##gff-version 3
sequence1	MetaGeneAnnotator	CDS	43	402	.	+	0	ID=MGA_1;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASDLVDPNVYDDYVKKALLQTLGQNDLAIVVASEIAKKHLEYIIKEVNEHVSFLLEKDVDVSFLTKEEFEKEKSFLNAVKKQKSNKSKEFSFENFISGSSNITALNATKAIIENVGTK;locus_tag=LOCUS_00010;note=MGA_1
sequence1	MetaGeneAnnotator	CDS	433	1329	.	+	0	ID=MGA_2;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKTHLLKAINNELCRKNDDFSVKYYTSGDFRKEIIDSLQGGFQEIESTKDRLSSLDVLLIDDIQFLANSDKTNEIFFELFNSFIENNKQIVITSDKYAEALNGFDRRLVSRFSQGLNVKIEKPDATTAYNIVDYKSKVSNINLSDEAKKYISSYYGSDVRKIEGAINKIEFALIQNKIDMSILITDEKVTDFLSDYSFAPGGEVTIQKIKNVVAQNYGISPSSIDTKNRLQKIVAARHLAMFLTVDVLKKNYSETGVSFGGKDHTTVMNAFKKIEANLKKDKVFRNLVSKIKKEITS;locus_tag=LOCUS_00020;note=WP_039275826.1 chromosomal replication initiator protein DnaA (Mycoplasma mycoides) [pid:46.0%25%2C q_cov:99.3%25%2C s_cov:65.8%25%2C Eval:4.5e-67%2C partial hit],internal stop codon at [400:402](+),MGA_2
sequence1	MetaGeneAnnotator	CDS	1460	1918	.	+	0	ID=MGA_3;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFKINRNYFIEELSKCNKIVDYKSSVPSYTAIFIEVEVDKISLVSTNTSVSIKTSTFVNKEGLEIKEVGSFLIRGKNFIEILKRMDDEIISINKVEKNIITLSGENSEFLLNVLDENDFSQITFNETGEFFEIDTAEFKKGLNQTIISVNE;locus_tag=LOCUS_00030;note=MGA_3
sequence1	MetaGeneAnnotator	CDS	1943	2584	.	+	0	ID=MGA_4;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLTEESIFYITGTDGYRVSRKKIVLDRSVDEKLSANVPFKSVFEIIKVLNDKNKTKIMIHDSLITIISNNTIIQSTLLEGQFPDVKGVFPTDFNSTIYVENKAFFKLISRADIPSEENTSTVVNFILDGETIIIKSNIQQIASFEEEFKNFELRGLDNQNIYFNSKFILESLKSFETKVVEISFIDSKTPIMIASSEDLSLSQIILPMFSN;locus_tag=LOCUS_00040;note=WP_000581152.1 DNA polymerase III subunit beta (Streptococcus mitis) [pid:26.4%25%2C q_cov:98.6%25%2C s_cov:55.6%25%2C Eval:7.8e-16%2C partial hit],internal stop codon at [1916:1918](+),MGA_4
sequence1	MetaGeneAnnotator	CDS	2821	4374	.	+	0	ID=MGA_5;product=DNA topoisomerase (ATP-hydrolyzing) subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166217.1;translation=MTLSDEIIIKDNGRGIPIDIHPKTNKTTLETIFTVLHAGGKFDESAYKISGGLHGVGASVVNALSLYVEAIVMRDNKTYRQLFSDGGTKATSLEELGSTEENGTIIKFKPDPEIFKESVEFEFKIIQTKIKQLAFLNKGLKINLIDQKNSKHLSYRFEDGIKDYIKEINSGKEKVSQEIFYVNNNINRIDVEIAIQYNDNYDENIFSFCNNIFTSEGGTHEDGFKTSLLRAINSYVGSQKNFKGNKFVFDDIKEGLCAVISIKHVDPLYEGQTKAKLSNTDAKEAVSQVLYENFTEFLLKNPSDAKSIVDKILISQKARKAAQKAREETRRKSAIDNFSLPGKLADCESKDAEESELYLVEGDSAGGSAKIGRNRKYQAILSLRGKVLNVEKVKQAKAFENNEIQSIIAAIGTGVKKDLNLKKLRYKKIVIMTDADVDGAHIRILLLTFFYRYMKELITNGNIYIAQPPLYKIESGKNIDYAYSDAQLEKLKNEKYRDLKYIIQRYKGLGEMDAIQL;locus_tag=LOCUS_00050;gene=gyrB;EC_number=5.6.2.2;note=WP_011166217.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Mycoplasma mycoides) [pid:65.3%25%2C q_cov:100.0%25%2C s_cov:81.9%25%2C Eval:1.8e-195],internal stop codon at [2755:2757](+)%2C[4372:4374](+),MGA_5
sequence1	MetaGeneAnnotator	CDS	4384	4536	.	+	0	ID=MGA_6;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDPARRTMIQIKVDDAFMANEVFSSLMGENVEMRRNFITENAQFVENIDI;locus_tag=LOCUS_00060;note=WP_011182903.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Mesoplasma florum) [pid:71.4%25%2C q_cov:98.0%25%2C s_cov:7.7%25%2C Eval:2.7e-14%2C partial hit],internal stop codon at [4372:4374](+),MGA_6
sequence1	MetaGeneAnnotator	CDS	4552	6987	.	+	0	ID=MGA_7;product=DNA gyrase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166218.1;translation=MVDGKETILEIDIKDEVEKDFLEYSMSVIVSRALPDLRDGLKPVQRRILYSMNDLKITSDTPHKKSARIVGDVIGKYHPHGDSSVYEAMVRMSQDFSYRYPLVEGHGNFGSIDGDGAAAMRYTEARLSKISSMLLKDIDMETVPYIDNYDASEKEPEYLTGYFPNLLVNGATGIAVGMATNIPPHNLKEVISAIIAYIENNEITIDEILEFIKGPDFPTGALMTNGTNMIEGYKTGKGNLIVRAKIDIEDTEKKQRIVISEIPYQTNKVRIVEKIAELYKNKQIVGITDIRDESNYEGIRVVLDLSSSANAQLIIKRLYKYTSLQTSFAINMLALNNGIPEVLNIKDVIKLYVKHQINVILKRSVFEKNKIKNRLHLLYALRVALDADNIDKIIKIIRESNTNEVAYKSLNEAFGFDERQAKAILDMRLQRLVGLERAKIETDISNMEARLAELEKIIESKEEQNRILKEQLIEISEKFGDERRTKIINESQTKIEEEELIQDQKMFITITENGYIRRLNSEDFKSQKRGGKGIIINSYPEDNIVISQIGKTKDDVLFFSNEGKVYKIKGYNITQFTRTSRGLPIINFIGINSSEKITTILSFKNKEKKFKYLIFVTKKGTIKKVPIEEFDRINNYGKIAIILNKGDELISVVPSSGLNEVLIASKKGKILKIDENDVRPISRSSVGVKGITLDNDDEVTKAITNYKNDIIATISETGILKKTLISEYNIFGRGSKGIAGMKLNEKTGKFKSMHAIRDSDDLIMISSKGKIIKIEAKDINLQSRNSIGVIGFGLEDGEYITATTVEYKKGV;locus_tag=LOCUS_00070;gene=gyrA;EC_number=5.6.2.2;note=WP_011166218.1 DNA gyrase subunit A (Mycoplasma mycoides) [pid:59.5%25%2C q_cov:98.9%25%2C s_cov:96.2%25%2C Eval:1.9e-277],MGA_7
sequence1	MetaGeneAnnotator	CDS	6992	7381	.	+	0	ID=MGA_8;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDINRIENDFDFVLEQLNKRQTNYEKQLKNIIEINKKRKDIIKQVEELKAQKNKVSKKIGVLSRENKNDEIKKLKNEIASTNEKINLLDKQQSKIDLELKTLMLEIPNVPNKNMPLGKDDEENIEIKK;locus_tag=LOCUS_00080;note=WP_011182914.1 serine--tRNA ligase (Mesoplasma florum) [pid:44.2%25%2C q_cov:100.0%25%2C s_cov:30.6%25%2C Eval:2.1e-27%2C partial hit],internal stop codon at [7379:7381](+)%2C[7418:7420](+),MGA_8
sequence1	MetaGeneAnnotator	CDS	7514	8008	.	+	0	ID=MGA_9;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRAIADILINRHTNKGYKEMSLPILVNRENMLGTGQLPKFEDDAYKVDNQFLVPTSEVSLTNVVRHEILDLKQLPMYLTSFSQCFRRESGSAGRDTKGMIRLHQFNKVEMVKVCEPKNSDEELEKMLLDAEDCLKMFNIPYRVVELCTGDVGFASQKTYDLEV;locus_tag=LOCUS_00090;note=WP_011166277.1 serine--tRNA ligase (Mycoplasma mycoides) [pid:65.2%25%2C q_cov:100.0%25%2C s_cov:38.9%25%2C Eval:7.3e-59%2C partial hit],internal stop codon at [7379:7381](+)%2C[7418:7420](+)%2C[8006:8008](+),MGA_9
sequence1	MetaGeneAnnotator	CDS	8081	8257	.	+	0	ID=MGA_10;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARFKNEEGKTEYVHTLNGSGLAIDRLFAAILENNYDGEKLVLPEVLRPYFNKESYIK;locus_tag=LOCUS_00100;note=WP_011166277.1 serine--tRNA ligase (Mycoplasma mycoides) [pid:64.3%25%2C q_cov:96.6%25%2C s_cov:13.3%25%2C Eval:6.2e-16%2C partial hit],internal stop codon at [8006:8008](+),MGA_10
sequence1	MetaGeneAnnotator	CDS	8620	8949	.	+	0	ID=MGA_11;product=deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183575.1;translation=MYASARNVRFKNKDITGHAEIKAINKVYRKSKSKNLSEFNMVVTLKPCLMCLAAIEQANIKSVFYFLDNLKVDYSRFKTNIIFLKILSSKNKDFEIILKEFFKKLRNNR;locus_tag=LOCUS_00110;note=WP_011183575.1 deaminase (Mesoplasma florum) [pid:41.7%25%2C q_cov:93.6%25%2C s_cov:75.4%25%2C Eval:7.3e-17],MGA_11
sequence1	MetaGeneAnnotator	CDS	8977	10599	.	+	0	ID=MGA_12;product=DNA polymerase III subunit gamma/tau;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183574.1;translation=MENKKSLYRIYRPKSLDEVAGHEGIKEIIKSQISKNNYPHALLFSGQRGTGKTSIAKIFAKIVNCQNLIDNKTCNECKSCIEFDRNSHPDIFEMDAASNNGVDEIRNIKANVSTLPAISKYKVYIIDEVHMLTNSAFNALLKTLEEPPSHVVFILATTEFSKIPATIVSRCQLFNFKKIAKKSLENKIREITIKENSQIDNEALEEIFYMSDGSLRDALNYLEQTLTVAKEKITIEELKKVFYISTKKEKLEILKNVFNKNVKGIITYFEKANNQGLDFNSTILGILNIVKELITIKMTNEKEHLKVLNDEDIKFFENTNLKDLFLLAENISEAFSKTKNSNVSYQYILISILKTVAELSTLISVDNKSNGVIVKNQNQNTFNSNLEESVDEVTSVVVEKQTLNEKEKEVKTKITDQEVETQSMLKQKEDEKRDNSQLEVILNITDEETKLYRLQLAILKKEVESLETEFEIKDDQILNVLVGANKEARKTYEKLFGNLIYNNLNNIEELQNFICFYKVKIRAGNEDAVIMVVEENLNSK;locus_tag=LOCUS_00120;gene=dnaX;EC_number=2.7.7.7;note=WP_011183574.1 DNA polymerase III subunit gamma/tau (Mesoplasma florum) [pid:45.0%25%2C q_cov:99.8%25%2C s_cov:85.4%25%2C Eval:3.5e-128],MGA_12
sequence1	MetaGeneAnnotator	CDS	10871	11443	.	+	0	ID=MGA_13;product=recombination mediator RecR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183573.1;translation=MDEIIEILKEFEGIGSKAAKKIFFQIMTSNSKKDKLIEVINKISDNYSVCQICNFYKYKKVCQFCDDSSRDRNLICVVSYITDGQRILESNFKGLVHILNGEINLNKNLQPESLKIKELFARINKEVEILLALNLTFEGEVTANYIANQIKDNTKSVTRIARGIPLGGVLDYIDTETLEDAIKNRKALKK;locus_tag=LOCUS_00130;gene=recR;note=WP_011183573.1 recombination mediator RecR (Mesoplasma florum) [pid:43.5%25%2C q_cov:97.4%25%2C s_cov:94.9%25%2C Eval:4.3e-41],MGA_13
sequence1	MetaGeneAnnotator	CDS	11459	11641	.	+	0	ID=MGA_14;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFITLEGIDGSGKTTVSKMLKDSLIQSGHRVLLTREPGGEPLAEDIRKLILDTNQKPTP;locus_tag=LOCUS_00140;note=WP_013385182.1 dTMP kinase (Ketogulonicigenium vulgare) [pid:62.7%25%2C q_cov:85.0%25%2C s_cov:24.9%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [11639:11641](+),MGA_14
sequence1	MetaGeneAnnotator	CDS	11741	12097	.	+	0	ID=MGA_15;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSTSAYQGYARNIGIADVEEVQNIVLGLTKPDVTIFFDITPKEAQIRLLNRKRNPDRIEKESQKFHESVYEGYQMLISENTERIKIVDSRKPINEVLQQVKFIIDNAIGDLISNHND;locus_tag=LOCUS_00150;note=WP_011166257.1 dTMP kinase (Mycoplasma mycoides) [pid:44.4%25%2C q_cov:89.8%25%2C s_cov:50.7%25%2C Eval:2.7e-19%2C partial hit],internal stop codon at [11639:11641](+),MGA_15
sequence1	MetaGeneAnnotator	CDS	12090	12836	.	+	0	ID=MGA_16;product=DNA polymerase III subunit delta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183571.1;translation=MTKNEILKILLQLKNENKIYHSIIFSCNNQDLLEDLANEFIRIIFCVNDSLKNDNCKSCNKVINNLTFNILRIGDGTESIKKEKILELITVFSSSSISGEEKKVYKISNAENLADTSANSLLKFLEEPPKNTFALLLTKDRNQILQTIKSRCKVFVLDYERKEILKNSIMEELITNKKRDDLLIYSYEFKKLEKKEQVNILESVFQNIIIKKHTQLATLFLDTILELKKSSYSSLLIENLFIKIYEVL;locus_tag=LOCUS_00160;note=WP_011183571.1 DNA polymerase III subunit delta' (Mesoplasma florum) [pid:42.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-47],MGA_16
sequence1	MetaGeneAnnotator	CDS	12836	13564	.	+	0	ID=MGA_17;product=tRNA1(Val) (adenine(37)-N6)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183570.1;translation=MKVLNQVLNFKDLKIFQDTKHFSFCLDSVLLAKFYIPKVKDKKICDFGTNNAIIPLLLSKYIRKDAKIYGIEIQKEACDIACENILINNLSDKIEIINEDIKTFVKDKNNFFDVIYCNPPFFKISKGSNLNKKSKNLIPARHELLINLEEIIYSAKVGLKNGGRFVMVHLAERLDEIIYLLKKNNFSLKNLRFVCSKQNQEPKKVLIDAINDGNSGIKILNNLYVHNDDESYTNEVLEIFGD;locus_tag=LOCUS_00170;note=WP_011183570.1 tRNA1(Val) (adenine(37)-N6)-methyltransferase (Mesoplasma florum) [pid:52.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-65],MGA_17
sequence1	MetaGeneAnnotator	CDS	13565	13819	.	+	0	ID=MGA_18;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRICNKKKYIVGLSGGPDSIYLLDNLIKKVNVNKIIACHVNYNFRKDSTTDMLICKKYCEKNKIKLLIKNINIDYDNLKKNFEA;locus_tag=LOCUS_00180;note=WP_011166253.1 tRNA lysidine(34) synthetase TilS (Mycoplasma mycoides) [pid:51.2%25%2C q_cov:97.6%25%2C s_cov:20.4%25%2C Eval:1.2e-19%2C partial hit],internal stop codon at [13817:13819](+),MGA_18
sequence1	MetaGeneAnnotator	CDS	13898	14566	.	+	0	ID=MGA_19;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDDIETYLMQKQKKALSSYFGIKKETFYKDKKVMRPIIDTKKSQILKYLKENNIDYATDSTNCDIKYFRNSIRATLNEDDFIKLLEEKNLKNLELNKINIEIKKILAGQLKQAHFNRDESFNQRLLFSFLEQKGFGQIFYSRKKNTLKETIKQIKSTKSFVRVKIENLLLIKDRQNIYCIDLFNYEVLDKQINDLTEKDLKNFEPSINLKDFDGSLIITND;locus_tag=LOCUS_00190;note=WP_011166253.1 tRNA lysidine(34) synthetase TilS (Mycoplasma mycoides) [pid:36.5%25%2C q_cov:100.0%25%2C s_cov:58.9%25%2C Eval:3.5e-30%2C partial hit],internal stop codon at [13817:13819](+)%2C[14564:14566](+),MGA_19
sequence1	MetaGeneAnnotator	CDS	15127	15801	.	+	0	ID=MGA_20;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSSMMKGGGMGGNMFGNNKQRPRETKSDVKFKNVAGINEEKQELVEIVDYLKNPNKYAQMGARVPKGVLMEGPPGTGKTLLAKAVAGEANVSFFSMAGSEFEEMFVGLGASRVRDLFSDAKKAAPCIIFIDEIDAVGRKRNSSMGLGTSEQTLNQLLVEMDGFGTNSGVIVMAATNRADVLDPALLRPGRFDRTIQISLPDIREREAILKLHANNKSVSPEID;locus_tag=LOCUS_00200;note=WP_011183568.1 ATP-dependent zinc metalloprotease FtsH (Mesoplasma florum) [pid:79.7%25%2C q_cov:94.6%25%2C s_cov:32.6%25%2C Eval:1.5e-92%2C partial hit],internal stop codon at [15016:15018](+)%2C[15125:15127](+)%2C[15800:15802](+),frameshifted%2C insertion/deletion at around 15000%2C15075,MGA_20
sequence1	MetaGeneAnnotator	CDS	15898	16653	.	+	0	ID=MGA_21;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITINDIDEAIDRVVGGPAKKSRVMTLQDKQIVSYHEAGHALIGLKLRSASKVQKVTIIPRGNAGGYTIMTPKDESNFSSKEDLFAAIAGYLGGRAAEEIIFGKDNVTTGAHDDLDKATNIARKMVTQFGMSKLGLTKYLTMAEEAYGQTKGVYSDEVAYKIDQEVSRMLDESYVIAVKLINEYKPLLELIAESLRVLETITAEQIDYIEKNNKLPNEVILEKERKAKEDKKREAGEILEFEPDEEDETKK;locus_tag=LOCUS_00210;note=WP_011183568.1 ATP-dependent zinc metalloprotease FtsH (Mesoplasma florum) [pid:75.8%25%2C q_cov:94.0%25%2C s_cov:36.3%25%2C Eval:2.1e-96%2C partial hit],internal stop codon at [15799:15801](+),MGA_21
sequence1	MetaGeneAnnotator	CDS	16734	17594	.	+	0	ID=MGA_22;product=Hsp33 family molecular chaperone HslO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182915.1;translation=MDMEIRATSSERNVKIAIVDISEALDEIIKLQKSNPLASVALGRTIIANALLSISIKDRSKMTTNINGMGLVGSIIAEFQNDSIRGYIENPNFDISLIKENKGSPLSQAVGKMGFLQISRDNGEKEPYTSRVELVSGEINIDFMYYLQQSDQINSLITTTVEINDDGSIKKACGIIIQLLPGFKDEDIDFIEKKVGSLEHLKKTLVDSTNYESLLKDICQDAKVLEVKPLKFECTCDVRKVMDSIKLLGQEEISNAYNKGEIIEVICDFCKKQYNIDSKDLKNLIN;locus_tag=LOCUS_00220;note=WP_011182915.1 Hsp33 family molecular chaperone HslO (Mesoplasma florum) [pid:43.9%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:4.4e-64],MGA_22
sequence1	MetaGeneAnnotator	CDS	17646	17909	.	+	0	ID=MGA_23;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNQNTNRGQNPNNNPNNNNLNNQQPKGPNGQPIMPNGQIPIGPKGQPIMGQPIMPNGQMPLGPNGQPLKPNGKQPKAPKTPKTKTE;locus_tag=LOCUS_00230;note=MGA_23
sequence1	MetaGeneAnnotator	CDS	18228	18884	.	+	0	ID=MGA_24;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTQILKGVDLKIEKSKFIVILGPSGSGKTTLLNSISGLDKVTVGDVFSVGHNLTLLKDSHLTKFRRENVGFIFQQYNLLSNLTARENAEVGENLSVPTENSMTIEEIFETIGMKEQMNKYPHQMSGGQQQRVSIARALAKNPEILFGDEPTGALDEEMGRKVLEILLEVKNRFKTTVIIVTHNPNIAEIGDTVIHVRNGLIDKLAHNSNPKKPSEID;locus_tag=LOCUS_00240;note=WP_011182916.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:76.4%25%2C q_cov:99.1%25%2C s_cov:35.8%25%2C Eval:3.5e-91%2C partial hit],internal stop codon at [18210:18212](+),MGA_24
sequence1	MetaGeneAnnotator	CDS	19233	19787	.	+	0	ID=MGA_25;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKNIDIKGKVFLGPMAGTTNAAFRIICKEKGASLVYAEMVSTEGLVHNNQKTKTMIEVSELEHPITLQIFGFDVNSFVKAASIVEEFSDCDIIDINMGCPAPKVAQRSQAGANLLKFPERVGEVIKAVVENSSKPVTVKMRIGWDENNKNIVELAKIAEQNGASAIAVHGRTRNQFYNGNAD;locus_tag=LOCUS_00250;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 [19785:19787](+)%2C[19791:19793](+)%2C[19932:19934](+),MGA_25
sequence1	MetaGeneAnnotator	CDS	20043	20228	.	+	0	ID=MGA_26;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGEEFAIREMRKQILWYLARLGKNTIIQEMKQKAIQIENLNDIYNIFKIYETETGENYER;locus_tag=LOCUS_00260;note=MGA_26
sequence1	MetaGeneAnnotator	CDS	20218	21189	.	+	0	ID=MGA_27;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDNNLERDFSEQEIIRREKYQQLVKDGRDPYLNTIFDRSHKIQEIIDQFSEFNKEELANKTDVVITAGRIRFFREAGSKAIFANIQDQEAMIQIYVRQDEIGEEEFKYFKNLDLGDIIGVTGKMMKTDHGEITIRVKEAILLTKALKPLPDKHAGIADIEEKYRRRYVDLIVNPETKQTFINRTKIIRTIQKYLDDKGYMEVETPILHSLSGGAAAKPFCTHYNALDSEFYLRIATELHLKRCIVGGFEGVYEIGRIFRNEGLSTRHNPEFTSIELYVAYKDMYFLMDLCEEVIRKCAMEVNGKTTLSYGGHDLDLGKPFRR;locus_tag=LOCUS_00270;note=WP_011182927.1 lysine--tRNA ligase (Mesoplasma florum) [pid:65.4%25%2C q_cov:98.1%25%2C s_cov:63.7%25%2C Eval:1.4e-120%2C partial hit],internal stop codon at [21187:21189](+)%2C[21232:21234](+),MGA_27
sequence1	MetaGeneAnnotator	CDS	21241	21726	.	+	0	ID=MGA_28;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYEEALQIAKEKGIKVEKHHFSVGHIINLFYEEFVEETIIEPTFVYGHPREISPLAKANPKDPRFTERYELFIVNREYANCFSELNNPIDQYERFLDQLKEARSGNDEANDMDIDFVEALEYGMPPTAGIGIGIDRLVMLLTNSESIKDVLLFPQMKPRG;locus_tag=LOCUS_00280;note=WP_011166280.1 lysine--tRNA ligase (Mycoplasma mycoides) [pid:79.4%25%2C q_cov:99.4%25%2C s_cov:32.0%25%2C Eval:2.1e-71%2C partial hit],internal stop codon at [21187:21189](+)%2C[21232:21234](+),MGA_28
sequence1	MetaGeneAnnotator	CDS	21732	21890	.	+	0	ID=MGA_29;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFGIALGYVSKLSLLETIQGMEQIKKKIKESLKVKFSLIEVNSSIVTDKHL;locus_tag=LOCUS_00290;note=MGA_29
sequence1	MetaGeneAnnotator	CDS	22113	22736	.	+	0	ID=MGA_30;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIIKTEYNIEEVNKAITGIFQIISTVDKEVSRNFTKLNISHFGNTLIFVTHKKLKELYPLLTFNERINRFGRDNGSFVLQDYVEKLLNQSSANQFSSDIFDFKTFSKIYYYNSDCEKVVSIGYVSYTVDREMLKRQNNILKENVKTQTQYHHLLKSNKLPMTLSCGIFIDRITMGILEKQHIGEVQSSIWDQDFLDYCNTNNIKIL;locus_tag=LOCUS_00300;note=WP_003641196.1 aspartate--ammonia ligase (Lactiplantibacillus) [pid:27.3%25%2C q_cov:99.0%25%2C s_cov:60.9%25%2C Eval:2.5e-19%2C partial hit],internal stop codon at [21984:21986](+),MGA_30
sequence1	MetaGeneAnnotator	CDS	22785	23288	.	+	0	ID=MGA_31;product=2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003235019.1;translation=MVDLIIVANGTGQRYGSNKLLEKIDERFVIELTIEKFINIEKIKNIIIVTNDEIKNILDNKYKNLILVKGGKTRSLSVQKGLNYVKSSFVMIHDGARPYVGQELINSLIENIKDSDGIIPILKITSCLKKIGDTIKTVNREEYVLSQTPQLFKTTSIKKEYANIDEN;locus_tag=LOCUS_00310;gene=ispD;EC_number=2.7.7.60;note=WP_003235019.1 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase (Bacillus) [pid:31.0%25%2C q_cov:97.6%25%2C s_cov:75.0%25%2C Eval:4.9e-13],internal stop codon at [23286:23288](+),MGA_31
sequence1	MetaGeneAnnotator	CDS	23451	23891	.	+	0	ID=MGA_32;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSILGAFGISLTITSSVTACYPIKVKKSLRELPVQDIGELKGTKDLPTATEIINAVLDKNADFGISASDFEVSGKITTSSVKLKASSTSTNFRGKVIIRFSYIKEVDESSTINSMNLKLSKNYNKYINQLSITKIVIKNTKN;locus_tag=LOCUS_00320;note=MGA_32
sequence1	MetaGeneAnnotator	CDS	23986	24111	.	+	0	ID=MGA_33;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRKYEVMYIIDQDASDVKGVQKKLNDVLVANGGKILESEE;locus_tag=LOCUS_00330;note=MGA_33
sequence1	MetaGeneAnnotator	CDS	24310	24582	.	+	0	ID=MGA_34;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKFKEEKKPSRNFERKPGYRRPEGDTTASEAPQKENVIKSESVKEAIKEVESTPKTAKDVAEKPTKVESAEKKVTKKATAEKKVTKKDS;locus_tag=LOCUS_00340;note=MGA_34
sequence1	MetaGeneAnnotator	CDS	24607	24756	.	+	0	ID=MGA_35;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSVNLIGRITKDPELRTSSGGKSYVAFTLAVNEFGGGNQYTQFIPCFA;locus_tag=LOCUS_00350;note=WP_011182978.1 single-stranded DNA-binding protein (Mesoplasma florum) [pid:62.0%25%2C q_cov:100.0%25%2C s_cov:33.1%25%2C Eval:2.0e-09%2C partial hit],internal stop codon at [24754:24756](+),MGA_35
sequence1	MetaGeneAnnotator	CDS	24775	25038	.	+	0	ID=MGA_36;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARYVKKGAQISVEGNINVRQDNNNGQYSTVVSIRANRVQFLGANQAGGMNVSQSNSQPEMSRPQTNNYDFDLVEDNKPSNDDDSIL;locus_tag=LOCUS_00360;note=MGA_36
sequence1	MetaGeneAnnotator	CDS	25062	25286	.	+	0	ID=MGA_37;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182979.1;translation=MKPKFVRRKKVNFFAKNNIAYIDYKDVDLLKKFISTNGQILPRRITGTSPKHQRMLATAIKRARIMGLLPFVSN;locus_tag=LOCUS_00370;gene=rpsR;note=WP_011182979.1 30S ribosomal protein S18 (Entomoplasmataceae) [pid:84.3%25%2C q_cov:93.2%25%2C s_cov:92.1%25%2C Eval:1.2e-25],MGA_37
sequence1	MetaGeneAnnotator	CDS	25361	25807	.	+	0	ID=MGA_38;product=50S ribosomal protein L9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182980.1;translation=MKVILLQDVKNYGKKDQIVEVSDGYARNYLIPKKLAIVATKNDLSHLGVKLKKEQEKIDSQKREVEDLKTKIEANILNFGLKVKDNKSFGSISLSQICDRLKKEYAIDVDKRKFEKHDNLTDIGLHYLKIKLDFKIIATLKVQVEGIK;locus_tag=LOCUS_00380;gene=rplI;note=WP_011182980.1 50S ribosomal protein L9 (Mesoplasma florum) [pid:52.0%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:6.9e-33],MGA_38
sequence1	MetaGeneAnnotator	CDS	25807	26622	.	+	0	ID=MGA_39;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNENLDLNSQTVLLDSEKAVLAIAMHSPKVNFEILTQLEANDFSIEPHRMIFEAIRDLNQNSQNPTITKIADHLQQKKQLEQVGGIEYIGEVSSYFYTDEGFEDYVEIVFKNSIGRQLDRAVNEVKRLREAKSPIDEIFLVAQQKILDIKTEIQKDDAQAIKETVVDVVKKIHDLQNTGSSINGVASGFKDLDNITNGWQKGDFVILAARPSMGKTAFALNLAINAAERKKGVVFFSLEMPKEQLVQRVLSSVSAVDSSSLRTAQNLTESV;locus_tag=LOCUS_00390;note=WP_011182981.1 replicative DNA helicase (Mesoplasma) [pid:43.3%25%2C q_cov:96.7%25%2C s_cov:58.7%25%2C Eval:4.8e-57%2C partial hit],internal stop codon at [26620:26622](+),MGA_39
sequence1	MetaGeneAnnotator	CDS	26668	27159	.	+	0	ID=MGA_40;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDDSPGLNVMQIQSKLRKLKRDFEIDICFIDYLQLISSMQSRMDNRQNEVAAISRHLKKIARELNIPIVCLSQLSRSVEKREEKVPLMSDLRDSGAIEQDADIIMFLYRKAYYEKKEYEVFDDSQNDETDVIISKHRNGATGVIKVNFLRNYGKFTDRSKNS;locus_tag=LOCUS_00400;note=WP_011182981.1 replicative DNA helicase (Mesoplasma) [pid:62.1%25%2C q_cov:96.9%25%2C s_cov:35.7%25%2C Eval:1.2e-48%2C partial hit],internal stop codon at [26620:26622](+),MGA_40
sequence1	MetaGeneAnnotator	CDS	27219	28262	.	+	0	ID=MGA_41;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLVSAFSLGAISSVSATSAGCQIPTKAIKITVDGKEKSEDNEDVLEVKNYDNSVGQNKVVGVTNLLLEAITFTDEKYQDSKTLKKQKDFLGDQGQSLSLMNYIKKNSDSTDSVFKDFKNSYEASRNTNFIAVNFERSDAAKKGQNSLFSLKDDARVFVVKKTKENKEVTKSEIVDSFDLADGLDGHTSFKSDAEHIIKTGASLNETFAALAQGSDAQNRIFENYDSANTYDQEIVTRARKLDSTLEDEKTNKPLKLLGEFEVPKQVDNKVVEPIDGNAPKAGKTDDKFRLYNSDDGKIIQASSTLIHTESKSFAKISLDFDDPGNNSIEERKFRIDYNNLDKVILQ;locus_tag=LOCUS_00410;note=MGA_41
sequence1	MetaGeneAnnotator	CDS	29356	29550	.	-	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCTFIIKFYKWQNNDQKKSSFLKGKKMGIKSGALKYNVSTSAVKRRKPEFKLKKIFLNLDLIDE;locus_tag=LOCUS_00420;note=MGA_42
sequence1	MetaGeneAnnotator	CDS	29642	29782	.	+	0	ID=MGA_43;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYYIKLDNGYFHVVDGNVNKVIASFVSEIDAHKFLQSLFSNFGEP;locus_tag=LOCUS_00430;note=MGA_43
sequence1	MetaGeneAnnotator	CDS	30701	31060	.	+	0	ID=MGA_44;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALDISAYDDEGAIVQIDDLEVNNKDDDSLGEASVYSKKTKVGKSKEKKEEDEALDNFEINSSMFVNDIDFENDEIIHHNKNSKGINRLKREQDAQENIIENQDNMSSVLEGGRQSKTS;locus_tag=LOCUS_00440;note=MGA_44
sequence1	MetaGeneAnnotator	CDS	31349	32272	.	+	0	ID=MGA_45;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDNRDLENQSKINDLDNLDSRIQGQSEKRALDELNYNKSSNMNEQKNDNLNSRANLSDIYDINTLEQQYQNGLLTSDLNLVKKDDGVIDLGPVDDDDTIFSTPRMDAQQEDYEDFGAIKNDKKALKKAKKRKNKNRDPLSNTQALSYVVDNKMISNVDGNLVNKKAIKKEEKLNKKLQKQQKSKEPEIINDDISLDKISTSNIVQPLVQTPVQLIADLESVEDSGTITKIYEQNLIPTSSIQLGKKNDDVIDLGPIIDDDTIYSTPRMDAKEEDQKEELTKQDKKLLKKIKKSEQANRKKYEKMLK;locus_tag=LOCUS_00450;note=MGA_45
sequence1	MetaGeneAnnotator	CDS	32359	32619	.	+	0	ID=MGA_46;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKISDFNNVYPKKEDIFKVFKLLDFENVKVIILGQDPYHTKNVANGIAFSANKSAKTPQSLRNIFKELKNDLYIDHFDNNDLSE;locus_tag=LOCUS_00460;note=WP_011166680.1 uracil-DNA glycosylase (Mycoplasma mycoides) [pid:59.3%25%2C q_cov:98.8%25%2C s_cov:39.2%25%2C Eval:1.5e-22%2C partial hit],internal stop codon at [32617:32619](+)%2C[32698:32700](+)%2C[32767:32769](+),MGA_46
sequence1	MetaGeneAnnotator	CDS	32960	33418	.	+	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRFAELLLKGNNLAYLGAGIIGFFIVAYIVYNSLSYSILRERYHGIRFTTKNIAYITMLVAVSASVTIVVSLVAPVTVFPPIRIAIEGLMVKIAGFIFGPIVGVIVGLITEIIVMLFVPSFIHPAFIIIIICYGFVAGIGASFLRIGKGNN;locus_tag=LOCUS_00470;note=WP_011182983.1 ECF transporter S component (Mesoplasma florum) [pid:48.0%25%2C q_cov:94.7%25%2C s_cov:47.9%25%2C Eval:7.0e-31%2C partial hit],internal stop codon at [33416:33418](+)%2C[33551:33553](+)%2C[33593:33595](+)%2C[33710:33712](+),MGA_47
sequence1	MetaGeneAnnotator	CDS	33889	34431	.	+	0	ID=MGA_48;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKMYDSLSGELKTIDESKVRIYTCGPTVYNYIHIGNARPLILSDLIVRFLEFKDIKYKYLLNITDIDDKIIDKAIAEGVSEIDIAKKYSEAFLKDLEDLNIKLPTKVIPISSKLLEIIDFIEVLIDKKHAYEVDGNVYFDISSLANKYGELSKQKKEELNIGARVEEDKNKKNPDDFVL;locus_tag=LOCUS_00480;note=WP_011182984.1 cysteine--tRNA ligase (Mesoplasma florum) [pid:48.6%25%2C q_cov:98.3%25%2C s_cov:40.1%25%2C Eval:6.3e-44%2C partial hit],internal stop codon at [34429:34431](+)%2C[34456:34458](+)%2C[34468:34470](+)%2C[34489:34491](+)%2C[34630:34632](+)%2C[34636:34638](+),MGA_48
sequence1	MetaGeneAnnotator	CDS	34675	34821	.	+	0	ID=MGA_49;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSLGNTILVKDFIKKYGANVLRFMYLNSNYRQPLNINQQTIDQAID;locus_tag=LOCUS_00490;note=WP_011167108.1 cysteine--tRNA ligase (Mycoplasma mycoides) [pid:63.0%25%2C q_cov:95.8%25%2C s_cov:10.4%25%2C Eval:9.0e-10%2C partial hit],internal stop codon at [34429:34431](+)%2C[34456:34458](+)%2C[34468:34470](+)%2C[34489:34491](+)%2C[34630:34632](+)%2C[34636:34638](+)%2C[34819:34821](+)%2C[34858:34860](+),MGA_49
sequence1	MetaGeneAnnotator	CDS	34954	35145	.	+	0	ID=MGA_50;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNLNTPMIITLLDEMAKNINKQFKNKVLDRTLDKFNAILSTLGFKYELPKIDKKTQAKLKE;locus_tag=LOCUS_00500;note=MGA_50
sequence1	MetaGeneAnnotator	CDS	35225	35722	.	+	0	ID=MGA_51;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNLVFGKKNIFSIIKNFPSLVEKIYVVKGFLFDNEIFEVVKTKNLKLEFIENQKFQKILNQKVNHQNIIAYVKDFEYSQLQDLISNKENQTILVLDRVQDPNNFGAIIRSAVLFGVDGIVILDRNQVDVTAAVLKTSAGTAYEIAIAKVANLANALNVLKQKGF;locus_tag=LOCUS_00510;note=WP_011167109.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Mycoplasma mycoides) [pid:42.8%25%2C q_cov:98.8%25%2C s_cov:66.8%25%2C Eval:6.5e-31%2C partial hit],internal stop codon at [35720:35722](+),MGA_51
sequence1	MetaGeneAnnotator	CDS	36018	36218	.	+	0	ID=MGA_52;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTENTERIMQKVHRNSRYNLFELSEELTPFYEAVNEISHVYDKNKCSNFFVFYYVRLRQRLLDYTR;locus_tag=LOCUS_00520;note=MGA_52
sequence1	MetaGeneAnnotator	CDS	36297	36548	.	+	0	ID=MGA_53;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIERYSYENYQVENLKKISDSTFIAFCKTYPNYIVILATSLYLKGYAIKKICMMLGITRRDYDKIIKNFKNFLINLLIEDKTI;locus_tag=LOCUS_00530;note=MGA_53
sequence1	MetaGeneAnnotator	CDS	36739	37014	.	+	0	ID=MGA_54;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDKEKDLDLKAQKKAEKEKTKALKAEAKAKEKAEFQKIYDALDADKGLTKEEKIKKARAAKVKEHRKKINVKLALKETPIKMLKEINKIK;locus_tag=LOCUS_00540;note=MGA_54
sequence1	MetaGeneAnnotator	CDS	37289	37417	.	+	0	ID=MGA_55;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENVIFDIRISKSQFMGKNNKLTDKNKYPGYLFINMLMTDET;locus_tag=LOCUS_00550;note=WP_011182988.1 transcription termination/antitermination protein NusG (Mesoplasma florum) [pid:52.4%25%2C q_cov:100.0%25%2C s_cov:20.1%25%2C Eval:6.9e-07%2C partial hit],internal stop codon at [37211:37213](+)%2C[37415:37417](+),MGA_55
sequence1	MetaGeneAnnotator	CDS	37505	37783	.	+	0	ID=MGA_56;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARVLYSQTENAKQQGQKATQTTQPKKEKVLYTADFKVKDVVIVKEGPFANTEGQVLEMDYEKGVAVVNIELFGRITPTEFEFLNLDLAYKA;locus_tag=LOCUS_00560;note=WP_011182988.1 transcription termination/antitermination protein NusG (Mesoplasma florum) [pid:56.7%25%2C q_cov:65.2%25%2C s_cov:28.7%25%2C Eval:3.1e-10%2C partial hit],internal stop codon at [37211:37213](+)%2C[37415:37417](+),MGA_56
sequence1	MetaGeneAnnotator	CDS	37836	38081	.	+	0	ID=MGA_57;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTVKIKIILEDGRIMDAELYPQLAPLSVENFVNLVKQKYYDGLIFHRVIKGFMIQGGGFNIEMQEKEDLQPIKGEFSSNG;locus_tag=LOCUS_00570;note=WP_010966054.1 peptidylprolyl isomerase (Clostridium) [pid:49.4%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 [38079:38081](+),MGA_57
sequence1	MetaGeneAnnotator	CDS	38097	38348	.	+	0	ID=MGA_58;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHEQGVLSMARTNDPNSATSQFFIVTGEAGFLDGQYATFGKLIGQKSLEVARQIENVETISIDFYDDVPKTPVIIKTIELLY;locus_tag=LOCUS_00580;note=WP_012048399.1 peptidylprolyl isomerase (Clostridium botulinum) [pid:50.6%25%2C q_cov:90.4%25%2C s_cov:43.6%25%2C Eval:5.6e-12%2C partial hit],internal stop codon at [38079:38081](+),MGA_58
sequence1	MetaGeneAnnotator	CDS	38719	39156	.	+	0	ID=MGA_59;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183506.1;translation=MAKKITRIAKLEFMAMQAKPGAELASLGINMPQFTQQFNDATKERAGEVVPVVITAYDDKSFDFVLKTTPAAFLLKKAANISKGSKNSGKEVVATISAEEVRKIAEYKMVDLNATTIEAAMRIIEGSARNMGIKVEGMPEKEGKK;locus_tag=LOCUS_00590;gene=rplK;note=WP_011183506.1 50S ribosomal protein L11 (Mesoplasma florum) [pid:78.6%25%2C q_cov:96.6%25%2C s_cov:98.6%25%2C Eval:7.7e-58],MGA_59
sequence1	MetaGeneAnnotator	CDS	39156	39479	.	+	0	ID=MGA_60;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKLSKKLTIANAKVDKAKLYPISEAIKLAKETSITKFDSTVEIAFNLNVDPRHADQQIRGALVLPGGTGKSQKVLVLTKTKVKEAEEAKAEFVGAEELIQKIAKEN;locus_tag=LOCUS_00600;note=WP_011183505.1 50S ribosomal protein L1 (Mesoplasma) [pid:62.6%25%2C q_cov:100.0%25%2C s_cov:47.1%25%2C Eval:1.2e-30%2C partial hit],internal stop codon at [39477:39479](+),MGA_60
sequence1	MetaGeneAnnotator	CDS	39513	39842	.	+	0	ID=MGA_61;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMAELGKIGKVLGPKGLMPNPKTGTVTLDVKKAVEEIKKGKVEYRTDKEGNIHSILGKVSFKEEDLIKNYQALFEVIKKAKPAAVKGTYIKNISVTTTMGPGIKILMEN;locus_tag=LOCUS_00610;note=WP_010989382.1 50S ribosomal protein L1 (Listeria) [pid:68.6%25%2C q_cov:96.3%25%2C s_cov:45.9%25%2C Eval:5.2e-39%2C partial hit],internal stop codon at [39477:39479](+),MGA_61
sequence1	MetaGeneAnnotator	CDS	39954	41045	.	+	0	ID=MGA_62;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLISFLLTFTLTTNLSSLVVACPSKSLALESITNKEIGSFQGEDSVPLLSQIIELVNQKNKGLELTEDDVVFGSEPTQTSAILKSVFKSLKYTGQVEITYEYSRKVFNYNEKIDLSQIAGKDLILEPKNETFKAAQKVAVEKIKTICKVDVEENIDYIIKESDFIVATPGFDGVLRLTSLEDSKLLIPNKVLEFKLVFVKVDLSEIPEEYRDITPINVSKDEVYKEIFSVIEKTLGVGLSLDNGAAQYFENDLLYNDPPKAPNIKGSVILYTSDKARYFIANRYVKFTINFVKGDLSSIKGNDLIIKPKTNTLKGAETEVKEVIKNKLGIYDDDPNLEIEFFKAYYDYDGQYNIKANSNSI;locus_tag=LOCUS_00620;note=MGA_62
sequence1	MetaGeneAnnotator	CDS	41047	41802	.	+	0	ID=MGA_63;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQTHLLNLLLNTNQKTVNFYLYEVSIMKKLIYILLSLNIVVNVCFFSSACLQSFKKIDLDSIEEKSLGNFQGSEELPSLLELVNQINLQNEYLELRTSYVEFDGNPTEVEAKIKAKKSSALFQGSTNFYYEYKKQDIVPDTKLEDIIKETNLGYIKTDNNMPNKKELLNSIKKKNMLSARFLTEEDFDIDEGQTDTYAKINAKGITFKGSIELTYSCGTEDLKEKLSDVIKITDLGDYQASEEKPKPDLD;locus_tag=LOCUS_00630;note=MGA_63
sequence1	MetaGeneAnnotator	CDS	42041	42448	.	+	0	ID=MGA_64;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYDSKFVRHKTNSSLKQIKNYINKNLLKKDIINEKLEMDDEGLIILYKIKFLKEIGFTLDETRIILDNLKEIELLKMFKYFILKEKNLLNDFEKNLVAFSENKKLEINRNTFGYFESETLAKGVMFDLYNYRIE;locus_tag=LOCUS_00640;note=MGA_64
sequence1	MetaGeneAnnotator	CDS	42825	43505	.	+	0	ID=MGA_65;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKIYAPCNGSTTKLEDLKDGVFSEKLLGDGIVFYPEESMFYSPLEKGTLLQVFDTKHAYFFKSTNFENAILMHIGLDTVKLKGKPFELLSKEKKNVNKKSSIVKVDLEYIKKENISIATPITISGEYQYELKDLNIGEVKKGDLLYTIVFEKTNVEEIKNNATSIVEFKSKYLLAAEQFLVDIGGESNYKDVYNCMTRLRFSIIDKAKVDTKNISKNKLVKGVV;locus_tag=LOCUS_00650;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:47.3%25%2C q_cov:97.8%25%2C s_cov:26.3%25%2C Eval:1.6e-46%2C partial hit],internal stop codon at [43503:43505](+),MGA_65
sequence1	MetaGeneAnnotator	CDS	43566	43991	.	+	0	ID=MGA_66;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKNKVSNIVVSKDKILKPPLSRRMLGVVTGIMAPNVPIILASGILSALYALLAATKAIDTSNDANMFSTIMKILSKTGLLLVGIFFCMNTIKYLGGNILLGALLGLILVSRFYFQTGTSDSDLYKFGTYIQDKNYHISG;locus_tag=LOCUS_00660;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:37.0%25%2C q_cov:90.1%25%2C s_cov:16.1%25%2C Eval:4.7e-22%2C partial hit],internal stop codon at [43503:43505](+)%2C[43989:43991](+)%2C[44094:44096](+)%2C[44106:44108](+)%2C[44247:44249](+),MGA_66
sequence1	MetaGeneAnnotator	CDS	44109	44249	.	+	0	ID=MGA_67;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSTIDVVFRYPLVIIITIVPTLFGLGPILSLIEIGVAKAIGFIEK;locus_tag=LOCUS_00670;note=MGA_67
sequence1	MetaGeneAnnotator	CDS	45057	45257	.	+	0	ID=MGA_68;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNQFSLEKEKLKLNLEKQEITNTNKLVIKTYQEKIKDLDSKVANTISILEKETNLQYLNNFKNGY;locus_tag=LOCUS_00680;note=MGA_68
sequence1	MetaGeneAnnotator	CDS	45373	45531	.	+	0	ID=MGA_69;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNFEFPKNFMIGGAAAATQYEGAFDQDDKGMCVADYKFYNPKLVRNDTKIN;locus_tag=LOCUS_00690;note=MGA_69
sequence1	MetaGeneAnnotator	CDS	45538	45687	.	+	0	ID=MGA_70;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKQEYNDAKKNKDLVFPFRWGIDFYNKYAEDFKLFKQVGINTFRTSIS;locus_tag=LOCUS_00700;note=MGA_70
sequence1	MetaGeneAnnotator	CDS	46060	46197	.	+	0	ID=MGA_71;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCVKLAHKINPNNKMGSMNAAGHSYPASTNPKDGLAELKVSQMYK;locus_tag=LOCUS_00710;note=MGA_71
sequence1	MetaGeneAnnotator	CDS	46261	46437	.	+	0	ID=MGA_72;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKLNITEEEKEILKNNTVDYLTFSYYSSNTVEYDEEEKNILHGKPGPRNKFLEATE;locus_tag=LOCUS_00720;note=WP_011183512.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:43.9%25%2C q_cov:98.3%25%2C s_cov:11.8%25%2C Eval:2.4e-07%2C partial hit],internal stop codon at [46195:46197](+)%2C[46435:46437](+)%2C[46441:46443](+)%2C[46546:46548](+)%2C[46666:46668](+),MGA_72
sequence1	MetaGeneAnnotator	CDS	46940	47359	.	+	0	ID=MGA_73;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSILGAVGLSAAGSSVAISCNFKGAKPPGFDINRNIKLQYGEEKVFNLTLKEKEPKKDTPIIVESSDIKIVSVISNIDKDTEGTGKFSITLKAISSGDANITIKYGEIYEDTISVKVGLKDKIDLSTIENKDLGK;locus_tag=LOCUS_00730;note=MGA_73
sequence1	MetaGeneAnnotator	CDS	48337	48525	.	+	0	ID=MGA_74;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSAINQAYKLFQNKEGEIIKNEFVFSEFKAPTSSAEGSITVTAKLSSARVEGHVVFVLKLV;locus_tag=LOCUS_00740;note=MGA_74
sequence1	MetaGeneAnnotator	CDS	48722	49747	.	+	0	ID=MGA_75;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008363445.1;translation=MKAQIHLKDLINIIEKVRNNIDKETISILKSLSKDISNQGYSKEASYILDLMGIDSVTFANKDVLFGNDKNFELLTLENNYKDFLINDNDVTYFRLKKILENEKVLYKFNGIKLIIEGRPGSGKTSLIKNLAKSLEKKLYSVSAAKIVSSKLGETQKNIETLFQEINQCNDAIILFDEFDSLIGSRDRNINDEYHRMIGVFNNCVDNLKPGLIFVAITNKQNFIDESTIRRFNMKITMNNIDIAKLMLLLQDKSKGLEINFNEKLIEKIFSTFIDEINYSFPEEIILNAILYEQEVEQAAIKLLNIDENQLLEKGFSLRDLQTITGMSRSTLQRMYSKETG;locus_tag=LOCUS_00750;note=WP_008363445.1 ATP-binding protein (Mycoplasma feriruminatoris) [pid:27.5%25%2C q_cov:95.6%25%2C s_cov:97.4%25%2C Eval:5.7e-24],MGA_75
sequence1	MetaGeneAnnotator	CDS	49988	50269	.	+	0	ID=MGA_76;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNNPKQISAEYLSDGKKVSKIRLIYGCDKKALLFTLEKLKNISNNLSKCNFEIEFNKKLENKKIKTISSESYNKSINSWIKLNYKELKNKDL;locus_tag=LOCUS_00760;note=MGA_76
sequence1	MetaGeneAnnotator	CDS	50282	50443	.	+	0	ID=MGA_77;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYIEKIEIKKYAKIDKPQIFSFLNIKKVEEIKTLLEKEGVNFNFDSYIGSEF;locus_tag=LOCUS_00770;note=MGA_77
sequence1	MetaGeneAnnotator	CDS	50504	50887	.	+	0	ID=MGA_78;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSDDEIEILDKELEQELKKDLEKKNKLKFNNTIIGVFDSAVKLPGYLNVVESHENLLPINKNRDFEHGTEVISVLACNDLINKNKDNLGCFKIKLFEVLPQGKILTSYLMRQIELAVKKNYKSIKV;locus_tag=LOCUS_00780;note=MGA_78
sequence1	MetaGeneAnnotator	CDS	51257	51952	.	+	0	ID=MGA_79;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTRKYAYLLEKFKLQTYTTRALINYLAKIDKNNISNLDVLKNKDEIFLFIEGSIKQKSKKEITIKLPKSNNKTEFAISYSLSYNVPNQLTLGDEYCSSDIAFRIAETVDNKRSNIVKLKKDKDSIDGVSANEDYLRKHFGKYNPNRVILDSDFLENNKKTTKNITNVFSFVVQRVDLIDNIFPEIKYGIVVHLKPLVEKCLSDFAMNNRELIIENLSNVFESEEIELDVI;locus_tag=LOCUS_00790;note=MGA_79
sequence1	MetaGeneAnnotator	CDS	52101	52409	.	+	0	ID=MGA_80;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLISMLSTLFLTTTSVLSINACTGDKNSSSSSNENNQQVDKKVDLNDIPVKILKHLSNSLEDAKAEAVAILKNYNSSLKEGEDYNFDKSYFSRSTPLYSG;locus_tag=LOCUS_00800;note=MGA_80
sequence1	MetaGeneAnnotator	CDS	52416	52547	.	+	0	ID=MGA_81;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSLEKSKIIKGYIIFALEYVDDRISVNKLSIPNNSTAYNEEA;locus_tag=LOCUS_00810;note=MGA_81
sequence1	MetaGeneAnnotator	CDS	52857	53234	.	+	0	ID=MGA_82;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKIVLMSLTLAISSSSLLIACKTPSNKESQDKRFDLETIASQSAIVSPFTTSELSVKQLIVEKLLYITSLNLVENEDFIFTKYTPMSESYNGSVIVNATSNNSKIKNSKEFVIQNSYFKSKN;locus_tag=LOCUS_00820;note=MGA_82
sequence1	MetaGeneAnnotator	CDS	53460	53765	.	+	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYSNNEDQKISLSKIENDTSLTPMDNEDSNVLNDALSYIKTNLKVKNIEENDFIYEFRKASPIQNGYISIIANDSSSIIKGKVIFKVIFKVNRTNIASLG;locus_tag=LOCUS_00830;note=MGA_83
sequence1	MetaGeneAnnotator	CDS	53892	54167	.	+	0	ID=MGA_84;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTSNGKPGELLVYAIESSLIFNGSLNVKIKYNGELAKLNQLKGDLQSVKVGEQVSFDVEIINGDNRTYLFGDVVKETGECIDNKIKIIQY;locus_tag=LOCUS_00840;note=MGA_84
sequence1	MetaGeneAnnotator	CDS	54415	55197	.	+	0	ID=MGA_85;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGAMGMVATSSSVAVACNNGTSVKDLSTIKTADLTVAPTANDEAAAKKAVLAQINAKLSVKAVETTDVVFSKFSQATSAEKAGSIVATAAEKSTLVKGTTTFVLTFKSAEASSKTELLAQIKVKNSDASALTEDDFDIASEPAISATAAKITAKGDKYQGSVSLTYSKGEASSKAELSSVIKTLDLGAFSFSESTPSKTELLAQIKVKNSDASALTEDDFDIASEPAISATAAKITAKGDKYQGSVSLTYSKG;locus_tag=LOCUS_00850;note=WP_011183349.1 lipoprotein (Mesoplasma florum) [pid:28.0%25%2C q_cov:73.8%25%2C s_cov:91.0%25%2C Eval:9.1e-10%2C partial hit],MGA_85
sequence1	MetaGeneAnnotator	CDS	57160	57867	.	+	0	ID=MGA_86;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGAMGLVATSGSVAVACNKGDKNTTTKDLSTIKGDDLKLTPETNTKEAAVTAAVAKIKAKLSVDVVLDTDFTVGEKDFTEATSKAAGSLKITAKSGSKVLTEGKTVTFSLAFKAEGTTKPVMALSDKDSKIKNNAVEIAMPQSGNGTIEVIITVTNPVAEKVVTVSVAEQSEDKLSAGEVSAVPDQSGQFKVTLTSKDKISEAVNVTFNYEGADAVVLAVTASERASQ;locus_tag=LOCUS_00860;note=MGA_86
sequence1	MetaGeneAnnotator	CDS	58743	59666	.	+	0	ID=MGA_87;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGAIGMVATSSSVAVACNNGVNGTKQFGEQFKDTEVTVGTPVVLNLVAANKAKDAKISAKSADEKIAKVSVSAETDANGEGKFDLTITGVAKGQVVITVSYGDKSASLKATVKEATKPAFADTLKAEDAMVGVQTSIEVSILNGDSKTVLKAEGDDSKLNKEVTVVVDNTDKNKFTVTYTGKAEGEDGKLSLTYGELKKDLTVKVVSDARKALDTLLSGGALDLKSEAGAYSEAQAKEAALKIIKTKLGDSADPKETIDVVFSGFEASKSTSEDGKLVATASLSSKLIKGTVNFVLKQTS;locus_tag=LOCUS_00870;note=MGA_87
sequence1	MetaGeneAnnotator	CDS	60596	60763	.	-	0	ID=MGA_88;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKQKITNLLKNENIKKLEKREYLNTLLSIENIHPMQNRKTEFGERLQTDASVHY;locus_tag=LOCUS_00880;note=MGA_88
sequence1	MetaGeneAnnotator	CDS	60860	61132	.	-	0	ID=MGA_89;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKNKMEIIKAVIDEKLSKKAAAIKICQTIRNVNLLINKYKKYGYTAFIHKNTGRISNKKIKHQISDQIIDLYINKYEEYNYKHFLEKL;locus_tag=LOCUS_00890;note=MGA_89
sequence1	MetaGeneAnnotator	CDS	61328	62212	.	+	0	ID=MGA_90;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSILGAMGMVATSGSVAVACNKTKASQFGDKFVNSTVEAGSDLTLALKVATPVKDADVKAESDKVATATVKTSIAKDSDSKGEFNLVISGVAEGTATIKVTYGTITESIKVTVSKATIKDLKDVVKVVALGDLSGAGENPTVDEVVAQVNAKNEGLNLTKEDVTMSGDKLTEKATLKAVEKSTKFKGSVEVSYTYKKETRKDLSGLSESDLTVAPAKNDEVEAKKVVLAKINEKLSIEAAESTDITFSEFKAATESSKPGSIIATAVKSSALVKGSPLKFTLTFKASDLL;locus_tag=LOCUS_00900;note=WP_011183349.1 lipoprotein (Mesoplasma florum) [pid:31.6%25%2C q_cov:65.6%25%2C s_cov:95.5%25%2C Eval:3.8e-10%2C partial hit],MGA_90
sequence1	MetaGeneAnnotator	CDS	62442	62825	.	+	0	ID=MGA_91;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGAMGMVATSSSVTVACNKDSKTDLSALSTKALGDISGSGDLPVAADLVKAINKVNSNYGLSNSDVELDGAATTEKATLKAKSTSTKFTGKVVVTYKYTKATTDTKKDLSEAVKTKELGE;locus_tag=LOCUS_00910;note=MGA_91
sequence1	MetaGeneAnnotator	CDS	62919	63209	.	+	0	ID=MGA_92;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKISDDKDLTKGAKLTALSDSAGFSGSVEVTYTYTQTKKTSIGTVADQNVKVFDKAASFDVTISNPTSDGALTAQEASSSGMLSEIKVEKKEAGK;locus_tag=LOCUS_00920;note=MGA_92
sequence1	MetaGeneAnnotator	CDS	63143	63400	.	-	0	ID=MGA_93;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSTHENVYVPNGINKFKSFLTTITFTFLVKFPYARFITVGKLSFASPLSFSLAFPAITSYLTVHFPASFFSTLISLSIPDEDAS;locus_tag=LOCUS_00930;note=MGA_93
sequence1	MetaGeneAnnotator	CDS	63944	64174	.	+	0	ID=MGA_94;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMKKIIAFVSIIFLPMPLLSFTSACVKIPPKFDLAAIDEKDLGVVYGSNEVPTLTEIVNDVNFTNLNYDLKESSV;locus_tag=LOCUS_00940;note=MGA_94
sequence1	MetaGeneAnnotator	CDS	64396	64728	.	+	0	ID=MGA_95;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVDHDFIVGDKDFLPSTYSDDGFLKVTSTKNSAYLLPNKSVVFILKLKKGDLSTLKDEDLIINPNGNDEQSVKTAITKKLKEDFNNNISEDDLDFSNFNQATIFNKKVQ;locus_tag=LOCUS_00950;note=MGA_95
sequence1	MetaGeneAnnotator	CDS	64725	65147	.	+	0	ID=MGA_96;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTAKVKETSQYLIANSSAKFSINYFDDRIDLDNLSVDDKKVYFSTYSESDAKQSVIDKFKETFNKTLVEEKDVSFSNYNAQTPLKEDGTGYIEVTAKDKNEYIKGATKFVLVEKRISLSFDNRIVRNLGSVNGNGSPLLL;locus_tag=LOCUS_00960;note=MGA_96
sequence1	MetaGeneAnnotator	CDS	65467	65664	.	+	0	ID=MGA_97;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTNDIKNIYNLIYKLNNEEFNLIIDMLKNKIEVSDKEIELLIRRYTLKDYDLLSMDDKEKTYNL;locus_tag=LOCUS_00970;note=MGA_97
sequence1	MetaGeneAnnotator	CDS	65680	65847	.	+	0	ID=MGA_98;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEIKKINMIINNDKLLQEIGGLKILLYGQTGTGKTSLVENIINYNNDIEYENIK;locus_tag=LOCUS_00980;note=MGA_98
sequence1	MetaGeneAnnotator	CDS	65884	66321	.	+	0	ID=MGA_99;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIMQLENELSNFKKKKIIFLDELDSLITNRNEMNDVSEYSRIVGTFIKFMDLLKPNIILIAATNLIDKIDAAIIRRFNVKIEGKVINFEMFYNFIDTELTLQLSTHEKNLLKEVFQDHNFTISEAKQFVSNYKIDCNLSSIDNN;locus_tag=LOCUS_00990;note=WP_191321224.1 ATP-binding protein (Rhodopseudomonas palustris) [pid:37.9%25%2C q_cov:45.5%25%2C s_cov:20.1%25%2C Eval:1.2e-07%2C partial hit],MGA_99
sequence1	MetaGeneAnnotator	CDS	66419	67486	.	+	0	ID=MGA_100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVYNINNEKAINHKNKSSPTIYKFNKINKQVKKLIEKLIDEDFPHDIDKEGNKFFKFLYKGLPPKTSRVKMYKNTPLDKFHLNQKDIVVNFNLDNSISTEIIYKVSNEDFEFFKTKLINIIEDNRLFEESLYKGEFSNKKKNEKFLLTCLSLIESVKKINEKENLSDLETAKVVKIYNMYDDMKLALKNIGVDCEVEINNTIAITPYQYSLIKEKMPYIINRSIEAKELSDNLLDDLEIPNSLKIPNNKTNSAIIGVIDSGMNLDGDFKNFIDSYSKMIEPNGSTTYEHGNRVASLIIAHDELNDDKDNLGNFKIRYFEVSSKKSYSKGIATVNMDFLSKQLKSIIKNNKDIKV;locus_tag=LOCUS_01000;note=WP_011167180.1 S8 family peptidase (Mycoplasma mycoides) [pid:26.7%25%2C q_cov:85.4%25%2C s_cov:41.6%25%2C Eval:3.7e-13%2C partial hit],internal stop codon at [67484:67486](+),MGA_100
sequence1	MetaGeneAnnotator	CDS	67562	68107	.	+	0	ID=MGA_101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAQEYDCLFVVASGNYRVDYGYDSLCSPADSLNCISVGSVTLNDKNKVVPSDFSSIGVTLHCRKPEVSAFGGPKLKNGSKLMTAGSFDIIQPSRGTSFSAPKVSRIAGYLISNGYSTLEVKSTLINLAKSETPSNLSSLFGYIEDCNKEATSLKTTLEFESGVKNKYFDINLDNVENVSIA;locus_tag=LOCUS_01010;note=WP_011391838.1 S8 family peptidase (Moorella thermoacetica) [pid:31.3%25%2C q_cov:78.5%25%2C s_cov:33.9%25%2C Eval:9.7e-08%2C partial hit],internal stop codon at [67484:67486](+),MGA_101
sequence1	MetaGeneAnnotator	CDS	68712	68837	.	+	0	ID=MGA_102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKVIDKKIKLIAIKKFLAREKTSKISEELNLKSGYVQIKQ;locus_tag=LOCUS_01020;note=MGA_102
sequence1	MetaGeneAnnotator	CDS	68907	69092	.	+	0	ID=MGA_103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDIENKLLKDENKKLEKELNKLKKEKLKDKAKIEFLEKRMPSCMNLLKTQMKIQTSKKA;locus_tag=LOCUS_01030;note=MGA_103
sequence1	MetaGeneAnnotator	CDS	69605	69844	.	+	0	ID=MGA_104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAYNFSLSENSEVVVKTIKEVIKVISKYKVDFTILQTDRGTANASYAVKDLINSCPNLVLSMSEAGFKHNAPTEALNG;locus_tag=LOCUS_01040;note=MGA_104
sequence1	MetaGeneAnnotator	CDS	70317	70553	.	-	0	ID=MGA_105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNCEHGFTSTEINVNNNEKNDYFLTKNTICNICSKTIEDYHFLIMGVKYFQLLEENMKKLAIDEKVYNDQLKRSNDL;locus_tag=LOCUS_01050;note=MGA_105
sequence1	MetaGeneAnnotator	CDS	70881	71303	.	-	0	ID=MGA_106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCKEHGIASKCGSNKCVDTYMKYKKQPLFDAKQTNLKEEEINKIVEENFQNKIKNPEFNYLVEYLQSIKPFALNYSLSEKGEAGYTDGKKINISVDSDPDLKNQTLLHEFGHIYLEHNTDNLGYEGHIRGVKETQAEMFA;locus_tag=LOCUS_01060;note=MGA_106
sequence1	MetaGeneAnnotator	CDS	71590	71730	.	-	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEEKNKKIANFLKAEISLENSKNKKEYEENLNNFTDSFKGLNDD;locus_tag=LOCUS_01070;note=MGA_107
sequence1	MetaGeneAnnotator	CDS	71807	72220	.	-	0	ID=MGA_108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRIKLSDVVSLYSDIKIMFIEDFINDKERNKMYSFFDKENKLNNNYSNNFLVAIIYTEFLNSKIFKEIFICYIKNFFYLDSRKKEMILRIASKEDDHNFYESYLNIVEYTLSSLEKIGNDIYNNTFLKKLKVYNLL;locus_tag=LOCUS_01080;note=MGA_108
sequence1	MetaGeneAnnotator	CDS	72739	72873	.	-	0	ID=MGA_109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSVIADLDKKEFYLDQGDISLDMIFNFQFEVEKKEISFEEMKN;locus_tag=LOCUS_01090;note=MGA_109
sequence1	MetaGeneAnnotator	CDS	73317	73469	.	-	0	ID=MGA_110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKRIEETNKRIEETNKRIEETNKRIEETNKRIEETNKRIEETNKRRKEV;locus_tag=LOCUS_01100;note=WP_012546267.1 paREP15%2C coiled-coil protein (Thermodesulfovibrio) [pid:64.0%25%2C q_cov:100.0%25%2C s_cov:29.4%25%2C Eval:3.3e-12%2C partial hit],internal stop codon at [73479:73481](-)%2C[73542:73544](-),MGA_110
sequence1	MetaGeneAnnotator	CDS	73611	73766	.	-	0	ID=MGA_111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNALIAKNNLSALKNDIDNFLENDSTLKINKKAELKKISNGIKKEFNKIK;locus_tag=LOCUS_01110;note=MGA_111
sequence1	MetaGeneAnnotator	CDS	74685	74873	.	+	0	ID=MGA_112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKTTFYKKQKIRSYKYNNLKSEVVKILSESKFIYGSRKISILLEKEKIFICDRTLRHYLKR;locus_tag=LOCUS_01120;note=MGA_112
sequence1	MetaGeneAnnotator	CDS	75087	75401	.	+	0	ID=MGA_113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNNNTQLVVDTITKINKSNFILHSDHGSQYSSNEVTELVKQINGQTSMSRVGNSLDNREIEYFFSCLKGEYLNHINTSKMSFKEIFNHIDWYNKKRIQKVLN;locus_tag=LOCUS_01130;note=WP_042733551.1 IS3 family transposase (Mycoplasma yeatsii) [pid:50.9%25%2C q_cov:97.1%25%2C s_cov:25.4%25%2C Eval:3.2e-20%2C partial hit],internal stop codon at [74871:74873](+)%2C[75081:75083](+)%2C[75399:75401](+),MGA_113
sequence1	MetaGeneAnnotator	CDS	75415	76035	.	+	0	ID=MGA_114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPALIFKTVEFIFPSLITGEDLKLTPEANTKDAAVTAAVDKIKAKLSVDVVLDTDFTVGEKDYTEAKSDTTGSLKITSKSGSKVLTEGKTVTFSLAFKAEEAAKTPVLSFGDEVSQNAVEISMKENSAKKTITIKVENPTKDVKPTVKKSGDDSNAKLEICQVSGDNETYTVELTGKAKTDSSPIEVTVKYTGATKDLTLNVTVKE;locus_tag=LOCUS_01140;note=MGA_114
sequence1	MetaGeneAnnotator	CDS	76591	76872	.	-	0	ID=MGA_115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITLMLNKYFKMNLKPWVLYRYMKILGIKAVKKKRVPDYDKSGPLRFKNILNRNFKANNLNEKWVTDVTYIKTSSGMVYLSAIKDLYNSEIVD;locus_tag=LOCUS_01150;note=WP_011475831.1 IS3 family transposase (Ligilactobacillus salivarius) [pid:38.9%25%2C q_cov:97.8%25%2C s_cov:35.8%25%2C Eval:7.3e-12%2C partial hit],internal stop codon at [76378:76380](-)%2C[76468:76470](-)%2C[76591:76593](-),MGA_115
sequence1	MetaGeneAnnotator	CDS	79731	79940	.	-	0	ID=MGA_116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYKNLIIISFLFITSFIILFIFFRQNKNLNNLDFEKQKTNSITNKISTEGGFYPTVHDTGFNSDKAK;locus_tag=LOCUS_01160;note=MGA_116
sequence1	MetaGeneAnnotator	CDS	80010	80210	.	-	0	ID=MGA_117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSESAYKICKIDASKLPENQTIIPLNSKEEFLKSLKDAVKDLKEESPEVYEQLKNDFDKMIEKYSK;locus_tag=LOCUS_01170;note=MGA_117
sequence1	MetaGeneAnnotator	CDS	80217	80468	.	-	0	ID=MGA_118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGAMGMVATSSSVAVACGNDDTKKDSDSGNETSEPELSLDELVAKHKEMLDKYVPLEKIVVDGEPTFEQRVECNKM;locus_tag=LOCUS_01180;note=MGA_118
sequence1	MetaGeneAnnotator	CDS	80907	81056	.	-	0	ID=MGA_119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLKKEQNRQLFCWIFNLFMMVFFLLYFFTFDLKFLIENKKLSNFNYL;locus_tag=LOCUS_01190;note=MGA_119
sequence1	MetaGeneAnnotator	CDS	81130	81471	.	-	0	ID=MGA_120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFTDLENFINLKLEEIKKDYKYYNNQYENLEEELQENDGVYPDPDFAAEYEFAKGLAGGYESHYETLKEAKKIIKEIKKTLVEKQNTLKVDKKADIKDRVEFVVVKGKSKTK;locus_tag=LOCUS_01200;note=MGA_120
sequence1	MetaGeneAnnotator	CDS	81468	81641	.	-	0	ID=MGA_121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNNNEDILCIPLKNLSFKKIELIKSIFKKELKQYVKENKQIINKYFGFVDSQGEK;locus_tag=LOCUS_01210;note=MGA_121
sequence1	MetaGeneAnnotator	CDS	81904	82140	.	-	0	ID=MGA_122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNCEHGFTSTEINVNNNEKNEYFLTKNTICNICSKTIEDYHFRIMGVKYFQLLEENMKELAIDEKVYNDQLKRSNDL;locus_tag=LOCUS_01220;note=MGA_122
sequence1	MetaGeneAnnotator	CDS	82469	82891	.	-	0	ID=MGA_123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCKEHGIASKCGSNKCVDTYMKYKKQPLFDAKQTNLKEEEINKIVEENFQNKIKNPEFNYLVEYLQSIKPFALNYSLSEKGEAGYTDGKKINISVDSDPDLKNQTLLHEFGHIYLEHNTDNLGYEGHIRGVKETQAEMFA;locus_tag=LOCUS_01230;note=MGA_123
sequence1	MetaGeneAnnotator	CDS	83178	83318	.	-	0	ID=MGA_124;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEEKNKKIANFLKAEISLENSKNKKVYEENLNNFTDSFKGLNDD;locus_tag=LOCUS_01240;note=MGA_124
sequence1	MetaGeneAnnotator	CDS	83395	83808	.	-	0	ID=MGA_125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRIKLSDVVSLYSDIKIMFIEDFINDKERNKMYSFFDKENKLNNNYSNNFLVAIIYTEFLNSKIFKEIFICYIKNFFYLDSRKKEMILRIASKEDDHNFYESYLNIVEYTLSSLEKIGNDIYNNTFLKKLKVYNLL;locus_tag=LOCUS_01250;note=MGA_125
sequence1	MetaGeneAnnotator	CDS	84328	84801	.	-	0	ID=MGA_126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIEFLMLKKPLMWFFSFPGENFLFCYNEFINFLFLQEINKGVVTYQKRVLHYCSANFNQIKNIKFNVIENFFDGEPFLNKTIQEAFKKDTSFERGIKLEQDFNENDNIENCVFSVIADLDKKKFYLDQGDISLDMIFNFQFEAEKKEISFEEMKN;locus_tag=LOCUS_01260;note=MGA_126
sequence1	MetaGeneAnnotator	CDS	85199	85675	.	-	0	ID=MGA_127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNKTHLSRNYAKEDSLFADINITLAELEALRNNRKVIENYQHYIIELEINYEKLRQESENKTKKIVSVSQEKEKIEQEKNKLSQEKEKIEQENKEVLAENFILNKKVKNALIAKNNLSALKNDIDNFLENDSTLKINKKAKLKKISNGIKKEFNKIK;locus_tag=LOCUS_01270;note=MGA_127
sequence1	MetaGeneAnnotator	CDS	85812	85991	.	-	0	ID=MGA_128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKKKNKSDSKLFKEVKKGIEKESKDLSSEEDMTFVTKLLIEYKEIHNKFDKKGFYRF;locus_tag=LOCUS_01280;note=MGA_128
sequence1	MetaGeneAnnotator	CDS	85969	86175	.	-	0	ID=MGA_129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDRQDINIFLVKHKNYELDISVEGNLEKFLEKHKNELNSADMQMFMFKAFVLVESILGAVEDEKKE;locus_tag=LOCUS_01290;note=MGA_129
sequence1	MetaGeneAnnotator	CDS	86536	86706	.	+	0	ID=MGA_130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTEELREALKLERALKKHLAKTTKEKYFAIFNCSKKFTLTLTCKYLSVSRFGYLK;locus_tag=LOCUS_01300;note=MGA_130
sequence1	MetaGeneAnnotator	CDS	87811	88458	.	+	0	ID=MGA_131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGAMGLVATSGSVAVACNKGEKDAKTPAFADTLKASEAMVGVKTSIEVSITNGDSKTVLTAVGDDVKINKDVTVVVDSNDKNKFTVTYTGKAEGVDGKLSLAYGELKKDLTVTVVADARKDLTELLSGALDLKSDAGAYDEAGAKTAALAKIKEKLAESGDPKETTDVVFSEFQASTSTSVDGKLVATASESSRLVKGTATFVLKQTS;locus_tag=LOCUS_01310;note=MGA_131
sequence1	MetaGeneAnnotator	CDS	89664	89858	.	-	0	ID=MGA_132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIIKDVINGKLSKKDYAIKICQTIRNVNLLSNKYKKYGYTAFIHKNTGRISNKKKIANKRANN;locus_tag=LOCUS_01320;note=MGA_132
sequence1	MetaGeneAnnotator	CDS	90055	91629	.	+	0	ID=MGA_133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIGTLLMKRLFNLLGITTLISSTCTLSIACHPKAMSLNKLINKDLGEIFGDDEIPSLQEIVQAINEKNEGLNLTIDQVEFESEPTTNEAVIKAVYLATTFTGKTQITYNYSQNFIKKDLSTLNGEILNPSNPTQETAVDVAINLIKEKLEVDLQQDIDFIVETDFKPASLETSGKITLSSKSESKKLIANKSATFEITYNENRKDLSTLDNEVLDPANPSLISAIDVVVALIKQKLEVNVQQDIDFTISKEDFKPASSKGNGSLKVVAKEGSQKLIENKSATFSLNYNENRKDLSTIDGANLNLVPEDNSKPSALKAAIDKVKDVLKVDVTENTDFTLDQFNPASLEKSGTLKITAKEESSKLIENKSVTFSLTYAVIKKDLSDIKGDSLILKPIDNSRDNAIKAAVKRISEVLGLETIEGQDFEVNNFSPSKSSNQGELIVKALEKSTKLIANKTAKFDLDYSKEKVDISKIQGEDLKLKPTDNKKEEAINSAIAKIKAVLGVDVQNDVDFTIGGSDYNPAT;locus_tag=LOCUS_01330;note=MGA_133
sequence1	MetaGeneAnnotator	CDS	91645	92175	.	+	0	ID=MGA_134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVTSKEESDALIGNKTATFSLTYVEKRADLTKIQGENLELSPVDNSKTEAVNEAIKKIKEVLKVDVKENTDFKVDSFNGATPNGKGILKITSINNSQYLVNEKHSTFSTNYVDIRVDLNDLNIPSAEQGKTNGNNEKIDKYDALNIINQKIAEQFKKGQNYLSLDTDVNIEVDAS;locus_tag=LOCUS_01340;note=MGA_134
sequence1	MetaGeneAnnotator	CDS	92221	92364	.	+	0	ID=MGA_135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFQYQYKQIYFEMNSLEESDNFVVKGETITIKEADNKDTYKFKLV;locus_tag=LOCUS_01350;note=MGA_135
sequence1	MetaGeneAnnotator	CDS	92655	93248	.	+	0	ID=MGA_136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVVFIIFGLSLSISLMPNLTSCIKLPSKIDINDILIKDLGEIKGKDFLPNLKDLVTALNYLNKNLDLKKEIVEFESTPTVSQATINVKSDATKFFGSAELSYDYKLENKISLSQIMGSNLNLDTESSEKEVLIFAVKEKIKTRLNVEVKEGLDFMVDESDVGQKTQEYNGSFKIKTLESSPYLIANEDLVFKYKL;locus_tag=LOCUS_01360;note=MGA_136
sequence1	MetaGeneAnnotator	CDS	93366	93626	.	+	0	ID=MGA_137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSVLGAIGLVSASSSVAIACNKKEKEVEKIDLATLPIKELGEIEGSDYVVSIGDLVRAINTTIGNESMHLDQVDVQFDGDVS;locus_tag=LOCUS_01370;note=MGA_137
sequence1	MetaGeneAnnotator	CDS	93639	93797	.	+	0	ID=MGA_138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKASNNSTLYKGSVELTYKFAKQLVVDTENNQDIDNARSILKKHNMVNEDFT;locus_tag=LOCUS_01380;note=MGA_138
sequence1	MetaGeneAnnotator	CDS	93978	94157	.	+	0	ID=MGA_139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKNKIVYFFSARANAGDKKVTLFLVKGIVVKSGEKTNYSFTTINRTTFDLKILGGSN;locus_tag=LOCUS_01390;note=MGA_139
sequence1	MetaGeneAnnotator	CDS	94529	95119	.	+	0	ID=MGA_140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVHDKNDNIILHRVIPMDVRKDILKLIEKWMDKVGIELCFGNESMIVSILKEKRKDVEPDQLFEKIWTFKPNVNKDFQDQVLKDLNLDTVKFFSYYEDLEAIENDFKKLNNTRYMQTYYFVLELTNKDTSKLDGIKQIQNIYNIDEKDIYTTGDGENDVEMLKGFQNSFAIESGNKKALAAGKHIIKAVNELQNYI;locus_tag=LOCUS_01400;note=WP_002901047.1 Cof-type HAD-IIB family hydrolase (Streptococcus sanguinis) [pid:36.4%25%2C q_cov:44.9%25%2C s_cov:18.2%25%2C Eval:8.0e-09%2C partial hit],MGA_140
sequence1	MetaGeneAnnotator	CDS	95135	95284	.	+	0	ID=MGA_141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKLYVSEIAKQFNLTENTIRFYEKKGLMPYMKRDKNNYRYILEDDVK;locus_tag=LOCUS_01410;note=WP_011183148.1 MerR family transcriptional regulator (Mesoplasma florum) [pid:53.7%25%2C q_cov:83.7%25%2C s_cov:34.7%25%2C Eval:9.9e-09%2C partial hit],internal stop codon at [95282:95284](+),MGA_141
sequence1	MetaGeneAnnotator	CDS	95318	95518	.	+	0	ID=MGA_142;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILEIKEYIKLAEKGNVTAAKRLEMIVNQKKVVNEQLEFLKKQLGFLDYKIEYYNNILEKENKGE;locus_tag=LOCUS_01420;note=MGA_142
sequence1	MetaGeneAnnotator	CDS	95524	95676	.	+	0	ID=MGA_143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRAVFGSKKPGKVAELREVEKPTVIKDDEVLVKTLYCSLCHSDLSLAKGD;locus_tag=LOCUS_01430;note=MGA_143
sequence1	MetaGeneAnnotator	CDS	95725	96174	.	+	0	ID=MGA_144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVGANVKDLKVGDYVAGPAGLRGACQKCKYCLRGEEVFCDEVVFTGQRGYGTMQDYTVEKAAYSIKVPKDTDLAAACIITCAGITVYKGFKLANPIKGDTVAIFGIGGLGNVAIEYAKNVFGLKVIAVGSNEKSLEIAKQKGADLIIN;locus_tag=LOCUS_01440;note=WP_003130326.1 alcohol dehydrogenase AdhP (Lactococcus) [pid:48.0%25%2C q_cov:99.3%25%2C s_cov:43.2%25%2C Eval:2.9e-31%2C partial hit],internal stop codon at [95674:95676](+)%2C[96172:96174](+),MGA_144
sequence1	MetaGeneAnnotator	CDS	96238	96552	.	+	0	ID=MGA_145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTSSTLPQFELAYRNLGKLGKLCSIGLPAGKLETDILDITLGQKMVYGSLVGTRQDLREALEALYEKKVNPDFEVKSINEAEKYFELMDQNKLHTRIVFDLTK;locus_tag=LOCUS_01450;note=WP_037401196.1 alcohol dehydrogenase AdhP (Sinorhizobium fredii) [pid:40.2%25%2C q_cov:98.1%25%2C s_cov:29.8%25%2C Eval:2.5e-12%2C partial hit],internal stop codon at [96172:96174](+),MGA_145
sequence1	MetaGeneAnnotator	CDS	96754	96930	.	+	0	ID=MGA_146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCFCSISTITQFSKSIGLEGYRELIVRLKVELERFNFNSKKDNNNINNNFDTVTFIKR;locus_tag=LOCUS_01460;note=MGA_146
sequence1	MetaGeneAnnotator	CDS	97057	97287	.	+	0	ID=MGA_147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVEINIIDLTSELFKYRTYEKDNTVNLAIISGFDNESLCSIYLPYFLTSFENAFLLISHSQHEKIINLTNSNVMF;locus_tag=LOCUS_01470;note=MGA_147
sequence1	MetaGeneAnnotator	CDS	97467	98156	.	+	0	ID=MGA_148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKSLKIYSPVNGEIKKIEDSIDEVFKSKALGDGFVIIPLENEFVSPFEEAIVKMVFPTKHAYGFLVDDLNFLIHCGMDTVKLEGSSFISYINVDQNLKKGNKIFKADLEIIKENNLSIETPIVFEVQEIENYNFKTLNLGKVKKGDLVCEIEYSLKEIQENQENQELTLKSFKSKYELAAEQFVEAVGGKNNFSEVYNCMTRLRFAIVEKEKVDTDSIKKNKLVKGIV;locus_tag=LOCUS_01480;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:48.5%25%2C q_cov:97.8%25%2C s_cov:26.1%25%2C Eval:1.3e-54%2C partial hit],internal stop codon at [98154:98156](+),MGA_148
sequence1	MetaGeneAnnotator	CDS	98223	98648	.	+	0	ID=MGA_149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKTEDFGKRVGIKPPLQKRILGAVAGIMTPSIPVIMASGILSVIYALTNQSHITKDLSNGVEGADALSLILFIMSKVGLTLVGVFFCINTVKFFGGNPLAGALIALALISRFYFSTGESDSNAYQAGHYISNAKFGVQG;locus_tag=LOCUS_01490;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:45.5%25%2C q_cov:87.9%25%2C s_cov:15.3%25%2C Eval:1.2e-25%2C partial hit],internal stop codon at [98154:98156](+)%2C[98646:98648](+)%2C[98751:98753](+)%2C[98763:98765](+),MGA_149
sequence1	MetaGeneAnnotator	CDS	98766	98945	.	+	0	ID=MGA_150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSSLDVVFRYGIVLIVTTLSILLFLGPLLSLIEYGMAQFIFLIEDLPIGLGVAIFAFL;locus_tag=LOCUS_01500;note=MGA_150
sequence1	MetaGeneAnnotator	CDS	98973	99914	.	+	0	ID=MGA_151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVIMTIMIPFYTGIPSLMLTGSALGVWGQVGAGLGVGLVTKNKNLKSAVYGALPGGLFGITEPIIYGVTLPKGKPFLMGCIAAGITGILAGVLDVKTEVPAGQGIFAILGYVGFKHQALAVLVRVVSIGLGTLLSAVTYRERLKEDRYSRNVTRKLKKLIEKVNKELLVKYNENLNNIDQEVKNSKKILAQYNKYVISMSIIESKIISTEQKEEKNKKRLYKKAVSLIKSKNTSPEFLETRKDFIKKYNEYNLDNIKNELDDKKNDLNNSNKEMLEKYKNVVEKIVNSSSSLVSDISQDLKIMDATTYANGY;locus_tag=LOCUS_01510;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:31.2%25%2C q_cov:100.0%25%2C s_cov:36.6%25%2C Eval:2.5e-39%2C partial hit],internal stop codon at [98751:98753](+)%2C[98763:98765](+)%2C[98943:98945](+)%2C[99912:99914](+),MGA_151
sequence1	MetaGeneAnnotator	CDS	100120	100488	.	+	0	ID=MGA_152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRPFIKNLDRKNIKDVLDISKENYLKSIENKDNLHYPKRFGVDFYHRYKEDIKLFKECHLGIYRLSMAWARIFPNGDDEKPNEAGLKFYRDVFEECKKNNIKIMVTINHFDLPYPIIEKYGG;locus_tag=LOCUS_01520;note=WP_011182931.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:65.6%25%2C q_cov:100.0%25%2C s_cov:25.3%25%2C Eval:4.8e-48%2C partial hit],internal stop codon at [100045:100047](+)%2C[100084:100086](+)%2C[100486:100488](+)%2C[100567:100569](+)%2C[100600:100602](+),MGA_152
sequence1	MetaGeneAnnotator	CDS	100681	101085	.	+	0	ID=MGA_153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNQFYAQAKFIEEAKNISHEAKIGCMVANSTNYPLNCDPKNVRECQRLQQIHRFFFYDLMVYGSYPSYINRFFKENNINLEIKKNEMETIKNNKIDFISFSYYATGTISLDESDKTESNLTIAGKNPYLKATD;locus_tag=LOCUS_01530;note=WP_011182931.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:56.7%25%2C q_cov:100.0%25%2C s_cov:27.7%25%2C Eval:1.5e-38%2C partial hit],internal stop codon at [100486:100488](+)%2C[100567:100569](+)%2C[100600:100602](+)%2C[101083:101085](+)%2C[101089:101091](+)%2C[101134:101136](+)%2C[101308:101310](+),MGA_153
sequence1	MetaGeneAnnotator	CDS	101671	101835	.	+	0	ID=MGA_154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNFNRNLSKLYDFYYEVIKLIGVENFNVKITDIEILEKCLYKLNLHINRVDN;locus_tag=LOCUS_01540;note=MGA_154
sequence1	MetaGeneAnnotator	CDS	102817	103491	.	+	0	ID=MGA_155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSEVQEVLAKNNVPYNYIICNNGAMVYEKDKGVIVETPIPLEYRKDIIEVLDKLRDKYILGYCLLDQRKDYAKPYLEEIDSNPFLSKYAPKKNNYEIGKKDILENKDVNLIYVYVNKDEAIEMRTFLEKQLPFLKVVRTHINVIEIMQKDVSKAHGILEIQKLKGFKMEDVITSGDGENDIEMLALTKNSFTMKHHQPGVREHAEYEINNVFEIEDILNFDLT;locus_tag=LOCUS_01550;note=WP_012644897.1 Cof-type HAD-IIB family hydrolase (Thermotoga neapolitana) [pid:25.4%25%2C q_cov:73.7%25%2C s_cov:59.3%25%2C Eval:8.6e-08%2C partial hit],internal stop codon at [102775:102777](+),frameshifted%2C insertion/deletion at around 102701,MGA_155
sequence1	MetaGeneAnnotator	CDS	103575	104033	.	+	0	ID=MGA_156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLIILGAMGLVATSSSVAIACNKENNSSEKTDLSTLPIKELGTINGAEDKPTLEDLVKAINNVNSNYNLSIGEVSYDGQPTLSKARLKASTNAKKFKGTVDITYTFKKEESQTPGSTVENLTYAQSKSKVDVINLFKNENYNLINDQNK;locus_tag=LOCUS_01560;note=MGA_156
sequence1	MetaGeneAnnotator	CDS	104573	104752	.	+	0	ID=MGA_157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLNSLPYSAKKQSLYQPFKASFGALCLNPALDIDKTKFEHELITSFTAYDAFAVPLSV;locus_tag=LOCUS_01570;note=MGA_157
sequence1	MetaGeneAnnotator	CDS	105370	105555	.	-	0	ID=MGA_158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDIENKLLKDENKKLEKELNKLKKEKLKDKAKIEFLEKRMPSCMNLSKTQMKIQTSKKA;locus_tag=LOCUS_01580;note=MGA_158
sequence1	MetaGeneAnnotator	CDS	106326	107195	.	-	0	ID=MGA_159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENNELVFSMHKKTKKEIRLRTNRLNNDLDPLVIIKNKIPLLKHPHPTQKRETNFGAIFEADASNHEWIKGVKSHLHIVIDKSTKRILAGHFSEQETTESYYRVYKETFVNYGIPIKNVTDNRNVFSSKINRDSEGYSESRTQLQFIFHSLKVSTKTTSIPQEKALVERTFGTLQRRWPQRIRIKNIKTIEELNDYLPTLIKEYNKKYSTPIDNCKSVVRKFTENPNIVFSYRTTRIVNKGSSIDYDNKKWFVCSGYEPLYLKPKTKVMVMKTQDKNIILQLVMMYIT;locus_tag=LOCUS_01590;note=WP_042733187.1 hypothetical protein (Mycoplasma yeatsii) [pid:27.5%25%2C q_cov:73.4%25%2C s_cov:43.7%25%2C Eval:1.0e-12%2C partial hit],MGA_159
sequence1	MetaGeneAnnotator	CDS	107418	107585	.	-	0	ID=MGA_160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQTINKRLCHKYNILGGKIMRGIELDIMKQVKLEVIKGLSNKLHDINTSAETLG;locus_tag=LOCUS_01600;note=MGA_160
sequence1	MetaGeneAnnotator	CDS	107842	108342	.	+	0	ID=MGA_161;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167150.1;translation=MSNARPAHAKKNEIVKDIANRIKNCKGMAIAEYKNLSVAQMTDLRNKAREQGIFIKVYKDSLVTRAVQELKISGLEPYLTEQNVYIFSDEEALYPAKLVDNFAKINKDLKLKAGIYEGNVLDTAAINEIASLPSKEELYSMFASSLIYPLRQFMLTVKEIAKTRSE;locus_tag=LOCUS_01610;gene=rplJ;note=WP_011167150.1 50S ribosomal protein L10 (Mycoplasma mycoides) [pid:64.2%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:5.6e-54],MGA_161
sequence1	MetaGeneAnnotator	CDS	108402	108770	.	+	0	ID=MGA_162;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183499.1;translation=MAVTKDDIIKALEEMKLTELNELVKAIEDHFGVVAAAAVAAPAAGGAADAAPTEVNVLLTNPGGNKVAVIKIVKEITGLGLMDAKKLVDGTLPATIKENVKVEEAENMKKQLMEAGASVDLK;locus_tag=LOCUS_01620;gene=rplL;note=WP_011183499.1 50S ribosomal protein L7/L12 (Mesoplasma) [pid:69.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-41],MGA_162
sequence1	MetaGeneAnnotator	CDS	108943	109251	.	+	0	ID=MGA_163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKKASENYEAFLKYDENNKIKAFLMLQIKDEPENDILPIQPNKKRIKISTFKIDDDFKSLILSEAIINIIFSEMDKEKIYECYVTMYKDKQKALLNVLFS;locus_tag=LOCUS_01630;note=MGA_163
sequence1	MetaGeneAnnotator	CDS	109902	110099	.	+	0	ID=MGA_164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLLISIHNEHIENIKKGHKKFEFRKVIGRQFNENEIYFYATYPTSKVVGVAKIKKVHIDKPSVI;locus_tag=LOCUS_01640;note=MGA_164
sequence1	MetaGeneAnnotator	CDS	110324	110536	.	+	0	ID=MGA_165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKKIYSYLENKILSNELKKDDKLQSENQLCVKFNVSRNLIRDVYNDLIIDGYIHSQKGKGYFVNDKKF;locus_tag=LOCUS_01650;note=WP_164919782.1 GntR family transcriptional regulator (Mesoplasma florum) [pid:65.7%25%2C q_cov:100.0%25%2C s_cov:31.4%25%2C Eval:1.5e-22%2C partial hit],internal stop codon at [110534:110536](+)%2C[110621:110623](+),MGA_165
sequence1	MetaGeneAnnotator	CDS	110699	110998	.	+	0	ID=MGA_166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCLTYIFLNLNLIPNPNEKEIENSVISYLSKRYDFSKSYNFIKIQKADQKDKEYFGLNDNSYVVCEYSIIFNSDETILQCSLDKSRIEDFNFGYIARVV;locus_tag=LOCUS_01660;note=WP_164919782.1 GntR family transcriptional regulator (Mesoplasma florum) [pid:56.3%25%2C q_cov:87.9%25%2C s_cov:39.0%25%2C Eval:2.1e-24%2C partial hit],internal stop codon at [110534:110536](+)%2C[110621:110623](+),MGA_166
sequence1	MetaGeneAnnotator	CDS	111054	111179	.	+	0	ID=MGA_167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIMSLKDNINKEMFRYSYIEKENIFTVNANYAIALRVSDI;locus_tag=LOCUS_01670;note=MGA_167
sequence1	MetaGeneAnnotator	CDS	111552	111731	.	+	0	ID=MGA_168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFLTLQLASEELLYGLGEKFNNFVKNGTQSVIYNLDNQAVSNGDLGYGGVPLVYSNQN;locus_tag=LOCUS_01680;note=WP_011183214.1 alpha-xylosidase (Mesoplasma florum) [pid:77.6%25%2C q_cov:98.3%25%2C s_cov:7.7%25%2C Eval:1.3e-21%2C partial hit],internal stop codon at [111282:111284](+)%2C[111489:111491](+)%2C[111729:111731](+)%2C[111765:111767](+)%2C[111927:111929](+),MGA_168
sequence1	MetaGeneAnnotator	CDS	112407	112565	.	+	0	ID=MGA_169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNGELGKNFRNAYIELYLRYAYEATQEVHGKDKGFVLSRPGYIGTNKYVGK;locus_tag=LOCUS_01690;note=WP_011183214.1 alpha-xylosidase (Mesoplasma florum) [pid:80.8%25%2C q_cov:100.0%25%2C s_cov:6.9%25%2C Eval:1.4e-18%2C partial hit],internal stop codon at [112146:112148](+)%2C[112185:112187](+)%2C[112248:112250](+)%2C[112320:112322](+)%2C[112563:112565](+)%2C[112611:112613](+)%2C[112650:112652](+)%2C[112713:112715](+)%2C[112776:112778](+),MGA_169
sequence1	MetaGeneAnnotator	CDS	113151	113321	.	+	0	ID=MGA_170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSGNYKFNKIESEKIVLNIYGEVNDETLEFRINNKDYKVVVKNNNIEKNDKFEIL;locus_tag=LOCUS_01700;note=MGA_170
sequence1	MetaGeneAnnotator	CDS	113330	114376	.	+	0	ID=MGA_171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKQSIKIYAPVDCFVNDIKELNDGVFSEGMLGIGIYFNPKNNNLYAPVEGKCVQVFNTKHAIHFEDLNGNILLMHIGIDSVQLNGEGFDIKVNPGQVVGLKNEVATVDFKLFEQKNIIKSTPIVIETDNNFEYEFKNFKPGDYKKGDLILEIEKTLIENKASENKVQKDDAGKVMPIIFKDKWEQLSEELLKGVSGKDNVTNVNNCNTRLRLQIKNMDKLSLDTVKQNRNVKGINIKGNELQIIIGPDAYKLKEVFNDYAARSMINKNAKKVKETFKSKLVKVINGILIPVVPIICAASFITLVKTIFETTHVIDQVSLDYSHGALSVLTDYDLVTGLFFILSQTA;locus_tag=LOCUS_01710;note=WP_011183215.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:64.1%25%2C q_cov:100.0%25%2C s_cov:41.9%25%2C Eval:2.5e-131%2C partial hit],internal stop codon at [114374:114376](+)%2C[114494:114496](+)%2C[114518:114520](+)%2C[114599:114601](+)%2C[114611:114613](+),MGA_171
sequence1	MetaGeneAnnotator	CDS	114818	115870	.	+	0	ID=MGA_172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHTAFYVPINNMIGNGIPLVLGTVKEAGSLGQFGACVAVIFATKGSATKQIAVSSSPPALLGITEPAIYGCNLVKVIPFIAGCIGSGLGGLYFGLTDCKLYAIGNGVLSSIGTLKGGTMNFVNCWIGYVITMASAFLITFFFYKERIDEKNGIQRLYKKVIRTFELKENKKLNNLYYINKFKEIYNKEAKLKIKKLEKFLYKKGLIENKITSLIVKEDNLKQKYSKLASKYYEKNMEDKVVKYNDLILNTKIDKDKYNGKLNVFVKEILELNTDYNKISIKAKELTDSFVEGVVKELKNENLKVLKNNFNQIIMSLENNALNVPKQEELLFNFKEFVKNKKLEKKTIISK;locus_tag=LOCUS_01720;note=WP_011183215.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:56.2%25%2C q_cov:98.6%25%2C s_cov:40.4%25%2C Eval:1.0e-108%2C partial hit],internal stop codon at [114599:114601](+)%2C[114611:114613](+)%2C[114794:114796](+),MGA_172
sequence1	MetaGeneAnnotator	CDS	116481	116768	.	+	0	ID=MGA_173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHDKVKKLLGLLGAMGLVATSGSVVVSCGNSAQADFGKEFKDISIAVGEVKEINITIPTTDSESLKTFEIKSKDETIAKISESKKDDKSPENIFN;locus_tag=LOCUS_01730;note=MGA_173
sequence1	MetaGeneAnnotator	CDS	116722	117372	.	+	0	ID=MGA_174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQKKTIKVQKIYLIKVVGVKEGLTKITAKYDKGSKDINVTVNEAVEEEIKDLCSVDGSVVLYTDGDESEELAKPIAIAEINKQLKPTVAYVESDFSFEYVGKTSATNAKLRVKPAENSKKLKGDVMFDIKKETRTDLSTIFPDNKLEVTAVKIEYVRAEIQTQIRTKVNGATVVTDFDTKDYVEPASDKNKNGSITIFAAKNSDKLKSLVTLEVV;locus_tag=LOCUS_01740;note=MGA_174
sequence1	MetaGeneAnnotator	CDS	117482	117832	.	+	0	ID=MGA_175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKSNKINFLKPYITNEGIEVGDYTYFYSFNGEQGLKEFQNKNVLYHFYKISNNKLIIGKFCAIADEVKFIMSGANHRINSLSTFPFEMFDEFNDEHDLICANPVFKGDTVVGNDV;locus_tag=LOCUS_01750;note=WP_001181527.1 CatB-related O-acetyltransferase (Leptospira interrogans) [pid:50.5%25%2C q_cov:95.7%25%2C s_cov:49.1%25%2C Eval:3.4e-22%2C partial hit],internal stop codon at [117830:117832](+),MGA_175
sequence1	MetaGeneAnnotator	CDS	118164	118697	.	+	0	ID=MGA_176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNITQEQEDIINNILTKNIIVEAVAGSGKTTTALEMAKRYLDKKFLLVTYNKDLKQDTREKVVKQNLNNIIVENYHSITMKYYGIRNAANDDAVLDVIENDLALAYDFIPDVLILDEVQDMNISFYKLIKKLLRDLNNEQISICVLGDRKQTLYRFMKSDYRYLELADEIFTYSKKE;locus_tag=LOCUS_01760;note=MGA_176
sequence1	MetaGeneAnnotator	CDS	118806	119225	.	+	0	ID=MGA_177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIDYLIYDPYNIDQVSNIILNNIEIYGIKNTFLLANSLQTNSNINPLNNILNSVNDKFALFLKEKDIKTNDKNLKKNKLEITTINSTKGREKDLVIVYGFDEFYFKAYAKDENNKIPSDKFYVAITRAKQKVILLNTA;locus_tag=LOCUS_01770;note=MGA_177
sequence1	MetaGeneAnnotator	CDS	119391	119597	.	+	0	ID=MGA_178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKFKKILSVEEYEFTNKANVDFSKIPFSIELNFKDKLIKENVSAINGSLITYIPLYMKTNFIDAVFK;locus_tag=LOCUS_01780;note=MGA_178
sequence1	MetaGeneAnnotator	CDS	119604	119795	.	+	0	ID=MGA_179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIEIRKAQDKNFQLTNEINNINDIFKKGNLSIQDLTHIACIIETAKSGRNYKYLQLKDSNFD;locus_tag=LOCUS_01790;note=MGA_179
sequence1	MetaGeneAnnotator	CDS	119811	119996	.	+	0	ID=MGA_180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDTLKVIEEIDPKGTMLFEEDLIINAENNDILKKINKELGLNTINLYGIYDGYNSETNEL;locus_tag=LOCUS_01800;note=MGA_180
sequence1	MetaGeneAnnotator	CDS	120030	120254	.	+	0	ID=MGA_181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLQACIYSYIIQQKNKQSLKATYLFNLYTSKIYLLKFDIKEFEKILYEILYFKCTNVAEKNDNQFLKEVLNCE;locus_tag=LOCUS_01810;note=MGA_181
sequence1	MetaGeneAnnotator	CDS	120247	120843	.	+	0	ID=MGA_182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKPSFIVIDFETANYKNEPCQVGIVICENGVITDRYETLISLPKYSYIDFKYTMIHNIYDEQLVGQPGFVEVCKKIKEKLQKGYVVIAHNAKFDMMVLKRAMQNNNIEMFDFDYACSVEIIRNSFPKRFLNHKLSTLANALNIKFNHHNALADSEATCEVLLKCFNDHESFLNALKHPKYILKKFTTYFNKKCHFHN;locus_tag=LOCUS_01820;note=WP_010964056.1 exonuclease domain-containing protein (Clostridium) [pid:38.4%25%2C q_cov:79.8%25%2C s_cov:51.0%25%2C Eval:6.3e-22%2C partial hit],MGA_182
sequence1	MetaGeneAnnotator	CDS	120968	121951	.	+	0	ID=MGA_183;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003428483.1;translation=MSKDNKKFVSIDLGTAYTLVYIHGQGIVYNEASIIAYKVKENKIIAVGNDAYKMIGKGNKSIKIVKPMAEGVICDIKTTVSQLRFIFKKLRMEDQLKGCTMLLACPSVITELEKQALIKIANSFGAINVFIEEEVKMAALGGGVNIFAPTGKLIVDSGGGTTDVAVIASGDIVLSKSIKIAGNYLNEEIKKFVRSQYGLEVGTKTAELIKINIGSLAKYSDERRMKVYGRDVVSGLPREVELSPEEVREVLKVPVSRIIDLIVQVLEDTPPELAGDIFLNGIVLCGGGALIRGFDKYVADILQLPAKVGEQPLLAVINGTKKFETNI;locus_tag=LOCUS_01830;note=WP_003428483.1 rod shape-determining protein (Clostridioides difficile) [pid:44.6%25%2C q_cov:96.6%25%2C s_cov:89.5%25%2C Eval:1.5e-71],MGA_183
sequence1	MetaGeneAnnotator	CDS	122132	122764	.	+	0	ID=MGA_184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGAVGLVASSSSVAVACNKGNKTDTTKTDLSAMSKKDLGELHLAITNPAVDLLNSVPSISDIVNAVNAVNSNYGLNDADVEFDGTPTATKAKIKATSTTKSFTGSVELTYTALRELNLNLVEKLVNGEGIGALLPTFYVGGITVDDNTNSQKVQEAVSAYTKGFLATAKALAEQNKLTFNIDESKLIGALDIKMFSDDAGKTA;locus_tag=LOCUS_01840;note=MGA_184
sequence1	MetaGeneAnnotator	CDS	123974	124111	.	-	0	ID=MGA_185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNQGLDLKDLPSFRSPIYDRVVEIIKDYNDANNMLASGSDLIRK;locus_tag=LOCUS_01850;note=MGA_185
sequence1	MetaGeneAnnotator	CDS	124770	124919	.	+	0	ID=MGA_186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLVASTSVMSLNTVSCKAGKLSFIDEKTKSDLIKYLDEENILLIINVK;locus_tag=LOCUS_01860;note=MGA_186
sequence1	MetaGeneAnnotator	CDS	125314	125499	.	+	0	ID=MGA_187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLLSLFGALGMVASMGFAASQVVSYGVGTLTYVEGKKQEDLVSALTKAEIIADNKLVKD;locus_tag=LOCUS_01870;note=MGA_187
sequence1	MetaGeneAnnotator	CDS	125557	125694	.	+	0	ID=MGA_188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGTLISNVELTYELAMLFNELKDLKASTDEAKNIYRLCIFIKRC;locus_tag=LOCUS_01880;note=MGA_188
sequence1	MetaGeneAnnotator	CDS	125861	126229	.	-	0	ID=MGA_189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTLLNVLLLSFILILICIEAAYDAFGNNYVGYNEGPIKGGKIDNFIKKIKICKINIPIVNQKITIDENIINEQEILNCELFREFGTRYNYKKSIANITNEFNNILDIIKSRYSKDKAIKHD;locus_tag=LOCUS_01890;note=MGA_189
sequence1	MetaGeneAnnotator	CDS	126921	127049	.	+	0	ID=MGA_190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEALMSYKNKQVNALVTRRDYTKVSGDLPLPNLIELQTETFN;locus_tag=LOCUS_01900;note=WP_011183496.1 DNA-directed RNA polymerase subunit beta (Mesoplasma florum) [pid:70.3%25%2C q_cov:88.1%25%2C s_cov:2.9%25%2C Eval:1.8e-07%2C partial hit],internal stop codon at [127047:127049](+)%2C[127137:127139](+)%2C[127302:127304](+),MGA_190
sequence1	MetaGeneAnnotator	CDS	127500	127655	.	+	0	ID=MGA_191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDRGTFIINGSEKVVVSQLVRSPGSYFKKEMNRKNGEMIYYADIIPSRGT;locus_tag=LOCUS_01910;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:8.0e-19%2C partial hit],internal stop codon at [127302:127304](+)%2C[127653:127655](+),MGA_191
sequence1	MetaGeneAnnotator	CDS	127683	129440	.	+	0	ID=MGA_192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDNKVSNIFYVKIDKSRKTTSTSLLTAFKMESQEIIELFDNDPIITSSYEQDGLSGDLQIDFENQVQEIYKKIRQGETATTEGASKHLYGLLFDKKRYDLTKAGRFKLKQKLAVKNRLIGRVLAEDIIDINGKVAFKKDTEITKSMYNDLEKVLDEGAMTQKLNFSDAIISGNEIQKVKVYKNNDTRDETTMIIGVTNKSSDEFINVPDIIATISYAINLMDDIGEVDDIDHLGNRRVRTVGELLQNQFRIGMVRIEKNVREKLATSNPFKMKPSSIINNKPLTAIIGEFFNLSQLSQFMDQTNPLAELTNKRRLTALGPGGLSRDRAALEVRDVHTSHYGRICPIETPEGPNIGLINNLSTYAKINPYGFIETPYRKVLNGKVLKDEHVYLTADKEKDFIVAQANIQTDKDGKILDESVIARYRGDDIMADPMDVDFVDVSPKQIVSIATSCIPFLENDDANRALMGANMQRQAVPLINPESPIVGTGVEYEAARDSGDAVVATEDGIVKYVDSKTITIEGKNGVKSYTLNDFSRSNNGTAITHLPIVKVGDKVKANEILADGPSMEKGELALGQNVVVAFTT;locus_tag=LOCUS_01920;note=WP_011167152.1 DNA-directed RNA polymerase subunit beta (Mycoplasma mycoides) [pid:66.1%25%2C q_cov:99.8%25%2C s_cov:45.2%25%2C Eval:3.5e-230%2C partial hit],internal stop codon at [127653:127655](+)%2C[129438:129440](+),MGA_192
sequence1	MetaGeneAnnotator	CDS	129531	130385	.	+	0	ID=MGA_193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERRQTKQGPEEITRDIPNISESHKKHLDSDGIVAIGTEVKVGDILVGKVTPKSQTQLSPEDKLLHAIFGEKSRNVKDNSLRVPNGGEGIIKSIKRFSKAEGHDLPADILEIIKIYVVQKRKIQEGDKMAGRHGNKGVISKILPVEDMPHMEDGTPVDIMLNPQGIPSRMNIGQVLEIHLGMAAKKLNIKVATPVFEGVKEDDLKAIMDEAGMTNYGKVKLIDGRTGEAFDKPISVGVMYMLKLSHMVDDKLHTRNIGPYSLITQQPLGGKAQNGGQRFGEMEV;locus_tag=LOCUS_01930;note=WP_011183496.1 DNA-directed RNA polymerase subunit beta (Mesoplasma florum) [pid:81.3%25%2C q_cov:100.0%25%2C s_cov:22.5%25%2C Eval:4.2e-136%2C partial hit],internal stop codon at [129438:129440](+)%2C[130383:130385](+),MGA_193
sequence1	MetaGeneAnnotator	CDS	130416	130766	.	+	0	ID=MGA_194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREILTIKSDDIKGRIKTYEAIVRSKPIPKPGIPESFNVLTKEIMGLGFDMHMIDEDGNKVPINAYEEDEIDFANIDINTSFDSSDVEVGYKETDEHDDVDYKEDEDYYGSEDGLE;locus_tag=LOCUS_01940;note=WP_011167152.1 DNA-directed RNA polymerase subunit beta (Mycoplasma mycoides) [pid:74.0%25%2C q_cov:66.4%25%2C s_cov:6.0%25%2C Eval:5.1e-26%2C partial hit],internal stop codon at [130383:130385](+),MGA_194
sequence1	MetaGeneAnnotator	CDS	131096	131332	.	+	0	ID=MGA_195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKVAPSRIASILDLKTKEVEEVVYFVSHIVLDPGTSKHLKRGQVLDLGNAKASLKTRQQLVKTLEDIRTELTPDTFP;locus_tag=LOCUS_01950;note=WP_011183495.1 DNA-directed RNA polymerase subunit beta' (Mesoplasma florum) [pid:68.6%25%2C q_cov:89.7%25%2C s_cov:5.5%25%2C Eval:1.8e-18%2C partial hit],internal stop codon at [130847:130849](+)%2C[131093:131095](+)%2C[131330:131332](+)%2C[131606:131608](+),MGA_195
sequence1	MetaGeneAnnotator	CDS	131387	131608	.	+	0	ID=MGA_196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEAATFISRHIGAKFGIGASAIEELLKGIDLDSEIEKIKEDLKERKGSSEQNKMMKRLEILDSLKKSNSRPE;locus_tag=LOCUS_01960;note=WP_011183495.1 DNA-directed RNA polymerase subunit beta' (Mesoplasma florum) [pid:57.5%25%2C q_cov:100.0%25%2C s_cov:5.8%25%2C Eval:4.9e-16%2C partial hit],internal stop codon at [131093:131095](+)%2C[131330:131332](+)%2C[131606:131608](+),MGA_196
sequence1	MetaGeneAnnotator	CDS	131609	132127	.	+	0	ID=MGA_197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLHVIPVIPPDIRPIIQLDGGRFTTSEINDLYRRIIIRNERLKKVKAMGAPSIIVNNEKRMLQEAVDALLDNERKPRPVTGKDKRALKSLTSILKGKQGRFRQNLLGKRVDYSGRSVIAIGPDLKMYQAGIPRDMAITLFKPFVIRRLQEKDYAENVKVAEKMILANDSKV;locus_tag=LOCUS_01970;note=WP_011183495.1 DNA-directed RNA polymerase subunit beta' (Mesoplasma florum) [pid:88.4%25%2C q_cov:100.0%25%2C s_cov:13.7%25%2C Eval:3.5e-81%2C partial hit],internal stop codon at [131606:131608](+)%2C[132125:132127](+),MGA_197
sequence1	MetaGeneAnnotator	CDS	132296	132679	.	+	0	ID=MGA_198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVHLPISDEAVAEARALMLGSKAILGPKDGKPIVTPTQDMILGNYYISTEEKSSADVEIKGEGTVFSSYEEVKIAYETESVSLSAIIAIPVSALSDKPFDKEDQDKYLITNVGKIFFNQMFDEKFA;locus_tag=LOCUS_01980;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:56.2%25%2C q_cov:99.2%25%2C s_cov:9.8%25%2C Eval:6.1e-35%2C partial hit],internal stop codon at [132125:132127](+)%2C[132677:132679](+)%2C[132698:132700](+),MGA_198
sequence1	MetaGeneAnnotator	CDS	132812	133063	.	+	0	ID=MGA_199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIEKYFKTYGAQKTARMLDNMKDLGFHFSSKSGTTISAADVVAFEEKHDEFKIADEKVHQITEFYNMGMLTKAEKKRRVISI;locus_tag=LOCUS_01990;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:73.5%25%2C q_cov:100.0%25%2C s_cov:6.6%25%2C Eval:4.5e-30%2C partial hit],internal stop codon at [132677:132679](+)%2C[132698:132700](+)%2C[133061:133063](+),MGA_199
sequence1	MetaGeneAnnotator	CDS	133139	134356	.	+	0	ID=MGA_200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADSGARGNVSNFTQLVGMRGLMNDPKGDIKEIPIKSSFREGLTVSEYFISTHGARKGMADVALKTADSGYLTRRLVDISQEIIVTQDDCNGSKGFNVYSIIDTKHNNIIVPLKDRLVGRYSFEDVTFEGKVLVEANTLFTGELADKVINAGITDVQIRTVLNCEAARGVCRKCYGVNLATGNEVALGEPVGVVAAQSIGEPGTQLTMRTFHTGGVAGGADITQGLPRIKELLDVTTPKGSIALISQIDGVVKEVIEEDQILTIVVESDNDERKYKSQYGAISRVNVGDKVRRGKKLTEGAINIKELLEVAKIEDVQNYILKEVQKVYRLQGIEISDKYIEIIVKQMLNKVKIIDSGDSSLLPGEIISEKTFKDEVLKSIQVGKKPPLAKFVIFGIKKAPLESDS;locus_tag=LOCUS_02000;note=WP_011183495.1 DNA-directed RNA polymerase subunit beta' (Mesoplasma florum) [pid:70.0%25%2C q_cov:100.0%25%2C s_cov:32.7%25%2C Eval:1.5e-159%2C partial hit],internal stop codon at [133061:133063](+)%2C[134354:134356](+),MGA_200
sequence1	MetaGeneAnnotator	CDS	134278	134451	.	-	0	ID=MGA_201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSFNPSNLSTFPFITALTRTLAVSWNEALDNHESDSSGAFLIPKITNFASGGFFPT;locus_tag=LOCUS_02010;note=MGA_201
sequence1	MetaGeneAnnotator	CDS	134635	134766	.	+	0	ID=MGA_202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKNQKAIKGMLISILVLSAISFLAHIFSGYLVDLTEVLDKNG;locus_tag=LOCUS_02020;note=MGA_202
sequence1	MetaGeneAnnotator	CDS	135016	135270	.	+	0	ID=MGA_203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFKLNQFAKNTNIEAKIELLKYYYRISASLIIFCALLGISAISINGYNEYRNNGFVRNAVYYEGVFVLLSLIFAIVHLSSKQT;locus_tag=LOCUS_02030;note=MGA_203
sequence1	MetaGeneAnnotator	CDS	135520	135951	.	+	0	ID=MGA_204;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183002.1;translation=MKIYIGNDHTAVEMKNSIVNYLLENGYEVENLGVDTSDPSDYPDLGHNVANKVANDKYSKGIIICGTGIGISIAANKVKGIRAALCYEIETTKMARKHNDANILALGARIIANQKAILLVEEFLKTDFEGGRHQNRINKIDTI;locus_tag=LOCUS_02040;gene=rpiB;EC_number=5.3.1.6;note=WP_011183002.1 ribose 5-phosphate isomerase B (Mesoplasma) [pid:57.9%25%2C q_cov:97.9%25%2C s_cov:95.9%25%2C Eval:7.4e-42],MGA_204
sequence1	MetaGeneAnnotator	CDS	135963	136406	.	+	0	ID=MGA_205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFKVIEHPLILDKLTRMRKKETSSKDFRENLNEIGQLMVYEIFRDVPLAKIQIETPVQKTEGYTIDTPVVLIPIIRAGLGMTEGIQRLVPTSRIAHVGLYRNEETLEPVQYYAKATKDIDKSYVIVVDPMLATGGSASKAISIAKE;locus_tag=LOCUS_02050;note=WP_015545345.1 uracil phosphoribosyltransferase (Mycoplasma mycoides) [pid:76.2%25%2C q_cov:100.0%25%2C s_cov:71.0%25%2C Eval:3.2e-59%2C partial hit],internal stop codon at [136404:136406](+),MGA_205
sequence1	MetaGeneAnnotator	CDS	136464	136586	.	+	0	ID=MGA_206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKDHPDIDIYTASLDPILNENGYIVPGLGDAGDRIFGTK;locus_tag=LOCUS_02060;note=WP_002294095.1 uracil phosphoribosyltransferase (Enterococcus) [pid:88.9%25%2C q_cov:90.0%25%2C s_cov:17.2%25%2C Eval:1.5e-12%2C partial hit],internal stop codon at [136404:136406](+),MGA_206
sequence1	MetaGeneAnnotator	CDS	136725	138215	.	+	0	ID=MGA_207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILASLCLTSQTSFYLISCDNNEQKSNDNLENEDTRPEEDTRVDLSEIGKKDVKHYRVAPKTNGLEYLKLAILSRINSDLGIKVVENIDISFSNYKIATETSYGTILASAVSTSKKIKGKANFYHYFIDERASLFDIKISQIEPKENNITSITESIKCLMLTTNNGAFKDSIPNADYLIPSEGEYRKPTQNEIGSITIKAGQNSKIFKKNTTKTFDIAFPDDRKELGEMITVNEISPEYNTFEAAKKSVKDVMNMYDSNLQEDLDYRVVESEETYKNPTRNSPGLVIITATGSSSYIRGSKTLIVNYKDVSKSLTELKNTDLKVTKNDEATAKISAIKVLDSFVPNLTISDYYFTNYRAANNIEDGSITVQALNKSEKIRDFVTFTIKYLKKLSDISIQQVNTNKNDKASAYSLIKKVVLEFDQRLLEGLDYVFDESSYKAATSDTNGSVRVFSNPSSKKIEGEVVFSIVYNKLALNSIKVTNLININEQS;locus_tag=LOCUS_02070;note=MGA_207
sequence1	MetaGeneAnnotator	CDS	138932	139162	.	+	0	ID=MGA_208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTLIFGLVAYIFLVYSAKKLIDHQNPYLFVFFSVLRIGLYMVPFIISIYLSEYINSFGVIIGFLISLLFPVILRN;locus_tag=LOCUS_02080;note=MGA_208
sequence1	MetaGeneAnnotator	CDS	139277	139741	.	+	0	ID=MGA_209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVICSLCIVYNVKIRNLKDGEELSGFLVLTETFIGMMENIVVTTMGKKFRHLTPFAMYIFLYILVSSIISLLGFEPLSSSYTVTLSMAIVSFFGIYYYGLRYQKFMFFMKFALNPIEVITQFVPILSLSFRLFGNILAGATILGLLYGAFTNL;locus_tag=LOCUS_02090;note=WP_011183006.1 F0F1 ATP synthase subunit A (Mesoplasma florum) [pid:52.0%25%2C q_cov:97.4%25%2C s_cov:52.5%25%2C Eval:1.9e-42%2C partial hit],internal stop codon at [139739:139741](+)%2C[139796:139798](+)%2C[139835:139837](+)%2C[139949:139951](+),MGA_209
sequence1	MetaGeneAnnotator	CDS	140285	140464	.	+	0	ID=MGA_210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGASLGQGIVGQGACLAIGRNPEVAGKITTTLIITAGFSESGAIYALVIAILILFVLA;locus_tag=LOCUS_02100;note=WP_011167043.1 ATP synthase subunit C (Mycoplasma mycoides) [pid:65.1%25%2C q_cov:72.9%25%2C s_cov:42.6%25%2C Eval:7.3e-12%2C partial hit],MGA_210
sequence1	MetaGeneAnnotator	CDS	140492	141040	.	+	0	ID=MGA_211;product=F0F1 ATP synthase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167042.1;translation=MITTLTSLVLQAESTPGIPEVTKALFPNLPNFIAHVLSTIIIILFLAKLVYKPFKKIVAERRKKINELLDDASSKQALANKDKKDAAKLLIQAREESKGIILNAKTEADELKFDIIDNAKKEAQNIQEHAKQAMEFEKNEAQEDIRKEIIDLAFLASQKILAKEVNIDVDKKLIEEFLDKLD;locus_tag=LOCUS_02110;gene=atpF;EC_number=7.1.2.2;note=WP_011167042.1 F0F1 ATP synthase subunit B (Mycoplasma mycoides) [pid:45.6%25%2C q_cov:92.9%25%2C s_cov:93.4%25%2C Eval:1.6e-37],MGA_211
sequence1	MetaGeneAnnotator	CDS	141177	141590	.	+	0	ID=MGA_212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFLSNKSIDINTRLKVIDNIFAKQIDKNLTNALKLIVIRDIVPGLRHIIKQVIKDLLDATNTIQGVVYSISPLDPSIIKKIEAKLSTKTDKKVILDNVIDKELIAGIKVELAGKKYDSSIQGKSLDMRRKVMKNRK;locus_tag=LOCUS_02120;note=MGA_212
sequence1	MetaGeneAnnotator	CDS	141600	142346	.	+	0	ID=MGA_213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLKINEISDVIKKQIQEYGKDLVIQEVGTVASIGDGVALLFGLDKAMMGELLVFNDNTYGMALNLEDGAVGAVVMGDDAEIKQGDKVKRTQRVVETPVGDELLGRVLDGIGNPIDGNGPLKNKKFAPVEKIASGVMSRKSVDQPLETGILSIDSIIPIGKGQRELIIGDRQTGKTAIAIDTIINQKGKSVKCVYVAIGQKESTVAQVVEKLKQAGAMEYTTVISASASEPAPMQYIAPYTGVSIAEE;locus_tag=LOCUS_02130;note=WP_011183010.1 F0F1 ATP synthase subunit alpha (Mesoplasma florum) [pid:70.6%25%2C q_cov:100.0%25%2C s_cov:47.2%25%2C Eval:2.0e-99%2C partial hit],internal stop codon at [142344:142346](+),MGA_213
sequence1	MetaGeneAnnotator	CDS	142347	142940	.	+	0	ID=MGA_214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKGEDVLIIYDDLSKHAIAYRTLALLLRRPPGREAYPGDVFYLHSRLLERAARVNEKFGGGSITALPIIETQAGDISAYIPTNVISITDGQIFLSEQLFNSGIRPAVDTGLSVSRVGSAAQIKAVKQMGGTLKLELAQYYELQAFAKFGSDLDESTKATLDHGAKIVELLKQRQYSPISQITQSIILLAIKDRLIK;locus_tag=LOCUS_02140;note=WP_011183010.1 F0F1 ATP synthase subunit alpha (Mesoplasma florum) [pid:82.7%25%2C q_cov:100.0%25%2C s_cov:37.5%25%2C Eval:4.6e-89%2C partial hit],internal stop codon at [142344:142346](+)%2C[142938:142940](+)%2C[143124:143126](+)%2C[143157:143159](+),MGA_214
sequence1	MetaGeneAnnotator	CDS	142956	143126	.	+	0	ID=MGA_215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMNFKAELLKHFKSNDKAKALKKQLSEEKAYDEALTKKVREEIVKVVKNCVLNIKD;locus_tag=LOCUS_02150;note=MGA_215
sequence1	MetaGeneAnnotator	CDS	143176	143634	.	+	0	ID=MGA_216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANLSELKNQIASVKDIGKITGAMELVATAKLKRISKRVGDIHAYMDEIYNVFDYIVSHSEESIYLKKADTQINKTLWVIITSNLGLCGGYNANVFKAIKGKIGINDEVVAIGNKAVSYCNSNKLNIRRAVVDVDVNYTSDSANNLASDLLS;locus_tag=LOCUS_02160;note=WP_011183011.1 ATP synthase F1 subunit gamma (Mesoplasma florum) [pid:52.0%25%2C q_cov:100.0%25%2C s_cov:54.1%25%2C Eval:1.3e-40%2C partial hit],internal stop codon at [143632:143634](+),MGA_216
sequence1	MetaGeneAnnotator	CDS	143770	144024	.	+	0	ID=MGA_217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEPDAETVLATGVALYLNTIIFGTILESQLSEQASRRTAMEAATKNGKELSESLSIAYNRKRQENITQEISEIVGGANAQSDN;locus_tag=LOCUS_02170;note=WP_011183011.1 ATP synthase F1 subunit gamma (Mesoplasma florum) [pid:74.4%25%2C q_cov:92.9%25%2C s_cov:27.8%25%2C Eval:2.8e-24%2C partial hit],internal stop codon at [143632:143634](+),MGA_217
sequence1	MetaGeneAnnotator	CDS	144043	145437	.	+	0	ID=MGA_218;product=F0F1 ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167038.1;translation=MKTSLGKVVQVMGPVVDVRFKENEMPELYNTVELDNSGTKLVLEVVQHIGDDLVRTIAMGPTEGLVRGMDAKNTGAPISVPVGNEVLGRMFNVLGDPIDEKPQVDSKKMPIHRTAPSYDELSTSAEILETGIKVVDLMMPFSKGGKIGLFGGAGVGKTVLVQELINNVAKAHGGISVFAGVGERTREGNDLYYEMIDAGVIDKTSLVFGQMNEPPGARMRVALTGLTIAEYFRDEKNQDVLLFIDNIFRFTQAGSEVSALLGRMPSAVGYQPTLATEMGALQERITSTKKGSITSVQAVYVPADDLTDPAPATTFAHLDARVVLDRSIAALGIYPAIDPLSSSSRMLDPEIVGEEHYSIALKVQETLQKYKELQSIIAILGMDELSEDDRITVNRARKIRNFMSQPFTVGEKFTGRSGKYVSVQDTITSFKAILNGDCDDIPETLFMYAGSIEEVIERNKSDKK;locus_tag=LOCUS_02180;gene=atpD;EC_number=7.1.2.2;note=WP_011167038.1 F0F1 ATP synthase subunit beta (Mycoplasma mycoides) [pid:75.9%25%2C q_cov:99.1%25%2C s_cov:96.8%25%2C Eval:1.1e-204],MGA_218
sequence1	MetaGeneAnnotator	CDS	145440	145685	.	+	0	ID=MGA_219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167037.1;translation=MELKLKVITPNGIFLNSIEVNHVGVQTMDGDMTIYAHHAAIVSTLNIGIVKYTDSKGNLKYIHVHRGILQVNNNEVKVLTP;locus_tag=LOCUS_02190;EC_number=3.6.3.14;note=WP_011167037.1 hypothetical protein (Mycoplasma mycoides) [pid:35.0%25%2C q_cov:98.8%25%2C s_cov:79.8%25%2C Eval:1.1e-09],MGA_219
sequence1	MetaGeneAnnotator	CDS	146086	146610	.	+	0	ID=MGA_220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLLSILSSLSISTTVVGATTISLLQTNTSNKDKNNNNIENQNSDDQNKEKEEPKPEPKKLDLNEVIKINKVDNLKIIYDKSVEDLLLTAIAALNPSLQMDQVEIHDLNTDIGSASVVAKDDSKLYSGYADISFSVYKYNKVNFVLEKDNVELAPSGPTQQQLIKVTNYSIDN;locus_tag=LOCUS_02200;note=MGA_220
sequence1	MetaGeneAnnotator	CDS	146815	147048	.	+	0	ID=MGA_221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFELDKNDIKLNIMDQTEQVINVKNYDQLIDDVNRPNKIQINSKDVEARFSDDHRKIYIKSTGVYGENAEVKVSSP;locus_tag=LOCUS_02210;note=MGA_221
sequence1	MetaGeneAnnotator	CDS	147121	147513	.	+	0	ID=MGA_222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVNSTEYVNITNFDTLKIEKNMPYRIQSSNEKAITAYLDRVNKRIVINSHDLVDENVVLTIRSDNLNNYPDYIYVKVKAKDAPFKLDRKNVSMKVYETTSIKITNPDEVRDSPRNIPSKFIYTKDYAKI;locus_tag=LOCUS_02220;note=MGA_222
sequence1	MetaGeneAnnotator	CDS	147595	148107	.	+	0	ID=MGA_223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYSMSISLTIIIPQVKFKLEKPKDMYVGQTQEVNVTNFYELVHENNYPVRFEYSKQGVIEASFNSSSKKVVIRSISQNVFCRNFSLTVISKDGKYRETYQFDVIKQFSLSSLNTNLGNLSDRNTTNIANTLYNLNYNIGLDKEVFQSLSIGDNTYTRATLYNNSYLSKK;locus_tag=LOCUS_02230;note=MGA_223
sequence1	MetaGeneAnnotator	CDS	148441	148590	.	+	0	ID=MGA_224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDFQSGNTWIEIRADFYAAVRFENYNSNARMVVDLTITNYAYRTNPGF;locus_tag=LOCUS_02240;note=MGA_224
sequence1	MetaGeneAnnotator	CDS	150433	150921	.	-	0	ID=MGA_225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTIARIAVKLGYKVDIISNDKDTYQLISQDVNVISQQSKKCKKEVVTAEEVYEKFGCKPAQIPDMKSLLGDHSDNIKGVKGMHFSTATRLIEKYGCVENIFKNLNDFSREHRVKLEECKEQVLLNKKITRILKDVNLGRVNFKPLNINYIRFMGFLKKEKI;locus_tag=LOCUS_02250;note=WP_011182952.1 5'-3' exonuclease (Mesoplasma florum) [pid:46.3%25%2C q_cov:100.0%25%2C s_cov:51.1%25%2C Eval:1.8e-38%2C partial hit],internal stop codon at [150433:150435](-)%2C[150955:150957](-)%2C[151066:151068](-),MGA_225
sequence1	MetaGeneAnnotator	CDS	151066	151278	.	-	0	ID=MGA_226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEKKKIVIIDGYNLLHKGYYGSLKRKKLAINREGVLINAVYVFIAKIQEMIDSKEYHTIIVTFDVGKDC;locus_tag=LOCUS_02260;note=WP_011182952.1 5'-3' exonuclease (Mesoplasma florum) [pid:61.4%25%2C q_cov:100.0%25%2C s_cov:22.1%25%2C Eval:1.1e-20%2C partial hit],internal stop codon at [150955:150957](-)%2C[151066:151068](-),MGA_226
sequence1	MetaGeneAnnotator	CDS	152063	154201	.	+	0	ID=MGA_227;product=preprotein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182954.1;translation=MARDSKLVNKYGKIADIIIQNEQAYAQFTDEQLKNKTQEFKDRVANGETLDSLLVEAYSVVREAAFRVLKLKAYRVQLIGGIILHEGDIAEMKTGEGKTLTGLFAAYLNALTGQGVHVVTVNEYLSKRDSEINGLVYNFLGLTVGLNSRDISKSDKREAYAQDITYTTNAELGFDYLRDNMVYNFEDKVQRKLNFAIIDEADSVLIDEARTPLIISGGSQNRINMYMAADACSKTLKEPEDVEIDLESKQVYLTDSGIKKAQKYFSIENLFDFRNTEIFHLIMNALKANFTFKKEIEYTVQDGEIILIDQFTGRTMPGRAYSDGLQQALQAKEGVEIEEETQTLATITYQNFYRLYNKLSGMTGTAKTEEEEFLKIYNTRVIVCPTNKPVIRKDEPDLTFGTKNAKLKRLVHDLKELNEIGRPVLIGTTSVESSEQVARYLEKAGLKFEMINAKNHLREAEIVEKAGQVKAITLATNMAGRGTDIKLTDETRKLGGLFVMGIERNEARRIDNQLRGRAGRQGDPGTSRFYISMEDELLIRFTAPKVRQYFLKLGDDHIKSKMFTKAITNAQKKLEGLNFDQRKNVLDYDNILSQQREAMYSQRDDILQQEDLKVVLSKFQYTIAFEIIEECSELVRGERTVNVELLIKRLNTQYIVKDSLEEKDLIGLEKQQMAKIIQKHMMELYLQKVEGVPENVIHEMERRTILQSFDRF;locus_tag=LOCUS_02270;gene=secA;note=WP_011182954.1 preprotein translocase subunit SecA (Mesoplasma florum) [pid:69.1%25%2C q_cov:100.0%25%2C s_cov:75.5%25%2C Eval:1.9e-286],internal stop codon at [154199:154201](+),MGA_227
sequence1	MetaGeneAnnotator	CDS	154316	155068	.	+	0	ID=MGA_228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINIATEAVDRLYQSFNGEGSVENSSRSKIDLGSLGSDDISIQVAPQPQPKEQVINVTEQDIDNILTEIGIKPEDFSRPNVEKRFAELKEEFKDDSQKMKKLDVQQHIISGLMDKLDEVVDQKRRQALELTQDGIDKIVEKFGLKGKLFTTQEVKEAFERLLPEQNTEELKNQLDVEANILNAIAEAIERKAEEDKNVGDNKNEDKSGEYVMKDKKGNVVKKIKTNPDGSINEDELEDTEQVQTKIKIG;locus_tag=LOCUS_02280;note=WP_011166299.1 preprotein translocase subunit SecA (Mycoplasma mycoides) [pid:25.0%25%2C q_cov:84.0%25%2C s_cov:20.0%25%2C Eval:2.2e-13%2C partial hit],internal stop codon at [154199:154201](+),MGA_228
sequence1	MetaGeneAnnotator	CDS	155127	155513	.	+	0	ID=MGA_229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANDLMIKENINNLFNSNLELMEFTKKITQQKNKIIIFLTLAIFLTLYSPIPTILIWFKSFEKVYINILISGLFLALTVFGVVLFIMSFLKYKAFKKVNIKTKLINILLKDNFLNNVYKSSFYKNIKN;locus_tag=LOCUS_02290;note=MGA_229
sequence1	MetaGeneAnnotator	CDS	156275	156901	.	+	0	ID=MGA_230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKERRNFELVTEYSPSGDQPRAIQGLLKGLENKRKHQVLLGATGTGKTFTMANIIKNINKQTLVLAHNKTLAMQLYIELKELFPNNRVEYFVSNFDFYQPEAYIPSRDLYIDKDAKRNNDLEMMRLSAKNALITRTDTIVVASVAAIYASQDPREYGEVFFELKVGQKISKKELLSFLVRTGYIRNDNALAMGEFSAKGDIIQIAPS;locus_tag=LOCUS_02300;note=WP_164919771.1 excinuclease ABC subunit UvrB (Mesoplasma florum) [pid:68.3%25%2C q_cov:97.1%25%2C s_cov:30.3%25%2C Eval:1.2e-74%2C partial hit],internal stop codon at [156899:156901](+)%2C[157040:157042](+),MGA_230
sequence1	MetaGeneAnnotator	CDS	157163	158257	.	+	0	ID=MGA_231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METLEEFGVCSGIENYSAHLDFRPPGVTPFTLLDYFEKDFLTIIDESHMMIPQVRGMFNTDRSRKETLVEHGFRLPSALDNRPLNFEEFVKKLNNVIYTSATPGDYELELANHEYVEQIIRPTGLIDPIITVLPTTNQIEVIIDNINKVVEKKQKVFITALTIKQSEDITSFLQGRNIRVAYLHSELKTLERNEVLSDLRKGVYDVIVGVNLLREGLDIPEVSLVCILEADKQGFLRNTRSLIQTVGRAARNVDGRVIFFANSISQAMKEAMEETERRRNIQIAYNKEHNITPKTIIKKISDFGIMDSKIRSEIDKINKSKKDKAKQKEKLIEGIRKEMLQAAKEQNYEKAAELRDIILEIQSD;locus_tag=LOCUS_02310;note=WP_164919771.1 excinuclease ABC subunit UvrB (Mesoplasma florum) [pid:68.5%25%2C q_cov:99.7%25%2C s_cov:54.6%25%2C Eval:6.2e-141%2C partial hit],internal stop codon at [156899:156901](+)%2C[157040:157042](+),MGA_231
sequence1	MetaGeneAnnotator	CDS	158268	159245	.	+	0	ID=MGA_232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLDKIIVKGARENNLKNVDITIPKNKLIVFTGLSGSGKSSLAFNTIYAEGERRYIESLSSFSRQFLKSTEKPDVDDIEGLSPAISIDQKTTSHNPRSTVGTTTEIHDHLRLLYANVGTPYCINGHGPIKSQSLKEIINSIKKMTSDNEQIYILSPVVRDKKGTHKDLFSRLQREGFIRVQVNGEIKTLDEEIELEQNKRHDIDIVVDRLVYKVEDEDLQSRLYSAIEIGLTYSNGIIKINYPNKNNETKLYSTKYSCSECGFMIPNLEPNLFSFNKKVGACETCSGLGINLEADPSLIIPDTSLSIKQGGILYYKNLVGTQNLE;locus_tag=LOCUS_02320;note=WP_011182956.1 excinuclease ABC subunit UvrA (Mesoplasma florum) [pid:70.9%25%2C q_cov:99.1%25%2C s_cov:33.9%25%2C Eval:4.6e-132%2C partial hit],internal stop codon at [159243:159245](+),MGA_232
sequence1	MetaGeneAnnotator	CDS	159261	159956	.	+	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCDYYLIDMDMPISSLRQKQVDVILYGSDEPLEVTLNSTSGNVFNKMNYTEGLANLIERRYLTTKSEDNRKFYGKFMSSRVCKTCNGKRLNELALSVKLNGLSIADFVELTIENELNFLLNLELTDQQKQIASLVLNQLLSRISFLNEVGLNYLTLARSATTLSGGESQRIRLAKQLGSKLSGVLYVLDEPSIGLHQKDNDKLIATLKKLRDLGNTLIVVEHDEDTMKHSD;locus_tag=LOCUS_02330;note=WP_011167092.1 excinuclease ABC subunit UvrA (Mycoplasma mycoides) [pid:62.3%25%2C q_cov:100.0%25%2C s_cov:24.4%25%2C Eval:1.2e-79%2C partial hit],internal stop codon at [159243:159245](+)%2C[159954:159956](+),MGA_233
sequence1	MetaGeneAnnotator	CDS	160233	160640	.	+	0	ID=MGA_234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEIIYKGLRKEVAKELIHPGKYKKMKGTENIDKIIYVSQDPIGKTPRSNPATYTSVFDDIRDLFAETPEAKMRGYKKGRFSFNVPGGRCDACQGDGVVRVDMQFLGYVEVICEVCEGRRYNEETLQVKYKSKNV;locus_tag=LOCUS_02340;note=WP_011182956.1 excinuclease ABC subunit UvrA (Mesoplasma florum) [pid:70.4%25%2C q_cov:100.0%25%2C s_cov:14.2%25%2C Eval:6.3e-56%2C partial hit],internal stop codon at [159954:159956](+)%2C[160638:160640](+),MGA_234
sequence1	MetaGeneAnnotator	CDS	160653	161111	.	+	0	ID=MGA_235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVKEAADFFENIPKIKEKLDTILAVGLGYIKLGQNATTLSGGEAQRVKLSTFLLKKSTGQTLFLLDEPTTGLHVDDVNRLIKVLNILVDQGNTVLTIEHNLDFIKVSDYLIDLGPDGGMAGGEILATGTPEQVVLAQNSYTAKYLREYLND;locus_tag=LOCUS_02350;note=WP_011167092.1 excinuclease ABC subunit UvrA (Mycoplasma mycoides) [pid:77.3%25%2C q_cov:98.7%25%2C s_cov:15.9%25%2C Eval:2.0e-62%2C partial hit],internal stop codon at [160638:160640](+),MGA_235
sequence1	MetaGeneAnnotator	CDS	161104	161358	.	+	0	ID=MGA_236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINVEEEIVPMSLFFKKQYNLKKLLAEQKNPQNNFKVISVVGTNGKGSTSNYIYKNLYKNNKSVGLFFSPAFIYHNERIQVNNQ;locus_tag=LOCUS_02360;note=WP_011182957.1 Mur ligase family protein (Mesoplasma florum) [pid:48.8%25%2C q_cov:100.0%25%2C s_cov:22.8%25%2C Eval:8.9e-18%2C partial hit],internal stop codon at [161356:161358](+)%2C[161440:161442](+),MGA_236
sequence1	MetaGeneAnnotator	CDS	161515	162054	.	+	0	ID=MGA_237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDATSLFENQIAVCLTSIGFDHTDVLGNKIENIIENKIKIVKNNNKIYTTINNYKYDDIFKSFVSNEIIYCEPTNNLTYQKYNQGIAKEVLKLFNIQFDANTNVPLGRQSVLKEDPNFIIDGCHNFNGAEELVKSIKDLDKYTILFASSKGRENSEMVAFLKSKCKEFYVTTFDHFKA;locus_tag=LOCUS_02370;note=WP_001108346.1 folylpolyglutamate synthase/dihydrofolate synthase family protein (Staphylococcus) [pid:26.1%25%2C q_cov:98.9%25%2C s_cov:51.5%25%2C Eval:1.1e-08%2C partial hit],internal stop codon at [161356:161358](+)%2C[161440:161442](+),MGA_237
sequence1	MetaGeneAnnotator	CDS	162195	162413	.	+	0	ID=MGA_238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNYYIITNVIGFLGVAALFVGALALEKFTFKKISVRHITVMATFGASSVVLTNLVGYNIPILGNVRLAFGD;locus_tag=LOCUS_02380;note=MGA_238
sequence1	MetaGeneAnnotator	CDS	162432	162593	.	+	0	ID=MGA_239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMFGPLCGVISAIAIDTVGNLIPNAFGYHSGYMMNKSILGICGALVFISKKDN;locus_tag=LOCUS_02390;note=WP_011182958.1 folate family ECF transporter S component (Mesoplasma florum) [pid:45.3%25%2C q_cov:100.0%25%2C s_cov:23.7%25%2C Eval:4.8e-08%2C partial hit],internal stop codon at [162411:162413](+)%2C[162591:162593](+)%2C[162663:162665](+)%2C[162675:162677](+)%2C[162693:162695](+),MGA_239
sequence1	MetaGeneAnnotator	CDS	162859	163065	.	+	0	ID=MGA_240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNGYAIIFFTKVDIIIKEKRIWLMKFKKSYFENSYCKNAYNSAQIEGNKLSAVVFEKIIFHFDEKEI;locus_tag=LOCUS_02400;note=MGA_240
sequence1	MetaGeneAnnotator	CDS	163159	163773	.	+	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKTIQNNSHDRLDKNLIKEFHLILMELVSNFEKENKGNFRKANVHISNTCVKNSFPEYIEKDLETVIDIFYEMRKKVKDLESKIQALAFLHCGFEIIHPFADGNGRVGRMILTLEALKMGLPPISIDFKNRILYYLALQKSSGTSNPISNSVIERINIDNLITMQSLLYKSIRKELKLNEDSDDEKGYMEFKKVEPHDFKKEN;locus_tag=LOCUS_02410;note=WP_011948617.1 Fic family protein (Clostridium botulinum) [pid:34.3%25%2C q_cov:68.1%25%2C s_cov:57.5%25%2C Eval:3.4e-13%2C partial hit],MGA_241
sequence1	MetaGeneAnnotator	CDS	163935	164867	.	+	0	ID=MGA_242;product=HPr(Ser) kinase/phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182959.1;translation=MRKITVRKVAAKLNLVVLAGESGLDNFIQVYGLNRAGLELTGNFEEGEKAHRLILMSTKEYNYIMKFSDEERKVRYEKLLNKHIPGVILTKKFDDPIFVQVGHCLGIPILQTQAESTSDFSKDVLDLLDDYFAPTTELHASFINIFGQGTLLTGESGIGKSELALELVKANHLFVGDDRIVVTKKAGALYGKSHPILKNLVEVRGIGIIDVAKTNGYKVIMEQSTVDLIIELSIFKKDGVDDSERLGHDFNTKNILGMEIPYIKIPVSSGRNIQNIVETAVSKLKIKNSGLYKDDADLLTERMRDFSDDE;locus_tag=LOCUS_02420;gene=hprK;note=WP_011182959.1 HPr(Ser) kinase/phosphatase (Mesoplasma florum) [pid:46.1%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:3.8e-80],MGA_242
sequence1	MetaGeneAnnotator	CDS	165142	165288	.	+	0	ID=MGA_243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFFGAFLCGFVGGFAFLYAKRHNKKISIYAYADCIVPNVLLGQAIGR;locus_tag=LOCUS_02430;note=WP_011167088.1 prolipoprotein diacylglyceryl transferase (Mycoplasma mycoides) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:9.1%25%2C Eval:4.9e-08%2C partial hit],internal stop codon at [165130:165132](+)%2C[165286:165288](+)%2C[165346:165348](+)%2C[165358:165360](+)%2C[165364:165366](+)%2C[165472:165474](+),MGA_243
sequence1	MetaGeneAnnotator	CDS	166220	167155	.	+	0	ID=MGA_244;product=thioredoxin-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182961.1;translation=MKNPINNDYDVIIAGAGPAGLTASIYAVRSGMKAVVLEKELPGGKVGKTGEIENYPGFDKIEGPELAFKFVDQAIKLGANIEYSGLKSYKKEGNSFIVQLTNGKTITGTTLILATGTKERLLNVPGEKELYGKGVSYCAVCDGANFKNEVVAVVGGGYSAVEESIFLSRLVSKVHLIHRSQKFRVDQKLLDKLKANEKVELHLDSVVKSINGQNSVEGVTIQSLLDNSEKSIGIKAIFPFIGQNPVTEFIEQTTILDENKHIVGDENMKTTIEGLFVAGDVRRSPLKQIATAVSDGALAGQNAVKYIENLD;locus_tag=LOCUS_02440;gene=trxB;EC_number=1.8.1.9;note=WP_011182961.1 thioredoxin-disulfide reductase (Mesoplasma florum) [pid:50.5%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:2.1e-83],MGA_244
sequence1	MetaGeneAnnotator	CDS	168272	168676	.	+	0	ID=MGA_245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKPELSLALVAITGIVGVIIMIYAQFIGPYLFRTPGYIYEKPYFFTREVLEKDNKIADRKIKNSVVKMSEQLAIEAERKQQAKVQTQMKNQDSKKREVNKSTYVKHPSRRMQIQSKRAKHQNIKTQGLNRKKK;locus_tag=LOCUS_02450;note=MGA_245
sequence1	MetaGeneAnnotator	CDS	168702	169652	.	+	0	ID=MGA_246;product=DNA-binding protein WhiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182963.1;translation=MSFATTVKEEILDHNFDKEQAIMLLSGFIKYNGELIYTLSGFSLRLHSKSNHVIRKIYELLKIVYSGNIEISIIQTQILKKDKVYQLLLTDNVIHFLSKYNLYDIDKSAKIIKISLNEDFDNSLVRAYISGVFIAVGSVNNPDTVNYHLELQFKEEESAIYIRDLLNKFEFGFKVITRKSNYICYVKRCLVVSDFLKFIDAPEAVLKFENTRISRDFTNNVNRINNIDVYNIKKTSKTSDKQISQIEAIQKNNLFSELSDKAQKLANIRLVHPDASFSRLEELMNDEGISITKSGISNLFKIIAKLSESIGEIYEK;locus_tag=LOCUS_02460;gene=whiA;note=WP_011182963.1 DNA-binding protein WhiA (Mesoplasma florum) [pid:51.6%25%2C q_cov:97.2%25%2C s_cov:98.4%25%2C Eval:3.2e-82],MGA_246
sequence1	MetaGeneAnnotator	CDS	169642	169872	.	+	0	ID=MGA_247;product=helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183353.1;translation=MKSNDVIAIFSQNMKELRVQKGLTQEELSFKAGIHRNYISDTERGRRNVSLKAVEKIAAGLGVTIQELFNNSTITK;locus_tag=LOCUS_02470;note=WP_011183353.1 helix-turn-helix transcriptional regulator (Mesoplasma florum) [pid:53.8%25%2C q_cov:85.5%25%2C s_cov:86.7%25%2C Eval:2.0e-14],MGA_247
sequence1	MetaGeneAnnotator	CDS	169908	170696	.	-	0	ID=MGA_248;product=pyrroline-5-carboxylate reductase dimerization domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182942.1;translation=MKKILMIGTGHMGEAILKALSIKLEKTKYKMFILNRNEQKSQNLANLYKCNYLDYKQVINFNQFDIFILGFRPSDAKNFFKTFKLNDQKNKLIISMLNAYTIDTIKLNFENNINIVRIMPNMNASECKSSTGYVTYGVNKNLINIGIDIIKYFGKAYELEESNFSGFVALTGCAPAFIYEFINGFKEFAKECGYDLKQANEFIKDTIVATTNFALSEEYKLDDLINKIIVPGGPTEAGHNVLIHNNFKDILIKCFEASKEKS;locus_tag=LOCUS_02480;note=WP_011182942.1 pyrroline-5-carboxylate reductase dimerization domain-containing protein (Mesoplasma florum) [pid:28.7%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:2.1e-30],MGA_248
sequence1	MetaGeneAnnotator	CDS	170740	170943	.	-	0	ID=MGA_249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFNYNYYKKLEKHKKILLINSNYRSDLNIYRTLKSKGFKTYILYSNYADLIINPEIDEMTKIMIYD;locus_tag=LOCUS_02490;note=MGA_249
sequence1	MetaGeneAnnotator	CDS	171217	171981	.	+	0	ID=MGA_250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNNIIKPFRLKKGDSIAIVSLSNGILGEDFCKYQLEIGTKRLEEFGLKVKFMNNTLKGEEYIKSNPQKRAEDLKQAFLDKDVKIIMSAIGGDDSYKIIPYLMNDEFKSIVQNNPKIFIGYSDTTNIHLFLTKLGVSTIYGHAFLTDIAELDTRMLEYTKKSFLSLFENFESYEILSSNTWFEERKSFDKSEYKQPRVEHIEKVGYEFINFKKPLEGILYGGCLESFYSIFTSDRYNDQTEVFEKYNILPTLDE;locus_tag=LOCUS_02500;note=WP_003592702.1 LD-carboxypeptidase (Lacticaseibacillus paracasei) [pid:47.8%25%2C q_cov:96.9%25%2C s_cov:69.0%25%2C Eval:2.4e-60%2C partial hit],internal stop codon at [171979:171981](+),MGA_250
sequence1	MetaGeneAnnotator	CDS	172045	172302	.	+	0	ID=MGA_251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKEFEKRDILKNVKCLILGKPQDNIYYDEYKKILLKYSQKYNLPIVLNINFGHSYPKNIIPYAINVKLDNYSKIIKAIERILKS;locus_tag=LOCUS_02510;note=WP_003592702.1 LD-carboxypeptidase (Lacticaseibacillus paracasei) [pid:39.1%25%2C q_cov:81.2%25%2C s_cov:19.3%25%2C Eval:7.7e-14%2C partial hit],internal stop codon at [171979:171981](+),MGA_251
sequence1	MetaGeneAnnotator	CDS	172509	172715	.	+	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFELNQIKYLIIVHVLFFASGFFAIIFASIIHRRLAARKEGKIVYTKGIFVMTIISIFLCFGILYFAY;locus_tag=LOCUS_02520;note=MGA_252
sequence1	MetaGeneAnnotator	CDS	172910	173095	.	+	0	ID=MGA_253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLGFLSAVLVSTQVSAATIGCSPVNSHRNKPVDFQNPDADGGTNDSTASNLMSTRKMN;locus_tag=LOCUS_02530;note=MGA_253
sequence1	MetaGeneAnnotator	CDS	173150	173443	.	+	0	ID=MGA_254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLNGKSISSRSLVNVAQAAVPDSDKQISTLATRDLVSNRLANKTLSFNPYTDIGIVEDSTEYLLKNKGLGSSYRDDVKFEKNADLVNNKYNDLGYL;locus_tag=LOCUS_02540;note=MGA_254
sequence1	MetaGeneAnnotator	CDS	174314	174601	.	+	0	ID=MGA_255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYLTRDYPSLFESNGLNEDALADKNPIDQNIRSGSGYEKFTYAKVLTGKLSGTSIPEEATGENVKSLSGFMDYDRDIRQNTSLDEIQKQQGASG;locus_tag=LOCUS_02550;note=MGA_255
sequence1	MetaGeneAnnotator	CDS	174830	174961	.	+	0	ID=MGA_256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDIVKQTGLNHLTLAFVQQVNAHNNNIDLSVAGIENKGEGYN;locus_tag=LOCUS_02560;note=MGA_256
sequence1	MetaGeneAnnotator	CDS	175382	175702	.	+	0	ID=MGA_257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTFVKAYKEAGLSYNEVPVVNLMLMDYGDPIYIAAKNAGKTNYDLAVEAIENTKENLAKSILNNYKKSSINNGEVYNLIGATPMIGVNDTVAGVFTLEDAKDLYN;locus_tag=LOCUS_02570;note=MGA_257
sequence1	MetaGeneAnnotator	CDS	176358	176579	.	+	0	ID=MGA_258;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMLEMFASSSERLLGNRVIFAFEILALIISVMMITIGMIQNKTSQTGLSALNGGNDELFSNSKERGLDKTLSI;locus_tag=LOCUS_02580;note=WP_011182965.1 preprotein translocase subunit SecG (Mesoplasma) [pid:76.4%25%2C q_cov:75.3%25%2C s_cov:62.5%25%2C Eval:4.4e-17%2C partial hit],internal stop codon at [176577:176579](+),MGA_258
