTTAAAACAGTATTTTCATCTATATAAAAAGTATCTTGCATATCTCTTGCTGGGTGGCCTATTGGCATATTCAATTTTTGAAAACAATATTCATCCGTTTCAAATTCAGTTCCATCAACTATTTCATATCCTAATTCACTAAAAATTTTGGAAACTTCTTCAATAACTAAATTTAAAGGGTGTTTTGAACCTAATTTTAGATTAATACCTTTCATTGTTAAATCAATTTTTTCAGCTTTTAAAATAGATTTTAATTCATCTTGATTCAATTTTTCATAAATTATATTTAATTTTTCATTAATAGTTATTTTAACTTCATTTGCTTTTAAACCCGCAATTTTTCTTTCATCTGGAGAAAATGATTTCAAACTTTTCAGAACTTCCATTAATTTTGAATTTTTTCCAGTAAATTCTTTTTTTATTTCTTCTAAATCATTTTTTGAATTAATTTTATCTACTTTTTTATTAAACTCTATTAATATTTGATCAATTTTTTCTAACATAATGCACCTTTTCTAATGTAAAGCATATTTATTATACTAAATTATTGCTTTAATATAACACTCAGATATTTTAATTTTTGAGTTTTCAATATTTTTTTGCTCTTGAATAATGTTTTTTTCAAATTTTTTATTATAGTTTAAAGACTTTAATAAAATAAGATTATGTTTAATTAATTCAAATTTTAATATTTCAAGTTTTCACTCATAAAATAAATCATTATCAAAATACTTTTCATTTTCAAAAATTGATTCATGAATTTTTTCAAAAAATAAGTAAGTAACTATTATATTATTAATAAATTTTTTAATACTATTGTATATTGAGGATAATAAATTATCTAAAATAGTTATTTTATATTCAAAAAAATCTAAATTTTTGATTTTATTTAAATAATAATTAATTATATTTCTTAATTCATGAATTTTTTCCTTAATATCATCTTCTTGTTTTTTATTATATTCAGTATTTAAGGCCTTTTTAAACATTTTTATAAAATTATTAGTATTTACTATATCTGTAAAATTAATAAATTCTCAATAAAAGTTAATTGAATTGTATTTTACTTTTAAAATTTTTTTACTGTATTTATTAATTAAATAATCTAAATTTTTCATTTTATATCCTCTTTAAAATTATAAACAAAAACCTACCCTTTTATGAGTAGGTTTTGATTGAACTGGCAACTTCCTATTTTCGCATTATACTATCGTCGGCGTAGTTGATCTTAACTTCTGTGTTCGACATGGGAACAGGTGTGACCTCAACGCTATGATCACCAGATCTTTTTCTTTGAGAGAAAAGTTATTAAATATAATAACTAAATCGTTCTCTCAAAACTGAATATTAAATGATTTATATATCTATACAAGCAATTATGTTTATAGGTTTCTTTCTTTGAAAGACCTCGATCTATTAGTATTGGTAAGCTGAACACGTCACCGTGCTTACACACCCAACCTATCAACCATGTGGTCTACATGGGATCTTACTTCAAAAGAATGGGAAAACTCATCTTGAAGGAGGCTTCTCGCTTAGATGCCTTCAGCGATTATCCTTTCCGCACATAGCTACCCTGCTGTGCCACTGGCGTGACAACAGGAGCACCAGGGGTGCGTCCATTCCGGTCCTCTCGTACTAGGAACAGCTCTTCTCAATTTTCCTACGCCCACAACAGATAGGGACCAAACTGTCTCACGACGTTCTGAACCCAGCTCGCGTACCGCTTTAATGGGCGAACAGCCCAACCCTTGGAACCGACTACAGCTCCAGGATGCGATGAGCCGACATCGAGGTGCCAAACCTCCCCGTCGATGTGAACTCTTGGGGGAGATCAGCCTGTTATCCCCGGGGTAACTTTTATCCGTTGAGCGACGGCCCTTCCACACGGGACCGCCGGATCACTAAGTCCTGCTTTCGCATCTGTTCGACTTGTAAGTCTCGCAGTTAAGCACCCTTATACCTTTGCGCTCTTCGTACGATTTCCAACCGTACTGAGGGTACCTTTGAGCGCCTCCGTTACATTTTAGGAGGCGACCGCCCCAGTCAAACTACCCACCAAACACTGTCCCTGATCCGGATAACGGACCTAGGTTAGAACCTCAATATAACAAGGGTGGTATTCCAAGGATGACTCCACGATCACTAGCGTGACCGCTTCAAAGTCTCCCACCTATCCTCTACATGTTACACCAAAATTCAATATTAAGTTATAGTAAAGCTCCACGGGGTCTTTCCGTCTAGTTGCGGGTAACCAGCATCTTCACTGGTACTAAAATTTCACCGAGTCTATAGCCGAGACAGCGAAGGGATCATTACGCCTTTCGTGCGGGTCAGAACTTACCTGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTCACCGGGGCTTCAATTCAATGCTTCACCGAAGCTAACATCTCCTCTTAACCTTCCGGCACTGGGCAGGCGTCACCCCCTATACTTCGTCTTACGACTTTGCAGAGAGCTGTGTTTTTGCTAAACAGTTGCCCCTCCCTCTTCACTGCGGCTCACCATAAGTGAGCACCCCTTCTCGCGAACTTACGGGGTTATTTTGCAGAGTTCCTTAGCTATAGTTATCTCGCTTGCCTTAGGATTCTCTCCTTGACCACGTGTGTTCGTTCTCGGTACAGGCACCTAACAAATTAACGCTAGAAGCTTTTCTTGGAAGCGTGGAGTCATGGACTTCGCTACTAGCCGAAGCGTTCACTCCCCATCATACTTCAAGGTTATAGCACGCGGATTTGCCAACGTACACCTCTTTGTATTTAGACCGGCATAACCAACAGCCGGCATCCACTATCCTTCTCCGTCACTCCATCACTTTGTTAGGTGGTACAGGAATATCAACCTGTTGTCCATCGACTACGCCTTTCGGCCTCGCCTTAGGTCCTGACTAACCCTGGGTGGACGAACCTTGCCCAGGAAACCTTGGTCAAACGGCATGGGAGATTCTCACTCCCAAACGTTACTCATGCCGGCATAATCTCTTCTAATCGCTCCACCAGTCCTCACAGTCTGACTTCATTGCAATTAGAACGCTCCCCTACCACTTACATTGCTGTAAATCCAAAACTTCGGTACTACGCTTAAGCCCCGGTACATTTTCGGCGCAGAAGCACTCGACTAGTGAGCTGTTACGCACTCTTTAAATGATGGCTGCTTCTAAGCCAACATCCTAGCTGTCTGTGCACTTCCACATCCTTACACACTTAGCGTAAATTTAGGGACCTTAGTTGTTGATCTGGGCTGTTTCCCTCACGAGCATGGACCTTATCACCCATGTTCTGACTGCCGAGTATGAAATTATGGCATTCGTAGTTTAATTGTAATCAGTACCCCTAGGTGGGGCCATCATACATTCAGAGCTCTACCTCCATAATTCTTAACCTCGACGCTAGCCTTAAAGCTATATCGGGGAGAACTAGCTATCTCCGGGTTCGATTGGAATTTCACCCCTAGCCACAAGTCATCCACGGTCTTTTCAACGAACGTTGGTTCGGTCCTCCATTAGGTTTTACCCTAACTTCAACCTGCTCATGGCTAGATCACCCGGTTTCGTGTCTACGACATCGTACTAAACGCCCTATTAAGGCTCGCTTTCACTACGGCTCCGTGTATTCCACTTAACCTTGCACGATATCGTAACTCGCCGGCTCTTTCTACAAAAAGCACGCCATCACCCATTAACGGGCTCTGACTTCTTGTAAGCATATGGTTTCAGGTACTATTTCACTCCCCTCACGGGGTACTTTTCACCTTTCCCTCACGGTACTGGTTCACTATCGGTAAAATGGTAGTATTTAGGCTTACCCAGTGGTCTGGGTAGATTCCAACAGGGTTCCACGTGCCCCGCCGTACTCAGGATACTCTTTCGAGGTTAGTGCATTTTGCATACGGGGATATCACCCTCTATGTCACTGCTTCCCAACAGCTTCTGCTATACACTAACTTTGTAACTCTAACAAGAGTCCTACAACCCCGGCCCGTAGACCGGTTTGGCCTGTTCCGCTTTCGCTCGCCGCTACTAACAGAATCACATTCGTTTTCTTTTCCTCTAGGTACTAAGATGTTTCAGTTCCCTAGGTTCCCTTCACACAACCTATGTATTCAGTTGTGGATACTATGAGATTAATCATAGTGGGTTTCCCCATTCGGATATCGTCGGATCAAAGCTTACTTCCAGCTCCCCGGCGCTTTTCGCAGGTAGTCGCGTCCTTCATCGGCTCCATTTTCCAAGGCATTCACCATACGCCCTTACTATACTTTCTAAAGAAAAACCTATTTGCATATATAGATAATCTATAAAATTAATGAAATTTTAGTTTTCTTAGTAATTGTTTTTAAGTTACTAAATACGTTTTCATATATGAAACGTAAGAAAAATAAAATGTCTATTTTCATCTAATATTCAGTTTTCAAAGAACGATTTTCTTTTCAGAAATTGTCTGGGCCAAAAGGCCCATAAAAAACAATCTCTGAAAACTAGATAGAACTTAGATATAACCAAAAGCTGTTTTATATTTCACACAGCTTTTTCTCTAAATCTACGAATACTCCATAGAAAGGAGGTGATCCATCCGCACGTTCCCGTACGGATACCTTGTTACGACTTCACCCTAATCGCTAATCCTACCTTGGTACGCTCCCTCCTTACGGTTAAGATACGTGCTTCTGGTATTACCAACTCTCATGGTGTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCGACGTTGCTGATTCGCGATTACTAGTGATTCCGGCTTCATGAAGTCGAGTTGCAGACTTCAATCCGAACTGAGACTGACTTTTTGAGATTAGCTCCCCCTCGCAGGATTGCAACTCTTTGTATCAGCCATTGTAGCACGTGTGTAGCCCAGGACATAAGGGGCATGATGATTTGACGTCATCCCCACCTTCCTCTAGCTTACACTAGCAGTCTCATTAGAGTCCTCAACTGAATGTTAGTAACTAATGATAGGGGTTGCGCTCGTTGCGGGACTTAACCCAACACCTCACGGCACGAGCTGACGACAACCATGCACCACCTGTCTCAATGTTAGCCTCCACTACATCTCTGTAGCTTTGCACTGGATGTCAAGCCCTGGTAAGGTTCTTCGCGTTGCTTCGAATTAAACCACATGCTCCACCACTTGTGCGGGTCCCCGTCAATTCCTTTGAGTTTCACTCTTGCGAGCATACTACTCAGGCGGAGTACTTAATGCGTTAGCTGCAGCACCGACAAAATGCCGACACTTAGTACTCAACGTTTACGGCGTGGACTACTAGGGTATCTAATCCTATTTGCTCCCCACGCTTTCGTGCCTCAGCGTCAATCACAGGCCAGTAGACCGCCTACGCCACTGGTGTTCCTCCATATATCTACGCATTTCACCGCTACACATGGAATTCCATCTACCTCTCCTGCATTCTAGTTAGCCAGTTTTCAAGGCGAACCGGAGTTGAGCTCCGGGCTTTAACCTCAAACTTAACTAACCGCCTACGCACCCTATACGCCCAATAAATCCGGATAACGCTTGCCACCTATGTATTACCGCGGCGGCTGGCACATAGTTAGCCGTGGCTTTCTGGTAAGGTACCGTCAAACTAAAAACATTTCCTTTTCTAGCATTTCTTCCCTTACAACAGAGCTTTACAATCCGAAGACCGTCATCACTCACGCGGCATTGCTTCATCAGACTTTCGTCCATTGTGAAAAATTCCCTACTGCTGCCTCCCGTAGGAGTCTGGGCCGTATCTCAGTCCCAATGTGGCCGATCAACCTCTCAGTTCGGCTACGTATCATCGCCTAGGTGAGCAATTACCTCACCTACTAACTAATACGCCGCATCCTCATCTTCTAGCGACCCAAACGGGCCTTTTAACACCTTCTGATGCCATAATGGTGTCGTATGCGGTATTAGCAGTCGTTTCCAACTGTTATCCCCCACTAAAAGGTAGATTAGATACGTGTTACTCACCCGTTCGCCACTGGGTGCAAGCACCCCGTTCGACTTGCATGTATTAGGCATGCCGCCAGCGTTCATCCTGAGCCAGGATCAAACTCTCATTAAAAATTAATGTGAAAATTTTGATTCTTGGCTATATCTCTATCTCAAAAAATTGAACTTGTATAAATTGTACAAATTAAATTGGTTGTTGTTCTATCTAGTTTTCAAAGATCGTTTCTTCACTCATAACGAGCGACATATAATAATATATATGATTTATTTTCAATAATCAATACTTTTTCTGAAATTTTTTATTTTTTTTTATTTCAAAAAGCAGACTTATTGACAAGATTTATAATAGCATACTTTTTAAAAAAAAAATAAAAAAAAGCAAAAATTTTAATTTTTTTTTGCTTTTTTAATCATCTCAATCAATTGTTGGCATAAAATCTGACTTTTTTTCATTTACTGGATCTAAAATTTTATTCAAATCTACATCAATTGTTTTTGTTTTTTGTTTTTTTGTACTATTTGCTAAAGAATTTACTTTACTTTGATTTATTGGTAAAGCAATATTATTATTAATTAAATTTCTTTCTTTTTTTTTCATAGCCTCTCAAATTTTGTCAGAATCACCAAGAAAAACTTTACCCTCATAATTACTATCATATTTTGGGACTTTTCTTTGAGAATTTACATTATTTTGATTTGCAACGACATTCCCAATTGGTTTTTGAAATTTTTCAGCTCTATATTGTGATCTTCTCGGAACAATTGTTTCTTTATATGGATCTTTTGGAACTAAAATTGGGGGTAAATCATTTTCTTTTGGAATATTATTTGGAGATACTACATTACTAAAATTATTTTTACTAATTTCATCATTTTTTTGATTATTTGATAAATTATCAATAATTTCAATTTTCTCACTAACTTCATCATTTAAAGACTTTAAATCTAATTCCTTTGTTTTTTGAGTCTCAACCTCATTAATAACAGAATTCATATGTTCTTCTTGAAAAACATTATTATTTAAATTATTTTTTAATTGTTCTAATTTATCAGCAATATTAAAAGTTTCTTCATTTGGAGTTGAAGTGAAATTTGGATTTATATTAAGTGCCCTTTGAATATTATTATTATTTTGTTCTGCTACAATTTCAGTTTGCAAATTAACTTTTCTATCTTTATCTTTTACTTTTTCTTCTATTTTATCTTTTGTTAATATTAATAAAAAACTTATTACTATTATCATAAAAACTATTGATAACCCAGATAATAAATAGTTTAAATATAATTTTTCAAAAATTATAGATAATTCTATACTGTTATTAAAAATAATAATTATAAAAACTAATGGATTAACTAAATTTAATAAAGCAATACCAACTGTAATAAACCATAACTTTTTAAATTTTTGATTAATTACATGAAAAGTTGTTGTTAAAAGTAAAAACAAACAAAATAATATTGATAAAATTGGCAAAATGTTTAGCATTGAAAATTGCCAACCCCCAAAAATAAAAACTATTGTTTCATTATGTAAGAAAAAAGATTGACCAAAAAATGAAAAAAGTCCTCCCATTAATATAAATAAAAAACTTAAAACTTTCATCATTTTCATAAAACTTCCCCCATCTTATTTGCCCTACAATATATTACTATTTTAGCATAATTTTATTTATTACAAACCCTAAAAATTATTAATTATATATAAATAAAAAAAGTCAATTGACTTTTTAATAATTTAAAACTATTCCTCTATATCTTGTCATGCTTAGTAATGATTCTCTAATTCCTTGAACACCTTCACCAGAATTTTTAATGCCTAAAAAAGGAAAAGAATCAGGACCTCTTTGAGATTTTGAATTTATATTAATTGTTCCTGTCTTTATTTTTTTTGCAGTATTTATTGCTGTTGAAATATCTTGGCAAAAAATACTTGCTTGAAGTCCAAATTCAGATTCATTTGAAATTTTAATCATTTCATCAATTGAATTTAATCTAATTATTGGCAAAACTGGACCAAAAGGTTCTTCTCATGCAACTCTCATTTTAATTGAAACATTATCAATTAGTGTTGGTCAAATTAAATTTTTTTCAGATTTATATCCTGTGATTATTTTTGCACCATTTTGTTTTGCATTATCAATTAAACCTAAAATGTAATTTGCTGATTTTTCATCAATAACTGGTGTTATATCACAATTATCAAAAGGTGAACCTACAGTTAATTTTTCAATTTTTTGCTTTAAAATTGGCAATAATTTATCTGCAATTTGATTTGTAGTTAAAACTCTTTTGATAGCCGTACATCTTTGTCCTGAATAACTAAATGCCCCTGAAATTATTTCCTCTGCATATTTTTCTAAATTTAAATCATCTAAAACTAGTGCTGGATCTTTTCCTCCCAACTCCAAAACTAAATCAGTTGTGCTTCCATTTTTTCTAATTTGATTCCCTATATTTACACTTCCTGTAAAAGAAATCATATCAATTTCTTTATTTGCAGTTATGATATCTCCAATTTCTCTTCCTCGTCCTGTAACGATATTAAAAATTCCTTTTGGTAAATTTGCTTTAATTACAAGTTTTGATATAAATGCTCCAACCAAACTTCCTGCAGTTGCTGGTTTAAAAACAACTGTATTTCCCATAACTAATGCTGGGATTATTTTTGCAAAAGCTAAATTAAAAGGATAATTAAAAGGAGAAATTGCAAGAATTACACCTTTTGCAACCCTTGAAAAAACACCAATTTTATTTTTTGCTCCCATTCCTTCTCCAGTTTGAGAATGTGGATCAATTCTTTTTGCCTCTTCAAACGTATAATCAATTATTTCAATAGTTCTTTCAACCTCATTTAATGAATCTTTTAAGGATTTTGCAATTTCTTCTGTCATAATTTGTGCAATTTCATTTTTATTTTCCACAATTAAATCTTTAAATTTTTTTAAAATATTAATTCTATCTAATAAATGTTTTGCTTCTCAAGCTTCTTGTGAAAGTCTTGCATATTTAAAAGCATTATCAATATCTTTTGCACTTAAAGCACTAACTTTACCTGCAATTTCTAAAGTTGTTGGATTCATAATTTCTAATCATTGCCCATTATCAATTAATTCATTATTAATTAAAGCATTATATTTTCTCATTTTTTCCACCTCTTATAAATTATACACCCTTATTTTTTGAATATATTTCATTCATTAAAATTGAGCCTGCAACACCCACATTCAAACTTTCCACCTCAGGATTTATTTTAATTTTTGCATTTAATTGTATTAAATCCCTAACTTCTTTTGAAATTCCATTTCCTTCATTTCCTAAAATTAAAGCAATTTTTTTCTTTTTTATTTTTTCATAATTAAAATTACTTTCATTTTGCAAAATAGTTCCAATAATAACGACTTCCTTTTGGATTAACTCTTCTAAAAATTTTTTTAAATCCGTATTTATTAAATTTAATTCAAAATGATTCGATTGAGTGGCTCTTAATACTTTTGAATTATAAAAATTTACACAATCATTTGAACAAATAATATTTTTAAATTCAAAAGCTAAAGCACTTCTTAATAATGTTCCTAGATTTCCTGGATCTTGTATTCCATCTAGAATTAAATAATTAGAATCAATTTCCTTAAAATCTTGAATTTTACATATTGCAAAAATTCCTTGTGATGATTTTAGTGAAGATATTTTTTTTGAAATATTATCTGTAATTTCAAAAGAATTAGTAAAATCTTTATATTTATCAATATATTGTTTTTCTATAAAAATAGATTCTACAACTCCTTTTGATATTGCCAAATCCACCATTTTAAGCCCTTCTATCAAATATTTTTTAGTTTCTTTTTGATAACTTATCTCTTTTAATAAAATTAACTCTTGAATGAGCTTATTTGCCACAGAAGTTATTTTTTGCATGTATTTACTCACTAAATCCGAAAGCTATTTCATATAGCTTATTTTCAGGATTTTCATAGTCCTTTCCTTTATATTTTGGATTTTCAACAGGATAACTAAAAATATAATTAGCTTTTCTTGGTGGTTCTATTAATTTTGCTTGAATTTCAAATAATGGCGAAAGTTGTTCTCCATTTTTTCTTTTTTCTTTTGCTTCTTGCATTATATCTTCATAATCTTTAATTTTTTCTTGTTTAACAAGTATTCAAATTTTATTTTCATGATATCACTTTACTATTTTTTTATACTCTTCATATGTAAATTTTTTAGCTTTATCTGCTACAATAAACCTCTTTGTTTCTTTATTTCAATCTACGACAAAATCTTTTCAAATTATATTTCCCGTTTTACCACTAACCATTAATTTTTTTGTTTCTTCAATACATTGATCTAATGTATTAAAACCATATCCAATAAAAGAATTTCCACTTCATAAATTTATATAGTTTATTTTTCTAGGATTTCATAATTCTTCAAAACAAATTGTAATTACTCAATATCTTTTATCTGTATTATTATGATGAATTTCAAAGCCATATTTGCTGTTCTTTATAAGAATTTCTCTATTTGTAACTTTTACAATTTTATATTTAAAATTTTTCATTATTTTTATTTTTTCTTCTTCAGTTAATTTAATATGTGGTTCATTTTTTAAAGTTTTCATAACTTCTTGTGTTTTATTAATTAAATTAACAGATTTTTCTCTTTTTTTACTAAATGAATTTAAAATGTTTAAATCAGAATTTGGATCTGGAAGAATAAGTTTACTTTGAGTTTCTAAATTTTCTTCATGTACTTGATTTTTAATTTCATTCGAATTAGATAAAGGATTTTTTACAAAATTACTACTTTCCTTTAATTTTTGAATAAGATTTTTTGCCTTTGAATTATCAATTTTTAGGTCTTCATTCAATTGTTCGTTGTTTATTTTATTTATTTTAACTTTAACTTCTTTATTTTCTAATTCCTGAGGTTCAGTTTTATTAATATCTAAAGAAGGAATTCTTGGATCTTTTGAATTTGAGGGTTTATAATCAAAAATTTCATTTCTTTTATTTTTCATTTTTGAACCCCCTTTTTATTAATAACCAGTATTTTGTCTTTTAAAATTTATTTCATTTTTATTGTTATAAATTTCTAATAATTCTTCATCTGAAACATTTAATAAATCTACTAAAACTAAAAAAACATTAAATAAAATTGAAAATGAATTGAAATCTTGGTTTTTTTGAAATTCTAATATTTTTAAATAAACTTCAATTGTTCAATCATCAATATTTAATATATTTAAAGTAGATTGATTTTTAAATTTTTCAAAATTAAAATTCAAATCATTTCCTAAACTTAATATAAAATGAAGTGCATCTATATATTCTTCTAGAAGGATATTTCTCTCACTTGGCTTCTTATTTGATCAATATTTAAATGATCTATACTCATTGACAAATTCTGAAATTTCAACCAATAATGCAATTATTTTTTTCTTTGTTATTTCAGAATTCACTACTAAACCTTTATTTTCCATAATATATTTATCTAAAATTATTTGTTTATCTTTTAAATAAATTAAATTTTTATTTTTTAACATTTCACACCTACTTCAAATATAATTTTAATTTAAAAAAACGATATTCAACTATCGTTTTTTAAAATTTTTAGAATCCTGGTTTTTTTAATAGTTTAAACATATTTGTTTTATAAACCTCAACACCTGGTTGATTAAATGGATTTACTTCAAGTAAGTATCCACTCATTGCACAAGCCTTCATAAATCAATATGCTGCATAACCAAACATTTCTGAATCCATTTTTTCAAATTCTAAAATAATATTTGAAACTTGACCCACATTTGCATGAGCATCAACTACTCCTTCTAATGCTGTTCTATTAATTTCATGAAATGAATTTTTGGTTAAATAATTTAAACCATCTAAATCTTCATCATTTAGTGGTACTTTTAAATCAATTTGAGGTTTTTTAACATCAATAACAGTTTCAAATAAAACATTTTTTGACCCTTCTTGAATAAATTGTCCAAGCGAATGTAAATCAGTTGAAAAAACACAACTAGTTGGAAATAATCCTTTACCATCTTTTCCTTCTGATTCACCAAATAACTGTTTCCATCATTCAGTAAAAATCTGCATTTGCATTTCATAACTTACCAATGTTTCTACTTTATAGTTTTCTTGTTTATGTAATAAATACCTTGCAATAGCATATTTATAAGCTTCATTTCAAGTATTTTTTGTATCTTCCATTGCTTTTTTAGCTCCAATAAATATTTTGTCTACATCAACACCAGCTACAAGCAGAGGAAAAATTCCAACTGGAGTAAATACTGAAAATCTACCTCCAATATCATCTGGAATAGTAAAAGTTTCATAATTCTCAGCAGTTGCTAATTGTTTTAAAGCTCCCTTTATTTTATCTGTTACTGCAATAATTCTTGATCTTGAATTTTCTTTTCCCTTTTGATTAACTAATAATTGCTCAAAAACTCTAAAAGCAATTCCAGGTTCAGTAGTTGTTCCTGATTTAGAAATATTTACAATTCCAAATTCTTTATTTTGCAAATAATCAATAATTTGTTGTGTATATGAAGAAGAAATTGTATTTCCTATGTAAATTAGTTCAACCTTATCTTTATGGTATAAACCTCTAATCATTTCATCAGCTGCTCTCGCCCCAAGATAACTTCCACCAATACCAACAACAAGTAGAACATCAATTTCTTGTCTTAATTTACTTGCTACTTCTTTCATTTTCTTCAATTCATTTTCATCAAATTCAACTGGCCAGTTAACTCAACCTAAAAAATCATTTCCTAGTCCTGTTTTATTTTCAATCATTTCATGAATTAAATTTATTTTTTTAATATCAAAATTTTTGATTTCACTTTCAATTTTAGTATTTTTAAAATTGCTTTTTATCATTGTTAATGCATCTCCTATTTTATTTAGATTCTATACTGCTCTTTAAGTTATCAAATCCACTGCCAGTTTCTTTAATTTTTACATCTGTTGACTTTAATAATTCTGGTCTTAATTTTTTATAGCTTAGCTTTATTTGATTTTTAGCATCAATTATTTCTATAACTTCTATTTCATATTCTTGTCCAACAGTTAAAAAATCACTAATACTTTTTACAAAAAAATCTGAAATTTCTGAAATATGAATTAGTCCTTTAATTATTTCATTTTCATGTTCTATTTCACAAAAAGCACCATAATTAACTATAGCAGTTACTTTTGCATTTATTTTTTGTCCTTTGTTTAACATTTTCATTGCTCTCCTTACAATATAATTGTAAACTTAAATTAAATAATAAATTAAATTTTAAAAAAAATTTTAAATAGAGGTGATTAATTTGGAAAAAAATAACTTAGAAAAAGAAGTAAAACAAGTTTTAGAGCAATTAAGAATGTATGTAACACAAGACGGTGGAGATATGGAATTTGTTGCAATAAAAAATAGACTTGTTTATATTCGTTTAAAAGGAAATTGTGTTGGTTGTAGTATGACAGAATTAACATTTAAAGAAGGTATTGAAACAGTTTTACTAGAAGAATTCCCATATGAATTAGATGGTGTTGAATTAGTAATGTAAAATAAAAATTCCACAATTGTGGAATTTTTATTTTAACCTACGGATCCTTCCATATCCATTTTTATTAATTGATTAAGCTCAACTGCGTATTCCAAAGGTAATTCTTTTGTAAAAGGTTCTAAAAAACCCATTACTATAATTTCAAGTGCTTGTGCTTCATCTAAACCTCTACTCATTAAATAAAATAATTGTTCTTCACTTACTTTTGAAACAGTTGCTTCATGTTCAATTTGAGATTCATTATTATGAACTTTATTTTGAGGAATTGTATCTGAATGAGATTGATTATCTAAAATTAAAGTATCACATTCTACTCTTGCTTTTGAATTAATAGCATTTGGTCCAATATATGCAAGTCCCCTATAATTTGCAGTTCCACCTTGAAATGTTATTGATTTTGAAACAATTTTTGATTTTGTTTCTTTACCTAAATGAATCATTTTACTTCCTGCATCTTGATAAACACCTTTTTTTGCAACTGCTATAGAAATTGTATCTCCTTGTGCTCTATCACCCTTTAAAATACAAGAAGGATACTTCATGTTCACTTTTGAACCAATATTTCCGTCCACTCATTCCATTCTTCCATCTTCTTCAACTAAACTTCTTTTTGTTACAAGGTTCAAAACATTGTCACTTCAATTTTGAACAGTTGTATATCTCATAGAAGCTCTTTTACCAACAAAAATTTCTACAATTGCAGCATGTAAATTATTTTTTGAATAAATTGGTGCAGTACATCCCTCAATATAATGCAATTCTGCATCATCTTCAACAATTATAAGAGTTCTTTCAAATTGACCTGAAGCTTGATAATTTATTCTAAAATAGGCTTGCAATGGCTTTTCAAGTTTAACACCATTTGGTATATAAATAAATGTTCCCCCACTTCAAACTGCTGCATTTAAAGAAGCATATTTATTATCATCATTGTCAACTAATGTTCCAAAATATTTTTTAAATAATTCTGGGTGTTTTTTTAAAGCTGTGTCACAATCTGTAAAAATTACACCTTGTTTTGTTAACTCATCTTGCATTCTTTCATAAACTGGTTTTGCATCCCATTGAACATTTATTCCCATTAAGAAATTTTTTTCAGCTTCCGGAATACCTAATCTTTCAAAAGTTCTTTTTATATTATCTGGTACCTCATCTCATGTTTTTACAGTATCTGAAGCACCTTCTGTATAGTAATAATAATCATTAAAGTCAACTCAGTTTAAGTCAGGACCAAAATTTGGTTGAGGTTTTTTATTAAATTTTTCTAAGCTTTCAAGTCTATATTTTAGCATTCATTCAGGTTCTTGTTTATGTTTTGAAATTTGTTTTATAACATTAATATTTAATCCTTTATCAACTTTATAAGTTGATAATTCCCCCTCATTAAAACCATATTTATAATCTGCTATTTGTTTAATTTCTTCTTCTTGTTTTAATTTTTTCATTTTTTACTCCTCTCCTTTTAATATTTTTCTAAAACCATCAGCTCCCAAAAGTGCACAATTTATTCTATTTCCTTGTTTATTTATTTCTCAAAATGCAATTAATTCATCAAGGATTTGTTCATTGTAATCATTTCCAGCAATCATATTATAATAATTCACTAACTGTTCTTCTGCTTCACTAAGTGTTAAATTGATTAATTTAGAAGATAAGATATCTGTTGATGCTGTTGAAATTGCACAAGCGTTTCCATCAAATCTTGCATTAATTATTTTATTATTTTCAATTAATAATTGAACATTTATTTCATCACTACAAGTTGGAGAATCTTGAAATTTAATAATAGCTTTTTCATTTTTAATAAGACCTTTATTTTCTGGCTCAGTATAATGTTCCATTATAATTTGTCTTAATTGAATTTTATCAGCCTTATTAAACATATTGTTTTCTCCTTTTTTAAATAATTTCGTTTATTCAATCATCACAATCTTTTAATGCTTCAATAAATGTATCAATATCTTGTTTAGTATTATAAATAGAGAAACTAACCCTTATTGTTGATTCAACATTTAATAAATTTGAAGTTAATCTTGCACAATGTTTTCCAACTCTAACTGAAATTTTGTACTTTTTATTTAAAAAAGATCCAAAATCTTGTGCATTAACTCCAATTAAATTAAATAACAAAATTGGTTGATCATTTTCTAAATTATAGAATTCAAATTTATTTATATTAATTTCATTAATTTTGCTCTTAAAGTACATTTTTAGATTTTTTTCATATTCTATAAGATTTTTCATTCCTAGTTCATTTATAACATCAATACACTTATTATATGCATAAATTGCAGATAAATTTAATGTACCTGCTTCAAATTTTTCTGGAATTGGGGCTAATTTATATGAATTTTTAAAAATACTTGAATTATTTCCTCCTCCATATAGAATTGGTTTCATTAATTTTAGTAATTCTTGTTTTGCTCATAAAATACCTAAACCAAATGGACCATACATTTTATGAGCTGAAAATGCAACTGCATCAACATTGAGCTCTTTCAAATTTATAATATTATGAGCAATTGATTGTGCAAGATCCAAAATAATTATTGTATTTGCATTAATTTTTTTTATTTCTTCAACAATGTTAATGACATCATTTTGGATTCCAATAGTATTAGAATTCATTGCAAAAGAAACAATTTTTGTTTTTTTTGTTACACATTCATTAATTTTTGAAATATCAATAGAGAAATTTTCACTGAGTTTAAAATAATTAATTTTTAACTTATTTTCTTCAGCAAGTACCATTCAAGGAAGTAAATTTGAAGAATGTTCTAGTTCAGTTAATAAAATTTCATCACCCTCTTTAAATATTTCTTTTAAGCCAAATACCAATTGATTTAATGAGTAAGTTGCTCCACTTGTAAAAATAATTTCTTTATAATTTTGAATTCCAATAAAATCTGCTATTTTAGTTCTTAATTCTTTTAATAAAGTATTTGCCTTATATGCATTATCAAATAAAGAATTATGAGTATTTGCAGCAATTTTTAAATCATAATCACTTTGTGCTTTAATAACTTCATCAAATTTTATGCTTGTAGCAGCAGAATCAAAATAAATTTCTTCAGCATTATTTCTAAAATAAGAAAATTTTTCTTTATAGTTCATTAAATCATTTCCTTTAAAGTTTTTTTCAAATAATTTAATAAATCTTCATTTTCAATTAATTGAAATACTGGTTCAAAATAACCATTGATTATAAGTTCTTGAGCTTCAATTTTATTTAATCCTCTTGATAGTAAATAAAAAATTTGATCTGGGTCTAACATTCCTATTGCATTTGCATGACTTGCAACAATATCATTTTCATCAATTAATAAAACTGGATCAGAGTCTGCTTTTGCTTCTTTATCTAAAACTAATAATCTTAATTCTTGATGAGCTTCAGATGAACTTGAACCTTGTCTTATATCACTAATACATCTTATAAATCCTTTTGAAATATCTTTTAAAACTTCATATGCTTGAATATTTGAAGAAGAATTTCTAGAATTATGAATAGATTTTATTACACTATTTTTATTAAAATTTTTATTAATAATTGTAGAACTATAATAATCTATTAATGAATTTTCTCCATTTAAATTAATTGATATATTATCATCACAATTAAAATTATTTAAATTTGCTATTTTTAAATTTAAATTACTATTTTTATTTAAATTAAAATCCAAATTAAATATTTTTTTTGAATTATCAATTGAGGGCAAAAATAAAATCACCAAATTTAATTCTGTATTATTATTAATATCAAACTCTATACTTCCTTGTGCTTTTTCTAAAAGCAATATTTTTGTTTCATTTTTACTAAAAGTATAACTACTAGGTAATTCATTTCTAAAATCTAAATATGCTGGTGATAAAGCTATCTCTAACATTATTTAACCAATTCCTTTGCTCATGAATAACCTTCAGTATTAATTTTTTCAACAATTTCATTACCACCACTCTTAATAATTTTTCCATTAATAATAACGTGCGCATGTGTTGGTGTAACTTTTTTAAAAAATCTATCATAATGGGAAACAATTATCATTGCATTTTTTGATAAATCAATTTCATTTAAATTTTTTGAAACAACCTCTAAAGCATCTACGTCAAGTCCTGAATCAATTTCATCAATCAAACTAAAAATTGGATTTAATAATTTTAGTTGTAAAATCTCATTTTTTTTCTTTTCTCCACCACTAAAACCATCATTTACAAATCTTTTCAACATATTTAAATCAAAATCCAAATTATTTGCTTGTTGTTTTACTTCTTTAAAAATTTCTTGCAATTTTTTAGATTCTTTATTATGAGCATTTACAATATATTTTAAAAATTCTAAATTTGTTACACCCGGAATTATTTGAGGATTTTGCATTGCAAGAAATATTCCCAGTTTACTTCTTTCATCAACACTTAATTCCAAAATGGATTCTCCATTAATTTTTATATCACCTGACGTAATTTCATATTTTGGATGTCCCATTATAGCCATTAGTAAAGTTGATTTACCATTACCATTTGGACCCATTAAAGCATGAATTTCTCCAGAGTTAATAATTAAATTAATACCCTTTAAAATTTCTTTCTCTTCTATTTTTACATATAAGTCTATTATTTCTAATTTATTCATGTTTTTTCTCCCTGCATAATTATTATATTTGTAAATATATTAAAAAAGCAAAAAAAGTATATTAATTCAATTTACAAAAAACAATTAAATTTTAATATATTCAACCATTTTTATTGAAAATAAATAACAAAATTTAATTAAAAGTCCTTTTTTTTTAAGTTTTTTTCTTTATAATTATTTTGATACACAAAACAAGGAGTGAATGGTGTGAAAAAATTACTGACACTATTAGGTAGTATTAGTATAATTGCTACAACTGGACAAATGGTTGTAGCTTGTGCTACAGATTATGATCAAAAAGATCAAGATGGTAATTCAATTCTTATTCAGTTTTTAAAAAAACTTGATGGAGTTGCAGAAATCAAAACATCAGATATATTATGAAAATTAATTAATGCTGAAAATGGACCAAAAAATAGAGAAAAATTAACTTTAGAATTAATGCAAATGATAAATTTATCAATTTTATCAAATGCAAAAAATAACTATGTTGATGGAAATGGAAAATATGTTCTAGATGATTCTTATCCATACAATAACTATGATCTTGCAAATACACTAGTTTCAAGATGAGATACTCTATCAAAAAATGTTGATAGACAAATTGAAAATGAAAAGAAAAAATATGAAAAAGATTATGGTAAAAAATGAGAATCTGAATGAGATAAAATGCTTTTAAATAAATATACAATTTATCAAGAAGATACAGATGATATGGATAGAAACTTTTTAGAAGCAAAATATAAAGCAGATATTTTATTAACTGATTCATCTAATAATGCTTCAAAAACTTTATTAGATGTATTAATAAATACAGATCAACAAGGTGTAACTTGAGTTGACCAAAATACAATTAAAACAAAATATTTAAAATTAAAAGCATATGTGGCAAATACTGAAGCAAATGCGGATTTAATTGCATATATTCGTTCAGATATTGATCAATTATCACAAATTTATAACTCAACAATTGAAGATTCAAGTGCTTGAGAAAATAAAGCTAAATCTTCAGATACTGATGAAGTTCTAATTGCAACTGCAAAAGAAGTAACAGGGAAAGACATTGCTGGGGAAAATGGAGAAAATATTTTATATGATGCTCCTTCAAATATTGATGAATTTACTATAAGTGATTCAACTTCAAGAAGTGGATTTTTAAGTAGCTCTCAAAGATTTTTTGTAGATAAATGATACAATGTTCAAGCTCCATTAGCTATTAGTGAAATAACAATAGGTTTTTCAGAAAATGGAAAATTTGATGATGGAATTACAGAAGCTGATTTTAAATCAGCAGTTGGAGATACAGATCAAAAAAATACTTTTGATTTATTAGCTGAAATTAAAAATGATACAGAGAACAAATCTTGAAAAACTTATATGGCTGGAGGAACTTTAAAACATCCTAAAGCTACAGTAAAACAATATGAAAAATTATTAACATTAAATAATTCTACAGACTTTACTCAAGATTTAAGAACAGTAGTATACGACTATGTTTTAGGAGAAGCAGCAGATAAGAATATAAATGAGAATGTCCAGAAAATTGAAATTACTGGGGATGCCAAGGAATTTATAAATAAATTAATTCCTGAAATTAATAGAACTAAAAATGAAGAAAAAAAATTTTATGGTGCTTTAAAAGTTGGAACCTTAATTTATATAGATTCAACAGGAATTCATATTGTTAATATTGACGGTTATGGTTTTTTAAAGGAATCAGAAAGTGCAAATAAAGAACTTACTGGGCAAAAAGGAATTGAAGATGATAAAGTAAATTCTGAAACTCTTAAGGAATTAAGTACTTTTAAAAAATATTCAAAATTAACAGATGAACAAAAAGTATATAAAATGCAAACTACTGTTAATAAAGATGTTAAAACAACTTCAGATTCTCAAGATGAAGATACAGAAAGTAATTTACAAAAGGCTGACTCAGGAATTGGGGCTAATACATATTTTTCAGAAATGAATTCAAAAGTTACAAATCCTTATTTACATTATTTAGTTAACACTTCTTTAGTAAAGGGTCTTAAAGGTGCATCAACAAGTTTTGATATTCTTAGTGAAGTTAAATCTTGAGCACAAATTAGTTCTTCAAGTTCAGATAGTTCTTCTGCATATTGAATGACTTGTGTTTTTGATTACTTTAAAGAAATTTCAAAACCAAAAAGTGGTAATGAAGAAATTGATCAAAATGAATTTATTAAGCAATTTATAGAGTTTAATACTGATTCTGAAACAAACGGAGAATTAGCAACAAGCACACAATCATGATTCTTTAATGGTTTAAAAACTAAACAAGATTGAACTAATATTCAACCAAGTATTTCTTTTGCACAAGCAAATAAAAGTTGAGTTGACACAATAAAATCTCAAACTGATGCTAGTGGTTATCCAAAAGCTATTATTGAAAATAGTTGGTATAAAAATGATTTAATTTCTAGATCTCAAAATTATTTTTGAAAACCAACTAAATCTACGCGCCTATTATTAAATTCTTCAATGGAATTTAATAATAATCTTGATTTAAATAAGCTTTCTTTAAGGATTTTTGATGAGATTGAATATGGTTTATTCTTTAAAACAAACAAGGAGGTAAAATAATGAAAAAATTACTTAGTCTTTTAGGAATTGCTTCATTATCAGTTTCTGCTTCTTCTCTTGTTGTTGCTTGTAGTAATGGTGAAAGAGTTACAAATCCTAAATTAAACTTAAATATTGTTAAAGATATTTTAGTAAAACTTTCAGGAGATAGTTCATTAGCAAATATTGATTTTGGTAGTCTTTTTGATTCATCACAAATAACAAGTGTTGTTGTAAACATGATTAATGAATTAATTTCTTTACAATATTCATTTGACTCAACTAATTCAAAATTTAAGACATTAAATTTTGAAGAATATGCACTTGATAATAATGGAAAAATTGAAGAAACTTTTAAAAATCAATATGACATAAAAAGTAGAACAATTGCAGAAGATAACTTATTTACAGAATACACTCAATCGATTACAAAAAATAATAGATTAGATTATAAAAACGTGCAAGATGGTTATGCTTTAAATCCAATTCAAGACAAAACAGTTGTTAAAAACAGTGAAAATATTTCAATTACTATAGCAAAAAGTTCAAAAATTTATATTAGTTCAGAGGAACCAACTTCTTCTAATAAAGATGAAAAAATTTGACAATTTGCAACAGAAAATGGTAGTAATTCACCTAATCTTCCAAAAATTGAAGATTTAACTTCTGAATTTAAAGAAGGAAGTAATGGAAACTTTTATGTTGAAGATCAAGATGGAAAAATGCAGCTGATTTCTTCAAAAACAGCTTTATATTTAAGATTTCAAGATTATTTTGAATCTAAACTATTAGAAGATATAAATGCAAATTTACTTACTAATTCATTCTTAGATTCAAATATGTTTAATATTAAAAAAAATACTAATGCAGAAGCAGCACCATATATTAATCCTTCTTCTGCATTATTTTCAAAAACTCAAACTTTAAAAGAAATTTCTGGAAATGAAAAATGAGAAACAAATGTCAAAATGGTTTGAACTCTTAGATTTGATAATACAAATGGAAATACTATAAAAAATAAGATTAGAGATATATTTGAAGGTTCAAATATTATTCAAGATAAAGCTTCTGGAGCATTAGATGTTACAAAAAGTATTAAAGAAATATATGAATTATTTACTGAGACTGCTGATGCGCCAAGTATTATAACTAATGAAAAAGATGCCTACGATCCATACTTTGGATTATCTGGTTTTCAAGGATTTACACTTTATGAAAATGGTTCATCAATTGGAACTAGCCCTATTTCAGGGAAAAGTTATGAAGATGCTGTAAAAAATTGAACTCATGGAAGCGGTGTTTTAAAATCAACAGATGGAAGTTGATCATTTGCAGATTCAGAAAATAAAAACTATGAAGTAGTAGTAGTAGTTTTACCAATATATATGATTGAGCTTCTTGGAGCTTCAAATGATAGTAGTAGTAATTACTACTCAATTAATGGTAAAAAAGATGAAGAAAAATCAATAATTAAATTTAGTAATACAATCAGTAATGAAACAGTTTATAAAGATAGATGAAATGCCCAAGATAATAAAGAATTACACTCAAAAGATATCAAAGACATTTCATTAGATAAGACACAACAAGAAGCAATGTTAAATCAAATAAAATATCTTGTTTCTAATGATAGTTCAACAAGTGAATTATCAAAAACTGTTTTATACTCAATGTACTTAGATGAAGATCAAGTATATTATGCTGGATTATATGATCAAATTGGAAAATATATTAAAAATAACGATGATGAAGATGATTAAAAAATAAACCAACATTTTGGTTTATTTTTTTGTAAAATTATTATGAGGTGAAAAAATGAATGAATGTATTTTTTGCAAAATTATTGCAAGAGAAATGGAAGCAAAAATATTATTTGAAAATGAACATACTATTGCTTTTTTGGATCTTTATCCAAATAGTGATGGACATAGTTTGGTTATTCCAAAAAAACATTTTGAGAATTTTCAAGAAACTGATGATTTTTACTTGAGTGAAGTTGTAAAGACAAAAAGAATAGTAACTGATTTATTAAATGAGAAATTAAATCCAGTTGGTTTCAATTTTGTTTCAAATCAAGGTGTTGAAGCATTTCAAACAGTGTTTCACTACCATGAACATATAATTCCAAAATATCATAGAGAAAAAGGACTTACTTTTAAAGTTAATAAAGAAGTCGACGATTTAGATGATTTACACAATATTCATAAAAAATTAAAAAATTAAAAATAATAAAAAATAGTCTGTATTTACTAAAAACATTTGATTTTAGATACAGGCTATTTTTTATTATTGAAATGTTTTAAATAACTTCTTCCATCCTCAGAAAGAATTCTTGAAGTTCACCCTTCATTTTCAACCTTTGATAATTCATCATTTATTTTATAAATTCTTGCATCAAGTGCATCTAATGAGGAAATAATTACAGCTTCTAGTAACATAGGTTCTACAGGTGAGCCATATTCATTTTTTCCATGACTTGCTAAAATTACATGTTGAAGCTTCATTACTTCTTGATCATGATCGATTTTTAAGTCAATTGCTTTTTTATAAACAAAATTATTACCTATTGATATATGGCCAAGTAATTTTCCCTCATTTGTATATTCTGAGGCATTTCTACCATCCATTTCAATTACTTTTCCAATATCGTGTAAGAGAGCACCACAGTATACTAATTCTCAATCAATTTCTGCATATTTATAAGTATCTTTTAGACCTTTTGCAGCATTTAGTAATGAATAACTATGTCAAAATAACCCCCCAACAACATTATGATGAATGCTTATTGCTGCTGGAAATGTCTTAAATTCTGTTTCATATTCTTCTAATATTGATTTTGTTATTTTCCTATAAACTTCATTTTTAAATAAGATAATGAATTCAATTATTTTTCCAAAATATAATTCTATATTAATTGGCGCATTAATACTAAACATATCTTCTTTTATATTGTACTTTTTAAAATCATCTTGTTTTATTATTGAATATGTCAATATTTTAAGTTGTAATTGTTGACGATAAAGATTTGCAACACCCTCTAATTTAATAACACTTCCACTCTTTAAACTTTCAATATCCTTATCAATCGCATTTCATAATCTCGCTTCAATTCTTCCACTTGAATCTATTAAATTAATTATTAAGTAATTAGACCCATTATTTCCTGTTGACAAGAATACTTTCTCAATTCTTGCAATTAATTCAATATTTTTTGACTCTAAGTTTATTTCATTTATCATTTTCCTATACCTCAATACTATGTTAATTTTAACAAAAAAGAACTAATATAAAAAATCATTTAAAGATAATATTTAATTTACTATTTTATATCTTAAAAATTAATTAAGGATAGTAAAACTATCCTTAATTAAAAAATTCAATTAAATTAAAAAGCCTGGATTTCTTAATAAATTCACAAAATATGAAGTAAATTTAATCATTTCTTCGAAAGCAATAATATCCTCATTAAATGCAAAACATAAATTCAAATAACTTGAAAGAATTCCATCCTCTTTAAAAGAATGAGTAATTTTTGAAAAGTATATTGTAATAATATTTTGTTCATACAAGTTTAATTTAGCGTTATTGATATTTGTATTTGTTAAATCAAATAATGAAATTTTTGCAATATTATTTTCATTTTTTACATAATTTTCAATATTTTTTGCAATATCTAAAATTGATGAATTTTCAAAAATTTCTACATTTTTTTGTACCAATTTACCTTTATTATTTTGAATTAGACAAATATAATCACTATCAATTTTTAACTCTTTAAATTTAATAAAAGATTTTTTTAAAGCTTTTGCAAAAAAAGCATTTAATTCTAATCAAATATCATTTTTTTTACTTGGTTCAATCATTAAAGTGTGTAAATTTATTAATGCTGTAATATCAATTGAGAAATCTACATATGATACTTGATTATTACTTGAATTCATTAAAACTTTTGAATTACTAGTATTTGATATCTTTTTAATCTCATTTTTTAAATCTTGATTTTCAAATTTTATTTGATTAAATTGATTTTCAAGTAATTCAATTTTACTATTTGTTTCTCCAATTAATAAAGTATTTTTCTTCAATTCATTCAAATCAGTTTCTAATAATTTAATTTTAGAAATTTTACTATTAGCAAATTCTAATTCTTTTTTAAGTAAATTAAATTTTTCTGCTAAATCATTAAACTTTATGTTATTTTTATTTAAAATAGATAATTCATTTTGAACTAATAATATTTTTTCATCTACTAAACTTTCAATTTCTTGAATTTTCAAGATTTTTGCATTTTCTAAATTTGATTCATCAAAATCGTTAATTTGAGTTTCATTAGTTTCAAATTTTATTTTGAACTCATTAGCGGTTAAATTATCTTCACTTTCTACACTTTGTGAAGATTCTATAATATTTTCACTTTTCACAATTTCATCATTAAATGCTGGTAAAATTTGCTGATTTTCAATTTCATCATTAATTTTAGTCTCTTTTGCTTTCAAATTATTTTCTTCAAATATTTTTAAATCAATTCCCTTTTTTAAAATATCAATTTTTTTTGAATGTCAAGCAAGTTCCTCTGTAATCGAATCTGAGATACTTACTGGATTTAAAATAACTTCTCTTTCAATTTCAATATTTTTATTTATAAGTTCCTGATTATCAAAAGCATTTAGTATTGCAGTCTCTGAATCAAAATAAATATCAAAATCATCCACAGTTTCAGTTGTAAAATTATTATCATTATTATTTGAAGTTGTCTCTACTTTTGTGAACTTTTCCATTTCTTGGGTTACTGAATCAACAGAAATATAATTTTTATTATTTTTACTTAAATCTTCAAAAGATTCCTTATTTATTAATTTTTCCAAATATCCAAATTCATTTAAACCTTCTCTTAATGTATCATTAATACTTGAGGGCTTTTTCAATAATGTATTTATTTCAAAATCCGTAAATACGTCAAATACTGTATCACCATGAGAAACAATTAAAGACTCAATTATATAAACATTTCTTATTACACCATCAATTGGTGAAGTAATATTAGATCTTTCTAATTGAGTTGTAATTACAGCTAACAGTTCATCTTTCTTAACTGGTTGTCCATCTTTTACATAAACTTTCTCTACAATACCTTTATATTTTTTTAAGTTTCTAAATTTAATTTTTTCCACAATTATTGCCCTTCCCAAAAAGTTTTGCCCAAACACTACATAGAACTATTTTACACTACTTTAATTACGAATTAAATATTTTATACAATAAACCATTTTAATCTTGAATTTTCAGAAGCATCTAATAAATCAATAAAACAAGATTTATAAAGTGGTGCAATATTATATTCACTTATTTTTAAATTTTTACATTGATTTGCTAGCTTTTCTCATTTTTCAATTCAAATATATAATTCCTCATTATATGCAGGAAAAATTGGTCCACATTCTTTAAAGATTAATATTGAATTTGCAAATATTCATAGAAATTCCATTGTAAACTCTCCAAAAAATTGTTTGTTTAAAAAGTAAATATAAATAATAAGCATGTATTCTATTAAAGATTCAATTCCTTCTAATGCAAATATTTTGCTTTCAATATATTTTATTTTATTTATAACTTCTTTTCCAATTTCATTATCTTCAGAAAAATTATTAATATAAGTTCCTTGTTCGTCTAAAAGTAAATAAATTTTTTTATAAGTTTCCAAATCAAAAGCTCATTTATTTATTCCCTTTTTTTGAAGTAATTTACTTTCCAAAATTTTAGATTTTATTAAATATCAAAATTTACCATAATTTATTAATTTAGGTTCAAAAAATTCTATTGCATTTTTATCTAAAAACTCTTCTTCAAAAACAAAATCATGTAATTCCTCTTCTGAAATTTTTATTCCTTTATAAAAAATTAAATATTGCAATAATTTAACACCTAATTCATCTAATATTTCTTTTTTACATAAAAACATAAAATATACCTCATCATTTCATACATACAATAATATTCTACTTGTTTGAATTAATAAAATATTTTATTTTTTTTATTGCTTCTTTATAAATAAATTCATTTTTTTCAAACTTATTATTAAAAATTAATTTTTTATCTATTTCTACTAGCCCCATATTTGCTTTCATAGGTTTTAATTTTTTAATATTTGGATTTGTAATATAATTTACTAAACTTCCTATAATACTCTCTTCAGGAAAATTAATAAATTTTTTTTGATTTAAATATGAAATAATTCCATATGCACTTACAAGACCTGTTGCAAATGACTCAATATAACCTTCAACTCCTGTAATTTGACCTGCAAAAAAAATATTTTTTTTCCTCATCATTTGTAATTTTTTATTTAGAATTTTTGGAGAATTAATAAAATTATTTTTATGCATAACACCAAATCTTCTAAATATAGCATTTTCTAAACCTGGCAACATTGAAAATATTCTTTTTTGTTCTTTTCAAGTTAAATTTGTTTGAAAACCAACAATATTATACAAATTATCAAGTGCATCATCTCTTCTTAATTGAACAACCGCAAATGGAATTTCTCCTTTAGAATTTGTTAATCCATTAGGAGACATAACTGATTTTAGTAATATTTTTTTTGAAACTCTTGCTAATTGTTCAATTGGTTGACAACCTCTAAAAAATATTTCTTTTTCAAAATCTTTTACTTCAACTTTTTGTGCATTAATAAGTTCTTTGTGAAAATTATTAAATTGTTCTTCATTTAATGGAATACAGATATAACTTTTATCATTCTTATGTCTTGACTGATAGTATACTTTTGAAAAATCAATACTTTCTTTTTCAATAATTGGCGCAGATGCATCTAAATAAAAAAGTTTTTGTTTTCCTAATAGTTGTTCAATTTTAAATTTAAATTCCTCTGAACATAAAGGTCCTGTTGCAATTAAAGTTACATTCTCATTATTTAAATCCAAAAATTCATCTTCAATTACTTCAATATTTGAATTATTTCTAATTTTGTTTTCCACTAATTGAGAAAATTTTTCTCTATCAACTGCAAGAGCATCATCTGATGGAATTTGAGTTTTATATGCACATTCTAGAATAAATGAATTTAATAATTTTAATTCTTGTTTTAAAATACCAACAGCATTCTGAGTTGAAATACTTCTTAAAGTGTTGGAACATACTAATTCACAAAATGTATCTAATTTCTGTATTTCATTTTTATTTTTTTTCTTTTTTTCATAAAGTTTTACTTTAAATCCAACTTTTGCAAGTTGTCAAGCAGCTTCACAACCCGCTAAACCAGCACCAATTACATTAATTTCATTTTTACTCATTTAATAACTTACTCACTTTTTGTAAATCAATTGGTGTATTTCAAGTATTATCTACTCTTGCTGCTGTACCTATATGAACATTTTTTGTTAAAAACATAGCTTTCTTAAAATTTTCTTTATTTATTCCTCCACCAACTAATATAATGGTAGATAATTTTAAATTCACTAATTTTTCAATTACAGCAAATCCATGTTTTAAATTTTGACCTCCACTTGTTAAAACATTATCAATTTTTAATTTAGCTATTTTTTTATATTCGACTTCAAAATCTTGAACTAAATCAAAAGCCTTATGAAAAGTAATAGACAAATTGCCCTTTATTTCAATTACTTTTTTTAAAAAATCTTGGTCAATTGTAAAATCCTTATTTAATGCCCCTATTACTATTCCATTTGCCTTTGTAGTACGAATAAACTCAATTTCTTTTAACATCTCACACTTTTCATCATTTATATAAAAAAAATCTCTTGCAGTGCTTCTAACAATAACATTAACTGGTAAAACTGAATTATTACATACTTCAACAATATCTTCTCTATTTGGAGTTAATCCCCCAACTTCTAAATTTTTACAAAACTCAATCCTATTTGCTTTTGTTTTATTAATTATTATTGAATCTTCAATGTTTTTGGCAATTATTTCAAGTAGCATTCTATAAAAATTCCTTTAATACTCTAACTTTATCTAATTTTTCTCAATTAAATTCCTTTTTACCAAAATGCCCATATTTACTTGTTCTAAAATAAACAGGACTATTTAAATCCAATTCTTTAATTATTGAACTAAGATTGAAGTTAAAATTTTCTATCAACGCTTTATATAAAACATCATTAGAAACTTTATTTGTGCCAAACGACTCAATAAATATTGAAATTGGATCTGCTTTACCAATTGCATAACTTACTTGTATTTCTAATTGATCTGCTAATCTTGCTGCTACAATATTTTTTGCAGCATATCTACACATATACGCTGCACTTCTATCAACTTTTGAAGCATCTTTACCAGAAAATGCTCCCCCACCATGTCTTGAATATCCCCCATAAGTATCAACAATAATTTTTCTACCTGTTAGACCTGTATCACTTTTAGGTCCACCAATTACAAATCTTCCAGTTGGATTTATAAGTACATTAAAATCAGTATTTAAATTATATCTTTTTGCAATTACATCCATTATATTTTTCTTTATAAAATTTTCAAATTCTTCTTTATTATAATCTTTATCATGTTGAACAGACATAAGAATTGTTTCTATTCTTGGATTTTTTGAATTTGTATAATCAATTGTAACTTGAGATTTCATATCTGGTTGCGCTCACTTAAAAGCTCCAGCTTTTCTTAATTTTGAAGCAATATGAACCAAATCATGAGCAACTTGAATTGAATATGGCATATAATTTGATGTTTCATTATTTGCATAACCAAACATTATTCCTTGATCACCTGCTCCCATATCCTCTTTTTCAACACCAATAGCAATATCCGGTGACTGTTCATGAATTTTCACAATAATTTCTGCCTTGTTTGGGTTAATTCCTGTACTTTCATCTTTATAACCAACTCTACTTAAAACTCATTTAGCAATTTCCTTATAATCTACAATTGCTGTTGTTTTAATTTCACCCCCAATTAAAACAAAATTATCAGTTATAAAAGTCTCACATGCAACTTTTGAGTTTTTATCTTGTTTCAAGCACTCATCTAATATTGCATCAGATATTTGATCACACAATTTATCTGGGTGTCCTTCTGAAACTGATTCACTTGTAAAAAATTTTTTCATTTTTAATTTCTCCTTATTAAAAAATAAAATCCTCTATAATAAGAGGATTAATAGATTTCTCATTGCTGGTTTCCCCTTATTTTAAGCACCTAACCAAAAAGGTTGCTACTATTTCACCGAGTTTTTTTCTCTCCATAGTTCTTAATAAGCATTTTATTTAATTTCAATATTTATAATATCAAATTTTAAACACTTTTTATTATTTTTTCAAAAATTTCAGATGTTTTTACTGAATTTAACATAAAATGTTTTTTATCTTTAAATGTGTCTAAATTATACTTACTTTTATCCAGTTTATTAATTAATTTAACTATTTTTTTTCTGCTACAATAAAAATCATTATTTGGCAAAATTAAATCGATTTTAGAGTTACTATTAGAAATATTTTTTACAATTTTTTTAGTTATTTTTTTAAATTGAAAGTATTCTCTAATATTTATTGAACCATTTTTATTATTCTCATCTTCTAATTTATTTGCATAAGTCGAATCATCAGTTAAATCTAAACCATTTATATTTTGAAATAAAAGAGTATTAATCTTAAAAGCAACACCAAATCATAATTTTATATAAAAAGAAAATGATTTTTTGTAAGTGAAATTCAATCTTAAAGATGACATTATTATTTTTTCCACATTATCATTTTTTGAAAAATAAGCTGCTAATGCAGAACCAAAACCTTCACCAAGTAATATTAATTTTTGATTTTTAAATTTTTCACTTAATTCTGTAATAATTTCTTCAATATCAGAAATTAAAGCACCTAAATTTTTATTTTTCTCTAATAAATTTTCCCCACAACTTCTTTGATCAAAAGAAACAAGAGAAAAATCTTTATATTTATTTTTTTGTAATCAATTAACTAAATTTTCGAAATCATTTCTTGTTCTTAGTAAATCATGAATAGCAAGTATTATATATTTACTATCTGAATTAACTTCACCATATCATCTTAAATCATAGGCATCAGATGTTTGAAACATTTTTTTCTTTATTAATTCACCTTTTTTAACTTTTTGAGATTTAAATTTTAAAGAAAAAATTTTAAATAATCTGAAAATTAATAAAAACAAAAAAATAAATATAATTATTCCTGAAAAAACATAAATAAATATACTAAATATTTCTCAAAAAATTGTTCAAATTTGCACATTATCACCTAACTATTAATATTTTTCATATATAAATAAATATACTTACTCTAAATCTGATAAATCTAAAGTATAAACATCAAATTGCCCCATAAATCAAAATGCAAAGATTACATTTTGTTTTCTAATTAAAAACTCTTCACTTCCCATAATATTAATTGCTTCATAAATAAGATTTCCTGTATCTTGTTCAAGATTAATTCTCATTCTTTCAAAATCATAAACTGATGATCTTCCATATATTTCATTTTTTCTTTCAAATTCAACTTCAGATAATATTCTTTCCAATGTATCTTGATATTTTGAAGAAGTTTTTAATTTATATTCAATACCACTACAAATATTTTTAACCTCTTTATCTAAGGCAAATAATGTATCATGTAAATTTCTAAGTTTTTCGTGTTTTTTCATTTTATTTTCATCCTCCTTAAAGTTGTTTATAAAAATAAAATATATAATATATATTAACAAAAAAATATTAATTAAGTTAATTGAATTCTTTTTATCATTTTTGCATTATTAGTTGAATCATCAATTTCTAAAATAATTCCACATAAAATACCATTATTTTCAGAGGGACTAAACTTAATAGGAAGCCCTGTTTTTTCCTTAAAAATTACTTCTTGTGGATTTGCCCCAATTATAGAATCAAGTGGTCCTGTCATTCCCAAATCAGTAATAAAAGCTGTTCCTTTTGGAAGAATTCTTTCATCTGCTGTTTGAACATGTGTATGTGTACCAAAAACTCCTGTTAATTGACCATCATAATTTCAAGCAAAAGCTATTTTTTCAGCACTTGCCTCACCATGAAAATCAACAATATGAATTTCTGCCTTATTTTGTAATAAAATTTGATCCATTATTTCATAGGGATTATTAACATGTTCCATAAAACTTTTACCCATAATATTTGTAATTCTTATAGTTTTATTTTTTATAAAAAACTCATTAGTTCCAAGTCCTGGAAGATAAGAATTCATATTTGCAGGCCTCAGTAAATCATGAGTTTCATTAATAAATTCAAAAGTTTCTCTATTTTTGAAAACATGATTTCCTGTTGTAATTACATTAACTTTTAATTTCTTTAAAAAATCATAATGATTTTTATTAATGCCTTTTCCATGGCTAATATTTTCACCATTAACAACAATAAAATCAATATTTTCCTGTTTAACTAATTTATTTAAATGTTTTTCTAGAATAAGTCTACCTGACTTTGAATAAACATCTCCAACTAATAAAATATTCACTATGTATCTCCCTCTAATTCTAAAATAAATTCTTCTTTTGAAAGTTTATTATTTTTATAGTTTTCAATAATTTCTCTTAATTTATCACTCTTATTTTTTAAAGTTAATTTTTGTTCAAAATCAATTAATAAATTAGAAGTTTTTGAAATACTATCATAAACTGCATTTCTAGATATATTAAATTCTTGTGCTATTTCTTGAAGTGTTAAATCCTCAAAAAAATATAATTCAAAATATTTTTGTTGTTTGTCAGTTAATAAGCTTTTATAAAAATCATATAATTGACCTATCAGAACAGATTTTACTATATCATTATTATTCATTGTCATCTTCTTCCATAAAGTCCTTTGTTAATTCTCATACATATTCATCAACATCAAATTTAACTAAATCATCAACTTTTTCCCCAGTTCCCATTAATTTTACTGGAATATTCAATATATCTTTAATTGCTAAAGCAATCCCACCTTTGCTTGTTCCATCCATTTTTGTAAGTATTATTCCACTTACCTGAGTTGTTTCAGAAAAAGCTTTTGCCTGACTAATACCATTTTGACCAGTTTGAGCATCAATTACAAGTAATCTTTCATGTGGACCATCAGAAACACTTTTTTGAATAATTTTTGTCATTTTTTCTAATTCCTTCATCAAATTTTCTTTATTTTGAAGTCTTCCAGCAGTATCTATAAGCAATAAATCATATTTCTCATCAATCGCTTTTTTTACACCATCATAAACTACACTAGCAGGATCCTTAGAATTATTAAAAGGCTTAATTAAATCAACATTTGTTAATCTTTTTGAACATCATTCCTGTAACTGTTCTACAGCACCTGCTCTGAAAGTATCCGCTGCTGCAATTAATACTTTCTTTCCCATTTTTGAATAAAAATTTGCTAATTTTGCAATACTTGTTGTTTTACCAACTCCATTTACACCAACAATTAAAAAAATATTAATTTTATTTTCCTTAAAGTTCAATTTTGAATTAAACTTCCCAGAATCCAAATAAGCTTCATAAATTTGTTCTGCTAATATTTCTTTAATTTCATTAAAATTATTTTTTGGCTTTATATGTTTTTGAACTCTATTAGAAATTTCTAAAACCATTTTCATTCCCATATCTGTTTTTATTAAAACATTTTCCAATTCCTCAAAAAACTCACTATTTGCACCTTTATATTTTTTACTTAATTTTTTAATATCATCTGAAAAAGTAAGGGTAGTTTTGTGTTCTTTTTTATGTTTTTTAATTTCTTTTTTTGTTTCTCTTTTTGCTTTTAAATTACTTCAAAATCCCATATTTTTTCTCCAATTCTTTAAAATAATTGTATAATAATTTTAATATAAATATAAAGTATTATTTGCAAGTGAGGAAAGAATATGAAAAAAATGTTGCCTGTTCTTCTTTCAATTGGATTAACTGTTACTCCAGTTGTGACAACATCATTTAAAAATGAAAGTAAAGATCAAAATAAATATTTAGATTTTTTAAAATCATATAATGAATACATGTATTTCTTTTATGATAAGAATGAAAATAAAGAAGAATATATAAAAAATAATTTAAAAGCGATATTGACAGAAAATTTTGATAGTAATGAAATCACTAAAAAAATTATTAATGAATTTGATTATGAAATTATTGAATTTAATGAAGATATTGTAAAAATTATTTTTAAAGATAAAAAAGATAATTTTATTTTAAATGAAGAGTTAGAGCTGGAATTTACTCTAATTTTATTTAATTATAATAATATTGACGATTTTAGTTCAGCTTTTCAAATTTATTTAAATTCAAATCCAATTTTATTGGAAAAAAATAATTATTTGCAAATAGAAATTGAAGATATATTAAAAATAAAATTTAAGAAATTATTTGATATTTATGCAAATTCAACACTTTATTTAAATGGAGTAAAGGAATTTTGAGAATTTTTAGATTTTGATTTAATTGAGAATTCATTAAATTTTGATAATTATCTAAACTCTGAATTTTTAACAGGAAAACAATTTAGTTTCAGTTTTTTAAGAGATTCAGTAGTTTTGCCAAAAAACATTTGACAAAAATATATTAATATATCAAAAAATATAAATATAACAAAACAAAATATATTTGAATGAATTTCAAAATATGCATTTTTTAATAATTCAACTCTAGCATATGATAAGGTTTTTAAAATTTTAAGTATCGATAAAAAAATGAATTTTGTAACAATCCAGCTTTCTGAAAATTTATTTTCAGTTCCTAAAATTATTACATTAAAAAATTTAAAATAAAAATAGTTTGATTAATTAAACTATTTTTTTATTTCTAATATATTTACGATTGTTTCTTGTAACTCTTCAAATTTACCAGTTCTAATAAATTGAAGTGTTTCTTCAACATTTATTAAGTGCTCTCCTGCTCTTTCTAAATTTTTCAATTGTCTTACTATTGTAATTATTTTTTTAGAATCATCTTTTGTTTTAGCTTCAAATGTTTTTTCAGCAAGAGTATTACTTAATTCTTGAAATTCTGTTGATAATTGTTTTTCCATTTTTAAAACTTTTATATGTTGATCATTATCATAATTTTCTATTAAAGTTGAGGTAATGTTTAACATACTATTTACTAAATCAAACATTTTCGAAATGTATTCAACTTCAATTGGTTCTGGTCTGTATTTTATTGTAAATGTACAAATATGTTTTGCAACATCAGCAATTCTTTCAATTTCACGACTAATTAAAACTCCTCCAACTGCAAGTCTTAAATCTCCTGCAACCATTTGTTGCTTTGCAATTTTTCATAAAGCCATTTTTGTAAAACTATTTTGCATATCATTTATCATAATGTCACCATCTACAACTTCTTTTGCAAGATCTAAGTTTTGAGATTTAAGCGCTTCAAAAGTATTTGCATATTGTGATTTTGTAGATTCAACTAATCTAATTAATTCTTTTTTTATAGTTTTAATATCACTATCTAATATTTTATTGTAAGACACTTTAACTTCCCCCTATCCAAATCTTCCAGAAATATAGTCTTCTGTTTTTTGATTTTTTGGATTTGTAAATATTTTCTTTGTTCTATCATACTCAATTAATTCTCCTTGTAAGAAGAAAGCTGTATAATCGCTTACTCTTGTTGCTTGAGCCATTGAGTGAGTAACTATTACTATTGTATATTCATTTTTTAATTTAAGTATAAGTTCTTCCACTTTTAAAGTCGCAATTGGATCTAAAGCACTTGTTGGTTCATCCATTAATAATATTTTTGGTCTCATTGCAATTGCTCTTGCAATACATAATCTTTGTTGTTGGCCTCCACTTAAACCTAAAGCAGAATCTTTTAAATAATCTTTTACATCTTCTCAAAGTGCTGCTTTACGAAGTGAATCTTCTACAATTTGATTAAGTGCTTGTTTATCTGAAATCCCTTGATTTCTTGGTCCAAAAGCTACATTATCATAAATTGATATTGGAAATGGATTTGCTTTTTGAAAAACCATACCTACTTCTGTTCTTAATTTTACAACATCGGTTCCAGTTTCATAAATATTTTTTCCATGAACATTTATTTCTCCTTCAATTGCAATATTATCTACCAAATCATTCATTCTATTAATAGATCTTATTAAAGTTGATTTTCCACATCCAGAAGGCCCAATTAATGCAGTAACAGTATTTTCTTTTATTGCCATATTTATATCAAACAAAGCTTGTTTTGCTCCACCATTATAATAAAAATTAAAGTCTTTAACTTCAATAACATTTTCTCTTGCTTTTAAAGGTACTTTTTTATGTTTTGAAAAAATTTTTTCTTCTGATATAAGTTCTAAATCTTCAGTATTATTTGCAATATTCTTATCTAATATTTTTTTGTCAGACATTTTTAATCCCTCTTTTTATCAAAAGTTTTACTAATTTTTTTTATTTTATTACTTTTGGCTTCTATTTTTATTTTTTTTATCACATTAGATCTAACTTTACTATTTTTTCTATAAATTTTTATTCTCTTGTAATTGAATAGATTAATAAAATTTTTTCATCAGATTTTTAATGTTTTTCCAAGACTTATAAATGTCTTTTTATAATTATGATAAAAAACTTTTTTATATCTAATAATTCACAATTGCTTGAAACTAATTTTTTTATAACCTGGTGTTAACTTAATACCAATATACTTACTTAATGCATTTAAACCTAAAACTAATAAAACTGTTACTAATGCTATTTGATATGCCACTCCAAGTGTTTCAGGATCACTTCCTTCTGAAGCCATCATATAAATTTCTGTTGTTAAAGTTGCACCTGAAGAGAAAAAACCTTCTCCTGGCATTCTCACAGCTGTTCCAAGTGTTAAATAAACTGGAGCAGATTCACCAATTATTCTTGCTATTGCAAGAATAATACCTGTAACTAGTCCTTTTGTTGCATTAGGTATTACTACTTTTAATAATACACCTGTTTTTGTCATTCCCATTCCATATGCAGCCTCTTTATAAAGAATTGGAACAGATGTAATAGAATCTTCAAAAGCTGTAATCATAGAAGGCAAAACAACAATTGTCATAGTTAAACTTGCAGCAAAAATTGACATAGGAATTCCCATAGCTACAACAAATAAACTTAAACCAAATACACCAAATACAATACTTGGAGTTGAAGCAAGAACATTAATTGTAAATCTAATAACTTTTGCAAATTTGCTTTCTTTATGAGCATACTCTGCAAGATAAATTGCAACAAATAAAGCTAATGGAATAGCAAATATAGTTGTTGAAAGAATTAACAAAAATGTTGTTAACATTAATGCAAATATTCCAGATCTTTGGCCCTCTATTTCTAAAAATGCATCTAAATTAAATTTTGCAAATCCTTTAATAAAAACTGTTAATAGAATTCAACTTGTAAATCCAATTATTATTGCTGTTGAAGAAATCATAAAAAATTTTAATATTGCACTATGCATTTTTTTAGCAAACCTTTTTTCTGTATAAGTTTCTACTAAAATGTTTAATTTACTTAATTCATAGGTGTAATGTTTATTTTTGAAAGAAGTTTTTTTAGGTTTATGCTTTTTAAAATTTTTAGTCTTATTTTTATTGATATTTCCAATTGCTAAAATAATTAAATTGATTATTATCACTATAAAAAATAAAACTAAACCAATTGCATATAGTGCAGATTCATGAATTGTACCATGATTTTCTAACATTTCTAACCCAATTGTTCCTGCAAGTGTTCTAATTGAAGAGAAGATAAAACCTAAAAAACCATCATCTGTATTTAATCCTTGAGTTGAATTTCCTGCAATTAAAATTACAGCCATTGTTTCTCCAATTATTCTTGCCACACCTGTAATAATAGCTGTAATAATTTTTGGAACTGCAGAAACTAATACAACACTAAATGTTGTTCTTTCCTTTGTCATACCTAAACCAAGAGAAGCATAACGGTGACTTTCAGGAACTGCTTCAATTGCATTAATTGATAATGCTATCATTGTGGGCAAAGCCATAAATGATAATGTTAAACTTGCAGTCATCATATTTCCACTACTTGGAGCTCCCATTAAAACAAATAATGGACCAATTTGATCAAGTGCAAATAATCCAAATACAACTGATGGAATTCCTGCTAACAATTGAATAACTGTTATTACAAATTTTTTTGTATTATTTTTTAAATATTCAGTAATAAACAATGAACTAAATATTGTTAAAGGAATTGCAAATAGTAATGAAATAAAAAGCATTGTTAATGTTGAAAGAATTATTTTTCCTAGTCCATATGAACCATCAACAGCACTTGAAGGAGTTCAATTTTCTGAAAAAATAAACTTAAAGAATGAAAAATTAGAAAATACTGGAACAGATTTATATAAAATAAATCCTACTAAAATAGCTAAAATTAATAAAACAATAGATGTAATAAATATAATTGAAGATTTAGTAGTTATATCTAATTTAGATGTTTTTGCCTTTGGCATTTTTTTGATTAAATTTTTTTCTCTCATAAAATACCTCTATATTTTTTTATCTACTGGAAGCGGGTTAAATTCAAAATTTTTAACCAAACCCTCATCTTTAAATACTTTTTCCGCACTTTCTTTTTGAGAATCATTTGAAGAATCTGTAAGAATAAATTCAAAAAAATCCAATATTTGATTTAAATTATTATAAGTATTAAATATTGCTATAAAAGGTCTCTTAAATTCATAGATATCTTTAATAAATAAATCATTAGTCGATAAGTTTGAATCATTATTTTCAGATGTTCATTCATCCCATTTTCCATTTTCAAATTTTTGCGGTTTGCCATTTTCTCCATAAGCAAGTTTTTTGCCATTAAATCCAGAAAGTTTAACAGTGCTTTCATTTGATAATTGACTTAAAAAGGCATTTGAAACATATCCAATACTTGGTGCTATTGCAATATTTTCAATCATAGATCCATTTGAGTTAACAACATTTGATTTTGGCATACTTTTAATTCCAGTAATATCTGAAAATGCACTCCTAGTACCAGAACCATCTTCTCTAGTGAAAGTTACAATTTTTTTTGATGCAGAACTATTATTTTTTATTTTTTCTAATAAATCTAAATATTTATTTTCATCATTTTTTATTAATTTTAATCCAAATTCTTCTCAAGTATAATTTCCTGCATATATTTCAGATAAATTATCATCTTCTTTTTTTGCAAAATCTACTAAATCATTTAGAGAGGTGTTTGATTGTTCTCCAATTTCATTTCAATATGTAGGAGAATTAAAAATAACACCAATTGCGTCAATTGCAAATTCTAAACCAATATATGAATTATTTTTTTCTTCTTTATTTGCATTATTTATAATATTTGTTTTAATAACATCAAATTCATCTTTATTTTTTACTTCACAACTTTGTGTTTCACAGTCTAATTTTTTAAATTTATGTCCAGTTGATAATGTTTCAGGTTTTATTTTTTTTGAAACAAATCCTGCTGAATACATTGTTTTTTCAACACCACCAACTCCTGCTTGACTTCCAGTGGAATTGTATACAAAGTCTGTTTTACCATTATCAAAATAAATTTTTGTCATTTTTTGCATAAATGGATTAACGCTTGTACTTCCTCCTAAAACAATTGAGTTTTTAGATGCTGTAAAAGATCAAATTCAAAGACTTAATACTATTGTTAAAAAAACCAATAATATCAAACTTATTTTTTTTGTCATGATTTTTCTCCTTAAAAGTATAAGTTATTTTGCATTAGATAATTGTTTTGCTTCAATTAACTTTATTTGTACAAGTTTTGTAACACCTTTTTGTTCCATAGTTGCACCAAATAAAGTATCACAATTTTCCATTGTTCCCATTCTGTGAGTAACTATTAAAAATTGAGTAACATTTGTAAATGTTTTCAAATATTTTGCAAATCTCTCTACATTTGCAATATCTAAAGGTGCTTCAACCTCATCCAAAATTACTAGAGGAATTGGTTTAACTTTTAGTATAGAAAATAAAACTGATAAAGCAACCATAGATTTTTCACCACCACTTAATAAATTCAGATTTGTAATTTTCTTACCAGGTGGTGATATTTTTAGATCAATTCCTGTATTTAAAATATCATTTTCATTTGTATAAATTATTGAAGCTGATCCACCTCCAAATAAAGTTATAAAAGTTTCAGGTAATGCACTATTTACATCTTTTATAATTTTTTTAAATTGAATTATCATTTGTTCATCCATTTCACTAATTGCATCTTTTAAATTATTTATTGAGTCAATTACATCTTGAGTTTGTTCCACATATGTTTGATATCTTGTGTTTTCTTCTTCAAATTCAGCAATTGAATCTAAATTTACGTTTCCAAGATAATTAATTTGAGTTCTTAATTCCTTAATTCTATTTCTAATTTCATCTTCTTCATTTATAACTACTATATTATTTACTTCCAAAGCAGCTTCAAAAGTTAAATCATAATTTTGTGCCAATCTAGAAGTTGAATTTGATTGTTTTTCAAGCAATAATGTTACATCCGAATTTAATCCAGAATATTTATCTTTTAATGAAGATAGCAATTTTCTTTCTTCATCAATATGTCTACTTAAACTATTTTGTCTTTCTGATGTTTTATCTTTTATTGTTCAAATTACATTTATCTGTTGTTGTATTTCATCTTTTGAATTCTGAAGAATTGTTGTTTGTTCAATAATTTTAATTATTTGTTCATCCACTGACTTAAATTCAATTTCATTTCCGTCCAATTCTTTTCCAGTAAGTATTCTATATTCTTCTTTTATTAAAAAGAGTTCCTTTTCTGTTAACTCACTAGCATGTTTACTTGCTCCAATTCAAGACTGAATTTCAGCAAGTTCTTCTCTTAAAATTTCAATTGTATCGCTTAATGATGAAACTTGTTTTGAAAAATTTAATTCCTTTAAATCTAATTCTTCTTTTTGTTTTTCTAATTCAATTATTTGTTCCGAATCATTTATTAATATATTTTTATGCTTACGATTTCCCCCAACTATTGCTCCATGTGGTAGTATCCGTTGCCCATCTAATGTTACAACATTAAATTTTGCATTTGTAATTTTTGAAATTTCTAAAGCATTATCATAACTATCTACAACAATATAATTTGCTACTAAATAATCTAATACTATTTGATATTTTTTTTCCGATTTTATTAATTCATTTGCAAAACCAATAAAACCATTTGATTTTTGTATAATAAATCTTGTTTCATTACTTATATAATTTGGTTTTAAATTGTCAAGAGGTAAAAATGTTGCGTAACCAGCTTTGTTTTTTTTCAAAAATTCAATTGCAATTTTCACATCTACTGCTGTTTTTGTAATTATATTTTGTAAACCGTTTTGCAAAATAACTGACATTGCAATTTCATATTCCTTATTAGTATTAATAACTTCTTGAACTGTACCAATAATCCCTGGTAAGATTTTTTTATTTTCTAAAACATTTTTCACACCTTCAAAAAGATTATCAAATGAATTTTTCCGAGAAATTAAATTATCTAAATTATTTTCTGTTTTAGCAATTTGTTTTTTTAAAATATCTAAACTTTGATTTAATTCAAATCTTTGTTTACTTGAATTATCTAAAAGATCTCTTTTCTTAATTTTATCCAATAATAATTTAGATAATTTTTTTTCCTCTGCTTCTAAATTAATTTCCAATTCTTTTGATTTATTTTTTAATTCGGCAATTTTAAATTCCTTATTATCAATATCAATTTTAGTTTTTTTTGCTTCGAGAGTAATTCTTGAAACTTTTAGTTCACTAATTTTTTCAACAATTTTTGTAAATTCTCTATTTAATTTTGAAAACTCTTTATCATGCGAAAGATTTGACTTAGAAATAGAAGTAAATTCTTCTGATGTTTTATTAATTGATTTTTCAAGTGAACTAATTTCTGTTTTAAGTTCAGATTTTTGTTCACTTAGTTCTAATATTCTTTTTTTATACAATTTTATATCATTAACTAAAACTGCAACTTCAATATTTTTTAGTTCATTGAACATTTCTTGATATGAGATTGCTTTTTTTGACTGCTTCTTCAAATTTGGAAGTTTTCTTTCAATTTCATTTATAATGTCATTTAATCTATCTAAGTTTTCTTGTGTTCTAATTAATTTTCTAACAGCTTCTTCTTTTCTTTTTTTATACATTGCAACACCAGCAGCTTCATCAAAAATTTTTCTTCTTTCCTCAGGTTTTGATTCAACAAAATGACTTATTGATCCCTGAGAAATAATAGCTAAACTTGATTTAGTTAAACCAGTTTCTAAAGCAATTTCTTGAATATCTTTTAATCTAACTTTGCTCTTGTTAATATAATATTCAGATTCCTTAGTTAGTTTAAAAAATTTTCTTGTAATTGATACTTCATTATAATCTAATGTGCTAAATGCTCTATTAGTATTGTCAAAAACAAGAGTTACTTCAGCAATATTCAATCCTTTTCTATCACTGCTTCCAGCAAAAACTATATCTTCCATTGAATCTCCACGTAGTGATTTATATGATTGTTCACCTAACGCTCACATAATAGCATCATTTATATTTGATTTACCGCTACCATTTGGCCCAACAATTCCTGTCATTGAATATTGAAAGTCTAAATTTATTGGTTCTGCAAAAGATTTAAAACCAAAAACTTCTATTTTTTTTAAAAAAATCATTTTATTTTCCTCTTGTTTTTGCATATAGCCGTCCTATATAACTTAAATACATTATATATATTTTTTGAAAATTGTAAAATTTACATAACTAAAAAAACCCCATTTTTAAAGGGCAATTTTAGTTTTTAAAAGTTTTTTTAATTTTTGATAAAGCACTTTTTGCAGCTGCTTGTTCAGCCTGTTTTTTATTTGTTCCTTGACCTGTTCCAAAAACCATTTCATCGAGAATTACATTAACTGTAAATAAATTTTGATTATTCTCCTCTTTTTCCTGAGAAATAGTTTTATAGGATAATTCCGTTCTCATTTCAATTTGAATTAATTCTTGTAATTCTGATTTATAATCATGAGAATCATCTAAATAAAAATTCATAATATCACAAGAAAAAATTGTTTTTTCTAATCAAATCTTCAATATTTCATCACCCTGATCTAAATAAATTGCTGCTGTAATTGATTCAAAAATATCAGAAAGAATTGAATCTTTTTCATATCCTTTTGATTCTCGTTCACCAACTCCAAGTCTAATAAAATTGGTTAAGCCAAATTTTCTTGATAAACTTGCTAATGTTTCTTTACGAACTATTGAACTTCTATATTTTGTCAATACTCCTTCATTTGATTGAGGATATTTTCTATACAAAAACTCACTTACCTTCATTTGTAAAATAGCATCTCCCAAAAATTCTAATCTCTGGTAATTTTTACTTAATCTATTCTCATTAGAATAAGAATTATGTGTAAAAGCTTCATTAAAATAACTTAAATCATTTATAGTAATTGAAAATTTTAAAAAAAAATCTCTAATATTCACTATTTTTCTAAAGCCTCTTTAATTTTATTAACTACATCATTTTTTATTGCATTATAAGTCATTTTTAAAGTTGCGTAAAAAGCAACTTTATCACTTGAACCATGAGATTTAAAAGCAATTTTGTTTACTCCCAATAAAATTGCTCCTGCATGATTTTTATAATCAAATTTTGCAGAAACTTCCTTAAATGCTTTTCTTAGTCTTAATGCAGCCAATTTTCTAAAAATGTTTTTTGTAAGTGCTGTTTTTATTTCTTTTAATAAAATTTTTCCCATACCTTCTGCTGCTTTTAAAGCAATATTTCCTGTATAACCATCAGTAACAACAATATCAACATCACCACTAGCAATATACCTAGGTTCAATATTTCCAATAAAGTTAATATTTTTATTTTCATCCATAAGTTTATAAGCGTTTTGATGCATTTCAAATCCCTTAGATTTTTCTTCACCAATATTCAATAAAGCCACTTTTGGATTATCTACATTATTTATTAACTTTGAATAAGCTGATGCCATAATAGCAAAATTTTGTAAATCCTCTGGATCACATTCCAAATTTGCACCAACATCTAGCAATAAAGTAACTTTTCCAGAAACTACCGTTGGTATAACCGGCATAAAACCAGGTCTTTTAATTCCGGGAATTTCTTTCAAAATAAAGTGACACCCTGCAATAAATGGAGCAGTAGCACCCGCAGTTGTAATTGCATCTACTTTATCGCTTTCTAGCAATTCAATTGCTCGAACCATACTAGAGTCCTTTTTTCTTCTAATTTCTAATATTCCATCAGTCATATTTATAACTTCTGTTGTATTAAAAAATTCAATTTGTTCTGGATTATATTTTTTTGTTGCTAAAACTGATTTCAACTTTTCTTCATTTCCTACAAAGATAATTTTTAAATCCTTTTGCTCACCTAAAAGTTTAATAGCAGCATCAACTGCTGGAATTAAACCATTATCCGAACCCATAACATCAAATGCTATTTTTTTAAAATTCATATTTTTTACTCCATTCTATTGAAATTATATATTATTTAAAAAATAAAGAAAAATACAAAAAATAAACCTATCTATTTATTTTTTGTATTTTTCTTTATTTTCTTGTTGTCTGATACTTCCTTTTTCACAACATGGACATTTTTTTGTTAAACATATTTGGCAATTTATGCACCTGAAGGAACTTTGGCACCCATGAAAAGAACCACTGCAAACTCTACAAGTATAACAATTGTGTGCTCCCCCCGGACAACAAACATCAGGCGAATTTTGTGTATTTTGTTTAGGTAATGGCATAATTAAAACCTCCCATTTTTAAATATAAAATCATTATACACTATTAACTTACTAATAAAGTCAATGGTCTTTTTTTAATTTGGAACATCGCCGCTAATCACCCTATATAAATAATTGCTCCTAGAACAATTAGAGAAACAAATGGAATTCAAGGTAAAGAAGGAACTAATATTAATATTTTAAATTGTTCTCAAACAATTGCTTGAATAATATATCAAATCATAACTGAGGCTAAGAATGCAAATACAAAACTAATAAAAGCTCCCGTTATATATTTTCCCATTACCATTCAATTTATTTGTCTATTTGAATATCCCAATGATCTCATAATTGTAATTATATTAATAGAATCTGAAATAATAATATTCATAATTACCACTAATAAAATTGTTAATAATACAATGTCAATTAAAATATACATTAACATAGAATTTGTTAATTTACTTATTAATTCATCAATTACAGATTTTAAAATAGGTAATGAAATAACACCGGGTTCCATAAAGAAATTAATATCTTTTGGAGCATTTATATTTTCCTTCATTTCCCTAATAATTTCTTCAAATCCGGTTAATGCAGGAATTTGTGAAATATCAAGATTCCTTACGAAAATATCTAATATATTTCCAACTCAAGGTTCTTTAACAGATGAAGCAAAACTAAATGTATCTTTTAAGTTTTTAAAACTATTAATTGATCCTCCAATATCAGCAAAATCAATTTTACCTTCACTGGCTAATTTTGTACTATTTATTTCATTGAAATAGTATTTTGAGTCTTTATCACTTAAATTTTTTCCAATTTTATCAATAGTAACTTTATAATCTACATAAACATTTTGAAGCATTGTATCATTTAAATTAATTGCAACAATTTTTATTTTTTGTTTTAAACCTTTATTACCAATATTAATTTCAAAAGTGTCTCCAATATTTTTATTAATTAATCTAGAAAGTCTAAAAGAAATAATTCCATTAATATAGTCATCATTCACTTCAGTTAGTTCTTTAAAATTTTCATCGTTCACTCCTGAAAAATTAATTATTTTTTTAAGATCTCCCCCATATTTTGATGTTGTGTCAAATAATTTTAAAATAGATTCATCGATGTCAACCTCACTGTTTCCTAAAATATAAAATGGTAAAACTTGCATTAACGCTTCTTTTTGGCCTTCAAATAAAACACTATTTATACTTATAAAAGGATTAATATTTTCTTTAGTCATGAAAAATGTTTGAACTAAAGTTTTTAAAGTATCACTAATGTTTAAATCTACAAGAGGAGTATCTTTTTTGCTCATTTTATTAGTATTAAAACTTGACAGTAATGATTCTTTATATTCTTCAATATTTGTACAATCAATTACTGTTTCACTTGGTGTTGAAACACACAAATATTGTGCAATATCATTTAAATAAAGACCTTTTAAAGTTTCAGGTTTAATTAAAATTAAAGAAGTTTCTGAAATTGGAGAGTTTTTTAATTCTTCTAAAAATTTTAAAATATTTTCAAAATTAGAATTAATCAAATCATCTTTTAATCCTGCCAATTTTTGCTGACCTTCTTCTAAAGGTAATAATAACATTGCAAAATTTAGTACAATACTAGAAAGACTATTTATTTGTTGGCTATTTGATGAATTTTTATTAATTTCTGTTTTAAGTTCTGCTGCTGCATTAATTAAATTTGATGCAAGAGAAGTATAATAATAGTCATCATTTTTATTTAATGAGTTTTGATCAACGTAGTCTTTTATTGAATTAAATCCTTCTTCGTTAACATTTACAAAATCTAAATGATAATCTGGTTTAGTTATATTTTTAGATAAACCATCTTTTTTAATATCCATATTAGTTGCACTTTTAAAATTATAAAGATGATTAGTTTCTGGTGAATAAATATTATATGCACCATCAATCATATTTTCAATTATTGGCATAGTTCTTAATTGTAAAGTAAATAAAAATGAACTAAAAGCAAATAATCCCATAATCAATGCAAATTTACCCTTTCCTGTAGAAACAAAAGCGTGTTGCATTCTAAAAGTGAAACCAAAATTTTTATTTTTTAAAATTTTTAAAATTAGTCAATTAAAGAAAAAATATATTAATGCTGGTCAAAATATTATTTTTAAAATTAAAATTAGTCAATCAAAATTAGATTTCTTTGGGCCTGAGCTTAATAACGCAAGAGCACCTTCAGATAAATATTTAAATATTGATAAGTAACTAAATAATGAAAAAATCAATGGAACTCCAATAATTAAAATAAATAAGAATAAAACATTAGAATAAATAATTTGATAATCAAAAATTACATAAGTATTAAATTGCTTTGTTGCCGAATCAATTTGAAAGGGCATTGATAATAAATAACCAATTGCTATTGCAATTATCATTGTTATAAATGTCTTAACTGCAAATATTCAAGTTAATTCACTAGTTTTATACCCAAGTGATTTAAATACCCCCAATTGTCTTCTTGTATTATTTATTTCTTTTTTTAGAACAAATAATATAAAGAAGAACGCTAAAATAAATAGTATTCCTCCAATTACAGCATAAATTCAAGTTATTATATATAAATTAGTCAAATTTTTAATTACTGAATGACTTGTCATTTCTTTAAAAACAGCTGAACCAGAATTAAAGATTAATGGAAAATCATCAGATGAAGATTCGGTTAAAATTTCATTTATTGAAATATCTAAATTATAATTATTAACGTAAGTTTCTGATCAAAATCTAAATCTTTTACCTGATGCAGTTGACTGCTCTCAAGAAGGATTTTTCTCTTCATTTAAAAAAATGTTCTTAAATGAATAATTTTCGTTTGATTTGAAGAAGTCATCTGTAGTAAAAATTTGAGCATAATTATCAATAGAATCGGAAAATGAAGAAAAACCTATTGGAGATAAAGTTGAATATTTAATTCCAATTCCTACAATTTTAAATTCATAATTTTCAGATATTTTAATATTATCTCCTATTGATAGATTCTGTTTTTTCATAAAGGCATCATTTAAAATTATTTCATTATTTTCTGTCGGTAATCTACCTTCTTGTAAAACAAGATTATTTAAATTTTGTGAATTCTGAATTAAAGATCCAACAGATGAAATAAAATATAAATACTGTTTATTAGTTGCTGAATCTCTAAAGTTTTTTGAAACATTATTAAAATTTGAATAATTAAAATTTGAATTACCTTCAAATGATGATAGCTGCGAAATTATTTGATCAATTATATAGCTATTTAAACTTCTATTATTTGAATTTAGAATTTCTATTGCTGTTGGAGTAAATATTTCATTAATTTTTAATTTATTCTCTTCTCCATCTTCATTGATTGATAAAATTAATTCTTTTGAATCGTGATAAATTTTGTATGAATTAAATAGTGATGATACCAAACTATTTTTTTCGCTTTTTTTATAATTTTCTTCACAATTTGTTTCATTAGAGTCATTACATGATTCTTCTATTTCAACTTTGAGTGATTCTAAATATTTATTAATTGCATCAATTGATTTTTCAGAAAATCAGCCTTCTATAGGAAAATCAATTTTAATTTCTTTATCTTTCACTTTTGTTATGACAACACTACCATTTATTTGATTTTCTGGAGTAAAAAATTTTTCAATAAAATCTTCACTTAATTTTCCATCTGTTTGGCGTTGCTCCTGTCAGGTTGAAGTCTCTCTTTTTATAGACGACGCCTTAAGTGATAATTGTAAGGGAGTTGCAAGCATACCCATTATAAGCATAGTAAAAATAATTAAAAAAATAATTGTTCCTAAAGTTTCAACTCAGGATTTAATAAAAAGTTTAATGTAAGATTTAAATATATTGTTCATTATTCCCTTTCTATTTAATTTTAAAAATCATAAAACTAAAATTATAAATCATTTTTTAAACGGCAAGAAGTACAATATTAACAATTTAAAACTTTAATTATATTAAACTATTCTTTATTACCCAAAAATTGATTACTAATATATTAAATTGTAAAAATAAAATTACATAAAAAATAAATCTACAAATTAAATCAAAATTATTTAAGTAAACTTATAAATATCATTTCATTTAACACTTATCTTTTTCAAAGTCATTATACATTATTATTAAAAATAAAAAAACTAATTTTATAAATTAGTTTTTTTATTTTTATTCAATTCCTATAATAAATGCATAGACTTCTTGTCCACCATCAATAACCTCATACTCAATATCATGATTTTCATCAAGGTGTTTTCTTAAATCACTAACATCTTTGAAACTTGCATCAGTTCCAGTAAAAATTGTTAATATTTCTGTTTTTGAAGAAATTAATTTTGATAAAGCTCTTGAAAATATTTCTTGTAATATTTTAGCCGAAATTACTACTTTTCTATCAACTGACATCATTCATTCATTTTCTTTTATTTTTACTCCATCAATAGTTGCATCTCTTGCTGCTTTGTTTATTGCAACAGAAATAACATTTTTGAGTGCTTTTGAAATATTTGTTTCATTTTTTTTGATACTTTCATCTGAGTCTAAATTTAAATATGCTGTAATACCCTGCGGAATTGTTTTTGTTTCAATAACTACAACCTTTGACATTTTCTCTAAATCTTTTGCTTGTTTTGCAGCAAGTAAAACATTACTGTCATTTGGAAAAATATATACTGTTTTTGCATTTACTTTTTCAATTGCCTTTAAAAAATCATTAGTTGAAGGATTCATTTTTGGCCCACCATCAATTACAAAATCAATACTTAATTCATTTTTAAAATAATCAACCATCCCTTTTGATCTTACAACTGAAATTGTTGCAACATCATTTAATAAAGTTCTTTGTTTTTGAGCTGCTTTTTGGGCTTCACTTACATCATTTTCATCTAACACATGTTTTTCTGCTTGAATATTCATATTTTCAACTTTAATTGTTTTAAATTCACCAAATTGTTGCAAGTAAGTTAAAACTTGCCCAGGAATTAAAGCGTGCGTATGAACTTTTAAAATATCTCCATCCATTACTGCAACAATTGAAGTATTTCCATATTGTTCAAAAGTACTTCTAACTGTATCAATTTTCAATTTATCAATTAATTCTTCATTTAGCATAACGATTGCTTCAGTACAATATCCAAATTCATCTTCTATTGCTAACTGAATGTTACCACCAGTATTTTCTTCTAATTTTTTTAATCTTGTTATTGGTTTTGAATTTTTAATAAAGTATTGCATTCCTTCAAAAAATTTAACTAAACCATAACCACCGCTATCAACTACTCCAACCTCTTTAAGAGGAGCTAATAATTCAGGTGTATTATTAAGAGAAACAGTTGATGCTTCAACTACTTTATTTCAAAAAGTAAGTTGATCAATTTCTTCAACTATTGAATTAATAAAATCACTTGTTTCTCTAATTACGGTAAGAATTGTTCCTTCTACTGGTTTCATAACAGCTGCATATGCAACTTCTTTTGCTTTTGTAAAAGCTAATTTTCAAGTTTCAAGATTTAAATTCTCTTTTTCTTTCATAGCATTTGAAAAACCTTTAATAATCTGTGAAAAAATTACTCCTGAATTACCTCGAGCTCCCATTATAAGACCTCTTGAAAATTTTGACATTAAGTCACCAATTTTATCAAATTCAGTTTTTTCAATTTCTCCAAAACCATTACTGCACGTTAAATTCATATTTGTACCTGTATCACCATCTGGAACAGGAAAAACATTTAATTTATCAATATGAGGATAATTATTGTAAATACAATTTACCCCACTAGTTATCATGCCCTTCAATATTTTTGCATCTTTCATAGTATATTGTCACCTTCTAATTTTGTTTTTCTATTATTCCATTGAAAATAAAAAATAATAAAAAATTGCAAATATTATTTTGCCAGAAAATTTTAACAAAGCAATTGATATTTTATTAAATAACTATTAAATCATCGACTGCAATGTCAACTATACAATTTTGCATAAAGTTAGATTCTTTTTCTAACTCATACTTTACACGTGTTTGAACTTCATTGACAACGTCTCGTATGTTAACACCATTAATTAAAATAATATGAATTTTTACTTTAAATGTTGTATCTAAATCAACAACCTCAACAGCTTTAGAAATATCTTCAGTTTTTAATTCTTCTTTTGTTTTTGCAGTGAAATTTGCAAAAGAAATAACACCAGGTACAGTAACAACAGAATTTTTAATTACATCTAATAATTTTTGCTCTATCACGTAAAACCTCCGTTAAAACTGTTTAAGTTCATTTATATTATTTTAGGAAACAACGAAATCATGAATATCATGTTTCAAACTAATACAAAAATATTTTACACCATTGTAATTAAGAATAATACTACTTAATATCAAAAAAAGAAATTATATATATTTCTTAAAAATAAATTTGTAATAATTATTGTATTTTAAAACTAATTATTATATTATTACTAAGTCCGAGGTGAATTAATATGGCAAGAAAAGACGGTTTAACAGGCAAAGGACCATTATCTGGTAATTCAAGATCACATGCTATGAATGCCAATAAAAGAAAATGAAACCTTAACCTACAAAAAGTTCAGGTTATGGATGAAAATGGTAAAGTTATGACTTTAAAAGTTTCAGCAAGAACTCTAAGAACTTTGAAAAAAAATAATCAATTAGCAAAATAAAATATTCGACATCTAAGATAATGTTTTTTTATTCTCTTAGATGTTTTTTTCTAATAAATTATTTATATATATTTTGTTTTAAATTATATTTATATATAATAATAATGCATTTGCCCTCTTGGCGAAATTGGTAGACGCAGCAGACTCAAAATCTGCCGAGTAATCGTGTCGGTTCGAGTCCGACAGAGGGTACCATTTTGAAAAAAAATAAAAAATTCCTTTTTTAGGAATTTTTTATTTTGTCATGATTACAATTAATTCTTTATCTAAAGTTATTATTGCATTTTTATAAGGAATAAAACAATTAGAAAAAGCTCTAGTAGAGTAAGCTATTAAAAATAAATCATCTACTTCATACTTTAAATTTTTAATAGAAATTTTTAAATTTTCTTTTGCAAAAAAAGATACATATGTAAATTCTTGAAAATTATTAAAATTTAAAATATTTTTTCCTGGATTTAACTTAAATATAATTGAATCATCATTTAAAATTGTTAAATTATAATTAAAAACATACTCTAAAATACTTAAATTCATATCATATCTTTTTGATGGATTAACTATCATAGTAATATCATCATATTTTCTTTTCTTTAGTTCTTCTAAAGCAGAAATTCCATCTAAATAATATTTTTCTGGATTTAATTCTATATATTCTTTAGTTTTTAATTTTATTAATTCTTTTTCTGCTTTTGATACTTGATCGAAATCAGAAATGGCTAAATCTATATTAATATTTTGCTTAATTAATTCTAAACAACCTCTCTCAACTCCAACAATAAAATAATTTTTCTCAAAGTTTTTTAAATCAATATTCGTTGGGGAAATAATTATTAAAGCTTTAGTCACTTTTTAGTTTTTTAACTCTTTCTTCTAAATTTAAAATATTTCCCCCCACAAGATAACTTCCTGCAACAATTATATCTACTCCTTCCAATTGAACTAATTTATATGTTGTTTCATTAATTCCACCATCAACTTGAATTGAAAAAACTAAATTATTATTATCTCTATAATTTTTAAGAAATCTCAATTTTTCTAAACTCTTAGTAATAAAAGATTGACCACCAAATCCTGGATAAACACTCATTATAAGAACATTATCAAGTTTATTTAAATATTTTAGAATTACTTCAACATTTGTATCTGGATTTATTGCAATTGAAGATCTCAATTTTTTGTTTATGCAAAATGAAATAAACTCCTCTATTTGTTCTGGTGTTAATGATTCAAAATGCATTGTTAATTGTTGAATGTTTTTAAATATAAATGAATTTAAATAATCTTCCATTTTGAAATTTTCTATTTTCACCATTAAGTGAACATCAATTTTAAAGTTAAACTTATTTGTTATATCTTCTAAAATTTTTGTTCCAAAACTAAGATTTGGAACAAAATTATAATCCATAACATCATAATGAATTCATTCAATTCCTGCTTTTTCTAATTTTTCCAATTCTTTACCTAAATTTAAAAAATTTGCTGTCAAAATACTTGGTGCTACAATAAATTTTTGCATTAATATTTTCTCCTTAATTGTTCATTTTCTAATTCCAATTGTATTTTTATATAATCCTCATAAATAAATTTTGGAAACTTATTATTTTTTACATCTTCAATTAACTGACAACCTGGTGTGTTATTTACGTGAATACAATTATTAAATTTACATTTATTTAAGATTTTTTTAAAATAAGTCAAACTCGTTGCAAGCATAGCAGGTGTCATTTCTTTAAACTCAAAAGAAGAAAATCCTGGTGTGTCTCCAATTAAACCATCCTTATAAATAAATAATTCATTTTTGGTGGTTGTATGTTTTCCTCTATTTAATGATTTCGAAATTTCTTGAGTCTTTTCAAAAATATTTGGAATAATATGATTTAACGTTGTTGATTTACCTGTACCAGTTTGTCCAGTAAATACAGAAACTTTTTTTTCCAAAGATAATATGAATTTTTTTCATTCTAAATCAGTTTCAATCATATTATTAATCAAATAAATTTCATAACCAATGTCTTCATATTTTCTAGCAAGATTTAGATATTCATCATTAATATCTACTAAATCAACTTTTGTAAAAGCCAATACAGGTTTTAATTCCAATGATTCAACAAAACATAAATATTTATTTAATGTATATGTATTAAGAATTGGTTCTTTAACTGAAGTTATTATAACAACCTGATCTATATTTGAAATTCTTGGTCTATATAATTCATTTTTTCTTTTTAAAATTTCAAAAATAATACCCTTAAAATCGTTAGTATCTAATATTTCAAATGTAACAAAGTCACCTGTTGTTGGTTTTTGATTATTATGTCTTAATTTTCCTTTTGATTTGCACTCATATACTTGTTTTTCAAATAAAACATAAGCATACTCACTAATTATTTTTAATATAATTCCTGTTTTTAACATTTAGATAAAAACCAAGACAGCAACTAAAATCAAAATCAAAAATAAAAATATCAAAGTAAAAGAAAATGAAAAAGCACTTTTTGCAATAACAGGCAATTTATCATATGTTGTGCCAACTTTAATTGTTTTTTGACCCTCTTTCATATTTAAAGTTACCTTTTTATGGTAATTGTATGGTTTTGGCGAATCTGTTTGTTTAACTTTTAATAAATCTCTTTTCACTTCATCAACTGATTCATATCTATATAATGGTTCTTTTTCAATCATTTTCAAAATTATATTTTCTAAACTTTGAGGAATTGAAGGGTTTATTAGTTTTGGAAGTGTTGGTGTTTCTTTCAGATGTTTTAAAGCAATTCCATTAGCTTCCTTATGTATAAATGGGGCAATTCCTGTTGAAAATTCATATAACATTATTCCTAATGAATAAATATCACTTTTAGGTGTAGCTTTTTGAGCAGCTATAATTTCAGGAGGCATATATTTTGGAGTTCCTATTGCTTTTTCTGTTTCTGTAGATCTATCTTCCATTACAGAAATACCAAAATCTCCCAATTTAACTTCCCCACTTTGGGTAAGTAATACATTATCTGGTTTTATATCTCTGTGAATAATTTTTAATTTATGTGCCTCAGAAAGAGCATCACAAATTTTTGAAAAATAATATTTTAATTCTCTTAATGTCATTGCTCCAAAATTTTGATATTTATCTTTTAAAGTGCCTCCTTCGACACATTCTAAAATAATATACCATTCATCTCCAGATTGAATTACATCAAAAAGTTTAACAACATTTGGGTTTAAACCTAATTTCGCAAATGCTTCTTTTTCTACTTCAAATCTTTCTTGACCCACAGGTTTTAGAACAATTTCGGGGGCTAAAATTTTAACAGCAACAATTGTTTTAGTGTAAATATCAAAAGCTTTAAAAACAGAAGCCATTCCACCTTTTCCAATTGCTTCAATTAATTCATATCTATCAGCTAAAATTTGACCTTTTTCATATTGTTTCATGTTAGAAACCCCCTTTCTCTTAATATAATAACAAAAAAAGCAAAGTAATTACTCTGCCTCTATAATTAAAATTGATAAATTATCTGTTGATATATTATCTTTTGCGTCTTCAACTATTAAATTAGCTTTTTCCTTTAATTTTATTTTCTTATTTGATAATGTTGCAACTGTTATATCTTGATCAATATAATCATGAACACCGTCTGTTGTTAACATATAAATTCCCTCTTGTTTTTCAATAAAATATGTATCAACTCTTAGTGTTTTTTGAGGTCCTAAGGCGCTTGTTAAGACTTTTCAAAAAGTTAGTTCATTTGCTTTTTCATATAAACTAGACATTTGAATATCTTTTCTTTCTGCTTCAGGAGTAGAATTTCATAAATTTTGGTCTTGTGTTATTTGAAACAAAGAATTATTAACTAATTTATAGGTTCTTGAATCTCCAATATTAATAACAAAACCTCCAATTTTAGTAAATAAAATTGCAGTTAATGTTGTTCCCATATCCTTTGTTTCAAATCTGTCGTTAGAATATTCTATCATTTCATTTAATATTTCATTAATACAATTTCTTAGTCATCTATTAATTTCTTTTTGATTCATATCAAAGAAATTTTGTTTTTTAAATAATTCAACAAATTTTTCAACAGCTAATTTTGAAGCTATTTCACCAAATGCATGCCCCCCCATACCATCACAAACTATTCCAAAAGCCTCACCGTTTTTATTAACAAAAAAATCTAAAAAATCTTGATTTGCTTTTCTATAATTTCCAATATCTGTTAAAGTTGCATATTTAAATTTCATTTTTTATAATTCCTTCTCTTTTTGCTCTTAATTGACCACAAGCTGCATCAATGTCTGCACCAAATTCTTTTCGAACTATTGCATTTATACCTTGTTTTTTTAAAATTTTAAAAAACTGATCAATTTTTGTTGATTGTTTATATGGATTTTCTTCTACTTCATTATATGGTATTAAATTAACATAACCATTAATTCCCTTAATTATTTTTGATAACTCCACTGCATGTTCAGGTAAATCATTGACATCTTCAATAAGAATATATTCAAAAGTAACTCTTCTATTAGTCTTATCAATGTAATACCTAACTGAATCCAATAATTGTTCAATTGGAAATGCCTTATTAATTGGCATCATTTTATTTCTTACATCATTATTTGGGGCATGAAGTGAAATTGCCAAATTAATTTGAGTCATTAAATCTGCAAATTGCCTTATTTTTGGAACAATGCCACAAGTTGAAATTGTAATGTGTCTTGCACCAATTTCAAAACCATTTTTATCGTTAATTATTCTCACAAATTTTAAAACATTATCAAAGTTATCAAAAGGTTCACCAATTCCCATAACCACAATATGACTTACTCTTGAACATTTATTATTTAAATCATTTTTATATTTTTCTTTTAAATATAAATTCATTGCATAAATTTGTCTTACTATTTCATCAGTTGACAAGTTTCTCTCTGTTTTTATTAATCCTGAAGCACAAAACTTACAAGCCATTTTACATCCAACCTGTGTAGTAACACAAACAGATTGTCCATACTTTTGCGGCATTAAAACAGTTTCAATAGTTCTTTTGTCATCTAACATAAATAAAATTTTAATAGTACCATCTTTTGATTCTTCTACAACTAAATCCTTTAAAAGATTAACAGTAAAATTTTGCTTTAAAAATTCTCTTAATGATTTATTTAAATTAGACATATTATCAAAATTAGTTTCCAACTTTAAATATAATCAATCAAATATTTGCTTCGCTGAAAATTTCTTAAAATCATTCTCTAATAAGGTTGCTTCCAATTCTTCAATTGTATAGTTAAAAATACTTTTTTGTTCCATGTGAAAATACTCCATTTTTTATTTTATCATACAAAGTAATTTAAAATATAATCTAAAAATAAAGTTAATTTTTTTTAACCTTTTTAATTAAAGATAATATTATTGCTACTACTAATCCCCCAATTGGAATAATTAATAAAATTAATCACTTACTTCAATCATTATTTTTTATTTGTTCATTATTTAAATTTTCATTATTTTCTGAATTTGAATTATTATCATTTTCAGAATCATTTGAATTATCATCTGTTTAATTAATTTCTTGTTTTAGTTCAGGATTATTTTCACAATTTGAAGTACAATTTTGTTGTTCCTCTTGAGATTCATTATTATTAATTAAGTTAAGAATTACTTTTTCACCCTTATTTGAAAATAACTCAATTTTTGCATTAAATAATGATTTTGTATTGAATTTAAAAACATAATTTTCTTTTTCAGTTTTTAGTGTTAAATTTTTAGAATAATTTACAACATTAAACTCCGATTTTAAAAACTCTATTTTATTGTTAATTTTTAAATCCTTAGTTACTTCTTTAAAATTTTCAAAAGTATAGATTGTCAAATTGTAATTTTTGTTTTTATATTGAAGATTTATTTCGTATTTTCCCGGAATATGGGACAAATAATTAATTTCATGTTCAGTTACAAATAGAGAAATATTTGAATTAATTGAATTTATTTTAATTTCTTCAAATTCTATGTTTTTTCAATTTATAATTTTTATTTGCCCTTGATTTTTAGATAAATTAATGGCTGTTTGATTTTCAAATATTATATCAGAGCTATTTTTCTTTATATTTACTTGAACTTTTATAGATTTTTTTGTTTCTTGTGAAAATACCTCAAAACTATATTTTCCTATTTTTGTACTATATATTTTCAAAATAAGTGTAGAGAAAACTATATTTATTAATTACTGATAAATTTGAAATATGATCAGTATTAATATCAATTGATCCAATATTTCCTTTTTCAATTTCAATAAAATTTTTTGATAAAGAAAAATCATTTTGATTATCAATTACAGTTACTTTTATTAATTTTATTTCTGATGCATCAATTGAATTAAATGAAATAAAACCTTCTCCTACTTTATTGGCAAAAACTTTAAATTCATCAATACCCATTTTTTTAATTTCAATATTTGAAGAATTGCTAATTTTTAAATTTCTAAAATCTTTTCCATTTGAAATTAAAATTATGTCTGACTCTCCGATATTAAGATTAATTTTATCTTTTGAAGAAATAATATCTTTAAAATTAAATTTGTCATCATTTATTTTTTCTTCCTTTATTACTTTATAAATATTCAGTTCATAATTTTTTTTGAAATGGGTAAAATTTACATTTGAAAAAGTGAGCATCTTCTGATTTTCACTTGCTATTTTAGAAGTTGGAATTATTCAAGCAGAAAATTTTAATTCTGCATTATTTTCTAAATTAATACTGTATTCAAAAGTAGCTCTTTTCCCATTTCTGAAATTAATTAATTCATTTGTATTTGCAAAATTAAATTGATTGAAATAAATATTTTTTTTCTATTTGATATCTTTTAGATATAAAGTAGTAAATCTTTTTATGAATTTCATCTAAATTTCTAATTCCTGAAATTAAAGATATGTTTTTGTTTTTTGTCTCACTATATTTTTTAGTTACAATAATTTTTACTTTTATATTATCTTTAATAATTTTTTTAGTACTAAAATCTTGAAATCTAAAATTTATAATTTTAGATTTTTTTGTAAAATCAAATTCAATGGAATAATAATTTATTACAACATCTACATTTTTATCTTTATTAATTTTATAGTCATCTCTTAATTTTAGTAATAATTTTTCTAAATAATAAACTTAATCAACATCATTAAAATTTATATACATTTCATATTCATTTGACTTATTATCTTTTTTCTGTAAATCACCTTTTTTACTTTGAAAATTCATTTTGGTTTTAGTTAAAATAAGTCCACCTTTTAATTCACAACCAAAGTCTTCACCGACTTTTCTGTAATTTGCAACAGGATCATAATAGAATTCTTCTTCAATTGCCCCAGTTAAAGTTAGCGCATTTATTCCTTGATGGAATCTAGTTACTACTAAATTTAATTTTGTATATATAAATAAATCATTTCATTTATCATGAAATGAATATTCCTGTTGAATTTCTTTTGATTTTTGCCTTAGTTTTAAATTAACTTTAAAACTATAACTCTTTTGCATTAAATTCATTCTTGGAGTTCCAAAATATTCATTATCTCCTACAAGATCTCTTTCAGAAATATTTTTAAATGTAAACTCCAAAGCTGAATCATATCAATAATCATCATAATTTTTTAATTCTAATCTTTCAGTTAATAAAACTTCTTCAATTGACTTTTTATAATAAGAACCCTGCGATCCAGACTTTTGTTTTTCTTTTTTAACAACATTTGAAGGGTTTTTTATTACGTAATACGGTTCAGTTATATACTCATTATTTTCAATATTTTCCTTGCTAATGTTTTTCACTAATTGATGATTAACACTTAAACTATTAGAAAAAAATGAAAACTGAGTCAAACTAAGAAAAGTTAATAATACTTTCAGTATAAAACTCATTTTTTTACCTCCATTAGTAATATCGATAGGAAATAAAAAAAATTATTTTTTTCTTAATCTGCAAATATAAAATCCATCAGTATTATATTCATCGCCAAATAAGATGACTTCTTTTTCTAAAACTAAATCTAAGTGTTTTTTAATAAATTTAGAAATTTGATATTCATTTTCATCTTTATTTATTGTACAAGTTGAATAAACTAAAAAAGAATTTTTTTTCATGCACTTATATGCTTTTTCTAATAACAGACTTTGAGTATTTAATAAAGTTTTGACCTCTTCATTTGAATATTTTTTAAGTTTTATTTCTGGTTTATGTTGAATAACTCCATATCCTGAGCAAGGAGCATCTAATAAAATATAATCATATTTTTTTTCATCAATATTTAAAGCATCATTACAATTTAATTCTACATTAGTTAACCCAAGTCTATTAATATTTGAAAGTATTAGTGATATTTTTTTACTATTAATTTCAAAAGCAGTTATTTTACCAGTATTTTGCATTAACTGACCAATATGTGTTAATTTTCCACCAGGTGCACTACACATATCAAGAACTGAACTATTTTTTTGTGGATCTAAAATAACTGATGCAAGTCCACTTGCTTGGTCTTGGATTGTAACCAAACCCTTTTCAAAAATTTCATGATGAATAATGTTTTTATCCAATAGATAAAATCCTGACATTAATTTTGAAGGTTCTAAATTTAAATCCACTAAATATTTTTCTTCAAAAGACTCAATAGAAATTTTTAAAGTATTAACTCTTATTGTTATTTTTGATTGTTGAATTGATTTTCTAATAAAATTTAAGGCTTTTTCCTTTGAATAATCTTTTTCAATTTTTTTAAATAATCAAAATGGAAAACCAGCTTCTAAGGGAATTTTATTTTGATTATTTTTAATAATTACCTCTCAATAATTTTTTTCATATAATTTTTTAGAAACTTTATTTACTAATGAAACTAAATTTGAATTTATATTTTTTGCAATTTTTACAGCTTCATTTACAACATAATACATTTCTGCATTTAAAAATTTATATTGATATAAATTCATTCACAATAATATTTGAATTTTAAAATCTGTTTTATTTGCATCAATTAATTTATTAGTAACATATTCCAAATAAATCTTGTATTGAATTGTTCCATAAACTAATTTAAAAATAAAAGCTATATCTTTTTTTGAAATAAGTTCATTTTTTATTAATTTATTTAAAAGTTTATTTGAAAATTCATTATTTTTAAAAACTTTAAATAAAATATTTAATGCTTCTTGTCTTGTATTCATTATTTATTAAAATGATCTTGTTCAATACTGAAGAAATTAACATCAATCATAAAATGTTCCAAAATTGAATTTACAAATTCACTATCTTCTAAAACTGATAATTGCTCACTTGCTAAAACGTGAGAATAAATTTTATTAGTCAAAAGATCTACTAAATATTTTTTAAAATCAAAATCTTTGTCAATTTCAGTTTCTCCAACTTTAATAACATTTTCTTTTCAATTTTGCACAAAAAAATGATATTGTTCACCTATAATTCTAAAAACATCTTTTTTAAGTTTTTCAAATTTACTTGTCATTGGATCTTTTTCTAAAGTTCCTTCTTTTAGTAAAACTTCTTTAACTTTTGCAACAGCGTTATCAACACTATCAATTTCAATAACATATTGATATTTGTGCTTTAATGGAATTTCTAATAATGCTTTATCTAGTCTTTGTTTAATAATGTCTTCTTTTTCTGTACCACGTTTTCTTAATCTTTGTTCCAATGATTTTAAACTTGGGGGCATTAAAAAAATTGAAATTAAATTTTCAGATTTTTCTTTTTTTAAAACTTGAGTTGCTCCAATAACTTCAATTTCTAAAATAACATTTTCACCCTTTTCAATTTTGTCATAAACAACTTTTCTTGGGGTTCCATAAAAATTACCAATAAATTCAGCATGTTCAATTAATTCATTATGTTGTATTGCATCATTAAAAACTTCTTTACTTACAAAGAAATAATTTACACCATCAACTTCTCCTGGTCTTGGATGTCTTGTTGTCATTGAGATAGACTGTACAAGATTTAAACTTTTATCTTGAGCCAATTCTTTATTAATTGTTCCCTTACCAACACCTGAAGGTCCAGATAAAATAATAATTTTGCCTTTTTTAATCATAAATATTTTCCTTTTCCAATCTTAGTAGATATAAATGTTTATTTTTATAATTTTTATATTTTAAGTTTTTCAAAAAATCCAATTTAGATAAATCAAGATTTGATTCAGATTCCATTATTAATATACCATAATTGTTAAGTAATCTATTTTCATAAATATAATTAAAAAAATCATAATAATACTCAACTTTTGCAAATGGTGGATCAAAAAAAATTAAATCCATTTTTTTATTTGTATTTTTAAATCATTTCAATACTTTTTTATAATCATAATTTAATAATTCATAATTTTGTTTATCAATCCCTTTTAAGTTTTGTTCAATTATTTTTAGTGCTGGTTTAAAGTGATCATTAATATATGCAAATTTTATTCCTCTGGATAATGCCTCAATTGATAATGCTCCACTTCCTCCAAATAAATCTAAACAAACTTTATTTTCATAAATAAAATAATTATCTAGTATATTAAACATATCTTCTTTAACTCTTGCAGTTGTTGGTCTTGTATTCATTCCCTCTAACGAAACAAGTTTTCTTCCCCTATATTTCCCACTAATAATTTTCATATTTTCAATTCCTGTTCTTTTTTTCATTATACAAAAATAAATATTATATAATCAAATAAGAGGTATTATTCTATGAAACTAGATTTAGAAAAAGATTTAATGCAAAATGAAATTCCTACTAATAAATGATTATGGAAAGAAACTCAACCAGAAGTTATTAGAAATAAATCAATTGATGTTAAATTACCCTTAAGTCAAAAAAATGAATTAATAATAAGAAAGTTGATTGATTTTGTAAGATATAGTCAAGATCCTGACTTAAATAAAAAAGAAAATCAAGACTATTTAAGACCTGCTGTTGGTCTTGCAGCACCACAAATTGGCAGTAATACAAATATGTTTTTTGCAAGATTTGAATGAGATGTTGAAACTGGAGATGTTGAAGAGTTTGCAATGATAAATCCAAAAATAACTGCAAAAAGTGATCAAATTGCATTTTTAGAAGGTGGAGAAGGTTGTTTAAGTGTTGATAAAGATATAAAAGGTGTTGTTCCAAGAAGTTATAAAATTCAAATTGAAGCTTATGAATGATTAAGCAAACAAAAAGTAGATTTAACTTTAAGAGGTTATCATGCAATTGTTTTTCAACATGAAATTGAACATAATCAAGGTAAGCTCTATCATGATAAAATTAATAAAGATAGTCCAAATTTTATTGACGAAAATTGAATTGCTATTTAAAAGATATTTTTAATATCTTTTTTTATTTTTAAAAATGTTTTTTTAATTAATTTTTGTTAAAATATTAAAAATTAAATCTTTTAAAATTATTTTGAAAATAATAATAGAACGAAATTAATATAATAAAACTTGTTTTTTTATAATTTTAAGAATGGTTTTTTATGGTGTTTATTAAGGAGAAAATATGGAAGATAAAAACAAGCAAACTGCCAAGCAACCTAGTGGTCTTGTAGCAGAACTTGATGCAAAAATTGAAATTAAAAAATTAGCAAGTTATAAAGTTCAAGAAAAGAAGAAAATTTCAAATGCACCTTACCCTACAAAGGTTTTTGCTTTGGGTGGTCTTGAAGAAGTTGGAAAAAATACTTATTGTATAGAATATGATGATGAATTAATAATGATTGATGCTGGTGTTAAATTTCCAGATGCAACACAATTGGGAGTAAGTGCTGTTATCCCAGATTTTAGTTATTTGGTTGAAAATAATTCAAAAGTAAAAGCATTATTTATTACTCACGGTCATGAAGATCATATTGGGGGAATTCCCTATCTACTTCAACAAGTAGAAATACCTGTAATTTATGCTCCAGAATTAGCTGCTGCATTAATTAAAGATAGATTAAAAGAATACAAATTACAAAATAAAACTGTTGTTAGAGAATATGTGGAAAACGATATTTATGCTTCAAAACATTTTAATATTCAATTTTCTGCAGTTAATCACTCAATACCAGATGCATTTGGAATTTATGTACAAACTCCAAACGGTTCAATTTTTTCAACAGGAGATTATAAATTTGACTGAACACCCCTTGGTCATTCTGCAAATGTTCAAAGACTTGCACAATGAGGAAATGATGGAATTGAGTTATTAATGGCTGATTCAACTAATGCAGAAGTTGAAGGTTATACTTTGGGTGAAAGAAAAGTTATTCAAAATATTGACACTCACTTTTTAAAGGCAAAAGGAAGAATTATTATCGCTTCTTTTGCTTCAAATGTTCACAGATTACAACACATTATAGAACTTGCAAATAAATATGGAAGAAGTATTGTTGTAATTGGAAGAAGTATTGAAAGAATTATTAAAATAATTAGACAAATGGGACATTTAAATATAAATGATAAGATGTTTATTAAACCAACAGAAATTGAAAATTTCCCCAAAAATCAAATAATGATTTTATGTACTGGTAGTCAAGGAGAGCCAATGGCTGCTCTTTCAAGAATATCAAGAATGGAGCATCAAACTATTAAATTGATTCCTGGAGATACAGTAATAATGTCATCCTCTCCAATTCCTGGAAATAGAGCTGATGTTGAAAATGTTATTAATAAATTAACAAAAATTGGTGCAACTGTTATTGAAAATAGTCTTGATAACAAAATTCATACCTCAGGTCACGCAAGTCAAGAAGAACAAAAATTATTATTTACATTATTAAAACCAAGATGCTTTATGCCAATGCATGGTGAGTATCGTATGTTGAAAATCCACGGTGAAACTGCTGTTTCAGTAAATGTAAAACCACATAATGTCTTTGTGGTTGCAAATGGAGATCAAATATTATTACATAACGGTAATGCTGAGCTTGGTAAAAGAGTACCCGCAGATGCTATCTTTATTGATGGAAAAGACATGACAGGTAAAGCTAGCAATGTTATTCGTGAAAGAAATATATTGAGTAGAGATGGCTTAATGGCTGTAATTATTTCAATTGATTCTCAAACAAATAAATTATCTGCACCCCCAAGAATTGTTTCAAGAGGAAGTTTTTATGTAAGAGATAGCGGTAATGTTATTGCCGAATCAATTAACATAGTTACAAATGCTGTAAATGATGTTTTAAAATCTCAAAAACCTACTTTTGGAGCAATTAAAAACGCAATTAAAGAGTCTCTTTCTCCTTTTATTTTTAGATATAAAAGAAGAAATCCTCTTATAATTCCAGTGATTTTAAACAAGAAAACAGAGGTTAAATAGAAAAAAATATGAACGCGAAAAAAGAACAGTTGGGGCTATTTTCGATTATATGAATGGGTTTTAGTTTTATAGCAGGAATAACATTTACTGCTAGTTTTTCAACAATTGTTTTAGGTGATGGGCAAGGTGTTGGAATTAATATATTATGAATATTTTTAATTGAAGGTGTTATTGCATTTATGTGTGCATGAGCATTTGGAAAATTAGTTAAATTTCACCCAGAAGCAAATGGTGGAGGAAGCCAGTATGTTAGAACTGCTTTTGGAAAATTTTGAGGACTACTAATGGGATTACTAAATTACTCAGTAATTCCTGTTATTGGAGTTGCTTTAATAGTTACAATGATTAGAGCTAACTTTGGTTCTGATCCACTTCAATTAGTTGGTGAAAATGGAAAATGAGGAGCTTGAGGTAGTTTATATTTAGACGTAATTGCTTTTGGTCTTTACATTTTTGCAGCAACAATTATATTTTTTGGAATCAAAAGATATAAATATGTTGCAATTATAATGGGTTATTTAACTTGAGGAATAACATTATTATTAATGATTTTTGGTCTAACAGTTGGATTTATGAGCATTGCTGATGGAAAATCAAATTTTGATGTTTACATTGAACAGGCAAAATTACTAAATGTTAAATCATTTAGTAACGCATTTACAACTTGTTTCTTTGCTTTTGCAGGTATAGAAACTTTCATAACTACAGGAAAAAATATTAAAAATAGAAGTAAAAATATGCCCATTGCAATTATTGTAATATTGACATTAACAACTCTATTTTACATAGTTTTTACAGTTATAGTTATGATGGCAATTGGAGGAGTTTTTGATCCAAATCCAAATAGTCAAATGTTTACTACATTTAATAGTGAATTTTTAAAGGTTTTTGGTCCATGACTAATAATACTTTGTACTGCATTAATGAGATTTAATTCTTCATTACAAATAACATTATTTGGTGCAACAACTTTAGAGCCACTAGCAAGTCAACATTTTGTTCCTTCTTCATTAAAAAAAGAAAACAAGGATAATGTTCCTGTTAAGGGAGTTATTACAACAATTGGATTATTTTCAATTACAACATTATTATTCTTATTTATTCCCGATATTGTTGAAGGAGTTACAAAAAAACCCTCTCCTTTCAACTATGCAACACTTGCAAGTTCTGCATCAATTATATTAATTGCAATTTATTCAATTATTATTCCTGTTGCACTTGTAAATGGTTTTAAAAAGAAAATAAAAGTTAAAAAATGAGAATATGTTGGTTGAATAACAACATTAATATTTTTGGCATTTACATTTGTATCTTATTTTATTGATTTATTTAATGTCTTTATAAATCCTTATGATTCAGACGGTGATTTTAATCTTCAAGGAGTTATAGCAAACATTTTTCAATTAATTTATTTTGTAACAATTGTTGTTGTTTTAATTATTGTTTACTACTTCTACTATAAAAAACAAATTGCAAAATTAGACCCTAATTCTCAAGAGGCAAAAGAATTAGAAATATATGAGCAAAATTTTAGAATTTTAAGTGAAACTGAAATTGAAGAAATTGAATTAATCCAAAATTCTTTAATAAAAGAAGAAAAAAAGATAGTTTAAATAATAAAAAAATAGTCAATTAGACTATTTTTTTATATTATAATTACTTTAATAAGGAGGGAAAATTATGAAAAAAGTATTGTTTTCTTTAACAGCAACTAGTTTAACTCTTGCAGCTTTTACACCAATTGTTAATAGACAAAATAGAATTGATCCCCCTTTTACTACAATTGAAAAAAGATTTTCATATTCATATAATTTCAATAACTTGGACTTTAATTCATGTAATTGAAACATAAATGCAGAAGGTTTAAAAAGTTGTACACTTAGTACTCCTGAATTTTCTCATGGCTTAGAAGATATGATCAAGGAAATCTATCAATTCGTAATTGCTGAGAAATTTGCAACAAATCAGTATAAAGTTCTTTCTATTTATACAAATTTTAATAATAGAAGTGATTCATTAAGAAATGAATTAGATAATTTTAATGAACTTTTATATATTAATACACCAACAAATACAAATATAGACCAAGTTAAAGTAACAAATCAATCAGTAACATTTGAAAGAACATATGATCCCTATTTTGGTGATAAATTTTATGTAAAAAATGTTATTGCAGAAATTGAAAATCATGAAACTAATATTTCAAAAAAAATAAACCTATATGGAATTCCTTCATATCATGTTTTTAAATCAGTTGATGAATTAAAGACAAATTTTATAAATCACTTTAATTTTGAATTAACTTTAGTTATTGATCTTACATATATTGATGATATATTTAAATCAGAAATAATTTTACCAAATGAAGTTTATTTTCAAGCTCCAATTCAAATAATTAATTGATTTGAAAAAAATGAAAATAAACAAAGAGAAAAAGTACTGGAATATATAAATAAAGAATTAAGTATTTCTTTAAAAAAAATCGATAAAATTAGTAAATTTTATAAAGCAGAATATGATTTTAATAGTAATCAATTTGTTCCGGTTGGAAATAACATAGGAGATAGTCGGGAATTTTATGAAGATCCATACTTCTTTATTGGTGTAACTTCAGAAGATGAATCAATTGGGGAATTCAAAATGTTAATTAAAAATTTAAAAAATTAAAATTAATAAAAATTTATTATTACTTTTTTAATGTATTATTACTTTAAGGAGGTGAATTTAATGAGAAAAATGCCTGGAAAATCATTAGGAACATTAAGATTTTTATTAATCTTAGGTAATGGATTTGGTTTAATTGTTGCTATTGTTGGTTTAATAAGTATGTTAAATTTTACTTTTTCAGAACCAATTTGATTTATCAGTAATGGTACATTAACAACACAACAATGAGCTGGGATATTTGCTTTAATTTCTTTTATTTTAGTTGGTAACATTTATTATTGCTCATTTATAATTCATTTTGTAAGAACTAGTGATGATGCTACATTAATTAATAATAGATGAATAATAGCTCTATTTTCTTTATCTGTTGGTGGATTTATGACACCATATGTTTTATCACAAATGCCAAACATTGGTGTAAAATCAACAATTGATCCAAAGTTTACTATTTCTAAAGGATATGGTGGTAATGCTTTAATTGCAGGTTCATTAACAATAGGTCTGTACTTTTTAATGCTTAATGCATTAAAATTACCAGTCCAATTTGATTTGGTAAGTCAAATAGTATGAATTGCTTTTGGAATTATCATACTTTGAGGGGCAATAAACCTAATGTTATTTGCAACACCAAATGCTAAAACTACTTGAGAAAATAAAAAAGGAATATATGGATTAATGAATTTTATTGCAGTAATTAATACAATTTATGCAACATTTATTTTATTAATTCAAATTATTCTTTCAATATTATCAATTATTTCAATAATTGCAGAAATGTTTGATAGAAGAAATGGATTCTTTGGAGCTATTTTAACAAGTATGTATGGTGCAATGAGAATTGCAATGCAATTGTTCATAATTTACACAATAAATAAAACAATTAAAGGTCTATGATCAAAACAAGGCGAATTTGAATATGGAGTATATTCAAATTTAGCTGAAAAACAAAGACAATATGAAATGTCATAAAAAATAATTTATAAGCATAACTAAAATCAACAAAACCCATGTAATTTAATACATGGGTTTTTAATTTTTATGAAATAAAAGTTATTAAATTTGTATTTGAATCTTTTACCATTAGTAAATCCTTTTCTAAAAGCAATATTCTAAAATAAAAAGCATCGGTAAATAAAATTTCTTCTTCAGTTATAATATTTTTTAATATTGTCTTATTTTCATTTTTAAAAGATATTAATATATTATTCTTATTTAAATAGCAAATTTTTTTAAATGAATTACTTTCATTAAGTACTTTTAAAAATTTAAAATCCTTATTATAAAGTTCAATATTTTCATTAACATTATGAATTACATAAAATTCTTCAAATTCTACTAAATTATTTAACTTAATTTCAATATTTTTTATAATATTTAAATTTTTATCAACTATTAGGTATTTTTGATTTTTTTTAATTAAAAGATTTTGATTAAAAAATTTTACAATTATTTGAAATTCTTCTAATTTTAATACTTCATTAAAAATAGAAGTAAATACTTGATTGTTTATTACAAAACTTATATAAGAAATGTCATCTAAAACAATAAAATTTTGAATATAATTGTTTGAATTATAAATTATTTCAATTTCTGTTTGCGAAGATAATTTTAAATTTGAAAATAAAGGATTTGGATGTGCTAGAAAACTTCTATTTAAATCCCCCTTTATTTTTAAATTTTCCTTTAATACATTTAAATTAATTTTACATAGAGAATTATTCATGTTTGAAGTATCAGTGTCTGTAAAGTACAAATTATTTTGTGAAATAAAAAAGTTACTTATTCACTGACTATTTTCTATTTTTCTAAATTTTAATTTCAATTTAATCACCTTTAAAAAGTATAACGTATTCTTAAAAAAATTCTCTTTATAAACTTTTTAACAAAAATTAATTAAAAAAATATTTATTAATAAAAATAATTTATTTTTTTAGTAAAATGCTTGATTTTTTTGATTTTTACTTTTAAAAAAAAAAATGTTATATAATTATTTTAAGTTGGCTATGCCAACAGGAGGAATAAAAAGAAATAAAAAAACTATTAAGATTATTAGCTTCAACTGCACTAGTTGCAACAACTAGTGCAACTGTTGTTGCTTGTGGAGATGAAACCGGAGATACTGTAACTCAAAAAGATTTAGCAACAATTACAGGAACTAACTTAAATATTACAGTAAGTGATAATTTACAAGCAACTGCAGAAACTGTTGCAATTGAAAAAATTAAAACTGTTTAAAGTGTTGATGTTGTAAAAACTACAGATGTAACTTTTACTTTTACAGCTGCAACAACTTCAGCAGCTGGATCAATAACAGTTAGTGCTGTTTCAACAAGTACTTTAGTTAAAGGAACAGTTACATTTAATTGAGCTGTTTTAGGCGGAGAAGAAACTGAAACTCAAAAAGATTTAGCAACAATTACAGGAGATGACTTAACTATCACAGTAAGTGATAATGCACAAGCAACTGCAGAAACTGTTGCAATTGAAAAAATTAAAACTGTTTTAAGTGTTGATGTTGTAAAAACTACAGATGTAACTTTTACTTTTACAGCTGCAACAACTTCAGCAGCTGGATCAATAACAGTTAGTGCTGTTTCAACAAGTACTTTAGTTAAAGGAACAGTTACATTTAATTGAGCCGAGCTAAGTGGAGAAGAAGAAATTGTATTAAAAGATTTAGGTGAAGATTTAACTGAACTTCTACTTGGAGAAATCGCAAATAAAGAAAATGAAACAATTTTAAAGGCTGTAAAAGAAATAAATCCTAATGTTGATACTACTCAATTAGAAGTGGCAAGTATTGTTGGCAATAGAGCAACAATTTCTGTAAAAGAAAATTCAACAGTTTACAATTGAACAACTATTGATGTAGCATTTACATTACCAGGAGAAACTGAATACTTTTACTTTTATATAAAATACTAATATAAAAAAATGATACAAATATGTATCATTTTTTTTTATATATTTTGAATACTTTCTACACCTGGAAGTTCTTTACCTTCCAGGTATTCAAGAGAAGCTCCTCCTCCTGTTGAAATATGTGTAAATTTATCTTTAAACCCCAATTGAATTGCAGCAGCAGCAGAGTCTCCTCCTCCAATTAAAGTAAATGAATTATTTAAGTTTGCTATTGCTTCACAAACTCCAACTGTTCCTTTTTTAAAGTTTTCAAATTCAAATACTCCCATTGGACCATTTCATGCAACTGTTTTTGCATCTTTTAAAATACTTTGGAATAATTCAATTGATTTTGGACCAATGTCTAATCCCATTACATCATCAGGTAAATCTATAGAAGAAATTGTTCCAGAAGTATCTTTAAAATCAGTATTATTAGCTGAATCTACTGGTAGAATTATTTTTCCATTTGATTTTTCAAGATATTGTTTTGCTAAGGCAACTTTATCTTCTTCACAAAGTGATTTTCCAATATTATGACCTTGTGCTTTAAAGAAAGTATATGCCATACCTCCCCCAATTATAATTTTGTCTGCTTTTGTTAAAAGATTATCAATTACTCCAATTTTATCTGAAACTTTTGCTCCACCAATTATTGCTACAAATGGATGTTCTGGATTATCAATACCTTTTGATAACATTTCTAATTCTTTTTGAACTAAAAATCCAACACAACTTTGAGAAATATTTAGTGCAATTCCAACATTTGAAGCATGAGCTCTATGAGCAGTACCAAATGCATCATTTACAAATATATCTCCTAAACTTGCTCAATATTTTCCTAATTCAGGATTATTTTTTGATTCATATTTAACAACTTCATTATCTTTAACATCTTCAAAACGAGTATTTTCAACAAGTAAAATATCTCCTTCTTTTAAATTTTTTATTGAAGTTTCTAATTCTGTTCCTCTTGTTTGTGCAACAAATTTTACTGATCTTTTTGCTAATTCTTCTAGTCTCTTTGCAATTGGTGCAAGAGATTTTTTTGACTTATCTGCCTCTTCTTTTATTCTACTTAAATGAGAAAATAATACTATTTTTGCATTATTTTCAACTAAGTAATTAATTGTTGGCAATGCAGCGTTAATACGGTTGTCATCTGTAATAACACCATCCTTTAATGGTACATTAAAGTCAACTCTAACAAGCACTGTTTTTCCAGATATTTGTATATCATTTAAAGTTTTTTTCATTTTGCTAATCTCCTTTATACATATTTATTTTAAAGTATTTTTAATAATAAAATCTAGGTAATAGAAGAAATTATTTGGATTTTCTTTATGAAAATTAGTAATTTCTTGATTTTTTATTAAAATATTTCTATTTGTTTTATAAAGTTTTTTTCAAGGTGTTTGTTCATGACAAATCACTACAATATCTCAGGACTTTAATTTTAATAAAAAAGTAATAATTTATTTTTTTATTTTCACTTGAATAAAGGCTTGAAAAACGATTATAAGTGCTTTTATCAAAAGAAAGTGATACATTATTTGCAGAAAACATAGTATGCTTTTTTCAAAGTCTATAAATAACAGGTCCTCATCTTCAAGTTTCAAAATTAATATCTGCAATTTTTTTCTCAAATAATAAAAAATAAGAATATACAATATATATTATTTTTTGAATTTGAATTTGTGTAATTTTTTCAATTACATTTAAAATGAAATTTAAATATTCATTTTTAGTATAAAAAAACATATTTCACCTCAATAAAAATATCGATTAAAAATATGTTTAAATTAAAATTTTTAAAATTATAAACTTAACATGTATTTAATTGTACGGATGAATTGTGATGTAAATGAATTTTCATTATCGTATCATGAAAATACTTTAATTAATTGTTTTCCATCAACTTCCATAACTTTTGTTAAAGTAGCATCAAAAATTGTTCCAAATGTTGATGATACTATATCTTGTGAAACGATTGGTTGTTCACAGTAATCCATAGCTAAAGCTAAGTCTGCATCTTTTTTAATTGCATTTTTCATTGAAGCATTAATTTCTTCAACTGTAACTTTTTTTTCTAATTCAACTGTTAAGTCAACAATTGAACCTGTAATTGTTGGAACACGTAATGCTAAACCATCAAGTTTTCCATTTAATTTTGGTAAAACTTTACCAACAGCTGCAGCTGCTCCTGTTTTACTTGGAACAATGTTTCAAGCAGCAGCACGTCCACGACGTAAGTCTTCGTGTGCTAAGTCTAATAAACGTTGGTCATTAGTAACTGCATGAATTGTATTCATTAATCCTTTTACAATTCCAAAATCTTCATCTAAGATTTTTACAATTGGTGATAAACAGTTTGTTGTACATGATGCTGCAGAAACAATAAGATCGTTTGCTTTAATTTCCTTATGGTTAACACCAAATACTATTGTTTTTAAATCCCCTGTTGCTGGTGCTGAGATAATAACTTTTTTTGCCCCGGCATCAATATGAGCTTGTGATTTTTCTTTTGATGCATAGAAACCTGTACATTCAACAACAAGATCAATTCCTAATTTACCTCATGGTAAATCAGCTGCATTTCTTTCTGCCAAAATTTTAATTTCTTTTCCATCAACTATGATAGCTCCATCTTTTGATTGAATTTTTCCAGACATAAATCTTCCATGTGCTGAATCAAATTCTAATAAGTATGCTAATGTTTTAGCATCTCCTAAGTCGTTAATTGCTACAACTTCTACTTCTTTTGATAAGAATAATTGTCTAAATGCTAGACGACCAATTCTTCCAAAACCATTAATTGCGATTTTTTTCATATGTATCGTTTCCTTTCACGATTTAATTTTATACTTTTTAACATTGCTTTTTTTAAAATGTTAATAATAAAATTTTCTATTTTTTTTAATTCTATTTACAAAATTGGAGATTTTTCCATTAATATCTTTTATTTTTACCTTGAATTTCAATTGAATTTGTTAATCCTTTAATTCTTTCTGTAAACCTTAATGTTTTTAATTGATCAAATTTAATTTGATCTTTTTCTCTAATTTTTTTATTTAAATAAAACTTTTGTAACTGTTCAATTGAAAAATTTGATGTAAAATGGGTTAACAAGTTATTTTCTAATCTGTAGTTTAATAAGCCAAATAATAATTCATCTCTACTTCAATCACTTACTAATTCAGCTCCAATGTCATCTAATATTAATACTTCAACATTAGAACATGTATCAAAAAATTTAGAGTATTGCATTGGTTCTGAAATATTAAAATTATTTTTCATAATTTTAATTAATTTATTAACAGTAACAAAAATAACTTTTTTATCATTTTTTGCATAAGTATTGGCAAGCATTTTCATTAAATACGTTTTACCAATTCCAGGTTCCCCATACAAATAAAAGCCTTTTTTTGAATTGGAAAAAAAACTTTTGTTGAATTGTTTTAAAAAAACAATAACAGATTTATCTAATTCATTTTGATCAACACTTTTAATGTATTCATCAATTGTTTTAATACTTGATATTTCATCATAATCTGCAAATAATATATTTTTAAATAATTTAAAATCTTGATTTTCATATATTCAATGATTACAATTTTTACTTGAAATATAAAAAGAATTATTTTTATAAATTAATTTTTGTTGAACTCCTTTTATAATTTGCTTACACTTTTCTAAATTTTCATTTTTTTGACAATATACATATTCATTTAAAAATCTTGAAAGAATAAACTTTTCTCTTTCAAGAATTGAGTCTCTAATTTGATATTTTTCAATTAACTGTTTAAGTCCCGAGTTTAATTTAAGTTCTTCAACTGAGTAAATTTTCATTTTAATTTTTCCCTCAAATTAGAGGTTCATTTGAATTGTTATCTTCAATTTTTATTTCATATGTTTTTTTTGTTGAAGCTTCTTGTCATTGAATTTGTGATTCATAATTATTTTTTTGTGATTTATTTTTTACAAAAGCTTTTTTATGTGCAATTTTTAAGTAGTGCATTGCTTCATCTGCTGTTTTAATATTATTTTCAATCATTGTTTGTGCAATTTTATAAAGATAATTTGCGATTATTGCTTTATCATTTTTAAAATAAGAAAATTCCAAAAGACAATTTATTACACTATTTCTAAGTTTATATTTATTTTGTAGAGTATCTATAATTTCTATTTGCGAATTTGTTAAACTTGTAATATTTAGTAAAGCAAGTAAATATTGTTTACTATCAATTGTTTCCATTTCTTTTATCTTTTTATTTGTTTGGTTTTTAATATATTGTTTACTATCAAATTCCACAGGCATAGTGTCAAGTTCATTATTATCAAATAACAAATTTGTAACCTGACTGTAAAATTCAGACTTAGAAAATGAAAAAATATCCGGCTTATATATTTTTCTAATTATCTCCTTAATTTGAAATTGACTTATATTATAACATCCAAAAACTTCTTCAATTATTTCTTTCACTTCGTGATTTTTATCACTAATGATAATTTTTTCTTTTTTTAGTGAATCTAGCAATACTGAATAATCTAATCCTTTTAATAAGGCATTTGTTCTTCTTGGTTTTGCTTCTAAAAATTTAGCATCATCATTATTTTTTAAATTTTTAAATTCATCAAATACTTCTAAAAATTTACTTGACGTATCTGAATAACCGCTTTCAGTTGAATAATCACCTTCATCTCTAAAAATAAATCGAGTAAATTCATATTCATCTTTTCCTATTTTTTTTTGCAAAGCATTATTAAAAATATTATTTTTAAAAAATGAAACTGGATCTAAAGGAGAAAAAATATTAAAAACCTTAGACATAGTTTTTAAGTTAACTAAAGTTTGAATTAAACCCATTGCTTCAAGTTTTCTAATATAATTTTTTAAATTTTCCAAAGACAAACCTGTAAGTTTTAAAAGTCTTGATTCATTAAATTCTATTTTTTTAAAACCATGCATAATTGATTCTTCACAAATCAAGCTTTGATAAATAGATATTGCTTTTAAACCTAAAATTGGTTGATATAAATAAGTTAATACTTTATTATTTGAACTATCGATAATATTCTTTAAGATAATTCTATATTTAAAAATACTCATAGCAACCTCCATATATTCCAAAATAATAATAAAAAAAAAATAAAAAAAAAGATATATTTTTAATTTTTTTTTAAAAAATTATAAAAAAATGTTTATTTAAAGATATAAAAAACCCCATAAATAATGGGGTTTTTAAAGTTATTCACATATTAAAACAAAAATTGGCAATTTGAGCAAAAATATGTACCTCTTCCATTAACTTTGATTTTATCAATAATAGTTTTACAATCATAACATTTTTTACCTTTTCTAGTATGAACTTTTAACTCATTTTGAAATTTTCCATCAATTCCTTGTTCTGGTTGATAGGTATCAATAGTTGAGCCCCCTAATTCTATAGACCTATTTAAAACTTTTACAGATGCTTCAAAAATTTTTTCATAATTTTCTAAATTTAAATTTAAAGCTCTTGATTCTGGATGAATTTTTGAGTGAAATAGTATTTCATCAGCATATATATTACCAATTCCTGAAATTTTTGTTTGATCTAATAAAACAGTTTTTATATATTTACTTGATTTAGACATAACATTAAAAAAGTATTGACCATCAATATCTTTTTGAAAAGGTTCGGGACCAACTTTATTTATTGGATTTTGTTGCAAATATCCATCAAAATTTTGCAAATGAAAAGTTCCAAATTTTCGAGTGTCATGATATACCAAAAAAGAATTATTACTTAATTCAAAAATAGCTTCAATGTGTTTTTGATTTAAAAAAATAAGATTTTCGTAAATAAATCATTTACCTTCCATTCTTAAATGACTTATTAATACTTTATCTTGAAAATGAAAAATAATATGTTTTGCAATTCTAGTAATATTATCAATTTTTCTTTCTTTTAAAATATTTTCAAAATCCTTAATTTCAATATTAGTCTTAATTAAATTTGGATATGTAATTTTTACATTTTTAATTGTTAAACCTTTAATTCTTTTATTTAAAGATCTAACAACAGTTTCAACTTCTGGTAATTCTGGCATACTTAATCTCCTATTTTAATTCAAATCAACTTTTTCCTTTTGAAAAATTAATTTCTAAATCAATTTTTGCAACTCTATTTTTATTTACTATCTTTAACAAATTATTGTATGAATTTTGCATAATTTCAATTACATTTTTTTTAATTTCCTCTGCTTCATTATCACTAACTAAAATAATAACCTCATCGTGAATTTGAGCAACCATTTTTGAATCGAAATTGTTTTCTTTAAAATAGTTTTCAATGTCAATCATAGCTACTTTTAAAATATCTGCTGCTGTACCTTGAATTGGAGCATTAACAGCTGCTCTTTCCCCAAACTGTTTTACCATATAATTTGAATTTTTTAATTCATAAATATATCTTCTCCTATTAGCCATTGTCTCCACATAACTATTTTGATATGCAAATTCAGTAACTATTCTTTTAAAATCTAATATTTTTGGAAAGGCTTCATAATATGATTTTATATAAGATTTTGCTTCAAAAATTGGTATTTTAAGGTCTTTGGCAAGCCCAAAATCGCTTAAACCATATAAAATACCAAAATTAAATACTTTTGCTACTCTCCTTTGTTCTGGATTAACTTTTTCATCTTCTTTTAAATTAAAAATACTTCTTGCAGCTTCAGAATGAATATCTCTTTTTAAACTAAAAATTTCAATTAATTTATCTTCATTAACTATATCACCAAGAACTCTTAATTCTATTTGAGAATAATCAAAGCTAAAAAAACTATATCCTTTTTGAGATATAAATATTTTTCTAACATTTTTTTGTTCTTCATCTCTTACAGAAATATTTTGAATATTTGGATAACTTGAACTTAATCTTCCTGTATTTGTAAGAGTCTGATTAAAAATTGTATGAACTTTATTATCAGAATGAATAAATTTTTCAAATCCTTTTAAATACGTTGAATATAGTTTACTATATTTTCTAAAAGATATAATTTTAGAAATAACAGGATGCTTATCTTCTAGTAATTCTAATGTTTCTTTATCTGTGCTTCCTTTATTATAATCTGGTAATTTTAAATTTAAATATAAAAGTTCTTTTAATTGTTTTGGCGAAGCTAAATTAAAGTCTTGGGAGATATAATCATTTAAATCATTTTTAATTTCATTCTCTAAATTTATAAGTAACTCTAAAATATTTTTAGTTTGAATATCTAATTCTGTTTTATCAATTAAAATACCTTCTAATTCCATTTTTAATAAAACTTTTGAAAATGGCAATTCAATTTTTTCATATAATTCATATTGCTTATTTTCAATTAAAATATTTATTACTTTTTGTTCTAATTCTTTTATAAGAAGAACTTTTTGAATTAAAAATTCATGTTTTATTTTTTGATCAATTAACTTTGTTTTTTTTACACCTTTTCCAAATACTTCATCAAATGTTTTTATTTCAATAGTTGAATTAATTAAAGCGACATGAGATTCAAAATTTGATTTCACATTAGAATTTATAATATAACATCCAAGCATCATATCATAAGTAAAATTAGTTTCATTTATTTTATATCCCATTTTTGTAAGTGTGACAATTGTTTTTTTTAAGTCATAAGTTTTAAATATTGAATTAGAAAGAAAGTTTTGAAATTCTTCATCAATAAAAACCTCATTTCAATTAAAAATATTTATTTCATCTGTTAAATTTAATTCATAATAAAAGTTACCTTTACTATTTGAAATTGAAATTCCTATAGCATCACCCAAGTGATAGTTTTCTTGAAAAGTTTCTAAATAAATTCAATTAATTGCATCTTGAAAGTTTTGATCTCATTTTTTCAAAACTTTAAAAACAATTTTTTCTGGTTCTAAGTCTTGTTGATTAGAAGCAAATTTTTTTATTAAAGAATTCATTTCATATTTTACAAAAAATTTTTTCATACCTTCATAATCAAAACTATATTGTCTAAAATTTAAATTTTCAATTTCAATATCAGAAACAATTGTTGCAATTTCTTTTGACAAAAAAGCATTTTTTTTATCAGCTACTAATTTTTGCTGTTTTGCACCAGTGATTTTATCAATATTATCATAAATATCTTCAAGGGAATTAAATTGTTGTAGCAATTCTTTTGCAGTTTTTTCTCCAATTCCTGCAACTCCTTTAATATTATCAGATGTATCTCCTCTTAAACCCTTATAGTCAATAACTTGTTCGGGTTTTATCCCCCATTTTTCAAAAAGTTTTTGCTTATCAATTATTGAAATATCACTTGTACCTGTTTGAGGAGATAAAACAAATGTATTATCTGATATAAGTTGATACATATCTTGATCACTTGTTAAAATGTGAACAATAGCTTCATTATCTTTATTTTCAATAATCCTTGTTAAAGTACCTATAATGTCATCTGCTTCATAAAAATCAAGTTCATATCAATCTATTTTTGCAGATGTTAAAAATTCCCTAACAATAGGAAACTGCTCTATTAATTCAATAGGAGTTTTCTGTCTTTTTCCTTTATAGTCTTCTAATTTGTCATGTCTAAAGGTTTTTTTTCCTTTATCAAATGCAATTTTTATATCAAAGTAATCATTTTTTAATGCTATATTCATTAGCATATTTATAAAAGAATACACTGCATTTGTTGGAATTCCACTTTTTGTTGTTAAGGTTGCTCTACCAAAAGAACTAAAAAAAGCTCTAAAGATAAGTGCATTTCCATCAACTAATAAATATTTTTTTGCCATATTTTTTCACCATTATTTTTATAATAACAAAAAAAGAGATATAAAAATTTTAATTATATTTCTTTAATTATGTCAATAAGCACTGCAGTTGTCTTACTATTAAAAGTTTGCGTTTTTATTTTTATAATTAAATTTTTTCCAATATTTAACTTTGTTTTTATTTTTTCATATAATGAAGAAAATATTGTAACAATCATATTTCCTGTTTCATCTAATATTTCAATAAAACACATTTCGTTACCGTTTTTGTCCCTTTTTGTAATTATGTTTTCTATATTAATCAAAACATCAACAACTAAACCATCTACTTTCACTGAATTTAGTGTTTTTAATTTTTCTTTATGCACAATTTTTTTTCTAATTATTGATAAAGGGTGAGCTGACACAAAGAAACCTAAATATTCCTTTTCATAACTAACAATTTCTTCAGGTTTATCTTTTTTTTGTTGTAAATCTAAAACTAAATCCTTAACTTTTAAATATTTAAAACTTGCACTTAAATTAAATATTTGTTCTTGATATTCTATTAAATCTCTTCTAGAAAAACCATAGAAATCAAATGCTCCAGAATAAACTAACGCAATATATTTTTGGGATGTTAATCCTTTATCCTTTATATTTGAAATTAATTCTAAAATATTATTAAAAGCATTTTTATTTTTCTTAAATAAAGTTTTTAAATTTCGTAAAAATTCAGGACCAATGTGTTTTATTACTGATAATGGAATATTTATCATATTATTATGATAAATATATAAACTATTTGGGTTTTTTATAGTTGGAGGATTAACTAAAAAACCTGAAGCTTTTACTTCATTTAAATACTGCATAGTTTTAACTTCATTTCTAATTGATCCATTAAGTAATGAACAATAAAATATTTCTTTATAATTTGCTTTTAAATATGCAAGTCAATAACTAATTATTGAATAAGCTATTGCATGAGACTTATTAAAACCATATGAAGCAAATTTTTCAATATACGTTCATAATTCATTTGCCTTATTTTCAGAATAACCGTTTTTTATTGCAGCATCAATAAATTCATTTTTAAATTTTTTCATTAATTCATAATCTTTTTTACCAATTGCTCTTCTAACAATATCTGCTCTACTCAAACTCATTAAAGCTACTCTTTGCAGCATTTTCAAAATCTGTTCTTGATAAACAATAATTCCATGTGTTGTTTTTAAAATATCAATTAAATTTTTATCAATTGAATAATCATGATTCTGGTCATTTCTTCTTTTAATAAATAATGGGATGTTTTCCTGTGGCCCTGGTCTATAAAGTGCACTTGTTAATGCAATATCTTCAACTGAGTTAACTTTCATTTGAATTAGAACATCTGTCATTCCTGCAGATTCCAATTGAAAAATTCCGCTTGTATCTCCTTGAGCAAGTAAACTAAATGTTTTCTTATCATTTAATTGTATATCTTCAAGATTCAAATCAATTTTTCTTGAAATTTTTATATTCTTAATAATTTCTTGAATTATTGATAAATTTCTAAGTCCTAAAATATCTGTTTTAATTAAACCAATGTTTTCCAAAAAATTCATTGAAAATTGTGTTTGAGAAATACCATTAATTCCAATTTTTGTTGGTACTACTTCATGCATTAAAACATCACAAAAAACCACACCAGCAGCATGTGTTCCTGTCTGTCTTGGTAGTCCTATAATTTTTTCAGAAATATCAAAAACTTGTGGGTATTTCTCTTTATATTTTTTTAAAATCTCGCTATCCTTTAAAGCTAATTGTAAGTCTTTTACATTTTTTTCATTAATTTGTTTTGTCATATGATTTATATCTTCTAAAGGAATATCAAAAATTCTACCACAATCTCTTAAAGCATTTTTTATACCAATTGTTTGAAATGTTGTAATTGTTGCAAAATGGTCTTTTCCATATTTATTAAATAGATACTCCAAAATTTCTTCTCTTCTATCATCTTGAAAATCTATATCAATATCAGGCATTGTTACTCTATCTATATTTAAAAATCTTTCAAAAATCAAATCTCATTTAATTGGATCTAATTTTGTTATTTTTAGTAAAAAAGCAACTAAACTTCCTGCCGCTGAACCTCTACCTGGTCCATATAAAATTTTTAGTCTATTTGCTTCTTCAACCATATCATGGACTATTAAAAAGTAATCTTCAAAACCCATTTTTTCAATAACATTTAATTCTAAATGTAATCTTTTCAGATAAATTTGTGAATCTAAATTTGAATATTTTGATAAATATTCTTGTAAAAAATCTACACATATAATTTTCAAATAAGATGTTGAAGGCATTTTTTTAGCATTTGGATATTTTAAAAAATGTTTTTTATTATCAAAAATTACTTCTTCATCAATTTGTTCTACTATTTTTGAAATATTATCAATATGCAAATTTAAATTAATATATTTTTCAACTTTTTGTTTTTTAAAAAAGTAATTTTTATTTATAGTTTCCAATTCATTTAAAAGTTTTCCTTGTTTTATTGCAATTAAACTTTTAAAAGCCACATATTCATTTTCATATAAAAAATTAATTTCTTGTGCAAAAACTACATTCTTGTATTTATTAAAAAATACGTAATTTATATTATCTATCCCAATAAAAAAACTATCTTCTTTAATTTTTTTATAAAATTGTTCTAAGTATTTATCAACATTTTCTATTGAAAAAATTGAAATAATTATTAAATCATCATTTATCTCTTTTCAAAAAATATCTTCAAGTTCAGAAATATTATTTGTTTCATTTTTAGACAAAAAAGAACTAAAAAAACTTAATTTTTTAAAGCCGCTATTATTTTTAGCAAATAGAATTACATTTCCAAATGATAATTGAAAGTTTAAACCAATAATTGGTTTAATATTGTTGTTTTTTGCCAACTCACTAAACTCAGCTGCTCCATACATTGTATTTTTATCAGAATAAAAAGCAAAATTAAAGTTATTATTTTTAATAAAATTAATATAATCTTCTAATTTAATTGTAGAATTTAAAAAATTATAGCAACTTTGTATATTAACTAAATTAGCATATTCCATAAAAAGCACCTCACTTAAAATATTTTACAACAGATTTTAAATAAAAAAACACTATCAGTATAACTGATAGTGCCATAAGCATATCTTAAAATCAACAATCTTTTATCTATAGTTCTAATTTGTCAGCAACATTTGTTGAAGACAAATTAATTATAATAAATTTTTCTGCATTTTTCAAAAAAAGTTGAATTTAAATAAAATTATTTTCTATGTTCCATAATTAAGTCATATGCGTTGTTAATCATAGTCATCTGTGCTTGAGCTTCTAAATCATTTGGATTTTTATCTGGATGATATTTTTTTGCTAATTCAATATATCTTTTTTTAATATCTTTAGTACTAGCATTTGTCGGCAAATTTAGTACTTTAAATGCTTCTTCCAGTTGTGAAGGAGCACTTCTACTAGATTCATCGTATCTTGAACTAAATCCCTCTTCTTGTTCAAAACCTTCATCAAAAGTTCTTTGGCCCCTATTATTATAAGAGCTTCTATTTCTAAAACCAGAAAATATTAGTTCAATAATTCAAAAAATAAACATGTAATATAAAATTCTTAATATAACTCTCACTAATTCATCCATAAACTCAACTCCTTAAACTACTAAAAATATAAATAATGATATTATTAATAATAATATAATAATATATACTGTTAATTTATATAAAAAGAAATTTATTTTTTTCTTTGGTTTTACAATATTAGGAATTTCTGGCTTTTTATCTTTTTTTGTTTGCGATTTAATTTCTGCAATTGTTAATGAATCCCCTTCATATTCTTCAATTTCAAATTCTGAATCAATAGCTAGTGTTTCACTATCGATTATATTTCCATTATAAACTCCAAATTTATTTTCCTGTTTTTTGTTCTTCTTTTTAATTTTCAATTAAATCACCTTCATTTCAAATATATTTTTTTATCATTTTATCTAATGTATAATTGATCATCTCATTTAATAAAAGATTTTTTTCCTGTTCAATAGCAATAAAAGATCTTGGTTTAGTAACTGGATTTTTTGGTACATACATTGAACAAACATCATCAAATGGAAGAATAGATATCTCATATGTATTTATTTTTTTTGATATTTCAATAATTTCTTCTTTATCAAAAGTTAAAACAGGTCTTAAGATTGAAATATTTGAAACTTCATTGATTACATTAATAGATTCAATTGTTTGACTTGCAACTTGTCCAAGAGATTCTCCTGTGATAATTGCCTTTGCTTTAATTGATTGGCAAAGTAAATTCCCAATTCTAATAAAAATTCTTCTCATAATTGTAATTCGATATGATTCCTCTTTAATATGCATTAATTCCTTTAAAATCATTGAAAAATCACAGATATATAATGTAAAATTTGATTGATTATATTTTCTAATTTTTTTCACTAATTCAAAAACTTTATCTAATGCCTCTTTTGAGGTATGAGGTGGAGTCATAAAGTGTAAAAAGTCTACTTGCATTCCTCTTTTTAAAGCTAAATAGCTTGCAACTGGTGAATCAATTCCCCCACTTAATAAAGTCAGTCCTTTACCACTAACTCCAACTGGAAGTCCTTTTGATCCTGCAATTTTTTTTGTAAAAATAAACGCACCTGAATTTTTAATAATGACTGTAATTTTATTTTTTGGAGAATGAACATCCACCTTTAAATTATCAGTATTTTTTAATATATTTGAAGCAATTGCAATCTTCAAATCTTGTGAAGTAACTGAAAAGCTCTTATCTTTTCTTTCGACTTCAACTTTAAATGTTCCTGAATTAAATTTTTTTGCCAATTGTAAAGTTTTTTCTAAAATTTTCTCTTCATTTTTTTCAATAATTTCAATTATTGAAAAAGAATATATTCCAAAAATATTTTTTAAAATTTCACAAATTTCTTCAATATTATCAGCATTTTTAATTTCCAAAACTAAACTATTATGATCTTTTATATATATTATAGATTCCTTGTATTTTCTAAGTTTATATTTAATATTTTGAATTAACTTATTTATAAAAATGTTTTTATTATTACCCTTTAAAGTTAATTCCCCATATCTTACTAAAATATTTGTCATTAATTATTTCCTTTTTATCTTTTATTTATTTTTTTTATATCTCCAAGTATTGGTAATGAATAACCTAGCAATTGGTCAAAATTTCTTTGTCTAAAAAAATCTTCACAAGTTAAAATAACTTTTTCAATTTCCTTATTGAAACCAACATATCTTTCAAGATATACAATTATTTCTTGTGAAATATAATCTAAAAAAATTGTATCATTTAAATCACTAACTATTCTTCACGTTTTTTGAGAATATTCTTCAATTTCATTTGCTAATATTTCTTTTTCCTTTTCTGATTCAATTTTTGTTAAATTTTCCTTTGAAAATTTAGATAATTTAAAATACAATTCTTGAATTGGTTCAATAAATTTTTCAAGTTCTCTAATTGATTTATATTGATTAATTTTTACATCACATTGGTTCAAAGTAGTTTGAATAAAAATTATTTGATTAATAATGGATTCAATATTAGTATTTTTGCTTTCAATTGCTTTTGCTGATTTTTCGAGCATTGTTATATTTTTTAAAAGTTGTTCCATTACGACTAAAAGTTCTTCTCTAGTTTTAAATAAGTCTAATTCTTTTCCATTTATCTCTAAATCAATACTTGAAAAAATAAAATCAGCTTTTTCTTTTGTTTTTAAATATTCAGCTCTTGCAGCTTCAAAATCACTTTTTTCTCTTGTAGGGTATTTTGACATTGATTCCATATTTTTAAATACTCTTTCAATTTGTCTTGTTGAATTTGATACTAAATCAAACTCACTTCTAATATCTTCAATTTTATTTTCAAAAAAAGCTTTTAAATTATCTTCATGTTCAACCATCTTTTTAAAATTTTCAATATAAACAAAAACTTGTTTTAAAGATTTATTAGCCTTTTTAAATTGCAATTTTAATAATTCATTATTTATTTTCACTCTTAATTTATCAACTTCTAGTTCCAATTCTGCATATTTTCTAGCATTTCTTGGTAATTTTCTTTCAACTAATCCAAATGTAACATGTTTATTTTTTAATTCACTCATCAATTGGGGAACCAAAGTTGTAATTGTAGAAATTACATATGGAATTGAGTCTAATAACTCAATTAAAAAAATTAATGCTTGATCAATTTTTAACAGACAATCCCAACTTTCTTTATATTTTCCATCATCTAATTCTAAATAAAAATCAGAAAATAATTTTTCAATCGAATCAATTGTTCTTCCTAATTTTTCTTGATCAATTCTAATATCCTTAAAAGTTGTCATTATTACTTCATCTTTTAACATTCTGAATAACTCTTTTTGAAATGTCAAAGAATCTCTTTGAATATATTCAATTTCAAGTGCACTTAATGTTTCAATAAAAATCTGATGAACATTTTGATTTATTTTTAAAAGTTGGTCATAAATAACTCTAAATTTATTTAAATTACCAATATTTGGAAAAGTATTTTTTTTCTTTTCAAGTAATGAAACTAATTCAATAAAACACTTACATAATTCTTTTTCAAATAATAATTCATATTTTGTTCGTCAAATCATTAACTCATTTTCTAAATTATTTGTTTCTTCAAAGATTATTGATATTCTTTGTAATCTATATCTTAATGGTGATTTTTTTAAATCATCTATTAAATCAATTGATTTTGCAATTGTTTGTAATATTTTTCTATATATATTTATAAGTATAAGAATTATTATAGCAATTCCTAAACAAACAAAAAAGATAGCCAAGCTAACTATATTACTCGTATTATTTAATAAATTATTTAAATCTCAATTTAGAAACATGAATACAACCCCTATAAAATTAAGATAATTATAACACATCAACCAATAATGGTGTTTTTTTTAAATTATCTAATTTTTTTATTAATAAATGATATATAATTATTTTTGGTTAATCTGCAAATAAACATAATAAAAAAATTAGTCTATAAATTATTTTAATAGTAACCTGAGCAGAAAAATGGCGAAATATAGACTTCCTTTATTAGAGTTTATCTTTAATATGAGATTTTCCAAATAATAAATTATAATGAAAGGTTTAAAAATATGTCAAGATATACAGAATCTGTTTTTAAAAAAGCAAGAAGATATGGATTTTCAATCTTAGAAACAGGAAAAGAATTTTCAAAAGGTAAAAAAAGAACAACTGCACCAGGTCAACACGGATCAAGAAGAACAAAATTATCTGGTTATGGTCAACAAATGCAAGAAAAACAAAAAGTTAAATTCATGTATGGTTTAACTGAAAGACAATTTAGAAATACTTATGCAAAAGCAAAAAAAATTCATGGAATTACTGGTACTAACTTTTTACAACAATTAGAATCTAGATTAGATAATATAGTTTATAGAATGGGATTATCTTTAACAAGACAAGGGGCTAGACAATTAGTATCTCATGGACATATATTAGTTAATGGTAAAAAATTAGATATTCCTTCATATACTGTAAAAGTTGGTGAACAAATATCAGTTAAAGAAAAAATGCATAAAAATGATAAATTAGTTGAAGCATTAGCTTCTAACGCTTCAACAGTTGAATTTGTAAAATTTGATAAATCAAAAATGATAGGTTCTTTTGTTAGATTACCAGAAAGAAAAGAATTAAATCAAGAAATTAACGAAGCTTTAATAGTTGAATGATATAACCGTTTAATTAAATAATAAAAAAATCGCATATGCGATTTTTTTATTATTTAATTTTAATAAGATATTATTTTCGAATTACAGTTTGTTTTGAAAAATCAATAATCATTGATGGGCTATTTTTTAACTCTCCATCTCAATAAACTTTAAAAATTTTATTGCTGAAGTTTTCTAATTCATCTTTTTGTGTTAAAAAATCAAAACCTGTTTTATTAACACTTGTTGAAAAAATTGGTCCTGTTTTATCAATAATTTTTTTTAAATCTTTTCTTTTAATCATTCTTAATGCAATGTTTTTATTTGGATTTTTTTTCAAGCTTATAATCTGAGTTATAGGTCTTAAATCTAAAAAATTATTTTCTATTTCATTATTAAGCAATATCATTTTTTTTGCCTGCTTTAAATTTGAAATTAGTATAATTAATTTTTTATTATTAGGTGACATTTTTATTGAATTTATTAAAATTTCATTTTCCTTTGAAATAACTGCGCTTATTCCGTAAATTGTGTCTGTAGGAATTATTAAAACTTTTTGATTTTTTAAATTTTTTATTATTTCTTTAATTTCACTTCTATTTAACATTATTTTCTCTTTCTTTGATAATTATACACTCCATTAAGAACCATTGATTTTGGCGCTCATTTTGTAAAACTTTTAAATATTTTGTTTCTATTTCCTATAATTATATAATCCTTCGTTTTAGTTTTTAAACCCTTTAAAAGACTTTTTTTTGCATAAGATTCTATATTCATAAATTTCGAATTATTTTTATATTTTGCTTCCTTTTGATTACTACTTCTATTTCAAAAATCAGTTTTTAATGGTCCAGGAGAAATTGTAATTACTCTAACATTTGATTTTGTTTTTTTAAGTTCAGTGTTAATTGCAATTCCTAAATTTAGAACATATGCTTTTGATGCAGCATAACTGGAAAAAACTGGTGCTGGTGAAAAAGCAGCAATTGATCCAATATTTAAAACTCTTCCCCTATTTTGATTTTCAAATTTTTGAACAAATAATTTTGTAAGAATGTGCAAAGCTTTTATATTTAAATCAATCATATTTAATTCTTTTTCTAAATCTGTTTGCTTAAAATATCCCCAAACACCAAAACCTGCATTATTAATTAATAAATCAACATTAAATTTTTCTGTTTTATTATAAAGCTCATTTACATTATTAATATTACTAATATCTAAATTTCAAGCCTCAATGATTAATTCTGGATAATGTTTCTTTAATACTTCAAGGCTCTTTGTGTCTCTTGCAATTGCAATTATATTATAACCCATTCTTAATAAATACTTACAATACTCATAACCTAAACCTTTGCTGGCTCCTGTAACAATCGCAAATGTATTTTTTGCTAATTTATTTTTTGTCATCACTTGTTCCTCTTTCAGTAGATATGTTAAAAAGCATTTTCCTATTTAAATAGATATAAATAGCTGCAGAAATTATAGATAAAATCACTGTAATGTACATTGGTATCATAATTAATTGATTAATTCCTCCATATTCTCCCAAATTACTTAAATTTTTAAAAGTTCCTAATCCAATAAAAAATAAAAGACTTAGTCCAATCATTTCAAAAGTTGCTTTATATTTTCCCATTTTATTTGCTGCCATAACATAAGAGGAATTTGCAAGCACTTGTCTTACAACATCAATTAGAAAATCTCTACATATTAATATTACACACATTCAAACCGGAATTAATGGTATTTGTCCACATGCAAAAACAATTAATACAGAATTTGTAAGTAATTTATCTGCAATTGAATCAAAAAATTTACCAAAATTTGTAACCATATTGTATTTTCTTGCAATATAACCATCTAACATATCTGTTAAACTTGCAATTATAAATAAAATACCAGCAATTAAATATGCAATAGATAATTCATAGTTTTCTCCAATTTTTATGTTGTTATTAAATACTTGATAGAAATTTGGAGATAATAATAGTAAAATAATAATAATTGGTATCAAAATAATTCTGACCATTGTGATTTTATTTGCTAAATTCATTTTAGACCTCTTTTCAATACTTATTTATTATAATACATAATATATTAACTAAGTATTTGTTTTACCCAATATGATAACATTTTAAAATAGGAGAAATTCATGAACAAATTTATTTCAGAAAAAATATATATAACTCTTGACGAAAGTGGAAAATTGAATCAAAATGATATCGATAATTATTTTATTGTGGGTGGGTTTTTTACTCAGATAAAGAAATTGTAAAAACGAAAATAAAACAAATTGAACAGGATATTAAAAATAAATATAATATTCCTAAAAATTTTGAATTAAAAGGTAATAAATCAGATGATATGGCTACAATTGATTTTATAAATGAAGTTTTTAGTGAAATTAAAGATTTAATAGTACCTATTTTTTCTGTAGTATCTAGAAATGAATTAGTTGAACATTTTACAATTAATGAAATGTTAGCATATGATTTCTTTGTAAATAACTTATTAAGTTTTTATTCAAAATTATTTAATTTTGAAAATTATTGTAAAACAATCTATATTTTAATGGACGAAAGAAATTTAAAAAAAACAGATTTAAATCAATTAGAAAATTTATTAAAAACTAATTTTATAGAAAAGCAATTTAATATTTACACTTATTACTTATCAAGTAAAATGACTGATGTGATTCGTTTTGCAGATATTTTAGATCATGTTGTTTATACTTTCTATAATAATCCTGACTCAGAAAAAAATTACTTATATCAAAATAAAATTAAAAAGGAAATCTTAGAAAAATTAAAAAAGGAACAATTTATTATCCCTTTAAAAAATCTTATTTTAAGACATTAGAATATTTTTATAATAATGAAAAAAATCTTAAATAAGATTTTTTTTAAACTCTTATTGCACTTGGAACATATTGTCATTCTTTGACAACATTTGTATATATTTCAACATCTACAATTAAACCCATAAATTCAGCATTTGCACTTGATAATTTAACAACATCATGGACTCAACCATATTCATCAATAAGTGCATTATAATCAACAAAATAATCTGGTTTTAATATTACATTTTGTCTAATTAAAATTTCCCTAGTTAAACCCAAAATTTCACCAATATCTTCACATAATGTTATTTTTTTTAATAGTACTAACAAATCTTTTATTTCGTTTTTAGTAATTAATCTTTCTGGAAGATTTTCAAATTTACTCAGTATTCTTTGCGCATAAGCTGCAATTTTTCTAACAACAAATTTATCATTCATATTAATTTTTGTTGATTCAAAACTATTAGAGTCTTTTAAAAATTTAATTTTTTCAAAAGCTGCTTTCACTTTTTTAAAAGCCTCGTTTGCAGCAGAAAGTATTATTTCTGTACTTGCAAAAATTTTAGTATCAAATTTTTTTAACGCTAATTGTGATTGATTGTCTTGTCTTAAAGTATTAATATTTTGAACAATTTTATCAATTAAAAATAAACTATTAATGTCAATATTACTAATAACATCTTCTGAATTAATTTTTAATAACCTATCATTTATTTTAATATTTAAAAGACAATCATTATTAAAATAATTTAACAAATCTTCAATTGTATTTTTCAAAGTAATATTTAAATTCATTTTAGAATCCTTTAAGAAATCAATTCAACTACAGAATAATTTCTTTTTCCCTTTCTAACTATTATATAACTATCCACTGTTAAATACTCTTTATCAATTTTTGTATTTTGTGAAAAATCATTTGTATTATTAATTCAAATTGCACCTTCATTTATTAATTCTCTTGCTTCTCTTTTTGAAGTTACAATATTTGATTGAACTAAAAAATCTACTAATTCAAGTGAAGTTGTAACTTTTGTAACAACCAAAGAATTAACTATTGAAAGTAATTCCTTTTTTTTAAGTTCTTGTATATTACCACTAAATAATGATTCTGTAATTTTTTTTGATTTTTCTAAACCATTTTCACCATGAACAAATTTTGTTACTTCTTCGGCTAATGTTTTTTGCATTAATCTTTTAAAAGGTTCTTGTTTATGTTTTTCAATTAAAATCTCTATTTCATCTATTGAAAGAGTTGTTAGAAAATTTAAAAGGTTTTCACAATCTTCATCATTCTGATTAATAAAAAATTGATAAAATTGATATTCTGAAGTTTTATTTTTATCTAATCAAATCGAACCTGACTCAGTTTTTCCAAATTTTACACCATCTTTTTTCGTTAATAAATTCATAGTTATTCCACAAGCTTTTGAGTTTTCTCTACCAATTTTACTCGAAATATAGTCAATACCACTTGTTATATTTCCTCATTGATCTGAGCCACCAATTTGAACTCAACATTTATAATCTTCATATAGTCTATAAAAATCATATCCTTGAAGCATTGTATATGAAAATTCTGTAATACTCAATCCTTTTTCAATTCTAGTAGCTATATTTTCCTTTGCTAATAAATAAGCCAAATTAAAATCTTTACCAATATCTCGTAAAAAATCAATTAATGACATTTTTGAAAGTCAATCACTATTGTTTACAACTTTTATATCTGGTATTAAAAAAGAAAGTTGTTTTTGAATTGATTTCACATTATTTTCAACTTCATTTAAACTTAATAAGTTTCTTTCCTGACTTTTAAAACTAGGATCCCCAATCATTCCTGTTCCACCACCAAGAATTGCTATTGGAGAAAAACCATAATCATTAAATCTTTTTAAATTCAAAATTTGAATTAAATGACCTACATGTAAAGAATCTGCAGTTGGATCAAATCCACAATAAATTGCTGCATTTTCTTTTTGAGCATTCAATATTTTTTCTTCATTTGTAAACTGTTTTAATAATTTTCTTTCTTTTAATTCTTCTAAAATGCTCTTCATTTCTATTTCTCCTTATTAATTTTTTTGTTTTTTGGAATCTTCTACCTCATATACATCGTCACTCATACTAACTGAAACATCTTTTACTTTTGAATAAACTTCATCAGCCTTATCAATAATATCAACGGTAATTAATGCTAGATCCTTAGCAATAATTTTCATATTATCAGACTTTGCCAATTCCGAACCAATTTTTATTGAAGCTTGACCTAATTTTTGAAGTGCCTTGTAAGCTATTTCTTTAGTTTTTGCAGAATCTAATTCATTACTTGCTTCTCTTATGTTTGCCAATTTAATTTCAATGTTTGCAGCAACTTCATCTGACTCATCATTCTGTGATTTTTCTCAAGTTTCTTCTACTGCTGAAATAAATTTTTTTAATTGAGGTCTATATTTTTTTAAATAATCAACAAAATCTGCTCTAATTTCTACTCCTCTTTTTGGTGCTAAAAGCATACCTAAAAATAATCATGAGCCTATTTTTAATAATTTAAACATAATCAAGTTTCCTCCAATTAATCTTCTGAATTTGCAAATTCTCTCAATTTATCAACTAATTTATAAATAATATCTTTATTTTTTGTTGCAACTTTTACTCATGATTTTACATTTCTTTTTGCAAAAGCATCAAAAATATCAACATAATTTGTTACTCTTGCTACAGTATCAACAGTTGCATTCAACATTTCTGACTTATATGTTAAATCTTCAAAAAAGTAATCAACTTTTTTTGCAGCAATTCCCACTTTTCTCAAAGTAATAATTGTATATAGAGTTAAAATAATTGCTAATGCAAGTAAAATTGTAATCATAATTGTTTGAGTAGTTTCTACACTGCTATTTGCTAATAATATAACTGATATATTCATAAATAATTCTCCTAGTAATCATAATCATTATACAACACTATAATATCTTAATATAAAAAAACTTGATAATTAATCATCATCAAGCCCCAATCTTTCTTTTCAAGATTTAACTTCCCTTGGTGATTCTTTTTTTGAATCACTTTTTATTTGATTAGATCAAGCCATATCTCTATTTTTTCTCATTTCAATAATTCTTCTTGCTCTTTCAGTTTCTGCATTGTATGCATTGTTATAGATATGTTTTCTTCTTTGTTGAAGAGAAATATTTGCCTCACCTAAAACAATTGTATCAATATCATCTTGAATTTTTTCTAATGCTGAAAAGTACTCATCTTGAAGTTCCAATGTTTTTTCTAGTTCATCCTCTTTATTCTTATCTAAAAGGTTTGATATTTTTTTGCTTGTTTTATAAATTAATTTTGTAAGTTTTTGTTCTTCTTTAACTAATTTTTTTTCTAGCATTTTATTTTGAATTTCTATATCTTTAAATTCCTGTTTAACATTTGAAACTGTTTCTTCAATTTCCTTTTTTTGTTCTTCTGTAAAAGGTAAATTTTTTCTTTTACGAGGTTTAATAATTTCAGAATTTGATTCTAGATCTAAATTTGTATTTTTTCTTTTTGGTATAAAAAAGTTACTAGATTCAGAGTTTTTCCCCATAATTTCATTACTTTTTTTAATTTCATCTAATCTTTTTTTAGCCTGCTCATTTTGATTATTTTTAGTTTGTAATGAATCAACATTATTCTGGTTTTCATTATTCATTACTATCACCTACTTTATTTTTTGTTTTTTGTAATCTTCTTGGTTTAATAAGATTAGCTGTATATTCACTATTTTCCTGAAGAACTTTATCAAATTCTTTTAATTTTTTTAGCAAAAACTTTTCTTTTTTAACTTCATTATCAATATTATTCAAATTCAGTCCTTGAATAGTCTCTTCTGCTTCCTGATCTAAGTACTTTTTTTTAATATCCACAATTTGATTAATTTTTTCTTTAACCTCTTGCTCTAAAAAAAGAATTTTACTTTTATGTTGTTTATTTAAATTCTTTAAATTTTCACTAATATCAATTGTTTTATCTTGATTCATTTTAAATATTCCTGAAGTTTTATCAGAATTATCTTTTTGACTATTTCTTGCTTCTTGTGCTTCACGAGTAAGTCTTTTTGCTCTTTCTAAATCAGATTCTATTATTTTTGTTGAATGTTCTTCATGAAATGCTTTTGCTCTTTCACTATAGTTAACGCCTTTATTTTGAATTTTTGTAACATCTGTATACAATTCAACATCAACTCCACCCGTTTTCTTTAATTCTTCAATTTTTTGAAGTTTTGCAATTACTGGATCGTTTTCAATTACTTCATTTTGAATTATTTGTGATTTTTCTCTTGCACCATTAATAATTGATCCTAATACTCCTTCAACACTAGTTTTTTTCAATTCGCCTATTTTTTCTCTTAAATTCTTAAGTTTTTCTGAAGCTTCACTTGAAGTATTAACTTCCAGTTCCATATTTTTCTCTTCTACAAAACTTTGAATTTTAATAGACTTTGAATTTACATCATCTGTAAAAATAGGTTCCATATTTAATATAGGATCATCATTATATGTTCAATGATTTGGCGATCTTGATTCTTCTTGAGAATTAACAATTGCAGATTGAATTTTTTTCTTCTTTTTAAAAATCGCCATTATATTTACCTCAAATTCTAAAACTATACTAATATTTTATACTTTTTATTCTTTTAGAGTTAATGTTTTCTCTACCAAATTTTGATTGTTTTTCTCCATTAATTAAAACAATATCTCCTGTAAAACTAATTTTATTCTTTGTAATTGCTTCACCAACCCCATATATATCTACAGGAGTGTTTTCTTTTTCAAATCATGCAATTTTTTTCTCATCAAAGCCAGATGAAACAATTATTTTAACTTTTTCAAATCCATTCACATCAAGTTTTTCTCTTAATAATTTTATTAATGTTGGATTAACTCCATGTAATTCATCTGAAATTTCTTTTAAATTCATTAATGATTTATCTACTAACCCTTGAGAAGTATCTAGTCTTATAGCTCAAATTTTATCTTTAAATTCACTACAAACAGCTAAAGCATCTTTTATACAATCATTGTTATAATCAACTAAAACAACTAAGTTATTATTTGGGAAAACTTTGTTGTAAGCTTCTGTTGCTGCAATTAAATCACCATTAAATGATGCAATTAATGAGTGAGGCATTGTGCCGTTTAAAACTGGTTTTTCGTCTAAAAACTCAAATGATGCTGATGTAACAAAATTCTTTATTCCCCCAACATAAGAAGCATAGCCATCGATTTGCTGATTTAAAAAATAATCCATTCTATCATTCATGTTTAAAACAATTTTATTATTCGCAACACTTTTGATTTTTGAACAGTTTGTAGCTATTGTTGAAGCCCTTGACAAAATACCGTCAAATAAACCTTCAAAATGAGCAAATTCTTGGTATTTACCTGTAATTTTTAAAACTGGTTCTAAACTATTTACAATATCTCCATCATTTAATCCTTGAACCATTAAATTTTTATTATTTGATAAACTTAAAATTTCTTTGATAATTTCAATTCCACAAAGAACTATATTTTCTTTTCTTTGAAATCATTGCATTGTAATTATTTGATCTTTCTTGAATTTCAAAAGAATTTCTTTAGTTTTTTTAAAATAATCTGCAGAGTAATAATCCTCAAAAACTCTTTGATCAATATTAAATCTTCATTTTTTTATATTATTTCTCATATTGATCTTCCTATTTTAGAATCGTCTATTTTTAATTCCAAAATCCCTTCTGTATTAAAGTTAGAATTAGTGATTTCTAATTCTTTTGCTGAGCATAACATCCCATATGAATCAAAACCTTTTAATTTTCCTTGATTAATTCGCATTCCATTAGGCATCCATGATCCTATAGTTGCTAAAACTGTTAACATTTCTTTTTTTACATTATCAGCGCCACAAACAATTTGAATTACTTCTTTACCGGTGTTTATTTTACACAATGATAAGTGTGTATTTTGTATTTTTTCAAAATCAATTATTTTAACAATAATAAATTGATTTTCAAATTTAAAATTTTTAAAATATTTTTGCAAAATAGGATATGCAATTTCTTTTAACTTTGAGTCTTCTAAATTAAATTTTTTATTTTCTAACTTTATTTCAAAAACATTAAAACCCACTATTTCATCACCATTAAATAAAATTTCAACATTCTCTTCCCTTTTAGTGCTAGTAATATTTTTTTGCTCCATAGATATAATTAATGTATTAAATTGTTTTACATATTTTAAAAATAATTTCATTTTTTAAATCTCCTTTTTTATTGGAATAATACTAAAACAATTATATAATAATATAAGTATTATATATAGAGGAGGAAAAATGAAAATAGCAATTTTAATTGATTCTTCTGCTGGAATTAAAAATATTAATGAATATAAAGATTTATTTTTAGTTCCATTGATGATTACAAAAGAAAATGGAGAGCAAATTGCAGATGATCAAAATTTATTAGAAGATGAATTTTATGAATTAAATAATTTACAAGTATTAAAAACATCTCAAACAATTACTGGCAATATGCTAGAAAAATGAGATAACTTATTAAAAGAATACGATCAAGTTGTATGTCTTTTAATTTCTAAAGGACTTTCAGGACAATACAATACATTTAAAATGTTTTCAAAAGAAGAAGAATATAATCAAAAAGTATTTGTTATAGATACAAATGGAGTTAGCATTATTATAAAAAGGCAAATTGAAATAGTAAATAAATTAATTGAACAAAATAAAAATGGACAAGAAATTTTAGATATTATGGAAGAAAAATATAATAATTTTAAAGGATATATTATTCCAAAATCATTAAATCAATTAGTACGTGGGGGAAGAATAAGTAAAGCTGCTGCAGGGCTTGCAAAAATACTAAAAATTACACCAATACTAAAATATGATGGAACTATAGATAAACAAGGAAAAACAAGAACATTCAAAAAAGCTGTTGAAGAAGCAATTTCTCTACTTAGAAGTAGTTCAAATTTAGAAATAATTGATGTTGCTTATTCAAAATCAAGTGATGAAATAATTAATTTAGTAAAGGAAATAATTGAAAAATCTGGATTAAAAATTGGTTTATTTGAAAAAATACCAAATGTTGTAACATGTCATACAGGGGAAGAAACTTTTGCTTTCTTACCAATGATTGATATCTAAAAGGGAGAAAAATTAATGAAAATAGCTATCATAACTGATTCAGCAAGTGGAATAAATAATTTTAAAGATTATAAAGATTTATTTTTAGTTCCATTGATGATTACAAAAGAAAATGGAGAGCAAATTGCAGATGACGAAAATTTTACTGCAGATGAATTTTATGATTTAAACGATAAACAGTTATTGAAAACTTCTCAATCAATTCCAGGAATAATGATGGAAAAATGAGATAACTTATTAAAAAAATATGATCAAGTTGTATGCCTTTTAATTTCTAAGGGACTTTCAGGACAATACAATACTTGTAAAATGCTTTCACAAGAAAAGGAATATCTTGGGAAAGTATTTGTTGTTGATACAAATGGAGTTAGCATTATTTTAAAAATGCAAATTCAAATGGCTTATGATTTAATAGACCAAGGAAAAAATGGACAAGAAATTGAAGAATACATTGAGAAAAACAATCAAAATTTTGAAGTCTATATTATTCCAAAATCATTAGATCAATTAGTACGTGGGGGAAGAATAAGTAAAGCTGCTGCAGGGCTTGCAAAAATACTAAAAATTACACCAATACTAAAATATGATGGAACTATAGATAAACAAGGAAAAACAAGAACATTCAAAAAAGCAATTGAAGAAGTAATCAAATTACTTCAAGAAAATAATAAAAATAGTGAATATATCGATATTGCTTTTTCTAGAACAAGTGAAGAAGTAATTAAACAAGTAAGAGAAATAGTTGAATCAAGTTCGTTTAAAACTAGATTATGAGATGAAATACCAAACACTGTTACTTGTCACACAGGTAAAGAAACGTTTGCTATTGGGGTTTGAAAAAAATAATATTAATATAGATAGGTGATAAAATATGAAAATTGGAATTTTAGTTGATAGTTCAGCTGGAATAATTGAAAAAAATATTGAATCTAAAATTATTAAAGTTATACCACTACATTTAATTGTTGAGGATAAGGATGATTTTTTTGATACAGCTGAAAATATTGAAAATAATAACTTAATAGATATATTAAAAGCAAATAAGAAGACTTCAACTTCTCAAGCTTCTCCAGGAGAATTAATGAATAAATACGATGAAATGTTAAAAGAATTTGACCATATAATTCATTTAACAATTCCATCAAATTTATCTGGAATGCATGAAACTGCGGTTATGGTTTCAAAAGATGATGAGTATATGGGTAAAGTTACAGTAATAAAACATAGTTTAGCTGCAAATACAGTAAAGTATTTGGCTTTTAAATACAATGAAATGATTAATAATGGTGAAAGAGAACCAAGTAAATTCCAACAAGAAGCTGATTTATGAAAAGATGGTACTTTTATTAGTATAATTCCTGGTGATTTTCAAAAATTAGCTAAAGGTGGTAGAGCAAAATCGCTTTTAGTAACTATTTTAAAAATGATTAAAACAAAGGTTGCAATTCACTGATTAGAAAAACCAAAAAAACTTGGTTTAGGAAGAACATATGGTGCAGTTTTAGAAAAAATTTATTTTCCACTTTCAAATGAAATGAAAAATTCATATGAATTATTAATTGTATATCTAAATGAAGCATCGATTAAAGTTACTGATCAAGTTAAAAATTTCTTTAATGAAAAAAAGGTTTCTTTTACAATTGAAGAAATTCCTACAGTTTTCCCGTGACATGCTGGAGTAGATACAATTGGTATTATTGCAATTGAAAAATCATTAATGCCTAAAAATAAATAAAAAACCATTATATTTTTATAACAAAAATATAATGGTTTTTTTCTTCTAAATGGCAAGGGTAGCAGGACTTGAACCCACGACACTCGGATTTGGAGTCCGATGTTCTACCAACTGAACTATACCCCTATAAAAAAATGCCCTATTTTTTACTGGGCACAAATATAAATCTCAAATTTGGCAGGGGTAGCAGGACTTGAACCCACGACACTCGGATTTGAAGTCCGATGTTCTACCAACTGAACTATACCCCTATAAATACTTACTAATTATAACATTAGTAAGTTATTTTAATTTATAAAATGAGAAGTTTTTTTACTTTTTACATGATTCACATATACCATGCAATTCAAGTTTAAAATGTTCTAATTGCATTTTTTTAGATTCTAATATTTTTGAATATTCTAAAAATAAGTCACTTGCTAATGATGGGCTTTCCAAATCTTCCAATTTACCACAAATATCACAAGTAATATGTATTAACTGCTTCGAAATTGCCTCATACATGATTTGCTTTCCATTCATAGTATTTGCAAATAATAAGTGCATTTCCAAAAATAAGTCTATATTATTATAAATTGACATAACATTAACAGTTCCTAAATCTTTTTCAACAATTGATATTAATTCATTTATTGTGAAGTGTTTTGTTGTAGCAATTGCCTTTAACATAGAAAGTCTAACATCAGTTAATTTTATTTTTTTAGACTTAAATAGTTCCAAATATTCTGTAATTTTATTTTCTATTTCCATATTATTTCTTTAAATTTTCAATTACATTTAAAAGATCGCCCACAACTTTAATTGACATTAATTCATCATCTGAAATAGTTATATTTAATTTTTCTTCTAAAAGAACAATCATATCCATTAAATCTAATGAATCAAGTCCCATTGTTTTAAAATCTGTTGCATTTGTAATAGACCCTTTTGCACCTTTTTTCATAAGTGCTGATTTAATTTCTTCAAAATAATTCATATAATCACCTTAAATTATTATATAATAATTTAAGGTAAAATTTCAAATGTATTTTGCATGATTTTTCAAATACTTTATAGAAATTTTCTTAGGAAATTCTTGATCATCAAAGCTGAAAAGTAATTTTACATTGATATTTAATGGTCCTAAATTTTGAAATTCTACTAGAAAGTAGTATTTAAATTCAGGTAAATTAAAATAAGGCTTAGATTTAAAAAAATTTACTATGTACATTCTTTGTTCTAATTTAAAATTTATGTTCAAATTTTCTTTTGCAAAAAATTTTAAATTATTGCATCAACTTCATTATTTCCTGAATTTTCTGGTTTCTGTTCATCTGATGGTTTATTTGGTTTTATTGAACCATCTTGACCTAAACTGTTTTCATCAGTTGGTTTTTATTTAACAACAGTTTGATTTATATCAATAGATTGAGTTTTTATATATTTATATAAATAAATAGAAATGGGAATGAATGCAGATATTAATAAAATTAGTAAAAAAAATATCTTAAGTATTTTTTCTTTTTCTAAATAAATTCAATTATTTTAACTTTATTATTAATACCAATTTTTATTAATTCATCAATATTATATTCAATTACTACATTATTAAAAAGCTTTTCTGAAAAATTTAAATTGTTTATTTTATAACTATCTATATATTTATCTGATACAGAATAATTAATATTAATTAAATTTGAATTATAATTTATTTTTCTATTAAAAATAACATTTCCTTTATTTAGAGGGTTAAATAAAATTCCTTTAACTCCATTTAAACTTTCTTTTACAACATTTTTTGTATGAGAATATTCCGTTTGAGTTATGGATGAAACTTCATAATTTACATTTTTTATTAAAACTTGATCTTCGATTTTTTTAAGTGCATAATATTTTTTCGCTTCACTATTTAATATAATTGATGGTTCAGATTCAAAATTGATTGTTTGATTTAAACCTTTTATATATAAATTAAGAAAAGTTGAAAATTTTTTGCCAAATAATTTTTCGTCTGTAGTTTCTCATTTTTTATACTTTGTTTGAATTATAACTTTTGGATCTATTAGATTTATTTCCTTTTTAACAAAAGTAAAGTCAATTTTTTCTCTTAAAATATTATAATAAAATAAATTTTGAGTTTGATTAAAGTCATTTTGAAAAACTCCAAATATTTTATTTCCTATTTCTAATCCATATTGATCAGAGTTTTTTGTATACTCCGTAATATTATTTCTATTTATTTCAATTAACCCAGTTGTTGTATGATCTTTCAATTTATTACCAATAATATTGTAGCTAGCAGTGTATAAGATTTTTAATTCATTATATGGTTCAATCATTTGAGCAGAAATTTTTAATTAATATATTTTATATTCTAGAATAATTAAAACGTCATATTTTTATATTTTAATAGTTTCAGTTCCATTTACTGTTTTCATATAAAATTTGATTGCACCACTTTTTAAAGTTACATTGGTTTTAAATGGAAAAATACTTGAGTTTTGAATTTCTTTAAAATAGTCAAAACCATTTTTTCTTGATAAATTTGGTCTAACAAATAATCTAAAATATTCTTTCTTATTTAAAGTTACCTTATCATTTATGAAAATGACATCCAAATTTAATTTATAATTATCAACCTCACTGACCTTTAAAGAATCTTTTATATTGAAATTATCCTTAAGGACAATTTCATTTTGCATACTAATATCAACTATATTTATCACCTCATAGTAAATATCGACAAAAAAAGAAAATAAAAAAACTTATTAAAAATAAGTTTAATTTCTTTAATGGGGCGTATAAAGGGAATTGAACCCTCGAGTGCCGGAACCACAATCCGGAGCGTTAACCACTTCGCCATATACGCCATGTTGTGTTAAGCACTCTAATATTATACTAAAAAAAATAATTTTGAAATAAAAAATATTAATATTTAATTGTTAAAAAACTTTGTGATATTTTACTTCACAAAGTTTTTTTTGTATTTTTTTAAGAAACTGTTAAAATTTCTGGTTTTTCAAGTATTTCTTTTACTTTTGCTAAAAACCTTCCCGCTTCTGCTGCATCAATTATTCTTTGATCAACAGTTAAACTAATATTCATAATTGCTTTAATTGCCAATTTCTCATTTTCAACAACTACAGGTTTTTTTACAATCTTTCCAACACCAATTACAGATGCATTGGGATAAAAAATTGTGGGTGTTGCTTGAATTGCTCCAATATTTCCATAATTTGCAATTGTAATAGTACTTCCCTCTGTTTCATAGTTATAAATTTCACCAGCTCTTAATCTTTGAGTCATTTCTCTAATATCCATTGCAACTTCCTTAATAGATAATTTTTCCACAAATTTTAAAACTGGTATTATTAATCCTTCACTTGTTTCAGTTGCCAAACCGATATTGTGATATTTTTTAATTATAACTTCATTGGTTTCAGGGTCATAACTAGAATTTAATTTTGGGTAACTTTCAAGTGCTATTGATATAGCTTTTGAAATAAATGAAATTGTTGTGAATTTTATATGATTTTGAGTTTGTTTTAACATATGTTTTAATTTTAAAATTGAACTCATATCAATTTCTGTTGAAATTGTTAATGGAGGAATATAATTTTGACTTAAAATCATTGATTTAACAGCAGCATTTCTATTCTTATTAATCTTTTCTCTTTTTACAATTTTATTTTCATCACTTGATTCAAAATTTAAATAACCAATTGTTGTATCAGGACTAACCTTTTCAAAATTTACTTTCTTCAAATCATTTTCAAACTTTAAATTTTCTTTTTTATCTAACTCCAAATTTAATTCTTCTTTTAATTCTTCTTCTTTTTGTTTTAATAATTCTTTATATTTCTCTAATTCTTTTTCTTTTAAATTAAGTTTCAACTGTTTTTGATTATCCAAATCTCTTTTAATTTTTTCTTCTAAAATTTTTTGTTGTATTAATTCTTTTTCTAACAATTCTTTCTCCAATGAATCATGTTGTTTTCATAATGATGATTTAATTTCAAGTTCTTTTAAAAGTTGATTTTCCTTTTGCTCTTTTAGTGTTTTTTCTAATAATTCTTTTGCAAAATAGTTTATTTCGTCTTTTATAGTACTTTTTAATTCTCCAACACTTGGTTCTCTTTTTGGATTAATATTTTGCATCATAGTTTGCATTAACATATATTGCATCATTTGACCAAAAGTATCTGTTCCAGCATTAAAATTAGAACTTTGGTTTAATTTTGATGTTGCTTGATTTAATTGATTTTGCTCTTTTAATGTTTTTTGCAAATCATTAATTTGCTCTTTTAAATATTTTATTGTCTCCATTGCAATATCTGCATTTGCAATTTCTTTTAATTCTTTATCTTGCTTCAAAATTTCATCTCTTATTTCTTTTTTAACTGATTTAGAAGTTTTTTGTGCTAATTTTTTTTCTTCTTGAATATTTTCTTCCTCAAGTGAATCAACTTCCATGCTATCATCATTATTTTTTTTAAAGCTTCTGGTTTTTAATAATTCTTGAGTTTCTTCTTCAATTTGTTTATCATTATTATACTCAGTATATAATTCTGATTCTCTTAATCAACTTTCAAATTCCTTTTTACCTTTTGGTGTTTCATTATATGGAACGTATTGAATTTTTCCAGTAGTTACATTTTGATAAGGAACTTCACGCAAAAATTCATCCGGAACTCCTCCTCTTTCTAGTGCTTTATAAAATAAAGAATTATGATCCTCTTCAATACCTCTTTCAACTGCTTTTCTTCTTTCATTAAGAAAATTTTTCTCATCTCTTGTTTTCATAATATCTCAACGTTTTTTATTATCATATAAATTTGAAAGTCTTGAATCTGCATATGTCTTATTTTTTTTATCATTTATTTCATTCATTATTTGTAATGGTTTCTTTTTTGGAAAAGTAAATCCACTATAAGGGCTTAAATCATTTTCATCAATAACTATTGAGTCATCATCATCGCTATATTTTGCAAATGAATTTGAATAATCTTTTTTATTAGTTCAATTTTTTTCTTTCATATCTTCCATCCCTTCATCCTTGATCTCTTCAAATTTTTTTTGACTATCAAGTATTGCATTTTGTTTTGTAGCAATTATATCTCTTTCAAGTACGCTCGGATCTCCATTTGCTTGATTTAATTTTTCAATTCTTGATTGAATAATGTTTCTCATTATCAGTGGTCTACCCTTTTCATCAGTTTTTGACATTGCATTTATTTCTTGATCTGCTTCTTCAATTTCTTTAAAATTATTTTCCTCTAGTAGTTTTTCTTTTCTTGCTTGAACTAGTTGTCTAAATTTGCTTATTCCACTTGAATTTTCTTTAGAAAATAAATTTGCTCCATCATTTTCAGTTACTGGTTTATTTACTAATTTTTCTATTTCTTCTTCTGAAAGATTACCTGTATTTTTTAGTTGTGGAGCATTTTTAATTGATTCTTTAATGTTTGCTCTCATTTGAGCAAATCTATCTTCTGAATTTGTTAAATCTCCCATTTCTATATCCCTCTTTTCTTGATCTTCAAAGTTTTGAGTTGAATCTATAATATCATCTCTTGTTGATGAAAAAAGAGTTTTAGCTTGATTATATCTATCATACAAAACAGCTCCTGAAAATGAATCAGCACCTGTTTCCACTTCTTGAAAAGTTTTCTGACTATTTTTAGAAATAAAAACATCATCTTGAGTAAGCTCATCTGAACCTATTCTTTTAATTTTAATCCTTTTAAATTTGGCAATTTCTTTATCTCCAATTGCAATATTTGCAATAATACTTCCATTTTTGATTGCAGTATTTAATTGAATAGTTTTTGTAATTACACCATTATAGTTTGATTTAATTTTTAAATTTGAACCATCCTCTAATTCTACTAGAGCAAAGTCTTCTCCAAATGATATTTTATCTCCCTTAAAAAGTCACTCTTTTAAAATACCCTTTGTAGGCAAGTTTCTAGCTCTTAAATGTACCATCTGCAATCACCTCATTATTTTATATCATCTATTATTATATAAAAAATAAAGGTAAATTAACACCTTTATTAGTCAACATATTTAGATTTAGTTACGATTACACCATTTTTAACTAATTTTTTATATCTCTCAGCTTCTCTTAAATTTTCTTTAATTATAAACCTATCTTTATAATTTACAGAAGCAATAAGTCTTTTAATCTCACTTTTTCTGGTTTTTCTATTTATGACATTTTGTTTTAAATATGCTCTTCTAATTTTTTCTTCTAAATCTTTTTTCTTTCTTCATTTTTTTAATTCAAGTATTTTCAAATCTTTTGGCAAATTTTCAATTGTTTTTTTAAAAACTTTAAATTTAGATTTTTTATGAATTTTTTCTTTTTTGAATTCATTTTTAAATTTAATTTGATTAAATTTTCTATTTTTATTTCTATAGTCATGCTCCTCTTTTGTTATTAGTTTTCCATTAATATCATGCCATTTATAAAACTTATCGTTATTGAAATTTAAGTAGAAAAATTGAAATGAAATAACTAATGTTGTAATTCCAATAAATGCCATAATAAATGTAAACACTAATAAAGTCATAGAAGTATCCATATTTGATTCATAAATTTTTCCATTAGCACTTAAAGTATAATTATGAATATTTAAAAACCAATATGGATATCACATTTGACTAGTAAAATGAACATTATTTTTTATAACACCACTAGTTGAATTTCAGACATTTGTTCAAAAATCTGAATTTGGATTTGAATAGATGTAATTATAAAAATCAGGTGAAAAAATATCAAATCTAATTTCTCCTCTTATCATTACAAAAATTAAATATGCAAATGGATAGAAACAAGTAAGGGGTAATGCAAATTTTGAATACTTTCTTTTTGAGTGATAACAGTCACCACAAGAAACTAAAAAATAGCCAATCATAATTGAAGGTATAAGTAAATGAAGTACAATTGTAGATATTCAATTTGCCTTATTATATGTACCAATTTCATTTGCTGAAGCTAACAAACCAAATCAGAATACAATCATAGTCAATGTTATATAGACTGTCATTGCCAATTCAATACCAAATGCAGGTTTTGTATTATAAATTTTTTTCATAAATAGAGCAACTACCAAATAAATTACAACTGCATAATTTGATTGAGTTGTAAAATATGCATAATAAATGCTAAATCTTTCCATTAATGGAATACCTAATAAATTTCTTTTTGGAATATAGATTTGTAATAAAAAATCAAAAATCAAAAAAAATACTAATGCTATTAATACCATTAATTTTATTGAAAACTCTAAATTCTTGTTTATTTTCAAATATCTCACCCTAACTCTAATTATTAAGATTTATTATATCAAAAAAAGTAACCCCAAAAATAGGGTTACTTTTAAAAATAGTTTAAATTTTTAAAATAAAAATCTTTTTATTTTAAAAATTTAATAGTTTCTTTACAAATCATTAATTCCTCATTTGTTCTAATTTTGTAAACAGGTATTTTAGATAAAGGTGATGAAATTTCCAAATAATCATCATATTTACTATTATTTTTTTGGTCTTCTATTGATAAATTTAATAAGTTACACTTATTTACAACCATTTTTCTTATAATTGATGAATTTTCACCAATTCCTGCTGTAAATACTATTGCATCAATTTTCTCATTAATTTGATTTGTAAATTTTACAATAAAATCAGCAACTATTTGAGAATACATTTCCATTGCAAGTTTTGCTCTTTTTTCTCCCTTATTTGCTTTTTCTGAAATATCTCTCATATCACTTCCTACACCACTTATTCCATGTAATCCTGATTGCTTATTTAATTCATCTGTAATTTCAAAAATATCTTTATTCAATTCTTTTCCAACGTATTGAAGAATTGAAGGATCAATATCACCACTTCTTGTTCCCATCATTAAACCTGCTAATGGAGTTAATCCCATTGTTGTATTATATGATTTTCCATTTTTAATACCGCAAATACTTGCCCCATTACCTAAATGACATACTATTAAATTTAAATTATCTTTATTTTTTGAAAAAATTTCTTGTGCCTTTACAGTTATATAATCATAACTAATTCCGTGAAACCCATATTTTCTTACTTTTAAATCTTCAAATCAATTATAGGGTACAGGATACATATAACTAATTTCGGGCATTGTTTGGTGGAAAGAAGTATCAAAACAACCTACTAATTTTGCATCACTTAAGTTTTCCTCAAAAGCATTAATTGAGGTAAGCGCTCCTGGATTATGTAATGGTGCTAATCTAATATTTTCCTCTATTGTTTTTTTAATATCTTTTGTAAGTTCTACTGTATTTACAATGTTTTCACCACCATGTACAATTCTAAAACCAATGCCTTTAATGTCTTCTGGTTTAGAAATTACTTTTAATTCAGTAAATCTTTTTAAAATTGATTTAACTGCATCTAAATGATTTTCCATTTTATCTTCATAAGTATTTTTAATTCCATTAAGTTCAATTGTCAATTTTCCATCAACCGAAATTCTTTCTGCTAAACCTTCTACTTGTGAAATTGGATTTTGCTTATCTTCTATTGAAAAAAGTTTAAATTTTATTGAACTACTACCTGCATTTACAACTAATATCATTATTTCTGTTCCTCACTTGTCATTGCTGAAAAAATTGTTACTATTGATGTTTGAAAAATATCTTCTAAAGTTGCTCCTCTAGAAAGATCATTTACTGGTTTATTTAAACCCAAAATAAATGGTCCTGCTGCTTGAAAACCTCCAAGTCTTTGAGCAATTTTATACCCGATATTTCCTGCATTTAAATCAGGAAATACAAATACATCAGGTGATACTTTTGTAATTTTTGAATTTGGATATTTTTTATCTCTCACGCTCTTATCAAAAGCAGTATCAAATTGCATTTCTCCATCAAACAAAATATTATCATATGTTTTTGAATTTAAATTTTTTAATGCATTTTGAACTTTATCTACTGAGGGACCCATTCCACTTCCAATAGATGAGTAGCTTAAAAGTGCCACTTGAACATTTTTTTCATTTAAATTTTTTGCAAAACTTGCAGCCATTGATGCAATTTCTGCAAGTTGTTCTGAATTTGGGTCTACATTAAAAGCACAGTCTGTAAATACATAACTTTCACTTTCTCTTGACATTAAAAATACTGATGACGCAATTGAATAATTTGGATTTGTTTTAATAATTTGTAATGCAGGTCTTAAAGTATCTGCAGTTGTATATTCTAATCCACAAACCATTGCATCAGCCAAATTTAACTTCATCATCATTACACCAAAATAATTTCTTTGTTCAATTAATTTTTTTGCATCACTTTCGTTTAATTTTCCTTTTCGTACTTCCAAAATTTTATCGAGCATTTTTGATTTATCAAAATCACTAATTGAAATTGCTTCAATATTTGAATTTAAATTTTGAGGTATTTCATCTTTTGAATTAAACAGTAAGATAACTTTGGCTAAATCTTTTTCCACTAACATTTTAGCATTTTCTAAAATCTTCTCTTGTTTTCCTTCAGCAAAAACAATAGTTATTTTTTTACTTGATTCTTTAATTTTATTTTCTAATTCTTTTATTGTTCACATTAATTTTTTCCATCCTTTTTATAATTTTCTATTTCTTTTAAAAAAGTTGATGATACTTTTCTACTTCCTAGATCGGAAATAAAAAAAACAGTTTCTAATTCTGGATATATCAATTTGTTTCCATCATATAATTGTATTTCATAATCTAAAGTATCAATATCTCTAATTCCCCTAATTAAATAATTTATATTTCTTTCTTTTGCAAAATCAGCTGTAAGCTGATTTATATTTAAAGCAATCTTTTTATTGTTGATATTTTTAGTCATTTTTTCAATTAAATCTACTCTTGCTTGCAAATCTGGTTCAAGGTCCTTATTAATATTTTTAGTTACTACAATGATAATCTCATCAAAAAGTTTAGATGCTTTTTTTAAAATATTTAAATGACCCTCATGAAAAGGATTAAAGCTCCCTGGATAGATAGCTCTTTTCATACTTCCTCCTTTATTGACTATGTATATATTTTATAATTTTTTTATGGAAAAATTTTTTTTATTAAATTTTTTATGTAAAATGATAATGTTTAGGGAGTGATAATAATGAAAATATTATTAATTGATGTTGGCAATACAACAATTGATTTTAGAATTTGAGATAAAGAAAAAAATAGTATTGAAAAAATAATTAGACCATTAACAAACGACCCAACTTTTAAAAGGTCAAATGCATTGAAAAATTATTTTTTTGAAAATAATATTAAATTTAATGAAATTGTATATGTTTCAGTTGTTCCAGAATGAAATGATATTTTAAGAGCTTTTGCAGCTAGTATGAAAGTTACAATTTATAATATTAGACAAGATTTTATAATTAATAATTCCTTATTTAAGCTTGACAATATTAGCTCATTGGGAGCAGATTTTATTGCAAATTTTTATGCTGTTCTTCCAAATAATTCAAAACTTGCTGTAATTTCAATGGGAACTGCTTCAACAATAACTTTAATTGAAGATAACTATCTATTAGGTACTATAATTTGTCCAGGTATTGGTTCATCTTTAAAGGGTTTAATATCAAATGCAGCGCTACTTGCTGATTTTGAATATGAAAAATCTGACAAAGAAATTGGAAAAAATACTGTCGATTCAATAAATATTGGGACATATAATAGTCATTACTTAATGCTTAAAGCTATAGTAAGAGAACTAAAAGTTAATAACGTTATTTTTACTGGAGGATATAGCAACCTTTTTAAAGAAGAAATTAAAAGAGATAATTTTATCTTTAAAGAGGACTTAATTTTCAGAGGTTTAATTGCTTTATACAACATCAAAATAGAATCATTATAAAAGAAAAAAATGAGTTAAATACTCATTTTTTTCTTTTATATTATATTTAATAAGCAGTTTTAAACTATTGAATTGCTTCTTTTGCTACACTAAATACCTCTTTTAATTGATTACATGAATTTGTAAGCCCTGCTAATTCTTCTTTTGATAAATTTCATTCAATAATTTGCTCAATTCCATTTGCTCCTACAATACAAGGAACACTTATATAAAGATCTGAGTTTCCATATTGTCCTGATAAATAAGCTCCAACCATTAATGATGATTTTTCATCATTTAAAACTGATTTAACAATTCTTGTTAAACAAGCCCCAATCCCATAAAATGTTGCCCTTTTTTTCTCTATTATTTTATATGCCATATGAACAGCTTCAGATTTAACTTCATCTAATTCTTGTTTAGTAATTTTACCCTCATCTAAATATTCTTGAATTGTTTTTCCCATAACAACTGATCTACTTCAAATTGCCACTGATGAATCCCCATGTTCTCCTAAAAGATAAGCTTTTACAGATCTTGGATTAACTTTTAATTTTTCTCCCAATAATTTTCTTAATCTTGAAGAATCTAAAGTTGTTCCTGAAGAAATAACTTTGGAATTATCAAATCCTGTAACTACTTGATAAACATGTGTAAGTACATCAACAGGATTTGATGCAATAACTGTTATTCCATTAAATCCAGAATTTTTTATTTCAGTTGCAATTCCTTTCATTATTCTTGCATTATCTGCAACCATTTCTAATCTAGTTTCTCCTGGTTTTTGAGGTCTACCCGCTGTTATAACAATAACATCAGCATCCTTACAATCTGAATATTCTCCAACTTTAATACTACTAAATGGATTTGGCAATACAGCATGTGCATCAGTTAAATCCATTACATTTCCTTCAGCAACATCTCTAAATACGTCGATTAAAACATAATTTTGTGCTAATCCTTGATTAATAGCTGAGTATATGAAACTAGTTCCTACAGCTCCACAACCAACTAAAACTACTTTTTTACCGTTAATCATAATTTTAAATCTCCTATTCTACAAAAAAATATTAACACATATATAAAACCAATATTGTTAAAAAAATTCTGCAAAAATTTTTCATAAAAGAAAATTTTTTAAAAAATAAAAAAACACCCATAAATGGGTGTCATATGCGCATATGATAATATATTAACGTTTTGAGAATTGTGGTGCTCTACGTGCTCCATAAAGTCCATATTTTTTACGTTCTTTAACACGAGCATCACGAGTTAATAAACCTTTTGTTCTTAATTCAGGTTTGTAATCTTTGCTTGCTTCCAATAAAGCTCTTGCAATTCCAAGGCGTGCAGCTCCTGCTTGCCCTGTGAAACCTCCACCTTTAACAGTTATTTTAATTGAAAAGTCTGCTTTTGTTCCTGTTGCTTCTAAAGGTTGTTCCATATCTTGAACTAAAGTTGCATATGGAAAAAACTCTAAAGCTGGTTTTCCATTAACAATAATTTCACCTTGTCCTGGAGTTAAAATTACTTGAGCTACTGAAGATTTTCTTCTTCCAGTACCTCTATACATAACAGTGTTCTTTTTAGTAGCCATTATTTATTTTCTCCTTTTTTAGTGTTTATTAACAATAATTCTGGATTTTGTGCTTGATGTGGGTGCTCAGCACCTGCATAAACATGCAATGCACGATATTGATTTGATCCTTGTACATTTTTTGGCAACATTAATCTAACAGCCCTTTCAATAATTCTTTCAGGGAACAATTTACGTTGTGTTTGAACGTTTCTTGATTTTAATCCCCCTGGATGCATTGAGTGGTGGTAATAGTTTTTATCAGCTTCTTTTTTTCCTGATAAAACTACTTTTTCTGCATTAATTACAATAACATGATCTCCATTATTTATATGTGGAGTGAATGTAGGTTTATGTTTTCCTCTTAAAATGATAGCAATTTCTGTAGATATTCTACCCAAAGTTGCTCCATTTGCGTCAACTACATATCATTTTTTAGAAATATCTGCTGTTTTAATAAGTGTAGTTTGTTTCATGTGCTTTTTCTCCTTCGCTTCCGGGGCTTGTGAGTAAGCAAATATATTATACAATATTTTTATTAATATTAGGAAAAATAAAAAAGTAGTTAATTAAAACTACTTTTAAGATTAATCGTTTATTTTTAAAGCTTCTAGAGGGTTTATTTTTTGAATATTTGCTCATCCTGCTAGAAAACTTAGAGTATATACTCCTAAAATAATCAAAAAGACACTAACTGGTATTCATCATACAAATGAAACTGGTAATACTCAAACTGTTGTTAAAGCAAGTAAATCAATTGCTCAAACAAATATAAATCACCCAGTTATGAATCCAATTATAAATGTAAATATAATTGGTAATACATACATACCTAAAATTTGTCTTACAATATATTTATTTGAATAACCAAGTATTTTCATTGTTGCAATAAATTCCTTATTCTCATAAATAATTAACCCTGTTGTAAGAAGAATAATTGTTATTGAAACAATTAATGCAATTACCATAAACATTATCATAGTCATATTAACAATTTCTGTAATTTGGCCTAAAATTTGTCTAGTTTTTTCTAAAGGCATCATTGTTGATAATGAACCAATTCCTAAACCTTCAACATATTCACTGATAGTTCCATCATCTTTATTAGCTGAGTATGTTCCATTTAACCCTCTTGAACTATAATCACCAAATCTTTGAGAAGTTGAAAATCCTTTAGTTAAATCTAGAAATTCTTGATTTGGTGAATTTTTATAATTAAATACAGGATATAAATTATTAAATAAATCATTAATTTTATTTAATTCTTCTTGATTTTCCCCACTATTTAGTTTTTCAAAAAAATTATCATAATCAGTAATATTATCTATAATTGTTGGATCACCACCAATTGCACTTTTTAATTCTGGCAATTTTGCTCATTCTTTCATAAAATAGTTTTCAAAATATCATTTAATAATTTTATCATAGCTCATAATTTTATTTGCATTTTGATTTAAAACTCAACCTTGGGCTTTTCCATATCCCTTTTGAATTCCAACAATTTTAAATTTGTTAGAACTATCTTTATTTTGAAAAATATAAGTTTCTCCACCTAAAACACTCTGATGAATTTGAGTAGTATTTGTTGAAGAAGATGCATTTGACCCTGATATACTTTTATTTCCATATTTAATTGAATTAACATCTCCAAAAATTGGATTATCAACAAAACTTTTTCCACTACTTGAATAGTAAGTTCTACTTGATTGTGATCGATATTCTTCAAAAGCAACTTGATTATTTTTTGAAAAATTATCATCCAAATTCAATACTTCATCATTTTGAATAACTTCATCCTTAATAACTTCTAAGTTAATAACATCATCAACTTTATAACCACTTTTTGTTGCAAGCGTCTCATTGATAATTATTGGAATCAAATTATCTTCTTCAATATTATTTTCATATAAATTTTGATTTAATTTTTCTCCTGTTTCCGAACGTAAGTCTAATAAATTTGTATCTGGATTTATTCCATAAATTTTTGCACTTTCTAAAATTTTTTTTCTATTTTGAAAATTTATATTAAAAAATGTCCCTATTTCTTCTGTATTCGGATCATAAGGTACTAAATTAAATGAAATATTGTATTTTTCATTATTTTCGTATGCTGTTTTTATATATTGTTGGACAAAATATGGTGCTCTTGAATATGCTGTTTCTAATATTACAGCCCCTAATCTATTTTGAAATGTTGCTGTATATCACATTATCAATGCTTGATTTAATTCTAAGACTTTATTTTGATCTTCGATTTCTTCAATTGAAATGTTTTTAATATCAATACCATAAAAATCTATTTCCGCCATTTTTGTTTTTTCATTTAATATTGGTTTAAAATTTTGATTTTCTTCTGAAATAAGATCTTCAATATTTCCATTTAATCATAATTTTTTAACTATTTCTGTTTTAAACATAGAATCAATTGTTTTTCCAGAATCTCATTTTCAGTCTAATCAATTTTCTTCCTTTTGAGTAAAACTTGGATTAAATTGTAAAGAAATACCTGATGTATATTTTTTATAAAATCATAATAAGGAATTTGCCAGCTCTTTTTCTGTTTGTACAGATTGTATTTCTGTTTTAAAAAGACCATAATCAATTCATTGATTTAATAAAGTGGCTAGTCCAATATTATTTATAATATTATCCTCCATATAAACTTTATCTAAATTCTTTAAAAAATCGATTGATAAATTTTTTCAGTTTAGATAACTCATAACACTTCATGGTTCAGGGCCACCATTGTGTTCTTCTTGATCTCCATAAATATCATATGTATAAAATTGAGAATTAATATCTCCATTAATAATTTGATTAATTATTTTTTCCACATCAATTTCAGTAGTTGTTCCATTATTAATGACTGGTGCAGCTGTTTTTCCCGTAACTTTCTTTTCACCACTATATGTTTGAACATATTTTTCTTCATTATATCCTCAATCATCGTTTTCAAAATTAAGATTATATGTTCTATAAAATGATAATGGATTTGATGCAATTGGTTGAGTATATTCAATTTGGTTTTTGAAATTCAATCCATTAAAAGTTTCTGTCATATTATCTTTTAAAACTTTTGGAGCAACTATTGTTGTTGTAAGCATAATTGTTCCTAAAAACATTGTTATTGAAACTCCAAATAATTTTCCTAAAGAAGTAGTTAAAAGAGCAGTTCTTAATTTTGAATTAAAATTACCTCTTGAAAATCCCCTTTTAATAGCTAAACCAAATTTTGAAATACCTCTATCTGCATTTCCTTTTAATAGGTTAAGTGTACTATTTTTAATTGTATAATATGCCATTATAATTGCTGTTATTGTTAATATTAATCAAATAGCAATTATTGATACAATTAATGAAATTACTTCAAAAGTAAATCCTGTAAAAGCTATATTAAAGTATTTTGAAAAAACACCAACTATTGTACCTCCAATAAAAATTGAAATAATATATCCTAATATAGAACCAATTATAGCAACAATTAAAGGAGCTGCAATAAAGTTATTTACAATTTCACGTTTTTTATAACCAAGAGATTTTAAACAACCAATTTGTCTTTTCATATTATCAATTTGTTTTCTTGTTATTAAAATAATTGTAAATAATGAAATTACTAAAATAATTATTAATAGTAAAGTTGCTGCAATATTGTAAGCATTTATAACTGATTTAAATGTAAGAGTTCTTGAGTGAAATCTATAATTTTGATCATCACTTTTAAAAAAGAAAGTAATTTCTTTTTTAATTTTTCCATAATATTTAAAATCAGTATTTAAATTTTCAATTTGCTCTTCTGTAATATTAGATGAATTAAATTTTAATGAGTAATATGTTTCTTTATCAGAATCAGAAGAAACTACAATTACGGAGTTTCTATTATCAAAATTGTAAATATTATCATTAGAATAATTTTGCTCATAAAGAGACAATCCAAATAATTGAGGGTCAATATACATTATTGCTTCAGTATCAACATTTGGAATTACAGTTGTGCTATCAATTATTGGAGTCACAAAATCAGATGAAGATCCAAATCCTATTACTTTGAATCAATTCATTCCTGAATATTCAGAATTTTCAATATCATAAAAGGATTCTCAACTCTCCATTTTTTCTGCAATATTTTTATCACTTTTAACAAGTAATTGATCTCCATATTGATCCTTTTGAACACGAATTATATCCCCAACAGATAATTTATTTGCTAATGCAAATGATTCCCCAACAATTATTTCCCTTTTTGATTTTTCTTTTTCAGCTGAAAAATTTTCTCCTTTTGATACAACCAGTTTATCCACTGCTTTTTTATCATTTTGATTTGTTTTTGCCAAAATTTTAATAACTAAAGAGCTATTCGCCATTTTTATATCAGAAAATGTTCTAGCTTCAGTTCTTGATCAATTAAATTTATAATTTTGCGCCATTTTATTTAAAACTCATTGTTGATAAACTTCTTGACTTTCAATATTTAAGTTAAATTCATCAGGTTTTTCAAGTCTCGTTGTAGTTTGATCAATATCCATAACAACATTTCGAACATTTGAGTTAGTATTTAAGTATTCATAGGCATCAATTACTCTTGTAGAAGTTGAAGAAAGCAACGAAGTTATCATTGAAACTAACATTACTAAAGATGATAATCCTATTAATTGAGATGGGCTACGTCAGGCAGTTTTGAATGCATTTTTTAAAAGCAATCTTATTCCTCTCATATTATTCTCCTCTATTTTTTATAATAATATTTTCCTATAAAATTCAAAAAAAAATTTATATTTGATTTAAAAAAATCTTTCAAAAAAAAAAATCTTATTGCGAATATGTTTTATCCTTTTTAATAAGATATTTTTTTCAAGTCAGCTAGTAATTAACTGTTATAATTTAACTTTCCCTTATTTACCAATGGTATTATTCAAAAAAGATAAAGCTATAACAAGAATTTACGAATTTGGTGTATATAAGTTCTAAAATAACTGACTTATTATTATAATAAACTATTTTTTACTAATAATCTATTTTTTTTAAAGTTAAACCCTCAGGATTTGCAATAAATGGAAGTTTTTGCCTCTTTAATTCTAAAGTATCTTTAATATCTTTTAAAGTTATCTTATCTCTTGAATAAGCTAAACAAGCTCCCATAATCATTCTAATTTGATATCTTATAAATCCTTTTGCTTGAAAAGTTATGTTTAGTTTATTTTTAAATGTTTCTAAATTCAAAAAATCAATTGTTCTTATTGTTTCAATCATTTCTAATTCTTGTTTTTTAAGCCCTGAAAAATTCAAAAAATTATGTTTTCCTATAAATAAATCTAAGGCTTCTTTTAATTTAAAAACATTTATTTCATAATTTGCAAAAAAATAAAATCTATTCTCAAAAACATTTGTTTCTTTTAACTTAATTACATAAATATAAGTTTTTTTTCTACAATTTCTAACTCTAAAATCCTTATTTATCTCTTTTATTTTTTTTATTGTAATACCTAAAGGTAATGTTTTATTTAAAGCAGATAAAAAACCTAAAATATTAGGTTTAAAATTTAATTCAACTCATGCTTTTTGATCTTTTGCATGTACTCCTGAATCAGTTTTAGAAGCACCAACAATTCTAAATTTAGAATTTCTTGCAACTTTTGAAATTGCTTTTTCAATTTCTCCTTGAATAGTCGGTTGATTTTTTTGTTTTGCTCATCCATAAAAGTCTGTTCCATCATATTCAATTGTAAATAAATAGTAATTCATCAAATTTTATACTTTTAAAATTGCATCAATTCTAGGTATTTGAATATTATGTAAAGTTGGAATATATGGATAACAATATAATGTAACTATTACTGCCATGCATATTGTAAAAATAATAACATCTAAAAATCTAAATTTCACTTGTCTATATCTTGTTCTTTTTGCATGTGGATCATAACCTCTTGAATCCATTGCATAAGCTAAATCTTCTGCTTTTTGAAAAGCAGAAACAAGTAAAGGAATAATTAAAGAAGTTAGTGATTTAACTTTATCTTTTATTTTTCCATTATGAAAATCTATACCTCTTGAGGATTGTGCTTTCATAATTCTTCCTGCTTCATCAATCAAAGTGGGAATCATTCTTAATGCAATTGAAATAATTGTAGAAAAAATATAAACAGGAATTCCAATTAACTTTAAAGGTCATAATAGATCTTCAATTGCTAATGTTAACTCTAATGGTTGAGTTGTCCCTGTTAAAATTGTTGTTAGAGTAATCATTAAGAAAATTCTAATTGACATATAAATAGCAGAATATGCTGCTTTTTCTGAAAAATAAAATATTTTTCAATTAAATACATAACCAAATCCTGCAACTTGTCCGTCAACCATATTTTCCATATTTGGTTTTAACATCAATACATTAATAATAATTAAAACAATAAATATAAATGTAATTGGAATAAAAAGTTTAATAAGCATTTTAAAGCTTAATCTACTAATTGAAAACATTGCAAAAATTAGTGAACCTGCAAGTATTTGTCCAGTAAAGCCTATTGGAAAAAATACAACAACAATTAATGCAATAATCATAAATAATTTTAATCTTGGATCCATTTTATGAATTATTGAATTATATGGCATATATCTACCAAAAACCATTCTCATATTATAATTCCTCCTTCTTATTTAAGTTTAGACTTAACTGCTTGAGCAAGTTCTTCAACTGTTCTAAATTCAATTTTTGTTATATCTAAGTCTTTTTCTTTTAATTTATGTGCTAATTTATATAATTTTGGTGGTTCAATTTCAATTTTTTCTAACAATTCCTTATTTGAAAAAATTTCAAAAGGAGTTCCAACAGATATTACTTTTCCCTTATGCATAACAATTACTTCATCTGCAATTTGTAAGACATGATCCATATTATGAGTAACTATAATAATTCTCTTACCTTTTTCTTTATTTAATTTATAAAATAAATTCATAAAATCTTCTTCACCTTGAGGGTCTAATCCTCCTGTTGGTTCATCAAGGACTAAAGTATTACCATCCATTGCAATTATTCCTGCAATAGCTACACGTCTTTTTTGACCACCACTTAAATCAAAAGGGCTTCTCTTTGCATAATCTTCTGGTAAGTCTACTGTTTTCAATAAATCACGAACTTTTGCTAAACTTTGTTCCTTATTTGCTCCTAAATTAATTGGTCCAAAAGCAATATCTTTTTCTATTGTATCTTGAAATAATTGATATTCTGGGAATTGAAAAACTAAGCCAACTTCTCTTCTTAAATCTTTAACTTCTTTAATTTTTTTAGTTGAAGCTGGTATTTGATATTCTCCAATTATTGTTCTTCCAGTTTCTGAAATTATTAAACCATTAGTTAACTGAATTAAAGTTGATTTTCCACTACCGGTCATTCCAATTACAGCTGTAATATTTCCTTCTTTTATTACTAAATTTGTACCATTTAGAGCACTAAATTCAAAAGGAGTATTTATACCATATGTATAGGATACATTTTCAAATTTAATTTCACCATCAAAGTTAAAATTTGGAGATTTAGCAATTGCCATTTTTCTTTTAAATTCTTTTTTTATGCTTTTATTTTGATCCTGTTGAGCGTCAAATCATTGTTTTACATCAGCCACTCTACTAGAAATATTTTTTTTGTCTTCTCTTCTAAAGTTTGCAATTTCCTTTTGATATTGTTTTTGATTTGAAGAATCACTTTTAATTATATTAATTATTTCTTTATGTTTAATTTTTCTTTTTTGAGCATCTTCTTTTTGTTTAATTGAAATCTCTTTAATATGTTCCTTATATTCTGCTTTTGCTGCCTTTTTCTTAACAATTAACTTTGCTTTTTGTTTTGGTGTAATTCTTTTTACTTTTGACATATATTATTCACCAACTCTTCTAAATCATTGCATCCTGAAATTTTTATTCCCACATTTTGCAATGCTTCTTCAACCTGTGCAATAAATGGGATATCTAAGTGTATTGATCTTAAAAATTTTTTATCATTTAAAATTTCTTTTGGGCTACCAAATTTTACTAATTCTCCCTTATTCATAACAATAACTTTATCAGCATTTAAAATTTCATCCATATCATGTGTTATTGAAAAAATAGTTTTTTCTCTTGTATTTTTTAATTCAACCATAATTTCTTTAACTTGTGTTTTACCTTTAGGATCTAACATACTTGTTGCTTCATCAAAAATTAAAATATCTGGAGATAAAGCTAAAGCAGAAGCAATTGCAACTCTTTGTTTTTGACCACCGCTTAACATTAAGGGTTCATGATCTAAAAATTCTTCCATTTTAACTTTTTTTGCAGCTTTTAAAATAATATCACTCATTTTGACTGGTTCTATTCTTCTATTTTCCAAACCAAATGCAATATCATCTCTTACAGTTGAACCAATAAATTGATTATCAGGATTTTGAAAAACTATTCCTAAAAATTTACGAATAATATTAATATTACTTCTTGTAACTTTGTTTCCATAAATTTCAATATTTCCCATTGTTGGTTGAAGAACACCAATGATTATTTTTGATAAAGTTGATTTTCCGCTTCCATTATGCCCAATAATTGCAACATAATCACCATGATTAACACTTACACTAACCCCATTAACTGCAAATGGATGATCATCTCTATATCTAAATTTAATGTCAGTTAATTTTAATGAAACATTATTTAATTTTGTTAGTTCTCCCCCAAGTCCTCTATCTTTTACTGCAACTTTTGATTCTTTATATAAAAAATGAGCAAATTGAAAATCTTCATATGACACTCAATATTCCTTTGAATTTTTTTTATAATTTTGTAAATTTTTTTCTGCAGTTTTTAAATTATTTAAAAAAGGTTGAATATTTGAAACTTGCTTAAAAGTTTTTTTTAAATCTCTATAATTAGTTTCTGCAGTTTTAACAAAATCTTTATCAACTTCACGTCTTGAAAATTTACTTCTTGCAATTATCATTTTTTGACTTGCATGAACTAATTTATCATTAAATTCATTTAATTGTAATTTAAAATTATTTAAATCTTCAGTTGTTAGTAAATTATTATTTGACATTATGACTTTCCCTTTCATATTGTAATGATTATATCAAATATTAGTTTTTATTGAGTTAAATTATAAAAAATATAAATACCTAAAAAAACTATCTAATTGTTTTACCTATTAATTATACATATAATAAAAAAAAATTATCTTTTTATTTATTAGATAATTTTTTAACTATAAATAAAAAAAACCTATAAATAGGTTTTAAACAAGTTCAATAATACACATTGGAGCATTATCTCCACGACGATTATCTAGCTTTAAAATTCTAGTATAACCACCATTTCTCTTATTGAATCTTTTTGCAATTGTTGTAAATAACTTTTGTAGGGCACTTTCCTTCTCAGAAGCATCAACATGTCTTAATCAAGCTGCTGCTTGTCTACGTGCATGTAAATCCCCTCTTTTTGCAAGTGTTACCATACTATCAAAGTGCTTTCTTAACTCTTTTGCTCTAGTTTCAGTAATTTCTAATTTCTCTGAAATAATCAGTTCTGTAGTTAAGTTTCTCATTAAAGCGACTCTTCAAGCTGTATTTTTTCCTCTTTTTTGAATATATGACATATCAAATTACACCTTTCTAGTCTTGTCTGAAAGTAAGTCCTAATTGAACTACTTTATCCTTAATTTCTTTTAATGATTTTCTACCCAAGTTTCTAATTTCTTGAATATCGTCTTCGCTACGTGAGACTAAGTCTCGTAGAGTATTTATATTCGCTCTTTTTAAACAATTTAAACTTCTCTGAGTAAAGTCCAAATCTTCAATTAAACGATCTAATTCTTTTTCATCTTCCTCATTAGTTGTACCAATTATATTTAATTCATTGATTTCATCATTTAAATTTACAAAGAATTGTAAATGTTCTACCAAAATTTTTGCTGCTGTTGCAACAGCATCACTTGCTGTTACAGTTCCGTCAGTTTCCACTTTTAAAATTAACTTTTCAAGGTCCACTGATTTTCCAATTTTTGTTGTATCAACATTATATGCAACTTTTACTATTGGAGAATAATTTGAATCTATTGTAATAGCATCTACTACTAATTTTTCTTTTTTATTATCTCTAAAAGTTCTATACCCTCTTGAGTTTTTTGCAAACATTGTTAAATCTAATATTCCCCCATCTGCAATTGTACAGATATGTAACTCTGGATTTAAAACATCAACTCCAGTAGGTAAATCAATATCTCCTGCAGTTACATCCCCAACTCTTGAAAGATTAATTTTTAATTCTACTACTTCTTCATCTTCAAAAATTTTTGTATCTATTTTTAGTGCTAATTTTTTTAAATTTAATATAATTCTACTAACATTTTCTACAATTCCTTCAATTGAAGTAAATTCATGCGCAGCACCAACAATTTTTATTGCATAAACTGCCGCACCTGGTGTTGATGATAGAAGTGTTCTTCTTAAAGCATTACCTAGTGTTGTTCCAAATCCTCTTTCCAAAGGTTCAACTTTGAATTCCCCATAATTTCTGTTTTTCTCTTCTTTTAATAATTTAAATTCAGGTTTTGCAAATTGTTTCATTTAAATTATTAACCTCTTGGTCTTTTTCTAGGACGAACTCCATTATGAGGGATTGGTGTTGTGTCTCTAATTGATGTTATTTCTAATCCGATACCTTGTAAACTTCTTACAGCAGCATCTCTTCCTGGACCTGGACCTTTAACTTCTACAGAAATTGTTTTAACTCCATGATCCATTGCTCCTTTACCAGCAGCTTCTGCTATTAATTGAGCAGCATATGGTGTTGATTTTTTGCTTCCTTTAAATCCTAAAGCTCCAGCACTTGATCAAGATAATACATTACCTTTTTCATCTGAAACAGTTACGATTGTGTTATTGAATGTTGAGTGAATATGAGCTACACCTTTAGCAATATTTTTTTTAACTTTTTTCTTATTATTTTGTTTTTGATTTGCCATAGTTTAAACTCCCTTAACTATTTTTTCTTGTTAGCTACAGTTTTTCTAGGACCTTTTCTTGTACGTGCATTTTGTTTTGTTGATTGTCCACGAACTGGTAGTCCTTTTCTGTGTCTCATTCCTCTGTAACATCCAATTTCCATTAAACGTTTAATATTTAATGCTGTTTCTCTTCTTAAATCTCCTTCAGTTTTGAATTTTGAGATTTCTTGTGAAATTGATTTAATATTATCTTCCGATAATTCCTTAACTCTAATTTCTTCGCTTACTTTTGCAGCCTCTAGAATTTTTTGTGAAGTTGATAAACCAATACCATAAATATAAGTTAGAGCAATAACTACTCTTTTTTCATTAGGTATTTCTACCCCATTTATACGAGCCATTATTTAGTTCCTTTCTAATAAGATTTAATTTATTAATATTAATAAAATTAACCTTGACGTTGTTTATGTTTTGGTTGTTCACAAATAATCATTACACGGCCTTTACGTCTAATTACACGACACTTGTCGCAAATTTTTTTGACAGATGATCTAACTTTCATCTTTATAACCTCCTGATTTTGTGTACTTTATATTTATGTTTAATTAAAATTACTATTTACCATTTTTAAAACGATAAGTAATTCTTCCACGTGTTGGATCATAAGGTGAAATTGCAACAGTGACTTTATCTCCTGGTAAGATGCGAATGTAATTCATTCGGATTTTACCAGACACGTGGGCGTCTATTACTATTTCATTTTCTAATTTCACCTTAAAAGTAGCATTTGGTAGAACTTCTGTAACTGTTCCATCCACCTCTAAATAATCTTCTTTTGCCATTATTTTGTCTCCTTTTTGGGTTTAAATAAAGTTAATATTTCTGGTTCTCCATTAGTGACCAAAATAGTGTGTTCAAAGTGAGAAGTCATGCTACTGTCTTGTGATGAAACTGTTCATTCATCATCACTAACCACAGTTTTATTAGTACCTATTTGAACCATTGGTTCAATACAAATTGTCATGCCTTCAACTAATCTCATTCCAGTATCTGCAATCCCAACATTAGGTATAAATGGATCTTCATGCATTTCTAATCCAATTCCGTGGCCTGAATAATCTATTGGCAAATGAAAACCATAATCTTCTATAAAAGTTTGAACAGTAGAAGATATAGTTCCAATGCGCACACCAGCTCTTACCTGTTCAATTGCCAAATAAAGTGACTTTTCTGTCACATCTATTAGTTTATCATATAATTTATCTTTTGAGTTACCACAAATGACAGTAAATGCAGCATCAGCATGGTATTTTTCAAAAATACACCCTGCATCAATTGATACAATGTCACCATCTTTTAAAATTCTGTTTTGTGGTATTCCATGAATTAATTGTTCGTTTATTGATATACAAACACTTGCAGGAAAACCATAATAACCTTTAAAATTACTGCTACAACCCTTTTCTTTAATAAAATTACTAAAATATTTATCTATTTCTAAGCAGTTTAATCCAACTTTTATCATTGATTTAATATTATATAGAGCTTCTCCAAGCACTTGACCAGCATATCTCATTTTTTCTATTTGTTCTGAATTTTTTATTGTAATTGCCATTAAATTTTTAATACTCCCAAAATTTTATTATAAACTTCTTCTGAAGATAAGTTATTTGCATTAATTATTTTCAATTTGTTTTCATAAAATTTAATTAGTGGCGCTGTTTGAGTATTATAAGCTTCTAATCTAATTTTAATTTTATCTTCTTGATCATCAGGTCTAGTAATTAAAGTACCATTATCAAAATCACAAAATCCATTTCTTATAGGTTTTCTATTTACTTTGTGATAACTTCTTTTGCAAATTGAACAAACTATTCTCCCTGTCAATCTTTCAAGTAATAATGACTCATCAATTTCTATGTAAATTACTAAATCTATTTTACTATTTAAAAGTAAAAGCATTTTATCTAATTGTTGTGCTTGATCATCAGTTCTTGGATATCCATCAAAAATTAAATTATCATGTTTTCGCTCTAAATATTCTTTAACCATTTCATTTGTTATTAAGTCTGGTACCAATAATCCTTGATTCATATACTTTTGTGCTTCTAATCCCAATTTTGTTTTATTTAAAATATTTGTTCTAAATAAATCACCTGTTGAAAGTTGTATAAAGTTTTTTTTATCACATAAAAATTCTGATTGCGTTCCTTTTCCACTTCCTGGTGCCCCTAATAGTATAATATTCATTTTTTCTCCTATCAAATGTGTGAATTATATTTATCAACATCATTTGTGAATTTATCTTGTTTTTTATCTAAAAATGATTGTTGTATTAATCTACCTTTTAATTGTTGAACTGTTTGAATAGAAACAGAAATAACAATAATTAATCCAGTTCCCCCAATAGCTAAGCTACTTGGTAAACTTGTTAATTTTGAAATTGTATAAGGAAGAATTGCTATTCCAGCAAGGAATAATGAACCTAAAATACTTAATCTATTAATTACACCTTGAATAAATTTTTCTGTTTCTTTTCCAGGTTTTATACCAGGAATAAATGTTCCAGATTTTTTAAAGTTCTCTGCAATTTTTTCAGGATTGATTTGAACTTGTGCATATAAGAATGTAAATAATACTGTTAAAACTCCATATATTCCAATTCCCCACCAAGTTGAAAATGATAAGAAATTTTGGGTAAATGCAACAAAGCCATTATTTGGATTACTTGCAGCAATAATTTGTGCTACTGTCATTGGCGTAGAAATTATGGCTGATGCAAAAATTACTGGAATAACTCCTGCATTATTGAGTTTTAATGGAAGGTAAGGGGTGTGTTCTTTTGTATCAACAAGCCCAGAACCAGTCTGTTGAATTGGTATTTTTCTTTCAGCTTCATTCATTAAAACAACTACAAAAATAACTAATAAGAAAGAAACAATATAAATTAAGAATTTTAATATTCCATCAAATAAGATTGTTGTTTCTTCATTTCCACTAACTCAAAACTCAAAAGTTGATTTAAAGTTTGTAGGCATTTGTGCAACAATTCCTGTAAAGATTATAATTGATATACCATTTCCAATACCCTTAATTGTTATTTGATCTGCAATTCATAACATTAAGTAAGTTCCACCAAGCATTACTAATGGAATTAAAATGTAATAAAATCAAGAAGGACCAGTTCCAAGTTCATTAGTACCTCATTTTGCACTGATTAATCCCTGAGTTGTTAAAGTAAAAATTGTTGCAATTGATTGCATTAATGCAAAAGGAATTGTTAAAACTTTTGTTAATCTATCTAATTTTTTTCTTCCTCTTTCACCAGACTTACCTCAACGTGTTAAAACCGGTATTACATCAGTTGAAAGTAATTGAACAATAATTGATGCTGTAATATATGGAGAAACCCCAAGAGATAAAATTGAAAATTGACCAATTGAACCTCCTCCAAGAGTTGCTAAAAGTTGAAAAAACTCTTGATCACTTACTTGATTTTTAAAATTATCATCAAGTTGTACTCCTGGAACAGTTAATAATGCACCAACTCTAATAATTATTAATACTATTAAAGTAAAAACGATTCGTTTTACAAGGTCTTTATTTCTAACAAAAAAATTACCCTTTACGAATTCGCTCTTATATGCAGTTAATTTAGCTTTTTTAGCTTTTTTAACAGCCACCTAAATCACCTCTATAGTACCACCAGCTGCTTTGATTAAATCCTCTGCAGACTTTGATACTTTATTTACTTTTACTTTTAATGCTTTAGTTATTTTACCATTTCCTAGTACTTTTACTAAATCTTTTTCACTTTTAATTAATTTTTTTTCAATTAAAGTTTTATGGTTAACCTCTGTTAAATCCATTTTTTCAATTCTATCTAAATTTAAGATTACATACTCTTTTCTGTTTAAACTTGTAAACCCAATTTTAGGTAATCTTCTAAATAATGGAGTTTGACCTCCTTCAAAACCTGGTCTTACTCCTCCACCAGAACGTGAATTTTGACCTTTGTGTCCTCTAGTTGATGTTTTACCTTTTCCTGAAGCCATACCACGTCCAACACGTGTTACTTCTTTTTTGCTTCCAGGTGTATATTTTAATTCATGTAATTTCATTAAACTCTTACTCCCTTACTAAGCTTTTTGAATAGCTTCCCTATTTTCAACTTGAGTTTTTCCACGTAATCTTGCAATTTGTTCTGGTGTTTGCATTTCTTTTAAACCTTCTAATGTAGCTCTAATCATATTAATTGGTGTATTTGATCCTAATGATTTTGTATAAATATCTGAAATTCCAGCTAATTCAATAACAGCACGCACAGGTCCCCCAGCAATAACTCCAGTACCTTTTTTTGCAGGTTTAATCATAACTTTTCCTGCACCATAATGACCCATAACATCGTGAGGAACTGTTGAACCAGCTAAAGGAATTCTTACTAATGATTTTCTTGCTTCCTTAATTGCCTTTTTAATAGCATCAGGAACTTCATTTGCTTTTCCAGTTCCTAATCCAACTCTCCCTTTTTTGTCTCCAATAACAACAACAGCTGCAAATCTAAATCTACGCCCACCTTTTGTAACTTTTGTAACACGATTAATTGTTACTACTCTTTCTTCAAAAGGGTTGTCTTCTTTATTTCTTGAAAATCTTAAATTATTTCTTGGTCTATCATTATTTGGTCTTGTGCTTATTTTTGAATCATTTGTTACTGCTGATGGTTCTTTTTTATTAGTAATCTCAGCATTTACAACTTTTTTTTCTTCTGTCATTTTTTCTATCTCCTTTTCTAGAATTTCATACCGTTTTCTTTTGCAGAATCTGCAAAAGCTTTTACTTTACCATGGAATAAATATCCACCTCTATCAAATACTACATCAGTTATTTTTTTATTTTTTGCTTTTTGTGCAATATCTTTTCCTACTGCTTTTGCAGCTTCAATATTACATCCATTTTTTAATCCCATTTTAATTGAAGATGATGATACTAAAGTAACTCCTTTAACATCATCTATAATTTGAGCATAAAAGAAAGAATTTGATTTAAATACATTTAATCTTGGTTTAGCACTTGTTCCAGACACTTTAGATCTAACTCTGTAATGTCTTCTTTTTCTTGCTTCTGCTTTAGTGTATTTCATAATTATTTCTCCTTAGCAACAGCCTATTTACCAGCTGCTTTACCTTCTTTTCTAATGATTTTTTCATTTTTGTACTTAACTCCCTTACCTTTATAAGGTTCAGGTCTTCTATATGCTCTTATATTTGCAGCAACTTCTCCAACTAATTGCTTATCTATTCCTGAAATTTTAATTTCAGTTGGTTTTGGAATTTCCACTGTAATTCCTTTTGGGATTAAATATTCAACTGGGTGTGAAAAACCTAATGATAAATTAATTTTATCACCTGCTAGTGCAGCACGATAACCAACCCCTACAATTTCAAGTTCTTTAACAAAACCTGTATGAACTCCAACAAGCATTCCTTCTAGCAATGAATTTGTTGTTCCATGCAATTGTTTTGTATGTTTTTGCTCATTAATTCTTAAAGTTTTTAATTCAGTGCCATCAACCTTTATTTCAATTAATGTACTAAAAGTTTGTTTTAATTCTCCCTTTGGACCTTTAATTATTACAACATTATTTCCTTCATTTTTTACTTCAACTCCAGGAGGAATTGTCAATACTCTATTTCCTATACGTGACATATAATATTAACCTTTCCTAACTATCAAACAAATCCTAGAACTTCTCCACCAATTTTTTGGTGACGAGCTTCTTTATCTGTCATAATTCCATTTGAAGTTGAAATAATTGCGATTCCCAATCCATTTAATACTTGAGGTAATTCATGTGAGTTTGAGTAAACTCTTAATCCAGGTTTTGAAATTCTTTTTAAGCCTTTAATAACTCTAATTTTTCCCTTGTATTTTAAGCTAATTATAATGTCTTTCTTGAAATCAGTTGAAACTTTGAAGTCATCAATGAAGCCTTCATTTTTCAAAATATTTGCTATTTCTAATTTAACTCTGCTTCCAGGAATAAGAACTTCTTTGTGAAAACGTTGATTTGCATTTCTTATTCTAGTCAGCATGTCTGCTATTACATCTGTTGTCATAATTTCATTTTCCTTTCATTATCATGATGCTTTTTTAATACCTGGGATTTGTCCTTTATATGCTAAATCTCTAAAGCATACACGGCATAAATTGAATTTTCTTAAAACTGAATGGGGTCTACCACAATTCCCACATCTTGTATATTCTCTAACTTTGAATTTTTGGACTTTTGCTTGTTTAACTTTTAATGATTTTTTTGCCATATTTTCTAGTTCTCCTCAATTATTTAGCGAAAGGCATCCCTATTTTTTGAATTAGAGAAAATGCATCTTCCTTATGGTTGGTTGTTGTAACTATTGTAATGTCCATCCCACGAACTTTTTTTACTTTATCATAATCAATTTCTGGGAAAATAATTTGTTCTTTAATTCCTAAAGTATAGTTTCCTTGTTTATCAAAACTTGATTTAGGAACTCCTCTAAAGTCACGAACACGAGGTAGCGCAACAGAGATTAATTTATCTAAAAATTCATACATTCTTTTTCCTCTAAGAGTAACTTTTGCACCAATTGGCATACCTTCACGCAATTTAAATGCTGCTAAAGATTTTTTAGCCTTTGTTACAAGAGGTTTTTGTCCTGTAATTAGTGTCAATTCTGCAACAGCATCATCTAATTTTTTGCTGTCTTGTACTGCGTCACCAACACCCATATTTATAACTACTTTTGTAATTTTTGGAACCTGCATTACTGATTTATATTGCTTTTCTTTAAATAATTCTGGGACAATTTTTTCTTTGTAAAGTTTTTCTAATCTATTAATGTTTGACTTTGCCATATTTAATTATCCCTTCTATTTAATTTCAGCGCCAGATTTTTTTGCAATTCTAACTTTTTTTCCATCAGTAATTTTATATCCAACTCTTGTAGTTTTATCCTTATTTTTTGGATCCTTTAATGCAACATTAGAAATATCTATTGATATAGCTATTTCTTTAATTCCACCTTCTTGATCTGTTTGCGAAGGTTTAACATGTTTAATTCCAGTAATTCCTTCAATATAAACTCTTTTTTTATCTTTTGTTAATTTTGTGATCGGTCCTGTTTTTCCTTTATGATTTCCTGAGATAACTTTTACTACATCTCCTCTTAAAATTTTTGATTTATTCATAAAAGTTTCTCCTATAACACTTCTGGAGCTAGAGATGCAATTTTTGCAAATCCTGCATCCTTAACTTCACGCGCAATTGGACCAAATATACGTGTACCTCTTGGGTTTTTATCTTCTTTAATAATAACAGCAGCATTTTCTGAAAACTTTATATAAGTTCCATCTGCTCTTTTCAAACCTCTTACAGTTCTTACAATAACAGCTTTAACAACTTGACCTTTTTTAACAGCTCCTCCAGGAGATGCTGCTTTTACCGTTGCAACAACAATATCACCAATATTTGTAAATTTTCTAACACTACCACCTAAATTACGAATAACCAATATTTCTTTAGCACCTGAATTATCTGCAATTTTTAATCTTGATTCTGTTTGTATCATATATACTTACTCCTTAATTAAATAATTGCTTTTTCAATAATTCTTACTAATCTAAAGTTTTTTGTCTTACTTAAAGGACGAGTTTCCATAATTTCTACTCTATCCCCTAAATGAGCTTGTTGGTTCTCATCATGTGCTTTATATTTTTTTGAATATTTAACACGTTTTTTATAAATTGGGTGGTTTTTATATGTTTCAACTAAAACAGTTATAGTTTTATCCATTTTGTCTGATACAACTTTACCTGTATAAGTTTTTCGCAAATTTCTTTCCATATTTATTTAGCTCCTTTTGTTGTTGTTTTTTTGGCTGCCGCTTTTTTATTTGCTTCTTCAATTTGTTTTTTAGCTTCTTGAGCATTTGAACCAAATGTATATGTTTTAGCATTTTTTGGTTTTTTTGAAAGTTTTAATTCAATTCCTTCAATTCCTTCACCTTTAACAGTTCCAACTTTAACAGTTTTTGGTTTAATACTTTCTAATGCTGCCTTACCTTTACCAGTTGATTTTGCTTCACCCTTTTGTAAATTAGGTAGTTCAATTTCTTTTACTTTTGCAACTGATTCTTTTTTAGGAGCAGATTTAACTTCTACTTCCTTTTTAGCTGCAGATTTTGCAACTGATTCTTTTTTAGGAGCAGATTTAACTTCAACAGCTTCTAAATTTTCATTTTCTGTTGCTTGTTGCATTGCTGCCATTATTGCGTCTTCTGAAATAGCATTATCTGAACCAAACTGTTCACTTTGTAATTTTTCAATCATTTCCTTATGTTTTTTACGTACTTGTTTTCCTGCTTTTTCTGCTTCTTCAACTGCTTTTGAATAATTTGCTTTTATGTTTTTATTAATAATCTCTCCAGCATTTTTTCTTTCACTTAGTAAAAATTCAATTCTTGCAACATCTTTTTTAAGTGTTTTAATTCTGTGAGTTTGTTCTAAACTACCAACAGCAGCTTGAAATTTTAGTGCGAATAATTCTGCACGACGATCTTCACCAAGTTTTATTAAATCTTCAATTGTTTTAGTTCTTAATTCTAACATGAAGTCTACTGCTTTAGACATTATTCATCACCTCTCTTAACGATTTTACAACGCACAGGTAATTTATGCATTGCTAAACGTAAGGCTTCACGAGCAACTTCTTCTGAAACACCAGCCACTTCAAACATAAACTGACCAGTTTTTACTACTGCTACTCAATCCTCAGGAGAACCTTTTCCTGATCCCATACGTACTTCCAAAGGTTTTTTTGTTTTTGCCATATGTGGAAATATTCTAATTCAAACTTTACCAAAACGTTTCATATAACGTGTCATAGCAATACGAGCAGATTCAATTTGTCTTGATGTAATTCAAGCAGCATCAAGTGACATTAATCCATATTCACCAAATGCAATAAATTTTCCACCTTTTGCTTTTCCCTCATAACTTACTCTATGCGGACGACGATATTTTACTCTTTTAGGCATTAACATAATTATTTAACCCCCCTTGGTAATTTTTGTTGAGGTTTTCTATCCTCAATAACTTTTGAATTATTTTGATTTTGTTTACCTAATATTTCTCCATGGTTTATTCAAACCTTAACACCAATTTGACCATATGTGGTTCTTGCTTCATATAGTGCATAATCAATATCACTTCTTAAAGTTGATAATGGTACTGAACCTTCTAAATATCCTTCAGTACGTGCCATATCTACTCCACCAAGTCTTCCAGAAACAGCAGTTTTAATTCCTAATGCTCCTGCTTTTAATGCTTTTCTAATTGCTAATTTTTGAACTGTTCTAAAAGAAGCACGATTTGTTATTTGTTCACCAATAAATTGTGCGACCAATTTAGCATCTACATCTGGGTTTTTAATTTCAATTACTTTTACTTTAATAACTGCTTTTCTATCTTTGATAGTTTTTTTAACGTTTAATACTATATTTTCAACATTTTTTCCTTCTTGACCTAGAACAATAGCTGGACGAGCAGAGGAAATAACTAGAGTTATTTCTTTTTTAGTTCTTTCAATTTCAATTTTAGAAACTGCGGCATTTTTTAATAATTTAAAAACTGCTTTTCTAATTTTGATATCTTGATGTAATCATTTAACATATTCGCCTTTTTCAGCAAATCAACGATTTTCTCAACCTCTAATGACACCAATACGTAAAACGTTTGGAGATACTTTTTGTCCCATACTCTAATTTCCCTTCTACTTATCGTCACTTACAATTATTGTAATGTGACTTGTTCTTTTTAAAATTTCATATGCTCTACCATGAGCTCTTGGTCTAAAACGTTTTAATGTTGGTCCCTCATTAACAAATATTATTTTTATAAATAATTGGTCTGCTTCCATACCATTATTATTAACAGCATTTGCTACTGCTGAATTTAATAATTTTAGTACTGGTTCTGAAGATCTTTTATCTTGATTTTGAAGAATTGCTACAGCTTCTGATATTTTTTTACTTCTGATTGTGTCTGCTACTAGTCTAACTTTTCTTGGTGATATTCTAATCATTGTTAATTTTGCTTTTGCTTCCATTTTTTAAAAACTCCTATAATGATTATTTTTTCTTTTTCTTATCATCACCATGCCCACCAAACTTACGTGTTGGTGAAAATTCTCCTAGTTTGTGACCAACCATATCTTCTGTAACATAAACTGTAATGAATTCTTTACCGTTATAAACACCAAATGTATGACCTACAAAACTTGGAAAAATTGTTGAACGACGTGATCAAGTTTTGATTGATTCTTTTTTCTCACCATGTGCTTCAACTTTTTTTAATAAATATTCATCAGCAAATGGACCCTTTTTTAATGATCTTGACATAAACTAATCCTCCTATTTGTTATCATTTCTTCTTCTAACTATTAATTTAGTAGAAGATTTTTTCTTATCACGTGTTTTAACACCAAGTGCTTTTTTACCTCATGGTGTTAATGGTGCTTTACGCCCAATTGGAGCACGACCTTCTCCTCCCCCATGCGGGTGATCAATTGGGTTCATAACAGAACCACGAACTGTTGGTCTTATTCCTCTTCAACGGTTTCTTCCAGCTTTTCCTCAATTTACTAAGTTATATTCTTCATTTCCTACTTCACCAATTGTTGCAAAACATTCAGCAAGTACTTTTCTAACTTCTCCAGATCCTAAACGTAATGTTACATATTTTCCATCTTCTTCTTTTCCTAAAATTTGAACTGAACTTCCTGCACTACGTGCGATTTGTCCACCTTTTCCTGGTCTTAATTCAACATTATGAACTAAAGTACCCTCTGGAATATTTTTTAATGGTGCAGCATTACCAATTTTAATATCTGCATTTTGTGATGCTATAATTTCTTGACCTACTTTCATTCCTTTTGCAAATAAAATATATCTTTTTTCTCCATCAATATAATTTATTAAAGAAATAAATGCATTTCTATTTGGATCGTATTCAATTGTTGCTATTTTTCCAGCAATATCTAATTTATTACGTTTAAAATCAATAATACGATATTTTCTTTTATGTCCTCCACCTTTATGGCGAGTTGTAATTTGACCGTGATTATTTCTTCCAGCCTTTTCATTAACTTTTGAAAGTAATGAATTTTCAGGCTTTGAAGTTGTAAGGATACTATAATCTAAGCTGGTCATATTTCTACGACCATTTGTCGTAGGCTTATATTTTTTGATTGGCATAATTATCCTCCCTGTATCGCCTAATCTTTAAAACTTATTAATAAATTAATATTCTATAAGTCTGATAAGATATCTAATTGTTCACCATCTTTTAAAATGATTACTGCTTTTTTAAAAGCAGCTGTTTTACCAACATATTTTCCCATTCTTTTATCTTTTCCATCATAGTTCATAGTTCTTACTTGTTTTACTTTGACTCCAAAGATTTCTTCGAATGTTTTTTTAATTTGAGATTTATTTGCCTTTTTATCAACAATAAATGTGTATGCACCACTTTGTTGACCTAAATATGTTTTTTCAGTTAACAATGGTTTTTTAATTACTTGCGTTAAATGCATTATGCATACACCTCCTCAATTTTATTTACAGTATCTTCAGTAACTACTAATTTAGTTGCATTTAATAAATCAAAAATATTCATTTTTTGAAAATCTAAAGTTTTAACCCCTGGAATATTACCAGCTGACTTAACTACTAGTTCTTCATGCTCTTTTGTAACAATTAAAATTTTTTGATTTTCAATTTTTACATTTTTCATCAAATTTAGCATTTCTTTTGTTGAAGGTTTTTCAAAAATAAATTTATCTAAAATAACTAAATTTAATTCTTTTGCTTTTATACTTAATGCGCTTCTTATAGCTAATTGTCTTACTTTTCTATTAACTGCTTTTTTGTAATTAATATTTGGTGTAGGACCAAAGGTAACTCCCCCACCTTTTCATTGTGGAGCTCTAATTGATCCTTGACGAGCACGTCCTGTACCTTTTTGTCTTCAAGGTTTTCTACCTCCACCACGAACTTCTGCTCTAGTTTTTGTTTTTCTTGTTCCTTGTCTTAAAGCTGCTTGTTGTGAAACCACTGTATCATAAATTGCTTGCTGATGTGGTTCAATTCCTCAAACTTTGTCATTTAAATTAATTTCTTTAAGAGCTGATCCCTTAACATCTAAAACTTGTGCTTTCATGTTAGCAATTTCCTCCTAATTATTCAGCATTTGATGATGTTTCTTCTTGTGATTGTATTGAATTTGATTCAACACTTTTTGCACTTCTTGATAATAATGAAACTGCATCATTTGCCTTTCTTCCTTTGACATTTTGTTGGATTACAACAAATCCTTTTCTTGGACCAGGAACTGATCCTTTAACTAAAACTAAATTTCTTTGTTCGTCAACTTTAATTACTTCTAAATTTTGAATTGTCACTTGTTCATGACCCATGTGACCTGCCATTTTCTTTGATTTGAAAATTCTATTAATAATTGCACCCATTGATCCAATACCACGGTGATAACCTGAACCGTGAGCCATTGGCCCTCTTGAGTAATTGTGTCTTTTAATAGCCCCTGCAAATCCTTTACCTTTTGATATACCTGTAACGTCCACAAATTCACCAGCATTGAATACGTCGGCTGCATTTATAACTGCACCAATTTCGTATCCTTTCATATCTCTGATTTCTTTTACGAAGCGCTTAGGTTCAGATTGAGCTTTTTTGAATTGACCCATATCTGGTTTATTAATTAAGTTAGCCCTTTTATTGATTGTTCCAAGTTTTAAAGCTTGATAACCATCTTTCTCAACTGTTTTAACTTGCAAAACATTGTTTGGTTCTACAGAAATTACAGTTACAGGAATTAACTTACCGTTTTCGCTAAAAATTTGAGTCATTTCTAACTTCTTTCCTAAGATTCCTTTCATTTGATATTTCCTCCTGCATTATATTGTTATCATGTATATCTTGTAAAATTTTATAATTTAATTTCGATGTTAACACCTGTAGGCAATTGAACTCTTGTTAATGAGTCCATTGTTTTTGGTGTTGGTTCAACTATTTCAAGTATTCTTTTATGTGTTCTCATTTCGAACTGCTCTCTACTATCTTTGTATTTATGAGTAGCTCTTAAAATTGTTATAATTTGTTTTTCTGTTGGTAACGGAATTGGTCCACGAACTTTTGCTCCAGTTGACTCAGCTGCTTCAATAATTTTAGCAATTGACTGGTCAACAATAGCATGATCGTAACCTTTTAATTTGATTTTAATTTTTTGTTGAGCCATTTGATCCTCCTTCAACATTGACAACCCTTTCCAGTGTGTTGTCATTATGAACACAAAATATACATGCCTCTCAATTATTGCATTTTAGATAATTAAAATCAATAGAAAATCAAAAAAAAATGAAATTAATCATTTTTAAAAATATAAGTTATTCATTTCCAATTAATGATGAAAGTCTAATTCTTTTAATTAAAATCATTACTATTGTATATGCAATTGCAAATATAAAAACCCCCGCTAACAGTACAACTGGAAATAAAGCAATATTTATTGTTAAGGGTACAGCTATATTTAAATTTAATAACACAGAAGGAACTAAATATTTTGTAATTAATCATATTACTATAATTCCTAAAGAAACTGCAAGAATCGCTATTGGTAAAAAAATTCACAAAATTATAGAATTAATTTCTTTCATTGTATATCCTTGAATTCTCATATAACTCATAAATTTTTTATATCGTCCAATAAACAAATCTGTTATTAAATAAATAACAATCATAGCTGTTATCATTGAAATTGTTATAAAGATTGTTGAAATTAAAATAATTGATGTAATTAAATTTTCAATTGCTTCTTTTTTAACTTTTATATAATCTGTATAGCCAATAGCTGAATTAAAATATTTATCAAATGAAACAGATGCATTATTTGAATTAATAGAATTTAAAATTAATCTTTGCATTTGATCTGAAATCTGTCTATTTTTACTCATTTTTGCATTACTTCAAATATTAATTGAATTTCCATTTTCAAATTTTTGTCTTGAATCAAATGATTTGTTAAAACCTAAAAGTTGATTTGCATACAATTGTTCTAGATAAATTTTATTACTATCATAAAGTTTTTCAATACCAACAACTTTTAATTTTTTTTGTGATTTGCTTGTTACAAAATTATTTTTTAGTAAACCTTCATTTAAAGCAATATTTATTCAATTATTAGTTCCAGATGTTAAATCAATAAAGGAAAATTCTATAGGTTTTCCATCTTTATCATATTTAAATATATTAAATGGATGAATTACACTATCTAGTGATGAAGTTGATGATATATTACTATATTCATCATATTCCTTATTTACTTTATTTAGTATTTCTTGATTAAAGTTATCAATATCTAAAATTACATTTTGTAAATTTAGATATTTTTTATAACTATTTGTTTCATAGTCATAGTAATAAAATTTCTGAGTGTCTAAATCTGTAATTGAATACGACATTTTACTTAAATCAAACTTATATAAATCTAAATCTTCATTTTCAGAATCTTTATATTTTCAATCATCTTCTTTTAAAATTTGTAAACTATTTTCATTATTCACATAAGATAATTTTTCGGATTTTATATTAATATTAAATTCATCTCCAATTTTAAATCCTTCAAGTTCCATTTTTTTATTTATCAAAATTGGAATGTAATCTAAATTGTTATTATATTTAATTGAGTTTTTATTTAATAAAGATAAATTATTTGATTCATTTTCTAAATCTATACCATAACCGATTATATCTATATTATTTTTATCTTCAATTTGCCCATTAAATCTTGTATATAATTGGTCTTCATTAAAATTTACTAGAACTTTTGAAAAATTAAAAGTAAATTTTTTAAATTCATTTTCATCATTGTTTCAATTTTGTTTTACTGTTGAAGGAAGAATATTATTTGAAATACTCTTTATGCAATCATTATATTGATTTGGAGAATCATTTAATTCAATTACTTCTTAGCCAAATAAGGTTGGCATTACTTGACAAGTAAAATTATTAAAATTTGTTTGAATTCACTTACTATTTGTAGTATTTTTTGAAATTGAATCAACTTGTTTTGCATAATTTAAAAAGTCTTCCATAACTCCTGAAGAAATTAAACCACCTTTAAATGTAAGAAGAATATTTGTAAGAACATTATCAAATGAACTTCTAAAAACATTAGACTTATTTGCTCAATACTCAATATTTTCTGTTGAAATTAAATTTTTATAACTATTTAAATCTTTAATATTTACATTAAATATAGAAGCTTTCATATTACTTTTTCTTATATTTTCATCACTTTGATAAAATGAATATCTTGTAAGTGGATTATTTGAAATTGTATTTGTATAATTATAATCATTATTATACTTAATATTTCTATAATATTCATTTGACATATTTGTAAAAATGCTAGGAACTATAGAACAAAGTGTAATTACAAGACTAGAAACAATTAAAACATTTGCAAAAAACAAATAAATCCTTAACGGATGAAGAAATTATAATTCCTCTTAATTTTGAAGTAAAATTTAAATATTTGATTTTTGAAAAAGCTCTCGTCAACAAAAGATTTGGTTTCATATTCTTACTTGGTGATAATAACTCTAATGGTTTTTGTCTAATTGTGAAATATGTAGTTACTATTACCATCAAAGAAACAATTGAAATGAAACTAATTCATGAAATTATTAAAATTTGCCAGTCAATATTAAATATTGTTGGTATATTAAAATACCTTTCAAAAATATTCATTAATGGTGTCTGTAAAAATAAACTAATTATTCAACCTAATGGCACTAAAATTATCACTGGTATTAACATATAAAAAAACATAATTAATAATAATTTTTAAATTTAAAATACCAAGAGATTTTAAATTTCCAATTTGTGATCTTTGAAAAATTAAAATTTTCCTAAAAATATTATAAATAACAAAACACAAAGATAAAGCAAATATTAAACAAAATACAATTGCTATTATATAAAAGCCTGAAACTATTGATCCATAAAATGTACTTCTAAAATTTAATGAATAGGTATCATCAAAAGATTGAATATTAATTGATGATAATTTATTATTTGTCATATTTGAATTAATAGTTTCTGATACACTTTTCAATTTATATACATTATCTGCAAAATAGGTGCTAAAAAGGGCTTTATCTGCTTCTAAATTTAATTTATCACTATTTTTATAGGTTAAATATGCTCTACTTACATCTTGATATTGTTCATTATTTAGTTCAGTATTAAAAACTTTTGAAATAAAGTATTACTTATATAAAATACGGCTTCATTTTCTTGATTAATTAATAAATCTTCTTCATAAATTGTAGGATAGACATTTAAAGAATCAACCCCTGTTGCATCAAGTCTATATTTTTTTGTTGTATTTGGAAATAATTCATATTCTTGACCTAATACTAAATTATTAAATTTGGCATAACCATTTGAATCCATAAAACTATTTTCAGTAAAAATATTATCAGATTCATTTTTTAAATAAATTGTATATAAATTTTCATTGTAAAAATGCACACTGTAATTTTCATTACCTGGTTCTTTTTGGTTATAAAAAGCTGATATATATCTAAATTTATTTCCATTTTGAGTTCACATTACAGTTTCATTTGTTGTTTTAACTTTAAAATTGCTTAAGTCCCCTAACAAATTGAAATAACTATCAAATCAACTTCTTTGAGTAAGTGAATTTTCTAAAATAATATATCCATTTAAATCAATCCCAGTTTTAAATATATCTCTTGAATCATGTTTCTTTATATTAAAGCTTGCATAATTTTCATAGAGATTTTTTTCCACTATTTGAGATTTATTTGATTTAAATAAAGAATAAATATTTTTTGAAAAATAATATTTATTATCTTGATCAAATTTTCCAACTCTTCCAATAGATTCATTTGATGTTGATAAATTCAAGAAATCTTCAATATTTTTTCCATCTTCATTTTTATTATATTCTTCAATTAAATCTTGTTTAATTGAATAGGTCAATGCTGAATTATTTAAATAAAACATAAAATTAAATATATCTATAGCAGAATCTATTTGAGAATTTGTTAAATTTTTTTCTAAAAAATAATTATTTTTTAAATAAATTTGACCAATTAGTGAGTTTTTAAAATACTTTGATGAAAAATTAAATCGATAAAAGTCTCCAAATAACGAAATAAATATTTTTAGCAAAATTGAAAAGATTAAAAAATTATAATTTATAATTAAAGATTCAAAAAAAGAAAATGAAAATAAAATACATAAAAAATAATGTACATTCTTAAAAGAAATTATACTTTTCATTTTCTTTTGCTCCTTTTTAATAAAAGTTAAGAGCTATTCCCGACTCTAAATTTTATATTTCTATTTTAATGAAAAAAAATAAAAATCAATTAAATAATTTTTATTTTAACCCATTAATGTAATAGGAGATTCTGTTCTTATTTTTCTTGTAGTAATAAGTATTGATGAAATGTAACTAGTAATAATTAAAATTGATGAGGCTAATGGTGACCACCAAGTTAGTCCAATTGGAATAGAAATTAAATTGCTTTGAACGAAAGTGGTTGTTAATCAAACTAATCCAAAACTAGTTAAAATTCCTAAAGCTAAACAAATTGTTGCTAAGAAAGTTAGAAAACCAAATGAATATTTAATTATTTTTCAGTTTGAGTATCCTAATGATTTCATAACAATCATAAATCGTTTATATTGATTTGCATATAAGTCAGTAATTATTATCATTGATAATGTTGCAATAATTATAATTACAACAATAAAGGTAATTCCAATTGTTAGCACTAATGAAGTAATTTGATTTATTAGAGATTTTTGCTCAGTTAAAAATTCAACTTTTTCCATTTCTAAACCATCATAATATTGACTATTACCATTTAAACTATATTCACCAACTCTAACTGATTTTGAAAATGAAGCTTGAGTAGTTAAAAATAATGGTTCTTTTTCTTGAGAATATATTCCATTATTTCATTGTAAAGGTTTATAAGTTTTTTGAGCTTCATTGCCCCAAATTCAATTCTTTTCATTTTCTGTAGCAATTAAATCTTCAGGTGTATTATACTCATAAGTTTGAATTTCATTATTATTTAATAAGTATGAACTTTTTTGTTCTTTTTCAAAAATATAATTAAAAGGAATATAGATATCATCTGAAAAACCATGTAATAAATTAATTAATCTTTGATCTGCAATTATTAAATTTTTTCCAAAAACATCTAACTTTGAAATAGGTACTAAGTTTATTTGCTTAATTCCTTTTTCTTTTCAATTCATATCTGTATATTTATCAATAATTGCTGGACTCAATTGTAAAAAATTCATTTTGTAAAAAGAATTATAATGATTTAATAAATAATCTAATTCTCCTCCTGAAAAATTTGTTTCGACAGGTTTAAAAGTTGAATCAAATCTTAATGAATATGGCCTAATTCAAATAAATTCATCTGTTTTGTTTGCACCTCATGCATTAATAACTTCATCTGGTGCACTATTTGTTTTCCCATGTCATTTTGAATTATCATTATTTGAACCCATTTTAAATAATGAAGAAAAATCTTTTTCATATTTTGTTGGTACAAAAAGCAGTAAGTTTTCATACTGATAATATGATCTAATTTCTGTTTTTAAATTATTTTCATTATCATAATCAACATTTATAAAACCATAAGAATTATTTGTTAATTTTAAACTATTGCTTGTGCCATTTCAATCGTAATCATAATCATAATTACTTTTATCAAATATTTTTGCAAATGTAAATTTTGATATATCCATGTTAAAAGGATTTAAAAATTTATTTAAATTTTCATTTTTTAACGTTTTCCAATCACTATCATCATATATTCAAGCACCATTTGGAATAGATTTTTTATCACTAGATAGAACAAGTCTAGTTGATTGAAAATCATTAACTTCAATTTTTTTTCCACTTTGTTTTAAATTTAATTTAGCTTGTTCATTTAAATTAACTGGGATATTTAATACACCATTATTATAAAGCTCAAATCCCGTATTTGTTTTAATCGAACTAATTGAGGAATTATTCCCCTCATTAATTACTTTTTTTAATTGTTCTATTTGCTCGTTACCAATAAAAATTTCATCACCATTTTTTTCAAATTTATATGCCTTTTGGTTTGACAACAACCCTAAAATTTTTGAGTCTTTTCCATTGATTGTATTAAAGTCTGCTTCTGTATAAAAATCATCTTTTCCTGGAATATAATTTGAATAAGTTCAACCAAAATTATATTGATTAAATCTATTCTCACTTTTATCAAGAAAATTTTTAACATAAGTTGGTGCTTGTGAAAGAATTATATTTATTATATTTTCTTTTCATGAACCATTAATATTTCCTTCACTTTCAACTAAAGGAAATAGTTGATCCATTACTTGAGGTAATCCTTCAGTTAATAGGCCTGTAATATTTTTTACATCTTTTTTAAAACTTTCCATATTATTAGATTGATTTCTTCTGTAATCATGTGCCATTCATTCAATTATTCTTTGTATTTCTGCAATACTAATTCCCTTCCCCAAACTTTGTGCAAGACCTGAACCAAATATTGAAAAAATAACACTTAATAATGCTGAATTTTCCTCAGTATTTAATTGATTACTTGAATTTGTAATAAAATCAAATAGTCATTCAGATTTTATTTGCTTATTTGGGTCTTGATTTAAAACTAACTTTGGGAACATTGAAAAGTCACTTATGCTTGTAGTATTAGTTACAGAATTACTTAAATAGTTAATTCCATCAAATTCATTATTTATATTAATTAAATAATTTTGATAATAATCCGCCCCATTTCATGGTGACAATGCTGTTTTTGCCATGGGAGCATTTCCAATTGGTTCAATATTTTTAATTGAATTTGAATACTTAACATTTTTATAATATGAAGTAACAGCTTTACTTACCATTCCAGGAATTGCCATTGAAGAACTAATAAGTAAGCTTGTAATTAGTATTGTAATAGATGCAATAAGTGTTGGTTTCATAGTGCTTGTTGCAAGTTCAATACTAAATCTAACTGTAAATTTTGTTCTTCTAGTAATTTTAGTTTTTAAATTATCTAATCAGACTATTCTTTTGACAACTTCTTTTTTTTCAATTATTTTTAAAACAGGTTTATTAATTAAATAAAAAGCAGTAAAATATGAAACTAAAATAACTGTTATTCCAAAAGTAAATAATAAAATAGCAAGTGAATAACCATTAAATGTGACCTGTTTATATGCTCCACCCATATATGATATAAATAGGCTTGAAAAAGGATCTTGTAAAAAACCACCAAGAAATCAAGAAATTGGTATTACTATTAATAATAAAATTAATCCATATGAAATATATCCAAATGATATTTGTGAATTTTTAGCACCTAATGCTTTTAAAATTCCTATTTCTGGAGAATTAAAATTTATTGTTTTTCTAACACTTATAATAATTGTAATTAAACATATTAATAAAATTATTGAGCAAGTAGAATATAAAATTATTGAAAAAGTTTTTAAAACAATTGGTGTTAAATCCCAATTTCAAGAAAAAAAATGTTCATTATAAGAAACAAGTTTTGTTCCATAATCAATTGTTAAAGTTCCCTCACTTTTAATATTATTTAAATCATCATAAATTTTATCTTTATATGAAAATGATAATGAATTATATAAGGAAATATCTTTTTTTACATCTGTTTTATTTTTACCTGTAAAAATTGTATATAAATTGGTTGTTGATATTTTTGCATCAGCAGTTTTTATTACTAATTCTAGTGCTTCAGGTGAAATAAATATTATGGCTCCTTTTTTATTATTTGGAAATGGAACAGATAAATCAGCTAAAGGAAAGTTTGTATATGGATCTGCTGCATATCCCGAAACAGTTAAGTCAAAGTCACCGACTTTAATATTTTCTCCAAGTTTAATTTTATTTTGTTTTGCATACTGTGGATTTATTAAAATTTCATTTAATGTCCTTGTATTTTGTCCCTGGTATATCGTAAGGTTTGATTTAGTTTGATTATCCATTAGAACAAATCTATATTGTTTTTCTTGATTATTATCTGGTAAGTTTAATTCTAATCTTGAATACACATCTAAATTAGTAACAAATGATAATAAATTAGTTCTATACAGATAACTCGTTGGAATTGAAGCATTTTCATTTAAATAATTGCTTTTATCTTTAAATGCCTTTTTATATCTAAGTGTATTTGCAATATTTCCTTCTTCTTTTAAAAGAGTTAAAGCAGCACCACTGTCATTTGCTTTCACCAAATCATTTTCATATGTAATTTGAATTAATGAACCTCTTGCACCATTTTCATAAATATTGTCTCCATTTTTTAAGATATTAGCAGTTTGTAAATTAGAAGAATTAACTTTTTGATCTCATTCCTTATTATTTTCATTTACTATAAAATTTTCATTTACATTATCGTTAATATCTAATTTTTTACCAAATAATCAACAATAAATAACTGAAGCATTATTAATATTTGATTTAGATAAGCCACTGTTTGTAGTAAAGTAATCTTCTCAATTTATTTTTTGCAAAATTGCTTGATCCATTCAATACTGTACATAATCATGCATCATTTTATTTAATTGAGCAATTATTGAAACTATTGAATAATTTATATATACATCTAACTCTTTAAGAATTGTTTCTTTTGTAAAACCACTTTGAATTTTTTTATTAATAAATTGAGAAATTAAACTATTGTCATTAAATTCACTTATTTCAAGCTGATTTTTAATCAACTTTATTGTTTCTTGAACAAAATTTGCAAAACCATTTAAACCATTTTTTGTTGATGTATAAACAAGATAGGGAGATTTATATTCATAATCATTGTATTTATTTAATGAATCGAATCTATATCAAAAATTTGTTTTATCTCTATTTGACATTGTTTCATCCATACCATATGCATTAAAGTATATTGGTTTAGATTCATCATAGTTAAAATCAAACCAAGATTTTGTAAAATCCGACGAAATTAACTTTTGAAATATTTTTTTAAAATTATCACTTTCAAATGCTTTTGTAAGAAAAGTTGATTTATAATTTTCATTATTTTCAAAAGATGAAATATTAAAATTATAAGCAATAGATTTATCATCAAATTGCAAAAATTGATTTGAAATAAAATCCACAAATGGAGTAAATTCTTTTGATTCACTTTGATTTGATGATTCAAGAGTTTGCGTCTCTATATAGTCAAACTTAGCAGTATTTCCCATTGTTCTGTTATATTCATATTCTAATCTATCATTAATTGAAAATGTGATACTTAATATTAAAGATGCAAAAAAACCTAAAATAACAATTAAAACAAATTGTATTTTGTATTTAAATATTCCCTTGACACCTTGTTTGGTTAACAAAAAAGCATTAATTTTTTTCATATTTTCACCCTCTACTAAAAACTATTATAAGAAAAAAAGTAAAAAAATACAAATATTAGCTTTTTTACTTATAAACTATTATAAAATTTTTCCTTGAGCAAAAGTTTCATTTCCTCCACCTTTTACTTTAAAGTCTTTTGTATTTTTAAATATTTCAATTGCTTTAAATTGTGAAGAAATACTTTCACTAACTGAAACAATATAAATACCATTTTGTTTATTAACAAATTTAATTATTAAGTTATCAAATTTATTTTGGAGTTTATCGGCTAATGCTTTTAATTCTTTCATATCCAAATCATTAATTTCTAAGGAAATTTCATTTATACCTTTATCTAAAATTGGAGAAATGTTATTATATTTTATTAATTTTTCTTCTAACAAAATATCTTCGATTTCTTTTTGATAAATTTTAAAAGAATTTTTTAATTCATTAACTTTAGTTTTTAATGAAAATAAATTATTTTTATTAACTGATATATTATTTATTTCATTTATTGCTTCTTCAATCTCATAATTTTTTAATCTATTTTTTCAATTATCAAATTTATTTATTAATCCTGATATTTCATTTTTTTGTTTTAAAAATTGTTCTCTTAAAAACAAAGAAACTCCACTATGACTTGTAACTGCATGATATCTATAAACACCACTTCCCTTTGATTCAACTTCTGTTATAAGTAAATCTTCAATATCTTTAGAGTTTTCAACATGAGTTCCTCCACAAAGTTCACAAGAAAAGTTACCAAACTTAATAACTCTAACTTCAGAACCATATTTTTCTGTAAATAAAGCTAATGCATTATGTTTTTCAACTGCCTCATCTAATGAACAATAAATGATTTGTCTAGGAATTTGATTATTTATTTCCCTTGTCATTACATTATGAATTTTTTCAATTTCTTCTTGAGACGGTAATCTATTATAACTTATATCAATTCTTAATCCATTTTCATCATTATAACTACCTGATTGAAGTGCATTTTTGCCTAATACTTCTTGAATTGAAGATTGCAATAAATGTGTTCCTGAGTGATTTTTCATTGTATAGTATCTTTTTTCACTATCAATTTTTGCTATGACTTTATCTCCAATATTTAAAATGCCATTTATCTGAACTTTATGAATATGTTGTTTATTTGGTCCTACCTGAACATCTAAAACATTATGTCTATTCATATTATCATCTATTAAAACACCTGTATCTGCTGCTTGTCCACCTTTTTCTGCATAAAATGGACTTTCATCTAATGTCAAAAATACAATTTTATTTTCTGCACTATTTAAAATTACTTCTTCTTCAAAAATAAAATTAACTTTTGTTATGATTTCTTCTAAATCATAACCAACAAAATCACTTTTAATATCTAAGTTAGTTAAAATTGCAGATTGTTTATTTCAAGCTTTTTCATTTTTTCTTGAATTTCTTGCCAATTCTTTTGAGTCTTCTAGTAATTTTTCATAACCTTTAATATCAACTTCAATATTTTTTTCGGTTGCCAGTTCTACAGTTAATTCTATTGGAAATCCAAATGATTCAAATAATAACAATGCATTTTTATCACTAATTTTTTTTTCTTTTTCCATTATTATTTCAAGTGAGTCATAACCTTTTGATAAAGTGCTTAAAAATCTGATTTCTTCACTTTTTATAACTTCTTTAATAGATTCACTTTTTTCTTTTAAATAAGGATAAAAAAAAGACATTGTATTAATAACTTCATCTACTAATAAATATAAAAATGCATTTGCTATTCCTAATTTTCTTCCATATACAGAACTTCTTCTAATTAATCTTCTAATTATATAACCTCTATCTTTATTTCCCGGAAATACACCATCACTAATTGCAAAAACTGTTGCTCTAATATGATCAGCAATTACCTTGAAAGCAGTATTAATTTTAGTTTGTTCTATTTTTTCATTAAAATAATTATCGATTGAATATTTAAAAGATTTATCACATAATTCTTCTATTTTTTTTATTGTTGGTAAAAAAATATCTGTTTCAAAATTTGTTGGAGTTTCTTGAAAGACAGAAACAATTCTTTCTAAACCAGCTCCCGTATCAATATTTTTTCTTGGTAATTCTGTATAGTTATTATTACCATCATTATTAAATTGTGAAAAAACAATATTTCAAATTTCAACATAGCGATCATTTTCAATATCATCTTTTAATAATTTTGAACCAATATTTTTTGGGTCTCATCTAATACCTCTATCAAAAAATATTTCTGTATTTGGACCACAAGGTCCTTGACCAACATCTCAAAAATTAGTTTCTTTTGTTCCTTTAAAAATATGATCTTCTTTTATTCCAATTATTTTAGTTCAAATATTATATGCTTCTTTGTCTTCTTCAAAAACTGTTATATATAAAAGTTCAGGGTTCATTCCAAATCATTTATTAGAAGTCAACAATTCTCAAGCCATCTCAATTGCTTCTTTTTTAAAATAATCTCCTATTGAAAAATTACCAAGCATTTCAAACATAGTTTGATGTCTTGCAGTAACTCCAACATTTTGAATGTCATTAGTTCTAATTGACTTTTGTGAGTTTGTAAGTCTTGGTGAAGGTGGATTCATTCTCCCATCAAAATATGGTTTTAAAGTGGCCACTCCTGAATTAATTCAAAGCAAACTTGGATCATCTACAGGTACTAAACTTACTGGCTCAAGAAAAAAATGATTTTTTGATTTGAAAAAATCTAATCACATTTTTCTTATTTCATTTGATAAAAGTTTTTTCATTTTATTATTCTCCTATAATTAACAAAGTTATTTTAGCATATACAATTTTAGAGATAAATTAAATTAAACATTCCTTATGTACAGCCATGGTTATACCACTAAAATTATTTTCATTATAATTTTCATTATTATAAAATTTTATATTTCAACTTTTTGAATTATTTTCCACAGAATAATGACTATTAAAATCCATTGGTTCTTGACAAACTAAACAAATTCTATGAGCATCCATTATATCTTTTTCATCACCACAGTGACATAATAATGCATTACTTCAAGCATTTAATGCAATATCATCTAATTTAATTTTTTTCATACTTTTCCTCTTTATTCTTAAATATTGTATAAAAAAAACTACTTAATATAAATTAAATAGTTTATATTCTATTAGAAATTAATAGGTTTCCCCGATTCAAGAGCTTCTGCTGCTTCACCAATTGCTTCACTTAATGTTGGGTGAGGATGAATTGCTCTTGCAATTTCTGTAATTGTTCCTTCTGATTCCATCAATGTTGTTATTTCAGAAATCATATCTGTTGCTGTGTTTGAAATAATGTGACATCCTAAAACTTGCTTATATTTTGGTTCACATATTAATTTAACAAATCCTGTTGTATTACCATCTGCTAATGCTTTTCCAATTGCTGCAAATGGGAATTTAAATGCTTTATATTCAACACCTGCTTTTCTAAGTTCATCTTCTGTTTTACCAACAGAGGCAACTTCTGGGTGAGTATAAATACAACTTGGTACTCTTTCGAAGTTCATTGCCAAATCTTCAGCATGTTCTTTTTGGAGCCTTCTTGCAATTCTGTTTGCTGCAATAATTCCCTGATGTGAAGCAACGTGTGCTAACATCATTTTTCCAGTAACATCCCCAATTGAGTAAACTCCATCAATATTTGTTTCACAATATTCATTAACAACAATATGACCACGTTCATTTATTTGTAATCCTATGTTTTCAAATCCTTCTGTAACAACTTTTCTTCCAACAGATTGTAGACAATAATCGGCTTTTAATTTAATTTCTTTACCATCTTTTTCATATATTACTTCATTTTTTCCAAATGATTTTGTTGTTGCTTCAGTAATTATCTCAAGATTTCCCCTAGAAATTAATTCCTTGGTCATTTCTTTTGAAACATCACTATCTAACATTTCTAGAATTGTTGGTAAAAACTGTAATATTGTAACTTTTGTGCCTAATCTTTTATAAACACAAGCAAATTCGACTCCAATTACTCCCCCACCAATTATAACCATTGATTTTGGAATTTTTGGAAGTGATAACGCTCCAGTTGAATCAATTAATCATCCAGATTCAATTGCTTCTTTTGCTCCTGGTATTGTAAAGTGATTTGGCACACTTCCTGTTGCAATTATCATATTATCACAAGTATATTGTTTTTTGTCAACTTCAACTGTATTTTTATCAATTGCTTTTGCAAAACCTTCAACTGTAGTTACTTTATTTTTCTTTAATAATCCTTTTACTCCTGTTGTCAATTTATTAACAACATCAGCTTTTCTTGCTTGAATAGCTTTTCAATCTGCTTTAACTCCTTCTTGAGCCACTTTAATTCCATATTTATCAGCATGTTTTGTTATTTGTTCATATAAGTCAGCTGATTTTAATAACGTTTTTGTTGGAATACACCCAATATTTAAACATACTCCCCCATAATTTCCTTTTTCAATAATTAAAGTATTTAAACCAAGTTGAGCACATTTAATAGCACAAACATATCCTCCAACTCCTGCACCAATTACAATTACATCATAATGATTTGCAGTATCTTTTGGCGAAAATTTAGGTGCTGGTTTCAATGTTCTCCCATGTCCACTAACTATTCCTGGCATAGGTGTGTTTCCACTTACTGCTTCTATTACTTTTGCAGCAATTGATTCTTTTGGCGGAACAGTTCTTCCTGCTCTACCCCTTGATAATAAATCATTTGAAACTGGTGTTGCACCAACAACTGATGCATTTTCCTCAGCAGTTTCTGCTTTTTTTTCTGGTTCCGCTGTTGCTTCACCTTTTCCATCATCAATTTCGATAACAACATCTCCAACTTTAATTTCTTGATTCGCTGAAATTAAAATTTTTGCTATTTTACCATCTACTGGTGCATAAATATCTGAAGTAACTTTATCTGTTTCTACATTAAATAATCTATCTCCCATTTTTACTGAATCTCCAATTTTTACAAGAACTTCAGTAACTGTTCCCTCTGTTAAACCTTCTCCAATATCTGCGAATTTTACTTTAAACATATTTTATAACCTCCTAAACTAACAAAGTTGCAGGATTTTGTAGATAATATGCAACTTTTGTTAAAAATCTTCCAGCATCAGCACCATCTATTACTTTATGGTCAGCTGTAATTGAGAAAGGCATGAAATCTCTAATTTCAATTTTATCATTAATAACTCCAGGTGCTCTTGTGATTGTCCCAACCCCAAGTATTGCAGACTCTGGGAAATTTACTATTGGTGTTGCATAATCAAGTCCTACAGCTCCAAAATTAGTTACAGTAAAAGTTGCTCCAGACATTTCATTTGAAGCTAACTTTTTACTTCTTGCTTTCATTGCAAGATCATTTATTTTTACAGCAATTTGTAAAACACTTAATTTATCTGCTCCCTTTATAACTGGAACCATTAATCCATCAGGTGTGTCACAAGCCATACCAATATTTATTTGTTGTGCAAATTTAGTTGCTTTATTTTCTTCATCAATTCTAACATTTAAATTTGGCATATCTTTTAATGCATTTGCGCAAGCTTTAATAATAAAAGCAAGATATGTTAATTTAACTCTTTGTGAATCTGCAAAAGCTTTTAATTGTTTTCTAATATTTACAAGTTCTGTGACATCCAAATTTCTTAAACCTGTAAATCCTGCAACTTTTTCATGTGCTGTTGTCATTGCTTTTACTGTTGCTTTTCTAATTGGATTTCAAGGTTTTGATTCAAATGTTAATGGCTCATTAATTTCAGGAACTGAAATTAATGGGTTTGAGTAATCAATTTGTTGTTTTGCTGATGCTCCACCAACAAAAGCAACTGGTGCGCTTTTTGCAGGATTTGCAGCAAAACTTTGAATATCATTTGCCAAAATTCTTCCGTTTGGTCCTGTTGGTGTTACTTTTGAAAGATCAACACCCATAACAGCAGCAATTTTTCTTGCTAATGGTGACGCTTTTACATCAACATGACTATTATCAATAATACTTGCCTGATTTGAAATTGTTTGCTTTGTAGCGACATTTCTATTTGTATCTCTTGAAATTAAATCATTTGAAACTGGTGTTGCACCAACAACTGATGCATTTTCTTCAACTGGTTGTACATTAGATGAAGATTTTTTTTCCGGTTCCGCTGTTGCTTCGCCTTTTCCATCATCAATTTCTATAACAACATCTCCAACTTTAATTTCTTGTTTTGCAGAAATTAAAATTTTTGCTATTTTACCATCTACTGGTGCATAAATATCTGAAGTAACTTTATCTGTTTCTACATTAAATAAGCTATCTCCCATTTTTACTGAATCTCCAACTTTTACAAGAACTTCAGTAACTGTTCCCTCTGTTAAACCTTCTCCAATATCTGCGAATTTTACTTTAAACATATTTCTTATTCTCCTATTAGAATTTGTAATTTAACAAATCTTCCATTTTAACTAATATTTTTTTTGGATGAGGTTGGTGAAATGCTTCACCTGAATCAAATGGTATAACAATATCATAACCTGTACATCTTGATAAAGGTGCTTTTAAGTATTCAAAACATTCTTCATTAACTGAAGCAATGATTTCAGCTGATACTGAAAAAGATCTAATTGCTTCATGAACAACTAATAATCTTCCAGTTTTTTTAACTGATTCAAAAACCATTTCTTTATCTCATGGTTGAATTGAACGCAAATCAATTAACTCAATAGTAATATCAGGGTTTTTACTTTCTAATTCTTCAATTGCTTTTTGGCAATCCACTGTTTGTGCTCCATAAGTAACAACAGTTAAATCATTTCCTTCTTGAATTTTAAATCCTTTACCAATTTCTACGGTATAAAATCCTTCAGGTACTTCTTGTTTAAAAGCTCTATATAGCTTTGTTGGCTCAAAAACAATAACTGGATCTGGTGATTCAATTGCTGCTAAAATTAAACCTTTTGTATCATATGGAGTTGAAGGACAAACTACTTTAATTCCAGGAGTATGTGCATAAATTGCTTCCATTGCTTCTGAGTGAAGTTCCAATGCTCTAATTCCTCCACCCATTGGCATTCTAATAACAACTGGTGTAGGGTATTTCCCTCTTGTTCTATTTCTCATTCTTCCCATGTGACCTAAAATATTTTGAAGAGATGGTCAACCTAATCCCTCAAATTGTAATTCAATGACTGGTTTCATTTTATTTATTGCCATTCCAAGAGCAACACCAGCAAAAACTGCTTCAGAAATCGGTGCATCAAAACATCTTTCCTCTCCAAATTTTGCTTGTAATCCTTCAGTTGCTCTAAAAACTCCACCTTCAAAACCAGCGTCTTCTCCATAAACTACTACTTCACTTCATTTTTCCATAGCTACTTCTAGTGCTTCAGAAACTGCTTTAACATTATTTAAAGTTTTCATTAATGATGTCCTCCTTTTGCTTCAGGGTGTGCTTCAAAGAAAGCTTTAGCTTCTTTGTATTGTTTTTCTAAATCAGGTGTTTTTTTTGCAAATTGATAATCAAAAATATCTTCAATTGGATAATCTTTATTAGCTTCTGCTCAATCAAACTCTGATCTAATAAATGTATCTTGTTCATTATCTAATTTTTCTTGTTTTTTATCATCTCATGATTTTTTATTAATTAAGTATTGTTTTAATCTAATTAAAGGATCTTTAGTTAAAGCTTCATCGAATTCATTTTGTGGTCTATAGATTAGTGGATTATCTGAAGAAGAGTGTGCTCCAAGTCTATATGTATCACATTCAATAAAAACAGGACCATTTCCTTTTCTTGCATACTCAATTGCTTCACTTGCAACAGCATAAACTGCCAAAAAGTCATTTCCATCAACCTTAATTGATGGAACACCTGAAGCAATTCCTTTAACTGCAATATTAAGTGATTTTGTTGATTTTTTATATGGAGTTGAAATTGCTCATTTATTATTTTCACATATAAATATTACAGGTAATTCATGTAATTTTGCAAAGTTCATTGCTTCATAAGTTTCCCCTTCACTCATTCCTCCATCACCTGTTGTAGTAACTGCAACACCTCCAGTTTTTTTATACTTTTCAGCAAAAGCTATTCCAGTTGCTTGTGAATATTGTGAACCTATAATAATATTTGGTGGTAATGAATTTACACCTTCAGGTGATCTACCTCCATATTCATTTCCCATTCAATAAAGCATAATGTTTTTCATTGGCATACCTACAGTTAATCAAGCCGCATTGTTTCTATATCCTGAAACAAATCAATCTTTTCCTTTAATTAAAGGTAATGTGAACCCAATTTCTGAAGCCTCTTGTCCAGTAGAAGAAAGAAATGATAAAAGTCTTCCTTGTCTTTGTGCTTTATTTTGAAAATCATCTTGTCTTCTTGAAAGATTCATTAGTTTATATGCTTCAATTAATTCTTTATCACTAATTTTTGGCATTAAACTTTCATTAATAATTTTCCCATTTTTATCCATTATCTCTACTATTTCATTTTTTAATGGATCAAATTTTCCTATAAATTTCATATAATTTTATACCTCCTATTGAATTAATAAATCTAAAATATCCTGTACAACAAAGTTTGCACCAAAAATTCCTACAATATCAGTTTCATTTAAAACTTTTTCAACTTCTGATGCTTTATACTGCACATTAATTAACTTATTTTCTAATTCTTCTGTTCCTTTAAAACCTAGAAAATCTCCATATATTTGCGCATTTTTAATAATATTTTTTTCAATTTGTAAAAGAACTTCAACTGTTCCCTTACCCTCAATTCTTTTTTTATTTCTATAATCAAAATCTGCATTTTTTGCAAATGTTCAATCTGGATTTGAAAATTTTTCCCTAAATAATTTGTCAATTGCTGCGAGATCATCTTTTTCTAAAACCAATGGATTTACTACATCCATTTTTTTATAAGTTTCAATTAGTTTATCCATAAAATAACTAATTTCGATTTTTTCTTCAATTTCTGAATTTACATTTGTTACTCTAGCTGAGATTGATTGGATGTTTTTTGCTATGATTTTTGCTCTATCCACTGTTAAATACTGTGCTAATCTATCTAAATTTGCATTAAATAAAACAGTACCATGTTGTAAAAATCTATCTTCATATTTTCACATAGCATTTCCTGATATTTTTTTTCCATTTAACTCAATATCATTTCTACCAGAAAATACAGCTGGTGCTCCTAATTCATTTAATGTATTTATTACAGGTGATAACATGCTTGAAAATAAAGAAACTCCCTTATTTTCAATATCAGTATATATAATACTGAAATTCATATTGCCTAAATCTTGAAATACAGTACCTCCACCAGTATTCCTTCTTATAATATTAACACTATCTCTTTCTGCATTTTGCAAATTAATTTCCCAAGCAACATTTTGATTTTTTCCAATAACAATTGTATTGTCATTTTGTCATAAAAACAATATTGGCTCTTTATACTTTTTTGATTTTACAAGGTATTCTTCTGTTGCCAAATTATATTTTGGATCAACACAAGAAGTTTTAAAAATTAACATACCTTAAATACCCCCTATTTACAATTATATTTTAAGTCCTTATTTATTTCTACTATATTATTTTTAAAGAATGAAAATTTTTTTCATATTTCATTATTCTTAATTTAGAATAATATTATGTTGTATAGATAGGAATGATAATATGCAATTACAACACTTATCAAAGAAAAGACTTATCTTAGTTGACCTTGATGGTACTGTTTTAGCAGAAAATGGTGAAGAAATTCACCCAAAAACAAAAGAAGTTTTAAATAAAGCAATGAAAGATGGCCATGAGGTTTGTATAATTACGGGAAGACCCCACAGAGCATCAATAAGGTTTTATAAAGAATTAGGATTAACAACACTTTTAACAAATTTTGATGGTGCTCATATTCATGATCCACTTAAGAGAAGATTTAAACGAATTGTCTTGCCAATTAGTGAAGAAATTGTACTACAAATAATTAACAATCCAGCAATAAAAAATAAATGTTCTAATATTCTTATAGAATCATATAATAAAGCTATTGTTCAACATAAAGATGAATTTGTTGAAAAATTTTTTCATCTTGATGATGTGGAAGATGACGATTATTTTATTTCAGATCCATATAATAATTGAGAAGGACCTGCAACAAATGTTGTTTTATTTTTAAAAAATGATATGGATAAGGATAATGTTTTAAGAGCATTAGAAAAATTTAAACATACTGTTAAAATTCAATCAGGTAATGCTTATGGAAATTTAACAAAGCAATCAACTGCTATGATAACTTTAACAAATAAAATTGTTAATAAAGGTTTTGTTTCAGAAATATTAGCTCAATACTATAATAAAGATATAAGAGATGTTATTGCTTTTGGAGATCAAATGAATGACTATGAAATGATCCAAAAAGTAGGTTATGGAGTTGCAATGAAAAACGGTAACTCTGAATTAAAAAATATTGCTGATGGAATTACAATATTATCAAATAATGAAGGTGGTGTGGGAGATTATTTAGAAAAACTTTTAAATGGTTTAGAGGTATAATTAATTTGACTAATATAGTTATGCAAGGAGAAATCATGAAGTTAGAAAATAAAAAATATCTTTTAGACAGTAATAAAGAAGTTCAATTAAATGAATTAGTTGGAGAAAAAGGTTTAATAATGTTCTTTTATCCTAAAGCACATACATCAGGATGTATTTTAGAAGTTCAAGAATATGAAAAAAGAAATATAGAATTTAAGGATTTAGGTTTCAATATAGTTGGTGTAAGTGGAGATGATGTAGAAAATCAAAATAGTTTTTCATGCGATTATGTTCTAAATTATCCTTTAATTGCAGATGTTAATAGAGAATTAATTGCTAATTTTAATTTAGAAGCTGAAACTACAACTTGAGAAAATCAAACTATTAAAATTACTAAAAGAAATACATATGTATTAAATAAAAATCTTGAAGTTATCAAGGAATTTAGTGATGTAGATCCTGTTGGCCATATTAATGATGTAATAAATTTTTTAAAAAAATAAAAATAGTTTTTATAAATAAACTAACTATACTTTATTAAGTATACAAAATGTTTTATTTTAAAAAAGCAACATCTTATTTAAATGTTGCTTTTTTTTATACATTTTTGAAATAGATAATTACAAGGCATTTATGTCTTATAACAATTCTGTCATAGTTATAATATGCGATGTAGTATTCAATTAGTTTTTCTAAATTATTAAAATCATTTTTACATTAATGTTTTTTGTTTTTCAAGTTTTATTTGAAAAAGAAAGTTTTACATATAACATTGTCTATTAAATTCACTGTGTATAAAATGAATATATTATACTATTCTTATTAAATCTTCTTGCTCAAACTTAATAATATTGATTATCATTGTCGAATGAACAATAAGTTTATAATTTCCTTTAAATTTAATAGATTTTTATTTTCTTTGAGTTTAAGTTGTTGTTTCTTAATCCTTAAGGTAGAATAAGGAACCATGAGTCTCAAAAACAAGAAATTCTTGTTTTACTTACATTTTTAGTTAAGATATTTATTCCTAAAATTCATATAAGTCATTAATCATAATAGAAATTTCTTTCATTTCATTTGAAATAATTCTGCAAATTTAATTTGATTGTAGTTTACCACTTTGTGCTCATTGATAATAATCATTTAGTAATCATTAAAGTTCTACAATTTATAGATATTAAAGATTCCCTTTTTAACTCATGAATTAATAAGTTTTTAAAATAAATTATTTTTTTAGCTCACTTTTCATTAACACATTAAATTTTTTTAACACATTTTTGCAATCGTACTATTTCACAATTTTTAAATCAATAAAGTTACTTCTAATCAATTATTACTGTATTTTGTAATTTTTGATGTTAAAAAATTGTTTACAAATTTTTAACAATCTAAAATCATTTTATTGGCCAAAATAGAATACACTATCAATATTTTCTAAAACTAATTTTTGTTTTAAATTGAGCAAATGATTAATGTTAAACAGGTTTTTGTTATATATAAAATTCCCTCATATATTTTAATGATATTGATTTTTTATCATTTTGTATATTTAGAGAATTATATTTAAACCTTTTTATTTTTAAATTAATTTTTTTAATTCTTCAATTAAATAAGATATTTCATTTACTAAAGGTAAATATGTTTCTTCCTTTTCAAAATCTACTCCGACATCTTTTAAAATATCTAAAGGTTCTTTTGAACCACCTGACTTTAAAAAATTTAAAATATTATTATTTCCATTTTTAAAATCACTGTACAATTTAAAACTTGCTACTAAATCAATTGCATATTTGTAAACATAAAATGGTGAATGAAAAAAATGGGAAATATACGATCAATTATATACATCTAATTGATTGTCATCAAAAATATCATATCCAAATTCAATTTGTTTTGTTTTAAATAATTCCATTAAAGTTTTTGTAGTAATTGGTTCACTATTTTCAACTAATTTATGCGCAGAGTATTCGAAATCTGCAAATTGAATTTGTCTATAAAAAGTTGAATTTAAATCAAAAATTCTTTGTTGAAGTAAATAGATTTTTTCATTTTTTTCATTAGCTTGATTATACATATAGTCAAAGAGAAAATGCTCATTTAAAGTTGATGCAACTTCTGCAAGTATTATAGGATAATTATTTAATGGATATTTTTGATATTCATCTGAAAAAATTGTATGAACTGAATGTCCTAATTCATGTAATAATGTATTTACTGATGATAACTTGAAATCTCAATTCATTAAAATAATTGGTTCAATTCCATTACCCCCAGATGAATATGCCCCTTGAACTTTATTTTGTGATTCATAAAAATCTATTAAATTTTCTTTTAATGCAATATTTAATTTACTTATATATATTTCTCCTAAAGGTTTTAAAGCTTCCTTTGAAATTTTTATTGCTTCTTCTACTGAAAAATCTTTATCATAATTTTGAACTAATTTAAGTTTTCTATCTGTAGAATTAAATGTCTTTAAGTTATACTTTTCTTTTATAAGTAAATTATATTTTTTGAATTCATTTATATATTTTTTCCCAATTTCTATCAACTTTAAGTAAATATTTGAATTTACTTCATCATTAAATAATGCCATTTCCAATATATTATTATATTTTCTAATATTTTTATTTTCAATTTGTTTTTGCAAAATTGCTTCATAAATTTTTGAAAAACTATGTTTTCTTTTTGTAAAATTTGAAAAATATAGTTTCTCAGCATTTTGTCTTAAATTTTGCTCAAGTATGGGGTCTGAATCTTCCATAATTTTTTTATATACTAAATTATTTAATTCTTTTATTTCTTTATTTAATTCAATCTTTTCAATTTCATTATCCGCATATGCTAACGAATCATATAAATTACCAACTGCGCTTCTACTTCTTGATATTTTATTTATTAATTCTTCTTCTGATTCTGATAAAACATATTTTGATTCTTTAAAAAAATGTCTAAAAAAATATGCAAACTCTTTATATTCAGAATTTAAAATTCAATTCGAAATAATTTTTTCACCAATACTTTTAAGTTCATTTGAAATAAATGAAGTTCTTATATTTGAAATTTGTTCAAAATTTTCCATAATTGAATTTAATTCTTGAAATTCAAAATTAGTTTGATCAATATCTAATAAATGTAAATAATGACTTAATTTCACAATTAATAGATTTTTTTCTTTTTCTAATTTCAAGTAATAATAGAAAAAATTTCTTTTTTTCAATTTATTTTTTAATTCTGCAATTTTATTAACTAAAACTTCAGCTTTTGTTAAGTCATTTTTTCATTCATCAATATTTTTGTAAATATTTGAAAAATCTCATTTATATTTTTTTTCAATATGTTCTCGTTTCATTCTTTCCTCCTAAAATAAAAACACCATTAGGGTGTTTTTATTTTATTTATTCAACAATTCAAACATTGTTTTTAACATTGGTGCTCTTCCACGTTTATTTCTATCTGCTGTTGCTGCAATATCTAAATGTATATATTCTTTTGATTCTGCAAAAGAATCTAAAAATGCTGCAGCTGTTGAAGAACCCGCTTCTCTTCCTGGTTCTGAATTTGCTAAGTCCGCAACTTTCGAACATTGCATTTCTTTTAAGTGTTCTTCAATTAAAGGTTGTCTTCAAATATTTTCTTGCGCTTTTTTAGCAGCATTACTAAATTCATTATGAAAAACATCTTGTTTAGAAAAAGTACCTGTAAATCATCTTCCTAATGCAATAGCTATTGCTCCTGTTAATGTTGCAACTGTAATTGCTCTTTCTGCTTTTTCATTTCTAATTGCATAGGTAATACCATCAGCTAAAACTAATCTACCTTCAGCATCTGTATTTGTAATTTCAACTGTTTGTCCATTCATTGATTTAATTACAGATTCAGTTAAAGTGGCACTTCCCCCAATTCTATTATCAGTTAACATTGCAATTGAAACAACATTACATTTGGCTTTTGCTTTTGCAAGAGCCATAACAGTTGAAGAAACTATTGCAGCCCCTGACATATCAAATTTCATATTTTCAAGAAAATTAGATGGTTTTAGATTATATCCCCCAGTATCAAAAGTTATTCCTTTACCCACTAATGCAGTTCTTTTTTGTGAAGAATCTGAATTATACTCTAAAACTACAACTCTTGGTTCAACATTACTTCCAGCGTTTACTGCTAATAATAAACCCATTCCCATTTCTTCAATTTGTTTTTTATTATAAATAGTAACTTTAATTCCATTAATTTCTTTTGCCTTTGAGGAAATTTTATCTGCTATAGCAATTGAAGTTCCAATATTTGGTGGAAGATCTTGTAAATCTCTTGCAAAATTTAAATATTCCATTTTTATTAATGAAATATTTAAAAGATCATTAAATTTTTCATCAATTATAAAATTATAAGAAATTTCTTTCACTTCTTCTTCTTTTTTAAAGACTATCGCTTTATGAGAAGCAAAAATAATTGTTTCAATAACTTTTTGAAAAACTTCTTCCTTATTATTGAAAATTTTTAAAAAAGAATCAACATCTACATTTAAATTATATTTATTTGAATTAATAAATCTTTCTAAATTACTTTCTAATTGATCAATAGATACATTATCTGCTAAATAGAAATAAATTTTTTTATCTTCGCTTATTAGGGAAGCTACTCCACTTTCTTTAATAACTAATTCATTCAATTTATCTTTTGAGCTAACAGCAGATAAAGTTAATGAGTGGTTACCCTTATTTATATTTATCATTTTTTCTCTCCTTTAAATACAAGAATATAATACACCTTTTAATAAGCAATAGAAATCTAATTTATAATAAAAATCTCTTTGCATTCATTATTTTTACATTTTCCATAAATATAAATTAGCAAATTCAAACTATTTTTATCATAAGTCATATAACTTCTAGTATTACCATGGCCATTTGGACACTTTAATTTTTTATTAACTAATTTAGAATTTAAATTAAAAAATTTAGATTTAAAAATATAAATATAATAAGTCTCTTTCATTAATCTAAGATTTTGATCTTCAATTTCATCTAGTATTAAAAAATTTATTTGATTTGATGAAATTATTTTTTTTCTCATTTTAGAATATAACCTATTTTTAGAATTAAAATTTCTTAAATGTTGTTTTATTCTTTGCCCCAAATCTTTTGATTCACCAACATATGTAAAATTTAAATTTTTATTTTCAATTGAATATAGTAAATATACTCCAGCAACTTTATTTTTTGCCAGTTCCATAATATCAATTTTTTTATTTTTTTCAATTAATTCTTGAATTATTTTTTTACAATATTGTTCTGAAATATCTTTATATTTCAAATCTCTTGAAGTTTTTATTTTTCAAATTAATTTATATTCATTTTTTAAATCCATAAATTCATTATATCTTTATAACATAATTATATTTAATTAAAATTAAAAAACCCTTTAAAGGGTTTTTTAATTTTAATTTAATCTACAATTGAAACAACAGTTCCAGCACCGATTGTTCTTCCACCTTCACGAATTGAGAATTTTGTTCCTTGTTCAACAGCAATTGGTTTAATTAATTCAATTACTAATTCAACATTATCTCCTGGTAAAACCATATCTATTCCAGTTGGTAAATGAACTTCTCCAGTAACATCTGTTGTACGGAAATAGAATTGAGGACGATATTTATTAAAGAACGGTTTGTGACGTCCACCTTCTTCTTGAGTTAATGCATAAACAGAAGCATTTAGTTTTGTATGAGGTTTAATTGTTCCTGGTTTTGCAAGAACTTGACCACGTTCAATATCATTTCTGTCTACTCCTCTTAATAATGCTCCAACATTATCTCCAGCTTGTGCTTGATCTAATAATTTTCTAAACATTTCTAATCCAGTAACAACAACTTTTTTGCTATCTTCTACTAATCCAACTATTTCAACTTCTTCGTTAACTTTAACAATTCCTCTTTCAACTCTACCAGTTGCAACTGTTCCACGCCCTGTAATAGTAAATACATCTTCTACAGGCATTAAGAAAGTTTTATCTGTATCACGAGCTGGAGTAGGAATATATGCGTCAACTGCAGCCATTAATTCTTCCACTTTTTCAACTCATTTTGCATCACCATTCAATGCTCCTAAAGCTGAACCACGAATTACTGGTGCTCCATCTCCATCGAAATCATATGCTGATAATAAGTCTCTAACTTCCATTTCAACTAAATCGATTAATTCTTCGTCGTCTACCATATCACATTTATTTAAAAATACTGTAATTGCTGGTACTCCTACTTGTCTTGATAATAGAATGTGTTCTCTTGTTTGAGGCATTGGCCCATCAGTTGCTGCAACAACTAAGATTGCACCATCCATTTGGGCTGCTCCTGTGATCATATTTTTAACATAATCGGCATGTCCTGGACAGTCAACGTGAGCGTAGTGTCTATTTTCTGTTTTATATTCAACGTGAGAAGTATTAATTGTAATACCTCTTTCTCTTTCTTCTGGTGCGTTATCGATGTTTGCATAATCTTTAAATTCTGCTCCACCTTTTGCTGCTAATACTTTAGTAATTGCAGCTGTTAAAGTAGTTTTACCGTGGTCAACGTGTCCAATTGTTCCAATGTTAACATGAGGTAAACTACGGTCAAAAGCTTCTTTTGCCATGTTTTTCATTCCTTTCATTTTGTTATTTACGACAAAATGTCATAAATAATTATAATTGATTTTATTTAAAGTACAATATTTTTTTGTATTTGAGAAATATAAAACTATTTACCTGATTTTTTAATAATTTCTTCAGCAATACTTTTTGGTACTTCATTATAGTGACTAAAAATCATTGTATAATTTCCACGTCCTTGTGTAAATGAACGCAATTCTGTTGCATAACCAAACATTTCTGAAAGAGGAACTTTTGATTTAACAGTTTGTGCATTTCCCCTTTGTTCTGAACCCTCAATTAATCCACGTTTTGATGAAATATTTCCCATTACATCTCCATAGTATTCATCAGGAACAGTTACTTCTACTGACATAATTGGTTCTAAAAGAACAGGATTTGTTCTTTTAGCAGCTTCTTTTAACGCCAATGAAGCTGCAATTTTATATGCCATCTCATTTGAATCGACATCATGGTATGAACCATCAACAATTGTTGCTTTAACATCAATCATTGGAAATCCTGCAATTACACCATTTTGCAATGCATTTTGTAAACCAACTTTTGCTGCATTAATATATTCTTTTGAAATTTTTCCACCAACAATTTTATCAACTCATTCGAATCCTTTGTCATGGTTTGGTTCAAATTCAATCACAACGTGCCCATATTGTCCACGACCACCTGATTGTTTAACATATTTTCCTTCAGCTTTAGTAGCTTGTTTTATTGTTTCACGATATGAAACCTGAGGAACTCCAACATTAGTTTCAACTTTAAATTCTCGTCTTAAACGATCAACAATAATATCTAAGTGTAATTCACCCATTCCTGCTATAATTGTTTGTCCAGTTTCTTCATCTGTATAAGTTCTAAAAGTTGGATCTTCTTCTGAAAGTTTGTTTAATGAAATTCCTAATTTTTCTTGATCAGCTTTTGTTTTTGGTTCAAGTGCTAAATGTATAACCGGTTCTGGAAATACCATTGACTCAAGAATAATTGAATTTTTTTCATCACTTAAAGTATCTCCAGTTGTTGTATCTTTTAATCCTACAGCTGCTGCGATATCTCCTGCATAAACTTCTTCAATTTCTTCACGATTATTTGCATGCATTTTTAATAAGCGGCCTACACGCTCTTTTTTATCTTTTGTAGCATTTAATACATAACTACCCTTTGTTAAAATTCCAGAATAAACTCTGAAAAATGTTAATTTACCAACAAATGGATCTGTCATTATTTTAAAAGCTAATGCTGAAAATGGTTCAGTATCTGATGAGTGTCTAATTGCTGCTTCTCCATTTAATAATGTTCCATTAATTGCAGGAACATCTAATGGTGAAGGCAAGTAATCAACAACAGCATTTAAAAGTAATTTAACTCCCTTATTTTTGAATGCAGAACCAGCTAAAACTGGGAAGAACTCAGCTGATATAACTCCTTTGCGAATTGCTGATTTTAATTCAGGTATAGTTATTTCACCACCATCTAAAAATTTCATCATTAATTCTTCATCATATTCAACTGCAACTTCAATAAGTTTGCTTCTTAATTCTTCTGCTAAATCTTTTAAATCACTTGGAATTTCAATTTTTGTAGCAATTTCATCTGCTTCACCATCAAAACCCCATGCTTCCATTTCAACTAAATCAATTATTCCTGAAAATTGATCTTCAGCTCCCATTGGTAATTGAATTGGAGCTGCTTTTGCACCCAATCTATCTCCGATTGTTTTCACTGAATATAAAAAATCAGCTCCTATTTTATCCATTTTATTTACAAAGACAATTCTTGGTACTTTATAAGTTGTTGCCTGTCTTCAAACTGTTTCAGTTTGAGGTTCAACACCACTTTGACCATCAAGTACTGCAACAGCACCATCAAGAACTCTTAAAGATCTTTCAACTTCAACTGTAAAGTCAACGTGACCTGGAGTGTCAATAATATTAAAACGATGATCAGCTCAAAACGCTGTTGTTGCAGCAGAAGTAATTGTTATACCACGTTCTTGTTCTTGTGCCATTCAATCCATTTGTGATTCTCCCTCATGGGTTTCACCAATTTTATGAATTTTACCTGTGTGAAATAAAATACGTTCTGTTGTTGTTGTTTTTCCAGCATCAATATGAGCCATAATACCAAAGTTTCGAGTCATTTCTAAACTATATTCTCTTGGCATATTTTTTTCTCCTTATTTAAATTTTATCAGCGATAATGTGCAAATGCTTTATTTGCTTCTGCCATTTTATGTGTATCTTCACGTTTTTTAACTGACCCACCAACTCCATTTGATGCATCAATAATTTCATTTGCTAATCTATCTATCATTTCTTTTTCATTTCTTAATCTTGAATAGTTAATTAATCATCTTAATGCTAATGTAACTTTTCTATCTCCAGAAACTTCAACAGGAATTTGATAATTTGCTCCACCAATACGGCGAACTTTTAATTCTAAATGTGGTTTAATATTTTCCATTGCTTTATCAAATACTTCAATTGGATTAGAACCTGTTTTCTCTTTTATTTTATCAAAAGATTTATATAAAATAGTTTGAGCTGTTCCTCTTTTACCATCTAACATAATTTTATTAACAGCCCTAGTTACTAATTTTGAATTATAAACTGGATCTGGTAATACATCTCTTTTTTCAGCTTGATGTTTACGCATATTTTTTAACTCCTTTCCTTTTATACTAATGTGCTAATTTTACACAATTATTTTTTTTCTTTTGGTCTTTTTGTTCCATATAATGAACGAGATTGCATTCTTCCATTAACTCCTGTTGTATCCAAAGTACCACGAATTATATGATAACGAACCCCCGGTAAATCTTTTACTCTTCCTCCACGAATTAAAACAACACTATGTTCTTGTAGATTGTGACCTTCACCTGGAATATATGCTGTTACTTCCATTCCATTAGTTAATCTAACCCTTGCATATTTACGTAAAGCAGAGTTAGGTTTTTTGGGAGTCATAGTTGCAACCCTTGTACATACACCTCTTTTTTGAGGAGCAGATAATCTAGTAACTTTTTTAAGTAAAGTATTCACACCTCTATTAAGAGCTGGAGCTTTAGTTTTTCAAGTTTTAGCTTTTCTTGGTTTTCTAACTAATTGATTAATTGTTGCCATTTAAGTTTCCTCCTTTCCACAATACCAAGTGTATTGTAAGCACACAAATTATATTATATATCAAAAAATATAATATACTAAGTTAATATTAAAAAATTAATACATTATGATATTAGGCAATATATTATCGAAAGCTTCTTTTGTCATCATCTCTTCTTGAAGCGGATAAATTAGTATTAACTCTAATAAAAAATTAAATAAATAATATGCATTGATATACTCCATCAATAATTTCATTCTTTTAGGAGTAAACTCATCTTCAATGGATGTTGCAAATTTTTGGTAACTTTGTTGGTAACTTTGATTAAATTCTATTAAATTTTCCATTAACTTAGTAAACGCCAATTCAGCACTCATTTGAGAAATTTTAATTAAAAAATTATTAGTTGAATTAAATATTTTCTGAGGATCATTTAGTAATTGTAGTTCGTCAAATTTTTTTAATAATTCATTTGATTTCATACCTAGTGCTTGAACTGAGGTACCTATTATTACATCAACTCCTGCAGTTGATGTAATAATTTTACTATCAATTTTTTCAGTTTCAAGATTTCTTTGAATTGAAAATAATACAATTAATGAATTTTGTAAAATTGACAGTAAATGTGTTATGATGATGCTTTTTTCATTTTGTTGTCAATCATTAAAAGTTTTATCTAAAGAAATTCCTAAGTTTTCAATATCTTCCTTTTTTTGCAATTGTGGATTTTTTACAAAAAAATCTTTAATAAGTTCAGGAATTTCAAAATCTTTATTTACATTCATTTTAAAATTTTGATATACATTATTTACCTTAGTAATAATTAAATTTTCATAATTTATTGGTTTAATTTCCTTCATAAAAGTCTCTTTTCTATACATATAAATAATACTATAATTTCATATTATAATATTTAATAAGGAGAATGATTAAAATGGTATGAGGAGAATCAAATTCACGAGATTTTCTTGATTGAGCTGATTTTTGTAGAAATAACTCTATTAAGCAAAGAGGCATTTTAACAACTAATGGACCAAATTTTGCAAATGATAAAAACTCGTCACAATATAATTCTGTAAAAACAACTATTTTAGATGTAATTCAAAAAAATAGATCAATCAGTATTCAACAATTATATAATATTTTGCCTGATAGTATAGTTGCCAATCCGACTTCAAAACACGTTATTTTGCAACTATATTTTGAAGATAATTTACAAATTCAAGGGCAACAAAAAAATAATGATTCTAGGGAATCAAATTTTGTTGTTGTTTTTGTAAAAAAACAACAACAATCTATTCCTAAACCACAAATGAATAAAAAAGTAGAAAGAAAGCAATCTAACATAGAGGATTTAATAGATAATAACTGAAGAACAACCGGTAGAAAACTAAAATTTGATAAAATGGAAAAAGAGGAAAAGAAAAATTTAAATATAAATTTAAAAAAAACTAATCCAACAACAACAAATAAACCTGCAGAAAAACCAAATATAGATGTGAGAAATATTAATAAATTTGAACCACCTAAAGAGGAAACTATTAGAGCTTTACCAAAAGAAAATAATAAAGTTGAAATAACAAAAAATAATAATATTAATTACATTCAAGTACCAATTTTTAAACCAGAACCTGAAAAAATAGTTGAACCTCCATCAATTAATTTAAATTTACATTTTAAGCCTGAACCACCTAAAAAGGAAATTATTTTTGAAGATAAAATTTTTTATGGTTTAAGTGCATTTGACTTATACTATATTGAAGCATTTCTAACAGATGCAATAATTAAGGAAAGGAAATTTAAAACAAAAATTGATTATATTAAACAAAAGGTAAGATTAAAGGCGGATATAAAGTATTTAGAAGAAAAACAAAATACAAACATAGCAATAACAATTTTAATTTTATTAAGTTGTCTAATAATTATTGGAATAATTATTCTTGCAATAAAAGCAAAAAATAAAATTAGAAAGAAAGCAATAAAAATTTATAATGAAAATTTAAAAATGAAAGGCTATGATAATTTAAAAAAAGAGCTTAAAGAAAAATATTCAAAAATTATAGATTTTTAAAAAGAAAAGGAACCCTCAAAAGGTTCCTTTTAAATTATTATAGAGACTGTTTCTTATAATTACTTTTAGCAATTTTTGCTTCACTTGAAATATTTTTTAATTCTCTCTTTTTTATTTTTAAATCTATCTTAGCTCTTTTAATTGATTCTTTTGCTTTCTCAATTAAAATTTCTTGATCGTTTTTTTTACTTTTAAATTCATTAAGTACTGCTTTAAAGTCTTCTTTTGATTGTGCCATTTTTTTCTCCTTTATAAAAATTGTCCATTTTTTATAAGTTAATTTTAAAACTATTTAAATAATTTGTCAAATAATTATCTATTTTTTAAATCAAAAATAATAAAAAAAATAAATGTAAAAATTGTAGTTGCAATATATTGAATAGAATCAATAATTAATTCTAAATACATTGCGGATAAATCAAATAATAAATAAACATAAGCTACATATAATAAAATTCATAAATAGCAAATAAATACTGCAAAATATTGATTTATTATTTTTCTAAAAAATAAAAATGACACTCCTATTAAAATTTTAATTATAATTGTAATCGGAATAAAAATTATACCTCCAGAATATAAATCAATTAAAATTCCACTAATAACTGAAGAAGTTATTAATGTTAAAGGGTTAATTATTTTAAATAAAGAAAGAAAAATAATATCTGAAAATTGCAAAATGCTTTTACCTGTTATATTTGAAAAAGTAATAACTATAAACCCAATTATAAACATTATGGTGGTTAGAAAGCCACATAAAACTATTTGTTTTGTACTAATTTTTTTCATTTTTTTCCTTTAATAAATTATTTATCAATGTAGATATCCTAGATTGTTCCTTTTTTATTGGTTCACTATATTTCATTAAAACTTGATTTTCTCTTGGATTTAAAATTAAGCAATCTTCTACTTTTAAATTTGATGAATATTCAAACATTTTTTTATGTAAAAATAATTGAAAAATGTATTTTTCTATAAAATTTACTTTACTAGTTTTAATATCCATTATAAAAATTTTTTCCTCATTTTGTAAAATCAAGTCTATTGTTCCTATAAAGTTACTATCAAAATTTAAATATACAAAAGTTTTTTGGCTATAAATCTTTTGAATATTATATTTATAAATGAACGAATTTATTTCTGTAATCATTTTTTTTGCTAAATTAATATTTTTTAAGTTTTTGCAAAAATTTATTTCTAAAAATAATCTTTTGGATTTTCTATTTTTTATGCTATTAAAGATCATTTTATTAACACAATTACTCAATTCAATTGATTTATTAACTACTTCAATTTTTAAATTATTATTAATTAAAAAAGGAAATGCTTCTTGTAAAATTTCAGAAACTTTCGGTAAAAAAATTAACCCATCATTATTTATATAATCAGTAAGTTTATTTAATATAGTATTTTTTTCTTTAGAAATTAAAAAATAGTTGAAAGCTTCATCAATTTCTATAAAATCAGTAATATCAAAAAACAAGTGCAAATTCCTACTTTATAATAAAAAATAATGTTTTATTATTATTTTTTATTATACACATGTCTAATTGTTAAAGAATCAATAATTGATTTTGGATTGCTATTTTCTAATTCATTAATTGTTTTTGAAAGTAACTCAATTTTTTGTGATAACTTCATGAATTCATCATGAATTTTTTTATTTTCATACTCTATGTCAATACTATAAATTAATTTTTCCAAAGAAGTTATTCTTTCTTCAATATTTTGCAATTTCTCATTTTTTTCTTCACAAAAACAAACTTCTTCTAATTCGCTTGAATTATTAAATTCAATATTTATAAAATTATCATCAAAATCTTCTAATTCAATTTCATTTTCATATAATTTATTTTCTTTTTGATCAAGTAAAATATTTTCTAAATTACTATCTTCAATAAACTGTAATTCTGTATTTTCATTTTCAGATAACGAAATATTATTTACTAATTTTTCTTGAATAAGACTAGTTTCTTTTTTAATTTGATCTAAGTTTTGATTTTCTAATAATGAAGAAGAAGTTCCTTCTTTTATATTTTGTTTTAGTAAAAGATCTATTTTATATTTTTTTGTATTTTCCAATTGTTTTATTAACATTTCAGATGCTAATAATTCATCTTCTATTTTAAAATCATTATATATTTCGTGTTCCTTTAAATTTGAAACATAGCTCTCATTTAATTGATTTAAATCGATATTAATAGCTCTTGCCATATTTTCTATAGCAAATTTATCTTCTGAATTTTCAATTTTTGATTTTGTTTTTTTTGAATTTGGAATAATAAATTCTTCAAATTCCTTTTCTTCAAATTCTAAATTATTTTGATCTATTATAGGTTTTGCTGTTGCAACAAAATCAATTTTATTTGCAAATAAAGATTTATTTACATTTTTTTCTAAATCCTGTTGATTAAAAACATCCAATGTAAGATCTGGCTGTTCAAAATTGAAATCCTCATAGATTTCATTTATATTTGAACTAATCAAAGAATTTATTTCTAATTGATTAAAATTAACATTTAATGCATCGTTCTGTTCTTCTTCTATTATTAATTCTTCATTTAAATTTTTAATTTCTATTATTTCCGGAAGTAATTTATTATTTTGAATAAACGATTCATTAAGATTTTTTTGTAAATTTTTCCCATTTAAAACTTCATTATTTTCTTTCAAATTTTCAATTAGTGTAAATTGAAAAGAGTTTTCATATGAATTATTAATTATTTCAAAATTTCTAAATCCAAAATCTTCCAACATTTCTTGTTCATTTGTAAAAGAAGAATCGATTTTTAGTAATTGATTTAAATCCATATTAATAGCTCTTTTCATTTTTGATAATACAAATTTATCATCAAAACCTTTCATTATTGTGCTTGTTTTTACTTCTGAGCTAAGTAATTTGTTAATTTCCTCATCCATTTGTGAATACGAATTGTAAATTTCATCTTCTTCATCTATTGATTTTATATCTTGTTCTTTAATAAATGAGTTTGAAGTTGAATTAAATGATTTGCTTTCCAAAGTAATTTCTTCTTGAAAAAGAACATCCTCTTTTTTATTTGAATTTATTTCACTAACTTCAAAATTTAAATTTATATCATTTTTATTTGATAATTCTCCAATTATAAGGTAACTCATTTGATAAAACTCAGGAATATTTAAATTTCTTGCCATTTCATTTGAATTTAATACTTTATTATTGAAATCTAACACCTTTTTCAATTGTTTTGGATTTAAGTTTTTTAGGTCCATATTTTCAAATTCTTTTTTTGTATCAATTAAACTTTGTTTTATTTTTTTTCATTTAAAATAATTATTTTTAAGCTTAGAATTTTTGAAATATTTATCTAGGTCTTTTTGATTTTCAACTGACAGCACAAGATTATCATTTACTTTTTCTTGCTCAATTTTGCTTTGAAAATTTATTTGATTTTTTTGTATCAAATCTGTGCTGTCAATTAACTTTCCCTCTTTAGATACCTCTCTTTCGAATTTACGTTCTTCTTTATAAATCGCTATTAAATTTCTTTCCTCTGCAAAATTATTTAATGCCTCAGAATCAAATAATAGAACTTCTAATAAGACAAAAGTAAATAGTAACAGTGTCCCCCCAATAATTAAAATAACTTGCCCTACTAGTAAACTCAATACACTTATTATAACTATGTATACTTTTATAAATGGCTTTGAAATTTTTTGAGCTTTTTTCATTCTAAGTAATTCAATTATTGAAATTACAATCATTGAAACTCCGATAGCACTAATTAATCCAATTGTAACAAATACTTGTCATTCCCCATTTTCTAAATTTGAAGAACTTATTAGAAATTGACTATCATTAGTTAAAAAAGTTATATACTTTTGTAAAGCTATTGAATTAAATATATTAAGTAATGATTCGCTAGAAGTAGATCATATACTAAATGTAAGTGATAATGCAACAAACATTGCAATTGAAGCAGAAGCTGCAATTGCAACAGTCCATGCACTTATTATAAAAAATTTAAACATCTTTTTTCCTCCTATTTATTTAAATCACTTCAATTTCCTGAAATTGAAGTTCCTTTGTTATTTATATTAGTATTTGATGATTTATTATTAATATTTATTAAATTATCTTTTCTAAATTTTGCAAAAACATTTTCTTCTTTATTATTTTCAACATTTTCTTTTCTAAGAATAAAAGGGTTAAAATTTGAATTTCCATTCTGTGATAACCTATTTAATTGTTCACTTTTTTCTTGTTCTTCTAACTCAATTCTTTGTTTTTCTAAAACTGTATTAACACGAATTCTTAAATTTGAATTAATTCCATAATCATTATTTAAATCACTAATTTTATTTTCCTGTTTTTGATTTTGAAAATAATTAGAGTTTAGAAATTCTAACTCCTCCAAGTATGGGCTCTCGATATTAAAATTTTCTTCTTCCAAAACATGGGGAATATCACTTTTAAAATAATTTTTATTAAAATCGTTTTTTACAATTTTTACTTCCATTGCTTTTTCAATTAATAAAATATTCTCAATGTTACAATCTAAATCATTAAGTAAGCTTATATTTTCTTCTTTAAAATTTAAACTAATTCTTATATTAGGAATATTAACAACTAATTCGGTTAAAAAATTAAGAATTAAGAAAATTTTTTCTTTTGGAATTTTTTCAAAATCTAAAATGAATAAATCTATTGTTTTATTAAATTGATAATCAAAAAATAAATTTTTAAACTCTTGAATAACCATATTTATAGGATCATCTGTTAATGATAAGGATTCTATAATAAAGTCAATATCTGAAGTTGTTTTTCCCCATTCTGTTCCTGCTAATAAGAGAGAAGTTCTTTCTCATAAAACTTTCTTATCTTCAACAGTAATCTGTTTAGGAAGGGAATTAATTATTTGTTTAAATAAGAATAAACAGGGCAATGAATACATCATTATTTTATTTATTTTAATAACTATTTTTTCATTAAAAGCATTTTCATAATTTAAATTATCCACTAATTTTTCAAACTTCTGTTTCTCATTAACCAAAATAAATATTTTATTTATATAGTCTCTAGTTTTTATTAATTCAGTATAACTATTAAATTCCAAAATTTCTTTATTAAAATTAATATCATTTGTTTTTAAAGAATTATCCAAATCCTCAAAATCTAATACTAACATATCTTCTTCATTACTATTAATAAAGTCTTCTAATTTTTGTTTATTTTCAAATTCTTCTAATGAGTTAGAATAAAAATTTAAATTTTGATTTAAATCTACAGAATCCTTTTGAGAACTTCTATCTTCATTATTAATAAATGGAGGTAAATTAATTTTCCTTGGTTCTCCAATAAGGTCTCTTATGAATGAAGGGACTACTTCTTTATCCTCAGTAAAACCCATTTGTGCACCTAATCTAGCATACTTTTCTTTTTCTTTCTCTACTTCATAAATTTTTTTTTCTTTTTCTTCTTTTAATTTTTTCATTCTTTCAAATGGATTTACATACATTTAAAGCACCCCCTATAAGTACATATTTATTATAGCATAAATTTTATTTTTTTCACTATTATGATTGCAATACATTAATTTGTTTGATATTATATATTACAATTTTTTTTAATGAATTAAATAAAATTAAAAGTATGACCCAGCTTATATATGCTGAAATCATACTTTTAAATTATTTTATAAATTTATTATAGCATAAAAAAATTAATAATACACTATTTTAACTATGAAAACAAATATTTTTTAAAATTTTTTGTTTATTTTTAATAATTTAAAACCGAGAATTATATAAACAGTTAATATAAAACTTATACTAATTATTGATTGAGATGCATATTGTAATCCTGATAGTCAAGGGTTTTTAACAATATTGTTAGAATTTATAAATGTTGTTCCTAACATCTCTTTTAGAGTAAGAAAAATTTCATTGTTTTCAGCAAAATATTTATTTAATTCAATTCCTATTTTATTATCATTTCAAATTTCCACTATATGTTGAATTTGGTTAGATGAATATGTAGTAATAGAAATAATTAAAATAATTTCAATAAACATAATTAAAAATTGTAATTTGAAAAATAAATTATTTGTATTTCAACCTTTTGTATAAACTAAAAAGAAAATGCATATTGTTCCCATTAAAAAACCAGAAATAATTATTGGCAAACTTTTAATAATAAAATTCGAAACATTACTATTTGTCAAAGAACTTAAATTTACATCCTGACTTTTAATTAAATCTGGCGCAATTGTCGATCAATTTAATAGTGAATTAATCTCTGAATTAAAAATAGACATAATAGAAATAAAAATTAATTGAGGTAAAAAAACAAGAAATGTTGCAGAAATTAATCAAGCTGAGATATTTTTACTATTATTTATTACTAATTTATTTAAAAAATAGCTCAATTTACTTTGATCCAAATTTTTTCTTATAGAGGTTGCTTCAATTTTTTCTTGCTTTTTTATCTCAAGTGAATTTAATAGTATTGCAAAATATATAATTATCACCATAATTTTAAAAATACAAATTCATCATGTAAAAGTATCTGAAGTTCATCTATATTGAATTATATTAATGCCATTTTCACTATAATATATTTCACTAAATTTTTTTTGTAAAAAAAATAATTCTTCCACGAATGGTTTATTAATATTTTGTTTTGCTAAAAATATGTAAAAAACATGAAATCTTGAATAGTTGTATTCAGAAATTGAGCTAAAAATTATTGAAAGAATAAGTAATAGAGTAATTAAAATTGTAAAAGCTACTTTTATTGTTAATTTTATTTTTTTTCCAAAAATAAAGGGAATTAAAAAAATAAAAATAAGTGTAAGTATAAAAATTGCAAAAGCAGCTCACATAAAAAATAGCATTGACATTTTAGTAACTATAACTGACGGACCAAAATTTTTTTCAATTAAAATAAAATAATTAAAATAAAAATTAATTGCTGGATTCATATAGTAAACAATTATAAACGAAATTGTGGGTGTAATAAGAATTAAAAAAATTACTAAAGTTTTAAAAAATTTATCTCATATTTTTATTGACTTGTTTTCCACAAATATTTTCTTATCCATTACTATCTCCATTTTTTAAAACAAAATACCTTCAATGATTTGAAAAATCTTTTTTAAATTCTAAGTTATATCTTACTCCTTTTGAATTAAAAAGTAATTCTATTTCCTCTTTTTGATTAAAACCAAACTCACTTATTATTACTAAATTATTATTTAATAAAAATAATTTTTCAAGATTTTTAAATAAAACTTTATAAAAAAATAAACCATTATCTTTTGCAAATAAAGCCATTCAAGGTTCAAATAATTTAACATTTTTTTCAATATTAATATCATTTTTATTAATATAAGGTGGATTTATTAAAATAAAATCCATTTTTAAATTTTTTTCAAAAATAAAATCTAAAAAATTAGAATAAAAAATTTTTGCTTTCATTTTTTTTATTCTTAAGTTTTTTTTGCAAACTTTTAAAGCACTTTTTGAATAATCAGATAAGTATAAGTTAATATCATTAAATTCTTGTTTTAAGCTAATTCCAATACATCCACTTCCACAACATAAATCTAATACATTTTTATTAACCAAATCAAACTTTAGAACTTCCTCTACAATTAATTCTGTTTCATATCTTGGAATTAATACATTTTTATTAATAAAAAAATCACTCTTATAAAAAAATTTTTTATTAATAATATATGCAAGTGGTTTTTTAGTTCTAGAAACCTTATTAATAATATTTAAAAATTTTTTAAATTCCTTTGGATTTAAAGTATCATCAGAAATAAAAAAAGCTTTATTTTTAAGGAATAAAATGATTTTTTTAAAATTATCTTCTGAAATTATTGAAGGAACATATTTAATTTTTAAATCAAAAATTTTCAATTTAAACCTCTATTTGTTGAGCAATTATATTTTTTTGCTCATTATTTATTAATTCTGTAATTATTTCTTCTAAATTACCTTCCATTACTTGATCTAATTTATTTAGAGTTAAATTAATTCTATGATCTGTGATTCTATTTTGTGCATAATTATAAGTTCTAATTTTTTCACTTCTTGCACCTGTTCCTACCGCTGTCTTTCTAACACTAGCTGCTTCGCTCTGTTGTTCTTCTAACTTTGCTTCATATATTCGAGCTCTTAACATCGTCATTGCTTTATCTTTATTGTCGTGTTGGCTACGTCCATCTTGTGATGCTGCAACAATTCCTGTTGGAATATGAGTAATTCTAACAGCTGAATCTGTTGTGTTAACATGTTGACCTCCAGCTCCAGATGATCTGTAAGTATCAATTCTCAAATCAGAAGGTTTTATTTCAACTTCAACCTCACTAATTTCTGCTAGAACTGCAACTGTTGCAGTAGAAGTCTGAATTCTACCTTTGGATTCAGTTTTTGGAACTCTTTGTACTCTATGACTTCCTGATTCAAATTTCATTTTAGAATATACCTTATCTCCCTTTACCATAAATGAAATTTGACTAAACCCTCCTGCTGTTGATTCACTTTGATCTAATATTTCTACTTTTCAATTATTTTTTTCTGCAAATTTTAAATATAATCTAAATAAGTCACCGGCAAATATATTTGCTTCATCTCCTCCTGCAGCACCTCTAATTTCAAAAATAACATTTTTATCATCATTTGGGTCTTTTGGAAGTAATAGTAATTCAATTTCACCCTCAATTTCTTCGATTTTACTTTGTGATTCTTCTAATTGAGATTTTACAAAATCTCTCATTTCCTCATCTTTTTCAGTTTCTAATAAAGACTTTGCATCACTAATATCATTAAATAATTTTTTATACACTTGATATTTAATAACAATATCTTCTAGGTTTGCTTTCTCTTTATTTAATTCCTTTAATAATTTTATGTCCTTTAAAATTTCTTCACTTTGTAAATTTTCTTCTATAATAGACACTCTTTTTTCCATAATATCTAATGCTTCTTGAGTTTTTTTATTCATATTAATCACCTCTATCTATTTTGGTTTAATATAGCAATGTCGGCATCTTGCTTCATATTTTTCAATTGCGGAAATAACAATTATAGGCTCATTTGCTTTTGCTGGTTTACCATTAATTATTCTTTGCGTTCTATTTGCATTTCCTCCACAAACATGACAAATTGATGTTAATTTATCTACATATTCTGCCTGCACTAATAATCTATCTACATTTTGAAAAGGATTATTTTTAAAATCTTTGTCTAAACCATTAACAACAACAATTATTCCTTCATCAGCTATTGAAGAAAGAACTTCTACAATATTTGTATCCAAAAATTGAACTTCGTCTACTCCAATTATATCAATAGATTTTTCTTGGTTTTTCAAATTTACAATTTCCTTTAATTTCTCACTATTTTCCACTGGTATTGATTCAATACTTAAACCTGAATGTGAAAAAACATCATTTATAGAATATCTTCGATCAATTAAAGGTTTAAAGACTAAAACATTTTGCTTTGCATATTGATATCTTTTTAATCTTCTTATAAATTCTTCTGTCTTTCCCGCAAACATACATCCTGTTATTAACTCAATTCAACCTCTTTTACTTTTATGATTCATTCTATAGCTCATTATACTATTCCTCCAAATTAATTAATTTTTCTAAATCTCCTACTAAATTTTCTAAATCATCTCAATTTTTAATTTTTGCCCCTGATGCTAATCTATGGCCTCCCCCATTATACATTTTTGCTACATGATTAACATCAAATTCTCTACTTCTTAATGAAATTTTTATATTTTCATTTTTAACTGATTCATAAGCTAAAAACCAAATTTTTACTTCCTTAATACCTGATAAAACATTTAAACAACTTTTAATCTCCTCTTCTCCCAAAACTGTCTTTTCAAAAAAATCTCTTGTTAGTTTAATATACGCAATTTCATTATTTTTAGAAAAAATAGCTTTATTAAAAATATCAAAGTGAAATCTTGTTATCTCCAAGGTTCTTAAATATAATGAATTATAAACTTCATTAATATTAATTCCCCTTTTAATAAGAATTTGGGCTGCATAAAAAGTTTGAGAATTCACTTTATTAAATAAAAACCTTCCTGAATCTGTAACTAAACCATAATAGAGAAAAGTTGCAGCTTTTTTTGAAATTTTTAAATTCATTTCATTAGCTCAAATTGTAATTATTTGTGTACATGCAATTGCAGAAATATCAACTAATTTATTTTTTGCAAAATCATCAATTTCTAAATGATGATCAATTTTAAAAATTTCCTTAACTTGATCTTTGAATTCAAAATCTATTCTTTCAAAATTTGCAACATCCACAGAAATTAGCAAGGATTTTTTAATTATTTCCTGATTTAATTCTTTTTCATCAAAATCACGAATTCCTAAATTTAATTGCTCTCCCACAATATAAATCTTTTTGTTTTTAAAATTATCCAAAATAATTTCTTTTAGAGCTAAAGCACATCCTTGTGTGTCTCAATCAGGAGAAGCGTGTTTTGCTATAATAATAAAATCATTTTTATTAATAATATCTATTAAATTTCTATATTCAACTTTCATCAAAACTTTTCTCCTATAATACTTCTAATATTGAGTCTTCAGATATATAAATATTGATTTTTTGATCATCATTTAATTTTTCAGTAGAATAAAAAATTAATTTATTATTATTTGAAGTGAATTCATATATATTTTTATCATTAAAATAATCTATTTTTTTAGCACTTCCATACATTTGAATAATTATATTTTTTGATTCCTTTTTATGTAAAACTATTTTAAAAGGATCAAAAAGAATTTTTCCACTATTTTTAAAAATAGTAGATTCAATTTTTACTTTTTCTCCAAAAATATTGATTATTTTTCCATCATATGAATAAGGTATCATATTACCTAAATGAAAAAAATCATTTCCATATGTATTTCAATATTTTTTTAAAAGTTCACTGTAACCTATTTCTATAACTGATTTATCATTTAATAAATTAATTTTGCTTTTTAAATCAACTATATTTTTTAAATCTTTTTCTAAAAAAATTATTGAAAATTTTTTATTTATTTTTTTTAAATTTTCAATTGCTTTAACTAGTTCCAAAGCTTCTTCTTTTGTTAATTTTGAAAATATATTATAAAAGATAATATTATACTTTTTTAAGTATATTGCTTTGAGTAATTTGAATAAAATTATATTTATACTTTTTCATTTCAATGAAATAAAATCAAAAGAGATTTCAAGATTTTTTAATGTTTCTACAATATAGCTATCTGCTTGACTATAAATACTCCTAATTGTTTTTTTTAATTTATTTTTTTTATTTTTAAATTCAATTGAATTTCCCTCTTCAAGTTCATTATTTAATATTTTTTTATGATATCTGTGCATAATTTCAACAATTTTCCCTTTTAAAATTGTTGATTCATCTGCAAGACCTTCAAAAAATATTTTTTCTTGTTTCTGCCTAAATTCAAAAACTTGATCTTTTGCAACTTTTCTTCAAGAAAAAATTTCTTCCAAATCTTTTAGTTTTTTATATTTTAAATTAAACTTCCCCATTTCAAAAAGTATTTGTTTTTTTAAATTTTTTAAAATGAATTTATTTTTTGCAATTTTTCTTTTTATTGCAGTTACCTTTAAATCAATAATTTTTAACTGTTTTCTAATAACAAAATTTATTTGATGAAAATTTAACTGAGAAGATAATTTTTTAATAGATTTATCTTTTGTTTTTTTTGCATTATATTCACAAGTACATAAAGAATTCAACTCTATAAAGACATATACCTTATCTCATAAGTTTTGTAAAAAAGTTTGAAACAATTCAAAATTTAGTGTTTTTTCAACTAAATAATAATAATCTTTAATAATTATTTTTATATAATTTTCTAAATTTGGATATTCTTTTTCTAAATTAATTTCATTAAAATTAACAATATTATCCAAAAATTCGCTTTGTCATTGTTCTTCAATTTCAATTGAACTATTAATAAATTTTGAAACCATATTTTCAATCTTTTTTCTCATCTCAAGGTCTGTTTCATTATTTTTAGAAGTTGAAAATGATAAATATGAATACTTATCATTAATATAATTTATTTTTGACATATTATAAAAATCTTTATTTAATAATAATGAAGTATAAAGTCAAAACTTTTCAGGTCATTTTCTAAATATTAGACCATGTTTAATTATTTCTACTCTTTTATTTGTTCACTGCTTATTAACTTTATCAAAATTATCAATTTTAAAAATACCATCTTTAACACTATATTTACCTTGCAAAATATTTTTAAAATTTTTTAGTAACTCTGAATCATAACTTAAAACTGTAGTTAAATTACTTTCTAGCGCCTCAAAAGTTATTACTTTTGGATTAACTTTTTTATTAATAAATTTTGCATTTTTTATAAAATAACTCATGAAAGCCCCCTATTATATATTAATTGTATAACATAATGACTTAAAAATAATAAAACTAGACTTTATTATATGTCTAGCTTTATTTATTAAATTATTTTTTAGTAGATTTCTTAGCATTTTCTGCTTTTTGAGCAGCTGATTCTTTTTCCACTTCTGCAGCTTTTGCTTCCTTTTTAGCAAATTTTTCTTTGAATTTTTCTACACGACCTTCAGCATTTGCAAAATTTTGTTTTCCTGTATAGTAAGGATGGCAATTTGAGCAAGTATCAATTCTAACTTCTTCACTTTTTGTTGATCCTGAGATAAACTCGTTATTGCATGTTGTACATACAAACTTAGCTTCAAAATATTGTGGATGAATGTTTGATTTTGGCATAATCTCACCGTCCTTTTAAATAACATTAATTCCAATACAAAAATAATAATACCATATTTTTTAAAAAACAATAAATATTTTTAGATATTACATTACTAAATATTTTTATTAACCTGATTTATTTTGAAATACTTAATACATTTTTTAATAAAATTTAAAAACATATTTATATATGGTCCTGCTATAAAAGTAAAAGCTATTGTTCCAATTCCAAAATTTTTAGTTAAAAATAGCAATCTTTGATTTCAATTTCCAGGAATAAAAAATCAAAAAACTATTCCTGGAAAAAAAATGCAAAAATCAATTATAACTCTTGATTTTAAGTAATTCATATTAGTTAATCTCATTAACTGATAACAAATATTATTAAATGGTCCCATTATAATTCCTGAATGAACTCAAAGGGCAATACCAAAGCAAAAAATTGTAAAACCTGCTATAAAAATTCAATTTCTAATTTCTTGAGTTATTTTATCACTCATTATTTTATCCAAAATTATAACATTTTTAAAATAAAAATTTAGTAATAAAGGAGTCAAAAAGGCAATTATAATGTCACTAATTATTATTATTAATAAATTAAATCAAATTTCGTTTTTCCTTATTTTTTTATATTCCTTAATTGTCGGTGACAATGCAAAAATAAAAGAAAAAAATACCATAATAATATATAAAATATTTAGTGCTAAAATGTAAGTACTTTTAAGTACCTCATCACTCATTGTTCCTGTTTCAAAATTATATTTTCCTATAATAGAAGATATATTATAAAGTGTTCAATCAATTTGACTTGCCCCAATTGTTGAAGATATATACATTGCTATTCCCAATGTACTCAAAATAAATCCTAGTAAAAAAAGTAAAATTTTCACTATAACCCTTAAATAATTTGTTTTTAAATATTTCATTTTAGATAAGTATAATATTTTCATTTTTTTTCCTTATTTTAAAAATTATAAAAAATAGACATAATTGCCTATCTTTCATATTTCATTTTAATTGCTTCTTTTCCGCCTTTTTCATAATTTTTCACTCAATTGCGCAAAGAAACAACACTAACGTTTCTAGTTGGTGCAAACTGAGAAGCAGAAACTCCACTTTTTTTAAAATCTTCAATTATTTTTATTTTCTCTTCCACATTTAAATGCATAATTAACACTCCCAATGTCATACTAACATTAATTTGCATAAAAATATTTTAGGTTTTATTTTGCCCTACCTTGACATCCAAAAATTTTTGTTAATTCCATGAAAGTTTCTTTTAAAGCTTTATATCCAGGAGCAAGCAGTTTGCGTGGATCAAAACCTTTTCTTTCATCATCTAAATCTTTTTTATCTTCTATATAACTTCTTGTTGCATCTCTAAAAGATAATTGTAATTCTGTGTTTACATTAATTTTTGATATTCCCAATTTAATTGATTTTTCTATTTGATCTTGAGGAATTCCAGAACCACCATGTAATACCATTGGTAATTTACATGCTTTTTGTAATTCTTCTAATGTTTCAAAAGAAAGTGTTTTTCATCATTCTGGGTACTTTCCGTGAATATTTCCAATTCCTGCAGCTAACATTGAAATTCCTGTTGTAGACATTTCTGCAGCTTGATTTGGATCTCCTAACTCACCTTCTCCAACAACACCATCTTCTTCACCACCAATTGAACCAATTTCTGCTTCAACTGAAACTTCATGTTCATTTGCAAAATTCATTAATTCTTTAACTTTTACAATATTTTCTTCATATGGTAAGTGTGATCCATCAAACATTACTGATGAATAACCAGCCTCAATACATTTTTTAGCCATTTCCAATGATTGACCATGATCTAAATGTAATGCCACAGGAGTTGTAATATTTAAGTCTTCTAATAAACCATTAACCATTCCCACAATAGTTTTAAGTCCTCCCATATATTTTATTGCACCTTCTGATGTTGCAATTATAACAGGTGTTTTTGACTCCTGAGCAGCCTCTAAAATTGCTTTTGTTCATTCTAAATTATTAATATTAAAATGACCTATTGCATATTTACCTTGATGTGCATCTTTAACCATTTTACTCGCATTAACTAATTTTGAGTGATATATTTTTGACATATAAATTTCCTCCTAAATATGATTATACAACCAAATAAAAATTAAAATAAAAAAACCCACTATTTTTATGAGTTTTTTGCAATAGCTTTTACAAAGCCCAAAAATAATGGATTAGGTCTATTAGGTCTACTTGTAAATTCAGGATGATATTGTACAGCAATAAAAAAATCATTTTCTGATAACTCAATAATTTCTACAAGTTCTTTTTCATCATAAATTCCTGAAAAAATCATTCCTGCTTCTTCAAAGATTTTTTTAAAATCATTATTAAATTCATATCTATGTCTATGTCTTTCAATGGCAAAATTAGTTTTATATAAATTTGCTGCTAATGAATTTTCTTTTAAAGTAGTTTTGTATCTACCTAGTCTTAGTGTTCCTCCAATATTTTCTTTATTTTTTCCTTCTAAAATATGAATAATTGGGTGTAAAGTGTTTTCATTTAGTTCTGTTGTGTTTGCATCAGAAAAATTTAAAACATTTCTTGCAAATTCAATACAAGCTACTTGCATACCTAAACAAATACCTAAATATGGAATATTATTAATTCTTGCAAAATGTGCAGCACAAATTTTACCCTCAATTCCTTCTTCTCCAAAACCACCAGGTACAAGTATTCCTTTAGCGTCTTTTAAAATTTGTTCAAAATTTTCTTTTGTTAATTTTCTAGCATCAATTCACTTAAATTTTACTTTTTTCTTTATTTCATAACCTGCTATTTTTAATGATTCCATTACTGATAAATATGCATCACTTAATTCAACATATTTACCAACAATATGAATTACAATTTCTTCTTTTGAATTTTCAATGTTTTTTACAAATTTAATTCAATCAGAAATATTTAACTCTCCTAATTTTAAATCTAATTGTTTAGCTACAATTTTATGTAAATTAGTTTTTTCAATTAATAACGGTACTTTATAAATAGAATTACTATCTGGACAATTAATTACATTTTCTTTTGGAACATTACAAAATGATGAGATTTTATCTTTCAATTTATCATCAAATTCCTTTTCACTTCTAGCAACAATTACATCAGGTTGAATACCTAACGAAAGCATTTCTTTTACAGAATGTTGTATCGGTTTTGTTTTAAACTCACTAGATATACTTAAAAAAGGTAAAAGTGCAACATGAATAAACATTACATTTTCTTTTCCCTTTTCCATTCTTACTTGTCTAATTGCTTCAATAAAAGGCTGTGATTCAATATCTCCTACAGTTCCACCAATTTCACTTATTATTACATCCGCTGCATTTTCTTTTTCGACTTTGTAAATTTTTTCTTTTATTAAATTAGTTATATGTGGAATAACTTGAACAGTTTTACCTAAATATTTTCCTTGTCTTTCAGCATCTAATGCTTCTGAATATATTTTTCCTGCCGAAGTTGAAGATGTTTTAGAAAGATTTACATCAATAAATCTTTCATAATGACCTAAATCTAAATCTGTTTCTCCACCATCATCAGTTACAAAAACTTCCCCATGTTCAATTGGATTCATTGTACCAGGATCAATATTAAGATAGGGGTCAAATTTTTGCATAAATACCTTTAATCCACTTTGTTTCAATAAAACTCCTAATGAACTACCAGTAATTCCCTTACCCAATCCAGAAACTACTCCACCTGTTATAAAAATATGTTTTGTCATAATAAAACTCCTTTTAAAAATAAAAAAGTAGTTAGATAAAACTACTTATTTATAAGATAGTTACTAATATTCGTCATCGTCATCATAATCATCTTCAAAGCTATCATCAAAATCATCATCGTCATCTTCTTCATCATCGTCATCATCTAAATTATCTCTATTTATAAGTTGTCTTGCCTTTAAAATATTTTCACCAGTATCACTATCATCATAATCAAATGAATCCTGATTAAAATCTAAATCCTCAAATTCTTCTGTTGTTTCGAATTTATCAACATATTCATATTGTTTTTTTACATCTTCAAATTTTAAATAGTCTCTTAAGCCTCATTTACCATCCGAAGTTAATGCAAATCTATTATCTAAAACCAAATCGCTGTATAATTCTGCAATAATTTCATTTTTACTTTCATTATCTCCGTCAATGTGTTTAGAAATAGCGTTTCATATATTTTCAAAAGAGGAATTTCCTTTACATTCTTTTAGAAAATCAAAAGCTAATTCTATTGTTGATATTTTGTTCATTGTAATTCCTCCATATTTTTTATTCTACATTATACTTTGGAAAAATATAAATATTTTTATTAATATTTTCCATATTTATATTTAGAATTTTTGAGATTTCACTTAATTTTATAAGCTCATTATCACTTCTTAAAATATAAATATTTTCATCTTTTGCAGATTTTTCTTCCCTATAAATAAAAATATTCTTAGTTTTTATTATATTGAAATAATAACGAAAATCATATTTAAAATTATTTTTTTTGAAATTAAATTCTTCTTCACCAATATCAATTTTTGCAGAAAGAAATTTTCTTGTAATTAATCTATTTGATAAATCACTTAATATAAAATCATCTTCCTCTTTTGTGTTTTTTATAATTTCAAACATCGTGTAATCATCTAATCTCAAATAATTTTCTAATGAAAGTATCTTTTCATCCATTAAGTCCTTTAAAAAAATCAAATAATATTCATTTTTAAATTTATATCCATCCTTATACAAATCTTTAAGTCTTAAAAATCACATTTTAAAGGTCTGATCAAACGCCACAGAAACCTTATGTTCATATACTTGCACAAACATGTGAAATCTTCCTAATAAGTAATGTTCAATTGCATTTACTGTTTTTTCCAAAAAAACTATTTTATTATTAAAAATTCTAGCATTCCTAATTATTCAATTAAGATCAATTTTTGAATAGCTTACACCAATATTTACGCCATCTCTTAATAAATAATCTAATCTATCAGCATCTAACTGACTTGAAACTAATAAATTCAATATTTGATTTGTATGTTTACCATCAATTATTAAAACAATTTCATTGGGGTCTATAGTATATTTTTTAAGAATTTTATTAATATTTGTATCACCTAAAATAATGTCCAGAGTATAATTTTCATGCTTTTGATTTGAGATAGATTCAAATGTATGTGAAAACGGTCCATGACCCAAGTCATGTAATAAACCTGCAATTTTCACTATTCTTTTTTCATGTTCTGAAAGTTGGGAACTGAAGCTAACATTATTTAAAAATTTACTTATAATATGATATACACCAATACAATGTGAAAATCTTGTGTGATTAGCGCCTGGAAAAACAAATTGACCTCCACCTAATTGAATAATACGTCTCAATCTTTGAAATTCTGGTGAATTAATTAAATCTAAAAAAATTTTATCCTCAATCACTATTTCACCATGAACATTGTCTCTAATAATTTTTTCCATATGCATCTCCTTAATTAATGCTATCAATGTTTTTTAAAATTTTTTGTTTTCCAATAAGTTTAATGGTTTTTGCTAATTCTGGACCGTGTTCACTAAGTGTAGTAAATATTCTTATAGGCATGAATAATTCTTTTCCCTTTAAACTAAATTTTTCACCTGTTTTTTTTATTAAATCTTTTAATTCTTCTTCTTCAAAAGAATTCAAATTTTGAATTTGACTTTTAAAATAAATCATCATATCTTTTCAATTACTAAAACTTTTTAAAACTTCTATAGTTTGTAAGTCCATATTTTCTTTATTAAAAAATATATCTAAATGTTCATTTACTTGTTGTCCAAACTCCAACTCTTTTTTAAAAAGTAATAAAACATCATTGATTCACTTCTTCTCTTTTTCTTTTATATTAAATTTTTTAATATCTATAAATTTTTTAACAAAGTTAATATAATTTAAATCGTCTAATTTTTTCATTCACTGACTATTAATTCATTTCATTTTATTTGGATCAAAAGTACTTGGAGATTTAGAAAAGCGATTTTCATCAAAGATTTTAATTAATTCTTCCTTTGAAAATAATTCCTGTTCACCTTTTGGACTTCAACCAAGCAAAGAAATATAATTAAATATCGCTTCTGGTAAATAGCCTTGTTCTCTGTATTGAGAAATAAAGAACATTGAGTTTCCACTTCTTTTAGATAATTTTTTTTTAGTTTCATCGATAATAAGTGTTAAATGACAAAATATTGGCATATTTCAACCAAACGCCTCATAAATCATTACTTGTTTTGGAGTATTTGAAATATGTTCTTCTCCTCTAACTACATGAGTAATTTTCATATCATAATCATCGATTACAACTGCAAAGTTATATGTAGCTATTCCATTTGATTTTAAAATTACAAAATCACCAATTTCTTTAGAATTGAATTCGACTTCACCTCTAACAATATCATTAATTTTAAAAATTCTATTTTCTTTAACATTAAATCTAATATTAAATGATAATTTTTCTACATTTTTTAAGTCAGTTCTTGTTAAACATTTTTTACTATATTGGGGAGCTATAATTCCTTTTGAAATTTGATATTCCCTTTCTTTTTCAAGTTCCTCAGGAGTACAATAGCATTTATAAGCTTTTTTTAATTGTATTAATTTATCTGCATAATTTTTATAGATTTCAAATTTCTGAGATTGCATATATTTTCCAAAACCATCTTTTGGTTTTTTAAAAGATTCATCTGCAAAGATACCCAATCAGTCCATATTGTCAAATTGAGATTCAATTGCTCCATCAACATTTCTCTCTAAATCTGTATCTTCTATTCTTACAATAAAGTCTCCATTATAATGTTTTGCATACAAAAAATTCATTAATGCTGTTCTTGTATTGCCTATATGTAAAAAACCTGTAGGTGAAGGTGCATATCTTAATCTAAATTTTTTCATTATTTATCTCCTTTTTTAAAATTAAATTACAATAGCAAGAAATTAATTTAGGAAAATTATTCTCTGTAGTTGTTGCTTTTATCGAAACTTGATTTTCCCTTAAATTAAAAATTTCCAATATATTATTTTTAATTAATTTTTTATGCTCTATTAAATTAGGAAAATCTAGTTCAATTAGAATATCAATATTTAAAATACAATATTTTTCTAAAACCAATAGATTTTTAACATAATCAACTATTTCTAATGAAGAAAAATTTTGTGGCATATTTTCTTTATTATAATAAGTTCCGATATCTTCTTTCCCTAATGCTCCCAAAATTGCTTCACTTAAAGCATGAAAAACAACATCTCCATCACTATAAGCTTTTATTGAGAATTCACACTCAATTTTTTGACCTGCTAAAGTTATATATTTTCCTTTAATTAAATTATGCATGTCCTTTGAAAAACCTACTTTAAACATATATTAACCTCTTTCTTAACATACTTGATTATAAATTAAAAAAATGATTTATAAAACATTATAAATCAATTCATTATCTATTGAATTTAAAAAGGCAAACATCTCCATCCTGAACTAAATAATTTTTACCTTCTAATCTTATTTTTCCACTATTTTTTAATTTTTGCTCATCTCCTAAATCAAAAAGATCATCACATTTATAAACATCCGCTTTTATAAAACCTTTTTCAAAATCTGTATGAATAATCCCTGCACATTCTGGAGCTGTTGAACCTTCTTTAAATTGCCAACCTCTTGCTTCCTGAGGACCGCAAGTGAAATACGTTTTCAAACCAAGTAATGAATAAGATGCTTTTGTTAATAAATTTAAACCTGATTCATTAACACCTAAATCATTTAAAAAAATAGACTTTTCTTCAGCATCAAGCTCGCTTAATTCCTCTTCTATTTTTGCACAAATTTTTACAACTGGTGAGAATGTTTTTTGTGCATACTCTTTAACCAAATTGACATATTTATTGTCATCAATTAAACCCTCCTCCCTTACATTAACCACATATATTATTTTTTTTGTTGTTAGTAATTGAAAAGATTTAAGAATTATTTTTTCTTCATCTGTAAAATCTAACTTATTTAATAGTTTTCCATCAGCTAATTGAGTTTCAATTTTTTTAAGTAAATTATATTCAAAAATAATTTCTTTATCCTTTGTTGATTTAAACTTTGGTTCCACTTTTTGAAGTCTCTTTTTAACACTTGTTTCATCTGCAAGTATTAATTCTAACTCAATAATTTCAATGTCTCTAATTGGATCTACGCTTCCTTCAACGTGAGTTATCTCTTTTGAATCAAAACATCTAACCACTTGACAAATTGCATCTGTCTCTCTTATATTTGCCAAAAATGCATTTCCAAGGCCCTCACCCTTACTTGCACCTGCAATTAAACCAGCAATATCTACAAATTCGATTGTTGTATATATAGTTTTTTTTGAATTAAAAATCTCAGCCAATTTATCTAATCTAGAATCATGAACTTCCACAACTCCCACATTAGGTTCAATAGTTGCAAATGGGTAATTTGCTGCTTCCACTTTTGAATTTGTAATTGCATTAAAAAGAGTGGATTTACCAACGTTGGGTAAACCAACAATTCCTACTTTTAAACTCATATTATTTTTCTCTCTCTATTTTTAAATAATTAATTTTCATCAATTAATCCTAATATTTCAAATATTCTATTTAAATCATCTTCGTCAGAATATCTAATTATAAATTTTCCATTATCAATAGTTACTTTTGTTCCCAATTTTCTCATTAAATTATTTTCAGCAAATATGACTGAAGGTTTTTTATTATTTTCCGTAACAAAACTTACTTTATTTTTATTTTTTATTAGTGCTTCAACTTCTCTAGAGGTTAAATCTTTTTCAATAATTTTATTGAAAATATCATCTAAAAGTTCAATATTATTAATAATAGATAACAAAGGTTTTGCCTGCCCCATAGTTATTTTTTTTTCCAACATTGCATTTTGAATTTTTTCTGGTAAATTTAATAACCTCATTATATTTGCAACATGTGACCTTGATTTTCCTACACGTGATGCAATTTCTTCTTGTTTTAAATTTAAATTTACTGAAAGTTTTTTATATGCAACAGCCTCTTCAATATCTAATAAATCTACTCTTTGAATATTTTCAATAATTGCAAACTCTTCCATTTGTGTATTTGTAATATTTAATAAAATAACTGGTATCTCTTTAAGACCAGCAATTTTTGCAGCTCTTGTTCTTCTTTCTCCTGCAATTATTTGGTGATCTTGATTTATTATTATTGGTTGAATTATTCCATGAAGTTTAATAGATTCAGCTAATTCATTTAATTCATCATTTTCAAATAACTTTCTTGGTTGAAAAGGATTTGGCTTTAACAAATCAATATTAATTGTTTTCTTATTTGTATCTGAAATTTTTTTGTCATTTTCAATTACTCCGACTATATCTGATACTGATTCACCAAAAATATCATCAAGCCCTTTAAAATTATATCTTTTTTTAGACATCGCCATTTTCTTTCAACACTTCCTTTACAAATTCAATATATGCAATAGACCCTGCTCCATTTTTATCATATTCATATATTGACTTACCTTCCATTGAAGATTCTGAAATTTTTATGTTTCTTGGAATAACTGATTTATATACTTTTGGTCCAAAAGTTTTCATAATTTCTTCTAAAACATCATGAGCAAGTCTTGTTCTAGAATCAAACATTGTCACTAAAACTCCTTCAATGGTTAAATCAGAATTTAATGTTTCTTTTACTTTTTTTATCGTTCTTAAAAGTTGCGCAACACCGTGCATAGCATAATGTTCTGCTTGAATTGGAATTAAAACAGTATCTGAAATAGCAAGACCATTTCTGTTAATTAATCCTAAGCTTGGCGGGCAATCAATAATAATATAATCGTAATTTTGTTTAACAGAATTTATTTGGTCTCTTAATACATTTTGATTATTATTTCTTTGTTCTAATAGAATTAAATCTACTGCAGCAACATCAATTGAACTTGGTGCTAAATCGATATTTGGTTTAATTTCCTTAACAATAATATTATTTAATTCCTGTTCACCAATAAAAACATGATACATACTTAATGTTTTGCTATCAATTTCATAACCTATACCTGTTGTTGCATTAAATTGCGGGTCCATATCTATCAAAAGAACTCTTTTATTTGCCAAAGCTAAACCACAAGCTAAATTTACCGAAGTTGTTGTTTTCCCGACACCACCTTTTTGATTTGAAATTGAAATAATTTTTGCCATTTCTTTAAATTCCTTTCATGTATATTATTATATAATAAAGACAATTATTTCCCTAGCGGTCTTTTCTTTATTTGACAATATAATCTTGGATAAAAATTTGATGTGCTAGCAATTTTTATATAAAATAAATTAATTCTTTTTCCTAAAACTAAATCATCAATTTCTTGAATTTTTTCTAATTTAAGTCCTATCTTATTTTCACAATTATTTAAATCATTTATTTCAAATTCTGCATTTTTTCCTTTTAAACAAATAAAATAACCATTAATTTTTAAAGCTTGAACACCTACTTCCAGTAAAATATTCAATGGCGCCATAGCTCTTGAAATAATTAAATCAAATTTCTCTTTATTTAGAACGGAAAATTCTTCAGCTCTTTTATTAACTGTTCATATATTCTTTAAATTTAGTTCTTGAATAACTTTATTCATAAAATTAATTTTCTTACCATTTGATTCTACTAGATAAATTCTAGAATTTGGAAAAATAATTTTTAAAACTATACCCGGGAAGCCAGCACCTGTACCTATATCCATTATTTCCAAATTATCTAAATTAAAAACATTTGAAAATATTAATGAATCATAAAAATGCTTATCAATTATTTCTTGATCGTCTGTTATTGAAGTTAAATTATATTTTTCATTTTCCTGTTGTAAAAGATTTTTAAATATAATCAATTTTTCCTTTTGATTATCTTTTAATTCTACTTTTAAATCCTTAAATTTATACCATTCCATATTTTCTCCTAAAAAAAATAAAAAAAGTTTTACTTTTTTTATTTTACCTTATTTTTGTTAATATACTTTTCAATTTCTTTATTTCTATCATACTTAAATCAATTTTTTGGATGCAATCTCAAATAAAAATCATTTTCTTTTATATTTATTTTAGAAATAAGAGCTTCATTAATCACTCAAAATAATGCAATTAGTAATGAAAAAAATATTAACAACAAGGGATCTATTAAATTATTATTTTTTATCTTATTTACAAAAAAATCATAATAAGTATAACTCATAACTATTAAGATAAAAATTGCTGCAACTATACCTAATATATATCCACCTTTAATTTTCTGGACCTCAACTTTGTTTGTTCTTCTATTATCAAGAATTGCAACAATTAAAATAAAATAAACAACAAATGCAAACATAACACTACTATTTGATGAATAATTTGCTATATAAAAATAATCAATTTTTTCTGAATTCCATGTTATTAATAATGAAATTATTATAAATACAATATAAATTGACAATGTAACTATCATTCCTATAAAACCAGATTTTTCATAAGATATTTTTTTCTTTTTTTCAGGAAAAAAAATAAATCCTTCTTGTAATGCAGAATGAACTGTTCTTGGCAGTAAAGTTGTATAACCATTTACCATAGTTAATAAAGTTGCAGCAATTATAATTCTGAAAATAAAAATAACTCATGGATTGTTATTAAAAATTGTTTCAAAAAAATTGAAAATATTTCCATCCTCTCTTGAAATAAAAACAGAAACTGTTATAAAAATATAAAAAACTGTTACAGCCAATATCGCTGTCATCATTGCTGGAGCAACCACTTCTTTATGTTCACAATCTTTTTTTAATGCCGAAGCATATATAAAACCGTCAAAAGCAAACAATATTGGTATCATCGTTGCAAAAACTAATGAAAGTGAAACAGATTCATATGGTTGACTTGGATTAAAAGAATTTATATTATTTTTGTTATTTAAGACAATAATTATTCCACCAATAATAACAGTGAAAAGAGGAATAAATTTAATGAAAGTAAAAATATTTTGAATTATTTTACTTGGTTTTTTTGTATAAATATTCATTACTTGAAAAGTTATAAGAACAATAGTAGATAATGTTATTTTAATAAAAATAAAATTAACTTCACCTATAATACTTATCAAACTTTCATTATTTAAAGAAAAATATAAATTATTGATTGCATCAAATAAAGTATCTATTGTAAAAATAGCTCCTATAGCTGCTAATATTGGTAAATACATACAAATATATAAAATTGAAAATAATGAAGCTGTTCTTCTATTTATAAATTTATTTGCCCAAGTTTGTGTTGTTGAATGTTCACCATCTTTTGTTGTTGATGCGGCTTCAATAAAGGAAATCATCATTAAAGCACACATTACTCCAATAAATAATCAAACTCCAAGTGCAATTCAAGGATTTCTACCGGCTTCTCAAAGAACACCTCCTGGTTCAGTTTTGTTTTTTAAATAAATTCCACCTCCAACAACAATTCCAAAAACCATTGAAAATATTGTTAAAAATTCAAATATTTTATTTTTTGTTTTATTCTTTTTTGATATTTTTATCATTGTTATTAATCTCCTTTTTGTTGTTGAACTTTTCAATAATGATTTTTTTATCATATTTAAATCAATTTTTCGGATTTAATCTCAAATAAAAATCATTATTTTCTATGTCATGAAATGAAATAATCGCTTCATTTATAATTCAAACTACTGCTATAATAACAACAAAAACAAATCACATAATAGGACCTAGTAAATTTCCATCAACTAAAGTTTTGATGATATTTAAATAATATATATCATCATTAAAATTAACATTGAAACAGAAATAATTGAAGTTACAAAACCACCCTTTACAGGTTTTACTTCAATTTTTTTTGTTTTTCTATTTCTTAATACACTAATTATCATTGAAATATATATTAAATAAACCAAAATTATTGATGTATCTGACGATAAATATGATGTTTCTAAATAACTTTTACCCTCTGGATTATCCCAAGTAATAATTAAACTACTTGAAACAAAACTTACAAAAAATATTAGAACAATTATTAATGATATATAATCTGATTTTAACTTACTTAAATTAGGATTTTCTTTATTACCCAAGTAAATAAATAAATTTTTCTTCTATAGAAGATTTTAAAATTAAAGGATAAATTACACTATAAGCATTAACCATTGTTAATAAAGTTAGTGTAATTACTAGTTTAAAAGCAAAATCTGCTTTTGGATTTTTTGAAAAAAAATCAAGAATATTACCATCTGTTGCACCTATGAAAATTGCAACAGTTATTACTAAATAAAAAATAGCCACCGCTATGATTCCTGTCATCATTGCTGGAGCAACCACTTCTTTATGTTAACAATCTTTTTGAATTGATGCAGAATCTAAAAACCCATCAAAAGCAAACATAATTGGAACCATTGTTGCAAAAAAACTGTTAATTGAAAAAGGCTGATATGTGTTGTTTGGATTAAAAGAATTTTCATTACCTTGTGCAAAAAAAACTATTCCTAATATAAGAACAATTAATAAGGGAATGAATTTTAAAAAAGATAAAATTGTTTGCAAAATCCTTACTGGTTTTTCGGAATAAATATTCATTAATTGAAAGCCAACTAAAAGAAATGTTGCAAAAAATATTTCAATTGTTATTTGAATATCAGGTTTTAAAAATAAATCTCAACTATCAATTCCATTATTTAATTCATATATAACCTTTATTGCATCAAATAAACTACTAGTTGTAAATAAAGAACCAATAATAACTAATATAGGCATATAAATAATTGCATATAAAATTGTAACTAATGAGCCATATCTTCTGCCCACAAATCTTCCTGATCAAGAAGTTAATGTATTGTGTTCACCTTTTTTAGATGAAGAGGAAACTTCAATAAAAGTTACCATCATTAAACAGCAAAACACACCCATTAAGCTTCAAACAGATAATGCAACCCAAAGATTATTACCTGCCATAGCCAAAACACCATTTTCTCCAGCGTTTTTTAAATAAATTCCACCTCCAACAACAATTCCAAAAACCATTGAAAATACTGTTAAAAATTCAAATATTTTATTTTTTGTTTTATTTTTTTTATTAATTTTTGTCATAAATTAGACCTCATTATATTTCTTTTTTAAATGAAATAACAGCATCTGAATATCTGCAGGATTAACTCCAGTTATTCTAGAAGCTTGACCGATTGAAACTGGTTTAACTTTTTCAAGTTTTTGTCTTGCTTCTAACGCAATATTTTCTACATTTCTATAATTAATATCAATTGGAATTTTCTTATTTTCCAATTTTACAAATTTTTCAATCATTTCATTTTCTTTTTTTATATAACCATGAAATCTAATCATTATTAATAAAATTTCTAATTGTTGTTTTGATAAATAATTTAATTGCTTTACATGTTTTTTAAAAATTTTCATTTCAACTTTTGGTTGTTTTAATATTTCATATGCACTAAATCCTTGTTGCAAATTTGCTTGGTCTTTTTCTTTTAATTCAACTGCCAATTCGCTTTTTGGAGTAAATCTAATTGTTTTTAAAAGTTCAATCGTATCATAAATTTGTTTTTCAAAATTTAGAAAATCTTTATAATCTTTTTCAGAAATTAATCCCATTTCATACCCATATTTTTTTAGTCTAATTTCTGAATTGTCATTTCTTAGTGTTAATCTGTTTTCAGCTCTACTTGTAAGCAATCTATATGGTTCAACAACACCTTTATTAATTAAGTCATCTATCATAACACCAATATATGATTCACTTCTTTTTAAAATTAAAGGTTCTTTAAATTCTAATTTTCTAGCAGCATTTATTCCTGCAATTAATCCCTGACCCGCTGCTTCTTCATATCCACTTGTTCCATTTATTTGACCAGCCAAAAATAAATTTTCAATCATTTTTAATTCCAAAGATAACTTTAACTGTTGAGGATCTATACAATCATATTCAATTGCATATGCTCACTTATCAACAATAACATTTTCAAAACCTGGAAGACTTCTTAACATTTTATCTTGAATTTCAATAGGCATTGATGTTGAAAAACCTTGAACATAAAAAGTATCAAGTTCTTTTGCTTCTGGTTCCAAAAATATTTGATGTCTTTCTTTTAAATTAAATCTAACAATTTTATCTTCAAAACTTGGACAATACCTTGGACCAACTGACTCAATTTCACCCGAATACATTGCAGATTTACTCAAATTATCTTCAATTATTTTTTTAGTTTCTAATGTTGAATGAATTAAATAACAAACCTCTTGTTTTTCAATTGGAGTAAATTTTGATGTTGAAAAAGAAAAAGCTAATTTATCATCAGTTCCAGGTTCAATAGATGCTTTTCTTAAATCAATTGAGCTTTTTTTTACCCTTGGAGGAGTTCCTGTTTTGAATCTAAAAGTTTTTAAATTTAATTTTTGAAAAGTTTTACTAAGTGATTTGGTCGTTATTTCTCCATTTGGGCCACTTTCAAATTTTTCTTGTCCTCTGTGAATCAAACTTGAAAGATAAGTTCCTGTTGTCAAAACAACAGCAAAACAATTTATTATTAAACCACTTTCCAATAAAACACCTTTAATTTTGTTTTTATCATCTAATAAAATATCTTTCACAATGTCAACAACAAGCTGAAGATTTTTTTGACTTTTAATCTTACTTTGCATATATTTTGAATATTCAATTTTATCCGATTGTGCTCTTAAAGCTCAAATACCGGGTCCTCTTGAAGAATTTAATAATTTTATTTGTAGTGCAGTTGCATCTGCTGCTTTTGCCATTTCCCCACCGAGTGCATCAATTTCTCTTACAACTATACCTTTAGCTGGTCCTCCAATTGAAGGATTACAGGGCATTGTTGCTATTTTATCCTCATATAAGTTTATTAATATAGTTTTTTTACCCATTCTAGCTGATGCAAGAGCTGCTTCAACACCAGCATGACCAGCACCAACTACTACAATATCAGCTCACATAAAAGCACGCCTTTCTATATATTATTTTATTCTTTCAAATAAAATTAATTTATCAGTTATTTTTCTAAATTTTAATTCTTTAAATAAAGATTTAAAATTTACTTCATCAGGTTTTAAACCCATTTGCATAATCATTTTTGAATATGATTTAACTAAAATTGGCTTTAATAAATAAGAAATAATAATAATGTTTCTTTGCAAAATTGAAAGTACTTTTGCAAGTTCCTCAATTTTATTTTCCTTTTCTAAATTTCAAGGTTTTGAGTCTTCAATAAATTTATTTAATTCTTGTGAAAATTTTAATACTACAGAAATTGCTTCTGAAAAATTATATTTATTCATCAAATCTTTATATTCATCAATAACTTCGAATCCATTTTTAGTTAATTTTTCTTTTGAAATATCAATAACTGGTAATAATCCATCAAAATATTTAATTATCATATTTGAAACTCTTGAAATTAAATTACCAACATTATTTGCAAGATTATTATTAAATGATTCAATAAATAATTCTTCTGAAAAATTACCATCTTTATCTGTTGGTAAATTATTTATAATATAAAATCTTAATGCATCACTTGAAAAATTATTTATTATTTCCAATGGATCAATCACATTTCCAATAGACTTTGACATTTTTTTGGAACTACTTAAAATTCAACCATGAGATAAAATTTTATCTGGCATTCTTAAATTTAAAGAATTTAAAATAACAGGTCAGTAAATTGAGTGAAATCTTGTTATTTCTTTTCCAATTATTTGTAAAATTTCAGTATCTTTTGCTCAAAATTTTTTAAATAATTCATCATCTTTTGTTTTATAACCAAGTGCAGTAATATAATTTGAAAGTGCATCAATTCATACATAAATTACATGCCTTTTATTTTCATTTATTGGAATTCCTCAATCAAAATTCACTCTTGTTACCGAAAGGTCTTCTAAATCATTATTAATAAAATTATTTAACATTTCTTTTTTTCTAGTTTCTGGCTCTAAAAAATTTGATTCAAATAATTTTTGTAAATATTTTTGGAATTTTGAAACTCTTAACATATATGTTTCTTCTGAAAAATCAATTGCTACATTTTGACACACGTCATGAATAAAAAAATCATCCATTTGCTCTGATGTTAGAAATTCTTCACAACTAATACAATATTTCCCTTTGTATTTTGATAAAAAAATTAAATCTTTTTCCACTAATTCACTAAAAATTTTTTGTACTGCTTCAATATGATCATCATCTGTTGTTCTTATAAATCTATCATAACTAATATCTAAAAGATTTCAAAGGTTTTTAAAAGATTCTATTATTGGATCAACATATTCTTTAGGACTTAAATTATTTTCTTTTGCTTTTTGTTGAATTTTTTGTCCATGTTCATCTGAACCTGTTAGAAAAAAAACATCATATCCATCTTCCTTTTTAAACCTAGCAATAACATCCGCAAGAGTTGTTGTATAAGCATGCCCAATATGCAATTTTCCACTTGGATAATAAATTGGAGTTGTAACAAAAAAATTTTTTTTCATACTTAATCCTCTTTAATAACTAAACTATAGATTCCTTTAAGTCCTCTATAACTTTCTTTATAAGTTAGTCCATAGCCAACTACAAAATTATCATCAATTTTAAAAAGTGTTGTATAATCTTCACTAAATTCTCGTGTTTTTGAGTTTTTTTCAATTAAAGTTAAAATTTTTATATCCTTTGGTTCTTCCTCTTTTACTAAATTGTATAACCGAGATAAAGAATTACCATTAAATAAAATATCATTAACAATTAAAACATTTTTATCCTTAAGTGTTGTTTTTAATCCCAAATCAATTTTAACTCTCTTATCTTTTTCTTCATGAATTGGAGTTGTAACAAATTGAATAGTTACATCAATTGGCAATTCTCTAATCAAATCTGCAATAAAAATAAATGAACTTGATAAATCTGCTACAATTGTTAATTGCTCATTTTCATATAATTTTGCAAAATCTGCTGCTGCTTTAACAATTGCAGCCTTTATTTCCTCTTCTGTTACTAAAGTTACTAATTTTTGTGTGTCCATTATTTTGTCATTACCTTTCTAAACATTTTATCTATATTTCTTGTAAAAATACTCAAATTAAATAAATTATTTAATTCATTTTCTGAAGAAATAAATTTTAAAATTCCCTTTTCTAAAAGAATTTCTTTAAATTCTTTATTTGTTTTTTGACATTCTAAAGTGCATTCTTGAATAAAATCATAAATTTCTTCTCTTGAAAAATCATATTTTATAAGTATATAAGTTAATATTCTTTGACTAAAAAATATTCCTTTTTGCTCTGAAATATGTCTAGTAATATTCTCATGATTTATAACTAAATCATCTATAGTGTTTGTCATTCTTTTTATTACATATACTATTATATTATAAATATCTGGTAATATTAATCTTTCATTAGAACTATGTGAAATATCTCTCTCATGTCATAAAATATTATTTTCAAAAGCAGTTGTTACAAATGATCTTACATATCTTGCAAGACCACAAATATTTTCAGAGCTTATAGGATTTTTTTTATGAGGCATTGAACTTGAACCTTTTTGTTTTTTATCAAAACCTTCACAAATTTCTTGAACTTCACTTCTTTGGAAATGCCTAATTTCAGTAGCCATTTTTTCTAATGTTGTTGCAATATTTGCTATTATTGAAACTAAAAAAGCATGTCTATCCCTTTGAGTTACTTGTGTGGATATGTTATCAATACCTAAGTTTAAATTTTTAGCAACTTTTTCTTCAATCTCAATTTCTAAATTTGCATAGTTTCCCATTGACCCAGAAATTTTTGCAACTTCAATTTGTTTTCTTGCTAAATTAAATCTTTCTAACTGACGATTAATTTCATCAAATCATAATAAGAATTTTAATCCTAAAGAGGTTGGTTCACCATACATACCATGAGTTCTTCCCATTATTAAAACTTCTTTATTTTCTAAAGCCTTATTTTTTAAAACAAGTAAAAGATCTTCAAGATATTTAAGTAAAATTTCATTTGAATTTTGAATTATTTTATTTTGAGCTGTATCTACAATATCTGTAGATGTTAAACCTAAGTGAATTCATTTTCTTTCAGAATCAAGTGATTCTGAAATTGCTCTTGTAAATGCAACAACGTCATGTTTAGTTTCTGTCTCAAGTTCAAGCATTCTTGACAATTTAACTGAGGCGCTAGTTTTTATTTTATGAAAGTCATTTTTTGGAATAACTCCTAATTCCATTCAAGCTTTTGCAACTTCAATTTCAACATCTAATCAAACTTTAATCTTCTCTTCATCTGACCAAATTTTTTCAATTTCTTCTATACAATAACGTTTAAGCATAATTTTCTCCTTTAAAATAAATGTTCAAGAACTACTGTTTGATTTCTGTCTGGACCAACAGAAAATCCTGTAATTTTAATTTCACAAATTTTTTCAATTAATTTTAAATAATTTTTTGCTTCATTTGGAAGTTGATCAAATGAGGTAGCATTCGATATATCTTCTGCTCAACCAGGTGTATCAATATAAATTGGTTTACATTGTTCATATTTAAAATTAGTTGCTGGAATAGAGTTTAGTTCCCTACCATTCATTTCATACTTAACACAAATTTTTAATTCATCAATACCTGATAATACATCAAGTAATGTAATAAAAATACAATCTAATCCTGATGTTCTAATTGCATGCTTTAATGCAACTGCATCAATTCAACCAACTCTTCTTGGTCTTTTTGTGTTTGAACCATATTCATGCCCTCTTTCTCTTATTCCATTACCAATTTCATTAATTAATTCTGTTGGAAAAGCGCCTTGGCCAACTCTTGTAGAATAGGCTTTTACTACTCCAATAGTAGTATTTATTAATTTATGACTTATTCCGCTTCCGATTGAAACATTATTAGCAGAAGTATTTGAACTAGTAACGTATGGGTATGTTCCATGATCAATATCTAACAAAGCACCTTGTGCTCCTTCAAAAAGAACTCTTTTTCCTTCTTTGATTGCAGCCTCAATATATGAACCACAATCTATAATGTCTTCTTTAATTAAATTATATGCACTAATTAAGTCATTATACATTTCTTCAAAATTTAACGGTTCTTGATTAAAGACATTTTTTAAAAATTTCATTTGGTAATCATAAACTTCTTTAAATTTTTCTTTAAAATCAGGATCACTCACTTCTCCTAATCTAATTCCAATTCTTGAAACTTTATCTTGGTAGGCTGGTCCAATACCCCTTTTTGTAGTACCTATTTTTTTACTCCCTTTTGCTTCTTCTTGACACTCATCTATTTTTATATGATAAGGAAAGATCAATTGAACTCTATCTGAAATTAATAACTTTCCATGTTCAATACTGCTATTTTTTATAATATTAAATTCTTCAACTAATTTGGTTAAATTAACTACACATCCATTTGCAATTATATTTATAACTCTTTTATTAAAAATTCCAGACGGTATAATTGTGACCTTATGTTTTTTACCATTAAAATTAATAACATGACCAGCATTATCCCCACCAGAAAATCTTACAACAAGATCTGTTTTTTGAGCAAAGTAATCAGTCATTTTTCCTTTACCCTCATCACCTCATTGTGCACCAACTATTACTAATGAATTATATTTTTGCATTTATTTTTCTCCTTAGTTATATTTATTCATTATTTTTAATAAATTTTTATCAACAATAAATTCTTTAATAAATAATGAAATTTTATTTATTTTTTCTTCAATACAAGCAATTTCAGTTTCACTCATTTTTGATAAGACTCAATCAACAATTTTAAAATTATAAGGAGGTATTCCTATTCCAATTTTTAGTCTATTAAAATTTTCTGTTTTAAAATGTTGAATTATATTTTTTATACCGTTATGTCCTCCAGCACTTCCTTTTTCTTTAAATCTAAGTTCTGCAAGTTTTAAATCCTTGTCATCATAAATAACTAAAAAATCTTTAATATTAATTTTATAATAATTCATTATAGCAATAATTGATTCTCCTGATAAATTCATATAAGTTTGAGGTTTTACAAACAAAACTTTTTCATTATTTATATTTGAAAAAAAAATATGTGCTTTGAAATCATCAATTTTTTTTTGAAAACCATATTTTTCAAGTAATTTATCTATTGCAATAAAACCTGCATTATGTCTAGTATAAGAATATTCTTTACCTGGATTACCTAAACCTACAATTAAAATTGGCATTATTCTCAATCCTTTAAATATTTTTGTATACGTTTTTCAATTCCTTCTTTTAAATCATCATAAACAGATGTTAAAGAATCTTTTTTGTAAGATGATAAAATCATATTCGCAAGTAATTGATCCACTGAAATAATTTTTAAACCTTTAAATTTTTTTTCTTCTTCAATATTAATAGTATCTGTAATTACTACTTGTTTAATTATTCCATCTTTCATAGCATTTTCCATTTTTTGTTTTGCATCTCCATTAAATAATCCATGACATGCAATTATATATATTTTATCTGCACCTTGTTCTTTTAATGCTTCTGCACCTTTTATAATTGTTCCACCAGTATCTATCATATCATCAATTATAAAACAAGTTTTTCCTTTGATATCTCCTAAAATAAATTCTACTTCCGCCTTATTCGGTTCTGGCCTTCTTTTTGCAATTACTGCAATACCATTTGTAATATTACCAGTATATTTTTCAATACCATGAACTCTTGTTAATCCTCCATGATCGGGCGATACTAAAATGCAATCTGCTGGATTCATTTTTTCTGAAATAATAGTATCAATTATTTCAGAAGCAACTGTTTGAGCTGTGGAAAAATTGTCTGTTGGAATATTAAAAAACCCCATTATTTGTGTTGAATGTAAATCTACTGTAATTACTCTATTTACTCCTGCTTTTTCAATTAAATTTGCAACAAGTCTTGCAGTAATTGGTTGTCTTCCTTTTGCTTTTCTATCTTGACGTGCATAACCAAAATAAGGAATAACTACATTAATTCTTGCTGCACTTGCTCTTTTAAACGCATCTACTGCAATAAGTAATTCCATTAAATTATCATTTACTGGTTGATTTGTAGACTGAATAATATAAATTTCTTGTCCTCTAACTGAATCAAGTGATTGAACAATCATTTCTCCGTCCAAAAATTTTGAAGTTTGAGCTTGTGACTCACTAACACCTAATAAATCACAAATTTTTTTAGTTAGTGGTTTATTTGATGATAAACCAAAAATTTTTATTTTACTTTTATCCATTTTTTTATCTCCCTATTAATAATAACAAAATTAATATAGTAATTAATTAAGATTAAAACAAAAAACATAATTTAAAGGTATTTTAATATTCTTTATAATGAAATAATTCTATAATTTTTGATTAAATTACTAGAAGCAATAATATAAAAATCATATATAATCACTATTAGAAATTATTTTCTTTTCTGGAGGGTTTTAACAATGGGATTAGTATTTTTTAATGATTTTTCACATGCTAATGGAGGTAAAAAATTATATGATAATACATCAATTAGACTAAATAGAGGTGAACATATAGCTCTTATTGGTCCAAATGGTGCAGGAAAAACAACTTTACTAAACATAATTGCAGGTAAAATGCCTGTAGATAAAGGTGAATTAAAAATTCATTCTAAAACAAAGATTGGCTATCTAGATCAACATCAAGATGTTAATTTAAAAGAAACTGTCGATCAATATTTAAAAGGAGCATTTAATGAATTATTTGAGCTTGAAAAAAGGATGAATAAAATTTATGAAGATATGGTAATTGAATATAATGAGGATTTACTAGTAAAAGCTTTAAAATATCAAGATATCTTAAATTTAAATGATTTTGATTCAATAGATAAAAAAATAGGTAATTTAGTTACAGGTTTAGGAATTGGTCAAGAAAAATTAAATTCTAAAATGGAAGAACTTAGTGGTGGACAAAGAGGAAAAGTAATTTTGGCAAAGTTACTACTAAGTGGAAATGATTTTTTACTACTTGATGAACCGACTAATTTTTTAGATCTTAATCAAGTTGAGTGATTGGCAAAATTTTTAGAAAATTATGAAAAAGCATTTATAATGGTTTCACATGATAATGATTTTATAAATAAAACTTGTGAAATAATTTATGCCTTAGATAATTTAAAATTAACTAGATTTGTTGGGAATTACGATAAATATTTACAAGAGTCAGAACTAAAAAAAGAGCAATATGATAAAGCATTTATTTCTCAACAAAGAGAAATAAAAAAATTAGAAACTTATGTAGCAAAAAATAAAGCAAGAGCTTCTACTGCAAAAAGTGCGCAATCAAGACAAAAAGTATTAGATAAAATGAATGTTATTTCTGAAAGAAAGGATCTAACAAAGCCAAAATTTGCTTTTTCTTATAAGAGGCCTTCAACTAGTGTTATTGTTAGAGCAGAAGAACTTGTTATAGGCTATGATTCACCTCTTTTACATTCACTAAATTTTGAATTAAGAGAAGGTGAAAAATGCATTATAAGTGGTAGAAATGGTATTGGAAAAACAACTTTTTTGAAAACTATGGCTACAGAAATAAGTGCTTTTTCTGGAAAAGTAGAGTTAGGTAATAATGTAGAATATGCTTATTTTAAACAAATTGAAAATGTAAATGGAATTTCAGCAATTCAATATTTTATGAATAAATTCCCAACAATTACAGAATCTGAAGCAAGATCAAAAATTGCTCAATTTGGTGTAAAAAATACACTAATGATGCAACCTATGGAAACTTTATCTGGTGGAGAGCAAACAAGAGTCAGACTTGCTGCCTTGAGTATGATACCATGTAGTCTTTTAGTTCTTGACGAACCAACTAATCATATTGATGTTTTAGCAAAAGAATCTTTATTAGAAGCTATTGAAAATTTTAATGGAACTGTTATATTAACAACTCATGATATAAACTTTTCAACAAATTGAGCAAATAGAACACTTGATTTTACAGATTTAGTGTAAAATAATTTTAATACTTGGAGGTGTTATAATGGGTAATAAACAATTTGATGCAGGTTGTTTTAAATGTGTTGAAGAGATGCAAAAAACAACAAGTGGTGGAGTTGCTTCTAATATACTTGCAAGTAAAATGCAACAAAATCTTGCACAACAAGATTTAAATAGCATTCACTTATGTTCAAAACATTCATAATAAAAACGAACCTTTAAGGTTTGTTTTTATTATTTTTAATAAATGTGGAACCTGAACCACTCATAAAACCCAAATTTGCAAACTTTACTAACTCTGGATATAAGGAAAGTGCAGGAATTGTTAACATATTTTGTTCTTTTCGATTTTTTCAACTTTCTATTTTATCAAATTGACTATAAACAAGTTTTGTGTCTACTTCAATATTTGTAAATATAAGATTTTCTTTTTTAATTATTACTCTTGTTCTTCTTTTATATACCCTATTTCCATATCCTTTTACATAGGCAGTATTGAATTCTTTAATAAAAAAGTAACAGTCCATACCAATTTTTTTTGCAATTTTTTTAAGAATTTTCTTATTATTAGTAAAAGCTTTTGCAACAGAAATTGCATTGCTACTCCCTCCACCAAGACCAGAACCTAATGGAATATTTTTTTTCAAAGTGATAGAGTAAAAATTTTTAATTACTTTATGTTTTCTTAAAATTTCTAAAACTTTGTATATAAAATTTTCAGTTTCTAATTTTTTAATATTACATTTAATTTTGTCCATTTTTAATTTGTTTTTATTAATAACAATCTCATCATATAGATTTTCAACAATTGTAAATAATGATTTTATTTTATGATATTTTCCTTTTAATTTATACACTTTCAAGAACAGATTCACTTTAGCATAACTTTTAATCATTTTTTATTACCATATCAAAAATTTTAATAAAATTATCTATTGAAATATTTTCTGGTCTTAAATTAGAATTTATTTTAAGAGAATCTAATATAAATTGTGCTTTAATTTTATCTAAAGTAAAGTTTGTTAAATTATTTAATATATTTTTTCTTTTATTATTAAAAATTTTTCTCACAAAATTAATAAATTCTTGTGGTTTTCTTACTTTTTGTATATTTAAATCGTTAAAAATTAATGTAACAATTGAAGAATCAACATTTGGTATTGGTTTAAATAAATTTCTACTTACTGTAAATTCATACTTAGGAGTTGCATAAAGTTGAACCGCTATAGATAAATTATTGTAATTATTTTCATTAACCTTTGCGCATATTCTTTTAGCCACTTCTTTTTGAACCATAAAAACAGCTTTATTTAAATATTTTGATAAGTTTAAAGTTTTAAATATAATTGCACTAGTAATATAATAAGGTGTATTTGAAATAATTGAAACATTCTTAATATTATTACTCAATATTAATTTTTCTAAGTCTAACTCTAGTACATCTGAAATAATTAATTCAAAATTAGAATTTAAAATTTTAGACTTAAGTATTTTTTCCATGTCTCTATCAATTTCTATTGCAATTACTTTTGAAAACTTATTACACAATTCTTCTGTTAAAGCTCCTTTTCCCGGACCAATTTCAATGATTAAGTGCTCATATTCTTCACCCAATGTTGAAATAATTTTTTTAATTAAGTTTTTATCTGTTATAAAATTTTGTCCAAATCTTTTTTTTGCATATTCCATACTATTCTCCTAAAATTTTTTTGATTTTCTCAGAATCTAAATTTAATAAATTAATTCATTTAAATAATTTTTTTACATTAATATTTTCACTTCAATTAAAGTTTTTTGCAATTTTTATTCTATTTTCTTTTAAGTGAAAATCGTTATTTAGAAAGTCAAATCAAGAAATTAAAAAATTATTAATATTAAACTTAATTAAATTAGAAAGAGAATTTATAATATCTTCATCATTTGCCTCTGCAATTCCTATTTTTTTTGAATTATTTATATTTTTTTTGTTGATAAACGCATTAAAACATTTAAAATTAAGATACATATTAATGTTATCTCGTATTCTATTTCCAGGTCCGTCTGGATCTGTAAAAACAATTATGCCACGTTTAGCATTAACAGCTTCTATTAATTTTAGAGTTTCATTAGATAAAGCAAGCCCATTAGTTTCTATTGTATCAATATTATTTTTACCAAAAATTTTTTTTAATTTTAAAGTATCGGTGATACCTTCTACTACTACTACTTGTTTTATCTTCATAATAAAAACCTTTCTATTTAATACTAGCATTTAAAAAGCGATTATAGTATAATTATACACGAAGGGTTTTTTTCTTATAGAGGAGGAAATAAAAATGGCATCATGAGACCGTAAAAGAGAATTCGTTGCACTTGACCTAGGAACAGCTAACGTTGTTGCATACCTAGGTGGACAAGGGATCATTTATAATGAACCTTCAACAATGGCATACGATGTACATACAAATACAGTTGTCGCTTCTGGTGAACAAGCATATGAAATGATTGGAAAAACTAACGACGACATTAGAATGGTAGTTCCATTAGTTGATGGGGTTATCGCAGATTTAGATGCAGCAAAAGATTTAATTAAAATAATCTTTTCTCGTATCAAATTATCAGACATCTTAAAAAATGCTTTAGTAGTTCTGGCTTGCCCTTCAGGAGTTACTGAATTAGAAAGAGGAGCATTAAAACAAGTTGTTGCTGATATGGGAGCAAAAAATGTTCTAGTTGAAGAAGAAGTTAAATTATCAGCTATCGGAGCTGGAATTAATATTTCATTAGCAAGTGGACATTTAGTTGTTGATATTGGTGGAGGAACTACTGATATTGCAATTATTTCAGCTGGAGATATTATTATTTCAAGATCAATCAAAGTTGCTGGAAATCACTTTGATGAAGAAATTAGAAAATATATTCGTGCTGAATACAACGTTTTAATTGGTATTAAAACTGCTGAAAAAATTAAAATGGAAATTGGGGCATTAACAAAAATTGATAATGGTCGTACATTCCGTGCATTTGGACGTGATGTTATTTCTGGGTTACCAAGAGAAGTTGTTATATCACCAGACGAAGTTAAAAATGCACTATTAGCACCTTTTTCAAAAATCACAGATTTAATTGTTGAAGTTATGGAAAACACACCAGCTGAATTAGCTGGAGATATCATTAGAAATGGTATTACAATATGTGGAGGAGGAGCTTTAATTAGAGGAATTGATACTTATTTTGAATCAATATTTCAATTAAAAGTAACTAAAGCTCAAGATCCGTTATTTACAGTTATTGAAGGAACAAAAGAATACGAAAAACAAGCAGAAAAATGATTAGAAGTTGTAGAATTACGTGATTCAAGAGAATACAATATTAAATAATAAAAAAAGAAGTACATTAGATACTTCTTTTTTTATTTAAATATGATAGAAATTTAATACATATTTTTTAAACTTTTGTAATAAAAAAATAAATATATATTAAATTAAAAAAATAAAAAAATGTATTTTTTATTTTTTTAAACTTATAATATAGTAGAATAATTTTAGAAATTAATTAAAATATATTTATAGATAAAGAGGTAAATTTTATGGCAAAAACAAGTTTGAGATCAAGAAAACATATTGCTATAGATATAGGTACAAGTAAAACAAGGATTTATATAGAAGGTTTAGGAATAGTTTTTAATGAAGCAAGTTTAATTGCTACTGATTATAAAACAAAAAAAATTATTGCCATTGGAAATACAGCAAAAAACTTTATTGGTAAACTTAACGGGTCTCTTCAAATAAAATATTTATTAAAAAAAGGAACAGTTACAGATTTAAATTTATTAAAAGTTTTTTTATTTTATATTTTAAGAAAATATGAAAATGAAATTAAGGGAAGTGTAGTAACTTTGGCTTGTCCAACAAGCTTAACTTCTTTAGAAAGAAAATCATTAATAGATTCTATTAAATCACTTGGCGTATTCTATATTAATGTAGAAGATGATATAAAATTAGCATTATATGGAGCAGGTGTAGACATTACTAAACCAGAAGGATATCTTTGTTTAGATATGGGCGCTGGAAAAACAACTGCTGGAATAATTGTTACTGGTGGAACAATCAATTCAAAATGAACAAAAGCTGCAGGTATTAGTATAGATAATGAAATAATTAAATATTTAAAATCAAAACATGGGATGATGATTGGTGAACTTACAGCAGAAGCTGTTAAAATTTCTATTGCTTCATTAATTAAAATGAAGCAACCTCTTAAAACAAAAGCTTATGGATATGATTTAGGTTCTGCTATGCCAAAAGAACTTGAATTAAGTGATACTGAAATTTCAAAAGTTTTATTAGCAACTTTTGGAAATATTACTGATACAATAACAAGTTTACTTGAAGAAGCACCAAATGAAGTTGCTGGAGATATAATAAAAAACGGTTTATTTATTACTGGAGGGCTTTCAAATGTTCATGGTGTTAAAACATTTTTTGAAAATTTTTTTGAAATACCTGTTAAAATACCAAAAAATTCTAATACTGCTGTAATTGATGGTGCCATTGCACATAAAGAATTGACAATGAAAAAAATTGAAATTGAAATGAATCCAATTCAAGAAAATAATTGATAATAAGACTTTAATAGTTTTATTTTTTTTTATAAAATATTACTATTAGAAATTGAGGTATAAAATGAATATTTTTGTAAATAAAATTAATGATATTTTAAGAAAAGCTATAAAAGAATTAGATTATATTGGAGAAATAATAATTGAAAGACCTAAATTAATTCAAGATGCGGATTTTGCAACTAACTTTGCACTAATTAATGCAAAAAAAAATAATTTAACTCCATTAGAAATTGCTGAAGCAATTGTCAAAAAAATTCAAAAAAATGAAATGTTTGAGAAAGTTGAATTTGTAAAACCAGGTTTTATAAATTTTAGAATCAATAAACCTCAATTTAATTCTGTAATTAAAGAAATAAATATTTTAAAAGAAAATTATGGCAAATCAAAAAGAAAAAACTTTTTATATAATTTAGAGTTGGTTTCTGCAAATCCTACTGGCTTTTTACACGTAGGTCATGCTAGAAATGGAGCTATTGGTGATTCAGTAGCTAGAATCTTAAAATTTGCAGGTTATGACGTTCAAACAGAATACTATACAAATGATGCTGGCAATCAAATAAATATTTCTGCAACAACACTTTTTTATTACTATAAAAAAAAATTAGGCTGCAAAATCGATGCACCTGATGAAATGTATGGTGGTGACATGTATTTAGAAATAGCTCAAAAATTTGTAGATAATTATGGTAATAAATTTATTGAAATTGAAATTGAAAATAATAAAATTAATAACAAAGAAGTCAATGAAATATTTAAGTCAAAATCTATTTTCTATTTCATGCATGAAATTAAAAAACAATTAAAAAGTTTTGATATTAATATTGACTATTATTCAAGTGAAGCAAAAATGTATGAAAAAAATATGATTGAAGATGTTATCAAAAAATATCAAGAATTAGATAAAACATATTTAAAAGATAATGCATTATGGCTTAAAACAACTCTCTTTGGTGACGATAAAGATAGAGTATTAAAAAAAACTGATGGATCATATACATATATAACGCCTGATATTGCAAGCCACGTAGACAGAATAAAAAGAACATTAGCAAATAAATATGTAAATCTTTGAGGAGGAGATCATCATGGATATATTATTAGATTAAGATCAGGTTTAGCTCTTTTAGGTTATGATTTTAATCTTTTAGATATTGATATGATTCAAATGGTAAGATTAATTAAAGATGGAAAAGAATTTAAAATGTCAAAAAGAAAGGGAACAGCTGTTTGACTAATAGATTTACTTGAAATGGTTGGAAAAGATGCAATTAGATATATGCTTGTCTCAAAGACACCCTCAAGTCACATGGATTTTGATTTAGACTTAGCTATTGAAAAAAATTCAGTTAACCCTGTTTATTATGCACAATATGCAACAGCAAGAAGTAAAAAAATTATAATTAGTTTTGAGGAAAAATTAATTAATATTGAAGATTTAGATTTTAATTTTGAAACTCAAAAAGAAAGAGAAATAATAATTCACTTGGATAGCTTCAACTCAACAGTTGAATATGCAGCAAATTATAGATTGCCTAATATTATTTGTGATTATATTCAAAATCTTTCAAAATTATTTCATTCATATTATGCAGAAACAAAAATAATTGATGAAAATATTGAAAAAACTAGCCAAAAAATTTGATTAGTTAAATCAATTTATCAAATTTTAACCAATGCTTTTAATTTAGTTGGTATTTCAGTAAAAGATGAAATGTAAATTTTAATTTGATTAGAATTTATATTTATTTATAATTAATAAAATATTACTAAGGGACAATTTGCAAATTGTCTTTTTTTATGCTAAAATCAATGAAGATTATGTATTCTATTTTTAACTAGAAATACTTAATTCATTAAAAATATTTAAAAGGAGAAATCATCATGGCATTAGGAAATAAAAAACCAACTTTCGTGTCAATGGACCTTGGAACTGCAAATACTTTAGTTTATATTGCTGGACAAGGTATCGTTTATAATGAACCATCAATAGTTGCTTACAGAATAAAAGAAAATAAAATTATTGCTGTAGGAGAAGAAGCTTACAAAATGATTGGAAAAGGAAACAAAACAATTAGAGTTGTAAGACCAATGGTTGATGGAGTTATTACTGACATTAGAGCTACTGAAGCTCAATTGAGATATATTTTCTCAAAATTACGTATTACAAAACAATTAAAAAATTCAGTTATGTTATTAGCATGTCCATCAGTTATTACTGAATTGGAAAAAACTGCTCTTAAAAAAATTGCAGTTAATTTAGGTGCAGATCAAGTATTTGTTGAAGAAGAAGTAAAAATGGCTGCCTTAGGTGGAGGAGTTAATATATATGCTCCAACAGGAAACTTAATAGTTGATATGGGTGGAGGAACTACTGATATTGCTGTTTTAGCATCTGGAGATATTGTTCTTTCAAAATCAATTAAAGTTGCAGGAAACTATTTAAACGATGAGTGTCAAAAATTTATTCGTTCACAATATGGTTTAGAAATTGGTTCAAAAACTGCTGAATCAATTAAAGTTAATGTTGGTTCATTAGCAAAATATCCAGATGAAAGACGTATGAAAGTTTATGGACGTGACGTTGTTTCTGGATTACCAAGAGAAATTGAAATTACACCAGAAGAAGTACGTGAAGTATTAAAAGTACCTGTATCAAGAATTATTGATTTAACAGTTCAAGTTTTAGAAGATACTCCACCAGAATTAGCAGGAGATATTTTTAGAAATGGTATAACTATTTGTGGAGGTTGTGCCTTAATTAGAGGTATCGATAAATATTTTGCAGATACATTGCAATTGCCAACAAAGGTTGGAGAACAACCATTACTTGCTGTTATTAATGGAACTAAAAAATTCGAATCAGAAATTTGAGAAATTATTAAATCTCAAAGACTTCATGATGACATAATGAATAGATAATATTTATTATTTAAAGATACTAATTAAATTAATTAGTATCTTTTTTTCATTCTTGTAATATTATAAATATTGTTTTATTTCTTTTAAAATAGTATAATGATTACACATAATTTATTATGAAGTAGGAGGAAAATATGAAAATAGACGAACGTACATTTATTGCATTAGATTTAGGTACTAGTAATATACTTGCTTTTGTTGGAAAACAAGGAATAGTTTATGACGAACCATCAATTATGGCATATGATAATATGACAAACTCATTAGTTGCTCTTGGTAATGATGCATACGAAATGGTTGGAAAGACAAATGATAACATAAGAATGGTTATTCCAATTAGAGATGGAGTTATTACTGATTTAGATGCAGCAAAGGATTTACTAAAACATGTTTTTGGAAAATTAAAAATGTTAAATGATTGAAAAAATTCAATCATCTTATTAGCTTGTCCAAGTGAGGTTACAAAACTTGAAAGAGATGCTCTTAAACAAGTTGCATATGATATGGGAGCAGAAATTGTGATTGTTGAAGAAGAAGTAAAAATGGCTGCTTTAGGAGCAGGTATCAACATTGATGTTCCAAAAGGAAATATTGTTATTGATATTGGTGGAGGAACTACTGATATTGCAATTATTTCGGCTGGAGATATTGTTATTTCTAGATCAATTAAAGTGGCTGGAAATGCTTTTGATGAAGAAATTAAAAAATATATTCGTTCAGAATATAATGTAACTATTGGTGATAAGACAGCAGAAAATGCAAAAAAAGAACTTGGTTCATTAGCAAAATATAAAGGTGAAAGAACACTATCTGTTTTTGGTAGAGATATTGTATCTGGTTTACCAAAAGAAGCAATTATAAGCTCAGAAGAAATAAGAAATGTACTTGTAAATGCATTTAGTAGAATTACTGATTTATTAATTGAATTAATGGAAAATACACCACCAGAATTAGCAGGAGATATTATTTCAAATGGATTTACAATATGTGGTGGAGGTTCACAAATTAGAGGAATAAAAGAATACTTTAATGGCATTTTCTCAGTACCATGTCAAATTTCTCCAAACCCACTAACTGGTGTTATTGAAGGGGCAAAAACTTTTCAAAAAGTAATTAGCAACAGAATTGAAAATGACTATTATGGTAAAAATGCAAAAAATGTTAAAAAAGGAAGTCAAAGTTCATATATCTAATAAATAAAAATTTAAATAATATTACTAATAAATTAATTTAAAAATCGTGCTTAAATAGCACGATTTTTAAATTTTTATACCTAAAAAATTATTTTTAATTAATATTAAACACTTTAAGTGCATTATTTGTAGTTGCTTCAATTACATCATCTTTTGTAATGTTTCTAATATTTGCAATTTTTTCAATTGTATAAACAATTTCTTTTGAAGTATTTATTTTACCTCTTTTTGGTTCAGGTGTTAAATACGGTGCATCCGTTTCTACAATCATTTCATTCAAAGAAAGTTTTTCAACAGTTTCATGTAATTCATAAGCATTTTTAAATGTAACTACACCTGGAATAGAAATTAAATATCCTCTAGTTGTAAATTTTTTTGCCAATTTTATTCCTCTTGTATAACAATGGACAATTGCCTTTTTAACCTTTAAATCATCTAAAATTTCCAATGCATCATTGTAAGCCTGCTCAGAGTTATCATTATCTCTTAAATGCATCATAACAGCTAAATCATTTTTCATTGCAATTTCGATTTGTTTTCTAAAAAAATCCTTTTGAATTTCTTTAAACTCAGTAGAATAATAGTAATCTAATCCAATTTCGCCAATAGCAACAACATTATCGCCATGAGATAATAGTTCAATTTCTTCTAAATCTTTATTTAAAAAATTTTGTACATCATTTGGGTGAATTCCAACTGCTGCATAAACATTTGAAAATTTTAAAGCATATTTCACAGCTTGTTTTGAAGATTCAATATCAAATCCAACACAACAAAATCTAGAAACTCCACTAGCTTGAGCCTCCTCTATCATTTCTGATGTTTCAATTTCCTTTTCCTTATAAACACTATCATTAAAATGTGTATGTGTATCAAAAATTCCTGCCATTTTTATTTTCTCCTTATTTTCCTAGACAATATTTTCTAAAAATATTATCAATAACTTCATCATCTGCATCAAAAATTCCTAATAAATTATTAATTATTTTCAATATTTCATATAGTTCGATATTTATTAATTCACTAGAAAATCCTGCTTCTAAATTTTCTAATGAAATTCTTATTAAATTAAAAATTTCTTTAAATTGCTCAATATGATATAAATTTGTTAACATTGGTAAATCATTTTCTAATAGTTCTGAATCATTAAAGTCTTTTTCTATTTTTGTTAATAACTCTTCAATATTATTAGTTAATGCTGATATTTTTACAATATCTTTAAATTTTTTCTCTACCTCATTAATTTGTGAAGTACTTAATGTTTCTACTTTGTTAAGAACTACAATGTGTTTTTTCTCCTTAATTAAATCATATAGTTCCATATTAATTTTGTCATAATTTATTATAAAAAAAATAAGTTCTGAATTATTTATTAAAGAAATTGTCTTTTTAACACCAATTTTTTCAACGATATCATTCGTTTCTCTAATTCCTGCTGAATCAATTAAATCTAATGTAAAATTTTCAAAGTTAATTGTTCCTTCAACAATATCTCTAGTAGTGCCTTCAATATCTGTAACAATTGCTTTTTCATCATTTAGCAATGAATTTAACAATGATGATTTTCCCACATTTGTTTCACCTAAAATCAAAGTTTTTATTCCATGATTAATTGTATTTATTCTTTTACTTATTTCTATTGTTTTAAAAATAATATTTTCAATTTTTTTTAAACTAATTTTAATTTCTTGTATTGATGCTCCCTCTATATCATCATAATCTGGATAATCAATAGAAGTTTGAATTTTTGAAATTAAGTCAATAATCTTTTCTTTTAAATCCAAAATTTTTTTATTAGAACTTCCTTCTAAGTTCAAAGCATTAATTTTAAGTGATAATTCATTTTTCGATTCAATTAAATTATTTATTCCCTCTGCTTGAAGTAAATTTATTTTTCCATTTAAATAAGCTCTTTGGGAAAATTCCCCTGGTTTTGCCAATCTTGCTCCATTTTCAATTAATAATGAAATAATTTTATTAGTTAAAAGTATTCCACCATGACAATTAATTTCTACAACTGTTTGACCAGTAAATGATTTATTTCCAATAAATGTTAATATTAATGACTCATCGATTAGATTATTTTTATCATAGATTTTTCTTAATTGAAATTTATTTTTTAATTCCAAGTCTTTTTTTAAAATTTTATTTACAATTTTTATGGAATCATCACCTGATAATCTAACAATTGAAATTGCTTGTTTTGAAATTTTTGTTGCACAAGCTACTATAACATCATCTAAATCTATTTTCATAATATCTACTTCCTAAAAACAATTATAACAAAAGAAAACTCAGAAAATAAATTTTCTGAGTTATGTAAAATAAAGTATTTATTTATTTTTAAGTTTATACATTATTTTTATTTTTCTTTCCCCAATAGGGCCAATCGTTTTATATTTAATTAACGTGTATTTTAGAAGATATTCATTAATTTTTCTTCTAATTAGTTTTGAATAAACTGGTAAAATAATATCTTTTTTTTCAACCAAAACACTTCTAACTATTTTTCTAAGTTTTTCCATACTAAATTCCTTTTCATTTATTCTAGAAATGCCAAAATTAATTATTTCAAAATTAAAATTTAAGTTAAATTTATTCAAAATTATATATTTAATAAAATTTACAATATTTCTTCTACTGTTAGAGTCCAATTCTTTACTTGAATAATAAGAAATTATATTTTTATTTTGAGATTTTAAATGAAAAAAACTAATTATTTTAATATTTGAAATTATTAAAAATTGCTGTTGTACGAAATTTAATATTTTTAATCTATCTTCATTTGAAATAAATAAAAATACTTCATTTAGTTTATTTTTATAAAACCAATCAACATTTGGTTTTTTGTTAACAAAGAAGTGATTTATTTTTTGATTATTTATTTTTAATTTCATTTTTTACTTTAGAAGCTGCAATTTTACTTTTTTCAATTTGTTTTTCTCTTTTTCTTTTAAAACGACTTGCCTTTGATTCTCTTAAGAAGTGGAAAAGCAAAGTTTGAATTATTTGAAAAGTTGATGAAAAAATTCAATATATTGCTACACCTGCAGCAATATTAAAAATAATAAATACAAACATTACCATAAATACAATTTGCATAATTAATTGTTTTTTTCTAGCTTTTTTTTGTTGTTCACTTTCCAATTTAGATTTCTTCTTAAACATTTGTAAGAACATTGGCAACAACATAGAAACTATTTGCAATGGTAAATATACAACTATAAGTGAAATATAAACTCAATTCCCCTGTCTAATTTGCTCTCAAGGAACTTCAACTAATGTAATTTGGCCTACAGTTGCAACTTTTAAGGCATGTGTTGCTCTTACAACAGAAAACATAGCAAATAAGAAAGGCATTGATAAAAATGAAGTTGCAATAGAACTTAAAGGACTTATACCCTCTTTTTTATAAAGAGCCATTAATTCCATTTGTTGTCTTTGCTTTGCAGTTGGATCAAGTGAACCTTTATATTTTGCCTGAATTTCAGCTTGTTTCGATTGCATACCTTGCATTTTTTCTTGATTAAGTTGAGTTTTTCAAGTAAAACCAAGTGTAATTAATCTTATTAATATTGAAGTAAATAAAATTGCAAATATAACTGAAATTCCATATTCAACAGTTTGAGAATTTAAAACACCATTTTCTAAACCTGAAAATAACCTAACAAATCCAACAAGTATATATGCTAATGGATAAACAAAAAATCCATAAAAAGGTGAAGATGTAACTGAAAAGGCTTCTCCTCAAGTTGAAATTGCTTTAAAGCTAAATTCTGATATTTGTCCACTTTCATCAAATTGAAATCAATGATTTTTTGAACCATAATCACCTAATGATTTAATAATTATTTCAAAAGCTACCCCAGGAGAATAAATTTTATTTCCTGCCATATCTGTAACTTGGCCAACTGTATATTGGGGTTGATACATTTGTACACAACCTCATAACATAGAAATAATAACAAATACAAATAAAATTAATTTAGTTCAAACTCATATTATTTTTGCTATCTCTTTCTTTGTTTTTTTATTTTTATTATTACCATTATTATTCAAATATTTCGAATAATCTTGTTTGTACAAATTAATCACCCGATTCTATTCCATTAATGAAATTATTTTTTGAAGTTCAATTAAATTAAAATCATATGAATTATTTAAAAATTTTTGTCTTGCAATTATAACAACATCAAAATTTTTATCATTACTTTCTTGCAATATTATATAAATCATTGATCTTATTTGTCTCTTAATTTTATTCCTCAATATAGCATTACCTATTTTTTTCCCCACAGAAATTCCATATCTAAGTCTTTTAACTTCGTTCTTTTTAAAAAAAACAATATAACTCTTATTTTTATTACTTTTTCTAGCAGAAATTATTTTTTGAAATTCATAATTCTTTTTGATAATGTTTTTATTTTTCATAAATTATATTAAGCTGTTAACTTTGCTCTACCTTTAGCTCTTCTTGCTTTAATAATTTTTCTTCCATTTTTAGTAACCATTCTTGCTCTAAAACCATGTGTTCTTGCATGTTTAATTTTACTTGGTTGTCAAGTTCTTTTCATATTATTACCTCCTTTTTTTAAGAAAACTTCATATAAAATTATATAATAAAAATCAAAATATTCATAAATTAACTTGATTTTCTTTTATTATAAATAAGAACAAAAAAATAGAATTATATATAATTACTTAATAACTTTTTTATGTGGATAACTAAATAAAAATCAATAAGAATGAACCATTTTTTAAATTTTTATTAACAAATAAATTTTATTTTAGTATTTTTATAAGTTATGCACATTTTTAAAACGTGTATAACTTATAATTTAATTATAATTAATTGAGGTGGACTAA
>sequence2
TTTTTTTTTTTTTTTTTGGTTGAAATAATGGGAAAAATAGTGTTTAATAAATGTATAAGTAAATAGTTAAAAAAACAGAAATAGTACTTCTGTTTTGGATATTGGGATGTAATTTGCAGATGCATTCTAATAAATACCCTTAATAATAAGGATAGTTTCAAAACAGAAATGTGGAGAAACTATCTTTTTTTATTAGGAAGGGATTAAAGATGATTAATTTTAGTGTAAATTCAACAGCTACAAGTAAGCAAATTAGATATATTAATGGTCTTTTTTCTCTACTAAAAAGAAAGAATATTGAACATCAATACATTGATAGTTTAAGTGAACATAATGGTAAAAAAATTGATAAAAACCAAGCTAGTCAAATATTGAGCGAGTTAGAGTTAATTATACAAAAGCATAATGAAATGGATATATTTTGAGAAGACGGAAAAAATCAGATAAACAAATCTGGGATTTTTGACGTTATTAATCAAAGAAATTATAAAAAAGATATAAGCAATATTATTGTTAATTGAGATAAGCATATTATTGATCCAAATTATGGGTATGATAATAAATCAATGTTGGTTCGAATACCTTTAAATTTAGCAGATTTAACAAGTGAACAAAAATTGAATATTGATACAAATAAAAAATATTATTTAGAATTTGTTTGTGTTAAAGCAAATTGAGATAATGAATTAGAAACAAGTAAAATTGGGTTAATTTATAGAATTAAAAATAATAGAATTAATGATATTAGTTCAGGAAAATATGTAACTATTGATAATAGTAGATTTGTTATTATTGGTTTAAATTTAAAACACAAACAATGAAAAAGGATTTTGGATGAACAAGGTAATATTATAGCTTTAGACGAAAATGTTACTTCAACAGGTAAATTTTTTGAATATCATGGGAAATTTTGAAACTCATTGAGCGATGTTGTTGAAGAATATCACAAAGAAGCTATTATTTTATTAAATAAAGCTCAAAATAAATTAAATAACATTGTTGAAAATATTGGAGTATATAAAGAATTTATAAATGTTTTTGAATATTCAAAACAAGAACTTGAAAAAATAAAAGATGATTTTAATCGAACAACAAATATATTAGAGTCCCCCCCTGATGGCTAATATATTAAGTGATAAAAGATAATAGGTTATAAAGGTTAATAGTGTTGTAGGAATTCACATAACCAAATTAAATTAACAACTTTAGTAATAAAGCATTTTTGTATTACTTATTTGAATATATGCTTTTATTTTACTTTTATTTTTAAACCTTTTTATACTTTTTTATTCGTCAACATAACTAACATATTTAACATAATTTAAACATTATCTTAAGTTAATCATCAACTTGGGTATGTTAAAAAGGAATTAACTATAATGGAGATAAAAGTTAGTGAAACTCAAATTATTGCTCCAAATATAAAAAGAGTTGCTAGAGATGTTTATTTCAAGCAAAATCATGTTAATTTATATGAAAAAGTTAAAGAAATAAAAAAATACTACAAAGAAAATAATCAAGATAATAACCCAAAATCTATTAAAATAAAGAGAAAATAAGATAATATATATTACAAAAAATTCATAAATAAAGGGTTTTTAATTAATATTTAAAAAGGTGCTTTAATTGATTAAAAGCAGCACTATACTTATGATTGACACCATTGTTTTATATTGAAAAATAATATCAAAAGACAAAACTTTTAAACATAGAGACTATGACTCTATTACTTCTTAAGAAAAAATGGTTGAGTATTTAGAATTTTTACAAGATGAAGAATCTGGTTGATCAAAAGTGTTTAGTTCAAAAGTTATGAATTATTTAGATAAAACAATTAAAATGTATAAGTAAAAAATAGAAGTTGTTCTATTTTTTTATTATAAAACTTAATTATATTTAGTGATAAAAAAATATAATTGATAAACCAAATAAAGGTAAAAAAAAATATAATTGGGGCGAGCGAAGAGATAATTTGTTTATTTTTAAGTGTGTTAAAATGGAGAAAAAAAACAAGAGAATTACCATTTCTGACATATCTCTTGTTAACTATTTATATCATATTTTATTTTTTAAAAATAAAATTATTTAAAGTAATAAATATCTTCTTCTTTACTTATTATTAATATTCAGGCATTCAAAATGAACAATACAAAAGTTTTTATTACTATAATTAAATGGATTACCATCTATAAAATTTATAGTTCAAGATTTTTTTGGATTAGTTTCATTTCATTTATTTCCACCATTTATTATTTCTTTACAAATGTAACATTCTCTTATAATTTTTGGGTTTTCATCCTTAATTTGATTTGAATTATTTCAAGCTATTTTTGATAAGTTATTTATTAATAATTGACTTGATAAATAAGTATATTTTTTAAAATCTAAATTATTATTAAATATAGTCATATCTTTAAAGTATTTTTCTCTTAAAATATATTTTTTATTAGCTTCAGATAATTTTACTGTCTTACCATTTTTATTATAATTACCAATTATTAAATTTTCATCAATATTTATTATTGAATCTCACATTATAAAAGATTTACTATTTAAATTTGAAATTTTAATTTTTGATCTAAATTTAAGATTAAATAAACCTTTTGTTTCTTTGGTGGTAAGAGGTAGGATTAGATACTTAAAATTACCATTTAATTCTACTATATCTCAAATTATCGCTGGTCTTATTTTTAAATAATCTTCATCATTTAATTTAAAATTAATACTTGCATTATTATCTATAGTTTTAAAGATATTATTAGCATGTAATTTATAATATTTTATAATAGTATATTTTCTATATTTTTGTTCCATATATAATGTATCCTCAAAAAAAAACCTCCTCATAAGAGGAGAAGGGTCGCTTGGACCAAAAAGGAAGGTTAAAAACGAATTAACCTTATAAATATAATACATTATCTTTTAAAAAAATTTAAATTTTTTATACTTTTTTAAATCAAATTTAATGTTTATTTTACCAATTTTAACTCAATATTTATAATAATATTAATTAAAAAGGAGGATAAAATATGAAAAAAATATTAAGCTTATTAGGAGTAGCTGGTTTAACTGCTACAACAGCTGTAACAGTAGTTTCATGTGGAACTGAAAAAGATCCTAGTGAAATGACTAAAGAAGAAAGAATAGCAGCTATTAAAAAATTAGCTGAAGAAGCTAAGAATTTAATAAATAAAGCAAATAAAATGAAGGATTCTGGAGATCTATTAGGTTATTTTCGTATACGAACTAAAAACCGATATAAACTACAAGAAAAAATATATAAATTAGATATGGGGGAAAAATTAGTAGAAGGTCAATATGGGATGTCTACTGAAGAAATTATAAAAACAGTAAAAGAAGGAATGTCTAGTTTACAAAAGAAAATTTCAAATGGTGAAATAGATAATCAAAAGTTTATTGATGGTTATGAAAATTTTAAAAAAGAAGTTCATAAATATTGAGGCATAAGTGAATAAAAACATTTATGTTTTTTTATTTTTTTGTAAAATATAATTAATAGGGAGATAAAATATGAAAAAATTATTAAGCTTATTAGGGACTGTTTCTATAATGGCCTCTGGAGCAAGTTATGTAGCATCCGTGTCAACAGATAAAATACAAAAATATAATGTAGTATATAAAACTGAAGATAAAATAGATTGGGATAATACGCAAGAAGAATTTAAAAATGTTTTTGATAATATAAAAGAAAATTTAATTAATAATAATTTATTAAAAATATCAAATAATATTGATCAAGATAAAATTTTAGAATATATTGAATTTTCAAAAAATAAGGCAGAACAAATTTTAAGTGAAGTTTCTAGTAAAAACCTTGGATTAGATGATACTATAGAATATGTCAAAGTAAATAACGAGCAATTTGTAAACTCTTTTAATAAAGGTTATGACCAATTTACTAATATGGATTCTAAAAAAATTATTTCAACAAACTTTAATGTTTTTGGGGAGACTAATTTTAATTTTTTGAAATTTGATAACAATTTTTTATCAAAACTAACTCCTGCTCAAAAGAATAGTGAATTAATTTCAAAGTTGAAAGTTGCAAAACTTAGTTTAAGTAGTTTATCTGCGGCAGCTGCTGTGGCAGCAGCAGGTTTTTGGGCAGGGTCATTTTGAAGTTTTGGTGCAACTATTCCTTGAGCTGTTGGATGTTCAACTGTAGCGGGTTTTTTAGGTGCAGCAGCAGGGGGAGTGAGTATTGCTTTAAAAAAATATAACAAAGATATGAGTAATTGAGAAAAATTTGGTTCAGTAATTGGTGCAACAATATCTTTGGGACAAGTATTAGCAACTACATCAAAAATTTTATTAATAAATTTAACAGCAGGTATAACACCTTTTTGTTGATGTATGCCTACTTTGATTGCGTTAATAGCAACAATAGGTGCAATAATTGCATGAATAGATGGGGTTAAATTTTAAAATGTTAATAGCTATTTCTATGTGTATAATTCCAATATTAATGTCAGGTTTTTTTGCGTATTTAATTTCATGATATATTTTAAAAAGAAAAATTGATTTTGTTAAAAATATATTTGATCAAGAAAAATTTTTTAAATTTCCTATTATCTTGGATCGTGAAAAGAATAAAATATTTATTCCTTATTTCATTTTTATAATTTTAAATACTTTAATTTTTATTATTTTTTGTTTCATTTTTACTCCATCTGATGATGGATACTTACAATATATGTTATTAATTGGAATTATATATATAATTTCGATTATAAGTATAATATGATTTATTGTTTTAAGTATTAAAAAAAATAAAAATATTAAATTTACAAATTCAGAAGAAGAAAAGGACTTTATAATTAACCAATTAGAAATTGGAAAAACTTATGAAGATAAATTAGAGCAAATTAATTTACAAAATAGTTCAAATACTTATAATATGTATTTAAATCTTGCTCAAAAAAGATATATTAAAAGAATTGATAAATCATTAACTTATGAAAAAATATATGAATTATTTTTAAAGTATATTAGAGCAAATTGTTGAATTTTAACACAAATGTTATCTAAGGAAAATATTAAGTCAAATATTGAAATTAATAAAAAACTTCAAGATATACCTGAGATTATTTTCAAAAATTTTTGAAACAGTGTTTCTAGAGTTTTTGAATAAAAAGAAATAATTTAAAGTAGAACACAAATTAGAAAAATTAGTTCATATTTTTCTGTACATCTTAATTTTGTAATTTTATTCTATCTTTGTTGTAATATTTTAAATATTGGCGTCTAGGTTCTTCAGGAAGTGGTAAAACAACAACTATTATATTAAAGGTTATATATTCATTGATAGAAAACAATTTCACTATACTTTTAGATCCTGATAATGAATTTTTGAATATATCAAAAAATCTAGAAGCTAATATGATAGATTTAGCGGCTCTAAATCAAATATTAAATCCATTTGATGTTGTTGCACCAGTTGTGCAAGACGAAGTTTATTTATCATTTGAAGAGAAAAAAAATTGATTTTTAGAAGAACATTTAAATAAGTTAAAAGAATTTCATGAACTATTATTTCCAGATTGAATACAAGACAAACAAATATTTTTAACAAAGTTAATTAAGAAGTTATTGTAACTAAAACTGTATCTACAGTTTTAGCAGATTTAATGATTGGTTATATTTATATTGTTGACAATCACCAGGTAACACCAGCTTCGTTTAAATTAGAGTTTAATTTATTACATAAAACATTAAAAGATTTTATGAATTCAGATGTTGAAAGAAAATATTTACAAAAAAAATATAATGAACAGATTTCTTTTATTAATGAATTTCAAATTTTTTGGGTTGAAAATAATTAAAAGTTTATTGACGGTTTTAAAAGTTTTCAAAAAAAGTTTATGAATATTGAAGCATAAGTGAATAAAAACATTTATGTTTTTTTTTCTTTTTTTTTTGTAAAATATAATTAGTGGGGAGAAATAAAAATGAAAAAATTATTGAGCTTAGTAGGGGCAATTTCTTTAGGTATTTGTTCATCAGCAACTGTTGTTTCGTGTGGGAGTTTGAATTCAAATTCAAACTCAGATTCAAACTCAGATTCAAACTCAGATTCAAACTCAGATTCAAACTCAGATTCAAACTCAGATTCAAACTCAGATTCAGATTCAGATTCAGATTCAGATTCAACTGAAAAAAAACCTAGTGAAATGACTAAAGAAGAAAGAATTGAGGCAATTAATAAATTGCTTGAAGAAATAGAAGAAATTTATAAAAAATCAAAAGAATTGGTGGAAAGCGGAAATGCTTATGAAGCAATAAAATTACAATTTATTGATTTATATGTGAAATTAATAGCCATTTATGAATTGGATATGGAAGAAAACTTAATTTGAAGTTCTGATCCTGGTGCAAGTCCGAATTCGAGCGGACAATCAAGAGACAGTGTAATTGATGAAATAAAATGATTATTTGAACAAGCTGAAAAAGACGGTTTGTCGGGTTTAACTGCAGAAGAAATTGTAAAGCTAAAAAAAGAAGTTTATGAATATTGAGGCATAAGTGAATAAAAACATTTATGTTTTTTTATTCTTTTTTTTGTAAAATATAATTAGTGGGGAGAAATAAAAATGAAAAAATTATTGAGCTTAGTAGGGGCAATTTCTTTAGGTATTTGTTCATCAGCAACTGTTGTTTCGTGTGGGAGTTTGAATTCAAATTCAAACTCAGATTCAACTGAAAAAAAACCTAGTGAAATGACTAAAGAAGAAAGAATTGAGGCAATTAATAAATTGCTTGAAGAAATAAACGAAATTTATAAAAAATCAGAAGAATTGGGAAAAAGTGGAAATGTTTATGAAGCAATAAAATTACAATTTATTGATTTGAGTTTGAAATTAATAGCCATTTATGAATTGGATATGGGAGAAAATTTAGTTTATAAACCGGAGCCTGGTGCAAGTTCGAATTCACAAGGACAATCAAGAGAAAGTGTAATTGATGGAATAAAAAAAGCATTTAAAACACTTGAAAAAGACGGTTTTACGGGTTTAACTGCAGAACAAATTTTACAGTTAAAAAAAGAAGTTTATGAATATTGAGGCATAAGTGAATAAAAACATTTATGTTTTTTATTCTTTTTTTTGTAAAATATGATTAGTGGGGAGAAAAAAATATGAAAAAAATATTAGGTTTAATGGGAACGTTAGGAACAATTGTGAGCTCAGGTAGTTTTGTTGTAGCTTGTTCTGACAAGACGACAGAAAAAGTAAAAACTGTAGAAGATCTGATTGCTGAATACAACAACAAAAGTGACAGACTTGAAATAATATTATTAGAGGCTGATAATAATAATTGGACAAATTACCAAGAAGCACTTTTTTTATATTCAGATTTATACGCTATTTCTTATGAAATAATATTATTAAATCCAGATTGAAAACGAGGAGTAAAAAACACAGAATATGTAGATTCAAAAGAAGAATTAATTGAAGAATTAGAAACAGAGAAAAAATATTGAATGGAAAATTCAATTTTACCAAATGGTCAAAATGTAAGTCAAGAATTTTTAGATTATATTGATAAATTAATTAATAAATACAAATAAAAAAATAAAAGTCGTTTTGTTTTTTTATTATAAAATTAAAATATATAAATTATATGACTTTAAAAAACAAGCCAAAAAAAAACTAGAAAAATATTAAAAAAAAATAATATAATTGCTGTAAATGGTAGTTTAAACTATTAAGTTAAAAAAAAGGAGAAAAAATATGAAAAAAATATTAGGTTTAATGGGAACGTTAGGAACAATTGTGAGCTCAGGTAGTTTTGTTGTAGCTTGTTCTGACAATACGACAGAAAAAGTAAAAACTGTAGAAGATCTGATTGCTGAATACAACAACAAAAATGACAGACTTGATATAATATTATTAGAAAATGATAAAGATGATTGGACAAATTATAAAGAAACGCTTTTTTTATATGCAGATTTATATGCTATTTCTTATGAAATAATATTATTAAATCCAGATTGAAAACCCGAAGAAGGAAAAAGATTTTATGTGGCTTCAAAAGAAGAATTAATTGAATTATTAAATGCATTGAAAAAACAAGTAACTGAAAATCCAATTTTACCAAATGGTCAAAATGTAAGTCAAGAATTTACAAATTATATTGATAGTTTGATTAATAAATATGAGTAAAAAATATCAAATTTTTCTTAAAAAAAAATACTTACTTAAAGCTTCTAAACATTCAAAATCATGCTTATTGGAAACAATTTTTTCTTTTGATTCATTAACTACCAATACCAACAATTTTTTATAATTTCTTCTCTATTTTCCTTAAAAAAATTAATTATTAAAATAAAAAAATAGTAAATGTTAGTTACCAAAACACCGGTTCAGATAAAAAATAGAGCCCTAACGGCGTTAGGGCTCTATTTACCTTAATATCAAAAATAACATAAAATTAAAAATTTTGTGTTGTTTTTTTAATTTTTTTGTATTATTTCTAAATTTTCCAAAATTTGTTTTTTTTGTAAACGTAATTTTTAAAAGCAGCTCAATTATACATTATTTTTCTACTTATTTCATTTTTCGTAAAGTTCACCAATAAACTTTCTTGTGTTTTCTGACAAATTAGGATTTAAACCCATTTTTTTTAGTTTTTGTATTTTTTGTAAGGTTTCATAATCTAAATAAATAGTTGTTTGCTTTCCTTTAAATTCAAAACTATTACTTATTTTTTTTAAAGGTTTTATATTATAAACATCTATATATTCTTCGTTTTTTTGTTTTTCTTGTACAAGATCATTGATTGATTTTGCAGTATTTTTTGTATTTACATCTTTCGATAATTTTTCAAATAATTTATTTGCCATTTTATAATATTCCTTTCTCAAATAATTCTTCAACAAGTATCAAGAAAGGACTTTTGTCTGTTAAAGAAAATTTATTAATCATTGTTTCTTTTTGTCTAATTGTCGAAAATGGTATTTTAGAATTTAAAATTTTATTAGCAATAGCTAATGTATTAATTCATTGCATAACATCTTTGTGTGTTACGTTTTTTTGTATTTTATTCACTACATAATAATTAATATTATTTTTTATATTACTACCAATATCATTTAAAGTTTTTATCATTTTGTTGTAGGGCTTTGTGATTGTTTCTAACCCTTCAATAGAAAATTTGTGTGGCTCTATTGGAATAATTATTTCATCAGCCGCTAGCAAAACATTTAATAAAATTTTACTCATTGTTGGTGATGTATCCATTAAAATATAATCTATTTTTTGTTTTAATTCCTCTTCAATTTTTTTAAAATTTTGTTTTAAAATAAGCTCTCCCATTGCCAAAGAATTTAAATCTGACATAGTTACTAAACTTAATTCTCTATTTGCCCCAACTAAAAAGATATTTTCTATATCAGTATCTTCAATAGACAATAATAATTCTTCTTTTGTAGAATCTTCTTGAAACCATTTAATAATTTCTTTATTAGACTTTCAATTTTTTTGTAAAGCTAATGAAATATTAGCTTGTGAATCAAAATCAAAAATTAAAACTTTTTTTCCTAATTTCGCAAGAGCATTAGCTACATTTAAAGTAATTGTTGTTTTTCCAACTCCACCCTTAGAATTTGTAAAAGTAATTTTTTTCATTTTTTTAACCCCTTTCTATGCAAAAAATAGTTATTTACATATATTTATATTATACATGTATAATATAAATAATCTATATAATATGTATATATTATATATAAATAAACTAAATAATATATACATATTATTTATATTTTTTCAAAGCTAAAACGTTGTCTAGAAGGGTCAAAGAATATTATTTTACGTGCAATAGTTTTGCTTTTAATCAAATACTACACCCTTTTAAAAACCAACACAAAAAACCCATTATTTATCAGGTTTTTTGTTATATATTGTTCTATTTTTTTTCATTTTATACTATTTTTAAATATCATCTTTATCATTTCTTATTTACCTTTTTTTATTTTAGTTAATAATTTTCTAAATTGTTTTTCAAACATATCTAATCTCTTTATTAACTTAAGATAATGTTTATTAAATGTTAATTATATTATTTATGTTGACGAAAAAAAGGGGCATAAAAACATTAAAATAAAAACAAAAAAAGGTATTTGCCCAAGTGACGCAAAAACGCTTTATCGCTAAAGCACACTAATTTGATTTGGTTAAGTGAATTCCTACAACACCTTTAACAAGAGATGAACAAGATTGAGTTTTAACAAAACAAGCGGAAAAAGCTATATTTTTAGCAAGTACTATTGCAAGATATAAAGTAGTGTATGTTATGCCTAAAATGGTAGAAAAAATAAGATTAAACAATTACAGTTAGGAGAGAAAAAAATGGCTACATCAAATTCAATTACAATAGTCATAAGAGAGCAAGATTTATTAGAAAAAATGGGTTGCTTACAAAGAAATATTAAAGGTTAAAATAGAAATGGATAAAACAACATTAAAAAAATCAAGGAACGATTATTACCAAGATTTATTAAATTTTTCTTTAGATAAGTTCTTTGAAGACTATCACAAGCCAATAATTAACGATGCTATTGCAAAAATAGTTTCAAAAGTGTTTAAAGACAATATTAAATATATGGTTAATGAATTAAAGGGAATATTTATTTCAAATAAGTATGACGTTGAATATTTAAAAGCTTTAAGTAATATTTTGTTTAAATTAAATGTTGAAGCCAAATATAAGTCAGATGACAGAGATTTTTTTGATGATAATGTTTCAGTACATTCAGAGTTTTTAGAAATACCTATAACTATGGAAAAATATGCTAATAATTTAGAGAAGAAAAAGCAAGTGCATTTAGCAAATTTTAAGAAAAATAAGTAAATATTATTTAAATTTGCTCCATCAACGTTGGTGAAAAAAGCCAAAATCTATTTTGATTTTTTTCTTTTTTTAACAAAAGTTAAATATTTTAGTTATAATTATTTTAGGAAGCTAATTCCCTCCTTGTTAATTAAGGATAGAATCTTAAGTTGGGATGCAAACTTAACTTAAGATTATCAAAACAGAAGTACTATTTCTGTTTTGGTGAAGAAAAACAGAAATACTATTTCTGCTTTTTTTTTTTTTTTTGGTTGAAATAATGGGAAAAA