sequence1	MetaGeneAnnotator	CDS	176708	176845	.	+	0	ID=MGA_259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDQVLAIIKEKEILHLNDIIKLINVDQELITNSLKELQYDYKIG;locus_tag=LOCUS_02590;note=MGA_259
sequence1	MetaGeneAnnotator	CDS	177173	178126	.	+	0	ID=MGA_260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNAKDFQLKKDLIIKVKILYVKEKKLFTKIQKVIGDANKAVDRIISIAYEFDINPDFNRQTLDNAELVAKPIDYNDPKVSRRKNLITNKNLVTIDGVDSKDLDDAIYVEKTNYGYKLFVAIADVSYYVKPFSPLDNSALFRGNSVYLANKVIPMLPEKLSNGVCSLNPNEDKLCMVSEMDFDNNGKMKSKKVYESIMNSKARLTYSEVNELYEKNISSRSQEIIDMLFIAKELHELIDKERTSRGSIEFDVPEPKIILDKDSNVIDILARDRGISEKLIENFMVSANESVAEIIFEKNLPYVYRDHGVPKEENLIE;locus_tag=LOCUS_02600;note=WP_011183106.1 ribonuclease R (Mesoplasma florum) [pid:54.4%25%2C q_cov:99.7%25%2C s_cov:45.2%25%2C Eval:7.8e-89%2C partial hit],internal stop codon at [178124:178126](+),MGA_260
sequence1	MetaGeneAnnotator	CDS	178202	178801	.	+	0	ID=MGA_261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALDQISSQVKDQTERDVINVTLLKYMEKAIYNLENIGHFGLASECYTHFTSPIRRYSDLMVHRFLKQYLIDKDYNEHKLQLNEKFIVKACSIINDTEKRAVNAEREVNKVCMAEYMTKHIDQEYEGVIAAVLKFGLFVQLPNCVEGLIHISELPDFKFDEKTNILINNQNKIFRLGQKVKIKVKNADVKKRIIDFVLV;locus_tag=LOCUS_02610;note=WP_011183106.1 ribonuclease R (Mesoplasma florum) [pid:60.6%25%2C q_cov:99.0%25%2C s_cov:28.1%25%2C Eval:1.0e-64%2C partial hit],internal stop codon at [178124:178126](+),MGA_261
sequence1	MetaGeneAnnotator	CDS	179002	179268	.	+	0	ID=MGA_262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKKYEYAHYVNQDSIRNRKLLLHKQEIKKILKRIQLENLTLVPLKLYFKGNYAKLEIGLGKGKKLVDKRETIKKRDVERRLKKIKQ;locus_tag=LOCUS_02620;note=WP_011183107.1 SsrA-binding protein SmpB (Mesoplasma florum) [pid:67.0%25%2C q_cov:97.7%25%2C s_cov:59.1%25%2C Eval:6.0e-27%2C partial hit],internal stop codon at [178888:178890](+),MGA_262
sequence1	MetaGeneAnnotator	CDS	179279	179443	.	+	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELTHQRIIYLAVAVSFLILMIILMTIKLILDKRNRNLGKITLKEINYTGLAGV;locus_tag=LOCUS_02630;note=MGA_263
sequence1	MetaGeneAnnotator	CDS	179694	179927	.	-	0	ID=MGA_264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATETANNMGKFPNATSPIVFITLPKYQKPEYSVVCATIVAPIPKKTPAIGNKAIGNKNALLNLESVAPLDCLNFFQ;locus_tag=LOCUS_02640;note=MGA_264
sequence1	MetaGeneAnnotator	CDS	179863	180036	.	+	0	ID=MGA_265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTMGDVAFGNLPILFAVSVAIAYTEDSGVAAITAIVGFLVMNGIQAALLKENHEAI;locus_tag=LOCUS_02650;note=WP_011183111.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:78.0%25%2C q_cov:87.7%25%2C s_cov:7.1%25%2C Eval:5.6e-17%2C partial hit],internal stop codon at [179845:179847](+)%2C[180187:180189](+)%2C[180190:180192](+),MGA_265
sequence1	MetaGeneAnnotator	CDS	180766	180918	.	+	0	ID=MGA_266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGINPDFASSNAPLLNFKDLEKMGLNLGRFQSGKFGFMLFGLPAAGLAM;locus_tag=LOCUS_02660;note=WP_020862982.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:80.6%25%2C q_cov:72.0%25%2C s_cov:4.8%25%2C Eval:1.1e-10%2C partial hit],internal stop codon at [180559:180561](+)%2C[180622:180624](+)%2C[180733:180735](+)%2C[180916:180918](+)%2C[181039:181041](+),MGA_266
sequence1	MetaGeneAnnotator	CDS	181060	181659	.	+	0	ID=MGA_267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLASIAFLLAGLLHVHVTMTVSGGFIDYIVFGLIPLNLKTNALYAILIALVMAPVYFFAFFFAVKYGKVQVPGRSGEVKLFTKADVKAKKAGSTGEATKEAAREKATKIIEFLGGEANIKAVDSCASRLRLTVVDASVVDKQGIMALGGASGIVAKGTSVQVVYGGEQEVIKPYMREVLAEQRKEGPKDTDTVEKTIK;locus_tag=LOCUS_02670;note=WP_011183111.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:56.5%25%2C q_cov:93.0%25%2C s_cov:29.2%25%2C Eval:9.1e-53%2C partial hit],internal stop codon at [180916:180918](+)%2C[181039:181041](+),MGA_267
sequence1	MetaGeneAnnotator	CDS	181794	182351	.	+	0	ID=MGA_268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNGRKIVLVGCGAVGTSFVYSAINQGLAQHYVLIDVVKDFAEGNEMDLTDTHAVLPTPFATIKAGDYSDCGDADIVVITAGRPQKPGETRLQMVADNAKIMKQVALGIKGSGFSGITIIASNPVDILTQVYQEVTGYDSSKVISSGTTLDSSRLRKLLGAKLDVSPRSVKAYLIGEHGDSSVAI;locus_tag=LOCUS_02680;note=WP_011166714.1 L-lactate dehydrogenase (Mycoplasma mycoides) [pid:69.4%25%2C q_cov:97.3%25%2C s_cov:56.6%25%2C Eval:7.8e-69%2C partial hit],internal stop codon at [182349:182351](+),MGA_268
sequence1	MetaGeneAnnotator	CDS	182367	182657	.	+	0	ID=MGA_269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKTIAEYIQEGVVTEAELEQVKDDATHMAYKIIEKKRATFYGIGACLAKIVKAVLNDEKASMMVGAYLTGQYGVEDVYISVPCIVGAKGIEQIIE;locus_tag=LOCUS_02690;note=WP_011166714.1 L-lactate dehydrogenase (Mycoplasma mycoides) [pid:56.2%25%2C q_cov:100.0%25%2C s_cov:30.2%25%2C Eval:2.6e-25%2C partial hit],internal stop codon at [182349:182351](+)%2C[182655:182657](+),MGA_269
sequence1	MetaGeneAnnotator	CDS	183046	183555	.	+	0	ID=MGA_270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTLGILSLLAGIISCIMFYKSKKDFYIVLFLTLSIVGTVFIFAINEILNIEYKKIMKYSRLGVTLVVCGLITGIYCKSILEKNKENLDSNITFDQKNAIFFKYGAICGIISILISLIIAGINFYEKNFRFEFLGYDFTNIIIYINGITMALAILNLLFFILYLTTKKR;locus_tag=LOCUS_02700;note=MGA_270
sequence1	MetaGeneAnnotator	CDS	183836	183991	.	+	0	ID=MGA_271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANHKGNKSTILDLNAKKDHVNKHFNEHISYKELSMIYNISYSAARRMCID;locus_tag=LOCUS_02710;note=MGA_271
sequence1	MetaGeneAnnotator	CDS	184324	184557	.	+	0	ID=MGA_272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLALKIKNIFTNNNGIYGSPRIRIILNNQGLEVSQTKVARIMKIFKLYSIIRVKKMYRKPKEIKTITHGPNYVNRN;locus_tag=LOCUS_02720;note=MGA_272
sequence1	MetaGeneAnnotator	CDS	184609	184914	.	+	0	ID=MGA_273;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKFAYLSIIKDANTGFIVGHKLSLKNDVELYRKTLEKASFYRNDLSKKLIIHSDNVNQYTSIFAKKYAKRNNIIISLSRPGNSIDNAMCETFFSSLKEE;locus_tag=LOCUS_02730;note=MGA_273
sequence1	MetaGeneAnnotator	CDS	185070	185321	.	-	0	ID=MGA_274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFSPDQNLIQQIIKYTPNVININKALTTFIAYLFQYPAFIYIYLLSKKYYHKYKNLNKKVLIYLLKYTLSSIHNVFYKNVST;locus_tag=LOCUS_02740;note=MGA_274
sequence1	MetaGeneAnnotator	CDS	185320	185481	.	+	0	ID=MGA_275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMYAASVSYSDSSAMGKLFLCRILEALFCILFIPLIINFITIIMKKGTFAER;locus_tag=LOCUS_02750;note=MGA_275
sequence1	Aragorn:1.2.38	tmRNA	185590	186005	.	+	.	ID=Aragorn_1;product=transfer-messenger RNA;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_tm00010;note=Aragorn_1
sequence1	MetaGeneAnnotator	CDS	186945	187988	.	+	0	ID=MGA_276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEMQNSVKEEQRLKFAEKISRSISKIQTTFKIENFKVSIKVRGVVSYYGFHSNSLETLFEYNVITQNNAAFSDREKVVLVDPRKVLKEKTKYKKILTLNELVSLNNSAPIFESIYSIEKNDYESFYLNSAVEGIEITSNLFKEKLETIKEYGLNSIFIRYLALNALKSIAKYKSYKKRNFIEYDPLFISSESFSVDSFILKLKSLKIDLKKLVFNFPITQEVENRDLLEKNINELRENGVSFSVSDLGSEATDFGLLGIYRPNYVFLERSIVKKINLIKENEKIIKNIINICNKINAKLVATDVDTYMIYKSLKELGIKYFEGNLIGHGIEPKMELENELKYLLVK;locus_tag=LOCUS_02760;note=MGA_276
sequence1	MetaGeneAnnotator	CDS	187999	188454	.	+	0	ID=MGA_277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEQNIVPEQLAERLNEILKADDIILYRETLKNYYPADLAEALSCLPLERIIIALRIMPTEDLAEIFPHFNNEIQEEIIESYTSVEIKELFDQIFTDDIVEILEELPSNIVEKILRATTPESRLLINSILKYNVNTAGSIMSVDYTSLKIN;locus_tag=LOCUS_02770;note=WP_011166369.1 magnesium transporter (Mycoplasma mycoides) [pid:29.8%25%2C q_cov:93.4%25%2C s_cov:30.2%25%2C Eval:6.9e-15%2C partial hit],internal stop codon at [188452:188454](+),MGA_277
sequence1	MetaGeneAnnotator	CDS	188611	188871	.	+	0	ID=MGA_278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDRYIYANTKTDQEEVANMFKKYDITTLPIINSQNKLVGIITVDDILDVLEEEATEDIHIMAGINPTEDEYFKTSVFKMVKSRII;locus_tag=LOCUS_02780;note=WP_011183114.1 magnesium transporter (Mesoplasma florum) [pid:59.1%25%2C q_cov:100.0%25%2C s_cov:18.8%25%2C Eval:1.8e-23%2C partial hit],internal stop codon at [188452:188454](+)%2C[188869:188871](+)%2C[189124:189126](+)%2C[189136:189138](+),MGA_278
sequence1	MetaGeneAnnotator	CDS	188884	189126	.	+	0	ID=MGA_279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSATITQVIILVFMNLYGVTKETASFDIGNNNFSISYVMAILLTPLLTVISGTTGNASNQSSTMIVRALSLKEVEPKDY;locus_tag=LOCUS_02790;note=MGA_279
sequence1	MetaGeneAnnotator	CDS	189199	189459	.	+	0	ID=MGA_280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAIYAVEFKGNINQRELWYAIATLSISMFLAIVFSKVIGATFPLLAQKMKIDPAITAGPLLTTIIDAISTAIFFGIGMIFFFVVL;locus_tag=LOCUS_02800;note=WP_011986205.1 magnesium transporter (Clostridium botulinum) [pid:48.9%25%2C q_cov:54.7%25%2C s_cov:10.6%25%2C Eval:7.5e-09%2C partial hit],internal stop codon at [189124:189126](+)%2C[189136:189138](+),MGA_280
sequence1	MetaGeneAnnotator	CDS	189532	189837	.	+	0	ID=MGA_281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKTENKVMVENLFEKTQKTYLEIGCGKGQFIIKNAIKYENQNYIAMEKETTVIGIAIKKAIETFKGHPKNLKFLNCYAEKLLDIFLENTFDGIYLNFSDP;locus_tag=LOCUS_02810;note=WP_011183115.1 tRNA (guanosine(46)-N7)-methyltransferase TrmB (Mesoplasma florum) [pid:50.5%25%2C q_cov:96.0%25%2C s_cov:45.3%25%2C Eval:6.4e-21%2C partial hit],internal stop codon at [189496:189498](+)%2C[189835:189837](+),MGA_281
sequence1	MetaGeneAnnotator	CDS	190126	190281	.	-	0	ID=MGA_282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYNLVYFYIFFNINSYLLNNNDKFKKNYINFYKKSKEQIENKKSDNIKNE;locus_tag=LOCUS_02820;note=MGA_282
sequence1	MetaGeneAnnotator	CDS	190297	190533	.	-	0	ID=MGA_283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYFISIVLNFSKTSVTLFNDIHTTTNLETNVISVEVKSSRYIHIFIIFFAVICFFIHLTSGAQIQKLKWADYASGYW;locus_tag=LOCUS_02830;note=MGA_283
sequence1	MetaGeneAnnotator	CDS	190815	191525	.	+	0	ID=MGA_284;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183561.1;translation=MTPHISAKKNEIAKVVLMPGDPLRAKMIAEKYLENYKLVNKVRNMFMYTGEYKGIEVTVAGSGMGCPSIGIYSYELFNFYDVDYIIRVGSCGSYRKEIKVYDIYNVKEAYGDSNYAKIAANIDEKVIPAGNKIYEIIQKTAAEKKISMHTGRIYSSDVFYTYETKENFAEDNNLDVVEMESFALFANAIHAKKQAGCLLTVSDSLITEEKTTAEERQNNFLSMIELALDSVLKITD;locus_tag=LOCUS_02840;gene=deoD;EC_number=2.4.2.1;note=WP_011183561.1 purine-nucleoside phosphorylase (Mesoplasma florum) [pid:73.8%25%2C q_cov:98.7%25%2C s_cov:99.1%25%2C Eval:2.0e-98],MGA_284
sequence1	MetaGeneAnnotator	CDS	191553	192500	.	+	0	ID=MGA_285;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166293.1;translation=MNILAIESSCDEFSIAIMIDGKIKANIISSQIKDHTKYGGVIPELASRLHVKNFSYVLKEALYVANLKIEEINQIAYTANPGLIGSLIIGKMVAETLALYLDIPIMGLNHIQGHIYGAAIEEDFKYPVLALVVSGGHTQIVYLKESLNFEIIGTTQDDAIGECYDKVARAIGLGYPGGPKIDKLAQNGNENFYKFPIVKNDESLDFSYSGLKTASLNLINKLKQNKEEINLENFCASFQKSAIDNLMIKFEKAIKKFFPATITIAGGVSSNKMLRKKIFSISSMYNIDRTIVPKLQYCTDNAAMIAKLCNEYLIK;locus_tag=LOCUS_02850;gene=tsaD;EC_number=2.3.1.234;note=WP_011166293.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Mycoplasma mycoides) [pid:62.7%25%2C q_cov:99.7%25%2C s_cov:98.4%25%2C Eval:8.5e-112],MGA_285
sequence1	MetaGeneAnnotator	CDS	192534	193319	.	+	0	ID=MGA_286;product=MurR/RpiR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183381.1;translation=MRSFLSKLTTIDEKDLTIKEKKIVDYIKNHLKEIVETNMKIERMAQEAGTGYSAIYGLLKKLNIKGFRDFAILLANDAENQEINIAKNDENVVYGYINLIKQNYALIEKRSIFETLNVIRDVSNARVFFCYWENLLSGPAQELFNFFYKEGYNAILLDSDQEILKDRINSSVENDVFVFFTRYGNSSRLNSFIESIGELKRKIVYVSGKVASNNITQYLTSIHTLIVDNPDQKVFKGHISQSVPFNYFNDLLIYHYLNSEG;locus_tag=LOCUS_02860;note=WP_011183381.1 MurR/RpiR family transcriptional regulator (Mesoplasma florum) [pid:55.0%25%2C q_cov:99.6%25%2C s_cov:99.2%25%2C Eval:7.9e-78],MGA_286
sequence1	MetaGeneAnnotator	CDS	193852	194082	.	+	0	ID=MGA_287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRSSDITYRLYDFDRADQNGVKRELHIDDSLNNIKIPDSKDIIIRNAKDKVFESEYFSLFIYEKNSNFKIEENVE;locus_tag=LOCUS_02870;note=WP_011166679.1 class I mannose-6-phosphate isomerase (Mycoplasma mycoides) [pid:45.6%25%2C q_cov:100.0%25%2C s_cov:25.6%25%2C Eval:6.1e-11%2C partial hit],internal stop codon at [193654:193656](+)%2C[193750:193752](+)%2C[194080:194082](+)%2C[194209:194211](+),MGA_287
sequence1	MetaGeneAnnotator	CDS	194083	194211	.	+	0	ID=MGA_288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLMTIIEGNGKLNNIEVKESESLIYLVDEDLKMEGDLKILIS;locus_tag=LOCUS_02880;note=MGA_288
sequence1	MetaGeneAnnotator	CDS	194471	194701	.	+	0	ID=MGA_289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNISAYLYTPNKNSNKWVIASHWFGGYKNWSLHHAKVFTKMGYNIIAFDFRGHGDSQNIPTTMGLNEVYDLMGVFD;locus_tag=LOCUS_02890;note=WP_013448014.1 prolyl oligopeptidase family serine peptidase (Mycoplasma leachii) [pid:46.8%25%2C q_cov:100.0%25%2C s_cov:20.2%25%2C Eval:5.3e-15%2C partial hit],internal stop codon at [194699:194701](+),MGA_289
sequence1	MetaGeneAnnotator	CDS	194750	195256	.	+	0	ID=MGA_290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAFCSNFVALKYSDEFKQANLKYIVSDCAYGSVYRLLIHVRNIYLKLFISKKRVKKIIRKLIAKYNESEHNIDLRDASVFKLLREGYKPVFPTLFFHSKDDKVTPPTDTYEFIIERNKMAGDDYLIYSYSMHTQAIREHFKTYNFKIAKYISSMDKNRKDFYNVVDE;locus_tag=LOCUS_02900;note=MGA_290
sequence1	MetaGeneAnnotator	CDS	195316	196011	.	+	0	ID=MGA_291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLKDLFLNYQKHESQNVTFLGRVRSHRQGKAVSFLVLNDGTSLNDVQVVYKSEVEGFDKIKDARVSSIVEVYGEVIVTPRKPQPFEIQAKKLVLLDQAVEEYPLQKKEHSPEFLREIAHLRARTKTFQSIFRLRSSLAYAIHKFFQEQNYVYVNAPIITGNDAEGAGEAFVVTTREDGNYEEDFFGKKASLSVSGQLHGESYAQAFNKIYTFGPTFRAEDSNTSRHAAEF;locus_tag=LOCUS_02910;note=WP_011183378.1 asparagine--tRNA ligase (Mesoplasma florum) [pid:71.4%25%2C q_cov:100.0%25%2C s_cov:50.9%25%2C Eval:5.9e-92%2C partial hit],internal stop codon at [196009:196011](+),MGA_291
sequence1	MetaGeneAnnotator	CDS	196012	196536	.	+	0	ID=MGA_292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEPEIAFIDLQKNLEIIESMVKFVINYVMENNLDELKFCEKNLEFGLIEKLTKVRDAKFQVCTYEEVINTLKIAVDEGHVFENNDIKFGTDLGSEHEKYICEVVYKGPTFIINYPKDIKAFYMKQNDDNKTVAASDLIVPGIGELVGGSQREDDFEKLIRRCKDMGVNIEELD;locus_tag=LOCUS_02920;note=WP_011166290.1 asparagine--tRNA ligase (Mycoplasma mycoides) [pid:63.8%25%2C q_cov:100.0%25%2C s_cov:38.5%25%2C Eval:5.1e-64%2C partial hit],internal stop codon at [196009:196011](+)%2C[196534:196536](+),MGA_292
sequence1	MetaGeneAnnotator	CDS	196764	196928	.	+	0	ID=MGA_293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVSFVLVSEGSLSTIENSLNSILAQTIDDYEIVIVGDNNISDNSEDKELKKKF;locus_tag=LOCUS_02930;note=MGA_293
sequence1	MetaGeneAnnotator	CDS	196998	197438	.	+	0	ID=MGA_294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLVEGEYLKFIAANDSIEPNFVVVLKENLQKNSKDQIDLIEHLVELDGIGKGISTQNFLENQRIYNLENNYEPFAFLNPILFNKIFRTKLIHEFGFKFRRFVRFDMLFVYKFLGQTKKFLALNNLKMGTRFLEQSKHSAFDIVNQ;locus_tag=LOCUS_02940;note=WP_011183466.1 glycosyltransferase (Mesoplasma florum) [pid:34.9%25%2C q_cov:100.0%25%2C s_cov:44.8%25%2C Eval:1.1e-19%2C partial hit],internal stop codon at [196926:196928](+)%2C[196986:196988](+)%2C[197436:197438](+)%2C[197532:197534](+),MGA_294
sequence1	MetaGeneAnnotator	CDS	197571	197732	.	+	0	ID=MGA_295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAVSFAERKFSEKREDFIKNNEVFKLKRDEVFNNICEDFNKYLKDLLKTSK;locus_tag=LOCUS_02950;note=MGA_295
sequence1	MetaGeneAnnotator	CDS	197741	197905	.	+	0	ID=MGA_296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKEINAKNKYKEYTSSQEWNVPHLGRIFFARLFDIVLSSIPMIILFFTYKAEN;locus_tag=LOCUS_02960;note=MGA_296
sequence1	MetaGeneAnnotator	CDS	198212	198898	.	+	0	ID=MGA_297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYVCWYLYIIITISLQKQHQTGFDMKRKIFVKHKIKKLTELKKEKLINKKHTHLKDDRPGLINLNELDFLKEKYMNKFENSLRKINELVEKKYYTGAVFVVSKNKKVIFKDCIGINDTDINEPMKENLLFKAYSMTKPLTVVAFFILVQRGLISLETKLEDIYEDFKNIKVFKDHKTKETESIKNKITMKHLLTMTAGFTYHGMFNQTEKLTSVFLNNFEKNNEVGH;locus_tag=LOCUS_02970;note=WP_011183498.1 serine hydrolase domain-containing protein (Mesoplasma florum) [pid:38.7%25%2C q_cov:53.9%25%2C s_cov:28.7%25%2C Eval:7.3e-18%2C partial hit],internal stop codon at [198896:198898](+)%2C[198962:198964](+),MGA_297
sequence1	MetaGeneAnnotator	CDS	199067	199375	.	+	0	ID=MGA_298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDSAFNIFDRSREACVYNLTTENEINTLTKNNNFEFLFQDVHEQTPIALGGSGLITTANDYNVFLNFLLDGKDKNGNELLELRLINEISKDQIKELKKDFR;locus_tag=LOCUS_02980;note=WP_011167029.1 serine hydrolase domain-containing protein (Mycoplasma mycoides) [pid:42.6%25%2C q_cov:92.2%25%2C s_cov:29.0%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [198896:198898](+)%2C[198962:198964](+)%2C[199373:199375](+),MGA_298
sequence1	MetaGeneAnnotator	CDS	199630	200073	.	+	0	ID=MGA_299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHSFLEGLNDNQLESIITTDVPLRVIAGAGSGKTRVITNKIAYLVEQEQINPFKILAVTFTNKAANEMKNRIKKISHNKYTIPHIMTFHAFCVRVLREDYELLNLKKDFVIIDTSEQEKIIRKLLKTLNLDDSKNKPERKIISKISK;locus_tag=LOCUS_02990;note=WP_011183464.1 UvrD-helicase domain-containing protein (Mesoplasma florum) [pid:53.7%25%2C q_cov:98.6%25%2C s_cov:20.3%25%2C Eval:2.6e-37%2C partial hit],internal stop codon at [200071:200073](+)%2C[200092:200094](+)%2C[200257:200259](+)%2C[200332:200334](+),MGA_299
sequence1	MetaGeneAnnotator	CDS	200935	201786	.	+	0	ID=MGA_300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFELLTQREDLVAKISKHLGEITNVLRDCNQMFLDNKPVVEIASYAINKSGYKERLDLKDKDGVDSSENLNAYLDQMRRFDNDYEANESDGNRLIKFLQEETLNMTSEDIFETPNKVTLMTIHAAKGLENKVIFIVGLSSDVFPSRMSMYSKEGLEEERRTFYVAITRAQERLYISYVSGEYSYLANGEFGPSRFINELDPNLYSIEKSIFFHSSTEMSSKKYDSGVVETVPQKLDAGVKTGEIIEHLMFGEGVVNKIMDKYIQVSFSNPAYGTKLIPISSNS;locus_tag=LOCUS_03000;note=WP_011166937.1 UvrD-helicase domain-containing protein (Mycoplasma mycoides) [pid:39.3%25%2C q_cov:100.0%25%2C s_cov:38.6%25%2C Eval:3.3e-56%2C partial hit],internal stop codon at [200707:200709](+),MGA_300
sequence1	MetaGeneAnnotator	CDS	201858	202121	.	+	0	ID=MGA_301;product=HPr family phosphocarrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166936.1;translation=MTSFTAKVIDPVGLHARPASVLTKEASKYASDIKIICGEKEGNLKSIMNVMALAVKSGAEVTIQASGEDEKEAITAIEHAMRENSII;locus_tag=LOCUS_03010;note=WP_011166936.1 HPr family phosphocarrier protein (Mycoplasma mycoides) [pid:63.2%25%2C q_cov:100.0%25%2C s_cov:97.8%25%2C Eval:9.7e-25],MGA_301
sequence1	MetaGeneAnnotator	CDS	202300	202701	.	+	0	ID=MGA_302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIELKNVCRKLGNFSLKDVSFQIKKGAVVAFVGDNGAGKTTTIKAIFGELKIDSGEILMDGENLFSKNNLHRLAFFPDSNNIPLNIKVHDYMLYICAANGIPSSKAAKKIDDVYKLLELRPYKNKYIKQLSAG;locus_tag=LOCUS_03020;note=WP_011962829.1 ABC transporter ATP-binding protein (Flavobacterium psychrophilum) [pid:32.8%25%2C q_cov:100.0%25%2C s_cov:43.5%25%2C Eval:3.3e-17%2C partial hit],internal stop codon at [202699:202701](+),MGA_302
sequence1	MetaGeneAnnotator	CDS	202717	203040	.	+	0	ID=MGA_303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASVLIRRPEYIVFDEPTANVDVESKMYFMSILELLINQGITIMITSHIIEELQEVANYLVLIKKGEIVHASEFNNKTQHIMDVYKKYMKNPIKDLSILRKLYNKEL;locus_tag=LOCUS_03030;note=WP_010980558.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:32.8%25%2C q_cov:100.0%25%2C s_cov:37.6%25%2C Eval:5.1e-10%2C partial hit],MGA_303
sequence1	MetaGeneAnnotator	CDS	203042	203395	.	+	0	ID=MGA_304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKTFEQNQVQHNEKFRKPKVNTRVIFCINLKMTFKNPGVIVAFILHLLALIAILFVETSVGIQPQSIKDISTYKVLFYVLTTLSTIFFVMMLMLFLFKKQKKSGIHAIELRAGLAT;locus_tag=LOCUS_03040;note=MGA_304
sequence1	MetaGeneAnnotator	CDS	203489	203980	.	+	0	ID=MGA_305;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVSNELYLAFPYSQAAFNFFLAIIIILILLPLFIYSSTMVGTLLSTVLMFAFSLSPIFASIRYSFMGRDVQDDYALKFNAINDFYNATKNDQNVNKIFQDEAVSTTDSRSKLLTTIEKNFVGSSTSQFKSLAFPIPQNIKDYSNNLMRKSESEEQYPINPYE;locus_tag=LOCUS_03050;note=MGA_305
sequence1	MetaGeneAnnotator	CDS	204920	205210	.	+	0	ID=MGA_306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSGLLSNSSINDSYNNYSGAPIYQGQTSSIKNILDYEKYLPEYVDSYNVQKPYLEEGAVIYKNSFIIPLAYAMYLLIASPLAYLGYLAYRKKIRV;locus_tag=LOCUS_03060;note=MGA_306
sequence1	MetaGeneAnnotator	CDS	205222	205623	.	+	0	ID=MGA_307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEIKKITRDLGGFFLNQVSFTIKKGAVVAFVGDNGAGKTTTIKSLFGEIKLDSGEILIDGESLFINENLQRIAFFPDSNNVPMDMTLKDYVKYICAINAMSSKQTKERSKEVFEMLGLEKYINKKFRELSAG;locus_tag=LOCUS_03070;note=WP_010979801.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:35.3%25%2C q_cov:100.0%25%2C s_cov:45.6%25%2C Eval:8.1e-16%2C partial hit],internal stop codon at [205621:205623](+),MGA_307
sequence1	MetaGeneAnnotator	CDS	205639	205977	.	+	0	ID=MGA_308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASVLIRSPEFIVFDEPTANVDVEAKLSFMNILHELSKIGVTILITSHILEELQEVANYLVLIKNGEIVYEKDFDNQKESIAQIYKKLMAEKSDNIKLLSEIYSPIDQGGVK;locus_tag=LOCUS_03080;note=WP_010980558.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:33.3%25%2C q_cov:100.0%25%2C s_cov:39.7%25%2C Eval:1.6e-11%2C partial hit],internal stop codon at [205621:205623](+),MGA_308
sequence1	MetaGeneAnnotator	CDS	205977	206507	.	+	0	ID=MGA_309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEAKLVKNKSEKKPFKIMPRFEGKMLLFFITIRKSFSSKASKGTGITFLILSFIFTLITALTNKGFRVDQSISQISITIGYIFIIFFYLVFASIIVVSLFKVPILEGIQQIETRAGISLFKSFLIKYIAYITVTYIYLLINLIIAAILSTTFSNQPLSSALLIFSPVLFLMLFTLI;locus_tag=LOCUS_03090;note=MGA_309
sequence1	MetaGeneAnnotator	CDS	206550	207368	.	+	0	ID=MGA_310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTFGNIFLGAIVSLTPFINGMIGVNEDYDKVKYRAIIRSQIAKLSFANDFYKKFITDDKVKGIFEEDSDTDILKTIANNLEVVNLEDLALDNLETGLIKEAINSNSSESSRPNGNSDSNSQISFSYSTVVSKLIRALYAGQFNLELDSSIREYKNHLDDIEEKIINSNPNNSGSFNEYSKDNLNTKIALKENNLESIRFKASTVSQKTVLSGLEINNVLNEIYNKVAESIFTEDQAPVSYPGYQGGLFIDPVDEQLKSINQSFLDIDSLSK;locus_tag=LOCUS_03100;note=MGA_310
sequence1	MetaGeneAnnotator	CDS	207651	207797	.	+	0	ID=MGA_311;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYSTEFLRILGNLNFEDSLGIDEAQNSLQNYMKDFVKMNQLNLFNHF;locus_tag=LOCUS_03110;note=MGA_311
sequence1	MetaGeneAnnotator	CDS	207801	208034	.	+	0	ID=MGA_312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEGLIYDSAYGDALFTNTYELASKGVNNSIENFVDYAKYATAKTDRQIKYKFSSDSYFKNQITDYMPKDSEGKVTD;locus_tag=LOCUS_03120;note=MGA_312
sequence1	MetaGeneAnnotator	CDS	208044	208199	.	+	0	ID=MGA_313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIDGELSREKIFNGLQMLNKKALIASKNNVNNIQSVSIAGLTAVKSGSD;locus_tag=LOCUS_03130;note=MGA_313
sequence1	MetaGeneAnnotator	CDS	208597	209310	.	+	0	ID=MGA_314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKLNGIGASNGIAVASVYVLDEQPIVIPKKDATNLEQELELINSSIAKAKKDLESLQAIAKEKLGEEKAAIFEAHASILEDPAMAEEFTALIKEKNYNAARAIDEVSKKYIEMFGAMEDAYFKERAADVKDVTQRLIRYVLKMPVLDLASISSEVIIVAEDLTPSQTAQLNPKYVKGFACNVGGRTSHAAIMARSLEIPAVLGLRTILSTAKEGDVLAIDGSTGDVEINPSDKSV;locus_tag=LOCUS_03140;note=WP_011183417.1 phosphoenolpyruvate--protein phosphotransferase (Mesoplasma florum) [pid:55.6%25%2C q_cov:98.7%25%2C s_cov:40.8%25%2C Eval:2.4e-67%2C partial hit],internal stop codon at [209308:209310](+),MGA_314
sequence1	MetaGeneAnnotator	CDS	209500	210090	.	+	0	ID=MGA_315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNDHFPTEEEQFEAYKKVVSDMNGKMTVIRTLDIGGDKKLSYFAFPEEMNPFLGYRAIRFTMDRKDIFRDQIRALLRASAFGPVGIMFPMIATIDEFVSAKKFTLECKAELEKEGVAVGKDLEIGMMVEIPAAAVNAENFAKHADFFSVGTNDLIQYSMAADRMSENVTYLYQPFNPSILRLLKLTIDGAHKHGK;locus_tag=LOCUS_03150;note=WP_100609812.1 phosphoenolpyruvate--protein phosphotransferase (Entomoplasma freundtii) [pid:75.5%25%2C q_cov:100.0%25%2C s_cov:34.1%25%2C Eval:2.9e-83%2C partial hit],internal stop codon at [209308:209310](+)%2C[210088:210090](+),MGA_315
sequence1	MetaGeneAnnotator	CDS	210097	210315	.	+	0	ID=MGA_316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCGEMAGEPDAVPLLMGLGLDAYSMSATSITKARSIMSKLTLVETQELAKKALECETSSQVLDLVHKLMSDK;locus_tag=LOCUS_03160;note=WP_100609812.1 phosphoenolpyruvate--protein phosphotransferase (Entomoplasma freundtii) [pid:64.3%25%2C q_cov:97.2%25%2C s_cov:12.2%25%2C Eval:2.5e-20%2C partial hit],internal stop codon at [210088:210090](+),MGA_316
sequence1	MetaGeneAnnotator	CDS	210437	210919	.	+	0	ID=MGA_317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRNKKLKVYLQILIFTFLLVILFESLDNNNKFMVLFDQVLVFLMVLFLFLSSLSIIIIFSKFYEEVKLNISKYSLIKNIRKSQKSILLNKITLFLLPLACYRVNITSKIILDTDDGKNFLISLTVICALAVILTYVSYFLIFSYLLEAKKRNLTKKEEL;locus_tag=LOCUS_03170;note=MGA_317
sequence1	MetaGeneAnnotator	CDS	210947	211135	.	+	0	ID=MGA_318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFRNIVELQKNNFLENINLIFEDNIRSFLLIESKKHNLIINARFSLLLSNKKKASTPPDFY;locus_tag=LOCUS_03180;note=MGA_318
sequence1	MetaGeneAnnotator	CDS	211227	212174	.	+	0	ID=MGA_319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILSVLTMSSFSASILVACDSNNNQQNEKNDNPSNENNNVNNNNENNNEEKPQEENNELIDLSALKYKNLPAGYMENGVYDRDNGANLGNKKNLEYKINAESILFSLNQLNKIDLKSSDIEISEIDNGTAGMNGVAVIKAAIGSKSVKGETSLILNQNINFSALVGNRKLNNIYIKQDIFDNLETEIKDPNNKSAFAAYIVEQIGVSNPALEALAEPMVSGAEKILPKVNFTSKEFVIQETPSLNGLFVADQNLKFELNFVKDERAFFIKNKDSLPLVNMELDKNTDVSPSENYISLKKTVYKKLNNSNS;locus_tag=LOCUS_03190;note=MGA_319
sequence1	MetaGeneAnnotator	CDS	212238	212369	.	+	0	ID=MGA_320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYINVIAGSSKLYGHDFLLFFMSGKLFDEQGSVRVNAQVKNN;locus_tag=LOCUS_03200;note=MGA_320
sequence1	MetaGeneAnnotator	CDS	212571	213152	.	+	0	ID=MGA_321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFLLVLFLLFSSISIIIIFSRYFEEVKLNISKYSLIKTFNRSQTPILLNKLIIVLAPIACYRVKLIANLFLKDFNQNYYLLSLFIICTLAVLLSLASYFLIVSYFIDMKKRNLILKNNDLEEVLLNQLNLDTNDLFEIKVNQFYNSINIIFENNIRAFILVENEKHNLKVNSYFSILLNNNKKATTPPRLSF;locus_tag=LOCUS_03210;note=MGA_321
sequence1	MetaGeneAnnotator	CDS	213214	213729	.	+	0	ID=MGA_322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMRIQKPFFKNAFKNILKNKIQFITVIILIFISSLVFTMCYSATSRINKSYNEYSSQKESNLHDFVADFTSTSYISNEDNEDKINFKKLSDPLIRDNLVLTYIKNKLQDTNNSFVFDRVEARQFSLSTNKTLKVVILNPEQKVDKFVVEEGMDLNTWTTYSKATNNLSLK;locus_tag=LOCUS_03220;note=MGA_322
sequence1	MetaGeneAnnotator	CDS	214165	215349	.	+	0	ID=MGA_323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVISDADKEIYFVGKFANEKYKANSIEYLNNLIESFEVSKEIGLKSNYINALNENAKIFTKTGDSNYSMGARTSTFPFILIIFNVVSYVLIAIILGIGIVILIAQLKLQLEKAFGQMGVMISLGYKKIQLILSNSIYAFIIALVGGTIGYICGYFLQFLIITVFDKFFAIQIQQISFNLESFIISIFGIFAFLEFVTLITCIYMFNKNTVLEMINYEQRSATTRFNLFFKKLFIRRTKNFNSKFSGAILSSSVLKLFAVLVSMFVAATMTTASIIMPHVLKENQKYIYSGDEYDNKVTYYSPIYNDPVSFYKTYNPESTNKNYDSLDAKNLIDSYLKNNISSKFFNPSNDLGELNDMSYKNIDLDYLKSKDLYLQNNSQNSSDLLITSLTGSL;locus_tag=LOCUS_03230;note=MGA_323
sequence1	MetaGeneAnnotator	CDS	215404	215757	.	+	0	ID=MGA_324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVLFNANNSRNAIEDLENMRLFYLKYKHTIGLNIRREGYFVKRTSLLTSLASDGGPNNDLISANEFASNSSIPISVNIEKDGSIMNDEVFQNSLYKFVNSSNYMSESVVICGPIYN;locus_tag=LOCUS_03240;note=MGA_324
sequence1	MetaGeneAnnotator	CDS	215842	216174	.	+	0	ID=MGA_325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKEFEKDNGSFNMSFGTTPFNQENEELGTYLNSELKNIDFKVYGINQNGLQKLYDNNSNDIKAKLVEKDSIIINETLAKKLKLKVGQTVDINHIIEYLEKDGQELGVDS;locus_tag=LOCUS_03250;note=WP_011183053.1 ABC transporter permease (Mesoplasma florum) [pid:36.5%25%2C q_cov:90.9%25%2C s_cov:7.3%25%2C Eval:9.2e-12%2C partial hit],MGA_325
sequence1	MetaGeneAnnotator	CDS	216283	216483	.	+	0	ID=MGA_326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQDDVDEQEKDLVYYSRIDLSSDSMVSPTSMSKQIKKGAIKKKVKKINKEYKVVGIANQYGVSKA;locus_tag=LOCUS_03260;note=MGA_326
sequence1	MetaGeneAnnotator	CDS	216979	217242	.	+	0	ID=MGA_327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPIILIISFIVILLTINSVIAKNQKIIAMMKILGYSKVYISRLFIGIYIPPAILGSILGFVAGWFFLKLTLYNAITSILLPFNFYI;locus_tag=LOCUS_03270;note=WP_020862895.1 ABC transporter permease (Mycoplasma mycoides) [pid:38.8%25%2C q_cov:92.0%25%2C s_cov:5.8%25%2C Eval:7.9e-11%2C partial hit],internal stop codon at [216910:216912](+),MGA_327
sequence1	MetaGeneAnnotator	CDS	217355	217684	.	+	0	ID=MGA_328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLKLLLVVTSMVQPIIIVSCDKKQTNTLIDRPEPILPISKQGFENVNIDAIEIDKIMYNYDLYEQVIEQLKKANYNVNDINVSVIKNGINTLDKDNSDLFRNGTYE;locus_tag=LOCUS_03280;note=MGA_328
sequence1	MetaGeneAnnotator	CDS	217817	218092	.	+	0	ID=MGA_329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGLLTKNLNLINMIEQISEQLIDVKNYIYNQNNKSAIIKISEDNDFPKLSGGKDVIPKKFYGSIEVNFEIQKFDYAKLNDDQKGITFNQF;locus_tag=LOCUS_03290;note=MGA_329
sequence1	MetaGeneAnnotator	CDS	218324	218455	.	+	0	ID=MGA_330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNIYFKEYKNEYPNDASNEQLDKNSFIFDQKEPVKLYFKYLN;locus_tag=LOCUS_03300;note=MGA_330
sequence1	MetaGeneAnnotator	CDS	218475	219398	.	+	0	ID=MGA_331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLAILGVLTMMSTTSSVVVACGEDNTSDNSSNNKPVDPESPTDPNTPNEDLIDLAKLQYKNLPAGFMEAGAYDRNNGKNLGSENNENQVDFYKINSESVLFSLNQMNKLSLSSDDVDISEISNGESHNGYGGVAVIKAKTGSKKAKGEASLILNQSIDFKALVGNTNLDNIYIKEDIFNDLENQMKNESNMQAFAAFIIEQIGVANPALEALATPMMYGAAGIIPNTSFTPTEFNISKTPSLDGLFVAAQDLVFKTKFVKDDRVVLTSSDTQNIQLNKTVNQDSKNNYIEIKKAAYNKLGNTGN;locus_tag=LOCUS_03310;note=MGA_331
sequence1	MetaGeneAnnotator	CDS	219441	219587	.	+	0	ID=MGA_332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKESGYTVYVISGSSKIYGHDVLLPFVAGKLLVANAVVDIEVTIAA;locus_tag=LOCUS_03320;note=MGA_332
sequence1	MetaGeneAnnotator	CDS	219672	220148	.	+	0	ID=MGA_333;product=glucose PTS transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166471.1;translation=MGLFTKNKSLEVFAPVDGEVIDLSTVKDDVFAEGMLGDGLAFVPASGEFYAPIDGKLVTVFPSGHAYGIANKNGVEILLHIGIDTVSLEGKGFDVKVKQNQTVSKGELLVVVDLKEVSSKVPSMQTPLIFTTDSMQGKQIEIVKKGKVSKGDLVAIVK;locus_tag=LOCUS_03330;note=WP_011166471.1 glucose PTS transporter subunit IIA (Mycoplasma mycoides) [pid:61.8%25%2C q_cov:96.2%25%2C s_cov:97.4%25%2C Eval:5.3e-48],MGA_333
sequence1	MetaGeneAnnotator	CDS	220229	220618	.	+	0	ID=MGA_334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKKDYYKILDVNKETKIKDIKKSYKDKAKELNVNVDMENKNDFIELCEAAIVLTDKKKKRLYDNGGFEKVYGNNLENYTVLSFDDSYKFFMGKYKDTNNKIFLNKFTNFQEKVYGLTTSGFNFKSLK;locus_tag=LOCUS_03340;note=WP_012546226.1 molecular chaperone DnaJ (Thermodesulfovibrio) [pid:31.6%25%2C q_cov:86.0%25%2C s_cov:29.9%25%2C Eval:7.0e-07%2C partial hit],MGA_334
sequence1	MetaGeneAnnotator	CDS	220573	220734	.	-	0	ID=MGA_335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNCNAVSVLSDQVKSNFAITEIKNGKNKVDARKIKPSVFHFKDLKLKPLVVKP;locus_tag=LOCUS_03350;note=MGA_335
sequence1	MetaGeneAnnotator	CDS	221060	221245	.	+	0	ID=MGA_336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGVIEQKLFKLAESKNESNLAGALSDQNASKTTKITYAILLVLYAVMVAPFVEEMAFRSA;locus_tag=LOCUS_03360;note=MGA_336
sequence1	MetaGeneAnnotator	CDS	221790	222146	.	+	0	ID=MGA_337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHSLINICLDQIVRSYLIDTNKYDVELENSFVISHVHRLDKLTKGLVIYAKNKKSLDILLQAIQDKDNIEKFYLAKLENNNIKTGLIEGFIDYNSDTQLANFSLKDNKFFKSCSQEQN;locus_tag=LOCUS_03370;note=WP_011166934.1 RluA family pseudouridine synthase (Mycoplasma mycoides) [pid:52.5%25%2C q_cov:98.3%25%2C s_cov:39.1%25%2C Eval:4.6e-27%2C partial hit],internal stop codon at [221586:221588](+)%2C[222144:222146](+),MGA_337
sequence1	MetaGeneAnnotator	CDS	222183	222380	.	+	0	ID=MGA_338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGRKHQIRAICSYFKSPIVDDFRYGAKKSKNRSIDLIAYKLIFKNFSDELSYLNDKEFCSTFIF;locus_tag=LOCUS_03380;note=WP_011166934.1 RluA family pseudouridine synthase (Mycoplasma mycoides) [pid:48.3%25%2C q_cov:90.8%25%2C s_cov:19.9%25%2C Eval:8.8e-10%2C partial hit],internal stop codon at [222144:222146](+),MGA_338
sequence1	MetaGeneAnnotator	CDS	222500	222718	.	-	0	ID=MGA_339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASSDLHAFRYSFLDVEYTSFAVIQSLCAIGLTNKIVVAIPNELSAVETSIEKEPTILTNPLNCVPYFSKTQ;locus_tag=LOCUS_03390;note=MGA_339
sequence1	MetaGeneAnnotator	CDS	222930	223379	.	+	0	ID=MGA_340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAADNRNTVRRLIILFSDIFIYSLVFYLMSLNNIPPYIPFFSLIIYSPIKGFLVSLYVKRKYLWLKFYKDFNSFKLTTISKRISYSSIGTSILINSDMIVAALLLGLGVSSTLSLYLVIAINVRLIMTNFITSFREFFITLVAQRGRIN;locus_tag=LOCUS_03400;note=WP_011183460.1 transporter (Mesoplasma florum) [pid:42.9%25%2C q_cov:99.3%25%2C s_cov:22.7%25%2C Eval:1.2e-32%2C partial hit],internal stop codon at [222645:222647](+)%2C[222795:222797](+)%2C[222849:222851](+)%2C[222906:222908](+)%2C[223377:223379](+),MGA_340
sequence1	MetaGeneAnnotator	CDS	223548	223829	.	+	0	ID=MGA_341;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFSPKFSILYAFSTAIIILCEGQITLIHAKGRYGEVSKFQNILGTVYIFVVLGLVFLAKKFAIGGANNQLISGIVTLYVVKGLFLIVRYCYL;locus_tag=LOCUS_03410;note=WP_011166933.1 hypothetical protein (Mycoplasma mycoides) [pid:35.5%25%2C q_cov:100.0%25%2C s_cov:13.7%25%2C Eval:2.6e-09%2C partial hit],internal stop codon at [223377:223379](+),MGA_341
sequence1	MetaGeneAnnotator	CDS	223917	224333	.	+	0	ID=MGA_342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLFTLLYLTKHFDIQEKATGTNTPILPLVILFFGVIFISGIVLILTAYIFSPKMMNGIMKNMPLISRILNKKQTNARLKRFEENGIDIEKIVDKTDELAPAIYGIVSESSAADLSLDTIDINVEQKNDKIYVLKGKD;locus_tag=LOCUS_03420;note=MGA_342
sequence1	MetaGeneAnnotator	CDS	224405	224644	.	+	0	ID=MGA_343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKLMGSSNIIIPIAIAITCIFVFYASGVIILELIKFKTKNPYAAIAAGFFSYFTFISIFTFPLQLISVLPYIFFIYYL;locus_tag=LOCUS_03430;note=MGA_343
sequence1	MetaGeneAnnotator	CDS	224659	224874	.	-	0	ID=MGA_344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNETGLSLNHESMDKIFLCLENSFSIPNFLYSKYVATPITITAKIKNHRFLLNKFKDNQCFAKTKQNII;locus_tag=LOCUS_03440;note=MGA_344
sequence1	MetaGeneAnnotator	CDS	224939	225160	.	+	0	ID=MGA_345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILTGVQSYQYQDIIMPLSFILDVFLCASIFITMFDSFDKTSTAYKKYALYILSLFLFTLTKIAFIHYDYAY;locus_tag=LOCUS_03450;note=MGA_345
sequence1	MetaGeneAnnotator	CDS	225323	225682	.	+	0	ID=MGA_346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYCILFIIQKKYNTNFTKDFLKISSIAVIDLIFFNLVSKYYIPTILFAAILLLIIVTTYFMSKKYSAVVRFETFVDSKITLVTLLLPIVFMIVSIAMTLKTNRSFVDPKESYLNFLYV;locus_tag=LOCUS_03460;note=MGA_346
sequence1	MetaGeneAnnotator	CDS	226284	226958	.	+	0	ID=MGA_347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSLANAFNEKDLKNFDDQIFKEIENKNYSFFVEPKIDGLSISLIYSKGKLFKAVTRGDGVFGEDVTNNVKTIKSIPLVIENKDDYVEIRGEVFLSKKEFEKINQQRQLDEEPLFANPRNAAAGTIRQLDSNIAASRNLDAYLYYYMDREKIKTHSESLNYLKNLKFKINELGKICKNIDEVMQHINYISEQRNKLNYEIDGVVVKVNNFDLYEKVGYTSKFPK;locus_tag=LOCUS_03470;note=WP_011183057.1 NAD-dependent DNA ligase LigA (Mesoplasma florum) [pid:59.1%25%2C q_cov:100.0%25%2C s_cov:33.6%25%2C Eval:1.8e-66%2C partial hit],internal stop codon at [226101:226103](+)%2C[226956:226958](+)%2C[227235:227237](+),MGA_347
sequence1	MetaGeneAnnotator	CDS	227343	228047	.	+	0	ID=MGA_348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMEHFVSREAMNIEGLSIKIIEKLFENNFIYNVADIYKLKNFKEELISLDKMGKKSVENLLEAIEKSKTNSAEKLFFGLGVRHVGKKTAQLLVTNFKDIKDFDKISFEQLEKVRDVGPIVARSVIDWFENKNNKKLLEDLVSLGVNTSYLGNIGSKYNEIISNKSFVITGTLSNSRNYFKNILEEHGAKVIDSVSKKTDYLLVGEDAGSKLEKANKLGVKIINEQEFLEMLGEK;locus_tag=LOCUS_03480;note=WP_011183057.1 NAD-dependent DNA ligase LigA (Mesoplasma florum) [pid:51.7%25%2C q_cov:98.3%25%2C s_cov:34.4%25%2C Eval:2.5e-61%2C partial hit],internal stop codon at [227235:227237](+),MGA_348
sequence1	MetaGeneAnnotator	CDS	228047	228337	.	+	0	ID=MGA_349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKKDLIFELAEDIMLEITDKEAEDFLKIENQLLEKFNKAYAINIEGVEPSHYCFDYANTFLRDDDDIRKIDKQDFLKNAPKKDNDYVVIEKVVK;locus_tag=LOCUS_03490;note=MGA_349
sequence1	MetaGeneAnnotator	CDS	228340	229605	.	+	0	ID=MGA_350;product=amidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183059.1;translation=MNFKNLTIVDIHNKIKNKELKVKDLVDSVYENLKAEFKSNFLVTLIENKNSEKELQELFDENKLLSAIPYVTKDNISTKNILTTAGSNILSNYFPPYDATITEHLKNEHTILLGKASLDELGMGGTGLFGFNGEVRHPKDSERIAGGSSSGSAYAVAAGLVPFATGTDTGDSIRKPASYCGIVGFKPTYGSISRYGVIPYAPSLDHLGFFTNSVDDAAILSDATFKHDPKDFTSINNENEFYKNINNLDKKTKFGFLKSVLKYFKEDLKKDYLNLFEKIKAEGFEVIEIDFDEKLLATIPAVYMMISFSEGVSTHANLDGINFGKREEGKDYKDIMKKTRTKNFGNTVKRRFTIGSFQLKKENQEDLLLRSKKIRRLIIEELTKVFNQIDILFLPPSLDVAPTVKNILGTDVEERGDHDGI;locus_tag=LOCUS_03500;note=WP_011183059.1 amidase family protein (Mesoplasma florum) [pid:49.1%25%2C q_cov:96.2%25%2C s_cov:84.6%25%2C Eval:1.2e-114],internal stop codon at [229603:229605](+),MGA_350
sequence1	MetaGeneAnnotator	CDS	229606	229797	.	+	0	ID=MGA_351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDILELANFNGMPSITIPFIEKNNLPIGININAKPKNDLQVLQAAKFLENLIKNSKRGDSHE;locus_tag=LOCUS_03510;note=WP_011183059.1 amidase family protein (Mesoplasma florum) [pid:69.8%25%2C q_cov:84.1%25%2C s_cov:11.0%25%2C Eval:3.5e-14%2C partial hit],internal stop codon at [229603:229605](+),MGA_351
sequence1	MetaGeneAnnotator	CDS	229790	230647	.	+	0	ID=MGA_352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNFEVIIGIENHVELKTKSKMFSPAPVSFGKEPNTQICEIDLGYPGAMPSVNKEGVKYALLACNALNMQIDKLLRFDRKNYFYPDLVKGFQITQQFFPIGKEGSLEIILENGETKKIEIERLHIEEDTAKQIHKGDLTFLDYNRSGIGLVEIVTKPVIRSAYEAVEYVNNLREILLFLGVSDVKMSEGSLRCDVNISLRPYGYEGFGNKVEIKNLNSLNNVKKAIEFEIERQSKLILDGKVVQQETRRFDETKQETILMRVKTDAIDYKYFREPNINPILLDDN;locus_tag=LOCUS_03520;note=WP_015545356.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Mycoplasma mycoides) [pid:74.2%25%2C q_cov:99.3%25%2C s_cov:59.1%25%2C Eval:1.6e-119%2C partial hit],internal stop codon at [230645:230647](+),MGA_352
sequence1	MetaGeneAnnotator	CDS	230648	231229	.	+	0	ID=MGA_353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEVIDNSPELAKQKRVRYVEKFGLSLDDTNYLLSSIELTNFFEKAVSFNVDPKKVANYIITDIKALLNKESITIDKTHLKSEDIVDIIKYLESGLISSKHVKAILPIAYATNKTVEEIIKENNLKLISDENEIMHFLKPIVDKNIDLIKEQYENRPERVEKTIMGQLMKETAGNVNPDFAMSLINKLIKEVK;locus_tag=LOCUS_03530;note=WP_011183060.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Mesoplasma florum) [pid:49.7%25%2C q_cov:98.4%25%2C s_cov:39.7%25%2C Eval:1.9e-47%2C partial hit],internal stop codon at [230645:230647](+),MGA_353
sequence1	MetaGeneAnnotator	CDS	231267	231959	.	-	0	ID=MGA_354;product=NAD-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183062.1;translation=MAKKKSFAIIGASFFGLSVAQTLDEKKQYIKIFDINEEKLNLYAADFESAEAIVLDTTNKSALERNGIAQFDCVIVSLRSSMEASIITVLNLIDLGVENIIVNARDRHHKRILLALGIEEDKIIIPDVLTGKLIATKSLFDIDGDVQSTDGEYSFTNIIVKDEQIIDKTINEAGLSTNKDFNIVQIKRNGKIVIPDEYTALKEDDLLVVFAKNNIINNLIEKIRGADLED;locus_tag=LOCUS_03540;note=WP_011183062.1 NAD-binding protein (Mesoplasma florum) [pid:54.8%25%2C q_cov:97.8%25%2C s_cov:75.0%25%2C Eval:5.2e-64],MGA_354
sequence1	MetaGeneAnnotator	CDS	232102	232242	.	+	0	ID=MGA_355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNLLEKKHDKKSLKLQNKENKKLASHKKKIQKDIAKKTTFQKLKS;locus_tag=LOCUS_03550;note=MGA_355
sequence1	MetaGeneAnnotator	CDS	232281	232430	.	-	0	ID=MGA_356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVCNIVIPVSEIALEAVNIPVIKFHSDSLSFTIPGIDNKKPPIMIADK;locus_tag=LOCUS_03560;note=MGA_356
sequence1	MetaGeneAnnotator	CDS	232372	232764	.	+	0	ID=MGA_357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTASSAISDTGITILQTNTQYSLFGQILILVMIKIGGIGLLTIKLVILALLNRKISLDDQHVAKSERGTGTVANTVEMIRDAFLFLTFIEIAGTGVLFFGFYLTPLTDTSPVNTSFDVTDSYHNFSRSL;locus_tag=LOCUS_03570;note=WP_164919774.1 TrkH family potassium uptake protein (Mesoplasma florum) [pid:43.1%25%2C q_cov:100.0%25%2C s_cov:23.3%25%2C Eval:4.7e-27%2C partial hit],internal stop codon at [232240:232242](+)%2C[232243:232245](+)%2C[232354:232356](+)%2C[232762:232764](+)%2C[232894:232896](+),MGA_357
sequence1	MetaGeneAnnotator	CDS	233236	233739	.	+	0	ID=MGA_358;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIWMFIGAAPSSTAGGIRTTTFAICLIAIISIIRNKHSVEAFKKKVPDETVRRSFAVIFLSFFIVVFSIFVVYLDSNKMLYDRNMNTDDTEYTIIQLIVYVSSAFGTVGFQPFANSEILAMGVVSKIMLVLTMFIGQLGISNTLLAFVKPKNKQNFGYLEEEVTIG;locus_tag=LOCUS_03580;note=WP_164919774.1 TrkH family potassium uptake protein (Mesoplasma florum) [pid:48.2%25%2C q_cov:97.6%25%2C s_cov:30.5%25%2C Eval:2.0e-38%2C partial hit],internal stop codon at [233140:233142](+),MGA_358
sequence1	MetaGeneAnnotator	CDS	233975	234280	.	+	0	ID=MGA_359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNERILKILKTNQKSGLTTQEAAKRLEEFGRNTLPKPKKPNIFAIFFKSFLDPLCIMMAIAGIASLIIGLINTLEAPDIAGLIIIAVIILTNSIIATLQE;locus_tag=LOCUS_03590;note=MGA_359
sequence1	MetaGeneAnnotator	CDS	234449	236494	.	+	0	ID=MGA_360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKVDESALTGENEAVEKVDEVIEEQHLVLGDQKNIAFMSTLVVEGKMVGVVFNTGRESEIGKIATKISETKKQKTPLEHKVSKLTLIIGLASVILGAIIFGIAYVNNEKIGESIYKLLLVAVSSAISIIPESLTIIVKICLFIATKKMARKNVMIKKPKSIETLGNVNVICSDKTGTLTQNKMFVDSLYMSGKEYKAKEIELQEDPLVRCMALCNDGVINKKGEKIGNATDLALVGLLMDNKINYQAMRRKYKRVDEIPFDSKRKVMSTVNQVDGPDGKYVAYTKGAMDYLIPHCKHIVDNDIVRPITDQDIENIKEQLLVFAKKGMRTLGFAKKDLDEIDLEQDYQYEDKLVFMGLVAIIDPPREEVKYSIEDAHNAGIRVIMITGDHKVTAFEIASRLGITDEQYNDVITGAEIESLSNEELIEKLKSTNVFARVNPEHKALIVDLLQSQNNIVAMTGDGVNDSPSLVKADVGIAMGITGTEVSKKVSDVILTDDNFKSIISGINSGRNVYEKIKYSISFLVAANISQVLTILIVLGIFGQLALNSVNILFHIFVVETIVAIPIGMQRERKGVMLNPPPTHKKESLLKGIITQICLTTLFNTLFAVLNYSIADIYVMHSDLASSKEELQKLASGYAKAGSYICIMNSPIFYAILFNNRFLPIKNDNGETIIDKYKPNK;locus_tag=LOCUS_03600;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:43.9%25%2C q_cov:89.7%25%2C s_cov:62.0%25%2C Eval:1.1e-129%2C partial hit],internal stop codon at [234278:234280](+),MGA_360
sequence1	MetaGeneAnnotator	CDS	236507	236737	.	+	0	ID=MGA_361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCIALTLTTLTMLPFEGLNEFFDFKTHKLPAILAVIFIINTLLTPICIYLVNLIVLKTTSNMKKNLSKQQTINKEL;locus_tag=LOCUS_03610;note=MGA_361
sequence1	MetaGeneAnnotator	CDS	236847	237398	.	+	0	ID=MGA_362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKILGLLGAAGLIVSSTSAVIACGGDKTATLDFTTRQKSLESAKTVYDIFKGEGDYVPKTNGNLVINFKLPGDVSGKISFNNKQYKDIFTSENNAEILKALRQTQTEVKDKSDLNDVEKNFQKAFNNYYVTKSFMDGMKTAFDAAGANSSGNVKIENAYNTSTKSEKNKKEEYDALATKLQD;locus_tag=LOCUS_03620;note=MGA_362
sequence1	MetaGeneAnnotator	CDS	237501	237641	.	+	0	ID=MGA_363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDVNNNGYDASDKDESDDIALDVKKLKDNSTDAEVANANAKASDS;locus_tag=LOCUS_03630;note=MGA_363
sequence1	MetaGeneAnnotator	CDS	237756	237908	.	+	0	ID=MGA_364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQGFAESALTLIPAIKALLKVPGAEYIFNKFVIAPIADKIATPLADIIVK;locus_tag=LOCUS_03640;note=MGA_364
sequence1	MetaGeneAnnotator	CDS	238089	238334	.	+	0	ID=MGA_365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKVLNERAFTFSKFLTVFKLVGSSIKRHPIIFFSFVLFTILNSILAAAFPLIVKGLFSTLVDKNVKTSPFFMFEFTYEE;locus_tag=LOCUS_03650;note=MGA_365
sequence1	MetaGeneAnnotator	CDS	238686	239897	.	+	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFRYRQFLIGAMDEKRKVNADMTDRIMNIRLVKSSGTEMFEVNRNKELNKELARKQKSSVAMQSAFQLFNSVLSSFLPMIMLIVCIFVYNKTMTPFALSTLCVTMLSATGSLVSNLMSLTSSLRGMAISSNCATRVNDILKRKSIILFNENPIKIESINNIKFENVTFNYPEEPHINVLSTFNFEFEKGKSYAIVGETGVGKSTIAKMLLRFYDATTGKVLVNDIDIKDLDLSNYLSHVGYVEQEPQILYGTFMDNITYSVPNKTKEEVYEAAKKSQLHEYVMSLKENYETLLGERGLMLSGGQKQRLVIARLFLKNPDLLILDEATSALDNIIEKEIQKDLDELIQNRTTIVIAHRLSTIKKVDKVIVLDRKVGILEIGTFDELKKQPGKFQKLYNAGLLK;locus_tag=LOCUS_03660;note=WP_013447839.1 ABC transporter B family permease/ATP-binding protein (Mycoplasma leachii) [pid:48.5%25%2C q_cov:99.8%25%2C s_cov:65.6%25%2C Eval:2.7e-103%2C partial hit],internal stop codon at [238569:238571](+)%2C[238584:238586](+),MGA_366
sequence1	Aragorn:1.2.38	tRNA	240026	240101	.	+	.	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	240110	240185	.	+	.	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	240206	240281	.	+	.	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	240290	240365	.	+	.	ID=Aragorn_5;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00040;note=Aragorn_5
sequence1	MetaGeneAnnotator	CDS	240447	240623	.	+	0	ID=MGA_367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHTMIKNSRLILISIGSCLSFFINFLVLFFWKPIAINLNRYTVQGYVFTITYVVILLI;locus_tag=LOCUS_03670;note=MGA_367
sequence1	MetaGeneAnnotator	CDS	240710	240871	.	-	0	ID=MGA_368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQNYNITKIFSFYKFSLLSLIIKELPTINTIAEIVFGSQNIQVNKKKDTIIT;locus_tag=LOCUS_03680;note=MGA_368
sequence1	Aragorn:1.2.38	tRNA	240875	240950	.	+	.	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	240956	241040	.	+	.	ID=Aragorn_7;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00060;note=Aragorn_7
sequence1	MetaGeneAnnotator	CDS	241142	241546	.	+	0	ID=MGA_369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNINKEKVIIFIDLDGTSLMSNHLFSQTTIDVVKKLYKNGHYIIPITARSTKDAIFQQAIYLGLDKLGGIAVANNGTHIYDFKINSYIRKSVISREMIEKVFNQTYGKIGKYKVHYFADDITYVYGAGEDSRY;locus_tag=LOCUS_03690;note=WP_011166283.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:42.0%25%2C q_cov:97.8%25%2C s_cov:46.1%25%2C Eval:1.1e-23%2C partial hit],internal stop codon at [241544:241546](+),MGA_369
sequence1	MetaGeneAnnotator	CDS	241556	241981	.	+	0	ID=MGA_370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVDYKIVKDLVEIESAINHLTIILDENANDYDRNQLYKDFSFIEPELQITQYTRRVYELCAKGINKGEAIEYILNHLGYNQTNCSTFCFGDSVNDIPMFKVVQYPIAMANAIDDIKGIAKFVTLSNDEDGVAKFIEEHIL;locus_tag=LOCUS_03700;note=WP_003234424.1 phosphoglycolate phosphatase (Bacillus) [pid:41.1%25%2C q_cov:67.4%25%2C s_cov:37.3%25%2C Eval:4.9e-11%2C partial hit],MGA_370
sequence1	MetaGeneAnnotator	CDS	242096	242299	.	+	0	ID=MGA_371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAPLFDQVSQEASNSNFIKVNVDELREVADKYEIKSIPTVVKFENGNETNRNVGSLGKDALLDFAK;locus_tag=LOCUS_03710;note=WP_011166282.1 thioredoxin (Mycoplasma mycoides) [pid:40.3%25%2C q_cov:92.5%25%2C s_cov:60.8%25%2C Eval:2.2e-08%2C partial hit],internal stop codon at [242078:242080](+),MGA_371
sequence1	MetaGeneAnnotator	CDS	242305	242694	.	+	0	ID=MGA_372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLIALDIDGTLLGKNKRVSKKNIAAINEARKKGIKFCIASGRAFNRVDKIAKEIGINESLEYVVTMNGGAIYKYDKNKKPVLIKETLFDIDDVKYIYNSALDNKLNCFSYSQDIKVAYVIKNKGAFI;locus_tag=LOCUS_03720;note=WP_011183411.1 HAD family hydrolase (Mesoplasma florum) [pid:37.7%25%2C q_cov:99.2%25%2C s_cov:46.6%25%2C Eval:1.6e-14%2C partial hit],internal stop codon at [242692:242694](+)%2C[242845:242847](+),MGA_372
sequence1	MetaGeneAnnotator	CDS	242698	242847	.	+	0	ID=MGA_373;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKISHRKIKVYTKDEMDQKAYKIIVYGKKKLIEKCKETLSQKNYEMFS;locus_tag=LOCUS_03730;note=MGA_373
sequence1	MetaGeneAnnotator	CDS	243217	243519	.	+	0	ID=MGA_374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKQIVINHLISLINDGKVKNGEKFPSEAQLITKFKFSKQPIREAFKHLQQLNIAFSKQGEGYFLGNKIKSNVLFCFGELFDNTRSRYYYAGIVNSKDI;locus_tag=LOCUS_03740;note=MGA_374
sequence1	MetaGeneAnnotator	CDS	244255	244488	.	+	0	ID=MGA_375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKANVKAKNNKNIVKRAMSTLGDIFLPIIPALVAAGMLMGLSALLVQTKAISQNTRAYDIFSILTDTAFSFLAVLVC;locus_tag=LOCUS_03750;note=WP_011183414.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:43.3%25%2C q_cov:83.1%25%2C s_cov:11.7%25%2C Eval:1.1e-07%2C partial hit],internal stop codon at [244039:244041](+)%2C[244156:244158](+)%2C[244486:244488](+)%2C[244636:244638](+)%2C[244681:244683](+),MGA_375
sequence1	MetaGeneAnnotator	CDS	244425	244610	.	-	0	ID=MGA_376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLYFSYKFIALLLGSIGFTNIIPITIPITGDPPNLLTVLQHTKTAKNENAVSVNIEKIS;locus_tag=LOCUS_03760;note=MGA_376
sequence1	MetaGeneAnnotator	CDS	245119	245814	.	+	0	ID=MGA_377;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEQNRSKMKVLMSSVAPALFGITEPVIFGVNLPKTKPFLCGLAGGFIAGLFAGALNVSCSGMGVTVIPGLLLYSGNVRNLLLIICVNAIAIGAALGLTLLVYRDRITLRGVVLKSIAKEEKVEKENKKEFSIFFLNKKDEVKEVNSFLNKYKKAVVAEGNIQYSMNNAKHPEKYEEKLAKAKVVADEYREKYDKEYKVKSQTIIDEAVKTLKLESRELLPKLEKEFVFNG;locus_tag=LOCUS_03770;note=WP_011183414.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:43.5%25%2C q_cov:56.3%25%2C s_cov:24.1%25%2C Eval:7.6e-23%2C partial hit],internal stop codon at [244912:244914](+)%2C[245071:245073](+),MGA_377
sequence1	MetaGeneAnnotator	CDS	245807	246022	.	+	0	ID=MGA_378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKYKKIEDFSEQEIASAQKKAKEDLYYPNYHIAPITGLLNDPNGLIYVNGLHYIHYQVHPVDAIHGLKY;locus_tag=LOCUS_03780;note=WP_011183424.1 glycoside hydrolase family 32 protein (Mesoplasma florum) [pid:50.8%25%2C q_cov:90.1%25%2C s_cov:13.6%25%2C Eval:6.0e-14%2C partial hit],internal stop codon at [246020:246022](+)%2C[246062:246064](+),MGA_378
sequence1	MetaGeneAnnotator	CDS	246743	247066	.	+	0	ID=MGA_379;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTIPKKVTLENNVIKQYPYEVFVNNILQDHKTINENKFLVKKNFRLKFRTNKNLDLKIGNGKDYIQLIINDEKIIFDRANQEEKVISDLEGIRYVERKHKDQEVEL;locus_tag=LOCUS_03790;note=MGA_379
sequence1	MetaGeneAnnotator	CDS	247299	247616	.	-	0	ID=MGA_380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSGGQKQRLVIARMFLKNPKILLLDEATSALDPKVEKEIQNELNKLMQSRTTIIVAHRLSTIKKVDEIIVLGKQVHNVAQIGTFDKLKQTNGTFKELYEASIME;locus_tag=LOCUS_03800;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:17.1%25%2C Eval:6.3e-32%2C partial hit],internal stop codon at [247656:247658](-),MGA_380
sequence1	MetaGeneAnnotator	CDS	247656	247979	.	-	0	ID=MGA_381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDFSYTFKKGKSYAIVGETGCGKSTIIKLLLRFYDPSKGKILLNKKYDLKDIELKDYLNSVGYVEQEPQILYGNVFENIRYGNFSANNKKIIEACKKAGLHDLIMT;locus_tag=LOCUS_03810;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:66.3%25%2C q_cov:97.2%25%2C s_cov:15.8%25%2C Eval:2.4e-36%2C partial hit],internal stop codon at [247656:247658](-)%2C[248040:248042](-),MGA_381
sequence1	MetaGeneAnnotator	CDS	248040	248189	.	-	0	ID=MGA_382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAEPLLQIMSALVGLINASVSSERVLRLIETKPKMKKVKQQSIKLKDI;locus_tag=LOCUS_03820;note=MGA_382
sequence1	MetaGeneAnnotator	CDS	248319	248567	.	-	0	ID=MGA_383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFISNIAIIFSFLGTRKRLSKAKNTISQINGDVVNRLSAITLIKSSGTEDYETKRFLNIHQKYYNETKKVNINQSMMLTII;locus_tag=LOCUS_03830;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:37.7%25%2C q_cov:74.4%25%2C s_cov:9.3%25%2C Eval:5.8e-09%2C partial hit],internal stop codon at [248319:248321](-)%2C[248592:248594](-),MGA_383
sequence1	MetaGeneAnnotator	CDS	248548	248676	.	+	0	ID=MGA_384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDIKNTANANIAIFHENIIIKIDAAKISKLDTPICKGTSIA;locus_tag=LOCUS_03840;note=MGA_384
sequence1	MetaGeneAnnotator	CDS	248907	249140	.	-	0	ID=MGA_385;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSDVGSRKGPFKKLLFYYYKKEYKLTLVLVLLSLIIVACSILLPLLTYQLTLAINLKLSNELGVIQETSNQSIMSF;locus_tag=LOCUS_03850;note=MGA_385
sequence1	MetaGeneAnnotator	CDS	249824	250528	.	+	0	ID=MGA_386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPMNKRNNILEIRNLTKSYDGKVVLKGIGFNVHEGEFITLLGPSGCGKTTTLNIIGGREKQDLGDLLFEGRDLTPTPSNKRQINTIFQNYALFPHYDVYDNIAYGLRIKKTKEDLIEQEVMKYIKKFSLEGHETKRIHELSGGQKQRVAIARALVLKPRILLLDEPMSALDVQLRKKMQAELKELQEEIGITFILVTHDQEEALTLSDRVVVMNDGNIQQIGTPEEIYNEPENR;locus_tag=LOCUS_03860;note=WP_011166424.1 spermidine/putrescine ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:73.6%25%2C q_cov:97.0%25%2C s_cov:64.7%25%2C Eval:9.0e-96%2C partial hit],internal stop codon at [250526:250528](+),MGA_386
sequence1	MetaGeneAnnotator	CDS	250574	250843	.	+	0	ID=MGA_387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRDTKVKFDDKEFDCVDKGFGENQKNIDIVIRPEDIKIGAPGKGYYDGIVEDIIFKGVHYEILVACDKRKYKVHTTEFHDFDTKVSVS;locus_tag=LOCUS_03870;note=WP_011183409.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:51.1%25%2C q_cov:97.8%25%2C s_cov:25.1%25%2C Eval:7.9e-19%2C partial hit],internal stop codon at [250526:250528](+)%2C[250841:250843](+)%2C[250868:250870](+),MGA_387
sequence1	MetaGeneAnnotator	CDS	250881	251093	.	+	0	ID=MGA_388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNSENKDVIENQEITSEVIDNKDNVDVETELEDIENIEAIGESEFVYQKPPLRERIEEFKIVKALKGKI;locus_tag=LOCUS_03880;note=MGA_388
sequence1	MetaGeneAnnotator	CDS	251100	251375	.	+	0	ID=MGA_389;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVPFFVVMGFLVVLPLLGMLLFAIIDPSGNSIKFKANFENFLKFFASKNIMAVLGLSLLYAFGASIICVAMAYPIALVLAQLRSKMLAKNM;locus_tag=LOCUS_03890;note=WP_011183408.1 ABC transporter permease (Mesoplasma) [pid:40.5%25%2C q_cov:86.8%25%2C s_cov:23.9%25%2C Eval:2.8e-16%2C partial hit],internal stop codon at [251091:251093](+)%2C[251373:251375](+)%2C[251397:251399](+)%2C[251610:251612](+),MGA_389
sequence1	MetaGeneAnnotator	CDS	251406	251612	.	+	0	ID=MGA_390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKIIGLNSLLSLIGSSFLGTPGAIVLGMVYMFLPFAISPIYNAIENQDPNYYAAALDLKASKFQAF;locus_tag=LOCUS_03900;note=WP_011166425.1 ABC transporter permease (Mycoplasma mycoides) [pid:54.5%25%2C q_cov:80.9%25%2C s_cov:16.7%25%2C Eval:7.9e-11%2C partial hit],internal stop codon at [251373:251375](+)%2C[251397:251399](+)%2C[251610:251612](+),MGA_390
sequence1	MetaGeneAnnotator	CDS	251691	251882	.	+	0	ID=MGA_391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVRYMGDGKISLITSIIENYFFKGTDFGFGATIAVALAILLFAIMGLMKLISNKFEVRGSRK;locus_tag=LOCUS_03910;note=WP_011183408.1 ABC transporter permease (Mesoplasma) [pid:56.5%25%2C q_cov:98.4%25%2C s_cov:18.7%25%2C Eval:3.1e-15%2C partial hit],internal stop codon at [251397:251399](+)%2C[251610:251612](+)%2C[251880:251882](+),MGA_391
sequence1	MetaGeneAnnotator	CDS	251929	252264	.	-	0	ID=MGA_392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIPNFNPENMNNNIKPTAVITSAFTSGMFATLTQLLEILLLILESPITAKTPITIETIVETTATNKETKIDLTKGEFSKNDVYHLVLKPCHSLRLFPELNDITIITNIGM;locus_tag=LOCUS_03920;note=MGA_392
sequence1	MetaGeneAnnotator	CDS	252221	252397	.	+	0	ID=MGA_393;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLFIFSGLKFGIFTLISAHVSFNVPYVIITVLPFMKRIDQNYLDASKDLGATTTKTI;locus_tag=LOCUS_03930;note=WP_011183407.1 ABC transporter permease subunit (Mesoplasma florum) [pid:58.6%25%2C q_cov:100.0%25%2C s_cov:5.4%25%2C Eval:4.4e-14%2C partial hit],internal stop codon at [251990:251992](+)%2C[252011:252013](+)%2C[252161:252163](+)%2C[252395:252397](+)%2C[252608:252610](+),MGA_393
sequence1	MetaGeneAnnotator	CDS	252407	252610	.	+	0	ID=MGA_394;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPILLPSIVTAAAICFAMSFDDFIISYFTGGDQTNVSTFIYTAKRMQPYINVFGVFMVIIVTLILLV;locus_tag=LOCUS_03940;note=WP_011166426.1 extracellular solute-binding protein (Mycoplasma mycoides) [pid:66.7%25%2C q_cov:98.5%25%2C s_cov:6.3%25%2C Eval:1.6e-19%2C partial hit],internal stop codon at [252161:252163](+)%2C[252395:252397](+)%2C[252608:252610](+)%2C[252719:252721](+)%2C[252776:252778](+)%2C[252857:252859](+),MGA_394
sequence1	MetaGeneAnnotator	CDS	252923	253054	.	+	0	ID=MGA_395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEKKKQIEAKIQKLNNAKKAQKFEAVIAKINKKLYKYEKEIE;locus_tag=LOCUS_03950;note=MGA_395
sequence1	MetaGeneAnnotator	CDS	253355	253594	.	+	0	ID=MGA_396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEAIDKKIKKLKTNNASENEIASLLEVRNTKMQEAKDVYSQKIQKAEAKLNAVKDDINKKQEKYFPDVTAEGYTSKRTR;locus_tag=LOCUS_03960;note=MGA_396
sequence1	MetaGeneAnnotator	CDS	254270	254734	.	+	0	ID=MGA_397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAFEKLFGNVMAVKAAPENGNLSKQQQIDLAEVEVKKLVSKSNVGIYGDQLTDKIATGDFDVTVVYNGDAIYGHSDDYESSSEGDEEGDEEETTPNEESSSDEARTRSNMSITSRIEGGNPNLESISLIPNAPAEYKPANGESVGEVKQTTNI;locus_tag=LOCUS_03970;note=MGA_397
sequence1	MetaGeneAnnotator	CDS	254744	254908	.	+	0	ID=MGA_398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVISKDNRNLDLTYKFINMIYSRYAQEKIAEETGYTVPTSYVIDNPPYDGVLGE;locus_tag=LOCUS_03980;note=MGA_398
sequence1	Aragorn:1.2.38	tRNA	255067	255141	.	+	.	ID=Aragorn_8;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00070;note=Aragorn_8
sequence1	MetaGeneAnnotator	CDS	255367	255561	.	+	0	ID=MGA_399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVHLDGFYLFIQIMVKLKNWQNVFINKNCSFQDRGVIFIGYNFMTGMNVTIATLNHGSWVKKR;locus_tag=LOCUS_03990;note=MGA_399
sequence1	Aragorn:1.2.38	tRNA	255881	255957	.	+	.	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	256006	256082	.	+	.	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	256115	256190	.	+	.	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	256196	256272	.	+	.	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	256291	256367	.	+	.	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	256425	256517	.	+	.	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	256523	256598	.	+	.	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	256601	256677	.	+	.	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	256687	256762	.	+	.	ID=Aragorn_17;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00160;note=Aragorn_17
sequence1	MetaGeneAnnotator	CDS	257013	258479	.	+	0	ID=MGA_400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLLSAIATFGVLISSSTSAISCSFKSGHNNEYKNTDGNKGDGGLDYGKDKPEVPSEEDDPEPGTGGIDESADPSKYTDTLFQLDKNRSYIYTSDKNDVTIANITNYDEIAKYSNSLPNLISFVNSEDSKLVSIRVDKDKIIAKIKDITNPVLTTIKSIKPIQIQIKSKNDGKQQVDFTLNIQTDHLDLANLQNNVKVNYFLTDDDSNGMPKSLGYTSSYLENLSNSSNSDHEKAKKDFFDKFINDSGININLSDVTITQSNSGENGKDIEFNIKGRNKPDSKIVPDSNIKLIINKDVDPNEVFKNKSLEVNVFSGTFQSIKSRGMTDGDKQGIKALVFEELIANSGIADYLKKLSDDNYARSTTQVLKNSTINLNTKTLSGSMDLNLAYLGLVFKGNLKVNYHLVEESRANLYSEVTKNDAYKKYDVNREFLTDQTSENILKAKLQLYNQLSQDFRQQVDQNEFVKYTKFTESAKETSFTRSLSSY;locus_tag=LOCUS_04000;note=MGA_400
sequence1	MetaGeneAnnotator	CDS	260117	260284	.	-	0	ID=MGA_401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKQKITNLLKNENIKKPEKREYLNTLLSIENIHPMQNRKTEFGERLQTDASVHY;locus_tag=LOCUS_04010;note=MGA_401
sequence1	MetaGeneAnnotator	CDS	260381	260653	.	-	0	ID=MGA_402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKDKMEIIKAVIDEKLSKKAAAIKICQTIRNVNLLINKYKKYGYTAFIHKNTGRISNKKIKHQISDQIIDLYINKYEEYNYKHFLEKL;locus_tag=LOCUS_04020;note=MGA_402
sequence1	Aragorn:1.2.38	tRNA	260823	260899	.	+	.	ID=Aragorn_18;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00170;note=Aragorn_18
sequence1	MetaGeneAnnotator	CDS	261235	262317	.	+	0	ID=MGA_403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEDKLNSVGLGSLTGYALDNINYTPGQIGVNGVSASNQLYIIMFAMVSGFCYGSGIFSAQYFGAGEYQKLKHITCLKMYLTLIITMIFALIGIQQITKYFIGFTTHPDYEKAKVPLDTYLTENSSAQEIKQVFEYIQNKVSILSTEQGEKYYRIVSLSYPILTINQVATTALRETRRPFYSFFMSSISLIANALCNVFFTAPTFIPNYHGFGVVGAAIGTVSSRVLQLGFIVGLLAIKKFEFIPRIRHFIIPKYILRISLIKSLPILLNETLFAFGQVMQVKLRAQYSADSLSANAMYETMLMAFFSPMYHGLNAGISTLVGNELGAKHFDEAKYNAKHLMRFSFMIACVFLILFSGLS;locus_tag=LOCUS_04030;note=WP_003425390.1 MATE family efflux transporter (Clostridioides difficile) [pid:24.4%25%2C q_cov:91.4%25%2C s_cov:63.5%25%2C Eval:4.9e-21%2C partial hit],MGA_403
sequence1	MetaGeneAnnotator	CDS	262976	263578	.	+	0	ID=MGA_404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLTKRISKEVKNNTIKDSLTTFSRLDQKQVLEKLEIKQFGLKDEELERQKQKYGNNKLEPKRFNFPLVLAKAFLSPFNLILIIIDVYSFYNFFSQVSAERDNFDLVGALLVLIMILLSGSITFLQEVRSFFVIRKMTFDNKKTSHIIRNTDFEIKTIDNANSVKLIKEAEQIDSEELVPGDLIYLSNGDLIPADIKIV;locus_tag=LOCUS_04040;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:49.2%25%2C q_cov:95.5%25%2C s_cov:21.0%25%2C Eval:5.6e-50%2C partial hit],internal stop codon at [263576:263578](+),MGA_404
sequence1	MetaGeneAnnotator	CDS	263633	263917	.	+	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEENNKKEYLEFENICFTGTDVISGSALGVVVTTAKDTYFSTINDRVTEKRPKSSFDKGIKRITLLLISFMLAVTPIVFAVFGLRASGQAGI;locus_tag=LOCUS_04050;note=WP_011167023.1 magnesium-translocating P-type ATPase (Mycoplasma mycoides) [pid:56.0%25%2C q_cov:90.4%25%2C s_cov:9.7%25%2C Eval:6.6e-21%2C partial hit],internal stop codon at [263576:263578](+)%2C[263915:263917](+),MGA_405
sequence1	MetaGeneAnnotator	CDS	263951	264292	.	+	0	ID=MGA_406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLTPEMLPIIITANLSKGYAKIKKQEVLVKNLNAVQNMGAIDILCTDKTGTITSGEIHLDRVMDFNGSKNEYVNKILYLNSYFQTGFQSPIDQAVLLTEKFEKPFVEEYTKE;locus_tag=LOCUS_04060;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:12.8%25%2C Eval:1.2e-38%2C partial hit],internal stop codon at [263915:263917](+)%2C[264290:264292](+),MGA_406
sequence1	MetaGeneAnnotator	CDS	264320	265408	.	+	0	ID=MGA_407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSVILSKNEEKEIFTKGAIEEVMAVCNRVSIQGEIVPITELHKEKIRNRVKDLNKDGYRVVAIAHNHLEDEDIEEDLVFLGFATFFDEPKATSKEIIKTLKTRGIDTKILTGDSEIITRAICKKVDFKITKIYTGKEIEEMSETQLQRAVMDANVFVKLSPLHKSLIIATLKANGHVVGFMGDGINDAPVLRNSDVAISFIDASNIAQDAADIILVNDSLMVIETAVHEGRSSLANILKYIKVTIASNFGNVLSVLVALFLTNVEPMQPIHLLLQNLLYDIVMFAFIFDKVDKKFTDSPRPLRTKNIIWFTIINGPVSSIFDISTFLVLLFAFKNQVGVPFGMNQDKEALSPDSIATFNAS;locus_tag=LOCUS_04070;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:69.0%25%2C q_cov:92.5%25%2C s_cov:37.8%25%2C Eval:3.1e-132%2C partial hit],internal stop codon at [264290:264292](+)%2C[265406:265408](+)%2C[265493:265495](+),MGA_407
sequence1	MetaGeneAnnotator	CDS	265529	265684	.	+	0	ID=MGA_408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVIVPYTPINSLVKMSQPPLAFLPIGIGFVLMYVILAQCVKMLYIKRFKE;locus_tag=LOCUS_04080;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:56.0%25%2C q_cov:98.0%25%2C s_cov:5.6%25%2C Eval:1.0e-10%2C partial hit],internal stop codon at [265406:265408](+)%2C[265493:265495](+),MGA_408
sequence1	MetaGeneAnnotator	CDS	266144	266413	.	-	0	ID=MGA_409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKFVITKESMDLINKKQKFILLRKYGKNFIELYIQFKSLREIKVELESQNDQEKKVVTLVGYEGLELYDEKNRVVKALERRFAKDKKQ;locus_tag=LOCUS_04090;note=MGA_409
sequence1	MetaGeneAnnotator	CDS	266521	267378	.	+	0	ID=MGA_410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKILTVLLTTNFLFSSSVSLISCNIDKKKDVIDISLIKNTNLGELYVDTQNKLPSLDAIVSAMNDKNINLNLKSRYVKIDDTLTQNETTAKITVIDLSSNFKGSVVVNYSIVKANSEKIRLSSLIDVTDLQSITFTNDDSLKSLPSIDDVFLGMKAMNPKTMEIKRSEIRKGFFGTTQISFCIEAFGEKYTGSTVFNFKKLDSSKVSIAKAFTNNNLGEMSFIESLPSKEVFLKAFKEKNSSSSDFSINDFEFYEKGSDSETIEIIGNNKYSNLSHARFSYIKK;locus_tag=LOCUS_04100;note=MGA_410
sequence1	MetaGeneAnnotator	CDS	267583	267882	.	+	0	ID=MGA_411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPYPSGAGLHVGHPKGYIATDVFARMRKLQGYDVLHPIGYDAFGLPAEQYAIKTGNDPREFTEKNINIFRKQLKILGFSYDYNKEVNTSHPGYYKTTQ;locus_tag=LOCUS_04110;note=WP_015545302.1 leucine--tRNA ligase (Mycoplasma mycoides) [pid:75.8%25%2C q_cov:100.0%25%2C s_cov:12.3%25%2C Eval:6.6e-42%2C partial hit],internal stop codon at [267508:267510](+)%2C[267520:267522](+)%2C[267880:267882](+)%2C[267940:267942](+)%2C[268051:268053](+)%2C[268111:268113](+)%2C[268144:268146](+),MGA_411
sequence1	MetaGeneAnnotator	CDS	268171	268446	.	+	0	ID=MGA_412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKVKDSDQDIPVFTTRPDTVFGATYLVLAPEYELLNKLVSEDKRKEVNDYIDLAKTKTDIQRQDDSKEKTGLFIGNYVINPFTNEEIPL;locus_tag=LOCUS_04120;note=WP_011227747.1 leucine--tRNA ligase (Thermus thermophilus) [pid:55.1%25%2C q_cov:97.8%25%2C s_cov:10.1%25%2C Eval:4.0e-23%2C partial hit],internal stop codon at [267940:267942](+)%2C[268051:268053](+)%2C[268111:268113](+)%2C[268144:268146](+)%2C[268444:268446](+)%2C[268723:268725](+),MGA_412
sequence1	MetaGeneAnnotator	CDS	268489	268725	.	+	0	ID=MGA_413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVAAHDVRDFEFATKFSLPIKFVIEAKDMSKAFVGEGPHINSDFLNGLLKDEAKALITKKIVDNNLGYIKVNYKLRD;locus_tag=LOCUS_04130;note=WP_015545302.1 leucine--tRNA ligase (Mycoplasma mycoides) [pid:62.8%25%2C q_cov:100.0%25%2C s_cov:9.7%25%2C Eval:1.1e-20%2C partial hit],internal stop codon at [268444:268446](+)%2C[268723:268725](+)%2C[268891:268893](+)%2C[268951:268953](+)%2C[268966:268968](+),MGA_413
sequence1	MetaGeneAnnotator	CDS	269194	269337	.	+	0	ID=MGA_414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILADNGEKMSKSKGNTINPDEIVESHGADTLRLYEMFMGPIEASFP;locus_tag=LOCUS_04140;note=WP_003246072.1 leucine--tRNA ligase (Bacillus) [pid:82.2%25%2C q_cov:95.7%25%2C s_cov:5.6%25%2C Eval:1.1e-15%2C partial hit],internal stop codon at [268951:268953](+)%2C[268966:268968](+)%2C[269053:269055](+)%2C[269122:269124](+)%2C[269335:269337](+)%2C[269368:269370](+)%2C[269626:269628](+),MGA_414
sequence1	MetaGeneAnnotator	CDS	269371	269628	.	+	0	ID=MGA_415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRVYRMFDKFDFSQENNGNLDSVYNEVVKKVTNMIEDCKMNTAVSQLMVFVNAVYKETDPIYIDYIKGFLKMLSVYAPHLAEEL;locus_tag=LOCUS_04150;note=WP_015545302.1 leucine--tRNA ligase (Mycoplasma mycoides) [pid:61.6%25%2C q_cov:100.0%25%2C s_cov:10.7%25%2C Eval:2.2e-24%2C partial hit],internal stop codon at [269122:269124](+)%2C[269335:269337](+)%2C[269368:269370](+)%2C[269626:269628](+)%2C[269668:269670](+),MGA_415
sequence1	MetaGeneAnnotator	CDS	269725	269892	.	+	0	ID=MGA_416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGKLRATFETSKGTSKEDLLKKAKEIDKVKEIILDGTLLKEIAVIDKIVSFVLK;locus_tag=LOCUS_04160;note=WP_011183388.1 leucine--tRNA ligase (Mesoplasma florum) [pid:50.9%25%2C q_cov:100.0%25%2C s_cov:6.9%25%2C Eval:1.3e-08%2C partial hit],internal stop codon at [269626:269628](+)%2C[269668:269670](+),MGA_416
sequence1	MetaGeneAnnotator	CDS	270443	270622	.	-	0	ID=MGA_417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLLKKYLLTKGLFFCSQKEKESDLHSDSLTQYVFLCHNLEIKLTTSSVHQTKGRIERL;locus_tag=LOCUS_04170;note=MGA_417
sequence1	MetaGeneAnnotator	CDS	271026	271304	.	-	0	ID=MGA_418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRYLKRNEKNKIEIIKAVIDEKLSKKAAAIKICQTIRNVNLLIKKYKKYGYTAFIHKNTGRMSNKKIKHQISDRIIDLYINKYENIIINTF;locus_tag=LOCUS_04180;note=MGA_418
sequence1	MetaGeneAnnotator	CDS	271463	271822	.	+	0	ID=MGA_419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTKLMNKKNFTKAIKKIILIATLILISFASDQIIVAICNIIHGFVANSYTFILLARFLMFLLCYILIKKIVNYFIFKKTKVKITKFEYIIIAIITIIDFIVSFKTLRMSFYDKGYLYF;locus_tag=LOCUS_04190;note=MGA_419
sequence1	MetaGeneAnnotator	CDS	271985	272143	.	+	0	ID=MGA_420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTKELLFLFFKNLIFKTREKINFQISNFNKTKEVKFITSNYGDYLANYLI;locus_tag=LOCUS_04200;note=MGA_420
sequence1	MetaGeneAnnotator	CDS	272176	272478	.	+	0	ID=MGA_421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSLQKNEKEKVINSHQILNLNNNQSGIQVNKLEKKFKSGYGIEDINFIVKPGKVFGYLGPNGAGKSTTIRSLMGFIKPDKGSSLIETKGVEELTTYDS;locus_tag=LOCUS_04210;note=WP_011166874.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:59.7%25%2C q_cov:62.0%25%2C s_cov:21.0%25%2C Eval:1.1e-15%2C partial hit],internal stop codon at [272476:272478](+)%2C[272599:272601](+)%2C[272629:272631](+)%2C[272704:272706](+),MGA_421
sequence1	MetaGeneAnnotator	CDS	272707	273000	.	+	0	ID=MGA_422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNPDIIILDEPTTGLDPLMQEKFVSLVKKSKAEGKAIIMSSHIFSEIEKTCDTVAIIKKGKIVSLIDVKDIHYNDEKTYEVKFQNKVDNILKESKL;locus_tag=LOCUS_04220;note=WP_011461396.1 ABC transporter ATP-binding protein (Desulfitobacterium hafniense) [pid:48.3%25%2C q_cov:91.8%25%2C s_cov:28.4%25%2C Eval:3.1e-23%2C partial hit],internal stop codon at [272476:272478](+)%2C[272599:272601](+)%2C[272629:272631](+)%2C[272704:272706](+)%2C[272998:273000](+),MGA_422
sequence1	MetaGeneAnnotator	CDS	273031	273276	.	+	0	ID=MGA_423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVVENKNINQFLEVVTSLKAEFLKEHPLDLEQYFMKYYENEISTVVKDNIEKFDNNIKPTAKHKAKLEFIKRSYRKMSTL;locus_tag=LOCUS_04230;note=MGA_423
sequence1	MetaGeneAnnotator	CDS	273304	273819	.	+	0	ID=MGA_424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSILFITMYTKGTFDLDPALNGKSLVETQMKIKATLNQVMNMMFFGNLGFLLPVVFIIVTSGSIVSGEVEKGTMVNMLTTSLTRKSVIITKLTSFISLIGLGTLLQYIVSIIFIQAFKIQEYIDLSTFAVKFLGLFLLLFLIGSIGFMSSCYFNRSVYALSLVGVIVIVS;locus_tag=LOCUS_04240;note=MGA_424
sequence1	MetaGeneAnnotator	CDS	273862	274020	.	+	0	ID=MGA_425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYISINTLFDYEGAKASDLSTFLGQYLFMALAGTGLFVGSYFVFTKKDLPL;locus_tag=LOCUS_04250;note=MGA_425
sequence1	MetaGeneAnnotator	CDS	274157	274717	.	+	0	ID=MGA_426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKIIENDGSKELFLDFSYIQNVMFKENIAELDNIISKLEIENINSYQELQQFLRNSMIKQAFICLIDDKTRQLNKKSKDNYVYDAIIRIELNTTSQSKLPKDTYLGFFVNINPKTPYLTISSIFETRLKPIAQEFESIIQESRIQLIRYQGQITPEEVLRRNVLNSSNIASIGKLVSKFEEEKNK;locus_tag=LOCUS_04260;note=MGA_426
sequence1	MetaGeneAnnotator	CDS	274718	275188	.	+	0	ID=MGA_427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYLDFSYDLLEVQRKNSLPYLNAIAKKVIKIDKRDYKDNLKFLKFYNLKSNTYLFLEENQKEVLESYNIDYLVTNLIILDVLCDNTEKLEKIIKTNELAIVPLKVSKTLPAMYNIQKNIKDIFDFSFEKLQDNFIVINLTIFIEENSNIESLMHY;locus_tag=LOCUS_04270;note=MGA_427
sequence1	MetaGeneAnnotator	CDS	275864	277447	.	+	0	ID=MGA_428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDDMMVEQEAINEVKEIENKLEKLLINSKGYHQKNTQAKKIQSEIEEINQEINKLKTEYLEKIHFRNSLKEELLNVENLIEVLSNFDFNISINISNLIYQLYNQEIKFLFEEYILNNLNENIYEENVFYKIRKVCELVLFKDEIFISIKNLKKRIVDLKRDAEFELAEKEEGSLNALEKLLLKNEGIRSLISILSQFRNKLEDLKIDINYKLEKIKSDENLENKIDNLEIKKNELYVTRQNLSELAGENAAEVRELIKFANKKFNLSLGITDVDLEEQVKNQLEIYGKSLQKRKEKTDTLKSFYELVSSYASDNYNITNEWEKEIATENFTPQMIQESRRYTSSVLNNLVNVYAMTLTSTNMFRFNKDESAKKLGLEEINLKTMDVDVVIIDEASKATLLEILMPLIYGKSLILVGDYRQLPPILKLKPSDVDLVNEITKKNYNYQELYELLDQSAFKSLISAKNKSITTMLKTQYRSHRQIMEVVNKFYDNELRVEPQVSEQKMHDLSVLSKYDNEIINSKNSVY;locus_tag=LOCUS_04280;note=WP_164930803.1 IGHMBP2 family helicase (Aquifex aeolicus) [pid:36.4%25%2C q_cov:24.3%25%2C s_cov:22.9%25%2C Eval:3.6e-13%2C partial hit],internal stop codon at [277445:277447](+),MGA_428
sequence1	MetaGeneAnnotator	CDS	277748	278005	.	+	0	ID=MGA_429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRNPKRLSSKSGREFLKKYERINVAFSRARELLIIVGAQRAVNDITVQIPTVNDPSISNTYDVYSDIISKIHYDGGTLTTKDIL;locus_tag=LOCUS_04290;note=MGA_429
sequence1	MetaGeneAnnotator	CDS	278016	278273	.	+	0	ID=MGA_430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIDKVEILYDKQLLPLKILYSEIRKPTFIEFLVLSIIIEHPKKNLSLKEILNEDFKITNTDFFERALKDLVAYKIVDLNKTKSG;locus_tag=LOCUS_04300;note=MGA_430
sequence1	MetaGeneAnnotator	CDS	278280	278444	.	+	0	ID=MGA_431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIDIEVEKLQVDSSIKKQFLQKDYTISQNNKSYDIKYVYDPIRKTYEVINDID;locus_tag=LOCUS_04310;note=MGA_431
sequence1	MetaGeneAnnotator	CDS	279189	279554	.	+	0	ID=MGA_432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYKHKNKTKIDLNDIFEDNLERLLDNYRDNLFGNDLKKSTITFLLLKRIGREDKLFEILYEFLKKDIDYGKNFKNLTNVFLEENNKDAILFLEKVLKEVFINVSKKRTAKDIINLIEKYN;locus_tag=LOCUS_04320;note=MGA_432
sequence1	MetaGeneAnnotator	CDS	279861	280130	.	+	0	ID=MGA_433;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKLVDIIKSNNNIYDYKNYLLSIGDCIIDFYKEYYNYKINEIQNLDQQDINYKAKILAANFISNLEEKIDSLISEEAESLPVEIKLE;locus_tag=LOCUS_04330;note=MGA_433
sequence1	MetaGeneAnnotator	CDS	280288	281289	.	+	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMTAEEVLFNCKKQFDFIKTDIDTLLRYVKELLEQCRDIDNSSFFVEQFKEIEKVIKNEIEDLKISEEYVKEVETETHIAIERYHEIQRFAEQKRDKIAEIKARVLGLRKDVVKKEQETIAKNLYSSVYESFEQLKNILINSQKNIDDKTIMLNYLNDNEAVLKNFSKENIINKANSYISAQKESIKYLSKQVVNDIERNYSYDNDLIEAIEKEKIEYLNNLNEDNFIKNSKIFFSKVSKNIENESIRKDNVIKIINAIQATGYLVDENDIKKIKEKNLVLIHAVKETGESADFAVRLDGSFLYNYEGFEGHEHDADADAFLKKMREQGITS;locus_tag=LOCUS_04340;note=MGA_434
sequence1	MetaGeneAnnotator	CDS	281388	282107	.	+	0	ID=MGA_435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVKREMQQLKNLVGIKKAIILEGNIDDIYQLEGKYVNIHNFLANIFLEKKYVDSYFYDRNSGIKGKKIQNLIIENLEQEDNNSMNDMFNTANENDNKKNEGQLNLKKIIDFYKILNSNLNRTDERKVGFIADYTDYVFSDQSLDADDRAILTEFSKSLKESDFVISKVDELLNCVIFLTKKINQLPPSLYLDNPEIKILSLPKPNRDERKEFLLTVKSMIQVSDIATEFENIVDATEG;locus_tag=LOCUS_04350;note=MGA_435
sequence1	MetaGeneAnnotator	CDS	282240	283184	.	+	0	ID=MGA_436;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNIKNELKSRVIGQDDAIEKVSKVIYKAFTGLTGITYSSKRSKPKGTLFFVGPTGTGKTELAKAITQFLFNDEANLIRFDMSEYGQENADQKLIGAPPGYVGFEGGGQLTNAVKEKPFSVILFDEIEKASPKIFDKFLQVLEDGRLSDNTGQTVSFSESFIIFTSNIGAAEVEPNEDKEKVYKSFIEKVQHHFTHELNRPELLGRFGNNIVPFNFIRNNELKAKIVSQKLKPLKIAIYEKYKAELHIDITNQEILNIILKDADEKRGGRDVLNSLETNLVDPLSEFLFENLKNIKPGTKIYVDAANNKVAFKI;locus_tag=LOCUS_04360;note=WP_010875923.1 ATP-dependent Clp protease ATP-binding subunit (Methanothermobacter thermautotrophicus) [pid:43.5%25%2C q_cov:87.9%25%2C s_cov:48.7%25%2C Eval:5.9e-65%2C partial hit],internal stop codon at [282105:282107](+)%2C[282216:282218](+),MGA_436
sequence1	MetaGeneAnnotator	CDS	283346	283780	.	+	0	ID=MGA_437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEKILEAKDKFNIEGITLLGGEPFLQPEALKEIVNFCYKNKLTIICFTGYIYEKLLPEFKDILNKIDILIDGPFIMSQLDIKRRLIGSKNQRVLKLTDTYKNCDYFEKPHSEVEIQIYNDRFSMNGDGAVFDNEKGEFIFKLE;locus_tag=LOCUS_04370;note=WP_011948683.1 4Fe-4S single cluster domain-containing protein (Clostridium botulinum) [pid:36.8%25%2C q_cov:91.0%25%2C s_cov:65.5%25%2C Eval:1.1e-16%2C partial hit],internal stop codon at [283256:283258](+),MGA_437
sequence1	MetaGeneAnnotator	CDS	284250	284480	.	+	0	ID=MGA_438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTMIVTAAEQGINTCPLEGFIPGDVKEVLVKTGLMDKENEEVSLACFVGKVDESAEMHYAFSKSRKPAEESYKVV;locus_tag=LOCUS_04380;note=MGA_438
sequence1	MetaGeneAnnotator	CDS	284491	284685	.	+	0	ID=MGA_439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIYDLMKNRRSAKRYDTSFKIKEDQLKELLEVVRYSPSSYGMEAYKVYCIVNEKIKEELFHA;locus_tag=LOCUS_04390;note=MGA_439
sequence1	MetaGeneAnnotator	CDS	284752	284880	.	+	0	ID=MGA_440;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIHMPKQISEIIDPTSDKAEPYIRNGIEHFLKSQNVSMQQ;locus_tag=LOCUS_04400;note=MGA_440
sequence1	MetaGeneAnnotator	CDS	284893	285138	.	+	0	ID=MGA_441;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYISLGAVVIAVEDMSLDCCPVEGFSRLETDRILEKYMIINSEIETSTVCLFLGKIDKNKKNHYSYKRYKKSSEEAYEIIE;locus_tag=LOCUS_04410;note=MGA_441
sequence1	MetaGeneAnnotator	CDS	285811	286041	.	-	0	ID=MGA_442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLNKSATVTICHKQTKDVKKFAKESDILISAAGCANLVTKEFVHENMTIIDVGANFVNGKYCGDVDFESVKDIVK;locus_tag=LOCUS_04420;note=WP_010881240.1 bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD (Aquifex aeolicus) [pid:52.1%25%2C q_cov:96.1%25%2C s_cov:25.1%25%2C Eval:7.4e-17%2C partial hit],internal stop codon at [285811:285813](-)%2C[286117:286119](-),MGA_442
sequence1	MetaGeneAnnotator	CDS	286117	286563	.	-	0	ID=MGA_443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNLINGKELSKILLDNLKVKIMNIKNNRLPKIVVVQVGDNPSSNKYIQHKIKSIENIGMLHDHLKLDGRTSQEELLKHIDFLNKDETVDGIIVQLPLPKHIDVFTINSRISPKKDADGFSPCTIGDVVLGNSIIYPATPLGIIKLLE;locus_tag=LOCUS_04430;note=WP_011393025.1 bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD (Moorella thermoacetica) [pid:40.4%25%2C q_cov:98.0%25%2C s_cov:52.1%25%2C Eval:1.6e-26%2C partial hit],internal stop codon at [286117:286119](-),MGA_443
sequence1	MetaGeneAnnotator	CDS	286630	287037	.	+	0	ID=MGA_444;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKIINVLNGLNIKNEDYEFYGPDIVKIDYSKYQNIKNKGKLILLTSINPKPSGEGKTTTAIGLTDGLNLIGKKAILALREPSLGPVFGAKGTATGGGESEVFPVDKINLHFTGDIHAITAANNLISSVIDNEIY;locus_tag=LOCUS_04440;note=WP_005809880.1 formate--tetrahydrofolate ligase (Desulfitobacterium hafniense) [pid:56.9%25%2C q_cov:100.0%25%2C s_cov:24.6%25%2C Eval:1.0e-37%2C partial hit],internal stop codon at [287035:287037](+)%2C[287074:287076](+),MGA_444
sequence1	MetaGeneAnnotator	CDS	287086	287748	.	+	0	ID=MGA_445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLNDRALRKVELEIKKNIKRKESFNITAASNMMTILCLSKNTYDLQERLENTIVAYDIHGKELLIKDFEVVGSVMVLIQNVIKPNLVLTKYNSPSLIHLGPFANIAIGTNSMISTNLALKLGDYAIVESGFGSDLGFEKFMNVINFDNDLIPDCVIMVVTIASLRMHDDFTNNFIHLEQHLKHIELYNLNLIVALNVMKGDTKEEFDLITNWLNKNNYI;locus_tag=LOCUS_04450;note=WP_002369307.1 formate--tetrahydrofolate ligase (Enterococcus) [pid:40.3%25%2C q_cov:95.5%25%2C s_cov:40.6%25%2C Eval:7.2e-44%2C partial hit],internal stop codon at [287035:287037](+)%2C[287074:287076](+)%2C[287746:287748](+)%2C[287842:287844](+),MGA_445
sequence1	MetaGeneAnnotator	CDS	287992	288195	.	+	0	ID=MGA_446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKEHSKIDGNTQNIKNYKLNIRNMELNSGGRFILAYTNSVFSMPGLGKDANYKYINLINNKVKGLK;locus_tag=LOCUS_04460;note=MGA_446
sequence1	MetaGeneAnnotator	CDS	288224	288400	.	+	0	ID=MGA_447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNINKKNKTKNKAFEFLTIFSMAFGIVVGSGIYIKNRNEEGGVLDAANNNPYLAIII;locus_tag=LOCUS_04470;note=MGA_447
sequence1	MetaGeneAnnotator	CDS	288379	288534	.	-	0	ID=MGA_448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDADLLEINFADQDNVVLCSSFLIADDISTYEIIIIVQTTPINIHIIIAK;locus_tag=LOCUS_04480;note=MGA_448
sequence1	MetaGeneAnnotator	CDS	288560	288916	.	+	0	ID=MGA_449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPILASLGAIFTVSVFFDYGLNNFLQAMGKNTISETLTTAEYTALKVVLSSIILIGFQILNMFTQKPGRYIQTICTFIKFIPLIVVLIGGFVVFFTNNVVDASGNPDSTNSFENSTNK;locus_tag=LOCUS_04490;note=MGA_449
sequence1	MetaGeneAnnotator	CDS	289019	289735	.	+	0	ID=MGA_450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPALFVGIISISVFYLLITIAIFIGGNDGNIFKLLNTIFIKVPILSFISKILIAFTVATLSNGYTTLIPKTIESASHEGFLYFGKNAKNISKRKASIISIIITLIIFYSTIIISLLITPLRDTNEINYAFISETISTSTVIFAFIVYYSLILAMVINRKTNKVKVNKIKGGLTIGIINIVILSLFMPYVYFEYLIRPFITHNKDAMICAAGSFAIIAIIAIYYGVNEFYLKRQKKLS;locus_tag=LOCUS_04500;note=WP_011167061.1 APC family permease (Mycoplasma mycoides) [pid:25.7%25%2C q_cov:84.9%25%2C s_cov:41.8%25%2C Eval:9.3e-11%2C partial hit],internal stop codon at [288914:288916](+)%2C[288923:288925](+),MGA_450
sequence1	MetaGeneAnnotator	CDS	289755	289907	.	-	0	ID=MGA_451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYMFALAVQKELTIDELPLVDIFFLPHFNKPYNFITLSSLEVLGLNYFKK;locus_tag=LOCUS_04510;note=WP_011182934.1 FAD-dependent oxidoreductase (Mesoplasma florum) [pid:86.0%25%2C q_cov:100.0%25%2C s_cov:11.1%25%2C Eval:5.6e-20%2C partial hit],internal stop codon at [289971:289973](-)%2C[290106:290108](-),MGA_451
sequence1	MetaGeneAnnotator	CDS	289971	290102	.	-	0	ID=MGA_452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASVGVSKNLADKYGIEVEEVMFKDSDRPEFMSTYKDVYIKIV;locus_tag=LOCUS_04520;note=WP_011182934.1 FAD-dependent oxidoreductase (Mesoplasma florum) [pid:58.1%25%2C q_cov:100.0%25%2C s_cov:9.5%25%2C Eval:2.8e-08%2C partial hit],internal stop codon at [289971:289973](-)%2C[290106:290108](-),MGA_452
sequence1	MetaGeneAnnotator	CDS	290106	290657	.	-	0	ID=MGA_453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVGAGYIGVELVDAFVKAGKEVSLVDIADRIMPLYYDGEFTKLVENEMKSKNVNLALNQKVVKFVGENGKVTKVVTDKSEIEADYVVFSVGVKPQTDLLKGIVDLDNRGAIKTNEFMQSSNPDIYAVGDCAQVYNVSLKQDAQIALATTAVRTGILAAVNIVSKNTLKSPGFTGANGIDVFG;locus_tag=LOCUS_04530;note=WP_011166460.1 FAD-dependent oxidoreductase (Mycoplasma mycoides) [pid:64.8%25%2C q_cov:99.5%25%2C s_cov:40.1%25%2C Eval:8.0e-66%2C partial hit],internal stop codon at [289971:289973](-)%2C[290106:290108](-)%2C[290772:290774](-)%2C[290877:290879](-),MGA_453
sequence1	MetaGeneAnnotator	CDS	290973	291113	.	-	0	ID=MGA_454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIVIGTNHAGTTAVRTLKRLNPEMEVSTYERNDNISFLGCGIAL;locus_tag=LOCUS_04540;note=WP_011182934.1 FAD-dependent oxidoreductase (Mesoplasma florum) [pid:87.0%25%2C q_cov:100.0%25%2C s_cov:10.2%25%2C Eval:7.3e-17%2C partial hit],internal stop codon at [290772:290774](-)%2C[290877:290879](-)%2C[290973:290975](-),MGA_454
sequence1	MetaGeneAnnotator	CDS	291641	291937	.	+	0	ID=MGA_455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDLKNTKLKMIGKFDAYFSSKSIYLTDEKQVIKYEIIYDQIIDIKTKRYGVLIETVKTNYLFRGRNRLLTYVILQRMLPRLKLDISKIINLYDYFDF;locus_tag=LOCUS_04550;note=MGA_455
sequence1	MetaGeneAnnotator	CDS	291977	292150	.	+	0	ID=MGA_456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVIIVKNDTQIGQKTGDLILNKVKANKSAVLGLATGSSPISTYKYIIEKTKAENID;locus_tag=LOCUS_04560;note=WP_007052563.1 glucosamine-6-phosphate deaminase (Bifidobacterium longum) [pid:45.5%25%2C q_cov:96.5%25%2C s_cov:20.4%25%2C Eval:6.9e-07%2C partial hit],internal stop codon at [292148:292150](+),MGA_456
sequence1	MetaGeneAnnotator	CDS	292226	292627	.	+	0	ID=MGA_457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDNLFNHINIDKNNTYVPSGAIKSNQEAGEYDKEIEKAGGIDLQLLGIGTNGHIGFNEPGTSFDSITSIVNLTDETIEMNSRFFANKSDVPTQAISMGLKSIMNAKEIVLIAMGKNKAEAIYHLVEGEVGTQ;locus_tag=LOCUS_04570;note=WP_011166981.1 glucosamine-6-phosphate deaminase (Mycoplasma mycoides) [pid:63.1%25%2C q_cov:97.7%25%2C s_cov:52.5%25%2C Eval:2.5e-41%2C partial hit],internal stop codon at [292148:292150](+)%2C[292625:292627](+),MGA_457
sequence1	MetaGeneAnnotator	CDS	292851	293699	.	+	0	ID=MGA_458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMVANDNYKNFYEFFYLDKGIGDYMKHLLLIITSFMVVSIAAGEPAVMILDNNKGEENNTENLDNNNDQDNQTSIINLKKVVKVRSFKDLKKPTKENLLDYVKQYNTKLNIDEVEVKDFVVEKDKVGYATINTKDGSKVYIGSVKISFTVYQYVHTDFKLQKTRKETEPEEFETRATIRLNSYEDIAITNFDSLGDYVENMPSVFNYDTNKLKVTFNKEQKSIRVLAKALTETELRVEVSSLDGIAQDEIIVNIKPDHIAFELEEDNIKLELKGEQRVNITN;locus_tag=LOCUS_04580;note=MGA_458
sequence1	MetaGeneAnnotator	CDS	293763	294083	.	+	0	ID=MGA_459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDVSIDTTSEQKAIVIKSNGNYIDDMINVVIYSKDKETYRIIGVSLISDNNNRFKLDEAYFDVLVNTEFKIKVHKSNLSDVQPSLNKISDPDAVEFIKFDDQEIS;locus_tag=LOCUS_04590;note=MGA_459
sequence1	MetaGeneAnnotator	CDS	294177	294323	.	+	0	ID=MGA_460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVNVKPTRIDFKLETTYVLMNVGETRKVKITNFDDLIDKKNYPKVQS;locus_tag=LOCUS_04600;note=MGA_460
sequence1	MetaGeneAnnotator	CDS	294510	294944	.	+	0	ID=MGA_461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLILNSGTENVKKLKIKNYDNLKYEQNMPKDFDLNINGKQLSLDEKNNILKTEIDKVNKQLVITAISEKGYSNVNLTIKSENGSQMSYLLDIVKPIKLEDINKDAISVVENDETSILTALRLANTNTDSNPVSEDVASINEVA;locus_tag=LOCUS_04610;note=MGA_461
sequence1	MetaGeneAnnotator	CDS	295095	295508	.	+	0	ID=MGA_462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTSLVDEYSSHSESKSESFSEEKTYILPDSIDKLSKVYTNIKLTFNSYLAYTPNDYNPPLSDADLLKNEKGIISVALKLGNNSTNVEIDKIDAEFPIKDDVTGITKAINSFDISFDGNSVKLKLKSYAYAYRKGGA;locus_tag=LOCUS_04620;note=MGA_462
sequence1	MetaGeneAnnotator	CDS	295751	296305	.	+	0	ID=MGA_463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLLALLSSLSIGISSVGSAVNYVVDDNVPSKNNDNSELNNADQTDNSESKPNTDDNKNKDKRIDLEKVIKRTQLDQVKINNEDNASELVLNAIVNINPSLDKNEVTIQDYATNSSHDKGTATIVANEDSKKYKGLVDINFSIFHYSKDNFLLEKNNVEMRMGETQQIKVVNFNKDENSNYYE;locus_tag=LOCUS_04630;note=MGA_463
sequence1	MetaGeneAnnotator	CDS	296447	296590	.	+	0	ID=MGA_464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNDKRPGNQQEIKVQIFAKSMDFNLAKTSVDLKAQSGQTTSILVTN;locus_tag=LOCUS_04640;note=MGA_464
sequence1	MetaGeneAnnotator	CDS	296690	297013	.	+	0	ID=MGA_465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIEATGNIAKSVVLTVGSRNRTVDVTVNLIYPEKQAVFETTSITMTTNSTKNINIVNYDDLRVDENMPSQFSINHPNAVKVSLDKVTKSLKFEAQNVVMNNVEISV;locus_tag=LOCUS_04650;note=MGA_465
sequence1	MetaGeneAnnotator	CDS	297143	297817	.	+	0	ID=MGA_466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEIQDGDRNIPSKIQFDASIVNAFYNRQKRAIIITAKDKAVSNYVIKATSLMGHTEEIRVNISVPQVNFVLSPIKDMNAGETQIIDVTNYGSLIHEDNYPVNFSFNVNGIVDARYDKNNHKIYIESKSVYKFKRGLVMTVKSKNNKYSQDYTFDVIKRFDLNNFVYKNLGEFGNKDASTITDAFYNKNKNNITLEKEIYDGLIAYDISYSRAKIKANSALAQK;locus_tag=LOCUS_04660;note=MGA_466
sequence1	MetaGeneAnnotator	CDS	298571	298762	.	+	0	ID=MGA_467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKRYNIKKSKSKLYYPLCENNIYMKKYIKKEGLINKVSFNNIIKASSDSKDINMSLILERGM;locus_tag=LOCUS_04670;note=MGA_467
sequence1	MetaGeneAnnotator	CDS	299309	300016	.	+	0	ID=MGA_468;product=triose-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166983.1;translation=MFKTNKIGVRFIENIEAKIKGNPNLIVGIAAPSIMLSDLTKVAKNIKIAAQNCYFKEEGAYTGEISIPMLKEIGIEYVVIGHSERRDIFKEDDELINNKVKALLEANLVPILCCGESLEIYENGKTMEHVKNQLTKNLNGISANHVKKVVIAYEPIWAIGTGKVATPQIAQDVIKAIRDHLASMYDQNIANEVLIQYGGSVKPENIKEILSQPDIDGALVGGASLIEDSYLGLIE;locus_tag=LOCUS_04680;gene=tpiA;EC_number=5.3.1.1;note=WP_011166983.1 triose-phosphate isomerase (Mycoplasma mycoides) [pid:55.0%25%2C q_cov:98.3%25%2C s_cov:92.7%25%2C Eval:8.6e-70],MGA_468
sequence1	MetaGeneAnnotator	CDS	300019	300360	.	+	0	ID=MGA_469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKNIELIALDMDGTSYKSLGKHIESNLEPINKVLENGKKVVFVTGRPFESEANELHLYNFKKNESFMIAFNGAVIYDILEKKVIQENVIQKGIVEKVFEILNKEEYKDTSI;locus_tag=LOCUS_04690;note=WP_011166984.1 HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:36.3%25%2C q_cov:100.0%25%2C s_cov:40.6%25%2C Eval:1.8e-18%2C partial hit],internal stop codon at [300358:300360](+),MGA_469
sequence1	MetaGeneAnnotator	CDS	300421	300843	.	+	0	ID=MGA_470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVETKLFDGIIHIVGKNTIFTDCYKILLIDFDKKLIEELKEIGLNVFWHDGSISAEVTSKNVDKAIALKYILKHYNIDPSQVMAMGDGANDIPMLDYAGLSIVPANAKDEIKKHAKVISKYTFLEGAVGMAIKKYILGE;locus_tag=LOCUS_04700;note=WP_002263635.1 Cof-type HAD-IIB family hydrolase (Streptococcus mutans) [pid:48.3%25%2C q_cov:62.1%25%2C s_cov:31.9%25%2C Eval:1.6e-14%2C partial hit],MGA_470
sequence1	MetaGeneAnnotator	CDS	301002	301682	.	+	0	ID=MGA_471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLPEGQMGNSEVGHIHLGAGRIKYESLSLINKSIKDGTFEKNEALNKAIINCKNNNSAFHIMGLFSDGGVHSHMLHMFAAFEAAAKAGLKEIYVHLFTDGRDTKPTVAINYLNDLESLFKKYGVGSVGSISGRFYSMDRDKRMERVAQGYKSLVDRKDVNVFTNPADYIKEQYNEGKDDEGILPGYNQSAPNGYIKENDSVLFANFRPDRAIQMASTFTNHDYMA;locus_tag=LOCUS_04710;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:42.9%25%2C Eval:9.0e-61%2C partial hit],internal stop codon at [300888:300890](+)%2C[300972:300974](+)%2C[300999:301001](+)%2C[301680:301682](+)%2C[301818:301820](+),MGA_471
sequence1	MetaGeneAnnotator	CDS	301827	302435	.	+	0	ID=MGA_472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGYQQLRIAETEKIAHVSFFFDGGKDYFKNGLATPEEIKLKGAAINLIPSTKEVPTYDLKPEMSAVEITDQLIKQIKKQKYDLIVLNYANCDMVGHTGVLDAAIKGVKTLDEQLKRVYEATKEAGYVLIITADHGNAEVMIDAEGGPNKKHTSQPVPIIVTDRTVKLRKKDAAIADVAPTILELIGEEIPSEMTQPSLIEK;locus_tag=LOCUS_04720;note=WP_011183400.1 2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase (Mesoplasma florum) [pid:69.7%25%2C q_cov:99.0%25%2C s_cov:37.6%25%2C Eval:2.2e-73%2C partial hit],internal stop codon at [301680:301682](+)%2C[301818:301820](+),MGA_472
sequence1	MetaGeneAnnotator	CDS	302475	302693	.	-	0	ID=MGA_473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKDFFINYKVENNHIIVDENMMTSIEGVYAAGDCCTYKGKINNIVSAFYEAMKAILNIDKLVKDRNKLGNG;locus_tag=LOCUS_04730;note=WP_002026689.1 NAD(P)/FAD-dependent oxidoreductase (Bacillus cereus) [pid:47.9%25%2C q_cov:66.7%25%2C s_cov:14.5%25%2C Eval:7.1e-07%2C partial hit],internal stop codon at [302697:302699](-)%2C[302925:302927](-),MGA_473
sequence1	MetaGeneAnnotator	CDS	302925	303380	.	-	0	ID=MGA_474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGTIVDAEKSYGGQVNRLYPTKTLRNLPGIDIKIAKNVMDEMYNMIEKDESIFEQKFFCSVEKIEMIDENIEKNLIKNYFKVTFSDKTTQVYKKILCTIGIGFYERKKLLEKDYENILYGIDNLKKFKDKKILVFGGGDSAIDFANELIN;locus_tag=LOCUS_04740;note=WP_011963782.1 NAD(P)/FAD-dependent oxidoreductase (Flavobacterium psychrophilum) [pid:31.4%25%2C q_cov:97.4%25%2C s_cov:40.7%25%2C Eval:6.0e-11%2C partial hit],internal stop codon at [302925:302927](-)%2C[303402:303404](-),MGA_474
sequence1	MetaGeneAnnotator	CDS	303522	303824	.	+	0	ID=MGA_475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIINSLEEINKVVNLMVPYCKKNVAILLSGDLGAGKTTFTKRLLKKLGVNEVVNSPTFVIMNQYKVNNLNINHVDAYRLNENEESDMYLEQFYNALNIIE;locus_tag=LOCUS_04750;note=WP_020862622.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE (Mycoplasma mycoides) [pid:47.5%25%2C q_cov:98.0%25%2C s_cov:73.2%25%2C Eval:1.9e-20%2C partial hit],internal stop codon at [303822:303824](+),MGA_475
sequence1	MetaGeneAnnotator	CDS	303931	304497	.	+	0	ID=MGA_476;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166509.1;translation=MNLFIDTSNNNLILILEKDNNVIDSFVEKNQTRLSDIVLIEINKLLKKHDLTLRNIEKFYITKGPGSYTGVRLAITIVKTLKTVNNSFRVYAISSLAYQAGSSDCVSLLDAKGQKSYVGVYQNKRNIIVDQLLPDEYICDFCKNYKDFALIKDYYEIDFVKNYLDLKEKFELIEDIDNLEPVYIKNFI;locus_tag=LOCUS_04760;gene=tsaB;EC_number=2.3.1.234;note=WP_011166509.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB (Mycoplasma mycoides) [pid:48.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.3e-49],MGA_476
sequence1	Aragorn:1.2.38	tRNA	304579	304669	.	+	.	ID=Aragorn_19;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00180;note=Aragorn_19
sequence1	MetaGeneAnnotator	CDS	304818	305276	.	+	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEFIYFIKGFFGAPAVLIALFALFGSIMQRNKFTDVLLSTLKAAVGYLILAGGIGLLVSTLDDFTVSFNQLFGLTGIMPNSDALAGNIMKAIPQIATIAALMMFISIIINIMLARFSRFKYIFLTGHHTLFICVVIATMFHIAGLDLSSDI;locus_tag=LOCUS_04770;note=WP_011183539.1 PTS ascorbate transporter subunit IIC (Mesoplasma florum) [pid:75.7%25%2C q_cov:100.0%25%2C s_cov:30.3%25%2C Eval:1.4e-63%2C partial hit],internal stop codon at [305274:305276](+)%2C[305493:305495](+),MGA_477
sequence1	MetaGeneAnnotator	CDS	305316	305495	.	+	0	ID=MGA_478;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLSPALTKPYMEYLTQDKKLYIGHANVFGFAIAGAIGRLVGKIKKGKVKSTEDIRFPK;locus_tag=LOCUS_04780;note=WP_011183539.1 PTS ascorbate transporter subunit IIC (Mesoplasma florum) [pid:79.7%25%2C q_cov:100.0%25%2C s_cov:11.8%25%2C Eval:2.5e-20%2C partial hit],internal stop codon at [305274:305276](+)%2C[305493:305495](+)%2C[305574:305576](+),MGA_478
sequence1	MetaGeneAnnotator	CDS	305598	306110	.	+	0	ID=MGA_479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSLGVIGSSDSVIVKILLDALTFTAGVEVLIYGIKTMVGELIPALEGISQRLIPGAKMAVDCSVALYYSPTAVLLGFVSSFAGGIIGLLISIGLNLAAPAMIPSVIIPGIIAHFFTGGVSGTFGNIKGGVLGAILGAFVNGLLLSFVPILFILMEQVYGAQFDPNNVLQ;locus_tag=LOCUS_04790;note=WP_011183539.1 PTS ascorbate transporter subunit IIC (Mesoplasma florum) [pid:76.5%25%2C q_cov:100.0%25%2C s_cov:33.9%25%2C Eval:3.8e-69%2C partial hit],internal stop codon at [305493:305495](+)%2C[305574:305576](+)%2C[306108:306110](+)%2C[306147:306149](+)%2C[306165:306167](+)%2C[306174:306176](+)%2C[306234:306236](+),MGA_479
sequence1	MetaGeneAnnotator	CDS	306395	307081	.	+	0	ID=MGA_480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIITTGSIGVDYVFLVDKLPNKGQSIISKKFEVFCGGKGANQAVSLGKLGASVKMIGHVGNDENGNISIKNLMDNSIDTKYVKKVSNYTTQIANIVVDDNGDNLLIVDVGANFSFTREEVEDYKHLIDEADIVLTQLETSIEFIEEFLKYAKEKNKIVILNPGPAKLISKDLIQCCDFITPNETELCILLNKEYTEDFETLKKYAFELQDISQKNVIVTLGINGSM;locus_tag=LOCUS_04800;note=WP_011183538.1 ribokinase (Mesoplasma florum) [pid:68.0%25%2C q_cov:100.0%25%2C s_cov:74.0%25%2C Eval:1.6e-89%2C partial hit],internal stop codon at [307079:307081](+),MGA_480
sequence1	MetaGeneAnnotator	CDS	307163	307321	.	+	0	ID=MGA_481;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGFTTYLAMNKNIDECIRYATAASALAVTKLGAQSSIPSKKEVEEFIKKNN;locus_tag=LOCUS_04810;note=WP_011183538.1 ribokinase (Mesoplasma florum) [pid:66.7%25%2C q_cov:98.1%25%2C s_cov:16.6%25%2C Eval:3.8e-13%2C partial hit],internal stop codon at [307079:307081](+),MGA_481
sequence1	MetaGeneAnnotator	CDS	307552	308142	.	-	0	ID=MGA_482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSLKLTDSEQYVIDQIDKDIEYFISNNLKNLSIKYNVGEATLIRLIKKLEYASLKAMQIDYSLKTKTNELTKIYPPNSSQNITHNVSSFEIYSILESKNIVDHEQLKQVADVIIASKSVVFFGVEASYLSALFLSRNLQKVGINNTVYESVHGCITNLSFVESENSVIIIFCSSGLTKEANEVAKYAINNNIKVV;locus_tag=LOCUS_04820;note=WP_011183537.1 MurR/RpiR family transcriptional regulator (Mesoplasma florum) [pid:46.9%25%2C q_cov:99.0%25%2C s_cov:71.6%25%2C Eval:1.8e-45%2C partial hit],internal stop codon at [307552:307554](-),MGA_482
sequence1	MetaGeneAnnotator	CDS	308312	308884	.	+	0	ID=MGA_483;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183536.1;translation=MDGIFVNNYALCQKFCSDIREKYKDIKIDIHMMCVESYKYIDSFSKAGANYFNFHYESITDKSPQHINEIIQKIKNSGMKPIMALNPETSVNQIEKYLSLLDGIMCMNILPGFNGQKLIPESYEKIKNLKDIREKKSLNYFIMTDGGAREDTYSQICESGADVIVVGAFVNVEENKIKEQVDKIQKFKNK;locus_tag=LOCUS_04830;note=WP_011183536.1 ribulose-phosphate 3-epimerase (Mesoplasma florum) [pid:60.0%25%2C q_cov:100.0%25%2C s_cov:83.7%25%2C Eval:8.1e-64],internal stop codon at [308294:308296](+),MGA_483
sequence1	MetaGeneAnnotator	CDS	308896	309201	.	+	0	ID=MGA_484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINKYIDSTLLKPEATKEDVIEFCKEAIENDFAAVCLHVSRIKLAKEMLKNSNIEISGTVGFPFGNTSVEVKILEAKESIKMGATEIDFVINIGYVKDHN;locus_tag=LOCUS_04840;note=WP_011183535.1 deoxyribose-phosphate aldolase (Mesoplasma florum) [pid:53.5%25%2C q_cov:100.0%25%2C s_cov:47.6%25%2C Eval:1.3e-26%2C partial hit],internal stop codon at [309199:309201](+)%2C[309367:309369](+),MGA_484
sequence1	MetaGeneAnnotator	CDS	309205	309369	.	+	0	ID=MGA_485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLNELKEIKKAIPNNIVKVILENCLLTNEEIVKCCKLACEAKIDYVKTSTGYS;locus_tag=LOCUS_04850;note=WP_013448021.1 deoxyribose-phosphate aldolase (Mycoplasma leachii) [pid:61.1%25%2C q_cov:100.0%25%2C s_cov:24.3%25%2C Eval:3.4e-14%2C partial hit],internal stop codon at [309199:309201](+)%2C[309367:309369](+),MGA_485
sequence1	MetaGeneAnnotator	CDS	309400	309558	.	+	0	ID=MGA_486;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIVGNDCKIKAAGGIKTLDEAIIFIEAGVDRIGTSSGYNLINNLKSNSSY;locus_tag=LOCUS_04860;note=WP_012583678.1 deoxyribose-phosphate aldolase (Dictyoglomus turgidum) [pid:58.7%25%2C q_cov:88.5%25%2C s_cov:21.0%25%2C Eval:1.5e-09%2C partial hit],internal stop codon at [309199:309201](+)%2C[309367:309369](+),MGA_486
sequence1	MetaGeneAnnotator	CDS	309663	309899	.	+	0	ID=MGA_487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNKNNIDLKEEQPKKGFLKKMFVGKAEQKKVLQIIKTKKNQNLYFYTDVNNILLILENGIRLVKDQKLNKGEEYVV;locus_tag=LOCUS_04870;note=MGA_487
sequence1	MetaGeneAnnotator	CDS	310128	310250	.	+	0	ID=MGA_488;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKDKANLKRIETYVNANDINIDVFYGETGNINKKEKEVK;locus_tag=LOCUS_04880;note=MGA_488
sequence1	MetaGeneAnnotator	CDS	310363	310665	.	+	0	ID=MGA_489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFKPYGYAIWENIVAITDKMFKEQNVQNVYFPLLIPKNLFSKEKEHIEGFAPELATVTKVGDKDLSEELYIRPTSEVLICTHFAKEVKSYRDLPLIYNQ;locus_tag=LOCUS_04890;note=WP_011183374.1 proline--tRNA ligase (Mesoplasma florum) [pid:70.0%25%2C q_cov:100.0%25%2C s_cov:21.1%25%2C Eval:2.1e-35%2C partial hit],internal stop codon at [310303:310305](+)%2C[310663:310665](+)%2C[310681:310683](+),MGA_489
sequence1	MetaGeneAnnotator	CDS	310774	311031	.	+	0	ID=MGA_490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLTMFDVYKKLANDYLLLPVISGRKTEKEKFSGAKETYSIEALMYDGQALQSGTSHYFGTNFAEAFNIKFQNKDQKEEFAYSTS;locus_tag=LOCUS_04900;note=WP_011166523.1 proline--tRNA ligase (Mycoplasma mycoides) [pid:63.9%25%2C q_cov:97.6%25%2C s_cov:17.5%25%2C Eval:4.0e-26%2C partial hit],internal stop codon at [310663:310665](+)%2C[310681:310683](+)%2C[311029:311031](+),MGA_490
sequence1	MetaGeneAnnotator	CDS	311065	311676	.	+	0	ID=MGA_491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTHSDDQGLVLPSKIAPIQIQIININESEEVEKTSNQLFNSLKDSYRVFIDKTDKSFGFKISEAEIKGIPIRIEIGPRDLTNNVVTISRRDTRTKEQVSIDKVVEYVEKQIQDYDKNIYNIALKNLKNKTYEANTIDEYESILNKNQGLVLVPFCGDINCENQVKERTQTNSRCIPDIDEKIEAKCFNCEKQAKYRVYFARAY;locus_tag=LOCUS_04910;note=WP_011183374.1 proline--tRNA ligase (Mesoplasma florum) [pid:62.3%25%2C q_cov:100.0%25%2C s_cov:42.9%25%2C Eval:4.0e-67%2C partial hit],internal stop codon at [311029:311031](+),MGA_491
sequence1	MetaGeneAnnotator	CDS	312418	312828	.	-	0	ID=MGA_492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYMEDIRKELYKIYDVKFKPLEFQKKVDKIVELFINYNRYLDNSPFDTQFLSMQLLKYEARHSNMIEGLDTNDVELLAQDTPTSKKISNYVNALKNANLAIKNNKLFTEELILNIHRDLFQNMMSVHAINAIPGM;locus_tag=LOCUS_04920;note=MGA_492
sequence1	MetaGeneAnnotator	CDS	313218	313418	.	+	0	ID=MGA_493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKDSGINYYCNLASPFIVESETIKYIDYDLDIKVFNDGSYKILDLKEFNRNRISLKYTRNIIETV;locus_tag=LOCUS_04930;note=WP_003130958.1 DUF402 domain-containing protein (Lactococcus) [pid:53.2%25%2C q_cov:93.9%25%2C s_cov:35.2%25%2C Eval:9.7e-17%2C partial hit],internal stop codon at [313065:313067](+)%2C[313155:313157](+)%2C[313179:313181](+)%2C[313200:313202](+)%2C[313416:313418](+),MGA_493
sequence1	MetaGeneAnnotator	CDS	313558	314160	.	-	0	ID=MGA_494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVLDMFKKDFDVPIAFNNDANIAALGQALVFNKSSVLFVTISTGVGAGFVIDNKILNGYSTTACEIANAIPDLSQGDEVKSGIEFFGSGSNIPRQLKKRGVEVNSAKEAFDLYNTNSNEIINQYFKELEDKLVQFFSTGIYFLNPEILVVGGSVALNNKEFFQKIFKRIAVVTKDISFVTPCEFAKDITNATLLGCAHQ;locus_tag=LOCUS_04940;note=WP_053240546.1 ROK family protein (Pyrobaculum islandicum) [pid:28.8%25%2C q_cov:78.5%25%2C s_cov:53.6%25%2C Eval:4.6e-12%2C partial hit],internal stop codon at [314167:314169](-),MGA_494
sequence1	MetaGeneAnnotator	CDS	314538	315317	.	+	0	ID=MGA_495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKSKIRNFSIIAHIDHGKSTLADRILELTGSVDKREMQAQLLDSMDIERERGITIKLNSVQLKYKSKDGNEYIFHLIDTPGHVDFTYEVSRSLAACEGALLVVDASQGIEAQTLANVYLALDNNLEIIPVINKIDLPAADVERVKEEIENVIGIDCSNAPMISAKTGLNVEDVLEAIVKYIPYPLDADDSKPLKALIFDSYYDKYRGVMASIRIVEGSVEVGQQIKMMQSGATYEVTEVGVKTPFEVKKNKLEAGEVG;locus_tag=LOCUS_04950;note=WP_011183371.1 translation elongation factor 4 (Mesoplasma florum) [pid:82.2%25%2C q_cov:100.0%25%2C s_cov:43.2%25%2C Eval:3.4e-118%2C partial hit],internal stop codon at [315315:315317](+),MGA_495
sequence1	MetaGeneAnnotator	CDS	315426	316340	.	+	0	ID=MGA_496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYCGIYPVDTAKYKDLKESLEKISLSDASLVYEPESSQSLGFGFRCGFLGLLHMDVIQERLEREYDLTLIATAPSVVYKVNMTNNETIEIDNPAFLPEPQKINTIEEPYVKVSIMTPDQYLGDLMGLCQDKRGNYINIDYIDDTRRNLVYEMPLNEIVFDFFNKLKSISKGYASFDYELIGYKVSKLVKMDILLNGDVVDALSTIVHKDFAYHRGKVLTEKLKEIIPRQNFEVPVQAAIGSKIIARETIKAMRKNVLAKCYGGDISRKKKLLEKQKEGKKRMKAIGSVEVPQEAFIAVLKLDD;locus_tag=LOCUS_04960;note=WP_003229999.1 translation elongation factor 4 (Bacillus) [pid:68.8%25%2C q_cov:100.0%25%2C s_cov:49.7%25%2C Eval:4.9e-125%2C partial hit],internal stop codon at [315315:315317](+),MGA_496
sequence1	MetaGeneAnnotator	CDS	316576	316764	.	-	0	ID=MGA_497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTATNIISIIPNIILDEFDVKSAKQYIPIIKININDATTLIPPKTFITLSFVQFATIEKVK;locus_tag=LOCUS_04970;note=MGA_497
sequence1	MetaGeneAnnotator	CDS	316682	317332	.	+	0	ID=MGA_498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYCFADLTSNSSRIMFGIMLMIFVAVDIILTILSTAVNLQATTIIQQVGNGAYANSDISSVPMPMINNVEIQDSTALKARIHQMQGGLSKSYDEAIDEIEKTGYLNGIKVGLDLNDSDDAVKIKPLSIEEARAQNIVPQEVLQPKKENNSFYETEQINTVQQFQNAKNDFLDEDPLASIYNNEDYDSISSTSLSRKDSGLAGGFKYLAKKRDDSSH;locus_tag=LOCUS_04980;note=MGA_498
sequence1	MetaGeneAnnotator	CDS	317413	317607	.	+	0	ID=MGA_499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNAIKEKKEKTPKESFKTRFSKKFKKFKDDIKLKTKEQLSAARATSRFFLILVLIFRIAIIFF;locus_tag=LOCUS_04990;note=MGA_499
sequence1	MetaGeneAnnotator	CDS	318452	318592	.	+	0	ID=MGA_500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKLKKTLSYKTQPIEYDLILRDQKYIRLKIVDTKLSVSAPLSIQD;locus_tag=LOCUS_05000;note=MGA_500
sequence1	MetaGeneAnnotator	CDS	319630	319773	.	+	0	ID=MGA_501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRTALDAIECIVEKALLLIADIDIVPYKHHLLVEEIIDLGDDFTYH;locus_tag=LOCUS_05010;note=MGA_501
sequence1	MetaGeneAnnotator	CDS	319780	320142	.	+	0	ID=MGA_502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDQVVDLTLETYIYQKDFNETIHSFTQEYYNNIDETDGDFEDFFEKTKTLVFNDEVNDAFNYFGISKMDRPSDFKKIYRKLAKQFHPDVNPDPNAAIEMKKINMFKTIIEQYYEKYEIV;locus_tag=LOCUS_05020;note=MGA_502
sequence1	MetaGeneAnnotator	CDS	320995	321666	.	+	0	ID=MGA_503;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDFRDYMENAFEETEVTEKQEVDRDSLSCLLRLMAICDTFSDYEYIYDVSKKIYEDPDIKDKDQRLYDYAFVELIVTLYDALVNEFKDLTIMTKYKPITEELINEIVKLSELLDDSKLVVKKTYLINDLISDLLDLLEDDSENKNEFEHSEEVVLYNFAIYYSTKFYFALLLREKIIAEEEKITNTIIEENKPLMEEDGMRMSETIMLNEDAKEIFYKTLKN;locus_tag=LOCUS_05030;note=MGA_503
sequence1	MetaGeneAnnotator	CDS	321677	321919	.	+	0	ID=MGA_504;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNLQDKFPFCCKKDSTYFSTLLENYLNLRKKQSGLEILNNDYKIYKNLSLSNLDVLFLKVKNLVEKVNDQDLKQLEKKF;locus_tag=LOCUS_05040;note=MGA_504
sequence1	MetaGeneAnnotator	CDS	321959	322132	.	+	0	ID=MGA_505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFQTILDDFDQNEFLNYIKNKTIYSQIIAMTKNLETAWSIIKEILDDIETYNNTILY;locus_tag=LOCUS_05050;note=MGA_505
sequence1	MetaGeneAnnotator	CDS	322153	322686	.	+	0	ID=MGA_506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSILSSITLLATPSVVVACGDSNASDKEIKPLTYKEGILDKDVIKAIEEFGEFLFEDNKLAVDLDDIDFKDFNFEFSNLFNLDTKILGTPIENGKVFDTLKKSFVELENLNQIGKTTSTIEYNFFSMKGKQGNTSFMLYENKVSINALSIKKSYIKTIYEKNVAIDQSKTEDR;locus_tag=LOCUS_05060;note=MGA_506
sequence1	MetaGeneAnnotator	CDS	322900	323655	.	+	0	ID=MGA_507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLLALLSSMIIATSSLSTITNSSVSRKPSDHNNSNLDNNGGNSDEGGQSNTLPNEDPSTPETPVQPEEPSVPADTRRELEEVIVNHKFENLKAYSEDDLRNELFNRYSELKGEVTFSQYKYDENEFSGSLLVSSNENSEKYKGNVTIHFSVYHYAKTDFQLEKKHVELRIGEQKNILVKNFNQLVAPENYPQAEKYDSNYLEVSFDKEVQSVVIKAKDVKEPPKDNALEVTLISADGRENSKQKISVTL;locus_tag=LOCUS_05070;note=MGA_507
sequence1	MetaGeneAnnotator	CDS	323808	323990	.	-	0	ID=MGA_508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFISTDLCSKTAFTAGQSNVTSIISLCSFAITVTFNLSLVYPFIDDIKIPLFSAVKLALI;locus_tag=LOCUS_05080;note=MGA_508
sequence1	MetaGeneAnnotator	CDS	323983	324159	.	+	0	ID=MGA_509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKEETYIKISNYDELYVQDNMPDKISVSDTNILKAELDINKKAIKITAFNKPVVNA;locus_tag=LOCUS_05090;note=MGA_509
sequence1	MetaGeneAnnotator	CDS	324676	326073	.	+	0	ID=MGA_510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVAKQKEVASGTILVKSKTGHSEEISYSVSIPNVDFKLEAKEINLKYNEKTTLKVTNINDLYGASKNLPTKFSGYDTSAIDVSYDSKNNQVVIVSKQKEVANGQIIIESESGARKEVKFTVSIPNVDFKLEKTNVVLQAKTKTTIDVTNVNELYDAYKNLPTEFSGYDTNAVSVRYNRKNAQIVIEAKSKEVTNGIITVRSKEGNVETITYSITIPKVDFKLDTTSINLEVYKSTRIKVTNVNDLYDSDKNLPTEFSGYNKDAIDVSYDRSVNEIVIVAKDQSVNNGSITVRSKNGSVQSITYSITIPQVDFKLGSVSQMNAGDTQEIDVTNGSSLVHSDNYPSVFEFSKNGVVSASYDSVRHKIIVKSLSKDIFCRTLEMTIKSKNGRVSKTVKFDVIKQFDLSTLNGDLGKFDKFDATAMKNKFYELNKNIGFNKDIFDGLEIYEQGKDSAKIRAQSDLAKK;locus_tag=LOCUS_05100;note=MGA_510
sequence1	MetaGeneAnnotator	CDS	326749	328476	.	+	0	ID=MGA_511;product=translational GTPase TypA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013447566.1;translation=MSKKIINIAVIAHVDAGKSTLVDAFLNQAGVFRANEEVKEQVMDSNDQERERGITIYSKNCAIEYHDYKINIVDTPGHADFSSEVERIMKTVDTVILLVDSAEGPMPQTRFVLSKALELGLKPILLINKIDKKDQRALEVVDEVLELFMELDANDEQLEFKTLFGIARQGIVKYSIDEESNDLSPLFETIIKQVGNYPTELINENPQLQISSLAYDSFIGRLGIGRLFKGVLKEGQQVAISKNDGTINREKISGLFVYQGLKRVQVKEAQAGDIVVVSGIKDLTIGDTVNNPDNIDALPPIIIEEPTMSMNFLVNTSPFAGKVGKFVTTRNIKERLDKELEVNVGLKVESLTDSSADGFKVLGRGELHLSVLIETMRREGFELGISRPEVVFKVDEKGEKLEPIEKVIVDVPSEFSGTVINKLNLRKGKMLDMDSDGIRDKVTYAVPTRGLIGFKSDFTNDTRGEGVMVKSLIGYEQYKGPIEGRINGVLVSMASGVSLPYALNNLEDRGILFIGPQVQVYDGMIVGLHSRDNDLEVNPTNAKKLTNTRSSGTDDAVKLTPPRKFTLEEALDFIE;locus_tag=LOCUS_05110;gene=typA;note=WP_013447566.1 translational GTPase TypA (Mycoplasma leachii) [pid:76.0%25%2C q_cov:99.7%25%2C s_cov:94.3%25%2C Eval:9.2e-252],MGA_511
sequence1	MetaGeneAnnotator	CDS	328686	329228	.	+	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIVSVVAREVLDSRGFPTVQVNVETEFGGRGSAKVPSGASTGSREALELRDGDKKRYNGKGVLKAVANVNDKLADLVIGMEVFDQVAIDAAMCKLDGDDFKKNLGANAILGVSLAVAKAAADELDIPLYRYIGGTNARRLPVPMLNVINGGEHADSAIDFQEFMIMPVGAPSFKEALR;locus_tag=LOCUS_05120;note=WP_011183366.1 phosphopyruvate hydratase (Mesoplasma) [pid:75.6%25%2C q_cov:100.0%25%2C s_cov:39.7%25%2C Eval:1.1e-72%2C partial hit],internal stop codon at [329226:329228](+)%2C[329325:329327](+),MGA_512
sequence1	MetaGeneAnnotator	CDS	329394	329537	.	+	0	ID=MGA_513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVEAIQKAGYKTGHEGIMIAMDCANSELYFEDKKYHFKKIEKLTGQE;locus_tag=LOCUS_05130;note=WP_011183366.1 phosphopyruvate hydratase (Mesoplasma) [pid:85.1%25%2C q_cov:100.0%25%2C s_cov:10.4%25%2C Eval:2.0e-17%2C partial hit],internal stop codon at [329226:329228](+)%2C[329325:329327](+)%2C[329535:329537](+)%2C[329631:329633](+)%2C[329829:329831](+),MGA_513
sequence1	MetaGeneAnnotator	CDS	329661	329831	.	+	0	ID=MGA_514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDRIQIVGDDLFVTNPKITSEGIEKHAANSVLIKFNQIGSLTETIETIQMAQKAG;locus_tag=LOCUS_05140;note=WP_005648049.1 phosphopyruvate hydratase (Haemophilus influenzae) [pid:73.2%25%2C q_cov:100.0%25%2C s_cov:12.8%25%2C Eval:5.6e-17%2C partial hit],internal stop codon at [329535:329537](+)%2C[329631:329633](+)%2C[329829:329831](+),MGA_514
sequence1	MetaGeneAnnotator	CDS	330260	330460	.	+	0	ID=MGA_515;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFFNIYGHSIICFPVYFSFAILTLLLFKRAKGALNKVFYIIIQVVYVVVFIIALCFFSFYKTIED;locus_tag=LOCUS_05150;note=MGA_515
sequence1	MetaGeneAnnotator	CDS	330491	331117	.	+	0	ID=MGA_516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLTISSLIIVLAIITITLTLLFSHTNKIVKTKPDIEKIAFQALLCLIYISISMAVVYFLKIAVARPRPREIFATKDPLNEFKYPFEISTKNRSGQSFPSGHALSSTSMFGFLFFFDKETKKKNIKYILMIIFSLLTFLTDISRVLILAHFITDVLMANFLACCSYYLVKDCLAKYLYKKDQKIKNKDDSEIKPRKSKIKKVEEKQNG;locus_tag=LOCUS_05160;note=WP_011166451.1 phosphatase PAP2 family protein (Mycoplasma mycoides) [pid:28.8%25%2C q_cov:70.2%25%2C s_cov:49.1%25%2C Eval:3.6e-10%2C partial hit],MGA_516
sequence1	MetaGeneAnnotator	CDS	331110	331532	.	+	0	ID=MGA_517;product=Holliday junction resolvase RuvX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183362.1;translation=MAKYVGLDIGSKTIGIAISEGFIANSHSTIRFEENDFKSGAQKLKDFLEADGFEKLIIGYPFNMNGSSGYRIEMVEEFIENLKLFININDNNLVKIDERLTSRMAKSIMIEANLSRKKQKSSKDQLAAQLILETFLNNNN;locus_tag=LOCUS_05170;gene=ruvX;EC_number=3.1.21.10;note=WP_011183362.1 Holliday junction resolvase RuvX (Mesoplasma florum) [pid:51.8%25%2C q_cov:97.1%25%2C s_cov:96.5%25%2C Eval:2.7e-33],MGA_517
sequence1	MetaGeneAnnotator	CDS	331561	332004	.	+	0	ID=MGA_518;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166453.1;translation=MQHPLVKEILLTEEQIEKRVKELGDEVTKYYKSQEVKENTLILVGLLKGCVPFMAKLMSKIDYQCQTEYMKVSSYFGATQSSGKVNILLDLGIDIEGKTVLLVEDIIDTGLTIQYVKEYLESKNPKEVKVIALVDKPEGRKVDVELD;locus_tag=LOCUS_05180;gene=hpt;EC_number=2.4.2.8;note=WP_011166453.1 hypoxanthine phosphoribosyltransferase (Mycoplasma mycoides) [pid:51.0%25%2C q_cov:98.6%25%2C s_cov:76.3%25%2C Eval:1.6e-39],internal stop codon at [332002:332004](+),MGA_518
sequence1	MetaGeneAnnotator	CDS	332267	332413	.	+	0	ID=MGA_519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKIGVLTSGGDAPGMNAAISAVVKSAISKGIEPYVVREGYKGLINK;locus_tag=LOCUS_05190;note=WP_013447579.1 6-phosphofructokinase (Mycoplasma leachii) [pid:72.3%25%2C q_cov:97.9%25%2C s_cov:14.4%25%2C Eval:1.7e-13%2C partial hit],internal stop codon at [332411:332413](+),MGA_519
sequence1	MetaGeneAnnotator	CDS	332543	333235	.	+	0	ID=MGA_520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIEALVVIGGDGSYQGAEKLTNLGINCIGLPGTIDNDIVSSDYTIGFDTALNTVVRSIDQIRDTMQSHSRCCVVEIMGNGCGDLTLYGSIATGAEVFSTKESFLTEDQICEQVTMLAKAGRRSVIVAVAEQLYDSHALAKKIEKASGYVTRATVLGHIQRGGSPTAMDRYLAINAGIFAVEKLVEGKGGLYIGMSENKLVARDINSTLNMPKPDKTEEYEKTKKINLSI;locus_tag=LOCUS_05200;note=WP_011183071.1 6-phosphofructokinase (Mesoplasma) [pid:70.6%25%2C q_cov:99.1%25%2C s_cov:70.6%25%2C Eval:3.4e-92%2C partial hit],internal stop codon at [332411:332413](+),MGA_520
sequence1	MetaGeneAnnotator	CDS	333266	334096	.	+	0	ID=MGA_521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKQIEFYEPNQLEKKIKRTKIVTTIGPSTNTKDAIRKLFENGMNVVRLNFSHGSQEEHEAKIKMVLDLRKEEQKPISILLDTKGPEIRVGKMKDGKQEIKAGSDIRIYTLEEEYKNRECDTNEMTVSYDMSVDLKSGDTILVDDGKLTMHVVNVEPGIVSCKAFNHHIVKTNKRINLPGVDFSLPFLSDKDVSDIRFGAKNQIDYIAASFVNTAQNVKDIRQILKEEKKEHIQIISKIESKIGIFNIDEIVDESDGIMVARGDLGLEIPYYEVPH;locus_tag=LOCUS_05210;note=WP_011166458.1 pyruvate kinase (Mycoplasma mycoides) [pid:64.2%25%2C q_cov:96.0%25%2C s_cov:55.4%25%2C Eval:1.4e-96%2C partial hit],internal stop codon at [334094:334096](+),MGA_521
sequence1	MetaGeneAnnotator	CDS	334157	334552	.	+	0	ID=MGA_522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLESMTDNPQPTRAEVTDVYYATELGADATMLSGESAAGIYPYITTHTMATINKRAELNFYGKIYYDRALEMARNSTSGKRAEIADELANITRNGKYEYAVVLSRSGELLKTISKFRPNVTILGVIEDEKL;locus_tag=LOCUS_05220;note=WP_011166458.1 pyruvate kinase (Mycoplasma mycoides) [pid:77.1%25%2C q_cov:100.0%25%2C s_cov:27.4%25%2C Eval:1.9e-52%2C partial hit],internal stop codon at [334094:334096](+)%2C[334550:334552](+)%2C[334568:334570](+)%2C[334652:334654](+),MGA_522
sequence1	MetaGeneAnnotator	CDS	334803	336074	.	+	0	ID=MGA_523;product=pyruvate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183072.1;translation=MKTYNLKDKVKRTKIITTLGPSVHSKGAINELYENGMTTIRLNFSHADFQEHGERINWLKELREEINKPISILLDTKGPEIRVGKMKDGKQEIKAGTDLTVYTDPESFALRECGPTELQMSYDMSQDVKVGDVVLIDDGKLTTHVTSVDKDKKIVMCKAFNRHIVKTNKRVNLPGVDFTLPFLAEKDYNDIKFGIRQGVDYIAASFVNSADNVAEIRKILKEENAEHVQIISKIESQIGIDNIDSIIDASDGIMIARGDLGLEIPYYEVPFQEKRIIRKCREKGKLVVVATQMLESMTDNPQPTRAEVTDVYYATELGADATMLSGESANGDYPFITTETMATINKRAEIEFYTKLYYEKQLENARKSTSGQRADIANQLAKNTMDGKYEFAVVASRTGELLKTISKFRPNVTILGVSAEPKL;locus_tag=LOCUS_05230;gene=pyk;EC_number=2.7.1.40;note=WP_011183072.1 pyruvate kinase (Mesoplasma florum) [pid:69.5%25%2C q_cov:100.0%25%2C s_cov:88.1%25%2C Eval:1.9e-163],MGA_523
sequence1	MetaGeneAnnotator	CDS	336392	336580	.	+	0	ID=MGA_524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKYSIIIVKGIKNMLKILLCCSAGMSTSMLVSKMQSAARREGLECKIEAMSITEGKQQIDK;locus_tag=LOCUS_05240;note=WP_000722179.1 PTS sugar transporter subunit IIB (Vibrio) [pid:62.5%25%2C q_cov:77.4%25%2C s_cov:47.5%25%2C Eval:1.4e-10%2C partial hit],internal stop codon at [336578:336580](+),MGA_524
sequence1	MetaGeneAnnotator	CDS	336590	336748	.	+	0	ID=MGA_525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGPQVGYGLKEFEGVTTKPVAIIPAPIYAVAKGAEAIQMAKDMAKKAGISF;locus_tag=LOCUS_05250;note=MGA_525
sequence1	MetaGeneAnnotator	CDS	336926	337162	.	+	0	ID=MGA_526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLGSQKHLAAMRDAFGTLLPLTIAGSLGLIIGSIGFAGGGSGYVSVLGLFAKMIHPELSNQAITDFIQNDAVFSKI;locus_tag=LOCUS_05260;note=MGA_526
sequence1	MetaGeneAnnotator	CDS	337132	337506	.	-	0	ID=MGA_527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNGKKTANDLLTLGGTPSGSFIYNAFTLDNLIKISVEIAPKIIAEINPAAPWKKLTFPIVVAINPIVEANPPKIGNLKFLLIDKKYPKVNENQIDVNPIVIPFNWLNVYVPINHIFENTASF;locus_tag=LOCUS_05270;note=MGA_527
sequence1	MetaGeneAnnotator	CDS	337628	338143	.	+	0	ID=MGA_528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTSILGLGDNAEAAYNKFVNAESTPAALKDISQDMFNKIYDIAQNFKNSLNGKEFKDITNSDITQAFESLKNLYGTLGESDQNIFTTFILTLAGKNDIYSFTSSAASQFIEYNGAYVFFAKYRAASINHDQFGLAAAVYQFFVTFLLSFAKGSAGGLGLALAYAFFISFL;locus_tag=LOCUS_05280;note=MGA_528
sequence1	MetaGeneAnnotator	CDS	338201	338521	.	+	0	ID=MGA_529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILIVNLTLISDLGYTVAAKSGELGVFSTPIFDCFMNIGGSGASLALIIGTFVFSRRQDNRKISLYSAPCGVFQINEPIVFGFPIVLNGRYLAPFIIAPMVNIFLA;locus_tag=LOCUS_05290;note=WP_003725004.1 PTS sugar transporter subunit IIC (Listeria) [pid:53.3%25%2C q_cov:70.8%25%2C s_cov:16.5%25%2C Eval:2.8e-16%2C partial hit],internal stop codon at [338141:338143](+)%2C[338519:338521](+)%2C[338576:338578](+),MGA_529
sequence1	MetaGeneAnnotator	CDS	338759	338878	.	+	0	ID=MGA_530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFFNDPYLRATIKLEDKVERIVSYGESAFSNAEAQNRF;locus_tag=LOCUS_05300;note=MGA_530
sequence1	MetaGeneAnnotator	CDS	339167	339322	.	+	0	ID=MGA_531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDIKSKQLNEKQKYMELKRQNNEKLKAKKAELKQQLKDINMKFKESKIKA;locus_tag=LOCUS_05310;note=MGA_531
sequence1	MetaGeneAnnotator	CDS	339348	339596	.	+	0	ID=MGA_532;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDFLFSVSTCAFQIEGARSLGGRSQSIWDEFTKRNFVIPPIGKASREINSIEVAADFYHKYKTDARIMHKLGLNAFVYNMD;locus_tag=LOCUS_05320;note=WP_013222037.1 GH1 family beta-glucosidase (Amycolatopsis mediterranei) [pid:50.7%25%2C q_cov:91.5%25%2C s_cov:15.5%25%2C Eval:1.6e-11%2C partial hit],internal stop codon at [339594:339596](+)%2C[339714:339716](+)%2C[339729:339731](+)%2C[339774:339776](+),MGA_532
sequence1	MetaGeneAnnotator	CDS	339945	340103	.	+	0	ID=MGA_533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAAVTKEEFELAKKEGYISKEAIIGVDHDWSPPIAFSEDIEDTKACERYNE;locus_tag=LOCUS_05330;note=MGA_533
sequence1	MetaGeneAnnotator	CDS	340464	340613	.	+	0	ID=MGA_534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILENGMGDFDNKSEEMIIDNDRINYLSIHLQKVLEAKKLGINFIGYSL;locus_tag=LOCUS_05340;note=MGA_534
sequence1	MetaGeneAnnotator	CDS	341160	341786	.	+	0	ID=MGA_535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFDLKDKVLIKSGEDYYKLKDEFEKLEQEFEKKVYSSMMDETKRIQMIIKKAVIKAPVDEVFKAFVKLALKDLNPNIDINEIEEGCFGITSKKSSNQTFRVDTYEIDEEFTIKYFGKNNAYIRSILFKGVKNKTKIKYTDTNISKETIFGLKLNYLKGVYQKSRKFSFAIQVINLKLLVEILDETKKNKYKEKIKELTKKLIKYQE;locus_tag=LOCUS_05350;note=MGA_535
sequence1	MetaGeneAnnotator	CDS	341871	342683	.	+	0	ID=MGA_536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIILLDGQVKNYEQPKSVLDIAGDIAISLKKKCVGAIINDKDVLTNTALIDKDCKLELITDRHDLYKSVINYTARIITVFALKQIYPDAEIVPQSDDLSNDEFSVYFDYPKGMKFEELKSVEEKANKMIAEKTDFVFGKYSEEEFPELIRKINIKKEYQDYVKKECESRYIKYEIGNYKDDLFFARHALLKNTGSLFKIELTQLTGAYFLGDSSKPMIYKLHGLAAQSKEDFEVLKTRYEDQRNNDHKFIAKNLEIYHLDPIIGQGLPI;locus_tag=LOCUS_05360;note=WP_000591012.1 threonine--tRNA ligase (Streptococcus) [pid:26.3%25%2C q_cov:99.6%25%2C s_cov:40.3%25%2C Eval:1.1e-21%2C partial hit],internal stop codon at [342681:342683](+)%2C[342813:342815](+),MGA_536
sequence1	MetaGeneAnnotator	CDS	342834	343202	.	+	0	ID=MGA_537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSPMQLPKEEMVLKPMSCPHHISVYNYKQRSYRELPLRFAEHALQHRYESSGSLTGLERVRAMELTDSHIFVRPDQVKEEFIRCFNLIQEVLSTFDIKIDYLSLSLRDPNDKHKYFNDDKM;locus_tag=LOCUS_05370;note=WP_011183074.1 threonine--tRNA ligase (Mesoplasma florum) [pid:76.1%25%2C q_cov:92.6%25%2C s_cov:17.5%25%2C Eval:2.6e-46%2C partial hit],internal stop codon at [342681:342683](+)%2C[342813:342815](+)%2C[343200:343202](+),MGA_537
sequence1	MetaGeneAnnotator	CDS	343230	343508	.	+	0	ID=MGA_538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKELKLDYKKMIGEAAFYGPKLDIQAKTALGHEITVSTIQLDFLLPQKFELAYVGPNRELLRPIMIHRGLVGTYERFISVLLEQTKGVLPL;locus_tag=LOCUS_05380;note=WP_011183074.1 threonine--tRNA ligase (Mesoplasma florum) [pid:75.0%25%2C q_cov:100.0%25%2C s_cov:14.3%25%2C Eval:6.1e-35%2C partial hit],internal stop codon at [343200:343202](+)%2C[343506:343508](+),MGA_538
sequence1	MetaGeneAnnotator	CDS	343904	344080	.	+	0	ID=MGA_539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSKEDNMARRKKEKYITDKNFTFKKMFAALIMVGGGIKRHPIVFSFCTIFTVIDAIA;locus_tag=LOCUS_05390;note=MGA_539
sequence1	MetaGeneAnnotator	CDS	344210	344434	.	+	0	ID=MGA_540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFLFVVAEFLTNITAGIFSKKLEIDLRKAALKHLVDIDISYYSRNQIGLIMTRVIGDSQGIGDAFNMFYLTFI;locus_tag=LOCUS_05400;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:44.1%25%2C q_cov:91.9%25%2C s_cov:10.3%25%2C Eval:1.8e-10%2C partial hit],internal stop codon at [344432:344434](+)%2C[344495:344497](+),MGA_540
sequence1	MetaGeneAnnotator	CDS	344522	344731	.	+	0	ID=MGA_541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIIICIMFLYFRRANVIAFDVRQNIDADIIDRLINIRLVKSTGSENFESNRNKELHKKYEERKNHAVV;locus_tag=LOCUS_05410;note=MGA_541
sequence1	MetaGeneAnnotator	CDS	344762	344929	.	+	0	ID=MGA_542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISLLPIIMLIICIYLYQGKMPIKEFSSLTVTFISASTNFLINLSVLTQILRGMM;locus_tag=LOCUS_05420;note=MGA_542
sequence1	MetaGeneAnnotator	CDS	344930	345334	.	+	0	ID=MGA_543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNCAMRLNYIFDEKTIIHFIDDPVKIKTIETIEFKNVSFNYPESPHVKVLPTINISFEKGKSYAFVGETGVGKSTIAKMLLRFYDVTTGELLINGINIKNLDLANYLSHVGYVEQEPQILYGTVMDNLKYSLG;locus_tag=LOCUS_05430;note=WP_013447839.1 ABC transporter B family permease/ATP-binding protein (Mycoplasma leachii) [pid:54.5%25%2C q_cov:97.8%25%2C s_cov:21.4%25%2C Eval:7.8e-35%2C partial hit],internal stop codon at [344729:344731](+)%2C[344927:344929](+)%2C[345332:345334](+),MGA_543
sequence1	MetaGeneAnnotator	CDS	345443	345757	.	+	0	ID=MGA_544;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSGGQKQRLIIARLFLKNPELLILDEATSALDNIVEKEIQSELDELMKNRTTIVIAHRLSTIKNVDKVIVLERNEGITQIGSFDELKVTPGRFQKLYNYGLLK;locus_tag=LOCUS_05440;note=WP_011183431.1 ABC transporter ATP-binding protein/permease (Mesoplasma florum) [pid:73.1%25%2C q_cov:99.0%25%2C s_cov:16.4%25%2C Eval:3.2e-36%2C partial hit],internal stop codon at [345332:345334](+),MGA_544
sequence1	MetaGeneAnnotator	CDS	345809	346096	.	+	0	ID=MGA_545;product=PTS lactose/cellobiose transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000134124.1;translation=MGIITYAGMAKTNAVLAIREAKEKNYDKASELIKEAHDNIVTAEKMHMDVITAECNGEKIEFKVLFMHAEDQMLTTQSMIVLAEEMIDMYKVINK;locus_tag=LOCUS_05450;note=WP_000134124.1 PTS lactose/cellobiose transporter subunit IIA (Streptococcus) [pid:43.8%25%2C q_cov:93.7%25%2C s_cov:87.3%25%2C Eval:4.1e-15],MGA_545
sequence1	MetaGeneAnnotator	CDS	346370	347254	.	+	0	ID=MGA_546;product=MupG family TIM beta-alpha barrel fold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862965.1;translation=MGFYTIVDVEYKSMDLIGISINDASKCNEYGIDCLRLDSPSLPAEIAFVTHNKAKVDIQLNMSNNDSLIDNVMDFKPIANRLSGCHNFYPLEFTGLPFDYFMECNKRYLKYRLNTSAFIGSHHGVMTSAVGQKELPTIEEIRYLPVSQQAKVLFYTDEIDTVLFGNAYATDEELKELASVDRDEVTFDLKCVEGVTDIEKQVLLFDHYRRGDITEYFIRATQSRVKFKNDDFPARKSKSFYNRGDVVIINNSDKKYKAEIHIILEDNFADKIGKYNYLGTISESEKRLIDFVVP;locus_tag=LOCUS_05460;note=WP_020862965.1 MupG family TIM beta-alpha barrel fold protein (Mycoplasma mycoides) [pid:37.9%25%2C q_cov:99.3%25%2C s_cov:80.9%25%2C Eval:1.7e-58],internal stop codon at [346259:346261](+)%2C[347252:347254](+),MGA_546
sequence1	MetaGeneAnnotator	CDS	347441	348226	.	+	0	ID=MGA_547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSILGAAAILGSSASNVVACNSDDELSVVFIPSNNATEIINTVKPLEDKLSAKLKEKAEADGRTFSKKVKVSVSTSYEVAGNELSDGTIDVAFLPIGTYESIRGTLDQSTGLYSNAAVLLNASRSGVTPDTTLKEFKTNDKFDSSKASKVMDANLSYDLSNNYNNITKNGFSTKKEAQEKLLDDSNKASYYRSYIYANVKSLSDKYKIDFSKVAKEEYVTKLKDIFTNENNFTGENALKFAFGKSKTSSASALYPIM;locus_tag=LOCUS_05470;note=WP_011183471.1 PhnD/SsuA/transferrin family substrate-binding protein (Mesoplasma florum) [pid:39.1%25%2C q_cov:96.6%25%2C s_cov:59.5%25%2C Eval:1.8e-42%2C partial hit],internal stop codon at [348224:348226](+)%2C[348272:348274](+),MGA_547
sequence1	MetaGeneAnnotator	CDS	349285	349500	.	+	0	ID=MGA_548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDPILANQVMNDFALINKTDKITVIINIHHVELAKKYATRIIGVKDGEIVFNGPSKDLNEEKLKLIYGENY;locus_tag=LOCUS_05480;note=WP_011166288.1 phosphonate ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:66.7%25%2C q_cov:97.2%25%2C s_cov:27.6%25%2C Eval:1.2e-19%2C partial hit],internal stop codon at [349090:349092](+),MGA_548
sequence1	MetaGeneAnnotator	CDS	349592	349873	.	-	0	ID=MGA_549;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDAAAIEKGIEISTPNIEPAKAIEIVSQIDFKALFIKEIPILSFSRKFLKSQFTNFFNFSPNKEKLLKNLAQLISKKLNPKIIKQITTQKKV;locus_tag=LOCUS_05490;note=MGA_549
sequence1	MetaGeneAnnotator	CDS	349803	350480	.	+	0	ID=MGA_550;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFAGSILGVLISIPFSIAAASNIVKNKFINNFSRFIIAIFRTIPSFTYALILVGYFGQTMATVTIAITIFSFSITSKFLFERIEHININIFISMQATGANKFRSFRSAVVPQISSHIISAAFYALETNIRYISVIAGVTGVGIGQLINNGVSYGRYDKVGFMLALLIVIIIFLEILIYIIKNYIIFDRDYLLDQKEQKKAIKIQNAIKKENNLRFYIKYILLKE;locus_tag=LOCUS_05500;note=WP_011183469.1 ABC transporter permease subunit (Mesoplasma florum) [pid:51.8%25%2C q_cov:98.7%25%2C s_cov:25.5%25%2C Eval:1.2e-60%2C partial hit],internal stop codon at [349656:349658](+)%2C[349716:349718](+)%2C[349788:349790](+)%2C[350478:350480](+),MGA_550
sequence1	MetaGeneAnnotator	CDS	350490	350990	.	+	0	ID=MGA_551;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILKANKKTNLQQLREKKIEKNKIINKFKEEYKKNILKDKQKFVEYRKVHLNSRNWFIFNEELNNYVRMDKIYITKINLEVLNLKEKMISEIKDTAFSKHQEFKKTLTVEKVLKQKPLFFIKRMVMYLLILGLFAYSISLVKFRLENDATIASTNQHIKEIFNID;locus_tag=LOCUS_05510;note=MGA_551
sequence1	MetaGeneAnnotator	CDS	350997	351635	.	+	0	ID=MGA_552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKKHGNAPYSVIYLLIEGISISIIGTTLGAIFAYIFGVISSENIVNFYVAKFFVVINSAIRAIPSYIYAIIFISLVGMGPFTGALALMMGSIGMLSKYDREIFDDINMKLISQLQATGLNKWQRIKYGILPQSTSSIVSYIAYRFDINFKEVSVLGAVGASNMGYLLNSYFLQQYFSEFGTLLLGIMLVTILIEIISSTLRAKINLGVNPK;locus_tag=LOCUS_05520;note=WP_011183469.1 ABC transporter permease subunit (Mesoplasma florum) [pid:60.2%25%2C q_cov:97.2%25%2C s_cov:23.7%25%2C Eval:5.5e-70%2C partial hit],internal stop codon at [350988:350990](+)%2C[351633:351635](+)%2C[351654:351656](+)%2C[351669:351671](+)%2C[351825:351827](+),MGA_552
sequence1	MetaGeneAnnotator	CDS	351828	352142	.	+	0	ID=MGA_553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISYCNYFDIEFKNENFKDLKMLYKKHNELLKVNVNEFKKSRKEKIKFLISKKTEDKQKLKTYYSSEINKLETNYQKKEFKKEFRKNKNYINRNTKIAINSLNY;locus_tag=LOCUS_05530;note=MGA_553
sequence1	MetaGeneAnnotator	CDS	352151	352432	.	+	0	ID=MGA_554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTKLIELISSHNKIILLRHISPDFDAIGSQMSIFQFINDNFKNKTIKLGTTLPEEYKCIGKVDNLVEQDFEKALVIITDTANTARIDIEDVN;locus_tag=LOCUS_05540;note=WP_012775655.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Streptococcus suis) [pid:42.0%25%2C q_cov:94.6%25%2C s_cov:28.0%25%2C Eval:1.0e-13%2C partial hit],internal stop codon at [352430:352432](+),MGA_554
sequence1	MetaGeneAnnotator	CDS	352592	352864	.	+	0	ID=MGA_555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFHGLVTDTDRFMFRNVTNRTFKMAEILSKKIEDLNSIYKNIYQINTNEIRLKGYILSNFKIVKNEIAYIYLNKEVLKEYEINNPDKVAL;locus_tag=LOCUS_05550;note=MGA_555
sequence1	MetaGeneAnnotator	CDS	353298	354170	.	+	0	ID=MGA_556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLFVQKITNILNKIIIENNLKGEIIIESSKDENKGDFSTNFALINSKLNEKKPRELAGVLIASLSRESLFDKVEIAGPGFINMTINKESLGEVILKVLKEKDQYGKSRVKNLKYNLELVSANPTGYLHIGHARNGAIGDSVARILKFAGYEIETEYYTNDAGNQINISASTLFYHYKNLLNEPVNQPTEMYGGDMYIEVAKLFLEKFGDKFKNANINEDNKIDDPEIHNIFRSESISFFMKIIKQQLKDFGVEVDLYTSEAKMYETHEIEKTLDLYEKLGKTYTNDNAL;locus_tag=LOCUS_05560;note=WP_011183452.1 arginine--tRNA ligase (Mesoplasma florum) [pid:46.1%25%2C q_cov:93.4%25%2C s_cov:48.8%25%2C Eval:2.1e-66%2C partial hit],internal stop codon at [354168:354170](+)%2C[354309:354311](+),MGA_556
sequence1	MetaGeneAnnotator	CDS	354171	354311	.	+	0	ID=MGA_557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTTEFGDDKDRVLKKSNGDYTYITPDLASHNSRFKRSKADLYVNF;locus_tag=LOCUS_05570;note=WP_011166776.1 arginine--tRNA ligase (Mycoplasma mycoides) [pid:68.9%25%2C q_cov:97.8%25%2C s_cov:8.1%25%2C Eval:9.2e-12%2C partial hit],internal stop codon at [354168:354170](+)%2C[354309:354311](+)%2C[354468:354470](+),MGA_557
sequence1	MetaGeneAnnotator	CDS	354342	354470	.	+	0	ID=MGA_558;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAGLALLGYPLGILKIDMIQMVRLIKDGTELKMSKRKGTAI;locus_tag=LOCUS_05580;note=WP_011166776.1 arginine--tRNA ligase (Mycoplasma mycoides) [pid:73.8%25%2C q_cov:100.0%25%2C s_cov:7.6%25%2C Eval:1.1e-09%2C partial hit],internal stop codon at [354168:354170](+)%2C[354309:354311](+)%2C[354468:354470](+)%2C[354660:354662](+),MGA_558
sequence1	MetaGeneAnnotator	CDS	354489	354662	.	+	0	ID=MGA_559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGKDSIRYMLVSKNPSSHMDFDLDVVLKKNSTNPVYYAQYATARAYKIIQKANDLN;locus_tag=LOCUS_05590;note=WP_011183452.1 arginine--tRNA ligase (Mesoplasma florum) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:10.3%25%2C Eval:1.6e-16%2C partial hit],internal stop codon at [354309:354311](+)%2C[354468:354470](+)%2C[354660:354662](+),MGA_559
sequence1	MetaGeneAnnotator	CDS	354723	354962	.	+	0	ID=MGA_560;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDAFNKTVEYSANNRLPSVICDYIQNLAKRFHSYYSDFKVIDEENVDLSTQRCQLVKAIYQVLSNCFDLIGIDVINSM;locus_tag=LOCUS_05600;note=WP_011183452.1 arginine--tRNA ligase (Mesoplasma florum) [pid:47.4%25%2C q_cov:98.7%25%2C s_cov:14.1%25%2C Eval:2.5e-17%2C partial hit],internal stop codon at [354468:354470](+)%2C[354660:354662](+),MGA_560
sequence1	MetaGeneAnnotator	CDS	355157	355690	.	+	0	ID=MGA_561;product=translation initiation factor IF-3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183085.1;translation=MAENNKSAKTEFVNKEIRARQVLVINEDGTKLGPINKFEAIKMAEEQGLDLFQVGMQDNQTAIAKILDFGKYKYEQKRKQRENKKNQVKVENKEIRLTVGIGDHDMDTKARKAREFLEEGDRVKISLKFKGREIAYQEFGKQTLDKFFEKIEDIAKVEKEAKLNTRFLDMYVVPKKG;locus_tag=LOCUS_05610;gene=infC;note=WP_011183085.1 translation initiation factor IF-3 (Mesoplasma florum) [pid:64.9%25%2C q_cov:97.7%25%2C s_cov:96.7%25%2C Eval:7.4e-58],MGA_561
sequence1	MetaGeneAnnotator	CDS	355712	355906	.	+	0	ID=MGA_562;product=50S ribosomal protein L35;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003222418.1;translation=MPKMKTKSALAKRVKKNGTGKLKRGHAYRSHLAQNKSTKQKRHLKKASFISAGDMKRLKGLLQN;locus_tag=LOCUS_05620;gene=rpmI;note=WP_003222418.1 50S ribosomal protein L35 (Bacillus) [pid:64.1%25%2C q_cov:100.0%25%2C s_cov:97.0%25%2C Eval:9.7e-17],MGA_562
sequence1	MetaGeneAnnotator	CDS	356110	356289	.	+	0	ID=MGA_563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRINAAVRPLGLSYSKFMNGIKLAGIDINRKMLSELAIHEPQQFANIVEASKKALSAKK;locus_tag=LOCUS_05630;note=WP_011183087.1 50S ribosomal protein L20 (Mesoplasma florum) [pid:74.1%25%2C q_cov:98.3%25%2C s_cov:48.3%25%2C Eval:9.0e-18%2C partial hit],internal stop codon at [355972:355974](+)%2C[356104:356106](+),MGA_563
sequence1	MetaGeneAnnotator	CDS	356944	357123	.	+	0	ID=MGA_564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLTAIGNISGIVLEYFSNLIATKLSYKLKMKLIEIVALKINSLSDLEYEKYKKGEYLS;locus_tag=LOCUS_05640;note=MGA_564
sequence1	MetaGeneAnnotator	CDS	357652	357891	.	-	0	ID=MGA_565;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAYNFSLSENSEVVVKTIKEVIKVISKYKVDFTILQTDRKIANASYAVKDLINLCPNLVLSMSEAGFKHNAPTEALNG;locus_tag=LOCUS_05650;note=MGA_565
sequence1	MetaGeneAnnotator	CDS	358452	358679	.	-	0	ID=MGA_566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRVGNSLDNREIKYFFSCLKGEYLNHINTSKMSFKEIFNHIDWYIDWYIDWYIDWYIDWYIDWYNNKRIQKVLN;locus_tag=LOCUS_05660;note=MGA_566
sequence1	MetaGeneAnnotator	CDS	359039	359227	.	-	0	ID=MGA_567;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHRTTFYKKQKIRSYKYNNLKSEVVKILSESKFIYGSRKISILLEKEKIFICDRTLRHYLKR;locus_tag=LOCUS_05670;note=MGA_567
sequence1	MetaGeneAnnotator	CDS	359315	359434	.	-	0	ID=MGA_568;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSLKRKKGSGRHKKRDDSDIPGIINDLTEEQKREIIED;locus_tag=LOCUS_05680;note=MGA_568
sequence1	MetaGeneAnnotator	CDS	359674	359859	.	-	0	ID=MGA_569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDIENKLLKDENKKLEKELNKLKKEKLKDKAKIEFLEKRMPSFMNLSKTQMKIQTSKKA;locus_tag=LOCUS_05690;note=MGA_569
sequence1	MetaGeneAnnotator	CDS	359929	360054	.	-	0	ID=MGA_570;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKVIDKKIKLIAIKKFLAGEKTSKISEELNLKSGQVQIKQ;locus_tag=LOCUS_05700;note=MGA_570
sequence1	MetaGeneAnnotator	CDS	360174	360356	.	-	0	ID=MGA_571;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFFIKLFPSFAFETSLTKPTKPDKKKEEQAVVSNSAPGFTKSKKYNTAATIIQLCCSII;locus_tag=LOCUS_05710;note=MGA_571
sequence1	MetaGeneAnnotator	CDS	360283	360702	.	+	0	ID=MGA_572;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGFVGLVSDVSNAKEGKSLIKKYKIENKIKKEIFKNIEFNELEIRNLNYSVENKQIFKNFNLEFKKNKKYLIVRESGKGKSTLFRIIFGIIKNHSGDIFINKNINYKDLSDKQIKKIISYLPQQPTVFDDSIRNNVNL;locus_tag=LOCUS_05720;note=WP_011254198.1 ABC transporter ATP-binding protein (Lactobacillus acidophilus) [pid:39.8%25%2C q_cov:69.1%25%2C s_cov:18.0%25%2C Eval:1.6e-11%2C partial hit],internal stop codon at [360700:360702](+),MGA_572
sequence1	MetaGeneAnnotator	CDS	360835	361023	.	+	0	ID=MGA_573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIARALVEDKQIIIMYEITASLDKFNRKSIEDLVGDLNKTVLYISHTTELDNKNFDYVIKL;locus_tag=LOCUS_05730;note=MGA_573
sequence1	MetaGeneAnnotator	CDS	361095	361370	.	+	0	ID=MGA_574;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSLILNYSFLAVGQILDDAMNKDKNKLIIHTIVIIVGLSISQILSSFNSFIIVARANKKLIIEIRKTISDKINSLSFQNYSEYKKGQYIS;locus_tag=LOCUS_05740;note=MGA_574
sequence1	MetaGeneAnnotator	CDS	361494	362222	.	+	0	ID=MGA_575;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAFISVIVSIVLPMFFYKKDEKYNYQYSKTSEQNSTKSLSLINGYKELSYRNKKETFSKLICDINKPIELLKSKIKSFDYSKNLIGSLVRNLFKIAIVLVGIYLFSIGKATAGSVISAPVITYNLNSSVLSLANSFIKIKTVKKIKEKFIFENAQEDNYIPKKIRFKSLKIDNSTFFIEKRKIYSNFELEIKINKKYLLIGESGKGKTTLFKIIFGLINNYKGDIKINNEINYKSLDVKDI;locus_tag=LOCUS_05750;note=WP_002681273.1 ABC transporter ATP-binding protein (Treponema denticola) [pid:23.2%25%2C q_cov:95.5%25%2C s_cov:43.9%25%2C Eval:1.7e-12%2C partial hit],internal stop codon at [361368:361370](+)%2C[361482:361484](+)%2C[362220:362222](+)%2C[362355:362357](+),MGA_575
sequence1	MetaGeneAnnotator	CDS	362382	362618	.	+	0	ID=MGA_576;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVNDTKNLSGGEVQKIAIARALLQNKPFMIMDEITASLDNENRLNIEKMVANLDKTVLFISHTIDIDNNNFDLTIRL;locus_tag=LOCUS_05760;note=WP_011183065.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:53.4%25%2C q_cov:92.3%25%2C s_cov:13.8%25%2C Eval:8.4e-13%2C partial hit],internal stop codon at [362220:362222](+)%2C[362355:362357](+),MGA_576
sequence1	MetaGeneAnnotator	CDS	362765	363367	.	-	0	ID=MGA_577;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQFKDKSSKLKSSNGTEFIPSGLLMYPVLMASDILLYDADLVPVGKDQKQHIELTRSIGERMNSKYGQMFKIPEEYTPKVGAKILDLQDPTKKMSKSSDNPKSYIALLDNIDEVKRKIKSAVTDSENLIKFDPENKPGVSNLITIYSCLKNISIEDVEEFFKEKDYGVLKDEVSAAVVDLLTPIQNKYKEIYNSKQVEE;locus_tag=LOCUS_05770;note=WP_011166551.1 tryptophan--tRNA ligase (Mycoplasma mycoides) [pid:65.3%25%2C q_cov:100.0%25%2C s_cov:59.2%25%2C Eval:2.4e-69%2C partial hit],internal stop codon at [362765:362767](-)%2C[363407:363409](-),MGA_577
sequence1	MetaGeneAnnotator	CDS	363407	363685	.	-	0	ID=MGA_578;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKRMVSGITTTGKITLGNYIGALKNFVELQDEYDMYIFVANLHGITTPIEKEVLRQNIKQAIALYFACGLDPNKATVFLQSDVSEHSELS;locus_tag=LOCUS_05780;note=WP_011166551.1 tryptophan--tRNA ligase (Mycoplasma mycoides) [pid:62.6%25%2C q_cov:98.9%25%2C s_cov:27.1%25%2C Eval:5.0e-29%2C partial hit],internal stop codon at [363407:363409](-),MGA_578
sequence1	MetaGeneAnnotator	CDS	363846	364649	.	+	0	ID=MGA_579;product=NAD(+)/NADH kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166499.1;translation=MFKFNIVNNDYEITKAPVLNLKEKLLEKGHIIDEKNPEYVFIIGGDGTFLKAVRLYQEKLDLVNFVPFKFGGIGFYTNKNDLKQIDMIIDKLEKNDLFNLTYQLLEVENGPTTHYVVNEIRILNEKKPLYVKVFINDEYLETFHGTGLVVSTSTGSTGYIKSAGGSVVLPKNSGLYQIQELVPVSTNRFRTLNSPIILNDSYYVKLEFETEQEVLICDTHVTEVHGTILNIKVSNKKIKVLSHKDPKSMSEINILREIFIIDKKEVE;locus_tag=LOCUS_05790;note=WP_011166499.1 NAD(+)/NADH kinase (Mycoplasma mycoides) [pid:43.7%25%2C q_cov:98.1%25%2C s_cov:98.5%25%2C Eval:6.5e-51],MGA_579
sequence1	MetaGeneAnnotator	CDS	364649	365020	.	+	0	ID=MGA_580;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNLIYIMVGIISALCLISLYIYLSFTKRINIKFKRNKLQNDPKAFTYSNIMKGLGGIENVSSIEKDKIYLLSYSIVNIKYLKSIGIKVDNQKDYVVLDVKNFNMNNFYKKLENELEKNKNS;locus_tag=LOCUS_05800;note=MGA_580
sequence1	MetaGeneAnnotator	CDS	365030	365332	.	-	0	ID=MGA_581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSISYEEFKQIENDPDVLIIDVRTDMEYKTLPKVPNSINCEISKLLSNYQAIVGNDKKRLIVTVCNAGNRSGESAEFLSEKGYNAKVLIGGAYGYSRKK;locus_tag=LOCUS_05810;note=MGA_581
sequence1	MetaGeneAnnotator	CDS	365556	366065	.	+	0	ID=MGA_582;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEIKFMALGGQDERGKNAFIVSVDGDLFVFDAGIKFPERSILGIDVVIPSFEYLEANAKKIKGIFLSNPSSNNAGAISYILRVIDVPVYCNELTSTLLKYRNLKYRIKNRENNFKIVNDKDIVKFGKNSVEIFRTTSSFPETFGFALHTEDGTIVYAGDYIIDGNEQS;locus_tag=LOCUS_05820;note=WP_011166497.1 ribonuclease J (Mycoplasma mycoides) [pid:59.2%25%2C q_cov:100.0%25%2C s_cov:29.0%25%2C Eval:1.3e-58%2C partial hit],internal stop codon at [366063:366065](+),MGA_582
sequence1	MetaGeneAnnotator	CDS	366078	366632	.	+	0	ID=MGA_583;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNHLAKIAERNVLALLSDSEYASRIGYTVPNHRIDKYIATPMKDLKHRLVLGLFEEDVFKLFEIIKQAKEQGRKMAIYGKTISKVVESKIIQDSLKISKDDIISLEEYMKSTDGILVLTGAGDLLYSRLAKIAAGNDEVIEFSEQDTIVLATPPAAGVEKRHAEILDELARTNANLIALSDKNI;locus_tag=LOCUS_05830;note=WP_011182989.1 ribonuclease J (Mesoplasma florum) [pid:59.0%25%2C q_cov:99.5%25%2C s_cov:31.3%25%2C Eval:8.4e-63%2C partial hit],internal stop codon at [366063:366065](+)%2C[366630:366632](+),MGA_583
sequence1	MetaGeneAnnotator	CDS	366636	367268	.	+	0	ID=MGA_584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRASYEDIKLMTRIMKPKSFIPIKGLYKEFLSAERAALEAGVKKENIQLINNGQVLKISKDGRLVIASEMIKTSDVYVDGIGVGDIGAVVLNERKQLATDGVVSIGANIDEKTKDLASLIDIQMRGVIYIQEDNPIFKLMQKQIVTILEKYKIEAKTKNIPYDLNNIKKDIISKIRSSIKQETGKQPIVLVVVNEINVNSFYEPKKKVNK;locus_tag=LOCUS_05840;note=WP_011166497.1 ribonuclease J (Mycoplasma mycoides) [pid:49.3%25%2C q_cov:98.6%25%2C s_cov:35.3%25%2C Eval:6.6e-52%2C partial hit],internal stop codon at [366630:366632](+),MGA_584
sequence1	MetaGeneAnnotator	CDS	368275	368568	.	+	0	ID=MGA_585;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKEFFANFSNLFLQELINFYITNITIKANKNIYLYPNSQLKLDNKSRTNYKDFFLANKHKNVLNNVEFNLLFSANQKSTNFLNSLNEIRFYISYED;locus_tag=LOCUS_05850;note=MGA_585
sequence1	MetaGeneAnnotator	CDS	369283	369570	.	-	0	ID=MGA_586;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNLFLGLNLIPKYMAKSIIKNNKYKKYLNQPNKKVKTKSSNNCPITVILPNATTFMKNKSSAEIIHAIESGLLCFLWISSALVRSSSLASSVI;locus_tag=LOCUS_05860;note=MGA_586
sequence1	MetaGeneAnnotator	CDS	369926	372262	.	+	0	ID=MGA_587;product=DNA translocase FtsK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182997.1;translation=MFKPKNKRRGKRLRILSLKSKDSNGNINKIKRPKRNSIFSVINLDGERTLDERDILASVKESDITIEMPSYIKNSDHYIYRNVDENFYNEDYVSSPQASYDPIFDFDQNILGSSSKGYLQVQDNYNNLAEQQNFQQYQNFNNQNNYNYQQSYQQTPKFMNQYQDMGYTNNQFTGNDNSLFANSQIEAKENFIEAQEDVRKAFERQTSITPHGFNGKTQEFLSAMKKEKLEKEGQVQSTLDQFLVKDKVYKNEVETNAFSEEYVSPMENIVKTNFHGDYGYSRQNNSSNTIELDTNKAIEKTVFVNLGYQLPSIELLNVDENSRHEYEKLKAQAQLKENSINNTFREFNVDAKVVDKNIGPTVTKFEVQPGPRTKVNNVTSLENDLKLSLATQNIRIEAPIPGKTLVGIEVPNDTSMVVPLRSVIEKAPLTKISSKLLFAIGKTVSGELLFGELDKAPHLLVAGSTGSGKSVMINGIITSILLRAKPHEVKLLLIDPKKVELSIYSSIPHLLAPVISDMNLANSALKKVINEMERRYALMQSTKTKNIETYNATVKDPAKKLPFYVVVIDELADLMMTANKKDVEDSIKRITQMARAAGIHLIVATQRPSTDVITGVIKSNITTRIGFSVASTIDSRTILDSSGAEKLIGKGDLLYHPPNANNVTRAQGSFVSDDEIKRIVDHCSRQQNQMFEEEFMVQENESYEPSGGSRQKDPLFEEIKQYVIREQKASTSLIQRKFSIGYGRAARIIDELEENGVIGPAKNNSKPRDVYIKNGDFY;locus_tag=LOCUS_05870;note=WP_011182997.1 DNA translocase FtsK (Mesoplasma florum) [pid:42.4%25%2C q_cov:99.4%25%2C s_cov:76.2%25%2C Eval:7.4e-154],internal stop codon at [369899:369901](+),MGA_587
sequence1	MetaGeneAnnotator	CDS	372295	372909	.	-	0	ID=MGA_588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIKGIEDFVDKKGAYKLFNKAVLKGYIALSASEIISQELTILNLKDYAQNVINRVNKFVKTDIDVEYLFDIVNFEFFSDYEATKLHIDNQEQIKSIKVTVKEGKENSLEQVSLSGSATVKTFLKLDLNNLINITTLNNLKFGAIHPGEGKIISHLLKANNIEEYNKGLIVKNIDKSNKSAIISLSDRFNNPYFLSSDIELNYT;locus_tag=LOCUS_05880;note=MGA_588
sequence1	MetaGeneAnnotator	CDS	373024	374352	.	+	0	ID=MGA_589;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVENQLKTLPEKPGCYMYFNKDNKVIYVGKAKNLKKRVSSYFTKAHDVKTTKLVRDIVKLETIITLNEKESLLLEQNLIKKYKPRYNIVLNDDKNYPYIAITNEKDPEYIYVRNYNAKNKKSFGPFPDGSSARKILRTIERIYPLRRCKGNLGHPCTYYYIQQCSGACFKEVEQTYYENQIKKIENFFLGVSDDVQNILESKMLQAAKNLQFEEAQRIKEIIEHLKFTTEKQDVDLNDNINRDIFNYYEFENYICFTVLFYRSGKLSLKNNEVIKNEGQDINDLFKSYILQIYTKNLVPDFIGIPIEINVEDLKLYLEKNIINENDLNTNRLLNLAKENAKEFLFQKLHYANNNNITKEDILKQLQVLLKLDSFPYHIEMYDVANMLDEYVTGAMVVFKNGIVSKNDFRKYNIEINEKGDYHRIKEMIYRRYSKDADFPEK;locus_tag=LOCUS_05890;note=WP_011182998.1 excinuclease ABC subunit UvrC (Mesoplasma florum) [pid:51.1%25%2C q_cov:98.4%25%2C s_cov:74.0%25%2C Eval:9.1e-124%2C partial hit],internal stop codon at [374350:374352](+),MGA_589
sequence1	MetaGeneAnnotator	CDS	374368	374793	.	+	0	ID=MGA_590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGGIIQVHAAKEALKSLNINIPIMGLVKNDNHKTESILDLEERKIEIDKKSDLFKLLENFQLRVHNYAISGFRKRQQKGILKEDYISKVKGLGDIKIKKLYENFKSISSMQTLSVDQLNEVIKNKKIAEILFEHLKNYKR;locus_tag=LOCUS_05900;note=WP_011166494.1 excinuclease ABC subunit UvrC (Mycoplasma mycoides) [pid:44.1%25%2C q_cov:96.5%25%2C s_cov:22.9%25%2C Eval:2.9e-27%2C partial hit],internal stop codon at [374350:374352](+),MGA_590
sequence1	MetaGeneAnnotator	CDS	374833	375327	.	+	0	ID=MGA_591;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMSETKEDLKKTKKELVVVEKRKDSEHKLAKIKKTKFEIEPFEKIKTPFYKISNPKEIFGMAIPIFIQLLFTILITQINLIAINNYMGGAYAEGTSKSVLAYNTLQFVPSLIATGTIIVSGNLIGQGRKEEVSRVIVTGLLVNLSIMLPIFVIITILSDTIVS;locus_tag=LOCUS_05910;note=MGA_591
sequence1	MetaGeneAnnotator	CDS	375442	375696	.	+	0	ID=MGA_592;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMSIYQVFVAGLQAFKKSKVVTIGTMIANVIDLSLISIILYGTNIPPVYSSLVLPITGLFQIFFMLFMCLKYIDFKVNKKRQLS;locus_tag=LOCUS_05920;note=MGA_592
sequence1	MetaGeneAnnotator	CDS	376023	376196	.	-	0	ID=MGA_593;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTNDTKIGYHKSPTLHKARNKVIFTVSNNIFTEKIVRTETPHGIAVSLEFKSNNKG;locus_tag=LOCUS_05930;note=MGA_593
sequence1	MetaGeneAnnotator	CDS	376195	376332	.	+	0	ID=MGA_594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIGMVALPFILVKALNIVEGPGLLCVYSAVVVDPFLRSIIYVNR;locus_tag=LOCUS_05940;note=MGA_594
sequence1	MetaGeneAnnotator	CDS	376414	376881	.	+	0	ID=MGA_595;product=transcription elongation factor GreA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166493.1;translation=MDKDIILTEEGLEEVKQELNNLINVVRPEVIAELVEARAQGDLSENADYDAARNRQAEVEARIKELETMISRAKIISSDVKTSEVKIGNTVLFKNIKINKQMEIKIVGAIEADPFEGKISNESPLAKAMLGKKVKDIIEVRELKEPYKIEILTIK;locus_tag=LOCUS_05950;gene=greA;note=WP_011166493.1 transcription elongation factor GreA (Mycoplasma mycoides) [pid:67.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-51],MGA_595
sequence1	MetaGeneAnnotator	CDS	376901	377176	.	+	0	ID=MGA_596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAKEFLDKKINNLVNSHPDLKQIIAKLARLKRNCRLFGTFALLGLILGIVILIASTNHIIPGVEYGSQAIIILFIIGVLGVVAGLILLIF;locus_tag=LOCUS_05960;note=MGA_596
sequence1	MetaGeneAnnotator	CDS	377567	377809	.	+	0	ID=MGA_597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENTKYDETYNGVRVVQEKDPVKGLFQTDSIEFNKRFYINVKENDIRGPKFLSPRLIEKLSSLDIKNIYSVGIEGNIYAD;locus_tag=LOCUS_05970;note=MGA_597
sequence1	MetaGeneAnnotator	CDS	378157	378636	.	+	0	ID=MGA_598;product=LemA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003704892.1;translation=MNYLRRMNVKVSESESGIDVQLKRRRDTLLKLIDAVKGSIKFEKETLSTIVSMRSGVGIEGMMKNQRAMDSIQRGINIQMENYPNLKSTDNIRELMDATRDIEEDISAQRRIYNQNVSEFNQSIAVYPMNQAAASLKYVNKYFFEITEAEREDVVINFD;locus_tag=LOCUS_05980;note=WP_003704892.1 LemA family protein (Ligilactobacillus salivarius) [pid:31.7%25%2C q_cov:98.7%25%2C s_cov:88.6%25%2C Eval:1.5e-18],MGA_598
sequence1	MetaGeneAnnotator	CDS	378820	379281	.	+	0	ID=MGA_599;product=LemA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003704892.1;translation=MHIGINNRIKRLKVKINQGESDIDVQLKLRKDLLLKLIDSVKGSIKFEKELLSTLTSMRTGSGLENSAKNSKILDKIGKEINLQMENYPDLKSTSAIRDLMNSTSEVEETISYARRNYNDAVSTYNQVVSTYPSNVVAKFSRCKYRSFFEVAD;locus_tag=LOCUS_05990;note=WP_003704892.1 LemA family protein (Ligilactobacillus salivarius) [pid:32.1%25%2C q_cov:98.7%25%2C s_cov:85.4%25%2C Eval:1.5e-17],MGA_599
sequence1	MetaGeneAnnotator	CDS	379329	379982	.	+	0	ID=MGA_600;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVQKTFKDKKPIIYLVGTPIGNINDFSFRAINILKEVNKIYCEDTRTSKTLLDNYKIKNNLIALHKFNENFKTDNIKNDIENNLNIAIISDAGVPGISDPGLKILNNLSQEILNFSISAVNCGPAYIHALVISGFDFVKNCFLGFLSKKPDQISEQVLNIVKSDKDIVISFYESVHRIVNTMNVFFNILNHNVEVTICRELTKVNEEIIRGSLKEV;locus_tag=LOCUS_06000;note=WP_011166745.1 16S rRNA (cytidine(1402)-2'-O)-methyltransferase (Mycoplasma mycoides) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:73.9%25%2C Eval:8.0e-56%2C partial hit],internal stop codon at [379980:379982](+),MGA_600
sequence1	MetaGeneAnnotator	CDS	380261	380587	.	+	0	ID=MGA_601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRELTNQEKHDVIGGAGITGALFSGIASIFKSIGSFFTDTINTGVTAGLAYKYAGSADEFEYKNGSSSFKFSKKASISAKNDLDKKALDIEAKTAESFIPVAPVISFN;locus_tag=LOCUS_06010;note=MGA_601
sequence1	MetaGeneAnnotator	CDS	380761	381294	.	+	0	ID=MGA_602;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAIIKTGGKQLTVKPGDEIFVEKLVVEEGKTVIFDQVLATDTKIGTPLVSGAIVTGTVIKQGKGRKLRVVRYHPKKNVNKVYGHRQPYTKVKIDAISLDGSVPKQVAAPKEPEVKKVDTPVASNDAAPKPAAPKPTAPKKPAAPKPAATKKPTAPKDAASKPAAPKKPAAPKPEEK;locus_tag=LOCUS_06020;note=WP_011183340.1 50S ribosomal protein L21 (Mesoplasma) [pid:71.1%25%2C q_cov:54.8%25%2C s_cov:98.0%25%2C Eval:7.5e-34%2C partial hit],MGA_602
sequence1	MetaGeneAnnotator	CDS	381294	381605	.	+	0	ID=MGA_603;product=ribosomal-processing cysteine protease Prp;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166742.1;translation=MVLARFNFKNENIKKVTVSGHAEADNYGNDLVCAGITAIISGTLNGLDQLYKKDVELIVLENEIVIIVKKDSKDLQKILIFLLIQLQTIEIQYPKNFKIEEVL;locus_tag=LOCUS_06030;note=WP_011166742.1 ribosomal-processing cysteine protease Prp (Mycoplasma mycoides) [pid:49.5%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:8.6e-21],MGA_603
sequence1	MetaGeneAnnotator	CDS	381607	381897	.	+	0	ID=MGA_604;product=50S ribosomal protein L27;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008362816.1;translation=MCFLLGLQYFASKKGVGSTKNGRDSESKRLGAKKADGQFANAGSIIFRQRGTKIHAGTNVGRGGDDTLFALVSGIVKYERFGKNRTRAIVVPQQQK;locus_tag=LOCUS_06040;gene=rpmA;note=WP_008362816.1 50S ribosomal protein L27 (Mycoplasma mycoides group) [pid:85.9%25%2C q_cov:95.8%25%2C s_cov:98.9%25%2C Eval:1.3e-40],MGA_604
sequence1	MetaGeneAnnotator	CDS	381986	382156	.	+	0	ID=MGA_605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINKEVLLGRYFDEAIENTKKIVAMPSYRRDLTKGSKLPQDTLNVLNYCIDLCKS;locus_tag=LOCUS_06050;note=MGA_605
sequence1	MetaGeneAnnotator	CDS	382319	382456	.	+	0	ID=MGA_606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGRGAFDDKGPTMMNLFAFKYLIDNGFKSNYKIRFIFGTCEETN;locus_tag=LOCUS_06060;note=WP_011183336.1 M20 family metallopeptidase (Mesoplasma florum) [pid:66.7%25%2C q_cov:97.8%25%2C s_cov:10.0%25%2C Eval:5.1e-10%2C partial hit],internal stop codon at [382154:382156](+)%2C[382277:382279](+)%2C[382454:382456](+)%2C[382547:382549](+),MGA_606
sequence1	MetaGeneAnnotator	CDS	382784	383338	.	+	0	ID=MGA_607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFVLNKLNFDHPLIKFVANDIYADYEMKNIFGNLEDETGVLTACNGIIDINKKSFKYTLNLRIPCTRDVQKDVVEKLSSYLIEKNIKTNTVKLEDRVYFPKDSEVVTKMMSIYQEVTGDYKTEPIAIGGGTFAKSMPNIIAFGAEFDLNDSTMHSYNEYVKIEDLKKMIEIYAKSIVLLTYNQ;locus_tag=LOCUS_06070;note=WP_020862797.1 M20 family metallopeptidase (Mycoplasma mycoides) [pid:49.1%25%2C q_cov:94.0%25%2C s_cov:38.5%25%2C Eval:2.2e-47%2C partial hit],internal stop codon at [382547:382549](+),MGA_607
sequence1	MetaGeneAnnotator	CDS	383425	383787	.	+	0	ID=MGA_608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKIQQDLQKYIEEHAKMQFNCYNLSKNCDDLGYPGFTHFFQVQAQDEFVHQRRIMNYLLDRSQSFEAPSVSAEKVSYKSITEILKAYVDHRTHFANITNEFANNAKEAKDYTTFKFYE;locus_tag=LOCUS_06080;note=MGA_608
sequence1	MetaGeneAnnotator	CDS	384704	385096	.	+	0	ID=MGA_609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKLPAVMFVVDPKNDEIAVKEARKLRIPVIGICDTNVDPDMVDYVIPANDDIQESVNLIVNYIVDVYADAAGLKLQPSTLKVVAQKKEDGVQGQRFGEGRAPRRFDEDRNASKNEESKKDLEANKAEKA;locus_tag=LOCUS_06090;note=WP_013729687.1 30S ribosomal protein S2 (Mycoplasma mycoides) [pid:70.8%25%2C q_cov:68.5%25%2C s_cov:30.5%25%2C Eval:2.8e-32%2C partial hit],internal stop codon at [384530:384532](+)%2C[384587:384589](+),MGA_609
sequence1	MetaGeneAnnotator	CDS	385115	385387	.	-	0	ID=MGA_610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFSFLETKSVSELTSKTIPLFPFVLAKATPSAAILSDFLAAFTKPFSLSQIIASSITPFVASNAFLQSIIPADVISLNSLICCGLTAII;locus_tag=LOCUS_06100;note=MGA_610
sequence1	MetaGeneAnnotator	CDS	385386	385991	.	+	0	ID=MGA_611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLIKEIGDALLAASAKTLEEALEVKLSSGTVKEACISATATIGEKIELRRFVSVDGDSIAVYNHANNRISVLLQFEGDISQEDAYDVCMHVAAMAPKYLSRDEVPQDFKDQEMHIIKENTDLTGKPENIAKGILEGKLSKKLAEVTLLDQGFVKDEKQTVGNFIKSKKATLKSMYRFEVGEGIEKVITDFAAEVAAQLKG;locus_tag=LOCUS_06110;note=WP_011166783.1 translation elongation factor Ts (Mycoplasma mycoides) [pid:58.5%25%2C q_cov:99.5%25%2C s_cov:70.2%25%2C Eval:1.1e-58%2C partial hit],internal stop codon at [385236:385238](+),MGA_611
sequence1	MetaGeneAnnotator	CDS	386364	386540	.	+	0	ID=MGA_612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFDEEKLFVFDKGIKKEKIVNILNDQSSNMLYINYTEGKTSLKKIAIPFKSTTAEFI;locus_tag=LOCUS_06120;note=MGA_612
sequence1	MetaGeneAnnotator	CDS	386622	387017	.	+	0	ID=MGA_613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDPAEEENIQQVPTQVIIDGQEIDPNQQYMDNQQLYPNQQYMDNQQLYPNQQYMENQQLDPNQQYMDNQQLDQNQQYMENQQLDQNQQYYGQDNMNNPEPQNQEFYQDVPNEQSQNNEEDALFKDGDFDD;locus_tag=LOCUS_06130;note=MGA_613
sequence1	MetaGeneAnnotator	CDS	387203	387583	.	+	0	ID=MGA_614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNKKTLNYVIACLTSLKTVVIIGLLIFYMIKVLNANQYDDDGELVKLDSSQKGLVYFAFISMIIAITFFAIAFVIYFIFDYENKIKLFCFSIVTFSIEGIICSSIMIKKSIFYFNKNSFKVFKN;locus_tag=LOCUS_06140;note=MGA_614
sequence1	MetaGeneAnnotator	CDS	389623	389793	.	+	0	ID=MGA_615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALKFKRVLLKISGEALKGSSDEIYDKVKLEDTARQVISLTREGLQVGIVVGGGNI;locus_tag=LOCUS_06150;note=WP_011183454.1 UMP kinase (Mesoplasma florum) [pid:60.7%25%2C q_cov:100.0%25%2C s_cov:23.1%25%2C Eval:3.2e-12%2C partial hit],internal stop codon at [389791:389793](+),MGA_615
sequence1	MetaGeneAnnotator	CDS	389845	390339	.	+	0	ID=MGA_616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMFATIMNALAIEATIKKMGFEKVKVYSSLEIRTVTSSYNYRNAREKLDEGYIVIFAGGTGFSYFTTDTGACIRGIEIEADALLMAKNGTKGVYDSDPNINPNAKFLSNLSFHDLVVKNLKVMDSTAASLAHDGKLDIVVFDMNGQDNIIKIAHGELEATFIK;locus_tag=LOCUS_06160;note=WP_011183454.1 UMP kinase (Mesoplasma florum) [pid:64.6%25%2C q_cov:100.0%25%2C s_cov:68.9%25%2C Eval:8.9e-57%2C partial hit],internal stop codon at [389791:389793](+),MGA_616
sequence1	MetaGeneAnnotator	CDS	390354	390899	.	+	0	ID=MGA_617;product=ribosome recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166777.1;translation=MLKDILENAQLEMEEVIEAFKHYLSKVRTGRANASMLKSVVVDFYGTPTPIDQTSQITSPEPQQLLVKPYDRGQLPNVVAAIHKADLGLNPMSEGDLIRIIIPQLTEDVRKDLVKKVHKELETFKIRVRNARRDANEKIKKSDFTEDDKGYGEDEVQKLTDKYIQSLDSITKDKEKDLMTI;locus_tag=LOCUS_06170;gene=frr;note=WP_011166777.1 ribosome recycling factor (Mycoplasma mycoides) [pid:55.6%25%2C q_cov:97.8%25%2C s_cov:97.8%25%2C Eval:3.8e-52],MGA_617
sequence1	MetaGeneAnnotator	CDS	391085	392563	.	+	0	ID=MGA_618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFLKIKNVLSQEILNVSSNVVKEVEIKPIKEEQRENLEDTQYIQSFFNGVGEEDSDEFFNLGEEESLFDIEEIEIDSTLKSIEKDDEIKLNEEEENEVLGKIDEPKNFERPDTRVHFSTPINPDLTGSLSRTPAVDETLSDMEPVAIFNKEKRVSNNSLDKLYETPKIMPSRVRGNDNSINIFDNNVAIKNSIFNNQNEQKQNDYNQSNIKDKHNHNYNNHTNFENNQNMYRENFNNSNLQYQNSFSNAAQENVSSITINNDSLEQNINASNKVQESVITNDNTRMLSAFERKIGSIITKEIPENKNNILETQTIKTKEIKTELNSIENKPNNNFEVLKETNIEIIKKLKNKSENQNIIDQNQSFEKKMADPNIYDYTKDSNKPSEPVFNESFEDSELTASQTDKLVIEGLANKDEKVIEKHFDALTTGPLNTKKLLDNFNKQQKIAKNLDLNFKESLDENENNIFGQNSQFNKKALNESIIYKRFKTLTC;locus_tag=LOCUS_06180;note=MGA_618
sequence1	MetaGeneAnnotator	CDS	392615	393040	.	+	0	ID=MGA_619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSSYAYLDLKSFNFNQILAKVFHMYLFETDAFINFKVYAIGDIVLIILTPMLLFTFAIYLIVYLVCVSDKQYKKIAFYNFELGSKIEVIEQIQEFNNETSLYLLKIHNDMKKIKKEVKSFKTKDNTNTKSEKEQPINIQH;locus_tag=LOCUS_06190;note=MGA_619
sequence1	MetaGeneAnnotator	CDS	394441	394590	.	+	0	ID=MGA_620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYYYSSNKLIADFINYRLATQNLKGILKRRVIEKTKTQINVEDLKVKV;locus_tag=LOCUS_06200;note=MGA_620
sequence1	MetaGeneAnnotator	CDS	394648	394989	.	-	0	ID=MGA_621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKVAKRLLNSIGLFDNMVEVIACPTCGRLEFDLKDVVNEIEEYVESFKFPLKIAILGCVVNGPGEASQADIGIAGGRNGGIIFKKGEIFKTVEQNYLVPELKNLINEYYDN;locus_tag=LOCUS_06210;note=WP_010886567.1 flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase (Bacillus) [pid:50.5%25%2C q_cov:94.7%25%2C s_cov:28.4%25%2C Eval:1.2e-27%2C partial hit],internal stop codon at [395128:395130](-)%2C[395269:395271](-),MGA_621
sequence1	MetaGeneAnnotator	CDS	395128	395256	.	-	0	ID=MGA_622;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVESLREHIEILEKYEFYDIIYSLKATDPIMAIEAYSMASEI;locus_tag=LOCUS_06220;note=MGA_622
sequence1	MetaGeneAnnotator	CDS	395269	395706	.	-	0	ID=MGA_623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKREKTRKIYVGNVQIGGNNKVVIQSMTTSKTHNVNETLKQINELYKEGCEVVRVAVLGIHDANALKEIVEKSPIPVVADIHFNYKFALIAADAGCAKIRINPGNIGIEENTIAVVQKCKDKKIPIRIGINSGSLPKKLVQKYG;locus_tag=LOCUS_06230;note=WP_010880999.1 (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase (Aquifex aeolicus) [pid:55.2%25%2C q_cov:100.0%25%2C s_cov:40.6%25%2C Eval:1.9e-40%2C partial hit],internal stop codon at [395128:395130](-)%2C[395269:395271](-),MGA_623
sequence1	MetaGeneAnnotator	CDS	395799	396452	.	+	0	ID=MGA_624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADKITLKDIVEINKILTKKSYNSLKEFNTYLDVIGEYIDDTFFKQNIIAEKLIKHQELSSRFIDLQFEESSLNLSYKNLHDYLSNCKRAIEKALYSDSSIFNFSIFVEIKSIVRYILEKTYEIESLTDYETLYGINTIEFHQQNETFKYLYSVFDKFTYIARHLNERFLKHNKIDVSELSLKFFKDFPNDISFLAQNVASYQVLVTTIETITYSKA;locus_tag=LOCUS_06240;note=WP_011183449.1 hypothetical protein (Mesoplasma florum) [pid:29.6%25%2C q_cov:82.5%25%2C s_cov:62.7%25%2C Eval:9.9e-14%2C partial hit],internal stop codon at [396450:396452](+),MGA_624
sequence1	MetaGeneAnnotator	CDS	396718	397404	.	+	0	ID=MGA_625;product=segregation/condensation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183448.1;translation=MIKDKQVSILEINLLELSNQYLEYIKKIADKDIELASEYLVMAAYFLELKSKFLIPKEEVLVDGDYEEDQRKELLNRLLEYHKIKEVTEFFKEQQIESLKGLSKAKSIIKITRIDDEKLPLAPNNINLDKFSKIFLRAIEKSKFRTVETNILTTTEVSPEEIANEIKKHLIKHSIDKIKLEDLIEQKDFSLRMLVATFMAVLDLASKKLINIFQEGDDIIVENISKGE;locus_tag=LOCUS_06250;note=WP_011183448.1 segregation/condensation protein A (Mesoplasma florum) [pid:35.0%25%2C q_cov:96.1%25%2C s_cov:83.4%25%2C Eval:5.4e-29],MGA_625
sequence1	MetaGeneAnnotator	CDS	397408	397962	.	+	0	ID=MGA_626;product=segregation/condensation protein ScpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000375167.1;translation=MNFKKQMAIVEGLFFVNGDEGTSIEDIKLILEINDEKKIVEVINALIEKYQKDDSCGLEIQNFAKTKYRMITKKENVEFYTKLSNIKTETKLSTASIETLSIIAYKGPITRAAVENIRGVNCDAIFYKLKTRNLITNVGKSDEVGKPSLYKVTDSFLKYFNLKSLDDLPKIEDESKNEKDIFGR;locus_tag=LOCUS_06260;gene=scpB;note=WP_000375167.1 segregation/condensation protein ScpB (Bacillus cereus) [pid:44.6%25%2C q_cov:98.9%25%2C s_cov:95.3%25%2C Eval:5.3e-33],MGA_626
sequence1	MetaGeneAnnotator	CDS	397968	398708	.	+	0	ID=MGA_627;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183446.1;translation=MERLQKIIAARGYCSRRQAENLIAQGKVKVNGVVVTEAGSSFDKNVVIFINNKEVKKVSDKVYYLFNKPRLVLTTMNDPKGRPTVADYFKDSKIRVFPVGRLDYDVSGALIMTNDGEFANFVMHPRYEFRKTYQALCKGTVSKQQIKKLIVGVIIDDDYKTKAIYAKLVNYDAKFDESIVEITVAEGRKHHVKKMLIAADIFLKKLKRTQIEFLEISDVKLGTYRALKTHEVKMFYGLYNSNNRKN;locus_tag=LOCUS_06270;note=WP_011183446.1 pseudouridine synthase (Mesoplasma) [pid:67.3%25%2C q_cov:99.6%25%2C s_cov:97.6%25%2C Eval:4.3e-91],MGA_627
sequence1	MetaGeneAnnotator	CDS	398769	399485	.	+	0	ID=MGA_628;product=YebC/PmpR family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183444.1;translation=MGRAHEVRKQSMEKTAAMKSAIYGRAAKEIYMAAKSGSADPDSNLALRSAIDKAKSKQVPADVIQRAIKRASGGDAENYTSNRYEGYGPGNSMIIVDSLTTNVNRAIAEIRDAFNKNGGKIANSGSVSHSFQATSLFAFEGKSVEEVLELLMESDCEVNDVVEEEGLTIVYAPFNSFNSVKQVLDNIGIGDYKIAETIMLADENIKIEDEEAVANFEKLINKLNELEDVQNVYHNVED;locus_tag=LOCUS_06280;note=WP_011183444.1 YebC/PmpR family DNA-binding transcriptional regulator (Mesoplasma) [pid:61.0%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:1.7e-73],MGA_628
sequence1	MetaGeneAnnotator	CDS	399542	400252	.	+	0	ID=MGA_629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRDIVLLRAVEVAALATHKYIGRKDKKLIDQAAVEALEVILKNEKDFKLKVVNGEGELDEAPMLYSGQILGDIENPEAKIYDLSVDPVEGTYPAAYNFAGSVAAIAVSRLNTQLQLPEMYMEKLFVSDEFREWIDLKKGIINVIKDMQKFCQRKDLKCIILDKPRHKEIIEELSAIGVIVRMIQDGDVLAAIDVVNGAADFVYGIGGAPEGSLMASLAIASGCKMQSRLVPYQEI;locus_tag=LOCUS_06290;note=WP_011016951.1 class II fructose-bisphosphatase (Fusobacterium nucleatum) [pid:43.5%25%2C q_cov:96.6%25%2C s_cov:68.8%25%2C Eval:5.3e-43%2C partial hit],internal stop codon at [400250:400252](+)%2C[400298:400300](+),MGA_629
sequence1	MetaGeneAnnotator	CDS	400608	400934	.	+	0	ID=MGA_630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIIVYVATALTLVCLITLKMFNIYIYSSIKVVNINSADINISTSKINDITTKLVSYLNVTDLKIIYGETDFYCRITKMLNRKKQLVEIPKWIMPSVGYELDYLIASI;locus_tag=LOCUS_06300;note=WP_011166578.1 hypothetical protein (Mycoplasma mycoides) [pid:29.6%25%2C q_cov:100.0%25%2C s_cov:39.3%25%2C Eval:1.8e-10%2C partial hit],internal stop codon at [400932:400934](+),MGA_630
sequence1	MetaGeneAnnotator	CDS	400986	401390	.	+	0	ID=MGA_631;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAQILPSTFILIYIVALILDLILIILNKYILSDFDYYGSFFEFLGKFFILDFIAILFFFMYITCLFFATKHKINIEATYEREIVKFVDENCEGYKSDIGAARVYSLKIDKLYLNTFLFNKKTSNIKFCGPFTML;locus_tag=LOCUS_06310;note=MGA_631
sequence1	MetaGeneAnnotator	CDS	401565	401783	.	-	0	ID=MGA_632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGVKVKIRILGSIKMIDAGEIDTKLFGVFHDDPRFNAYQKISDVPQHLKDEIENFFLQYKSLQKKEVRIDG;locus_tag=LOCUS_06320;note=WP_011183442.1 inorganic diphosphatase (Mesoplasma florum) [pid:80.6%25%2C q_cov:100.0%25%2C s_cov:38.5%25%2C Eval:1.3e-29%2C partial hit],internal stop codon at [401454:401456](-)%2C[401565:401567](-)%2C[401829:401831](-),MGA_632
sequence1	MetaGeneAnnotator	CDS	401829	401990	.	-	0	ID=MGA_633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNVIEMIVEIPKGSSNKYEYDIASKSISLDRVLYGANFYPGEYGFIDETLD;locus_tag=LOCUS_06330;note=WP_011166592.1 inorganic diphosphatase (Mycoplasma mycoides group) [pid:79.2%25%2C q_cov:100.0%25%2C s_cov:28.5%25%2C Eval:3.0e-18%2C partial hit],internal stop codon at [401565:401567](-)%2C[401829:401831](-),MGA_633
sequence1	MetaGeneAnnotator	CDS	402206	402334	.	-	0	ID=MGA_634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVKKLISTLKNPPITNGVSANALKADKTIFNAKTVARIAIL;locus_tag=LOCUS_06340;note=MGA_634
sequence1	MetaGeneAnnotator	CDS	402447	402734	.	+	0	ID=MGA_635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLSDLFALSFFILVSNLLNMKKEHTGKMKIYIKYIFAAVVVSISTGFFNILINFTFILDMYSEYMGVEAIKALKTYSFASVLIFFNFIKYVTNF;locus_tag=LOCUS_06350;note=MGA_635
sequence1	MetaGeneAnnotator	CDS	402879	403250	.	+	0	ID=MGA_636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDKKEQHVIPEHKEDGKKHDHYHGEHHFDGQGNHDDILDEDFNIKNSIYTSKRNLIFRTAAAGTFLALAAIGSAIDMFGERFFKLPLNEIILSIRYFDILIICLSIASIGPVFSSFIGVIMP;locus_tag=LOCUS_06360;note=WP_011166593.1 ECF transporter S component (Mycoplasma mycoides) [pid:44.8%25%2C q_cov:90.2%25%2C s_cov:39.0%25%2C Eval:5.3e-23%2C partial hit],internal stop codon at [403248:403250](+)%2C[403326:403328](+)%2C[403335:403337](+),MGA_636
sequence1	MetaGeneAnnotator	CDS	403401	403592	.	+	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKRYMPLVGFIPVSVIVYTAFTILIIFITDQSGHHHDDHDESIINKIISYHEKHEHEAQGDE;locus_tag=LOCUS_06370;note=MGA_637
sequence1	MetaGeneAnnotator	CDS	403835	404863	.	+	0	ID=MGA_638;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003428483.1;translation=MGKKPLYVSLDLGTAYTLVYISGQGIVYNEPSIVAYKIAENKIVAVGEEAYKMIGKANKNLRIVRPMVDGVITDIKATQSQLNHIFARLRLTKALQGSVILMACPSVITELEKNALRKIATNLGAAHVFVEEEVKMAALGGGVNINSPTGQLVIDMGGGTSDVAVIASGDIVSSKSIKVAGNTLNEEILKFIRAQYGMEVGIKTAETVKIQMGSLAKYPDERSMKVYGRDVVSGLPREIEITPPEIREVLKVPLSKIIDLTVRVLEETPPELAGDIFRNGIVLCGGTALIKGIDKYFGDTLQLPVKVGEQPLLAVINGTRKYEEDIYDKLREMLYKPKNQEF;locus_tag=LOCUS_06380;note=WP_003428483.1 rod shape-determining protein (Clostridioides difficile) [pid:44.2%25%2C q_cov:95.3%25%2C s_cov:92.9%25%2C Eval:4.6e-74],MGA_638
sequence1	MetaGeneAnnotator	CDS	405191	405361	.	+	0	ID=MGA_639;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTEELREALKLERALKKHLAKTTKEKYFAIFKYSKKFTLSLVCKDLSISIFGYLK;locus_tag=LOCUS_06390;note=MGA_639
sequence1	MetaGeneAnnotator	CDS	405902	406120	.	+	0	ID=MGA_640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKRGNSLDNGACESFFGTIKNECIYTYKIKELNFSNIYTIISDYIDFYNYVRPMLKHKKSPYEIRMEKVPF;locus_tag=LOCUS_06400;note=WP_120719025.1 IS3 family transposase (Streptococcus) [pid:44.8%25%2C q_cov:91.7%25%2C s_cov:14.9%25%2C Eval:6.4e-08%2C partial hit],internal stop codon at [405644:405646](+)%2C[405650:405652](+)%2C[405740:405742](+)%2C[405863:405865](+),MGA_640
sequence1	MetaGeneAnnotator	CDS	406460	407035	.	+	0	ID=MGA_641;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADISRMERNKELHNKIRLEIAQKKQKQDEKSLIYTTFERLKLIDGEYFKEKLDYFDKKHQIEKPYLDKDKSNSLISEDIRFQIKREIAELKKIKPIDYDKKPQKTEMNEEIEIKSAKFLKYYNNLVANEKVFYDNIEKFKVKQKILKDPSHDISMTTVQQVRNSDTRSTNIMIKSVEDRLEAGQKTLNKV;locus_tag=LOCUS_06410;note=MGA_641
sequence1	MetaGeneAnnotator	CDS	407147	407737	.	+	0	ID=MGA_642;product=(d)CMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183095.1;translation=MNLKINIAVDGTASSGKSSVMMVVAKDLGFHFIDTGLMYRAYTKMCLDNKVDFNNNVKIIEQLKNFDFHYREGNQIYVGNKNYTKYLSDYDVVENIKYIATLLEVRNKMVDLQRKMAINGNKIMVGRDITTVVLPNAELKIYFDCSAETRAKRRVKQNEENNIYPNDYEDILRQIIQRDESDKNRKESPLMIAKDA;locus_tag=LOCUS_06420;gene=cmk;EC_number=2.7.4.25;note=WP_011183095.1 (d)CMP kinase (Mesoplasma florum) [pid:51.1%25%2C q_cov:92.9%25%2C s_cov:82.6%25%2C Eval:3.1e-45],internal stop codon at [407735:407737](+),MGA_642
sequence1	MetaGeneAnnotator	CDS	407829	407975	.	+	0	ID=MGA_643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRKGIVAIVGRPNVGKSTLFNRIIKEKKAIVEDRPGVTRDRMYGNAE;locus_tag=LOCUS_06430;note=WP_011183096.1 ribosome biogenesis GTPase Der (Mesoplasma florum) [pid:84.8%25%2C q_cov:95.8%25%2C s_cov:10.6%25%2C Eval:3.8e-16%2C partial hit],internal stop codon at [407973:407975](+),MGA_643
sequence1	MetaGeneAnnotator	CDS	408030	408716	.	+	0	ID=MGA_644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAKEIKMQAEIAMKEADVIIFLLNFKEGITLEDEAVAKLLYKTNKPIILAINKYDKKEKYDESYSYMSLGFGEPFLVSSSHGIGTGDLLDKVIEQLPKFNDENLEAETKLAIVGKPNVGKSSIVNALVGENRMIVSEIAGTTIDSVDTKIKYNNSEYTLIDTAGLRKKGKIYETLEKYSYLRSLTSINKADIVLLVLDSSTPISDHDTNIGGFAFDEHKPIIIVGNK;locus_tag=LOCUS_06440;note=WP_011183096.1 ribosome biogenesis GTPase Der (Mesoplasma florum) [pid:64.3%25%2C q_cov:99.6%25%2C s_cov:52.2%25%2C Eval:8.5e-83%2C partial hit],internal stop codon at [407973:407975](+)%2C[408714:408716](+),MGA_644
sequence1	MetaGeneAnnotator	CDS	408744	409139	.	+	0	ID=MGA_645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKEEEIRAYFKYLNYASILFVSAKENKRVNKIFDAVDLIKKNLKKRIRTSILNEIFNKAQLINPSPNHNGGRLKIYYASQVEAYLPTFVLFVNNPSYLHFSYKRFLENQIRTQFDFSGVPITLIFRERK;locus_tag=LOCUS_06450;note=WP_011183096.1 ribosome biogenesis GTPase Der (Mesoplasma florum) [pid:72.5%25%2C q_cov:100.0%25%2C s_cov:30.1%25%2C Eval:1.6e-51%2C partial hit],internal stop codon at [408714:408716](+),MGA_645
sequence1	MetaGeneAnnotator	CDS	409144	410148	.	+	0	ID=MGA_646;product=NAD(P)H-dependent glycerol-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183097.1;translation=MKKINVAIIGTGAYGTVLANVLADNGHDVVMYGIERIQVEDINNNHLNTRFFQDLIINSNIKATTDIAEAMENAQVVILSTPTFAIENAVDNIIKYGKREMHVINVAKGLDENNLNVLSKFIVNKLTGTGVMKSFGAIYGPSVAIEVIMRKPTCVMSCNEDIKTAEYIAELFTNDYFIVKPTRDIIGCEIAAALKNTVAIASGLLFGFNAADNAKASLITIGNAEIYNIAKEYGAKIETFMNFATLGDLILTASSIKSRNFSLGVQIAQKDDASAVLKYHKNTVEGVKTCEIAYKIVKKLKISSPLFEIMYKILYNKGKPSVLINDFFKHAKVV;locus_tag=LOCUS_06460;note=WP_011183097.1 NAD(P)H-dependent glycerol-3-phosphate dehydrogenase (Mesoplasma florum) [pid:53.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-95],MGA_646
sequence1	MetaGeneAnnotator	CDS	410169	410447	.	+	0	ID=MGA_647;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166598.1;translation=MTKKELSDKLASEFNHSKADGEKMVNFIFDSITSSLIKGEEVAIAGFGKFATADRAAREGVNPSTGEKIKIEATTVAKFKVAKQLKEAVAKK;locus_tag=LOCUS_06470;note=WP_011166598.1 HU family DNA-binding protein (Mycoplasma mycoides group) [pid:58.4%25%2C q_cov:96.7%25%2C s_cov:98.9%25%2C Eval:2.1e-22],MGA_647
sequence1	MetaGeneAnnotator	CDS	410512	411054	.	+	0	ID=MGA_648;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDLFKRGIINKKSLLILNYSKFSINENQLAILLIIMELSNEEQKNFTPSQIAKYMNLEKDVIEQEISKLLVDGLITIEQNGKKSILDLSPLFNKIIVSLEEQNSGLAKDMKYSFIEQMLRINLTQENIDLIIEYMNKGLSKPKILSIITENNIKTFDELINYLNEYVKKTNKLKITRYN;locus_tag=LOCUS_06480;note=MGA_648
sequence1	MetaGeneAnnotator	CDS	411128	411526	.	-	0	ID=MGA_649;product=Holliday junction resolvase RecU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166600.1;translation=MILKNKGMYLETVINNSLHALLKKGLLIQKVPINNSIINIENNVIKAKLEKNSFCDYIGIYNGIYLEFDAKETNKADFNLANIKKNQFEKLKLINNLNGIAFLIIYFHDYDSYFAVNYNQLSNFKIKKIPYE;locus_tag=LOCUS_06490;EC_number=3.1.21.10;note=WP_011166600.1 Holliday junction resolvase RecU (Mycoplasma mycoides) [pid:47.6%25%2C q_cov:92.4%25%2C s_cov:84.4%25%2C Eval:6.4e-29],MGA_649
sequence1	MetaGeneAnnotator	CDS	413165	413302	.	-	0	ID=MGA_650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNQGLDLKDLPSFRSPIYDRAVEIIKDYNDANNMLASGSDLIRK;locus_tag=LOCUS_06500;note=MGA_650
sequence1	MetaGeneAnnotator	CDS	414108	414449	.	+	0	ID=MGA_651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANVNINAQLTKKDILEKEFEVEYKGYKVEEVDSFLDLIAEDYKYYEKMESEKEQIIQKLNERCQSLENDLNQTIATLKLTKKQQEELARKGVNSSDIIKRISALEKTNLNKD;locus_tag=LOCUS_06510;note=WP_013447854.1 DivIVA domain-containing protein (Mycoplasma leachii) [pid:31.4%25%2C q_cov:76.1%25%2C s_cov:68.8%25%2C Eval:9.2e-07%2C partial hit],MGA_651
sequence1	MetaGeneAnnotator	CDS	414866	415321	.	+	0	ID=MGA_652;product=nicotinamide-nucleotide amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013447851.1;translation=MNKLFEYLKNNNYTLASCESFTGGMFANLFTNMSGASDYFKGAYVCYSNEFKIKHLNIEEQIIKKNSEVSKEVLTKMLKQTQALLNVNVVFGFTGFASPIDNNNPRSGLSYVGFAINNDIFIYEFIDVNNLSREEYKIKAIEYVLKKFNSI;locus_tag=LOCUS_06520;note=WP_013447851.1 nicotinamide-nucleotide amidohydrolase family protein (Mycoplasma leachii) [pid:41.1%25%2C q_cov:100.0%25%2C s_cov:96.8%25%2C Eval:8.4e-29],MGA_652
sequence1	MetaGeneAnnotator	CDS	415378	416349	.	+	0	ID=MGA_653;product=recombinase RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166605.1;translation=MLKKIESNVNEGFVLNMENIYDDPNFKAVLKDIEKTFGKGAIMRLGDKANNFIEALPSGSFLIDNAIGIGGYPKGRIIEIFGPESSGKTTLSLHAIAEAQKNKGRAAFIDAEHALDPKYAKNLGVDIENLIVAQPDSGEQALDILEMLVKSNTMDVIVVDSVAALVPKSELEGEMSDQQIGLQARLMSKALRKLNGIISKTNTTVIFINQLREKVGVIFGNPETTPGGRALRFYSSLRMEVRKGETLTLNGEANANKIKVKIVKNKVSPPFKTCTIIIAYNKGIEKDLEIIELATLYNILTRAGVWYSYNEEKIGQGKESVRE;locus_tag=LOCUS_06530;gene=recA;note=WP_011166605.1 recombinase RecA (Mycoplasma mycoides group) [pid:65.0%25%2C q_cov:99.1%25%2C s_cov:91.3%25%2C Eval:8.5e-115],MGA_653
sequence1	MetaGeneAnnotator	CDS	416581	416760	.	+	0	ID=MGA_654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLPNYSFNEKLVLIIPIFVLVCIFGTISDCSSTLEFLKIKTINRIKDNTVLKIAFICI;locus_tag=LOCUS_06540;note=MGA_654
sequence1	MetaGeneAnnotator	CDS	416779	417198	.	+	0	ID=MGA_655;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFYFLLLIKKRMIKAGPYEYKNKISYKFGGFFDNIFGITNKGIAKSILVKGLIASIFIIVFLTAAVLIQTKVIYLDEKITANCISLYIFGLLIHILLIISYLNEYSYICRKSNDQVKDKKYFAIAIYTLFIPILNFVF;locus_tag=LOCUS_06550;note=MGA_655
sequence1	MetaGeneAnnotator	CDS	419022	419537	.	+	0	ID=MGA_656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKAKDEAKKIKMEAIAAAKIEATILKNSIEEELFSKRAEIEHESALLEQKKIKYFDDLENLNLRESKIVEQQLENNRVKNKLSVDVDNVVEILEKLADMSSEEAKERLLIYAESTYIEDIYKEIKTKEEFIRKNSREIVLNIIMEAMEKSHVQIATEKNTTIFKLEDDS;locus_tag=LOCUS_06560;note=MGA_656
sequence1	MetaGeneAnnotator	CDS	419736	420434	.	+	0	ID=MGA_657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISEEQKIQETFFKTGNQVTKDLNIFDLDEEIILNLGKLKYRFSYGQSVLQHSIEVAKIAKSLANALELDEQIALKAGLLHDIGKAMDFEQEGSHVELGSNLLKMHKIDNIIVNCVESHHGDVEKKSVYAEIISIADTISAARFGARNNGAEQFFERLKEVETECEKFYGVLKAYVFQSGRQIRVIVNPDIIQDHEMLNLTQQIKEKIKSINKTPGDIYITLIREKRESTKL;locus_tag=LOCUS_06570;note=WP_011166606.1 ribonuclease Y (Mycoplasma mycoides group) [pid:49.8%25%2C q_cov:98.7%25%2C s_cov:45.0%25%2C Eval:3.3e-58%2C partial hit],internal stop codon at [419535:419537](+),MGA_657
sequence1	MetaGeneAnnotator	CDS	420701	421243	.	+	0	ID=MGA_658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLKIMLKILGLCVITTSTTSVVACQGPAGGSSNSNDGPSYDYLNQIVGDFRTYDIKKYGAPSIDNLVNMFNAKSKFKVLKKHNNQPNTILLKSFEITSEKLIKVEFELPDIESNKHYLYLNQKPYIELNFSLNFTYEDQEFFIKKIDEKVYGEGVKQKTFLNDLESLLFDGIYDDLKS;locus_tag=LOCUS_06580;note=MGA_658
sequence1	MetaGeneAnnotator	CDS	421313	421462	.	+	0	ID=MGA_659;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQDYFLKNQGLKYKDYSDSNHNNFFSNSLLEENIIPDSFSFTFMPKNH;locus_tag=LOCUS_06590;note=MGA_659
sequence1	MetaGeneAnnotator	CDS	421565	421810	.	+	0	ID=MGA_660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQSSYNRKVVLNSFYNKDNSTKEFLESIYNNNLNTFLKPLTKKIIDTKIMNISLSYQKNPSSNTKDDVFEKLDLSTLIGK;locus_tag=LOCUS_06600;note=MGA_660
sequence1	MetaGeneAnnotator	CDS	422037	422255	.	-	0	ID=MGA_661;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRRGNSPDNGACESFFGTLKNECIYTYKVNELNYSNIYNVISDYIEFYNYVRPILKYKKTPYEIRMEKVSF;locus_tag=LOCUS_06610;note=WP_140860145.1 IS3 family transposase (Streptococcus shenyangsis) [pid:49.2%25%2C q_cov:81.9%25%2C s_cov:13.1%25%2C Eval:2.0e-09%2C partial hit],internal stop codon at [422292:422294](-)%2C[422388:422390](-)%2C[422415:422417](-),MGA_661
sequence1	MetaGeneAnnotator	CDS	422415	422696	.	-	0	ID=MGA_662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITLMLNKYFKMNLKPWVVYRYMKILGIKAVKKKRVPDHYKSTPLRFKNILNRNFKANNLNEKWVTDVTYIKTSSGMVYLSVIKDLYNSEIVD;locus_tag=LOCUS_06620;note=WP_011475831.1 IS3 family transposase (Ligilactobacillus salivarius) [pid:38.9%25%2C q_cov:97.8%25%2C s_cov:35.8%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [422292:422294](-)%2C[422388:422390](-)%2C[422415:422417](-),MGA_662
sequence1	MetaGeneAnnotator	CDS	422795	422965	.	-	0	ID=MGA_663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLEELREALKLERALKNHLAKTVKEKYFAIFNAKKCFSLKIVCKYLGVSRYGYLK;locus_tag=LOCUS_06630;note=MGA_663
sequence1	MetaGeneAnnotator	CDS	423292	423840	.	-	0	ID=MGA_664;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSNDSEGGYAGRVHVIDNNGVSILIKRQLEEVHHLLDRGVKPNDICKKIEEKYKKIKGYIIPKTLDQLVRGGRITKAAAGLAKILKITPILSYKGVIDKEDKTRTFKKAVSKVIEKIINETSGEYVVDIAYSDCSKELLQSVKDMVVEKGLKLGLVESLPYVIVCHTGAETFAFFANKIDK;locus_tag=LOCUS_06640;note=WP_011183488.1 DegV family protein (Mesoplasma florum) [pid:42.7%25%2C q_cov:94.0%25%2C s_cov:62.0%25%2C Eval:1.2e-29%2C partial hit],internal stop codon at [423922:423924](-),MGA_664
sequence1	MetaGeneAnnotator	CDS	423922	424134	.	-	0	ID=MGA_665;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTAIIIDSSCGVKDLSKYKDTFLVPLVILKEDGTSIKDDQNFTKKEYDELNAKQVLRTSQTITGDMLTK;locus_tag=LOCUS_06650;note=MGA_665
sequence1	MetaGeneAnnotator	CDS	424193	424495	.	-	0	ID=MGA_666;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLGIKRNFKSYAKSDISTMNMFDGYENFKDLPILFIHGFKDDFITYNCSIVMYNLKIQQEKNKISDLMIFKNAKHSSCYHKNENEYKEKIFNFINNFKR;locus_tag=LOCUS_06660;note=WP_011183212.1 alpha/beta fold hydrolase (Mesoplasma florum) [pid:39.1%25%2C q_cov:92.0%25%2C s_cov:26.5%25%2C Eval:2.4e-12%2C partial hit],internal stop codon at [424502:424504](-)%2C[424580:424582](-)%2C[424691:424693](-),MGA_666
sequence1	MetaGeneAnnotator	CDS	424691	424870	.	-	0	ID=MGA_667;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGLHGFKRNKYIGLRNCNFFYNKGYNILTFDAYAHGNTYGFKSDFGVTNAKILDFLIK;locus_tag=LOCUS_06670;note=WP_011183212.1 alpha/beta fold hydrolase (Mesoplasma florum) [pid:63.8%25%2C q_cov:98.3%25%2C s_cov:17.1%25%2C Eval:2.6e-17%2C partial hit],internal stop codon at [424502:424504](-)%2C[424580:424582](-)%2C[424691:424693](-)%2C[424871:424873](-)%2C[425012:425014](-),MGA_667
sequence1	MetaGeneAnnotator	CDS	425012	425230	.	-	0	ID=MGA_668;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNNNKLKINNYRKAFKVIKRYMYNPLKVFVMVLFFPIVFFLSFLCSKLFIFYLFNYKRIGLSKQGFKLNS;locus_tag=LOCUS_06680;note=MGA_668
sequence1	MetaGeneAnnotator	CDS	425949	426188	.	+	0	ID=MGA_669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQMQSIEERLKFFSKDKFKKYGVVLKEAIKAHPKLFSLFIIISTLDTVLFSGMTFIVSNLVKSITNTGGHSIFGMPVE;locus_tag=LOCUS_06690;note=MGA_669
sequence1	MetaGeneAnnotator	CDS	426216	426491	.	+	0	ID=MGA_670;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLSYIVIEYLLNYTSGIFTRLTEIFIRVKCLKTLTDVDLSFYSKNQIGNIMTKIIGDSQGMADGMNEFLVNLSYIVLMFTLINVIMFSIN;locus_tag=LOCUS_06700;note=MGA_670
sequence1	MetaGeneAnnotator	CDS	426828	427763	.	+	0	ID=MGA_671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIAEVSAMIISFISCISILTGAVFLLPVVLRALSRTMNCNSRLVFIYSHKSLLKYVPEPTKIDKIDSIELKGVEFIYPEAPGKLIMPEINLTFEKGKSYAFVGETGSGKSTIAKLLLRFYDPSKGSVLINGIDIREIDLPSYLSHVGYVEQEPQILFGTVMDNIRYGNFDATDEEVIAAAKKAQLNNFILGLADKYDTILGERGFILSGGQKQRLVIARMFLKNPELLILDEATSALDNIVEKEVQAQLDKLVVGRTTIVIAHRLSTIKNCDQIIVLGKDAGGIIEVGTFDELKNSTGHFGELYKAGLMS;locus_tag=LOCUS_06710;note=WP_011183431.1 ABC transporter ATP-binding protein/permease (Mesoplasma florum) [pid:56.0%25%2C q_cov:100.0%25%2C s_cov:49.4%25%2C Eval:2.2e-96%2C partial hit],internal stop codon at [426732:426734](+)%2C[426774:426776](+),MGA_671
sequence1	MetaGeneAnnotator	CDS	427775	428017	.	+	0	ID=MGA_672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPYEQGAKSKIMDKIVSEKNQIGYLKMLFKYFKKHPMVGITIFFLAAITSSIAVSLPLVMQEMITGLQSENQALTHRFIV;locus_tag=LOCUS_06720;note=MGA_672
sequence1	MetaGeneAnnotator	CDS	428039	428332	.	+	0	ID=MGA_673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLQIGMYCILAITIFSLYLSVGKLGKRIEIHLRNQTVKALLMQDISYYTDQKIGEILTRIAQDTQIIGEQTQNIPTMALMAIFNFVGSGIVLSIID;locus_tag=LOCUS_06730;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:45.8%25%2C q_cov:99.0%25%2C s_cov:14.6%25%2C Eval:2.5e-17%2C partial hit],internal stop codon at [428330:428332](+),MGA_673
sequence1	MetaGeneAnnotator	CDS	428393	429256	.	+	0	ID=MGA_674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRVQNKMMELRTVITYVNGDITDRIATVRLIKASGTEEYEKNRFQEIHNQFYDVVKIFFKRFSLILTAAFVAVMAVQLIIFTCAYAFYSNDQQRLIVVATSFASGLGTMVSPIYQVLRISFGYLMANQCTKRVQLVITSKPRFDQHYYEGTGINLEHIDGDIIFEDVKFAYPEKLDQIILPKFNFRFEKGKSYAFVGETGSGKSTISRLLLRFYDPTEGRVLINETQDLKNLRLKSYLDRVGYVEQEPQIMFGTAKENIKYTNPDATDEQVIAAAKKANLHDLIMT;locus_tag=LOCUS_06740;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:48.9%25%2C q_cov:96.2%25%2C s_cov:41.6%25%2C Eval:8.8e-73%2C partial hit],internal stop codon at [428330:428332](+)%2C[429254:429256](+),MGA_674
sequence1	MetaGeneAnnotator	CDS	429260	429634	.	+	0	ID=MGA_675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYETILGERGFMLSGGQKQRLVIARMFLKNPELLILDEATSALDNVVEKEIQKELEKLMIGRTSVSIAHRLSTIKNCDQIIVLAPGQGVVQTGTYDELKKLPGHFKNLYDAGLMKEDKKQTIL;locus_tag=LOCUS_06750;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:79.2%25%2C q_cov:96.8%25%2C s_cov:18.2%25%2C Eval:2.5e-49%2C partial hit],internal stop codon at [429254:429256](+),MGA_675
sequence1	MetaGeneAnnotator	CDS	429789	429965	.	+	0	ID=MGA_676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLFGLVSATLVASLTTTALSCNIVEVDKEVEDNVTYKLKAKTIVYIFLMQMLQKA;locus_tag=LOCUS_06760;note=MGA_676
sequence1	MetaGeneAnnotator	CDS	429962	430180	.	+	0	ID=MGA_677;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYIDNKLSVDTFRTKRKKPYLTSYSQIGEVAKVVAEQNVKPEFKKYLDYNNNYEYVLFCFQYDDIQLQLL;locus_tag=LOCUS_06770;note=MGA_677
sequence1	MetaGeneAnnotator	CDS	430524	430892	.	+	0	ID=MGA_678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFGDFLAGRFKKSIEKNLKKTTLNEENIKEVLREIRLALLEADVNIEVVKKFINRVEKKAVGEYIQQGVRADQQMVKLVHEELIDILGKVNTPLEINKKPSIILMAGLQGAGKTTTVGKLA;locus_tag=LOCUS_06780;note=WP_011166607.1 signal recognition particle protein (Mycoplasma mycoides) [pid:68.9%25%2C q_cov:100.0%25%2C s_cov:27.3%25%2C Eval:3.2e-44%2C partial hit],internal stop codon at [430890:430892](+),MGA_678
sequence1	MetaGeneAnnotator	CDS	430926	431867	.	+	0	ID=MGA_679;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGLDIYRPGAINQLVELGTKNNLNTFEKGKQDPVKTAKQAVDYAQENGFDVIILDTAGRLQIDSQLMKELKEIRKAVSPNEILLTVDGMTGQDIINVSQEFDSQLKLSGVIVTKLDGDSRGGATLSITDITRLPIKFIGEGEGISALAEFHPKRMADRILGMGDVDTLFEKAADVVDQRTMEKTMKRMFAGQFDLEDLRNQLDQLSKMGNLGGLMKMMPGMNGRVSEQQIEQAQHRLFVANILMSSMTMKERRDPRVLKAPNRKKRILKGCGRTEKEYNDLLNQFDKGKKQVLDMAKQLKSGRMPNMGGLKF;locus_tag=LOCUS_06790;note=WP_011183377.1 signal recognition particle protein (Mesoplasma) [pid:68.5%25%2C q_cov:99.4%25%2C s_cov:68.7%25%2C Eval:1.7e-120%2C partial hit],internal stop codon at [430890:430892](+),MGA_679
sequence1	MetaGeneAnnotator	CDS	431873	432283	.	+	0	ID=MGA_680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLVVITGASAGIGKELAIKFSQEGYPLLLLARRVELIETLKLDNVICKSVDVRNYDDFKAAIDEAEKKFGPVDCLINNAGIMPLDKVYNLDLKIQYDMVDINIKGVLNGMNIVINQMKNVKTGTIINVSSVAGR;locus_tag=LOCUS_06800;note=WP_011166492.1 SDR family oxidoreductase (Mycoplasma mycoides) [pid:56.6%25%2C q_cov:100.0%25%2C s_cov:56.7%25%2C Eval:5.5e-36%2C partial hit],internal stop codon at [432281:432283](+),MGA_680
sequence1	MetaGeneAnnotator	CDS	432383	432592	.	+	0	ID=MGA_681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIAPALVDTDLISTTTNEDVLENYHKYKKDLKGGLTAIQVAEVIYYAYSLPQNVSLKEIVLSDTKQVI;locus_tag=LOCUS_06810;note=WP_011166498.1 SDR family oxidoreductase (Mycoplasma mycoides) [pid:52.2%25%2C q_cov:97.1%25%2C s_cov:28.0%25%2C Eval:1.7e-13%2C partial hit],internal stop codon at [432281:432283](+),MGA_681
sequence1	MetaGeneAnnotator	CDS	432627	432881	.	+	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISATVCFAFLVSIASTFFIASSSCLMASNFLLASSIDFLVSSTSILRFSAALILFHIPVFKASFINSNTRIATLNESSITLDT;locus_tag=LOCUS_06820;note=MGA_682
sequence1	MetaGeneAnnotator	CDS	432794	433249	.	-	0	ID=MGA_683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYILPLRIKKYINAMNYKFVETDTANKKTVLKLVSNSTRVLIEEIDNQYHDDRLNNIISQFRATTPQDVETKLRLFHNIAFFLREAEALVYQKFGVEFATNYFKEVSLLESYKASELSDREKRHVSKVIDDSFNVAILVLLLMNDALKTGI;locus_tag=LOCUS_06830;note=MGA_683
sequence1	MetaGeneAnnotator	CDS	433277	433561	.	-	0	ID=MGA_684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEKKQFQSVIDFRPQFENIIDALVPDIQFSYSAIMNNSSIQTYFNMISMEYYGYEYFQLLRLNKLEFKISERVLNLTILEIVYNIVTQIVARK;locus_tag=LOCUS_06840;note=MGA_684
sequence1	MetaGeneAnnotator	CDS	433667	434131	.	+	0	ID=MGA_685;product=23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183376.1;translation=MKFLILCFNKISKEYKEIYEFYINKIKKFCNIEVIEIEEEFFSDSKKNMKINEDNLIKKLKNYKDFEMHLLEINTKQYDSLSFSKIVEQNKDFNNGKIGFIIGPSDGFSVDFKNKIAKKLSFGLLTMPHLLVRIILLEQIYRAFKIIRNETYHK;locus_tag=LOCUS_06850;note=WP_011183376.1 23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH (Mesoplasma florum) [pid:45.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-33],MGA_685
sequence1	MetaGeneAnnotator	CDS	434248	434433	.	+	0	ID=MGA_686;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKSIKEIEEKIQIVDLVMEIVDARAPFSTQNPLLRKVLSKRPRLIVLSKSDLADEEVTKN;locus_tag=LOCUS_06860;note=WP_011183436.1 ribosome biogenesis GTPase YlqF (Mesoplasma florum) [pid:58.2%25%2C q_cov:90.2%25%2C s_cov:17.5%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [434233:434235](+)%2C[434431:434433](+),MGA_686
sequence1	MetaGeneAnnotator	CDS	434470	435162	.	+	0	ID=MGA_687;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKNKTQNIYDDLLKLINLMTKEKQQKDIARGIEKPKLNVLVVGIPNVGKSTTILRLSKGKQIKTGNKPGVTRGMQRIVMSENITLIDTPGILPAKFENETIACNCAATNSIKIEVVPKERFATKLMRYIYNSYPLLIEDKYKISKNVLRPINYDDTFKLFEEIAKRNKFVILDDIADVEKAITLFINDLISNNLGRISFEKPIEIDKTSLISIDKEDIEDSVESDLTVE;locus_tag=LOCUS_06870;note=WP_011183436.1 ribosome biogenesis GTPase YlqF (Mesoplasma florum) [pid:52.2%25%2C q_cov:96.1%25%2C s_cov:72.4%25%2C Eval:4.2e-58%2C partial hit],internal stop codon at [434233:434235](+)%2C[434431:434433](+),MGA_687
sequence1	MetaGeneAnnotator	CDS	435159	435791	.	+	0	ID=MGA_688;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183435.1;translation=MIKINRYKFDLDIKEKYQVTIISGSDEVGRGAMAGPIVVASIILKEDYFNPLIKDSKLLNQKQREILYEEILNNCVEYSIKVYDSKVVDKLNPKKTSVVGMIETISELKTKPQLCLVDGEKITIKDYQTLQLIKGDNLSQSIAAASILAKVYRDNIMIEYDKQYQGYNFFKHKGYCTKEHIQKVKELGILEIHRLTYKPISAIKEKNNDF;locus_tag=LOCUS_06880;EC_number=3.1.26.4;note=WP_011183435.1 ribonuclease HII (Mesoplasma florum) [pid:58.0%25%2C q_cov:98.6%25%2C s_cov:99.5%25%2C Eval:7.1e-62],MGA_688
sequence1	MetaGeneAnnotator	CDS	435901	436347	.	+	0	ID=MGA_689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNFGTAGIRGILGAGPGRFNVYTIKKVTISYAKLLISKYPNDLHRGVVIGHDNRHNSTKFSRLAAEILTSFGIKAYLFAENKMKPTPVVSFATKDLNAIGGVIITASHNPAVYNGYKIYDEYGCQLIDSETQIIADNMNEIKNIID;locus_tag=LOCUS_06890;note=WP_011166989.1 phospho-sugar mutase (Mycoplasma mycoides) [pid:75.7%25%2C q_cov:100.0%25%2C s_cov:26.5%25%2C Eval:4.1e-62%2C partial hit],internal stop codon at [435817:435819](+)%2C[436345:436347](+)%2C[436618:436620](+),MGA_689
sequence1	MetaGeneAnnotator	CDS	436414	436620	.	+	0	ID=MGA_690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIANLQFYKNQSRDGFKMIYSAVNGTGTEFTPPLLRSFGYEVIEVKEHSFEDETFKNVGNPNPEFDPA;locus_tag=LOCUS_06900;note=WP_011166989.1 phospho-sugar mutase (Mycoplasma mycoides) [pid:72.1%25%2C q_cov:100.0%25%2C s_cov:12.2%25%2C Eval:1.4e-23%2C partial hit],internal stop codon at [436345:436347](+)%2C[436618:436620](+)%2C[436726:436728](+)%2C[436771:436773](+),MGA_690
sequence1	MetaGeneAnnotator	CDS	436786	437061	.	+	0	ID=MGA_691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKHNMIPENPVMYSSFVTSDLGDRIASETYGVKVIKTLTGFKWMGSEILKEPERNLNFVFAYEESYGYVIDSSTRDKDGIQATTMLVEAA;locus_tag=LOCUS_06910;note=WP_011166989.1 phospho-sugar mutase (Mycoplasma mycoides) [pid:74.4%25%2C q_cov:98.9%25%2C s_cov:16.1%25%2C Eval:3.9e-34%2C partial hit],internal stop codon at [436618:436620](+)%2C[436726:436728](+)%2C[436771:436773](+)%2C[437059:437061](+),MGA_691
sequence1	MetaGeneAnnotator	CDS	437149	437463	.	+	0	ID=MGA_692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKPEEVESKIEPIMKTLRKESFNALGDLELKYCEDYLHGLFNMPGQNLLKFYFNEGSWFAVRPSGTEPKIKIYFVAVDKDEISAKDKCEKMFKNLKKILEIN;locus_tag=LOCUS_06920;note=WP_011166989.1 phospho-sugar mutase (Mycoplasma mycoides) [pid:53.4%25%2C q_cov:99.0%25%2C s_cov:18.5%25%2C Eval:8.0e-27%2C partial hit],internal stop codon at [437059:437061](+),MGA_692
sequence1	MetaGeneAnnotator	CDS	437541	437705	.	+	0	ID=MGA_693;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNVTIIGQIEELPQVIYNSKTGEKKLYKLVLKVPRGYRNKDGKQQEDFINVKV;locus_tag=LOCUS_06930;note=WP_011166617.1 single-stranded DNA-binding protein (Mycoplasma mycoides) [pid:54.7%25%2C q_cov:98.1%25%2C s_cov:51.5%25%2C Eval:4.8e-08%2C partial hit],internal stop codon at [437703:437705](+),MGA_693
sequence1	MetaGeneAnnotator	CDS	438005	438610	.	+	0	ID=MGA_694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYPNFLKSAHKPPFVIFYKGNIELLSKYNKTISIVGGQKYSEKSINNTYRIVKELINEKRVIVTYQKEGTNNQIISLCREENFENIVILAESMKTYIEKTKNINEKENKLFICEVYEFLNNQLTEEYEEYLNRMLCGISKGILFTPYNSKDSYFSLVNYAINEGKEIFAIPTTEKEFNETNKLIKMGAKFTENAKDIVNLI;locus_tag=LOCUS_06940;note=WP_000818060.1 DNA-processing protein DprA (Bacillus cereus) [pid:27.5%25%2C q_cov:99.5%25%2C s_cov:69.9%25%2C Eval:7.2e-13%2C partial hit],MGA_694
sequence1	MetaGeneAnnotator	CDS	438838	438984	.	+	0	ID=MGA_695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKTAVNEPLNLSSKNLNNEKKHKDFNVKKKGGSFTKTIIYYMKKNK;locus_tag=LOCUS_06950;note=MGA_695
sequence1	MetaGeneAnnotator	CDS	438985	439254	.	+	0	ID=MGA_696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFFMILICVISSVATVLGPKLIQNMMANLLAPSSGLDYFNNGTKTVGELNNLLDGKVFISGDENQFLTEEFVSNSKNYFTLFFGLHFG;locus_tag=LOCUS_06960;note=MGA_696
sequence1	MetaGeneAnnotator	CDS	439270	439557	.	+	0	ID=MGA_697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLSLFVVLGVSAYFSSYLGGTMGKNVEIDLRNRSLEKLVKQDMSYYSDKKIGEILTKIVSDTQIIGDQTASVPVTMISAFITFFGSLGVLVTID;locus_tag=LOCUS_06970;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:46.8%25%2C q_cov:98.9%25%2C s_cov:14.3%25%2C Eval:1.3e-21%2C partial hit],internal stop codon at [438982:438984](+)%2C[439555:439557](+),MGA_697
sequence1	MetaGeneAnnotator	CDS	439585	440481	.	+	0	ID=MGA_698;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVLLIVLQSTFTVVGRMSKRVRKTITTINGDVTDRISTVRLIKSSGTEAYENERFNEVHKEYYKKSFTLITMQSFISTVMTAGISSVQIIIVICSAILYKDNPQYLTVTLSAFISGVGSMVGPLMTLSRLVSGIIQASTCCYRVNEIILTVPRIDTHYEEGEGIIVDEIEGNIVFKDVEFRYPEKPEQLILPKFNFVFEKGKSYAFVGETGAGKSTISKLLLRFYDPSTGDIFINDNVNLKDVHLSSYLDKVGYVEQEPQILYGTVMDNIKYGNFNATDEEIISASKKAELHDLVMS;locus_tag=LOCUS_06980;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:49.0%25%2C q_cov:100.0%25%2C s_cov:44.5%25%2C Eval:7.1e-81%2C partial hit],internal stop codon at [439555:439557](+)%2C[440479:440481](+),MGA_698
sequence1	MetaGeneAnnotator	CDS	440521	440835	.	+	0	ID=MGA_699;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSGGQKQRLIIARMFLKNPQILILDEATSALDNIVEKEIQEELEKLMKNRTTISIAHRLSTIMNCDQIIVLGRNQGIVQVGTYEQLKEEHGHFKRLYEAGLMN;locus_tag=LOCUS_06990;note=WP_011183431.1 ABC transporter ATP-binding protein/permease (Mesoplasma florum) [pid:76.2%25%2C q_cov:100.0%25%2C s_cov:16.5%25%2C Eval:1.3e-37%2C partial hit],internal stop codon at [440479:440481](+),MGA_699
sequence1	MetaGeneAnnotator	CDS	440883	441746	.	+	0	ID=MGA_700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIVNIIGAGLAGCEAAYQLAKRQIYVNLYEKKTIKKNSVQTLDLFAELVCSNTLRSTDLKNAVGTLKEEMRLLDSLIIKAAEFAKIPAGESLAVDRKKFSQYITDTMKENQFINVMEQEIIDIDSSIPTIIASGPLTSEKLQESISKFVGKDYFYFFDAVSPIIKKDSINFDIVFRKNRYEKGETQDYLNCPMNKEQYTKFYNELINAKITDTHLKEEKDLKVFEGCMPVEVMAKRGFDTLTFGPLKPAGLRNLDGTNNFAVVQLRQDNAANDLYNLVGFQTNLT;locus_tag=LOCUS_07000;note=WP_011183430.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mesoplasma florum) [pid:67.3%25%2C q_cov:99.0%25%2C s_cov:63.7%25%2C Eval:2.5e-104%2C partial hit],internal stop codon at [441744:441746](+),MGA_700
sequence1	MetaGeneAnnotator	CDS	441816	442088	.	+	0	ID=MGA_701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLNNFINSPELLNEFNQLKSNKNIYFAGQITGVEGYVESTSSGIIAAINMARMINNEQQVIFPKDSVIGGLQNYIISTDSKNFQPMKAN;locus_tag=LOCUS_07010;note=WP_011183430.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mesoplasma florum) [pid:60.0%25%2C q_cov:100.0%25%2C s_cov:20.2%25%2C Eval:6.2e-24%2C partial hit],internal stop codon at [441744:441746](+)%2C[442086:442088](+),MGA_701
sequence1	MetaGeneAnnotator	CDS	442512	442892	.	+	0	ID=MGA_702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEIYKIKYRFVKEKPKKINLNDKEIYSLCEDIISRLFIPFMNEYAFKKVSSTIGMNGSYIRESLLSYEYDINHESDDGKLKTSVLYPFLFTLSLIKIFDKKGLYNRILKTYQKDDLIRKYKAGRE;locus_tag=LOCUS_07020;note=MGA_702
sequence1	MetaGeneAnnotator	CDS	443004	443879	.	+	0	ID=MGA_703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKERFKALFQLTKITTILMKDEITAVTMLSDGEEVYEMLENYLPMYIDYDRYINEEGVIVHDLGEHDKFVFSPFSQRNVNFSILLPYIESKNERHVACDYKKLQTTLFIFLKSYSKVRNLLLTHEYLPKIIDILIEGKKKIFCDILGIFEEVKDHKYKRLIDFENFTEDLFFLTEEQINQALESNPKNLEEFIAIPAFEKIGKVMTFNLALKNYTARTVDYRLYELLKYLLVLFGPHPLDHTVQSLENIENFYNKFETFVRMYESQKEKNGNNQIVIDLQKSLELPLKLLN;locus_tag=LOCUS_07030;note=WP_011166620.1 hypothetical protein (Mycoplasma mycoides) [pid:21.0%25%2C q_cov:95.2%25%2C s_cov:52.7%25%2C Eval:9.8e-11%2C partial hit],internal stop codon at [442890:442892](+)%2C[442953:442955](+)%2C[442989:442991](+),MGA_703
sequence1	Aragorn:1.2.38	tRNA	443941	444017	.	+	.	ID=Aragorn_20;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00190;note=Aragorn_20
sequence1	MetaGeneAnnotator	CDS	444110	444283	.	+	0	ID=MGA_704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAIYDENGLTEYGKKVVYIFTAVLLYICGIIGHMLFVFLFSRNKERDEKKVTKVVL;locus_tag=LOCUS_07040;note=MGA_704
sequence1	MetaGeneAnnotator	CDS	444533	444763	.	+	0	ID=MGA_705;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDYFRYAYNYKFLDNETKDKTIKKNVYKGYVRSALIELLIALLFGILAIIFSKYVLNYKSVYSSIFSGFFFLMFF;locus_tag=LOCUS_07050;note=MGA_705
sequence1	MetaGeneAnnotator	CDS	444763	444963	.	+	0	ID=MGA_706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFMRQCMFAVCVYKLKKTVNYEKENFTFIFFYSCFLIFTPFIGFFTNLIYFKRVKNYALSQGYKYQ;locus_tag=LOCUS_07060;note=MGA_706
sequence1	MetaGeneAnnotator	CDS	445062	445229	.	+	0	ID=MGA_707;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKLRLKRAGKKRAAFYRIVAADARVKRDGAYIELLGTYNPLNGVVDLKKEVALK;locus_tag=LOCUS_07070;note=WP_011183440.1 30S ribosomal protein S16 (Mesoplasma) [pid:60.0%25%2C q_cov:100.0%25%2C s_cov:61.8%25%2C Eval:9.3e-12%2C partial hit],internal stop codon at [445227:445229](+),MGA_707
sequence1	MetaGeneAnnotator	CDS	445290	445415	.	+	0	ID=MGA_708;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTELHNVKLEVSKSVPKKEKAAKKPVAAKPKATKKVAEAKA;locus_tag=LOCUS_07080;note=MGA_708
sequence1	MetaGeneAnnotator	CDS	445418	445678	.	+	0	ID=MGA_709;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENLYLLLDKIILNALPKESTYIFKKQLETKDEYKFILLIDEKVSNSKLFKKNSLIKTILDALNLEVSKYEKKISIDVEVYDELG;locus_tag=LOCUS_07090;note=MGA_709
sequence1	MetaGeneAnnotator	CDS	445848	446084	.	+	0	ID=MGA_710;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANKLVIKFKGIDNINDALNFIGQEVFFKIEDNLIEHEETLIDFKLVVNNNTIGTVIDEMFNGAQDLVKIKTNDNKQF;locus_tag=LOCUS_07100;note=MGA_710
sequence1	MetaGeneAnnotator	CDS	446168	446440	.	+	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFTIITLFPNLIKSYISESIIKRAIEKNKVDIEIVDLRNYTNYSHNQVDDYQFGGGKGMVLMVEPIVNAIEKYKTNESLVILTSPQGKT;locus_tag=LOCUS_07110;note=WP_011183438.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Mesoplasma florum) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:37.0%25%2C Eval:1.6e-32%2C partial hit],internal stop codon at [446438:446440](+),MGA_711
sequence1	MetaGeneAnnotator	CDS	446741	446896	.	+	0	ID=MGA_712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSGHHANIEKFRHESRLKNTYLKRPDLLNEQELSKTDKEFLNNLKNRKEE;locus_tag=LOCUS_07120;note=WP_011183438.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Mesoplasma florum) [pid:51.0%25%2C q_cov:96.1%25%2C s_cov:20.2%25%2C Eval:2.9e-08%2C partial hit],MGA_712
sequence1	MetaGeneAnnotator	CDS	446901	447350	.	+	0	ID=MGA_713;product=50S ribosomal protein L19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183437.1;translation=MNMLTKKTKSLVEEQLNNNLPEFTSGDTIKVNVKIKEGDKYRIQAFEGVVIKTQGSGISFSVCVRKNSGGIFVERTFPIHSPIIDSIDVIKRGRVRRARIYYIRKLSGKAARIKEVVNSKSKDLKAKTAVKAAPKKAAPKKEATPDSTK;locus_tag=LOCUS_07130;gene=rplS;note=WP_011183437.1 50S ribosomal protein L19 (Mesoplasma) [pid:71.7%25%2C q_cov:78.5%25%2C s_cov:93.8%25%2C Eval:3.0e-44],MGA_713
sequence1	MetaGeneAnnotator	CDS	447827	448210	.	+	0	ID=MGA_714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFDHENGIINLEVSKGFKQSELLLYKTLAKFFYSIVFNISLIIVMVCLLYIINPVNLNYIAKNLIPGFLSFIAFDFLITGLYFTFCSFKKIRIVLSLTSFVSILYIFSPLVGRIQFIIGEGKVNVN;locus_tag=LOCUS_07140;note=MGA_714
sequence1	MetaGeneAnnotator	CDS	448463	449002	.	+	0	ID=MGA_715;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDVEYFLNNSKTFSQNFKYTLNEKINENKIYKFFNITIMKNNEGKFEDTYFYKPSKNNLSGKNQLLDYFSYIQQDEMILNIKKIFNLSMSNQELKEEINSVNNILLKYFESIFYNNFDSHNYKVYSLIREIIQNYDYDIENKTSLVNEKDFYENAKLKNGNRLYMALLFNLFDEYLST;locus_tag=LOCUS_07150;note=MGA_715
sequence1	MetaGeneAnnotator	CDS	449102	449404	.	+	0	ID=MGA_716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLLGFSTYSSYTDDILTQNKVYDLNMPIRSFLVEKNPNYMQSDYKSKFSMYDSLENSYIKKINLSKRVVSSEFIYIGYILFGILSGLIGILIYRKVNVF;locus_tag=LOCUS_07160;note=MGA_716
sequence1	MetaGeneAnnotator	CDS	449418	449723	.	+	0	ID=MGA_717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIIKLFVFLFVFPIIMQTLSSCNAKKNNSSLRDDGLIGKREITNILNSLVSESYLSFNQINSDIKKAFSNYDYIRFEEEEINKKSFLIKTDLASFSKSA;locus_tag=LOCUS_07170;note=MGA_717
sequence1	MetaGeneAnnotator	CDS	450024	450173	.	+	0	ID=MGA_718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSKEPIVISVVFSGNNTKQDTVLQINNFYYEKKEPAKIDYTINGSEFF;locus_tag=LOCUS_07180;note=MGA_718
sequence1	MetaGeneAnnotator	CDS	450627	451109	.	+	0	ID=MGA_719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRESGVLKCKFYIEIDSIEYQKVLSYSLGFEIVNSTEQLYIDKNDYNFISVEEDKKLTYKNIDNAIFVKTNSSEINLNLQTNFFRKIKESTKFVENDVIVVSEISHIFPSKSENFYTVQISINIEKIKSIPSKTQELKTVFSYKNNLYLEISITYDENL;locus_tag=LOCUS_07190;note=MGA_719
sequence1	MetaGeneAnnotator	CDS	451122	451298	.	+	0	ID=MGA_720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIIDNVSKEFKEKKGIFNISTSFNQGDIVGLVGDNGAGKSTLLKCLFNAYKVDSGEF;locus_tag=LOCUS_07200;note=WP_003385582.1 ABC transporter ATP-binding protein (Clostridium) [pid:47.4%25%2C q_cov:98.3%25%2C s_cov:19.1%25%2C Eval:5.1e-10%2C partial hit],internal stop codon at [451296:451298](+),MGA_720
sequence1	MetaGeneAnnotator	CDS	451521	451850	.	+	0	ID=MGA_721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKRALLAICLINEPEIIVLDEPTANLDVSTRVDFINLLKLLAQNGKTILITSHIIDELQKFINKLVIIDEGHIVFDRYLHPDDNIENIYFNITNRKKRKSIDIQNLSF;locus_tag=LOCUS_07210;note=WP_003594351.1 ABC transporter ATP-binding protein (Lacticaseibacillus paracasei) [pid:41.3%25%2C q_cov:68.8%25%2C s_cov:25.4%25%2C Eval:7.6e-14%2C partial hit],MGA_721
sequence1	MetaGeneAnnotator	CDS	452184	452393	.	+	0	ID=MGA_722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKFEKYLVYINFAIAFLFTLIAAIGFIFIDYENIDLVRQNIFYILISVSLLLTSYLFYSQIRNKKNY;locus_tag=LOCUS_07220;note=MGA_722
sequence1	MetaGeneAnnotator	CDS	452440	452643	.	+	0	ID=MGA_723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDNYYELTKNNIRDLISESHFEEAMIIINDELSAPYIPKDFERALNRYKFEIEEILKKDSKTSSSN;locus_tag=LOCUS_07230;note=MGA_723
sequence1	MetaGeneAnnotator	CDS	452668	453189	.	+	0	ID=MGA_724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQSLDQEMHLVAFDNLRNLNARKILDHIKDYLNDENIKNEYKTFLLMVLIEQKLDEFLLVKKKEGIITINPAKFDLKESQDFLRNLEYRLMTLVSDKDPSLFSICRHVANTYFYNIFPDFKLEQNNIDDIVACVYIYSRKALGIGEDIYLNDKLNFNYDNAMLLLSKFEKII;locus_tag=LOCUS_07240;note=MGA_724
sequence1	MetaGeneAnnotator	CDS	453200	453433	.	+	0	ID=MGA_725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKESFNKEDFKVFEDKKNIMAQLFGISCSVCGIDEIAYVASNAPKTIGQIAQEAYDENPDISDEELDKLIESPLEA;locus_tag=LOCUS_07250;note=MGA_725
sequence1	MetaGeneAnnotator	CDS	453557	454570	.	+	0	ID=MGA_726;product=GTPase ObgE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183420.1;translation=MKFVDLAKFNIKSGKGGDGAVSFRHELYVPNGGPNGGDGGKGGDVIFIADEGKSSLLDLKLQKSYAAEDGHKGDIKNMHGKNGKDIIVKVPVGTVLFNDETGDLLADFTTDGEQKILALGGKGGRGNARFANSRNKAPTIFEAGDPGIEINIKAELKVLADVGFVGLPNAGKSTLLRAISNSKPEVADYPFTTINPQLGVSRDKQGRTFTVADLPGLIEGASLGKGLGHEFLRHIERCKIICHVIDMSGNYGTEDVVKNYELIRKELVEYNFNLEKRLEIIVANKIDTEEAQINTLYFKEKYNDKNIIEVSGLNKINIDKLLLEIGDKLENLKDEPL;locus_tag=LOCUS_07260;gene=obgE;note=WP_011183420.1 GTPase ObgE (Mesoplasma florum) [pid:68.1%25%2C q_cov:100.0%25%2C s_cov:78.5%25%2C Eval:1.4e-128],internal stop codon at [454568:454570](+)%2C[454664:454666](+),MGA_726
sequence1	MetaGeneAnnotator	CDS	455016	455258	.	+	0	ID=MGA_727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPCQSSDLDEKCKADLINNLDLKSVTVDLKSTFETISKALNESGIEQSKLALANTKARLRMTTLYSMAQTHNYLVLGTDN;locus_tag=LOCUS_07270;note=WP_011183419.1 NAD(+) synthase (Mesoplasma florum) [pid:57.5%25%2C q_cov:100.0%25%2C s_cov:32.8%25%2C Eval:4.2e-20%2C partial hit],internal stop codon at [454887:454889](+)%2C[455013:455015](+)%2C[455256:455258](+)%2C[455265:455267](+)%2C[455412:455414](+),MGA_727
sequence1	MetaGeneAnnotator	CDS	455812	456531	.	+	0	ID=MGA_728;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966816.1;translation=MLEVKNLYKVFKNDVGVKDINLKFLPGEIIGILGPNGAGKSTLLKLIFKEYKKDSGEIIYQNEQGNLKGFSFFTDQSLFPKNVTLNFFCMYNAELAGIKPKEAKKRTEHLLKNLELDKYKNKTFRSLSAGMQKKAMLAVSLINDPEIIFFDEPTANLDIDSRKELISLIKDMKENNKSIIIASHILEELETLIDRVIVINKGKVVVNKKFDKEKENLELIYFESIKNEKRNKNFKDLMK;locus_tag=LOCUS_07280;note=WP_010966816.1 ATP-binding cassette domain-containing protein (Clostridium) [pid:34.3%25%2C q_cov:94.6%25%2C s_cov:100.0%25%2C Eval:1.1e-32],MGA_728
sequence1	MetaGeneAnnotator	CDS	456540	456803	.	+	0	ID=MGA_729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKFYICFKYALFSIFKSKSTLIVTIFFLSTIFLINLIFGLYIKLTQAESVDLFVLNYINTVLIFIFLSVVSILLSNEFFTIKRKMV;locus_tag=LOCUS_07290;note=MGA_729
sequence1	MetaGeneAnnotator	CDS	456872	457924	.	+	0	ID=MGA_730;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIFIFSIIISTVVVIESLIIFNDNIFVTKLLFINLYIIFLVPLFVFSLNLLIVSLNLQKISLIFSSFFMGLMTLFYLINAVLYEFKSDSGKNGSNLISSSEYNFYLRYYIKTYEEKNKKENKIISDLVEYSKNSEKMKNLIHFDNLESLNLEESRLKDYYFRFITDNSFYSSGDLFSNIDLFNEFNKTYLIKDEYYREAKYDASLIENNLLFKELYNFKDTKNENDIFEYNDYKNLKKSSTYLHELNSYINKLENYFKINNEINSYYFDLKSINKLILEIYKKGFYFTNQILILSNSVGRNNSNIVDFLKAPFNEKIDYIKNQKILFNMQKTSSAKLLYQGILFYLVNN;locus_tag=LOCUS_07300;note=MGA_730
sequence1	MetaGeneAnnotator	CDS	458051	458275	.	+	0	ID=MGA_731;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKTFDNITTIESAIFYKSNNFYIINNSYLNNKYIIKDYVYEGPNTALMIFLILIFNSILVLFAYSLYRFNFYK;locus_tag=LOCUS_07310;note=MGA_731
sequence1	MetaGeneAnnotator	CDS	458405	458785	.	+	0	ID=MGA_732;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDQQANSISDFIDNLDDEIADKMFEELIAGMSLYFAILIFGEQIDNVFEDPANKDKSAEEKAKIIKSNSVNEEDVYAALMGALSEEEKAQDFAEDCVQSIAFNPEYPQVLLDKIKELEIEEQDFS;locus_tag=LOCUS_07320;note=MGA_732
sequence1	MetaGeneAnnotator	CDS	459134	459343	.	+	0	ID=MGA_733;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLIFALIGIASLSIYFFILFRKNKKFVYEKEEVSAKDFKRLDKFETLRNDFEVEIAQVKKIRRNSKK;locus_tag=LOCUS_07330;note=MGA_733
sequence1	MetaGeneAnnotator	CDS	459376	460719	.	+	0	ID=MGA_734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVFKKITSSIIGGSNRENQQNIVDDFAFQQNQMNMPNQNNYPINQFNHHHQYNSNNMQQNQFNNPQMQQGFSNPTSMYQEQLINQKNYVPMQNNNQYMETNLYNEPQVVNNSYQNPYINNPNQYQPQSQNLNYQPQNNPNLNFTNAQQGYIQPEFQNYPRKNRNPNNYYNDNMLQQPALDFDNINQIDYGNYYDPNQEYLQNQNYINQNLYQGHIQYTNHIEQQKMQNQGFNNYQANQNMYQNQYFNQAQTYYRPESYAANQMVGYQRSPANNYNGYNNNTYKQRFSKSNIIPNEIAKEIRAEKLRNALLFLIGLTGIIATSLMLAIYYKTSNQNEKWLIFSRKHTIYPFFSIFLLLISTCFFFMSVTDYTLLTSNVKKYERDLLNGREIVPYFITRNYRSIIARSVYINWIGFSTYIVGAICLGILYGLQALYKEHPDEPITIFF;locus_tag=LOCUS_07340;note=MGA_734
sequence1	MetaGeneAnnotator	CDS	460732	460971	.	+	0	ID=MGA_735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSFESDIIVNIVVLMSVFGVHILNIITSRSRKNNIISYYGYEIIPQHEINAIRKKANKICLIIFIVVCCIILFAILIP;locus_tag=LOCUS_07350;note=WP_011183261.1 hypothetical protein (Mesoplasma florum) [pid:39.0%25%2C q_cov:97.5%25%2C s_cov:26.4%25%2C Eval:3.7e-08%2C partial hit],internal stop codon at [460717:460719](+)%2C[460969:460971](+),MGA_735
sequence1	MetaGeneAnnotator	CDS	461001	461603	.	+	0	ID=MGA_736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTMTKKQELKNRNIKSLYVHIPYCEHICFYCDFAKTIKPKSKENVIEYLNNLENELISYENRLDNLETIYIGGGTPSCLDEEETILLLKSLSKYVKNNKDFEFSIELNPESVSETKLKIYKEYKINRISMGIQTFNNDLLKKIGRIHDKDLAVEKFNLIRTIGFDNISIDLMYNLFNQTKENIIEDLEYIKQLKPDHIS;locus_tag=LOCUS_07360;note=WP_004398764.1 radical SAM family heme chaperone HemW (Bacillus) [pid:44.4%25%2C q_cov:93.0%25%2C s_cov:49.3%25%2C Eval:3.4e-39%2C partial hit],internal stop codon at [461601:461603](+)%2C[461634:461636](+)%2C[461781:461783](+),MGA_736
sequence1	MetaGeneAnnotator	CDS	461904	462125	.	+	0	ID=MGA_737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIEDYYFQIIMMGLRLVDGINISLEKNKDAYLFYKEKIEINIKKGFLLLENNYLKCNDKGFDILNDILVDIL;locus_tag=LOCUS_07370;note=MGA_737
sequence1	MetaGeneAnnotator	CDS	462203	462583	.	+	0	ID=MGA_738;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLADLQHRNLKELGSSFYFTKLNFTFKNDENLAFFVNPNLIKHKVTNKYFRLLNYSVLSNDFETINDYIKNDFPSSKIKHLLKLVAKTTKTLFENRFKNQVDYENLFKLNIYCQLFLIYIRYNPNI;locus_tag=LOCUS_07380;note=MGA_738
sequence1	MetaGeneAnnotator	CDS	462731	462970	.	+	0	ID=MGA_739;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIDLNDNNIQTRDIIDEIVAEPILVIKVFVMQREVIKSMRNLRTSKRKYKHLLFSTAMQLIIHFINNNIDDYTRVTNH;locus_tag=LOCUS_07390;note=MGA_739
sequence1	MetaGeneAnnotator	CDS	463121	464077	.	+	0	ID=MGA_740;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFQQKPDPLNDPEILSKYTRDLSKDAKEGKIDPIIGRDDEIMRVIRILSRKTKNNPVLVGEPGVGKTAIAEGLAQRINKGDVPSILKNKRILELDMGSVMAGASYLGDYEARIKGIVNAIQKENGEIILFIDELHLIVGAGKTGNGGGMDVSNLLKPALARGGLKAIGATTLKEYREYIEKDAALERRFQKVMVSEPTVEETISILRGLKEKFETYHGVRIHDNALVAAAQLSDRYIADRFLPDKAIDLVDEASATIKTELASVPTELYQVDRKVMQLEIERAALSKETDEKSKERLTFNEKELMKYKTIQNELTSK;locus_tag=LOCUS_07400;note=WP_011183317.1 AAA family ATPase (Mesoplasma florum) [pid:80.5%25%2C q_cov:100.0%25%2C s_cov:44.3%25%2C Eval:5.7e-140%2C partial hit],internal stop codon at [464075:464077](+)%2C[464312:464314](+),MGA_740
sequence1	MetaGeneAnnotator	CDS	464126	464314	.	+	0	ID=MGA_741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSLKTELDRAQAEGKFERAGEIQYSLLPAIEKQLKKAEKEDENQLMSEEVSEKEIATIIGR;locus_tag=LOCUS_07410;note=WP_011183317.1 AAA family ATPase (Mesoplasma florum) [pid:54.8%25%2C q_cov:100.0%25%2C s_cov:8.7%25%2C Eval:7.8e-14%2C partial hit],internal stop codon at [464075:464077](+)%2C[464312:464314](+),MGA_741
sequence1	MetaGeneAnnotator	CDS	464339	465268	.	+	0	ID=MGA_742;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESEKQRLLGLETSLRKMVKGQPEALKAVSEAILRSRSGIKDPSKPIGSFLFLGPTGVGKTEVARSLAKQLFSSEKKMIRLDMSEYMEKHSVSKLIGSPPGYVGYEEGGRLTEAVRRNPYSIVLFDEVEKAHPDVFNVLLQILDDGRITDSLGKTIDFKNTIIIMTSNIGSDYLMTTEPELIDEKEIENMLKKFFRPEFLNRIDNIVRFNPLSKEVIREIIEKTLIELKERITENGEYIINFSETSVEKILKEGYDRDFGARPIKRYIEKNIETVIAKSIVSSEIEPKRNYVLDVQNDHFVVSSSNKLN;locus_tag=LOCUS_07420;note=WP_011166789.1 AAA family ATPase (Mycoplasma mycoides) [pid:68.1%25%2C q_cov:100.0%25%2C s_cov:43.5%25%2C Eval:4.2e-116%2C partial hit],internal stop codon at [464075:464077](+)%2C[464312:464314](+),MGA_742
sequence1	MetaGeneAnnotator	CDS	465327	466118	.	+	0	ID=MGA_743;product=heat-inducible transcriptional repressor HrcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183316.1;translation=MLTKRQEIILRLIIEEYIKTASPVGSKRIQEVMSIDISSATIRNESAFLEEHGFLEKAHTSSGRVPSTKGYRYYVDNLMKRNNIEDVKQQIEEIFKRRGATIDEILEQTSKILSEMTKLATVVSTSENIEEVKLNRVELVPLSPKSAVVIFILSNGSIENKTIDLDSVSIEELKISIDLFNERLSNSKIQEIEFKVQAIVPILKEQVKKYEFILHTFVSALLHTGSSQFKTGGMKYLLENPEFNDPNKIKSIVEFIEGASPFV;locus_tag=LOCUS_07430;gene=hrcA;note=WP_011183316.1 heat-inducible transcriptional repressor HrcA (Mesoplasma florum) [pid:48.3%25%2C q_cov:99.6%25%2C s_cov:76.9%25%2C Eval:5.4e-66],internal stop codon at [466116:466118](+),MGA_743
sequence1	MetaGeneAnnotator	CDS	466349	467017	.	+	0	ID=MGA_744;product=nucleotide exchange factor GrpE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015545681.1;translation=MEKEKYKKVFDLINNVKKELNIDSNLNNNIPKQQTDNNNVDLNDKTNIKHEKDSKSDSKQSEEKPLTSIELLELEFVDLLETNSKLEEQKLMAVADNQNTVRRYQNEAASVRKYGGEKLATELLPAIDMFRSVLKTSPDNPEIKNYLIGFEMIINQIDQALSNAGLSMIQTKIGDELDPNIHNAIDQIETKDVKSGRIAAIVSNGYRLHDRVIKHVGVKVAK;locus_tag=LOCUS_07440;note=WP_015545681.1 nucleotide exchange factor GrpE (Mycoplasma mycoides) [pid:32.4%25%2C q_cov:75.7%25%2C s_cov:86.5%25%2C Eval:8.4e-24],MGA_744
sequence1	MetaGeneAnnotator	CDS	467029	467226	.	+	0	ID=MGA_745;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKEKKFKNVVINKEVLKIKVGKGILIKELEKDNDIEHKIKKIASEIDDYVQNEVYQSILEKKVI;locus_tag=LOCUS_07450;note=MGA_745
sequence1	MetaGeneAnnotator	CDS	467262	467834	.	+	0	ID=MGA_746;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNDFKNYIENLIRLAKDCQENCEKANEKCQNNIHRIVDNIDICENGKEKCDCIYHKRLYELSKDYEKIIKDFTNETTKKTFGTFDETFKGFRNIFTKKNKEENINSEEIKCKKNKKHKFKKEYKFVEEDFDDSLFDFKNLQEDYDDLKEDFDNLKEDLDDLQEDFEYLKDELEDLKEEFKDLKRDFKN;locus_tag=LOCUS_07460;note=MGA_746
sequence1	MetaGeneAnnotator	CDS	467876	468508	.	+	0	ID=MGA_747;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEKIIGIDLGTTNSVVAVMEGGQPIVLENPEGQRTTASVVAFKNGDIIVGGAAKRQAVTNPNTAISIKREMGTTNKRKLENKDYTPEQISAEILRYMKKYAEDKLGTKITKAVITVPAYFNDAQRKATKDAGKIAGLDVERIINEPTAAALAYGIDKQDKEQKVLVYDLGGGTFDVSVLELADGTYDVLATSGDNQLGGDDFDQKIMD;locus_tag=LOCUS_07470;note=WP_011183314.1 molecular chaperone DnaK (Mesoplasma florum) [pid:82.4%25%2C q_cov:100.0%25%2C s_cov:35.5%25%2C Eval:2.0e-96%2C partial hit],internal stop codon at [468506:468508](+),MGA_747
sequence1	MetaGeneAnnotator	CDS	468560	469675	.	+	0	ID=MGA_748;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALQRFKDEAEKAKINLSSQLETEINLPFIAMNESGPVNFSAKLSRSEFEKMSKDLVERTRKPVVDALEQAKLKATDIHEVLLVGGSTRIPAVQALVKSLLGKEPNRTINPDEVVAMGAAIQGGVLAGDVTDVLLLDVTPLTLGIETMGGVMTPLINRNTTIPTEKSQIFSTAADNQPAVDINVLQGERPMAADNKSLGQFQLTGIKPAPRGVPQIEVTFKIDVNGIVSVTAKDKQTNEEKTITISNSGALTDAEIEKMLKEAEENAEADVKKRKNIELKNKAESYINIIEESIKEGGDKVPEDQKKQSEELAKSIRELIAKEDYDALEKKMEELEQAMKMASEMAAQQQQADIDSKKDKSNDDKKDDSSK;locus_tag=LOCUS_07480;note=WP_011183314.1 molecular chaperone DnaK (Mesoplasma florum) [pid:75.6%25%2C q_cov:94.1%25%2C s_cov:59.0%25%2C Eval:3.6e-144%2C partial hit],internal stop codon at [468506:468508](+),MGA_748
sequence1	MetaGeneAnnotator	CDS	469738	470913	.	+	0	ID=MGA_749;product=molecular chaperone DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183313.1;translation=MAKRDYYEILGVSKSATEDEIKKAYRKLAKKYHPDVNKNHDAEEKFKEATEACEVLLDPKKRKMYDQFGHDGLKGMGQGSGFGDFGDFGDFFSNMSGSTGGGAGDFFSDIFSSFFGGSAKKSGFSGFGSNKRSSGPEASRGKDIIIEINLTLKELLFGVNKEIVLDLISKCEVCDGVGAKNKSDIVTCEVCDGVGMVTVVQEFGFTKFQSNQACPKCKGHGKKNANPCKSCHGEGVKKKKEPVMFNIPKGLSPGEKVILRNSGNEGKNGGPKGHIYADIFLNASKKLVIVDNYNIKGVLNISYLDAILKNDITIETLDGQINVNIPKNVKNGDIIVVANHGLYKGIKSNKRGDLLLEINIKVPNEINNEEKEIMEKLYKLNNFKVENEFKE;locus_tag=LOCUS_07490;gene=dnaJ;EC_number=1.8.4.-;note=WP_011183313.1 molecular chaperone DnaJ (Mesoplasma florum) [pid:45.4%25%2C q_cov:99.0%25%2C s_cov:99.2%25%2C Eval:4.0e-88],MGA_749
sequence1	MetaGeneAnnotator	CDS	471312	471635	.	+	0	ID=MGA_750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLRESSYLKEQKMKDLMLDKLNVDIKFKNNFNNYRLIEGASKNFDTKGFEVIDEDYNDEEFLTSPSDKNEIKDNIIQNLPKDVEKLIKKEDEKEKKQEENVEQGIN;locus_tag=LOCUS_07500;note=MGA_750
sequence1	MetaGeneAnnotator	CDS	471795	472361	.	+	0	ID=MGA_751;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIESLEDKVEAQQNIFEPEPPKEDDKVVDPVIEEKILSFEKKLEDIFYKEAKEEEQMQQEQEEIKFDQEKNNNENKHQKVSKKEKKIKNEEKNIISANQEEYQNTIEKSIPVVNNVDFTIADKTDDLERVIKNNENIKNSVFENNNPLLTQEKGASDTTVLVEKIVNNAKTIKNANLETSKFDDFEA;locus_tag=LOCUS_07510;note=MGA_751
sequence1	MetaGeneAnnotator	CDS	472844	473359	.	+	0	ID=MGA_752;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGHYAGVRFNNKSKEYELLRGIDTNKDQSYFLSQLSQYQLSKTLFPLQNYKKEEVRKIAKKYNLVTYEKKDSTGICFIGERYFTQFLQNYIPNQPGEIIDIATNKVLGQHIGAMYYTIGQRKGLKLGGQKEPYYVAKKDMKNKIIYVSRLSNESYLKSKKCIVKDFNFIVN;locus_tag=LOCUS_07520;note=WP_011183311.1 tRNA 2-thiouridine(34) synthase MnmA (Mesoplasma florum) [pid:67.3%25%2C q_cov:98.2%25%2C s_cov:44.9%25%2C Eval:1.3e-61%2C partial hit],internal stop codon at [472562:472564](+)%2C[472703:472705](+)%2C[473357:473359](+),MGA_752
sequence1	MetaGeneAnnotator	CDS	473631	474026	.	+	0	ID=MGA_753;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFADGESGGLFGGSSTTTTIIFAVIVLVIIIFIVISSITSKKAQKKEQAKRKKVVKEEIKNYLSQTQNQKNIKIEYEKVYARKGPEYKYRDVFDVIVQMYEPKTNELIKTAAYEVEGITTKADKKTYNTA;locus_tag=LOCUS_07530;note=WP_011183310.1 membrane protein (Mesoplasma florum) [pid:57.1%25%2C q_cov:74.8%25%2C s_cov:47.8%25%2C Eval:1.9e-28%2C partial hit],internal stop codon at [474024:474026](+),MGA_753
sequence1	MetaGeneAnnotator	CDS	474120	474287	.	+	0	ID=MGA_754;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRAEEIVRSKELRANLKAEEAKIKETQAKQKANPSLRVPDEVKAATVKFIPKRNK;locus_tag=LOCUS_07540;note=MGA_754
sequence1	MetaGeneAnnotator	CDS	474471	474995	.	+	0	ID=MGA_755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEFFLTEELEEGGFESGSGFDPLELYKNILNNKDLSEEQKKQKELLLNILDEFDGLELSTINNNFILDGNDTGQAAREYFIEMLTKENIKNNTNFKYYDFQQSGYQDSKWKTIELINNPEYKLFFEPTFEKYDGKMKTRCDILFKNEDGSFDIIEVKASTKEKDSHFFDLFYQ;locus_tag=LOCUS_07550;note=WP_011183309.1 DUF2779 domain-containing protein (Mesoplasma florum) [pid:30.0%25%2C q_cov:91.4%25%2C s_cov:22.6%25%2C Eval:6.3e-14%2C partial hit],internal stop codon at [474387:474389](+)%2C[474414:474416](+)%2C[474993:474995](+),MGA_755
sequence1	MetaGeneAnnotator	CDS	475086	475436	.	+	0	ID=MGA_756;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEDLNDTSNLVDYKLEVEEILKRKIVIQEEEPDYLNYDKLFILNNSIEKRKIRIDYIDFFKSIRDNFEIDNEILKMSNTFINDKILSDKMCGCYELDFKNLNLKIKEKVCSHVVK;locus_tag=LOCUS_07560;note=MGA_756
sequence1	MetaGeneAnnotator	CDS	475869	476111	.	+	0	ID=MGA_757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIHYNFIAKSPNDPRPEFLSNFLKACFLKGPGKYVAYNKSFERMVIKDLILMFPEFIKPLKYIYENTIDLMNFFQLPKNN;locus_tag=LOCUS_07570;note=WP_011183309.1 DUF2779 domain-containing protein (Mesoplasma florum) [pid:54.7%25%2C q_cov:92.5%25%2C s_cov:10.6%25%2C Eval:1.7e-18%2C partial hit],internal stop codon at [475758:475760](+)%2C[476109:476111](+)%2C[476271:476273](+),MGA_757
sequence1	MetaGeneAnnotator	CDS	476412	477047	.	+	0	ID=MGA_758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYKVIFCGTPPIAVEVLKGLEALNLEIVCVITQPDKMVGRKKVLTPSVVKGYALVKNYNILQPANIKDAFEEIKKYNADFLLTCAFGQFIPENILSLFKNSINVHGSILPKYRGGSPIQYAIMNGDKQTGISLMKMIKKMDAGEVYKTELIDILDEDDSGSLFEKMGKLANQMIQKYLIDIFEKKIVGVAQDESQATFAYNLSNEQEKID;locus_tag=LOCUS_07580;note=WP_011166634.1 methionyl-tRNA formyltransferase (Mycoplasma mycoides) [pid:57.1%25%2C q_cov:99.5%25%2C s_cov:66.9%25%2C Eval:5.0e-63%2C partial hit],internal stop codon at [477045:477047](+),MGA_758
sequence1	MetaGeneAnnotator	CDS	477427	477723	.	+	0	ID=MGA_759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVNDLRPGTTFLYDGNIFVVLDYSFSKSGRQQGKVTVKVKNLRSGSRVELTFTGGDKVEKAMVEKKDMQYLYNDGSNCMLMNTETYDQVEISSNKLE;locus_tag=LOCUS_07590;note=WP_011166635.1 elongation factor P (Mycoplasma mycoides) [pid:73.5%25%2C q_cov:100.0%25%2C s_cov:53.3%25%2C Eval:2.6e-38%2C partial hit],internal stop codon at [477721:477723](+),MGA_759
sequence1	MetaGeneAnnotator	CDS	477751	477987	.	+	0	ID=MGA_760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKMTEYNGEVLGITIPEKMELTISEAEPAVKGDTTSGAQKKAVLETGLEIMVPLFIKEGEKVVINTTDGKYSGRASS;locus_tag=LOCUS_07600;note=WP_011183306.1 elongation factor P (Mesoplasma florum) [pid:75.0%25%2C q_cov:97.4%25%2C s_cov:41.1%25%2C Eval:1.2e-27%2C partial hit],internal stop codon at [477721:477723](+),MGA_760
sequence1	MetaGeneAnnotator	CDS	478011	478304	.	+	0	ID=MGA_761;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183305.1;translation=MYFSIERNVNGNLEVEEKIIDKIVEYHITSATKGIKKVKATISMHHESILFILIKMTVTKKEDLVIDEAKIKSVIEESIKKNFLIRPKNIAFAYIKG;locus_tag=LOCUS_07610;note=WP_011183305.1 30S ribosomal protein S20 (Mesoplasma) [pid:31.6%25%2C q_cov:96.9%25%2C s_cov:98.0%25%2C Eval:9.7e-09],MGA_761
sequence1	MetaGeneAnnotator	CDS	478858	480375	.	+	0	ID=MGA_762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRLSGAGSTGRRAQEEILSRAGYQNVTTTEPFNFKAQPKTGQSLYEIENILDAVEGGVDKPGSILENNNSSGEFVGFGTVGAVQNNDDNLEELDVDEETRIMTQEVKPDPNLLDFVNGTSSRYEEEQDEDVIISNETNQNAPSSESTNTLSYSQNIQNREFVGSEDMSRQQFNVLNNIQSEYVPPQDSDALAVLELGTEFFQEQLGRHGLAAEPMQEGQSPFVYTDKDNLINPEKRNILSREGFEIYKSTDDAGLKTEGKPNYDISTGEVVKPFHEIRPVGNYGITYDYKKRPSMQDFFESQEKEGRVIDEMTQKIEFLRDLRNERRHRINMMKIERANSYIVARARRLAEARELRRLKRREDINLKAIEKAERMRRLHERQKLIQLMKDRQLKRAEEKRVATVLKLERERRLERDAKYRSEIASIDAQIRHEQELIKRTELKMKAYFTKVHDDQLFDESLRVAKKSNQFIELEQKAELMQELEEQKRKDRIEKISRKFNKNIK;locus_tag=LOCUS_07620;note=MGA_762
sequence1	MetaGeneAnnotator	CDS	480448	481107	.	+	0	ID=MGA_763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKAKINKVKYPNESYLREIGLTNSAINTLTGQIGKSHQKATEVAVHEAVLKMNKSLDVKDKLSKKDLKRRDQLLNVKNKEKNVIEKLELLGERKKNFENTKKLDYELMQEERRKKAKQSRNSSLIGSADYEKLNKMAADTFINNTNVSKKKIKQTSSHLTNRNVSKADLNNLFQLKDNKKFSFKKSEPKSIIPVRGASLLSKFDYLSESSKHFAKELG;locus_tag=LOCUS_07630;note=MGA_763
sequence1	MetaGeneAnnotator	CDS	481315	481527	.	+	0	ID=MGA_764;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKKYTNNVEKINKQKVKRQIEAINVSQITKKILDQSPLAKLSRDNNKKVVAPKGVDINKIPSIVFDRKK;locus_tag=LOCUS_07640;note=MGA_764
sequence1	MetaGeneAnnotator	CDS	481533	481781	.	+	0	ID=MGA_765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGMAKELKTSEKDFNLISDKTKTRIKGLMEKRLTTQTVALFAQEYETYDFDIRSEIIDFIVFLLDKAQQELEDNDSRRKDE;locus_tag=LOCUS_07650;note=MGA_765
sequence1	MetaGeneAnnotator	CDS	481971	482423	.	+	0	ID=MGA_766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKQNTSVDSNKKLKKETIASSIEKRIREAALREQKEAAAEKARLEKEKKEAAELKAKLEKEKKEAAELKFRKEKEKKAVEEKARKEKEKKEAEEKKKVDAEKKAKNNLKAQSNSVFKPKEEKEKEKVDKKPAVLTQRDYEKEQAEKEKL;locus_tag=LOCUS_07660;note=MGA_766
sequence1	MetaGeneAnnotator	CDS	482448	482621	.	+	0	ID=MGA_767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTQEAKRPSTSSFAPSPKNTDKTPLIKEESFVNFRLYGHTYPIDELTDPKHKLYVF;locus_tag=LOCUS_07670;note=MGA_767
sequence1	MetaGeneAnnotator	CDS	482885	483058	.	+	0	ID=MGA_768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHDIIICLSTIVLIVFLIAIPGMFYLLVSKNKRKVKTVEEIINEPFFVNEEHKKEN;locus_tag=LOCUS_07680;note=MGA_768
sequence1	MetaGeneAnnotator	CDS	483098	483280	.	+	0	ID=MGA_769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQDFDYKVDFFEYYENFSNGFFSSKFIRTKYVLVELMDLKSINKTVDRLNSYSNCLENI;locus_tag=LOCUS_07690;note=MGA_769
sequence1	MetaGeneAnnotator	CDS	483413	483613	.	+	0	ID=MGA_770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTIIIPNTIFSELKAKHLKSLEINKNVDYQKNINFAFEQVKIIAELLENKIKEEFKKELITKGKE;locus_tag=LOCUS_07700;note=MGA_770
sequence1	MetaGeneAnnotator	CDS	483833	484093	.	+	0	ID=MGA_771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSDEITSNKRYNQRKEVFMNYKASDAIDLIYRLIGNISAVSFPHFLDNHGKKRSLANDIKEFYRDMYKRKIKLKGEVENHFDLNN;locus_tag=LOCUS_07710;note=MGA_771
sequence1	MetaGeneAnnotator	CDS	484466	484642	.	+	0	ID=MGA_772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDKEELLKTPINSDSYEKYNQILKIYEYIENGMSIEEYLDSENIIMQIKKLPDNAEL;locus_tag=LOCUS_07720;note=MGA_772
sequence1	MetaGeneAnnotator	CDS	484691	485254	.	+	0	ID=MGA_773;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINSVFKTHASSAPIAKIEMIISNGGFKIDFQKIPLNNLYIALTQNEENVKKLIKISGQKLNRDLIDLVKGLFKNLLINMQLNQYHSFDNKEIFYVPNKKVIYSYLKEIGNLIKYHESNLNEPILSHPGDNLSDFKIAISSSLLNFEDKNAIIDVLRKNYKEIKDYPNAVLLKTIEYIESLSNVENI;locus_tag=LOCUS_07730;note=MGA_773
sequence1	MetaGeneAnnotator	CDS	485287	485655	.	+	0	ID=MGA_774;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCCNCKDNILNNCSCSIYEVECNLNCCWCCLYSRMVDFEAKKNFFNILITDFTNVLAKQKHLKVIKKVLKNSLKDLNECEQELKIIKAKNYISLINSDNDIENIVKDIELDLGLKIRNIIKQ;locus_tag=LOCUS_07740;note=MGA_774
sequence1	MetaGeneAnnotator	CDS	485752	485898	.	+	0	ID=MGA_775;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDFLFELAKLFKTIVFSQDNASFIYTIQENFIDLDKTLKNFHSKLEQ;locus_tag=LOCUS_07750;note=MGA_775
sequence1	MetaGeneAnnotator	CDS	486364	487263	.	+	0	ID=MGA_776;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEDFKATKEEIDIAIDQYRDRFALEKDKDKDAKIAKGDVAIFDFEGFVDGVAFKGGKGLDFRLVIGSNQMIPGFEDELIGKKLGESKIKVTFPEDYTPELSGKDAEFVINVKSIKERILPEKDDELAKDLNLPNIKTYKELENSVKQQIIDQKTLSLKNTFVNKVIDMIIASSKIELPKSAINREIENLYKEFEARVANQKLTMKEYKKKTGLTDDKIREELFDDAKRKICSYLVTDKVRNTEKFEPTKEQIEEKYSKLAAQFGVDADYIRKTILPEAQIKEEIIREQIVDFLYENNG;locus_tag=LOCUS_07760;note=WP_011183304.1 trigger factor (Mesoplasma florum) [pid:54.4%25%2C q_cov:99.7%25%2C s_cov:69.7%25%2C Eval:3.0e-87%2C partial hit],internal stop codon at [486202:486204](+),MGA_776
sequence1	MetaGeneAnnotator	CDS	487373	487612	.	+	0	ID=MGA_777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNSKRLPLLVTRGSYVYPSFEQVLEIGRDKTTLAVKEAVEHNDGLILIVSQKKPLEDDPDTNELFNFGVLAKVNIKKE;locus_tag=LOCUS_07770;note=MGA_777
sequence1	MetaGeneAnnotator	CDS	487772	488254	.	+	0	ID=MGA_778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIASQDEFPAEVEEILKDSTANMDASFLVDSAAHLMPFMPIEKKQAILEEIDPVKRIGIINDFLDEKRQSADIETSISKKIKSRVDEQQREFYLREKLKAIKEELGDMDGEGDDIKKYKKRLETEPFPEHIKKRIMQEIERYEGLPSSSSEANIIRTYID;locus_tag=LOCUS_07780;note=WP_004082110.1 endopeptidase La (Thermotoga maritima) [pid:37.3%25%2C q_cov:95.6%25%2C s_cov:18.7%25%2C Eval:2.0e-21%2C partial hit],internal stop codon at [487610:487612](+)%2C[488252:488254](+)%2C[488270:488272](+)%2C[488273:488275](+),MGA_778
sequence1	MetaGeneAnnotator	CDS	488402	489007	.	+	0	ID=MGA_779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGQIITLVGPPGVGKTSLAKSIADAMGRNFVKVALGGIKDESEIRGHRKTYIGAMPGRIIQGMKKAGVKNPVFLLDEIDKMASDYRGDPASAMLEVLDPEQNSKFSDHYLEEEYDLSDVVFIATANYPDGIPEALYDRMEIIELSSYTEIEKLKIAKEYLVPKVLEDHAVTPEQVKFTVEGLNEIIKHYTREAGVRQLER;locus_tag=LOCUS_07790;note=WP_011183303.1 endopeptidase La (Mesoplasma florum) [pid:79.6%25%2C q_cov:100.0%25%2C s_cov:25.5%25%2C Eval:3.3e-90%2C partial hit],internal stop codon at [488252:488254](+)%2C[488270:488272](+)%2C[488273:488275](+)%2C[489005:489007](+),MGA_779
sequence1	MetaGeneAnnotator	CDS	489041	489760	.	+	0	ID=MGA_780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKEIETLVVTPEIVNELLKKRIFEHTEKEKDAQVGVVTGLAYTQFGGDILPIEVNHFPGKGGLILTGKLGDVMKESATIAYDFVKSNFKSFNIPKEVFNENDIHIHVPEGAVPKDGPSAGVTITTAIVSALTNKPVPKDIGMTGEITLRGLVFPIGGLREKSISANRSGLSKIIIPFKNQKDIEEIPEEVRNALKIVPVQRYEEVYEEVFGSKPAAFTTELPIATSSDSSAKSAESH;locus_tag=LOCUS_07800;note=WP_011183303.1 endopeptidase La (Mesoplasma florum) [pid:68.7%25%2C q_cov:89.5%25%2C s_cov:27.2%25%2C Eval:4.5e-82%2C partial hit],internal stop codon at [489005:489007](+),MGA_780
sequence1	MetaGeneAnnotator	CDS	489828	490586	.	+	0	ID=MGA_781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKALSFLLRPTTLKKVIGQTHLLNKNGIITKMVEKNFVANLIFYGPPGIGKTSTAISLANDLNCEYIQFNASKDKKETLIKLIELKTSKNKLILIIDEIHRMNRNIQDYLLEFLETREIVVFITTTENPYFVINPAIRSRCTVLQLNEISKEEMIEGIKKIIIDNDLKLDIDNKNISLISQYSNGDLRTALNVLEILENLYNDQKIDENLLKNIFDKANVKGTAEGDEYHDLKSAFQKSIRGSDVNAALHY;locus_tag=LOCUS_07810;note=WP_011183302.1 replication-associated recombination protein A (Mesoplasma florum) [pid:46.8%25%2C q_cov:100.0%25%2C s_cov:61.5%25%2C Eval:1.5e-62%2C partial hit],internal stop codon at [490584:490586](+),MGA_781
sequence1	MetaGeneAnnotator	CDS	490596	490943	.	+	0	ID=MGA_782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIGDYEIILRRMQVIAYEDIGLANPAIAQRVYLACQSFREIGMPEGIKMLGMAVIEMALSEKSNSAYLAIDAAISDVKSGNVPPIPVYLRDGHYASAVKLGVNGYVYPHNYENA;locus_tag=LOCUS_07820;note=WP_011166639.1 replication-associated recombination protein A (Mycoplasma mycoides) [pid:59.1%25%2C q_cov:99.1%25%2C s_cov:28.0%25%2C Eval:7.9e-35%2C partial hit],internal stop codon at [490584:490586](+)%2C[490941:490943](+),MGA_782
sequence1	MetaGeneAnnotator	CDS	491381	491677	.	+	0	ID=MGA_783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLAKNSGLSYVSLLNDSFGNGITFGCPNRNVVQHFVETLRGSSNAEIEILPESDDPLLAENEKEQLIDENLNKVQENKPHKFEMKHEDKTPMKEHDL;locus_tag=LOCUS_07830;note=MGA_783
sequence1	MetaGeneAnnotator	CDS	491929	492594	.	-	0	ID=MGA_784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFTEYYNDENRKNYDKSKPDNRVGLVNDGITTLARSLKVENKIQVVYKSDKSIVKNMKGTSGDEDGKYNPITIALNLIKFPGYAVKGPALKPGSEEQIYAGAKGALYALGYVDGQKTFNQGSPLAAIENIFDDESVIKIRDNALSDFKSLSDIKKEYIKTNIDKYIVNDNFSYKMVSYSNITDEDKYGNIEMEITYRSPIDGVEKKYQVKLIEYATKRS;locus_tag=LOCUS_07840;note=MGA_784
sequence1	MetaGeneAnnotator	CDS	492712	494577	.	-	0	ID=MGA_785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLAIVSALSMSTTVFSVTSCSLVNYKKQYIKNKVDSIVDVASVASRGAILNDAEGISVDYLNNYIGSKKMNDMLPTFKATPQAKVSDFVNATFEDPLDKKFYTGLGDSNGYTLDDGISPDSFADSIIDTGSTALSAIKSAGGIKPSLGGILESLLPEVGGFLSDDGVDFKMSDNALNTFEKLAPYAQQLLNDFGKTGIVSILCRLFFNINFINSGTLDQDALKELVTILTGGPDKSTVVPFILEDYINEIMFNDFKGKYQPTKEELENQDPEVPIDVNLQLTPKVVQQSALVRLNKLLIRLSGRNIDANTPETDPIRLQLEMDDYHPIDKPEFFKENLGENILYLVKNKDKLNYVAIIENISDLFFILCSLIINIGIFDFEQMDNTLSTSLGSDSLFYFQGINSNMAEVLDNKTFASIMNNQKDEKKRMLVIDYNNSINSSGMPNKTKFSAYKLLKNITRAVNVKDSKSMYSMQRIFFLLCYSNASRNPDEDPNKPFGVDYKLSENANLIDIVKLGALTGGMFNREVVGVDSLLNGIIQGIGYKILDMIDGVSIPGIIKGLGGSAISRLAGVLLDTISNNRSIQGVSSILYTINTFFDTGIKISDETTAKMAKGFNAL;locus_tag=LOCUS_07850;note=MGA_785
sequence1	MetaGeneAnnotator	CDS	494830	495588	.	+	0	ID=MGA_786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSASTRILDNYNEIMPKMDQFDYVSTREVGSKKDNDPKIVPMMDLIDYQFLAGYYSAKKDNFDGLNKSYGYNFNLVSITGENDPENTKGFADDKFSQNDDENGLINHYMVTDKFTVTDDFDDLLKDQYNKNYQETFISNAFSQRQVKEAFHKVLSNTRFLDIIFHYQYNKENDVVEYKKTYDQYNKLEITGATKYADYIDGSDKSPSDSDYNLKKVIYGNFVKTAIYYLRECFLQDLSSRKEYLKNTTFDKL;locus_tag=LOCUS_07860;note=MGA_786
sequence1	MetaGeneAnnotator	CDS	495682	495936	.	+	0	ID=MGA_787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTSVKYPSKYDLYLINALSSLVGQVINSAIEYVQYYIDSSVAEATKVENTTNVDTSKLAVYFNKGVVNDDGIDKEKDVAGFKY;locus_tag=LOCUS_07870;note=MGA_787
sequence1	MetaGeneAnnotator	CDS	496129	497172	.	+	0	ID=MGA_788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESDKTSDNSSDIGDETSSLSTRKRADETTPESNRTTADVEYFDYTCQNKTDKFKKGLRGSLNQIIVELDGKESDAMPTGSAGSMSDTKILKFENDRTTINEDIATDTGFVNFSDRFDYSRTKINNIKLYYLKSDIVGEATNVTVDHRAEMGMSDTVQELKYRMVVLDELWNSRLTIVSGRPPTASNEILINSQFAKVNGVKLGSSLSIGGSAFIICGFAADPLTFYPVADMDVPIPNIKKGIIVYATEDTLKRVVTEDFSKYTSKILDTFVTANNSKNAEKATLDYFSSLMSNEKYLYQSYYAKKAYADAQNNSSASIKNSKDILSSINKGYDEYKSFADSTLSFN;locus_tag=LOCUS_07880;note=MGA_788
sequence1	MetaGeneAnnotator	CDS	497185	497403	.	+	0	ID=MGA_789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTKMFQIFSYTVSFLIALIALAATLIAIKKTIEMNAGEITILKAMGATSSSVAVSYLSYGIISSFIIAPVA;locus_tag=LOCUS_07890;note=MGA_789
sequence1	MetaGeneAnnotator	CDS	497563	498072	.	+	0	ID=MGA_790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRKPVLEIAKIKDVVKKNETLEKIKKFLTKNKSFSKKFSTELAINGFSKTLLTAVAIFFASFFISGSMAIPGLVKKTLNDYYKSVNYTNYVDYVDLVGNGPLSKSALSPWQGVESYEDKYIDTQGKLDAGITNVGKTTSATLPISDHSVMPKVLISSADGSKNTVRYD;locus_tag=LOCUS_07900;note=MGA_790
sequence1	MetaGeneAnnotator	CDS	498505	498873	.	+	0	ID=MGA_791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSMYTKVNMKNDVDNVQVSGMDSTQVAYKLPTDGEKIFLDQNSLKQIEDLLFARESAPTTDITVNGFKVYDYSTKTLNVPTLANEDSSINYHYKNSQLENMNSSVTRLVLAKDGTNIPNSA;locus_tag=LOCUS_07910;note=MGA_791
sequence1	MetaGeneAnnotator	CDS	499135	499281	.	+	0	ID=MGA_792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDENNQEQLSAEIRPYYQFDDIMLFIPYEKYDDFKNVINQGNATISDA;locus_tag=LOCUS_07920;note=MGA_792
sequence1	MetaGeneAnnotator	CDS	499348	499551	.	+	0	ID=MGA_793;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENPKQFLWIRPYSLYFDSNLPYEKPSNNLQGSETSNFTNTRYNFLQYIFSKSDSPMAVKSDVKMN;locus_tag=LOCUS_07930;note=MGA_793
sequence1	MetaGeneAnnotator	CDS	499906	500340	.	+	0	ID=MGA_794;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTQGSFSMSPRIGDYSINVPNNFSSTVEIGAIKLLSEEKNLINQIAVLIITIGVFFIIFIVIVATLTIILISDLYVTQYKRFMVVMKSLGYSNREIINYTFRFVTLWSFSLFLFGMILSYLGVFFTMKYVSQNILSIPVGFMW;locus_tag=LOCUS_07940;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:33.3%25%2C q_cov:75.0%25%2C s_cov:6.2%25%2C Eval:5.6e-13%2C partial hit],internal stop codon at [499816:499818](+)%2C[499864:499866](+)%2C[500338:500340](+),MGA_794
sequence1	MetaGeneAnnotator	CDS	500676	500972	.	+	0	ID=MGA_795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDGYHDDQSFTEYVYRGADEFVKKIMDKSDYNAAYKELGEIGEASLRSAYENVVGGGAKVLVLSGYSHDAIAKGYFDEVIKKVNGSAVIVDNKTYKN;locus_tag=LOCUS_07950;note=MGA_795
sequence1	MetaGeneAnnotator	CDS	501411	501743	.	+	0	ID=MGA_796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVAGPQTEDALAILKNDSSKKAKVVGVDVDMSKVYRSYDKLILTSAIKQLTEGGLIALAHTDIYKDNIEYQDKAAQYAKDNNIEVILKDENKQNFENKKVNFDKEKGKS;locus_tag=LOCUS_07960;note=WP_011183565.1 xylose ABC transporter substrate-binding protein (Mesoplasma florum) [pid:36.9%25%2C q_cov:96.4%25%2C s_cov:23.0%25%2C Eval:4.0e-07%2C partial hit],MGA_796
sequence1	MetaGeneAnnotator	CDS	501994	502293	.	+	0	ID=MGA_797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIEYAVEMQNISMIFNNNIIANKNVNLNIKKGEIHALIGENGAGKSTLMSILFGIYEPTKGIIKINGNVQIISNPIVANNLKIGMVHQNFQMVDIFKL;locus_tag=LOCUS_07970;note=WP_011183564.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:69.6%25%2C q_cov:92.9%25%2C s_cov:18.0%25%2C Eval:1.2e-30%2C partial hit],internal stop codon at [502291:502293](+),MGA_797
sequence1	MetaGeneAnnotator	CDS	502378	503529	.	+	0	ID=MGA_798;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENDLEVNLNLLAKNATVGEQQRAEILKLLYREAEILIFDEPTAVLTPNEIDGFLKVLINLKNNGKSIILISHKMDEIEKVADRATVLRRGKVIGTYNLNETSVDELSFAMVGRQLKKIINNHKDIDNKKILEIENLNVQKNNNKKVIGLKKLNLQIKAGEILGISGVQGNGQEELANIIAGMQKPKSGKVLINQIDITKKSIYERYHKYKMSHIPLDRQKHGLVLDFNVIENTVLQDVGIKPFASKLGILNFDEIKKFGQTIVEKYDVRNASNGYAIVRSLSGGNQQKIIIGRELTRESDFILIYQPTRGLDIGSIEFIHSQILEAKKLKKAILLISYELNEILALSDRVVILSSGEAIGELTGDKISYENIGKLMIGNKK;locus_tag=LOCUS_07980;note=WP_011183564.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:54.9%25%2C q_cov:99.5%25%2C s_cov:74.4%25%2C Eval:6.3e-115%2C partial hit],internal stop codon at [502291:502293](+),MGA_798
sequence1	MetaGeneAnnotator	CDS	503676	504092	.	+	0	ID=MGA_799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGFNGFSFLGTSIAKSFDIRKIGSTSNFDKVLLYFSIYSLIGFGLALGFRVGMFNMGGSGQALIGLIFTLLIIQSIANKQGIDFKEVNKGTVFLVFICFVLAGTFISCLSGLLKVFFNIHEVATTILLNYVAYFLLK;locus_tag=LOCUS_07990;note=WP_011183563.1 ABC transporter permease (Mesoplasma florum) [pid:42.6%25%2C q_cov:98.6%25%2C s_cov:21.1%25%2C Eval:1.0e-26%2C partial hit],internal stop codon at [504090:504092](+)%2C[504117:504119](+)%2C[504150:504152](+)%2C[504174:504176](+)%2C[504243:504245](+),MGA_799
sequence1	MetaGeneAnnotator	CDS	504261	504503	.	+	0	ID=MGA_800;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGKSTTAAKYAGVNEKLYIIVITIVQGIFMSMGGFIYYFGIAYSQSIQTDIIPSLGYDAIAVALVAFNNIIAIPFVALL;locus_tag=LOCUS_08000;note=WP_011183563.1 ABC transporter permease (Mesoplasma florum) [pid:51.2%25%2C q_cov:100.0%25%2C s_cov:13.1%25%2C Eval:1.5e-17%2C partial hit],internal stop codon at [504090:504092](+)%2C[504117:504119](+)%2C[504150:504152](+)%2C[504174:504176](+)%2C[504243:504245](+)%2C[504501:504503](+),MGA_800
sequence1	MetaGeneAnnotator	CDS	504660	505283	.	+	0	ID=MGA_801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIYNKDYELKQIIKNKKNILKENKKNIKAEQKDLQKLSFDTIAQIQLLKKKNKDLLIEINEIKEDRIKSFKTNSILNLKVYYNKITSDITFDFLDKFSNLKANYNEQIEKNKSVANFKIIKKSLKNDLINNFKILFEKFKKDISINQNKFKEAMINAKSFLNNYKKSVYQNNINKINKSDNEYKEKLKNEKTKFFEIQKEVFEKYV;locus_tag=LOCUS_08010;note=MGA_801
sequence1	MetaGeneAnnotator	CDS	505276	505668	.	+	0	ID=MGA_802;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDNFYLVISSILIFFTIFLIAALSGLISERAGVVNIGIDGFMTIGALVFSLVGKGFNANGTQFFAIIIAMIVAAAFAMLHAFASITLKANQIISGTAINLVAQGIGLYIVSTSSIGVMGRISSGYTIMG;locus_tag=LOCUS_08020;note=WP_011166219.1 ABC transporter permease (Mycoplasma mycoides) [pid:46.6%25%2C q_cov:84.6%25%2C s_cov:35.7%25%2C Eval:6.5e-21%2C partial hit],internal stop codon at [505666:505668](+),MGA_802
sequence1	MetaGeneAnnotator	CDS	506194	506454	.	+	0	ID=MGA_803;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIIYAHPDKNSFCNSILQKVIQKLNDKNYDYKIINLIEEKFNPVFSYEDHLVYKKKEVLKDDQVLKYQKILKESEELIFIFPIY;locus_tag=LOCUS_08030;note=WP_003399299.1 NAD(P)H-dependent oxidoreductase (Clostridium botulinum) [pid:41.9%25%2C q_cov:100.0%25%2C s_cov:45.0%25%2C Eval:3.8e-13%2C partial hit],internal stop codon at [506452:506454](+)%2C[506527:506529](+),MGA_803
sequence1	MetaGeneAnnotator	CDS	507336	507506	.	+	0	ID=MGA_804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METYALYACANFFDKKALAILNVVVNTTDRNGLDSEERETKLINMVEIALETCINI;locus_tag=LOCUS_08040;note=MGA_804
sequence1	MetaGeneAnnotator	CDS	507496	507927	.	-	0	ID=MGA_805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLIKAARLITSFVNDSKKVQKKKIDENKVYQLVINNQIKDINIRNIRTIKQKFNALIFKEKFNHTMGFRFIGVKGFNSMGFKEEVDLIICDKKYQVIETYSNFPPNKVTQHHNDAVVVFVLAKHTIKYLNIKLNDLIKITKY;locus_tag=LOCUS_08050;note=MGA_805
sequence1	MetaGeneAnnotator	CDS	507996	508571	.	+	0	ID=MGA_806;product=DJ-1/PfpI family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183160.1;translation=MANVAIFLATGYEETEMISTVDVIRRAEQMFKGSFPVVDIVSISDKKEVTGSHGITIKADKTIQEINFDSYDCLILPGGQPGVNNLMESETLMKNLKTHGEKGKTIAAICAAPQILGKLGLADNKEITHYPGSTKYLENATLKPHMTAIEDGNIITGCSIGGALQFGLQIVDHFTSTEQRLKLHETLVFNY;locus_tag=LOCUS_08060;note=WP_011183160.1 DJ-1/PfpI family protein (Mesoplasma florum) [pid:42.6%25%2C q_cov:98.4%25%2C s_cov:98.9%25%2C Eval:3.6e-35],MGA_806
sequence1	MetaGeneAnnotator	CDS	509464	509769	.	+	0	ID=MGA_807;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILDKIKETFENENIYLENLQLYINFYNILLKIRSLKEISSIPYKNPINIFTTNYDIFNEIAMEKTAIKYTTGFDGDIDRKFSIENFRFRIVDDENRFKEK;locus_tag=LOCUS_08070;note=MGA_807
sequence1	MetaGeneAnnotator	CDS	510001	510243	.	+	0	ID=MGA_808;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYGFPDEHINQIILQALSSNSFTLIVFADIDGDEDPVKKFFDKTKNYNNVVFIGGKYENNLLINHFENIIKTLEKNIGE;locus_tag=LOCUS_08080;note=MGA_808
sequence1	MetaGeneAnnotator	CDS	510248	510517	.	+	0	ID=MGA_809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLLIGKIINVYTDRIGIELIESSDFSYNYNGDSYTLNGINDFITVQNEYNNKCLLRITSIYQKQKALDRSENSKFTDINIADACPVGE;locus_tag=LOCUS_08090;note=MGA_809
sequence1	MetaGeneAnnotator	CDS	510557	510943	.	+	0	ID=MGA_810;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGKNVYLANKGEISSIFESADIKNSIYFGDIVNLEYIKFKINLKTLFSNHMAIIGNSGSGKSTTIKEIINSLVNDLEDSNKSINRKNINFILFDVHNEYSNFMQTNYQIIDAKKDISLPLENLNLAD;locus_tag=LOCUS_08100;note=WP_011266186.1 ATP-binding protein (Pseudomonas syringae) [pid:30.1%25%2C q_cov:96.9%25%2C s_cov:20.2%25%2C Eval:6.8e-10%2C partial hit],MGA_810
sequence1	MetaGeneAnnotator	CDS	511013	512005	.	+	0	ID=MGA_811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEDVKFDMNSLLAYIVKELYINVQTDSVAKRQKIVGICEKINNPDLLKLLDSYNVRFGNFEDKDSEKNFKEKLSNLIKNNNFERIIIDSLDKIKNIESLKEGIELALLWEERKGNNQVRPNCITMMTRVENIISEYKDNLFSSNINKIENYKKIYDNEEILTVVNVSELEDDDLRFFANFFLNQVFNNKKTKNDLKTYNIIFDEAHRYIKEDNNNELTKSFSIFEKIAKEGRKFGIYLTISSQRPGELSKTVLSQCNNFIMHRIKSGIDLENIKKSNPFIDEYQINRLSVLPTGTAVLAGESFLIPLEVKIVKKEEKKDESASPNLLDV;locus_tag=LOCUS_08110;note=WP_002387067.1 ATP-binding protein (Enterococcus) [pid:28.2%25%2C q_cov:72.1%25%2C s_cov:40.7%25%2C Eval:2.7e-23%2C partial hit],MGA_811
sequence1	MetaGeneAnnotator	CDS	512182	512403	.	+	0	ID=MGA_812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDGAKLLEAIHEIVDEKKIDREIIFEGIVEGFKKAYEKFFDLEAIIKVDIDEQTGQINVFKQLSVVQQVEDD;locus_tag=LOCUS_08120;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:1.2e-17%2C partial hit],internal stop codon at [512401:512403](+)%2C[512677:512679](+),MGA_812
sequence1	MetaGeneAnnotator	CDS	512515	512679	.	+	0	ID=MGA_813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVGQIIKQKIREGEKNKLYEEFLSKNHEIVGGTVKDITDTTYLIDVDGSIIAI;locus_tag=LOCUS_08130;note=MGA_813
sequence1	MetaGeneAnnotator	CDS	512689	513018	.	+	0	ID=MGA_814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPGEDFDEGDRICFYVEEVSRENKHSQVLASRVHPQFLAKLMETQVPEIAEGIIEVKSVSREPGKRSKIAVHSNEENIDPIGACVGAGGNRIKEVSKELNGEKIDIVL;locus_tag=LOCUS_08140;note=WP_013527896.1 transcription termination factor NusA (Mesorhizobium) [pid:55.6%25%2C q_cov:99.1%25%2C s_cov:20.3%25%2C Eval:1.7e-29%2C partial hit],internal stop codon at [512677:512679](+)%2C[513016:513018](+),MGA_814
sequence1	MetaGeneAnnotator	CDS	513130	513249	.	+	0	ID=MGA_815;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLAIGKKGMAARLVANLVNTKINIVSLDNAEEQGIDNL;locus_tag=LOCUS_08150;note=MGA_815
sequence1	MetaGeneAnnotator	CDS	513388	513546	.	+	0	ID=MGA_816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDEIDESIYVQDSSLEDIQTYAETFESIAKEDDDQEETIEVDDDYDSYYEK;locus_tag=LOCUS_08160;note=MGA_816
sequence1	MetaGeneAnnotator	CDS	513559	513828	.	+	0	ID=MGA_817;product=YlxR family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166544.1;translation=MNETTHKVLRKDVSSNKMYSKLELIRVVKNKEGNIFIDQSKKANGRGVYLRPTLESVEKLKKTKALDRCLRTKVPDEIYQLLVEEINNN;locus_tag=LOCUS_08170;note=WP_011166544.1 YlxR family protein (Mycoplasma mycoides) [pid:47.6%25%2C q_cov:92.1%25%2C s_cov:86.3%25%2C Eval:6.9e-15],MGA_817
sequence1	MetaGeneAnnotator	CDS	513834	514142	.	+	0	ID=MGA_818;product=YlxQ family RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003220946.1;translation=MEDLLKTLGLVSSARQIISGESLFKKIQQQKVRIVLTTSDMGKSQLKKINDKCNFYQIPIYNGLFNSDDLNKAIGKNNIKAIGVESINFAKLLINKISKGDV;locus_tag=LOCUS_08180;note=WP_003220946.1 YlxQ family RNA-binding protein (Bacillus) [pid:37.1%25%2C q_cov:86.3%25%2C s_cov:88.0%25%2C Eval:5.2e-10],MGA_818
sequence1	MetaGeneAnnotator	CDS	514145	514351	.	+	0	ID=MGA_819;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKQNNDKNKNNKQQAKNKSKAHTANLKNKLRETKQTGVIDGVFVYTEPLTIADFASKLQKGPAEIVK;locus_tag=LOCUS_08190;note=WP_011183192.1 translation initiation factor IF-2 (Mesoplasma florum) [pid:57.7%25%2C q_cov:76.5%25%2C s_cov:8.3%25%2C Eval:3.9e-10%2C partial hit],internal stop codon at [514349:514351](+),MGA_819
sequence1	MetaGeneAnnotator	CDS	514370	516013	.	+	0	ID=MGA_820;product=translation initiation factor IF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166542.1;translation=MVTQNQMLTEEQMGELCLEFGYDFKKETTVTKENIFETFDENDDPKDLKLRAPVVTIMGHVDHGKTTLLDSIRNTNVTEGEFGGITQHIGAYQVKLKNNKITFIDTPGHEAFTEMRARGSEVTDIVILVVAADDGVMPQTEEAIDHAKAAEVPIVVFVNKIDKPDANPDNVKMELMKFGIVAEEYGGDIPFILGSAITKVGIDNLLETLLLIAELKDLKANPNKFARGTVIEAHLDKSRGPVATVLIQNGTLNLRDIVIAGGTFGAIKDIEDEHKVKIKKVEPGKPAVIIGLNDVPRAGDKFMVVVEEKLARDIAEAQAIKQANESRQKNQTFTLDSIKNQIESGELKSINIILKADTQGTVEAVRNSMLKISIEGVKVNVIRATVGTISISDVSLALASNALIYGFNVRPNAQVRQKAEEDGVDIRLHNIIYKLIEEIAEAATGMLDPVYEEKSLGEAQVRQLFRHSQVGTIAGCRVLSGTIPRASKVHILRDGIVIYTGEMSSLKNKKDDIKEAREGSECGITIKNFNDLKENDIIEAYKIEEVK;locus_tag=LOCUS_08200;gene=infB;note=WP_011166542.1 translation initiation factor IF-2 (Mycoplasma mycoides) [pid:65.2%25%2C q_cov:100.0%25%2C s_cov:89.0%25%2C Eval:8.3e-210],MGA_820
sequence1	MetaGeneAnnotator	CDS	516015	516362	.	+	0	ID=MGA_821;product=30S ribosome-binding factor RbfA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183270.1;translation=MSKEIKLERAQSTIMRELNLILQREFPDTEFLNSLSVHEVRLTNDMSIAKVFYSSMDSEASIDDIKEEIKENAKEIRMILAGKIEMRSVPELKFEYDSSLEKANKIEKILKEIKK;locus_tag=LOCUS_08210;gene=rbfA;note=WP_011183270.1 30S ribosome-binding factor RbfA (Mesoplasma florum) [pid:46.8%25%2C q_cov:80.0%25%2C s_cov:80.2%25%2C Eval:6.3e-16],MGA_821
sequence1	MetaGeneAnnotator	CDS	516553	517281	.	+	0	ID=MGA_822;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILKSLFCISLSLFLFAKKENIKIYENNNYDNNVLCVNSVSKNFMILNSYEDESKHEVDLEYDKDYNKYSSSIKAYFPSITNDKVKRIYEITNRSYGIGQRYLYDFDYEKSSLEFDLSLFNENKEKVQNIIIEANSNENRSLLKNYFNYLTNLVSNVNLKNNSFIRISINKYTGIFGYISNYLNLYGCDGINNDVLLYKVKIPERINNNKVNLVKLFDAKINLNIKYRPALQPYDNNNIL;locus_tag=LOCUS_08220;note=MGA_822
sequence1	MetaGeneAnnotator	CDS	517502	518926	.	+	0	ID=MGA_823;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLKLNSLLLISGSSLGLTAFPNKEKYQNNSNILELNNLESKKNKIAYEKISLTSMLLDDIEVDISSLLSKNYTELDLAKTVIRSAINQNEEYKKDLKDLLVSFTKYSKFFSLDNFDIDIKNFGDYSSDKYQLTILANDDNSYYEGELVINASFHRTTKYKTRDIVETIDYNNLGYVESLEPVKILDKFIDVNKKFSKLDAKYLGIKDITQKTATIYSLEEKVFKGKVQVYFNELLDLSKIVSQKDLGLLEKDPSLEYVKDYLKNNYKIDLVSIIIDIRNSEKKVIVKADKLSNVYFGEFILTYTLKFNLSNVKSTELGNLLNVNDEYIISEFAKNNNLKKESLYIDKTLQSYRSSVIKAYSNSSYTGYAVVTYTSKEYMILNDYSGVKEVYAYNSRQYAEYTNNYVYHAKLGKTAFLNSHRYINFDVEITASNNGNGNFQSNGKHSYFETLNANPNKKQMFYHGYEGAVN;locus_tag=LOCUS_08230;note=MGA_823
sequence1	MetaGeneAnnotator	CDS	520668	520919	.	+	0	ID=MGA_824;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINEEFYFYLISDVYYRKLIEVSIKSINIFENFNKEDINLSTINKTYLKVNKNIDEITFSSLRNNSFDNENVVFENGNYTNGN;locus_tag=LOCUS_08240;note=MGA_824
sequence1	MetaGeneAnnotator	CDS	521494	521886	.	+	0	ID=MGA_825;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIKLIFGISLTTVISSTVVSCSHKIKLSENDIKNMINEEYSKSDMYYRSMEDVNNVLSNIFMKYNNYIQLNSVGNPNQEGYLIKANKIEETTAKISFSITAQKIEKVGSEFIVNDDFFYNQTYKTFK;locus_tag=LOCUS_08250;note=MGA_825
sequence1	MetaGeneAnnotator	CDS	522016	522411	.	+	0	ID=MGA_826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSDFDSINKNIFNITIIPNLESYQSNRIIRFLFKAKNAKEYTNIEIENVIKTYDPIIETDIKNNEITTKWGNKIEFNILDYAKYKNLKVAPTSYSNSLIEDFVINNGKVTTTMLYRNDEYNTFFQSSYF;locus_tag=LOCUS_08260;note=MGA_826
sequence1	MetaGeneAnnotator	CDS	522421	522684	.	+	0	ID=MGA_827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADDIPSPTKIKIIANPIDTPFVNNNNESNINLNVSKENEILFDKKIKNKKLHFKEDDAKKYLLFKNGNVESNGVDYSGLDKMIIEG;locus_tag=LOCUS_08270;note=MGA_827
sequence1	MetaGeneAnnotator	CDS	523461	523976	.	+	0	ID=MGA_828;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFTGTTILACSTYAYTPDQLGKIFKIIKRIQDNIIDNNIRLKDKQDIINNIVNNIKDIDDVYFEKNSNIKENDVLINININKINDKSFETTIEFFESYKINGGYEYKSDYSQSSEYSFLRKLEEIEDIEIESNDIKNDRESGYARIYIKNYSKIETISFKPIENEEQFEK;locus_tag=LOCUS_08280;note=MGA_828
sequence1	MetaGeneAnnotator	CDS	524319	524615	.	+	0	ID=MGA_829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREEQFSVYLISDLYNTKVLSFSIKPIEIFENLNDENINLSTTSKTYLKVNQNIDELTFSALSHKSFDYENVVFENGNYTNDNLQVKYRKTDEVILSA;locus_tag=LOCUS_08290;note=MGA_829
sequence1	MetaGeneAnnotator	CDS	524922	525128	.	+	0	ID=MGA_830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIEDTNLVSLNPTFKDFPAKNIEYIKINVISIQNIEEFNKAEKTNLIYNIGKSNLNSFKIQIIYKES;locus_tag=LOCUS_08300;note=MGA_830
sequence1	MetaGeneAnnotator	CDS	525143	525538	.	+	0	ID=MGA_831;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIKLMFGISLTAAFSTTVISCSRNKIKLSETDIANIINNEFSKSDSYFHSMEEVTSTLVQLFMQYNNYVKINSIGNLHQEGYLIKANKIEETTSKINFSITAQKIEKVESEFIVSDSNFYNENYKAFK;locus_tag=LOCUS_08310;note=MGA_831
sequence1	MetaGeneAnnotator	CDS	525719	526063	.	+	0	ID=MGA_832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPNINSNINNQTVIIIFKAKNVKPFTIVEIKNVIKDYDPVIKTDLENSELSTKWGNRIEFNILNYSKYKNLKVSSTSYSDSLIEDFVINNGKVMTTMLYKDDKYNTFFQNSYF;locus_tag=LOCUS_08320;note=MGA_832
sequence1	MetaGeneAnnotator	CDS	526151	526333	.	+	0	ID=MGA_833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDINLEVGKEKEIVFDKKIKNKKLYFNNALAKKYLLFKNGNVESDSVDYSNLDKMIVEG;locus_tag=LOCUS_08330;note=MGA_833
sequence1	MetaGeneAnnotator	CDS	526996	527193	.	+	0	ID=MGA_834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLYILNLFDITILSPISVVSCKGLGQNYKLACDILKVEKLIKEILINKNIRSLNEDESIKSF;locus_tag=LOCUS_08340;note=MGA_834
sequence1	MetaGeneAnnotator	CDS	528525	529241	.	+	0	ID=MGA_835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLTTLCLSSSLVIQQAYILGCKTDNKEDISKQKVEFVNNLLKQEIFEKKLRFNNIEEIINKIKEITSSLDYLHFDNKEDIKQDDILAKIKIDTVSNKEFKILISYYKSYKSNGKFIFDDTYYYSFSFQILKKLQYIDNIFVEKDSIENTIDNSIADLKITNYNLIEDIYLTPIENKDQFDIFGVEDKKDYAIVHVFMKKIVDNQSKITKFILSASNAKNTLVISVNNIYGMTKSK;locus_tag=LOCUS_08350;note=MGA_835
sequence1	MetaGeneAnnotator	CDS	529275	529637	.	-	0	ID=MGA_836;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLIILGGFSFICSTSIEAIACKPTVEFHKKDLKYMDSKYSTITPDSNDIEAVKKAAFTSMYDKYFKKFEETTDIVFSDFVEATSEKNGSIVATAADTSEIVTGTVTFVVKYKAPSSK;locus_tag=LOCUS_08360;note=MGA_836
sequence1	MetaGeneAnnotator	CDS	530306	530704	.	-	0	ID=MGA_837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTDELSNQESIVENKPNKLTIRDEDIDYEISKLSKTNRHAKIKSETLNITLVSLLLSMSTAVSLINVVIPLGITGVNVGFTLKYFVIAISFQVVGLYWGMIIGLLDGLLQFILYGMSPLFRFTSSLGLAL;locus_tag=LOCUS_08370;note=MGA_837
sequence1	MetaGeneAnnotator	CDS	530803	531060	.	+	0	ID=MGA_838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSFFVEKKSNNNFVIEDKDFHHIVNVVKLKIGEEIFCINNQIKYLCEIKEIQKDYLIATIKKEVLLDQNNVQVNLIVGIIREQK;locus_tag=LOCUS_08380;note=WP_011183200.1 16S rRNA (uracil(1498)-N(3))-methyltransferase (Mesoplasma florum) [pid:43.7%25%2C q_cov:100.0%25%2C s_cov:36.6%25%2C Eval:5.2e-10%2C partial hit],internal stop codon at [531058:531060](+)%2C[531175:531177](+),MGA_838
sequence1	MetaGeneAnnotator	CDS	531557	531859	.	+	0	ID=MGA_839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFQKNDSKILTSDVKLINEQLKAVELDKNLKITIDKNIFFIKTFLKKLVDIKKIGSYAIENIYNFDEPPIIDLLALKYVNKEMYNTYFKETETKDHFDDC;locus_tag=LOCUS_08390;note=MGA_839
sequence1	MetaGeneAnnotator	CDS	532007	532309	.	+	0	ID=MGA_840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYYEKEKIIFTIMIRTGIIHNEYPVILCMKNMYFKSNAIEYVKTFKTLNKLTIRKLEILFFYIRLNFRNKFDAQQRLMMRILVMSDLQTQLFRNVFFKK;locus_tag=LOCUS_08400;note=MGA_840
sequence1	MetaGeneAnnotator	CDS	532759	533346	.	+	0	ID=MGA_841;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKPNLIKQFNTAINQNIILDKDLNAVIKVSFFEFKKIFNNIFLDIKKLGDFKYKSFFSNSRSINLDLAIIKYFPKNDLKFTQLNETILKTLEKLPIKYVIKKNQNYIAIEEKFKGYNITYRLITLIRKKREDKKIDYVNRNGLVQEDLAIKVTNAFCIANKISNGTLFNIKKLVNYILKNQFEYTYNLDYLLLT;locus_tag=LOCUS_08410;note=MGA_841
sequence1	MetaGeneAnnotator	CDS	533488	533817	.	+	0	ID=MGA_842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYYIFTKIENINSYFYNELEFENIEIFTDISRYSLNTNSTFNNPMSFFSEIKIFDLKNHKDLVFIQNNLGLDYGISKIAYDKARNEEKRYFVSPFIVSGLSNFAMFQK;locus_tag=LOCUS_08420;note=MGA_842
sequence1	MetaGeneAnnotator	CDS	534127	534294	.	-	0	ID=MGA_843;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGRTTISIAHRLSTIKNFDKIFVMEANKGIVQIGNYEKLIKEDGIFKVLYELST;locus_tag=LOCUS_08430;note=WP_011183431.1 ABC transporter ATP-binding protein/permease (Mesoplasma florum) [pid:66.0%25%2C q_cov:94.5%25%2C s_cov:8.3%25%2C Eval:3.6e-11%2C partial hit],internal stop codon at [534475:534477](-),MGA_843
sequence1	MetaGeneAnnotator	CDS	534625	535344	.	-	0	ID=MGA_844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGVFLFSILSVSATKKISKLTKDYENDMSEKIYSIRLIKSSGTFDQEKNDFEKVAKQVDKKNKLKLLLSEIPAGLIIGGVGSFSMASVMFGVILYYENSQTLISIITTFTTGVIVMTMPLLDLRFVLSQVPAAKYGAKNLYNLFNYKIKIDKHKKTIFDQKVKTIKFDNVDFSYNNDDKMVFKNINITFEKGKSYAFVGPTGSGKSTIAKLFLRFYDTTNGNIIINDAFNLKDINLKS;locus_tag=LOCUS_08440;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:34.5%25%2C q_cov:98.3%25%2C s_cov:39.7%25%2C Eval:1.6e-26%2C partial hit],internal stop codon at [534475:534477](-)%2C[534625:534627](-)%2C[535384:535386](-),MGA_844
sequence1	MetaGeneAnnotator	CDS	535384	535998	.	-	0	ID=MGA_845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLTFFMIVLIALTAILAAINIKIVQYITALLVSKSIIGAANNRESLYDLLSSFNIDPKQIDMILDQYGSPDFIQKIINKLFYDFVNYDGKTLFITLFGFKLNVYDFLVIMVTNILIIVFISYIIYLISGVISRSYETKLKNELINYYIDQDLQYFNENKTGELISTLVKDTSILGQYIKEAPVSLVRTGLVILISSIIMFIVD;locus_tag=LOCUS_08450;note=MGA_845
sequence1	MetaGeneAnnotator	CDS	536181	536519	.	+	0	ID=MGA_846;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRDYKFNEFSNLIKGFIVVTILSRNLEVFMEKEFKELYKNAYIHLMFIKHVEGISQMELSLLTGTNKSTLVRNLADLISKDYVIKKTSSRANENELYLTEKGLKTVEVIQN;locus_tag=LOCUS_08460;note=MGA_846
sequence1	MetaGeneAnnotator	CDS	537068	537259	.	+	0	ID=MGA_847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSFAAIFVPLVPVFIAGGMSLALVSLVNQISKNTGFAKILDIIGGGILGSLPAFVGYTAAKK;locus_tag=LOCUS_08470;note=MGA_847
sequence1	MetaGeneAnnotator	CDS	537541	537756	.	-	0	ID=MGA_848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLKIAVNAIAIPFPIICPNGPIAQNANHDEIITTPSGTIIIPTMSGIYFLINFSKLTDNANTNKIGTICA;locus_tag=LOCUS_08480;note=MGA_848
sequence1	MetaGeneAnnotator	CDS	537734	538120	.	+	0	ID=MGA_849;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTAIFKYTNYTGIGFGGMLFAGLYPLIVITGLHQGFLPIETQLLMDTNLTYGHSFSFITPVACVSNIAQGSAVLVAAILIKDKKEKSKAISGAFGANLGITEPAMFGINLQIKPLLVGAMIGSAVGGY;locus_tag=LOCUS_08490;note=WP_001108116.1 sucrose-specific PTS transporter subunit IIBC (Staphylococcus) [pid:47.4%25%2C q_cov:89.8%25%2C s_cov:23.5%25%2C Eval:1.6e-22%2C partial hit],internal stop codon at [537671:537673](+)%2C[537683:537685](+)%2C[538118:538120](+),MGA_849
sequence1	MetaGeneAnnotator	CDS	538731	539015	.	-	0	ID=MGA_850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIKSDFYKEIEAEFKIITEREHLGSGGNPVSNLNTKMFYLSKHQFNSYDEFDQAIVTEIANTLQSLEDIIVKKALSYKDLAKEAYNQNVDAQK;locus_tag=LOCUS_08500;note=MGA_850
sequence1	MetaGeneAnnotator	CDS	539459	539617	.	+	0	ID=MGA_851;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADNGYDVADYYHVNPIFGTDEDFDELIKEAKKRDIKLIIDMVFNHTSDQHE;locus_tag=LOCUS_08510;note=WP_002382333.1 alpha-glucosidase (Enterococcus faecalis) [pid:68.6%25%2C q_cov:98.1%25%2C s_cov:9.2%25%2C Eval:1.4e-15%2C partial hit],internal stop codon at [539330:539332](+)%2C[539432:539434](+)%2C[539615:539617](+)%2C[539669:539671](+)%2C[539720:539722](+)%2C[539789:539791](+)%2C[539837:539839](+),MGA_851
sequence1	MetaGeneAnnotator	CDS	540065	540202	.	+	0	ID=MGA_852;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFNFKTIKAIKNEEDSRNKIGKLNVEKLKNAIVDFANQVVQSQG;locus_tag=LOCUS_08520;note=MGA_852
sequence1	MetaGeneAnnotator	CDS	540560	540877	.	+	0	ID=MGA_853;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNQNDITVENQLKDPNSILNFYKKLNQLRKGEYLDYFVNGNMKLNQSDNEIIDFSIELDEKPSLRFIGNFGKNQNKHIINKYSKIFFNEQNIDIKESEIILKP;locus_tag=LOCUS_08530;note=MGA_853
sequence1	MetaGeneAnnotator	CDS	541024	541848	.	+	0	ID=MGA_854;product=tRNA pseudouridine(55) synthase TruB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166532.1;translation=MNNESGIFLVNKPLNITSNDLIQKIKKKFNIKKIGHAGTLDPIATGLMVVLTNQATKISNYLLKADKVYVVEMKLFQKTDSGDITGKVIETQEFKKIAKKDVETLAQKYNGYIYDQYPPIYSAIKVNGKKLYEYARNDQEVKIEPRKVTINECEVIDFNQKNATIKLKVNCSKGTYIRSFVQDFAKELDCISTVSSLERVASGNFNLDQAKTIEKIEESDLITMYDGLIQNNHTLIEYHKSRDIIQGRAITLTGRSDKVIFIIDDKKNVIAIYK;locus_tag=LOCUS_08540;gene=truB;EC_number=5.4.99.25;note=WP_011166532.1 tRNA pseudouridine(55) synthase TruB (Mycoplasma mycoides) [pid:48.3%25%2C q_cov:98.9%25%2C s_cov:92.8%25%2C Eval:7.2e-69],MGA_854
sequence1	MetaGeneAnnotator	CDS	541937	542689	.	+	0	ID=MGA_855;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIDVYLKKEENFDIQKNNTICIGFFDGIHRAHQKIMQKTQQIAQENNEIFSVMTFNQKVSEFLAGQFHNLQSRKIKYRMLVDLFDPEFLFEIQVNENTIAVSKQDFIDYLKNKLNVKHLVVGSDFTFGHYKEGRVEDLYEAFGKENVFVFSRIEKYSSSNLKQLLAEGKIELLNEKMGYIYKLDLKKIPEKANAFKISKSKATIKDGFYRVIYNDVVCKVQFESNIAYFPDNFVSPSEISIELVQRVN;locus_tag=LOCUS_08550;note=WP_001832563.1 bifunctional riboflavin kinase/FAD synthetase (Staphylococcus) [pid:30.3%25%2C q_cov:74.0%25%2C s_cov:58.8%25%2C Eval:1.8e-15%2C partial hit],MGA_855
sequence1	MetaGeneAnnotator	CDS	542779	542967	.	+	0	ID=MGA_856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEIKIENPTSEGKESKKFLTLLKVNCFIISLIGLGLFIFAIIYGRVLIGNYKREENVLDPQ;locus_tag=LOCUS_08560;note=MGA_856
sequence1	MetaGeneAnnotator	CDS	543109	543348	.	+	0	ID=MGA_857;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLTVLTSSTLYLFLKYNKALEKEGYDDKEQFDYYVNTKINPRFNMKILVTTTFGITIFFSLFVGFLIYAYLKNIDFIS;locus_tag=LOCUS_08570;note=MGA_857
sequence1	MetaGeneAnnotator	CDS	543312	543461	.	-	0	ID=MGA_858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSLFKNAFVSHKNLAQIVLLPKTIINEYDPIITVVKFQLIKSIFFKYA;locus_tag=LOCUS_08580;note=MGA_858
sequence1	MetaGeneAnnotator	CDS	543669	543848	.	+	0	ID=MGA_859;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQYKELNSNNKNKSLVTLLMIFSILFLLCGIALILVSIISGKIFTKIFNRNGNATIPN;locus_tag=LOCUS_08590;note=MGA_859
sequence1	MetaGeneAnnotator	CDS	543969	544358	.	+	0	ID=MGA_860;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLANLLIFIIAVFPIFIVSIYLKYIDLLKKESLEDEEKFDKYINSNAIPKNKNKKIMLYLFIFLIILVNFLLIMFLNSDYKESKVEEKRLILALNFIVFIFFCIILLISPKLLCDTNIYLNENKQIKKK;locus_tag=LOCUS_08600;note=MGA_860
sequence1	MetaGeneAnnotator	CDS	544839	545132	.	+	0	ID=MGA_861;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLCLLLITILTIFCLFTILLFLKYVNALKKEGYDDKDRYEKYISFDKNKILNISKLLVFGFGIFIMFLVLLSLCIYFKIENDIKSNRIVIPILNFTF;locus_tag=LOCUS_08610;note=MGA_861
sequence1	MetaGeneAnnotator	CDS	545669	545866	.	+	0	ID=MGA_862;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVITILPTFSMLLFIKYADALKKEGFDDNDRYEYYINNKLNKNSFIGGRTCSVIVFMIMTIGLVV;locus_tag=LOCUS_08620;note=MGA_862
sequence1	MetaGeneAnnotator	CDS	545770	545991	.	-	0	ID=MGA_863;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNVAPSPAVVTRFKNTKNPVTQYFIAINFVSFVELLKQKNHTTRPIVIIINTITEQVRPPINEFLFNLLFI;locus_tag=LOCUS_08630;note=MGA_863
sequence1	MetaGeneAnnotator	CDS	546315	546860	.	+	0	ID=MGA_864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVESDMYKENYRENMKKLLAPADSPKLTYDLIESMMEGFDSSIDDMFVVRPVWLDNYNYSKSKDIYYVVEGNRRLLVIDLLSDRNSSRKYLKEFTEKLEKDLNKTNFNNDQKKETILKIKINNFKKILAKCEEYDKNPKIGLSISCKVLDYNFFISKTGMEQLNKVLNSRHFGKKKGKMN;locus_tag=LOCUS_08640;note=MGA_864
sequence1	MetaGeneAnnotator	CDS	547203	547700	.	+	0	ID=MGA_865;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKTNLIILDKDLTKKSLSKVIKFVYEDKEKISDNSSIIKIKRKTENTFIDNHDVVQKILKEITNAVYNKEITTRSSKNSDITESGKKIRQLIFPLGYDSEELKNNIYNISLEQIGSINPELIEDVKIKVIVTDFQDIDSTLENNSLKYKYDNSENNLISNIKYI;locus_tag=LOCUS_08650;note=MGA_865
sequence1	MetaGeneAnnotator	CDS	547740	548240	.	+	0	ID=MGA_866;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVSDISVIIFSSLLRTTIEVINCYIFSKLCIFYLENIEKFEKKEFDEKICNIVSENIIDTKLNEILSKIPFETEENQITNGKDWFNNFKKLNENDKNIFIEDVRKIFDCFMGCYVENTFHPESKILTKEDIMSNKEFLNKYFFGTSYNGSNILNEVYKKITTKQE;locus_tag=LOCUS_08660;note=MGA_866
sequence1	MetaGeneAnnotator	CDS	549154	549399	.	+	0	ID=MGA_867;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNYVIKYAKKHDLIKPVDDIFEKIKKRAKYIIGSSQYSNEEAKIVYGNSLNITNYIDAKPKLIFTSPPYLNIINYTQQN;locus_tag=LOCUS_08670;note=MGA_867
sequence1	MetaGeneAnnotator	CDS	549415	549606	.	+	0	ID=MGA_868;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFEDKIDNNNIGLDDKHNLTNYVNFMINYMTSISKIMDKNSTLVIVIGEVLRINTIYSFDDM;locus_tag=LOCUS_08680;note=MGA_868
sequence1	MetaGeneAnnotator	CDS	549965	550231	.	+	0	ID=MGA_869;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166540.1;translation=MVSNKEKTDIVKQFGSNDKDTGKAEVQIALLTSDIKNLQEHSQKHKKDYSSIRSLVKKVAQRRHLLNYLLKKDVNRYKAVIEKLGIRK;locus_tag=LOCUS_08690;gene=rpsO;note=WP_011166540.1 30S ribosomal protein S15 (Mycoplasma mycoides) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-26],MGA_869
sequence1	MetaGeneAnnotator	CDS	551422	551862	.	-	0	ID=MGA_870;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFDYLISTDYKIVCKVLKNNKIQEEIGAQHDLNIYDTINNNFYDSEFYSKVVLFKYIVIGINKENKTIESIYEYSFSNDDIETLEKVYELTKDEILRIMNLDQSDRIKPNFIQKGDDLLVHLRPHASKGINVYNKSSLNITRQTW;locus_tag=LOCUS_08700;note=MGA_870
sequence1	MetaGeneAnnotator	CDS	552319	552453	.	-	0	ID=MGA_871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLNLINYEILDKETKFEESSLFLKNKITLVIVYLHDFNLPKEE;locus_tag=LOCUS_08710;note=MGA_871
sequence1	MetaGeneAnnotator	CDS	552939	553127	.	+	0	ID=MGA_872;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQHAFNCYVNNFGNENAINENIVDAKNKIPNNPDLIVGGFPCQDYSVAATNAKGIEGKKGVL;locus_tag=LOCUS_08720;note=WP_011183205.1 DNA (cytosine-5-)-methyltransferase (Mesoplasma florum) [pid:63.9%25%2C q_cov:98.4%25%2C s_cov:15.1%25%2C Eval:9.2e-15%2C partial hit],internal stop codon at [552921:552923](+)%2C[553125:553127](+)%2C[553128:553130](+)%2C[553140:553142](+)%2C[553278:553280](+),MGA_872
sequence1	MetaGeneAnnotator	CDS	553527	553868	.	+	0	ID=MGA_873;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDYNPVFNGKKKILNDVLLENFDKKYFLSNEQIEKMKYLKGKKSIERIRPNGEKYFYTEGSMSFYDDINKQARTIITSETSMNRSTHIIKVKNKYRFITPIEAERINGFPDN;locus_tag=LOCUS_08730;note=WP_011183205.1 DNA (cytosine-5-)-methyltransferase (Mesoplasma florum) [pid:51.7%25%2C q_cov:98.2%25%2C s_cov:28.7%25%2C Eval:4.2e-28%2C partial hit],internal stop codon at [553278:553280](+)%2C[553344:553346](+)%2C[553866:553868](+),MGA_873
sequence1	MetaGeneAnnotator	CDS	554679	555140	.	+	0	ID=MGA_874;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQFTILGKETSEFLKFDIFSRLNKGSTMLNAQELRNCLYKGAFKDLLKELSTYLQINYRSLLSENMRNRMLDEELILRFFYIDDLYNKNNNFNNYKNISIGMNEFMNEANKLSYDKIDELKSIFIDSIKKVAELFKEKVFKVYEKNINSNQKN;locus_tag=LOCUS_08740;note=MGA_874
sequence1	MetaGeneAnnotator	CDS	555177	555374	.	+	0	ID=MGA_875;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVLRKYDSLKLLKKEKVIIEKLADIMLNDNDFSNSLKIHTNNKNSLIKRFETFEKLIKGIMESD;locus_tag=LOCUS_08750;note=MGA_875
sequence1	MetaGeneAnnotator	CDS	555376	555855	.	+	0	ID=MGA_876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIVFESELTFTDYIKQKIKIIENENDNEKVNVFLIELIILVFSYFEHDLKKHIVDNFDNLECADEDFKNFILQRLIFFQEKESIIIKIEDYYSDKEDFQKFNEMIKLCSKFFDKDFSYVKKYLKDDFVHLLTQNKISKLIENAKKIKKLKIELGVEDD;locus_tag=LOCUS_08760;note=MGA_876
sequence1	MetaGeneAnnotator	CDS	556895	557140	.	+	0	ID=MGA_877;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIETLFKKPRLVRELLYSSYKNSNNQGSILSIDEKKLLEKIKKFDLLTYSFPCQDLSAAGSIHGFNKGMKKGSGTRSGLL;locus_tag=LOCUS_08770;note=WP_011183201.1 DNA (cytosine-5-)-methyltransferase (Mesoplasma florum) [pid:59.0%25%2C q_cov:96.3%25%2C s_cov:17.1%25%2C Eval:1.9e-20%2C partial hit],internal stop codon at [556763:556765](+)%2C[556772:556774](+)%2C[557138:557140](+)%2C[557255:557257](+),MGA_877
sequence1	MetaGeneAnnotator	CDS	557363	557968	.	+	0	ID=MGA_878;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPKNNLFLDTYTTTKKIIEKNIPKDITKEYNLNFKMSEVLKIDYKIKKYYDEALNSIPNKTISRKKMFYDNKKLYSENLNTLNKIPKNNKCYNYNEYFEKNGIFLNICRTITTKQDRNPNAGVIDLKKTALENIDKSKANYRLLTTREVFSLMGFFEEDFEKVKNLNLLSKAILYRQAGNSIVVNVLVVIFYMLAKMKEG;locus_tag=LOCUS_08780;note=WP_011183201.1 DNA (cytosine-5-)-methyltransferase (Mesoplasma florum) [pid:42.2%25%2C q_cov:95.5%25%2C s_cov:44.8%25%2C Eval:3.3e-34%2C partial hit],internal stop codon at [557138:557140](+)%2C[557255:557257](+),MGA_878
sequence1	MetaGeneAnnotator	CDS	557972	558580	.	+	0	ID=MGA_879;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSKNFEFIKNYNKFLWVYESISNIEDNIVEAGSYGVLAESSKLLERLFKQITKDENSKRSLYVLRRDFAMLLQEEYQIEIPNNVQASINFIIRDRNSNFHDSNEIDYGESSQTFSTKLNYLMCLRKILHFCLYTLEDKEIKIDSFVDDIYYKKLNKTKYLEDAKEFKYENNQIRLEKISIGELILSDKNNFFIPSYQRDYR;locus_tag=LOCUS_08790;note=WP_011183202.1 DUF262 domain-containing protein (Mesoplasma florum) [pid:26.7%25%2C q_cov:70.8%25%2C s_cov:16.9%25%2C Eval:1.9e-08%2C partial hit],internal stop codon at [558578:558580](+),MGA_879
sequence1	MetaGeneAnnotator	CDS	558614	559705	.	+	0	ID=MGA_880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKFRTQEQIYFGALACRILNSDINEDVEIENINLINEEKNIRLIDGQQRVTTSLILFKAFFDLFKQKKYEDFLNPLFKIPKELQDLFEYKENNEYSDRRIRKKFVNLTANNDSGQNGIYVVLKGFKNQNAFKDELNLYQKAGVISNYEFFYRELNSYDIETLLLIYNYYYNNFILSCIVFDDDNTNEMEIFENLNSKGKELDTFDMIKNYIFNMLDDKIFNLHTSDVTKELNKYFNLDNVTKYKGNKEEQSKRYETFLFNYLNYKNTISPFFKGKIQQNKKSILKVFKELHYRHNIDLNDYKSICNDLGRYFYIYKNIYITSSYIEKNSEYYNFFEELTNITHKDFTILLFYLFDVYSSYS;locus_tag=LOCUS_08800;note=WP_011183202.1 DUF262 domain-containing protein (Mesoplasma florum) [pid:32.0%25%2C q_cov:99.2%25%2C s_cov:41.0%25%2C Eval:1.5e-46%2C partial hit],internal stop codon at [558578:558580](+)%2C[559703:559705](+)%2C[559778:559780](+),MGA_880
sequence1	MetaGeneAnnotator	CDS	559787	559918	.	+	0	ID=MGA_881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLQVKGTGQSFKNSVYGKLIKFLKTYENYSTFKTNLPNLIKD;locus_tag=LOCUS_08810;note=MGA_881
sequence1	MetaGeneAnnotator	CDS	560177	560473	.	+	0	ID=MGA_882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANSGKKYDEKAEDIYKTHLNMLGNLLLINSQDNSKLKNYPFKKKKEIYKKLDIPISNIPFNVDSDTLLTINNFTFEIIEQRTIKLANIVIEKIYELT;locus_tag=LOCUS_08820;note=MGA_882
sequence1	MetaGeneAnnotator	CDS	560532	561122	.	+	0	ID=MGA_883;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTRIYTILYNFFEYYSSIPKNKKFMELEVKDSNGKYFLMCGDQNITPSTTRNYPISKSSIRQYIDVLCSFDLIVKSNYNQNIYLIKKIEALSFENIFNPNNIFFELVKENIFLKYEQAKKIFYSCIISKLASLFEEDETLYIKFNNKKKEKVKCIDIIKQCKKCGYQDFFSVIDDFGKDLEDLYNFINDKIICRI;locus_tag=LOCUS_08830;note=MGA_883
sequence1	MetaGeneAnnotator	CDS	561269	561436	.	+	0	ID=MGA_884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATTKKGPDKAAVKRAASNAKRSEHIQTRKKASDPKPNKIQQKEIKLTEGQSKFI;locus_tag=LOCUS_08840;note=MGA_884
sequence1	MetaGeneAnnotator	CDS	561698	561823	.	+	0	ID=MGA_885;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEVKVPGDALAKSKKTVLFKPSVVEPKKINIEIRTQQPKK;locus_tag=LOCUS_08850;note=MGA_885
sequence1	MetaGeneAnnotator	CDS	562082	562489	.	+	0	ID=MGA_886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSTIIVIVGPTASGKTDLSIKLAKEFNGECINADATQIFCGTDIATNKITTEEMQGIKHHLLSTKKVNETYSVADFQKDGRKAIEKILKNNKTPIIIGGTGLYINALLRKYNFKSDDHIPGFNKKFDNLDNNQL;locus_tag=LOCUS_08860;note=WP_002366931.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Enterococcus) [pid:55.9%25%2C q_cov:82.2%25%2C s_cov:35.3%25%2C Eval:1.3e-29%2C partial hit],internal stop codon at [562487:562489](+),MGA_886
sequence1	MetaGeneAnnotator	CDS	562718	562933	.	+	0	ID=MGA_887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLFEEIEKAWIDNDKNKNAQALKCIGGPEIIGYLNKEYDYQTAISLMQRNNRRYARRQITWFKNQLKETN;locus_tag=LOCUS_08870;note=WP_011861408.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Clostridioides difficile) [pid:46.0%25%2C q_cov:88.7%25%2C s_cov:19.9%25%2C Eval:5.8e-09%2C partial hit],MGA_887
sequence1	MetaGeneAnnotator	CDS	563038	563352	.	+	0	ID=MGA_888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISIYERIENLVKDNKNTTFKLIAKQILEDFNNGIFKSQNELAVACYVSMSTITQFSKAAQCEGYKELAIRLKIEYENAMVAAPVKEEINYKELDTKSLEVIND;locus_tag=LOCUS_08880;note=WP_011183331.1 transcriptional regulator (Mesoplasma florum) [pid:61.5%25%2C q_cov:75.0%25%2C s_cov:31.2%25%2C Eval:1.4e-23%2C partial hit],internal stop codon at [563350:563352](+)%2C[563416:563418](+),MGA_888
sequence1	MetaGeneAnnotator	CDS	563500	563691	.	+	0	ID=MGA_889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSAINLELVRHVDFKDELILVIMTGRDTITLSRILEYLEKITKNVYVITTNNHTEEIPDVNG;locus_tag=LOCUS_08890;note=MGA_889
sequence1	Aragorn:1.2.38	tRNA	563947	564020	.	+	.	ID=Aragorn_21;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00200;note=Aragorn_21
sequence1	MetaGeneAnnotator	CDS	564311	564943	.	+	0	ID=MGA_890;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGNDFSFSFNKNLPHPIIGYVFLVCIIYLIYSVLCTCFIYHLNGHKADNFTYVVTIAIVFFVLILLGYAFKQNNTIFIIIKLVIILLSAVVAVTAGVFLTYIARNNEFKRKELVEGYLKDQREGKSLSEKMIKRIESYNLMIKKREEKQKKFDELKAKLDLKIEQEYQLQKQREEEKKNRIIKKLDKKEELQRAKQQKKENKKNKIEFK;locus_tag=LOCUS_08900;note=MGA_890
sequence1	MetaGeneAnnotator	CDS	565065	565763	.	-	0	ID=MGA_891;product=phosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183275.1;translation=MNFNFKGLTNDIKIDNLKVIKVSKDISEKYLDKQNEINVLIAFMSAKQEIMIKPRTIDFENNHLVSSFKILINYKSLEEIEINHQIIDLVVNGINQFHDIKFDFSFIKRFNYADFLKFFKENIKKPLYDLSQNINKVLEYANDLQQLPAIISHNDLVPGNILIHKNNDLKFIDYDYVQLNDKFFDLASFITETLNDKKDLIDYFVKKAIKNNLIEKNELHILNKCIAYQDVL;locus_tag=LOCUS_08910;note=WP_011183275.1 phosphotransferase (Mesoplasma florum) [pid:31.7%25%2C q_cov:97.4%25%2C s_cov:86.6%25%2C Eval:4.2e-21],MGA_891
sequence1	MetaGeneAnnotator	CDS	566231	566461	.	+	0	ID=MGA_892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDTDSNISEIFEGKVDGYIGFDQAGSEGFAYDKVFIPNGYDKTFAQLGFEIKQQLSHRSIAIKKLANHLKNNYKF;locus_tag=LOCUS_08920;note=WP_005783551.1 non-canonical purine NTP diphosphatase (Bacteroides fragilis) [pid:51.6%25%2C q_cov:81.6%25%2C s_cov:32.0%25%2C Eval:2.2e-13%2C partial hit],MGA_892
sequence1	MetaGeneAnnotator	CDS	566559	566966	.	+	0	ID=MGA_893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKELSFKTKKDANIKAHVRRALLDKKFATILLILLIFAAALLATINIKIVQYITSLLVSKTLVSSSTNQSVLYDLLEKIGKSPEEIAFILANYKQDSKFIESIIHELFYDYVQYDGAKLYVELLGLKLDIYNFCL;locus_tag=LOCUS_08930;note=MGA_893
sequence1	MetaGeneAnnotator	CDS	566967	567251	.	+	0	ID=MGA_894;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLNIVVVVVLSYFIYLLSGLIARSYETKLKTIFLNKLIDQDLHYFSQNKTGEIITSLVKDTSLIGQYIKDSTVSYIRTAFIVTISSIIMFAVD;locus_tag=LOCUS_08940;note=MGA_894
sequence1	MetaGeneAnnotator	CDS	567291	568010	.	+	0	ID=MGA_895;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGVFLFSLLSIKATKNINSLTKNYENEMSEKIYSIRLIKASGTFNQEKTYFENKAKQVDKKNKLKLLLSEIPSGLIIGGVGSFSMASVIFGVLLYFDESQTLISIITTFSSGVIVMTMPLLDLRMVLSQIPSAKSSSENIYKLLNQEITIDKHKEMILNEEIQNIKFKNLNFGYPDDQKVILKDFNLEFEKGKSYAFVGPTGSGKSTIAKFLLRFYDTTTGDVIVNDKFNIKDLNLKF;locus_tag=LOCUS_08950;note=WP_011183321.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:34.5%25%2C q_cov:99.2%25%2C s_cov:40.2%25%2C Eval:2.2e-28%2C partial hit],internal stop codon at [567249:567251](+)%2C[568008:568010](+),MGA_895
sequence1	MetaGeneAnnotator	CDS	568152	568508	.	+	0	ID=MGA_896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFENGYETILYERESQLSGGQKQRLVIARLILKNPEILILDEATSALDNKVEKEIQSELEKLMVGRTTFSIAHRLSTIKNFDKIFVIEPNKGVVQSGNYETLIKQEGIFKMLYEISH;locus_tag=LOCUS_08960;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:69.6%25%2C q_cov:96.6%25%2C s_cov:18.7%25%2C Eval:2.4e-36%2C partial hit],internal stop codon at [568008:568010](+),MGA_896
sequence1	MetaGeneAnnotator	CDS	568645	568920	.	+	0	ID=MGA_897;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGLGKSGALINLAAGIICFVFSFFYMLSEKLTALIMQQNIIESKIYKIVGGLLFVVSLVLIILSALTAGMNTNGLRISLGVISLLLIFIS;locus_tag=LOCUS_08970;note=MGA_897
sequence1	MetaGeneAnnotator	CDS	568972	569331	.	+	0	ID=MGA_898;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCGKDDENRYLNNYRDSSNFIGYQSVNINHNLNYQQGYETTPATVNGYGYNNYQNGYDYQNTNNYQNGYDYQNTYYYQNGNQYPNQYQNTKDDQYTYDYQNGYYIQNPNDNNSNNNNGY;locus_tag=LOCUS_08980;note=MGA_898
sequence1	MetaGeneAnnotator	CDS	569376	570059	.	+	0	ID=MGA_899;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKINNFTLKSFYDYNGPEENFDLKNIIFGYNGKGKTSLSYGIVEEFFKDNNKKNENIRFFNNKYVEENLLIEEEHKTQIKSVVANFGKKSVENRKEIYKLKNDIVDIKNYELEINEIEKKIIDEYEQIFNRKKGNTKILNPHYLNVQELFSKYEKLVDDAKKIENNLEELSKITGDNSLEDLLIEKKEVLFNKILLTKDEDIEKMKKILLNNYDNSHIPSSEVVD;locus_tag=LOCUS_08990;note=MGA_899
sequence1	MetaGeneAnnotator	CDS	570060	571019	.	+	0	ID=MGA_900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEGLKIHKNHKICEFCGNNINLENIKVKIQKYNKDEKQKANQFLISFRNNLENYIEHINNFFLNNYKSYEKLFNFDLSKYFENFNKIVNNLLSFIDLINNKLKEITNIINVDTEELKKDLNNINSNIEDLNNLKNNDINNLEKKINKFNILLKGSIGLELIVNPLIKEKKDLLIEKIKNIEEIKEKNNILNKKIKELENNQSNKIDFAVIINEILNNLDVGINLELTNNNYTLKNTKMDKELEINDISDGEKNLLAILYFYIELFEDINQTEVKKNIELVVIDDPISSVDDLNKMYILSILKEILSYPNYQLFILTHV;locus_tag=LOCUS_09000;note=WP_005477318.1 AAA family ATPase (Vibrio parahaemolyticus) [pid:21.5%25%2C q_cov:99.7%25%2C s_cov:41.4%25%2C Eval:8.9e-08%2C partial hit],MGA_900
sequence1	MetaGeneAnnotator	CDS	571050	571505	.	+	0	ID=MGA_901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDEKVSLFEVKKSNNKSYVQIIKNKKIKLPYKYDFKEIYDFSKENDISNLSKNNYFYYPNVMRRIIEHFLSFKYSEEVPANSKNFNKIKKILLFKSDNPNDKKNLEVLLNVCNIYSHKYQRNPNEILSSAKFLMKVIKNVDENHFNENKQ;locus_tag=LOCUS_09010;note=MGA_901
sequence1	MetaGeneAnnotator	CDS	571580	571894	.	+	0	ID=MGA_902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKRSIYNKSRLYLEIASNGQITHKAHYDYLKIIFNTCSEKHKKFFYDANIVNHDTGNLIKRDFIDQDTTYKIFTQFNNIGMLERADEINYIDINDFDYKKKF;locus_tag=LOCUS_09020;note=MGA_902
sequence1	MetaGeneAnnotator	CDS	571923	572117	.	+	0	ID=MGA_903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKINIILFEPEIANNVGAIMRTCALTNAKLHLIEPFGFIFDRRNFARTSANNFEGCEYVKYED;locus_tag=LOCUS_09030;note=WP_011166791.1 tRNA (cytidine(34)-2'-O)-methyltransferase (Mycoplasma mycoides) [pid:61.9%25%2C q_cov:98.4%25%2C s_cov:34.8%25%2C Eval:6.7e-18%2C partial hit],internal stop codon at [572115:572117](+)%2C[572376:572378](+),MGA_903
sequence1	MetaGeneAnnotator	CDS	572160	572378	.	+	0	ID=MGA_904;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRYGKKPISDFNFKEINDEVFIMFGKESTGIDKEILKNNLSRCFRIPMVETGRSLNIANSVGIATYEVLRQ;locus_tag=LOCUS_09040;note=WP_011166791.1 tRNA (cytidine(34)-2'-O)-methyltransferase (Mycoplasma mycoides) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:39.8%25%2C Eval:6.0e-22%2C partial hit],internal stop codon at [572115:572117](+)%2C[572376:572378](+),MGA_904
sequence1	MetaGeneAnnotator	CDS	572487	573152	.	+	0	ID=MGA_905;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSDFGFKKFINDALDEKGFKEPTSIQKKVIPLLKKHKSVIAQSHTGTGKTHAFLLPILNNLDYEVNKVQALIITPTRELARQIFANTKEMLKHNNKATVAFFVGGEAFEKQASSLKNKQPMIVIGTPTKLKSLYESNLLQLTTTNYVVIDECDMIFDLGFIDDLDYMLAKMNNDTNISLFSATIANGLKPFLTKYLSKSIFIENIDKKPTNENIEHILI;locus_tag=LOCUS_09050;note=WP_011166653.1 DEAD/DEAH box helicase (Mycoplasma mycoides) [pid:59.2%25%2C q_cov:100.0%25%2C s_cov:49.2%25%2C Eval:1.2e-70%2C partial hit],internal stop codon at [573150:573152](+)%2C[573264:573266](+)%2C[573369:573371](+),MGA_905
sequence1	MetaGeneAnnotator	CDS	573441	573848	.	+	0	ID=MGA_906;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKDLEYYIHRSGRTGRNQYLGKSYVLFNSTNQHLIDTLKSKKIEFKNMKLANNQLVDIIERKKNKVINPNNPGVLEEQKIINRFKKQPIKPGYKKKRKLEIEKVKKDIRRKHIKESIAKIKKAKYKKRREELFD;locus_tag=LOCUS_09060;note=WP_011183170.1 DEAD/DEAH box helicase (Mesoplasma florum) [pid:43.0%25%2C q_cov:100.0%25%2C s_cov:29.1%25%2C Eval:5.2e-26%2C partial hit],internal stop codon at [573150:573152](+)%2C[573264:573266](+)%2C[573369:573371](+),MGA_906
sequence1	MetaGeneAnnotator	CDS	573944	574072	.	+	0	ID=MGA_907;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKQFATSEETNVKDGDNQKVEYKYNSFLTDDKIKSTNITEN;locus_tag=LOCUS_09070;note=MGA_907
sequence1	MetaGeneAnnotator	CDS	574076	574348	.	+	0	ID=MGA_908;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSGRILKYYYANYITGLTQNIVGEIQEILTVKKEESPTESDTQEDKTSKLEKIEFYRSLFIQNLIGSTLNISIYGASSDNEFFAEAFSK;locus_tag=LOCUS_09080;note=MGA_908
sequence1	MetaGeneAnnotator	CDS	574700	574918	.	+	0	ID=MGA_909;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDSFTPAPDISIALFESFNSQHFGDFKSLDSYLQNRTIDEAGYSTVWFSNILSFLKKDYAHNSKLGDDYFD;locus_tag=LOCUS_09090;note=MGA_909
sequence1	MetaGeneAnnotator	CDS	574952	575209	.	+	0	ID=MGA_910;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQLFNYLYSIISNDEGLSNLISAFVVAGDEKLVGDKSDGLVAGYTSTSFVRMSNNKYSVKSSYIVILANALTIKDYNSEYLSGF;locus_tag=LOCUS_09100;note=MGA_910
sequence1	MetaGeneAnnotator	CDS	575225	575479	.	+	0	ID=MGA_911;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHVLVHEFGHALDGYGGKDDYYRRTSEANSSYYPDYYEGKYVGGYDSVKVSDLELYSTYAIAAIALFATLCFLYGSNRIKKARK;locus_tag=LOCUS_09110;note=MGA_911
sequence1	MetaGeneAnnotator	CDS	575566	575901	.	+	0	ID=MGA_912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDITERIKKLIEAISYQVYEKEVIFRLAMLALLGEESIFLLGKPGIAKSLISRRMKFAIRGGTNFEYLMSKFSTPEEIYGPIDLRLLKEGKYVRVVDGYLPSSNIGFLDEI;locus_tag=LOCUS_09120;note=WP_011815252.1 ATPase RavA (Yersinia enterocolitica) [pid:55.5%25%2C q_cov:98.2%25%2C s_cov:21.9%25%2C Eval:1.1e-28%2C partial hit],internal stop codon at [575899:575901](+),MGA_912
sequence1	MetaGeneAnnotator	CDS	575929	576192	.	+	0	ID=MGA_913;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTIINEKIFRNGGKDIKVPLKLLISASNELPAEGEGLEALFDRFIIRFIAEGLKNENNFEQLLDGESSLDVEVDPNLQISLEELEI;locus_tag=LOCUS_09130;note=WP_008766137.1 AAA family ATPase (Bacteroides thetaiotaomicron) [pid:50.0%25%2C q_cov:96.6%25%2C s_cov:16.2%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [575899:575901](+)%2C[576190:576192](+)%2C[576307:576309](+)%2C[576403:576405](+),MGA_913
sequence1	MetaGeneAnnotator	CDS	576520	576675	.	+	0	ID=MGA_914;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAQIGQIEAQFLRLTPYDSPFKMQIKGTYYLINFTDGPEEYRTCFISAAD;locus_tag=LOCUS_09140;note=MGA_914
sequence1	MetaGeneAnnotator	CDS	576763	577119	.	+	0	ID=MGA_915;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVRAYKSDQILFVNENKKYQIQNDNPMEFNNQMMTIAQQVSQLEEQVKEVSKKMFKEYKKYTSMNCLFFEEVYKEKIAEAFDTVKKSSAPQQDENVDINDGMNEINEVPYSELEVAY;locus_tag=LOCUS_09150;note=MGA_915
sequence1	MetaGeneAnnotator	CDS	577160	577501	.	+	0	ID=MGA_916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFDDFEPVNEIKRELEKLRQRDLHNSDFALFKKEHEYAAEQLDDKINNFYSASHLSTIKQIKLPEPIRKEIIYYNYVSEKFDEVDFAKKLNLIRQKLIEFDSPFETYIDTMQ;locus_tag=LOCUS_09160;note=MGA_916
sequence1	MetaGeneAnnotator	CDS	577574	578845	.	+	0	ID=MGA_917;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTKRVLDYRMKTVEDLRYNYLVEIYSIIKNYGKYAKIYKTMYDVFGKIAEVDDELRNQNIESISRFAEFLYKDPSILRIAELLGRLNGEDDLMEINITEQIVTYPTKVKLPYNPEELVGVTISKDIERLLPMELANLFDPELEIVFYKKFVESQLQAFLFESNETIIEHEVEEVEYEAPIPLEQGKFIICIDTSGSMEGSGEYIAKALAIAVAKVALKEQRDLVFVNFASQHVDEFEINARQLNIQKMLEFLSKSFYGRTNAKPAFQKVVQKMTTEEFKRADLLMISDFMMDAIPDDTRVQIADLKDNYNRFHSLVIGTMPNVETQDIFDNVMYYDPNDPFATTQIVKSLNETLRDLRELKDEEAAYRDEQIAELNKVRDKKRFRDKHLDSPKAKKLEKKKQKEKELIEKRNKIMESNSEGN;locus_tag=LOCUS_09170;note=WP_000899954.1 ATPase RavA stimulator ViaA (Vibrio) [pid:31.2%25%2C q_cov:67.4%25%2C s_cov:58.8%25%2C Eval:2.1e-37%2C partial hit],MGA_917
sequence1	MetaGeneAnnotator	CDS	578849	579211	.	+	0	ID=MGA_918;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVRERADFIILYFDKNEDIIVELEKVVREYMIIEAKVTGSGYLNRLEYGVLTQSDPIFFSKYLVDKLLTVTNFHGRILERELSLMVNAIDSDNVIHSGKVFSTNTEIDLILTLEVLRTE;locus_tag=LOCUS_09180;note=MGA_918
sequence1	MetaGeneAnnotator	CDS	579457	579777	.	+	0	ID=MGA_919;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFTTILYTFGSFVLTVPGMGLESQKFIKDIEQKTLNLFPQGKYVITAYKTDDEKDRKPENETGLYEIAADSSVRMSFVNDIVSAIDFNDGAMLKNKDMYEQFAND;locus_tag=LOCUS_09190;note=MGA_919
sequence1	MetaGeneAnnotator	CDS	579919	580104	.	+	0	ID=MGA_920;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKKNGIKELYSKDVYREVTKQQTVVNQSLYESKMQTKRDSLTGALSVIKSPGTNLINNKI;locus_tag=LOCUS_09200;note=MGA_920
sequence1	MetaGeneAnnotator	CDS	580333	581082	.	+	0	ID=MGA_921;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLTASGFLFKRERGYTKKEKKQRARAKKVKFKESVGGPVVNNVTDKINKPVTLLQPNLTTNSTQVLSTQTLNKTQVMQKPVINNSKNITTKSLNQNTGQMNNNQRPLNNQMQNNMQRPMNQMPYNNQQLNQFNNQRPTNHPVGQMNNNQRPLNNQMQNNMQRPMNQMPYNNQQQNQFNNQRPTNHPVGQMNNFQRPLNNQMQNNMQRPMNQMPYNNQQQNQFNNQRPMQTQNLNNSNVNQTSNFEDNN;locus_tag=LOCUS_09210;note=MGA_921
sequence1	MetaGeneAnnotator	CDS	581107	581415	.	+	0	ID=MGA_922;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLFLTICASSVFVTQIASCNKRPSAVFGDDNPLKIGLEIDRKNAIKDKDIDQNSYGVTNYYILGDSLSDVDGLTTYMGTKLSISNLKINFKFDGDFS;locus_tag=LOCUS_09220;note=WP_011183222.1 SGNH/GDSL hydrolase family protein (Mesoplasma florum) [pid:35.6%25%2C q_cov:99.0%25%2C s_cov:22.3%25%2C Eval:6.2e-11%2C partial hit],MGA_922
sequence1	MetaGeneAnnotator	CDS	581608	582399	.	+	0	ID=MGA_923;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNVKDMKPSNIMMKKPTYKGEYGTTYAVGGATASHTGSSMSTLLEDAAIDNQAKALISQHKFGSKAVVAMSIGGNDVFNMISTYNPYGASEKTTQIMDEAIEKIRYTVFSLLNNGIKNILLITSPSMDKVPKNASRFYKTYDPNSEDENKSKCYDAYGKLYDDPNYEGSICYSNGDSEESEDEDNPITAGIPIRKKTNETIFIEATTKEFNRRIENIVKEVHSYYPNGLRTFDLFNKFDSINEQSKFTIKYENYINNVGLAV;locus_tag=LOCUS_09230;note=WP_011183222.1 SGNH/GDSL hydrolase family protein (Mesoplasma florum) [pid:31.8%25%2C q_cov:92.0%25%2C s_cov:43.2%25%2C Eval:2.4e-26%2C partial hit],internal stop codon at [582397:582399](+)%2C[582556:582558](+),MGA_923
sequence1	MetaGeneAnnotator	CDS	582723	583886	.	+	0	ID=MGA_924;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSIAASIVVITSSASLTVSCGKDEVVNSISSKSMNILLKEVAKTAYLNNVEKYDFNYVFDNIVKNQQIQKFNGNPNLDVKDEFASSSKYSDIYNKYFESKLYDENNVDLDGVDLKNNVIKPEDGSFLTPILKNLPAIFEAVGNRDFLGIGATILKESGLVDFDTFARNPILTIISKVLPSNAFSNISKAFYRKEYENMSVQNALNASMIGFVNALNKFCYPASTGKRPKNLGANTEKEVLQNFTPALIQLTQTIQDIMDGTAKFTLDLFNNIDTIADIVNFVKMLFMYMTGFIERFSPDPFSEDPIEKSKPNVAYDEISITDMIAYRNSNFKETINSNLNLEAGFNFLLKMLYINDGMAAKNLIRLLFYEDFANQSAGDGGLT;locus_tag=LOCUS_09240;note=WP_011183221.1 lipoprotein (Mesoplasma florum) [pid:24.2%25%2C q_cov:96.1%25%2C s_cov:54.0%25%2C Eval:1.9e-26%2C partial hit],MGA_924
sequence1	MetaGeneAnnotator	CDS	583971	584150	.	+	0	ID=MGA_925;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNDVKNMANEIKSFITDDFDNKYTNTGGISAFIRAILNSIITEGTNKNLGNTLTCALG;locus_tag=LOCUS_09250;note=MGA_925
sequence1	MetaGeneAnnotator	CDS	584243	584767	.	-	0	ID=MGA_926;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSGFLIIEFKAAPIFTVRLLKFLKSNLNLVLLPSLFFFSKIVTGISFEPAPLSGVVPLVSGLPDLVDKKYLAKFCKLLTTLGSKLNPNISYRPSFLIMSKFSTTSAIDFAYVLGSFKGIFKSNIGAAYASKLLFQIVPHTFFHKVFIFKILYIALLPSSVNGIKSFIASTTMS;locus_tag=LOCUS_09260;note=MGA_926
sequence1	MetaGeneAnnotator	CDS	584934	585101	.	+	0	ID=MGA_927;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVDYSNITENQVDESIINLYQYQYRVRDKNITIDLKRSADRFTIKRIRITDINK;locus_tag=LOCUS_09270;note=MGA_927
sequence1	MetaGeneAnnotator	CDS	585396	585911	.	+	0	ID=MGA_928;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIQHIKYRGKFFIVATIGYGKANAAMAITYLMEEYPSLETVLNVDLALSTNDKFDTTDTVMSTKFIYRDADLTVFKDIKYGQIVHEPEAFAFNTELVTQVKNFKLGVSDGIVGTADMLIYNSKQFKEMVDKYGQTIDVIDTEAGALAQVAKKSSVNFVALKIMYNNALSP;locus_tag=LOCUS_09280;note=MGA_928
sequence1	MetaGeneAnnotator	CDS	586116	586256	.	+	0	ID=MGA_929;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISGMGPSLMLLDKKAMKPEAVDVVEVMKPKIEDEGPSKVILGEDE;locus_tag=LOCUS_09290;note=MGA_929
sequence1	MetaGeneAnnotator	CDS	586542	586850	.	+	0	ID=MGA_930;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGKKKGSQLVANEFMKHLNQMLAEVESPFEKIIVYIKIPAVGSARLPIFLTTKNKVNTPIVFGGYSEKDQNVFTVVDITRNDYDPLKVGSFKVTVRLKTEG;locus_tag=LOCUS_09300;note=MGA_930
sequence1	MetaGeneAnnotator	CDS	586930	587187	.	+	0	ID=MGA_931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKKEKEVLKNSDADVSASLAFEELLELSTTKLSDINLNTITLDDDENTNYIDINETIDVDENDLFKIIKRAQKQKSILNNQR;locus_tag=LOCUS_09310;note=MGA_931
sequence1	MetaGeneAnnotator	CDS	587236	587373	.	+	0	ID=MGA_932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGKSKYDSDVLRELILKRQRDKRKDKGLNNFIDNVKKKKNNYDK;locus_tag=LOCUS_09320;note=MGA_932
sequence1	MetaGeneAnnotator	CDS	587392	587580	.	+	0	ID=MGA_933;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQTQLEEEFLDKQITTDASQIQNLDNKTDNTKDIDVSHFESKILSKREQILLVQNYFRNKF;locus_tag=LOCUS_09330;note=MGA_933
sequence1	MetaGeneAnnotator	CDS	587599	587955	.	+	0	ID=MGA_934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSSLISTIAFDYFISITGRAGLFPAGIGAFARFLSILTFGNDVSKQSSFYFIYYFVINIPLFVFGYIKLGKKFCFTTILFILFQITFDQILQKIPFINPTDFHFIVNYKLLQQIGNS;locus_tag=LOCUS_09340;note=WP_011183171.1 YitT family protein (Mesoplasma florum) [pid:51.3%25%2C q_cov:97.5%25%2C s_cov:22.4%25%2C Eval:8.9e-31%2C partial hit],internal stop codon at [587578:587580](+)%2C[587953:587955](+)%2C[587968:587970](+),MGA_934
sequence1	MetaGeneAnnotator	CDS	588001	588483	.	+	0	ID=MGA_935;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGLSYSIVYKMGSSTGGADFISIYVSKKKNKPIGAINRNVNLVILGVVITLNSIILPVNMINSDNIVNILKNLGLDNAFKTKDKNDVDIVNSILSYLFNKEGLIDVNGIINPDFAQKMGIKNGVVDTQASANNYLSIIEEIINNLKGQGDITNFDRDYA;locus_tag=LOCUS_09350;note=MGA_935
sequence1	MetaGeneAnnotator	CDS	588856	589089	.	+	0	ID=MGA_936;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINILQTKAIKGIFDYDIKKNDERDFILKKITSDEQELEKIRQIALVKYNKEQKKGKKKKTTKITKKSCTKKTKKI;locus_tag=LOCUS_09360;note=MGA_936
sequence1	MetaGeneAnnotator	CDS	589146	589421	.	+	0	ID=MGA_937;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQELKYVIFKMLELKLVEIRKEINNISIIDLYNYINNIILKKDKIRNVNDAAFYIMNIKVNKLFEYINYESIKDDSNTIASDLKSILEG;locus_tag=LOCUS_09370;note=MGA_937
sequence1	MetaGeneAnnotator	CDS	589431	590534	.	+	0	ID=MGA_938;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKESPKNKIKNTRKTKFNFFRFLTIFVILASLLVGIFFSSQAFNKNFRLGSDFKGYYSALVAVNNANKEAGVAGQPNGVAKEAAPVLEQRLNPMGTNQITIETAGLNYLKVLSPIAAYDSEIQFKNQIQRNGGAILLNQKYEDFQLSSDEDGKITRSGINDYFSDAKTTAITSGNSKSPAIQFKLNGSKFTSIYSESETSKDMKLMIDADGFYNEIRNYYNTVKKDTLTEKVASYFEQVINPLRDKYRDSNKENISDLQKSMLEDLFAGTYKRLDTGGNERRVFVNLMNSEITETNFIEFINNDFNFLSETSKYVYDPNSKSEDFNGDEAKYANPIEGYSLTSMNQRPLGKIADVFKAINTIMGKY;locus_tag=LOCUS_09380;note=WP_011183172.1 protein translocase SecDF%2C variant type (Mesoplasma florum) [pid:24.9%25%2C q_cov:96.2%25%2C s_cov:31.0%25%2C Eval:1.7e-21%2C partial hit],MGA_938
sequence1	MetaGeneAnnotator	CDS	590553	590942	.	+	0	ID=MGA_939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNNEKVMAEKIGSYILYSGAITKQQSQNSLAYVDGTNLKIIFYNQPESAARTGAAIFNASTKGYIFTVNNILKTNPSATSLMLQLAIILLGIVAISLLIYALFLYRLLGLFMFVVILAISALTLMSTT;locus_tag=LOCUS_09390;note=MGA_939
sequence1	MetaGeneAnnotator	CDS	590955	591161	.	+	0	ID=MGA_940;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIEAIIAVAIIVSINLEIFSMIFENMKFNLYIKQRNIKTSYNISIKENITLAVDVLVSLVIPAISLF;locus_tag=LOCUS_09400;note=MGA_940
sequence1	MetaGeneAnnotator	CDS	591204	591848	.	+	0	ID=MGA_941;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVLFSLALTIILATFLNKLLINTNIFSNRPGLFALNTDFANQGKVFLNYKIRNLKIKIKKYKQKNKNITDYEVKLAKLEQKLIEKQNSYNEKQSKLLEKYKVKINKRIDQLELRKTKLAEKNRSAKLLRLEYKINEFKYILEDQIEVEMDEENELVLNTHDKVKIKSYEKAVKHGSKFVFVFLGFVLLVAGLIGGIIKPNLDSSFGNRVEYIL;locus_tag=LOCUS_09410;note=MGA_941
sequence1	MetaGeneAnnotator	CDS	591867	592163	.	+	0	ID=MGA_942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNGIRSFSQKSTGSDELKEKVNAMLVESDFTPSNDDESPPFNTVVYNFLNIVFSNSEYLNSITSNIGNSERYSLHKFNLNSGTNFNYISSNTRDNIQ;locus_tag=LOCUS_09420;note=MGA_942
sequence1	MetaGeneAnnotator	CDS	592407	593036	.	+	0	ID=MGA_943;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVGIILVPALTVGTIIAFYIPFGITTIIAVAVSILFTCLTMFTIFGKARGLIANRDEKSMYNFFKQEIAYSISTKNFRKKIKDEIFLKKANDKLKLKEKKLSSKEIKKLKLAFKKFKQEKIIEYKKLKKENKIEINKVSKHNNYLKEVMVQTFKYGIKRSLLIGVFYILVSLLLSITITTLASFGISVIIGILSAGFVMLFICLPIWL;locus_tag=LOCUS_09430;note=MGA_943
sequence1	MetaGeneAnnotator	CDS	593154	593666	.	+	0	ID=MGA_944;product=adenine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183173.1;translation=MDLKDYILDVQDFPIKGVTFKDITPLLNNVNAFKYAVDQMAEYVKQKKANVVVAPEARGFLFASAVAYVAGVRFALIRKPGKLPREVIDVEYELEYGKNHIQIHKEDLKESDNVVIIDDVLATGGTIHAIIKLIEQCKAKINGIVFLADISFLHDKDLFSEFDINCLIKY;locus_tag=LOCUS_09440;EC_number=2.4.2.7;note=WP_011183173.1 adenine phosphoribosyltransferase (Mesoplasma florum) [pid:63.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-59],MGA_944
sequence1	MetaGeneAnnotator	CDS	593780	594829	.	+	0	ID=MGA_945;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIQLNQSIKYQNIWAKMFCVFISLKYKYNRQGGKKMSAKELNYNNIMNEFSQVISTQSNDLKNENANMSGDTASGKMMKFASIGAKDFALENLVNPVYSDLHKKALIHIHDLDYYPTKSATCVQYNIEEIFENGFKTRNGLIREPQSIGVYAELAAIIFQTCQNEMHGGQAIPAFDYFLAPGVNKSFRKALKRNIEQYFQFLNEEINVKKLEEILKDEEITFKELEFEHVKRHVLSDKFTPEVYDTIRTMSIKNVEHETDQAMEGFIYNLNTQHSRGGNQVVFSSINLGTDTSKEGRQVTRSLLKALRNGLGNGETSIFPIVIFKVKSGVNFDEKSYQEAMNMSQEE;locus_tag=LOCUS_09450;note=WP_005790561.1 anaerobic ribonucleoside triphosphate reductase (Bacteroides) [pid:47.5%25%2C q_cov:91.7%25%2C s_cov:40.5%25%2C Eval:1.6e-74%2C partial hit],internal stop codon at [594827:594829](+)%2C[594848:594850](+)%2C[594956:594958](+)%2C[594980:594982](+),MGA_945
sequence1	MetaGeneAnnotator	CDS	595001	595498	.	+	0	ID=MGA_946;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGCRTRVFENVNGPKTSVGRGNLSFTSINLPYIALELLQDEGLLKDGKINYEKAKFSDLKQKFIKKVNEYSGDVCDQLYDRYKYQISAVAKEFPFLMRNNVLTGGNELEPDEFVESVFKQGSLTVGFIGLAEALKALLNVHHGESDDAQEFGIKIIKEMNKVTDD;locus_tag=LOCUS_09460;note=WP_005790561.1 anaerobic ribonucleoside triphosphate reductase (Bacteroides) [pid:44.0%25%2C q_cov:100.0%25%2C s_cov:20.6%25%2C Eval:5.3e-33%2C partial hit],internal stop codon at [594827:594829](+)%2C[594848:594850](+)%2C[594956:594958](+)%2C[594980:594982](+)%2C[595496:595498](+),MGA_946
sequence1	MetaGeneAnnotator	CDS	595562	595957	.	+	0	ID=MGA_947;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKFTRKTYGSIPEVTERDYFTNSNHVPVYYNIAAIDKIKIEAAYHPITLGGSISYVELDGEAKKNLHAILSIINAMRISGTNYGSLNHPVDRCKNCHYTSLIPLNCQMCGNSDISRTRRITGYLVGDLDG;locus_tag=LOCUS_09470;note=WP_008766366.1 anaerobic ribonucleoside triphosphate reductase (Bacteroides thetaiotaomicron) [pid:53.5%25%2C q_cov:96.9%25%2C s_cov:15.9%25%2C Eval:1.1e-33%2C partial hit],internal stop codon at [595496:595498](+)%2C[595955:595957](+),MGA_947
sequence1	MetaGeneAnnotator	CDS	596308	596520	.	+	0	ID=MGA_948;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTGFTIEELIEQKDKDKESMARFEILKEIDTLVDGRFVLELYDPSILYRGSSNQRLIETNKYLKENNLL;locus_tag=LOCUS_09480;note=WP_003432598.1 anaerobic ribonucleoside-triphosphate reductase activating protein (Bacteria) [pid:48.4%25%2C q_cov:91.4%25%2C s_cov:34.6%25%2C Eval:1.7e-10%2C partial hit],internal stop codon at [596128:596130](+)%2C[596305:596307](+),MGA_948
sequence1	MetaGeneAnnotator	CDS	596629	596844	.	+	0	ID=MGA_949;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKDIGNFNYVECRDVDTLIAEMRKYIKKEDAIDEVKRAYDFAEEKHHNQKRKNGDPFIIHPLSTAYYLSQ;locus_tag=LOCUS_09490;note=WP_011183175.1 RelA/SpoT family protein (Mesoplasma florum) [pid:60.0%25%2C q_cov:91.5%25%2C s_cov:8.5%25%2C Eval:3.8e-16%2C partial hit],internal stop codon at [596842:596844](+),MGA_949
sequence1	MetaGeneAnnotator	CDS	596848	597510	.	+	0	ID=MGA_950;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGPKTIIAGLLHDIIEDTPVTFEEVEEIYGTDVADIVEAVTKVSYFTEENRVQMKAQYLRKLFLSMIRDIRVIIVKIADRMHNILTLKYMAPDKQKLIAKETLEIYSTIAHRIGMKSAKNLLEDYSFEYLNHDEYTKIANLLEEDKEARLEIINEIIADIDRKIARDASISDVDVFGRSKTIYSIYRKMHFFGKSFQDINDILAVRIVTKNVDDCYRILG;locus_tag=LOCUS_09500;note=WP_011166659.1 RelA/SpoT family protein (Mycoplasma mycoides) [pid:59.5%25%2C q_cov:100.0%25%2C s_cov:29.3%25%2C Eval:2.3e-74%2C partial hit],internal stop codon at [596842:596844](+)%2C[597508:597510](+)%2C[597688:597690](+),MGA_950
sequence1	MetaGeneAnnotator	CDS	597520	597690	.	+	0	ID=MGA_951;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTPLSGRFKDYIATPKNNLYQSLHTTLANKDGIIFEVQIRTREMDDIAEHGAAAH;locus_tag=LOCUS_09510;note=WP_011183175.1 RelA/SpoT family protein (Mesoplasma florum) [pid:80.0%25%2C q_cov:98.2%25%2C s_cov:7.2%25%2C Eval:2.4e-20%2C partial hit],internal stop codon at [597508:597510](+)%2C[597688:597690](+),MGA_951
sequence1	MetaGeneAnnotator	CDS	597760	598101	.	+	0	ID=MGA_952;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTRLMNLEKLASDGEVIEYDKSLKVYDEDELEETFKTDYLTAMIYVLTPDGHVVTLPFGSSVLDFAYKIHTDIGNKTVGAKINGVFSAYNTTLNSGEIIEIQTSNETEPQEK;locus_tag=LOCUS_09520;note=WP_011166659.1 RelA/SpoT family protein (Mycoplasma mycoides) [pid:51.0%25%2C q_cov:90.3%25%2C s_cov:13.3%25%2C Eval:7.5e-25%2C partial hit],internal stop codon at [597508:597510](+)%2C[597688:597690](+)%2C[598099:598101](+)%2C[598147:598149](+)%2C[598261:598263](+),MGA_952
sequence1	MetaGeneAnnotator	CDS	598432	598650	.	+	0	ID=MGA_953;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTRKYKSVTGREDIKINSMERVNCTLAQCCYPLPFESISSFMSKTKGIQVHKSDCANILNSRKTKNLLKAE;locus_tag=LOCUS_09530;note=MGA_953
sequence1	MetaGeneAnnotator	CDS	598696	598941	.	+	0	ID=MGA_954;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQFQDRPGVLFDIVNILTIRRINIIQVKLISFETDYVARGSFVIQVKNSEELTTIINNLNEVPGITTVLRVVNSNDSDFDN;locus_tag=LOCUS_09540;note=MGA_954
sequence1	MetaGeneAnnotator	CDS	598977	599510	.	+	0	ID=MGA_955;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166274.1;translation=MKKLFTTYNISVCGVLAGVMLVLASFSYFLGDLIGKSVFQISDIVYLSMFVTNINPIVLIFSAMVSGSLTDLMFGGLIYIPFTIFIKILIGVTMYFLNKKLKIYFSIIVSYSYVFLYVLYVYILYDQSTTIVEAITDSIQYSATVVLSLFIVSYKDFKKIYNNKKQKREIEVYKDFN;locus_tag=LOCUS_09550;note=WP_011166274.1 membrane protein (Mycoplasma mycoides) [pid:29.4%25%2C q_cov:93.8%25%2C s_cov:89.6%25%2C Eval:1.2e-12],MGA_955
sequence1	MetaGeneAnnotator	CDS	599538	600194	.	+	0	ID=MGA_956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSFERTISVFKEFDFVYLIFAGILVFILPYFIYIFYQRYFLNNIKKINKHFSEFLDKRILTKITLTGILKYFLVTSIFYLCDFIFFSCALTKALLVGSLDNSFLYIIIAFFSAHTIMFIITSIVLLFVYKKHGVYSESEAKEDFEFFLKKYQATNLLYLDFNVFKTTIYMCTDKNKFTIKDALNYLDKLFAKKIKKITNSSYTKKIYMLKHFIGEKA;locus_tag=LOCUS_09560;note=MGA_956
sequence1	MetaGeneAnnotator	CDS	600361	600534	.	+	0	ID=MGA_957;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVSLKCDILNIILEKGFTYMKKEMIYLPILEFVQANLDFNIASNRKDSEYDFNFTR;locus_tag=LOCUS_09570;note=MGA_957
sequence1	MetaGeneAnnotator	CDS	600976	601134	.	+	0	ID=MGA_958;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIASLVNTGIRPEDPYLTIEQALKIEQGANPELVAQEAKRESDSKQIINPI;locus_tag=LOCUS_09580;note=MGA_958
sequence1	MetaGeneAnnotator	CDS	601311	601784	.	+	0	ID=MGA_959;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKAILLDIDGTLTNDEKKITKKTKEALMNAQKKGIILVLASGRPTKGLYKYAKELEMDKYNGLLISFNGAVITNYETNEKLFEQVIEHSKAVEVLNHMKNFDVIPMIYKDDHIIVNDVYKNTVNSKVFGKINIIEYEARNTDYLLCEKKDLATNLD;locus_tag=LOCUS_09590;note=WP_002379058.1 Cof-type HAD-IIB family hydrolase (Enterococcus) [pid:51.9%25%2C q_cov:99.4%25%2C s_cov:56.0%25%2C Eval:6.8e-40%2C partial hit],internal stop codon at [601782:601784](+),MGA_959
sequence1	MetaGeneAnnotator	CDS	601824	602147	.	+	0	ID=MGA_960;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNSFEKMKKPFINKLNSMFTAEFYYEFTDLGVDKAHALNQVMPKLNIAKEEIIAFGDGQNDKTMIEYAGIGVAMENAIDELKAVAQFVTKSNQEDGIAYALEKYLK;locus_tag=LOCUS_09600;note=WP_010890755.1 Cof-type HAD-IIB family hydrolase (Clostridium) [pid:59.2%25%2C q_cov:96.3%25%2C s_cov:36.4%25%2C Eval:9.9e-30%2C partial hit],internal stop codon at [601782:601784](+),MGA_960
sequence1	MetaGeneAnnotator	CDS	602257	602961	.	+	0	ID=MGA_961;product=DeoR/GlpR family DNA-binding transcription regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166993.1;translation=MLREERLKIILDYVNSNGFCSNEDISKALGIPFSTLRRDLNDLQSEYKLKRVHGGAQSIVEKSILEESITSKLESNVEAKIIIAKKALNCIKPGETIFLDAGSSTYHLAKLIKPELRIRVYTNSIINAQTLANNGINEVYILPGKFKPTTNAICGVETIAAIKKYYFDVSFIGINAIDNEYNFYTTDDDEAEVKKLVIENSQFSFGLADKSKMKSKSFIKFSDKRKIALINEEV;locus_tag=LOCUS_09610;note=WP_011166993.1 DeoR/GlpR family DNA-binding transcription regulator (Mycoplasma mycoides) [pid:44.0%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:4.4e-50],MGA_961
sequence1	MetaGeneAnnotator	CDS	602966	603844	.	+	0	ID=MGA_962;product=1-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183077.1;translation=MIYTITLNPAIDHIILSNKPVELGITNIYSDEYKVIGGKGINAGVILNNLESKVKAIGIMGKENKDIFLNKFQEVRLNNHFLLNPGNTRVNYKIKHLESHQETELNGMGFETESKIIDELLKYLELNLEKKDIVIVTGSVARGISKDIYKTIGQIVNKKEALLVCDANNELLKNALEAKPYLIKPNLEEIYSTLGLEFEENISFEKEKELIEKLQNLGAQNVLLSKGSKGSLYFTSDKKIYQVGIAKGKLVNSVGAGDSMLAGFVYGIDNNLSVEKTLQYAAASGGATAFNE;locus_tag=LOCUS_09620;gene=pfkB;EC_number=2.7.1.56;note=WP_011183077.1 1-phosphofructokinase (Mesoplasma florum) [pid:54.1%25%2C q_cov:100.0%25%2C s_cov:93.2%25%2C Eval:1.0e-84],MGA_962
sequence1	MetaGeneAnnotator	CDS	603915	604181	.	+	0	ID=MGA_963;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKDLFHKQVSFFNEDLKSKEETIEFLAKALVKEKFIKDEKTFVDAVYKRESEGSTGMGDGIAIPHVLNPTVEKSAIAFCKLKNKVD;locus_tag=LOCUS_09630;note=WP_011183078.1 fructose-specific PTS transporter subunit EIIC (Mesoplasma florum) [pid:60.2%25%2C q_cov:100.0%25%2C s_cov:12.3%25%2C Eval:2.4e-23%2C partial hit],internal stop codon at [604179:604181](+),MGA_963
sequence1	MetaGeneAnnotator	CDS	604218	604913	.	+	0	ID=MGA_964;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMTNGKDGNEHLEALASLSGYLVKKEVQDGLRKAKSIDDIKRLLGTPKAKKAEATPVGGYEVVGITACPTGIAHTYLAAEKIQEYAEELGMKAKVETQGRRGVEDKLTSEDIKNAKYIILAHEKAIVGMSRFNGYKVVDTSTKEAIYKGKEIIQNYDSHPKLMKVENAADEEAGNVGELNLAQFKKVKQNLLAGVSRMLPFVVAGGIILGLGFLFDYIYTTINKMQAFSS;locus_tag=LOCUS_09640;note=WP_011166991.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:50.2%25%2C q_cov:99.1%25%2C s_cov:35.1%25%2C Eval:1.3e-62%2C partial hit],internal stop codon at [604179:604181](+),MGA_964
sequence1	MetaGeneAnnotator	CDS	605100	605234	.	+	0	ID=MGA_965;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELMIPILGGYVCYSIVGPQGLMVGAVAGLMANGDGFIYGGSAP;locus_tag=LOCUS_09650;note=WP_011166991.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:68.3%25%2C q_cov:90.9%25%2C s_cov:6.0%25%2C Eval:4.3e-09%2C partial hit],internal stop codon at [605232:605234](+)%2C[605244:605246](+),MGA_965
sequence1	MetaGeneAnnotator	CDS	605256	605747	.	+	0	ID=MGA_966;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSDLAGLSSGFIGALVGAYLGALMVFGLTKLMKNFGKGLQGVRDIVFIPVLSLLCIAIIMLVINIPLGYVMFGLQKLITLLANNNLMALVCVLAGLMMCVDMGGPINKIAYTIGTLSVGFQLVKDTSSVAYQEQTMIMTAAMVGGMVPPLGIAVSTVLFPRQ;locus_tag=LOCUS_09660;note=WP_011183078.1 fructose-specific PTS transporter subunit EIIC (Mesoplasma florum) [pid:57.5%25%2C q_cov:98.2%25%2C s_cov:21.4%25%2C Eval:5.6e-43%2C partial hit],internal stop codon at [605232:605234](+)%2C[605244:605246](+)%2C[605745:605747](+)%2C[605781:605783](+),MGA_966
sequence1	MetaGeneAnnotator	CDS	605826	606065	.	+	0	ID=MGA_967;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEDPKRISVTAMLGGAIAGAIVGIFKVTIAAPHGGIFVAPLTNSMIFDGDGIQKGMGVVFYIVAFVLGSIAMGVALGF;locus_tag=LOCUS_09670;note=WP_011166991.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:49.4%25%2C q_cov:100.0%25%2C s_cov:11.7%25%2C Eval:1.5e-17%2C partial hit],internal stop codon at [605745:605747](+)%2C[605781:605783](+)%2C[606063:606065](+),MGA_967
sequence1	MetaGeneAnnotator	CDS	606069	606296	.	+	0	ID=MGA_968;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADIKTGKLVLSSTNGVKESLQERIAKANQSNNTKRLEGLNKQLDKYHQFEETLKEKQAIYANKVAQKSSAKMKK;locus_tag=LOCUS_09680;note=MGA_968
sequence1	MetaGeneAnnotator	CDS	606385	607272	.	+	0	ID=MGA_969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQKPRGTEDLVDKKVKEFFALELILRNIADLYNYREIRTPYFESADLFLRSVGQDTDIVSKEMYIFNDKKNRQLALRPEGTAPTVRSILENKMYINENLPLKLFYFGSMFRYERPQNGRQRQFNTFGVEMFGPKSPEADSETICLAVHVLKTIGIENFNVHLNYLVGEEQRKIYIKDLKDQLSSFELCDDCKERLEKNPLRVLDCKVDQDKFKNIKDMKEYLSDEDKKYYNDLKINLKNIDIKIIENKNLVRGLDYYTGFVFEIKDNNDLTLIGGGRYDKLVNELGNVDLPAAG;locus_tag=LOCUS_09690;note=WP_011166530.1 histidine--tRNA ligase (Mycoplasma mycoides) [pid:52.2%25%2C q_cov:100.0%25%2C s_cov:72.2%25%2C Eval:7.8e-88%2C partial hit],internal stop codon at [607270:607272](+),MGA_969
sequence1	MetaGeneAnnotator	CDS	607276	607623	.	+	0	ID=MGA_970;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVERIILSLEKQNIFLSEENYLDAYIVTLSSKSKQFANILMLMLRSAGLKVDGDFMNRSMKSAFKQAEKNNSKNIIIIGDNELKENNVVIKNQQTKDEKKVLFQDIVDYLMKGN;locus_tag=LOCUS_09700;note=WP_164919785.1 histidine--tRNA ligase (Mesoplasma florum) [pid:40.5%25%2C q_cov:96.5%25%2C s_cov:26.7%25%2C Eval:1.0e-18%2C partial hit],internal stop codon at [607270:607272](+),MGA_970
sequence1	MetaGeneAnnotator	CDS	607717	608685	.	+	0	ID=MGA_971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGLTFVDLRDRYGITQLNVGEELNDKKDFLKNEYVIQVHGKVIERKSKNLEIKTGEIEIEVKDLILINKSELTPFEIKNNIEANEETRLTYRYLDLRRYEVQNKLIMRSKMNFIIRNFFNQQDFIEIETPVFGKSTPEGARDFLVPSRLNPQKFYALPQSPQLYKQLFMISGFDKYFQIVKCFRDEDLRIDRQPEFTQLDMEMGFATSNDVMNTIENVIKEIFSKLKGIEIKEPIPTMSYKESFEKYGNDKPDLRFGYEINCLDKIFKNTEIPLFSNLENKTIRAICVNGLLNKKELETLNETSKQNSVNILAFAKYDSKE;locus_tag=LOCUS_09710;note=WP_011183263.1 aspartate--tRNA ligase (Mesoplasma florum) [pid:62.1%25%2C q_cov:99.4%25%2C s_cov:55.8%25%2C Eval:9.7e-111%2C partial hit],internal stop codon at [607696:607698](+)%2C[608683:608685](+)%2C[608878:608880](+)%2C[608905:608907](+),MGA_971
sequence1	MetaGeneAnnotator	CDS	608953	609144	.	+	0	ID=MGA_972;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSDDTLENFDKDKENAKAKAYDIVLNGFEIGGGSQRITDPNIQQRMFDAVGLTSQQVEQNFG;locus_tag=LOCUS_09720;note=WP_011166529.1 aspartate--tRNA ligase (Mycoplasma mycoides) [pid:67.7%25%2C q_cov:98.4%25%2C s_cov:10.8%25%2C Eval:3.0e-18%2C partial hit],internal stop codon at [608683:608685](+)%2C[608878:608880](+)%2C[608905:608907](+)%2C[609142:609144](+),MGA_972
sequence1	MetaGeneAnnotator	CDS	609214	609351	.	+	0	ID=MGA_973;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLTQAENIREVIAFPKNSSGIDPMTNAPDNVTDKQLNELHIKTQ;locus_tag=LOCUS_09730;note=WP_011183263.1 aspartate--tRNA ligase (Mesoplasma florum) [pid:68.2%25%2C q_cov:97.8%25%2C s_cov:7.6%25%2C Eval:1.5e-09%2C partial hit],internal stop codon at [609142:609144](+),MGA_973
sequence1	MetaGeneAnnotator	CDS	609919	610089	.	+	0	ID=MGA_974;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYNFLFRFIVAMNNTILFVKAKYKDRRILIANLNKTKRIKFISYIYGDKVKSFVF;locus_tag=LOCUS_09740;note=MGA_974
sequence1	MetaGeneAnnotator	CDS	610727	611560	.	+	0	ID=MGA_975;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILPGIFQGLVSKKAQNMSKQKEEFSHRIENLLNGYRLFSYSNERRIFNKLIKVANIKVEKSIASYGTASSSQQSVLFALMISSQLIMMFVAIFLALNGKTDKGAMLSVANISGTFFQGVNALFGSMFTIRAGIVIFKKFKHKKIDQDIITQNIQFNKLELKDINYKIENKNIFNNLNLTIEKNKKYLVLGESGKGKTTLFKIVFGLIDNYEGEIKLNEKLSYKNLNKSNIKNIISYVPQDTIIFNDTIRNNISLFNDEVSDAEIIKAIHAVNLSD;locus_tag=LOCUS_09750;note=WP_000288026.1 ABC transporter ATP-binding protein (Streptococcus pneumoniae) [pid:30.0%25%2C q_cov:99.6%25%2C s_cov:52.2%25%2C Eval:3.0e-30%2C partial hit],internal stop codon at [610574:610576](+)%2C[610688:610690](+)%2C[611558:611560](+),MGA_975
sequence1	MetaGeneAnnotator	CDS	611609	611821	.	+	0	ID=MGA_976;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGGEMQKIAIARVLVFNKDVMILDEITSSLDKENRNIIENLITNLNKTILLISHTALENNNNFDKVIQL;locus_tag=LOCUS_09760;note=MGA_976
sequence1	MetaGeneAnnotator	CDS	611858	612580	.	+	0	ID=MGA_977;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004454838.1;translation=MKEKIIELKNIQKVINNKLILDKVNISFECNSFTTIIGMSGSGKTTLLNILCGLEYPTHGEVFVKKTNINNLKKVQLTKFRSLNIGYIFQDYNLIDYLNVKENILITLMVNKQKVDKIKYLNILKFLDLEKIEFVVANELSGGEKQRVAIARTLVGENKIIIADEPTGSLDFITAKKVIKLLKEAVNEFDKTLIVVTHDPNVAKEGEKTFVVKNNEVKMLKNKFEISEIEYYLSNDGKNE;locus_tag=LOCUS_09770;note=WP_004454838.1 ABC transporter ATP-binding protein (Clostridioides difficile) [pid:41.9%25%2C q_cov:84.6%25%2C s_cov:89.4%25%2C Eval:8.7e-41],MGA_977
sequence1	MetaGeneAnnotator	CDS	612675	613742	.	+	0	ID=MGA_978;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLENSVYFFLNNDKYKLDNSIFILNFFSGFIGIIIFISLFSIFSALNLNLNLKKKQFHLLYILGFSNNKIKLYVFLEIILISIVIIVLSLLVANPLSELIVNYLKSVNVLDKKFYIYKKYEYQYIYVLGILLFIIFITFIATKNLNNLSNKKIHNKKFKNVYSYISFIVGLVFLLIPLALVLNKNIMQSETGKGLLIDCLISYIVGLGIISKLLIKNLLKIIYLKSKKYFIKLLFANLNKSLDKIYYSIILLTISLIFSFYTIAFNFNDFNNINQKAISLFILIIIYFYTFLIYLNSIFLYILDQKSNVKLLNIIVYTKNRLILMIFFSILISNLISLIFSIFGFLFYISVYSY;locus_tag=LOCUS_09780;note=MGA_978
sequence1	MetaGeneAnnotator	CDS	613967	614089	.	+	0	ID=MGA_979;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLSESVKNLVGNLFRMDLNLDFFAPGYIGSKKTEEDNIP;locus_tag=LOCUS_09790;note=MGA_979
sequence1	MetaGeneAnnotator	CDS	614159	614500	.	+	0	ID=MGA_980;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIADVSLAIDAKGKEPIIVEVKDSFVELIELEKLGFLQSRVQSLSTPQMFILKDIYKFMIDKYAKFNEFFENDPNIKILAKHQGPLSAPLFLNSREVVDYYEKGAKIIFTLGK;locus_tag=LOCUS_09800;note=MGA_980
sequence1	MetaGeneAnnotator	CDS	615062	615691	.	+	0	ID=MGA_981;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSALIYKDKKRKKFIFKDKKYDLDETTYAKILADTKPIEDQILRAKYSYEFKQELNNKKHTFIKLYDALTRENIEYANLIGKKNFFDLFFDKDDFYKSHLFTLLEASKSAKEVYREYLKIYKDFFGFTDKFYNTDTSLKFVKSNKDIIDVEKGKDIIKKVCSKLGNEYLLFLNKSLENYKIDYYESENKSTDAFTIPSDKYDNLISMN;locus_tag=LOCUS_09810;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:32.1%25%2C q_cov:100.0%25%2C s_cov:34.9%25%2C Eval:2.1e-21%2C partial hit],internal stop codon at [615689:615691](+)%2C[615701:615703](+)%2C[615941:615943](+),MGA_981
sequence1	MetaGeneAnnotator	CDS	615743	615943	.	+	0	ID=MGA_982;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHFEFAKKYQPKPLNNFDNLIAEIASTFNEHLLSDELLNTNNKNLKINILQNNIDFVSLNFLSSTL;locus_tag=LOCUS_09820;note=MGA_982
sequence1	MetaGeneAnnotator	CDS	616556	616879	.	-	0	ID=MGA_983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDDYPELFQNINNFKNFFNQKYKIIKVDIKLLKKFEKMIVQYCQLLGIINSIETMCIYFSNLKILEVKNRKEYALKLANDNILRFYNIFQNELKNIYKDDKYLELI;locus_tag=LOCUS_09830;note=MGA_983
sequence1	MetaGeneAnnotator	CDS	617234	617737	.	+	0	ID=MGA_984;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFDKLDETINKLNKLEFLDEFQDLKDEFLVTYEKILYYLIKLDIEKINYQRDIIQPKMRVLKECFLLTDAIVKYCYDFVKKNKNTPNLDDLNVFFINRLLAYVKTIEFFNKNTKKNLSKQNLEVIEKMKACSNLEEWQKSLDLIIGDYEDNHLDYLYLNDDYNDYF;locus_tag=LOCUS_09840;note=MGA_984
sequence1	MetaGeneAnnotator	CDS	618338	619333	.	+	0	ID=MGA_985;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRRLFEQVNNESNNISIFCARTINNQYCGAHLILKYKHDLRAQYYLTSTEGSLHKEWCFNGVKEELNNNFYKEIISSELINNFYKENIVQLCVLEKNAAKLEIFDYTNCNIIELQKVLSKNNIKKVTLNSAINYFFEIVKKDISKNGLTSFEDDFKNNHFEVYNDHKNYIDINLKTEKFRNAPIKLTLCDFTKTNYDSFDENGNMIITIDNIDVFELERADTSKDIKLKKVRKNYHNKVLKVIFKNQRIIQNLIKLKQFANSEYENSRLDFKNFYGISFLVDKTRHYEVINNTLFLTFEVLEYEEFVTVKKNLKYYELDEFIDNKLQKN;locus_tag=LOCUS_09850;note=MGA_985
sequence1	MetaGeneAnnotator	CDS	619480	619617	.	+	0	ID=MGA_986;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAADSKNDLNYNEESIQVLEGLEAVRKRPGMYIGSTDVRGLHHLV;locus_tag=LOCUS_09860;note=WP_003231552.1 DNA topoisomerase IV subunit B (Bacillus) [pid:82.5%25%2C q_cov:88.9%25%2C s_cov:6.1%25%2C Eval:4.9e-13%2C partial hit],internal stop codon at [619615:619617](+),MGA_986
sequence1	MetaGeneAnnotator	CDS	619738	620571	.	+	0	ID=MGA_987;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKGTNQSTPEIIFSVLHAGGKFGGDGYKTSGGLHGVGSSVVNALSSKFKVTIYRDGLISKISFSKGGHLVTPLKTIGNSKVTGTVVNFLPDETMFSTTKFSFSTISERLKESALLNSGLKITLKDERSDKYVEYKYDNGLIEFVNELKGNEKAICNPILIKGQDSQIDVEIALTYTDDFSENVMGFANNVKTSDGGTHISGFKTGLLKSLNEYGRDQAILKDKKLEANDVKEGLIAVVTVKIPENLIQYEGQTKGKLGTSEARGACEKITEEIFGF;locus_tag=LOCUS_09870;note=WP_011183206.1 DNA topoisomerase IV subunit B (Mesoplasma florum) [pid:61.5%25%2C q_cov:98.6%25%2C s_cov:42.5%25%2C Eval:6.3e-97%2C partial hit],internal stop codon at [619615:619617](+)%2C[620569:620571](+),MGA_987
sequence1	MetaGeneAnnotator	CDS	620617	621138	.	+	0	ID=MGA_988;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAKKARDEARKARQAIRDQKTKTRGKTMLGKLTPAQGKDKSLNELFLVEGDSAGGSAKSGRDRKFQAILPLRGKVINAEKTKILDLLKNEEITTIINAIGAGMGSDFDINDINYGKIIIMTDADTDGAHIQTLLLTFFYRYMKELIINKNVYIAMPPLFKVTQGNKKDFLYL;locus_tag=LOCUS_09880;note=WP_011183206.1 DNA topoisomerase IV subunit B (Mesoplasma florum) [pid:75.7%25%2C q_cov:100.0%25%2C s_cov:26.6%25%2C Eval:9.6e-71%2C partial hit],internal stop codon at [620569:620571](+)%2C[621136:621138](+)%2C[621235:621237](+)%2C[621355:621357](+),MGA_988
sequence1	MetaGeneAnnotator	CDS	621443	621691	.	+	0	ID=MGA_989;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENLSFQSKINLIISKIEEYNKINKDIKRFSIFNSFIIDYELDGAYLYFNMRNIDDENMELMTSAGSEQSLHVNLKKDIDFL;locus_tag=LOCUS_09890;note=MGA_989
sequence1	MetaGeneAnnotator	CDS	621737	622321	.	+	0	ID=MGA_990;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKARELSKPQAGILIYDEFTDSYYLNPSTGPLLLKSKEIAREIASTRLDIFAIFIHLRTTVIGRDRSMELVGLDGEMMLKKILSIIQELKQFEIKLKKIEGIPRFICDINEIDSKNYEFEGYLTDDFGDNQLYITKQNDLVQRINIDTQVGFEVVYSMLRTAQEFSKLMMGLARTLVSKNDPKLYKQDTLSKL;locus_tag=LOCUS_09900;note=MGA_990
sequence1	MetaGeneAnnotator	CDS	622434	622727	.	+	0	ID=MGA_991;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAQENKEKGILNYSLEELMGDRFGRYAKYIIQERALPDVRDGLKPVQRRVLYAMNDINLTYDKPYKKSARIVGDVIGKYHPHGDTSVYDALVRMSQI;locus_tag=LOCUS_09910;note=WP_011183207.1 DNA topoisomerase IV subunit A (Mesoplasma florum) [pid:85.6%25%2C q_cov:92.8%25%2C s_cov:9.9%25%2C Eval:7.9e-43%2C partial hit],internal stop codon at [622725:622727](+),MGA_991
sequence1	MetaGeneAnnotator	CDS	622752	623951	.	+	0	ID=MGA_992;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHGNNGSIDGDSAAAMRYTEARLSKISSLLLKDLQKNTVLFAPNFDDSEKEPTVLPGYFPNILVNGSTGIAAGYATNMPPHNLGEIIDAVIATIKNPEIKLKDISKIVKGPDFPTGAIVMSQEGIDSAFQTGKGRIIVQSKMHREENNIIIDEIPYEIVKQDLVRKIGETVDANTAIDVKEVRDETDRTGLRIVIELAEKTDYDITRKFLLKNTPLQISYNYNNVVIVDKQPKQLGIVPIIKAYVSHYKEVFIKKTQFDLDKAIKRQEIIEGLIKAISILDEVIAIIRNSKNRTDAIENLIKAYDFSENQAIAIVDLRLYRLTSTDILKLEEEKKELLGLIEKYKSIIGNSDVLNNEIINELTETKKEFNVPRRTEIVKEIENIDFEIKETIVEKDYTI;locus_tag=LOCUS_09920;note=WP_011166695.1 DNA topoisomerase IV subunit A (Mycoplasma mycoides) [pid:64.4%25%2C q_cov:100.0%25%2C s_cov:44.4%25%2C Eval:1.1e-149%2C partial hit],internal stop codon at [622725:622727](+)%2C[623949:623951](+)%2C[624042:624044](+)%2C[624144:624146](+),MGA_992
sequence1	MetaGeneAnnotator	CDS	624159	624983	.	+	0	ID=MGA_993;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLNTVAQMTAQNERLLAAFVVRTFKNAKQEILLATKLGLIKRTPIEDLETKMFSKSFRIMKLGPGDELVSASLVTSKTKTVTMLTQSGFAVRYDIAEIPSAGPNAKGVKSTVVKGENIIAGKAFDSGDILILTNKGNIKKIKQDLVPIMTRPKRGVRLYPMNKKRDEFATFLYNVSNKDILNILDVNDELKQMSVSSFKYLDLESIPTDLDMNEILTTTLEKSFIIKNGDIPPSPKTSDDNEDNQSKIINDEAEKNIEEENTEELKVDIDDLL;locus_tag=LOCUS_09930;note=WP_011183207.1 DNA topoisomerase IV subunit A (Mesoplasma florum) [pid:40.5%25%2C q_cov:89.1%25%2C s_cov:27.1%25%2C Eval:5.2e-51%2C partial hit],internal stop codon at [623949:623951](+)%2C[624042:624044](+)%2C[624144:624146](+),MGA_993
sequence1	MetaGeneAnnotator	CDS	625059	625706	.	+	0	ID=MGA_994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEIKGKIKSFIFNNESFGIAVFTLMDNDTRSIVIKGEITSMRLNVFYCLNGETVIDRKTNKTVFEVKSLKQIKITSKELVIKYLCSPLFPTVGKKLASNIYEHFGDDTFNKILSNPEEIKNVKDIKDSQVLIILETLKENFEENKVLEIFEEHNLKLEFYTRVEKFCKSKEEIKNTFENNFFEFAENNFLIPFKEVDRVALAFGLEENSSERIS;locus_tag=LOCUS_09940;note=MGA_994
sequence1	MetaGeneAnnotator	CDS	625737	627260	.	+	0	ID=MGA_995;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTGNTYLELSIIKKELQKVFFNINYEIFDEKLIYAKKNKLLIFENKKVYTKESYNDEVVISKSLLEIENKIKITKKTNLEDYLKEVESFVETSLNIKNFKYNQEQKLALENFLNNNVSIVTGGPGTGKTTVIIGLVKLYELVYKKNDFAIVAPTGRAASRINEVSNYEATTIHRLLKYTGNNTFEYNDLNKLDRGMLIIDESSMIDNHLFASIFLGLENLNKIVLVGDIDQLPSVSYGNAFEDIIKSNCFSLTKLITNNRQIITGERNSIIDLANCIKNNNIELFDFDNTNNIDFIFENDANYALEKIKDTYLNNRPIDFEEEILNLQIVAPMYKNNLGIDRINNFIQSIVNVNKKNIYKRGEVEYKANDKIMYTENDSYLKVFNGDVGYIQEIILENKKFKIAKTYFNKELKELNSSQFGKVKLNYACSIHKTQGSEYDKVILVLDNTNQYSSFLINKKMIYTAITRAKKHLFIIGDKKLFINSCKKEMKERLTTLKDRIVQLID;locus_tag=LOCUS_09950;note=WP_014584390.1 AAA family ATPase (Mycoplasma leachii) [pid:43.9%25%2C q_cov:99.4%25%2C s_cov:68.0%25%2C Eval:1.4e-110%2C partial hit],internal stop codon at [625704:625706](+)%2C[625707:625709](+),MGA_995
sequence1	MetaGeneAnnotator	CDS	627295	628047	.	+	0	ID=MGA_996;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKIFTSLFISTAAFFLILLIVSLVILPSFNVNNELNRISAVDSSDQGLKDYLNGVRPQIKNKLDLAYMIMGLEGLATMLKIHSFGAVTFTILVAFFLPLVGTMLGMSFLVFIFLFVISRIKREYKFNTIRLVGKIGLLVSSILFLIMGICGIVLFSDIETFLNKNNGEVSNYLNKINNNDSHNAFAFITAYKYFTNGKLQTLINNGLSQTGLYFGDLPINNIEFKAAISIGTIMMPLFGIFTIFFASI;locus_tag=LOCUS_09960;note=MGA_996
sequence1	MetaGeneAnnotator	CDS	628967	629806	.	+	0	ID=MGA_997;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAFKKFMKNQDLKSAKCLGIHLEGPFISPAKKGAHELALLEPPNIKTLKELIELSDDNIRIITYAPDLQDGGFTRYLIEHNILPSAGHTNTSVQDFLKDYKLGVRHLTHLFNGMSGVSQQEPGLTTAGLYFDDILCEVITDSIHIQPDTLRLIYKIKGPKGMCIITDAMNAKGLPDGEYKLGNLPVIKEGMKVFLKENKALAGAGATYDHNVRVMLKEIPNLSLNNLIYMTSINIAKQLNIFDKTGNIEVGKFADLTVLNNEYQVEKTFVNGELVYEK;locus_tag=LOCUS_09970;note=WP_011166715.1 N-acetylglucosamine-6-phosphate deacetylase (Mycoplasma mycoides) [pid:54.9%25%2C q_cov:98.6%25%2C s_cov:70.9%25%2C Eval:4.5e-82%2C partial hit],internal stop codon at [628715:628717](+),frameshifted%2C insertion/deletion at around 629797,MGA_997
sequence1	MetaGeneAnnotator	CDS	629796	629933	.	+	0	ID=MGA_998;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNINPKSYTLTKYLLTISMLSFYLLCFLMVVVSIKTKQANLGE;locus_tag=LOCUS_09980;note=MGA_998
sequence1	MetaGeneAnnotator	CDS	629976	630266	.	+	0	ID=MGA_999;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMLFGIIYFLIRYRLHKRSEYKYNKKESYFVITYLCSFILLIVFCFLLLLVMKYAIVSYFVLTFIFIIFVFILGITISVLETISRLKEQALVNKV;locus_tag=LOCUS_09990;note=WP_011166717.1 hypothetical protein (Mycoplasma mycoides) [pid:35.6%25%2C q_cov:92.7%25%2C s_cov:46.9%25%2C Eval:6.3e-08%2C partial hit],internal stop codon at [629931:629933](+)%2C[629934:629936](+)%2C[630264:630266](+),MGA_999
sequence1	MetaGeneAnnotator	CDS	630370	631362	.	+	0	ID=MGA_1000;product=Gfo/Idh/MocA family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183105.1;translation=MIKLGTIGTSEIVKKFVNSAKKNSNLKVLCCYSRNKEKAKNFIIENDLAAKAVDSFEVLVDEVDAIYIASPNGLHYEHAKYFLTQQKHVLLEKPLTLNYDQACELAQIAEMNNVFLMEAYRTAHLPQFKKLLDSCQNYQPFLANFSMTQYSSRMEKVKHGIYDSVFDENLGKGSTYDMLIYPVELAIALFGPVKEVKSMGLKLPNGSGLNDIVLMKHTNNVLVNITCSKASEGLNYNEILSDHITISFLDNSHLKEISIKKRVNDTREMLYEQKEPMDYFEYEIKVFVKMILENDISLRNYLLDVSCEAIKVLNQVEKNRDKLGEIQHET;locus_tag=LOCUS_10000;note=WP_011183105.1 Gfo/Idh/MocA family oxidoreductase (Mesoplasma florum) [pid:37.8%25%2C q_cov:96.4%25%2C s_cov:99.7%25%2C Eval:9.2e-56],MGA_1000
sequence1	MetaGeneAnnotator	CDS	631352	631657	.	+	0	ID=MGA_1001;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNKYIDHTLLKPDATKKEIEILCKEAIEYDFATVCINPCFVSLASSILKKTNIGITTVVGFPLGSNTINTKVLELKEALNNGASEIDFVINISAVKDKD;locus_tag=LOCUS_10010;note=WP_013448021.1 deoxyribose-phosphate aldolase (Mycoplasma leachii) [pid:61.4%25%2C q_cov:100.0%25%2C s_cov:45.5%25%2C Eval:4.7e-32%2C partial hit],internal stop codon at [631655:631657](+),MGA_1001
sequence1	MetaGeneAnnotator	CDS	631736	632014	.	+	0	ID=MGA_1002;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTKEEIIKCCELACEAKIDYVKTSTGFSKAGATFENVKLMKDIVSSRALVKAAGGIRSFDDAIKMIENGASRLGTSGGINIIKGETNNTSY;locus_tag=LOCUS_10020;note=WP_011183018.1 deoxyribose-phosphate aldolase (Mesoplasma florum) [pid:71.7%25%2C q_cov:100.0%25%2C s_cov:41.8%25%2C Eval:2.9e-32%2C partial hit],internal stop codon at [631655:631657](+),MGA_1002
sequence1	MetaGeneAnnotator	CDS	632276	632962	.	+	0	ID=MGA_1003;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKRYGFELGEYGLPSSIRKRIDDLVGLSLNPSTINLLTSEFSLFEEETKENIGRYIANLLEIENALLAKHFEKIKQENSFGNSKQELIMKQRQSNLLRIQQIFSHKDKLLERVNNIETKSFAPKDEVSSEKIDFTKFMVTNNSNTVTDDEKQKQKLKLLSEKKRKLELVVSEKQQQINIAKKQYEEARMRNDSNAQKSKILIIKEVNEKLLKIDEAIKKYKSVENIP;locus_tag=LOCUS_10030;note=MGA_1003
sequence1	MetaGeneAnnotator	CDS	632972	633919	.	+	0	ID=MGA_1004;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDENELQDDLDIQELRIREHLNKKPFNPNPKKSESIINNNVTKEIDVTKEIEQGDFFEVDDFEDVSIKKNKESKKAINEKQKKSKESFSKTEVIDNTNDLNLINEIKIILDKKETNVEIKKVDKIEKNKKETKTKKAKNIDSIKKAKNIDSIKKDKNIKEIKDTNKVKKISVEKNYNEFTSIINEVVELENRLKKAKEVARKIEEERLIKEREDERKRFERDQKIAGLHALETKNKERIIKKIKKNYKARDKKYDQLKKEKEKLEKELKTLKEKQKIDELRNIEIAKRKAIESTESILKKYKYKGHNLHTIMEKK;locus_tag=LOCUS_10040;note=MGA_1004
sequence1	MetaGeneAnnotator	CDS	634323	634688	.	-	0	ID=MGA_1005;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLYTATPLLFVNPIVKAIANHNPIFVNNNVPTFVNKLLITFGALYVFNKLPIDKITPNTGINIITKPNVDPNFLKKVFELFFVYQEISKLLNIFCLTFSSIVISFFSKLLFIYSPKIFLF;locus_tag=LOCUS_10050;note=MGA_1005
sequence1	MetaGeneAnnotator	CDS	634881	635060	.	-	0	ID=MGA_1006;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVFASPIPKNLNEYPIAGQNINHNIAEITAVKGIKIRTNFSFEKNSSPETNFVSLKLL;locus_tag=LOCUS_10060;note=MGA_1006
sequence1	MetaGeneAnnotator	CDS	635410	635853	.	+	0	ID=MGA_1007;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDLRGDQVIAANVINSNFITIQDCWNVGLRVSRFIAPGFANSIFALPAIGLAIFLQIEKKDRSKYYASFLIAFASSALLGITEPLEYMFCYTCPIFYFAIYAPMLGLMGAIGSITQLKLGTTFSTGLFDFIFNGVLPTVAGQNTRI;locus_tag=LOCUS_10070;note=WP_012027342.1 PTS transporter subunit EIIC (Streptococcus) [pid:35.3%25%2C q_cov:90.5%25%2C s_cov:27.5%25%2C Eval:1.4e-14%2C partial hit],MGA_1007
sequence1	MetaGeneAnnotator	CDS	636419	636583	.	+	0	ID=MGA_1008;product=30S ribosomal protein S21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183260.1;translation=MASVVVREGEPIEKALKRFQKVAASSKAEARKREYHLSKKEKRIYKQKQNRKFG;locus_tag=LOCUS_10080;gene=rpsU;note=WP_011183260.1 30S ribosomal protein S21 (Entomoplasmataceae) [pid:86.8%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:5.5e-20],MGA_1008
sequence1	MetaGeneAnnotator	CDS	636659	636928	.	+	0	ID=MGA_1009;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKEIKSISINKNTKDLQPRPEKAASGKFVKKPPILEDKSTKLSLVMQSRTMLSAKKGKNKGDISTLPPGVIASIKNKERINKELNLD;locus_tag=LOCUS_10090;note=MGA_1009
sequence1	MetaGeneAnnotator	CDS	637184	637741	.	+	0	ID=MGA_1010;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHYIKSKIINIENNLIIVENNNIGYKGYLIDTLNRDLKIDNEVKLFYLNYRNEFIDESLFFIDENVLNLSKQLLQIKYFGIKTLNNLFNNISFNDLINYVNNQEIDKVMKLTNIKLNILKEVFSIVSDKILNKKYNKKQMEIINSLHKLGYGINNIYKVISIIDSSLDEELILQKALFELNEIKN;locus_tag=LOCUS_10100;note=MGA_1010
sequence1	MetaGeneAnnotator	CDS	637725	638669	.	+	0	ID=MGA_1011;product=Holliday junction branch migration DNA helicase RuvB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166725.1;translation=MKLKINTNRPDSFSNYIGQKNIVNNLKVYISSSIKRNSVLDHMLFYGGSGLGKTSLAYLISYEVNKKIYVLNGTSLQKPSDIIAPLTSLKEGEILFIDEVHVISKEVFEVLYPVLEDNQLSIIIGKDYNSKIVNINLPNFTLIAATTEINKLSEPFINRFPINFYFETYNKDEIAKILQLNSNKYNIELDNDILLFIADHCKNNPRIAINIFKRIYDYIVIEKPLVLDISYISKILKTLNIYKYGINNQDLSYLKILNEHKVIGLESIKQIMNTQLTIITNNIEPNLLFYNLIKKTSKGRIITEKGRDLIESII;locus_tag=LOCUS_10110;gene=ruvB;EC_number=3.6.4.12;note=WP_011166725.1 Holliday junction branch migration DNA helicase RuvB (Mycoplasma mycoides) [pid:53.0%25%2C q_cov:96.8%25%2C s_cov:99.0%25%2C Eval:6.7e-93],MGA_1011
sequence1	MetaGeneAnnotator	CDS	638746	638979	.	+	0	ID=MGA_1012;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKVYNLKESSLGKVTFLDGTVFMSISFLADSGEKITEVIILSSLDEAVRKFPSFVTELTFKHVQDKLKFHNDIVD;locus_tag=LOCUS_10120;note=MGA_1012
sequence1	MetaGeneAnnotator	CDS	639312	640574	.	+	0	ID=MGA_1013;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKKILKINLSAIIIVPSFFTLSCSKTKNAIGHYEMNNNYAYSKVFLNNEQNFNILPQLKRKSNDKKIIIDDKIKQLILDNSSNDLIIDDKLFENNQKFSYNGSKLEKKVYNEKFSEDSKEVSKVQFAYDFLASEYNINIFANKDEPDIIYDYSELKLDNDIKDNKYYFNQVYDNGSLLLSSDQKLNFTYNQKTYTNDITLYDITAELNFENLTYLLNSNLAYAKEEKAENDNEIFYSLVINTFELNYKIINTSLGEIENKNQETIINKIKEKNPNSNIDFEKDVDIAIDNNNSKARVIAKKDSAKYNGEVEVTFNLKGESEPEQPNSSTLQKISTESITTPNNNITGKLNKIFKKLFVKEEDKLNFKKLDSNEKIKEEVVFESVLPKTITINKNLVTKIKIIDKVKVDDSKEEGEKNV;locus_tag=LOCUS_10130;note=MGA_1013
sequence1	MetaGeneAnnotator	CDS	640567	641073	.	+	0	ID=MGA_1014;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKNLIKFLLAFNILTFASSSITSCEPIKTFPSVSAQSNIETLNQLFIGQEIEPVYINYLKYINGFFEHSGFEDALSTNKITTSLIDTDKLNETELKYYNSLKNIYQPVQNENILDFSGMTFIVENIFIDEFGFVKNDTKKETREENVSDQDLKSYVNTTMAITVLKG;locus_tag=LOCUS_10140;note=MGA_1014
sequence1	MetaGeneAnnotator	CDS	641450	641695	.	-	0	ID=MGA_1015;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINDADLNNKLEACEIIEHYFETIIGNDIKEEDIKNLDPKDIKETSKIVVFNNGVTIAEEVAAKINLSTIFRNILNNKKTS;locus_tag=LOCUS_10150;note=MGA_1015
sequence1	MetaGeneAnnotator	CDS	641747	642190	.	-	0	ID=MGA_1016;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLLKNGLLDSNQEFIGDFTPDVTVMNNILTNIRKQVGELKTHEQINNFIRKNSLELKVNGYFNSDVQNDLITTIKDNPTNIQEKITELIIKMQIGNIVKSGAIALEINNVLLQKLGNDTKFNDIDEDDITYILNMEILKSVDKLKK;locus_tag=LOCUS_10160;note=MGA_1016
sequence1	MetaGeneAnnotator	CDS	642458	642805	.	+	0	ID=MGA_1017;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKIQFPIIILDTEFFNHSHDEGEYEDKLYSEDQKDVVYVIQYSFAKSLKEIAYRDNTKSIKSIYIKRGHNDKTYNFQEQYSKMVTSFLSMCRNKEIKTIICAGASNDIKIINK;locus_tag=LOCUS_10170;note=WP_020862792.1 hypothetical protein (Mycoplasma mycoides) [pid:58.4%25%2C q_cov:98.3%25%2C s_cov:36.9%25%2C Eval:4.8e-32%2C partial hit],internal stop codon at [642803:642805](+),MGA_1017
sequence1	MetaGeneAnnotator	CDS	642848	643042	.	+	0	ID=MGA_1018;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFYNKEKKELNANFFDIYDILENAFSFSNTTSTGEEFYNANNLPSGKQADNMIALTSCKKFYD;locus_tag=LOCUS_10180;note=MGA_1018
sequence1	MetaGeneAnnotator	CDS	643145	643297	.	+	0	ID=MGA_1019;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFEVYRNMISVIRKVVVHCYNDVLKILIFLGFIYEFVYLPYEKNSYIKK;locus_tag=LOCUS_10190;note=MGA_1019
sequence1	MetaGeneAnnotator	CDS	643531	643803	.	+	0	ID=MGA_1020;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSERAKTLTKLSIIFMSFAIIFGFRNIINNQVQFGLLACVLFLVGGAIYAIPMVLLTSEFGSVHRLKDQEAGLGSFCAFALGKKGGFLAS;locus_tag=LOCUS_10200;note=MGA_1020
sequence1	MetaGeneAnnotator	CDS	643878	644090	.	-	0	ID=MGA_1021;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNTPKHKLAVPPTFVILPIHFGPFEETYVPAQNNKIANKAKVQVLNLVAVASLNLADNTTANSSNPFFP;locus_tag=LOCUS_10210;note=MGA_1021
sequence1	MetaGeneAnnotator	CDS	645320	645466	.	+	0	ID=MGA_1022;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRKKSFLLLNYFKPSIYLESYKKINLDSLKNSGIKLIMCDMDNTLIS;locus_tag=LOCUS_10220;note=MGA_1022
sequence1	MetaGeneAnnotator	CDS	645659	645898	.	+	0	ID=MGA_1023;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPYKENEIVLIGDQLITDVLVANRGHIKSILVSPLGRVSGEKKIVQFLENFILNRLAQKNILHEGFYNEGELGGNYEIL;locus_tag=LOCUS_10230;note=MGA_1023
sequence1	MetaGeneAnnotator	CDS	645885	646325	.	+	0	ID=MGA_1024;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSNDNSDLKDIEKQLDELEDKALLAHINGEKKINIKQKNKVTLTEMSVGLGNTTNIDNKGPKKCVGCGIEMHNTDQRKPGYVIDAEKQDYCLRCFKIKHYNSLVEQDIFDEDFVEILDEINKNKTKIRYYYVVDIFDLPGSRLE;locus_tag=LOCUS_10240;note=WP_011183248.1 ribosome biogenesis GTPase YqeH (Mesoplasma florum) [pid:52.4%25%2C q_cov:56.2%25%2C s_cov:22.7%25%2C Eval:7.2e-19%2C partial hit],internal stop codon at [646323:646325](+),MGA_1024
sequence1	MetaGeneAnnotator	CDS	646326	646754	.	+	0	ID=MGA_1025;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKMISQKEVVVLVNKIDLLPKIVNKAKIMKYIKKFFEDSPVKDAKFILTSSIKLEYVYSLVNELKSIIYDQYIVGISNTGKSSLINACLKANQQVPSIVTSKYVNTTLNKIKINFTKNNYIYDTPGLVKQNHIAIATAPTY;locus_tag=LOCUS_10250;note=WP_011183248.1 ribosome biogenesis GTPase YqeH (Mesoplasma florum) [pid:45.2%25%2C q_cov:95.1%25%2C s_cov:37.0%25%2C Eval:5.9e-28%2C partial hit],internal stop codon at [646323:646325](+)%2C[646752:646754](+)%2C[646839:646841](+),MGA_1025
sequence1	MetaGeneAnnotator	CDS	646914	647090	.	+	0	ID=MGA_1026;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKQMPLHRTKSENTEMYFRKNRHTLSPRLKDKDTKFEKKYFEFKDEKKYDLHISGLG;locus_tag=LOCUS_10260;note=MGA_1026
sequence1	MetaGeneAnnotator	CDS	647211	647570	.	+	0	ID=MGA_1027;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLILSIEVGNKLSKVALINQYGELQLNFIVEHDLKIGLIENLHNKIIKDIKKVGYDINDIYEKIGIAIPGFVDHSKGVVKYAGILNLNNFPLKEKAEELFKKEVLVLNDANAAALGEF;locus_tag=LOCUS_10270;note=WP_013729890.1 ROK family protein (Mycoplasma mycoides) [pid:43.8%25%2C q_cov:100.0%25%2C s_cov:37.1%25%2C Eval:2.0e-17%2C partial hit],internal stop codon at [647568:647570](+),MGA_1027
sequence1	MetaGeneAnnotator	CDS	647637	648167	.	+	0	ID=MGA_1028;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILDGKLIAGSRGFAGEFGHGSGLFAKNSQHKCVCGANGCIEKLCSSTSIINFFKEFLSKDEPSLKKHFHDEDDIKLIDIYNVYKKNIGSEKIIEFLTIILDPLIRHISLMINALDPEAIIFSGEITELKDLLIKIIQNNLKKYVVLKFYDGTPIKIAELENDAILIGSAYYVLND;locus_tag=LOCUS_10280;note=WP_011167030.1 ROK family protein (Mycoplasma mycoides) [pid:39.4%25%2C q_cov:98.9%25%2C s_cov:71.1%25%2C Eval:2.3e-27%2C partial hit],internal stop codon at [647568:647570](+),MGA_1028
sequence1	MetaGeneAnnotator	CDS	648199	648417	.	+	0	ID=MGA_1029;product=DUF896 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002939394.1;translation=MEDLIKRINELAALKKEDKLTPELVEEQKELRNKYIEAHKKNLLSQLKRLKFVDKDGNDITNEKLKILKEQK;locus_tag=LOCUS_10290;note=WP_002939394.1 DUF896 family protein (Streptococcus suis) [pid:45.6%25%2C q_cov:94.4%25%2C s_cov:80.0%25%2C Eval:2.8e-11],MGA_1029
sequence1	MetaGeneAnnotator	CDS	648714	649502	.	-	0	ID=MGA_1030;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENNELVFSMHKKTKKEIRLRTKRLNNDLDPLVIIKNKIPLLKHPHPTQKRETNFGAIFEADASNHEWIKGVKSHLHIVIDKSTKIILAGHFSEQEKTESYYRVYKETFVNYGIPIKNVTDNRNVFSSKINRDSEGYSESRTQLQFIFHSLKVSTKTTSIPQEKALVERTFGTLQRRWPQRIRIKNIKTIEELNDYLPTLIKEYNKKYSTPIDNCKSVVRKFTENPNIVFSYRTTRIVNKGSSIDYDNKNGLFVQGMSRCI;locus_tag=LOCUS_10300;note=WP_042733187.1 hypothetical protein (Mycoplasma yeatsii) [pid:27.0%25%2C q_cov:72.9%25%2C s_cov:37.6%25%2C Eval:1.7e-11%2C partial hit],MGA_1030
sequence1	MetaGeneAnnotator	CDS	649724	649891	.	-	0	ID=MGA_1031;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQTINKRLCHKYNILVGKIMKGIELDIMKQVKLEVIKGLSNKLHDINTSAETLG;locus_tag=LOCUS_10310;note=MGA_1031
sequence1	MetaGeneAnnotator	CDS	649988	650149	.	+	0	ID=MGA_1032;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNNNNLNAMRILGLEAVNKANSGHPGIILGAAPILYTLLTKYMNVNPKNPD;locus_tag=LOCUS_10320;note=WP_011183246.1 transketolase (Mesoplasma florum) [pid:77.1%25%2C q_cov:90.6%25%2C s_cov:7.3%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [650147:650149](+),MGA_1032
sequence1	MetaGeneAnnotator	CDS	650210	650617	.	+	0	ID=MGA_1033;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLSGFNVSIDDLKHFRQIDSNTPGHPEYGYTDGVDATTGPLGQGFAMAVGMALAETHLAKKYNKDNYKIIDHNTFVICGDGDLQEGVCQEAISFAGRYKLNKLIVFHDSNDIQLDARVEVAQAENMQEKFKAAN;locus_tag=LOCUS_10330;note=WP_011183246.1 transketolase (Mesoplasma florum) [pid:67.9%25%2C q_cov:99.3%25%2C s_cov:20.5%25%2C Eval:6.1e-51%2C partial hit],internal stop codon at [650147:650149](+)%2C[650615:650617](+)%2C[650813:650815](+),MGA_1033
sequence1	MetaGeneAnnotator	CDS	650648	650815	.	+	0	ID=MGA_1034;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAIENAIEKAKKSDKPTYIEVKTIIGIGSTNQGTQKVHGAPLGEDIKIVKKYFD;locus_tag=LOCUS_10340;note=WP_020862658.1 transketolase (Mycoplasma mycoides) [pid:75.0%25%2C q_cov:94.5%25%2C s_cov:7.9%25%2C Eval:2.4e-15%2C partial hit],internal stop codon at [650615:650617](+)%2C[650813:650815](+)%2C[650903:650905](+)%2C[650981:650983](+),MGA_1034
sequence1	MetaGeneAnnotator	CDS	651182	651820	.	+	0	ID=MGA_1035;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGVREFAMAAINNGIALHKGLLPFCGGFFVFADYMKPAIRLGALMNIQTLSIFTHDSVAVGEDGPTHQPVEQLAMIRSIPNINVFRPCDMAETIASYYNALEIKNQPSVIVATRQNLKELEHNDIDLFEAVKKGAYLYAEEENANITLIATGSEVSLALDVKKILELKNHKVNIVSMVNQNAFDKQDEDYKNQIINKNTIRFSIELGSTYG;locus_tag=LOCUS_10350;note=WP_011183246.1 transketolase (Mesoplasma florum) [pid:62.9%25%2C q_cov:100.0%25%2C s_cov:32.2%25%2C Eval:1.5e-70%2C partial hit],internal stop codon at [650981:650983](+)%2C[651818:651820](+),MGA_1035
sequence1	MetaGeneAnnotator	CDS	651760	651927	.	-	0	ID=MGA_1036;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSGLNPIFFITSLAGAEYPKLSYPKALPLSPKYLCHPYVEPNSIENLIVFLFII;locus_tag=LOCUS_10360;note=MGA_1036
sequence1	MetaGeneAnnotator	CDS	652325	652639	.	+	0	ID=MGA_1037;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKVIQVFTDNDFKDTNAYLIYNEKKQGILIDTAYERYKDIISFVKKNDINLTDVFITHGHFAHFYGINEICEILNIENVYIGRKDMIMLFDANKNTSILFTEG;locus_tag=LOCUS_10370;note=WP_011183552.1 MBL fold metallo-hydrolase (Mesoplasma florum) [pid:39.2%25%2C q_cov:92.3%25%2C s_cov:41.1%25%2C Eval:7.5e-09%2C partial hit],frameshifted%2C insertion/deletion at around 652649%2C652618,MGA_1037
sequence1	MetaGeneAnnotator	CDS	652748	652873	.	+	0	ID=MGA_1038;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIEFPEIKCIFNGDTLFLHHDVIGPTNSLEEEKRILENIK;locus_tag=LOCUS_10380;note=MGA_1038
sequence1	MetaGeneAnnotator	CDS	653025	653207	.	-	0	ID=MGA_1039;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLHTHGSRINYAESFLEICIIITLSSFILIFRHKDNIIKLINKKETTLFSFKKQKATS;locus_tag=LOCUS_10390;note=MGA_1039
sequence1	MetaGeneAnnotator	CDS	653427	653630	.	-	0	ID=MGA_1040;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLDASKVFITAFVALIFTYIPNEAFQYTSFYIPGFFALIGHCFPIYYKFKGGKAVSCFLGLTALIN;locus_tag=LOCUS_10400;note=WP_011166321.1 glycerol-3-phosphate 1-O-acyltransferase PlsY (Mycoplasma mycoides) [pid:66.2%25%2C q_cov:97.0%25%2C s_cov:25.2%25%2C Eval:4.2e-20%2C partial hit],internal stop codon at [653397:653399](-)%2C[653427:653429](-)%2C[653643:653645](-),MGA_1040
sequence1	MetaGeneAnnotator	CDS	653643	653807	.	-	0	ID=MGA_1041;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVIGTVLASIIGYLIGSFSFSIMIVKLKTKEDIRNFGSKNAGATNASRKLGKK;locus_tag=LOCUS_10410;note=WP_011166321.1 glycerol-3-phosphate 1-O-acyltransferase PlsY (Mycoplasma mycoides) [pid:59.3%25%2C q_cov:100.0%25%2C s_cov:20.9%25%2C Eval:2.3e-10%2C partial hit],internal stop codon at [653397:653399](-)%2C[653427:653429](-)%2C[653643:653645](-),MGA_1041
sequence1	MetaGeneAnnotator	CDS	653919	654194	.	+	0	ID=MGA_1042;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLNEQINLKNIIFSLYKKDSEDLIKSKKFELSEIIKNELITLAMTSNLKTLFEGLTNIFEKNLVSNNFNLSLMLTLFLQRYNYFYHTEIE;locus_tag=LOCUS_10420;note=MGA_1042
sequence1	MetaGeneAnnotator	CDS	654435	654605	.	+	0	ID=MGA_1043;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKFLQNTKNIYSSLEGVGVESEKKEFLAHSNEIKIVYQSMNKLINQILIKLINRG;locus_tag=LOCUS_10430;note=MGA_1043
sequence1	MetaGeneAnnotator	CDS	654618	654749	.	+	0	ID=MGA_1044;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEKYNDMPKNELIYAKEKLNEKINLLKTDEKKLEKKLKRNLA;locus_tag=LOCUS_10440;note=MGA_1044
sequence1	MetaGeneAnnotator	CDS	654917	655159	.	+	0	ID=MGA_1045;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLIEVKDITKKYKDKIIFENISFSVNEGESVAILGKNGAGKTTLVEIIAQMAKPSKGEAVINIDNNLKQEIGIQFQEGN;locus_tag=LOCUS_10450;note=WP_011183542.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:48.1%25%2C q_cov:98.8%25%2C s_cov:33.8%25%2C Eval:7.3e-17%2C partial hit],internal stop codon at [655157:655159](+),MGA_1045
sequence1	MetaGeneAnnotator	CDS	655262	655621	.	+	0	ID=MGA_1046;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFYKTPLSKLSGGQKQRFNALLSVINDPKLIILDELTTGLDMELQFKILSYFQEKIKDKKTLIIVSHHPEEVERLCNRIIIIDNKKILMDKKIDQVTKEFKSVRNLMEKFYKGDFDEK;locus_tag=LOCUS_10460;note=WP_011183542.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:66.1%25%2C q_cov:95.8%25%2C s_cov:49.1%25%2C Eval:4.5e-38%2C partial hit],internal stop codon at [655157:655159](+),MGA_1046
sequence1	MetaGeneAnnotator	CDS	655611	655892	.	+	0	ID=MGA_1047;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKTDNQKNYKVIFKHKKKLLVFKQLFKLIAKAFFKNVRGPLFSYVIPIFFTTIFYFLFSGQITTNKGSAILGYIALPCLTILTSLSASIVE;locus_tag=LOCUS_10470;note=WP_011183541.1 ABC transporter permease (Mesoplasma florum) [pid:43.7%25%2C q_cov:76.3%25%2C s_cov:23.2%25%2C Eval:6.2e-11%2C partial hit],internal stop codon at [655890:655892](+)%2C[655962:655964](+)%2C[655986:655988](+)%2C[656067:656069](+),MGA_1047
sequence1	MetaGeneAnnotator	CDS	656106	656330	.	+	0	ID=MGA_1048;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIGIATLIGGNLSDDGANQGISMIVYFITIFFSGVMLDPRLYESVGSARYFTYFIALKYPVAILLFSQYKDGN;locus_tag=LOCUS_10480;note=MGA_1048
sequence1	MetaGeneAnnotator	CDS	656559	656711	.	+	0	ID=MGA_1049;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKKIYSIDENLKLNTDKIYFTKSIRSCAHEYISMDIRDNHYKCTNEGC;locus_tag=LOCUS_10490;note=MGA_1049
sequence1	MetaGeneAnnotator	CDS	656712	656900	.	+	0	ID=MGA_1050;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFWIRTKIDFYVFQHRIVKDFDFDLSEKNYIKRLKLEIKNAKNAKKLKEKELRNKTLIKLL;locus_tag=LOCUS_10500;note=MGA_1050
sequence1	MetaGeneAnnotator	CDS	657859	658668	.	+	0	ID=MGA_1051;product=deoxyribonuclease IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183230.1;translation=MNDKFYLGSHVGMNAKGKYLIGSAQEAIDNGANTLMFFTGAPQNTIRTETNKLNIKEFKELLKNNNIDITKTLCHGPYTINLANTVKKETYELGVRLLKEELLRLEAIGVHLVVLHPGAAVGAERKVALDSVAKGLNEVYDQLPNCPVKIALETMSGKGTEVCITFEEIKYVLNQVKRKEMVGVCFDTCHMHDAGYDIKNNFDNVVDDFDKLIGLDKLLAIHLNDSKNIINGHKDRHENIGYGYIGFKSLSNIVHNPLFKEIPIILETP;locus_tag=LOCUS_10510;EC_number=3.1.21.2;note=WP_011183230.1 deoxyribonuclease IV (Mesoplasma florum) [pid:52.6%25%2C q_cov:97.8%25%2C s_cov:89.8%25%2C Eval:2.3e-72],MGA_1051
sequence1	MetaGeneAnnotator	CDS	659298	659498	.	-	0	ID=MGA_1052;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPLSLTSLTEVNEMVFTIFVSHNASTEATSLKSLLTGSALQEIILGAALVNIKPNDDNKVKIFFI;locus_tag=LOCUS_10520;note=MGA_1052
sequence1	MetaGeneAnnotator	CDS	659611	660099	.	+	0	ID=MGA_1053;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNQLGIGDPELEDNIESSKNITTIVNNLYDKYGENGNFELKMSFILMIDNDATGKETGKVSKYKGLKFFLTSKASFEYDRETKKFTSNSKYKKYKNSQEAITEKSDLKKINKLEENQMEPNKTAFTELTDGILYLDDDQYYNDNVDNIQNSLIKNESYVTG;locus_tag=LOCUS_10530;note=MGA_1053
sequence1	MetaGeneAnnotator	CDS	660301	660426	.	+	0	ID=MGA_1054;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKNPKDPSSDEANQLNNLASKGEAMFEILDQKIRVKTSVV;locus_tag=LOCUS_10540;note=MGA_1054
sequence1	MetaGeneAnnotator	CDS	660551	660775	.	+	0	ID=MGA_1055;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSVSYLKKQRRNTVQILYKVSLLNEQIDKIKQELLDNTQFEEINDDLSAYITNVLNQFDDLKQELKKYIPSN;locus_tag=LOCUS_10550;note=MGA_1055
sequence1	MetaGeneAnnotator	CDS	660972	661352	.	+	0	ID=MGA_1056;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINKFDELKEILNTYKNNFTQNFKKQLAIKFEENVVPNNISNLKIDFFNYLSFNFVNSFLSQFNKDNFSLLEEYFNSSQKKLENRLIKKIIIVTAKKIERDNKIIIDFSNALMRFNFNLKIKNID;locus_tag=LOCUS_10560;note=MGA_1056
sequence1	MetaGeneAnnotator	CDS	661533	661904	.	+	0	ID=MGA_1057;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSLEKFMFIPISLENSHAFEIETKVLKDLDQSTMIIFINNVEFDDLYKTSFLNSQKLFENIIRLDVPVFTIGTYKDLNLINIVSKKNFDNEYVFLSDFNNIYGTKEEKVFEEKENTNTLNMY;locus_tag=LOCUS_10570;note=MGA_1057
sequence1	MetaGeneAnnotator	CDS	661989	662177	.	+	0	ID=MGA_1058;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTEAFEETNNLIEEKEKNNTLKSFFSLFFNDYISEGEEIILENLEKYKSMLLNFNNMFIEF;locus_tag=LOCUS_10580;note=MGA_1058
sequence1	MetaGeneAnnotator	CDS	662259	662417	.	+	0	ID=MGA_1059;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLYNHISDNYSQYKKYFEASSISLEKLCKLYHLYIKVIIILNNIDLVYKFK;locus_tag=LOCUS_10590;note=MGA_1059
sequence1	MetaGeneAnnotator	CDS	662431	662613	.	+	0	ID=MGA_1060;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEQIINVSEFNKKIKMYLEKPIDFKNISVKGEIANLTYNKVGHIYFSLKDSTARIECAI;locus_tag=LOCUS_10600;note=WP_005902942.1 exodeoxyribonuclease VII large subunit (Fusobacterium nucleatum) [pid:50.0%25%2C q_cov:93.3%25%2C s_cov:13.9%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [662611:662613](+)%2C[662803:662805](+),MGA_1060
sequence1	MetaGeneAnnotator	CDS	663085	663705	.	+	0	ID=MGA_1061;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVLEAIHKSNIPIISAVGHEPDNTISDLVADARASTPTAAGELATPDKNNLIKILDSIQKDFGKIVLNKLNLLKKEINLSEVLIKKDLKTKFENIKIVLMQESKKINTTIINKLFNLKDYLFNLENKNKKSLYEKFKALKNDFDFEEKKINILNPKKPLEKGFVILKQNKNIIYSVNDIDKNNNVTAILKNGNLDLKILKIDKEK;locus_tag=LOCUS_10610;note=WP_011183228.1 exodeoxyribonuclease VII large subunit (Mesoplasma florum) [pid:36.7%25%2C q_cov:93.7%25%2C s_cov:42.6%25%2C Eval:5.8e-21%2C partial hit],internal stop codon at [662803:662805](+)%2C[663070:663072](+),MGA_1061
sequence1	MetaGeneAnnotator	CDS	663709	663915	.	+	0	ID=MGA_1062;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQKNFIENLDKIKEISKKLEDPSTSMEEALELYKIGTEKIKKAKEQLETIEGEVKKVLDDNSLEEFK;locus_tag=LOCUS_10620;note=MGA_1062
sequence1	MetaGeneAnnotator	CDS	663925	664254	.	+	0	ID=MGA_1063;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKDVKCFKDIYKIFDKKELEELSADVRKTLNSIANSQGGHIGSSLGVVELTIALICFFNVEDSIFLFDTGHQSHVYKLFTNRKDTFNTLLKFNGLSNFQEMKESEYD;locus_tag=LOCUS_10630;note=WP_010880536.1 1-deoxy-D-xylulose-5-phosphate synthase (Aquifex aeolicus) [pid:43.9%25%2C q_cov:98.2%25%2C s_cov:16.9%25%2C Eval:3.5e-19%2C partial hit],internal stop codon at [664252:664254](+),MGA_1063
sequence1	MetaGeneAnnotator	CDS	664474	664647	.	+	0	ID=MGA_1064;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQYCNSLGFDYIECSDGHDFTKLFASIKNANDSEKHVILHIKTAKAKGYDGVKLLD;locus_tag=LOCUS_10640;note=MGA_1064
sequence1	MetaGeneAnnotator	CDS	664828	665205	.	+	0	ID=MGA_1065;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCALIASGFAKTGKKVYISIYSTFFQRIFDQLVHDIVRNNLSIVFLIDRAGLSYSGGVSHHGIYDVGLAKFFNNNIIFHPFTKKDIEDIKFIIKNNENTKKQIFIRYDKAKLTNINSKLTNYDYI;locus_tag=LOCUS_10650;note=WP_012583407.1 1-deoxy-D-xylulose-5-phosphate synthase (Dictyoglomus turgidum) [pid:36.3%25%2C q_cov:90.4%25%2C s_cov:17.8%25%2C Eval:3.1e-15%2C partial hit],MGA_1065
sequence1	MetaGeneAnnotator	CDS	665350	665571	.	+	0	ID=MGA_1066;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKHKNNKLYVYEHIIGNNNLYLDVYKYYKNEKKDIVSFNIKDPLIGHGSKNDVLKEQNLNFEQILKIINDD;locus_tag=LOCUS_10660;note=MGA_1066
sequence1	MetaGeneAnnotator	CDS	665677	666930	.	+	0	ID=MGA_1067;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKVGERNYFLEKLLKDRKINDLLKNQTSKEKIDFLSNLDEIRRVLHIKEKNDKKIYDQYNKLIVIPTGSEETLIRELNQFNKAMYKSYPEHYTLDIPTPEGKEPYVIKKPKRYNIEKELPKNILNLSNPYKQDSSLDLEETLEQKELFENKNKGINILKLNIEIALKNLDLIVNTHQTLKEYKQLIKKIIIENKLINKKEFIEMIEKNLTYKNIIKKFKEYIYLSEKYIKNNNEFINLVEKTIEKNKYFFISKDEKNNQEINQFNNMVLNSVTKNSLFSDNIEEILTKRDLYYNCENKNDNDDVEIDLDDVELSKDFTNEDIIPDLNNLELDNEVNNLNKEENLDLIYEKSDNQKNETYFFKLAENIDKSEIEREVEKANTNVKEAYDLLEILEEILIKEDNKVENNLFKNKDEAK;locus_tag=LOCUS_10670;note=MGA_1067
sequence1	MetaGeneAnnotator	CDS	667141	667362	.	+	0	ID=MGA_1068;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLTCSKYMNKLDSLKKGFEKTYGSEMFYRIKNLIIQEGVLYKNLDTNNDVKKLKNKKFKLQKSILKRQKVKD;locus_tag=LOCUS_10680;note=MGA_1068
sequence1	MetaGeneAnnotator	CDS	667391	667615	.	+	0	ID=MGA_1069;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKERLDQILINKKLFENRNKARSFIVDGKIIVNNEKIIKPGTMFDPEKIILQIINNEKTYVSRAGKKLEKAIIN;locus_tag=LOCUS_10690;note=MGA_1069
sequence1	MetaGeneAnnotator	CDS	667922	668182	.	+	0	ID=MGA_1070;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKPQFESDKDDIKNGKINSKGAHKKSVLRVIGYCHKNNFMIKGINFSPVLGNKKKNIEYLCYIKKSNEKNFIFNEEYVNNIIEES;locus_tag=LOCUS_10700;note=WP_011183226.1 TlyA family rRNA (cytidine-2'-O)-methyltransferase (Mesoplasma florum) [pid:39.5%25%2C q_cov:100.0%25%2C s_cov:31.8%25%2C Eval:4.5e-14%2C partial hit],internal stop codon at [667742:667744](+),MGA_1070
sequence1	MetaGeneAnnotator	CDS	668190	668555	.	+	0	ID=MGA_1071;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIKRIKTKEKVIFLLDMDAFFASCHVARDPSLKDKNLVVASPNRRAIITTASYNARKFGIKAGMPIFKAEELCKNIYRVDSDFALYIKYSQMVFDVIYKNFSQKIEVASIDECYIDVTHV;locus_tag=LOCUS_10710;note=WP_011183225.1 DNA polymerase IV (Mesoplasma florum) [pid:51.3%25%2C q_cov:92.6%25%2C s_cov:30.5%25%2C Eval:1.5e-25%2C partial hit],internal stop codon at [668553:668555](+)%2C[668736:668738](+),MGA_1071
sequence1	MetaGeneAnnotator	CDS	668601	668738	.	+	0	ID=MGA_1072;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYEKTGLTCSIGISSNKFLAKSCVDFNKPNGVSILLPKDIDKVL;locus_tag=LOCUS_10720;note=MGA_1072
sequence1	MetaGeneAnnotator	CDS	668757	668885	.	+	0	ID=MGA_1073;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFMVGKATEEVFLKNNIFTIKDLAQSDVNKIYELLGKRGLTL;locus_tag=LOCUS_10730;note=MGA_1073
sequence1	MetaGeneAnnotator	CDS	669003	669503	.	+	0	ID=MGA_1074;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYELSLKICDRANKRFLKGKTISIILKYENEKNYNFNATEHKKHKHHQAGLEQYTAEVEKVYSVAKNCFYNTWTGEPILLIGVRLSNLIDDINDKKQLSLGDVNLYERTNLNDIQKIIYDLELKFGTKKIFTGDKLIKYNKKNRGQSKYLENDDVHISNKQVVAK;locus_tag=LOCUS_10740;note=MGA_1074
sequence1	MetaGeneAnnotator	CDS	669548	669718	.	+	0	ID=MGA_1075;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEIKIDDIILELTSLHRQLNHLLFNNELKELKINVADNIRSKNKLTKGHFEPRSK;locus_tag=LOCUS_10750;note=MGA_1075
sequence1	MetaGeneAnnotator	CDS	669893	670192	.	+	0	ID=MGA_1076;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLSIPKTIRGEGINDHGKGFNRTSISKDLMKILEKELDFNREVMQFKHQYALDYEPKSYNKRFSYYCACDYYKNVKFTISKKLNILCKDCNVTFKIEQ;locus_tag=LOCUS_10760;note=MGA_1076
sequence1	MetaGeneAnnotator	CDS	670327	671064	.	+	0	ID=MGA_1077;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAQFSPKFCSIHLKIHVCENQDITKKVSEIEGDLGAKVRRLHGTQTEEELQLEAKKQEKFKNAPGSLGDILAKAKAKVAAEKAKFEKESNKKEDEGNVVTEAEIGDRMAALRAKMTGDTLSTSTLSIDKDLSIHNPPNSNSKGNNKTKNGNLESNKKKTNKTDDSASKQAKNTKKFDDFFEVNNDKSDEIEVIDENDLEDKDSIKDKLFTYEETHELIQSAVEKALEQVGFLDKNKTKKNNSSKK;locus_tag=LOCUS_10770;note=MGA_1077
sequence1	MetaGeneAnnotator	CDS	671073	671396	.	-	0	ID=MGA_1078;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKKINNILYSTKAINQTYIVEAAVIKGLDINFDLTIFVNKDLQKRIKMVKKRDKANKLEIENISKFQENKAKKLKCDYYIDNNDSLQNLYKRADEIIKNLSTTKD;locus_tag=LOCUS_10780;note=MGA_1078
sequence1	MetaGeneAnnotator	CDS	671400	671657	.	-	0	ID=MGA_1079;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIGIGGYIGSGKSTLVNYLKDKYNFFVISADLIAKEALKTKVVLNFLIQNIPECVKNNVINTKMLRKIIFNDDQLNDKFVSLV;locus_tag=LOCUS_10790;note=MGA_1079
sequence1	MetaGeneAnnotator	CDS	671721	671930	.	-	0	ID=MGA_1080;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKVGLCVRKRLSNSFKHIDDKLDIVNKLEYAKNGEDYDEYRNVCLEVIEKMSPIKSKFNSYAKKIIYN;locus_tag=LOCUS_10800;note=MGA_1080
sequence1	MetaGeneAnnotator	CDS	671997	672140	.	-	0	ID=MGA_1081;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILTGIEQKFIDLLVNIIEKSKFNVFGRYRDDLIELIDEYRYNVKE;locus_tag=LOCUS_10810;note=MGA_1081
sequence1	MetaGeneAnnotator	CDS	672171	672425	.	-	0	ID=MGA_1082;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIAKEYDYVKPVKIKANVKKQKPDKGNGSIVDIGGVKYDTKVFVNFYTSLAKMLDKSKNSGLDLYQEAKMKISRLTGSPSEVD;locus_tag=LOCUS_10820;note=MGA_1082
sequence1	MetaGeneAnnotator	CDS	672816	673028	.	-	0	ID=MGA_1083;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFNFETKNFAIVPDQFTIFYLPIFIGGSSLVLIFFRMIIHTVGYNNQTKKGVARIVKPIRSFQITMIIS;locus_tag=LOCUS_10830;note=MGA_1083
sequence1	MetaGeneAnnotator	CDS	673350	674093	.	-	0	ID=MGA_1084;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYFYFLVCLLNGEYKYSFVEYEKNYRVFDAINQDAPMEVRKSILSIISYTLFDMYDYIFTPRIFESLYEYVEKSDVNFVNQEYKKQIIVPPNSFKDFNYKFLDVYFHNIVNNTFIKIFKVSPLDRTSFILTNKTIAGFIDEKTKINILSVFVVDPRFAIGLVNLGPGRGEYRPLFKYLIGDNKIDNNSIPSCVKPELEIEENGIYLSEEQKFIFKAFELTDKQVKLVNDCLRYRDLKIDFDLFVNY;locus_tag=LOCUS_10840;note=MGA_1084
sequence1	MetaGeneAnnotator	CDS	674428	674595	.	-	0	ID=MGA_1085;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENSTRNFETNDTIYIYTGKGNIFFVIAKREKLIITTTPISPERELKLINRDIY;locus_tag=LOCUS_10850;note=MGA_1085
sequence1	MetaGeneAnnotator	CDS	674795	675022	.	-	0	ID=MGA_1086;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MICIVIIVVIVFLNPKMDREKVIYANQEYQKLMSELMQGRKYEMDQSIYEPEIYVKEFLDKRDNKKNKEQKDDKN;locus_tag=LOCUS_10860;note=WP_011167095.1 hypothetical protein (Mycoplasma mycoides) [pid:50.9%25%2C q_cov:69.3%25%2C s_cov:10.8%25%2C Eval:2.0e-09%2C partial hit],MGA_1086
sequence1	MetaGeneAnnotator	CDS	675293	675553	.	-	0	ID=MGA_1087;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYLILVIFLTTGSIDLAKSDQSIANSSFSNLYTGNVEVLSLQRAILFGSNFTSNMNYIFLALNFILLIYIFYVMIKPPLTYKEQY;locus_tag=LOCUS_10870;note=MGA_1087
sequence1	MetaGeneAnnotator	CDS	675593	676042	.	-	0	ID=MGA_1088;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNITKEKIKFEKPENKVIIDIYADYSDLLTFCLNKYEVSKEKLTSEAIQISSKEITLSSKVTDEMKEKYGETDYTKIETNGKEVEVVGVGTEKPNLDVNNKNNNNNNFHSNFANGFNHNMFNQMGGTLPPPPLQDQRFFPFKTKLKHAY;locus_tag=LOCUS_10880;note=WP_011183265.1 hypothetical protein (Mesoplasma florum) [pid:25.7%25%2C q_cov:98.7%25%2C s_cov:31.0%25%2C Eval:1.6e-08%2C partial hit],internal stop codon at [675593:675595](-)%2C[676067:676069](-),MGA_1088
sequence1	MetaGeneAnnotator	CDS	676067	676246	.	-	0	ID=MGA_1089;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEAQSVYQSVVTSLFNLIRDEKLRTKIFIDFELRAKIIANINNLLSLEIDSSATFKDEK;locus_tag=LOCUS_10890;note=MGA_1089
sequence1	MetaGeneAnnotator	CDS	676248	676397	.	-	0	ID=MGA_1090;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSENRLDINKINDTIKTLYKLEKNLKNGEIDNKIIPELEFIKLFKREVI;locus_tag=LOCUS_10900;note=MGA_1090
sequence1	MetaGeneAnnotator	CDS	676560	677219	.	-	0	ID=MGA_1091;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIVFFIYSKDQYLISKQIDKLVKKINVDNDYEIFNYSLIDDSIIEIISQINTYSLFSRKKIIIINDSFFVNENKPQLHKDYDNKYIEKIINNKNPNVDIIFTVKSEKISKKLKIAKLIENNAKTLKVDIPNFDQKYDLVVKKLEKEGLNYNKEAIIYFLDRVIDDVSILVNEVNKLISLNKDITKEVIEDNVFKYYQYNIFELAESFIKNDIKAFLKG;locus_tag=LOCUS_10910;note=WP_011183266.1 DNA polymerase III subunit delta (Mesoplasma florum) [pid:34.3%25%2C q_cov:98.2%25%2C s_cov:67.4%25%2C Eval:9.7e-33%2C partial hit],internal stop codon at [676560:676562](-),MGA_1091
sequence1	MetaGeneAnnotator	CDS	677335	677532	.	+	0	ID=MGA_1092;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008362910.1;translation=MANIKSQKKRILTNEKSRLVNKAFRSQVKTAIKKAIVAKAENSADKDQLINTAVSLIDKSVTKSV;locus_tag=LOCUS_10920;gene=rpsT;note=WP_008362910.1 30S ribosomal protein S20 (Mycoplasma mycoides group) [pid:60.0%25%2C q_cov:100.0%25%2C s_cov:80.2%25%2C Eval:2.4e-15],MGA_1092
sequence1	MetaGeneAnnotator	CDS	677592	678347	.	-	0	ID=MGA_1093;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTFSLIGMYFTNTIINIFSQTIEMLNVGNGNSFMINYNSNIFVIDAGAGVGQNKSTLPDYLKYKGLNKIQSVFISHNHSDHYNSLEQLKKETTIKYIYRNLKKDILVEFDDIKFYIFNEYGNSDENDNSQIIVVKLNNQTFLFTGDASKKREARMLNNSLFLELVKNGVDLYQVGHHGSKTATSDKFVKAIKPKICFISGMKKDKLQFPSKETINTLEDNSCQNYITNGEKSYKYKIKSKKVVEIKKEFI;locus_tag=LOCUS_10930;note=WP_164919786.1 MBL fold metallo-hydrolase (Mesoplasma florum) [pid:42.4%25%2C q_cov:90.4%25%2C s_cov:37.6%25%2C Eval:4.2e-41%2C partial hit],MGA_1093
sequence1	MetaGeneAnnotator	CDS	678640	678918	.	+	0	ID=MGA_1094;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKGINTRLITIKFIIKLVLSFLSLYFFNNKMAIVQYTNPILNKYIGFINNTMNHVIDSFVILFKLKLKYFFNLFNKKPIKTFNKVGGIPIK;locus_tag=LOCUS_10940;note=MGA_1094
sequence1	MetaGeneAnnotator	CDS	678801	679112	.	-	0	ID=MGA_1095;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLFQNKSNDEVYKNLINLSLSYLSNISGVYLYLFVVFIKKLISKKYKKNRMLSFISLIFMFFYCYLIGMPPTLLKVLIGFLLNKLKKYFNFNLNKITKLSIT;locus_tag=LOCUS_10950;note=MGA_1095
sequence1	MetaGeneAnnotator	CDS	680738	680953	.	-	0	ID=MGA_1096;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKIKIIVNNKGVIVSQTKVTRIMKIFKLYSIIRIKKMHRKQNEVKNITHDSIILIGFDLYIQKMSYELQM;locus_tag=LOCUS_10960;note=MGA_1096
sequence1	CRT:1.2	repeat_region	681705	684182	.	+	.	ID=CRT_1;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=gttctactactacataattttacagggtaccataac;note=CRT_1
sequence1	MetaGeneAnnotator	CDS	684402	685139	.	-	0	ID=MGA_1097;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILNKNSNKNINFNFTNNNVFIINNLDVINDLELALSLSFLNKFSSPDYEIKMQENDIMIDKLTTKLIKVPNFIDFTKSICGGSKTILKELLNLCITYDAFSSQSLSTLFGFINTIDLTELNIIENLITNLESKLGLKITIEIQDQIINYICDQTILKLQNIDENETNTYLNQNKLRIIYIEILKNLLIIDDKNLHFLFVNPFFGLNYIEIKEFFDDIKELKNFTIVSDKFIYENDLNLENLKI;locus_tag=LOCUS_10970;note=MGA_1097
sequence1	MetaGeneAnnotator	CDS	685139	685462	.	-	0	ID=MGA_1098;product=CRISPR-associated endonuclease Cas2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011475522.1;translation=MSYKFMRLMVFYDLPFDSKDNVRSYNKFRNNLFKEGFHMMQYSIYSKICYNKESVDFVIKRINKFLPKLGNVRFLIITEKQYQNIKIVVGKKNNNELINDDRRLIEI;locus_tag=LOCUS_10980;gene=cas2;note=WP_011475522.1 CRISPR-associated endonuclease Cas2 (Ligilactobacillus salivarius) [pid:46.0%25%2C q_cov:93.5%25%2C s_cov:99.0%25%2C Eval:8.4e-21],MGA_1098
sequence1	MetaGeneAnnotator	CDS	685452	685964	.	-	0	ID=MGA_1099;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYKYIEEMKFSDSTNKEGHAAKVYFKELFGNTFTREKENHINAALNFGYTIIRNAFIRSITSKGLHPSIALFHHNMYNAFALADDLMEPFRPIVDNYVYKYVTQIDYFSRSTKLELINILNSKVIYGNNKIYLTNAIDKYVDMVLNFFEDKSTNDVIYPISSSVEYYEL;locus_tag=LOCUS_10990;note=WP_002681291.1 type II CRISPR-associated endonuclease Cas1 (Treponema denticola) [pid:42.0%25%2C q_cov:92.4%25%2C s_cov:53.4%25%2C Eval:1.4e-31%2C partial hit],internal stop codon at [686043:686045](-)%2C[686070:686072](-),MGA_1099
sequence1	MetaGeneAnnotator	CDS	686483	686842	.	-	0	ID=MGA_1100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKVLPITHKVAYFVSNKNNSNINFKTKEYEQEKLLYKIDETYKKKFTLFKNNELIFEYDGEILNYIVVGFDKNAERFEFKYLNKSVENEKRIFKSIKKMKKIKLVTSNSTRTKIKYLD;locus_tag=LOCUS_11000;note=MGA_1100
sequence1	MetaGeneAnnotator	CDS	686870	687784	.	-	0	ID=MGA_1101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYINYVGSKKFGKYGYNKYQNLIFEQDINDTEVKKSFINRNLNDTRYATLEVKNYLTFFKKELKKPYSIKTINGGFTNYIRSNFLYLPKKDRDDFKHHAVDATICALAPIIDIYDGRTMNKIIGELDEKEIIKREEINLIVNDINSFDYKFTKKIEKSSNKMMFNETIYSCKVIDNNLYKIEKIDLLSKDSEKIKKINKLFTIDYKDLLVYESDSKTFNHLKKIYDTYINDVDKDNKPVKNPFHHFVYELNEKIIKQSNEKNPPNIRYLKYNNGVVNQYTKITHKFKNVKKGKEIVMTGSNTLG;locus_tag=LOCUS_11010;note=MGA_1101
sequence1	MetaGeneAnnotator	CDS	687803	688372	.	-	0	ID=MGA_1102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIFSEKNIKPDYNIKIDRKFTKMPVLRQKISEMYISPVVKRSLIESLKIIKEIENMSDIEIKDIVIELARESNSEDRKKYINEIQKKNEKERTEIEKKYNQNTKRIDFKTRLKLTLLNEQDGKCVYSGKTIDITRLFNDPNYCEIDHIIPFSVSLDDSRTNKVLVLQNENQQKGKKTPYEYFREIHRD;locus_tag=LOCUS_11020;note=WP_001040087.1 type II CRISPR RNA-guided endonuclease Cas9 (Streptococcus) [pid:30.9%25%2C q_cov:81.0%25%2C s_cov:11.3%25%2C Eval:4.1e-12%2C partial hit],MGA_1102
sequence1	MetaGeneAnnotator	CDS	688391	688891	.	-	0	ID=MGA_1103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSYLFNILNDLCNLKINDVENGLTYDQKYEVIESVINHDGTKSKNITLKIIAKLLKVKESDITGYRIDKKEKPNFTKFESINKIRSILISSNLKYDFISLKNIDLLDKIVEILTVFQSSDSRKEQLLKINSNLLDDKQIEAISLISLTGTHSLSAKTMNIAIEEM;locus_tag=LOCUS_11030;note=MGA_1103
sequence1	MetaGeneAnnotator	CDS	689138	689536	.	-	0	ID=MGA_1104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRTRRRNLRRKVLRKRDLLNIFVKFDFLNSYEDFYKLDFNIDYLEVRKKSLENKISLQELMLILYNYTKKRGSFNYKDDLMELKKEKKEDVSLDEINAKQDKLPVDIQANNFKTFGKYRGLKAEDALIAHD;locus_tag=LOCUS_11040;note=MGA_1104
sequence1	MetaGeneAnnotator	CDS	690368	690532	.	-	0	ID=MGA_1105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIAVPKNTNILPVCDFSGSIEVLSLYNSMGLEMFLEHQNQGVFKNVLFEFEN;locus_tag=LOCUS_11050;note=MGA_1105
sequence1	MetaGeneAnnotator	CDS	690588	690914	.	-	0	ID=MGA_1106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSINVSNHKQITLAKKFVNLVKLNFDINFYYKVYHKILTSLKAKLNLVENNLRIKDYQSINYSNLSGKSLKKYANAFSRNDFDKYNDFLNKSISYSNNLNANNFFCI;locus_tag=LOCUS_11060;note=MGA_1106
sequence1	MetaGeneAnnotator	CDS	690927	691106	.	-	0	ID=MGA_1107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINFLSNKVDRQVLFDVILKLGKYDYAINLAINPTDLRLIELIYSTLISEVNQSDKSIS;locus_tag=LOCUS_11070;note=MGA_1107
sequence1	MetaGeneAnnotator	CDS	691528	691659	.	+	0	ID=MGA_1108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNIDEYLIEIEKDIEKVYEISNNLISFKKTTKEIKKSIIQD;locus_tag=LOCUS_11080;note=MGA_1108
sequence1	MetaGeneAnnotator	CDS	691855	692466	.	+	0	ID=MGA_1109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILGISLVPLMMLLALCISYLCVNKINLTNQNSIIAFSLSMLILVVCLIFLVFIIIFSTKKSVLDYKNKSYICASIGFTASFFDTLGIGSFATNTGLLKATKSLKDDKKLPGTLNIGMAIPNLFSGVLFMTSVSVDLTTLITFVLSAIIGSLIGSSIVNKINKKLIAIIMGVVLAITSILMLLTVKGIEVFPSGSAMGVSDV;locus_tag=LOCUS_11090;note=WP_009891694.1 TSUP family transporter (Clostridioides difficile) [pid:37.3%25%2C q_cov:74.4%25%2C s_cov:53.6%25%2C Eval:2.3e-22%2C partial hit],internal stop codon at [692464:692466](+)%2C[692467:692469](+),MGA_1109
sequence1	MetaGeneAnnotator	CDS	692512	692796	.	+	0	ID=MGA_1110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMSFGVGLYAPAMAVISFLGINFLVVFPIMTCSAGLTMHINGYKFYFKNNYMPKTSFFMTIGGIIGVLTSYTIVFLGLITLLKIDQTLITDVFK;locus_tag=LOCUS_11100;note=WP_011986814.1 sulfite exporter TauE/SafE family protein (Clostridium botulinum) [pid:41.9%25%2C q_cov:78.7%25%2C s_cov:24.8%25%2C Eval:2.0e-09%2C partial hit],internal stop codon at [692464:692466](+)%2C[692467:692469](+)%2C[692794:692796](+),MGA_1110
sequence1	MetaGeneAnnotator	CDS	693006	693155	.	-	0	ID=MGA_1111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIILGKVKYFSQRTRNLLLEDFNEDIFELKKTYKENKKIKTNKVKQTK;locus_tag=LOCUS_11110;note=MGA_1111
sequence1	MetaGeneAnnotator	CDS	693219	693560	.	-	0	ID=MGA_1112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGATIIQGLCTLSNVSQGVATIAFVVLNRKVKQLKELGISNGVSSIIGGITEPSLFTVNLKHLYPLIACSIGVFCGSLVLVASNTYALQGASSIFGYLMFQHKAPDATGVST;locus_tag=LOCUS_11120;note=WP_011183325.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:68.1%25%2C q_cov:100.0%25%2C s_cov:20.8%25%2C Eval:2.5e-41%2C partial hit],internal stop codon at [693198:693200](-)%2C[693219:693221](-)%2C[693681:693683](-)%2C[693822:693824](-),MGA_1112
sequence1	MetaGeneAnnotator	CDS	693927	694049	.	-	0	ID=MGA_1113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRCTPIYGILIAVVLTAPGLINMGDVKPEEGQTILGQYPG;locus_tag=LOCUS_11130;note=WP_011183325.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:72.5%25%2C q_cov:100.0%25%2C s_cov:7.4%25%2C Eval:6.1e-11%2C partial hit],internal stop codon at [693681:693683](-)%2C[693822:693824](-)%2C[693927:693929](-)%2C[694179:694181](-)%2C[694200:694202](-),MGA_1113
sequence1	MetaGeneAnnotator	CDS	694200	694457	.	-	0	ID=MGA_1114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVKNFYETFCKINNYDIDGKTIIDNNIKVSSDDINFVTKQNDEISKMKGKFRVKGITNKCLSFISKVFSPIVYPLIGYGLLLTI;locus_tag=LOCUS_11140;note=WP_011183325.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:59.5%25%2C q_cov:98.8%25%2C s_cov:14.5%25%2C Eval:1.3e-21%2C partial hit],internal stop codon at [693927:693929](-)%2C[694179:694181](-)%2C[694200:694202](-)%2C[694551:694553](-),MGA_1114
sequence1	MetaGeneAnnotator	CDS	694816	694959	.	-	0	ID=MGA_1115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVENEERYRNQQGMIEDDYRIEFLTDHLLQIKKAINDGSNCFGYHL;locus_tag=LOCUS_11150;note=WP_011183324.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:61.7%25%2C q_cov:100.0%25%2C s_cov:10.4%25%2C Eval:1.3e-13%2C partial hit],internal stop codon at [694708:694710](-)%2C[694798:694800](-)%2C[694816:694818](-)%2C[694978:694980](-)%2C[695047:695049](-)%2C[695110:695112](-),MGA_1115
sequence1	MetaGeneAnnotator	CDS	695110	695286	.	-	0	ID=MGA_1116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNGQIDPILIETLKEYDMLPAHSQEEIDIIKQTKIDFLGINYYFPCRVKCKENNLNR;locus_tag=LOCUS_11160;note=WP_011183324.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:69.0%25%2C q_cov:100.0%25%2C s_cov:12.8%25%2C Eval:1.0e-18%2C partial hit],internal stop codon at [694816:694818](-)%2C[694978:694980](-)%2C[695047:695049](-)%2C[695110:695112](-)%2C[695377:695379](-),MGA_1116
sequence1	MetaGeneAnnotator	CDS	695377	695631	.	-	0	ID=MGA_1117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINSFVNYCNFVFQEFNDEVDYYVTFNEPLVPVYEGYLNDKHYPALNDPKQAVNQAFGIFLVHSKVLLEYKKHNLKAKIGVVFN;locus_tag=LOCUS_11170;note=WP_011183324.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:53.6%25%2C q_cov:100.0%25%2C s_cov:18.6%25%2C Eval:6.3e-24%2C partial hit],internal stop codon at [695110:695112](-)%2C[695377:695379](-)%2C[695644:695646](-)%2C[695665:695667](-)%2C[695797:695799](-),MGA_1117
sequence1	MetaGeneAnnotator	CDS	695797	696036	.	-	0	ID=MGA_1118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIFKKDFQIGASMSSMQTEGKGITKIGDLTFDKYFQEHPELFYDRVGPEITCDITRHYKNDIKMFKEIGFDSLRTGFS;locus_tag=LOCUS_11180;note=WP_011183324.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:73.4%25%2C q_cov:100.0%25%2C s_cov:17.5%25%2C Eval:1.4e-28%2C partial hit],internal stop codon at [695644:695646](-)%2C[695665:695667](-)%2C[695797:695799](-),MGA_1118
sequence1	MetaGeneAnnotator	CDS	696157	696507	.	+	0	ID=MGA_1119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKSIKEKLTLIKNNLENQTHILIANYLLECIENKKTPKINECSKKAFCSESVITAFSKKYGYEGFKELATRIKVEIEYYNYNTKHNNIENEKNKYYKKLLLNSFEMIDLYLYYLL;locus_tag=LOCUS_11190;note=WP_011183323.1 MurR/RpiR family transcriptional regulator (Mesoplasma florum) [pid:66.2%25%2C q_cov:69.0%25%2C s_cov:32.1%25%2C Eval:9.6e-25%2C partial hit],MGA_1119
sequence1	MetaGeneAnnotator	CDS	697445	697726	.	-	0	ID=MGA_1120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSCRRISSDISQKIIKLYIDEFFDYNYKHFQEKLLENYNIKVSYTYLLSLLKENNMYFPRIHRVTKKIIKQKIANSLKNQNIKNIEKKEYFNT;locus_tag=LOCUS_11200;note=MGA_1120
sequence1	MetaGeneAnnotator	CDS	698071	698271	.	+	0	ID=MGA_1121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLIHLISIFIITSSSVQATSCYNGNENKTEETKPEENHEVSKFSSFIDFMKAQMKNENGRIDN;locus_tag=LOCUS_11210;note=MGA_1121
sequence1	MetaGeneAnnotator	CDS	698488	698688	.	+	0	ID=MGA_1122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYKLSENPYKVGTIFDDLFMSLHHSYDKNDQPVLNDKSIVYAMLDNKSFQNYKEFKYIEIRVYKS;locus_tag=LOCUS_11220;note=MGA_1122
sequence1	MetaGeneAnnotator	CDS	700097	700264	.	-	0	ID=MGA_1123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNFIKTKNLKYRNKFIKFTSKTEIKSQSVHNIIVLVRLKFILIYTMKKIFISKK;locus_tag=LOCUS_11230;note=MGA_1123
sequence1	MetaGeneAnnotator	CDS	700418	700681	.	-	0	ID=MGA_1124;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTQSLSDIPELYISQCSNFIVHTLNNYKDIMQVQNCCDFRLKLFEFLSTIGVQNAIVFGEAFSTFFSIKIKSTKKLSVVNSDVFDN;locus_tag=LOCUS_11240;note=MGA_1124
sequence1	MetaGeneAnnotator	CDS	700682	701116	.	-	0	ID=MGA_1125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNHLIGRISEIDNLKKLMDVAKEKEDYKTKYDLPRINKFIKNPFFVKNLKVFESEKPELNFLYDFMNNKFKHVMIIKMNYKNPIDKLIFTLITKLIHNSSMTNNRHILIVMDESHRLFKDDNQIFHKYLELLVREGRKFNFSL;locus_tag=LOCUS_11250;note=MGA_1125
sequence1	MetaGeneAnnotator	CDS	701198	701539	.	-	0	ID=MGA_1126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKTICSVDSKYLSIKVGNLINNKNIEISSNFNNLFGKHLGIFGKTGSGKSRTIAHLIRSTLNKELYKNDKKIEFSRYFNPKIIIFDYNGEYTNIVNENYIQRYDLLSNDETL;locus_tag=LOCUS_11260;note=MGA_1126
sequence1	MetaGeneAnnotator	CDS	701666	701896	.	-	0	ID=MGA_1127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFEKMNNFVGYISSITQDKIIIKVPFDNIDQNFCINKDFYINSFLETNITNNFSIILKVNSINDNYDNNFNVIE;locus_tag=LOCUS_11270;note=MGA_1127
sequence1	MetaGeneAnnotator	CDS	702014	702364	.	-	0	ID=MGA_1128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNLENSSHFILHTSNKFNESNLSIYSDLFRYFKNVLSIQKTNIVVCSYSLNDTHVNSLLFDSLYSNSSLEAYIFVYDYYDKNNKRHEDFVKLFNRGHNLNIFFFFLEKNFLISV;locus_tag=LOCUS_11280;note=MGA_1128
sequence1	MetaGeneAnnotator	CDS	702434	702844	.	-	0	ID=MGA_1129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLTFLEIKDNDAYKFIYNKFSEDNDSFIKQFLRAAIGNIDYDYTVNIDIIIFLNSIFNKLKNNKTITIFSLNYDVLLEKMADFFDFNINNGFSGVLTRTFKISQYDTIKYTNSFQNQRIKMDHINLVKLHGLIG;locus_tag=LOCUS_11290;note=MGA_1129
sequence1	MetaGeneAnnotator	CDS	702993	703187	.	-	0	ID=MGA_1130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQYNIKEDIKMEKYEIFSKYFSKDYLENSEMEKTYLDLNERISSSKNLVFLFGNGISINSVLKK;locus_tag=LOCUS_11300;note=MGA_1130
sequence1	MetaGeneAnnotator	CDS	703620	703796	.	+	0	ID=MGA_1131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLFCFNLFFHSSFNEKKVSHIALSIELPGLDNDIIMLFFLAYRLTNTDVYLIPLSE;locus_tag=LOCUS_11310;note=MGA_1131
sequence1	MetaGeneAnnotator	CDS	704568	704723	.	-	0	ID=MGA_1132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANLKGNKSNILDFYTKKELINKYFKQNLSFRDLSKTYNISYSTVRRMCLD;locus_tag=LOCUS_11320;note=MGA_1132
sequence1	MetaGeneAnnotator	CDS	705661	705951	.	+	0	ID=MGA_1133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFYNKNNLYNEIKYTDNDNIYGDTTIIITASDTTEVLKGQKTIKIDKLNLEKLKNTQLDAGYKMNFYEEKIKAIFYNENSNINPILNVDYKIINQ;locus_tag=LOCUS_11330;note=MGA_1133
sequence1	MetaGeneAnnotator	CDS	706676	707014	.	+	0	ID=MGA_1134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTDLDVIYGQTTIIVKANESSKFLTNQKSINIDKMDISKFNNMNTEAGYKIDFYLKKIKEIIELENEKIKIDLNVDYKINYPENDSKSIKIGQKIYVNAVDSSKVLQGSFK;locus_tag=LOCUS_11340;note=MGA_1134
sequence1	MetaGeneAnnotator	CDS	707036	707221	.	+	0	ID=MGA_1135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSDSVFKTKNDSNFNFTLEYEPKNSDEFFKSLEDSLEKIFFKDFVFKNKIDFIYRYEDKD;locus_tag=LOCUS_11350;note=MGA_1135
sequence1	MetaGeneAnnotator	CDS	707972	708154	.	-	0	ID=MGA_1136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFKLYSVIRIKKTNRKPKEVKKITHGLIMLIEIELYTQKMSYELQMLLIYRLIKSLHI;locus_tag=LOCUS_11360;note=MGA_1136
sequence1	MetaGeneAnnotator	CDS	708612	708767	.	-	0	ID=MGA_1137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANLKGNKSNILDFDTKKELINKYFKQNLSFRDLSKTYNISYSTVRRMCLD;locus_tag=LOCUS_11370;note=MGA_1137
sequence1	MetaGeneAnnotator	CDS	709131	710072	.	+	0	ID=MGA_1138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIINKFKNIYGIKEIKFEDANTTFTKSVTLIYSKNGLMKSSFVKGIKDIVSGKFPIERIYGNNPEYDITILNKNYTNGKIVGKDDRVICMENNNYQEKLTEINQIVSLLQSDELTKKYNELLTKNENVIKEIKKLFENKLDSNNSTLKNIGQQVYGLSDNYEIELIKTLVNTDVDVLIEAKSLTTKDLLSLKKDFLDNLNNSKPGIELFKTIKTMKRGIFTNDIFTMEDFNDLKEFFKNKVKNFFSLGEIILKTNSNENITITSVDELKEYYDKEVLTIYGSEDVLKKVKEVKKFFFNNKTNRESSELFLQNP;locus_tag=LOCUS_11380;note=MGA_1138
sequence1	MetaGeneAnnotator	CDS	710124	710243	.	+	0	ID=MGA_1139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCEAFFEDIINIFNNISSNVKDIEEFNENIVNDKQYSTV;locus_tag=LOCUS_11390;note=MGA_1139
sequence1	MetaGeneAnnotator	CDS	710493	710795	.	+	0	ID=MGA_1140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIILDDVIESFDYKNKYAILSYLNELIYKEVPNVKNKIKLIIFSHNFDFIRNCQSQFKAKSNTYMAVKNKDNKNIVLKNFFKGYSTLKNVDDGLKLFKG;locus_tag=LOCUS_11400;note=MGA_1140
sequence1	MetaGeneAnnotator	CDS	711159	711443	.	+	0	ID=MGA_1141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKLTSNNSDEKSEKKKIFANETGEIYSNLKNKYKANNKELPSEFKDVITSSLRVINDHIHINSFMYEPLLDLDEELLSNLYKRVRNLSFEKNK;locus_tag=LOCUS_11410;note=MGA_1141
sequence1	MetaGeneAnnotator	CDS	712286	712507	.	-	0	ID=MGA_1142;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASLYIKKIINKKTKNTYLITTYFKFNKIYDNDYQNKHLLSFNYDDSHHVLRHFALINLFFYLNLKINKKIYK;locus_tag=LOCUS_11420;note=MGA_1142
sequence1	MetaGeneAnnotator	CDS	712751	713062	.	-	0	ID=MGA_1143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIYEKIDEMSKDEKNTIKHIISKKLLNMFLIGEFKSEKDFSKECFVSEATVTRFAKETGCSGYRELIFKLKLEYEKTILKAKEEIKKNKINKELETIKSMNN;locus_tag=LOCUS_11430;note=WP_011183515.1 transcriptional regulator (Mesoplasma florum) [pid:39.8%25%2C q_cov:100.0%25%2C s_cov:35.6%25%2C Eval:3.0e-13%2C partial hit],MGA_1143
sequence1	MetaGeneAnnotator	CDS	713344	713499	.	-	0	ID=MGA_1144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIAENGIGINDKLEKDLTIKDDRRINYLELHLKELKNAINDGVNVFGYIT;locus_tag=LOCUS_11440;note=WP_002294677.1 6-phospho-beta-glucosidase (Enterococcus) [pid:57.1%25%2C q_cov:96.1%25%2C s_cov:10.1%25%2C Eval:2.8e-11%2C partial hit],internal stop codon at [713344:713346](-)%2C[713518:713520](-)%2C[713563:713565](-)%2C[713569:713571](-),MGA_1144
sequence1	MetaGeneAnnotator	CDS	713569	713904	.	-	0	ID=MGA_1145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGCMLAQATCYSLDCKPENVLYNLKEQEKKVYFYYDLMVKGEYPTYMLKYFIDNNIKIAFDESELELIKENKIDFIAFSYYMSGVNSLNKNLTSEANLFKLEKNPYLNESE;locus_tag=LOCUS_11450;note=WP_011182909.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:45.0%25%2C q_cov:100.0%25%2C s_cov:22.9%25%2C Eval:5.2e-26%2C partial hit],internal stop codon at [713344:713346](-)%2C[713518:713520](-)%2C[713563:713565](-)%2C[713569:713571](-)%2C[714076:714078](-)%2C[714157:714159](-),MGA_1145
sequence1	MetaGeneAnnotator	CDS	714319	714621	.	-	0	ID=MGA_1146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPKNFLIGGGVSAPQVEGAYNINGKSLTVADLKYFEDVKNRKDITNLKITSSKKIDYALKNESDLYFPKREGIDFYHRYKEDIKLIADMGMNAFRFSIS;locus_tag=LOCUS_11460;note=WP_011182906.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:50.5%25%2C q_cov:99.0%25%2C s_cov:20.3%25%2C Eval:2.6e-22%2C partial hit],internal stop codon at [714076:714078](-)%2C[714157:714159](-)%2C[714319:714321](-),MGA_1146
sequence1	MetaGeneAnnotator	CDS	714611	715330	.	-	0	ID=MGA_1147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFLGVTRFLPGGAYQIGIFFLGSFISIGASYIFTFLMYKERLEENHSIKKVNKIFVKFIKLNKIIINDKNNQLLNDLNKEFKFTKQDKMLIKSIEKKLSKYSRMDSKINILTDKQNEDIIKLENKKDFAINNLIKVNNLQIKINKIKNDAKLESYLNIKQKFLNSYQEALKTLSNLQVLMISKIKKTLNKYFIKNENLENIMNNYFNSIHSLDIHFNLTECKNNLLTLNRKKVKEHVS;locus_tag=LOCUS_11470;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:23.5%25%2C q_cov:99.2%25%2C s_cov:28.4%25%2C Eval:1.4e-11%2C partial hit],internal stop codon at [715520:715522](-),MGA_1147
sequence1	MetaGeneAnnotator	CDS	715706	715834	.	-	0	ID=MGA_1148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPPSIDICFRTAISFSTVMLLVMFVLGPILGIIEGFVGVSVN;locus_tag=LOCUS_11480;note=MGA_1148
sequence1	MetaGeneAnnotator	CDS	715964	716371	.	-	0	ID=MGA_1149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIIIGGEVYKVKEEIDKLNNEDIKIEIKNTKKSFKDKTLGFISGVVVPTIPIILAAGILMAIKSLLIQFNVIDDIKNYEQMKNAKIFSAFIYIISEVGIGMLGIFLCISTVKYLKGNIIVGALIGVAIASPYLM;locus_tag=LOCUS_11490;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:37.4%25%2C q_cov:100.0%25%2C s_cov:16.2%25%2C Eval:9.2e-23%2C partial hit],internal stop codon at [715706:715708](-)%2C[715835:715837](-)%2C[715847:715849](-)%2C[716384:716386](-),MGA_1149
sequence1	MetaGeneAnnotator	CDS	716384	717040	.	-	0	ID=MGA_1150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVEIYAPISGYLKNIAESSDNTFRSKMLGEGFLIIPDGTELHSVFNESSIEMIFDTKHAFFVKSVYGPKALIHIGIDTVKLKGKPFHFLKNEHDFINLNEVILKIDYDKIKNNNLSNETIVVFENIKKVILQKSGVVKQGELIGYIVIEDDIVKTKFEQNETKFLKAAKEILNLIGGKSNFLTHYNCMTRLRFSINNKNLVEEDKIKKLVIVKGIN;locus_tag=LOCUS_11500;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:42.7%25%2C q_cov:99.1%25%2C s_cov:26.3%25%2C Eval:8.7e-42%2C partial hit],internal stop codon at [716384:716386](-),MGA_1150
sequence1	MetaGeneAnnotator	CDS	717128	717862	.	-	0	ID=MGA_1151;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183331.1;translation=MNLREKLILVLKETHNQLKIVIINNLLECFDKNIFLPIQTISNNCFVSKSAISKFCNKLGFTGYRELVSRLKFERENYLNILDNKMEIKSYDDTKNYFINCINFFDNYKEKLLTIAELIKNDTYIVASNQLINQAKILYFYLNKKGYKVFFTEMLVANYNLDINLKNSTVLFLVGGMEVGGIFNVYHKIKYNNNIIFLTSTALSTRIDKCEVKIIFDLNNSSTSYYLRSILVGYLIAQIINIVN;locus_tag=LOCUS_11510;note=WP_011183331.1 transcriptional regulator (Mesoplasma florum) [pid:25.5%25%2C q_cov:84.0%25%2C s_cov:78.4%25%2C Eval:2.0e-08],MGA_1151
sequence1	MetaGeneAnnotator	CDS	719648	719917	.	-	0	ID=MGA_1152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLFNIKGLKLKINNFSVDLNEFYIAVGYQVSDEEITSPDLNENSVIFKSIIANLQKGIESYHKTFGIENTSDEYKIAAFSGEIYDKNL;locus_tag=LOCUS_11520;note=MGA_1152
sequence1	MetaGeneAnnotator	CDS	720185	720937	.	-	0	ID=MGA_1153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDGINEESTTSLKTIFENPKNNDKKVEFLSDFKSLINYQRIVESIIKLKGKEKYSILLNNVNDNELFSIDEDKLLTNEEGGIKFFETDQGSSNNFKKRNESKESYISINVKFNFIIRYSENNKTQSIKEDRTFKDFDFNFISTSNKALTYLINNKVKELKYAFLGADKFNTLIKKTNFVDDDKFITNNKDEVKSLIEEKFSEKGFKKAISDKIKETTNLNENINIDFSNDPNQKIFELNDKNLNADGEY;locus_tag=LOCUS_11530;note=MGA_1153
sequence1	MetaGeneAnnotator	CDS	720995	721210	.	-	0	ID=MGA_1154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILYLLSTITLTASIVSYVVACSKKSSQKENDQDSEKLPELLNYDIALVDYLKEVSEIINSEIKRASEN;locus_tag=LOCUS_11540;note=MGA_1154
sequence1	MetaGeneAnnotator	CDS	723836	723982	.	-	0	ID=MGA_1155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYLGSSFLKEIKNDYLNLKNNNKDPDKRSFSLFYASINNVYNKYDRK;locus_tag=LOCUS_11550;note=MGA_1155
sequence1	MetaGeneAnnotator	CDS	724135	724611	.	-	0	ID=MGA_1156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKIIWLSSFTLICSTSFLTTSCQLGMFVGYDIPLQPKDEDEVKAKLNDIQNEKEKLENLTEVHDFANFVQAISEQENENDKEVEKNFRLNDDVQSYIKNTFLSFAYNIKLVIFKDYNGIQPKDIKEVNSSYVGKYLNYYEALNKKNKEDTDKTIVK;locus_tag=LOCUS_11560;note=MGA_1156
sequence1	MetaGeneAnnotator	CDS	724628	725242	.	-	0	ID=MGA_1157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFTLKQILLLLHPLMPFVSEEIYQLLDLKTSILEEYYEINEFNYEIEGFESLVIESIKKIREFRLNQELKNELHLTFNLNYHNSKYKNIAKSMINDLNKFLKTLVNSAIELKEIGEEFTSVPIGDCFLEIANADFIDNEKQIIKLEETKVKLEKEIERSEKILINKNFLEKADVKKIELEKHKAKDYKTQYNLIIEKLNKLKN;locus_tag=LOCUS_11570;note=WP_011166500.1 valine--tRNA ligase (Mycoplasma mycoides) [pid:37.6%25%2C q_cov:99.0%25%2C s_cov:22.9%25%2C Eval:1.1e-27%2C partial hit],internal stop codon at [725312:725314](-)%2C[725330:725332](-)%2C[725429:725431](-),MGA_1157
sequence1	MetaGeneAnnotator	CDS	725558	725791	.	-	0	ID=MGA_1158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFSSLEFTKNKPFEDCLLHGLIRDEQGRKMSKSLGNGVDPMQVVQDFGADSMRYFLLTNSSPGQDLRYSEEKLRAS;locus_tag=LOCUS_11580;note=WP_004398606.1 valine--tRNA ligase (Bacillus) [pid:68.8%25%2C q_cov:100.0%25%2C s_cov:8.8%25%2C Eval:1.0e-26%2C partial hit],internal stop codon at [725312:725314](-)%2C[725330:725332](-)%2C[725429:725431](-)%2C[725537:725539](-)%2C[725558:725560](-)%2C[725801:725803](-)%2C[725885:725887](-)%2C[725906:725908](-)%2C[725924:725926](-)%2C[725954:725956](-)%2C[726017:726019](-)%2C[726038:726040](-)%2C[726041:726043](-)%2C[726062:726064](-),MGA_1158
sequence1	MetaGeneAnnotator	CDS	726188	726676	.	-	0	ID=MGA_1159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYHFKYFFENDKQNYLIIATTRPETMFGDACVVVNPNDKRYQNYIGKKVINPVNNQLIPIIADEYVDVEFGTGVMKCTPAHDPNDYIIGKKYNLDQIICMNIDGTMNEKSLEFKGLDRFEARKQLVEKMQKLDLLIKKEEIDHQVGYSERSNAVVEPYLSEQ;locus_tag=LOCUS_11590;note=WP_011166500.1 valine--tRNA ligase (Mycoplasma mycoides) [pid:66.0%25%2C q_cov:100.0%25%2C s_cov:18.5%25%2C Eval:6.5e-60%2C partial hit],internal stop codon at [725906:725908](-)%2C[725924:725926](-)%2C[725954:725956](-)%2C[726017:726019](-)%2C[726038:726040](-)%2C[726041:726043](-)%2C[726062:726064](-)%2C[726083:726085](-)%2C[726188:726190](-)%2C[726740:726742](-)%2C[726878:726880](-)%2C[726914:726916](-)%2C[726920:726922](-),MGA_1159
sequence1	MetaGeneAnnotator	CDS	726920	727078	.	-	0	ID=MGA_1160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRYKKLSGFDTLYLPGMDHAGIATQVKVEQRLKEQKISRFEIGRDAFVKKV;locus_tag=LOCUS_11600;note=WP_011183252.1 valine--tRNA ligase (Mesoplasma florum) [pid:70.6%25%2C q_cov:98.1%25%2C s_cov:5.8%25%2C Eval:1.4e-15%2C partial hit],internal stop codon at [726740:726742](-)%2C[726878:726880](-)%2C[726914:726916](-)%2C[726920:726922](-)%2C[727100:727102](-)%2C[727208:727210](-),MGA_1160
sequence1	MetaGeneAnnotator	CDS	728632	728898	.	-	0	ID=MGA_1161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVLKQTKLKLKNYFKRYINFFICFLMFVVTPVFDFLIKTRTDYYISTVLKLVIGITLAIYFISKYISLLMRLVDKFLIDQNIVKSYL;locus_tag=LOCUS_11610;note=MGA_1161
sequence1	MetaGeneAnnotator	CDS	729241	729402	.	-	0	ID=MGA_1162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIINIVLNILLVPSFINTLSAITTSKKNIQNNYSKLVKDQYYSNESLFENIE;locus_tag=LOCUS_11620;note=WP_011183232.1 hypothetical protein (Mesoplasma florum) [pid:50.0%25%2C q_cov:86.8%25%2C s_cov:13.5%25%2C Eval:4.8e-08%2C partial hit],internal stop codon at [729085:729087](-)%2C[729241:729243](-)%2C[729490:729492](-)%2C[729502:729504](-)%2C[729610:729612](-),MGA_1162
sequence1	MetaGeneAnnotator	CDS	729673	729846	.	-	0	ID=MGA_1163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVALLNNQKKFIKNILVFKPIKFAYFIIDQILLLLTVSLFIYAIAKGVAIEKGAKS;locus_tag=LOCUS_11630;note=MGA_1163
sequence1	MetaGeneAnnotator	CDS	729916	730107	.	-	0	ID=MGA_1164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLISSVCGALFLTKNKNIKDIEHFKVKKALDFGLFYFRVSLKIDKTIENLSKMNKFEQENIN;locus_tag=LOCUS_11640;note=MGA_1164
sequence1	MetaGeneAnnotator	CDS	730052	730285	.	+	0	ID=MGA_1165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLFLVKNNAPQTEEINNIISITSNNAIIPVFQLEKFFQFNISTTAPDIKNNIKRKIETMNIFKTDFLYLSTFNSTL;locus_tag=LOCUS_11650;note=MGA_1165
sequence1	MetaGeneAnnotator	CDS	730370	730648	.	-	0	ID=MGA_1166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDDIHLWPYEFLDFEKEDLFLTNSVPLYIFIVIVVFGTWIVLQHLLLISVNNLGFYLKNKYRDRYEEFTKKISTKVKNLTKSKSAKKRQEM;locus_tag=LOCUS_11660;note=WP_011166716.1 hypothetical protein (Mycoplasma mycoides) [pid:37.1%25%2C q_cov:67.4%25%2C s_cov:22.3%25%2C Eval:1.9e-07%2C partial hit],internal stop codon at [730730:730732](-)%2C[730892:730894](-)%2C[730919:730921](-),MGA_1166
sequence1	MetaGeneAnnotator	CDS	732273	732569	.	-	0	ID=MGA_1167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLIVESCIALAVGMGNNDPSLMKVKPIKGKNSLFKGIWFSMMKIIFFLTICSIAAFYFGMSFVDENHLKKILDTFKNDPDNIAKYADLDTATLAKEG;locus_tag=LOCUS_11670;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:49.2%25%2C q_cov:66.3%25%2C s_cov:6.7%25%2C Eval:4.2e-12%2C partial hit],internal stop codon at [732135:732137](-)%2C[732570:732572](-),MGA_1167
sequence1	MetaGeneAnnotator	CDS	732570	733862	.	-	0	ID=MGA_1168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAITLAIGVIPECLAAIISVTLSLSARRMADENVIVKKLKAVETLGSVNVICTDKTGTLTQNKMTVTKLVMDNKISEAKDYLKHKKDRHLDLFLKALVLCNDSVTEGDERIGDPTELALVDFAEVTGLDEQKARELYSRVNELPFDSERKMMTTVNNIDDKYNVFTKGAIDQLIKCCSKIMIDNVIRDITEEDKVELLNIAKKLSRDALRVLAFAYKTIDNQNEDLESDLTLLGAVAMIDPVRESAVSAVRQAKQAGVRVVMITGDHAVTALAIARDLELAQDETEVMSSEKLNEMDDEQLFDIIEQIRVFARVNPEHKVRIVNALQKRGNITSMTGDGVNDAPSLAKADIGVAMGITGTDVAKQAADVILIDDNFETIIKGVNEGRNVYAKIKRAITFILGVNLANVLSIFILSTINTVSPLEATNIL;locus_tag=LOCUS_11680;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:67.7%25%2C q_cov:100.0%25%2C s_cov:44.2%25%2C Eval:4.6e-157%2C partial hit],internal stop codon at [732570:732572](-)%2C[733875:733877](-),MGA_1168
sequence1	MetaGeneAnnotator	CDS	733875	734465	.	-	0	ID=MGA_1169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLEDFIDFIVIFMIVIIDAILETFQTLKARKSMDALKSLSKPKAIVIRNGNQQEVEASSLVVGDIVVLEAGKYIPAEIRIIEANGLMIDESILTGESVPVEKTSKEIISTSILAEMKNIGFMSTFTTAGRAIGIVIKVGVDTEIGKIATSINENDEEATPLEKKLGFFTMIIALLSFSLGVIIFIALFFSGDRTA;locus_tag=LOCUS_11690;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:63.2%25%2C q_cov:92.9%25%2C s_cov:18.7%25%2C Eval:2.6e-60%2C partial hit],internal stop codon at [733875:733877](-)%2C[734469:734471](-)%2C[734568:734570](-),MGA_1169
sequence1	MetaGeneAnnotator	CDS	734568	734714	.	-	0	ID=MGA_1170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDYLSKSIKDIANNLNSDIKKGLNDIQVENNLTKYGKNELPQGKVTP;locus_tag=LOCUS_11700;note=MGA_1170
sequence1	MetaGeneAnnotator	CDS	734824	734970	.	+	0	ID=MGA_1171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKNQIEQAINYFKHQITVKAKEILIETTRINLENKFNIITNRALIAF;locus_tag=LOCUS_11710;note=MGA_1171
sequence1	MetaGeneAnnotator	CDS	735058	735222	.	+	0	ID=MGA_1172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNQINNFTRSYNNAGVGLQMDEICESEVVKMLNIFFISGNCDLKILNFILNNI;locus_tag=LOCUS_11720;note=MGA_1172
sequence1	MetaGeneAnnotator	CDS	735835	736074	.	-	0	ID=MGA_1173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILKKDIKFNNGLNIPQMGLGTYQLKEKDEIFEAVQAAIEAGYRHIDTAMIYKNQKAVGEAIKSTRVKREDIFITSKI;locus_tag=LOCUS_11730;note=WP_002994275.1 aldo/keto reductase (Streptococcus pyogenes) [pid:54.2%25%2C q_cov:91.1%25%2C s_cov:25.8%25%2C Eval:1.9e-17%2C partial hit],internal stop codon at [735712:735714](-)%2C[735739:735741](-)%2C[735835:735837](-),MGA_1173
sequence1	MetaGeneAnnotator	CDS	736123	736506	.	-	0	ID=MGA_1174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGNNTIPIDDLQKKLDIYSLDITSQNYNAILNDKDKYNNLIADIISIMTAIYSDKTHKITKFLDEYKIDFMDLVNQKFKFDSINEVKNNDGIDNHIHLKATMYGDPPESLFSGSAEIDLFVKKIKS;locus_tag=LOCUS_11740;note=MGA_1174
sequence1	MetaGeneAnnotator	CDS	736543	736713	.	-	0	ID=MGA_1175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNEPTFEKEVYVNFTNEEISSTISNYNNYETNDKIPELNLIVKTANAIKQKDKLV;locus_tag=LOCUS_11750;note=MGA_1175
sequence1	MetaGeneAnnotator	CDS	736723	736950	.	-	0	ID=MGA_1176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLFLSVGSLIGVNVQPIIACKKASRSLSIAENTVIDEIEKEIKYKKYISGDYALIRANKVMDKLKEEKNFK;locus_tag=LOCUS_11760;note=MGA_1176
sequence1	MetaGeneAnnotator	CDS	737011	737211	.	-	0	ID=MGA_1177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEISEDNIYVFGDEFNDYPMFRNFKNTYAVGNAIPGIKELAKEVILPIDQDGVGKKLLELVEEFKK;locus_tag=LOCUS_11770;note=MGA_1177
sequence1	MetaGeneAnnotator	CDS	737236	737937	.	-	0	ID=MGA_1178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFSFIDKNRFKIIKDKKGNMNMSKFKKVAASDLDGTIVKEGNILTNSNKQLIKEFMQKTNNAFTIVTGRNYFSALQHAIDLDVSLPIITTNGTSLIDPKTHQYIAQHHFTNQEGNEILDVLYENGFDFYLLNDIKIYALETIHFADKDHQEKHNFVNSLDDLTHFYKTRDELYHAIKENVKGSFTSLNVSCYSEEEYNSAMKTLSKFELATLKFDYKDLITIEIYKKGAGKD;locus_tag=LOCUS_11780;note=MGA_1178
sequence1	MetaGeneAnnotator	CDS	737941	738369	.	-	0	ID=MGA_1179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDDFNELYQGIKKDCKYYNSVFIEYETKQEFDEIEKLFESYNFSKLTFAYFDQPTIEYFKPNVNKLSGLKMLANYLKVDLQDIYVFGDQVNDIPMFKGLKNNFAVGNAVPEIISIANEIIDNINNNGVGKKLIELKEKNIF;locus_tag=LOCUS_11790;note=WP_014584372.1 Cof-type HAD-IIB family hydrolase (Mycoplasma leachii) [pid:36.7%25%2C q_cov:76.8%25%2C s_cov:32.6%25%2C Eval:2.7e-12%2C partial hit],MGA_1179
sequence1	MetaGeneAnnotator	CDS	738430	738798	.	-	0	ID=MGA_1180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSFKKIVCSDLDGTIITKENELLKETKKDIQAFMIETNNAFSVVTGRQFFSSKNHIKDIGVTLPVITINGSSLIDPVSETLIDSLHFNKEEYFKILDIMLKHNIRFSVVNDFQIFCLKTSI;locus_tag=LOCUS_11800;note=WP_014584372.1 Cof-type HAD-IIB family hydrolase (Mycoplasma leachii) [pid:30.6%25%2C q_cov:80.3%25%2C s_cov:34.0%25%2C Eval:1.1e-07%2C partial hit],MGA_1180
sequence1	MetaGeneAnnotator	CDS	738834	739244	.	-	0	ID=MGA_1181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNFFDINNSAYRIVDAPGYGYARVSFSQKEAFGIMMEEYLLNRSNLKGVCQLVDLRHKPTNDDISLYQFFKTNNIRVLIIATKKDKCKKNDIIKNEKLVKSTLDLDKNDIFLSISSVDKANLDKAIDLIEQIVLN;locus_tag=LOCUS_11810;note=WP_011183254.1 ribosome biogenesis GTP-binding protein YihA/YsxC (Mesoplasma florum) [pid:57.5%25%2C q_cov:98.5%25%2C s_cov:67.7%25%2C Eval:7.9e-43%2C partial hit],internal stop codon at [739371:739373](-),MGA_1181
sequence1	MetaGeneAnnotator	CDS	739418	739753	.	-	0	ID=MGA_1182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKFLNKEEKKIFSKKNLKKIKKDDFFSYLEMEQSLLESLIEKYQKDDIRNSIIEEEIEKQRDFVNKLNRYYYEVVLLEPDTSTEEEKIFEKEYQKLIKPIKRIQKKVSK;locus_tag=LOCUS_11820;note=MGA_1182
sequence1	MetaGeneAnnotator	CDS	739932	740240	.	-	0	ID=MGA_1183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGLIVYLNIYKKDEITGLNSYLFTGSYLAYIVFIFVLIIVGTKLYKAMLIVEANESYYFLDNTIIKKKTIIAISNTLKRNYLVISYSSESNLREVYQVKYS;locus_tag=LOCUS_11830;note=MGA_1183
sequence1	MetaGeneAnnotator	CDS	741079	741210	.	-	0	ID=MGA_1184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTILDRFGLFNTEVILYDHLSNSSIEDRIKFLEKVSTKVSG;locus_tag=LOCUS_11840;note=MGA_1184
sequence1	MetaGeneAnnotator	CDS	741250	741660	.	-	0	ID=MGA_1185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTVIVLANPNKKSFNHEIANVIIKNLKANNKDYELWDLYAEKFDPVITQEEIESFGFGTFEKSPYKDKILTLRDETDKLIVIYPLYFIDFPAILKGFFDRVFVGTIINNEDKPFEWKSVIDIDKTYIIQTSLSRE;locus_tag=LOCUS_11850;note=WP_002893583.1 NAD(P)H-dependent oxidoreductase (Streptococcus sanguinis) [pid:41.1%25%2C q_cov:82.4%25%2C s_cov:57.8%25%2C Eval:1.8e-15%2C partial hit],internal stop codon at [741250:741252](-),MGA_1185
sequence1	MetaGeneAnnotator	CDS	741934	742107	.	-	0	ID=MGA_1186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNILTSKNVNKNPKSKNHMSAKSYFDDGFSRSGVFKKDLKSSVSKMNEKNYQKKYV;locus_tag=LOCUS_11860;note=MGA_1186
sequence1	MetaGeneAnnotator	CDS	742234	742743	.	-	0	ID=MGA_1187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENGYSGIYQINNFDDLEDVSVVSNDLNIATVSLENKNVKVVSKTAGNTSFTISASNAKQSLTINLSVYKESLDFGDIDISDIKIKQNKKQIIELKNYVVFEEVTIISSNESYLKANIEEGKIILEAIKYIENENTYQVNVKGTNIKNEVKTDTFSVTILPPAPALPF;locus_tag=LOCUS_11870;note=MGA_1187
sequence1	MetaGeneAnnotator	CDS	743467	743892	.	-	0	ID=MGA_1188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNNNFDNGNKISNYSFNTNKNNNEYIYKLNDDNYLTSFFNIDGIDNVEIRKNLDFSFLKNLKVDLDNELIKNYYQTSEISKKNKLRYQTYQNIYKKISLTNGFENIKSSLHEEDLPNLINVTKILDNSNRYFMTESKINN;locus_tag=LOCUS_11880;note=MGA_1188
sequence1	MetaGeneAnnotator	CDS	743896	744132	.	-	0	ID=MGA_1189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARNKTEKANYFFNVDKSSNNIKKISISANNEKIQSIGIYEKNTEVSINYVLKNDANSNNSNDGLYTVTKNSNEDLIN;locus_tag=LOCUS_11890;note=MGA_1189
sequence1	MetaGeneAnnotator	CDS	744307	744579	.	-	0	ID=MGA_1190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLNYSKLLDFKELDKIFANNANYLFDAYNKVFLQYNGKYIYKFNVPDFETFNKRLLNPEPVNLPKIINASSVKSIYCVKQANTKDYVLV;locus_tag=LOCUS_11900;note=MGA_1190
sequence1	MetaGeneAnnotator	CDS	744751	745053	.	-	0	ID=MGA_1191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYLTVLIVVICTIFTAFNFQSFYEKKNFLKENFIQNYIQKDYDISYKYNIKKNKLSYFLPTTFYNDTTNQKQNVIFFGEQYTFSSKISIILYNEFSNI;locus_tag=LOCUS_11910;note=MGA_1191
sequence1	MetaGeneAnnotator	CDS	745405	745548	.	-	0	ID=MGA_1192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKDRNDYKNSENKEGQLDIKSQLNKIESMQFNGKGFSIDSSAMNIE;locus_tag=LOCUS_11920;note=MGA_1192
sequence1	MetaGeneAnnotator	CDS	746068	747354	.	-	0	ID=MGA_1193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIISADFNELIIKDTNDLSNYGNINFDNTNKIKYKILSNFISIGNLYQSAFFSINDDIGLFVRTSSGYKIFSSKTNFSNYKVFNDDTYVDKIFSRITTTQHNYNIDSENQTLEKDYIIFAIYDGTSSYQNGGIYYLESTDIFNSSNEKLKLNFLFKLNTKKDKIEGAALGSAGTPTLEVEVTKNLISFYDIFNEEFVIAVTTNLGIYKYIYNNVNDFASHNSFVDKVIKLNSVNTLYLNPDQNLTFDIIPNSLNFINGELVFITRKASPDKYGTPAVTGTYKSEAIYSLSKVYKKFNLKNVKSFPDLIDINLSSEQINLSQNEKINLIKEKIINEYKNMTPVNNIKYNELFKKAISYDEAQLNANDLVYDDNVFFNKDEYLIQKNIETKKYDYIIEINNDNIKKFFPENTYGDLKTSGDVDFLANDN;locus_tag=LOCUS_11930;note=MGA_1193
sequence1	MetaGeneAnnotator	CDS	747571	748215	.	-	0	ID=MGA_1194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFILAFLTSVSVSAPNVGQVIYKEMNKLEEGQVDIPYNEVDTNNKIEYPSLTNADAYKDTMNYLTDNADISNGYGNNEGQKKIMKNSFFLNSNYGANIDNDIKSLNLNNDEKKEQIKIESNFSLNTTDINNNTKLFISDRNTRGLYEVDYSTGKEKFNFIKGTEKKFYAPDVSDSYEYSSIASNMGFTLNGNAYRRQIVSLAVRDDDESTLNS;locus_tag=LOCUS_11940;note=MGA_1194
sequence1	MetaGeneAnnotator	CDS	748551	749186	.	-	0	ID=MGA_1195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVELNKDKDFIINKRLKSTRIRESRIKYGMHKKIMLNSEEESREKGKFGKKPSFNKKGFKRPEGDKKEFKKFDGERKEFNRFDKDKKDYKKSDYPRKDYKKFDGERKEFNRFDKDKKDYKKSDHPRKDYKKFDGERKEFNRFDKDKKDYKKSDHPRKDYKKFDGERKEFNRFDKDKKDYKKSDRDNKGGFEKRSFNKSNFKSKPNKFEKR;locus_tag=LOCUS_11950;note=MGA_1195
sequence1	MetaGeneAnnotator	CDS	749211	749846	.	-	0	ID=MGA_1196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLENFEEYDYLVESDKHALKHCLNNNLVYFKIQKINMEHINAILKSIYKDFNFLSLQTAEIKVNVYQNMFNNLIANFNQFVAIIKSVLDAIRVKKNTYLQDHSNVLEKTNMIIKFVKENDIFEENNLQEYNQKIVDSINFYLELLENQDFIVLKEEESDQLIDEIEIDISFANKLLVILKDFNNFANLELAPFEEENEQLNEKLKAIKKIN;locus_tag=LOCUS_11960;note=MGA_1196
sequence1	MetaGeneAnnotator	CDS	750099	750422	.	-	0	ID=MGA_1197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKIIVKQLKDKLIEIEIVISNYLKDINNIDEALNIIDNNVKNMAKKVLDKSSAIEFLTYTFDISSFIIEFKLVNKKSSLIHYYIDQLFKIKLIKKLLSLEIVNEIQ;locus_tag=LOCUS_11970;note=MGA_1197
sequence1	MetaGeneAnnotator	CDS	750549	750974	.	+	0	ID=MGA_1198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANKVLVISGTASPKDKSFSIALQNKFVEEYKKLNSDDEFIYLDLNDEKMAQITLSRDNMKDFFNQEDALNYIEQLKSVNKVIIASPMNNFAVSAMIKNYLDHILLANQTFSYKYSKKGDAKGLLDHLSVQVLTTQGAPIG;locus_tag=LOCUS_11980;note=WP_011182943.1 FMN-dependent NADH-azoreductase (Mesoplasma florum) [pid:51.1%25%2C q_cov:98.6%25%2C s_cov:69.8%25%2C Eval:2.9e-35%2C partial hit],internal stop codon at [750972:750974](+)%2C[751014:751016](+),MGA_1198
sequence1	MetaGeneAnnotator	CDS	751228	751704	.	+	0	ID=MGA_1199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYAFDYDDIQLIPGLCTVKSRSECDTSIKLGKYTFKMPVVPANMASIINEEICTLLAEQNYFYIMHRFNVDSFEFTKNMHSKDLIASISVGVKDNDYKLIERFKKENVIPEFITIDIAHGHSISVKNMIEHIRNNLNDETFIIAGNVGTPHAVKDLEY;locus_tag=LOCUS_11990;note=WP_011183067.1 GMP reductase (Mesoplasma florum) [pid:66.5%25%2C q_cov:100.0%25%2C s_cov:49.4%25%2C Eval:1.8e-59%2C partial hit],internal stop codon at [751702:751704](+)%2C[751786:751788](+)%2C[751807:751809](+),MGA_1199
sequence1	MetaGeneAnnotator	CDS	751852	752190	.	+	0	ID=MGA_1200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVNGDIAKSIRFGATMCMVGSLFAAHIESPGKEVTVNNILYKEYYGSASEYNKGEKRYVEGKKELIQIRGNLMETYREMQEDLQSSISYSGGNKTKDIKKVDYVILKTSNF;locus_tag=LOCUS_12000;note=WP_011183067.1 GMP reductase (Mesoplasma florum) [pid:83.9%25%2C q_cov:100.0%25%2C s_cov:35.0%25%2C Eval:3.0e-50%2C partial hit],internal stop codon at [751702:751704](+)%2C[751786:751788](+)%2C[751807:751809](+),MGA_1200
sequence1	MetaGeneAnnotator	CDS	752228	752386	.	+	0	ID=MGA_1201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKCQNPGCSNEISVQEPKRIYVYDEKVEDEIPVSVCDECYKKSKDEENDID;locus_tag=LOCUS_12010;note=MGA_1201
sequence1	MetaGeneAnnotator	CDS	752957	753250	.	-	0	ID=MGA_1202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MICSIDSEFLTKKSKEIIIEKNIFKQFYDIKKEIKTYDHNNEMIKNFIKEKNIYDLSLIKKIDKELTVFAQVIEKKYTFHVKTDDKKNYYQEICFMF;locus_tag=LOCUS_12020;note=MGA_1202
sequence1	MetaGeneAnnotator	CDS	753296	753829	.	-	0	ID=MGA_1203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMGNEFYLDRVNVEPLIEKISNGILNEYKGLIAIDGPKNSGKSFLIESVASTLFKKGYYHIAFNFDKFNKSENLLNDFLGFLILELKTISDLKIFETFLKEQNIKKIIKQKNKNYNDVYSYKFIFYKKIKESDQVSYELILEEILFEFNKLLKRFSLKVVLTIDNLYYLDLEELYE;locus_tag=LOCUS_12030;note=MGA_1203
sequence1	MetaGeneAnnotator	CDS	753850	755166	.	-	0	ID=MGA_1204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKDKKEDEKVAIVETIDKQTLYNEIKNNKIANEQSEKFVRAIFENYFLDNDNINFLQKNGYNFFSFFDDELCFCLSEKKYEDCCKLKLINIVDKTYKTYEEILHKPEEYEKYLLSTFESFKNTFLKLAKLEKCNYPNCSEYANENRLYEINFDKKNLLSTNRLNPFDNIFKMGEDFFKKVSNENFKFYGLCNNHFNELRLITINSKTSDQEIIKIHIIALLYKTFIGKVQLECLKEEFRKYFNSISDEDYKALFVFRIKKLSSLVKSLLENLKIYKTNFLENKDLKIIKLELETNKNMKLFDLMYPQVCPEDFSLVNSINNIFVPERVATINIANTDEISLTTIVYNKKDERLEKFFNQYLKILENKEKFIEAFVSNCALILSDNILFDKSFYDKLENENKLLYSALNKFRFENPNMGQEYLKMKFFAGFNKGNNFF;locus_tag=LOCUS_12040;note=MGA_1204
sequence1	MetaGeneAnnotator	CDS	755231	755668	.	-	0	ID=MGA_1205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIPKNMMIRNFKKNFIEDKVDPILFKEDIEIVNMFDDKAKLYDLDVIDDEKEMNNLNVIKPSIKQDKDILLEEKNDKIKLAQKKEQEAKELKKKLRRERAILLKEQREKFRLQEVEAKKKASADRAQNRKRQKEQINIKKRPTI;locus_tag=LOCUS_12050;note=MGA_1205
sequence1	MetaGeneAnnotator	CDS	755783	756064	.	-	0	ID=MGA_1206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVRASQLQTHKRYLDVIKSTFRYDEEFLRKIGDVLYQIEDGDIIQYGDQHDFYFRNEKVKEFLDNIPLFRENKTVQYDFSELLFDFYFKELQ;locus_tag=LOCUS_12060;note=MGA_1206
sequence1	MetaGeneAnnotator	CDS	756440	756586	.	-	0	ID=MGA_1207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLKKIVVENFITPGKQIFEFDDTQTLVAGEFYGLEELPIINELLNGG;locus_tag=LOCUS_12070;note=MGA_1207
sequence1	MetaGeneAnnotator	CDS	756833	756982	.	-	0	ID=MGA_1208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGHALDGFGGRLNSFRNKNDTSTKKYDYYYSGRKIGYDVDLENVKNIFL;locus_tag=LOCUS_12080;note=MGA_1208
sequence1	MetaGeneAnnotator	CDS	757301	757507	.	-	0	ID=MGA_1209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDSYTKASEQSIKYFHNFNSNYYDDFDALDAKLVENSKNEFNESNVIFKKIYDSIDNRYTNFFSIYK;locus_tag=LOCUS_12090;note=MGA_1209
sequence1	MetaGeneAnnotator	CDS	757877	758347	.	-	0	ID=MGA_1210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINIVIKLFLSIGLLFNSSFVTSSYKRDKFYNEKSENVNDLTFNYDSFLKEDKIIKKDNSKKDATTKMMYYGRILKYYYAKSVTKIKQEFYDSIIDVYDYNEYFLTYEGINHFGSKKTELNFYKALLVQNIIASTINISEYGATNDREFFAEAFSK;locus_tag=LOCUS_12100;note=WP_011166719.1 hypothetical protein (Mycoplasma mycoides) [pid:26.7%25%2C q_cov:97.4%25%2C s_cov:45.9%25%2C Eval:2.0e-07%2C partial hit],MGA_1210
sequence1	MetaGeneAnnotator	CDS	758479	758643	.	-	0	ID=MGA_1211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGHAVEAFGGRENSLRLKNNSAYRNYGDLYSGNYIGGSNNKDSSVTPSNTSSKK;locus_tag=LOCUS_12110;note=MGA_1211
sequence1	MetaGeneAnnotator	CDS	758683	758886	.	-	0	ID=MGA_1212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSSDSPLKNNDGSSMEGVLGYTSTSGAGYKNPDNESEVLITTTDSYIVIRSDGLLLKQFNSQYQKG;locus_tag=LOCUS_12120;note=MGA_1212
sequence1	MetaGeneAnnotator	CDS	759022	759267	.	-	0	ID=MGA_1213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLNFNQLKNLISASQSFMYDSFTKASESNIKKFNDFNDNHFTFASLDEFLIKNSIDTNGIAQISPNYLINSFANYYKKLS;locus_tag=LOCUS_12130;note=MGA_1213
sequence1	MetaGeneAnnotator	CDS	759355	759525	.	-	0	ID=MGA_1214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKLISTGRVITDKDIEEIKTIVQNNSSSLTKYDLDLTSASSNPVDLKYANNQQIG;locus_tag=LOCUS_12140;note=MGA_1214
sequence1	MetaGeneAnnotator	CDS	759592	760065	.	-	0	ID=MGA_1215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILFLNKMFIAISMIFSNLFTTSNLISENLIKLNNKISDDITTKVNKVSTKASTYNYNDLLLDDYSNISINDDNALQKALFYGRILKYYIANSIKDEKNLLNNLETEINKISLDDDIYSKKEFKKALLMQNIIASTINISAYGASSDNEFFAESFAK;locus_tag=LOCUS_12150;note=MGA_1215
sequence1	MetaGeneAnnotator	CDS	760253	760453	.	-	0	ID=MGA_1216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRAMYETYGYPEFRDKTGKELIEDGYDFLAITIGHICLRFNKMNFYFKDLHISTRIVDKFLAVDF;locus_tag=LOCUS_12160;note=MGA_1216
sequence1	MetaGeneAnnotator	CDS	760850	761902	.	-	0	ID=MGA_1217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNNVNVVEGEAVAIDKNTIEVNKKRYTCDNLILATGSVPNSMNLPGAKEATESGFLIDSTGALALPKIPKKLVIIGGGVIGVEFACVYKRLGTQVTILQFLPTILEMLDSDVSKEMTKELLNRGNLEIITGAATKEFKGNSVVYEKDGQTYTIEADFCLQSVGRKTVTTGFDNIGLEKNERSHIVVNEYCETNIDGVYAIGDVTGKMMLAHVASYQGLIAANRIAKRLGNHEADDLIMDYNRVPSCIYTHPEVSMIGKTEDQLKKEGVEYKAFKFPFAAIGKALADGNTTGFVKLICEPKYKQIIGAHIISNTATDMISEITTLIQSEGTITELAKAIHPHPTLSEAV;locus_tag=LOCUS_12170;note=WP_011182939.1 dihydrolipoyl dehydrogenase (Mesoplasma florum) [pid:63.2%25%2C q_cov:98.6%25%2C s_cov:57.3%25%2C Eval:9.2e-126%2C partial hit],internal stop codon at [760850:760852](-)%2C[761966:761968](-),MGA_1217
sequence1	MetaGeneAnnotator	CDS	761966	762679	.	-	0	ID=MGA_1218;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKVKFADIGEGLTEGTVTEVFVKVGDKIKSGDSLFNVETDKVNSDIFAPVDGVIANILIKNGQEIKVGDVVIEINDGTGDEPVTVEQPAEENASVVGATPVSNDLIQRGRKREVPPRPVDTFAKVTQVLDQQNHPGIVKGNSKNLRPAPKFKATNLENHYDVIMVGAGVGGYVGAIKCSRLGLKTLIIEKAKFGGVCLNIGCIPTKTLLKSADLYEQISKAEKFGIKVDMKGVKAD;locus_tag=LOCUS_12180;note=WP_011182939.1 dihydrolipoyl dehydrogenase (Mesoplasma florum) [pid:57.6%25%2C q_cov:97.9%25%2C s_cov:34.4%25%2C Eval:1.9e-56%2C partial hit],internal stop codon at [761966:761968](-),MGA_1218
sequence1	MetaGeneAnnotator	CDS	762695	763336	.	-	0	ID=MGA_1219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVAHTKVAGFTGFKNVDITELVNLRNQLKGFADSQRVKLTYLAFIIKAVTLSLKDMPNLNVRIDEENKAIKFANQINIGMACDTPDGLMVPVIKGADKLSVLQIAVKINDLASKARSKKLAMNEMTGATFTVTNFGSVGLDYATPIVNYPESAILGVGTITRAPGVINDQIEIREFMPFSLTADHKVIDGADAGRFLQRIVYYLQNPAILLV;locus_tag=LOCUS_12190;note=WP_011166464.1 dihydrolipoamide acetyltransferase family protein (Mycoplasma mycoides) [pid:60.1%25%2C q_cov:100.0%25%2C s_cov:49.8%25%2C Eval:1.5e-67%2C partial hit],internal stop codon at [763367:763369](-),MGA_1219
sequence1	MetaGeneAnnotator	CDS	763367	764050	.	-	0	ID=MGA_1220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKVKFADIGEGLTEGTVTEIFVKVGDSVKSGDSLFNVETDKVNSDIYAPVDGKIANVLIKNGQEIKVGDVVIEIDDGTGASTSSEPAKVEVKPVEENASVVGATPVSNEVISREQPQSSQPQGMSFDMSQASMIDNSFANVRATPLARKMAAVMGVDLTKVSPTGPNNRILAADIESFAANPHIVQPQALPQMAPIGPGPKPKVDYTNPAISVPEFNEPLSFNSVP;locus_tag=LOCUS_12200;note=WP_011166464.1 dihydrolipoamide acetyltransferase family protein (Mycoplasma mycoides) [pid:53.4%25%2C q_cov:100.0%25%2C s_cov:47.7%25%2C Eval:9.0e-53%2C partial hit],internal stop codon at [763367:763369](-),MGA_1220
sequence1	MetaGeneAnnotator	CDS	764068	764316	.	-	0	ID=MGA_1221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVCESVKKTGRLLVVHEAVRSFSVSAEIIATVNEECFDYLKAPLSRCTGYDIVIPFDSGETYHQPNPIKILAKMEEVLNYKF;locus_tag=LOCUS_12210;note=WP_011166463.1 alpha-ketoacid dehydrogenase subunit beta (Mycoplasma mycoides) [pid:76.8%25%2C q_cov:100.0%25%2C s_cov:24.9%25%2C Eval:8.3e-32%2C partial hit],internal stop codon at [764326:764328](-),MGA_1221
sequence1	MetaGeneAnnotator	CDS	764326	764787	.	-	0	ID=MGA_1222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNILGHMGRFRNRTRGKYPSPLVIRMPMGGGIRALESHSEAMEAMYAHTPGIKVVCPSTPYDTKGLILAAIESPDPVIVFEPTKLYRAFKQEVPDGFYTVPIGEAFKIQEGNDLTVVTYGAQTVDCQKAIEELESKNPDITIELIDLRSIKP;locus_tag=LOCUS_12220;note=WP_011182937.1 alpha-ketoacid dehydrogenase subunit beta (Mesoplasma) [pid:75.8%25%2C q_cov:100.0%25%2C s_cov:46.5%25%2C Eval:4.0e-66%2C partial hit],internal stop codon at [764326:764328](-)%2C[764794:764796](-)%2C[764995:764997](-),MGA_1222
sequence1	MetaGeneAnnotator	CDS	765579	765824	.	-	0	ID=MGA_1223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNEYGAQSPEGVNLLPPNIIIGSQYSHATGIAFAEKYKQTGGVTLTTTGDGGMSEGETYEAMNFAKLHELPVVFICENNK;locus_tag=LOCUS_12230;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:1.5e-33%2C partial hit],internal stop codon at [765579:765581](-)%2C[765825:765827](-)%2C[765867:765869](-)%2C[765900:765902](-),MGA_1223
sequence1	MetaGeneAnnotator	CDS	765900	766175	.	-	0	ID=MGA_1224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKFLNVFDPLKNERVEIMDQDGKIVNPKLMPKLKDDQILEAYKIMNLSRRQDEFQNKAQRQGRLLSFLSSTGQEASEVGYAFAMIRGKD;locus_tag=LOCUS_12240;note=WP_011166462.1 pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha (Mycoplasma mycoides group) [pid:67.8%25%2C q_cov:95.6%25%2C s_cov:23.5%25%2C Eval:1.1e-28%2C partial hit],internal stop codon at [765825:765827](-)%2C[765867:765869](-)%2C[765900:765902](-),MGA_1224
sequence1	MetaGeneAnnotator	CDS	766768	766890	.	-	0	ID=MGA_1225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEKMLDPIIQTLNKMGVAAKFSGRNDIVLNDKKISGNAM;locus_tag=LOCUS_12250;note=MGA_1225
sequence1	MetaGeneAnnotator	CDS	767696	767878	.	+	0	ID=MGA_1226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLFIIAIALFSIFFLLLNFEIVLNAILFINLFIKIGQKIPTIIVNSRSDSQCVLEISCV;locus_tag=LOCUS_12260;note=MGA_1226
sequence1	MetaGeneAnnotator	CDS	768903	769046	.	-	0	ID=MGA_1227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIHNGNVYDLASAGIFFPVIGKVNKKIEILMKKYYIKEIKTVESKE;locus_tag=LOCUS_12270;note=MGA_1227
sequence1	MetaGeneAnnotator	CDS	770925	771374	.	-	0	ID=MGA_1228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTRKLGNKLEVSAIGLGVMGFSLSFPPFPSREEAIKFLREAKKRGITFFDTAEIYGPFENEEIVGEAFKDCRDEVIIATKFGFKYDGNKVVGIDSSRENILRAVEGCLKRLQTNYIDIFYQHRVDQNVPIEEVAQVMKELKEQGKIRY;locus_tag=LOCUS_12280;note=WP_011183149.1 aldo/keto reductase (Mesoplasma florum) [pid:71.1%25%2C q_cov:100.0%25%2C s_cov:45.4%25%2C Eval:4.4e-59%2C partial hit],internal stop codon at [770835:770837](-)%2C[770925:770927](-),MGA_1228
sequence1	MetaGeneAnnotator	CDS	771643	771774	.	-	0	ID=MGA_1229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNEIVDHNVLVDLHTLKDFRNKVMHYNFILVESLKNNEFNFD;locus_tag=LOCUS_12290;note=MGA_1229
sequence1	MetaGeneAnnotator	CDS	771796	772146	.	-	0	ID=MGA_1230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIKNLVIDDEDLKDFYDYKDIRGMKTYLYLADLLSFITQREAINYKEVRSIIIYDKRIKNILYRYFANIEDFLKALIFDHFIIINGKYIKNDVIDDFSVFEKFNIIKKNENKDG;locus_tag=LOCUS_12300;note=MGA_1230
sequence1	MetaGeneAnnotator	CDS	772315	772461	.	-	0	ID=MGA_1231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDQNKDFLLSIALLEKISSLIKEFEEEVAEIKAGYYYVQNKKITLKS;locus_tag=LOCUS_12310;note=MGA_1231
sequence1	MetaGeneAnnotator	CDS	772483	772644	.	-	0	ID=MGA_1232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKHNNLNKSFYCACLSEIEINSIIENKKKYFCETMIKTFPNILIKCKKVTN;locus_tag=LOCUS_12320;note=MGA_1232
sequence1	MetaGeneAnnotator	CDS	772728	773315	.	-	0	ID=MGA_1233;product=GntR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183415.1;translation=MPSESFIKNKFKISLQPIRKAFYKLIEDKLVISRHGKGYMVIENENNILFSFSSLHPEAISKYTYEGKFKVDEVLRKQTKFYYEDFVHKVLVKRYIKNKLFIVQISYISDYLLKDQINNELLNEQGLLMFLRSHIKQPIGFSIKKILSVSKTNLNLKIAKELESNNLILDKGMLFTINQQLIEYRESYYNYEGFE;locus_tag=LOCUS_12330;note=WP_011183415.1 GntR family transcriptional regulator (Mesoplasma florum) [pid:38.7%25%2C q_cov:100.0%25%2C s_cov:85.3%25%2C Eval:3.2e-26],MGA_1233
sequence1	MetaGeneAnnotator	CDS	773452	773748	.	-	0	ID=MGA_1234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILNKHKKLFFMNYSNQFILMTKGENGVEFFHDGKGDNFSVIKSNKVVDTTGAGDGFIGALISQLSINFSYEDMGNAIKFANKFAKRIVEGKGALCYL;locus_tag=LOCUS_12340;note=MGA_1234
sequence1	MetaGeneAnnotator	CDS	773830	774303	.	-	0	ID=MGA_1235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVICIGEALMDVFIEGDKKTSKIGGAPLNAAIAIKYNSDKNVYLGSNFGDDENSNVIRNFLKDQNINNEFITTIKNTELSTAVVSLEPSGERNFKFDIKNDMRNNININIDKIDLAHFGSAFGLLSDCYPNYIDIMKKLYETNKIVVFDPNYRDDL;locus_tag=LOCUS_12350;note=WP_010963746.1 carbohydrate kinase (Clostridium) [pid:32.5%25%2C q_cov:99.4%25%2C s_cov:53.2%25%2C Eval:9.0e-16%2C partial hit],internal stop codon at [773830:773832](-),MGA_1235
sequence1	MetaGeneAnnotator	CDS	774343	774873	.	-	0	ID=MGA_1236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGDFVDRNFMIKSIYKLLRETGCYNIDFYEPQDAQFQARNEIRTIKDIYRITFTNSNHKIINLYLVFNEKDFLYKADNKNTKSLELNVVSKEQQEIEELINLYTSKDSNMGLTNMKLSLQSSPIRFIDSLDQKEINIYVEILKYENLFAQSSTLSDYMYFNNFVNFYEEFLPIFL;locus_tag=LOCUS_12360;note=MGA_1236
sequence1	MetaGeneAnnotator	CDS	774951	775205	.	-	0	ID=MGA_1237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYQSMQNTDPNNNIYTFSDENGNIKNYIYPYFFLDLHSKGLAGIPAYGIFVITFSGVLGFMIGISFLYNYSSNLIIKKSYYQN;locus_tag=LOCUS_12370;note=MGA_1237
sequence1	MetaGeneAnnotator	CDS	775512	775736	.	-	0	ID=MGA_1238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYEKILLAYKIFFSLMSMIVIYGFYIFKLVDQTELSQKFSGNFEMMSMEYFTTFTLLSNVFCQVWFLIAAIQ;locus_tag=LOCUS_12380;note=MGA_1238
sequence1	MetaGeneAnnotator	CDS	775985	776215	.	-	0	ID=MGA_1239;product=S1 RNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183238.1;translation=MGQIVKVTITNIVNFGAFCDVDLDGKTYKGLIHISEITDGYVSNVNNHLTIGQSVDGYVMSIDEDKGQAKISLKRA;locus_tag=LOCUS_12390;note=WP_011183238.1 S1 RNA-binding domain-containing protein (Mesoplasma) [pid:44.0%25%2C q_cov:98.7%25%2C s_cov:96.2%25%2C Eval:5.3e-15],MGA_1239
sequence1	MetaGeneAnnotator	CDS	776745	776900	.	-	0	ID=MGA_1240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYEESAPLFCAGVTTYKVLKKTRCKPGDYFGNFVIVGLVHMSIQYANAMG;locus_tag=LOCUS_12400;note=WP_011088401.1 alcohol dehydrogenase AdhP (Bradyrhizobium) [pid:57.8%25%2C q_cov:88.2%25%2C s_cov:13.2%25%2C Eval:6.4e-08%2C partial hit],internal stop codon at [776462:776464](-)%2C[776528:776530](-)%2C[776744:776746](-)%2C[777005:777007](-)%2C[777020:777022](-)%2C[777050:777052](-)%2C[777059:777061](-)%2C[777164:777166](-),frameshifted%2C insertion/deletion at around 777034%2C776635%2C776716,MGA_1240
sequence1	MetaGeneAnnotator	CDS	777732	777863	.	-	0	ID=MGA_1241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIINNLFLGDKNSAPKETQLRISCAEEIFLNNSKSDNNEIY;locus_tag=LOCUS_12410;note=MGA_1241
sequence1	MetaGeneAnnotator	CDS	778059	778853	.	+	0	ID=MGA_1242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELDFICPKCGQKITEKDFDNSEQSLKNLNDFLESKKQEYIKELEKKLITQLDAQKKAEITSALAKQNEEFILEKNKLKLEINTLSINNEKMIEKAKNEKDIEITKLKEQINNFDQKLVSDIEKAKALQIQAMQKEKDELNLAISTNKDLISKLEANIKVLEASKKEEILIEKDKLRNEYDLQIKELNNQIMELKEANIQYKVIQNKTKGENFEHDVEAELRKVFPDDVIKKITSQSQKADYLQLVKENNVEVGKIVYEVKNAT;locus_tag=LOCUS_12420;note=WP_011183326.1 DUF2130 domain-containing protein (Mesoplasma florum) [pid:32.1%25%2C q_cov:98.1%25%2C s_cov:64.5%25%2C Eval:3.1e-29%2C partial hit],internal stop codon at [778851:778853](+)%2C[778863:778865](+),MGA_1242
sequence1	MetaGeneAnnotator	CDS	778965	779120	.	+	0	ID=MGA_1243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDENQNIFLTDADSFAFVGHIIRTLIKTEARLLEKYSRDDKNEKVESFNK;locus_tag=LOCUS_12430;note=MGA_1243
sequence1	MetaGeneAnnotator	CDS	779532	779795	.	-	0	ID=MGA_1244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMIDLNIKTLHYMTKFFTKKFIENNNGRIINVASVAAFQPGPLFSSYFASKSYVLSLGIAINTELKKTKSKVRVVTICPGPIKTDF;locus_tag=LOCUS_12440;note=WP_000167663.1 SDR family oxidoreductase (Leptospira) [pid:43.7%25%2C q_cov:100.0%25%2C s_cov:32.6%25%2C Eval:1.7e-16%2C partial hit],internal stop codon at [779532:779534](-)%2C[779829:779831](-),MGA_1244
sequence1	MetaGeneAnnotator	CDS	779829	780110	.	-	0	ID=MGA_1245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFDVKNKYVLVTGASKGIGLEICKYLLNRGYNIVGVARNCDKLVELEQFYPNNKIEKIETDLRDLNNLKSLLARISYLDINLVVNNAGYGV;locus_tag=LOCUS_12450;note=WP_011183070.1 SDR family oxidoreductase (Mesoplasma florum) [pid:34.8%25%2C q_cov:93.5%25%2C s_cov:31.3%25%2C Eval:2.2e-08%2C partial hit],internal stop codon at [779829:779831](-),MGA_1245
sequence1	MetaGeneAnnotator	CDS	780226	780369	.	+	0	ID=MGA_1246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIKVVVSDLDGTLLFNGEYSSEKQNQYLRNLQKNGIMLIISTGRS;locus_tag=LOCUS_12460;note=MGA_1246
sequence1	MetaGeneAnnotator	CDS	780415	780768	.	+	0	ID=MGA_1247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYIVCENGSYVSKVTEFKPEMVEVMNPEVVKDVYLTLTDHKFSIYLKKYTEQYVYYTNEFGMERKFYKRTNKLIDINKHKDFENISYVFSQFPFENEANSIFKKFDNKYKDDLTLI;locus_tag=LOCUS_12470;note=MGA_1247
sequence1	MetaGeneAnnotator	CDS	780793	781038	.	+	0	ID=MGA_1248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHYLISSKNSNKGSKTLELLDKLGYKNEETIFFGDSGNDIPALEKFKFSVVMGNATEQVKKAAKYKTNHCLEDGVMNFLKS;locus_tag=LOCUS_12480;note=WP_003723485.1 sugar-phosphatase (Listeria monocytogenes) [pid:47.1%25%2C q_cov:84.0%25%2C s_cov:25.2%25%2C Eval:3.3e-09%2C partial hit],MGA_1248
sequence1	MetaGeneAnnotator	CDS	781078	781572	.	-	0	ID=MGA_1249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIYNSIGKSEALRMKKLVYVLPKENSCELCQKYENEVLSLEVLDKKYLTMSEAISNGYHHIGCTHVDIDYYPGDTKIDKKIFSNEDQLKKHKVYMELFKLENEIRNLKYDLENKNSESSLQDNLNKKLLEIEEFCKKNSLQRNLEREEPEINELKKFTKYDIN;locus_tag=LOCUS_12490;note=MGA_1249
sequence1	MetaGeneAnnotator	CDS	782037	782444	.	-	0	ID=MGA_1250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTMVLAIGAGATYYFVFYFVITKMNVLTPGREVEDENAVASSVANKDSAKISKGKDKYAQMAEKILEAIGKDNLVQIDNCATRLRLQVKNNATIDQKQVKASGAFGTKLLGTESVQIVIGPDVEHVARELQKLVK;locus_tag=LOCUS_12500;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:41.4%25%2C q_cov:97.0%25%2C s_cov:23.2%25%2C Eval:1.6e-22%2C partial hit],internal stop codon at [782466:782468](-)%2C[782508:782510](-),MGA_1250
sequence1	MetaGeneAnnotator	CDS	782508	782933	.	-	0	ID=MGA_1251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPILGDKIAPLTGEVIGSNQIVNGDIKAFTDGVSNAGLFQSGFFPIMMGGLPLAAVAMIMAAKKEKRKEVAGFLGGVAGVSFLSGITEPLEFSFVFISPLLLGIHSVLTAIFVGISTALRIQLGFGFSAGFIDYAISFAQS;locus_tag=LOCUS_12510;note=WP_000938894.1 N-acetylglucosamine-specific PTS transporter subunit IIBC (Bacillus) [pid:60.3%25%2C q_cov:85.8%25%2C s_cov:24.2%25%2C Eval:2.9e-35%2C partial hit],internal stop codon at [782466:782468](-)%2C[782508:782510](-)%2C[782940:782942](-)%2C[783084:783086](-)%2C[783090:783092](-)%2C[783216:783218](-),MGA_1251
sequence1	MetaGeneAnnotator	CDS	783216	783455	.	-	0	ID=MGA_1252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLAISSLTAEGTLPNAFYSKVLPFEAHSTNDAGQDVISKFSKLIYVPNIGKDGETIVGGTYVLNIGVLGGIVSGCLSA;locus_tag=LOCUS_12520;note=MGA_1252
sequence1	MetaGeneAnnotator	CDS	786025	786279	.	-	0	ID=MGA_1253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSTTKNLDYLNDLESNTIKEAFFNKNSEYGLDMNDFKGFGVKDITENSAIIYANDDITRRWFYGEAKVNYLSPKVVNYDIDTG;locus_tag=LOCUS_12530;note=MGA_1253
sequence1	MetaGeneAnnotator	CDS	786487	788565	.	-	0	ID=MGA_1254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEITVNSNIPRLNNKKTIKITLNAQKVDFQLETEKINILAQNGSKTDIGIINFDDLIDESNYVKKVEVSDETYLSANIDKNKRYISILANNNYIDKVIEVLVYSNDFIHKIKVTLICPPRKAKLNTNVIDINVNSEGFIKITNFNELYVEDNMPNVQSISDTNALSAELDKASQSIKIRTNNKPVEKVIIKIKSKNVQEVQEITVNVKGVAKDFSLESNEITLDYKQTKTIKVKNYDELYGLDINYPTLFKYNNKFIDVRFNSIAKSIEITAKTTEATNQTLEVSSKMGHKEVVSFTVRIPDIGFKLDNKNITMEYKETKRIKVTNLDEIYNADKNKPNQFLGYDNNAIDVIYDNKTNEIVITAKEKEVINGKITVQSVSGHIDEINYSVSIPNVEFKLEEKLISIDYYKETRLKVINLDQIYRVEKNLPKIFDYDNSVLKLSYDSSSNEIVIKAKNKEVNNGSFIVRSQSGFSKTINYSVSIPNVPFKLETNSVSLGVEQEKRIKITNHNDLYGAAKNFPTSQGLKYNKNVLDVSYDSKNFEIVIKTKKQEASGQIIVESDNHTEYINYNVTVQRVDFELDTNNVSLDVYKEARIKILNKDKLYSYSDKNLPLKYSGYNTDEINVSYDRNLNEIVIKAKGLKTQNKKLIISSQNGTQKTVTYNINVPRVDFDLGNVSNMSVGSSQSIDVKN;locus_tag=LOCUS_12540;note=MGA_1254
sequence1	MetaGeneAnnotator	CDS	788692	789282	.	-	0	ID=MGA_1255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHLLTILATFTIGSSTLSNVSAASFKTSSSNNNSNSELDTNGSKNDNNANSDEQSSKNGSEGTANSIPEFVPEKEKEPTIPQDKRTNLFEIIKETSYYNFKNVDENILLDTVLKKYPELKNEVEIKDFKMPDEEKQTNGSAIINAKDDSLKYKGKVYIYFSIDQYKNYNFNLDKYEETMRVGEQRTFKVTNFSSE;locus_tag=LOCUS_12550;note=MGA_1255
sequence1	MetaGeneAnnotator	CDS	789542	789913	.	-	0	ID=MGA_1256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISQKMGLPMIYVRTKSKDHGKNSQVEGIIKENQKIVVIEDLISTGQSVLNVCEVLKTNKSNVLGVQAIFTYDLLKAKTNFANQNVILNTLSNRKFLIKSMKKSNSFTDENINDLYIFFNSLG;locus_tag=LOCUS_12560;note=WP_002357418.1 orotate phosphoribosyltransferase (Enterococcus) [pid:48.6%25%2C q_cov:90.2%25%2C s_cov:52.9%25%2C Eval:2.2e-24%2C partial hit],internal stop codon at [790079:790081](-),MGA_1256
sequence1	MetaGeneAnnotator	CDS	790161	790844	.	-	0	ID=MGA_1257;product=orotidine-5'-phosphate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016383.1;translation=MNTTPIIALDFSDYKEVKEFLKKMKKERLFLKIGMELFYKYGPRIIKKMIKKNHDIFIDLKLHDIPNTVYKAIKNVLLLKPKIVTVHAFGGAKMLEVTYQAKKELNSDTKILAITCLTSLDDNALKNELNISTNTQETALNLAKLANVNCIDGVVCSVYEVENIKKYICKDFICLTPGIRNEFNNQDQKRVATVLQAKASGSNYIVVGREITKSKDPYQTYLNIKKE;locus_tag=LOCUS_12570;gene=pyrF;EC_number=4.1.1.23;note=WP_011016383.1 orotidine-5'-phosphate decarboxylase (Fusobacterium nucleatum) [pid:46.5%25%2C q_cov:99.1%25%2C s_cov:95.4%25%2C Eval:7.2e-50],MGA_1257
sequence1	MetaGeneAnnotator	CDS	790859	791194	.	-	0	ID=MGA_1258;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAKRFKNLGFQIYATKGTAKKFRENNLAVSEVSKIEENNADNNILKLLKSKEVNIVINTKNKDQSKLYSQDDLIIRRTAIEAQIPLFTSFDTVEAILEVLEYRNFSLNTI;locus_tag=LOCUS_12580;note=WP_011862003.1 carbamoyl-phosphate synthase large subunit (Clostridioides difficile) [pid:42.4%25%2C q_cov:89.2%25%2C s_cov:8.9%25%2C Eval:4.6e-14%2C partial hit],internal stop codon at [791306:791308](-),MGA_1258
sequence1	MetaGeneAnnotator	CDS	791306	792484	.	-	0	ID=MGA_1259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDTCSGEFESTTPYFYSSYETENESIPFKEKSIVVLGSGPIRIGQGIEFDYATVQCIKAIQQCGYKAIVINSNPETVSTDFSISNKLFFEPLTVEDIMNVINYEKPYGVILQFGGQTAINLAQKLENNGVKILGTSLESLDAAESREKFEKLLKSLNILQPLGKTVSDKDEALKVAQEIGYPILLRPSYVLGGQAMHIVNNQKEFDSYIDNAINESNNNGLLIDKYIQGKEYEIDLVSDGSDVFIPGIMEHIEKAGVHSGDSMAVYPPQNLSEQMKKQIIETSTKIALALKVVGIINIQFIVKDNDLFVIEVNPRSSRTVPFMSKITNVNLVNLATSVMFDKKLKDLQDKINNKNEEKNIYIKAPVFSFLKLKEVDVDLGPEMKSTGEVMG;locus_tag=LOCUS_12590;note=WP_001126116.1 carbamoyl-phosphate synthase large subunit (Bacillus) [pid:62.8%25%2C q_cov:100.0%25%2C s_cov:36.6%25%2C Eval:2.2e-142%2C partial hit],internal stop codon at [791306:791308](-)%2C[792548:792550](-),MGA_1259
sequence1	MetaGeneAnnotator	CDS	792548	792919	.	-	0	ID=MGA_1260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSTGEVMAIGRNIEEALLKAVRSLENKKYHIESIEFENTETTKLLEMIAIPNHNRLFIISELLKRNLEINLIHEATKIDVFFLEKLQNIVNLENELKKHKDDLDVLKDAKKKGFSDYIIAKL;locus_tag=LOCUS_12600;note=WP_012775076.1 carbamoyl-phosphate synthase large subunit (Streptococcus suis) [pid:50.4%25%2C q_cov:100.0%25%2C s_cov:11.6%25%2C Eval:2.5e-25%2C partial hit],internal stop codon at [792548:792550](-)%2C[792965:792967](-),MGA_1260
sequence1	MetaGeneAnnotator	CDS	792965	794044	.	-	0	ID=MGA_1261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKRTDIKKILVIGSGPIVIGQAAEFDYSGSQACISLREEGYEVVLINSNPATIMTEKEIADKIYIEPLTVEFVEKIIIKENPDAILPTLGGQTALNLIVDIEKTGILNKLNIEVLGTKLEAIKKAEDRQLFKNLMDDLNEPIAPSEVVSSINEALKVADEIGYPLIIRPSFTLGGGGGGICSNQEELIKIVTQGIQESPVKSVLLEKSLLGFKEIEYEVVRDKNNNTIIVCNMENFDPVGVHTGDSIVFAPTQTLSDQDNQMLRDSSLKIIKALKIEGGCNIQFALDPNSFQYYVIEVNPRVSRSSALASKATGYPIAKISAKIAVGLTLDEIINPVTKSTYAFFEPTLDYVVAKIPR;locus_tag=LOCUS_12610;note=WP_001126466.1 carbamoyl-phosphate synthase large subunit (Streptococcus) [pid:73.5%25%2C q_cov:100.0%25%2C s_cov:33.9%25%2C Eval:4.3e-158%2C partial hit],internal stop codon at [792965:792967](-),MGA_1261
sequence1	MetaGeneAnnotator	CDS	794047	794499	.	-	0	ID=MGA_1262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVDGILLSNGPGDPIVLTEQIEVIKNIIGKVPIFGICLGHQLLALANDFKTKKMKFGHRGINHPVKDLENNRSCITSQNHGYVVDENTIDFKKATITHRSLNDNEVEGISYNNLNAFSVQFHPDSCPGTSDSFYLFDKFISMIEKGKVK;locus_tag=LOCUS_12620;note=WP_002288877.1 carbamoyl phosphate synthase small subunit (Enterococcus) [pid:58.8%25%2C q_cov:98.7%25%2C s_cov:41.3%25%2C Eval:1.0e-47%2C partial hit],internal stop codon at [794614:794616](-),MGA_1262
sequence1	MetaGeneAnnotator	CDS	794614	795024	.	-	0	ID=MGA_1263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGYQESITDQSFNNQIITFTYPLIGNYGINLEDNESLTPSCNGVVVKEFAINGSNFRNKISLDEFLKQKNISGICDVDTRMLTKKIRQHGVMKAAIVCDAKNIEKVKKELKNYNIPSNSVEQVSTKNKYYIYGGK;locus_tag=LOCUS_12630;note=WP_002262008.1 carbamoyl phosphate synthase small subunit (Streptococcus mutans) [pid:58.5%25%2C q_cov:95.6%25%2C s_cov:35.9%25%2C Eval:1.8e-39%2C partial hit],internal stop codon at [794614:794616](-)%2C[795112:795114](-),MGA_1263
sequence1	MetaGeneAnnotator	CDS	795246	795413	.	-	0	ID=MGA_1264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGLDFSFSILYTELVKKNLLSLSELIKKMHSNPNKIFNLKQNIIAEKENANLVV;locus_tag=LOCUS_12640;note=MGA_1264
sequence1	MetaGeneAnnotator	CDS	795453	796382	.	-	0	ID=MGA_1265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLLIKNAKFFENDLLVKKDILIENKIIKKISQMIEVNEKDLLVYEANNKFITPGLIDVHVHTREPGYEYKEDLKSVTRSALVGGVTTFCAMANLNPVPDNVEDYLKIKKMIKEKSFLNIFQMCAATKKLNSDELVDFESLSKAGAKYFSNDGFGIQKKEVMKKILKQIKKTNSIISIHLETESIKKDGYIDDCSLAKKYNLNTFSQDSEVEQLKRDIELLKDINCNYHVGHLTTKKSIDLIREHKKSLNITCEVTPNHLILQSEMFNKNSGLFRINPPIRKEEDRLALIKGLQDGTIDCIATDHAPHH;locus_tag=LOCUS_12650;note=WP_000767028.1 dihydroorotase (Staphylococcus) [pid:40.8%25%2C q_cov:98.7%25%2C s_cov:71.9%25%2C Eval:2.9e-64%2C partial hit],internal stop codon at [795246:795248](-)%2C[795453:795455](-),MGA_1265
sequence1	MetaGeneAnnotator	CDS	796382	796648	.	-	0	ID=MGA_1266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMLLRIQKERQTKEDQIEIDYLNEYGLNKKRYDQLKDNAIIMHPCPVNRDVEIDSDLVESKKSKILEQMNNGLYMRMAILQEVLKDKF;locus_tag=LOCUS_12660;note=WP_001016166.1 aspartate carbamoyltransferase catalytic subunit (Staphylococcus) [pid:53.4%25%2C q_cov:96.6%25%2C s_cov:30.0%25%2C Eval:1.1e-20%2C partial hit],internal stop codon at [796718:796720](-),MGA_1266
sequence1	MetaGeneAnnotator	CDS	796718	797278	.	-	0	ID=MGA_1267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHLLQIEDLSLDQISALINKALDLKKNKNIKKINQKTIVANLFFESSTRTHKSFEIAEKKLNMEVINFNPQTSSVNKGETLYDTVLTMSCLEVDCLVIRHQQKEYYKELINSKNIKCSIINGGDGDGEHPTQSLLDLMTIYENFKTFKNLKIAILGDLKYSRVAHSNMKILKKLGAKIYFFGPKK;locus_tag=LOCUS_12670;note=WP_002262007.1 aspartate carbamoyltransferase catalytic subunit (Streptococcus mutans) [pid:57.5%25%2C q_cov:100.0%25%2C s_cov:60.4%25%2C Eval:1.2e-56%2C partial hit],internal stop codon at [796718:796720](-),MGA_1267
sequence1	MetaGeneAnnotator	CDS	797324	798247	.	-	0	ID=MGA_1268;product=dihydroorotate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245610.1;translation=MSSKLTTKINNIILKNPITIASGPFVNGEYLDTIHDLDILGAITTKTVTYKPRKGNPSPRVAEIKDGYINSVGLRNAGIKRFIEMKLPFVEEMNVPTFVSIAGESMEEYIEMVEMLNPIEFITAIELNISCPNVHNKSIMFESDAEGIKILLTKIKEVSKKPILVKISNNNADILKTARICKEVGVDAIVLLNSPAGMRLDLHTGQSVLTRQYGGMSGKPLKHIALKIVNEISHEVDIPIIGVGGIFNNDDAIEMLLAGACAVGIGSAIMYDPLAAYKMAINFEKDLKRYNFESVEQLVESVRKTRN;locus_tag=LOCUS_12680;EC_number=1.3.1.14;note=WP_003245610.1 dihydroorotate dehydrogenase (Bacillus) [pid:40.3%25%2C q_cov:96.1%25%2C s_cov:94.9%25%2C Eval:5.0e-61],MGA_1268
sequence1	MetaGeneAnnotator	CDS	798296	798568	.	-	0	ID=MGA_1269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRYKKMNISNIQCIGTSFFHILQFNKSIFDIGIKNFIIDCSCYKDIPLYLSTLQQTQHFLKDNNQTDILVNKSLYKTLFYVLYFNFKYC;locus_tag=LOCUS_12690;note=MGA_1269
sequence1	MetaGeneAnnotator	CDS	798805	799059	.	+	0	ID=MGA_1270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIIKAVIDEKLSKKAAAIKICQTIRNVNLLINKYKKYGYTAFIHKNTGRISNKKMKHQISDQIIDLYINKYEEYNYKHFLEKL;locus_tag=LOCUS_12700;note=MGA_1270
sequence1	MetaGeneAnnotator	CDS	799156	799323	.	+	0	ID=MGA_1271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKQKITNLLKNENIKKLEKREYLNTLLSIENIHPMQNRKTEFGERLQTDASVHY;locus_tag=LOCUS_12710;note=MGA_1271
sequence1	MetaGeneAnnotator	CDS	800305	801531	.	-	0	ID=MGA_1272;product=serine hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167047.1;translation=MKLNEIIRESLNAEMKRQQDHIELIASENYVSEAVLIANGSIFTNKYAEGYPGRRYYGGCLNVDKVEQLGIDVAKKLFDAEHVNIQPHSGSQANAAAYKAFLKPGDKVLAMDLRAGGHLSHGFDLNFSGEVYEFAFYGVNKDTYYIDFEEVRNKALEFKPNMILAGASAYSREIDFNKFREIADEVGAYLMVDMAHIAGLVAGRAHSNPCPIADVVTTTTHKTLRGARGGMIFCKQKFAKKVDSAVFPGVQGGPLEHLIAGKTQALIEASDPSFLEYANQVVKNSKALCKVLMDNNIFVLTNGTDNHLLNIEVKTAFNITGKKAEAILESIGIVCNKELLPFDTESSVNTSGLRLGTAAMTTRGFKEKEFEQVGRIIVDALNNKDLESLKKEVKTLCDNFPIYNNIKY;locus_tag=LOCUS_12720;note=WP_011167047.1 serine hydroxymethyltransferase (Mycoplasma mycoides) [pid:68.0%25%2C q_cov:99.8%25%2C s_cov:99.3%25%2C Eval:1.2e-162],MGA_1272
sequence1	MetaGeneAnnotator	CDS	801612	801764	.	-	0	ID=MGA_1273;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIDSSSIELFADDYKTVFTSRFFVKNFNRIEFSNEQDLEVSDIKPIIYK;locus_tag=LOCUS_12730;note=WP_011183424.1 glycoside hydrolase family 32 protein (Mesoplasma florum) [pid:62.0%25%2C q_cov:100.0%25%2C s_cov:10.4%25%2C Eval:4.3e-12%2C partial hit],internal stop codon at [801825:801827](-),MGA_1273
sequence1	MetaGeneAnnotator	CDS	801825	802091	.	-	0	ID=MGA_1274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTIPREMTIENDLLVQKPYEEFSKNTLFNKKNIKTNIVNINKAKHIKFNLEGNTEFKIINDENEYLVVIFNDDEIIMDRSKQTSQVS;locus_tag=LOCUS_12740;note=WP_011183424.1 glycoside hydrolase family 32 protein (Mesoplasma florum) [pid:46.0%25%2C q_cov:98.9%25%2C s_cov:18.2%25%2C Eval:8.7e-18%2C partial hit],internal stop codon at [801825:801827](-)%2C[802098:802100](-)%2C[802143:802145](-)%2C[802173:802175](-)%2C[802194:802196](-),MGA_1274
sequence1	MetaGeneAnnotator	CDS	802392	802526	.	-	0	ID=MGA_1275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFGVRTKDDDQGGLAIYEMKDYDKFEYKTILKPSLKDNTYGYM;locus_tag=LOCUS_12750;note=MGA_1275
sequence1	MetaGeneAnnotator	CDS	803070	803240	.	-	0	ID=MGA_1276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIAIIVTIGTTFLATILLSRLKYFKKLTKSILERDFAPVPGVTNEVKKTKVESKG;locus_tag=LOCUS_12760;note=MGA_1276
sequence1	MetaGeneAnnotator	CDS	803262	803633	.	-	0	ID=MGA_1277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVALQQFMTYNATSINPMFTQLNISVATSVMAFAIMNKKNKELQKTAVPAYLIAFVGGSTEPALFGVALRFLFPVIAVSIGTTAGVIVTTASGVLTTMGPCSLLVFLTVIPQASTRPGFDMNT;locus_tag=LOCUS_12770;note=WP_011183425.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:54.5%25%2C q_cov:100.0%25%2C s_cov:24.1%25%2C Eval:3.0e-34%2C partial hit],internal stop codon at [803241:803243](-)%2C[803262:803264](-)%2C[803667:803669](-)%2C[803730:803732](-),MGA_1277
sequence1	MetaGeneAnnotator	CDS	803730	803912	.	-	0	ID=MGA_1278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLIAFTAVYLERLVRKIKFGVVKEIFGIPSVMLIAFFIGQLLLAPIGMLITYGMNIAVL;locus_tag=LOCUS_12780;note=WP_011183425.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:46.7%25%2C q_cov:100.0%25%2C s_cov:11.8%25%2C Eval:1.2e-09%2C partial hit],internal stop codon at [803667:803669](-)%2C[803730:803732](-)%2C[803943:803945](-)%2C[803976:803978](-)%2C[804015:804017](-)%2C[804138:804140](-),MGA_1278
sequence1	MetaGeneAnnotator	CDS	804138	804695	.	-	0	ID=MGA_1279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGNKMKIFSKKNTIDTNIIAIAEDLGNTENVENVSHCATRVRIKVKNIDIVKINSLKENILINGVVVNENLVQLVIKKDIEQFNKDLLSSLGVSLKRVVNFYDVKLTTKKSFFKTLTDGIGLLVMPIIPYLITLSIISTIENIINGIEVNGSTIKDTGEFSKTLGSILKSLQKALALSFSILIP;locus_tag=LOCUS_12790;note=MGA_1279
sequence1	MetaGeneAnnotator	CDS	804856	805161	.	+	0	ID=MGA_1280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKVFQNELFNNGNSYLLINDKKEAILIDLANKADEILEYIEKNNINLTTILITHGHFDHLVSIEKVLTKFNNLKLYIGKEDEVCLYDPEMNAGASRNNF;locus_tag=LOCUS_12800;note=WP_011183552.1 MBL fold metallo-hydrolase (Mesoplasma florum) [pid:40.2%25%2C q_cov:90.1%25%2C s_cov:39.4%25%2C Eval:1.6e-11%2C partial hit],internal stop codon at [805160:805162](+),frameshifted%2C insertion/deletion at around 804889,MGA_1280
sequence1	MetaGeneAnnotator	CDS	805192	805515	.	+	0	ID=MGA_1281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDKSISLNINDFNFDIYLMKGHTPGTVFYHLVDLNYMFCGDTLFKEKIGFHGKEMKRCNDDIFKKSIQFLYTNKFKDTTLFPGHHESNIKISEIKKINIIANEFIK;locus_tag=LOCUS_12810;note=MGA_1281
sequence1	MetaGeneAnnotator	CDS	805817	806140	.	-	0	ID=MGA_1282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFNSIAIVLFIGAINSYLVYQTVLVKKMAEEKDLSKHFLKNSKLSDKPLNSMLLLMLLATVYIIFNDIRDLLGYFSLAVSALKTLMTTNVIYLRIKDKDYKKIYKD;locus_tag=LOCUS_12820;note=MGA_1282
sequence1	MetaGeneAnnotator	CDS	806147	806476	.	-	0	ID=MGA_1283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFILILALIYGVNDDLLSSNTMKQNLKDAYIGGSLLIPAITMTMFSYSGTEIPTYVAADTKNPEKTTPRVIFVGVIIVAIVYIVYAVAILSISNIGTNKFLNVFANTPK;locus_tag=LOCUS_12830;note=MGA_1283
sequence1	MetaGeneAnnotator	CDS	807774	807986	.	-	0	ID=MGA_1284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKMKKYTYNLLTIILTVILFPIIYFKSKKHFNSFKNFCYTYPRYGKYKGDNKYYQLIPTLTNTLEYHY;locus_tag=LOCUS_12840;note=MGA_1284
sequence1	MetaGeneAnnotator	CDS	808436	808606	.	+	0	ID=MGA_1285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLEELREALKLERALKKHLAKTVKEKYFAIFNAKKCFSLKIVCEYLGVSRYGYLK;locus_tag=LOCUS_12850;note=MGA_1285
sequence1	MetaGeneAnnotator	CDS	809146	809379	.	+	0	ID=MGA_1286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRRGNSPDNGACESFFGTLKNECIYTYKVNELNYSNIYNVISDYIEFYNYVRPILKYKKTPYKFVWRKYLFNVNFN;locus_tag=LOCUS_12860;note=WP_140860145.1 IS3 family transposase (Streptococcus shenyangsis) [pid:49.2%25%2C q_cov:76.6%25%2C s_cov:13.1%25%2C Eval:2.0e-09%2C partial hit],internal stop codon at [808984:808986](+)%2C[809107:809109](+),MGA_1286
sequence1	MetaGeneAnnotator	CDS	809793	809945	.	-	0	ID=MGA_1287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIHSDNGNQYTSIFAKRYAKRNNIIISLSRPGNSIDNAMCETFFSSLKEE;locus_tag=LOCUS_12870;note=MGA_1287
sequence1	MetaGeneAnnotator	CDS	810149	810382	.	-	0	ID=MGA_1288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLALKIKNIFTNNNGIYGSPRIRIILNNQGLEVSQTKVARIMKIFKLYSIIRVKKMYRKPKEIKTITHGPNYVNRN;locus_tag=LOCUS_12880;note=MGA_1288
sequence1	MetaGeneAnnotator	CDS	810714	810869	.	-	0	ID=MGA_1289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANHKGNKSTILDLNAKKDLVNKHFNEHIFYKKLSMIYNISYSAARRMFID;locus_tag=LOCUS_12890;note=MGA_1289
sequence1	MetaGeneAnnotator	CDS	811165	811983	.	-	0	ID=MGA_1290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLLLNSLNILVFSTGSIIACNKKPADTNQNNNNNNDTNQGGSTSSTHTKRDLNSIKIKELGDIKGSNKLPTLQDILSKLLDVNKEEFFTTSDVKFSSDPTLKEAKIEALATSTKVFGSTTITYNYVQLKPSFAQEEINLYIKVFEERSFSIRINNPVVNQKLEVIVPSEERDAKCLKIITPETSSNNSDGVFTIKYKLEKYIDSGQGEEEKYYFVAPILLKYDGLEKIVHVECSRINLYQDIVDTAIVDLGEIDMEGDHPTLEEVLKA;locus_tag=LOCUS_12900;note=MGA_1290
sequence1	MetaGeneAnnotator	CDS	812095	813264	.	-	0	ID=MGA_1291;product=DNA recombination protein RmuC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166554.1;translation=MQTVIIVLLSIVIILISIFMIIFFTRKSNVKIEGVDKNDIEILKRDLELENEKRATNINTLLSNIISEQKNTITKSESDLKTFLSDISSKSDKNLNDTERQVRDFILKQANETKNKLDSSTTKLEEALKAINEKTIPISEVKEKVSRLDNLLSQNNKAGKAGEYMLERILSNIVNLKKSDNILYEAQYKMIKKTNDNKSLIVDLFIKGDSTKFINIPVDAKFPFNAFEKLSGLDLSSEEYKKYLNEFINDCKNRIKETEKYISEEDKTVYSVMFVPSEGIFSFLCEQTQLIDYAFKSKVIIAGPSTLTAIIYSIDNYMNLFEMISSYDKKIDILKKILKYIENYDEEMTKLFEIIKKLHDQYLEVMKKDNSLKKMYKNLSIENNIKDDL;locus_tag=LOCUS_12910;note=WP_011166554.1 DNA recombination protein RmuC (Mycoplasma mycoides) [pid:30.2%25%2C q_cov:79.9%25%2C s_cov:91.9%25%2C Eval:2.3e-27],MGA_1291
sequence1	MetaGeneAnnotator	CDS	814225	815346	.	-	0	ID=MGA_1292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNYFNPFRDKENDNSGFILKDYQQEIIEKYKEDLFEYKNHSVILPTGTGKTIVAAFMFLHLQDVIDKPKLLFTTHRTEILNNAFNRFKQIVKGFEPVLIDTNNQKIIDFESIKNKSVFVTNKLLKNLIDKNKFNKNQFDIIFYDEAHHFDNESETNIFDYIFKYFNPTNNIALTATPERRQGLESITNIFDNVLYHMELHEAIEKKLVCEINYYLMHDKSEIKLTRDDLNSEVKLLLKADNLKRNSLVLDAIRKYLEYCFTTIIFCINIEHAKRINEILINNGYNSDYLVSDDINRSEKLDKFINKKLNFLCVVDILNEGIDIPEIDSVIFLRPTQSKTIYLQQLGRGLRKFNDKKLKVIDIATNIEIKDY;locus_tag=LOCUS_12920;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:38.8%25%2C q_cov:94.1%25%2C s_cov:38.2%25%2C Eval:8.4e-56%2C partial hit],MGA_1292
sequence1	MetaGeneAnnotator	CDS	815410	815859	.	-	0	ID=MGA_1293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHYSDLSSTSLVEAIKSFINKTNTFYIISPFITKEAFYEFDKELEDFFGRNGKLKIITSTFTESGESFNYDDLFYISKKYKRNIEIKVQIVKRGEKPLHKKIYGFMYENDFDIILGSANFTYRGLYGKEISSLQSNESKQNLLNEIEYM;locus_tag=LOCUS_12930;note=MGA_1293
sequence1	MetaGeneAnnotator	CDS	816069	816197	.	-	0	ID=MGA_1294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKNSIEQIGCIHTSQGLEIDYVGVIIGPDLIVKNNKIETD;locus_tag=LOCUS_12940;note=WP_011183195.1 DUF2075 domain-containing protein (Mesoplasma florum) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:6.7%25%2C Eval:7.9e-11%2C partial hit],internal stop codon at [816069:816071](-)%2C[816222:816224](-)%2C[816282:816284](-)%2C[816288:816290](-),MGA_1294
sequence1	MetaGeneAnnotator	CDS	816288	817424	.	-	0	ID=MGA_1295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVDTYVGGRRREVSHPSYQAFAYGRFLNDFSEVVYSNKNIEVLTCAFLHNYDVDKHPDIIDSQYNDYLYDAPLFFKKDLKKLRDYIKENLISGDNAQLIDEIDNGQIRPGKSIQDSMREIIDNNSDFYLLDDQKVVYEKIVSLSVKSKKDNKKRVLIVPGGPGTGKTLIALKVLSSCIQKEQNAIYCSKNASVREAFKKLILDKNEDKKFTKVRLDNLFKGSSIFSDLLKNHYDLTIVDESHRLIERSQYTPIGKGYNNQIREIICESRVSVFFIDEKQLVTNSDIGTIKEIKRQAKLEGILDENILEFEELTSQFRSSGADDYIQFIDNILYDGLKCDMSFRNAFDFKVFDNPQDMYEAIVKKSKCCSARVLAGYC;locus_tag=LOCUS_12950;note=WP_011183195.1 DUF2075 domain-containing protein (Mesoplasma florum) [pid:54.6%25%2C q_cov:99.7%25%2C s_cov:59.9%25%2C Eval:1.2e-121%2C partial hit],internal stop codon at [816069:816071](-)%2C[816222:816224](-)%2C[816282:816284](-)%2C[816288:816290](-)%2C[817455:817457](-)%2C[817626:817628](-),MGA_1295
sequence1	MetaGeneAnnotator	CDS	817455	817607	.	-	0	ID=MGA_1296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIVFSDNDISKNIGVAIEYNLPRSSKRIDIILSGLNDEKRRIIIIELKQ;locus_tag=LOCUS_12960;note=WP_011183195.1 DUF2075 domain-containing protein (Mesoplasma florum) [pid:54.0%25%2C q_cov:100.0%25%2C s_cov:7.9%25%2C Eval:9.8e-09%2C partial hit],internal stop codon at [817455:817457](-)%2C[817626:817628](-),MGA_1296
sequence1	MetaGeneAnnotator	CDS	817626	817757	.	-	0	ID=MGA_1297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIYRNNVDGFNEDVDNGILIEKIKEELKFKMNKKVNINEENS;locus_tag=LOCUS_12970;note=MGA_1297
sequence1	MetaGeneAnnotator	CDS	817877	818092	.	-	0	ID=MGA_1298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVKIFVPLILSIIFLVIGIIIKIFIVNKKNFSLSITKKGFFGNFIRNLPVAFYTCSIFILLFCIISPLML;locus_tag=LOCUS_12980;note=MGA_1298
sequence1	MetaGeneAnnotator	CDS	818082	818732	.	-	0	ID=MGA_1299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLRNLLSNEIIEIGDGCTEKLKENINMLAINFSENRKINSFEDFEVRIFKLLETNNIKNFKFVNRYNLKKQDNIEMISEIDFLNSLIEEENEVYIELRKKEIIIFFVKEQKIEIIRKGYVNILSYINSYFYLNHNCTLNTKKTIDLLNKISKNIEVKSVICRSYEDGSDVLIKVEDFELLLKPLKNLKEEVNTKIVKYKNIKFNNDYEEVFKYVS;locus_tag=LOCUS_12990;note=MGA_1299
sequence1	MetaGeneAnnotator	CDS	818822	819310	.	-	0	ID=MGA_1300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFKNILNNIYLGDQFSLNLIDHQCELKIGDIYYNILNSKKEYNYKNQYFILSGDKMAINMKDSHDPDDFCNDLFVPAIKFLIENSEKTNIYTHCQLGVSRSASTIFIFLVVMKVLPHDNFKQALKKYIKDFYPYMKLNLGVYKFLENNFPFKEIANKMNTN;locus_tag=LOCUS_13000;note=MGA_1300
sequence1	MetaGeneAnnotator	CDS	819310	819729	.	-	0	ID=MGA_1301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGALYFGTFFILIKKLNLKTPGRDGKVAVIGKDLKKVDQSENVNKKIKSSTKNKKEEYDEEFIKNIIDGCGGPENIKIMANCVTRLRVTMFDKSKFNKELVDKTKPYGYAEIGDQMQIIYGPRVTNIATIVREKLGVES;locus_tag=LOCUS_13010;note=WP_009890719.1 PTS transporter subunit EIIC (Clostridioides difficile) [pid:35.6%25%2C q_cov:95.0%25%2C s_cov:21.9%25%2C Eval:1.1e-15%2C partial hit],internal stop codon at [819754:819756](-)%2C[819775:819777](-)%2C[819799:819801](-),MGA_1301
sequence1	MetaGeneAnnotator	CDS	819866	820204	.	+	0	ID=MGA_1302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPVKKTWIPYNIGAENKNVNSKGSVVPANIDANKADIMALPTTFLFPFGIQKYIANAAPVKLNIFVGNVPLTIQVSFAFINSPDPNLAIAMLYIPSIFSPEGEIHSPPTDV;locus_tag=LOCUS_13020;note=MGA_1302
sequence1	MetaGeneAnnotator	CDS	820372	820944	.	-	0	ID=MGA_1303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKSIKINYKHFFGKLRSSLEGFGRAILVPVTVIPLLALIGSIGYAGQAIATQAGTYTGNVKIAFDAIKNIGMIAISNIDFLVAVGLAAGLAKSEKVSAALSGLMAYAAIHFAANLMLQSVYPEMLKTPKEFGLSTRFGVTSFQYSAFGGMIAGLLGFYIHKLTYKLKFPEFLSFFGGPRFSPVASTLVA;locus_tag=LOCUS_13030;note=WP_010890592.1 PTS transporter subunit EIIC (Borreliella burgdorferi) [pid:29.7%25%2C q_cov:88.9%25%2C s_cov:35.4%25%2C Eval:7.4e-17%2C partial hit],internal stop codon at [820180:820182](-)%2C[820300:820302](-)%2C[820342:820344](-)%2C[820372:820374](-),MGA_1303
sequence1	MetaGeneAnnotator	CDS	821035	821859	.	-	0	ID=MGA_1304;product=SIS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167081.1;translation=MDVKYKFLNEINKLSPQEKEISNYILENLNSYKELSLKNISNKIKCEQSAITKTLKKLGFSGLKELKISLDKQFYLDQEKQNDNDYSFLLQSFLEKIITSIKKTNDDLNFENFLKLSKTLLVSNKKIKIFATGKTKIIAQLLFFQLIEMGFIVEIFSSLYDINAFEVEDNIVILISLSGNNSKINRYLNTIYNKKSYKIIAICGSYNFFLDKEVDILIKSNETNFFVDNNKANPFVEKYNLLYLIDLLLLILSINIDEDKKHFKSKIKSNNFIN;locus_tag=LOCUS_13040;note=WP_011167081.1 SIS domain-containing protein (Mycoplasma mycoides) [pid:39.9%25%2C q_cov:91.6%25%2C s_cov:99.2%25%2C Eval:1.6e-44],MGA_1304
sequence1	MetaGeneAnnotator	CDS	822019	822369	.	-	0	ID=MGA_1305;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFFKTPLNGLSGGQKQRFNALLSVINDPKIIILDELTTGLDLELQFKIIEFFKQKVKNKQTLLIVSHHPDEIEQLCNRLIIISDNKVLLDKTIEEIRKEYGTVRNLMNKFYKGKI;locus_tag=LOCUS_13050;note=WP_011183542.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:60.9%25%2C q_cov:98.3%25%2C s_cov:49.1%25%2C Eval:7.1e-36%2C partial hit],internal stop codon at [822472:822474](-)%2C[822505:822507](-),MGA_1305
sequence1	MetaGeneAnnotator	CDS	822816	823025	.	-	0	ID=MGA_1306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFSGTMLDPRLYEGVEGIRIFTYFVPLKYAVSIMLFSQYKNGTLESAGFNIGRYDDNEVPLFKDFSST;locus_tag=LOCUS_13060;note=MGA_1306
sequence1	MetaGeneAnnotator	CDS	823821	824273	.	-	0	ID=MGA_1307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIALSTYFLNFFFNPYDTNNNYIFKTDFLKYFGLVLFIVLFLAFMVYESVYQFKQYLKASKNNNSNFNVVKNNVLFLLNLINTCVPLLIVRLTQFALKVEKVDNLSFFESLVMIKTFGFFACFLVTTIIAYFCFKLIKAIIRYDFLKKF;locus_tag=LOCUS_13070;note=MGA_1307
sequence1	MetaGeneAnnotator	CDS	824533	824703	.	-	0	ID=MGA_1308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSSNKDILGLFILLKSEFQNIKYINNCLIYLELEYSNEKVLNGIANISYYEKIYM;locus_tag=LOCUS_13080;note=MGA_1308
sequence1	MetaGeneAnnotator	CDS	825326	825628	.	-	0	ID=MGA_1309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGLMTAKQINPKKIIMIDLDRSRLDFAKEHGATDIVCATGEEAIKEIMKITNNEGSNVVIEAIGTKFTFDLAQKIVSTAGHIAIVGVFGESVEFNLQDL;locus_tag=LOCUS_13090;note=WP_001200719.1 zinc-dependent alcohol dehydrogenase family protein (Streptococcus) [pid:49.5%25%2C q_cov:100.0%25%2C s_cov:28.8%25%2C Eval:1.1e-20%2C partial hit],internal stop codon at [825326:825328](-)%2C[825839:825841](-),MGA_1309
sequence1	MetaGeneAnnotator	CDS	825839	826168	.	-	0	ID=MGA_1310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAACFDKSNLKYVVKEIEKPGIQKQTDAIVKMMYTTICGTDLHILKGDVPEVPDGCVLGHEGIGRIEQLGSEVSNLKIGDVVIVSCITSCGKCKYCSTNCQSHCEDGG;locus_tag=LOCUS_13100;note=WP_000649468.1 zinc-dependent alcohol dehydrogenase family protein (Streptococcus pneumoniae) [pid:55.0%25%2C q_cov:100.0%25%2C s_cov:30.7%25%2C Eval:4.4e-30%2C partial hit],internal stop codon at [825839:825841](-),MGA_1310
sequence1	MetaGeneAnnotator	CDS	826288	826770	.	-	0	ID=MGA_1311;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIFVANYVKENNIEKFLYMAKFLEVAALEFFVSIFNDLPILKEYLLIKGYDLYDFFFNQNNFKIISYKYKTQHILKDYMINYGDEYENFEIGKDGMKHFEKIAKGRDADDLDFDKVKEHSFNDLKKGVDLLNYINELANFPDDQVINIKELKDDEISEE;locus_tag=LOCUS_13110;note=MGA_1311
sequence1	MetaGeneAnnotator	CDS	826942	827070	.	-	0	ID=MGA_1312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLVKKENYYLAFNKNTAIQVINRLKPQRLCVIDFEAFQFTK;locus_tag=LOCUS_13120;note=MGA_1312
sequence1	MetaGeneAnnotator	CDS	827221	827412	.	+	0	ID=MGA_1313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTLLASIGLVSTASTAIIACNNTTQDVITDLNKISNKDLKTLVGKDQTPSLESIVQAIN;locus_tag=LOCUS_13130;note=MGA_1313
sequence1	MetaGeneAnnotator	CDS	827647	828201	.	+	0	ID=MGA_1314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSNLQNRLVVKDSLKKFVVELAKKASSYVAFTADQIMDMIDINYRDGQNKSIIETDKETKIEKLYITVKDGHQNDIKNYISYGVAKINLKEQIDLKTAATQKDLGKITFINMDYEEDQKSKIIVEFMNKNSNITVDNASQFSISNYNLKGGFATINNGFNGSYTNEVTVKFIADIQNNENIQN;locus_tag=LOCUS_13140;note=MGA_1314
sequence1	MetaGeneAnnotator	CDS	828511	828633	.	+	0	ID=MGA_1315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSENEGPFDATGSITIEVKKGQENKYLDKGYILSGKLKT;locus_tag=LOCUS_13150;note=MGA_1315
sequence1	MetaGeneAnnotator	CDS	828791	829225	.	-	0	ID=MGA_1316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTQASFSMNPKMGDYSVNAPNNFLATTEIKDTKFISEEKNLVNQISSLIITIGAFFIAFTIIISTLSIILISDLYVNQYKKFMVVMKSMGYSNREIITYTFKFVTIFSVILFVLATALSYLCVYYVLQYVSTYLVSIPVGFMW;locus_tag=LOCUS_13160;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:32.2%25%2C q_cov:79.9%25%2C s_cov:6.6%25%2C Eval:2.4e-16%2C partial hit],internal stop codon at [828791:828793](-),MGA_1316
sequence1	MetaGeneAnnotator	CDS	829313	829507	.	-	0	ID=MGA_1317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVADQSLVNLINGYSTARYLPFDFSYEDKNNPSGQYEAGEGVNIDTYKINTPESQISESNKNN;locus_tag=LOCUS_13170;note=MGA_1317
sequence1	MetaGeneAnnotator	CDS	830222	830560	.	-	0	ID=MGA_1318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNQKDNPLVTGLDKTQSAYKISNSANNIFLSDKDIKDIENILYGRVIPKENLIINGIKVYDIDSKTLNIPVLANKQSSINYEFKDSQIQDVKTNVTRFTLTKDGINIPNSA;locus_tag=LOCUS_13180;note=MGA_1318
sequence1	MetaGeneAnnotator	CDS	831200	831328	.	-	0	ID=MGA_1319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMPGVVKKTLNEYYKNADYSSSVSNVDVIGNAPFSKTALSP;locus_tag=LOCUS_13190;note=MGA_1319
sequence1	MetaGeneAnnotator	CDS	831692	831856	.	-	0	ID=MGA_1320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIALAATLIAIKKTIQLNAGEISILKAMGSKNSHIAVSYLSYGIISSFIIVPIA;locus_tag=LOCUS_13200;note=MGA_1320
sequence1	MetaGeneAnnotator	CDS	832076	832441	.	-	0	ID=MGA_1321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIVSGNFPTASNEIIINPQFAKANNYKLGSTISIGGSTFVISGFGVDPLTFFPIADINIPVPNSKKSVIVYGTQETLAQVVTNDYAKYTSKFLYNFVTANEKNKSELQVLDYYSNMMSEE;locus_tag=LOCUS_13210;note=WP_011183056.1 ABC transporter permease (Mesoplasma florum) [pid:34.8%25%2C q_cov:90.9%25%2C s_cov:6.2%25%2C Eval:7.0e-15%2C partial hit],internal stop codon at [832076:832078](-)%2C[832451:832453](-),MGA_1321
sequence1	MetaGeneAnnotator	CDS	832451	834133	.	-	0	ID=MGA_1322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFSIFLYLKQGIKGVYKFKIQFYVIIILTFIASLILGISLSASTRIINNYKQVMSKMDKFDYVSSREVGTVNNLDLKSVPMMDFVDFQFLAKKFSDLDTYNQANNGVGYNFNLISLNENATYLSGNASKNQDQFSLKNIDNSFVDEYKKEYIDTFIAKSFRQTEVKNSFFNLLSSDSFLEPIFHYKYDEYSGKIEYKNSYEKYNQLKITNLTKYADFIDNSSIKSKVYKDFYQTTILALRTNFLNDLKDKKDYLKTTTYNKLFENNIINESNFNQIFNENNPLTNENISIYDLYLLSAFNTLIGQIINNTIDYVQHYIDLSIFIAQNDKENKVIDQTVLTKTFDALKNTNENPGFAYYDESSNDNDRKVIANVLYTYIFGNIYSDQKDYLNEDYKNKLYQMQYNVEENKYQLPYLQQIDLASNTLNENKNINYKNYYVNESDDNYERGIRGSLNQLVVSVDNKNQPTGNVIRRDRLKLLKLESETSTLNENLVEKNGFTTFATKNELNRNNIDNIKLFYLKNKIVAQASNVKSDLRAEMSFPDSQKEMKYRLIVLDDQ;locus_tag=LOCUS_13220;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:23.2%25%2C q_cov:99.8%25%2C s_cov:26.6%25%2C Eval:1.1e-20%2C partial hit],MGA_1322
sequence1	MetaGeneAnnotator	CDS	834254	834787	.	+	0	ID=MGA_1323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLAVLCSLSISSTLFSVTSCSLVNYEKQYVKNKVNSLVDIASLASRSAILNDVEGIDVDYLNTFIGNKKIKDLEPNFSASDQASTSSVVNSVFDKTLDRSYYENLASNSEYNLSSKTSPNSYADSIVDNGLLILSTIKSSGGIKPSLGGVIEGLIPQLSSIFGNLKNEFNIDKN;locus_tag=LOCUS_13230;note=MGA_1323
sequence1	MetaGeneAnnotator	CDS	834797	835213	.	+	0	ID=MGA_1324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQLAPYAQQLINDLDKTNLISTICRLLFNINFINDKKVDDSVIDNLTPMILGTNSEKVTNIPFIIEDYINNVMFKDFKGQYKDKFNETHKIDLTLKVVQQSALRKLNRFLYNLSGNEDNNLKAELSLDDYLPIDNSS;locus_tag=LOCUS_13240;note=MGA_1324
sequence1	MetaGeneAnnotator	CDS	835613	836014	.	+	0	ID=MGA_1325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRILFLLLYSNSPTKQDYLIPENLGLLDVLSLGSDKLEQEVTGTDSLLNGVIQALGFKLFDILKDISLPEFLKNIGALAASRLFGITGDSIVNDRSIMGLSSLLKLINSFTDTGISISDESTNKLQNGFQAL;locus_tag=LOCUS_13250;note=MGA_1325
sequence1	MetaGeneAnnotator	CDS	836096	836800	.	+	0	ID=MGA_1326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEITSGLYLNTILKIFSEIYNENSEARSKYNSEKEKNQQGNVSDGIKKFASSATNKFKVYFNNKINSDEGLVKDLKGTSGNSSGEYNTLTTALSLMKYNGLALRDDDYKNNNLSFAGYKGLMYALGYKEGVNEFKDNSILKAAEIIFDDNHFENIMTNTLDDFKFLSNTKKEYIKDKIEPLIDSKNFVSKLLTYSEIDNKNILGTISFEISYTPINKNIYKYQITLMENSKMEN;locus_tag=LOCUS_13260;note=MGA_1326
sequence1	MetaGeneAnnotator	CDS	836827	836976	.	-	0	ID=MGA_1327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRHEILNEVGKEKVYRDINEFLESVLNYKSEYIDISKEENENENEKKIT;locus_tag=LOCUS_13270;note=MGA_1327
sequence1	MetaGeneAnnotator	CDS	837307	837477	.	-	0	ID=MGA_1328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSFMVRNYISNYGDSVDGAIIVGTALYSSLVLNFGLGVAKKNQKKYGEKNVDKLI;locus_tag=LOCUS_13280;note=MGA_1328
sequence1	MetaGeneAnnotator	CDS	837565	837699	.	-	0	ID=MGA_1329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYINFVEFLNKNNYIVIGSDHRGHGKTANLEENELGFFAKEDG;locus_tag=LOCUS_13290;note=WP_011182996.1 alpha/beta hydrolase (Mesoplasma florum) [pid:54.5%25%2C q_cov:100.0%25%2C s_cov:14.2%25%2C Eval:1.8e-07%2C partial hit],internal stop codon at [837307:837309](-)%2C[837565:837567](-)%2C[837760:837762](-),MGA_1329
sequence1	MetaGeneAnnotator	CDS	837931	838140	.	-	0	ID=MGA_1330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINDFGEKIKVTKSEANKVFDSLKVTIDGQQTNDFTYTVKDATTNTENKFEIKLSYEGKYLKVSSISKL;locus_tag=LOCUS_13300;note=MGA_1330
sequence1	MetaGeneAnnotator	CDS	838171	838554	.	-	0	ID=MGA_1331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQGPIENIFKLPLFASKKEEVKVFDSKKDLGMGFLTTNSLQFIVNKMIENATPKKPEARDDDTSDVIVKFDSFAELFKRLYTNSTLSNALADLDNMMNILGLNSDGSIKEKSVLEQLQTVIQENVT;locus_tag=LOCUS_13310;note=MGA_1331
sequence1	MetaGeneAnnotator	CDS	838930	840126	.	-	0	ID=MGA_1332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLISILGVLSISASPVSFAIACGAKTNTSFDGKEDQDNISILMSQYAKALYLNQNEIDTTSEGLNKVHYSSSYIMNDHVKNNYISNLKIISFSGVETNAYTRYSEIASKYFKNSSEFVSSDVAVDDSVYKGEVVAPEISGTMSTLGSLLQSVPTILKSLANPAAFPGLMALVGQKLKDFVSVDLIKSLGKIVTDDVLKDFEKAFSIDAYKDDKGEFLSFEDAMNASIIALSNSIDKIINKDSSSEALSYKNSRDINSNIFGASKVLGQNIGGVLNGSKKINLDLLTDIGSLPGVLFFVRTLLVYLNSYSVTELTSKELTISEIDTKRTTKVAEKDNVFNFSNALKVLSIIVNDSSTSAKEGESSKGLGARVIRNLLGAFLATPSETKSENTSAKGN;locus_tag=LOCUS_13320;note=MGA_1332
sequence1	MetaGeneAnnotator	CDS	840178	840819	.	-	0	ID=MGA_1333;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKTGIYKQAVALVQQQVINENDLFFIEIGGNDLFALADARDDLNAQADIMNNAIENIKKCFYTLINNGAKKIIFASPPDILLTPRYNNKNTEKPYTEDDLNKIKLLCQEFDSKLSNLITKINKETNDVIKTYNLYSELKNILDEFKKTTPNANIENNLCTSTAFDLGSLDLTNIDINATVRKEYQVNNIDEFFFIDQVHPTAAGHKFVADKI;locus_tag=LOCUS_13330;note=WP_011183222.1 SGNH/GDSL hydrolase family protein (Mesoplasma florum) [pid:29.0%25%2C q_cov:96.7%25%2C s_cov:57.9%25%2C Eval:7.3e-22%2C partial hit],internal stop codon at [840886:840888](-),MGA_1333
sequence1	MetaGeneAnnotator	CDS	840886	841302	.	-	0	ID=MGA_1334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTLLSMVTISISTASASVACLPAQAKINTTFDNLIGKDIDKSNAVDTSEDPANHFGVSNFYTLGDSLSDNGGLVTIAKDELGVDAKMSGEYKNGFSNGLRTAELINQKLNFSADSFKSSNLIHQADVDYKGKKS;locus_tag=LOCUS_13340;note=WP_011183222.1 SGNH/GDSL hydrolase family protein (Mesoplasma florum) [pid:32.2%25%2C q_cov:98.6%25%2C s_cov:33.1%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [840886:840888](-),MGA_1334
sequence1	MetaGeneAnnotator	CDS	841302	841529	.	-	0	ID=MGA_1335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVMGHNIFKDKTLDESKMPKQKVETSELYVPFFTSTLDNLRAGVVFFLILLIVVIPCFTYTLTMLIINKKRGNS;locus_tag=LOCUS_13350;note=MGA_1335
sequence1	MetaGeneAnnotator	CDS	841566	841748	.	-	0	ID=MGA_1336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKNGGIKEIFSSSIRNDLLRNQTIIDQDVYESKLQASDPGISGIDVSASLGTLLVNNKI;locus_tag=LOCUS_13360;note=MGA_1336
sequence1	MetaGeneAnnotator	CDS	841890	842228	.	-	0	ID=MGA_1337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKFKDFFTTKVKLKLIIFPIVFSVYFLFSLLMVIPGVGIESLRFINSIHKQIGEVMPKGVFVVDGKDVSYDLVMENVIKKAYTSDSISTLNSYETENYSQKRSDYEKFSNE;locus_tag=LOCUS_13370;note=WP_011183223.1 hypothetical protein (Mesoplasma florum) [pid:36.6%25%2C q_cov:90.2%25%2C s_cov:33.0%25%2C Eval:1.2e-14%2C partial hit],internal stop codon at [841749:841751](-)%2C[841875:841877](-)%2C[841890:841892](-),MGA_1337
sequence1	MetaGeneAnnotator	CDS	842356	842673	.	-	0	ID=MGA_1338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMLSGGQKQRLVIARMILKDPELLILDEATSALDNIVEKEIQKELDKLMVGRTSISIAHRLSTIKNCDQIIVLGRDQGVVQVGTFDQLKKQEGHFKKLYEAGLMD;locus_tag=LOCUS_13380;note=WP_011183321.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:76.2%25%2C q_cov:99.0%25%2C s_cov:17.2%25%2C Eval:1.0e-37%2C partial hit],internal stop codon at [842710:842712](-),MGA_1338
sequence1	MetaGeneAnnotator	CDS	842710	843909	.	-	0	ID=MGA_1339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFILLGITTYLTQYIAGIMGKNIEIELRNKALERLVKQDMSYYSDKKIGEILTKIVADTQIIGEQAQQVPVTFMGALFTFCGSIATLSTIDLKLTGVVILLMISIFGVLITTFGVVKKIALRVRKSITNINGDVTDRIATIRLIKASGTENYETERFKKIHVDYNKKSRTLIATQSSIITVITVGISSIQVAIVVAAALMYYDNPNYLAVTLSSFISGIGTMVGPIMQITRLIVGLIQASAGSIRINEIIKSKSILNVSYDEETGEKIKNINGDIIFKDIEFAYPEKPEKIILPRFSFTFEHGKSYAFVGETGAGKSTVAKMLLRFYDPSKGQILINGKTDLRNVNLANYLDKVGYVEQEPQILYGNVFDNIKYGRFDATDEEVIEAAKKAELHSLIMT;locus_tag=LOCUS_13390;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:49.9%25%2C q_cov:99.5%25%2C s_cov:59.9%25%2C Eval:3.5e-111%2C partial hit],internal stop codon at [842710:842712](-),MGA_1339
sequence1	MetaGeneAnnotator	CDS	843937	844209	.	-	0	ID=MGA_1340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAAISSGTSVLGPKVIQYMMKILLVPLTAVQIFHLYQSQGNSLTVADLNAQLEGVKFKGDDSYVLNNSDIDLLSNSKNFYTEIGNLHLG;locus_tag=LOCUS_13400;note=MGA_1340
sequence1	MetaGeneAnnotator	CDS	844228	844374	.	-	0	ID=MGA_1341;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKEKEAEQKVFDDPNLKETKAAEKEYFKKKPKSNFLGIVRHYLARHI;locus_tag=LOCUS_13410;note=MGA_1341
sequence1	MetaGeneAnnotator	CDS	844451	845101	.	-	0	ID=MGA_1342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKTKLKNNLSKIILYFLISLIILFLDPFSRVVFKFKEFAIISLVFSYFLILLLIIFIHILNIVNLVIYYLSYDKKTINRLDNLQTKKFVAMKTLATILLLLTFSFLLLSNSSEIALIINSIFLTQFSIMNLIFMTYIGVITHFLAHIEFLAKIFNLLSKSVSRLMIVTTNFVIFLISIILNVRIKLRDLINYKVANYKHTVYIKITEYNNGDLRK;locus_tag=LOCUS_13420;note=MGA_1342
sequence1	MetaGeneAnnotator	CDS	845208	845540	.	-	0	ID=MGA_1343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFIKQFGDIKSKKLILLAQLYATVKYKAYSLQVLNDYFEFLNASRIEISEKTKNDLIKGFEKSLTKYVDDFKHNLFNGLKNEEELTDAMIDIGAEAYYEFCNVIVELKK;locus_tag=LOCUS_13430;note=MGA_1343
sequence1	MetaGeneAnnotator	CDS	845727	845942	.	-	0	ID=MGA_1344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNSLCSIVLSSIFFDLIAKKAKKINMDIVRRMKKNDPKDKELELIPLKPIISITPDLKNHKFNIIDDYKF;locus_tag=LOCUS_13440;note=MGA_1344
sequence1	MetaGeneAnnotator	CDS	846021	846443	.	-	0	ID=MGA_1345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMTLSIIFIILCIYQDFKLLTYDGFIDILDDFNIKDNNNNQVVIEAGLNDANVFNIFKIGAAIYIMYFYSKYSYKLFKEKTKEQNEKLKVGLIALNFIVILDNLILIISNICLFIFLSSQAFDYNKSSKVFELVGYAKDF;locus_tag=LOCUS_13450;note=MGA_1345
sequence1	MetaGeneAnnotator	CDS	846788	847315	.	-	0	ID=MGA_1346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENQYKNYSCMLYDFTKPPGTSVDGDLEFYKNLLMPVEGKVLEAGVGNGRLLIPFLKYKIDIEGVDKSNEMLDLCLKNLKANNLKTTLIKADLKAFKKENYYEYIIMPNASICLIESRQELLKVLTNFYVSLISNGRLAIDLIMPNEYKKGINHFYTHNLKEFDLQVNNYSKEIN;locus_tag=LOCUS_13460;note=WP_164919772.1 class I SAM-dependent methyltransferase (Mesoplasma florum) [pid:44.6%25%2C q_cov:99.4%25%2C s_cov:70.4%25%2C Eval:1.2e-33%2C partial hit],internal stop codon at [846707:846709](-)%2C[846788:846790](-),MGA_1346
sequence1	MetaGeneAnnotator	CDS	847383	848069	.	-	0	ID=MGA_1347;product=5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183271.1;translation=MSKVCVLFAMEQEAEDFIGLLEAEQITSDPFLIYKKDKVLIAISGIGIVNAATCLTYLNSEYENIDLFINSGLVGCINSDFKRLDKLLVSKAYYGAANATGFGYAYGQIPKMPRYFTSDSIVNKEFKSFIGNIEYTNIATSDIFISKKEQVEFFVNKIGDKIDVVDMECNGFFQAAYNLNKPIISFKIVSDTMSEEPNEFQFSEILAKAQGTLANDLIKYVKHKKYTM;locus_tag=LOCUS_13470;gene=mtnN;EC_number=3.2.2.16%3B 3.2.2.9;note=WP_011183271.1 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase (Mesoplasma florum) [pid:40.1%25%2C q_cov:94.7%25%2C s_cov:98.1%25%2C Eval:1.2e-39],MGA_1347
sequence1	MetaGeneAnnotator	CDS	848089	848295	.	-	0	ID=MGA_1348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVLDMIVFCADKISIERDYPGIEKIRTLVYRDLKLGFIELLKNQYEASVKKHGKENIGSKLIDSYKY;locus_tag=LOCUS_13480;note=WP_011166626.1 nicotinate-nucleotide adenylyltransferase (Mycoplasma mycoides) [pid:60.3%25%2C q_cov:100.0%25%2C s_cov:18.5%25%2C Eval:1.1e-17%2C partial hit],internal stop codon at [848356:848358](-)%2C[848467:848469](-),MGA_1348
sequence1	MetaGeneAnnotator	CDS	848467	848814	.	-	0	ID=MGA_1349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKTVKFKVFIRDPEHINNEIIKKYNLETFKFDNNFLSSTKIRNLIDIDLQIKEVNDYINKSLLYLYERLETKMEEDRYFHCLNTGQAALQLAQMNNYDLQKALIAGTLHDITKR;locus_tag=LOCUS_13490;note=WP_011166626.1 nicotinate-nucleotide adenylyltransferase (Mycoplasma mycoides) [pid:59.1%25%2C q_cov:100.0%25%2C s_cov:31.1%25%2C Eval:7.4e-33%2C partial hit],internal stop codon at [848356:848358](-)%2C[848467:848469](-)%2C[848830:848832](-)%2C[849070:849072](-),MGA_1349
sequence1	MetaGeneAnnotator	CDS	848830	849003	.	-	0	ID=MGA_1350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDLAVKNLNYVKVKKFEIRKTVRSYTYDTILHYVTNYPNFDFSFIMGSDQLDNFEK;locus_tag=LOCUS_13500;note=WP_011166626.1 nicotinate-nucleotide adenylyltransferase (Mycoplasma mycoides) [pid:43.9%25%2C q_cov:100.0%25%2C s_cov:15.5%25%2C Eval:8.1e-08%2C partial hit],internal stop codon at [848830:848832](-)%2C[849070:849072](-),MGA_1350
sequence1	MetaGeneAnnotator	CDS	849174	850031	.	-	0	ID=MGA_1351;product=Cof-type HAD-IIB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014584372.1;translation=MKLPYVASDLDGTIVLNSNFKILNETVKDILNYQEKSDSKFMLITGRTFATTKVYVSQLDITLPVIGCNGATITDPITREVLFESVIDLNISEKLLDFAIENNIDLLFYSADYLVAPKTAERALYFQNLYKDYEKSLQPDIEFVESLNDLKEVIMNKTYNPVKFLFSFPDNKDERLLNKTYKLLSSLNLSHPTTRMQGRILVDAMNSGINKAFGLKMFAEIKKLNVKDIHVVGDNNNDLEMVELSDNGCCVGNAVEPLKKVAKKVLESIDENGVGKYLTSLLSNG;locus_tag=LOCUS_13510;note=WP_014584372.1 Cof-type HAD-IIB family hydrolase (Mycoplasma leachii) [pid:33.7%25%2C q_cov:97.9%25%2C s_cov:96.2%25%2C Eval:3.7e-39],MGA_1351
sequence1	MetaGeneAnnotator	CDS	850386	850658	.	-	0	ID=MGA_1352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFDASILTNFNKLMNSRLREMLKDSLVSLHKRFSIIKNIEPEKIPFFQQKANINRGSVDEVFVDAIAYEENIKKCFFFVNHFFPEAPQM;locus_tag=LOCUS_13520;note=MGA_1352
sequence1	MetaGeneAnnotator	CDS	850686	850853	.	-	0	ID=MGA_1353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSLIKNITYSRQRDEPFKKNVLEDFYQEGIYKKPLLAFFDNNKKSNLVGFPEII;locus_tag=LOCUS_13530;note=MGA_1353
sequence1	MetaGeneAnnotator	CDS	851073	851369	.	-	0	ID=MGA_1354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQDFEYLIYFTKMDEFVDTKIYDLKAYKDLFMLIWMQSYVKQAKELREYILELEPDNLSSIKVAYNALKPLNFDSIFKLDDDDLEIKRKEFIFDYNI;locus_tag=LOCUS_13540;note=MGA_1354
sequence1	MetaGeneAnnotator	CDS	851382	851846	.	-	0	ID=MGA_1355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIEFDFFKKLSGRGNFYDFNSQLNYFDYFGITPDDIKLMINIMSKNENRMADFFYELEKEIYKKIQFYSTHLRDSHLGFIAVGEEKLKESGRAFVCSMLYLSARLLAQEYMLLSTVNKTKYNVDLRVHKFGNEKFSYKIYLQSLRVFYESLSA;locus_tag=LOCUS_13550;note=MGA_1355
sequence1	MetaGeneAnnotator	CDS	852405	852722	.	-	0	ID=MGA_1356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKRLNINDIITEAQLFNQLEKNDDKQFAAHLSNLKNNFNGLPFHAAPVDVLGSGESQLRNGIYKEGTKSINNYVSNISLQYSASILNNYGEVYETYKSLDRKT;locus_tag=LOCUS_13560;note=MGA_1356
sequence1	MetaGeneAnnotator	CDS	852777	853103	.	-	0	ID=MGA_1357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYNSAHVYLTAKAEDNAYGSTNDTMIFLDLFADENGNVPSNVNELISLLKKYNSNIDDDKDKFRIRYLMDIISSLVDQKILTAFDVQNQALATDLLTPRDVIRKGNI;locus_tag=LOCUS_13570;note=MGA_1357
sequence1	MetaGeneAnnotator	CDS	853395	853676	.	-	0	ID=MGA_1358;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIINIVKDDELKQKLQDDLTYYSELQDNNAQNNVKEEDISNLYERMDRTFFSSRYLSLGAGEQKDFTSKEFNLTMYDFSLDLNSANSESNSSK;locus_tag=LOCUS_13580;note=MGA_1358
sequence1	MetaGeneAnnotator	CDS	854200	854472	.	+	0	ID=MGA_1359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSTEVSLLTLILLFIFIRAYAGAFFGLVQPTNSSFKNVTETDQSFFPNHPAAFSANACFPLFKFNKSLKFHFEACHCNFEYNHPKPGTF;locus_tag=LOCUS_13590;note=MGA_1359
sequence1	MetaGeneAnnotator	CDS	854448	854774	.	-	0	ID=MGA_1360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVLMGSASTSLVASCEGGAGMSWSYSDQQKILSLTTLDTKKLKENNVKMGAGIEAKNADAIIAALGFSDIVKNGDKAVTGAFMSSLRTYIMSNQLVTQIAQKVPGFG;locus_tag=LOCUS_13600;note=MGA_1360
sequence1	MetaGeneAnnotator	CDS	855285	855476	.	-	0	ID=MGA_1361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIFSMIVPHIESGFKYYVFGFYALFGKSLVEPNAAHGFIFAAGVALVPVIIIVPILYFVSVR;locus_tag=LOCUS_13610;note=MGA_1361
sequence1	MetaGeneAnnotator	CDS	855683	855865	.	+	0	ID=MGA_1362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVIKVTPRGFCLGVVKSIKMARDALKTYPDKQIYMIGLLVHNKIIVKELEDQGIIAIDD;locus_tag=LOCUS_13620;note=WP_009874103.1 4-hydroxy-3-methylbut-2-enyl diphosphate reductase (Buchnera aphidicola) [pid:40.7%25%2C q_cov:98.3%25%2C s_cov:18.2%25%2C Eval:4.2e-07%2C partial hit],internal stop codon at [855863:855865](+)%2C[856001:856003](+),MGA_1362
sequence1	MetaGeneAnnotator	CDS	855878	856003	.	+	0	ID=MGA_1363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIIKQIPKGSVVIFSAHGTNGDVVKKANELGLICIDTKCE;locus_tag=LOCUS_13630;note=MGA_1363
sequence1	MetaGeneAnnotator	CDS	856157	856555	.	+	0	ID=MGA_1364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIDNKKILATNQTTLSIIDTELIYNEIKNKYPNCIIKNDICEATLLRQQAVLDLDENHIDLLYVVGDKRSNNTLKLVELGNNKGIKSLRIDRKEDINKNDLINIKTVAVTAGASTSSIIQNEVIKFLEEIE;locus_tag=LOCUS_13640;note=WP_003246170.1 4-hydroxy-3-methylbut-2-enyl diphosphate reductase (Bacillus) [pid:40.6%25%2C q_cov:100.0%25%2C s_cov:42.0%25%2C Eval:6.0e-19%2C partial hit],internal stop codon at [856001:856003](+),MGA_1364
sequence1	MetaGeneAnnotator	CDS	856580	856708	.	-	0	ID=MGA_1365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTLGHYMENHFIDDISGKINKTFGDDIVVIPYDIKNTFNYI;locus_tag=LOCUS_13650;note=MGA_1365
sequence1	MetaGeneAnnotator	CDS	856745	857272	.	-	0	ID=MGA_1366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGLPSQDVVENVVVCLDLTKEALNKAIEIKSNFIITKHPFIFNELDQEMKNQAKKVIYQQLIENEIQVYSIHTNYDTSKNNNLMELLASQFNIEEATKIGSIKEGYKVKLLSELTLKEVIQKMQFVFGKQSSLLSKNANLDCLIKKFYIAPGAGADCMISEQLENNVFVTGEAK;locus_tag=LOCUS_13660;note=WP_011166652.1 Nif3-like dinuclear metal center hexameric protein (Mycoplasma mycoides) [pid:41.0%25%2C q_cov:94.9%25%2C s_cov:64.3%25%2C Eval:1.3e-30%2C partial hit],internal stop codon at [856736:856738](-)%2C[856745:856747](-)%2C[857300:857302](-),MGA_1366
sequence1	MetaGeneAnnotator	CDS	857361	857498	.	-	0	ID=MGA_1367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEEQKLVSLLNQIPKKDKNFKRFMKRKKLISKMLKKENLNDVKN;locus_tag=LOCUS_13670;note=MGA_1367
sequence1	MetaGeneAnnotator	CDS	857499	857675	.	-	0	ID=MGA_1368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKKYYIESENIIKDNDIIYEVFKINKFAGQKIKSKKDVIFGPIISKNKNNSLFIEK;locus_tag=LOCUS_13680;note=MGA_1368
sequence1	MetaGeneAnnotator	CDS	857823	858062	.	-	0	ID=MGA_1369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILTPRLIAISKMISDGEIVADIGTDHGYIAIYLAKDNKAKKIYATDVAEKPLSVAKNNILSFGVSDRIETLLTDGIG;locus_tag=LOCUS_13690;note=WP_011166651.1 class I SAM-dependent methyltransferase (Mycoplasma mycoides) [pid:43.4%25%2C q_cov:96.2%25%2C s_cov:33.8%25%2C Eval:7.6e-14%2C partial hit],internal stop codon at [857676:857678](-)%2C[857823:857825](-),MGA_1369
sequence1	MetaGeneAnnotator	CDS	858064	858729	.	-	0	ID=MGA_1370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVETINKLTRIERQLTQELGREPTPKEVAKKFGKGFTAQKVIEIKKLSIEPVSLEKPFGDEDDTHFGDFVEDKDIASPDEYAEKEALREVIDDVFAEILQPREEKVIRMRFGILPTKLRTLVRLAEECEDETFEDLKETINELDIHYDTTIEKIQANKKYKTKMIQLHLAKYDSPKTLEEVGKELKVTRERIRQIEAKTIRKFKPSASNPKAKVLRDFFKG;locus_tag=LOCUS_13700;note=WP_020862729.1 sigma-70 family RNA polymerase sigma factor (Mycoplasma mycoides) [pid:69.4%25%2C q_cov:100.0%25%2C s_cov:43.1%25%2C Eval:1.1e-81%2C partial hit],internal stop codon at [858793:858795](-)%2C[858796:858798](-),MGA_1370
sequence1	MetaGeneAnnotator	CDS	858796	859488	.	-	0	ID=MGA_1371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTMNLKKFNTLEEFKEYLIIYLEKNDNEISQEEIYEAVNKKFPNIEEEELSQIFEELANRNVVFTDELIDEEDLEKLSDLDDEDDEDDDSETADELAAKFKTIKKDSKKIKDGSTSSTQLKYRVGGISNDTKIQDIIKSYFNQIGYSKILTKDEEVEYAKMLEDEDPDIVKEGRDKLITSNLKLVISVARKHLNRGLDFADLIEEGNIGLMKAVDKFDYTKGFKFSTYAT;locus_tag=LOCUS_13710;note=WP_011183167.1 sigma-70 family RNA polymerase sigma factor (Mesoplasma florum) [pid:51.3%25%2C q_cov:98.3%25%2C s_cov:46.9%25%2C Eval:9.8e-55%2C partial hit],internal stop codon at [858793:858795](-)%2C[858796:858798](-),MGA_1371
sequence1	MetaGeneAnnotator	CDS	859472	859909	.	-	0	ID=MGA_1372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLIKSDIHLNIIEKNINKFDSASCKIIVKRIIEEYRSNNYIGNDYEAIENIFEKTNQHYYNVLKKMKKVLFLEHSKVVSQKAIEDMFYQIELYKQLDELSKKAEELKKATDQFIKKELAENFELLSKNYIKFRNKGGTYYDNES;locus_tag=LOCUS_13720;note=MGA_1372
sequence1	MetaGeneAnnotator	CDS	860288	861427	.	-	0	ID=MGA_1373;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAISRNEIDNILNQVNIVDIIGKYIDIQKKGRNYIAVCPFHDDSDPSLSISQDKKIFKCFVCGVGGNVITFVEEFNNVTFLKAISLIAKDANISIAGLKLVDDKPKYSSAAQKIFDINNDAAKFFNGLLITKTAKLAKQYLEKRNIKPNEINKFLIGFVPKNIELYNILLKKGHQENDIIASGLFYTKGVNNRCVFENRIVFPITDDEQNIIGFSGRAFIDGEEPKYKNSSENLVFKKSHLAYNFANARKDIRINDEVIILEGFMDVISLERIDIHNSVAIMGTSFTDYHVKLFSKFTKNFKLFLDGDDPGIKAALKAAKFLMDKRINVQIIYNNTYKDPDELVVEGNANLIKEMIKKALSPIDFVINYYQKKYDLQNS;locus_tag=LOCUS_13730;note=WP_011166649.1 DNA primase (Mycoplasma mycoides) [pid:44.0%25%2C q_cov:98.4%25%2C s_cov:60.6%25%2C Eval:3.6e-86%2C partial hit],internal stop codon at [860288:860290](-),MGA_1373
sequence1	MetaGeneAnnotator	CDS	861443	861928	.	-	0	ID=MGA_1374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQHQKVSGEDLTYLDPNTNEKYLAHVIEPSVGVERLLLAIFCQSYKEEKLDNGERIVMQLPVNLAPYKIAILPLQKQQIDKSLEVYEHINKNLNIACTFDEKGNIGKRYRRQDAIGTPYCITIDFDTQNDNCVTIRNRDTMEQERISIPDLNSYLKNKLS;locus_tag=LOCUS_13740;note=WP_011183165.1 glycine--tRNA ligase (Mesoplasma florum) [pid:60.0%25%2C q_cov:98.8%25%2C s_cov:35.0%25%2C Eval:3.5e-50%2C partial hit],internal stop codon at [861956:861958](-)%2C[862109:862111](-)%2C[862121:862123](-),MGA_1374
sequence1	MetaGeneAnnotator	CDS	862121	862375	.	-	0	ID=MGA_1375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKTNQGVVEDASSIVYLRPETAQGIFVQYKNAQRTLRKQLPFGIGQIGKSFRNEITPGNFIFRTREFEQMELEFFFSPNDSKD;locus_tag=LOCUS_13750;note=WP_011183165.1 glycine--tRNA ligase (Mesoplasma florum) [pid:86.9%25%2C q_cov:100.0%25%2C s_cov:18.6%25%2C Eval:7.7e-38%2C partial hit],internal stop codon at [861956:861958](-)%2C[862109:862111](-)%2C[862121:862123](-)%2C[862472:862474](-)%2C[862526:862528](-)%2C[862595:862597](-),MGA_1375
sequence1	MetaGeneAnnotator	CDS	863158	863706	.	-	0	ID=MGA_1376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAIKIEGFVLNSYDYDDYAKVIKVYSKQYGVLSFFAPGVNKEASKNKYSIQTLSYSDFEIFKSRSDNKISKLKTGNLKKEYFNIAKTYVNYVYVSVTISMIEQLSVPGFQNYKIYNAFKTMLENIDNNINVFNNYVLFLLFYIQNSEYKFNLNYCSRCKKRDYPIVRFEYSDKTLVCKRCL;locus_tag=LOCUS_13760;note=WP_011183164.1 DNA repair protein RecO (Mesoplasma florum) [pid:40.1%25%2C q_cov:100.0%25%2C s_cov:68.2%25%2C Eval:1.2e-32%2C partial hit],internal stop codon at [863158:863160](-),MGA_1376
sequence1	MetaGeneAnnotator	CDS	863769	864152	.	-	0	ID=MGA_1377;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGENLIDLLDEIKNVLPETGIKFYPDDQYTDQPDRFIIREIIREEILLQTEQEIPHSVAILIDKFEENTHIIKVIASIICERNSQKGIIIGNKGSKIKQIGIKSREKLEILFANKFYLELFVKVKDK;locus_tag=LOCUS_13770;note=WP_011183163.1 GTPase Era (Mesoplasma) [pid:43.9%25%2C q_cov:96.9%25%2C s_cov:40.9%25%2C Eval:1.3e-21%2C partial hit],internal stop codon at [863769:863771](-)%2C[864201:864203](-),MGA_1377
sequence1	MetaGeneAnnotator	CDS	864201	864617	.	-	0	ID=MGA_1378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIKSGFISIIGRPNVGKSTLLNSLLEKKVSIITPKAQTTRNRINGILNKPDCQYVFVDTPGVHKAKNELDRFMNKTAIQSTKGVDAILFLAPSNEFIGENDQFILNALKERDVPTFLVITKSDLVSKEQLQAKIEE;locus_tag=LOCUS_13780;note=WP_011183163.1 GTPase Era (Mesoplasma) [pid:60.4%25%2C q_cov:100.0%25%2C s_cov:46.2%25%2C Eval:1.0e-42%2C partial hit],internal stop codon at [864201:864203](-),MGA_1378
sequence1	MetaGeneAnnotator	CDS	865329	865826	.	-	0	ID=MGA_1379;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTTRRRSKGGILFAKRRREALQEALIHGPVGNMYTKRFLKSKHVNMVSEGDFLARIRCLCAATYALPFQLIFVFYFIYARVAVQIEANKSFIVPSEDNYLFRDQVNLLNIFVALQLYHILLLSITMIVMLNQTLGIGTIIFTTIYNFLFIAEALLYGSFLFVLD;locus_tag=LOCUS_13790;note=MGA_1379
sequence1	MetaGeneAnnotator	CDS	866230	866511	.	-	0	ID=MGA_1380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGISEKTIVSDVLSAIGMLMIIITPLYFAGIQKRILNLRLHTKVDGEKLFEKLKYDLKLPRITGIDKVRLYRDVHYAKTIFKGAMEYNSRDLV;locus_tag=LOCUS_13800;note=MGA_1380
sequence1	MetaGeneAnnotator	CDS	866883	867056	.	-	0	ID=MGA_1381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDLSEVYRMLDPKKKYISLFQGDTIESIDFLEYFKKMCSRILEKLDNDVVIEELAL;locus_tag=LOCUS_13810;note=MGA_1381
sequence1	MetaGeneAnnotator	CDS	867132	867272	.	-	0	ID=MGA_1382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQNFGNYYNIKTSTQELYDCLYDEEFEDESINEDFEPQIINAGKA;locus_tag=LOCUS_13820;note=MGA_1382
sequence1	MetaGeneAnnotator	CDS	867496	867813	.	-	0	ID=MGA_1383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKNDIFKELLELKENAYVPYSGFRVSCIIYLKNNKKIVGVNVENSAYNPTICAERCALPQMISQGYKANDVEVFSLYTDSEILGSPCGTCRQTMIELLNSDQKI;locus_tag=LOCUS_13830;note=WP_011183040.1 cytidine deaminase (Mesoplasma) [pid:62.6%25%2C q_cov:94.3%25%2C s_cov:73.3%25%2C Eval:1.1e-31%2C partial hit],internal stop codon at [867496:867498](-),MGA_1383
sequence1	MetaGeneAnnotator	CDS	868091	868246	.	-	0	ID=MGA_1384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADKVKKKAKVGTRVKNKFGNAARGMITAFKEESTLIVYLFAIILCIALGI;locus_tag=LOCUS_13840;note=MGA_1384
sequence1	MetaGeneAnnotator	CDS	868266	868739	.	-	0	ID=MGA_1385;product=rRNA maturation RNase YbeY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166645.1;translation=MDEISFIYEDDNIELTKYETIFETLLKITKMHLNINQTLLLSVFFILPEKSILLNKTYRNKEYVGDVISFPIDDPSGIYDQIGFKEIGDIFITYNEAQNKALKYKHKIDDEMCWLFVHGLLHVLGYDHEVDEKQEKIMFNLTESILKEVNVMYDIVV;locus_tag=LOCUS_13850;gene=ybeY;note=WP_011166645.1 rRNA maturation RNase YbeY (Mycoplasma mycoides) [pid:43.2%25%2C q_cov:98.7%25%2C s_cov:93.3%25%2C Eval:1.4e-29],MGA_1385
sequence1	MetaGeneAnnotator	CDS	868879	869151	.	-	0	ID=MGA_1386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKKIINYIFYSFIVIVILLFCLIMFKKTTIYAGSYIIQDKLNDDDKYEKKVYVFLQEKFDVNSIKSIKIEYKNGYKKYSKDFLRFEEGI;locus_tag=LOCUS_13860;note=MGA_1386
sequence1	MetaGeneAnnotator	CDS	869151	869300	.	-	0	ID=MGA_1387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDEPLSNVDRQTAYYLLDTFLKLKNDSLIIMTDHNPVYQQFFETRMEM;locus_tag=LOCUS_13870;note=MGA_1387
sequence1	MetaGeneAnnotator	CDS	869490	869981	.	-	0	ID=MGA_1388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFYIAGNLILKEQITFSQLLFYVTTSSYIYNFSSMLFNFIINKEDNKIAMQQIVFLFEKEEDKVKGLEIDKIKSIEFKKIYKYKNEAKILFDINRKIDNNTFIFGKSGCGKTSLMHLMSASIEDYEGELFFNGIEYKKLNQKVLKNKILYIGQYDFLFTGSV;locus_tag=LOCUS_13880;note=WP_011949183.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:29.6%25%2C q_cov:100.0%25%2C s_cov:30.9%25%2C Eval:1.6e-13%2C partial hit],internal stop codon at [869490:869492](-),MGA_1388
sequence1	MetaGeneAnnotator	CDS	870399	871172	.	-	0	ID=MGA_1389;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYKFIKQKSYADCGIAISAMLINYLQKKNLTIEQIKYDNVIPEGELSFFNIETLLANYKIEFKTYSCDIDSFREIKIVDPIVVKVKNKKTSDHFIVVYKKYRNGFLIADPNDNDLRHISAEDFYKVYEGYLGVAKKISNIKFKSNSLLTVAQLFVENINLIACYFLLSIFLNCIIILSSGFLKVYSNTILIDDRQNQNITFLGFGLLFIGQFILNYFMTKIIFLINNNILKKLITIYINKILKMHIEKYQTISKEE;locus_tag=LOCUS_13890;note=MGA_1389
sequence1	MetaGeneAnnotator	CDS	871228	871689	.	-	0	ID=MGA_1390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKNDNGHLSLINETDIKEEPEFNSRIKKIANKSSINNLKLFIIASKIIISSRIENISGDIIENFILSKYEVMEKTERSVSVKIFLEKIANGEFNDFVKENYSTRKISLYANDGLTSLENLAKKMLSSIEENKNNKSYIDVLVNYLNMSIQKK;locus_tag=LOCUS_13900;note=MGA_1390
sequence1	MetaGeneAnnotator	CDS	871978	872112	.	-	0	ID=MGA_1391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMDNLKVLKTIIDKNESSRQKRFMEIIKLLDKFVLEKDNLFLE;locus_tag=LOCUS_13910;note=MGA_1391
sequence1	MetaGeneAnnotator	CDS	872139	872630	.	-	0	ID=MGA_1392;product=ribosome maturation factor RimP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166546.1;translation=MSKELIEKKYLKEILEILKKNNLDLYELNWIFEHESNVLQILVENSNSNSKFVNFDNLVAGNEAISTLLDDEIDLKDPYILEVSSAGAERQVKQKEVLIKNIDNYFHIKSNLSFENINEFDATLEQYDKEKDEFVFSFFIKGRPKKVKLRYEDINFIRFAIKF;locus_tag=LOCUS_13920;gene=rimP;note=WP_011166546.1 ribosome maturation factor RimP (Mycoplasma mycoides) [pid:37.6%25%2C q_cov:91.4%25%2C s_cov:89.0%25%2C Eval:3.9e-28],MGA_1392
sequence1	MetaGeneAnnotator	CDS	872703	873035	.	-	0	ID=MGA_1393;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMISIYEVIIEMFQRKVIVKNIDFNISDSLKFVIINENNKKVLYPPFNVLDSLGEAVAKSIVNARKQKQITSVNDLKLRTQVTQTHIKMFENLKITQSLKDDEQLSFDF;locus_tag=LOCUS_13930;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:60.4%25%2C q_cov:95.5%25%2C s_cov:7.2%25%2C Eval:6.4e-29%2C partial hit],internal stop codon at [873159:873161](-)%2C[873285:873287](-)%2C[873321:873323](-),MGA_1393
sequence1	MetaGeneAnnotator	CDS	873321	873776	.	-	0	ID=MGA_1394;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILGHVDPTALRMLQDLTGIDPTTIPTDDKKVYSLFSSLENLNLVAANLYGESTGAIGLPEFGTQFVKSMLKETQPKTFADLVQISGLSHGTDVYVGNAQNLIKEGVANISTVIGCRDDIMVYLINKNIDASTSFAIMESVRKGNGLKKE;locus_tag=LOCUS_13940;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:72.8%25%2C q_cov:100.0%25%2C s_cov:10.1%25%2C Eval:3.3e-57%2C partial hit],internal stop codon at [873159:873161](-)%2C[873285:873287](-)%2C[873321:873323](-)%2C[873825:873827](-),MGA_1394
sequence1	MetaGeneAnnotator	CDS	873825	874253	.	-	0	ID=MGA_1395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPELNCPNCNNKLTGDGHDIPFETFLGFDGDKVPDVDLNFSGDYQPIAHNFTKEIFGKNNVFRAGTISTVAAKTAFGYTLGYFEKRNMLNVPKAEIERLAELSTGVKRTTGQHPGGIIILPKEYEIEDFTPVNYPADDDKSD;locus_tag=LOCUS_13950;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:76.4%25%2C q_cov:99.3%25%2C s_cov:9.6%25%2C Eval:1.2e-60%2C partial hit],internal stop codon at [873825:873827](-)%2C[874446:874448](-),MGA_1395
sequence1	MetaGeneAnnotator	CDS	874446	874703	.	-	0	ID=MGA_1396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDSELIREIVIKNTNKIADQCDLDVKPIKSGSYPPKIENADKLLTEECYKNAKSLYGENLPKIVKERLEKELHSIIKHGFAVVY;locus_tag=LOCUS_13960;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:58.8%25%2C q_cov:100.0%25%2C s_cov:5.7%25%2C Eval:5.3e-23%2C partial hit],internal stop codon at [874446:874448](-)%2C[874704:874706](-),MGA_1396
sequence1	MetaGeneAnnotator	CDS	874704	875039	.	-	0	ID=MGA_1397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRKTIKELDYIEIQPLSVYTKLIQTGDIDDNRLKILIKKIIEVAKEENKIIVATSDAHYIDLENKIIRDIYINTKGLGGKYHPLYDFKQRVKNNPDQHLRTTNEMLEEFR;locus_tag=LOCUS_13970;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:57.8%25%2C q_cov:98.2%25%2C s_cov:7.4%25%2C Eval:1.4e-31%2C partial hit],internal stop codon at [874446:874448](-)%2C[874704:874706](-)%2C[875250:875252](-),MGA_1397
sequence1	MetaGeneAnnotator	CDS	875346	875876	.	-	0	ID=MGA_1398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNPKNQKLREAKFVVFDLETTGLSPEYDEIIEFGAYVYDYAKGTSKKYDILIKPTKPISSFTTELTHITNEMLEDKNSIEIEFKNIINIIQDGILIAHNANFDFNFLQVFANRFGYGELKNTVIDTLTFARLLNPDLKNHRLGTVAKEYGILYDERIAHRGDYDAEVLTNVFEHM;locus_tag=LOCUS_13980;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:61.8%25%2C q_cov:98.3%25%2C s_cov:11.6%25%2C Eval:1.3e-59%2C partial hit],internal stop codon at [875250:875252](-)%2C[875346:875348](-)%2C[875880:875882](-)%2C[876030:876032](-)%2C[876036:876038](-),MGA_1398
sequence1	MetaGeneAnnotator	CDS	876243	876770	.	-	0	ID=MGA_1399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKFFAENETQKVLLLDHKEYYKNKLCKYGFSNIDLEIEIKQEDNQKVLEEVQQMYQQASKTVFNNDEVKKETKSSTRPKFVNKKTLLDNPTYEKLIDLEENAKNVTIHGEVITKSSRLSRANRTIYSLTISDKTSSVTCTYFAKNNNATLLDEITEENKDELSGLEKEIISKGD;locus_tag=LOCUS_13990;note=MGA_1399
sequence1	MetaGeneAnnotator	CDS	876870	877133	.	-	0	ID=MGA_1400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKDLKELLEQLNIFFEKKEMIFFEDAKILKAEFSNSTKTTRLFVSLKDFLPINVLYKLENELVKNVYMPCKLNLIVENQDYNDDLI;locus_tag=LOCUS_14000;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:33.0%25%2C q_cov:100.0%25%2C s_cov:5.9%25%2C Eval:1.8e-07%2C partial hit],MGA_1400
sequence1	MetaGeneAnnotator	CDS	877224	877388	.	-	0	ID=MGA_1401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMGTPRTFFTYIAMLSANLFVLNMLIIPPLDGYKTVELLIEMIMRKDLSKKYKI;locus_tag=LOCUS_14010;note=WP_011183184.1 site-2 protease family protein (Mesoplasma florum) [pid:58.1%25%2C q_cov:79.6%25%2C s_cov:10.2%25%2C Eval:4.8e-08%2C partial hit],internal stop codon at [877224:877226](-)%2C[877500:877502](-),MGA_1401
sequence1	MetaGeneAnnotator	CDS	877500	877676	.	-	0	ID=MGA_1402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSYKKVDKYTGFALNGYQQIKTTDYSTTEMYSKTQLAVGIMAPTRYYSSGGKAYLAG;locus_tag=LOCUS_14020;note=MGA_1402
sequence1	MetaGeneAnnotator	CDS	877887	878075	.	-	0	ID=MGA_1403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLFIAIFIFTTIFAVTKAKTDDMSYFGQKFQTDAVAEKLITDKERKDLNDETIVIDQSYAI;locus_tag=LOCUS_14030;note=MGA_1403
sequence1	MetaGeneAnnotator	CDS	878235	878411	.	-	0	ID=MGA_1404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTGMFLLGFAIGIISVLVLITLHELGHCLVAKLSGAYVYEFAIGFGPRILTIKGKET;locus_tag=LOCUS_14040;note=WP_011183184.1 site-2 protease family protein (Mesoplasma florum) [pid:66.7%25%2C q_cov:98.3%25%2C s_cov:13.5%25%2C Eval:7.6e-14%2C partial hit],internal stop codon at [878109:878111](-)%2C[878235:878237](-),MGA_1404
sequence1	MetaGeneAnnotator	CDS	878412	878963	.	-	0	ID=MGA_1405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSKITIDSATMFNKAFEILEAYHLFKTKNIITLVHPNSIIHSMVEFKDGSIKAQLSVPDMKQVINYFFNYPDRVEFTNQKNLNFKETLNLQLKEIDQNRFIPIKMALGCLDEYNSKAICMNAANEVCVEAFLNNEIEFYQITEIVSKIFHTTQKINYNNYNDICAFDKKVRELTISLIKGDK;locus_tag=LOCUS_14050;note=WP_005802379.1 1-deoxy-D-xylulose-5-phosphate reductoisomerase (Bacteroides) [pid:40.9%25%2C q_cov:97.8%25%2C s_cov:46.4%25%2C Eval:9.9e-32%2C partial hit],internal stop codon at [878967:878969](-),MGA_1405
sequence1	MetaGeneAnnotator	CDS	878967	879545	.	-	0	ID=MGA_1406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNVVLFGASGNIGKQTLEILKTNKNKFKLIAISVGKRINDLETILEEFKDIKTVYSSVSIENLKNKFTKINFVSNNIEELIYNDAHIIVNALSGFFGLKITLEAIKKEKILLNANKESFVVAGNLIQELQQKFVKAKIYPVDSEHCAIFQCLEVDNQINNIYLTASGGPFRNLTLEEIKNVNLKDALNHPN;locus_tag=LOCUS_14060;note=WP_000790373.1 1-deoxy-D-xylulose-5-phosphate reductoisomerase (Bacillus cereus) [pid:43.4%25%2C q_cov:100.0%25%2C s_cov:51.8%25%2C Eval:2.1e-35%2C partial hit],internal stop codon at [878967:878969](-),MGA_1406
sequence1	MetaGeneAnnotator	CDS	879994	880182	.	-	0	ID=MGA_1407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSISSLFYLFLALIENKRVELKKVLIGFSFMAMIVIAMKTYSIVSLDLLEANMPIFSFNTIV;locus_tag=LOCUS_14070;note=MGA_1407
sequence1	MetaGeneAnnotator	CDS	880318	880626	.	-	0	ID=MGA_1408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDKSEVTDSNVEDKNDNNNLELERSIKHFKTKKGKETFKTRLISSVFLLIFLVFYITTGSIYTYFTREKYFDIFSFISIGLTILICGIACFEINKAAGYKK;locus_tag=LOCUS_14080;note=MGA_1408
sequence1	MetaGeneAnnotator	CDS	880713	880955	.	-	0	ID=MGA_1409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFDYGSFDEVLNTFKIIYKKINDNDTDINNLNFEDIEKNLYTKNSPPVDFLIRTGGEQRLSNFLLLQCAYAELYFTKTY;locus_tag=LOCUS_14090;note=WP_011964194.1 isoprenyl transferase (Flavobacterium psychrophilum) [pid:45.5%25%2C q_cov:96.2%25%2C s_cov:31.3%25%2C Eval:3.8e-13%2C partial hit],internal stop codon at [880713:880715](-)%2C[881049:881051](-)%2C[881154:881156](-)%2C[881211:881213](-),MGA_1409
sequence1	MetaGeneAnnotator	CDS	881363	881965	.	-	0	ID=MGA_1410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKETDLARFVSDSFLKHGAQKLSFDTIVASGENGSKPHAVPSERVLKEGDFVTLDMGCYFNGYASDQTRTFALGNDNNAKLKEIYDIVYNSQQAGIDAIKPGVLGAEIHKICFDYIENKGYGEYFTHGTGHGLGIEIHEAPNNSSADKTPLAPGMCVTVEPGIYIPGIGGVRIEDDILVTEEGHDYLTTPLRELQIVKNK;locus_tag=LOCUS_14100;note=WP_011183278.1 aminopeptidase P family protein (Mesoplasma florum) [pid:58.1%25%2C q_cov:99.0%25%2C s_cov:55.2%25%2C Eval:5.8e-63%2C partial hit],internal stop codon at [882044:882046](-)%2C[882140:882142](-),MGA_1410
sequence1	MetaGeneAnnotator	CDS	882487	882630	.	-	0	ID=MGA_1411;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183279.1;translation=MREGVILRCTVCKEENYIAKNDKRKEKIEVNKHCFKCNAHQVHKQKK;locus_tag=LOCUS_14110;gene=rpmG;note=WP_011183279.1 50S ribosomal protein L33 (Mesoplasma) [pid:72.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-14],MGA_1411
sequence1	MetaGeneAnnotator	CDS	883045	883170	.	+	0	ID=MGA_1412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEGDQISKDNLTDYGESIIKDKIEFKKIVIDEKKDNFNEK;locus_tag=LOCUS_14120;note=MGA_1412
sequence1	MetaGeneAnnotator	CDS	883213	883374	.	+	0	ID=MGA_1413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYMQVAFSADKDYKEFEKRFKAIAKERVENYFNSSDVKGTPIFLIVRNGKLVS;locus_tag=LOCUS_14130;note=MGA_1413
sequence1	MetaGeneAnnotator	CDS	883432	883692	.	+	0	ID=MGA_1414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEIRVNFLNAQVSNANFTKINNSSSSSGENGNDSGSGSSSGSGSSSGSGESGGSSSGGESGSSSSSNMTTFDGFDFNKYLQYYKK;locus_tag=LOCUS_14140;note=MGA_1414
sequence1	Aragorn:1.2.38	tRNA	883784	883872	.	-	.	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	883886	883961	.	-	.	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	883980	884054	.	-	.	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	884060	884143	.	-	.	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	884156	884231	.	-	.	ID=Aragorn_26;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00250;note=Aragorn_26
sequence1	MetaGeneAnnotator	CDS	884412	884690	.	+	0	ID=MGA_1415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIKFQEAFFDFINDIYNNFKYNYKTFLSSSKKIDKFFKKTKMILDLEKIDYICDFIIRNMKDFIVLNNVIEKETHIIVNKFYDVLTVAKLF;locus_tag=LOCUS_14150;note=MGA_1415
sequence1	MetaGeneAnnotator	CDS	885063	885242	.	+	0	ID=MGA_1416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKRFYYITSFTIKFSLLLKSDNENKEYNQILSNYPFSLNVFEQHNRFIELDINKLMNN;locus_tag=LOCUS_14160;note=MGA_1416
sequence1	MetaGeneAnnotator	CDS	885266	886114	.	-	0	ID=MGA_1417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVPGISRAGASTQQIYEVIKKEPILFDNEDDGVLFSENINKIEFRDIKFNYPEKPSVNILNGINLTFEKGKSYAFVGETGSGKTTISKLLLRFYDPTEGAVMINDHDLKTLNLKSYISHVGYVEQEPQIIYGNVYDNVKYGYFQATDEEVHEACKKAQIDKIINSWPDGYNTVLGERGLLLSGGQKQRLVISRILLKNPELLVLDEATSALDNIVEKEIQAQLNELMVDKTSVIIAHRLTTIKNVDQIFVLAPGKGIVQTGTYDELIKIPGHFKNLHDAGNN;locus_tag=LOCUS_14170;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:64.7%25%2C q_cov:96.8%25%2C s_cov:44.8%25%2C Eval:2.0e-98%2C partial hit],internal stop codon at [886127:886129](-),MGA_1417
sequence1	MetaGeneAnnotator	CDS	886127	886384	.	-	0	ID=MGA_1418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKSTATRTYEEKRIREIHRPYINAFKPITRVDGNMFATLVASDIICNILVLVTAILVYGNNDVEKFLSILIPITSASIILTRPL;locus_tag=LOCUS_14180;note=MGA_1418
sequence1	MetaGeneAnnotator	CDS	886386	886589	.	+	0	ID=MGA_1419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITPRRSITSPFTLEITSLTFLFLLRYVDEKKKMTIVKTYTTAIEVAATFKSINNILTDPKTKTNGT;locus_tag=LOCUS_14190;note=MGA_1419
sequence1	MetaGeneAnnotator	CDS	887009	887146	.	-	0	ID=MGA_1420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRNIRTRETLIEESNHYEEIKNAKMDAADKLLKLARERNKLKFI;locus_tag=LOCUS_14200;note=MGA_1420
sequence1	MetaGeneAnnotator	CDS	887656	888021	.	-	0	ID=MGA_1421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLNLLFYVYLYVEKRLISSKQGKIYLLSLSSFLTLSLIGLLFAFIGYMYLNSVKKESREDGVLENNYKNNFKANQKLNRRLILSYVGYAISIIFVLSLVLRHNILFNGIGNKGDLFLYII;locus_tag=LOCUS_14210;note=MGA_1421
sequence1	MetaGeneAnnotator	CDS	888064	888225	.	-	0	ID=MGA_1422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNVIKNKKKLIGTVFLVFLILGVIIGAALIIISIVFENLIVGFFKDDKNIS;locus_tag=LOCUS_14220;note=MGA_1422
sequence1	MetaGeneAnnotator	CDS	888278	888739	.	-	0	ID=MGA_1423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSNHIFNDLETAKKEVTEVLKSGKAAHILKDFIEAQNGDFSKIIDYDKHFITKYKIEIRSENEGYLKFKSAESLGYLSMHLGAGRAKKEDKIDFSAGIYLTKTIGQFVKKDDLIMTLYTNIDNKNGFINLAKQLIIIDSKPSSQETIIKLID;locus_tag=LOCUS_14230;note=WP_011183016.1 thymidine phosphorylase (Mesoplasma florum) [pid:49.0%25%2C q_cov:96.1%25%2C s_cov:33.9%25%2C Eval:5.3e-34%2C partial hit],internal stop codon at [888806:888808](-),MGA_1423
sequence1	MetaGeneAnnotator	CDS	888806	889126	.	-	0	ID=MGA_1424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQSDDVVPADKKIYLLRDVTGSVDSIPLIASSIMSKKLVIPADSIELDVKVGSGAFMKNIEDAQELAKVMIKIGKAHNRKVSVMITNMDKPLGKAIGNALEVKEA;locus_tag=LOCUS_14240;note=WP_011183016.1 thymidine phosphorylase (Mesoplasma florum) [pid:74.3%25%2C q_cov:99.1%25%2C s_cov:24.2%25%2C Eval:6.9e-39%2C partial hit],internal stop codon at [888806:888808](-)%2C[889187:889189](-),MGA_1424
sequence1	MetaGeneAnnotator	CDS	889187	889429	.	-	0	ID=MGA_1425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTENELINFTNAMVNSGITYDLSDLKGPFADKHSTGGVGDKTSLIYGPLVAYFGVKVSKLSGRGLGQTGGTIDKLESCTG;locus_tag=LOCUS_14250;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:5.6e-25%2C partial hit],internal stop codon at [889187:889189](-)%2C[889439:889441](-)%2C[889508:889510](-),MGA_1425
sequence1	MetaGeneAnnotator	CDS	889593	890039	.	-	0	ID=MGA_1426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLIDNVPLDRKNPRSALNAMKEAKELINEYKRSVVIFPEGTRSQGPEMNEFHGASMKVAQMAYAPIIPVSIVDSYKVYQKRKGIMPVKIVFGKPMMPNKFIATKTSVLTETVKREIQKNIDKYKDVDLKSKNLVVKKYDKKNKIYYY;locus_tag=LOCUS_14260;note=WP_020862806.1 lysophospholipid acyltransferase family protein (Mycoplasma mycoides) [pid:55.4%25%2C q_cov:87.2%25%2C s_cov:41.7%25%2C Eval:5.6e-35%2C partial hit],internal stop codon at [890064:890066](-)%2C[890187:890189](-)%2C[890202:890204](-)%2C[890259:890261](-),MGA_1426
sequence1	MetaGeneAnnotator	CDS	890373	890507	.	-	0	ID=MGA_1427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKLEEQNVKNEVAVESNTNEIVEYDTYEKDDKSGKLPYKLSK;locus_tag=LOCUS_14270;note=MGA_1427
sequence1	MetaGeneAnnotator	CDS	890507	890638	.	-	0	ID=MGA_1428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSYIFDDYKGDLFASEIDKKKFKVIGTKDFSEFQVKIYERAL;locus_tag=LOCUS_14280;note=MGA_1428
sequence1	MetaGeneAnnotator	CDS	890980	891357	.	-	0	ID=MGA_1429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALPPCHSLYQFYVSKDGYLDLQLYQRSGDTFLGVPFNIASYSLLLTLVSLECNLKPRYFIHTIGDAHIYLNHLDQINIQLKREPKKLPTLKVNFDKKSIFDISYEDIVLEDYQSHPVLKGVVAV;locus_tag=LOCUS_14290;note=WP_011183318.1 thymidylate synthase (Mesoplasma florum) [pid:70.4%25%2C q_cov:100.0%25%2C s_cov:43.1%25%2C Eval:1.2e-46%2C partial hit],internal stop codon at [891379:891381](-)%2C[891436:891438](-)%2C[891469:891471](-)%2C[891601:891603](-)%2C[891610:891612](-),MGA_1429
sequence1	MetaGeneAnnotator	CDS	891667	891849	.	-	0	ID=MGA_1430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQYLNLVEDILKNGEKRDDRTNTGTISKFGVQTRYDLREGFPLLTTKKVFFKAVVHEML;locus_tag=LOCUS_14300;note=WP_011183318.1 thymidylate synthase (Mesoplasma florum) [pid:85.0%25%2C q_cov:100.0%25%2C s_cov:20.8%25%2C Eval:8.3e-24%2C partial hit],internal stop codon at [891379:891381](-)%2C[891436:891438](-)%2C[891469:891471](-)%2C[891601:891603](-)%2C[891610:891612](-)%2C[891667:891669](-),MGA_1430
sequence1	MetaGeneAnnotator	CDS	892035	892187	.	-	0	ID=MGA_1431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAQIGTDIVQVNRVDLTNENLIKRILHDDEFVYLEQIQDIEAKKQFVAGR;locus_tag=LOCUS_14310;note=MGA_1431
sequence1	MetaGeneAnnotator	CDS	892393	892542	.	-	0	ID=MGA_1432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNDNASDSDKLLGTILKNPTSTYNLLRNITYVNRLTQYPNVPGFIPSI;locus_tag=LOCUS_14320;note=MGA_1432
sequence1	MetaGeneAnnotator	CDS	892591	893085	.	-	0	ID=MGA_1433;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVDNLANLPPEVLETYSILALKGYVETNPTKIPISVCVELLPDDSRILLRLVSELALVSTKLASAYLSGQDTEKGNSSGNENGENGTDENNTPSDQSSIKTYKTIKVGSVTNKAFAEDPNYSNRPSSIEIMNALEQYKAEKAIEDNEDGSGFMNLERFKDFYA;locus_tag=LOCUS_14330;note=MGA_1433
sequence1	MetaGeneAnnotator	CDS	893347	893553	.	-	0	ID=MGA_1434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTLILKIITGLGLYVIYCVLFIFIINLIGFAFYFSVKSKIRKIKILGAADMLLGGFNGLAFGMIFVV;locus_tag=LOCUS_14340;note=MGA_1434
sequence1	MetaGeneAnnotator	CDS	893560	893718	.	-	0	ID=MGA_1435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDPIMKLWSKLGLEDIFDQVGSKVGDVFFDLLKYIVEGAMVDGKPVQLPSLS;locus_tag=LOCUS_14350;note=MGA_1435
sequence1	MetaGeneAnnotator	CDS	893995	894912	.	+	0	ID=MGA_1436;product=ribonuclease HIII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245949.1;translation=MKSISIKKVNQELINQIIKDNKTYEKKSNNPLIKFFCKTNNDETISIYTNNTVLIQANDAAFFLSKYDLKSNTSKKNEKQLDYNHINYNNLNTLGCDEVGVGDFFGPLVTCCAYIDKEFKYNNKEIYNKLKDSKKINNDQIFNIYNELRRKVKYSVFILENSKYNDLYSKYKNTHILKAICHNNALLDFYKKNKELKIETVLMDQFVSEKLYFNYLKNLDLEIVRAIEFKTKAEDISVAVACASIIARYYFLMNIEELEEKYQVDLPLGASNKVKEKVQLYKSEYKELAKNFIKLHFNEKIKKPI;locus_tag=LOCUS_14360;gene=rnhC;note=WP_003245949.1 ribonuclease HIII (Bacillus) [pid:36.2%25%2C q_cov:83.3%25%2C s_cov:82.1%25%2C Eval:1.1e-36],MGA_1436
sequence1	MetaGeneAnnotator	CDS	894949	896031	.	-	0	ID=MGA_1437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLTFFLIFMLFTPLQKKKKKCINYLEKEKNMNKLLSFLGSFGMIATASNSVISCFGSSVSFGSGFKDSSVEVGKKITLDLKVDKPQKNAEIKAETSDGDIARVAPSISSDDAGNGIFSVDISGTDVGECDIKVTYGKSSASIKVKVIRLSAQYLDLATLKDDDLKIKPEMNYQTYAKKAILKKLSDITTNDIKEKQDIIFSDFEQATKDKEGKIVATANEEMSKLKGKTTFVLLFNEAQSAQVPDIKVTGDGVENNTLTIETNSDGIGQELYRTINIQVLNPAKNGYLQTYVLPAAYSFYIEVLELKQDESDSSKYTLRIKGKTLTDADDTPYFYLQYMAEEKTELQFFVKVVKTGSVK;locus_tag=LOCUS_14370;note=MGA_1437
sequence1	MetaGeneAnnotator	CDS	896119	896391	.	+	0	ID=MGA_1438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKNKMEIIKAVIDEKLSKKAAAIKICQTIRNVNLLINKYKKYGYTAFIHKNTGRISNKKIKHQISDQIIDLYINKYEEYNYKHFLEKL;locus_tag=LOCUS_14380;note=MGA_1438
sequence1	MetaGeneAnnotator	CDS	896488	896655	.	+	0	ID=MGA_1439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKQKITNLLKNENIKKLEKREYLNTLLSIENIHPMQNRKTEFGERLQTDASVHY;locus_tag=LOCUS_14390;note=MGA_1439
sequence1	MetaGeneAnnotator	CDS	897783	898157	.	-	0	ID=MGA_1440;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYISIFVFTILTFFDATGTLTSVMVESNKNSPYEREIPKSAMIIDGGSTIFSSFMAISHNAVYAESCVGISQGARTGFSSIVTSIGLLLSIALSPLFTMLPSCISGAATVFIGIIMISNITEIE;locus_tag=LOCUS_14400;note=WP_011183312.1 NCS2 family permease (Mesoplasma florum) [pid:39.8%25%2C q_cov:99.2%25%2C s_cov:24.2%25%2C Eval:1.7e-21%2C partial hit],internal stop codon at [897630:897632](-)%2C[897783:897785](-)%2C[898170:898172](-)%2C[898248:898250](-),MGA_1440
sequence1	MetaGeneAnnotator	CDS	898248	898412	.	-	0	ID=MGA_1441;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLLGAVVLHFKKFVAPIAVMMLAGFIIAVILANVLPNNDVIKNSFGTAKFNSN;locus_tag=LOCUS_14410;note=MGA_1441
sequence1	MetaGeneAnnotator	CDS	898509	899060	.	-	0	ID=MGA_1442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIDNNDIKIKEASKSKMRFDNENSKLAKFFGFKKFNTTLKKEIIGGISTLLAMIYILSVEPEILKYAPSVDGGAKLDGKGVFLATAIIAFAATFVMGMVSNIPVALAPSMGVNAMFTYSVAMKGIGYQGALFATMISGVLFCIISISNVRKMLIKALPKSLHIAIGLGIGFFIAYVGVANIG;locus_tag=LOCUS_14420;note=WP_011183312.1 NCS2 family permease (Mesoplasma florum) [pid:37.5%25%2C q_cov:97.3%25%2C s_cov:36.1%25%2C Eval:1.2e-32%2C partial hit],internal stop codon at [898248:898250](-)%2C[898509:898511](-),MGA_1442
sequence1	MetaGeneAnnotator	CDS	899339	899530	.	-	0	ID=MGA_1443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTSQFPCFECAKIIVQSGIQTVIYSDNKYENTIKDDVAKKILKTAKVNLIYKEAVKVNIIKK;locus_tag=LOCUS_14430;note=MGA_1443
sequence1	MetaGeneAnnotator	CDS	899630	899773	.	-	0	ID=MGA_1444;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMVELNAMRSKDPNTQVGAVVVNDLNHIIASGYNGLPRGLSDDNFP;locus_tag=LOCUS_14440;note=WP_011166759.1 dCMP deaminase family protein (Mycoplasma mycoides) [pid:68.1%25%2C q_cov:100.0%25%2C s_cov:29.4%25%2C Eval:1.7e-13%2C partial hit],internal stop codon at [899612:899614](-)%2C[899630:899632](-)%2C[899786:899788](-),MGA_1444
sequence1	MetaGeneAnnotator	CDS	899893	900198	.	-	0	ID=MGA_1445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIYVLFITVSEYDVVLIILGCGVSASITLLFTYDYKNIDGYIILPVLILGIAFVVPVVFIFIPSYGIAPDLNALLAMLSYANHKVFSADYLNKIIHDLNG;locus_tag=LOCUS_14450;note=MGA_1445
sequence1	MetaGeneAnnotator	CDS	900607	901158	.	-	0	ID=MGA_1446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNNNDLRLTLVHYLVKVEKYKVNAEISDDYNVYLYNKKAQFKVIALTIGEALEHDEKLNKLVNSLKGSKREKVDTLKIAIYDGSQQGVVCISSLDEARMNLKKYFPKITSLQIKQAEVEEENLSEEELLETLTDPSGSSNIKLKKLVGKMNSNSAVSIFISVAFCILPVICLLLSSFISDA;locus_tag=LOCUS_14460;note=MGA_1446
sequence1	MetaGeneAnnotator	CDS	901168	902082	.	-	0	ID=MGA_1447;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183286.1;translation=MEPITIEITTNSDRLDKYVTDYLKQDYDFSRSYVQSLIKQGFIKVNDNLVSSNYNLLIGDIITIDPKSPEELNAIPQDVDFEIVYQDKDIIVVNKPNHLVVHPAIGNPDKTLVNGLLFKIKDLSSIGGYLRPGIVHRLDKDTTGLMIVAKNDKAHKRLTEMLANNEIYKEYLALVHGNVEPNKGKIDAPIGRDKNNRKKMTVTEINSKKAVTNFEVVKRFDKFSLLSCVIETGRTHQIRVHMAFIKHPVLGDHLYAFKEDKNIEFGQFLHSHKLSFDHPVTNERFEFSCELPKEFNDKIVEIEK;locus_tag=LOCUS_14470;note=WP_011183286.1 RluA family pseudouridine synthase (Mesoplasma florum) [pid:56.0%25%2C q_cov:97.4%25%2C s_cov:95.8%25%2C Eval:4.3e-89],MGA_1447
sequence1	MetaGeneAnnotator	CDS	902586	902732	.	-	0	ID=MGA_1448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAQPTAFIPGLLKFQYIINPGAALSMNAGKPSVAIALAALVTIALIIV;locus_tag=LOCUS_14480;note=MGA_1448
sequence1	MetaGeneAnnotator	CDS	902957	903211	.	-	0	ID=MGA_1449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLRDDVNEALEKARNEKIIKKGFEAKITLSLKSEYDYIKQIDDLSQILIVNSIDFDENAKDANNNNVAAVKVELKQGLKCERC;locus_tag=LOCUS_14490;note=WP_011166763.1 isoleucine--tRNA ligase (Mycoplasma mycoides) [pid:55.3%25%2C q_cov:100.0%25%2C s_cov:9.3%25%2C Eval:5.2e-18%2C partial hit],internal stop codon at [902894:902896](-)%2C[902957:902959](-)%2C[903221:903223](-)%2C[903371:903373](-),MGA_1449
sequence1	MetaGeneAnnotator	CDS	903221	903364	.	-	0	ID=MGA_1450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDMLKPILIHTVEEAYKNIKNLQLEESIHLLDLREQNFLKDNEFVDK;locus_tag=LOCUS_14500;note=WP_011166763.1 isoleucine--tRNA ligase (Mycoplasma mycoides) [pid:53.2%25%2C q_cov:100.0%25%2C s_cov:5.1%25%2C Eval:9.0e-10%2C partial hit],internal stop codon at [902957:902959](-)%2C[903221:903223](-)%2C[903371:903373](-),MGA_1450
sequence1	MetaGeneAnnotator	CDS	903371	903586	.	-	0	ID=MGA_1451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFALHNLTTVKNKFIASFNDYNFNIALKHLNNYVVNDLSAFYLDFIKDIVYVEGQDSVRRRQVQTVMYEQL;locus_tag=LOCUS_14510;note=WP_011166763.1 isoleucine--tRNA ligase (Mycoplasma mycoides) [pid:54.9%25%2C q_cov:100.0%25%2C s_cov:7.8%25%2C Eval:3.4e-17%2C partial hit],internal stop codon at [903221:903223](-)%2C[903371:903373](-)%2C[903752:903754](-),MGA_1451
sequence1	MetaGeneAnnotator	CDS	903752	903916	.	-	0	ID=MGA_1452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINSVVYDGKPAYKELISHGMTNDEQGKKMSKSIGNTIDPLEIANDLGVDILRL;locus_tag=LOCUS_14520;note=WP_011183288.1 isoleucine--tRNA ligase (Mesoplasma florum) [pid:70.4%25%2C q_cov:100.0%25%2C s_cov:5.9%25%2C Eval:1.8e-15%2C partial hit],internal stop codon at [903752:903754](-)%2C[903929:903931](-)%2C[904028:904030](-)%2C[904058:904060](-)%2C[904112:904114](-),MGA_1452
sequence1	MetaGeneAnnotator	CDS	904406	904579	.	-	0	ID=MGA_1453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEAFVPIDDQGKFNSKINDKRLEGVFYEDANKIIGVELENKGLALKLKFVKHSYPHD;locus_tag=LOCUS_14530;note=WP_011183288.1 isoleucine--tRNA ligase (Mesoplasma florum) [pid:66.1%25%2C q_cov:100.0%25%2C s_cov:6.5%25%2C Eval:1.4e-15%2C partial hit],internal stop codon at [904112:904114](-)%2C[904220:904222](-)%2C[904244:904246](-)%2C[904289:904291](-)%2C[904364:904366](-)%2C[904406:904408](-)%2C[904703:904705](-)%2C[904772:904774](-),MGA_1453
sequence1	MetaGeneAnnotator	CDS	905900	906241	.	-	0	ID=MGA_1454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTNEELLNEIEKLKKEINIYKEKEDYINQQLSRSQEMYKIAKHNAQKIIIKSVDIAYEIKDEMEKCLNIIKNQPNNFQSIVEKFLEDNGEVFNYSKEEVEEIAQKIVDNIKI;locus_tag=LOCUS_14540;note=MGA_1454
sequence1	MetaGeneAnnotator	CDS	906264	906461	.	-	0	ID=MGA_1455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMGEENKELIYTIETQTLSYDKIQYPAISSLPGELIIFDVLFNIVVTKNKEYREKFQKTSEISLR;locus_tag=LOCUS_14550;note=MGA_1455
sequence1	MetaGeneAnnotator	CDS	906552	907097	.	-	0	ID=MGA_1456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILKLSEDKLNSTEQAIVNEINNNPDYFCSHNIQEVSRASNVSSSTMTRVCQKLGFKSFKAAQMFVYEKSRMQTEYYKLGEDKTPEQVIHNVKGSALFTINETLNNLDPEYANQIAKKIYEARSIIVFGVEQQEVSANSFVQNLCRLNKEAVAVSNIHLFVQKAVFFTNQDFCVFVSRTG;locus_tag=LOCUS_14560;note=WP_003130139.1 MurR/RpiR family transcriptional regulator (Lactococcus) [pid:23.9%25%2C q_cov:100.0%25%2C s_cov:65.9%25%2C Eval:3.6e-10%2C partial hit],internal stop codon at [906522:906524](-)%2C[906552:906554](-),MGA_1456
sequence1	MetaGeneAnnotator	CDS	907743	908015	.	-	0	ID=MGA_1457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYRSTDPFILASATGAITVRNAIHMLYRNLNIHRETGFSSKVDFLPVSPFRVLFANILANFVIVFIANSGLILITYLAYPHQRTLIANVN;locus_tag=LOCUS_14570;note=MGA_1457
sequence1	MetaGeneAnnotator	CDS	908128	908544	.	-	0	ID=MGA_1458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNIMAAGWINAPDFHYKGNNGNNIDFGYGNFAWIPYVVSLLIILVLSFLVLIMFKKAFEFENRRYKKFKNQHKHLAIIYAINRSSTVEELESLIEVRDNINLNKKKLNNTLKDLKHQVSERKNAKNGKKHVELKSKK;locus_tag=LOCUS_14580;note=WP_011183081.1 ABC transporter permease (Mesoplasma florum) [pid:33.3%25%2C q_cov:69.6%25%2C s_cov:31.3%25%2C Eval:3.1e-07%2C partial hit],internal stop codon at [908019:908021](-)%2C[908112:908114](-)%2C[908581:908583](-)%2C[908671:908673](-)%2C[908689:908691](-)%2C[908761:908763](-),MGA_1458
sequence1	MetaGeneAnnotator	CDS	908761	909024	.	-	0	ID=MGA_1459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYDPFVLASALGVCGIRNCMYNFVKTIHEFRKKDFFNRLFSTNISKKFIFMTMVVFNLSANMVVTLVTLAIAMLYPEQRETILHVN;locus_tag=LOCUS_14590;note=WP_011183080.1 ABC transporter permease (Mesoplasma florum) [pid:39.8%25%2C q_cov:95.4%25%2C s_cov:24.6%25%2C Eval:3.8e-13%2C partial hit],internal stop codon at [908581:908583](-)%2C[908671:908673](-)%2C[908689:908691](-)%2C[908761:908763](-)%2C[909055:909057](-)%2C[909085:909087](-),MGA_1459
sequence1	MetaGeneAnnotator	CDS	909178	909393	.	-	0	ID=MGA_1460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKQELTKLRFLKKKYIQEEIRIMKLEAKILKRQQKLRTFGDAKDIEQKELEKALEQEIENTQSEEIVVGE;locus_tag=LOCUS_14600;note=MGA_1460
sequence1	MetaGeneAnnotator	CDS	909544	910140	.	-	0	ID=MGA_1461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSLFLAFLHKPELVVLDEVSNTIGLDMKTKVIEFLKNYKKDHNATYVIVSPDKSIFQALCDRIVVMEMGLILSDDYIDETTLNFDYDEYAYKILAAIEAKQTTLKPDPVFKPILKKFEKYLEKFNADYEKLNSKEEILDFFDTDKILVMVKNINFYIQEMHTKFITVASSGLNRLLIEELKVSIKNVINKIKELSKT;locus_tag=LOCUS_14610;note=WP_010974332.1 ABC transporter ATP-binding protein (Agrobacterium tumefaciens complex) [pid:27.0%25%2C q_cov:56.1%25%2C s_cov:20.4%25%2C Eval:2.0e-07%2C partial hit],MGA_1461
sequence1	MetaGeneAnnotator	CDS	910577	911191	.	-	0	ID=MGA_1462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFDFINHGESIDGYVSFGVNELNALLEVLDHLINNFQVEHLGLIGFSMGAFTVNLFSVADKNYIDKYKVKFTISDSTYMFIKQVFKTILVFSNQQFQDYVESFMDKIIEKYQKDYKINVLEYDIVKLIEKNEKTVPTLFIHSKKDLVTYPKDSEALFKYRTKISKQDQILLFDTGAHVKTQLEHTSDYINAIKKFLQSIDLLK;locus_tag=LOCUS_14620;note=WP_010867387.1 alpha/beta hydrolase (Pyrococcus abyssi) [pid:26.5%25%2C q_cov:97.5%25%2C s_cov:64.3%25%2C Eval:8.5e-09%2C partial hit],internal stop codon at [911276:911278](-),MGA_1462
sequence1	MetaGeneAnnotator	CDS	911674	911862	.	-	0	ID=MGA_1463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYENYLGLYYYKPFAGKSFTVSYNVPFVQSKVAYGLSANKFINFKLVDKLLTHEEIEYLRNE;locus_tag=LOCUS_14630;note=MGA_1463
sequence1	MetaGeneAnnotator	CDS	911992	912180	.	-	0	ID=MGA_1464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYMHRGSLFISNNPDPKTNAVKVNGVNVTNVNQKDEMGEFVIKQESDLQQAMDPGVFVKGSS;locus_tag=LOCUS_14640;note=MGA_1464
sequence1	MetaGeneAnnotator	CDS	912367	912579	.	-	0	ID=MGA_1465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAGKITDQQSKLIQAMLKDINADTNLKSYFKVSGSDGSLKIDTSVAKLPVNIIMTQQSGSQSEVRLQKM;locus_tag=LOCUS_14650;note=MGA_1465
sequence1	MetaGeneAnnotator	CDS	912694	913449	.	-	0	ID=MGA_1466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPYFESLLTYHAFSPIPVEMLDINSNINTDYTKGLYSGEYIPTSHVKESSLILDKNQNYHLKDDVHVNRIRYTFLGKSDATTTRKLFEGGSLSSFGPSQADEEGFQKYVGDIANPKATDGLAMYTTSAGDYSSVINYFNFFNSDILNKKINDKNIALLKSRLFQLKSVREFFAKDINRSYYLKYATNLYDGANNKYSNYLRNAYVPDGMHSEEASQVEAGHSSGMNTSGKKGYVEYLSEQLKTSESVRSAE;locus_tag=LOCUS_14660;note=MGA_1466
sequence1	MetaGeneAnnotator	CDS	913738	913887	.	-	0	ID=MGA_1467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIDSYGRTYGDLVDPSSNPNYGSSDKSLASHPGSDKKVYQYKIRSNAT;locus_tag=LOCUS_14670;note=MGA_1467
sequence1	MetaGeneAnnotator	CDS	913951	914073	.	-	0	ID=MGA_1468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSLLAISLVSTSSASLVACGKAKDPAKTFKTAYTAEISN;locus_tag=LOCUS_14680;note=MGA_1468
sequence1	MetaGeneAnnotator	CDS	914135	914959	.	-	0	ID=MGA_1469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKKSFLFEKITSKQKRLNRKNTQMIFQDPGSSLNDRMAVEEIIGEGLINFPKTYKNPEVVNEYLLDYNQKNPNNKISIDQVKYRDVKKYLILKALTSVGLIPEHLSRYPHEFSGGQRQRIGIARSLILKPKIIVADEPISALDVSIRAQVLNLFKKFQQELGITFIFVAHDLSVVKFIADKIAVIYRGQIVEVAAAEELFNNPLHPYTRSLLSAIPQPEPSIAKETKNIIYNPEQEHFDYVFDLPKLVEVSPGHQVFLNSRELANIKKQIQNK;locus_tag=LOCUS_14690;note=WP_011182994.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:60.1%25%2C q_cov:98.2%25%2C s_cov:43.9%25%2C Eval:9.3e-93%2C partial hit],MGA_1469
sequence1	MetaGeneAnnotator	CDS	915314	916306	.	-	0	ID=MGA_1470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTKNRENNSFLKIRNIEVVFRNSGHKFYAVKQTSLDVQKGEIFGLVGESGSGKTTIARAIVGVQPLYDGAIYMDEKLIAGKPSSLYQLNRQITRKLFDMKRKMNFTSIYLKQFIDILRSFYERDNSLSSITKKEFLKKFKLSSVEFIDDVFLSNLKHVNEIINNQERIIRFISNIHSQIPKISQELEDAILEKQEQTNEVVYEIKEVLANNYKLIHPLVKHRKKMEKDEEVDMNNVVKKLLVSIEEIVKHHKETINKVDVAVNIQKENELLTAPVTIKNKVIKEYYKKLYVFREDFIKECENQIARLSTLPNYENNPEYIKAFHHKKDF;locus_tag=LOCUS_14700;note=WP_014584437.1 ATP-binding cassette domain-containing protein (Mycoplasma leachii) [pid:30.0%25%2C q_cov:88.8%25%2C s_cov:50.6%25%2C Eval:1.4e-32%2C partial hit],MGA_1470
sequence1	MetaGeneAnnotator	CDS	916398	916547	.	-	0	ID=MGA_1471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSISGTPPSLFNNLTGDAFAPRNNYAMEIDYLYEPPMFKVSDTHYAKT;locus_tag=LOCUS_14710;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:8.7%25%2C Eval:1.7e-16%2C partial hit],internal stop codon at [916398:916400](-)%2C[916593:916595](-),MGA_1471
sequence1	MetaGeneAnnotator	CDS	916593	917051	.	-	0	ID=MGA_1472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSLNPLLSVGFQITEVLRKQLGLSRREAKAEAINLLGKVGIPEPEKRYKDIPGRYSGGMRQRVVIAIALACRPKILICDEPTTALDVTIQAQILDLIRELQEEYKFTVIFITHDLGVVAKLADRIAVMYAGQIVEYGTSDEIFHDPKHPYT;locus_tag=LOCUS_14720;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:6.1e-67%2C partial hit],internal stop codon at [916398:916400](-)%2C[916593:916595](-),MGA_1472
sequence1	MetaGeneAnnotator	CDS	917271	918317	.	-	0	ID=MGA_1473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSKILAIRNLEVKFQVRQRFLTAIRNISLDIYDKEVLAIVGESGSGKSVITKTFTGMLESNGYISDGSIIYSPNQESIDDKKAYFKKPINLVNFQRLIMDGSTVKNIVKINKNSIKKLKNEIKNFEKLKEEKLKATKDDLLKKIDKLRAGLNFSKSNTNSYKIGLLEEKVKEVTSKLEVIFDEDKKQKYFEDLNFKIELLKQDITKVKGISLISKILNRINVDRLLKAKEFVKTHGFEAFKNQLSILKLNTKINFINSLINNFNSYSEEKILSEIKNIEKKEFLFKEYKLNCLHNFKKEILEKELNNLQAELENINVKKEVALNDAKLNSNNLHLFSIKELDSFYR;locus_tag=LOCUS_14730;note=WP_011166384.1 ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:29.9%25%2C q_cov:95.7%25%2C s_cov:65.4%25%2C Eval:1.3e-31%2C partial hit],MGA_1473
sequence1	MetaGeneAnnotator	CDS	918332	918709	.	-	0	ID=MGA_1474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIQMILVRNSEYNVASQVLGTRGPRIIVKNILPKILPIIIQTISFSIPGAIGLDAALSYYSFGFIENYASDASLGTILNQALQSPYTLYPHLLYIPLSFIGVISLLFYFNGKIFADSLDPKLHR;locus_tag=LOCUS_14740;note=WP_011182992.1 ABC transporter permease (Mesoplasma florum) [pid:45.2%25%2C q_cov:100.0%25%2C s_cov:38.4%25%2C Eval:3.0e-26%2C partial hit],internal stop codon at [918803:918805](-)%2C[918881:918883](-)%2C[918965:918967](-)%2C[918977:918979](-),MGA_1474
sequence1	MetaGeneAnnotator	CDS	919172	919297	.	-	0	ID=MGA_1475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVILHNQKEIEISSIDASLFKFVEKREESIEKINSKPYSY;locus_tag=LOCUS_14750;note=MGA_1475
sequence1	MetaGeneAnnotator	CDS	919308	919736	.	-	0	ID=MGA_1476;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDYTKFVAIFALVILGVPGLSIITRRFIIDEMTADYTKFAQSKGLSNSYVFYIHIFRNAGIRIIRTIPASIIYSLFGSSILVEQFYVAPGMSKYILKGVGTNDIYIVLGYIVLSAGIGIFVSLLSDLLMAVLDPRVKLSKK;locus_tag=LOCUS_14760;note=WP_011166382.1 ABC transporter permease (Mycoplasma mycoides) [pid:49.6%25%2C q_cov:96.5%25%2C s_cov:33.1%25%2C Eval:5.9e-36%2C partial hit],internal stop codon at [919779:919781](-)%2C[919833:919835](-),MGA_1476
sequence1	MetaGeneAnnotator	CDS	919833	920015	.	-	0	ID=MGA_1477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMNGTNGNLYNSVLDTFKDAMPISFILGFSSTIITYLIGVPMGIVMARFKEKPLDNSLN;locus_tag=LOCUS_14770;note=MGA_1477
sequence1	MetaGeneAnnotator	CDS	920118	920531	.	-	0	ID=MGA_1478;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNDLTSQNELIEQDLQSVFDRIELKDEIGKTKVPIYKKLGYLYAKFNSGRREFLAKTPLLSYSVKRILYAFLTFYLAVAVVYVLMVAFLKDDALLSDYDPIKNPIKPNTPEFYDLIENKRKAFGLYGSMIKQVLIF;locus_tag=LOCUS_14780;note=MGA_1478
sequence1	MetaGeneAnnotator	CDS	920605	920898	.	+	0	ID=MGA_1479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNKNKYNVLKELRKDQRDAHKDFVNNKVDEVLDDYVEKHSEYISSKKLRWYDYIIIVFISILITGLSFIISIYGFKDITRTNYFTAAAGFLGLFI;locus_tag=LOCUS_14790;note=MGA_1479
sequence1	MetaGeneAnnotator	CDS	921235	921408	.	-	0	ID=MGA_1480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKYEINHFLSSLEQSFVLSLLSLKNNFFNDFLVCKNINGKTIKTAAKRAIKFIMLK;locus_tag=LOCUS_14800;note=MGA_1480
sequence1	MetaGeneAnnotator	CDS	921511	922221	.	-	0	ID=MGA_1481;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGAMGMVAASSSVAVACKNDKSSSEPADLSKLTAQSLTVAPTANDEAAAKVAVITKIKTELSKQVVETTDVIFDRFSAATKEKAGSIIVKAAEKSNLVTGTATFTLTFKDSSESSTDPQPEQSPELSFVTLDHLQNNVLELQDKNPVTVTIKVANKKADAQVQFDEISEKPQSFTIEANESNAVNLEEYKFNISSSAVIAENGIKITFKYSGANNLELTVKTKSDFSVG;locus_tag=LOCUS_14810;note=MGA_1481
sequence1	MetaGeneAnnotator	CDS	922461	922619	.	-	0	ID=MGA_1482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVMKTQDNKYYSSIDNDVYNLIEIDDNRLHGNKYTIKKEELESIKPPKTDSP;locus_tag=LOCUS_14820;note=MGA_1482
sequence1	MetaGeneAnnotator	CDS	922890	923426	.	-	0	ID=MGA_1483;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENNELVFSMHKKTKKEIRLRTKLLNNDLEPLVIIKNKIPLLKHPHPTQKTETNFGAIFEADASNHEWIKGVKSHLHIVIDKSTKRILAGHFSEQETTESYYRVYKETFVNYGIPIKNVTDNRNVFSSKINRDSEGYSESRTQLQFIFHSLKESTKTTSIPQEKALVERTFGTLQRR;locus_tag=LOCUS_14830;note=MGA_1483
sequence1	MetaGeneAnnotator	CDS	923649	923807	.	-	0	ID=MGA_1484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKRLCHKYNILGGKIMRGIELDIMKQIKLEVIKGLSNKLHDINTSAETLG;locus_tag=LOCUS_14840;note=MGA_1484
sequence1	MetaGeneAnnotator	CDS	923913	924398	.	+	0	ID=MGA_1485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLMGILSVTASVASAASVVVACAKDLEYAEGFDDAKFLKSFPIMLGDDTGASNLDDCIEEGKLKRDFLDTKKSDSSPVSYSGTFISGNIDNIKSVFKGLDSLKNDENTAYILSVSGKKGKTSLVVYVIKLSGDANGFTSASSVYKHKITIPAPEAKESN;locus_tag=LOCUS_14850;note=MGA_1485
sequence1	MetaGeneAnnotator	CDS	924435	924818	.	-	0	ID=MGA_1486;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYLGFIFLIFLDIFLNIIFSPILKSSTEWYESDLITFLCYLVYIVLSTMLLSFVFSSILELFEYRTFSVLNLIFNIIIPICLFIISFTLNYFSAKNIETNKLYLINFSVIFVYWLFLMVSSRFIVK;locus_tag=LOCUS_14860;note=MGA_1486
sequence1	MetaGeneAnnotator	CDS	925128	925292	.	-	0	ID=MGA_1487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSEHDYGDLVQSCNLAIESIKEIFQKEKDRLGYKKSENLFELKRVNEYYNKNS;locus_tag=LOCUS_14870;note=MGA_1487
sequence1	MetaGeneAnnotator	CDS	925795	925947	.	-	0	ID=MGA_1488;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIDSSSIELFADDYKTVFSSRFFIKDFNRIEFSSDQELEISDIKKMNYN;locus_tag=LOCUS_14880;note=WP_011183424.1 glycoside hydrolase family 32 protein (Mesoplasma florum) [pid:59.6%25%2C q_cov:94.0%25%2C s_cov:9.8%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [926008:926010](-),MGA_1488
sequence1	MetaGeneAnnotator	CDS	926008	926274	.	-	0	ID=MGA_1489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTIPRELTLEGDVLIQKPFGDFKKNVLENKVVKKTNVVEINKAKHIQFNLKGNTSFKILNDNNEFLEVVFDDNEISMDRSKQGQKVD;locus_tag=LOCUS_14890;note=WP_011183424.1 glycoside hydrolase family 32 protein (Mesoplasma florum) [pid:44.3%25%2C q_cov:100.0%25%2C s_cov:18.4%25%2C Eval:1.6e-16%2C partial hit],internal stop codon at [926008:926010](-)%2C[926281:926283](-)%2C[926326:926328](-)%2C[926356:926358](-),MGA_1489
sequence1	MetaGeneAnnotator	CDS	926575	926727	.	-	0	ID=MGA_1490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKKYMIFGVQTKDEVKGGLAVYEMKDYDKFEFKTVLKPSIKDQTYGYM;locus_tag=LOCUS_14900;note=WP_011183424.1 glycoside hydrolase family 32 protein (Mesoplasma florum) [pid:56.2%25%2C q_cov:96.0%25%2C s_cov:9.8%25%2C Eval:7.5e-09%2C partial hit],internal stop codon at [926281:926283](-)%2C[926326:926328](-)%2C[926356:926358](-)%2C[926575:926577](-)%2C[926776:926778](-)%2C[927016:927018](-),MGA_1490
sequence1	MetaGeneAnnotator	CDS	926776	926976	.	-	0	ID=MGA_1491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVSVVPDFEKEAYGAFSGSAYDFGNTVKIYYTGNMEDGKGNMNEEVQIVADFENNKVVNKRVAVS;locus_tag=LOCUS_14910;note=WP_011183424.1 glycoside hydrolase family 32 protein (Mesoplasma florum) [pid:61.5%25%2C q_cov:98.5%25%2C s_cov:13.4%25%2C Eval:2.2e-13%2C partial hit],internal stop codon at [926575:926577](-)%2C[926776:926778](-)%2C[927016:927018](-)%2C[927052:927054](-),MGA_1491
sequence1	MetaGeneAnnotator	CDS	927460	927939	.	-	0	ID=MGA_1492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIFKKKFQEVVVENNKGENKNPQNINQQGMGNQQQYNPQQINNPQQINNPQQINNPQYEQNLQQQRHSQQQYYESQMVSEEISNDNTEFDEMHATHFKPQSYKDTKQIVDSLMKFKRVTVNLTEISKDDKKRLIDFLTGVMYALEGDYKKIDQGVFQF;locus_tag=LOCUS_14920;note=WP_003565171.1 cell division protein SepF (Lacticaseibacillus) [pid:35.0%25%2C q_cov:37.7%25%2C s_cov:39.7%25%2C Eval:5.5e-08%2C partial hit],MGA_1492
sequence1	MetaGeneAnnotator	CDS	928051	929250	.	-	0	ID=MGA_1493;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166766.1;translation=MSNNFVKQAANIKVIGVGGGGCNAVNRMIEDKVEGVEFIVANTDAQVLAASSAEKKVVLGANISKGLGAGANPEVGKQAALESESEIREILKDADLIFVASGMGGGTGTGAAPEIARIAMETGALVIAIVTKPFGFEGRLRNSYAIKGIDELKKFVDSIIVISNDRLLEIIGGIPVKDSFREADNILKQGVQTITDLIAVPATINLDFADVRTIMKGKGNALFGIGIGSGPDKAIEAANKAITSALLETSIRGAKDAIVNVTGGPSTTLNDAEDAADIIKQASGQDINLIFGIAISENLGDELIVTVIATGFDNDHNKEISSEQHVEVVKPQNIQNHVQEQNMNVSNQRNISNDDYIESAQEKRTSFLNDENNKRPSYVQQQSKISENEMKNVAQRMEN;locus_tag=LOCUS_14930;gene=ftsZ;note=WP_011166766.1 cell division protein FtsZ (Mycoplasma mycoides) [pid:57.9%25%2C q_cov:89.7%25%2C s_cov:92.2%25%2C Eval:5.9e-111],MGA_1493
sequence1	MetaGeneAnnotator	CDS	929271	929516	.	-	0	ID=MGA_1494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNNQQGLMQNPMSNLYTGINNVPNIVQNQMSQPQMMHRQNFTNLQNQSIYDINNINNQQNYQNVNNFANQNGIIKKQTNR;locus_tag=LOCUS_14940;note=MGA_1494
sequence1	MetaGeneAnnotator	CDS	929628	929939	.	-	0	ID=MGA_1495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNFKSTKNDDLIIYRKYISSEKRTLEISIKQLKDLFLEEMNYIIDLIDLEIQNEFITKVRDFKVFFNGKVTEISGFDKMISRSNFKNKVFIYYSLVTGANEI;locus_tag=LOCUS_14950;note=MGA_1495
sequence1	MetaGeneAnnotator	CDS	930087	930275	.	-	0	ID=MGA_1496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIANSVAMYAKAYTLDKKVVDSHMEVVQKCEKNILAKYIQTYALAKQCIEEKNFKEPSALVD;locus_tag=LOCUS_14960;note=MGA_1496
sequence1	MetaGeneAnnotator	CDS	930597	930719	.	-	0	ID=MGA_1497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENEIYAVVEITKKDIRFIVGKYRNNLGLKVIFKERVKGN;locus_tag=LOCUS_14970;note=MGA_1497
sequence1	MetaGeneAnnotator	CDS	930742	931665	.	-	0	ID=MGA_1498;product=16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183293.1;translation=MTQEHISVLLNESIDLLDIKPNGVYVDCTLGRAGHSVEILKRLKAGHLYAVDQDLEAIQNSEMKLRAVSNNFTILEGNFVYLKALLALKNINLVDGILYDLGVSSPQFDVGSRGFSYRFDSDLDMRMDLKNNKLTAKDIVNKYDLKGLNHIFKLYGEEQLSYQIAKKIIETRVEKPINTTFELVEIIKSALPQKILKQKKHPAKKVFQALRICVNDELEVLKKSLIQALELLKKDGVLVIISFHSLEEKIIKDIFKTKTTDIKDKFLSKLPVEGLIKEKEFKLLTKKPILPSDDELKINRRAHSAKL;locus_tag=LOCUS_14980;gene=rsmH;EC_number=2.1.1.199;note=WP_011183293.1 16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH (Mesoplasma florum) [pid:59.0%25%2C q_cov:99.3%25%2C s_cov:97.7%25%2C Eval:4.7e-91],MGA_1498
sequence1	MetaGeneAnnotator	CDS	931752	932096	.	-	0	ID=MGA_1499;product=division/cell wall cluster transcriptional repressor MraZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183294.1;translation=MLLGTFEHSLDDKSRITIPSKLRNKLGDVIFVSKGIGNFLEIRTPDNFNKLLQELGHKSSFNASTRTIERLILSNSDELLVDSSGRIKIPTNLLEKIGVSKHVYILGLGDRLEI;locus_tag=LOCUS_14990;gene=mraZ;note=WP_011183294.1 division/cell wall cluster transcriptional repressor MraZ (Mesoplasma florum) [pid:51.3%25%2C q_cov:100.0%25%2C s_cov:76.2%25%2C Eval:3.6e-27],MGA_1499
sequence1	MetaGeneAnnotator	CDS	932196	932501	.	-	0	ID=MGA_1500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKENIETEILNSSICLALFENKVDLNLINNEIYKLGDILDKLDPVLSLNVTNSIYYHYTNFKNQLKSLLKRDIESIDIQKLEQKMYIKCVSNLQKKIMH;locus_tag=LOCUS_15000;note=MGA_1500
sequence1	MetaGeneAnnotator	CDS	932622	932798	.	-	0	ID=MGA_1501;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183295.1;translation=MAVPFRKTSKAAKNKRRSHLALVSTSLMTCQNCGATIKPHRVCRECGYYKNKEVVKKD;locus_tag=LOCUS_15010;gene=rpmF;note=WP_011183295.1 50S ribosomal protein L32 (Entomoplasmataceae) [pid:79.6%25%2C q_cov:93.1%25%2C s_cov:91.5%25%2C Eval:3.7e-21],MGA_1501
sequence1	MetaGeneAnnotator	CDS	933065	933310	.	-	0	ID=MGA_1502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKDIELKKTIKIDEVFNCDSINNFNHALLKKINKIKVLGALKYQETIKCLKVEAKIITDIDLIDARDGKLINIKNEEYD;locus_tag=LOCUS_15020;note=MGA_1502
sequence1	MetaGeneAnnotator	CDS	933360	934088	.	-	0	ID=MGA_1503;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPLSNLRESYRLSIAQSAIEIANLNSSRGNKNLKLYEIADVYNLKGIRDKRLSVLTSGEVFYQKAYNLNISSSYPYLKGILDEVLSIYQIDLNDLNIQNMSKPIDEIHPFINAQVKYKDILIGFIFKLSPRYEQANKLANTFVIELSLSEIEKLFERKNIIKEASKFQKTSRDVTMLLSVSDNYNEVIKNITKDINYLTHFSLLDIYQDETLANEQKSAISVGFEFNSNEKQLTDKEVSSE;locus_tag=LOCUS_15030;note=WP_011183297.1 phenylalanine--tRNA ligase subunit beta (Mesoplasma florum) [pid:40.5%25%2C q_cov:100.0%25%2C s_cov:30.5%25%2C Eval:4.5e-53%2C partial hit],internal stop codon at [933360:933362](-)%2C[934122:934124](-),MGA_1503
sequence1	MetaGeneAnnotator	CDS	934122	934475	.	-	0	ID=MGA_1504;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLDYINEFLGTKLKVDQVKKLFENLEFKISESKKEVLKFEVDPFRTDISHKAHIIEEIARLYGYNKIESKPQIIEATLKEKQLENKLLKQLENYLIDNGFNNIKTYSLMNKKVVER;locus_tag=LOCUS_15040;note=WP_011166772.1 phenylalanine--tRNA ligase subunit beta (Mycoplasma mycoides) [pid:45.0%25%2C q_cov:93.2%25%2C s_cov:13.6%25%2C Eval:4.6e-19%2C partial hit],internal stop codon at [934122:934124](-)%2C[934557:934559](-)%2C[934614:934616](-),MGA_1504
sequence1	MetaGeneAnnotator	CDS	934614	934781	.	-	0	ID=MGA_1505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCADEVVSTLGVDFNKYFLPSAKSKQVIAVYLSLNPILMRKHQKFANSNSALLQR;locus_tag=LOCUS_15050;note=MGA_1505
sequence1	MetaGeneAnnotator	CDS	934950	935180	.	-	0	ID=MGA_1506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIVKELANYFDKDVKDYTKNLKQIPSIYHVSVSLKETEESKELVRSCAMELFDLKEVHSIHENETEPNIYSFQDI;locus_tag=LOCUS_15060;note=MGA_1506
sequence1	MetaGeneAnnotator	CDS	935223	935618	.	-	0	ID=MGA_1507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYRDLNDQLTLGHVGSVAPIEGTKLNFCFVDKGEDLVSPIVCGANNVKEGQYVIVASPGKTISTGLTLETKEIQGKISEGMICSLTEIGVDQNVQTEVELEGIYPIFTKTDPYSLIGSNEVLNIIGFNDVV;locus_tag=LOCUS_15070;note=WP_011183297.1 phenylalanine--tRNA ligase subunit beta (Mesoplasma florum) [pid:36.7%25%2C q_cov:97.7%25%2C s_cov:16.1%25%2C Eval:5.1e-18%2C partial hit],internal stop codon at [935223:935225](-)%2C[935709:935711](-),MGA_1507
sequence1	MetaGeneAnnotator	CDS	935739	935915	.	-	0	ID=MGA_1508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAPEVIEQNGLDSNEVGGLAFGIGVERVAMLKFGINNIRDFYENDIRFLEQFKFFGD;locus_tag=LOCUS_15080;note=WP_011166773.1 phenylalanine--tRNA ligase subunit alpha (Mycoplasma mycoides) [pid:63.8%25%2C q_cov:100.0%25%2C s_cov:16.6%25%2C Eval:1.2e-16%2C partial hit],internal stop codon at [935936:935938](-)%2C[936092:936094](-)%2C[936138:936140](-),frameshifted%2C insertion/deletion at around 936146%2C936122,MGA_1508
sequence1	MetaGeneAnnotator	CDS	936093	936791	.	-	0	ID=MGA_1509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKLEEILKTFRKEIKDAKDKKSHEELKRKYASRDSALVEISRDLKDLDPDQKREFGIKINEVRTEVFSALNELEDALKYEELKKQLEKEKIDISLQGMTFKRGSKHPLNLVIDEISDIFTELGYEMVSGTEFESDEYCFQKLNMPIGHPARDMQDTFYVDEKNVLRTHCTNMTARRLTQLSKMNVEEKSIASISYGNVYRRDDDDATHSHQFMQIDGFAVGKKINFATLK;locus_tag=LOCUS_15090;note=WP_011166773.1 phenylalanine--tRNA ligase subunit alpha (Mycoplasma mycoides) [pid:55.6%25%2C q_cov:100.0%25%2C s_cov:66.3%25%2C Eval:3.8e-70%2C partial hit],internal stop codon at [935936:935938](-)%2C[936092:936094](-)%2C[936138:936140](-),frameshifted%2C insertion/deletion at around 936146%2C936122,MGA_1509
sequence1	MetaGeneAnnotator	CDS	936992	937285	.	-	0	ID=MGA_1510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITSIETKLKLTFNKVEYDDIFYKINEIRDIFKSQTCLLKTNNLDEYKNIYTQFLASFYQNIRDFINIAFFNYIFFNYIHGDIFFENNYYDNDKFYK;locus_tag=LOCUS_15100;note=MGA_1510
sequence1	Barrnap:0.8	rRNA	937540	937623	.	-	.	ID=Barrnap_1;product=5S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;note=aligned only 70 percent of the 5S ribosomal RNA,Barrnap_1;locus_tag=LOCUS_r00010
sequence1	Barrnap:0.8	rRNA	937738	940636	.	-	.	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	940929	942444	.	-	.	ID=Barrnap_3;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00030;note=Barrnap_3
sequence1	MetaGeneAnnotator	CDS	942887	943159	.	+	0	ID=MGA_1511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKNKMEIIKAVIDEKLSKKAAAIKICQTIRNVNLLINKYKKYGYTAFIHKNTGRISNKKIKHQISDQIIDLYINKYEEYNYKHFLEKL;locus_tag=LOCUS_15110;note=MGA_1511
sequence1	MetaGeneAnnotator	CDS	943256	943423	.	+	0	ID=MGA_1512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKQKITNLLKNENIKKLEKREYLNTLLSIENIHPMQNRKTEFGERLQTDASVHY;locus_tag=LOCUS_15120;note=MGA_1512
sequence1	MetaGeneAnnotator	CDS	944534	945529	.	-	0	ID=MGA_1513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIIAFIATMVCFFINNNPYISIFDLLASILAIIISISFYFMTYDVVIKLLGSSSYLIISIVLFIVFPIIIFIVRSALSIVAIVKSNNEDGNKNVTSNKFNQQFQPQPQFQPQPQFQPQPQFQPQPQFQPQPQFNMQQQVNNMNQAHDDLSFTSTPNDETFNIADKIQKLRNNLSENDFENMHIEDHDESVQDQNFDVPNLENYDQTQEENNFDQENFQNQQQDIMFNQFKQQNQSNSQQPRIKRPDRPVGVQEEQLSNTVQEYLFSDKPKDPYKQTIVPRRLVAQKASIYKDPIGNIPQKIASKPQTERKQPKVDMNYENKIFLGDGDRI;locus_tag=LOCUS_15130;note=MGA_1513
sequence1	MetaGeneAnnotator	CDS	945551	945694	.	-	0	ID=MGA_1514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAIKIMNLVLGIFGALFVFMSASLIIISIPGEKMHAYSMFNSEYAH;locus_tag=LOCUS_15140;note=MGA_1514
sequence1	MetaGeneAnnotator	CDS	945797	946075	.	-	0	ID=MGA_1515;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPILRVNSIEEMIKLANKSNFGLQASVFCQDISTAINVAKQIETGTVNINSKSQRGPDCFPFLGIKDSGEGVQGIRESLISMTRYKGIVINY;locus_tag=LOCUS_15150;note=WP_011166693.1 NADP-dependent glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:65.9%25%2C q_cov:98.9%25%2C s_cov:19.3%25%2C Eval:5.4e-31%2C partial hit],internal stop codon at [946097:946099](-)%2C[946142:946144](-),MGA_1515
sequence1	MetaGeneAnnotator	CDS	946142	946960	.	-	0	ID=MGA_1516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEEIAKNLKDSLAEVLRTVEIIDYTFEEAKRMDPLAMTGEGMGAKNKLGIFERVAKGVILAISPFNYPFNLALAKIIPALVMGNTVVFKPATAGSLTGAYMAKLAIEADFPKGIFNVVTGRGREVGDIITSNPEIDMISFTGSVGIGNQIRAKGSSTDLVLELGGKDPALVLDDRDLEKYASEIVTGAFGYSGQRCTAIKRVFVNDQIADKLVPIIKKHVEKLSVGTPEQNAFITPVIDEKSSDFIQGLIDDAKQKGAKILFGDKREKNLM;locus_tag=LOCUS_15160;note=WP_011166693.1 NADP-dependent glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:63.6%25%2C q_cov:98.9%25%2C s_cov:57.1%25%2C Eval:2.9e-94%2C partial hit],internal stop codon at [946097:946099](-)%2C[946142:946144](-)%2C[947048:947050](-)%2C[947159:947161](-),MGA_1516
sequence1	MetaGeneAnnotator	CDS	947257	948003	.	-	0	ID=MGA_1517;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166692.1;translation=MEKITSVNNNLIIKILKYKDRKVQFKEQKYLVEGLNIVREALKYHLVDTILVTKKTINEFREYDNVIEISDNVANKLSDLKTSQEVFAICNMKTQFIEKSNVLILDDIQDPGNLGTILRSAIAFDFKNIICSKNSVSVYNSKVLRAAQGNHFKLNIEYVDLDKTIRNLKEQNYLLISTSLSKENNFDKSQVAKKQHLALVLGNEGSGIKQSIVDICDKNFLLETNKEVESLNIAVAGSIIMFKLSNEN;locus_tag=LOCUS_15170;note=WP_011166692.1 RNA methyltransferase (Mycoplasma mycoides) [pid:44.7%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:3.3e-54],MGA_1517
sequence1	MetaGeneAnnotator	CDS	948022	948219	.	-	0	ID=MGA_1518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNETREKKAKGERVSPLASIQAKLLDPPRRAQGVHGYPVQDPKYKGKDYIKPENKLYEIGFTYVE;locus_tag=LOCUS_15180;note=MGA_1518
sequence1	MetaGeneAnnotator	CDS	948550	949137	.	-	0	ID=MGA_1519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDKKNKKVADFKPSQEFDPKRPTLTLDESIDLDEDKTNYTKTYDRFDLNNDTETNNSPIKTNEEDQTQNQNLENNKNDAKSIIARLKRQLEEKEQRDEQLEKGGKVVMPDPNSENRLYGRPKANFEDYTKVFKDPKTKLRDASRHARDNFTQEEIDKIVETFTYKVVKVTKKEVVLKYSKYGFEFFKNNSDGRY;locus_tag=LOCUS_15190;note=MGA_1519
sequence1	MetaGeneAnnotator	CDS	949161	949406	.	-	0	ID=MGA_1520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGFKPEDYNFAFQNNTIIDAYLNCLQKVGEFNKNRNVQFFTNMLDAFFSIAKILDFSEKEIIEAYIEKNKVNFERQDNNY;locus_tag=LOCUS_15200;note=MGA_1520
sequence1	MetaGeneAnnotator	CDS	949488	949661	.	-	0	ID=MGA_1521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNEKNLNFIIDKQKELDKYIETKWNITNNEEILSKKIVALYVEICEFINEQRAFKF;locus_tag=LOCUS_15210;note=MGA_1521
sequence1	MetaGeneAnnotator	CDS	949742	950260	.	-	0	ID=MGA_1522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLARNLKLNKSKNDYFISSKIIDYENSGLTKTKIFSNSTNFNNLSGAYQLNVNLKDVQDFNEAITFSFFDSFYKIDIYLDFKKNKVCIKRNTSYKILQERSEFIKTREFNVKFSKNDILKIFLDKRIIELEFPNGYTFTMSKFLGTKNDEKLSIIMQNNYQISMDYYNLDI;locus_tag=LOCUS_15220;note=MGA_1522
sequence1	MetaGeneAnnotator	CDS	951098	951310	.	-	0	ID=MGA_1523;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYLLSKVSKFIFSFLFIFVLFVIYFFSMIYVNKPLQPLQQRFSNKFHVDMKKAGMMNDIQGGFYRDGT;locus_tag=LOCUS_15230;note=MGA_1523
sequence1	MetaGeneAnnotator	CDS	951315	951866	.	-	0	ID=MGA_1524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLARELKLVNQGSIEKPVYYINSSYLGFDDYKVTKEGEYSNDSDLIEKENLAGQFYKLDLLFDNLKSTEDKINLYIGDEQYDVNVIIDFLNNKIAVTRSINQDFHFGKEAFEKQRVFDINRENVNDKSILEIYNDKTILEFKFLDGSTFTMLKYPDGVTKEKVKLTSEKESINYKYYQIVQD;locus_tag=LOCUS_15240;note=MGA_1524
sequence1	MetaGeneAnnotator	CDS	952146	952304	.	-	0	ID=MGA_1525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIAEENEFGVYVSNKPTSGFEKTGSFKADHPMLECPNLFQMNVSNNECAKK;locus_tag=LOCUS_15250;note=MGA_1525
sequence1	MetaGeneAnnotator	CDS	952704	952904	.	-	0	ID=MGA_1526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLKAIFVGFLGTSFSFGSVACKSYPNYKLPPIDDAKYTNRFHVQNPTTGMMNDIQGGFFRDNK;locus_tag=LOCUS_15260;note=MGA_1526
sequence1	MetaGeneAnnotator	CDS	952925	953305	.	-	0	ID=MGA_1527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIVFKSTKSSDNVIQFVFNDETYKNILKLDFKNNQIMTQRSSLDKTLKGNKGFTQERAYSTNLNLENDSRITLIVDTTTIEAVLPDRSIISMIKFRDGKTPEKLKIDSLSSKLKFDMNYYSNIKK;locus_tag=LOCUS_15270;note=MGA_1527
sequence1	MetaGeneAnnotator	CDS	953513	954112	.	-	0	ID=MGA_1528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAISTAYGGEKGQNILAYYSSPGDKEGNGNDFGYNFNVLNDGEPILKNGQPEGTYPDFRDPHFFKKDGKFVMYVSQLDKFGVYVSDKPLSGYIHKGDYYVKHAMVECANLFELNVNGDSENKKYVFIYGGNGNNKNNDAKSVDNLGTGTYYSVGHLNEDFVFVEEQGPQRLDFGADFYAAKFFEDDSSSVKNDHLIGTG;locus_tag=LOCUS_15280;note=WP_011107965.1 GH32 C-terminal domain-containing protein (Bacteroides thetaiotaomicron) [pid:28.8%25%2C q_cov:88.9%25%2C s_cov:28.4%25%2C Eval:9.9e-07%2C partial hit],MGA_1528
sequence1	MetaGeneAnnotator	CDS	954362	954706	.	-	0	ID=MGA_1529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFNISSYNIICLNLTKKYYKIIILFLKKTIDKGIKKMKRLFNILGVVALSASSSSFLMSCKKRPIDQSFDVEKSFEIINGTNFNSSEENDKYHNNFHVDAPDYKGMLNDMQGG;locus_tag=LOCUS_15290;note=MGA_1529
sequence1	MetaGeneAnnotator	CDS	955152	955394	.	+	0	ID=MGA_1530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVIDKVNKYYGKKQVLKDINLTIKDSESIAFLGSNGSGKTTLVEIIAKLLKPTSGSIKYTDESNSEVQKRVGMQFQDGS;locus_tag=LOCUS_15300;note=WP_011241762.1 ABC transporter ATP-binding protein (Ligilactobacillus salivarius) [pid:44.4%25%2C q_cov:90.0%25%2C s_cov:25.0%25%2C Eval:3.8e-13%2C partial hit],internal stop codon at [955392:955394](+),MGA_1530
sequence1	MetaGeneAnnotator	CDS	955626	955847	.	+	0	ID=MGA_1531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIKLINFFKSYKKNKNLTLLIVSHIPEEVEDLCDRIVILKDGEVYEDKNIKEVKEKYGSLRKRLMDYYEIKN;locus_tag=LOCUS_15310;note=WP_011183542.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:54.8%25%2C q_cov:84.9%25%2C s_cov:26.5%25%2C Eval:5.0e-13%2C partial hit],internal stop codon at [955392:955394](+),MGA_1531
sequence1	MetaGeneAnnotator	CDS	956468	956797	.	-	0	ID=MGA_1532;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISLIIISSVISTIDAFSFDKKVLQMFGNVFTQPSFLLIFIGIILNIAFVYFIAILIAGFFRNVYLINALFVLVVMFLILTGDYLLDYKFTQSFYYQMFSFLNPQKYLN;locus_tag=LOCUS_15320;note=MGA_1532
sequence1	MetaGeneAnnotator	CDS	956891	957121	.	-	0	ID=MGA_1533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFQKLDKVIRYTFKITFRSIFTHIFIFIIPFLIELFIYFYLIKQNIISNRAIVCGPLIFITIIFNSLFVTNSICS;locus_tag=LOCUS_15330;note=MGA_1533
sequence1	MetaGeneAnnotator	CDS	957589	957735	.	-	0	ID=MGA_1534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYKDNAPVESKSDVNIRLTFADSEGKPIYQDESKVYKTEKIENLSND;locus_tag=LOCUS_15340;note=MGA_1534
sequence1	MetaGeneAnnotator	CDS	957805	957984	.	-	0	ID=MGA_1535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDILPTYKWRIFDTKSPDTALPIDEIAGGYDYYDIYNKGNSIVIGSGFDQEGKILPAT;locus_tag=LOCUS_15350;note=MGA_1535
sequence1	MetaGeneAnnotator	CDS	957997	958197	.	-	0	ID=MGA_1536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEKIFNYNSNASKTNTSSLGIGSFVREKTVFIDKNIENSFLKTNFSTGGGVNFVEDQNTVFKNYP;locus_tag=LOCUS_15360;note=MGA_1536
sequence1	MetaGeneAnnotator	CDS	958225	958698	.	-	0	ID=MGA_1537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSLQLDFGHSPGSYDRFLRENPDYKSSDIYTIIDGGYNVFIHGTYNYKNLIYPFNLNGSEAYDKTRPSSFSGFYDGGSAKFAEAVDNILGKEKKGTIGRYLLKNQINALYNDIIYSGTNMFISNSDKGLNGSEYGEKVRSLSNFASEAISVDPRIH;locus_tag=LOCUS_15370;note=MGA_1537
sequence1	MetaGeneAnnotator	CDS	959197	959484	.	-	0	ID=MGA_1538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNGNVASDFGIKSPAQYYRRLNELLNFDPQKDMDAKYAKSNFDIRDREFVAAKTTDSQDDRVNFNLLSYNSQGPSTNRNTIVGSKNPFETTQLN;locus_tag=LOCUS_15380;note=MGA_1538
sequence1	MetaGeneAnnotator	CDS	960076	960276	.	+	0	ID=MGA_1539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGCTTESDKLKENIKNKITKNIDKATFLVIEVSNKFIAVKNIINIKVHKIYNIQIYHFKFCNTSL;locus_tag=LOCUS_15390;note=MGA_1539
sequence1	MetaGeneAnnotator	CDS	960457	960591	.	+	0	ID=MGA_1540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIDEKNTQLVIIETINGGIGKFAEFLNHTINTKINVAIEMTYV;locus_tag=LOCUS_15400;note=MGA_1540
sequence1	MetaGeneAnnotator	CDS	960973	961278	.	-	0	ID=MGA_1541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHTQSAQELNDISQKIKSDYLKNYTKLLYYYKDNPYSCNQNCDNRGIPNFEIEKIYKEVCDSDDIQMFGAQTLKSLYIESRINKIKKTGSSLIDSNSFIIL;locus_tag=LOCUS_15410;note=MGA_1541
sequence1	MetaGeneAnnotator	CDS	962249	962401	.	-	0	ID=MGA_1542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYLTKNSFHKINQTALQGVIDAHANDGQVPNIVLEFETMDAKMFGYAIY;locus_tag=LOCUS_15420;note=WP_011166689.1 glucose-6-phosphate isomerase (Mycoplasma mycoides) [pid:68.0%25%2C q_cov:100.0%25%2C s_cov:11.7%25%2C Eval:2.7e-14%2C partial hit],internal stop codon at [962249:962251](-)%2C[962600:962602](-)%2C[962603:962605](-),MGA_1542
sequence1	MetaGeneAnnotator	CDS	962603	963241	.	-	0	ID=MGA_1543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEVAKKLRQEIEVLLVIGIGGSYLGARAADEMIRGLYPNDKVELIYIGNTMSSTYIDQVVNYVKDKEFGIVNVSKSGTTTEPGISFRVFEKLLVETKSKEIAKKRIVAVTDKAKGALKELATAEGYETFTIPDDIGGRFSVFTPVGVFPLLVAGIDTDALFAGSKQAYEDLKDINNQAYQYAVARYILNTKKGFKAETLVSYELQMQMFSE;locus_tag=LOCUS_15430;note=WP_011166689.1 glucose-6-phosphate isomerase (Mycoplasma mycoides) [pid:67.9%25%2C q_cov:100.0%25%2C s_cov:49.9%25%2C Eval:1.7e-74%2C partial hit],internal stop codon at [962600:962602](-)%2C[962603:962605](-)%2C[963275:963277](-)%2C[963284:963286](-),MGA_1543
sequence1	MetaGeneAnnotator	CDS	963284	963412	.	-	0	ID=MGA_1544;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKVNFSNSKIEKEIKEFDKEKIKKVDEMIRNKTGQGSDFLG;locus_tag=LOCUS_15440;note=MGA_1544
sequence1	MetaGeneAnnotator	CDS	963437	963763	.	-	0	ID=MGA_1545;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKGQKVKAKITSIVNYGAFCEVTDESDVIKGLIHISEFSDYFVGDITQFVNIGDEVDVEVIEFINDKNQVKLSYKRIRPELLKENESKIKETGEGFDNLKNVVADTK;locus_tag=LOCUS_15450;note=WP_003218379.1 S1 domain-containing RNA-binding protein (Bacillus) [pid:40.2%25%2C q_cov:88.0%25%2C s_cov:72.7%25%2C Eval:4.6e-11%2C partial hit],MGA_1545
sequence1	MetaGeneAnnotator	CDS	963852	964100	.	+	0	ID=MGA_1546;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNKDKSLEQKVIDVIDQLKMYVRQDGGDMEFVALKDKIVYIRLLGNCVGCGLTNMTYKEGVESILFEEFPYDIDGVELIL;locus_tag=LOCUS_15460;note=MGA_1546
sequence1	MetaGeneAnnotator	CDS	964121	964339	.	+	0	ID=MGA_1547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILADNVRFIDAYNAAIATISTITVIFATLIIPILVKKSSNRKIKMDAAQEAIDSAFDKYHSDQSKINDFD;locus_tag=LOCUS_15470;note=MGA_1547
sequence1	MetaGeneAnnotator	CDS	965564	966022	.	-	0	ID=MGA_1548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIISLMVSTTIISNTTVILSSCEKINKLTYVDNMNDSNFIKNFDDGVFLKYIDLEKRVLKESLENEKNDLSNPKIVFGNTGKQISNNFEEMKKYFKNLSLITLEVNIEYILSAQGKKNQNNFDIYIIKKVTADDGKYTWNALFTKTVNID;locus_tag=LOCUS_15480;note=MGA_1548
sequence1	MetaGeneAnnotator	CDS	966080	966304	.	-	0	ID=MGA_1549;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLKQKKVGQQFVKAEKLKNMDLDFDKTVDPFLVLGVDDKMNLDEIKEIYYQISQVYKNQESESLRIKYLQIE;locus_tag=LOCUS_15490;note=MGA_1549
sequence1	MetaGeneAnnotator	CDS	966830	967339	.	-	0	ID=MGA_1550;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYPSCILKGDRAQGDTISIAVAKKGVYQDAGSKMIHLGKETKSKIVSKSITFQGGTANYRGLAFIGPNAYNSKARVECDTLILDNQSHSDTIPQNKVHNNESQIEHEATVSKVSEEQLFYLMSRGISEQEALELIVMGFLEPFTKELPLEYAVELNQLIKMDMEGSVG;locus_tag=LOCUS_15500;note=WP_001118827.1 Fe-S cluster assembly protein SufB (Bacillus) [pid:67.5%25%2C q_cov:100.0%25%2C s_cov:36.3%25%2C Eval:2.2e-61%2C partial hit],internal stop codon at [967370:967372](-)%2C[967436:967438](-),MGA_1550
sequence1	MetaGeneAnnotator	CDS	967952	968089	.	-	0	ID=MGA_1551;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDFRLDSLKKFNARPQPDFGPDLNFIDFQDYYYYTRGTDEIVDS;locus_tag=LOCUS_15510;note=MGA_1551
sequence1	MetaGeneAnnotator	CDS	968090	968242	.	-	0	ID=MGA_1552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKQEKEIKEISNYKYGFNEGETSSFKVEKGLNEKIVSQISQIKNEPE;locus_tag=LOCUS_15520;note=MGA_1552
sequence1	MetaGeneAnnotator	CDS	968242	968682	.	-	0	ID=MGA_1553;product=SUF system NifU family Fe-S cluster assembly protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287684.1;translation=MIDKNDKLLLRSIIMEHFTNPENKGLIENEKNIYVKYQDSPTCADAIDVQLTYENNQVKNAKFEGVGCAISTAAIDILCNQIINKSKEEALNILSNYHNMIVGQNYNEDILDELIIFYQIYQQGNRINCALLGADGLKNILESEVK;locus_tag=LOCUS_15530;note=WP_002287684.1 SUF system NifU family Fe-S cluster assembly protein (Bacteria) [pid:29.0%25%2C q_cov:93.2%25%2C s_cov:86.5%25%2C Eval:5.9e-13],MGA_1553
sequence1	MetaGeneAnnotator	CDS	968714	969184	.	-	0	ID=MGA_1554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGGGNNSSIEYEKYILAKVPYKFEAGTLNLSAIAGLKAAIDFIEEHNIENINNYLRDLKKYFIANINKIELEKFEFYNINNHEPIILFNLKNVNAQDFGSFLNKKYNILVRTGKHCARLAKHLIDSESTIRISLSIYNNKEDIDKLIIALQDADS;locus_tag=LOCUS_15540;note=WP_011166685.1 aminotransferase class V-fold PLP-dependent enzyme (Mycoplasma mycoides) [pid:45.5%25%2C q_cov:98.1%25%2C s_cov:37.9%25%2C Eval:1.6e-30%2C partial hit],internal stop codon at [969221:969223](-)%2C[969287:969289](-),MGA_1554
sequence1	MetaGeneAnnotator	CDS	969287	969502	.	-	0	ID=MGA_1555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSDGTIDVDNIKNKINKNTKIVSFANVSNTMGSLNDVKKITSIIKSINENIIVIVDGAQSVSHIKSNVND;locus_tag=LOCUS_15550;note=WP_011183145.1 aminotransferase class V-fold PLP-dependent enzyme (Mesoplasma florum) [pid:46.5%25%2C q_cov:100.0%25%2C s_cov:17.4%25%2C Eval:4.0e-10%2C partial hit],internal stop codon at [969221:969223](-)%2C[969287:969289](-)%2C[969548:969550](-),MGA_1555
sequence1	MetaGeneAnnotator	CDS	969548	969910	.	-	0	ID=MGA_1556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYKKHFPYFYFNKDDIYFDSAATALKPKQVLDAEYEYNVKIAANTHNNLFKNAYIANEMLIETRKKVANFIGTSNYEQIIFTSGTTHSLNQVAFGLKKVLKKDDEILLTILEHSSNLLP;locus_tag=LOCUS_15560;note=WP_011183145.1 aminotransferase class V-fold PLP-dependent enzyme (Mesoplasma florum) [pid:49.6%25%2C q_cov:97.5%25%2C s_cov:28.7%25%2C Eval:8.8e-26%2C partial hit],internal stop codon at [969287:969289](-)%2C[969548:969550](-),MGA_1556
sequence1	MetaGeneAnnotator	CDS	969912	970679	.	-	0	ID=MGA_1557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFLNEKTVIDFSSKIDNQLVFENDDKKIIFLSDIQGDIEINIKESCNVNLHFIFVSNNNFDKKTFNIIINLEKYANLVLNIANLTKYDCDDNISINLRDENSSVEYYSASIANQEYKKNSIIKVCHLARNTKSNICAYEVLKNKSKGFIRCISDIKNGSSSSEAHQELRLLVLDKEAKANSDPVLLIDENDIVASHANAIGMLDPDQIFYLRSRGLTKQQSQELILMGYFEPVFINLENDNIAMHLKDILKGMI;locus_tag=LOCUS_15570;note=WP_010989989.1 Fe-S cluster assembly protein SufD (Listeria) [pid:32.7%25%2C q_cov:64.7%25%2C s_cov:37.9%25%2C Eval:7.9e-27%2C partial hit],MGA_1557
sequence1	MetaGeneAnnotator	CDS	970699	971421	.	-	0	ID=MGA_1558;product=Fe-S cluster assembly ATPase SufC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002938165.1;translation=MHTIEVKELHVQIEEKEILKGINLIIKSGEIHALMGPNGNGKSTLLMAIMGHPKYEITKGDILFNNKSILDLSVDERSKLGLFLAMQNPQTIPGVSNLEYLKYVVNAHSEEKQKLKDIMSDIRTKAKDLDFDLNMLKRFVNDGFSGGEKKKNEILQMKMLNPLFSLIDEIDSGLDVDALEVVSKNLNALDFSKMGMVIVSHYDRFFKKVIPTHAHVIIDGKIITSGGKEIVDKINSEGYN;locus_tag=LOCUS_15580;gene=sufC;note=WP_002938165.1 Fe-S cluster assembly ATPase SufC (Streptococcus) [pid:51.9%25%2C q_cov:99.6%25%2C s_cov:93.8%25%2C Eval:2.8e-71],MGA_1558
sequence1	MetaGeneAnnotator	CDS	971599	971952	.	+	0	ID=MGA_1559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTLLGSLTLVSSAANVAVACGTYDIKDNGNSVIVQFLNSLDGKAHIDASHVLVDLINASGPTNREAFLIEMLQLMNVSLLANSNTFFGAEGTLKLDESNTAYNKNLGETLSYR;locus_tag=LOCUS_15590;note=MGA_1559
sequence1	MetaGeneAnnotator	CDS	972049	972216	.	+	0	ID=MGA_1560;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYEKYTVYQNKKKEMDLDFLEKKYKANILLTDTTNNATKAILDVLLNTDSYGVT;locus_tag=LOCUS_15600;note=MGA_1560
sequence1	MetaGeneAnnotator	CDS	972493	972717	.	+	0	ID=MGA_1561;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSNSQLFFLEKYFEIKAPLAISEITIPFATNGKFEDGISYEDFKGDFDVTAKDIDKLLVKLTPDKQEPLAESF;locus_tag=LOCUS_15610;note=MGA_1561
sequence1	MetaGeneAnnotator	CDS	972778	973365	.	+	0	ID=MGA_1562;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTLQSTDFSDSLKNVVYDYVLGSEYEKPEELSFDGKDFEADIKKITNKLTRAESVGSPSLESRAAAASKGANVFYGTLKNNPGKLLYIDTDGMHIVSIDGYDQLKNKTENKFKDLTPLAQLQAFNDFHKLSDNQKIYYMQHDTETTSNSENRNYMNILNNSIKNNYLRYLVNNSLISGISDAPVSFDIVNELKS;locus_tag=LOCUS_15620;note=MGA_1562
sequence1	MetaGeneAnnotator	CDS	973405	973569	.	+	0	ID=MGA_1563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTAVFDYFKNVTTKTKEDSNSLEDVEIFLKKLVVFGEENPTNKEFEEIAKSMQG;locus_tag=LOCUS_15630;note=MGA_1563
sequence1	MetaGeneAnnotator	CDS	973899	974468	.	+	0	ID=MGA_1564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLGFLGAITLITSTSSLAVACDNKPDRVSKVSLNPELAKQLIAALAGDPSLANKDFGDIFSSSDATTIVVRIINELIAKKFGYDSTNNNLEKLGLKKFDDENSEGYLPQQFIDTYKNQAGTVAEDLLFTEYTSSISSTRLDFSQINTKLYSLNPIEEVKSIVDLNGKSFNVIKGAKISFNKDGDKE;locus_tag=LOCUS_15640;note=MGA_1564
sequence1	MetaGeneAnnotator	CDS	974847	975377	.	+	0	ID=MGA_1565;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVWSIKFRKDNESKVRDELKKHDINSGSDKVVDFSNGNLKQGSSLIKLMSDIAKSLKTEEESGVIYNEDNSNAYDSFFRAQGYKGFTIFENGSAIGNNPISGKNYESAVKEAKKPSILLKSGSPFFEDNEDKNIEEIVFTLPIYMIELLGASAESNDSYIYQIKGADEKGKDIEFG;locus_tag=LOCUS_15650;note=MGA_1565
sequence1	MetaGeneAnnotator	CDS	975543	975707	.	+	0	ID=MGA_1566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINQIKYMVSQDSTISELAKTVLYTKYLDADHIYYAGLYDQIGKYIKNNKDADD;locus_tag=LOCUS_15660;note=MGA_1566
sequence1	MetaGeneAnnotator	CDS	977298	977429	.	-	0	ID=MGA_1567;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKTILFSAEEKKKIIDEFTTTDISARKLALKYNIKQTSTIYV;locus_tag=LOCUS_15670;note=MGA_1567
sequence1	MetaGeneAnnotator	CDS	977911	978099	.	-	0	ID=MGA_1568;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIGSFLEHYNLDNKRIFPFIRSSAYLSEHLTRALNFLRDNSSKDAIIEKEVYSSSRNDVDN;locus_tag=LOCUS_15680;note=MGA_1568
sequence1	MetaGeneAnnotator	CDS	978112	978309	.	-	0	ID=MGA_1569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANYIANKLDVKTFKIERELPYSSNYSELSKDARNEAVNNLRPKMKEYPEYINNYDYILLGFPIW;locus_tag=LOCUS_15690;note=MGA_1569
sequence1	MetaGeneAnnotator	CDS	978575	978940	.	-	0	ID=MGA_1570;product=MerR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_214357293.1;translation=MNKKYYINNISKRYSISEHTLRYYDKKNILSCFKRDANGYRYVEEKDLRFIELVICLKKTKLSLKNIQRYLQLIEQGDTTMLERFKIIDKQLKLAIKMRKDIDDQIEFLKNKIKIFQKILI;locus_tag=LOCUS_15700;note=WP_214357293.1 MerR family transcriptional regulator (Bifidobacterium santillanense) [pid:31.0%25%2C q_cov:93.4%25%2C s_cov:79.6%25%2C Eval:1.2e-14],MGA_1570
sequence1	MetaGeneAnnotator	CDS	979063	979290	.	+	0	ID=MGA_1571;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKLNDGNEMPFISFGTYQITDLELCEKVVLNALEVGYRAIDTAQSYFNEEAIGNALEKTNVARKDIFLTTKI;locus_tag=LOCUS_15710;note=WP_011107747.1 aldo/keto reductase (Bacteroides) [pid:53.3%25%2C q_cov:100.0%25%2C s_cov:26.6%25%2C Eval:4.7e-19%2C partial hit],internal stop codon at [979288:979290](+),MGA_1571
sequence1	MetaGeneAnnotator	CDS	979348	979617	.	+	0	ID=MGA_1572;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTNYVDLVLVHQPFGYYREALSALLSLKKLGYIKSIGISNFYDDKLADLCLFNNSDFIPVINQIEVNPFFQRDNTIENNIKYGVKPMA;locus_tag=LOCUS_15720;note=WP_002263344.1 aldo/keto reductase (Streptococcus mutans) [pid:47.7%25%2C q_cov:96.6%25%2C s_cov:30.0%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [979288:979290](+)%2C[979615:979617](+)%2C[979717:979719](+),MGA_1572
sequence1	MetaGeneAnnotator	CDS	979771	979932	.	+	0	ID=MGA_1573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENISIFDFSLSNEDKEQIKSLDKGVSQFFNHNDIDGVEMIYSLVKKRNEIK;locus_tag=LOCUS_15730;note=WP_004080532.1 aldo/keto reductase (Thermotoga) [pid:60.0%25%2C q_cov:84.9%25%2C s_cov:15.7%25%2C Eval:8.2e-08%2C partial hit],internal stop codon at [979615:979617](+)%2C[979717:979719](+),MGA_1573
sequence1	MetaGeneAnnotator	CDS	980673	980822	.	-	0	ID=MGA_1574;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILIITILYIALHKDMFLTKLDRETSFKSLKQNYYVGYSLQKKMKLL;locus_tag=LOCUS_15740;note=MGA_1574
sequence1	MetaGeneAnnotator	CDS	981949	982362	.	+	0	ID=MGA_1575;product=HIT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166682.1;translation=MNNCIFCKIIKKEIPSKIIYENDFVYSFLDITPNSDGHCLIVPKKHYENFEQTDKDYLHHVLDGKIEVLKILNTKLPKKPLGYNFVTNQGEEAFQTVFHYHEHIIPKYKKNKGYTFLIKNNPDDLSDLDVLYSYFKK;locus_tag=LOCUS_15750;note=WP_011166682.1 HIT family protein (Mycoplasma mycoides) [pid:48.9%25%2C q_cov:98.5%25%2C s_cov:97.0%25%2C Eval:2.4e-31],MGA_1575
sequence1	MetaGeneAnnotator	CDS	982401	982619	.	-	0	ID=MGA_1576;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKRGNSPDNGACESFFGTIKNECIYTYKIKELNYSNIYTIISDYIDFYNYVRPMLKHKKTPYEIRMEKVPF;locus_tag=LOCUS_15760;note=WP_120719018.1 IS3 family transposase (Streptococcus chosunense) [pid:47.5%25%2C q_cov:81.9%25%2C s_cov:13.1%25%2C Eval:9.9e-09%2C partial hit],internal stop codon at [982644:982646](-)%2C[982656:982658](-)%2C[982780:982782](-)%2C[982870:982872](-),frameshifted%2C insertion/deletion at around 982758,MGA_1576
sequence1	MetaGeneAnnotator	CDS	983715	984008	.	-	0	ID=MGA_1577;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGKNASDYTDEGKLLGHITIGSAFISHASNSLKLSEKEYEESVKLQHIVLSSHGKHEFGSPVEPSMLEAIIVSSLDALDARIYKVNEELSKVDGEG;locus_tag=LOCUS_15770;note=WP_011166681.1 HD domain-containing protein (Mycoplasma mycoides) [pid:52.1%25%2C q_cov:92.8%25%2C s_cov:28.8%25%2C Eval:1.7e-21%2C partial hit],internal stop codon at [983715:983717](-)%2C[984060:984062](-)%2C[984129:984131](-),MGA_1577
sequence1	MetaGeneAnnotator	CDS	984688	986862	.	-	0	ID=MGA_1578;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFMEKIKFKNAKKYKGIIEKIFVKDGQPVNKGDILAQISTQLERISLESPIDGVVRNVYVIDSLIVSHGDTIFDIISNKELETILRRPSEMSDTLKDALTDFGFLDETLDEVQMDINLNNTEVLTHTIDYSDKLPESIGKEIKHENNTNLNQPVETSNITKELESLEFLKKETDIEVSKTHAIEQLNEDFLNKTNIQNEHNNKDLIIEENKKVIINEKIDIVVKPIETNSLTQELNNFALKSKESLTEISKTQSLDQINNDFLFSNNLDDKKEKQKEVDYTNNMPRSIGDTKKSANEYINNKPIETDGVTEELKNLNLFKPEIEKEESSSKVIEEINNDFFNKDSNEKNEKTSKYENKLSNQEKVEINLNELVQENSNDQAEKNKTEFSETELQRKVESSQFLSQFQQQEEVNQKLNIVKSSYSIEEVSEIKQDFSKINEDYSQINKEINNAITKDFETDELLKQNDDSIEELSAFAVLEETVVINEEIEDQDSSVENKDVIISGIEKELELLREDFLKAKNQLVNLEKKEVNSKKIDNSKELRKANTISFEADITALLNLHTIMYDSILDKGIILNLNSFYLKALALILTNFKNIGLFKKQVVSVYKNIKDNFNFVDVKINEKNSILEIAMEVEKNKISEKLSKVVLFDLSHFNIISSNIQLNEDVLLSISIGDNQSRLKGDMILSNYVMVTIIYDSNVINLNDAINFGKEFTSLISNPGLLI;locus_tag=LOCUS_15780;note=WP_011166640.1 MOLPALP family lipoprotein (Mycoplasma mycoides) [pid:22.3%25%2C q_cov:62.7%25%2C s_cov:57.6%25%2C Eval:4.3e-07%2C partial hit],MGA_1578
sequence1	MetaGeneAnnotator	CDS	986946	987326	.	-	0	ID=MGA_1579;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKNSYINSPKILNKKLQVMRNKKVYFAGQVTGVEGYIESFASAFIVFFALYSEFKNKKFIPFPDQTILGALTNYITNKKLKKLKPMKANMGIVKVDKEFDTKTEKYDYIYENSMLIIKNYLEKIF;locus_tag=LOCUS_15790;note=WP_011166678.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mycoplasma mycoides) [pid:46.4%25%2C q_cov:99.2%25%2C s_cov:28.1%25%2C Eval:5.6e-25%2C partial hit],internal stop codon at [987396:987398](-),MGA_1579
sequence1	MetaGeneAnnotator	CDS	987396	988238	.	-	0	ID=MGA_1580;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVNIIGAGLAGCELAYQLAQKGIKVNLYEKKNIEKNEIQKLDTFAELVCSNTFRSKSTQNAVGILKKELEQLDSFILKCAYLTEIPSDDALAVDRISFSKLVDKKIREQKNITVFNEELKILDADKIYVICCGPLISDEFKKEIDRVVGNQKLFYLDASSPIIKKDSIDFKKVYYSSRHSNDNSYICAPLNKHEFENFYINLINAQKVKLKDFEKEIFFKGCQPIEQIAIQSKKNLINGPMSPNGLEHENNKPYAVIQLRKDNAIDSLYNIVGFQTNLT;locus_tag=LOCUS_15800;note=WP_011183139.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mesoplasma florum) [pid:58.7%25%2C q_cov:99.3%25%2C s_cov:63.6%25%2C Eval:2.2e-89%2C partial hit],internal stop codon at [987396:987398](-),MGA_1580
sequence1	MetaGeneAnnotator	CDS	988324	989418	.	-	0	ID=MGA_1581;product=methionine adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183137.1;translation=MKNYFTSESVSEGHPDKLCDQISDAILDAYLEQDPNARVACETVASKNFVLVTGEISSSAKVDCEKQVRRILNKVGYKDANTGIDPNNCEIIIKLSKQSIDIARGVDNDLEMGAGDQGMMFGYAVDETDTYMPYSIQLAHDLVHMASRLRKTGAFKYAQPDMKSQVTMNYTNPKNPHISTILMSVQHDEDYNQEEFETFIKENIMIPVAKNHGLNTDFKVLINPTGKFVIGGPLGDVGLTGRKIIVDSYGGHARHGGGAFSGKDPSKVDRSAAYMARYAAKNMVAAGLASKIEVQISYAIGKPDPLSIFIECFGTNKVPMDIIYKALNENFSFKVKNIIDILDLTKPIYFRTAKYGHFGKKEFT;locus_tag=LOCUS_15810;gene=metK;EC_number=2.5.1.6;note=WP_011183137.1 methionine adenosyltransferase (Mesoplasma florum) [pid:65.2%25%2C q_cov:100.0%25%2C s_cov:96.8%25%2C Eval:6.5e-138],MGA_1581
sequence1	MetaGeneAnnotator	CDS	989659	990459	.	-	0	ID=MGA_1582;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSLKFKTQAKQRGEFVDLKSYKTKDGYDLSLNGQINKKNKKIIISIHDFKSTKNEYDNLISYFIKKNLDIDIIAYDQRGCGKNAVYKDASQATFISDLDEIIESINEKYPKKKIILLTSGFSSHMALYFSSNPKIEKIIITSFKINKGYRNGISNIIKCIIGFIFYQKIKLKDKLNGIDLIDDEKISKEIDVNHLEKGTYTFRETLQNYIIKRRTKKYINNAKCKITLILPNLDIYTKQKKLAKFINKLDKQKYKLNTLKDCKHF;locus_tag=LOCUS_15820;note=MGA_1582
sequence1	MetaGeneAnnotator	CDS	990687	991001	.	-	0	ID=MGA_1583;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRHDKLRNLHEALFALDKEVKNVCRGLETRLKTVAKYRDTYERILTEVEFERKNEMYGRSTIYDFERMRINLEQDAGNVIYESINVMGNDEFIVRKQNVIFAF;locus_tag=LOCUS_15830;note=MGA_1583
sequence1	MetaGeneAnnotator	CDS	991121	991297	.	-	0	ID=MGA_1584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGPINSIIGANPDEVIYKEKTGLPTKFIPSENAGKLQAVIIRFENKKAKSIERIQVI;locus_tag=LOCUS_15840;note=MGA_1584
sequence1	MetaGeneAnnotator	CDS	991403	991882	.	-	0	ID=MGA_1585;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILIIGDIYSKSGRDVLKKHLNNIVAKNNIDFVVANAENISHGKGINKNHYNFLKQLKVDVITSGNHIFKVKETQEFIIETNDLLRPLNMYESLPGKGTVLFEKNGFKIRITNLLGTTFMDHANSPFEVLDKLLENDNSDIHIVDFHAEASAEKIAFA;locus_tag=LOCUS_15850;note=WP_020862745.1 TIGR00282 family metallophosphoesterase (Mycoplasma mycoides) [pid:57.5%25%2C q_cov:100.0%25%2C s_cov:62.3%25%2C Eval:3.2e-48%2C partial hit],internal stop codon at [991403:991405](-),MGA_1585
sequence1	MetaGeneAnnotator	CDS	991882	992199	.	-	0	ID=MGA_1586;product=YlxM family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183135.1;translation=MSNINKNEEISSLYDYYKELLTEKQKEYFELYYFEDLTFQEIGEQLGISKNAVFDSINKTINNLKDFENKLHIKEKNDFIKQQIDNFKESKINIEVLIRNIEEEI;locus_tag=LOCUS_15860;note=WP_011183135.1 YlxM family DNA-binding protein (Mesoplasma florum) [pid:53.8%25%2C q_cov:97.1%25%2C s_cov:95.4%25%2C Eval:8.5e-21],MGA_1586
sequence1	MetaGeneAnnotator	CDS	992234	992569	.	-	0	ID=MGA_1587;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIDTAGRLQNKEHLMRELEKMTKIVKKSVEDGPHERLLVIDAQTGQNGVNQAKAFSEATNVTGIVLTKMDGTSKGGIALAIKDILNIPVKLVGYGEKVEDIKEFDLDDYI;locus_tag=LOCUS_15870;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:1.2e-38%2C partial hit],internal stop codon at [992234:992236](-)%2C[992678:992680](-)%2C[992843:992845](-),MGA_1587
sequence1	MetaGeneAnnotator	CDS	992678	992815	.	-	0	ID=MGA_1588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGVNGVGKTTSIAKIANYYSKMGKKVLIVAADTFRAGAVEQLEE;locus_tag=LOCUS_15880;note=WP_011183134.1 signal recognition particle-docking protein FtsY (Mesoplasma florum) [pid:75.6%25%2C q_cov:100.0%25%2C s_cov:12.3%25%2C Eval:9.9e-14%2C partial hit],internal stop codon at [992678:992680](-)%2C[992843:992845](-),MGA_1588
sequence1	MetaGeneAnnotator	CDS	992843	993007	.	-	0	ID=MGA_1589;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKTDMGMKMVLEISNAVQKRVKPKHNFDDIKEILAEELYYAYNDSGKYDIKLN;locus_tag=LOCUS_15890;note=WP_011183134.1 signal recognition particle-docking protein FtsY (Mesoplasma florum) [pid:51.9%25%2C q_cov:100.0%25%2C s_cov:14.7%25%2C Eval:1.3e-08%2C partial hit],internal stop codon at [992678:992680](-)%2C[992843:992845](-),MGA_1589
sequence1	MetaGeneAnnotator	CDS	993263	993895	.	+	0	ID=MGA_1590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFALNMNATPLKELYSITERKSNKYKGFLQDSEIDLYIKKDLSFIGSDKDFVLQNLDDMIKENFADYDLGEEFLKLTNYEFISYDNYQVTLKFFDKYGESCLGKSVIKTFDVLIYNYDNFEKLQNEVLLNSKVVIPVNIVNLKEVVDYVSNMYKEEFNKIASENIYLNDEKDFFNYLSFFEIDDYGNLKAEFLGSNILSIPLYQLSVTI;locus_tag=LOCUS_15900;note=MGA_1590
sequence1	MetaGeneAnnotator	CDS	994822	995301	.	-	0	ID=MGA_1591;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAGDLRLAVGGVLISKEIERIADVAKHICKFTIKYKPITLEIDYISKMFDLVNEMLNIVSSLIENYNNDQNEKVKKMEKELNSQFSDLSLNLAERLYGSKEQTEVKKIITIVRQLKNLERAGEHLINIDETLQFIRTGKFEEYGESIENKLEDIKKDK;locus_tag=LOCUS_15910;note=WP_011166672.1 phosphate signaling complex protein PhoU (Mycoplasma mycoides) [pid:43.9%25%2C q_cov:93.1%25%2C s_cov:66.1%25%2C Eval:6.6e-30%2C partial hit],internal stop codon at [995320:995322](-),MGA_1591
sequence1	MetaGeneAnnotator	CDS	995320	995520	.	-	0	ID=MGA_1592;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYNKILDNDIKAIKKDLIYLVETTKSQYAKTFTALKNKDYELAKKVEADDLIINDLQNKFTSMAL;locus_tag=LOCUS_15920;note=WP_011166672.1 phosphate signaling complex protein PhoU (Mycoplasma mycoides) [pid:44.8%25%2C q_cov:100.0%25%2C s_cov:29.9%25%2C Eval:2.2e-08%2C partial hit],internal stop codon at [995320:995322](-),MGA_1592
sequence1	MetaGeneAnnotator	CDS	995533	995823	.	-	0	ID=MGA_1593;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCIARAIAMRPKILLMDEPTSALDPIATLKVEELILKLKEEYTIVIVTHSMAQATRVSDYTGFFLQGELVEFDRTKKIFTNPKDKKTEDYISGRFG;locus_tag=LOCUS_15930;note=WP_011166671.1 phosphate ABC transporter ATP-binding protein PstB (Mycoplasma mycoides) [pid:78.9%25%2C q_cov:99.0%25%2C s_cov:40.9%25%2C Eval:1.8e-39%2C partial hit],internal stop codon at [995887:995889](-),MGA_1593
sequence1	MetaGeneAnnotator	CDS	995887	996402	.	-	0	ID=MGA_1594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAETKKTEWNNNQDKELEILDEAKIMKKPKKVPLKQRENVIEIKNLDFFYNHGEKQALFNINMKIKENTVTAFIGPSGCGKSTLLRTINRMNDLVDGTIIDGEVMVNDFNIYEAGTDVVKLRTQVGMVFQKANPFPMSIYDNVAFGPRNQGVKDKNALNQIVEDALKKAAL;locus_tag=LOCUS_15940;note=WP_164704003.1 phosphate ABC transporter ATP-binding protein PstB (Mesoplasma entomophilum) [pid:64.8%25%2C q_cov:84.2%25%2C s_cov:53.9%25%2C Eval:5.9e-49%2C partial hit],internal stop codon at [995887:995889](-),MGA_1594
sequence1	MetaGeneAnnotator	CDS	996500	997258	.	-	0	ID=MGA_1595;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIIATIILAIPLALFVAVYLAEYAHKNSKFAKTIRFSINVLASTPSIVFGVFGLSLFVVIFKLPMSIFAASLTMTIVVLPSLITTFEDALTSVPDSYREAAYGMGLSKTKVTLKVVLPNAMQGIITGLILAISRIIGESAPIYLTLGTSVRMPSEGFFASGATLTTEIYMLASEGSNAEVLNTAYELATVTIILVLGLNALSKLAASNLDPNKSKLSFEKKWKQRIVGIFKHNYINDFKKFGKSIRIRTKK;locus_tag=LOCUS_15950;note=WP_011166670.1 phosphate ABC transporter permease PstA (Mycoplasma mycoides) [pid:53.8%25%2C q_cov:98.0%25%2C s_cov:36.4%25%2C Eval:6.1e-64%2C partial hit],internal stop codon at [997367:997369](-),MGA_1595
sequence1	MetaGeneAnnotator	CDS	997367	998119	.	-	0	ID=MGA_1596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAGIPSVVFGLFALDQIGPLFVKMGAPTGGNMMTASVTLAFMALPTMISLSINALEAVPDSYRFASLGLGMSKERTTYKVVLVSAMPKIITAIITGVARIIGETMAVILIAGNSSQGLNFSEGFRGFIFSSIRTLAGTIGLEMLENHGTVHESALYAIGLVLFFLVIIINLLIIAIGSLNNKKTRKLKIKKDLKLSKNSGLHNSYYYEPYKLKVLVRTYTEKRIYKTFETFIYKFFMILSTSIIVAFTM;locus_tag=LOCUS_15960;note=WP_011183131.1 phosphate ABC transporter permease PstA (Mesoplasma florum) [pid:50.8%25%2C q_cov:99.6%25%2C s_cov:35.1%25%2C Eval:5.6e-62%2C partial hit],internal stop codon at [997367:997369](-)%2C[998294:998296](-),MGA_1596
sequence1	MetaGeneAnnotator	CDS	998294	998524	.	-	0	ID=MGA_1597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINLNPNFNSKKLMEAKKKMHKSKQSKVDLVSKSTIIIFTTFTLIILAILISFILYKSVPALKEVGLFKFIFSTI;locus_tag=LOCUS_15970;note=MGA_1597
sequence1	MetaGeneAnnotator	CDS	998514	998786	.	-	0	ID=MGA_1598;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELNEQTKAFEKIAGDVSNEQFIKGYDGKEYKFKRPFISIFNTHFKKYELLIEFFSAMIGISKDENIYKENFVDEGLVQNFEIRKVVYEN;locus_tag=LOCUS_15980;note=MGA_1598
sequence1	MetaGeneAnnotator	CDS	998796	999101	.	-	0	ID=MGA_1599;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKDAGQSDVPSSLTKIVTFTREDGSGTRSAFGDLTGIKKMETANVVNSNGSMFENIQKSQSAIGYISYAFIKQVTKESGVNVAGVNKTKLGNPANLGNDN;locus_tag=LOCUS_15990;note=MGA_1599
sequence1	MetaGeneAnnotator	CDS	999207	999545	.	-	0	ID=MGA_1600;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSFTKDYLANEKKDFIYNSTGSQAGVGGVEKGMYGAGFISKDVGTGTLTGNNRFSSFGEDDKLVFLPGEATGFSEEMIDLKTHNNDIDIDKSYVAFEFALDAIVIIFKKPD;locus_tag=LOCUS_16000;note=WP_011183130.1 phosphate ABC transporter substrate-binding protein (Mesoplasma florum) [pid:30.3%25%2C q_cov:96.4%25%2C s_cov:27.2%25%2C Eval:8.3e-08%2C partial hit],internal stop codon at [999606:999608](-)%2C[999612:999614](-),MGA_1600
sequence1	MetaGeneAnnotator	CDS	999702	1000322	.	-	0	ID=MGA_1601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNVNIESIEEYDKENQRYQEYVEQSSDVQDSIKNLKEAITDMDEQMILQFKSIVKEANGALPTTFSTLFGGGTAQIVYTDPEDILNTGIDIKIAPPGKKISNLNLLSGGEKSLVALSVLFSILKVKPIPLVILDEVEAPLDIANVERFAKYIKTFTQKTQFMIVTHRIGTMENCDVLFGATMQQKGVTKLVQIKLIEAKKLSNAN;locus_tag=LOCUS_16010;note=WP_011166660.1 chromosome segregation protein SMC (Mycoplasma mycoides) [pid:61.4%25%2C q_cov:98.1%25%2C s_cov:20.4%25%2C Eval:2.6e-69%2C partial hit],internal stop codon at [1000344:1000346](-),MGA_1601
sequence1	MetaGeneAnnotator	CDS	1000344	1002470	.	-	0	ID=MGA_1602;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDIVFSGSSDRSSLNMAEVTLVFDNSSRAFKTLDYNEVSITRKYFLIDKESQYFINNSRVRLKDVQEIALETGLTKSSLAIISQGSISNFVESSPEQRRRLFDEAAGVAVYKKRKEDALRKLVKTQDNLDRINDIINEIERKLPSLKRQSIKAKKYQEKFEELKQIEISVLVKDIKVYKQRIEEIESQRIDLKNLINSLEKSVNNKADQEKIFRENAYSNDNELNVLTSKFQKVVEEIGKLKVSKVNLESKKTITNANDKEFKANDLKTKSKQLDIRFRAEEQKLAKLINEKIVKEGQLETYNKEKQENNKNIEQIRKKLFKIENDLETLINKKNSFDGLFEGVKNILENKKVLSGIIGSVKELISVEDKYEVAISSIMQNSIQSIVAKTTNDVKQAIDFLKNNKAGFATFLPLDTLTASYLSSDIRFAVQNLEGFVGFGNELVKIEKKYQIILDYLLANFIVVKDYESAIRTAKIIKYKFNIVTLDGQRILPHGAIIGGSRKSKHSSFNENIKIEKLEQEKLELEKVEKEKQEKINSLNFKIDHLREEISEIKSSSGTSRQVISQIENEQESVEEEYRIITGKELNKEENTYKTVDEQIIKISEEVAVKEIEKEEIQQQLSVIRNLKEKAFEKQTLINESLDEERKLLNAHKENYSKVNTDLTLLKQKQMSAVERLSENYNLTFESAFDMDISDFNNENETRDRIN;locus_tag=LOCUS_16020;note=WP_011166660.1 chromosome segregation protein SMC (Mycoplasma mycoides) [pid:36.2%25%2C q_cov:99.9%25%2C s_cov:72.4%25%2C Eval:2.2e-125%2C partial hit],internal stop codon at [1000344:1000346](-)%2C[1002513:1002515](-),MGA_1602
sequence1	MetaGeneAnnotator	CDS	1002513	1002653	.	-	0	ID=MGA_1603;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFLKRIEAFGFKSFAEPVVINYDFAMTGIVGPNGSGKSNITDAIM;locus_tag=LOCUS_16030;note=WP_010874782.1 AAA family ATPase (Mycoplasmoides pneumoniae) [pid:64.4%25%2C q_cov:97.8%25%2C s_cov:4.6%25%2C Eval:4.1e-12%2C partial hit],internal stop codon at [1002513:1002515](-),MGA_1603
sequence1	MetaGeneAnnotator	CDS	1002873	1003058	.	+	0	ID=MGA_1604;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYISLFFIKRTYILKNRKINNKERVVNYKGKMICLSNMQSYIFKIHHKSFCYKNVENIMIY;locus_tag=LOCUS_16040;note=MGA_1604
sequence1	MetaGeneAnnotator	CDS	1004047	1004283	.	-	0	ID=MGA_1605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFKSDFKSELQELIQIDKRSDLVYKLVNQEKIDNNKILFTINCILDNMVYGIGKGLNKKQAEQNAAKDALSKIKLFK;locus_tag=LOCUS_16050;note=WP_011166663.1 ribonuclease III (Mycoplasma mycoides) [pid:54.9%25%2C q_cov:89.7%25%2C s_cov:30.6%25%2C Eval:6.9e-15%2C partial hit],internal stop codon at [1004326:1004328](-),MGA_1605
sequence1	MetaGeneAnnotator	CDS	1004326	1004736	.	-	0	ID=MGA_1606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIEEFFKKMNIIIKNKELYVEALTHNSYSNENKKERHYQRLEFLGDAVLQLNVSLYLFNKFKKANEGELSKYRSSLVKRESLAMIARKLNLGDYVRLGIGEHDSRGFDKDNILADLYESLTAAIYLDLGLESLQI;locus_tag=LOCUS_16060;note=WP_011166663.1 ribonuclease III (Mycoplasma mycoides) [pid:53.9%25%2C q_cov:94.1%25%2C s_cov:55.2%25%2C Eval:1.2e-33%2C partial hit],internal stop codon at [1004326:1004328](-),MGA_1606
sequence1	MetaGeneAnnotator	CDS	1004738	1005745	.	-	0	ID=MGA_1607;product=phosphate acyltransferase PlsX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183127.1;translation=MQYIKIAFDVMGSDNGFKPAIEAALKILKEKKDLKIIFVGKEFEIKSFLKNKKYNLEQVDFFNCEETIDMKDGIMDIRRKRDSSMVRALELVRDDIADGVTTGGATAPFIAGCIFILKRLEGIERPAFMPVIPTILKNKVTLLLDVGANLESDPEDIEKFAIMANAYSRVIKQVKNPKVALLNIGEESTKGTEIHKKAYELLKNNKYLDFYGNLEPRYITSGFVDVVVTDGYSGNVALKSAEGMGKNLLTEIKNSLTKNIFRKIAAFCLKKAFIEVREKFDYKNHAGAILLGVNKIAFKSHGSSDAISFYATLSMTYSAIKNRIVEKMKEALKIT;locus_tag=LOCUS_16070;gene=plsX;EC_number=2.3.1.274;note=WP_011183127.1 phosphate acyltransferase PlsX (Mesoplasma florum) [pid:53.7%25%2C q_cov:97.9%25%2C s_cov:99.1%25%2C Eval:7.4e-93],MGA_1607
sequence1	MetaGeneAnnotator	CDS	1007385	1007525	.	-	0	ID=MGA_1608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKIYLPLQRIRDKFSDNLSLIAVNNNKQFEARSELLSKGNQKDYQ;locus_tag=LOCUS_16080;note=MGA_1608
sequence1	MetaGeneAnnotator	CDS	1007562	1007807	.	-	0	ID=MGA_1609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLEINDFETDLNDIVVGVGYVLNRNNDNTDLSVVDKNSSEFKSVLNNMIDGVESYHKVFGTNKGTDDYRIAAYDGGDYKL;locus_tag=LOCUS_16090;note=MGA_1609
sequence1	MetaGeneAnnotator	CDS	1008165	1008398	.	-	0	ID=MGA_1610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEFIQSKKSKLKFDFLQDKSSLIDGNNDFTNDYESMIKKFNENSNSIKGNIQNKLTENLENYGVKINTTNYEIETN;locus_tag=LOCUS_16100;note=MGA_1610
sequence1	MetaGeneAnnotator	CDS	1008501	1008659	.	-	0	ID=MGA_1611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEDSLININREFFENDPEEAFVQYYKGNFNSSNNDVQQREGNESFFAYANS;locus_tag=LOCUS_16110;note=MGA_1611
sequence1	MetaGeneAnnotator	CDS	1008915	1009127	.	-	0	ID=MGA_1612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLMSILCTITLGISASTSIIACKPKSTQQDSDQSEDGPIADSYEEVLSKYKFEVNDIIASHVEEVSKK;locus_tag=LOCUS_16120;note=MGA_1612
sequence1	MetaGeneAnnotator	CDS	1009347	1009484	.	-	0	ID=MGA_1613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARNDLLTSGNQKNFEIGFDLNRDSSKPLGFSLKQSLSNDPFNQL;locus_tag=LOCUS_16130;note=MGA_1613
sequence1	MetaGeneAnnotator	CDS	1009593	1010015	.	-	0	ID=MGA_1614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSKYYNLIKDDFNVDKVFSEGREGNKSAEDILKAIQSTINIKLLDITGLKVKIGDYENDIANLKIYSGFSVNKNENILELTTNNEALEKATIFNAVLTNVEKGIKSFKDIYGIGTPTKIDKDGYEDYRLFAFDGGKYDI;locus_tag=LOCUS_16140;note=MGA_1614
sequence1	MetaGeneAnnotator	CDS	1010169	1010768	.	-	0	ID=MGA_1615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSTGKYDLLIKNISEDQLVTINMEKTDETDVSDFKAFLKHDSDFNNVDVHSKIYLQFNYLDKSGTKIENFENKFSFDYSITKNINLYDAINKSLKTLKYDLLAETDANTSSIIESSIEDKDKIINDFANIEKTFNEKFNNDNLKNKILNTFKNNAQTDVNTSFVFDDKNESIINNFGKDIKEIWNYALDKNVDETKYA;locus_tag=LOCUS_16150;note=MGA_1615
sequence1	MetaGeneAnnotator	CDS	1010967	1011173	.	-	0	ID=MGA_1616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLILLSSLCLSISASSYEIACKAKKTGENIDDENAEENTYETLLNDYKSVVNDIVAKKLSESSIN;locus_tag=LOCUS_16160;note=MGA_1616
sequence1	MetaGeneAnnotator	CDS	1013009	1013641	.	-	0	ID=MGA_1617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKFVKGEDDKFDLNNLPQKNLSDIKLEINQDLPNLKQIINSLNKANTGLNITENDVEIDNQQTQTKTNCSIKAKSESENFKGSVNVSYNSIEQTNYVLKQENKESVVLAKSDLISIYNILMTGSRPDATNPSVGLFDDDTNSLKEYINTNMNFPLMFTARILEEYFIPYTTNYYYLTTLNLREDSNYVQFKKNLKIAEAISYLNPFYAT;locus_tag=LOCUS_16170;note=WP_011183358.1 ABC transporter permease (Mesoplasma florum) [pid:25.4%25%2C q_cov:82.4%25%2C s_cov:31.6%25%2C Eval:2.6e-08%2C partial hit],internal stop codon at [1012964:1012966](-)%2C[1013009:1013011](-),MGA_1617
sequence1	MetaGeneAnnotator	CDS	1013984	1014859	.	-	0	ID=MGA_1618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEKLKKISSNVKNISLLSLIRFSFKILFFEKTFLIFIFIANLFSILVAVIFSFMKSGEMMNEVYDFYVIIFINVFMFLIIIRIINFYFVRKKDDKTIFIALSNHISRSKFFIAEYLTMFITIVFSVIFSYIIFNALYFFMHGFKVSEYVFHKTTYFLIFALIIVIALLNFIIFLILILGSQPTLIISTILMSLSFVANIPAKLVQSKYEALNLTINEKDSSAIKTVISVKDIYESFNLQNSINTGKIKYKYLAKALNNYLTDFSSENPNDYNLKPNKDLASNLKNRYNNF;locus_tag=LOCUS_16180;note=WP_011183358.1 ABC transporter permease (Mesoplasma florum) [pid:32.7%25%2C q_cov:89.3%25%2C s_cov:42.1%25%2C Eval:1.2e-40%2C partial hit],MGA_1618
sequence1	MetaGeneAnnotator	CDS	1014966	1015718	.	-	0	ID=MGA_1619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYILCLKDNIYYILDQNRFFCGVYNNYQSAFMVCQQLNRGMLPMTNPYFNPYYQNSFFGQQAPLINNSLYNNMNQMNGLPQNLMEPDIFSQNSSLQYQGNYPYMNSFNKEVFKPNTQQNQKDNSADFINKSDLVNNDQKYKTNNNINDNISFNINANENKNENNLIKESQKTTLTNQENSTKSLNNIQNEESEINDNLELNKESDNDKVVIIDKSIVNKYEYDDETIYDEPIEVEKELVFQDGEDNIED;locus_tag=LOCUS_16190;note=MGA_1619
sequence1	MetaGeneAnnotator	CDS	1015748	1016050	.	-	0	ID=MGA_1620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLLKEETPVLNLVRLPINMESIYKAIDGGKKTKEKQNLEDLNNNEEPSENKLTEKKKMKKKKSKNNINQETQENNSFEIQENNSFETKLKKKKEKKLKS;locus_tag=LOCUS_16200;note=MGA_1620
sequence1	MetaGeneAnnotator	CDS	1016057	1016359	.	-	0	ID=MGA_1621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNLLVDYKNNNKTILITSHNIDEINDLIDDYIILEDGKQVFNGSKEQLNMYSKYKIYFYGSFNYNGFKEFLIKKNISVFKYDEKENSVVFGTKSTKEIN;locus_tag=LOCUS_16210;note=WP_011387452.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:40.7%25%2C q_cov:86.0%25%2C s_cov:14.1%25%2C Eval:2.6e-14%2C partial hit],internal stop codon at [1016057:1016059](-)%2C[1016369:1016371](-)%2C[1016465:1016467](-)%2C[1016522:1016524](-),MGA_1621
sequence1	MetaGeneAnnotator	CDS	1016522	1016881	.	-	0	ID=MGA_1622;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENYVMEFKNYIKKFKKNAIGPLNFQIKKGKITAILGASGSGKSVAIKTMIGAITNFSGDVNICGYSKKKRNSHLANKNVSFYTQMDFSLYEMNVVTYLQNMCIVLGVDKKVVNEKIDF;locus_tag=LOCUS_16220;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:47.0%25%2C q_cov:98.3%25%2C s_cov:12.3%25%2C Eval:2.3e-26%2C partial hit],internal stop codon at [1016369:1016371](-)%2C[1016465:1016467](-)%2C[1016522:1016524](-),MGA_1622
sequence1	MetaGeneAnnotator	CDS	1019608	1019847	.	-	0	ID=MGA_1623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYALNASSTDLTLVVIPILKSAINAIMQEMSNTMLMYILIDIFLLVILLIVIMNIVVTDAINIITIMRSMGYKDRQVN;locus_tag=LOCUS_16230;note=MGA_1623
sequence1	MetaGeneAnnotator	CDS	1019980	1020399	.	-	0	ID=MGA_1624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLSGIKENQIEEIKDSSNDYVNVFVSQRIARILKLSVNQNFKLQVGRNGEMVIDAKIAGVLKADNMSQKILIDYNVLMDKLGDKFLPKDELFFNQKYSINPSLEGNFDIKNLQSSQLNIANKLTTTTVLTSFGKGAKE;locus_tag=LOCUS_16240;note=MGA_1624
sequence1	MetaGeneAnnotator	CDS	1020913	1021179	.	-	0	ID=MGA_1625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDFNKYQEISDLFTKISDIRKFILTNNTYKIPDEYKKMMPLVFNTFSLIYPFSEIDNLDNNILEVLNDLININNPNSQADLKTKLKN;locus_tag=LOCUS_16250;note=MGA_1625
sequence1	MetaGeneAnnotator	CDS	1021303	1021479	.	-	0	ID=MGA_1626;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQETFINFGKGKFILIMILIGFSSFLFTLQMRALPIINNMINGAFNIFTDKTNHYYNY;locus_tag=LOCUS_16260;note=MGA_1626
sequence1	MetaGeneAnnotator	CDS	1021513	1021710	.	-	0	ID=MGA_1627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIIGIPFIFSIVSYLVIYRYLNEGALDLMNSGPKQKKYKLLLLFIYIFIPITLIYVGINKLVLK;locus_tag=LOCUS_16270;note=MGA_1627
sequence1	MetaGeneAnnotator	CDS	1021720	1022889	.	-	0	ID=MGA_1628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYEYQIQVDPNKAEEQNGETQRREENKLYELDDEGVLSIAFKDIFRPEIHQELEEYNASRNVQGYIANKVLAFISSKESDFRFNMFQKLFTKYNKDGTNFSYQIQGYNSRLSSQIDANLNNLVIDKALKKDLQKVTKDTNEIEAFVNDEFLIQNDLKLGDMFYLNFPIRGNKNAIFNFKIIGIANKYSALTPDNSNILDSSKNYCQIYVDKSFFDSDILYANNFLGENYNLPSNSTMDQDRMIKNSKYDINSYFVSDATKGFTGMINAGTTVFKNMSKFNQIDNLTNLTIMTYIFSVIGGILFVLAFFFITFVLKKEINATRKQLGVFKSLGYKTKDLTWVFAVKTFITMFVAITIGYFLSIPFQIKAATEVYQNIVIFDYQQVYTNP;locus_tag=LOCUS_16280;note=WP_011183300.1 ABC transporter permease (Mesoplasma florum) [pid:30.0%25%2C q_cov:79.9%25%2C s_cov:24.4%25%2C Eval:1.5e-31%2C partial hit],internal stop codon at [1021720:1021722](-),MGA_1628
sequence1	MetaGeneAnnotator	CDS	1023010	1023192	.	-	0	ID=MGA_1629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNKFNYNANFLDKVLYKGESYKIKYEDKDIEITEDYSKIDENGWFTKKAHQTIQDYTDN;locus_tag=LOCUS_16290;note=MGA_1629
sequence1	MetaGeneAnnotator	CDS	1023221	1023391	.	+	0	ID=MGA_1630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPLAFKESCKGIANIPITIIVKTAKNKTVPKVSTQVFVNNFRYDLNMFFTVSPIP;locus_tag=LOCUS_16300;note=MGA_1630
sequence1	MetaGeneAnnotator	CDS	1023486	1023941	.	+	0	ID=MGA_1631;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIFEVVLLVINLFFLVDIRDIFNNDEKKINKRYFNQYLKTGFLYIFIIIITLTAALLLQLSFEKKYSYCADIPGYICATFGFIIYLEQIAFSIGCTYLYKKIRKDSKSKALRTFYIMFIVLTPVLGYFLNIIFYSTMKNKAELEGYTYQS;locus_tag=LOCUS_16310;note=MGA_1631
sequence1	MetaGeneAnnotator	CDS	1024761	1024979	.	-	0	ID=MGA_1632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRRGNSPDNGACESFFGTIKNECIYTYKIKELNFSNIYIIISDYIDFYNYVRPMLKHKKTPYEFRMEKAHF;locus_tag=LOCUS_16320;note=WP_120719018.1 IS3 family transposase (Streptococcus chosunense) [pid:46.3%25%2C q_cov:91.7%25%2C s_cov:14.9%25%2C Eval:2.6e-09%2C partial hit],internal stop codon at [1024998:1025000](-)%2C[1025016:1025018](-)%2C[1025139:1025141](-)%2C[1025160:1025162](-)%2C[1025229:1025231](-)%2C[1025235:1025237](-),MGA_1632
sequence1	MetaGeneAnnotator	CDS	1026013	1027170	.	-	0	ID=MGA_1633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENTPNLLPALKEVGVVDSGGYGFVKFLEGAQHYAVNFKPVQKLKKLEENTGGNIDLEIEQEFGYCTETIVILNNDLINKLKVDPIRSQLEQYGNTSIVAVIDENILKIHTHALLPGQVLTYLQQYGEFKTVKVENMNIQAEHQVKDANNLPGGAKATAQKQRTLAKKFATIAVVRSAGMQKYFKEELNIDYVIDGGAKMNPSTNDFLKAIEEVDAEIVYIFPNDSNVYLAAKQAKAVEKMSKVIVLDTKTIPQGMTGYLSLDPEETPRKNESNVSKAIKNVTSVTINKAARDANIDGIFVKEGQYMMSVDKKVIASTDKLVDLFNKYLSKYISTKTEIITIFTGTDASFKDISDLRKILDENFDVEYEVVDAGQEVYSFIMGIE;locus_tag=LOCUS_16330;note=WP_011183126.1 DAK2 domain-containing protein (Mesoplasma florum) [pid:60.4%25%2C q_cov:100.0%25%2C s_cov:70.3%25%2C Eval:6.2e-126%2C partial hit],internal stop codon at [1027201:1027203](-)%2C[1027345:1027347](-),MGA_1633
sequence1	MetaGeneAnnotator	CDS	1027345	1027662	.	-	0	ID=MGA_1634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDVEILKGMITSGVNNLYNNYPHIDKLNVFPVPDGDTGTNMNLTCTNGLAEIEKENFDSIGALMTKFARGLIMGARGNSGVIFSQIIKGFSNAMKNNDSLTLDT;locus_tag=LOCUS_16340;note=WP_011166665.1 DAK2 domain-containing protein (Mycoplasma mycoides) [pid:69.9%25%2C q_cov:98.1%25%2C s_cov:18.8%25%2C Eval:9.4e-36%2C partial hit],internal stop codon at [1027201:1027203](-)%2C[1027345:1027347](-),MGA_1634
sequence1	MetaGeneAnnotator	CDS	1027768	1028079	.	-	0	ID=MGA_1635;product=Asp23/Gls24 family envelope stress response protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183125.1;translation=MADISIYDVINDIVVTVPGVISFANSKAKSEEEILTKDITRAIELSSSLEFERVKIHVVLINGISIRDVLSEIQTRVKYELEKASKFMRNYIVDVVVDDIHIA;locus_tag=LOCUS_16350;note=WP_011183125.1 Asp23/Gls24 family envelope stress response protein (Mesoplasma) [pid:52.2%25%2C q_cov:87.4%25%2C s_cov:87.4%25%2C Eval:6.6e-21],MGA_1635
sequence1	Aragorn:1.2.38	tRNA	1028233	1028317	.	+	.	ID=Aragorn_27;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00260;note=Aragorn_27
sequence1	MetaGeneAnnotator	CDS	1028352	1028816	.	-	0	ID=MGA_1636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDEELDLIKQNSNEFIKLNNEKDFLDGKEAIQKAYELGATEVLMIAKPTKRLDMNFSLIDFCSKDRVKVFNENSIMFCLQKGKNIIEFDKYQDYTYITFFPVHQTTITIKNLKYEVSDLMLLPYSTRAYSNCFVDHQDGIIKTDKAIIVIFNK;locus_tag=LOCUS_16360;note=WP_011183121.1 thiamine diphosphokinase (Mesoplasma florum) [pid:41.3%25%2C q_cov:100.0%25%2C s_cov:74.9%25%2C Eval:4.4e-28%2C partial hit],internal stop codon at [1028898:1028900](-),MGA_1636
sequence1	MetaGeneAnnotator	CDS	1028974	1029525	.	-	0	ID=MGA_1637;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166502.1;translation=MDYNFVPNLTFGPKILSDITSKYDFKIDIHLMVQVLNISVEEYLKPFINNKIKQLTFHFESLNKEQVVEFISFCKKNNIAASLAVNPDTSLSYLDEYLNDLDNILVMSVFPGFGGQKFIEKTYEKIKALKNLKLEKKLNFRIQVDGGVNEQTFKLVQEAGAEMIVAGSYLVGGLSVEKIKQRV;locus_tag=LOCUS_16370;gene=rpe;EC_number=5.1.3.1;note=WP_011166502.1 ribulose-phosphate 3-epimerase (Mycoplasma mycoides) [pid:52.0%25%2C q_cov:94.0%25%2C s_cov:76.9%25%2C Eval:2.7e-45],internal stop codon at [1029541:1029543](-),MGA_1637
sequence1	MetaGeneAnnotator	CDS	1029643	1029906	.	-	0	ID=MGA_1638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKNGLIGDTPGFSSFDLKSIEKSELAHSFKFFSDHINDCKFKDCLHLKETPGCAITKFVKEGIFPEFIYNDYLKMQNELNQQPKKR;locus_tag=LOCUS_16380;note=WP_011166503.1 ribosome small subunit-dependent GTPase A (Mycoplasma mycoides) [pid:46.9%25%2C q_cov:93.1%25%2C s_cov:26.7%25%2C Eval:1.4e-15%2C partial hit],internal stop codon at [1030078:1030080](-)%2C[1030156:1030158](-),MGA_1638
sequence1	MetaGeneAnnotator	CDS	1030156	1030536	.	-	0	ID=MGA_1639;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMLKGIILKILSEYAYVFYENSLYECKAKGKIRHQNQSPITGDYVMFEILDEINLKGSIEKIVDRKNELYRPRIANVDQVVIITSVKEPDFNSYTLNKYLAFIEFVNIKPVLAFTKVDLLSKNSDV;locus_tag=LOCUS_16390;note=WP_011166503.1 ribosome small subunit-dependent GTPase A (Mycoplasma mycoides) [pid:48.3%25%2C q_cov:95.2%25%2C s_cov:39.0%25%2C Eval:3.3e-25%2C partial hit],internal stop codon at [1030078:1030080](-)%2C[1030156:1030158](-),MGA_1639
sequence1	MetaGeneAnnotator	CDS	1030536	1031555	.	-	0	ID=MGA_1640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDFFEGKVLADRYQVISNLGSGGMASVVKAVDLLTSTIVAIKIINTSKIKEIEIGNERFEIEKEAFAKLGDNPNVVKLFDIIKNDQTGEWYIVLECVEGGTLKDKFNFFGAMTLQEIKYYFSKLCIALEGAHKYKIIHRDIKPDNVLLTKAGEVKLGDFGISIMEGFSKEETKTIGTPRYMSPEVIMKKKATPESDIYSLGLMLYECATGSPAFPGKDAHQIARKQVKNKPIPPRLINPTIPQSLENIILKMIEKDPENRYKSAREVYNEIQKVKLTDSSKPYNYHIKTKLSDESKTKRINIGTIYEKLPLINTTKYFVIIIFLLFALLSILLAAILI;locus_tag=LOCUS_16400;note=WP_011460521.1 Stk1 family PASTA domain-containing Ser/Thr kinase (Desulfitobacterium) [pid:35.8%25%2C q_cov:79.4%25%2C s_cov:46.1%25%2C Eval:1.7e-44%2C partial hit],MGA_1640
sequence1	MetaGeneAnnotator	CDS	1031611	1031841	.	-	0	ID=MGA_1641;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGPQKTLKIDTYYIEAPLGTYILTTDGVHDYIDEDMVAAILSNKKVKLKDKGQEIIEDAKDNVSTDNLSILLIEAE;locus_tag=LOCUS_16410;note=WP_011183117.1 protein phosphatase 2C domain-containing protein (Mesoplasma florum) [pid:55.4%25%2C q_cov:97.4%25%2C s_cov:28.7%25%2C Eval:4.4e-17%2C partial hit],internal stop codon at [1031860:1031862](-)%2C[1031938:1031940](-),MGA_1641
sequence1	MetaGeneAnnotator	CDS	1031938	1032138	.	-	0	ID=MGA_1642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNCISEILNEMIEYSNEDFSTKDMGTTLTAILFTEIGGFVINIGDSRTYKLVDNKLFQITQDQNL;locus_tag=LOCUS_16420;note=WP_011183117.1 protein phosphatase 2C domain-containing protein (Mesoplasma florum) [pid:56.1%25%2C q_cov:100.0%25%2C s_cov:26.0%25%2C Eval:2.6e-14%2C partial hit],internal stop codon at [1031860:1031862](-)%2C[1031938:1031940](-)%2C[1032139:1032141](-),MGA_1642
sequence1	MetaGeneAnnotator	CDS	1032139	1032372	.	-	0	ID=MGA_1643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKFNFAKLSEVGNYRKSNQDFLDFAINKDGAAFGIVCDGMGGHAHGEIASKMAVEKFIDLFKEHSFKGENQKTINR;locus_tag=LOCUS_16430;note=WP_011183117.1 protein phosphatase 2C domain-containing protein (Mesoplasma florum) [pid:53.9%25%2C q_cov:98.7%25%2C s_cov:29.9%25%2C Eval:2.7e-19%2C partial hit],internal stop codon at [1031860:1031862](-)%2C[1031938:1031940](-)%2C[1032139:1032141](-),MGA_1643
sequence1	MetaGeneAnnotator	CDS	1032359	1033300	.	-	0	ID=MGA_1644;product=23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002356987.1;translation=MSNLKKDLRDYLMSNFNANPLKSLVVEESKDGTIKILFLLDDKKTIETVLMPQKYGQSVCVTTQVGCKMACKFCASGLIKTERNLETNEIVRQIFTMNQILKEKFKDDLSNPRSRVSHIVVMGIGEPMDNFENVMKFIEIINETKGFQIGARHITISTCGVVPKIIEFADMKTQINLAISLHASNNEVRSSMMPINKAYPIEKLLDAVSYYIEATNRRITFEYILIEDVNDKKEHAVELARLIRGMNAYVNLIPYNEVKENPYRKSTKIDTFFKILKKEGINAIVRKEFGADIDAACGQLRAKREGVFKNDEV;locus_tag=LOCUS_16440;gene=rlmN;EC_number=2.1.1.192;note=WP_002356987.1 23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN (Enterococcus) [pid:58.3%25%2C q_cov:97.1%25%2C s_cov:84.9%25%2C Eval:1.7e-96],internal stop codon at [1033334:1033336](-),MGA_1644
sequence1	MetaGeneAnnotator	CDS	1033504	1033764	.	-	0	ID=MGA_1645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLFTRAGRVLTYNLKINKKNNDEQQNQSDNKEDNNSDNKSIDDQVDVAKTKISFFIKYGIAIIIASLVIIISSSLLLLKNSKKRK;locus_tag=LOCUS_16450;note=MGA_1645
sequence1	MetaGeneAnnotator	CDS	1033819	1034286	.	-	0	ID=MGA_1646;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVYVEKKVFFVYAKKMGEYKVKFISQKQKVEIEVNIKCVESEIDYFYYTNFYVIEGKKNLEIKLVNLEQVNKDLLKVESNDKDAIYSNGKLFYTCVNEKKITYTIMYKNKKTYFDIFSFDKLEYDDPIDFYNIEKEFEIDLNKYFVDVNTITAH;locus_tag=LOCUS_16460;note=MGA_1646
sequence1	MetaGeneAnnotator	CDS	1034332	1034859	.	-	0	ID=MGA_1647;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFYYSIEDNAGNKISKASVIAAYCEQSDKNAKLKTFDQVVYKKFQVKKNSSSLKIVNEDDKEYKNLVKKDIKLSVYDLTLNVGEEKLVVVENMDELKNFYIKSSDGLMVKNESDNKFYVTLDFEINTCLVFDAYNAKDFAIVNVHMIHHEDYSFRMNKTYFEVQQGKKQMFEFS;locus_tag=LOCUS_16470;note=MGA_1647
sequence1	MetaGeneAnnotator	CDS	1035196	1036026	.	-	0	ID=MGA_1648;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKFKKFLISILGFSGLSIGAVSTSGYSKNYNIENKDEMKKYDYTKNESVKQIDDSFYQKTIEVSSKFIITSIYNDSSQDYDKAVEFDGTNYYAKRTFDITISLKDLGIMSLVNYFEYSDIDLSFLSTSKYKDVPDTHTRNAIAFDNKDYSFDINLKKQQKYKQIVYETSIYNKFSLQYSQYKLNFKIERTNEKLDAFRISGTYEYERELSDFSKNIKMLQPKFSSLFLENIKLTFLTKDPSIKADVVQLKRLDLGQKRFGYDLINRSYRDKYMQG;locus_tag=LOCUS_16480;note=MGA_1648
sequence1	MetaGeneAnnotator	CDS	1036073	1036891	.	-	0	ID=MGA_1649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKSLEQDYSKEIALQIVQSSNNQTMFSFRVNENKISQIEFEKLYKHKFNLKKSKIAKNCYLTDFNIINTQVFDQGLVFIQDETSILAVELLDLEKQSKVIDMCCAPGGKLSYIASLVDKKNLVDAFEINENKKNIIYSNLNRLGINNVNIEFKSALNINKKYERILLDAPCSGFGVLKRKPDIKLKKFSKKDMDALYQLQFDLLQKGFEHLLDEGILVYSTCTINKKENQNQIKVFLDNNKNAKLIFEKQFFGFEGNNNGFYIAKIKKLKK;locus_tag=LOCUS_16490;note=WP_207253450.1 16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB (Mesoplasma florum) [pid:42.1%25%2C q_cov:98.9%25%2C s_cov:64.0%25%2C Eval:7.3e-58%2C partial hit],internal stop codon at [1036892:1036894](-)%2C[1036952:1036954](-)%2C[1037096:1037098](-),MGA_1649
sequence1	MetaGeneAnnotator	CDS	1037096	1037338	.	-	0	ID=MGA_1650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHSNNARLISLNILYGVFKEDKQPNKLLNELSNTKAMSKSDIAFVFKMVYGTIQYKIYLEYVVNKIIKPNKTNYKIQLLL;locus_tag=LOCUS_16500;note=MGA_1650
sequence1	MetaGeneAnnotator	CDS	1037325	1037465	.	-	0	ID=MGA_1651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNKIYSHVLANEELSVIESKEFIEAIIEHLMIDVNFFSIEQNAFQ;locus_tag=LOCUS_16510;note=MGA_1651
sequence1	MetaGeneAnnotator	CDS	1037541	1038209	.	-	0	ID=MGA_1652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKKGKMIILSGPSGVGKGTINKELRKDKSLNLVQSVSMTTRPPRPGEVDGVDYFFVDKETFKDAIQHDELIEYAEFIGNFYGTPRKTVYERIGNGENVILEIEVVGATQVLKKEKQENLVSIFLMPPSLKSLEQRLRRRGTEKEEIIKQRLDKALLEIPLKHKYKYVIEIDTVENAVEKVKDVLMKEETLEVSKYYSKYHVLRKEVNTVVKQSYMFFVDN;locus_tag=LOCUS_16520;note=WP_011183092.1 guanylate kinase (Mesoplasma florum) [pid:61.0%25%2C q_cov:98.2%25%2C s_cov:72.4%25%2C Eval:7.3e-68%2C partial hit],internal stop codon at [1037541:1037543](-),MGA_1652
sequence1	MetaGeneAnnotator	CDS	1038338	1038901	.	-	0	ID=MGA_1653;product=16S rRNA (guanine(966)-N(2))-methyltransferase RsmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183091.1;translation=MRVISGKYRGRMLKTIEGKNTRPTSARLKEDIFNILNNYFIFENKTSLDLFAGSGALSIECLSRGIKFAYINDTYKQILPIIKENLAKIDESNYKLSSIDYLSLLKYLDLNQKKIDLIFIDPPYGEIDYYNQALNYLKNSNLLNNYAIIVVECEKPIENEYINKFVLLKHKVFKNKNLYVLRLENDS;locus_tag=LOCUS_16530;gene=rsmD;EC_number=2.1.1.171;note=WP_011183091.1 16S rRNA (guanine(966)-N(2))-methyltransferase RsmD (Mesoplasma florum) [pid:52.4%25%2C q_cov:98.9%25%2C s_cov:97.9%25%2C Eval:1.4e-52],MGA_1653
sequence1	MetaGeneAnnotator	CDS	1039126	1039272	.	+	0	ID=MGA_1654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIDFVRYSQDPELNVKGKEDYLRPAVGLAAPQIGSNTNMFFTRFE;locus_tag=LOCUS_16540;note=WP_011183467.1 peptide deformylase (Mesoplasma florum) [pid:76.6%25%2C q_cov:97.9%25%2C s_cov:23.5%25%2C Eval:1.7e-13%2C partial hit],internal stop codon at [1039039:1039041](+)%2C[1039045:1039047](+)%2C[1039270:1039272](+)%2C[1039441:1039443](+),MGA_1654
sequence1	MetaGeneAnnotator	CDS	1039306	1039443	.	+	0	ID=MGA_1655;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINTKIIAKSEQITYLKGGEGCLSVDKDHQGLVPRSYKIKIRGYD;locus_tag=LOCUS_16550;note=WP_011166420.1 peptide deformylase (Mycoplasma mycoides) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:22.5%25%2C Eval:1.3e-10%2C partial hit],internal stop codon at [1039039:1039041](+)%2C[1039045:1039047](+)%2C[1039270:1039272](+)%2C[1039441:1039443](+),MGA_1655
sequence1	MetaGeneAnnotator	CDS	1039631	1040071	.	-	0	ID=MGA_1656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKRNFTLPKIYNVKTLPLIVLSVFNGVLKVIATIAFAYCIYFYFRSSIPYKKQHVGILIMSCSVAGAIFCLNLLINNYLLNVMCLDTKDQFGDFQLEFLAKKIVYIPYLGSFLMIFILKDKVALINKYKNIYRQDFKVNPNLATK;locus_tag=LOCUS_16560;note=MGA_1656
sequence1	MetaGeneAnnotator	CDS	1040314	1040925	.	+	0	ID=MGA_1657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKNNTKVASLVADLEAKIEVKKINSNGKPIKKKFDVAPFPTKVFALGGLEEVGKNTYCIEYDDEIIIIDAGVKFPDATQLGVSAVIPDYSYLADNNKKIKALFITHGHEDHIGGIPYLLQQVDVPVIYAPELAAALVRDRLKEYKLTNKTVVKEYIEDDVYQTKHMTIQFAAVNHSIPDAFGIHITTPNGAIFSTGDYKFD;locus_tag=LOCUS_16570;note=WP_011166843.1 ribonuclease J (Mycoplasma mycoides) [pid:70.7%25%2C q_cov:85.7%25%2C s_cov:28.5%25%2C Eval:5.0e-70%2C partial hit],internal stop codon at [1040923:1040925](+)%2C[1040968:1040970](+),MGA_1657
sequence1	MetaGeneAnnotator	CDS	1040995	1042104	.	+	0	ID=MGA_1658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDSTNAEVEGYTLGERKVIQNIDAHFLKAKGRIIIASFASNVHRIQHIIELANKYGKRIVVFGRSLERIIKIIRQMGHLNINDKMFIKQNEIDNYPKNQIMILCTGSQGEPMAALSRIARQEHPAVKLIPGDTVIMSSSPIPGNRADVENVVNKLTKIGAIVIENNGEQKIHTSGHASQEEQKLLFTLLKPRCFMPMHGEYRMLKVHGETAVKVNVKPHNVFVIANGDQILLHNGVAELGKRIPAEAIFIDGKDMTGKASNIIRERNILSRDGLMAVIISIDSQENKLLAPPRIVSRGSFYVRDSGNVIAESINIVTNAVLGVLSSPKPTFGAIKAAVKETLSPFIFRYKRRNPLIIPVILNKKMDIK;locus_tag=LOCUS_16580;note=WP_011183468.1 ribonuclease J (Mesoplasma) [pid:71.5%25%2C q_cov:98.9%25%2C s_cov:62.1%25%2C Eval:4.1e-148%2C partial hit],internal stop codon at [1040923:1040925](+)%2C[1040968:1040970](+),MGA_1658
sequence1	MetaGeneAnnotator	CDS	1042390	1042509	.	+	0	ID=MGA_1659;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMLNYAVIPAIGVNLLVSMVRLNFDDLAGIKEDGSFGI;locus_tag=LOCUS_16590;note=MGA_1659
sequence1	MetaGeneAnnotator	CDS	1042735	1043364	.	+	0	ID=MGA_1660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNFATTFTSMFFAFCGLETCITSGKNIKNRQKNVPISIIVIIVLATLFYSVFTLIVMLAVPASEGFEQNPNLQIFKSLNSSFLQTFGRIIVIICTILMRFNSTLQVSLFGGATLEPLAKQKFLPKAFAKENKEKIPVAGVLVNFIVFIIACVMFIFIPDIVQGFTKKPTPFDYATLASVGSILLIAIYMTILPVAIYHGIKKNMKVHI;locus_tag=LOCUS_16600;note=WP_011166496.1 APC family permease (Mycoplasma mycoides) [pid:33.8%25%2C q_cov:96.7%25%2C s_cov:38.3%25%2C Eval:1.0e-28%2C partial hit],internal stop codon at [1042633:1042635](+)%2C[1043362:1043364](+)%2C[1043377:1043379](+),MGA_1660
sequence1	MetaGeneAnnotator	CDS	1043717	1043884	.	+	0	ID=MGA_1661;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILISLGAFALTGATAGPIAYNIINKAQGAPSEQLADAGDDHQDQQTAEENSV;locus_tag=LOCUS_16610;note=MGA_1661
sequence1	MetaGeneAnnotator	CDS	1043909	1044604	.	+	0	ID=MGA_1662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLANNEDNKSASDIETYLKTNKSITINLNKDVLNDFFAEIYSYVSANNVGQKGQKFAKAVISNISGSNASDTNIINDYSKNAGRRTGDNVEYFDYPEAKSYLNPDKLSPMLQGKVEGIEQNPEKTVETLSHTLLIEHDLNNIAQDEYNFSIYGSFRVTNENGEKKEYKKIKLSSFPTYFPFKHVSDFLTTFRNTLFCHFLIVVDIDGYDIDNKSSIYGLSYYEYSNQSVG;locus_tag=LOCUS_16620;note=MGA_1662
sequence1	MetaGeneAnnotator	CDS	1044758	1045042	.	+	0	ID=MGA_1663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIEHKDLGVMTFHEAEQINGQYKPKLDPMQGSFFLDYNKVKYYYIKVTINKKASGTYFVLVKNIKLIKDANGKLEPGITYDPEANVSEDEYAK;locus_tag=LOCUS_16630;note=MGA_1663
sequence1	MetaGeneAnnotator	CDS	1045207	1045644	.	+	0	ID=MGA_1664;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEALYYYKKLNLDPQIELIIVTLIVFACALSVSFSSYIVYFAMTSDEDTFSNNRYILMLFSLSVGGLITPYLLMKLPNTNVQTTITPRVSISRGYGYSFLATGLVTLLTFIGLYAKNSGISSIMDGDFKTYNILIVAISGAMIF;locus_tag=LOCUS_16640;note=WP_011183472.1 hypothetical protein (Mesoplasma florum) [pid:36.7%25%2C q_cov:60.7%25%2C s_cov:27.8%25%2C Eval:7.8e-10%2C partial hit],internal stop codon at [1045642:1045644](+)%2C[1045720:1045722](+)%2C[1045774:1045776](+),MGA_1664
sequence1	MetaGeneAnnotator	CDS	1046080	1046247	.	-	0	ID=MGA_1665;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNKKIKEIAEPIIKEDDFKYIISNFKLLALCPFGINTTVKKIRKTSNPEIESN;locus_tag=LOCUS_16650;note=MGA_1665
sequence1	MetaGeneAnnotator	CDS	1046434	1046703	.	-	0	ID=MGA_1666;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYFKSSKKQISFSNKNLFDKLKANYKYIDLKIYYGTAKRYNNHFNYIASKEELHLSKKFEESSSGQSAMLVFYNFISIIELKEKKSNF;locus_tag=LOCUS_16660;note=MGA_1666
sequence1	MetaGeneAnnotator	CDS	1047121	1047258	.	-	0	ID=MGA_1667;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGKVGKEISLYDENLKKLKNYQIDILSCVEFENNFIVLKNNFEV;locus_tag=LOCUS_16670;note=MGA_1667
sequence1	MetaGeneAnnotator	CDS	1047721	1047951	.	-	0	ID=MGA_1668;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVFEFENFKKGTVAVCEAIANLQEAFTLIGGGDSAAAAIQNGFAEKFTHISTGGGASLEYMEGKTLPGVEAIQNK;locus_tag=LOCUS_16680;note=WP_005902043.1 phosphoglycerate kinase (Fusobacterium nucleatum) [pid:76.3%25%2C q_cov:100.0%25%2C s_cov:19.1%25%2C Eval:4.2e-28%2C partial hit],internal stop codon at [1047961:1047963](-),MGA_1668
sequence1	MetaGeneAnnotator	CDS	1047961	1048362	.	-	0	ID=MGA_1669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAKGIDSPEHPFIAIIGGAKVSDKIGVIDNLLQKADKIIIGGGMAYTFFKALGHNIGKSLCEEDKVDLAKQYMDKANGKIILPIDSANAPEFKDVNPSFSGVDLPDDVMGLDIGPDSIKLFEDTLKGAKTVA;locus_tag=LOCUS_16690;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:1.3e-45%2C partial hit],internal stop codon at [1047961:1047963](-)%2C[1048492:1048494](-),MGA_1669
sequence1	MetaGeneAnnotator	CDS	1048492	1048917	.	-	0	ID=MGA_1670;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTLKDIKVAGKTVLVRVDFNVPIKDGVIGDDNRIKAAMPTIKYLVEQGSKVVLFSHLSRIKAEEDKAKKSLAPVAKRLEEVAGQPVKFVAQTRGSELENAIKSLNGGEILLFENTRFEDVKDGEVVKYESKNNAELGKY;locus_tag=LOCUS_16700;note=WP_011183475.1 phosphoglycerate kinase (Mesoplasma florum) [pid:78.7%25%2C q_cov:100.0%25%2C s_cov:34.9%25%2C Eval:1.0e-56%2C partial hit],internal stop codon at [1048492:1048494](-),MGA_1670
sequence1	MetaGeneAnnotator	CDS	1049298	1049474	.	-	0	ID=MGA_1671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFYSKLSFVNFILNLIAKINKKINSKITQIQIQKIIYIIYAYFLIFKKPIANISFET;locus_tag=LOCUS_16710;note=MGA_1671
sequence1	MetaGeneAnnotator	CDS	1049603	1049908	.	-	0	ID=MGA_1672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKVLPELNGKLDGLALRVPVITGSIVDLTCELSKNASAEDINKAIQEAVKADKDLGQALEYSVDPIVSGDIIGSHYGSVFDSTLTRVMEVEGKQLVKVFS;locus_tag=LOCUS_16720;note=WP_011166850.1 type I glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:61.6%25%2C q_cov:97.0%25%2C s_cov:29.3%25%2C Eval:1.2e-27%2C partial hit],internal stop codon at [1049603:1049605](-)%2C[1049945:1049947](-),MGA_1672
sequence1	MetaGeneAnnotator	CDS	1049945	1050289	.	-	0	ID=MGA_1673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVDLVIECTGFYVSKEKSQAHIDAGAKKVIISAPATGDLKTIVFGVNHKTLESSDQIVSAASCTTNCLAPMAKVINEKFGIVKGLMNTIHAVTNDQRLLDLPHSDLRRGRAAA;locus_tag=LOCUS_16730;note=WP_011183476.1 type I glyceraldehyde-3-phosphate dehydrogenase (Mesoplasma florum) [pid:74.6%25%2C q_cov:100.0%25%2C s_cov:33.8%25%2C Eval:5.8e-46%2C partial hit],internal stop codon at [1049945:1049947](-)%2C[1050296:1050298](-),MGA_1673
sequence1	MetaGeneAnnotator	CDS	1050296	1050550	.	-	0	ID=MGA_1674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIAINGFGRIGRLAFRQLFLEKDVEIVAINDLTDSKTLAYLLQYDSAHRSFMKGKVTAKEGAIVVDGKEIKILAEKDASQLP;locus_tag=LOCUS_16740;note=WP_011166850.1 type I glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:66.3%25%2C q_cov:98.8%25%2C s_cov:24.3%25%2C Eval:5.2e-26%2C partial hit],internal stop codon at [1050296:1050298](-),MGA_1674
sequence1	MetaGeneAnnotator	CDS	1050899	1051093	.	-	0	ID=MGA_1675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILANSFAFLDKKVILVTVNKLIKTVKETFNSSNSNDYNKFLELCTRVDVLILDDIGAELVSN;locus_tag=LOCUS_16750;note=MGA_1675
sequence1	MetaGeneAnnotator	CDS	1051319	1051564	.	-	0	ID=MGA_1676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQDLDILKKNEELKKFIEKNNINDEVLETNYLVLSRFIEQLVYCYEKAPLSECKQLIQGLQPKLSYENKQIYISTTYCSH;locus_tag=LOCUS_16760;note=MGA_1676
sequence1	MetaGeneAnnotator	CDS	1051648	1052817	.	-	0	ID=MGA_1677;product=DnaD domain protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166852.1;translation=MRNYTYKVVLKNRIDLLDDKVLSYLYQPILGLRSVALYKTLFHEAEVIKELKKTEIYDEKRLLDISLISSDKLTKAIKRLEAMGLVVTLENKAKNSIIFNLYSPLEPKDYFANRLFNAALLDKIGDKNYEIAKLTFKEENDLNDNGYQNTSSKFLEVFEEFNKKIENTICNDFEFRQNKTNVLLKDLNFERIIKKLAENKVYVSKENIKLKEVIEEVYISYSLTEDIIVQALIKAYDAENVDLDIEKFYISISSKYFVHEDTSELKAEFDPELNKKNKTNAKIKEMETIDPITFLELLMGVDNLALEELEIIRSLRREHKLRDGVVNCLLEFSYLKNDSKIVKNYLLKIAKTINERGITNAKETMEYLKLANKKSNPKKPMSSNFHTKL;locus_tag=LOCUS_16770;note=WP_011166852.1 DnaD domain protein (Mycoplasma mycoides) [pid:25.9%25%2C q_cov:94.6%25%2C s_cov:89.3%25%2C Eval:2.4e-32],MGA_1677
sequence1	MetaGeneAnnotator	CDS	1052968	1053495	.	-	0	ID=MGA_1678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNKLLNYHDTRRFGTFNLEDVNEYLDINPIKKIGPEPFNSKVDGNFLYEKMKNSSRHIKTMLLDQTIISGIGNIYADEILFDAKINPLITGDYLIVKDYDRIAESARKILKKSIELGGTTIDTYQPEQGIDGKFQNELKVHTRKGQNCYECQSEIVKIKVNGRGTYYCKNCQK;locus_tag=LOCUS_16780;note=WP_010874736.1 DNA-formamidopyrimidine glycosylase (Mycoplasmoides pneumoniae) [pid:44.0%25%2C q_cov:96.0%25%2C s_cov:60.6%25%2C Eval:8.3e-38%2C partial hit],internal stop codon at [1053553:1053555](-),MGA_1678
sequence1	MetaGeneAnnotator	CDS	1053553	1053795	.	-	0	ID=MGA_1679;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPELPEVETVVRSLNKRLKGLTIEKVEIFYPKIIKSNQTVKDFENIIKNKKIDNIERIAKYIIFRLQDKVLISHLRMEGK;locus_tag=LOCUS_16790;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:1.1e-15%2C partial hit],internal stop codon at [1053553:1053555](-),MGA_1679
sequence1	MetaGeneAnnotator	CDS	1053823	1055349	.	-	0	ID=MGA_1680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVLKTLGYQIKHKNFVYDMMIACYVINSNVKSNFESHLNLIDSSLEIETFDEVFGKGVKKTKDIDENVKIKYILKKALLIEKTKEEIINSLKETNQYELYQKVELPFCYVLLDMEYAGVLIDRKELENQTQNILKLLTNLEKEANEILKRESIEPINYASPKQLKELLFVDLGLKNYNKGSTDKETLDALLGAHAIIEKVIEIRKYSKLYSTYLKGFEKFINNKNKVHTIFNQTLTNTGRLSSTDPNLQNISIRDEEQRKVRKIFIAQENYIFLSFDYSQIELRVLADVAKEETLIQAYKNNEDIHELAARNIFGLDANEIVSSDQRRVAKVFNFGILYGLTKFGLSKDLKISQAEADQYIKAYNKTFPMVQEYKDKIIKECEENGFVETMANRRRYIYELQNSNFMVREFGKRAAINAPIQGTAADILKVAMINIFEMLESKQLDAKLVAQIHDEVILHVKNDNIDKVKVEVQQIMNQAYDDLLKIANKNRTSDVKLEVNSGVGAT;locus_tag=LOCUS_16800;note=WP_011166854.1 DNA polymerase I (Mycoplasma mycoides) [pid:50.9%25%2C q_cov:99.8%25%2C s_cov:55.5%25%2C Eval:2.7e-143%2C partial hit],internal stop codon at [1053823:1053825](-)%2C[1055428:1055430](-)%2C[1055584:1055586](-),MGA_1680
sequence1	MetaGeneAnnotator	CDS	1055584	1055781	.	-	0	ID=MGA_1681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKEIATIYTNIKLEDFSFRETKINFNNLKDFFIKYEMVSLVRKYSSEVEDVEPKQTINFKKVST;locus_tag=LOCUS_16810;note=MGA_1681
sequence1	MetaGeneAnnotator	CDS	1055986	1056138	.	-	0	ID=MGA_1682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKETDDYVVDILTSDQDMYQLITKNIFVIAPQTGTSDLITYDRDKLFEK;locus_tag=LOCUS_16820;note=MGA_1682
sequence1	MetaGeneAnnotator	CDS	1056190	1056504	.	-	0	ID=MGA_1683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRILLVDGNALIFRAFYSSYGRANLTTRSGIPTNAVYSFINMLLNIVQKNEYYDIKVAFDKGKKTFRHDKLESYKAGRKQTPPELVQQFPIVREFLSEAHID;locus_tag=LOCUS_16830;note=WP_011183480.1 DNA polymerase I (Mesoplasma florum) [pid:62.7%25%2C q_cov:97.1%25%2C s_cov:11.4%25%2C Eval:8.2e-32%2C partial hit],internal stop codon at [1055986:1055988](-)%2C[1056190:1056192](-),MGA_1683
sequence1	MetaGeneAnnotator	CDS	1056522	1057382	.	-	0	ID=MGA_1684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYLKTNYKAEFYCALLNGVLGNESKTSKYLSELKKNGYNINGPSIKNPNSIYYFSNNFVNMPLNIIKGIGPEFLNTIKKIYINNKKAFDNLFTIIAELLKNGLTEPRYLALVYTGAFDCYGYSRKVLIDNKNTILNLTDFIDITNENEFEIDLPEEKDSPESLALYEKEYLGFYISSHPLTLIREKLVNKEKLFYISNLKKENIVCEVFVTIDNIVTKTDKNGGQMCFVDVSDETGEIIVTVFASVYEKIKEQIKLDQKLIIRIKSQVFNNKVGALLLDVVKVIK;locus_tag=LOCUS_16840;note=WP_011183481.1 DNA polymerase III subunit alpha (Mesoplasma florum) [pid:35.4%25%2C q_cov:99.7%25%2C s_cov:29.8%25%2C Eval:3.8e-44%2C partial hit],internal stop codon at [1057383:1057385](-)%2C[1057458:1057460](-),MGA_1684
sequence1	MetaGeneAnnotator	CDS	1057458	1058033	.	-	0	ID=MGA_1685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYLENIGLIKTDILGLRNLSIIQEVLKLVYQSKKVRIDLDRIELNDKNTFELLRSGDTTGIFQLESNGMTDVLMQMKVNSVEEIAITSSLFRPGPKENIPLYIKRKNSKTKNYIIDSNLEDILDSTYGIIVYQEQVMEILKRVANFSLGKADIVRRAMGKKDAKLMDQFKNEFIQNAIKNNYTDIKANEL;locus_tag=LOCUS_16850;note=WP_011183481.1 DNA polymerase III subunit alpha (Mesoplasma florum) [pid:58.5%25%2C q_cov:98.4%25%2C s_cov:18.9%25%2C Eval:1.6e-56%2C partial hit],internal stop codon at [1057383:1057385](-)%2C[1057458:1057460](-)%2C[1058088:1058090](-),MGA_1685
sequence1	MetaGeneAnnotator	CDS	1058088	1058453	.	-	0	ID=MGA_1686;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDIDIDFQDDRREEILEYLFSKYGKNHFATITTFQTIGIKNALRDCGRVFEIDIDDVNHMSKQINDRNILDFDKALSDSKILQKYQNKYPQVFEAAKKIVGLPRQTGTHAAGVVFCDENL;locus_tag=LOCUS_16860;note=WP_011183481.1 DNA polymerase III subunit alpha (Mesoplasma florum) [pid:49.6%25%2C q_cov:100.0%25%2C s_cov:12.3%25%2C Eval:5.3e-31%2C partial hit],internal stop codon at [1058088:1058090](-)%2C[1058496:1058498](-),MGA_1686
sequence1	MetaGeneAnnotator	CDS	1058496	1059497	.	-	0	ID=MGA_1687;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYSNLLNIKSCFNFLKSTIKPQDYIVFLNKNKLNVGFYSDLNTMYGAAEFENLAKKNNIKPIIGVSFKLTYGDIVLYAINNKGYKVISYLSSFISNMDRIDSELFEKELYKQSFENIIAIFCPSVENLINFKDKLNNCFKNLYYGITKQNYKYLKENKIIYANQISYLYEDDFFEYKVINAISEAKLVNEVNDLEKDFYLSNEDLKNYIDIDTHNKNMNEIISIVEDDVINDFKTHFLTYPNALNMPSKNYLEKICNDKLDDLKLNTQEYKERLSLELDVIFKMGFEDYFLIVSDMINKAKELNILVGPGRGSAAGSLVSYLLGITKLDPIK;locus_tag=LOCUS_16870;note=WP_011166855.1 DNA polymerase III subunit alpha (Mycoplasma mycoides) [pid:38.4%25%2C q_cov:100.0%25%2C s_cov:33.2%25%2C Eval:2.5e-56%2C partial hit],internal stop codon at [1058496:1058498](-),MGA_1687
sequence1	MetaGeneAnnotator	CDS	1059543	1059689	.	-	0	ID=MGA_1688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVLNEVKSFYKQFKSEINFVYDNLNTLEKEEMMNFLEIFYELITENI;locus_tag=LOCUS_16880;note=MGA_1688
sequence1	MetaGeneAnnotator	CDS	1060065	1060694	.	-	0	ID=MGA_1689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEFDYEQQKISNNNIFSKNDKEINIIKTKDSREAVYIDTLLFENEEFRNKNDYLFDLSFKLDKAQVEFFINPKEVNIFFSELQHIINYQKLDNNFFDKLSIFLDKYHNLYINRLSERMEKLLKEQLQNYSLNNIVSVEITKYTFEKVLGLLMHIKFLRVNDNLDNMSDIEVEEIIASLESLYIADNFESCNFKYILAIISKFRFIQLI;locus_tag=LOCUS_16890;note=MGA_1689
sequence1	MetaGeneAnnotator	CDS	1060800	1061300	.	-	0	ID=MGA_1690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFIIIAGDIFFSLIKNFYKEKNFVTLKKIFNSKINIFLRKRNIFIVEDFNRVESSKRQRYLLLFKALSNDNNKFIIVDNKDFEEKNFEFSSKVYDLVIVKKMSNIVRKALENKYYQICNNLEFKNLNLNIFKNYIFYFENFRIINAFLDYIKEYNIKKVFHQYIN;locus_tag=LOCUS_16900;note=MGA_1690
sequence1	MetaGeneAnnotator	CDS	1061496	1061756	.	-	0	ID=MGA_1691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEIIEENIKIAEKFNEVLSSKKKINMIGLVGDYGTGKTDFIAKYFSPKYSFEEQISEKDILEEKFEENNPITNITKFRNIRKEK;locus_tag=LOCUS_16910;note=MGA_1691
sequence1	MetaGeneAnnotator	CDS	1061792	1061962	.	-	0	ID=MGA_1692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTKYNDEKKYFESNGGRILFIYNSDLSKKEAIKKVYENINKIKFENFYFRKDIGV;locus_tag=LOCUS_16920;note=MGA_1692
sequence1	MetaGeneAnnotator	CDS	1062077	1063054	.	-	0	ID=MGA_1693;product=phosphoribosylamine--glycine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003242993.1;translation=MEKNILILGKGGREHALARKCRSSNLCNELYVIPGNDGIKDCATINNEINYSDMNEVLKFAIEKNIDLTIVGDEMFLEKGVVDLFDKNNLTIFGPAKDAAKIESSKMFAKNLMKKYNIPTADFITTSDKNVAIDFLKANKKYPIVIKNDGLASGKGVFITNSLEESIEAVEKILDQNIFNNEKCGVVIEEFLVGKEFSLLALVNGDIFECLQPAKDYKKIFENDKGENTGGMGCYTPVDYVTKDIIEYSKIEIIKKTIDALKQEGTTYKGVLYAGLILTDSNEVKVIEFNSRFGDPETEVLMPALQSDLVESILDLLNNKQINLV;locus_tag=LOCUS_16930;gene=purD;EC_number=6.3.4.13;note=WP_003242993.1 phosphoribosylamine--glycine ligase (Bacillus) [pid:48.0%25%2C q_cov:98.8%25%2C s_cov:75.4%25%2C Eval:3.2e-77],internal stop codon at [1062077:1062079](-),MGA_1693
sequence1	MetaGeneAnnotator	CDS	1063056	1063295	.	-	0	ID=MGA_1694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRVGSAKIALEQAEKKAEGSFLASDAFLPFNDVVELASQYKVKAIIQPGGSLKDQESIDLANEKGIAMIFTNIRHFKH;locus_tag=LOCUS_16940;note=WP_002288009.1 bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase (Enterococcus) [pid:63.3%25%2C q_cov:100.0%25%2C s_cov:15.5%25%2C Eval:7.3e-25%2C partial hit],internal stop codon at [1063434:1063436](-),MGA_1694
sequence1	MetaGeneAnnotator	CDS	1063728	1063880	.	-	0	ID=MGA_1695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHGKQLSYNNLLDANSAINIVKDLNENSCMVGIKHLNPCGVAINGTVEQL;locus_tag=LOCUS_16950;note=WP_002485342.1 bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase (Staphylococcus) [pid:49.0%25%2C q_cov:98.0%25%2C s_cov:9.8%25%2C Eval:7.5e-09%2C partial hit],internal stop codon at [1063728:1063730](-)%2C[1063929:1063931](-),MGA_1695
sequence1	MetaGeneAnnotator	CDS	1063929	1064597	.	-	0	ID=MGA_1696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYALISVFDKTNVLEFSKELVENDFKIISTGGTYKYLTDNGIDAIKVEDITKFPEILDGRVKTLHPLLYGGILSIRHNKNHVQQVEEHNINFIDLVAIDLYPFLKTVKNKNNSHEDIIENIDIGGVSLIRAAAKNYKDVITICDINDYQLVIDTIKNKKDDKDLKVFLAQKAFAHTSSYDSLIANYMLTKTNQEEMPKKITMSFTKKEELRYGENPHQKAS;locus_tag=LOCUS_16960;note=WP_003244516.1 bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase (Bacillus) [pid:50.2%25%2C q_cov:100.0%25%2C s_cov:43.4%25%2C Eval:5.2e-58%2C partial hit],internal stop codon at [1063728:1063730](-)%2C[1063929:1063931](-),MGA_1696
sequence1	MetaGeneAnnotator	CDS	1064638	1065174	.	-	0	ID=MGA_1697;product=phosphoribosylglycinamide formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000088589.1;translation=MTNIAIMASGNGSNFQAIIDAYNEKKLEVDKIILITNKKNCFAIKRAQQNNIKNYNFFLKDYPSKEEYEKDILKVLKEENIDYVILAGYMTMISNTLLSHYERKIINTHPSLLPSFKGKDAIQDALDYKVYLAGFTIHYVNIEMDAGEIIFQKEVRVYKDDTHDTLQKRIQEQEHIYY;locus_tag=LOCUS_16970;gene=purN;EC_number=2.1.2.2;note=WP_000088589.1 phosphoribosylglycinamide formyltransferase (Bacillus cereus group) [pid:51.1%25%2C q_cov:100.0%25%2C s_cov:91.3%25%2C Eval:1.1e-43],MGA_1697
sequence1	MetaGeneAnnotator	CDS	1065167	1066210	.	-	0	ID=MGA_1698;product=phosphoribosylformylglycinamidine cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003700044.1;translation=MSDNYKKSGVDLNKGYEIVDSIKKIVSEKFNSKYSNNIGSFGCAYDLSSLNYQKPVLVSGTDGVGTKLLLAIEANNHKTIGIDLVAMCVNDILTLGAKPLYFLDYIAVEKINVDTIRDIITGIVEGCLQSDCSLLGGETAEMKDMYIKNHYDLAGFITGAVEKDQLIDYKNVKEDDVIIAINSSGIHSNGYSLVRKIFFKDNNFSFDHKFEELDCDLITELLKPTKIYVDVISSLIEKNYAISAMANITGGGLIENIPRVIPNGLCANIDTKKINVLNIFKVMQNLAKIKNDEMFNVFNMGVGFVVIVNKNNAQEVLDFINNFKDYNANIIGSVISNKETKIKLNHD;locus_tag=LOCUS_16980;gene=purM;EC_number=6.3.3.1;note=WP_003700044.1 phosphoribosylformylglycinamidine cyclo-ligase (Ligilactobacillus salivarius) [pid:49.0%25%2C q_cov:98.0%25%2C s_cov:98.3%25%2C Eval:6.4e-87],MGA_1698
sequence1	MetaGeneAnnotator	CDS	1066212	1067351	.	-	0	ID=MGA_1699;product=amidophosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000879025.1;translation=MYSTTGGSIDCNVQPFFFNLNHESFGLVHNGNLTNAHIIKNKLESEGSIFQATSDSEVLAHLIRKSKEKSRLEKIKSSLNVINGAFAFLLLFEDEMYAIRDRNGLRPLSIGKFNDGYVVSSETYAFDVTGSEFIRDVNPGEIIRISKDGIESHYFSKNNFNNVCSMEYIYFAHPSSTINNINVHNFRVKSGELLAQQSKSYPGEVVIGVPDSSTSAALGYARSSKIPFDIGLIKNKYSGRTFIQPTPELREIGVRTKLSVTKDVVKDKKVILIDDSIVRGTTSKYIVKLLKDNGAKEVHLKIASPPIKYPSYYGIDISTYKELLAANMSVEEMKNYIGCDSLEFLTLENLKTLFEPGQGCFDIFTGEYPVDIYDLNKGV;locus_tag=LOCUS_16990;gene=purF;EC_number=2.4.2.14;note=WP_000879025.1 amidophosphoribosyltransferase (Bacillus) [pid:53.3%25%2C q_cov:98.4%25%2C s_cov:80.3%25%2C Eval:1.1e-108],internal stop codon at [1067379:1067381](-),MGA_1699
sequence1	MetaGeneAnnotator	CDS	1067379	1067591	.	-	0	ID=MGA_1700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEVLKEKCGVFGCFNVDNATLINYYGLHALQHRGQEGCGILGYDDQDGFLLKKGMGLVTKKFTMSDFNN;locus_tag=LOCUS_17000;note=WP_000879025.1 amidophosphoribosyltransferase (Bacillus) [pid:46.0%25%2C q_cov:90.0%25%2C s_cov:13.2%25%2C Eval:7.8e-11%2C partial hit],internal stop codon at [1067379:1067381](-),MGA_1700
sequence1	MetaGeneAnnotator	CDS	1067701	1068297	.	-	0	ID=MGA_1701;product=phosphoribosylaminoimidazolesuccinocarboxamide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003420966.1;translation=MEKLYEGKSKICYSTKNENELKIFFKNDVTAFNSLKKASYESKGLLTAKISNIIFKYLEKNGVKTHTIKVLDEQNVLVKKLKMFPLEIIIRNVAAGSIVKRLGIEQGTAFDKPIFEICYKNDTYGDPLINDDHCVVLNLATVKQLEEIKKVTLKINQLLIELFKQINIKVVDFKIELGLDKDNNICLGDEISPDTCRF;locus_tag=LOCUS_17010;EC_number=6.3.2.6;note=WP_003420966.1 phosphoribosylaminoimidazolesuccinocarboxamide synthase (Clostridioides difficile) [pid:57.2%25%2C q_cov:98.0%25%2C s_cov:83.6%25%2C Eval:9.6e-63],internal stop codon at [1067701:1067703](-),MGA_1701
sequence1	MetaGeneAnnotator	CDS	1068298	1068417	.	-	0	ID=MGA_1702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGHSERFGTDICKNIYGDKNQDIFSSAINYFLKNNKGDK;locus_tag=LOCUS_17020;note=MGA_1702
sequence1	MetaGeneAnnotator	CDS	1068622	1069656	.	-	0	ID=MGA_1703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGTYESLNVPPTLVSFALTTAKTCDIVSTDFKNENNHIYLLKHELINNYPDYKKLNDNYIFYESLIKEKKVLSAFAIQQGGILEALVKMSLGNGLGFDVNTDLNILEPIYGSIIFESKEEIKNKNLVSLGKTNKILKINGIELDRNIILKNYLKPIEKIYPNSLKEYPIPIEIKQKVENKNFYSDNVDKVKVLLAIFPGTNCEYDIKKAFKRNNVECEEFIFKNLNNEKLNESINILADKIKDSHIFVIPGGFSLGDEPDGSGKYIANVIRNKKIKNALSEFLKQKKLILGICNGFQALIKAGILIDSETHNLSESDPSLIKNDINRHIAKYVNCKVVNTTSP;locus_tag=LOCUS_17030;note=WP_029494805.1 phosphoribosylformylglycinamidine synthase (Fusobacterium hwasookii) [pid:40.3%25%2C q_cov:100.0%25%2C s_cov:28.2%25%2C Eval:6.3e-71%2C partial hit],internal stop codon at [1068622:1068624](-)%2C[1069738:1069740](-),MGA_1703
sequence1	MetaGeneAnnotator	CDS	1069738	1071180	.	-	0	ID=MGA_1704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLMNIATSYVKHVIKNNICKDIEVSEEINAASIFIDLKDTKCLVQFKNETHNHPTEIEPFGGASTCLGGAIRDPLSGRAYVYQGLRVTGAGNILENIKDTLPNKLPQSKISKVAAEGFSSYGNQIGMATTLVKEIYHEGYKAKRLEIGAVVGVTKLENLVRQKPEAGDIIVLVGGATGKDGIGGATGSSKNLDKNSMKNSYSEVQKGNPVEERKLQRLFSKPIVSKLIKKANDLGAGGIGVGAGELANGVSLTLDDVHLKYVGLTGKEILISESQERMVVVIKKESVQLFIEEANKENLYAVKIGEVTDKNKFEVTYNKNKIVDLDRDFINSGGITNQIDVMFATDYLQDLSFENKNELKKEFLENYFSNLNIMSQKEMIEMFDFSIGSTTVLAPYGGLNQLSESQVSCQKIPIKENENICTLMSYGYNPYLFEKNIFIGSMLAVIESVTKIIAAGGSKEKIKLTFQEYFERLNKDNVK;locus_tag=LOCUS_17040;note=WP_029494805.1 phosphoribosylformylglycinamidine synthase (Fusobacterium hwasookii) [pid:49.3%25%2C q_cov:100.0%25%2C s_cov:39.5%25%2C Eval:6.3e-134%2C partial hit],internal stop codon at [1069738:1069740](-)%2C[1071316:1071318](-),MGA_1704
sequence1	MetaGeneAnnotator	CDS	1071316	1071957	.	-	0	ID=MGA_1705;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNRIFISKKTEFDVESNNLKNEIQSSLNLSLDFLKVYNVYDIFDVKKEEKEIIVNNVLAEINTDEYLEEIDLNNKKYFCVKIFDSQYNTREESASECVNLLLFKKVKIKHFKLYVLDKSVGEDELVNIKSYLINPIEAFEINLDYDYLQNNNNSSNQYEVKEIDIANNLIKDLYEQLSLAMSFEDFEFCINYFKESLKRNPTEAEVFLIDTY;locus_tag=LOCUS_17050;note=WP_029494805.1 phosphoribosylformylglycinamidine synthase (Fusobacterium hwasookii) [pid:33.5%25%2C q_cov:98.6%25%2C s_cov:17.2%25%2C Eval:1.2e-27%2C partial hit],internal stop codon at [1071316:1071318](-),MGA_1705
sequence1	MetaGeneAnnotator	CDS	1071950	1073032	.	-	0	ID=MGA_1706;product=5-(carboxyamino)imidazole ribonucleotide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001010413.1;translation=MKVGLIGGGQLARMLIESSKENEFVVLEPNKNNSCLDLEVEILNSNYNDKEAVKNLFDKTETITYEFENIDFEVLKEHKNSINPSLNFLSVSKNRFKEKNFASSYGLTTVNFFKIKNSDEISELINNNKLNYPFILKTNTGGYDGKGQYLIKEKKDYEFLDFNNIDFIIEELCNFDFETSLIVTRSIFNQIYFFPTPINEHKDGILMTSKVLTKKSFVDKRTKRLIKNILQKENIVGTIAFEFFVKDKKLFFNEMAPRVHNTGHYTINGCNVSQFRNHILAVTGKKIIKPKLIYKTIMINLLGKNIYKEFDIQNIIKFDYKKSEAIDKRKMGHINIINKNKKNLLKDYQSALNKLEEKNE;locus_tag=LOCUS_17060;gene=purK;EC_number=6.3.4.18;note=WP_001010413.1 5-(carboxyamino)imidazole ribonucleotide synthase (Staphylococcus) [pid:38.8%25%2C q_cov:91.9%25%2C s_cov:90.9%25%2C Eval:1.2e-54],MGA_1706
sequence1	MetaGeneAnnotator	CDS	1073034	1073528	.	-	0	ID=MGA_1707;product=5-(carboxyamino)imidazole ribonucleotide mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003020895.1;translation=MERSFMKNKIGIIMGSISDKTTLEPAIDILKNLRIDYDLQVVSAHRTPDLLFSYAKKAHENYDAIIAAAGGSAHLPGMVASMTILPVIGVPVKSRNLNGIDSLLSIVQMPSGVPVATMAIGDSGAKNAALFCARIISLYNVEVKKNLEAFINNQTQEVLEIEVD;locus_tag=LOCUS_17070;gene=purE;EC_number=4.1.1.21%3B 5.4.99.18;note=WP_003020895.1 5-(carboxyamino)imidazole ribonucleotide mutase (Francisella tularensis) [pid:59.6%25%2C q_cov:94.5%25%2C s_cov:95.7%25%2C Eval:5.6e-43],MGA_1707
sequence1	MetaGeneAnnotator	CDS	1073832	1074116	.	-	0	ID=MGA_1708;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVDLLKTFGASMIVSFITILFVYQILDLAVSYSTEFCIFMSFAYHNTYFHLKILSFTSIFLDSFKGDSPFSKNHLFIIKSFFLNKSLSPLKYN;locus_tag=LOCUS_17080;note=MGA_1708
sequence1	MetaGeneAnnotator	CDS	1074735	1074863	.	+	0	ID=MGA_1709;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLADMDFKTAPLIKKAIKKRIKQDAFGYSTIPNSFKKAVKT;locus_tag=LOCUS_17090;note=MGA_1709
sequence1	MetaGeneAnnotator	CDS	1075835	1076446	.	+	0	ID=MGA_1710;product=copper homeostasis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166677.1;translation=MFLEVIAKNIKDVIDINKTKADRIELCKDLEVGGLTPDYEIIKQAAEISKLPINVIVRPTSRGFVYTKQERKQIFNDIRFIKTTKANGIVFGALNKRNKINTKLLKKVLKKKGNLKITFHKAFDELEDLKFNYILLDRLKIDTVLTAGGRNIDQGIDVIKELIKLNKKTIILIGGGVNLNNISYLSKLSNNIHIGRLARHEGQ;locus_tag=LOCUS_17100;note=WP_011166677.1 copper homeostasis protein (Mycoplasma mycoides) [pid:45.0%25%2C q_cov:98.0%25%2C s_cov:88.1%25%2C Eval:5.6e-37],MGA_1710
sequence1	MetaGeneAnnotator	CDS	1077069	1077578	.	-	0	ID=MGA_1711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSFIAGASILVSSGSSIVACNKGDSLGLLISNFNNDYFKNMMAAGKDYAKEKGYTLNTYDSKADISGATDQTNVKDSMTKGDKAIIINPANVKNNNAIKPALEKDIPIINIDTEYDSSVGERGAAGFVSEQTKASSLMFKKIYNKIYGEDPSDSNKGKKVKVYAM;locus_tag=LOCUS_17110;note=WP_005463703.1 ribose ABC transporter substrate-binding protein RbsB (Vibrio) [pid:37.6%25%2C q_cov:68.6%25%2C s_cov:38.4%25%2C Eval:1.0e-10%2C partial hit],MGA_1711
sequence1	MetaGeneAnnotator	CDS	1077663	1077947	.	+	0	ID=MGA_1712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDKTAIIIIKPLRIDWISLDKPIKFKAFFKILNDNHPKNVKNIPPLPPVNKVPPRTTHAIASSSQAFPADGLAVCILATYINEPIPMHNPPNT;locus_tag=LOCUS_17120;note=MGA_1712
sequence1	MetaGeneAnnotator	CDS	1077857	1078081	.	-	0	ID=MGA_1713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFALAIIAFIILRFTIYGRHLYAVGGNYKSAQLSGIKVKTILASAYVFGGLCIGIGSFIYVARIQTASPSAGNA;locus_tag=LOCUS_17130;note=WP_003317694.1 ABC transporter permease (Pseudomonas) [pid:47.8%25%2C q_cov:90.5%25%2C s_cov:20.6%25%2C Eval:7.3e-12%2C partial hit],internal stop codon at [1077770:1077772](-)%2C[1077857:1077859](-)%2C[1078085:1078087](-)%2C[1078193:1078195](-),MGA_1713
sequence1	MetaGeneAnnotator	CDS	1078193	1078429	.	-	0	ID=MGA_1714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIGVTIIILTGGIDLSIGSTMAFATALAARLILGGVNVGITIAAVILFCGISGLISGLFVSILKFPSFIITLVLMMV;locus_tag=LOCUS_17140;note=WP_000978822.1 hypothetical protein (Streptococcus agalactiae) [pid:48.7%25%2C q_cov:100.0%25%2C s_cov:25.2%25%2C Eval:6.5e-13%2C partial hit],internal stop codon at [1078085:1078087](-)%2C[1078193:1078195](-)%2C[1078466:1078468](-),MGA_1714
sequence1	MetaGeneAnnotator	CDS	1078437	1078589	.	+	0	ID=MGA_1715;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAFKYKMFFQLSPLKKPGSIIPTIIANAIIIKINFIEFIALNDLLQNFF;locus_tag=LOCUS_17150;note=MGA_1715
sequence1	MetaGeneAnnotator	CDS	1078985	1079350	.	-	0	ID=MGA_1716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQLVNKNSKEFITNYLDIKTDAELQSVQKYFRKKTEKKYDFVFLLSSYRDSCISNLKNKIKRLEERKQSYLEEAEFKFKNLNITKSEYEVQKATIESGEYKGVKNQIEKLNQKIDKKNNK;locus_tag=LOCUS_17160;note=MGA_1716
sequence1	MetaGeneAnnotator	CDS	1079366	1080562	.	-	0	ID=MGA_1717;product=ribose ABC transporter ATP-binding protein RbsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015368992.1;translation=MNVLDNIYAGHEVGRFGFVNYKKEKKMIKEVFKLLKLEVDLNEIMSNLTIAEQQMVEIAKSILRKSKLIIFDEPTSSLSKKEAESLFEIISKLKSEGIAICYISHKLEEIPIVCDFITVIRDGEYIGEYTVNELTEDELISKMVGREVVEKYPQKDNPSYNQVILKVEDLTNDFVKNINFDLYKDEILGFSGLVGAQRTELFKSLVGFFPKIAGRVLLNGEEISLNSVGSSIKKGIYYVTEDRKNDGLFLDETIRKNISISCLNSISNLGFVNLNKEKKLSNHFIGIMSVKTSSGENTVGSMSGGNQQKVLLAKAFAAEPKVIIFDEPTRGVDVGSRREIYDLIYEAKRNGIGVIVISSDLPEVLGLCNRVVVMKNGRITNKLKGEQLSPEEIIKYAI;locus_tag=LOCUS_17170;gene=rbsA;note=WP_015368992.1 ribose ABC transporter ATP-binding protein RbsA (Klebsiella) [pid:43.9%25%2C q_cov:100.0%25%2C s_cov:79.6%25%2C Eval:1.0e-86],internal stop codon at [1080656:1080658](-),MGA_1717
sequence1	MetaGeneAnnotator	CDS	1080656	1080874	.	-	0	ID=MGA_1718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIFNEKIKLTPLLVLKDIKKTFGNTTALKGVFLRAFEGKAMGVLGENGAGKSTLMNILSGVIQRTSGDLY;locus_tag=LOCUS_17180;note=WP_012258152.1 sugar ABC transporter ATP-binding protein (Chloroflexus aurantiacus) [pid:50.8%25%2C q_cov:87.5%25%2C s_cov:12.5%25%2C Eval:4.3e-12%2C partial hit],internal stop codon at [1080656:1080658](-),MGA_1718
sequence1	MetaGeneAnnotator	CDS	1081204	1081794	.	+	0	ID=MGA_1719;product=DeoR/GlpR family DNA-binding transcription regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966238.1;translation=MHFLEKNNLIRLYYGFVEVINTNIDHLNNFDINEVNNYEIKKNMAIKAVNVIEDGDSIFIGPGTTCEVLTSHINKNVDLLVTNGIKILSKSSINKKFKQIIMVGGKLLSSKDRISSLTSIIQIQDLRFDKIFITAQSIDENNNVYITDIDEYEFLKVIMKNANKKFLLVDSSKYNSIGNIKLCKFEDFDSVITDKN;locus_tag=LOCUS_17190;note=WP_010966238.1 DeoR/GlpR family DNA-binding transcription regulator (Clostridium) [pid:32.0%25%2C q_cov:98.5%25%2C s_cov:76.4%25%2C Eval:5.0e-19],MGA_1719
sequence1	MetaGeneAnnotator	CDS	1081961	1082101	.	-	0	ID=MGA_1720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVEDELRFEKENMIMDDYRIEFIEEHLSYLKKAIDEGANCFGYSL;locus_tag=LOCUS_17200;note=WP_002293829.1 glycoside hydrolase family 1 protein (Enterococcus) [pid:63.8%25%2C q_cov:100.0%25%2C s_cov:10.1%25%2C Eval:1.3e-10%2C partial hit],internal stop codon at [1081937:1081939](-)%2C[1081943:1081945](-)%2C[1081961:1081963](-)%2C[1082120:1082122](-)%2C[1082189:1082191](-)%2C[1082222:1082224](-),MGA_1720
sequence1	MetaGeneAnnotator	CDS	1082222	1082608	.	-	0	ID=MGA_1721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIAHAKVVVYFKEHFKNKKISIILNVTPAYPRSNSKEDLKAAEFKNMLITNSQLDLVLKGIVSKDLIIFLQKNNLMPDVKDEEFAFIKKAKIDYLSLNYYQPSRVKAKESVKEDDELMPESFYDVYD;locus_tag=LOCUS_17210;note=WP_014584605.1 glycoside hydrolase family 1 protein (Mycoplasma leachii) [pid:46.2%25%2C q_cov:98.4%25%2C s_cov:28.1%25%2C Eval:5.7e-25%2C partial hit],internal stop codon at [1081937:1081939](-)%2C[1081943:1081945](-)%2C[1081961:1081963](-)%2C[1082120:1082122](-)%2C[1082189:1082191](-)%2C[1082222:1082224](-)%2C[1082660:1082662](-)%2C[1082714:1082716](-)%2C[1082795:1082797](-),MGA_1721
sequence1	MetaGeneAnnotator	CDS	1083174	1083794	.	-	0	ID=MGA_1722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKELQKKFNKKVFIENDAKCAALAEINVGNGKKYQNLFLFVIGTGIGGAVIINKKIYKGSKLAAGEFGCVLEKLDKNEFHNGSHYGGMYNLEYKYKNISGKAKSGKEIYNLYAKDELCKNLINEQIFQIAKLIINTNFVLDADAVLVGGAISANDLFIDLLNKKLTELYFLSGMQKNIVLDRCKFTNDANIIGANQLEVAIDKVS;locus_tag=LOCUS_17220;note=WP_013448125.1 ROK family protein (Mycoplasma leachii) [pid:45.4%25%2C q_cov:94.2%25%2C s_cov:66.1%25%2C Eval:1.3e-41%2C partial hit],internal stop codon at [1083837:1083839](-),MGA_1722
sequence1	MetaGeneAnnotator	CDS	1083837	1084061	.	-	0	ID=MGA_1723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRNLCFDVGGMSTKVALFENCEIIKRDKIEYGKLINSMELLEKIIFYIENFIDLKSLNNISIASPGVVDVNSG;locus_tag=LOCUS_17230;note=MGA_1723
sequence1	MetaGeneAnnotator	CDS	1084250	1084516	.	-	0	ID=MGA_1724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKEIFNEDSIVIDENLNNKEEVFAFISNYFVNNKYADNYKEIYQGFFIREKEGSTAFTDGIGIPHSKTATIKRPGIFILKNNIGIE;locus_tag=LOCUS_17240;note=WP_011167001.1 PTS sugar transporter subunit IIA (Mycoplasma mycoides) [pid:40.2%25%2C q_cov:98.9%25%2C s_cov:57.2%25%2C Eval:1.9e-12%2C partial hit],internal stop codon at [1084250:1084252](-),MGA_1724
sequence1	MetaGeneAnnotator	CDS	1084506	1084652	.	-	0	ID=MGA_1725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIACENKNIIFDLVNLKEEVILKKLSSIKIKKNQIVSIKINGDVIYDK;locus_tag=LOCUS_17250;note=MGA_1725
sequence1	MetaGeneAnnotator	CDS	1085289	1086218	.	-	0	ID=MGA_1726;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSLETELYYNLEPLMTFYYLSTGIYNKQFLDDIIKNLLVSQAHDSIGGCNSDRTNSDVKNRIDRCFDLVESLKTKVLKNIASKINIKEEEFIIFNPELTEEITNKQIKIFSKYKDIDILDEENKVINFSILKSEYHNSGMIVKPSANGEKVEKANGFYEHNIFLQNVKLKEFSYKKFSLIEKTKKNKESLLNENFDIKIEHEKIIIKSKSNKKIIEVFLEAERDLGDSYDFSPEADKTILINNFLRSRFSKKNIDNLQIYKVDLYYLVPNSETSEAETEQKVSIILKVFESNKLHLSLNMVNKAKDIR;locus_tag=LOCUS_17260;note=WP_011167003.1 glycosyl hydrolase (Mycoplasma mycoides) [pid:31.3%25%2C q_cov:100.0%25%2C s_cov:40.2%25%2C Eval:5.5e-39%2C partial hit],internal stop codon at [1085007:1085009](-)%2C[1085175:1085177](-)%2C[1085190:1085192](-)%2C[1085289:1085291](-)%2C[1086363:1086365](-),MGA_1726
sequence1	MetaGeneAnnotator	CDS	1086363	1086500	.	-	0	ID=MGA_1727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLESIKEKSKKCTNHILVPLGGDQAPIIRHLKGFTEKLNEFSEDN;locus_tag=LOCUS_17270;note=MGA_1727
sequence1	MetaGeneAnnotator	CDS	1086882	1087055	.	-	0	ID=MGA_1728;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFDNINKLLEMLDNNEINNFTYDGQVSVIDDYLKYDKTNIDKIKKYIKEKKVIIGP;locus_tag=LOCUS_17280;note=WP_011167003.1 glycosyl hydrolase (Mycoplasma mycoides) [pid:46.6%25%2C q_cov:100.0%25%2C s_cov:7.3%25%2C Eval:9.6e-09%2C partial hit],internal stop codon at [1086642:1086644](-)%2C[1086693:1086695](-)%2C[1086882:1086884](-)%2C[1087083:1087085](-)%2C[1087095:1087097](-),MGA_1728
sequence1	MetaGeneAnnotator	CDS	1087439	1087984	.	+	0	ID=MGA_1729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFILLKINFGFLKNSLKLILLIILLSLAFLLSSKYNSYSSSVIFRFSNPAIKAVTIIPRTIGKIHDKGHRGPFMYPKNAPIGEPNPAANLLFHNTTPTPATTLPVIFAKIILNGSAAANGIAPSVIPTIPVPKAALPIIRSFLVYLILKIFVDSHIPNGGTDIAACDAVPGTKLASQYPKP;locus_tag=LOCUS_17290;note=MGA_1729
sequence1	MetaGeneAnnotator	CDS	1087966	1088208	.	-	0	ID=MGA_1730;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MACLVKFLIGPPIAHLVLSMFDGLSSLEEKFAATGIVIAFVISIMIAFDLGGPFNKTALVFGTVVFYQTLADAMSQGLGY;locus_tag=LOCUS_17300;note=WP_011167004.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:68.8%25%2C q_cov:96.2%25%2C s_cov:12.6%25%2C Eval:1.2e-24%2C partial hit],internal stop codon at [1087714:1087716](-)%2C[1087900:1087902](-)%2C[1087966:1087968](-)%2C[1088269:1088271](-)%2C[1088413:1088415](-),MGA_1730
sequence1	MetaGeneAnnotator	CDS	1088096	1088572	.	+	0	ID=MGA_1731;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIPVAANFSSRELKPSNILKTKCAIGGPIKNFTKQAIIAVAIIGIIIIGTIGLKNLGQCILFKNFTKYPVNNPTTIAPIKPAPGSITDCSETLTDTPNILLSFIIQPAIKAGANPGLSEIEYATKPAKIGIINLNPNPPMLIRKLGKTLFPNTQFSP;locus_tag=LOCUS_17310;note=MGA_1731
sequence1	MetaGeneAnnotator	CDS	1088662	1089081	.	-	0	ID=MGA_1732;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGSKNTKNIVAITACAAGIAHTYMAADSLKNKASELGYNIHVETQGTIGKENEIPLEKISEADIVIIASDVKIDMTRFNGKKVYSVNIKYAIKDPQKLIEDAFVYGEVQGGKGTKKGFVTLGKTKKQGILSHLMTGIS;locus_tag=LOCUS_17320;note=WP_011167004.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:62.1%25%2C q_cov:95.0%25%2C s_cov:21.5%25%2C Eval:9.9e-41%2C partial hit],internal stop codon at [1088413:1088415](-)%2C[1088557:1088559](-)%2C[1088662:1088664](-),MGA_1732
sequence1	MetaGeneAnnotator	CDS	1089207	1089491	.	-	0	ID=MGA_1733;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIVNGAENDNYLEDSLEITKEKLNLLKNDYFTVRLNDIKSVSKNQWLSETYSESVKTAIKINNENKEINDKNKPNDPAFKEEKLYSTLDISKL;locus_tag=LOCUS_17330;note=MGA_1733
sequence1	MetaGeneAnnotator	CDS	1089898	1090716	.	+	0	ID=MGA_1734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALNIQTLNEKQIDFYNFSIEKYNLFYCKTLKEIASIYGCGMSFIYNFFKKLNIKGLKNYISELNGIIYTKKSFTNKMFDLNIKEKFQNSLFINFEQQIEQIKNIEIQENKIVLIKKILKNSNYIYGIGFGHSKLAIKDILSFFEFLNPNTIFLNYDKNIDIKHFVNQKSVIIIYSVRLVNKKYLTIIKELKKIENIKIILVTSNRNIDEELFEIVFYVNNPMKYQDFFNMNIYIGPLNTFLMFNNYLKSSIYLDNKEFLLKNKKFVKETIG;locus_tag=LOCUS_17340;note=MGA_1734
sequence1	MetaGeneAnnotator	CDS	1090999	1091406	.	-	0	ID=MGA_1735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFRAHNQFKSIYPFDFDLVINIIIERNMLTYTFEVINVGKEMMSYSFGHHPAFKVDKNSKVVFESEQAYVTKFGKGGTYIPNQEKMYAKEVVISEVDYSDSKSLLFDEFKLDSILYEYKNKKIKMSFDKEPYFVL;locus_tag=LOCUS_17350;note=WP_002382347.1 aldose 1-epimerase family protein (Enterococcus) [pid:30.4%25%2C q_cov:88.1%25%2C s_cov:40.2%25%2C Eval:3.7e-08%2C partial hit],internal stop codon at [1091443:1091445](-)%2C[1091548:1091550](-)%2C[1091560:1091562](-),MGA_1735
sequence1	MetaGeneAnnotator	CDS	1091560	1091679	.	-	0	ID=MGA_1736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQLKNDVLNVGFKVANQGLEIVSIKHKGEEVLYQQDGS;locus_tag=LOCUS_17360;note=MGA_1736
sequence1	MetaGeneAnnotator	CDS	1091977	1092597	.	-	0	ID=MGA_1737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSTNLDLKQDIPVGGPGIFYPFTNFTKVKDQILYFGMVCLVMGVAILFAFLFYKERFDETKYSTNIFRKVSRLLKLKYNDLSEENLKKVNELKLMFKENKKTFKEYEKYIQKVVNLNTKISNIEDSEANKKNKMYLKIQKIYNNPNVNIEKVNNLIVKYEEYNLENQKNLFKDKLINVENDYKELANRVKSIKDTTLTKCNEYID;locus_tag=LOCUS_17370;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:28.7%25%2C q_cov:99.5%25%2C s_cov:24.0%25%2C Eval:1.4e-19%2C partial hit],internal stop codon at [1091923:1091925](-)%2C[1091977:1091979](-)%2C[1092625:1092627](-),MGA_1737
sequence1	MetaGeneAnnotator	CDS	1092625	1093050	.	-	0	ID=MGA_1738;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFGSGLVVITTILPVLFVFGPALSLLELGVTKVISGVEKIPYGFGPAILALVWQPLVITGLHVPINVAIGIPVLKGEPTLLYPANTLAMFAQIGMGIGIAIFTKNKNLRRVSIAAIPSGIFGITEPVIYGVNLPKIKPFL;locus_tag=LOCUS_17380;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:52.8%25%2C q_cov:100.0%25%2C s_cov:16.6%25%2C Eval:3.8e-40%2C partial hit],internal stop codon at [1092625:1092627](-)%2C[1093186:1093188](-),MGA_1738
sequence1	MetaGeneAnnotator	CDS	1093186	1093590	.	-	0	ID=MGA_1739;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQAQKTTVGQKIMGGLSGIIGPNIRVLVASGILALIYSLLVQFKLAKDLGDGTNMQDADVLSVVLYAMTKVGILLVGLFFCITSTKYFGGNYLLGVFVGLILVSRFFMAKNGITNPDDYSVGKFVENSQYGSKG;locus_tag=LOCUS_17390;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:48.1%25%2C q_cov:96.3%25%2C s_cov:15.5%25%2C Eval:5.6e-33%2C partial hit],internal stop codon at [1093186:1093188](-)%2C[1093690:1093692](-),MGA_1739
sequence1	MetaGeneAnnotator	CDS	1094215	1094379	.	-	0	ID=MGA_1740;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKVYAPQDCTLKDLDKSVDQAFASKSMGDGFLLVLEQKEFYCPFEKAKVNLV;locus_tag=LOCUS_17400;note=WP_011183516.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:44.4%25%2C q_cov:100.0%25%2C s_cov:6.2%25%2C Eval:5.7e-09%2C partial hit],internal stop codon at [1094215:1094217](-),MGA_1740
sequence1	MetaGeneAnnotator	CDS	1094393	1094863	.	-	0	ID=MGA_1741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIPVELNIKNNKLEKKPFNFFEKNILENDLKSEKTKLIKSLNLPARISLSTNENVIKIKNEKNEYICLEIKKDEVIFDRSKQSLKIKSNFGDFRYIKNNNKLKQVDIWIDNSIIEVFVDNQLLTSKFFVIGDLNLELQKEVELKTNKIKKISYTK;locus_tag=LOCUS_17410;note=MGA_1741
sequence1	MetaGeneAnnotator	CDS	1094948	1095133	.	-	0	ID=MGA_1742;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVVMFSIQGVNNTDKYNLQNSSNVISIVCSDIDFENGDLIDEQPFEMFDHGQDLYATQTF;locus_tag=LOCUS_17420;note=MGA_1742
sequence1	MetaGeneAnnotator	CDS	1095593	1095835	.	-	0	ID=MGA_1743;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKESKMAEQINRYKKITEYSNDEIDKVNEIVKYSLYYPYFHISPFNGLMNDPNGLFYKDGYFYIHYQNHPMRAIHGLKY;locus_tag=LOCUS_17430;note=WP_011183424.1 glycoside hydrolase family 32 protein (Mesoplasma florum) [pid:55.4%25%2C q_cov:80.0%25%2C s_cov:13.6%25%2C Eval:5.3e-15%2C partial hit],internal stop codon at [1095593:1095595](-),MGA_1743
sequence1	MetaGeneAnnotator	CDS	1096287	1096661	.	-	0	ID=MGA_1744;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIDPFFIISLSFLATIFGTEEKSDVNFEIYSNISSYVLPFLFIFLMIRAYYLFFKNVKTKKYQIFLTTRMTKLNLFLSNLLTLVIVEIFYFLIELIVTLVSLNVSNEANPVELGKFILEILIL;locus_tag=LOCUS_17440;note=MGA_1744
sequence1	MetaGeneAnnotator	CDS	1097185	1097349	.	-	0	ID=MGA_1745;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTQNLVLKNCEKSRKSKSYIKKSKDLINTAPNLLKNQETNKMEFNANKPLEII;locus_tag=LOCUS_17450;note=MGA_1745
sequence1	MetaGeneAnnotator	CDS	1097844	1097975	.	-	0	ID=MGA_1746;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKTKLFSSEEKKKIIDEFATTDISARKLALKYNFKQTSTIYV;locus_tag=LOCUS_17460;note=MGA_1746
sequence1	MetaGeneAnnotator	CDS	1098055	1098228	.	-	0	ID=MGA_1747;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKHIVSFAKNELETSEIHISSQVNAIYFYKKFNFVEYGDKYVDAGIEHISMKLNLE;locus_tag=LOCUS_17470;note=MGA_1747
sequence1	MetaGeneAnnotator	CDS	1098286	1098498	.	-	0	ID=MGA_1748;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGIDFGKVFGIGSKLSYDALLIRKSVFVNEQNVPIEEELDDYDMESYHFVGYLISQPICCARLYMKDNK;locus_tag=LOCUS_17480;note=MGA_1748
sequence1	MetaGeneAnnotator	CDS	1098604	1099290	.	+	0	ID=MGA_1749;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQLISLLGSIGLIATSSSIVVACSKKAKSEFSNSITPNNVKYGEKQSFNVEIINPSEYDSLSVEELQGNSYLTSIKVEKNKGDISKFVVSYMGKKVTEKAIIKLSYGDLVKEVNLKVEKNTLEGLIKIKDLGRIKMANDTPTKDELLNAIENANSEIYSQQTLSKSDFEIQNASKTEATIKASGQNLEGTIELTYRNNAKTQLNSLIKITNLGQIEGKELIPSEEEI;locus_tag=LOCUS_17490;note=MGA_1749
sequence1	MetaGeneAnnotator	CDS	1099495	1099890	.	-	0	ID=MGA_1750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKVLEIIFRILYYIFIVMIIQSIFRTGRRSNNRERDDQRSNFSNDQHQQSSSDDYYSNEQQFNQEEKSLIQAYKIMGVSTSATDADIKKKYRELAKKYHPDVNGSKEAQKKMSEINNAYDLITEKRKIKH;locus_tag=LOCUS_17500;note=WP_007051638.1 DnaJ C-terminal domain-containing protein (Bifidobacterium longum) [pid:58.5%25%2C q_cov:40.5%25%2C s_cov:15.6%25%2C Eval:2.2e-13%2C partial hit],MGA_1750
sequence1	MetaGeneAnnotator	CDS	1099911	1100207	.	-	0	ID=MGA_1751;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNKDKKNTNKFGVFNGNVINSETFVLENEFKVEEYHDESLTITEVKTKTLKEDEELIIKENLIKKRKKINSTVYKVIAYVIILLVIVAIIVYLIVR;locus_tag=LOCUS_17510;note=MGA_1751
sequence1	MetaGeneAnnotator	CDS	1100194	1101381	.	-	0	ID=MGA_1752;product=tRNA 4-thiouridine(8) synthase ThiI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166477.1;translation=MKSILVRYGELTLKGKNKDIFINKLIQNIKFKLKKYKEDIVYKKDYNSLTLSVKNEICDQVINIIKNVFGIYSISIVDIVEKDENKILAKTLEIAKTLKEFTFKIEVERKDKSFSIGSSDLKLSIAANILKNTNNLKVDVKNPENKISVIIKIDGAYIFTSKIVASKGLPVGVGGKAISLLSGGIDSPVASYLTLKRGMQVDFLHFMTPPHTSKEALDKVFNLALKLEKYNQTNFSLYVCDFSMIIQELMHIKEESYRITIMRRIFMRIANILANKIGAKTIITGENLGQVASQTIESINVINKASDLAILRPLITYDKEEIISVAKKIDTYETSILPFDDVCSLYVPKSPVTKPRILTALDQEKNLLLDEMINYSIENKIKQYICKDGELVEKE;locus_tag=LOCUS_17520;gene=thiI;EC_number=2.8.1.4;note=WP_011166477.1 tRNA 4-thiouridine(8) synthase ThiI (Mycoplasma mycoides) [pid:60.3%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:7.8e-132],MGA_1752
sequence1	MetaGeneAnnotator	CDS	1101378	1101926	.	-	0	ID=MGA_1753;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDELLKVLTKAIDDIENLEKSTKIIEKNSTNIISLENQIIFLQSILSQCEVKINQFKSIQELKERFEESVNMEHAKLTSFSKERISKIKTNQEKEQAAIQLDRVANDIMMIFRDLNDAIFLDYISQEIMIYLERYVGKFDGVEQLIIQCEKLFKQRHLEQLINLSLDALTKIKRNDDKRKK;locus_tag=LOCUS_17530;note=MGA_1753
sequence1	MetaGeneAnnotator	CDS	1102111	1102509	.	+	0	ID=MGA_1754;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTFSKLSLIDSALVEKYDFNLSSYSKVFLKLSIRSFISFIFCDAVLNCNFLIQFLTSTLKISTCFSKDTNAFALLVSFSFVALPNVTCLFLRSNNFSGITASTDEKISGIASNNWIKKTKALLISPNIFQH;locus_tag=LOCUS_17540;note=MGA_1754
sequence1	MetaGeneAnnotator	CDS	1102515	1102844	.	-	0	ID=MGA_1755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSFVNLLKDRKTTKPTLANQRKYQKIYEDVIAINKTIHEVFVEIYSKLEIEYIQRDFITFLKELFTSIKEEAVIITFSDLDIDEKKLSDLISKIEVLFEDFYLNMEEG;locus_tag=LOCUS_17550;note=MGA_1755
sequence1	MetaGeneAnnotator	CDS	1102890	1103147	.	-	0	ID=MGA_1756;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILSWDINNLFTNPVTIACMAVFFGCFLIATIILIVLSVYKNIIQTIAKIIDLFDTISKSPLKNLIRRISNIYEETENLEKEYAV;locus_tag=LOCUS_17560;note=MGA_1756
sequence1	MetaGeneAnnotator	CDS	1103230	1103424	.	-	0	ID=MGA_1757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSKLTINRVISVLGSISYFNNSFDENIYDLIRGNTELRMYGVYNSKSNEFFLIEIDFNHNSR;locus_tag=LOCUS_17570;note=MGA_1757
sequence1	MetaGeneAnnotator	CDS	1104180	1104638	.	+	0	ID=MGA_1758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKIKNLKKTYNNKTVLNVENLTLDQNQCIGIMGKNGAGKTTLVEIIMGSKKQNEGDVIIDKTDLRKNAVFQECQYEQDLNLITIARFYKKLFKSNEDLEVLFEKFELKEFKRKRFIKLSGGEKQKFKLLIAFVNKPNLLLLDELTTSLDFI;locus_tag=LOCUS_17580;note=WP_011183542.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:35.5%25%2C q_cov:98.7%25%2C s_cov:66.2%25%2C Eval:1.6e-19%2C partial hit],internal stop codon at [1104636:1104638](+),MGA_1758
sequence1	MetaGeneAnnotator	CDS	1104699	1104851	.	+	0	ID=MGA_1759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSHDVNEVAKLCQRVIFINDGIVKKDLNLNKDIKENIEILEKEVISCYK;locus_tag=LOCUS_17590;note=MGA_1759
sequence1	MetaGeneAnnotator	CDS	1105028	1105429	.	+	0	ID=MGA_1760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAILSFSVAAIPITLCSNRIDKRTKIIALANISKLQYIISLMLCYYIMYFIEFVIVLIIAITAFKLTTSIAMIMSLLFIPIVIFVLHFLISVSLANFCQTMTIISSVSLLFLMISLFFSGSTVSTYVVDPNNA;locus_tag=LOCUS_17600;note=MGA_1760
sequence1	MetaGeneAnnotator	CDS	1105840	1106436	.	+	0	ID=MGA_1761;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183484.1;translation=MSRYTGSKFKKARRYGFSILETGKEFSKGKKRTSAPGQHGARRSKLSGYGQQMQEKQKLKFMYGLTERQFRNTYARAKKISGITGTNFMQLLESRLDNIVYRMGLALTRQGARQLVSHGHILVNGKKLDIPSYTVKPGEAIALKDKMHKNDKVIEAMASSAKTVEFVKFDQKTFSGTFVRLPERNELNQEINDALIVE;locus_tag=LOCUS_17610;gene=rpsD;note=WP_011183484.1 30S ribosomal protein S4 (Mesoplasma florum) [pid:73.1%25%2C q_cov:100.0%25%2C s_cov:96.6%25%2C Eval:1.9e-79],MGA_1761
sequence1	MetaGeneAnnotator	CDS	1106490	1107188	.	-	0	ID=MGA_1762;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948483.1;translation=MIKVNNLTKKIGKKTILENISLEINSGDIIGIVGENGSGKSTLVKTLLGLIKASSGNIIYNSKNFNYFPDVSNMAINMKPIELVSHFCEVNGIKSNEYKEKIKEFSKKLDLENKMTNNMKTLSTGEKKRIYMMIILLIKKEVVFFDEPTDNLDDAYNNIFFDILQQLSKKGVTIVVISHSFEFLEKFINKLIILKNGKLVYNDFYLKNQSIQKISEKIHSPTSNFKASEVID;locus_tag=LOCUS_17620;note=WP_011948483.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:28.3%25%2C q_cov:99.6%25%2C s_cov:93.1%25%2C Eval:6.1e-28],MGA_1762
sequence1	MetaGeneAnnotator	CDS	1107203	1107490	.	-	0	ID=MGA_1763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQYLTYLNNDRRSYSEPTSDDLILYSKNYSTEFMGSEFKINNDYNIDIYSDGYFNEDKKGELLNYYALYIPWLVISVLLDFGTIFIFVKRYEKM;locus_tag=LOCUS_17630;note=MGA_1763
sequence1	MetaGeneAnnotator	CDS	1107614	1108297	.	-	0	ID=MGA_1764;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEILENFYNKTNNKSYLNFLNNYKKRFEYEKLTLSNGSFLYSNFKNPSYYFDENNGKYNFIKAHPEIALLIDFYSNIVNEFYDLKKDNNINSYIYELYIEQTNLNESFYDSVRFNYFNQMSKMAYGFKDSVYADIIANQPFGPLSDLYYKRLVNEPSKLDKYRTSVDYHYSYYKNINNNYKFSSDFFALKKRHYECFLKENLTKTIYLADSLVMSYEPLNSFFLKN;locus_tag=LOCUS_17640;note=MGA_1764
sequence1	MetaGeneAnnotator	CDS	1108313	1108534	.	-	0	ID=MGA_1765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYIENNLENSYYSQQVYLLNATNFYDSFIDRNEDNIFMKFILEQYEILSMNNDLFKMSYKSLLDMNNLYDNN;locus_tag=LOCUS_17650;note=MGA_1765
sequence1	MetaGeneAnnotator	CDS	1108550	1108738	.	-	0	ID=MGA_1766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVVGLIFSISLICNYFFKSDDINGIGLVKSNKAYRKIELTIDNYNSIKNFMGENTSNFIKD;locus_tag=LOCUS_17660;note=MGA_1766
sequence1	MetaGeneAnnotator	CDS	1108964	1109266	.	-	0	ID=MGA_1767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVLLKCNIKQIFKLKSIYILYGLLTLVNIVSYSLLLFIGKNEDQEIKIKQLQIGFYFFIINLFFIVIFTLLINTSLFYNALYGGKTNMEIVSGINKKTI;locus_tag=LOCUS_17670;note=MGA_1767
sequence1	MetaGeneAnnotator	CDS	1109656	1109784	.	-	0	ID=MGA_1768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFKHDYAQNKVYAAAVIDYYTSVDGIMHFRLITISGKFASK;locus_tag=LOCUS_17680;note=MGA_1768
sequence1	MetaGeneAnnotator	CDS	1109944	1110141	.	-	0	ID=MGA_1769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAIGSDFTINIKDYKDSVYQFRKDINNFELKFYITVKDGSTYGGKTLIDEEYIKNLSINNVVTP;locus_tag=LOCUS_17690;note=MGA_1769
sequence1	MetaGeneAnnotator	CDS	1110142	1110291	.	-	0	ID=MGA_1770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFFGSFSFNVKFIRGTVTPEKPKKNLPYTEYVNRTNSTIGNEVDAKSR;locus_tag=LOCUS_17700;note=MGA_1770
sequence1	MetaGeneAnnotator	CDS	1110379	1110729	.	-	0	ID=MGA_1771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIVQERIIMKKLINSLLLFSTSLGMVSFTKNYNIKDFENNKDIYLSKVNKYSNDQYQKTIITNYDIKDFSIFIKENESENDIKKDVFRTMAEKNKAAENIAFLVDSIIKDTNLMY;locus_tag=LOCUS_17710;note=MGA_1771
sequence1	MetaGeneAnnotator	CDS	1110993	1111340	.	-	0	ID=MGA_1772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVFELSLLEDSTKEIFVPIDKVYENSVEYIYGKLIIKNVYITNYRKKSEYSNEQLEYDKPSENDIILYSRNKITNFMGDKYKLNDDYNIEIYSDEYFDYSKKGQLLNYYSLYIP;locus_tag=LOCUS_17720;note=MGA_1772
sequence1	MetaGeneAnnotator	CDS	1111341	1111655	.	-	0	ID=MGA_1773;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYGYKDYLYEYLIANEPFGPLSDYYYKRLVNDSEKIDRYRNINKFFESEETKKENNFQFNYNFFEYKDEYFECFRRDNLDKIILLCESLILKYEKLNSFMLKN;locus_tag=LOCUS_17730;note=MGA_1773
sequence1	MetaGeneAnnotator	CDS	1111680	1112456	.	-	0	ID=MGA_1774;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVVGLFFTVSLICNYFFKQDNINNFGLIKSNKAYIKNNLIMENYNAFINLSENKTANLVKDWHKLNLQFYVENKMIDNFSNEINIIKASAFYDDFIRVNKQNIFISFIDDQYKILEDNPKLFNMNFNSLLKLNSATYAHSEEVPIIKKILENFYLVTNNSSYLNILNNYIARYSFPKFTEGNQSYLYSYFKSPTYILQNNKYEYIKKHPEIALLIDLYSNILDEFYDLKNKENYNSYIYDLYIAKNNLESSFYNRIR;locus_tag=LOCUS_17740;note=MGA_1774
sequence1	MetaGeneAnnotator	CDS	1112682	1112984	.	-	0	ID=MGA_1775;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVLLKCNIKQIFKLKSIYIVYSLLTLINIVSYSLLIFVGKNDKIENKLSSLQVGFYFFIINLFFIVIFTLLINTNLFYSSIYSGKINMEIINGLNKKTI;locus_tag=LOCUS_17750;note=MGA_1775
sequence1	MetaGeneAnnotator	CDS	1113123	1113551	.	-	0	ID=MGA_1776;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIIISFGIPGTPGTSTLVITSLTSSLGVPSFREATMSIMLVLEDIFDIGRTAVNILAAMVVSTIVALSEGMIHPETDILSKKAGLKQLKINNINILKDSRSEEIKSLKLKYENKSLNKLEYNQKYKDIKNSYKNKITEAKN;locus_tag=LOCUS_17760;note=WP_011183548.1 dicarboxylate/amino acid:cation symporter (Mesoplasma florum) [pid:29.5%25%2C q_cov:72.5%25%2C s_cov:17.9%25%2C Eval:6.1e-09%2C partial hit],internal stop codon at [1113576:1113578](-)%2C[1113618:1113620](-),MGA_1776
sequence1	MetaGeneAnnotator	CDS	1113816	1113971	.	-	0	ID=MGA_1777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIVTNLMITQSLTALTAVAKVLGAAYVSLFICVIYLTAALAIAKIKPHKW;locus_tag=LOCUS_17770;note=MGA_1777
sequence1	MetaGeneAnnotator	CDS	1114026	1114454	.	-	0	ID=MGA_1778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSITLLMIPLIFLSIYRAVTKKSSKRLGRITAKGIVFLVINVAVAFCIAAGIGILFKVGVTSEGEKVLDKFSNGSSGDEDTKLTSIPDMIINYLPKNFFASLASDAVIPVIIMSLVVGLSVKAISLKNPKKVEAFVKLMDAS;locus_tag=LOCUS_17780;note=WP_011183548.1 dicarboxylate/amino acid:cation symporter (Mesoplasma florum) [pid:38.4%25%2C q_cov:97.2%25%2C s_cov:22.6%25%2C Eval:4.8e-22%2C partial hit],internal stop codon at [1113804:1113806](-)%2C[1113816:1113818](-)%2C[1114026:1114028](-)%2C[1114482:1114484](-),MGA_1778
sequence1	MetaGeneAnnotator	CDS	1115208	1115387	.	+	0	ID=MGA_1779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFDNFDYQKIASYGKNKIDELMKNKGIIRNQLKIKAAINNAKQFIEIIKQYNSFSKYI;locus_tag=LOCUS_17790;note=WP_011183174.1 DNA-3-methyladenine glycosylase I (Mesoplasma florum) [pid:65.5%25%2C q_cov:98.3%25%2C s_cov:31.0%25%2C Eval:3.5e-14%2C partial hit],internal stop codon at [1115097:1115099](+)%2C[1115172:1115174](+)%2C[1115385:1115387](+),MGA_1779
sequence1	MetaGeneAnnotator	CDS	1115394	1115594	.	+	0	ID=MGA_1780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKPIINELKSDKDILSSSLLSDKISNELKKCGFKFVGTTIIYSFLQATGIINDHINDCFVKNKY;locus_tag=LOCUS_17800;note=WP_011263635.1 DNA-3-methyladenine glycosylase I (Aliivibrio fischeri) [pid:51.5%25%2C q_cov:97.0%25%2C s_cov:34.9%25%2C Eval:1.9e-12%2C partial hit],internal stop codon at [1115172:1115174](+)%2C[1115385:1115387](+),MGA_1780
sequence1	MetaGeneAnnotator	CDS	1115817	1116080	.	-	0	ID=MGA_1781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMIDLNIKSLHFLTKEMIKKFVKQNYGRVINVGSMAAFTPAPVFASYYASKAYVFSLGVAINTELKKTKSKARVITVCPGPLKTDF;locus_tag=LOCUS_17810;note=WP_010966274.1 SDR family oxidoreductase (Clostridium) [pid:45.9%25%2C q_cov:97.7%25%2C s_cov:31.7%25%2C Eval:2.9e-13%2C partial hit],internal stop codon at [1115817:1115819](-)%2C[1116114:1116116](-)%2C[1116216:1116218](-),MGA_1781
sequence1	MetaGeneAnnotator	CDS	1116216	1116398	.	-	0	ID=MGA_1782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKIISKDKYAVVTGASKGLGFEYCKELLKLGYNIIGIARDASSLESLKEQFGDKDIIA;locus_tag=LOCUS_17820;note=WP_014207363.1 SDR family oxidoreductase (Acinetobacter pittii) [pid:53.3%25%2C q_cov:75.0%25%2C s_cov:17.9%25%2C Eval:1.1e-07%2C partial hit],internal stop codon at [1116114:1116116](-)%2C[1116216:1116218](-),MGA_1782
sequence1	MetaGeneAnnotator	CDS	1116529	1116735	.	-	0	ID=MGA_1783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCVILICRDFLIDVVRQILASSNTIMAADKLGKYRATFEMIGLTILFFVGFRFFNGSFQGKTKFDEYG;locus_tag=LOCUS_17830;note=MGA_1783
sequence1	MetaGeneAnnotator	CDS	1116736	1117047	.	-	0	ID=MGA_1784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRIILIPIIITLMIICNFDNNANLLYGVFNKAINISNYSLPYAYLIAGILFIVASLTDALDGYIARKYNQITTFGKFFDSIADKLLTNSVLIVFAIGGIIPV;locus_tag=LOCUS_17840;note=WP_020863053.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Mycoplasma mycoides) [pid:49.0%25%2C q_cov:93.2%25%2C s_cov:42.4%25%2C Eval:1.4e-18%2C partial hit],internal stop codon at [1116529:1116531](-)%2C[1116736:1116738](-),MGA_1784
sequence1	MetaGeneAnnotator	CDS	1117255	1117869	.	-	0	ID=MGA_1785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLDIFKRVFEEIINYYNNDCLKDQTINNDNFKIEYDENKLKELDSENELESILNSVIHKVNDLRQENQSQLEDEKFDVKIFAKNEVILSSANVAFESLSECFKNINYLTRQKHGEKVLDINEDFAIQKISSLASNILSRYEHLPTRLKKNSELSKIIEVLKQITSTNEIENILQLSKDILLNYNKILHLDNFVDYDVLVEEYG;locus_tag=LOCUS_17850;note=MGA_1785
sequence1	MetaGeneAnnotator	CDS	1117883	1118089	.	-	0	ID=MGA_1786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFIDFLVSSKIASSNREARELIRDKSITIKGRNDFKEDEIIGKNFIYFGKTIIVKKGKKKYFSVKCS;locus_tag=LOCUS_17860;note=MGA_1786
sequence1	MetaGeneAnnotator	CDS	1118558	1118758	.	-	0	ID=MGA_1787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLIDFLRIIGKDFNLAYLLAKENIATRIEKGLSVTEFSYTMLQGYDFYQLYSTRDCRIQFGGSDQ;locus_tag=LOCUS_17870;note=WP_011183485.1 tyrosine--tRNA ligase (Mesoplasma florum) [pid:72.7%25%2C q_cov:100.0%25%2C s_cov:16.0%25%2C Eval:1.5e-22%2C partial hit],internal stop codon at [1118558:1118560](-)%2C[1118768:1118770](-),MGA_1787
sequence1	MetaGeneAnnotator	CDS	1118768	1119127	.	-	0	ID=MGA_1788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSIIEELKQRDLLNQITNEEKLLNAQKDNAGVYCGFDPTADSLHIGHIIPLINLKRFQDFGFKPILILGGATGMIGDPSFKNTERVLLTLDKVKENVESIRKQVTKIIPSIEVVDNNE;locus_tag=LOCUS_17880;note=WP_011166856.1 tyrosine--tRNA ligase (Mycoplasma mycoides) [pid:62.1%25%2C q_cov:97.5%25%2C s_cov:28.0%25%2C Eval:4.5e-38%2C partial hit],internal stop codon at [1118558:1118560](-)%2C[1118768:1118770](-),MGA_1788
sequence1	MetaGeneAnnotator	CDS	1119130	1119426	.	-	0	ID=MGA_1789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLDKVKEVSDELDAVKSKELAYKVLMKMGQTSMKIGKEIKNSKNVQAIAKDLALITVDIIDKADEVYSEVKDVSASMSKDVAVQGDNKKPAKNSEEQ;locus_tag=LOCUS_17890;note=MGA_1789
sequence1	MetaGeneAnnotator	CDS	1119475	1119627	.	-	0	ID=MGA_1790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKLAKIFGFAFIGMMLAPKKGIELRADFVDYIKKYRPQIKKFISALDEA;locus_tag=LOCUS_17900;note=MGA_1790
sequence1	MetaGeneAnnotator	CDS	1119725	1119994	.	-	0	ID=MGA_1791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPIHFYATDALSATQTGLIIVLMVLAIILVLYTIITLRKVGIAAKKVDYFFEDLTYKSEILNATVDTIARVSNYVDIFDALAKRNVKS;locus_tag=LOCUS_17910;note=MGA_1791
sequence1	MetaGeneAnnotator	CDS	1120191	1120811	.	-	0	ID=MGA_1792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANQNDEKNNIQNDPKKRMEEIKKSNDLFKDVEIKEFIRPSRLGKDISISPNEGKPTLIKPRRKQEPLVSKEERKELEKTISDVTAELREKNENIIKQHKKLMKEENKFNKLVNKYSKKIEVMKNKGYSEEKVEKTIELKENYKNKLNQIHQNLLFVEAHQTFDPNMSLKDRRKQIYNNAYNSETRRAQKLIALREAANNKKQAFN;locus_tag=LOCUS_17920;note=MGA_1792
sequence1	MetaGeneAnnotator	CDS	1120842	1121546	.	-	0	ID=MGA_1793;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKNVGIKRETRKVEGPLGLIINRARDKSSQLQSEIIENDPIIAKLHKIEEMKRTGGVDENLYTDLSKSKTENYADRAKKYLDKNLKNNKVETELERKLRLSREAQEKREAMRSVGGSDETKVDMLQRFLNTDTSKYKTKKLKNSNLDYDDQYSLESLENEVKDKIFFLKEIKSESLEKETELSILELETKTFKNDQEREEYLIAKLKELNTYIDKLQKKIKTGKKKDVTLISD;locus_tag=LOCUS_17930;note=MGA_1793
sequence1	MetaGeneAnnotator	CDS	1121802	1122041	.	-	0	ID=MGA_1794;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNAGHNHVKIIVSSGFNVEKISLFEKENTPVDIYGVGEAITANKIYFTGDLVLINGVKQAKFGRENISSTRIKSIKYY;locus_tag=LOCUS_17940;note=WP_020862883.1 nicotinate phosphoribosyltransferase (Mycoplasma mycoides) [pid:62.3%25%2C q_cov:97.5%25%2C s_cov:21.8%25%2C Eval:2.2e-21%2C partial hit],internal stop codon at [1122159:1122161](-),MGA_1794
sequence1	MetaGeneAnnotator	CDS	1122159	1122845	.	-	0	ID=MGA_1795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKFNIDLRIFDDYYSADYFKKTKEILNKYKPDQNVTMQWFQRKENTVICGIDIICEILRLSGVKDLIVEGLQDGDIAQPLEPILKITGKYKDFARFEGLFDGILSRASTIATNVFNLKRVANNKTILNMNDRMDFYNTQQIDGYASFIGGNNNLVTAASFEYLDLEPNLKGTMPHALIASFDGNLVKALKAYQETFPDNNLVALVDYNNDCINDSLLVANEFKNDL;locus_tag=LOCUS_17950;note=WP_020862883.1 nicotinate phosphoribosyltransferase (Mycoplasma mycoides) [pid:50.2%25%2C q_cov:99.6%25%2C s_cov:65.4%25%2C Eval:5.0e-59%2C partial hit],internal stop codon at [1122159:1122161](-),MGA_1795
sequence1	MetaGeneAnnotator	CDS	1122858	1123427	.	-	0	ID=MGA_1796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008364155.1;translation=MKFFVNYNKNFDVLFVLFENRAVNNTKKVNNIELLFNNDKLIGANIFDPKIDKEKTYRIEDLVLLNYAKQALKEHIKIDNIEAQFVVAKVEECEKIEGTHLSKCKVNNGKEILQIICGANNVKQGLITCLATIGSFMPSGVQILKGSLKGNESYGMLCSGKELKIDNRNINDSGIIELNLANDFLGKSI;locus_tag=LOCUS_17960;note=WP_008364155.1 hypothetical protein (Mycoplasma feriruminatoris) [pid:43.5%25%2C q_cov:99.5%25%2C s_cov:92.6%25%2C Eval:2.6e-38],MGA_1796
sequence1	MetaGeneAnnotator	CDS	1123588	1123800	.	+	0	ID=MGA_1797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVAVIIDSSAGIKNIKDFKDLHLVPLMITKENGEQISDDEHFSFDEFYKLNDSQLLKISMTIPGVMMKK;locus_tag=LOCUS_17970;note=MGA_1797
sequence1	MetaGeneAnnotator	CDS	1123882	1124412	.	+	0	ID=MGA_1798;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAKDEKYAGKVFVVDTNGVSVVLKQQVLDTIELIKEGKTGQGILEVIESRNNNFKCFIIPKTLDQLVRGGRISKAAASMAKFLKINPILKYDGKIDKEGKTRTFKKAILEALELLRKRTKSKTMELDVSYSRTDEETLKFVLAAIEEKGFKIRLKEDIPNTITCHTGRDTFALSI;locus_tag=LOCUS_17980;note=WP_011183488.1 DegV family protein (Mesoplasma florum) [pid:53.5%25%2C q_cov:97.7%25%2C s_cov:62.0%25%2C Eval:6.0e-44%2C partial hit],internal stop codon at [1123798:1123800](+),MGA_1798
sequence1	MetaGeneAnnotator	CDS	1124458	1124916	.	+	0	ID=MGA_1799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGILVDSSTGLEPDKIANTNIEVIPLHIIIKNTQDILDTKEQRDLNNVYEQIHNGVNVTTSQASPGELILKYEEMLKKYDHIIHLPIPTNLSGMAQTAVMTSKDEEFLGKVTVVDHYLAANLLGRLALILNDMTKDESLEIKDYLEKIKL;locus_tag=LOCUS_17990;note=WP_011183489.1 DegV family protein (Mesoplasma florum) [pid:45.5%25%2C q_cov:93.4%25%2C s_cov:50.5%25%2C Eval:2.9e-29%2C partial hit],internal stop codon at [1124914:1124916](+)%2C[1125037:1125039](+),MGA_1799
sequence1	MetaGeneAnnotator	CDS	1125064	1125312	.	+	0	ID=MGA_1800;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRTIGSIIDKLLDNIKEKFKNAYKIILVRTELISEKFLNQIKSKFEELKIDYDDEIIPTPFPCHAGLETVGFLIYDKKMEK;locus_tag=LOCUS_18000;note=MGA_1800
sequence1	Aragorn:1.2.38	tRNA	1125350	1125425	.	-	.	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	1125465	1125540	.	-	.	ID=Aragorn_29;product=tRNA-SeC;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00280;note=Aragorn_29
sequence1	MetaGeneAnnotator	CDS	1125595	1126029	.	-	0	ID=MGA_1801;product=transcriptional repressor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166861.1;translation=MYDELYKEYINILKKNKIKITYVRQCILKIIASRKHFTTSELISELESQMDTVNVMSVYNNIDLFLNLNLLLANSLNGKQIVYEAAAPKLIHINCYKCKKFEHINYSSIDEKVSEVLKPLIEKFDFCIDYFKLDVYGLCKDCRK;locus_tag=LOCUS_18010;note=WP_011166861.1 transcriptional repressor (Mycoplasma mycoides) [pid:35.4%25%2C q_cov:90.3%25%2C s_cov:84.4%25%2C Eval:8.1e-20],MGA_1801
sequence1	MetaGeneAnnotator	CDS	1126033	1126260	.	-	0	ID=MGA_1802;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166862.1;translation=MNYFEEIKRTLINKGAKAAITKDTELKSLGLDSLDLMDMVVFLEEKLDITLSDDQLMGMNTVNDLVKIIESLAKN;locus_tag=LOCUS_18020;note=WP_011166862.1 acyl carrier protein (Mycoplasma mycoides) [pid:54.2%25%2C q_cov:96.0%25%2C s_cov:98.6%25%2C Eval:5.3e-15],MGA_1802
sequence1	MetaGeneAnnotator	CDS	1126303	1126728	.	-	0	ID=MGA_1803;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSKVFIPFLVVTAFLSITTVVLIKYVVKSNTDIIENTNANNDNDKEDKNSENIVNDFVENNLTINFSKLEKIKILVLDGKEPFINIDMFKYYFLKHFKSLGPKKETIKLQFNFDELLKPKIVKVFYNSEKFLNTHFL;locus_tag=LOCUS_18030;note=MGA_1803
sequence1	MetaGeneAnnotator	CDS	1127135	1127614	.	-	0	ID=MGA_1804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFKIKNTKLSQMSNVEFREILVPIKDIRNNKIMRISFTLNSSYTISGFDNNTSGHIIIDLRPFTTVVDTSILLHDYVYLNLQNDYDKTNFKRKVLVKKLFTIEIFEDTNRIDFDLNIKNINYFFYDEIKNSQVLGLNLKTFMDRLKIGQNNNKVVEAT;locus_tag=LOCUS_18040;note=MGA_1804
sequence1	MetaGeneAnnotator	CDS	1127654	1127965	.	-	0	ID=MGA_1805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITEVQYQRDVGQLKNNDDIGNKVTIETNKDGFLSMDVVFVNQQFYIGKEKYYRLLIRPTIKDDAWSKISRDSYNKEINISIEKTEINMAIDSDFGAEGIKLD;locus_tag=LOCUS_18050;note=MGA_1805
sequence1	MetaGeneAnnotator	CDS	1128025	1128405	.	-	0	ID=MGA_1806;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGSIFAGTEESPGEEIIANGKKYKTYVGMGSLAAMSRGSKDRYFQKDAKKLVPEGIEGRVPFKGHAKDVIFQLNGGLRSGMGYTGSKDIDDLRHNTKFVKITSASLRESHPHDVELTKESPNYNK;locus_tag=LOCUS_18060;note=WP_011183240.1 IMP dehydrogenase (Mesoplasma florum) [pid:76.6%25%2C q_cov:98.4%25%2C s_cov:32.6%25%2C Eval:7.8e-51%2C partial hit],internal stop codon at [1128499:1128501](-),MGA_1806
sequence1	MetaGeneAnnotator	CDS	1128499	1129494	.	-	0	ID=MGA_1807;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKDNLFGKIIGEGITFDDVLLVPNYSEVLPNEVSLKTQLTPKITLNMPVISAAMDTVTEADLAIAMAREGGLGIIHKNLTIEEQALEVSKVKRNESGFIKDPITVFKNNTIEEAMKIMSTYKVSGLPVIDDNKKLIGIITNRDIKYIKSTNFIVEEVMTKEGLITGTPETTIEEAKQIMVKNKIEKLPIIDKEGTIKGLITTKDIDKAISYPYACKDQQGRLRAGAAVGVGEDTMPRVKALVEAGVDVIVVDSAHGHSKSILEVIKNIRKRYPDLNIIGGNVCTASGAKALYEAGANSVKVGVGPGSICTTRVVAGVGVPQISAINEVYE;locus_tag=LOCUS_18070;note=WP_011017001.1 IMP dehydrogenase (Fusobacterium nucleatum) [pid:65.4%25%2C q_cov:97.9%25%2C s_cov:66.5%25%2C Eval:2.4e-120%2C partial hit],internal stop codon at [1128499:1128501](-),MGA_1807
sequence1	MetaGeneAnnotator	CDS	1129620	1130459	.	-	0	ID=MGA_1808;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIFIDHKVKEIKEVVKKEEVILGLSGGVDSSVAAALISKAIGKQLTCIFVDTGLLRKDEAKKVMDAYSKLFDMNIKLVDASDQFYKALENVKDPEDKRKIIGKQFVDVFNEQAKLMKNAKFLAQGTIYPDVIESSSKNHSSKMIKSHHNVGGLPDNLNFELLEPLRTLFKDEVREVGKQLGLDEKIINRHPFPGPGLGIRIINEVTKEKADILREVDDIFISKLFKYDLYNKVSQAFATILPVKTVGVMGDNRTYDYVVALRSVNTIDFMTANASHLP;locus_tag=LOCUS_18080;note=WP_011183239.1 glutamine-hydrolyzing GMP synthase (Mesoplasma florum) [pid:71.7%25%2C q_cov:98.9%25%2C s_cov:53.8%25%2C Eval:1.2e-108%2C partial hit],internal stop codon at [1129620:1129622](-)%2C[1130463:1130465](-)%2C[1130664:1130666](-),MGA_1808
sequence1	MetaGeneAnnotator	CDS	1130463	1130663	.	-	0	ID=MGA_1809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHADHLIKMPEGFEQIAHSDASIAAISNDAKKMYGIQFHAEVTHTQEGTQMIENFVYDICEAKKD;locus_tag=LOCUS_18090;note=WP_011183239.1 glutamine-hydrolyzing GMP synthase (Mesoplasma florum) [pid:56.1%25%2C q_cov:100.0%25%2C s_cov:12.9%25%2C Eval:9.7e-17%2C partial hit],internal stop codon at [1130463:1130465](-)%2C[1130664:1130666](-),MGA_1809
sequence1	MetaGeneAnnotator	CDS	1130664	1131053	.	-	0	ID=MGA_1810;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDTQIIILDYGSQYTQLLSRRVREIGVFSEVISFTTTAIDLKKYKNLKGIILSGGPSSVYAQDAYTIDKEIFNLNIPILGVCYGMQLMAEINGGKVELADNQEFGKATLFIDKTSDKLFKNISDKKQV;locus_tag=LOCUS_18100;note=WP_011183239.1 glutamine-hydrolyzing GMP synthase (Mesoplasma florum) [pid:62.0%25%2C q_cov:100.0%25%2C s_cov:25.1%25%2C Eval:8.2e-40%2C partial hit],internal stop codon at [1130463:1130465](-)%2C[1130664:1130666](-),MGA_1810
sequence1	Aragorn:1.2.38	tRNA	1131138	1131213	.	-	.	ID=Aragorn_30;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00290;note=Aragorn_30
sequence1	MetaGeneAnnotator	CDS	1131308	1132720	.	-	0	ID=MGA_1811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVTQEVPDTTPKKVQKQIKKQLDEVGGEYINLAGNQANETITYLQKQINDLQTALIQQNQLNQATQRVNTVSSLNGGTDTFSQLMQYILMQNLIQNIPLGSGKVSNDDIKGIIKREIDDFKYDLKRASDPNYQNHFYNQPNQFYPQQNPQPNQFYPQQNPQQNHFYNQPNQFYPQQNPQPNQFYPQQNYPNQQQFDENLTNQMNQQNKNYDDMQTVNFEKNSNEESIGYMEFEGEDENKMVTREKVNENRNQAVKSMILSQNYIPPLTISTEVDMSSILKLKHLLKTTHNSIKFSTISFIVKSISVALEEHPKLNSSYDPETNEVVIKQYHNIGLATETSEGLIIPVLKFVEKMSIKDVAIDIKEITQRLRAGELYNYEVEGSTITIANYGNIGAIQATPTIFYPNAAVVGVGKVVKKPVVVSNEKLAIKAMMNISLTIDQRIIDAAEAGKFLAKVKEILERPEILTVT;locus_tag=LOCUS_18110;note=WP_011949164.1 dihydrolipoamide acetyltransferase family protein (Clostridium botulinum) [pid:33.5%25%2C q_cov:48.9%25%2C s_cov:51.4%25%2C Eval:3.1e-29%2C partial hit],MGA_1811
sequence1	MetaGeneAnnotator	CDS	1132883	1133101	.	-	0	ID=MGA_1812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNRDERSTILSRRRAVEQGLDESIPKYVQYLQEGKIPQQFLQPVTITDPNTGQSMQVPYGESPAGKREFES;locus_tag=LOCUS_18120;note=MGA_1812
sequence1	MetaGeneAnnotator	CDS	1133108	1133332	.	-	0	ID=MGA_1813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRAKASEDGDFGTSFGAYVYDSEATLIDANDLNPYGGFVMPQKKPEQLINEIDNKQQKTYAESKLSNLYDVNKR;locus_tag=LOCUS_18130;note=MGA_1813
sequence1	MetaGeneAnnotator	CDS	1133381	1134229	.	-	0	ID=MGA_1814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIKSNYNGVVVKTIKIGSPVKNGSILANIAIGEKEIAKFKNRFTNPGNVENTVVKGIYIPDEVQVEKLQPVESDADQFSGAVVYNRYNQAITPFSSGEDDIVDSVEKYKKLEERDVKMTQSNNSASDRFAQMRANIQNSIKNSPQKKVLGDLSSEELLKIDNQEMIKSGGNIFEKQDGVGPSKFRQMIQARKEKLLQEHNYKEVNTEQHVDAMSKLDENGRPLIMRNIIASRIEKLNKGGGDPSVLERDIVATKENAIMDKDRQKPQEVSQMPKQPIQQQS;locus_tag=LOCUS_18140;note=MGA_1814
sequence1	MetaGeneAnnotator	CDS	1134632	1135180	.	+	0	ID=MGA_1815;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILDMSKSSNLNDDQKKIVALFNNYLNYDKRDEQGVNPILPIIEIIDKLKDKKDLTTTLIELSKKFGFAFFVDFGIDSDFEDSNLRALGLSPMGLGMRDKDFYEESHKRHAEIKKAYKNFIEIFSSKVSPIRFSSKSLFELVYNFELELSKIMLKNEEKRNPSRIYNVLTVEELENLNPSYG;locus_tag=LOCUS_18150;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:45.3%25%2C q_cov:98.4%25%2C s_cov:28.2%25%2C Eval:7.5e-40%2C partial hit],internal stop codon at [1134542:1134544](+)%2C[1134581:1134583](+)%2C[1135178:1135180](+),MGA_1815
sequence1	MetaGeneAnnotator	CDS	1135268	1135573	.	+	0	ID=MGA_1816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLSIEDIKDLLKFDVVTSFAGLLSTELHKIMFEYSSIFSGVKEMRPDNERAVGFTSSLLGELIGKEYVKKHFSEEAKKDVLSIVNGLFESYKSRIKSLE;locus_tag=LOCUS_18160;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:47.5%25%2C q_cov:100.0%25%2C s_cov:16.0%25%2C Eval:2.8e-24%2C partial hit],internal stop codon at [1135178:1135180](+)%2C[1135571:1135573](+)%2C[1135649:1135651](+)%2C[1135784:1135786](+),MGA_1816
sequence1	MetaGeneAnnotator	CDS	1135790	1135999	.	+	0	ID=MGA_1817;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYPQTVNAYYNPTSNEICFPAGILQLPFYSIDQSKAKNCGGIGAVIGHEVSHGFDDQGSQFDKDGNFKN;locus_tag=LOCUS_18170;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:82.6%25%2C q_cov:100.0%25%2C s_cov:10.9%25%2C Eval:6.4e-29%2C partial hit],internal stop codon at [1135571:1135573](+)%2C[1135649:1135651](+)%2C[1135784:1135786](+)%2C[1135997:1135999](+)%2C[1136000:1136002](+)%2C[1136213:1136215](+),MGA_1817
sequence1	MetaGeneAnnotator	CDS	1136469	1136708	.	-	0	ID=MGA_1818;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEYKDWLKSLKNLSTKEKLIKLIEFRNNRTLKNGLKKADIKKLNLEKKQHKIALKQILNEAKTKDRAIIKQNLRDAA;locus_tag=LOCUS_18180;note=MGA_1818
sequence1	MetaGeneAnnotator	CDS	1137405	1137704	.	-	0	ID=MGA_1819;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINKNFEFSLKLMVLIGLVSFLIFDFIRILISPKPSLDGIPVLERFSHYYAFFTTQSNYLVVIYLFYSLFTQYSYNKKPPFGIELGVTVYITLTMVVF;locus_tag=LOCUS_18190;note=MGA_1819
sequence1	MetaGeneAnnotator	CDS	1137766	1138341	.	-	0	ID=MGA_1820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNGASMCCVKNGESYDTTMGLTPLAGLMMGTRCGDIDPSIIEYMAKELNQDVYQLTNSLNKESGLLGVSKISSDMREVSKAAIENHDEKALVALEMYTQRIAEYILKFANQLEGKVDAIVFTAGIGENSFITRKLVIDKVHLLNLKLDNETNLREYDDYLEISTNESAIKIIKIRTDEELMICKETLKFL;locus_tag=LOCUS_18200;note=WP_011182941.1 acetate kinase (Mesoplasma florum) [pid:59.0%25%2C q_cov:98.4%25%2C s_cov:47.2%25%2C Eval:2.5e-57%2C partial hit],internal stop codon at [1138462:1138464](-),MGA_1820
sequence1	MetaGeneAnnotator	CDS	1138462	1138959	.	-	0	ID=MGA_1821;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILVVNAGSSSIKFKLYETNDKNSPLPIVEGLAERIGVDGALTIKIEDQKYEYNDRYDNHLMTVESILKHFKELNVIKNELDIEGIGFRIVHGGDKIVKPVELTDQNKQAVEDNIKLAPLHNPGALTAINAFQKGLPKAKLVGCFDTSFHQTMPAKNYLYSVPLK;locus_tag=LOCUS_18210;note=WP_011182941.1 acetate kinase (Mesoplasma florum) [pid:55.2%25%2C q_cov:98.8%25%2C s_cov:40.9%25%2C Eval:1.6e-45%2C partial hit],internal stop codon at [1138462:1138464](-),MGA_1821
sequence1	MetaGeneAnnotator	CDS	1138960	1139946	.	-	0	ID=MGA_1822;product=phosphate acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182940.1;translation=MFTIEDIKKQILEHHKKIRLVFPEGVESKIIEVATRIQKEGLADVNLLFNGSFEVPKDLDPGLKYTVVKESLNEDMLQRILEIRKGRLEVHDAVVLVQKRNYYGALLIDMDLADAMVCGLNYTTADTLRAALQIVKTSENYSIASSIFIMHKGEEDYIFTDCALNVDPDSKNLADIAYMAARFALKLNVKNVEVAMLSYSTAGSGSGPTVDKVKKAVDRLKGMEDDTNGFLFDGEMQFDSAFIKAVRDKKYPNSRITKEKPDVFVFPDLNAGNIGYKIAQRLGGFEAIGPFILGLRKPVNDLSRGATVEDIYKTSVVTIYQAIMKGAK;locus_tag=LOCUS_18220;gene=pta;EC_number=2.3.1.8;note=WP_011182940.1 phosphate acetyltransferase (Mesoplasma florum) [pid:52.3%25%2C q_cov:98.5%25%2C s_cov:99.4%25%2C Eval:1.3e-94],MGA_1822
sequence1	MetaGeneAnnotator	CDS	1139946	1140374	.	-	0	ID=MGA_1823;product=pantetheine-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166469.1;translation=MIAIYPGSFNPFHQGHLDILNKAVKLFSKVYIVITKNIAKELEPNLASRVIQVKNFTKEVKNCEVLINQDELTADFAKKLNASYIIRGVRNEADFSYEREIYDVNKYLNPKLETIILIADSEKREISSTSIKEIELYKRGKK;locus_tag=LOCUS_18230;gene=coaD;EC_number=2.7.7.3;note=WP_011166469.1 pantetheine-phosphate adenylyltransferase (Mycoplasma mycoides) [pid:55.5%25%2C q_cov:96.5%25%2C s_cov:97.9%25%2C Eval:2.3e-40],MGA_1823
sequence1	MetaGeneAnnotator	CDS	1140551	1140871	.	-	0	ID=MGA_1824;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRIPAANKHAKRIEVRSVDSSCNPYLALSAILMAGIDGIQNKLKSYEPIKKNLFNLSEEEKNQLKIDNLPIDLNDAIKYFKESNYIKDFLGEELFNKFIDYKQNE;locus_tag=LOCUS_18240;note=WP_001126606.1 type I glutamate--ammonia ligase (Staphylococcus) [pid:46.2%25%2C q_cov:100.0%25%2C s_cov:23.8%25%2C Eval:4.5e-22%2C partial hit],internal stop codon at [1140521:1140523](-)%2C[1140551:1140553](-)%2C[1140893:1140895](-),MGA_1824
sequence1	MetaGeneAnnotator	CDS	1140893	1141567	.	-	0	ID=MGA_1825;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRFLCDVFTSKKEHFHSDPRSILKNCIQKMRDLKIGHTFNVGVEPEFFLFKLDENKQPILEHTDNSVYFDTPALDVSFKVRREIMFELQKMNFKMEVSHHEVSNSQHEINFEYSNALDTCDKLQTFKVLVKSVAKRYGMYATFMPKPIKSINGSGMHANCSIADENNNNLFYDESKPNGLSDMAIYFINGVLKNAKSISLLTNSTVNSFKRLVPGYEAPCYIA;locus_tag=LOCUS_18250;note=WP_003723435.1 type I glutamate--ammonia ligase (Listeria) [pid:51.1%25%2C q_cov:100.0%25%2C s_cov:50.0%25%2C Eval:5.5e-63%2C partial hit],internal stop codon at [1140893:1140895](-)%2C[1141604:1141606](-),MGA_1825
sequence1	MetaGeneAnnotator	CDS	1141604	1141825	.	-	0	ID=MGA_1826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEDIIAIIKKENIKFIKLQFTDMLGMLKSLEIPATNIDKALNNEVIFDGSSVKGFAKIDDADMYLYPDLST;locus_tag=LOCUS_18260;note=WP_003231737.1 type I glutamate--ammonia ligase (Bacillus) [pid:56.3%25%2C q_cov:97.3%25%2C s_cov:16.0%25%2C Eval:1.9e-20%2C partial hit],internal stop codon at [1141604:1141606](-),MGA_1826
sequence1	MetaGeneAnnotator	CDS	1142334	1142726	.	+	0	ID=MGA_1827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISMGTATTIFVVQNKKFQGVSISPGLETSIDGLISKASLLKNFVYAKTNVDIGKTTNDAINLGACNGHFFMIKGLIEYFKTKFTIDKVIITGGIANIFEDDIFELNYTLNEQLIFEGIIEVYKQIKKEG;locus_tag=LOCUS_18270;note=WP_004080709.1 type III pantothenate kinase (Thermotoga) [pid:30.7%25%2C q_cov:84.6%25%2C s_cov:46.3%25%2C Eval:7.5e-09%2C partial hit],MGA_1827
sequence1	MetaGeneAnnotator	CDS	1142673	1142972	.	-	0	ID=MGA_1828;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRRDNSHNNGACESFFGTIKNECIYTYKTKELNYSNIYTIISDYIDFYNYVRPNLKHKKNSIRNSYGESIFLMSILIDKYKLTLFFYLLIHFNYTFEN;locus_tag=LOCUS_18280;note=WP_120719018.1 IS3 family transposase (Streptococcus chosunense) [pid:44.1%25%2C q_cov:59.6%25%2C s_cov:13.1%25%2C Eval:4.0e-07%2C partial hit],internal stop codon at [1143008:1143010](-)%2C[1143131:1143133](-)%2C[1143221:1143223](-),frameshifted%2C insertion/deletion at around 1143034,MGA_1828
sequence1	MetaGeneAnnotator	CDS	1143979	1144182	.	-	0	ID=MGA_1829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKFVGTLKNMERFEMLPYHNMMIPKYENLKMRFYLKDVEPPTKDYVVKCREIVERGMQIKKSNLNI;locus_tag=LOCUS_18290;note=WP_011860950.1 pyruvate formate-lyase-activating protein (Clostridioides difficile) [pid:48.4%25%2C q_cov:94.0%25%2C s_cov:26.2%25%2C Eval:1.8e-10%2C partial hit],internal stop codon at [1144237:1144239](-)%2C[1144381:1144383](-),MGA_1829
sequence1	MetaGeneAnnotator	CDS	1144381	1144755	.	-	0	ID=MGA_1830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQEIKDHKTGYYSSTESFGAVDGPGIRLVIFLQGCFFKCKYCHNPETIEFKHEKTISVDEILAMYKKNENFYKKGGITLSGGEATAQIDFCIEVFKAAQAKGINTCLDTCLGTYQEIPAVQEK;locus_tag=LOCUS_18300;note=WP_011476647.1 pyruvate formate-lyase-activating protein (Ligilactobacillus salivarius) [pid:52.4%25%2C q_cov:83.9%25%2C s_cov:37.8%25%2C Eval:4.6e-27%2C partial hit],internal stop codon at [1144237:1144239](-)%2C[1144381:1144383](-),MGA_1830
sequence1	MetaGeneAnnotator	CDS	1144813	1145061	.	-	0	ID=MGA_1831;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKVSKQQQDNLVNMLDGYMSNGGHHLNVNVLKREVLLDAQQHPENYPQLTIRVSGYAVNFIKLTKSQQDEVISRTFHQSM;locus_tag=LOCUS_18310;note=WP_002485526.1 formate C-acetyltransferase (Staphylococcus epidermidis) [pid:68.4%25%2C q_cov:96.3%25%2C s_cov:10.6%25%2C Eval:6.8e-26%2C partial hit],MGA_1831
sequence1	MetaGeneAnnotator	CDS	1145116	1145715	.	-	0	ID=MGA_1832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHDKYYYESAEMCFYDTNVHRFFATGIAGLSVVADSLSAIKYAKVYPIRDEKGIVTSYKTEGDFPKFGNNDDRVDDLAKKVVKVFMNKIRSHHTYRNSEATMSVLTITSNVVYGKSTGDTPCGRRYPEAFAPGANPMHGRDCTGAVNSLASVSKIPFKHAADGISNTFSVVPNALGKDEDLVISGEIKITGEIPKDALK;locus_tag=LOCUS_18320;note=WP_000195472.1 formate C-acetyltransferase (Bacillus cereus) [pid:69.9%25%2C q_cov:92.0%25%2C s_cov:24.4%25%2C Eval:2.8e-70%2C partial hit],internal stop codon at [1145758:1145760](-)%2C[1145785:1145787](-),MGA_1832
sequence1	MetaGeneAnnotator	CDS	1145785	1146039	.	-	0	ID=MGA_1833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSSMQYENDDIMRTTHGDDYAIACCVSPMRVGKQMQFFGARTNLAKTLLYAINGGVDEISKEQISPKYEPVLTGDGPLNFDEV;locus_tag=LOCUS_18330;note=WP_003721911.1 formate C-acetyltransferase (Listeria monocytogenes) [pid:72.0%25%2C q_cov:97.6%25%2C s_cov:10.8%25%2C Eval:8.0e-27%2C partial hit],internal stop codon at [1145758:1145760](-)%2C[1145785:1145787](-)%2C[1146091:1146093](-)%2C[1146217:1146219](-),MGA_1833
sequence1	MetaGeneAnnotator	CDS	1146217	1146852	.	-	0	ID=MGA_1834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIQANESYGFQVSDRVKEIFTKYRKTHNQGVFDAYTPDMRKIRKSHIVTGLPDTYGRGRIIGDYRRLALYGSDFLMQEKIKDASLIDGEMTEEKIRLREEITEQIRALKDITEMAKSYGFDVLKPAKNATEAFNFTYLAYLAAIKQNNGAAESFGRTATFLDIYVERDLEKGILTEEEAQELVDHLVMKLRIVKFTRTPAYNEIFSGDPV;locus_tag=LOCUS_18340;note=WP_000195472.1 formate C-acetyltransferase (Bacillus cereus) [pid:64.8%25%2C q_cov:99.5%25%2C s_cov:28.0%25%2C Eval:3.9e-76%2C partial hit],internal stop codon at [1146091:1146093](-)%2C[1146217:1146219](-)%2C[1146865:1146867](-)%2C[1147039:1147041](-),MGA_1834
sequence1	MetaGeneAnnotator	CDS	1146865	1147035	.	-	0	ID=MGA_1835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVMELSKKEREAGGVLDVDSDVPQTITSHAAGFIDKKLEKVVGLQTDKPFKRGLMP;locus_tag=LOCUS_18350;note=WP_002485526.1 formate C-acetyltransferase (Staphylococcus epidermidis) [pid:65.5%25%2C q_cov:98.2%25%2C s_cov:7.4%25%2C Eval:5.3e-15%2C partial hit],internal stop codon at [1146865:1146867](-)%2C[1147039:1147041](-)%2C[1147144:1147146](-),MGA_1835
sequence1	MetaGeneAnnotator	CDS	1147268	1148218	.	-	0	ID=MGA_1836;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYENDGEEVNFKDLAVTFADIRKRIVRYPNTGKKAKMLCIPTTSGTGSEVTPFSVITDDETHTKYPLADYSLTPNMAIIDPELTMTVPKNATNAPALDALTHCLEAYVSVMSTEYTDGYAVQGAKNILNYLPRAYKNGTEDVEARAKVMDGATFAGMSFANAFLGLVHSLSHKVGGYHNVIHGAANAILLPHIIRYNAACLLEGGKQTYFSQYKVQNSMEKYAQMARELGLKGKTDEQLVDALIETVQNLTKEVGLYASFKDYGVDEKNFQKSLEKMAEDAFDDQCTGANPRYPLIEDIKQIYLDAYYGNPIKKFS;locus_tag=LOCUS_18360;note=WP_011861762.1 bifunctional acetaldehyde-CoA/alcohol dehydrogenase (Clostridioides difficile) [pid:51.8%25%2C q_cov:97.8%25%2C s_cov:35.2%25%2C Eval:1.8e-93%2C partial hit],internal stop codon at [1148222:1148224](-)%2C[1148456:1148458](-),MGA_1836
sequence1	MetaGeneAnnotator	CDS	1148222	1148374	.	-	0	ID=MGA_1837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGISYTVFDGVEPNPMLSTTKKGAEDMKQYRPDLIIGFGGGSSMDAAKLM;locus_tag=LOCUS_18370;note=WP_011948126.1 bifunctional acetaldehyde-CoA/alcohol dehydrogenase (Clostridium botulinum) [pid:58.0%25%2C q_cov:100.0%25%2C s_cov:5.8%25%2C Eval:2.3e-10%2C partial hit],internal stop codon at [1148222:1148224](-)%2C[1148456:1148458](-)%2C[1148528:1148530](-),MGA_1837
sequence1	MetaGeneAnnotator	CDS	1148528	1148665	.	-	0	ID=MGA_1838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNFGMDPSMTLGCGTHGKNSFSQNVGPLNLLNVKTIAERRENMQ;locus_tag=LOCUS_18380;note=WP_011056082.1 bifunctional acetaldehyde-CoA/alcohol dehydrogenase (Thermosynechococcus vestitus) [pid:65.9%25%2C q_cov:97.8%25%2C s_cov:5.0%25%2C Eval:7.1e-12%2C partial hit],internal stop codon at [1148456:1148458](-)%2C[1148528:1148530](-)%2C[1148768:1148770](-),MGA_1838
sequence1	MetaGeneAnnotator	CDS	1148768	1149301	.	-	0	ID=MGA_1839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKAAYSSGTPSIGVGAGNAPAIIDDSADLDVATSSIVQSNTFDNGVVCATENSLVILESVYDKTIELFKQKNSYIVTSEDEKNKFRKAMFKEGKYGLLNADLVGKSALKVAEIVGIKVPETTRFIIVEANNTSYDEPLAHEKLSTYVAAYKVKSFEEAIKVSREILKMGAGHTASL;locus_tag=LOCUS_18390;note=WP_010890720.1 bifunctional acetaldehyde-CoA/alcohol dehydrogenase (Clostridium) [pid:51.7%25%2C q_cov:100.0%25%2C s_cov:20.3%25%2C Eval:1.3e-46%2C partial hit],internal stop codon at [1148528:1148530](-)%2C[1148768:1148770](-)%2C[1149380:1149382](-),MGA_1839
sequence1	MetaGeneAnnotator	CDS	1149380	1149871	.	-	0	ID=MGA_1840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEELDLVFEKARKAYEKYSTFTQEQVDKIFKAAALAANENRIMLAKLAHNETSMGIFEDKILKNHYASEFIYNKYRHLQTVGTFYENKALGIHKVYEPIGIVGAVIPTTNPTATAIFKCLLALKTRNAIVISPHPGAKNCTIEAAKIIYEAAFKAGAPEDIIA;locus_tag=LOCUS_18400;note=WP_003434815.1 bifunctional acetaldehyde-CoA/alcohol dehydrogenase (Clostridioides difficile) [pid:58.6%25%2C q_cov:99.4%25%2C s_cov:18.4%25%2C Eval:8.7e-52%2C partial hit],internal stop codon at [1149380:1149382](-),MGA_1840
sequence1	MetaGeneAnnotator	CDS	1150006	1150413	.	-	0	ID=MGA_1841;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183390.1;translation=MAVIKKDSVMYRGTGRRKSSIAQVILAPGKGGIIVNGKPALEFFPYPTLVQDMEQPLEATGTKEDFSIKITVKGGGFTGQAGAARLGIARALLEASKDYKTDLRGKGLLTRDARVKERKKYGLYGARRSPQFSKR;locus_tag=LOCUS_18410;gene=rpsI;note=WP_011183390.1 30S ribosomal protein S9 (Mesoplasma) [pid:75.2%25%2C q_cov:95.6%25%2C s_cov:98.5%25%2C Eval:6.1e-51],MGA_1841
sequence1	MetaGeneAnnotator	CDS	1150413	1150703	.	-	0	ID=MGA_1842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIINAEKVVLTGKKEADKNYYHHSMYPGGLKSRNVKTQRQLFPERIIERAVRLMLPKNTQGANQYRALHVYAGSEHPHQAQNPEVLVINSRKGDK;locus_tag=LOCUS_18420;note=WP_011166883.1 50S ribosomal protein L13 (Mycoplasma mycoides) [pid:66.3%25%2C q_cov:99.0%25%2C s_cov:62.9%25%2C Eval:9.7e-33%2C partial hit],internal stop codon at [1150818:1150820](-),MGA_1842
sequence1	MetaGeneAnnotator	CDS	1151023	1151247	.	-	0	ID=MGA_1843;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNAVNSPQAIMIPIIGIIIELNHPPNFCTLLREVLLLKLFLNHNVKLFLLSFLFNSLITSSIITTPFYKLNYN;locus_tag=LOCUS_18430;note=MGA_1843
sequence1	MetaGeneAnnotator	CDS	1151324	1151647	.	+	0	ID=MGA_1844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGFNAGKLVHKTRGGFIATFVVFAVIVGNQYNPGFTEGSSPSPQFLSAMIVGPMAAGILKLIDKMLEGKIKQGFEMLVNNFVMGFLAFGLGIAAFYGMPYVFNSIT;locus_tag=LOCUS_18440;note=WP_020862437.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:36.8%25%2C q_cov:100.0%25%2C s_cov:22.4%25%2C Eval:3.8e-13%2C partial hit],internal stop codon at [1151177:1151179](+)%2C[1151222:1151224](+)%2C[1151258:1151260](+)%2C[1151645:1151647](+),MGA_1844
sequence1	MetaGeneAnnotator	CDS	1151759	1152616	.	+	0	ID=MGA_1845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSALSPSLVTEKGRSILYLLEANPGPGLGALIAIMIFDKKQRENAAGASVIHFFGGIHEVYFPFILMKIEMIIALIVGGLVGDAIFQIFDAGLIAPSSPGSIIAISIFIQSSALNYAGVYLGIFASCGAALLTGSLIHIIMRKKYKKNAATLEEATKKLEQIKGKEIKHLSKKPLKELDFNEVDTIIFACEAGMGSSAMGASLLRKKLKEAGIKIKVVNYPVKELPSDAKFVITQDKLTEYAIQKVPNATHRSISNFLDKNFYDKIVLEFKEKLEHINEERKTT;locus_tag=LOCUS_18450;note=WP_010886406.1 PTS mannitol transporter subunit IICB (Bacillus) [pid:42.2%25%2C q_cov:95.8%25%2C s_cov:57.7%25%2C Eval:1.1e-54%2C partial hit],internal stop codon at [1151645:1151647](+),MGA_1845
sequence1	MetaGeneAnnotator	CDS	1152867	1153205	.	+	0	ID=MGA_1846;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLRDLHIAKSQLIDDLDVSMKILENDINELRNIFIQNEANLSIDSRGIKISNIQKDKEIKILIDIIIKHLSLKQVYSILKLNSIEKLFSSYIYKSLEKKYNISIYNKIFI;locus_tag=LOCUS_18460;note=MGA_1846
sequence1	MetaGeneAnnotator	CDS	1153260	1153634	.	+	0	ID=MGA_1847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIKITLWLNHPNNKELMIAIVSLNNQRDFYELVKKIYCTEKLKLFTINHYSNNNFNEEIDLFTEYLNKQIKKLFKSNINLNKDIQKRIKDHIKSNLDSTNIDEIILAEYNRNLSQYINTYTEL;locus_tag=LOCUS_18470;note=MGA_1847
sequence1	MetaGeneAnnotator	CDS	1153785	1154459	.	+	0	ID=MGA_1848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQSAMIKNHLASMYRNAKIENIAFSNINKQVLKRYDIIISAVDISEFKIENFILMPLILILKSKNEIHKVITETIYKNLLGGKMQNQILKKENILINQKAKDKNEAILQCANLLKSQGYIEDEYINSMIEREKKFSVYIGNYLAIPHGLDQKGVIKDGIVVIHYKEPIDYDSNPVNFFIGIAAKSNNHMDILSNIAEKMMELDFVEELIKNPSEERILEEFNF;locus_tag=LOCUS_18480;note=WP_003246714.1 PTS sugar transporter subunit IIA (Bacillus) [pid:41.7%25%2C q_cov:60.7%25%2C s_cov:97.2%25%2C Eval:1.9e-23%2C partial hit],MGA_1848
sequence1	MetaGeneAnnotator	CDS	1154459	1154977	.	+	0	ID=MGA_1849;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVVHFGAGNIGRGFIAPILIDSNQIKEFYFVDSNKELIDSLKNIAQYKVIELNEENKTKIYKNFKALNSSDIDLINKKTVSIITTSISSVNLKYIKDSVISIIKEKEAVKQTLIIMCCENGEKVSSYFAQIIKQDYQYDDDLIKFIDVMVDRIVPNEKVLSLDVKVEPYFS;locus_tag=LOCUS_18490;note=WP_011166228.1 mannitol-1-phosphate 5-dehydrogenase (Mycoplasma mycoides) [pid:41.5%25%2C q_cov:99.4%25%2C s_cov:50.3%25%2C Eval:4.7e-22%2C partial hit],internal stop codon at [1154975:1154977](+)%2C[1154996:1154998](+)%2C[1155071:1155073](+)%2C[1155104:1155106](+),MGA_1849
sequence1	MetaGeneAnnotator	CDS	1155152	1155577	.	+	0	ID=MGA_1850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNSNDNNELNNFLKNYLKEMSDIIEVVFKYDKKELKSFVETLIKRFKNPFIRDEFSRVARNTIKKIQLDERVIKPLLLGIDNNLEVKYIKQSLINALSYNNKEDEDGLKIQNLLDKNYKVKDIAKELIENINDYILNKIL;locus_tag=LOCUS_18500;note=WP_011861528.1 mannitol-1-phosphate 5-dehydrogenase (Clostridioides difficile) [pid:27.1%25%2C q_cov:91.5%25%2C s_cov:33.7%25%2C Eval:3.8e-11%2C partial hit],internal stop codon at [1154975:1154977](+)%2C[1154996:1154998](+)%2C[1155071:1155073](+)%2C[1155104:1155106](+),MGA_1850
sequence1	MetaGeneAnnotator	CDS	1156608	1156826	.	+	0	ID=MGA_1851;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRRGNSPDNGAFESFFGTIKNECIYTYKIKELNFSNIYTIISDYIDFYNYVRPMLKHKKTPYEFRMEKVHF;locus_tag=LOCUS_18510;note=WP_120719018.1 IS3 family transposase (Streptococcus chosunense) [pid:46.3%25%2C q_cov:91.7%25%2C s_cov:14.9%25%2C Eval:1.2e-09%2C partial hit],internal stop codon at [1156358:1156360](+)%2C[1156448:1156450](+)%2C[1156550:1156552](+)%2C[1156571:1156573](+),frameshifted%2C insertion/deletion at around 1156546%2C1156426,MGA_1851
sequence1	MetaGeneAnnotator	CDS	1157878	1158120	.	-	0	ID=MGA_1852;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPTLIDEAGRIMKAQSSRGIDFKNGNLADKVKGTTSLIIPLLVSSFNKAEDLAFAMDSRGFDPHAKRTRYRQVKFRLLD;locus_tag=LOCUS_18520;note=WP_011183051.1 energy-coupling factor transporter transmembrane component T (Mesoplasma florum) [pid:78.8%25%2C q_cov:100.0%25%2C s_cov:24.1%25%2C Eval:4.4e-30%2C partial hit],internal stop codon at [1157878:1157880](-)%2C[1158184:1158186](-),MGA_1852
sequence1	MetaGeneAnnotator	CDS	1158394	1158684	.	-	0	ID=MGA_1853;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRMVFGRYMPYNSVVHRMDPRIKLFMVIALIVAVFMPVGFTGFVLIGTGIICMYTISKLSFKMLFKLFTPILFIFIMLIILNIFVLHPETNDTSIN;locus_tag=LOCUS_18530;note=WP_011166886.1 energy-coupling factor transporter transmembrane component T (Mycoplasma mycoides) [pid:45.1%25%2C q_cov:94.8%25%2C s_cov:27.1%25%2C Eval:1.7e-21%2C partial hit],internal stop codon at [1158184:1158186](-)%2C[1158316:1158318](-)%2C[1158394:1158396](-),MGA_1853
sequence1	MetaGeneAnnotator	CDS	1158695	1159438	.	-	0	ID=MGA_1854;product=energy-coupling factor transporter ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183050.1;translation=MTGSGKSTLIQLTNGLIISETGRTIIGNYSLYAKTKKIKEVKDLRREIGLVFQFPEYQLFQDSIEKDIAFGPINLGAEKTQSLKNVPNLLKMVDLPVEYASRNPFDLSGGQKRRVAIAGIIAMDGDTLVLDEPTGGLDPQGEEDFMKLFYNLNKEKGKRIIIVTHNMDHVLQIADEVIVMHKGKVISVGDPFEIFSNFDLLRTIEIEPPKLYKLAYKLKEQGIDITTSKFRTVEEVANAIKLAKNRK;locus_tag=LOCUS_18540;note=WP_011183050.1 energy-coupling factor transporter ATPase (Mesoplasma florum) [pid:72.0%25%2C q_cov:99.6%25%2C s_cov:78.1%25%2C Eval:1.4e-97],MGA_1854
sequence1	MetaGeneAnnotator	CDS	1159646	1159870	.	-	0	ID=MGA_1855;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIERKVSKAKYKEHLRELAVHNREENKKRKKRHKEIAKLIKKDKPNQVKYKKEFEAVKKESLKHVNERVQKVND;locus_tag=LOCUS_18550;note=MGA_1855
sequence1	MetaGeneAnnotator	CDS	1159903	1160340	.	-	0	ID=MGA_1856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDFLDHEPLMLSGGQKQRVAIASALALSPDILIFDEATSMLDPKGKTEVKNIMVELKNTREKTIFSITHDMDEILNADKVLVMNKGELVKFGTPKEILADKEFLRSIHLDIPFVAQVEEALSNVGINLEHSNSLEELVNKICQN;locus_tag=LOCUS_18560;note=WP_011183049.1 energy-coupling factor transporter ATPase (Mesoplasma florum) [pid:70.1%25%2C q_cov:99.3%25%2C s_cov:35.5%25%2C Eval:1.3e-52%2C partial hit],internal stop codon at [1160359:1160361](-),MGA_1856
sequence1	MetaGeneAnnotator	CDS	1160359	1160763	.	-	0	ID=MGA_1857;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDRGHGGELSKLSNTALKLNNIKFRYNPNHPFAVNGVSVEVNHGEYVAIIGHNGSGKSTLSKIIIGVLVPTSGSIELYGNKVTSSNINIARKFLGIVFQNPDNQFIGSTVRDDIAFGLENRRVAPSKMSDIIE;locus_tag=LOCUS_18570;note=WP_011183049.1 energy-coupling factor transporter ATPase (Mesoplasma florum) [pid:63.2%25%2C q_cov:99.3%25%2C s_cov:32.8%25%2C Eval:4.9e-45%2C partial hit],internal stop codon at [1160359:1160361](-)%2C[1160821:1160823](-),MGA_1857
sequence1	MetaGeneAnnotator	CDS	1160821	1161105	.	-	0	ID=MGA_1858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEQKLLTTKELNDFKLLLNEYNDKLVRSSQKLIIAKMKLSKGEITVDIVKEYEEEFKKAKAEFKNKVDNQQFVENLKLAKQLLANHKKGDDQY;locus_tag=LOCUS_18580;note=MGA_1858
sequence1	MetaGeneAnnotator	CDS	1161365	1161754	.	+	0	ID=MGA_1859;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLLSNACYVAMSYAFSFIIDSAIDKNLNKFLIASGTACGLILGHLILDYICDLILNSSLAIINNNLRKIVAYNTFKENYELKLDSGEFINLNSNKVNQLANSYYKNIFEITNCCLAIIVGFGFIAYIS;locus_tag=LOCUS_18590;note=MGA_1859
sequence1	MetaGeneAnnotator	CDS	1161917	1162075	.	+	0	ID=MGA_1860;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNETKQLIEKINTGSKILEAKNRKKENILNFSNLLFSVILFLGQVILIILFS;locus_tag=LOCUS_18600;note=MGA_1860
sequence1	MetaGeneAnnotator	CDS	1162076	1162549	.	+	0	ID=MGA_1861;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLAGFIKSIGTITTLNIISGVYCFFGGSSVRSLMGILSYKNVVKIDFKDIKDNINLVAVQKLDSIELKNLNFKYDDHDNHVIKDFNLSIIKNDKVLIQGESGAGKSTLLKLIFNSNNASQGQVFINGVNLKEYDIRPLCAYIGQDIVLTKGTILKI;locus_tag=LOCUS_18610;note=WP_002681387.1 ABC transporter ATP-binding protein (Treponema denticola) [pid:37.7%25%2C q_cov:93.0%25%2C s_cov:28.2%25%2C Eval:2.2e-14%2C partial hit],internal stop codon at [1162547:1162549](+)%2C[1162614:1162616](+)%2C[1162734:1162736](+),frameshifted%2C insertion/deletion at around 1162603,MGA_1861
sequence1	MetaGeneAnnotator	CDS	1163086	1163232	.	-	0	ID=MGA_1862;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNLTTELIISEKLEITETRAKELRKHFDSMITLAKRGDLHARRQAAA;locus_tag=LOCUS_18620;note=WP_011183048.1 50S ribosomal protein L17 (Mesoplasma) [pid:85.4%25%2C q_cov:100.0%25%2C s_cov:40.3%25%2C Eval:4.4e-17%2C partial hit],internal stop codon at [1163086:1163088](-)%2C[1163245:1163247](-),MGA_1862
sequence1	MetaGeneAnnotator	CDS	1163300	1164253	.	-	0	ID=MGA_1863;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166890.1;translation=MRQFARPEFTLLKEENNKNYGEFKVEPLERGFGITLGNAIRRTLLSSTPGAAVYAIKIAGAAHEFTSIEGIVENVSRIILNIKQLALRIDNNMFSLDEVVELSIKTSAVGPVKAGDIELPTGVEVVNKDLVLCNIADGGVLDLTLFAKNSRGYRSFKDNKKEKLTVDSITIDSNYSPIISVAYDVDATKIGKSVDLEKLILKVKTDGTISASDAVATASKILVEHLHFFVNLNEEINELNVIGVTSEEDEKELDKLIEDLDFTQRSLNCLKRANINTLRDLVSRSEDDIQEIRNLGRKSLKEIKDKVVQLGLTFKQD;locus_tag=LOCUS_18630;EC_number=2.7.7.6;note=WP_011166890.1 DNA-directed RNA polymerase subunit alpha (Mycoplasma mycoides) [pid:66.2%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:7.5e-116],MGA_1863
sequence1	MetaGeneAnnotator	CDS	1164259	1164456	.	-	0	ID=MGA_1864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAEAAGKGAMENGVKTIQVEVKGPGPGRDAAVRSLQGIGLEITSINDTTPIPHNGVRPRKRPRG;locus_tag=LOCUS_18640;note=WP_008362476.1 30S ribosomal protein S11 (Mycoplasma mycoides group) [pid:83.1%25%2C q_cov:100.0%25%2C s_cov:50.4%25%2C Eval:3.9e-26%2C partial hit],internal stop codon at [1164517:1164519](-),MGA_1864
sequence1	MetaGeneAnnotator	CDS	1164517	1164654	.	-	0	ID=MGA_1865;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANPKQNTANRKKVKKNIAKGIAHIHATFNNTIVTVSDEKGNVLS;locus_tag=LOCUS_18650;note=WP_008362476.1 30S ribosomal protein S11 (Mycoplasma mycoides group) [pid:80.0%25%2C q_cov:100.0%25%2C s_cov:33.3%25%2C Eval:4.9e-13%2C partial hit],internal stop codon at [1164517:1164519](-),MGA_1865
sequence1	MetaGeneAnnotator	CDS	1164674	1165039	.	-	0	ID=MGA_1866;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183045.1;translation=MARINGVEIPNEKRVVIALTYIYGIGLSTSQKILEATKVSEDVRVKDLTEEQQKSISQEISKFKTEGDLRRETALNIKRLMEIGSYRGMRHRKGLPVRGQSTKQNARTRKGPRKTVANKKK;locus_tag=LOCUS_18660;gene=rpsM;note=WP_011183045.1 30S ribosomal protein S13 (Mesoplasma) [pid:81.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-50],MGA_1866
sequence1	MetaGeneAnnotator	CDS	1165254	1165481	.	-	0	ID=MGA_1867;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183043.1;translation=MAKEDYLEVDGIVQEVLPNATFKVKLENEIVIDAHVSGKIRMNYIRILPGDKVTVAISPYDPTRGRITYRFKNSK;locus_tag=LOCUS_18670;gene=infA;note=WP_011183043.1 translation initiation factor IF-1 (Mesoplasma) [pid:81.4%25%2C q_cov:93.3%25%2C s_cov:89.7%25%2C Eval:1.1e-25],MGA_1867
sequence1	MetaGeneAnnotator	CDS	1165596	1166255	.	-	0	ID=MGA_1868;product=type I methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183042.1;translation=MSITIKNQDQINKMRVAGKVLSEALYNLKKMIKPGVNCLDLDKYFIEFITKKGCQSNFKNYFGYPAHICISINEQLIHGIPNNRLIQDGDIVSIDAGCIYQDYHSDSAFTVICGQAKDELHSKLVEVTERSLYLAIEQVRAGVRIGTISSTVQQFVEEYGFQLPKDYTGHGIGLEMHEDPFIPNTGIKETGMRLIEGMAICIEPMVQIGTDKTVVGKDD;locus_tag=LOCUS_18680;gene=map;EC_number=3.4.11.18;note=WP_011183042.1 type I methionyl aminopeptidase (Mesoplasma florum) [pid:63.5%25%2C q_cov:100.0%25%2C s_cov:86.9%25%2C Eval:1.4e-79],MGA_1868
sequence1	MetaGeneAnnotator	CDS	1166255	1166896	.	-	0	ID=MGA_1869;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166893.1;translation=MNILLIGAPGSGKGTESELLSKEYNFTQLSTGDLFRTNISNKTKLGLKAQEYMTKGIYVPDDVTNDMVKDYLQTKNSGLIFDGYPRTLDQAKALDQMLSDLNQKLDYVVHIDVKESVLLQRLSGRLVCEVCKRSFHKINRKPKVENVCDFDGGKLITREDDQEDKIKVRLKVYNEQTSPLINYYREQNKLVEVDGNVKSAIDFHKELVEALKL;locus_tag=LOCUS_18690;EC_number=2.7.4.3;note=WP_011166893.1 adenylate kinase (Mycoplasma mycoides) [pid:51.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-61],MGA_1869
sequence1	MetaGeneAnnotator	CDS	1166919	1167296	.	-	0	ID=MGA_1870;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLLFTFLYAQVQINPEKIAENFKKSGTFIPGIKPGKDTEKFLTATINRLSVIGATFLAGIAVLPYIISKLTALPSSLAIGGTGLIIIISVAIQTTQQLKGRLIQQSFIDKKSEKFSDENLNTHI;locus_tag=LOCUS_18700;note=WP_011166894.1 preprotein translocase subunit SecY (Mycoplasma mycoides) [pid:71.1%25%2C q_cov:100.0%25%2C s_cov:26.6%25%2C Eval:7.5e-46%2C partial hit],internal stop codon at [1167318:1167320](-)%2C[1167321:1167323](-),MGA_1870
sequence1	MetaGeneAnnotator	CDS	1167321	1167602	.	-	0	ID=MGA_1871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLIYVTAYIFVIFIVVLMNEAERKVPIQQTGSGLVDTKEHTPYLPLKLNNAGVIPVIFASAIISTPITIAQIVGQDSGFYKFTQNYLSFGT;locus_tag=LOCUS_18710;note=WP_011166894.1 preprotein translocase subunit SecY (Mycoplasma mycoides) [pid:65.6%25%2C q_cov:100.0%25%2C s_cov:19.9%25%2C Eval:1.0e-29%2C partial hit],internal stop codon at [1167318:1167320](-)%2C[1167321:1167323](-)%2C[1167645:1167647](-)%2C[1167756:1167758](-)%2C[1167813:1167815](-)%2C[1167846:1167848](-),MGA_1871
sequence1	MetaGeneAnnotator	CDS	1167984	1168352	.	-	0	ID=MGA_1872;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAKITRAEKKAQKAIKKTKYKNEFAKGNFFVRNKDLVKRIVFTLIVLVLIRMGSLLTVPGIELNSGFSDAVNGQEFFQLLSTLGGGSIGQFSILALGVSPYITASIIVQLLSTDVIPVLTR;locus_tag=LOCUS_18720;note=WP_011183039.1 preprotein translocase subunit SecY (Mesoplasma florum) [pid:64.9%25%2C q_cov:90.2%25%2C s_cov:22.8%25%2C Eval:2.7e-35%2C partial hit],internal stop codon at [1167756:1167758](-)%2C[1167813:1167815](-)%2C[1167846:1167848](-)%2C[1167984:1167986](-),MGA_1872
sequence1	MetaGeneAnnotator	CDS	1168354	1168791	.	-	0	ID=MGA_1873;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183038.1;translation=MKLHELQSTPGSKKSATRVGRGMASGKGKTSTRGHKGQNSRSGGGVRPGFEGGQTPLFRRLPKIGFTSLNRKEFVILNLDTIEKLGLTDVNHKTLIEKKFIKSEKTLIKVLGNGKITKAVKIKVNKVSKSAQEAIKAAGGSIEVI;locus_tag=LOCUS_18730;gene=rplO;note=WP_011183038.1 50S ribosomal protein L15 (Mesoplasma) [pid:72.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.4e-56],MGA_1873
sequence1	MetaGeneAnnotator	CDS	1168808	1169512	.	-	0	ID=MGA_1874;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183037.1;translation=MAEDKKVNAVEEAPKPENTPKEQAPAAAGNQAPRRDNNSRPPFGKPGEKREFNKGPRRDKNGKFGRNKEDNPFEEQVVTINRVTKVTKGGRRFRFAAVVVIGDKKGRVGLGTGKANEVPDAIKKAIKEARKSLVRVPITGTTVPHDVIGHYGSGRVLIKPAKKGTGVIAGGPARAVIELAGISDVYTKSLGSNTPINMIRATLDGLKEMQTAEQIARLRGTALPTEKKVEAKKA;locus_tag=LOCUS_18740;gene=rpsE;note=WP_011183037.1 30S ribosomal protein S5 (Mesoplasma florum) [pid:67.0%25%2C q_cov:84.2%25%2C s_cov:93.7%25%2C Eval:2.0e-66],MGA_1874
sequence1	MetaGeneAnnotator	CDS	1169531	1169875	.	-	0	ID=MGA_1875;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183036.1;translation=MKYTKAEARKRRHYRVRNKVSGTSERPRLNVFKSNSYFYAQIIDDTKGVTLVESSSIKLKKPNNIETAKAVAKDLAEKAKAKKISNVVFDRGGYLFHGKVKAFADAAKENGMKF;locus_tag=LOCUS_18750;gene=rplR;note=WP_011183036.1 50S ribosomal protein L18 (Mesoplasma) [pid:68.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-38],MGA_1875
sequence1	MetaGeneAnnotator	CDS	1169899	1170438	.	-	0	ID=MGA_1876;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183035.1;translation=MSRIGNRILAIPAGVEVKIEGNVVTIKGSKGELSQKVSPLIEVKVEGSELKTIRKNELKHTKQLHGTTNSLLEGMLTGVSQGFVKELEIVGVGYRAALAGNKINLSLGFSHPVEYQIPQGISVEIPKPTEIKISGICKQLVGQVAAHIRGYRRPEPYKGKGIKYKGEKIIRKEGKAAGK;locus_tag=LOCUS_18760;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:7.6e-66],MGA_1876
sequence1	MetaGeneAnnotator	CDS	1170457	1170843	.	-	0	ID=MGA_1877;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013729790.1;translation=MTTDVIADMLTRIRNANQRFHKEVVIPGSKIKLEIANILKREGFIEDFKVSEDFKKEITISLKYKGKLRVIKGLKRISKPGLRVYLQANKIPNVLNGLGIAIVSTSNGIMTDKEARLKNAGGEVLAFV;locus_tag=LOCUS_18770;gene=rpsH;note=WP_013729790.1 30S ribosomal protein S8 (Mycoplasma mycoides) [pid:75.8%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:4.8e-48],MGA_1877
sequence1	MetaGeneAnnotator	CDS	1170866	1171048	.	-	0	ID=MGA_1878;product=30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003156488.1;translation=MAKKSLKVKQAKVQKFKVREYTRCGNCGRPHAVLRKFNLCRVCFRDLAYKGQIPGIKKAS;locus_tag=LOCUS_18780;gene=rpsN;note=WP_003156488.1 30S ribosomal protein S14 (Bacillus) [pid:73.3%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:1.0e-21],MGA_1878
sequence1	MetaGeneAnnotator	CDS	1171062	1171619	.	-	0	ID=MGA_1879;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183032.1;translation=MAAKASVNRLEKLYKEKIIPEMLKEKQYKSIMQVPKIIKVVVNQGVGDAVADSKRLDDAVAELALITGQKPLITKAKKSLAVFKLREGMSIGAKVTLRGKKMYEFLDRLISVALPRVRDFRGVPKNSFDKQGNYSLGIKEQIIFPEIDYDKVKKVRGMNITIVTTATNREDAFSLIQKIGMPFVK;locus_tag=LOCUS_18790;gene=rplE;note=WP_011183032.1 50S ribosomal protein L5 (Mesoplasma) [pid:71.9%25%2C q_cov:96.2%25%2C s_cov:98.9%25%2C Eval:9.2e-70],MGA_1879
sequence1	MetaGeneAnnotator	CDS	1171965	1172333	.	-	0	ID=MGA_1880;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183030.1;translation=MIQNESRLKIADNSGAKEILVIRNLGGSVRKFTNIGDIVVATVKAATPGGVVKKGQVVKAVIVRTVRGLRRADGTYIRFSENAAVIVKDDKSPRGTRIFGPIAREVKDAGFAKIASLAPEVL;locus_tag=LOCUS_18800;gene=rplN;note=WP_011183030.1 50S ribosomal protein L14 (Mesoplasma) [pid:79.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-49],MGA_1880
sequence1	MetaGeneAnnotator	CDS	1172354	1172611	.	-	0	ID=MGA_1881;product=30S ribosomal protein S17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198401951.1;translation=MERKLRKTYIGKVVSDKMNKTITVLVETYKNHPTYKKRVKYSKKYKAHDEQEVAGMGDKVEIMETRPLSKTKNFRLIRVVEKSVI;locus_tag=LOCUS_18810;gene=rpsQ;note=WP_198401951.1 30S ribosomal protein S17 (Mesoplasma florum) [pid:77.6%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:3.3e-33],MGA_1881
sequence1	MetaGeneAnnotator	CDS	1172615	1173694	.	-	0	ID=MGA_1882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKVADLVLELRAKSVADLIKQSEDHKAELFALRFQAAVGSLEQTHKINALRKNIARIETLLAERKRAGEVTKNIVVKPDYAKAVDNAEQAGKAVRAKQREMLEKMQQEQYGQGSVSDNAIEAAMAAAVEGNTEASSDNNVEAKSSAKPAAKKAGASKPEAPVEVVAEAKAVVKEVKAKAKEVKAENNLEKAEEKVSKAKAEAKPVAEAKAKVAKAKVAEAKAEVEEAQVEVKVAKAKVASKKSSSTSVEEPKPVGIGKPAVATKKAKVAEAKTIEVEVGEAKATGKGKAALGEVKTKKIKVEAAKGEDIEAIDLKLSKKPKDIKTYTYGSNADEAKKQIDEANKKLAAKKDTKTKGAK;locus_tag=LOCUS_18820;note=WP_011183028.1 50S ribosomal protein L29 (Mesoplasma) [pid:52.0%25%2C q_cov:34.3%25%2C s_cov:87.8%25%2C Eval:3.0e-26%2C partial hit],MGA_1882
sequence1	MetaGeneAnnotator	CDS	1173985	1174107	.	-	0	ID=MGA_1883;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLMPKRVKFRRPHRVSYEGKAKGGKFIAFGEYGLMSLDGA;locus_tag=LOCUS_18830;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:4.0e-10%2C partial hit],internal stop codon at [1173829:1173831](-)%2C[1173913:1173915](-)%2C[1173985:1173987](-),MGA_1883
sequence1	MetaGeneAnnotator	CDS	1174218	1174700	.	-	0	ID=MGA_1884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLLKNGAVSKVEIERTQKEIVLIIRTARPTIVLGQENKNIDNIILTVRKTVKDKKAAVKVNVLEIKNPDVDARLVAQFIGEQITNRASFRTVQKLAIRKALKAGAKGIKTSVSGRLGGVEMARTEGYLEGSVPLSTLRSDIDYALYEARTTYGQIGVKV;locus_tag=LOCUS_18840;note=WP_011183026.1 30S ribosomal protein S3 (Mesoplasma) [pid:76.2%25%2C q_cov:100.0%25%2C s_cov:66.4%25%2C Eval:1.8e-62%2C partial hit],internal stop codon at [1174218:1174220](-)%2C[1174734:1174736](-)%2C[1174764:1174766](-)%2C[1174776:1174778](-),MGA_1884
sequence1	MetaGeneAnnotator	CDS	1174844	1175179	.	-	0	ID=MGA_1885;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183025.1;translation=MEAKAKLSMIRISPRKVRLVADSIRAKKISEAVAILQNQDKRSSEPVLKLLNSAVANAVNNNGMEADQLFVKTIYVNEGPTLKRFRPRAHGRAYEILKRTSHITIIVSDGR;locus_tag=LOCUS_18850;gene=rplV;note=WP_011183025.1 50S ribosomal protein L22 (Mesoplasma) [pid:76.6%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:1.2e-41],MGA_1885
sequence1	MetaGeneAnnotator	CDS	1175713	1176333	.	-	0	ID=MGA_1886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIKKYKPTTNGRRNMTTLDYSILTTSKPESSLTVKVNERAGRNNHGQITTRHKGGGHKRKYRIIDFKRNKRDIAGKIATIEYDPNRNAFICLIHYIDGEKRYILFAKGMQVGQEIIASETADIKVGNAAPLKNIPEGTLIHNVELKPGKGGQIARSAGSSVQILGKDDDGKYVIVRLGSGEVRKILSECYATIGEVGNEEYSLVN;locus_tag=LOCUS_18860;note=WP_011166910.1 50S ribosomal protein L2 (Mycoplasma mycoides) [pid:82.2%25%2C q_cov:100.0%25%2C s_cov:73.8%25%2C Eval:1.1e-96%2C partial hit],internal stop codon at [1175578:1175580](-)%2C[1175689:1175691](-)%2C[1175713:1175715](-),MGA_1886
sequence1	MetaGeneAnnotator	CDS	1176392	1176676	.	-	0	ID=MGA_1887;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183022.1;translation=MHLTEVIKKPLLTEKSYAGQQNGAYTFIVDKRSNKVQIKKAFEEIFQVKVKSVRTANYDGQDKRMGRFVGKTNAYKKAIITLKDGEKLDILSDL;locus_tag=LOCUS_18870;gene=rplW;note=WP_011183022.1 50S ribosomal protein L23 (Mesoplasma) [pid:81.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-39],MGA_1887
sequence1	MetaGeneAnnotator	CDS	1176676	1176888	.	-	0	ID=MGA_1888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSVMKNVKIDNQKTLIVTKEHEEVVVKSAGNIPGVKTLDFQKMNIFDLLNASKLVLTEDAVNRIEEVYA;locus_tag=LOCUS_18880;note=WP_011183021.1 50S ribosomal protein L4 (Mesoplasma) [pid:64.3%25%2C q_cov:100.0%25%2C s_cov:33.7%25%2C Eval:7.1e-20%2C partial hit],internal stop codon at [1177057:1177059](-)%2C[1177111:1177113](-),MGA_1888
sequence1	MetaGeneAnnotator	CDS	1177111	1177302	.	-	0	ID=MGA_1889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAQVLDVTGSSVKEITLNDKVFNIEPHQQAIFDTVVSQQAALRQGTRKTKTRAEVRGGGRKP;locus_tag=LOCUS_18890;note=WP_011166912.1 50S ribosomal protein L4 (Mycoplasma mycoides) [pid:76.2%25%2C q_cov:100.0%25%2C s_cov:30.3%25%2C Eval:7.7e-22%2C partial hit],internal stop codon at [1177057:1177059](-)%2C[1177111:1177113](-),MGA_1889
sequence1	MetaGeneAnnotator	CDS	1177319	1178038	.	-	0	ID=MGA_1890;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183020.1;translation=MKGILGRKLEMTQVFSERGSLIPVTVIEVETNKVLQVKTVEKDGYVAVKLGTIDKRANLINKPEMGAFKKANSEPKRFVKEIRDMDGYEIGAEIKAADIFSAGQFVDVTGVSKGKGFAGSIKRHNYSRGPMGHGSGYHRGVGSMGAIINRIFKSKKMPGHMGHEKVTIQNLEIIKVDSERNLVLIKGSVPGPRKGLVVIRENAKGAKETTAVELLARNVKENVAPAASAPKVEEAPVAE;locus_tag=LOCUS_18900;gene=rplC;note=WP_011183020.1 50S ribosomal protein L3 (Mesoplasma) [pid:66.9%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:9.1e-91],MGA_1890
sequence1	MetaGeneAnnotator	CDS	1178098	1178406	.	-	0	ID=MGA_1891;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183019.1;translation=MAQQKIKIKLKGYDHAIVDQSIAKIIEAAESTGAKVRGPIPLPTEKQIITILRATHKYKDSREQFEMRTHKRILEIIEPTPKTMDSLTRVQLPTGVNIEIKL;locus_tag=LOCUS_18910;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:4.2e-44],MGA_1891
sequence1	MetaGeneAnnotator	CDS	1179093	1179428	.	+	0	ID=MGA_1892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGNSIGVGIYLKSKQALLAAHNPYIVIIVLFIMAFVGVSMVFVFIELATSAKNRYHTHTSFAETFIGRRTGSLFSLFYCIIYIPVYVGLISITVSYYVFRVIDDYYGNTA;locus_tag=LOCUS_18920;note=MGA_1892
sequence1	MetaGeneAnnotator	CDS	1179684	1180106	.	+	0	ID=MGA_1893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLFELDGFMYGSSIEKEITHKRMLVFGQVVGVILVVAVNVTFAVALYFGTTDADSFSLISALLSKTGALLCKLLIAFVVLGSVAGFSSFGVINLSSTTDNNGVQLVYYKKGNDMISYRMSGYINSVLISVVLIVISTIS;locus_tag=LOCUS_18930;note=MGA_1893
sequence1	MetaGeneAnnotator	CDS	1180215	1180538	.	+	0	ID=MGA_1894;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFTTYLALMLAALMNHKTKKVDDVLNVKGSVYYNIIASTIMTGFLLYIYYDIFKKFTLNDIGQILQPLFVIIFSFLLLLAYLINEIRISKVNIDENDFVLKINPKN;locus_tag=LOCUS_18940;note=MGA_1894
sequence1	MetaGeneAnnotator	CDS	1180646	1180834	.	-	0	ID=MGA_1895;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIARALLQNKEFMILDEITASLDKENRSSIEDLVGSLNKTILYISHTTDVNNKNFDKVISL;locus_tag=LOCUS_18950;note=WP_011183065.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:47.6%25%2C q_cov:100.0%25%2C s_cov:11.9%25%2C Eval:2.6e-09%2C partial hit],internal stop codon at [1180907:1180909](-)%2C[1181042:1181044](-),MGA_1895
sequence1	MetaGeneAnnotator	CDS	1181042	1181248	.	-	0	ID=MGA_1896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLSYDEKQVFKDFNLEIGLNKKYLLVGKSGAGKTTLFKTIFGLIDDYEGKIVINDQKDYKQIDKRDI;locus_tag=LOCUS_18960;note=WP_002678844.1 ABC transporter ATP-binding protein (Treponema denticola) [pid:44.1%25%2C q_cov:100.0%25%2C s_cov:12.4%25%2C Eval:1.5e-09%2C partial hit],internal stop codon at [1180907:1180909](-)%2C[1181042:1181044](-),MGA_1896
sequence1	MetaGeneAnnotator	CDS	1181534	1181743	.	-	0	ID=MGA_1897;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSKKSLKRQNKSSQLAEEKNAQAVSLIGGYKEFSYRNQKVKFRKMISTVNKPYEKNDYKLKILLYSEN;locus_tag=LOCUS_18970;note=MGA_1897
sequence1	MetaGeneAnnotator	CDS	1181912	1182094	.	-	0	ID=MGA_1898;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFAVAGLCASLFVSLLNDFIFKPRAIRILNNGLRTTIALKINAMSYSEYSENKKGQYIS;locus_tag=LOCUS_18980;note=MGA_1898
sequence1	MetaGeneAnnotator	CDS	1182259	1182504	.	-	0	ID=MGA_1899;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGVINFESKNLSGGELQRVAIARAIVEDKQVMIMDEITASLDKENRESIENLIGSLNKTILYISHTTDADNKNFDQVIKL;locus_tag=LOCUS_18990;note=WP_011183065.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:46.2%25%2C q_cov:95.1%25%2C s_cov:14.7%25%2C Eval:3.8e-13%2C partial hit],internal stop codon at [1182583:1182585](-),MGA_1899
sequence1	MetaGeneAnnotator	CDS	1182583	1183296	.	-	0	ID=MGA_1900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNGELTQGIENLVNGYSEFAFRNKKSLFVKLTQGFSNKVENTKIKIEGLNFITSLLIGIFQVILQQGVFVGAGILYYLGYVEPGAMLVSISFSAYFMQGFGGLINNIETAIKGKKIIKKFSPVVFDKDFEGKDIFFEELAIKGLNYSVENKQIFKDFNSIINANKKYLVVGESGKGKTTLFRIIFGIIKNYSGDLEINKNINYKNLAPEDLKHLYSYLPQEPSVFNDTLRNNISL;locus_tag=LOCUS_19000;note=WP_011254198.1 ABC transporter ATP-binding protein (Lactobacillus acidophilus) [pid:29.1%25%2C q_cov:78.1%25%2C s_cov:32.3%25%2C Eval:9.5e-16%2C partial hit],internal stop codon at [1182583:1182585](-),MGA_1900
sequence1	MetaGeneAnnotator	CDS	1184472	1184693	.	-	0	ID=MGA_1901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVDELILLKQVILEQDQMEQVMLIIYHDEFQMTFLKTLKIDLYLMLLKKITMDDETVIFHQDILLLLLQWFQ;locus_tag=LOCUS_19010;note=MGA_1901
sequence1	MetaGeneAnnotator	CDS	1184818	1185021	.	-	0	ID=MGA_1902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIAVKAGFSRDFGYGPGNDPYTFISQKYRTYSTIFIKILELGVMIVGFVVLRFKFAKREDILLNEY;locus_tag=LOCUS_19020;note=MGA_1902
sequence1	MetaGeneAnnotator	CDS	1185205	1185369	.	-	0	ID=MGA_1903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDINKKSKEFIFLFIPGLVIVIFSSISFLVTGFFDREIDAVISKTIDYFPVKI;locus_tag=LOCUS_19030;note=MGA_1903
sequence1	MetaGeneAnnotator	CDS	1185390	1186619	.	-	0	ID=MGA_1904;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFADDKEIMSATDEIVFLTLDKTPFYAEKGGQAADNGVLVDQNGNNHNVIDVQTGPNKQHIHKVKLNGTLNVGDVVEAKINLDKRFYTMKNHSGTHILQSAIREILDKSALQSGSYNDENGLRLDISYNRLPSQEEIDQMHSVIERVIKEAIPREVIYCTLDEALNVHNALAIFTDKYGELVRAIKFGEFSCELCGGTHVLNTKDIEDLLITNVESKGSGVYRYHAVTSHKEVAAVLNEQFAKQKAEIRPTIDKFNEFKKYVENKEIEKEINEINNLSINKKNLAIIKIKVFNLKNKFKLYQKSVEDILIAKKLDSYKNVEAKLVDGINYIDLELDDLEMKEMKALSDELQNKYENLILKLINKTNKVYIVSVGQKLSDSYSAIDIFKSTKEFEVKGGGNKNFAQGKIV;locus_tag=LOCUS_19040;note=WP_011166380.1 alanine--tRNA ligase (Mycoplasma mycoides) [pid:47.3%25%2C q_cov:100.0%25%2C s_cov:45.9%25%2C Eval:2.2e-105%2C partial hit],internal stop codon at [1186710:1186712](-),MGA_1904
sequence1	MetaGeneAnnotator	CDS	1186710	1187444	.	-	0	ID=MGA_1905;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSQFNNDGNNNYSELPRKNIDTGAGFERLVSIFQDTPTNFETDLFLPTIKAVEKLCDNSFKYSIENYFKENKEQTKINTAFKVIADHIRAVVFAISDGVFPGNKDRGYIIRRLIRRSSVYGRKLGINNAFLFKLVDIVIETMKDFYPYIVEKASTIREVVEIEENRFLQTLSKGYEHLESIINKEKIVSGKNALLLFESFGFPIELTVEIANDSNIKVEVEDFYNLFEQAKEVARNARKDDKA;locus_tag=LOCUS_19050;note=WP_011166380.1 alanine--tRNA ligase (Mycoplasma mycoides) [pid:70.1%25%2C q_cov:100.0%25%2C s_cov:27.2%25%2C Eval:1.2e-96%2C partial hit],internal stop codon at [1186710:1186712](-)%2C[1187451:1187453](-)%2C[1187520:1187522](-)%2C[1187583:1187585](-)%2C[1187646:1187648](-)%2C[1187715:1187717](-),MGA_1905
sequence1	MetaGeneAnnotator	CDS	1188170	1188529	.	-	0	ID=MGA_1906;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALPKGYETVLYERGAQLSGGQKQRLVIARAFLKDPAVLILDEATSALDNIVEKEIQQELDKLMVGRTTISIAHRLSTIKDFDEIFVLDPNLGIAQRGTFNELINEPGIFKTLYDSSKN;locus_tag=LOCUS_19060;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:70.6%25%2C q_cov:100.0%25%2C s_cov:18.1%25%2C Eval:2.8e-40%2C partial hit],internal stop codon at [1188584:1188586](-)%2C[1188671:1188673](-),MGA_1906
sequence1	MetaGeneAnnotator	CDS	1188671	1189189	.	-	0	ID=MGA_1907;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTLIAALLVGGIGSFTMASIVFGNFIYTGETAKLLTIFSTFTAGIFVVITPLFQLKEILEGVNRAKNSFNTIDKITSSMPKIDVNKEAEIESVDGDIILKDVYFSYPDAPDKTIINKLNLTLRKNKKYAFVGPSGSGKSTIAKLLLRFYDPTDGKILINGKQDLAELNLKS;locus_tag=LOCUS_19070;note=WP_011183321.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:41.6%25%2C q_cov:88.4%25%2C s_cov:25.2%25%2C Eval:1.0e-24%2C partial hit],internal stop codon at [1188584:1188586](-)%2C[1188671:1188673](-)%2C[1189259:1189261](-)%2C[1189433:1189435](-),MGA_1907
sequence1	MetaGeneAnnotator	CDS	1189259	1189414	.	-	0	ID=MGA_1908;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLILGVVLVALLVVFVISKPTKKINLEEKNLNNTMAERIQAIRLVKSAGT;locus_tag=LOCUS_19080;note=MGA_1908
sequence1	MetaGeneAnnotator	CDS	1189433	1189714	.	-	0	ID=MGA_1909;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNIGLIVISMYLSYFFTGLIAQTKETDLRKDTITKILSQDLNFFNANKTQSLVTIIVKDIGFIGDQLKIAPIIIVYILGSFVGATVTLGIID;locus_tag=LOCUS_19090;note=MGA_1909
sequence1	MetaGeneAnnotator	CDS	1189727	1190158	.	-	0	ID=MGA_1910;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKNEGTSIFIKPRQKTIAGLFMQGCKQKPIYAALTLFSIIAVILFTVFNIKIAENLVKILTAQNLVDMISKKDEASQTIIGDLIQNGVITGGEDTKFDVDALLRNEALVNSILKKLGNEDVLYRDGSIYSSIFGIELTFSK;locus_tag=LOCUS_19100;note=MGA_1910
sequence1	MetaGeneAnnotator	CDS	1190345	1190806	.	+	0	ID=MGA_1911;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLQHLNKKRLILVDLDGTVLKSDGQTIHEKTAQVLKKACEDGHTVCIVTGRPHRATMRFYKQLGITSLMTNFDGAHIHDPYKRRFKRLVFPISEQVVFDIINNPVVKENVTNILVESYNKAFVMKKDEFIENFFHLDDVDDDDYFIANPYES;locus_tag=LOCUS_19110;note=WP_011166439.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:48.7%25%2C q_cov:98.7%25%2C s_cov:52.6%25%2C Eval:1.8e-37%2C partial hit],internal stop codon at [1190804:1190806](+),MGA_1911
sequence1	MetaGeneAnnotator	CDS	1190951	1191217	.	+	0	ID=MGA_1912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITLTNKIVNKGFVASILAQYYNKDIRDVIAFGDQMNDYDMIKTVGYGVAMKNGITELKNVADGITNFTNDEGGVGEYLERLLNGEEV;locus_tag=LOCUS_19120;note=WP_011166439.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:69.3%25%2C q_cov:100.0%25%2C s_cov:30.0%25%2C Eval:1.7e-29%2C partial hit],internal stop codon at [1190804:1190806](+),MGA_1912
sequence1	MetaGeneAnnotator	CDS	1191243	1191542	.	+	0	ID=MGA_1913;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLENNIYELDTQQESSLSGLMGSRGLVLFFYPKASTPGCTREVNEYSKLKKEFDLLQYNIVGVSADNVEDQNKFACNNKLEFPLIADKDKKLINELSL;locus_tag=LOCUS_19130;note=WP_011166264.1 peroxiredoxin (Mycoplasma mycoides group) [pid:46.9%25%2C q_cov:97.0%25%2C s_cov:59.1%25%2C Eval:5.6e-17%2C partial hit],internal stop codon at [1191540:1191542](+),MGA_1913
sequence1	MetaGeneAnnotator	CDS	1191573	1191719	.	+	0	ID=MGA_1914;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGTRRCTFIINTNLEVIKSFMDVNPTEHVKEVLEFLKTRINESNKTI;locus_tag=LOCUS_19140;note=MGA_1914
sequence1	MetaGeneAnnotator	CDS	1191989	1192204	.	-	0	ID=MGA_1915;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNFNYKKGKGSNLYDDAIKLRKDIFVIEQECFDTPDEDDFDDIAYHIVGYYENETICCARVFFDEEILL;locus_tag=LOCUS_19150;note=MGA_1915
sequence1	MetaGeneAnnotator	CDS	1192566	1192844	.	-	0	ID=MGA_1916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASTFNEHILFDYTYKNLKDDSEKVYLLQQRIFDLCSTFYRQIQFAEFEYQAHKMAEKGEPITADSLMNLFLDIENKYGYDIFDDKDRDAFQ;locus_tag=LOCUS_19160;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:60.9%25%2C q_cov:94.6%25%2C s_cov:14.6%25%2C Eval:2.3e-26%2C partial hit],internal stop codon at [1192566:1192568](-)%2C[1192965:1192967](-),MGA_1916
sequence1	MetaGeneAnnotator	CDS	1192965	1193369	.	-	0	ID=MGA_1917;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENYKIRNYESSLEMSLKRDNVPVSVYEKLLETGKKHIQVLKNYYLLIKEKYGFKKFNSTDRELVLTKEFNKTYSVDEGIKIVKDSLKVLGDEYVEFLDKASRPNAIDYYEDKTKRSGAYSSGGYGVEPIILMN;locus_tag=LOCUS_19170;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:51.9%25%2C q_cov:99.3%25%2C s_cov:22.3%25%2C Eval:1.6e-35%2C partial hit],internal stop codon at [1192965:1192967](-)%2C[1193445:1193447](-),MGA_1917
sequence1	MetaGeneAnnotator	CDS	1193445	1193963	.	-	0	ID=MGA_1918;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGQLNNNNKFLEYLKLDKEIDYLFAKLNQYIHMYDVDQANSELQELQGLFQNTYQECFSKVSFFDPEVISVGKETILGFLKGSEFESETYIFEKLFRKQKHILDDESESLLSKVARSRGAVGELYDTLAYADNIEEKILIDGKEEVVDTTLYRKIMEDSDPTEDQNLRKEV;locus_tag=LOCUS_19180;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:37.3%25%2C q_cov:97.7%25%2C s_cov:28.4%25%2C Eval:9.9e-28%2C partial hit],internal stop codon at [1193445:1193447](-)%2C[1194048:1194050](-),MGA_1918
sequence1	MetaGeneAnnotator	CDS	1194152	1194469	.	-	0	ID=MGA_1919;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMYGNQLTSPKITVFKKTPEINKPKNIEMILGVEDKLLIEIEVLNILEDSSLIIKNKNSKAISIEFIEDELFYTKKIYRFNIKALSRKKSKVVLNYKNATKTSF;locus_tag=LOCUS_19190;note=MGA_1919
sequence1	MetaGeneAnnotator	CDS	1194976	1195197	.	-	0	ID=MGA_1920;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSEHLKVMQGSKIADLDNSGTTGFAGSSTAAAFLNAFSEDKPYIHLDVASTAYEDKRGKATMARTLFEMLNK;locus_tag=LOCUS_19200;note=WP_011166365.1 M17 family metallopeptidase (Mycoplasma mycoides) [pid:54.9%25%2C q_cov:95.9%25%2C s_cov:15.7%25%2C Eval:1.3e-13%2C partial hit],internal stop codon at [1195207:1195209](-)%2C[1195288:1195290](-),MGA_1920
sequence1	MetaGeneAnnotator	CDS	1195288	1196313	.	-	0	ID=MGA_1921;product=M17 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182968.1;translation=MILVNENNFELTLKAFEKDSLKNNLIVNESGSTTLSLEEKVLYLCLDNKMNKKSLEKTFSSIVSSSKYDMNIDLDSVLNIFENKKEVFQLVVEIILFSLHQQFSMKEKNSEFKSFSLLFDNKYNDIYETSKIKVEYVNFARDLQDLPPNIGTSIEIANRIEEKAKKIDGLKVTILNKKQIEDNKMGLLLGVNEGSHIDARVVILEYCTDDKLPKTAYVGKGITFDTGGYNLKGSQFLANMKFDMSGCAIVSAAVLALAKKKAKCNVVSIGLLTDNRIGGHATLTESVLTSMNGKTVEIGNTDAEGRLVLADGMTYAIRKLKADRLITVATLTGAIRVALGP;locus_tag=LOCUS_19210;note=WP_011182968.1 M17 family metallopeptidase (Mesoplasma florum) [pid:48.5%25%2C q_cov:99.7%25%2C s_cov:76.7%25%2C Eval:7.9e-82],internal stop codon at [1195207:1195209](-)%2C[1195288:1195290](-),MGA_1921
sequence1	MetaGeneAnnotator	CDS	1196779	1197018	.	+	0	ID=MGA_1922;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLDKNNYVHVTNGDFKEIDKILNEGKTVLAALECGEKLKASLEEGKMSNGFANVELKEYKDNCGTCGCGKPANCLVYL;locus_tag=LOCUS_19220;note=MGA_1922
sequence1	MetaGeneAnnotator	CDS	1197190	1198401	.	+	0	ID=MGA_1923;product=CoA-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023905986.1;translation=MKIVILGGGATGMGVAAKVKRNDKNCEVLVIETGNYVSLGACGLPYYVGKNFDEPNMLFARTIEKFNESGIEIIINSKIKLIDLKNKKVVVNNKEITFDKLVIATGADAISPNIKGLNTIEHFKLTKFEDGLALRNIVEKKNINNILIVGSGFIGLELAENLKDLNKNVTMVEIEKDILSNLYDAEISELIKTTLEKNKINLMLNSFVNNFYKKENKVIANISDKEYEFDLVITATGFKPNTELLLNTGLNFYKNNAIIVDEFGKTNIEDVYAGGDCCAIMNKITNQFCYSPLATVASKQAKVIANNICKIESRFNGTIQSSIIRLFDKAIARCGLTVREANDLNIKTKVSYIKDKDHTHYLKGQSDVHLKLIMNEDTHELIGAQMFSHKDSILRFYSLATMV;locus_tag=LOCUS_19230;EC_number=1.8.1.14;note=WP_023905986.1 CoA-disulfide reductase (Mycoplasma mycoides) [pid:39.4%25%2C q_cov:100.0%25%2C s_cov:91.5%25%2C Eval:9.9e-82],MGA_1923
sequence1	MetaGeneAnnotator	CDS	1198668	1198796	.	+	0	ID=MGA_1924;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYRVIIGMLIGLVFGIAIQAIIKFPDQETLSAGFKDSESNIY;locus_tag=LOCUS_19240;note=MGA_1924
sequence1	MetaGeneAnnotator	CDS	1198857	1199096	.	+	0	ID=MGA_1925;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTIPVVFIAIFKITAKPGESGLARITLKGIALLLINVGVMFTITFFLGIVTKVGKGVFDEAAGSTPTGKDNIPLPQII;locus_tag=LOCUS_19250;note=WP_011183548.1 dicarboxylate/amino acid:cation symporter (Mesoplasma florum) [pid:53.8%25%2C q_cov:100.0%25%2C s_cov:13.7%25%2C Eval:5.6e-17%2C partial hit],internal stop codon at [1198584:1198586](+)%2C[1198815:1198817](+)%2C[1199094:1199096](+)%2C[1199250:1199252](+),MGA_1925
sequence1	MetaGeneAnnotator	CDS	1199099	1199362	.	-	0	ID=MGA_1926;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFASSPIGLAVIEVEIIDITASGIIFINVDSIDEVIFQAVSEPLTIAAISTLCLFAKILTDIPAIAAITMTGMIVFVESAAKKFSGK;locus_tag=LOCUS_19260;note=MGA_1926
sequence1	MetaGeneAnnotator	CDS	1199484	1199657	.	+	0	ID=MGA_1927;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQGFSTQSSNASLPVSLESLEKMKVSERVSSTVAPISTTMGLIACAGIQAGLATSIL;locus_tag=LOCUS_19270;note=WP_011183548.1 dicarboxylate/amino acid:cation symporter (Mesoplasma florum) [pid:60.3%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:4.5e-14%2C partial hit],internal stop codon at [1199250:1199252](+)%2C[1199412:1199414](+)%2C[1199457:1199459](+)%2C[1199472:1199474](+)%2C[1199655:1199657](+),MGA_1927
sequence1	MetaGeneAnnotator	CDS	1199682	1200191	.	+	0	ID=MGA_1928;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLFTYFIISLFVTIVASLGIAGVPGTATVVTVGVIGGIGFSEFIAAVLAVITPLDGLFDMGRTGANVLGGVAASTIVAKSEGLIKEGSIILNSKEVEKQKQILFLKSLRDEYKNNILNSKKEYAKELKRIELTREEKNSLKNILISQQKDFKEAYLNKRKKFKEIKNK;locus_tag=LOCUS_19280;note=WP_011167177.1 dicarboxylate/amino acid:cation symporter (Mycoplasma mycoides) [pid:51.9%25%2C q_cov:63.9%25%2C s_cov:20.6%25%2C Eval:1.1e-23%2C partial hit],internal stop codon at [1199412:1199414](+)%2C[1199457:1199459](+)%2C[1199472:1199474](+)%2C[1199655:1199657](+),MGA_1928
sequence1	MetaGeneAnnotator	CDS	1200219	1200713	.	-	0	ID=MGA_1929;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKWFLIVSILVLVITTIAMDVILSLGKIEDDELLKTSLFFKENNPLAFVLPLFIFTIFYNIKIKSKFINYISSFTLGIYLCMTIYNHLLYSLLSTYLIKLNDVELNFALIGLTLLIFITALVQTLIIEHLKKGIFIICDKNYWIKKKILIKEKEKLKKLSKH;locus_tag=LOCUS_19290;note=MGA_1929
sequence1	MetaGeneAnnotator	CDS	1200924	1201121	.	-	0	ID=MGA_1930;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTHISTFAFITGFFLANKGKPKKLFKYVTTLIFYFAFNFIVSFFVEYFYYDVTSLSTIYNFTIEA;locus_tag=LOCUS_19300;note=MGA_1930
sequence1	MetaGeneAnnotator	CDS	1201318	1201515	.	-	0	ID=MGA_1931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTSKIADLSNTGNIREAGSSTAAAFLNAFSEEKPYIHLDIALTADRDGRGLAPMTRTLFEMLNK;locus_tag=LOCUS_19310;note=WP_011166365.1 M17 family metallopeptidase (Mycoplasma mycoides) [pid:66.1%25%2C q_cov:90.8%25%2C s_cov:13.1%25%2C Eval:1.8e-15%2C partial hit],internal stop codon at [1201549:1201551](-)%2C[1201630:1201632](-),MGA_1931
sequence1	MetaGeneAnnotator	CDS	1201630	1202655	.	-	0	ID=MGA_1932;product=M17 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182968.1;translation=MITTNKKLHSITVKAITKDAKVNPVVILESGSLTLVSEDKTIYYCLDPKAKAKCLANAVSSIVGSAKYDLNVDVNSFLEIVEEKEGAFQAIVEQFLFLNHKPYEMKKEGSKQKSFDLIFDSKYQDEFNKAEIKLEFVNFARDLQDLPPNVGTSVIIANKIKEKASLIEGLKVSIMGRAEAEKLGMGSFLSVNDGSHVEGQIVVLEYCTDSSLPKTAYVGKGITFDSGGYNLKPSASLAGMKFDMSGCAIVSSTVMALAKAKAKCNVVAVGMLTDNRIGGHATLTESVVKSMNGQTIEIGNTDAEGRLVLVDGMTYAIRNLKAERLVTVATLTGAMTFSLGR;locus_tag=LOCUS_19320;note=WP_011182968.1 M17 family metallopeptidase (Mesoplasma florum) [pid:52.3%25%2C q_cov:99.7%25%2C s_cov:76.7%25%2C Eval:1.7e-89],internal stop codon at [1201549:1201551](-)%2C[1201630:1201632](-)%2C[1202911:1202913](-),MGA_1932
sequence1	MetaGeneAnnotator	CDS	1202674	1202907	.	-	0	ID=MGA_1933;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLLSEHLEPLEFTKIADIASCELSNKDGAYSCTAAAFLNQFSEEKPYLHLDIAGTADFDARGLAPMQKSLYELLNK;locus_tag=LOCUS_19330;note=WP_011182968.1 M17 family metallopeptidase (Mesoplasma florum) [pid:46.7%25%2C q_cov:97.4%25%2C s_cov:16.3%25%2C Eval:2.5e-12%2C partial hit],internal stop codon at [1202911:1202913](-)%2C[1202992:1202994](-),MGA_1933
sequence1	MetaGeneAnnotator	CDS	1202992	1204017	.	-	0	ID=MGA_1934;product=M17 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011387085.1;translation=MITCNQKSFNITLKAITKESDVNPLVIKENKEFTLISEEKTLYVCMCPKMTLFKMQAFILDFVKSNNMDLNVDLDSFVEIYQNKEEVLQLLVETFMFANHKQIEMKTEETKHKSYDLIFSAQYENIYENSKIKLEYQNFARDLQDLPPNLGTSITIADKIIEKAKENKEIKVTVYGKKEAVSYGMNLFLAVNAGSNIDPRIVVLEYCGDSSKPKTALVGKGITFDSGGYNLKPGNYLKNMKYDMSGAAVVSATVMALAKRKAKCNVVSVAMLTDNKIGGLATLPESIVKSMNGLNVEIADTDAEGRLVLADGMTYAIREAKAERLFTVATLTGSIFSALGK;locus_tag=LOCUS_19340;note=WP_011387085.1 M17 family metallopeptidase (Mycoplasma capricolum) [pid:52.3%25%2C q_cov:99.7%25%2C s_cov:76.5%25%2C Eval:2.5e-88],internal stop codon at [1202911:1202913](-)%2C[1202992:1202994](-),MGA_1934
sequence1	MetaGeneAnnotator	CDS	1204394	1204582	.	-	0	ID=MGA_1935;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISQEYCNKAISGVITKYQVYDVKSLEKLDSNISGVYIIFSLDLGNNLKFSYIGESKDIKKR;locus_tag=LOCUS_19350;note=MGA_1935
sequence1	MetaGeneAnnotator	CDS	1204850	1205188	.	+	0	ID=MGA_1936;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPNYYRNKKVYLTIRIVLVVFLLFTEVQRTVYLGPIHQQNYIENSNPTTYVGQQWYQNPINYFLLYFCTICSYVIIIILIFPNKLLMECFFPFMIMGPVVTFIFPTEKPLF;locus_tag=LOCUS_19360;note=MGA_1936
sequence1	MetaGeneAnnotator	CDS	1205240	1205419	.	+	0	ID=MGA_1937;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGALYMYLYGHTEYKFGKQALLKSMLTGLITVTLVEIYNLYFGTDFIVGEVTGAFGLK;locus_tag=LOCUS_19370;note=MGA_1937
sequence1	MetaGeneAnnotator	CDS	1206201	1206380	.	-	0	ID=MGA_1938;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIAVILTFTFHKFFQNTSMVVYLSSIIFPAIAGVIICVSYKVIESLKHRNLINLTELN;locus_tag=LOCUS_19380;note=MGA_1938
sequence1	MetaGeneAnnotator	CDS	1206449	1206592	.	-	0	ID=MGA_1939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSYNNYISEIRFKFFCKIVGINNDINKEIKKYRHNLLKKELPKQKY;locus_tag=LOCUS_19390;note=MGA_1939
sequence1	MetaGeneAnnotator	CDS	1206786	1207028	.	-	0	ID=MGA_1940;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADELGDLVARGIKTATTSCDVLYDLEKENKPKVGDISIVTDFKNNPICIIKNLKVTYLYFKDMTFDLCEKEGEDIDLNS;locus_tag=LOCUS_19400;note=WP_002295936.1 ASCH domain-containing protein (Enterococcus) [pid:51.4%25%2C q_cov:92.5%25%2C s_cov:48.7%25%2C Eval:2.2e-13%2C partial hit],internal stop codon at [1206786:1206788](-)%2C[1207107:1207109](-),frameshifted%2C insertion/deletion at around 1206749,MGA_1940
sequence1	MetaGeneAnnotator	CDS	1207213	1207824	.	-	0	ID=MGA_1941;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAVDDYIPTPTRDKDKTFLMPVEDVFTITGRGTVATGRVERGIVKVNEEVEIVGLVEESKKVVVTGLEMFRKLLDFAEAGDNVGALLRGVNREDIERGQVLAKPGTIKPHTKLQASVYALTQEEGGRHKPFFNKYRPQFYFRTTDVTGEVKLPEGTDMVMPGDNVELTVELIKPIAVEQGTKFSIREGGRTIGAGSVISIVE;locus_tag=LOCUS_19410;note=WP_011183518.1 elongation factor Tu (Mesoplasma florum) [pid:91.5%25%2C q_cov:99.0%25%2C s_cov:51.0%25%2C Eval:1.9e-101%2C partial hit],internal stop codon at [1207846:1207848](-),MGA_1941
sequence1	MetaGeneAnnotator	CDS	1207846	1208400	.	-	0	ID=MGA_1942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKESFDRSLPHVNIGTIGHVDHGKTTLTAAITKVLAEKGGAEFKDYANIDNAPEERERGITINTTHVEYKTDKRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLSRQVGVPAIVVFLNKCDMVDDEELIDLVEMEVRDLLSSYDFDGDGAPVIKGSALGALNGDAK;locus_tag=LOCUS_19420;note=WP_011183518.1 elongation factor Tu (Mesoplasma florum) [pid:94.0%25%2C q_cov:100.0%25%2C s_cov:46.7%25%2C Eval:2.1e-98%2C partial hit],internal stop codon at [1207846:1207848](-),MGA_1942
sequence1	MetaGeneAnnotator	CDS	1208503	1208907	.	-	0	ID=MGA_1943;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDVKATIVDGSYHDVDSNEMAYKIAASMALKESAKRTKPVILEPIMSVEVTVPDEYYGDVMGNISSKRGLIEGSEQRGNAQTVKAKVPLSEMFGYATELRSFTQGRGNYTMIFSHYNEAPKSIAEEIIKNASK;locus_tag=LOCUS_19430;note=WP_011183519.1 elongation factor G (Mesoplasma) [pid:88.1%25%2C q_cov:100.0%25%2C s_cov:19.4%25%2C Eval:8.8e-63%2C partial hit],internal stop codon at [1209010:1209012](-),MGA_1943
sequence1	MetaGeneAnnotator	CDS	1209010	1209897	.	-	0	ID=MGA_1944;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKFLDGQEITIPELKSAIRKGVISAEFFPVLAGSAFKNKGVKLLLNAVVDYLPSPLDVPSIKGHLLDGTESERHSSDDEPFSALAFKIMTDPFVGKLTFFRVYSGILTKGSYVLNATKDKKERVGRLLKMHANNREEIEEVYAGDIAAAVGLKDTTTGDTLSDEKNPIILESMIFPEPVIHLALEPKTKADQEKLGLSLNKLSEEDPTFRTYTDEETGQTIIAGMGELHLDIIVDRLKREFKVETNVGAPQVSYRETIREATKAEGKYVKQSGGRGQYGHVVIEFEPNPDKGFE;locus_tag=LOCUS_19440;note=WP_011183519.1 elongation factor G (Mesoplasma) [pid:87.5%25%2C q_cov:100.0%25%2C s_cov:42.8%25%2C Eval:8.2e-146%2C partial hit],internal stop codon at [1209010:1209012](-)%2C[1210021:1210023](-),MGA_1944
sequence1	MetaGeneAnnotator	CDS	1210021	1210164	.	-	0	ID=MGA_1945;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKTGADFLYSVETIGTRLGAKAAPIQLPIGAEDQFDGIIDLVEMKA;locus_tag=LOCUS_19450;note=WP_011183519.1 elongation factor G (Mesoplasma) [pid:87.2%25%2C q_cov:100.0%25%2C s_cov:6.8%25%2C Eval:1.3e-16%2C partial hit],internal stop codon at [1210021:1210023](-)%2C[1210213:1210215](-)%2C[1210357:1210359](-)%2C[1210417:1210419](-),MGA_1945
sequence1	MetaGeneAnnotator	CDS	1210417	1210572	.	-	0	ID=MGA_1946;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAREFSLDMTRNFGIMAHIDAGKTTTTERILFHTGKIHKIGETHEGESQMD;locus_tag=LOCUS_19460;note=WP_011183519.1 elongation factor G (Mesoplasma) [pid:90.2%25%2C q_cov:100.0%25%2C s_cov:7.4%25%2C Eval:2.5e-20%2C partial hit],internal stop codon at [1210213:1210215](-)%2C[1210357:1210359](-)%2C[1210417:1210419](-),MGA_1946
sequence1	MetaGeneAnnotator	CDS	1210612	1210734	.	-	0	ID=MGA_1947;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDRLANEIIDASNGIGGSVKKREDTHKMAEANKAFAHYR;locus_tag=LOCUS_19470;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:5.9e-14%2C partial hit],internal stop codon at [1210771:1210773](-),MGA_1947
sequence1	MetaGeneAnnotator	CDS	1210771	1211076	.	-	0	ID=MGA_1948;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKHQAEKRDVLPDPIYSSKLVTRAVNKIMLDGKRGTAQHILYKAFEKIKEKTGTSPIEVFNKAIENIKPHLELKVRRIGGANYQVPVEVSGDRKVTLALR;locus_tag=LOCUS_19480;note=WP_011183520.1 30S ribosomal protein S7 (Mesoplasma) [pid:84.2%25%2C q_cov:100.0%25%2C s_cov:65.2%25%2C Eval:1.0e-42%2C partial hit],internal stop codon at [1210771:1210773](-),MGA_1948
sequence1	MetaGeneAnnotator	CDS	1211129	1211392	.	-	0	ID=MGA_1949;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPKKPNSALRKYARVRLTNGMEVTAYIPGEGHNLQEHSVVLIRGGRVKDLPGVRYHIIRGTLDTTGVNGRMQGRSLYGTKRPKEKK;locus_tag=LOCUS_19490;note=WP_008362393.1 30S ribosomal protein S12 (Mycoplasma mycoides group) [pid:90.8%25%2C q_cov:100.0%25%2C s_cov:62.6%25%2C Eval:4.8e-40%2C partial hit],internal stop codon at [1211498:1211500](-),MGA_1949
sequence1	MetaGeneAnnotator	CDS	1212143	1212331	.	-	0	ID=MGA_1950;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKYLTTKKSNLNGFYLIDPNKFVLGASTNEPAGRGAAYEGAINKFYELTKQNNINIRGLMT;locus_tag=LOCUS_19500;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:59.7%25%2C q_cov:100.0%25%2C s_cov:5.6%25%2C Eval:5.4e-15%2C partial hit],internal stop codon at [1212143:1212145](-)%2C[1212440:1212442](-)%2C[1212467:1212469](-)%2C[1212593:1212595](-),MGA_1950
sequence1	MetaGeneAnnotator	CDS	1212668	1212871	.	-	0	ID=MGA_1951;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIFQPSNPTEVKNGIKYLHSKNKKVLISMGGQTGEGMRFNENQKSDLKQTISNVVKEYDLDGIDLD;locus_tag=LOCUS_19510;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:50.7%25%2C q_cov:100.0%25%2C s_cov:6.0%25%2C Eval:5.3e-15%2C partial hit],internal stop codon at [1212440:1212442](-)%2C[1212467:1212469](-)%2C[1212593:1212595](-)%2C[1212668:1212670](-)%2C[1212968:1212970](-)%2C[1212977:1212979](-),MGA_1951
sequence1	MetaGeneAnnotator	CDS	1213007	1213276	.	-	0	ID=MGA_1952;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLISLSSVFVPFSVSLSVVACNNNETSGQTTTDNPKEPENPSNPQTPSEPNNPGTNTNPGSNPNNPQTPTEPENPVVPENPSEPEG;locus_tag=LOCUS_19520;note=MGA_1952
sequence1	MetaGeneAnnotator	CDS	1213329	1214333	.	-	0	ID=MGA_1953;product=GTPase ObgE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183420.1;translation=MRFIDTAKFNIRSGNGGKGAIGFDIFYKGKPDGGNGGNGGNIVFISDKNVSNLMDLKSKKIYIAENGTDGKKQNKNGKNGKDTIIYVPVGTSVFNEKNELLARFDINNQKIVIAKGGQGGRGNRNLYDKNKVATMHEFEYGKPGANFNIRIEIDVLADVGFVGLPNAGKSTMLRVISNSKPEIANYPFTTLKPHLGICVDKKNRTFTVADLPGLIKGANQGKGLGVEFLTYIEKCKIVCHIIDMSGNYGTENVVKNYEIIRHELKSYNLDLDKKPEIVVANKIDLELAKNNLDLFKKTYKNITIIETSGLMKNNIDNLLLRIGDFIDQLDKNIE;locus_tag=LOCUS_19530;gene=obgE;note=WP_011183420.1 GTPase ObgE (Mesoplasma florum) [pid:51.1%25%2C q_cov:96.4%25%2C s_cov:75.7%25%2C Eval:1.3e-89],MGA_1953
sequence1	MetaGeneAnnotator	CDS	1214524	1214658	.	-	0	ID=MGA_1954;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLMDYVNSFYLLALFMRLVLTYPKQEGLMTEEVFNRIVPNINIY;locus_tag=LOCUS_19540;note=MGA_1954
sequence1	MetaGeneAnnotator	CDS	1214677	1215042	.	-	0	ID=MGA_1955;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNHLMSIFQNAAVVIMSIDNNLEEEKLPKGVVSEMGGLDIIVTTTVQAFGVKANELIKAYEERVKNDSELNMYENIHNSLKKIINIPAEQAFRDLVQNLVDFFESYFLAYKKLSEAKEIN;locus_tag=LOCUS_19550;note=MGA_1955
sequence1	MetaGeneAnnotator	CDS	1215076	1215282	.	-	0	ID=MGA_1956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKEIKPIEYEKIITNAINEVYKNFQKNVSKDFIVPETIQDLFKQLKEIKSKKDLDTFGLTFDKSFPD;locus_tag=LOCUS_19560;note=MGA_1956
sequence1	MetaGeneAnnotator	CDS	1215659	1215865	.	-	0	ID=MGA_1957;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKFSLFGFSNLSKLNFLPVALHELSIKSSMFDCFLSPWKFGLDGFGGVAFLTKVTTKLVSRSLVLFD;locus_tag=LOCUS_19570;note=MGA_1957
sequence1	MetaGeneAnnotator	CDS	1215900	1216493	.	+	0	ID=MGA_1958;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGEKPVIDVRKKVDSPKVIQPVVITTPNKADPPVVEQNFTYIEIPKPKPEVQAPEPVAPVVQINPVYRPPVKEEVYIEDRVFAGLTDYELYYLAAFLRDAAKLEKARNSYIDSTRDLVYTKADIQYLNNKEGSNIGLKIVGAVLCIVIIGIFILISASKNKIKAKATKDYFKELKNVGYDDLKVELKSKYPKIIEF;locus_tag=LOCUS_19580;note=MGA_1958
sequence1	MetaGeneAnnotator	CDS	1216921	1217130	.	+	0	ID=MGA_1959;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKARIISMYITTFYKKQKIRSYKYNNLKSEVMNILSESKFIYGSRKISILLEKEKIFINDRTLRHYLKR;locus_tag=LOCUS_19590;note=MGA_1959
sequence1	MetaGeneAnnotator	CDS	1217324	1217542	.	+	0	ID=MGA_1960;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNNNTQLVVDTITKINKSNFILHSDHGSQYSSNEVTELVKQMNCQTSISRIGNSLDNREIEYFFSCLKGE;locus_tag=LOCUS_19600;note=WP_042733551.1 IS3 family transposase (Mycoplasma yeatsii) [pid:56.2%25%2C q_cov:100.0%25%2C s_cov:17.1%25%2C Eval:9.2e-15%2C partial hit],internal stop codon at [1217153:1217155](+)%2C[1217318:1217320](+)%2C[1217540:1217542](+),MGA_1960
sequence1	MetaGeneAnnotator	CDS	1217737	1217931	.	-	0	ID=MGA_1961;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKEELKQKVVSIDDKASAKHEEIQNQKQEIKRANIRLKKLKRELKNIKSEKKLVKSSYKSSNM;locus_tag=LOCUS_19610;note=MGA_1961
sequence1	MetaGeneAnnotator	CDS	1218140	1218607	.	-	0	ID=MGA_1962;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNSQTKIFRIVELNSVRYIFINIVSSFASTLIFSYLIYTTFEEYTSHKIYVEIGILSIHLLLIPAFVKMFETILEIINKYKKLLNHYLTAQFDSLKDLFEDAKFDSNYTHVNFEEYNLKSKHNIFLLCSKTFDEEDKKIIRETNEKILNRYKEL;locus_tag=LOCUS_19620;note=MGA_1962
sequence1	MetaGeneAnnotator	CDS	1218662	1218901	.	-	0	ID=MGA_1963;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEKNSIIAKCEKNIKQLYTQSKKTYRNFLYNIILFIILFAVVIINEIVFKHNLKVKLKVNYVCIAFFIYLIFIFTIIG;locus_tag=LOCUS_19630;note=MGA_1963
sequence1	MetaGeneAnnotator	CDS	1218970	1219251	.	-	0	ID=MGA_1964;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFILTTQILFALNIFKFKNKKLHKILSYLSILHIFVLTDLLFPIIVFCHKYVIYTLNKDAVYMKKYNQAQKPKDDSEDRFEKFKKTIEDNKDE;locus_tag=LOCUS_19640;note=MGA_1964
sequence1	MetaGeneAnnotator	CDS	1219595	1220038	.	-	0	ID=MGA_1965;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVEDIKVNGIANSHLLAVAPTGSISYLSSCTPSLQPVVAPVETRKEGKLGRIYVPAYNINFENMAYYALGAYEVGPNPIIDICAAAQQHVDQAISLTLFMTDSATTRDLNKAYIKAFKQGCASIYYVRVRQEVLEDSENYECDACVV;locus_tag=LOCUS_19650;note=WP_011183426.1 class 1b ribonucleoside-diphosphate reductase subunit alpha (Mesoplasma florum) [pid:89.1%25%2C q_cov:100.0%25%2C s_cov:20.4%25%2C Eval:3.6e-71%2C partial hit],internal stop codon at [1220045:1220047](-)%2C[1220117:1220119](-),MGA_1965
sequence1	MetaGeneAnnotator	CDS	1220117	1221766	.	-	0	ID=MGA_1966;product=class 1b ribonucleoside-diphosphate reductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183426.1;translation=METKEKVLTLSGAKESDEYITLNARAKLFTAKGDDNFKLDAEAAKVYLKNHVEPNSVKFKSTEERIKFLVENGYYEKEVIDLYTIEQIDQITKEAYGFNREFPSFMGALKFYNAYGLKTFDGKQYLENYEDRVVMNALFLGNGKFEDARAIMKQIMLGRFQPATPTFLNAGKQQRGEYVSCYLLRVEDNMESIGRAVTTSLQLSKRGGGVALCLTNLREYGAPIKKIANQATGVIPVMKILEDSFSYANQLGQRQGAGAVYLQAHHPDIMSFLDTKRENADEKIRIKSLSLGVVIPDITFELAKNNEEMALFSPYDVQRVYKKPMSDISITQEYYNMVNNPEIKKTYINARKLFQTIAELHFESGYPYILFDDTVNNRNAHCQTGRIVMSNLCSEIVQVSTPSEFTDDLGFSKVGEDICCNLGSMNIAKTMESGQEFSDVIFRSIAALDLVSRASNLSSAPSIKKGNDNNHAVGLGAMNLHGFLATNFIYYNSKEAVDFTNMFFYTMAFHAFKASNRLAKEYGPFKSFAKSSFADGSYFDKYTNCEESK;locus_tag=LOCUS_19660;gene=nrdE;EC_number=1.17.4.1;note=WP_011183426.1 class 1b ribonucleoside-diphosphate reductase subunit alpha (Mesoplasma florum) [pid:79.6%25%2C q_cov:100.0%25%2C s_cov:75.9%25%2C Eval:7.2e-254],internal stop codon at [1220045:1220047](-)%2C[1220117:1220119](-),MGA_1966
sequence1	MetaGeneAnnotator	CDS	1221783	1222229	.	-	0	ID=MGA_1967;product=class Ib ribonucleoside-diphosphate reductase assembly flavoprotein NrdI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183427.1;translation=MHDDVIRVNSENVVRPKGEIMVVYFSSISNNTHRFMQKLDLPNQRIPYDLEEQLNVNQDYILITPTYAGGGTITAGAVPKQVIKFLNNETNRSYCRGVIASGNTNFGDTYAIAGPIISKKLQVPLLYQFELLGTEHDVKEIRKIIKDF;locus_tag=LOCUS_19670;gene=nrdI;note=WP_011183427.1 class Ib ribonucleoside-diphosphate reductase assembly flavoprotein NrdI (Mesoplasma florum) [pid:69.6%25%2C q_cov:100.0%25%2C s_cov:98.0%25%2C Eval:9.5e-59],MGA_1967
sequence1	MetaGeneAnnotator	CDS	1222241	1222801	.	-	0	ID=MGA_1968;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQERAKELIPYYTSSDPLKSKVAAALMPGFLLYGGFYLPFYLSSRGKLPNTSDIIRLILRDKVIHNYYSGYKYQRKIEKLSDQKKAEMKEFVFDLLYKLIDLEKAYLYELYDGFGLAEDAIRFSVYNAGKFLQNLGYESPFSEEETRIEPEIFTQLSARADENHDFFSGNGSSYVMGVTEETLDED;locus_tag=LOCUS_19680;note=WP_011183428.1 class 1b ribonucleoside-diphosphate reductase subunit beta (Mesoplasma florum) [pid:86.0%25%2C q_cov:100.0%25%2C s_cov:54.7%25%2C Eval:1.6e-90%2C partial hit],internal stop codon at [1222241:1222243](-)%2C[1222820:1222822](-)%2C[1223036:1223038](-)%2C[1223057:1223059](-),MGA_1968
sequence1	MetaGeneAnnotator	CDS	1222820	1222999	.	-	0	ID=MGA_1969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDTIQATIGDVAQIDHSLTDHEQVIYTNFAFMVAVHARSYGTIFSTLCSSDQIEEAHE;locus_tag=LOCUS_19690;note=WP_011167011.1 class 1b ribonucleoside-diphosphate reductase subunit beta (Mycoplasma mycoides) [pid:88.1%25%2C q_cov:100.0%25%2C s_cov:17.4%25%2C Eval:3.4e-25%2C partial hit],internal stop codon at [1222820:1222822](-)%2C[1223036:1223038](-)%2C[1223057:1223059](-)%2C[1223099:1223101](-)%2C[1223123:1223125](-)%2C[1223159:1223161](-),MGA_1969
sequence1	MetaGeneAnnotator	CDS	1223631	1224356	.	-	0	ID=MGA_1970;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183526.1;translation=MVNTIIFLYYISMKKISMNDISSYVSYGINEQKFFIKKDFKPANIYLEKLRKNCTGGYINIMNTYDILIENFPYINNLSKDTINNSINQQECVKDMIYKSVYHKKEQNLRFIKNECNNKVHINMVKRFITEINAFIYKHKIHEVFANKIFMHISYKTPFIGRVDLLLKSKDEYFQIEIKTSKVNFIEKNNASLFLNKALIEDSKEIKIKESFILNIRENKVIQEYQKPKKSLEKIIFAKNF;locus_tag=LOCUS_19700;note=WP_011183526.1 hypothetical protein (Mesoplasma florum) [pid:31.5%25%2C q_cov:87.1%25%2C s_cov:95.9%25%2C Eval:2.2e-23],MGA_1970
sequence1	MetaGeneAnnotator	CDS	1224349	1226271	.	-	0	ID=MGA_1971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHERYSGGNKPGIPQDFVIPETSVKRTQLSRQNYENQLKQFMAYAINLDFNDLKVSGENANASKVEVYNDKNFVEKNLLKEVAQKKQHQEEVIAKKAQELGTMPGTISAPPSFTNVGFEDTNSDTNDNNFVIPKIKGNERVIESKENYKKNLDQYVKNAVNEDLNELPSASYDSVDLIKDVYSDKNFKVENKLLEVAQKKQHQEEVIAKKAQELGTMPGTISAPPSFTNVGFEDTNSDTNDNNFVIPKIKGNERVIESKENYKKNLDQYVKNAVNEDLNELPSASYDSVDLIKDVYSDKNFKVENKLLEVAQKKQHQEEVIAKKAQELGTMPGTISAPPSFINAGFEDTDENQEMPNRFVAPQTKVLKNDEAESIRQYKESLNRYKQNAVNIHFSDLREGDSLSISLLSQILKDKNFKFENKLLEVAQKKQHQEEVIAKKAQELGTMPGTISAPPSFINAGFVDIDENQEMPNSFIAPKADSIKEEIIEQNSTNSMPPVQKLEEEHIVPSMPTVQELEEEHIVPSIPTVQEINVTANTFEASENSSLLHKSIETPSVSNASNSVLDEKIVSELEKRMERLESAISSLNNDKAMNALKDQFEQITKQLDKISNDVGSMKNTSPKSIIDILTKRHTYNQNNG;locus_tag=LOCUS_19710;note=MGA_1971
sequence1	MetaGeneAnnotator	CDS	1226611	1226910	.	-	0	ID=MGA_1972;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDSEALNNYAEERNLISIYKEERKFEREVNKEGKFTGNADSVVQNKLKKVLDLTEKANTIDNSALPNSSSLETTQKVELSEEINKEEKVNNSSKAYLV;locus_tag=LOCUS_19720;note=MGA_1972
sequence1	MetaGeneAnnotator	CDS	1226929	1227246	.	-	0	ID=MGA_1973;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNLFNFFSNQPFGLNFFKSGKSAVSLQNVAAGSITQTTIIIIAAVMIIIAVFLYVIAIVELVRAKKRQKISKPYVKAVLVLLPVLGLLYGQVITLLLSGTLILA;locus_tag=LOCUS_19730;note=MGA_1973
sequence1	MetaGeneAnnotator	CDS	1227391	1228575	.	-	0	ID=MGA_1974;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLVATEYGKTGSDVDDIIEEMDIFDPIGSIKSEFKSLLNGYKLLDKSIFVVLKGFEKLDEIKIYESLSFLYKILHKVKPIKFVFDISAHILKDFKDSELLKKINHLVEIAIFENETHKAKVFNNQVEPPLFEQNDFVNTTDTYNFSSDDLLKFPSEHAFGIPNENNLSSFTQNQQTSFDQNINQPRDNLVSSSLKSPLGEMNLNMENHYSNNNQNHSSIPTYPGFDLPINQPMINQSQSNVSFGFPSSLKIEEEDQVQKEEYDSGIDKSIRIRIDLNLKRKEQELKERERLEEEERLERQGGRVGFNPAILVENNELQYKQNQNNSFINHFDTNNSSLVAKNVALDPRSYDEVNGKLRDMATTFAQRPAINIADSKYQQGGQKDENLLKVTGD;locus_tag=LOCUS_19740;note=MGA_1974
sequence1	MetaGeneAnnotator	CDS	1228588	1229940	.	-	0	ID=MGA_1975;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVNPFERMRKKREDEEKAKLEAEKEREKYARLGAQMGLTQEKGIMPSFIKSLIGEQKNKNIPPFGMSITSNEPISSTDNTITSFENESKKINIPNISELPLTSDQSILNNFNTNHLNEHLPSFAQPSVTQSFAQQPMEMPSFNQPNMPQPIDIPKPSFPQPSVTQSFAQQPMEMPSFNQPNMPQPIDIPKPSVTQSFAQQPMEMPSFNQPNMPQPMDIPKPSFAQPSVTQSFAQQPMEMQSFNQPNMPQPMDIPKPSFAQPSVTQSFAQQPMEMPSFNQPNMTQPMEMPSFNQPNMTQPMDIPNQSKETFNQNNNDFEKDLPGPIKSILSSDFDEQTFKNSYQKNNIKPLTFESQEIEKNRFIDPKVACLMFKDLIENVEKNSLKKQFYGLVENGSKKLSEDFVDLIDMDKIEEIELEEVFLYGTPYLFLLKQLISSLPEVDLEDKRVL;locus_tag=LOCUS_19750;note=MGA_1975
sequence1	MetaGeneAnnotator	CDS	1230039	1230548	.	-	0	ID=MGA_1976;product=Sua5/YciO/YrdC/YwlC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166355.1;translation=MLLSPLQKELAIKLLKSNEIIILPTDTIYGLSALVSEENRIKINKKKNSSLDKPLIILVSSLDQASKFIDLNEEIIKVLKDDQPTTAIFKKEFANETYAIRLVKRKDICEIIENVGPIFSTSVNISNEKFLSNQTELENFIGKKNCFYTDFLDAKPSKILDFTSKSIKR;locus_tag=LOCUS_19760;note=WP_011166355.1 Sua5/YciO/YrdC/YwlC family protein (Mycoplasma mycoides) [pid:45.3%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:4.5e-30],MGA_1976
sequence1	MetaGeneAnnotator	CDS	1230871	1231134	.	-	0	ID=MGA_1977;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKDQATEFYNAISDLNLSYFIVVHLPIVASSFLLATICVFAIIYVKRIETTRTFFISQFLCMFIEILVVIGINSYSNHEINRLIDV;locus_tag=LOCUS_19770;note=MGA_1977
sequence1	MetaGeneAnnotator	CDS	1231153	1231410	.	-	0	ID=MGA_1978;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIIYFSMFNNNFKTRTKSSSEEATVVKKNLGESKIGLLISKLSLSSEKNISIILLISSSIIFVTQFAFVINLSSSNSLLSSILQ;locus_tag=LOCUS_19780;note=MGA_1978
sequence1	MetaGeneAnnotator	CDS	1231456	1231740	.	-	0	ID=MGA_1979;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLSLLLIAFINILCSKFVYRKKAKKSYLLHIYIVMIIALLLISSALFTIAEYNYSFFYSLYCYIAQMNKTDNETLNNIIDLYSNNYVNNYNFQ;locus_tag=LOCUS_19790;note=MGA_1979
sequence1	MetaGeneAnnotator	CDS	1231741	1231962	.	-	0	ID=MGA_1980;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKNLIHDKKDNLTAKSVIACGVFLLIFLSSITFIGIYYGNPNMRVYVKNYQMINDIFGYKAAPSPLFMEIAM;locus_tag=LOCUS_19800;note=MGA_1980
sequence1	MetaGeneAnnotator	CDS	1231994	1232785	.	-	0	ID=MGA_1981;product=peptide chain release factor N(5)-glutamine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166353.1;translation=MQARELFEKNKNIIQKNQFEELIMHIKKISSKTFLYDIFLSKTEIKKFNKYLNKIKKDYPLEYITKKKYFFENDFFVNKKVLIPRPESELLVEELLKYDLIKKIIIDICCGSGCIGISIKLKNKNADLFLSDISKQCLKVTKKNLKRFNIEAKVYKEDFLNVIFKNNLTPDFLVINPPYIEIDDKNIGTSTLKHEPSLALFADQLGYKFYNILFADLDRLFLINKNLVIICEFGFNQKEQLELNFEKYRVKYKIEFNKDYSGH;locus_tag=LOCUS_19810;gene=prmC;EC_number=2.1.1.297;note=WP_011166353.1 peptide chain release factor N(5)-glutamine methyltransferase (Mycoplasma mycoides) [pid:40.6%25%2C q_cov:97.0%25%2C s_cov:92.6%25%2C Eval:6.6e-48],MGA_1981
sequence1	MetaGeneAnnotator	CDS	1232775	1233365	.	-	0	ID=MGA_1982;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKGDGVYSKMKYESGSHRVQRVPKTESKGRIQTSTATVAVLPEISDVEIDIKPSDLRIDTYRASGAGGQHINTTDSAVRITHIPTGIVSSSQDGRSQHDNKDKAMTMLRARIYESLLEKQQSEAASLRKNAVGTGARSEKIRTYNYAQNRVTDHRVNVSLNKLDQFMEGNIDEIIVELINEAQKQLIADQIENAS;locus_tag=LOCUS_19820;note=WP_011183530.1 peptide chain release factor 1 (Mesoplasma florum) [pid:78.9%25%2C q_cov:99.0%25%2C s_cov:53.4%25%2C Eval:6.8e-85%2C partial hit],internal stop codon at [1233426:1233428](-),MGA_1982
sequence1	MetaGeneAnnotator	CDS	1233426	1233866	.	-	0	ID=MGA_1983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKTIEALDTILKRVEKIDEDLLKDNIISDIKLMTELNKERSTLEDKANKYLEYKKVLTELDDAKDVLTNEKDPEMRELAKMQLEEAQTQIEKLEDEIQLLLLPRDPNDDKNVIFEIRGAAGGDEANIFAGDLFRMYTKYAEKNN;locus_tag=LOCUS_19830;note=WP_011183530.1 peptide chain release factor 1 (Mesoplasma florum) [pid:60.3%25%2C q_cov:100.0%25%2C s_cov:40.2%25%2C Eval:1.7e-44%2C partial hit],internal stop codon at [1233426:1233428](-),MGA_1983
sequence1	MetaGeneAnnotator	CDS	1233882	1234415	.	-	0	ID=MGA_1984;product=thymidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166351.1;translation=MFAGKTEEFIRRIKRYEYARQKVLVFKPEMDKRYAEKSVVSHSGIKVPAYSVSNSEQLLEVINKDHDFDVLAIDEVQFFDTNIISILDDFANQGKIIIVSGLDKDYRNDPFQNVDKLLYIAEYVDKLYAICFECGGNASRTQRIVNGVAAKLDEPLVQISGYDKYEARCRHCYIAPN;locus_tag=LOCUS_19840;EC_number=2.7.1.21;note=WP_011166351.1 thymidine kinase (Mycoplasma mycoides) [pid:52.0%25%2C q_cov:99.4%25%2C s_cov:85.6%25%2C Eval:8.8e-51],MGA_1984
sequence1	MetaGeneAnnotator	CDS	1234698	1234853	.	-	0	ID=MGA_1985;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKAFQKAEFVMGYPIAFIKIENADHENLNLHEEEVKSALYTMSNIKEIAI;locus_tag=LOCUS_19850;note=MGA_1985
sequence1	MetaGeneAnnotator	CDS	1234854	1235009	.	-	0	ID=MGA_1986;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYGLITDSNRFMYDKTNNETFEAAMFLISFGIEIKKIYDSLYLKNLKSVK;locus_tag=LOCUS_19860;note=WP_011166350.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Mycoplasma mycoides) [pid:54.2%25%2C q_cov:94.1%25%2C s_cov:15.2%25%2C Eval:2.9e-08%2C partial hit],internal stop codon at [1234698:1234700](-)%2C[1234854:1234856](-)%2C[1235055:1235057](-),MGA_1986
sequence1	MetaGeneAnnotator	CDS	1235055	1235348	.	-	0	ID=MGA_1987;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDIIVNNFQNKNVFIVGHIVGDETKIFEDEKLLNDEIIKSSLLITVDTANLERLDFQNKNEVKEIFKVDHHIKVDNYGNEELVDESAIACTQIIAL;locus_tag=LOCUS_19870;note=WP_011166350.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Mycoplasma mycoides) [pid:45.4%25%2C q_cov:100.0%25%2C s_cov:30.7%25%2C Eval:1.9e-20%2C partial hit],internal stop codon at [1235055:1235057](-)%2C[1235373:1235375](-),MGA_1987
sequence1	MetaGeneAnnotator	CDS	1235831	1236142	.	-	0	ID=MGA_1988;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFSIKNNLFKFSSINNVYFQLLEAIYNKKYNIVFYNVFQKLSREESDQLVEVVQNLKKVNKKFCVVFLENSLENIYKLKDRVYLVQESKIEETNFSKILKEK;locus_tag=LOCUS_19880;note=MGA_1988
sequence1	MetaGeneAnnotator	CDS	1236170	1236355	.	-	0	ID=MGA_1989;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFEALLDESTMIRGKIVEVMHKYHKYVLENKIEDGNKKEFNKSKQEYKDAIKKISVQANE;locus_tag=LOCUS_19890;note=MGA_1989
sequence1	MetaGeneAnnotator	CDS	1237127	1237336	.	-	0	ID=MGA_1990;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFYIRNAKFLNKKVLPQDVTFDLNDGEIINVISSEKNLLKNFKNILQGKHLVKSGYFKVDGYDKVNKN;locus_tag=LOCUS_19900;note=MGA_1990
sequence1	MetaGeneAnnotator	CDS	1239696	1240232	.	-	0	ID=MGA_1991;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKNKMEIIKAVIDEKLSKKAAAIKICQTIRNVNLLINKYKKYGYTAFIHKNTGRISNKKIKHQISDQIIDLYINKYEEYNYKHFLEKLLSNHQISVSYTYLINLLKKNNLYSPRIHKVTKKMIKQKITNLLKNENIKKLEKREYLNTLLSIENIHPMQNRKTEFGERLQTDASVHY;locus_tag=LOCUS_19910;note=MGA_1991
sequence1	MetaGeneAnnotator	CDS	1240862	1241197	.	+	0	ID=MGA_1992;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKAALLATEKKDIIENEEIKLKEMKEIIAIYDDKSYLENEDFIKLTNLQDEYEIEFNELSEIQDMFIHLVKAALDKAMKISEKLAECEVKYNNNIKNLRKLFLSITRIEE;locus_tag=LOCUS_19920;note=MGA_1992
sequence1	MetaGeneAnnotator	CDS	1241349	1241639	.	-	0	ID=MGA_1993;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKTDIHPKYFEAKFVCTTCSNEFISGSTKGEEVRIDTCSNCHPFYTGKQNFANAEGRVEKFKEKFVKKEAKVAEKEAASNKQKEANKANKSAKSK;locus_tag=LOCUS_19930;note=WP_011183534.1 50S ribosomal protein L31 (Mesoplasma) [pid:74.6%25%2C q_cov:60.4%25%2C s_cov:64.1%25%2C Eval:2.9e-21%2C partial hit],MGA_1993
sequence1	MetaGeneAnnotator	CDS	1241868	1242752	.	-	0	ID=MGA_1994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSACPCAIGIAIPLAIAIGSSKAAKQGVIFNKPDAFYKLANINVIGFDKTGTLTVGKVKVKSYEGRQNYLNIIALIEEQIDHPIANGFKNYIREINYETSKLEVKKIEDLKYKINSKTYELLPIFKYKNEMKSSINIDFKSIDNTATLLLEDNVVVAKIEFEDELRRDAILAVNKLKKQGYELVIVTGDNYTISKNVAKKLNIKNLYAEQSAEDKLNVIKDFQNQKKAIAYVGDGINDILAIQKADLSISILSKNAFLNLESDISLLNPNIDLIVESIKYAKYTKKIIFTNLF;locus_tag=LOCUS_19940;note=WP_011016257.1 heavy metal translocating P-type ATPase (Fusobacterium nucleatum) [pid:32.6%25%2C q_cov:96.3%25%2C s_cov:38.4%25%2C Eval:1.6e-32%2C partial hit],internal stop codon at [1241868:1241870](-)%2C[1242801:1242803](-),MGA_1994
sequence1	MetaGeneAnnotator	CDS	1242801	1243403	.	-	0	ID=MGA_1995;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLVFLSTQTAICFSIYQFIINENLDLIEVTIFVSLFLQTGDLINDKLKSFIATDLKNILSIQPKKVLLIENNEEKLANTTSIKVGSIIKVLKNQIIPLDGKIISDEVLLNTQIIDGENESKRFVKNDVIFAGMLNLSEELIFKNTQNSFDSFLSKITMKVSSIQSEKSKLKSTIDMLITIFTPIVLLLSLIGFLVSYF;locus_tag=LOCUS_19950;note=WP_000024139.1 heavy metal translocating P-type ATPase (Staphylococcus) [pid:25.1%25%2C q_cov:98.5%25%2C s_cov:25.3%25%2C Eval:9.3e-13%2C partial hit],internal stop codon at [1242801:1242803](-),MGA_1995
sequence1	MetaGeneAnnotator	CDS	1243618	1243836	.	-	0	ID=MGA_1996;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKQIKIHVDSLDCAACAATIGKAFEKIKIINHNVIIPLKEVYVNFDEEQIDEEQILKTLKQSGYKGKLVND;locus_tag=LOCUS_19960;note=MGA_1996
sequence1	MetaGeneAnnotator	CDS	1244087	1244356	.	-	0	ID=MGA_1997;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPMVLHGGSGVPQDQVEKAISLGISKINVNTELQLAFRDATRKYIEEKKDLDDEEKGFDPRKLLNPGFKAMKNTFVELTKVFGCYGKAK;locus_tag=LOCUS_19970;note=WP_011183540.1 class II fructose-1%2C6-bisphosphate aldolase (Mesoplasma florum) [pid:83.0%25%2C q_cov:98.9%25%2C s_cov:29.7%25%2C Eval:6.4e-37%2C partial hit],internal stop codon at [1244405:1244407](-)%2C[1244408:1244410](-),MGA_1997
sequence1	MetaGeneAnnotator	CDS	1244408	1244794	.	-	0	ID=MGA_1998;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGLKTIVGMVNGLLDEMNITVPVALHLDHGQSVEMAKKCIEAGYSSVMFDGSHLPYEENLAKVKELIGFAKEHEVSVEAEIGSIGGNEDGVVGSGELGDPKQAEEMSKTGIDFLAAGIGNIHGKYPE;locus_tag=LOCUS_19980;note=WP_011183540.1 class II fructose-1%2C6-bisphosphate aldolase (Mesoplasma florum) [pid:85.2%25%2C q_cov:100.0%25%2C s_cov:43.2%25%2C Eval:2.3e-58%2C partial hit],internal stop codon at [1244405:1244407](-)%2C[1244408:1244410](-)%2C[1244873:1244875](-),MGA_1998
sequence1	MetaGeneAnnotator	CDS	1245051	1245497	.	-	0	ID=MGA_1999;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVACIEFARNVLGLSEAHSTEINPTTNNKIFDLMEGKDRENIGGTLRLGEYQADLKPGSLANKLYNSNIAIERHRHRYEFNNDFIKQFEDNGMIFSGKYLEKNLVEIVEIPNHKFFIASQYHPEFTSRPIKPNPLFKGFVKAIIDNK;locus_tag=LOCUS_19990;note=WP_011166338.1 CTP synthase (Mycoplasma mycoides) [pid:61.9%25%2C q_cov:99.3%25%2C s_cov:27.6%25%2C Eval:8.9e-49%2C partial hit],internal stop codon at [1245663:1245665](-),MGA_1999
sequence1	MetaGeneAnnotator	CDS	1245816	1246160	.	-	0	ID=MGA_2000;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKGKNNVMFIHVALLPYLKVSGEYKTKPIQHSVKEMLSLGIQPDIIVARTESSIKDRLKSKISLFCNIPISNVIVCPDSDSIYKVPLVLKETKMHEIVAKHLDLKIKELRLEG;locus_tag=LOCUS_20000;note=WP_011183544.1 CTP synthase (Mesoplasma florum) [pid:60.2%25%2C q_cov:99.1%25%2C s_cov:21.2%25%2C Eval:2.4e-31%2C partial hit],internal stop codon at [1245663:1245665](-)%2C[1245816:1245818](-)%2C[1246380:1246382](-),MGA_2000
sequence1	MetaGeneAnnotator	CDS	1246380	1246646	.	-	0	ID=MGA_2001;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKYIFITGGVVSGLGKGITGSSLGVLLKNSGLKVFMQKFDPYLNIDPGTMNPIEHGEVYVTVDGGETDLDLGHYERFIDENLSKVSS;locus_tag=LOCUS_20010;note=WP_011166338.1 CTP synthase (Mycoplasma mycoides) [pid:83.0%25%2C q_cov:100.0%25%2C s_cov:16.5%25%2C Eval:2.0e-38%2C partial hit],internal stop codon at [1246380:1246382](-),MGA_2001
sequence1	MetaGeneAnnotator	CDS	1246704	1246886	.	-	0	ID=MGA_2002;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSESSLFDDGDTTSKLETAKLKLNADDYDDEDDIDELDEEEDEESDEITLVDLEDDYDN;locus_tag=LOCUS_20020;note=MGA_2002
sequence1	MetaGeneAnnotator	CDS	1247202	1247678	.	-	0	ID=MGA_2003;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLKDLYLQNYNFKNNEVVEVFKDFFDDKVCNLETYLRLDDYSMIEFMKKTSEEDDEVLRDFSDRMINRRFLAVSTNIEQEKLNSWKNNVKKEYQKYYFDKIDKITLTIYSKDEEKKKIYFIKEDGSLVEMSEISEILREVTTNIEKNLFVFVNDNVQ;locus_tag=LOCUS_20030;note=WP_011183546.1 HD domain-containing protein (Mesoplasma florum) [pid:29.0%25%2C q_cov:88.6%25%2C s_cov:35.8%25%2C Eval:3.0e-11%2C partial hit],internal stop codon at [1247682:1247684](-)%2C[1247838:1247840](-),MGA_2003
sequence1	MetaGeneAnnotator	CDS	1247838	1248392	.	-	0	ID=MGA_2004;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYIRDNVHGDVKIEESVIADLINTSEFQRLRRIIQLGGGQFVFPGANHTRFSHCIGVYQVIRKFLANEDIKSQINNYDRKTVLIAGLLHDIGHGPFSHTFEKISKAQQHEVYTIDIILGNTQVNSVLKKHLIDPNDVANIINGTHKNTFLNSLVSSQLDADRLDYLLRDSINTGVDYANLDLD;locus_tag=LOCUS_20040;note=WP_011166336.1 HD domain-containing protein (Mycoplasma mycoides) [pid:56.3%25%2C q_cov:98.9%25%2C s_cov:44.8%25%2C Eval:1.8e-52%2C partial hit],internal stop codon at [1247682:1247684](-)%2C[1247838:1247840](-),MGA_2004
sequence1	MetaGeneAnnotator	CDS	1248400	1248627	.	-	0	ID=MGA_2005;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKDLKEGLSSLDIFEEEQIKTIISEVGKKHNKKGKDLFMPIRIFTTASEHGPELAKTISLIGKEKVMNNISSLV;locus_tag=LOCUS_20050;note=WP_011183547.1 glutamate--tRNA ligase (Mesoplasma florum) [pid:50.0%25%2C q_cov:98.7%25%2C s_cov:15.4%25%2C Eval:4.5e-14%2C partial hit],internal stop codon at [1248769:1248771](-)%2C[1248862:1248864](-)%2C[1248877:1248879](-),MGA_2005
sequence1	MetaGeneAnnotator	CDS	1249144	1249587	.	-	0	ID=MGA_2006;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSKKFDRYKQLAHDLIEKGFAYKCFCTPEELQVDREVQEAKGIVATKYNRKCLTRTDLKEQEGKPYNIRFKVPDEKIIKINDIVRGEVEFNTKELGDFVILKSNGIATYNFAVVIDDVDMEITHVVRGEEHISNTPRQCLIYSAFG;locus_tag=LOCUS_20060;note=WP_011166335.1 glutamate--tRNA ligase (Mycoplasma mycoides) [pid:65.1%25%2C q_cov:99.3%25%2C s_cov:31.1%25%2C Eval:7.1e-51%2C partial hit],internal stop codon at [1248862:1248864](-)%2C[1248877:1248879](-)%2C[1248988:1248990](-)%2C[1249144:1249146](-)%2C[1249645:1249647](-),MGA_2006
sequence1	MetaGeneAnnotator	CDS	1249645	1249836	.	-	0	ID=MGA_2007;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKFRLRYAPSPTGFLHIGNTRTALMNYLFAHHYGGDFIVRIEDTDIERNVEGAIESQFDNMD;locus_tag=LOCUS_20070;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:1.2e-27%2C partial hit],internal stop codon at [1249645:1249647](-),MGA_2007
sequence1	MetaGeneAnnotator	CDS	1249838	1250311	.	-	0	ID=MGA_2008;product=2-C-methyl-D-erythritol 2%2C4-cyclodiphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011459082.1;translation=MFKVGFSKDMHRIFPLSKNGILGGMNHQSFPKIMNAYSDGDVLLHSLCEAFLGAMGLEDLGTYYNSKTKPKDFSSLEIVNDILKLLEERNYNISNIDILIELEKPNLKDIKPAIKNNIAKLFNINLDQVSIKATTTEKSNYEFISVFSNVLIYKGEK;locus_tag=LOCUS_20080;gene=ispF;EC_number=4.6.1.12;note=WP_011459082.1 2-C-methyl-D-erythritol 2%2C4-cyclodiphosphate synthase (Desulfitobacterium hafniense) [pid:37.2%25%2C q_cov:90.4%25%2C s_cov:89.2%25%2C Eval:2.1e-20],MGA_2008
sequence1	MetaGeneAnnotator	CDS	1250629	1251513	.	-	0	ID=MGA_2009;product=redox-regulated ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167065.1;translation=MGLQVGIVGLPNVGKSTLFNAITNSKVEAANYPFATIEPNVGVVEVPDRRLDNLAKIFGSKKTIYTTIEFVDIAGLIAGASKGEGLGNAFLANIRETDAICEVVRCFDSKDITHVEGSVDPIRDVEIIELELILSDEASVKKRLAKVEPKFKSTKEKNIIAEYNLLKKCEQQLSEGKLLNKLDFDSEEESLLRSFQLLTTKKIIYVANVSESEILSDNDYVKKLKDYAKENNCEVVKISARIEEELSELDSEEKEVFLQDAGIEEPGLEVLIKAAYKTLGLKTFFTAGPIEARG;locus_tag=LOCUS_20090;gene=ychF;note=WP_011167065.1 redox-regulated ATPase YchF (Mycoplasma mycoides) [pid:68.6%25%2C q_cov:99.7%25%2C s_cov:80.2%25%2C Eval:4.0e-108],internal stop codon at [1250629:1250631](-),MGA_2009
sequence1	MetaGeneAnnotator	CDS	1251535	1252407	.	-	0	ID=MGA_2010;product=ParB/RepB/Spo0J family partition protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003562946.1;translation=MAASKKKYNFKGLDDIFGESVTDIIDVIENDKKLAKEKTLIISVDLLKPNPYQPRKVFEQEELVNLAESIKLHGIIQPIIVNDKNEIVAGERRMRAAKLAGLKEVPVIVLTLSNAQMEEFAIIENIQRVDLTDIEEANAYKQLSMSLKLKQEEIAIRVGKSRSHIANIMRLLNLPKKVQDALLQKKITMGQAKPLLTILGNESLLEDIFQKTIDQNLTARDVENLVKNAGKEKQETIKEPKSPNIIQTENRIMRRLGTKVTIDNKKITIGYSSEADLNRVLEILGLLEED;locus_tag=LOCUS_20100;note=WP_003562946.1 ParB/RepB/Spo0J family partition protein (Lacticaseibacillus) [pid:44.1%25%2C q_cov:95.2%25%2C s_cov:96.9%25%2C Eval:9.4e-54],MGA_2010
sequence1	MetaGeneAnnotator	CDS	1252394	1253167	.	-	0	ID=MGA_2011;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963269.1;translation=MAKIISVANQKGGVGKTTTAINLACGLAMADQKVLLIDMDPQFNATTGVGFEIDNKTLSMYHVFVGEKTLEEIIIKDIKKNVDLAPSSIDVAAVDLILLEQKNNNQNVLKDQINLIRDKYDFVIIDCPPSLGLINRNGLAISDTVLVPIQAEHYAMHGVAQLLRTIKKVKETLNKNLTVEGVLVTMFDSRTRLAHDVLEEIMKTFGNKVYKAIIPRNIKISESSIEGQSIFEYDKSGPGALAYVEFVKEVLKENGRI;locus_tag=LOCUS_20110;note=WP_011963269.1 AAA family ATPase (Flavobacterium psychrophilum) [pid:47.3%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.4e-66],MGA_2011
sequence1	MetaGeneAnnotator	CDS	1253186	1253824	.	-	0	ID=MGA_2012;product=16S rRNA (guanine(527)-N(7))-methyltransferase RsmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183558.1;translation=MLITYKELLQEENQKYNLTTIIDDQEIYLKHFIDSVLFIKEFEINNQKIMDIGTGAGFPGLVIKILFPDTSVFLVESNNKKINFLNLVINKLGLKNIYTVNKRAEEYSTETKEQFDIVISRAMAPLNILLEVGVQAIKIKGHFICLKAKNVFQEITQLNGKEHLIGLKLIKEQNLLIENIGERINLFYEKVTKTNDNYPRLYSQIKKKPLGS;locus_tag=LOCUS_20120;gene=rsmG;EC_number=2.1.1.170;note=WP_011183558.1 16S rRNA (guanine(527)-N(7))-methyltransferase RsmG (Mesoplasma florum) [pid:51.0%25%2C q_cov:96.2%25%2C s_cov:86.1%25%2C Eval:2.8e-53],MGA_2012
sequence1	MetaGeneAnnotator	CDS	1254320	1255030	.	-	0	ID=MGA_2013;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSTSNKGIDDYLRKETRIILEILLSIIILLVIQYLNYKSDKGGKLLQIICSTIKFIPLIMVLVGGIALYTSGQVQSNSFNSEHEPFKVNQIFAALIPVLFAFDGFIDSVTLQKDIEHKSVVAPAMLSGIIACALFYLLVTVSIFISSDDGNVLNLFKAYPALALVFKIIIVLTLITSVNAYSNVYTKVIKAAILENSYVKNLKNINLSNKKLQITAILINIGTLIFFVTVSLLVT;locus_tag=LOCUS_20130;note=WP_011167059.1 APC family permease (Mycoplasma mycoides) [pid:26.0%25%2C q_cov:86.4%25%2C s_cov:44.1%25%2C Eval:1.8e-14%2C partial hit],internal stop codon at [1254320:1254322](-)%2C[1255136:1255138](-)%2C[1255259:1255261](-),MGA_2013
sequence1	MetaGeneAnnotator	CDS	1255259	1255432	.	-	0	ID=MGA_2014;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MININKKNKFKNKVFEFLVLFSMTFGIVVGSGIYLKNSSENGVLAAAGKNPYIAIAV;locus_tag=LOCUS_20140;note=MGA_2014
sequence1	MetaGeneAnnotator	CDS	1255436	1256248	.	-	0	ID=MGA_2015;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKYIEGLYTAGQINGTSGYEEAAGQGLIAGINAVKKINNERPLILKRNESYIGVMIDDLINKGVIEPYRLLTSRAENRLSLRNDNAEIRLKKYGYEVGLINEDQFKEFIKYKKEIDQTIELLKTLRFSPKTDLAKDLLKNGEAELTQGLSAYEILKQPKVKLNTLKKHIAELNLLSNNQLQNILINIRFEGYIKKENETIERFNKLEAKQIPLDIDYSKVENIAVEAKQKLEKVRPLSIGQASRITGVNPADIQMLLFYLKKKYNEAK;locus_tag=LOCUS_20150;note=WP_011167160.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Mycoplasma mycoides) [pid:64.3%25%2C q_cov:98.5%25%2C s_cov:42.3%25%2C Eval:1.8e-93%2C partial hit],internal stop codon at [1256300:1256302](-),MGA_2015
sequence1	MetaGeneAnnotator	CDS	1256300	1257001	.	-	0	ID=MGA_2016;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHDVVVSQKNLQLLIGAVNDIILDKNNKVVGVKLEDKTLINCKAVILTTGTYLTSLIYRGEEKFQSGPNEERTTTGLSKVFKDLNIKTFRFKTGTPPRVKKDSIDLSKANLEPGTNMKLAFSFSTSNPIEFEKQEPCYLIHSTLETKEIIEKNLHRSAMYSGQIESVGPRYCPSFEDKIVRFNKKDTHQIFLEPESLSLDTLYVQGFSTSMPIEVQEKMLKSLPGFENVVVDK;locus_tag=LOCUS_20160;note=WP_011167160.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Mycoplasma mycoides) [pid:66.2%25%2C q_cov:99.1%25%2C s_cov:36.7%25%2C Eval:3.2e-85%2C partial hit],internal stop codon at [1256300:1256302](-)%2C[1257044:1257046](-),MGA_2016
sequence1	MetaGeneAnnotator	CDS	1257044	1257310	.	-	0	ID=MGA_2017;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEADIVVVGAGHAGVEAALASARLGKKTILVNLYEDKIATMPCNPSIGGPAKGIVVREIDALGGEMAKAADATAIQMKLLNSSRGPGV;locus_tag=LOCUS_20170;note=WP_011167160.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Mycoplasma mycoides) [pid:87.1%25%2C q_cov:96.6%25%2C s_cov:13.5%25%2C Eval:1.4e-36%2C partial hit],internal stop codon at [1257044:1257046](-),MGA_2017
sequence1	MetaGeneAnnotator	CDS	1257562	1257756	.	-	0	ID=MGA_2018;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKYFDGLLPKKEVAKNNYLVKIGEETIVNYKKFMDKYDMSSAIKEVLKLSQECNKFIEDTKP;locus_tag=LOCUS_20180;note=WP_011182933.1 methionine--tRNA ligase (Mesoplasma florum) [pid:43.8%25%2C q_cov:100.0%25%2C s_cov:12.6%25%2C Eval:9.8e-09%2C partial hit],internal stop codon at [1257562:1257564](-)%2C[1257835:1257837](-)%2C[1257973:1257975](-),MGA_2018
sequence1	MetaGeneAnnotator	CDS	1258219	1258518	.	-	0	ID=MGA_2019;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKDLIFLSDYKGKYCISCEEFLTFEQMDKDFVHNVCKNTAIDFQEETYMLRVSKFQKYLQDLFKTDFLEPESRKNEMLNSFINTGLEDLSVTRVSFK;locus_tag=LOCUS_20190;note=WP_011166223.1 methionine--tRNA ligase (Mycoplasma mycoides) [pid:48.5%25%2C q_cov:100.0%25%2C s_cov:19.4%25%2C Eval:6.9e-23%2C partial hit],internal stop codon at [1257973:1257975](-)%2C[1258099:1258101](-)%2C[1258174:1258176](-)%2C[1258219:1258221](-)%2C[1258603:1258605](-),MGA_2019
sequence1	MetaGeneAnnotator	CDS	1258603	1258848	.	-	0	ID=MGA_2020;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTFYVSTPIYYPSGKLHIGHTYTSTLADVMARYKKENFYDVFFLTGSDEHGQKIEQKAKEQNKSPKEYVDEIVLTFKDL;locus_tag=LOCUS_20200;note=WP_011166223.1 methionine--tRNA ligase (Mycoplasma mycoides) [pid:67.9%25%2C q_cov:100.0%25%2C s_cov:15.9%25%2C Eval:5.4e-28%2C partial hit],internal stop codon at [1258603:1258605](-),MGA_2020
sequence1	MetaGeneAnnotator	CDS	1258853	1259371	.	-	0	ID=MGA_2021;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005817255.1;translation=MEEKINLITLITEEEIKGAIRKIAVELAKTYEGEQLTIVAELSSAFVFVADLIRELPIDVTIQFIVKNKQSDARSVIDLGVETSLKNRHVLLVTDVFYRGNTLKQVYDIVQSEEPLDVKVLALIDKKCKTKNEEIPVISLFSTEDVLLVGYGLTHNESYRGLKGIYNLVLEG;locus_tag=LOCUS_20210;gene=hpt;EC_number=2.4.2.8;note=WP_005817255.1 hypoxanthine phosphoribosyltransferase (Desulfitobacterium) [pid:32.3%25%2C q_cov:89.0%25%2C s_cov:87.3%25%2C Eval:6.4e-19],MGA_2021
sequence1	MetaGeneAnnotator	CDS	1259355	1259735	.	-	0	ID=MGA_2022;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPDVYNIMVYILNRMTNTIKNLVVNKENIENHIKEANNLFFSQRVLTYILMKYNYSREEVYDFIQACTLEAQKTGTDFKKALKDKGILNFIKSENEFDQLFNIQFFLRNVDKIFERVLKENGRKN;locus_tag=LOCUS_20220;note=WP_020862972.1 adenylosuccinate lyase (Mycoplasma mycoides) [pid:47.9%25%2C q_cov:95.2%25%2C s_cov:27.8%25%2C Eval:5.1e-26%2C partial hit],internal stop codon at [1259775:1259777](-),MGA_2022
sequence1	MetaGeneAnnotator	CDS	1259775	1260119	.	-	0	ID=MGA_2023;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNYANIEMEVEEFVAKKMNLNVDNISTQVTQRDRHAFLISVLSNLASTLEKIGIEIRHFQRSEVNEVCEGFDKGQKGSSSMPHKKNPISSENVSGLARYIRSFVTMGYENNLL;locus_tag=LOCUS_20230;note=WP_011182972.1 adenylosuccinate lyase (Mesoplasma florum) [pid:72.8%25%2C q_cov:100.0%25%2C s_cov:26.4%25%2C Eval:1.8e-42%2C partial hit],internal stop codon at [1259775:1259777](-)%2C[1260198:1260200](-)%2C[1260237:1260239](-)%2C[1260408:1260410](-),MGA_2023
sequence1	MetaGeneAnnotator	CDS	1260237	1260377	.	-	0	ID=MGA_2024;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTAQNKMIQMSNDLVQEAIEKLLEAVLEKANENRKQIIMGRSHGM;locus_tag=LOCUS_20240;note=MGA_2024
sequence1	MetaGeneAnnotator	CDS	1261050	1261454	.	-	0	ID=MGA_2025;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDVEIVDFDHTYNSLIENYKKIKEQVIDCGEYLESAIKEGKKVLFEGAQGAMLDIDHGTYPFVTSSNCSASNVALGSGISFKYIDSVLGVVKAYSTRVGAGGFPAELLDEIGDGIRQRGNEYGSNTKRPRRVG;locus_tag=LOCUS_20250;note=WP_011182971.1 adenylosuccinate synthase (Mesoplasma florum) [pid:70.9%25%2C q_cov:100.0%25%2C s_cov:31.2%25%2C Eval:2.3e-50%2C partial hit],internal stop codon at [1260846:1260848](-)%2C[1261050:1261052](-)%2C[1261482:1261484](-),MGA_2025
sequence1	MetaGeneAnnotator	CDS	1261482	1261736	.	-	0	ID=MGA_2026;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEEFDMIKKTFINHGTLLISNRAQLVLPYHIQIDEAQELARGKNKIGTTKRGIGPAYQDKVSRSGIRVGDVGLPNFKEKFKKV;locus_tag=LOCUS_20260;note=WP_011182971.1 adenylosuccinate synthase (Mesoplasma florum) [pid:61.0%25%2C q_cov:97.6%25%2C s_cov:19.1%25%2C Eval:5.9e-22%2C partial hit],internal stop codon at [1261482:1261484](-)%2C[1261938:1261940](-),MGA_2026
sequence1	MetaGeneAnnotator	CDS	1261990	1262556	.	-	0	ID=MGA_2027;product=aminoacyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182974.1;translation=MAKLIVGLGNPGKQYELTRHNTGFIAIDFLLDYYQYQNTKEDFKSILYFSSINNEKVIFAKPQTYMNLSGEALIMIMHFYKIKTEDIIIIYDDKDLELGRIRFREQGSSGGHNGIKNIIKHLGCEKFNRIKIGIDPPAENFKIVDWVLSKLSQEEIQIIKSSVNNIKNFVKDFAAKTEFKKIVSAYNK;locus_tag=LOCUS_20270;gene=pth;EC_number=3.1.1.29;note=WP_011182974.1 aminoacyl-tRNA hydrolase (Mesoplasma florum) [pid:51.4%25%2C q_cov:98.4%25%2C s_cov:99.5%25%2C Eval:1.3e-53],MGA_2027
sequence1	MetaGeneAnnotator	CDS	1262559	1263593	.	-	0	ID=MGA_2028;product=ribose-phosphate diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020863017.1;translation=MDKSNIKIFGLSASKELAKKVCDALGVKESVAMTSKFEDGELIVQSLDSVRGQEIYIIQSTNNPVNENLMELLIAIDAFKRASAAKINVVIPYFGYARQDRKARGRQPISARLVANLLETAGANRVIMVDIHSTQSMGFFNIPTDNFSTAQTVAEDIISKIIEKKLNPEECILVSPDHGGLTRVHNVGKYTGNIAKGIAVIAKRRPEPNKSEVEFILGEVKDKVCFVIDDMIDTAGTIINGAKALKEEGAKDIYLIACHGVFSGPAVERMKSAVQERVVKEVIITDTIEQPKEKLFEGLKIISVAGLLANMIKSSYEKHPLTDVYQEYQDSIVEKVEKYIKEII;locus_tag=LOCUS_20280;EC_number=2.7.6.1;note=WP_020863017.1 ribose-phosphate diphosphokinase (Mycoplasma mycoides) [pid:65.0%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:2.1e-130],MGA_2028
sequence1	MetaGeneAnnotator	CDS	1263878	1264468	.	+	0	ID=MGA_2029;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLVSINNITHKNGDKKLYEDTAIKLNKGEHIALIGPNGAGKTTLLNIIAKKIVPDKGEVKIHEKTKIGYLDQHQDVDLNLTVDQYLKFAFKDLYELESRIHKIYEDMAIEYNENELVKALKYQDILNHNDFDMIDKKIGNLIDGLGIGLDKLNMKMGELSGGQKGKVMLAKLLLSGNDFLLLDEPTNFLDIQQVE;locus_tag=LOCUS_20290;note=WP_011166322.1 ABC-F family ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:60.2%25%2C q_cov:100.0%25%2C s_cov:38.3%25%2C Eval:3.8e-67%2C partial hit],internal stop codon at [1264466:1264468](+),MGA_2029
sequence1	MetaGeneAnnotator	CDS	1264508	1265374	.	+	0	ID=MGA_2030;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSHDNDFINKTCNIIYALDNFRLTRFVGNYDKYLQDSQMLKDQYDKAVVSQQKEIKKLETYIAKNIARASTSRSAQSRVKTLNKIDVLQERRELVKPKFSFMYKRPSTAVVLQAKNLVIGYDHPLLHALNFELREGEKCIISGKNGIGKTTFLKTVSTEINAYEGSVELGNGVQYAYFKQIEDVHGITPVQYLLNKFPDISDSEARAKIGQFGLKSSLMMQPMEKLSGGEQTRIRLAALSMIPCSLLVLDEPTNHIDVLAKEALLEAIQAFKGTVLLTTHDINFSTL;locus_tag=LOCUS_20300;note=WP_011182950.1 ABC-F family ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:60.4%25%2C q_cov:99.7%25%2C s_cov:56.2%25%2C Eval:2.2e-95%2C partial hit],internal stop codon at [1264466:1264468](+)%2C[1265372:1265374](+),MGA_2030
sequence1	MetaGeneAnnotator	CDS	1265425	1266120	.	-	0	ID=MGA_2031;product=4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002859130.1;translation=MKKIKAFAKVNLYLEVFPKDSNGYHKINSLITYVKDLYDEIIIEKNTNEDIVVCNIKELEKTNFIYQVLKILRKNLVIKDFYKITLKKNIPIGAGLGGGTSDAISLAKFFKCDKVSAEQICKKIGYDSYFFYSKYKTALVSGYGELVSKYKKKITIRKKDLIFTNINCDTKKVYEAFDKLDYEHTEKQNNLTKAACKLYPILNNYLKIGQMSGSGSTFIYKYKIENIKKSF;locus_tag=LOCUS_20310;EC_number=2.7.1.148;note=WP_002859130.1 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase (Campylobacter) [pid:29.5%25%2C q_cov:92.6%25%2C s_cov:97.6%25%2C Eval:2.1e-17],MGA_2031
sequence1	MetaGeneAnnotator	CDS	1266107	1266907	.	-	0	ID=MGA_2032;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_011166215.1;translation=MEPAKKKFGQNFITDKNLIKKIINILDQEPDHLIIEIGPGRGALTLELCNRFKKVVAIEIDSDMEMILKSNIPNNNLDLIINDVLKINFENLIKDKYNRISIISNTPYYITSEIIFKTLKISQKINKAVFMVQKEVAERICAKANEKNYNNLSVACQFYSNLKYEFTVKKNLFTPIPKVDSAIISMSFIQDNIGKVNDDIKFVSFVRKLFNNKRKTILNNLTNITNNKQKSLKVLDEIKIDSNKRPENISLNEFINLFNEVQNEKN;locus_tag=LOCUS_20320;gene=rsmA;EC_number=2.1.1.182;note=WP_011166215.1 16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA (Mycoplasma mycoides) [pid:57.9%25%2C q_cov:97.0%25%2C s_cov:97.4%25%2C Eval:9.0e-77],MGA_2032
sequence1	MetaGeneAnnotator	CDS	1267068	1267442	.	-	0	ID=MGA_2033;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKQVIIVEGKSDTAKLKIIFGECNIETIETNGLALDNSTLELIRDINKARGVIIFTDPDGPGVKIRDVINSYLDFKCFNAFINKKNIKNTKKIGIAEAEEKDIREALDNLIIFNSNNKQSIS;locus_tag=LOCUS_20330;note=WP_011166214.1 ribonuclease M5 (Mycoplasma mycoides) [pid:55.5%25%2C q_cov:95.2%25%2C s_cov:66.7%25%2C Eval:7.1e-28%2C partial hit],internal stop codon at [1266963:1266965](-)%2C[1266999:1267001](-)%2C[1267068:1267070](-),MGA_2033
sequence1	MetaGeneAnnotator	CDS	1267645	1268532	.	+	0	ID=MGA_2034;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003546749.1;translation=MAYDVHTNTVIAFGEQAYEMVGKTNEDVRMVVPLVDGVIADLDAAKDLIKIIFSRIKLSDILKNALVVLACPSGVTELERGALKQVVADMGAKNVLVEEEVKLSAIGAGINISIASGHLVVDIGGGTTDIAIISAGEIIISRSIKTAGNHFDEEIRKYIRAEYNVLIGIKTAEKIKVEIGALTKIDNGRTFRAFGRDVISGLPREVVISPDEVKNALLAPFSKITDLIVEVMENTPAELAGDIIRNGITICGGGALLRGIDTYFESIFQLKVIKAQDPLLTVIEGTKEYEKQIEK;locus_tag=LOCUS_20340;note=WP_003546749.1 rod shape-determining protein (Lactobacillus acidophilus) [pid:37.3%25%2C q_cov:100.0%25%2C s_cov:89.7%25%2C Eval:8.7e-55],MGA_2034
sequence1	MetaGeneAnnotator	CDS	1268717	1270252	.	+	0	ID=MGA_2035;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSILSSLALVCQGATIVDACKKKQAASAGNRSENKDQLQKIQDQTMYEEKTKIVVVRAKELINDAQVSAVSSDENLLTASITNYNKEKGFFEVELLAKKEGQAKVTVKYDKTELSFNVNVLKRKSNEPNYENIENLKLHKSSTSPFFVNFSHPVKGSKYEIIAVDKSLVELDRNTGTDENGTGEIEFLIKCIEKGTTKLLINYENVQSVINLEIEEKDDQPNFEYIQDEVVVVKKTIHKKIVVHNPNDSTLKASIGDQSGITVTVGSENVVDGDNFKMYDLEIKGGDNATGDITVTLSYGTINAHFKVKVQNEPKLSVVGQPIVHEGSYKEFELNVENRIQYAQIDVEVINKNNIDAFSMNDFDLDTTKSLKIIVYGLSKTEEECTINITYHKEYKTQIKVKVEAKKQDPPAISGVNEGETINLSKMQGRAISIYIENPISTEMLTTDFDNNLNKDKLKVTIQGVKGDSHYTVFLISDKATFSGSDALTVTLKYSSASDLSFKVEVE;locus_tag=LOCUS_20350;note=MGA_2035
sequence1	MetaGeneAnnotator	CDS	1270278	1270436	.	+	0	ID=MGA_2036;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILFSFLVSLIILFYLSNPQSVSMSYKKLSTHNKKAEGQEVQTINFNEAV;locus_tag=LOCUS_20360;note=MGA_2036
sequence1	MetaGeneAnnotator	CDS	1272298	1272423	.	+	0	ID=MGA_2037;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKATLHQKTHVAIDIGTSKTKIHIERIGMVFNESTILAID;locus_tag=LOCUS_20370;note=MGA_2037
sequence1	MetaGeneAnnotator	CDS	1272508	1272831	.	+	0	ID=MGA_2038;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRGVITDMNMLKKFLLTILNKYAAEIKDSIVTLACPTSVTELERSSLIKSIKELGVFYVNAEDDVKLALYGAGVDVYKTVANLCLDLGAGKSTAGIVVSGETIQSK;locus_tag=LOCUS_20380;note=MGA_2038
sequence1	MetaGeneAnnotator	CDS	1272895	1273329	.	+	0	ID=MGA_2039;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVGEITAEQIKNTVCTLVKSKNMLKLTAYGYDLNSGLPKEFEISENDVSKLLIASFGSITSIVTNVLEGSPNEIAGDVIRNGIVVTGGLAKIPGIKSFLEDFFEIPVKIANNCLTATIDGAVKHKDLTIQKYEHEKNPLDIVF;locus_tag=LOCUS_20390;note=WP_000575569.1 rod shape-determining protein (Leptospira) [pid:35.4%25%2C q_cov:88.2%25%2C s_cov:37.4%25%2C Eval:7.9e-15%2C partial hit],internal stop codon at [1272829:1272831](+),MGA_2039
sequence1	MetaGeneAnnotator	CDS	1273364	1273687	.	+	0	ID=MGA_2040;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIVKNEKILSQDEHFKMNYDRIYFTKSISSCPHKYMSFDFNDGNYKCTNCFYSFYFNKKEAQKLFGKKILKNFDFDKAYKQYSDNILEKKRNEKISESLKDLYELY;locus_tag=LOCUS_20400;note=MGA_2040
sequence1	MetaGeneAnnotator	CDS	1273852	1274835	.	+	0	ID=MGA_2041;product=cell shape-determining protein Mbl;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003227776.1;translation=MASKKPAFVSMDLGTANTLVYIAGQGIVYNEPSIVAYRIKENRIVAVGEEAYKMIGKGNKTIRVVRPMVDGVITDIRATEAQLRYIFTKLRITKQLRHSIMLLACPSVITELEKTALKKIAVNLGADQVFVEEEVKMAALGGGVNIYAPTGNLIVDMGGGTTDIAVLASGDIVLSKSIKVAGNYLNDECQKFIRSQYGLEVGSKTAESIKVNVGSLSKYPDERRMKVYGRDVVSGLPREIEITPEEVREVLKVPVSRIIDLTVQVLEDTPPELAGDIFRNGITICGGGALIRGIDKYFADTLQLPTKIGEQPLLAVINGTKKFESEI;locus_tag=LOCUS_20410;gene=mbl;note=WP_003227776.1 cell shape-determining protein Mbl (Bacillus) [pid:45.2%25%2C q_cov:95.4%25%2C s_cov:93.7%25%2C Eval:1.8e-75],MGA_2041
sequence1	MetaGeneAnnotator	CDS	1274933	1275223	.	+	0	ID=MGA_2042;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIESKRPFISLDLGTSNILAYVSGQGVVYNQPSIMAYDINQNKLIAIGQDAYEMIGKTNDNIRMVTPLVDGVIADLDAAKDLLEHIFERLKMMNF;locus_tag=LOCUS_20420;note=WP_003546749.1 rod shape-determining protein (Lactobacillus acidophilus) [pid:48.3%25%2C q_cov:90.6%25%2C s_cov:26.4%25%2C Eval:6.5e-21%2C partial hit],internal stop codon at [1275221:1275223](+),MGA_2042
sequence1	MetaGeneAnnotator	CDS	1275305	1275985	.	+	0	ID=MGA_2043;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGADLVVVEEEVKMSALGAGVNIELPLGHLIIDIGGGTTDIAIISAGDIVLSKSIKVAGNYFNEEILKYVRAEYNISVGIKTAENIKKNVGSLVKYPNERSMQIYGRDIVSGLPKEATVNSEEIRNILLGCFGRITDLVIEVMEQTPPELSGDILKQGIILCGGGALVRNADKYFHDIFQLPTKIAADPLNCVIEGTKAYEKIILKRIEEGFYKGTQETYLQTLKK;locus_tag=LOCUS_20430;note=WP_010966142.1 rod shape-determining protein (Clostridium) [pid:42.3%25%2C q_cov:86.7%25%2C s_cov:57.6%25%2C Eval:6.0e-41%2C partial hit],internal stop codon at [1275221:1275223](+),MGA_2043
sequence1	MetaGeneAnnotator	CDS	1276004	1276180	.	-	0	ID=MGA_2044;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLNILLPNQLNDGLFKMNFIDNFKRDAEVRKTNKEKKSLKKINQAKTKKAKDRKDNK;locus_tag=LOCUS_20440;note=MGA_2044
sequence1	MetaGeneAnnotator	CDS	1276232	1276414	.	-	0	ID=MGA_2045;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPKPVMGGIGVVLFGMIASNGIKILVEGKVNFGNAKNIFVIAITLAIGVGLGVTGTEIS;locus_tag=LOCUS_20450;note=WP_011183554.1 solute carrier family 23 protein (Mesoplasma florum) [pid:47.5%25%2C q_cov:98.3%25%2C s_cov:12.7%25%2C Eval:2.1e-11%2C partial hit],internal stop codon at [1276232:1276234](-)%2C[1276484:1276486](-),MGA_2045
sequence1	MetaGeneAnnotator	CDS	1276484	1276681	.	-	0	ID=MGA_2046;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEHLGEHINIGSITNRDFVSNPGIHRTLIADGVSIMFAGAVGGPANATYAENTSVVNMTRIASV;locus_tag=LOCUS_20460;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:8.5e-21%2C partial hit],internal stop codon at [1276232:1276234](-)%2C[1276484:1276486](-)%2C[1276745:1276747](-)%2C[1276769:1276771](-)%2C[1276775:1276777](-),MGA_2046
sequence1	MetaGeneAnnotator	CDS	1276775	1276942	.	-	0	ID=MGA_2047;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAAICVLKAKTFFKAIPILLALIVGYILAIIIHYAAKGEGVSLLDTSLITNVKD;locus_tag=LOCUS_20470;note=MGA_2047
sequence1	MetaGeneAnnotator	CDS	1277216	1277425	.	-	0	ID=MGA_2048;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGATVLVPMIMNSISTNNGGGNVMNISMALFCSGVGTLIYIAFTSAKVPLYLGSSFAYMTTIGLGFKD;locus_tag=LOCUS_20480;note=WP_011183554.1 solute carrier family 23 protein (Mesoplasma florum) [pid:66.2%25%2C q_cov:98.6%25%2C s_cov:13.8%25%2C Eval:3.9e-18%2C partial hit],internal stop codon at [1276973:1276975](-)%2C[1277012:1277014](-)%2C[1277033:1277035](-)%2C[1277129:1277131](-)%2C[1277144:1277146](-)%2C[1277216:1277218](-)%2C[1277456:1277458](-),MGA_2048
sequence1	MetaGeneAnnotator	CDS	1277713	1278078	.	+	0	ID=MGA_2049;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSFLQIGVLSTSILPLVGCGTNLDKTASNKFVDYVQELLKETYDSEQDFRKILVDKIKDFEKKYNLVVYTDKTSKPKNKNDIFFDMYVESAYHSLNQKELEIRVTGTIKYNGDSSYT;locus_tag=LOCUS_20490;note=MGA_2049
sequence1	MetaGeneAnnotator	CDS	1278545	1278832	.	+	0	ID=MGA_2050;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIEDRTFIALDLGTSNILAFVGKQGIVYDEPSIMAYDTLSNELVALGQEAYDMYGKTHDSIRMIVPIRDGVITDLEAAKDMLKHIFSRLKMLND;locus_tag=LOCUS_20500;note=WP_011404386.1 rod shape-determining protein (Salinibacter) [pid:42.2%25%2C q_cov:87.4%25%2C s_cov:24.8%25%2C Eval:5.4e-15%2C partial hit],internal stop codon at [1278830:1278832](+),MGA_2050
sequence1	MetaGeneAnnotator	CDS	1278914	1279603	.	+	0	ID=MGA_2051;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAEIVLVEEEVKMAALGAGINIDMPKGHVVIDIGGGTTDIAILSAGDVVISRSVKVAGNYFDEEIKKYIRSEYNVTIGDRTAENVKKELGSLAKYKGEKTMSVFGRDIVSGLPKEAIISSEEIRNVLVNSFSVITDLLIGLMENTPPELAGDIITNGFVICGGGSKIRGIKEYFNGIFSVPCALSPNALTGVVEGAKNFQKVINRRLEAGYYGKNAKDVKKGSQSKYI;locus_tag=LOCUS_20510;note=WP_005902246.1 rod shape-determining protein (Fusobacterium nucleatum) [pid:43.9%25%2C q_cov:85.6%25%2C s_cov:57.3%25%2C Eval:5.1e-43%2C partial hit],internal stop codon at [1278830:1278832](+),MGA_2051
sequence1	MetaGeneAnnotator	CDS	1279647	1280441	.	-	0	ID=MGA_2052;product=TatD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182944.1;translation=MARIFDTHTHFNDPRYKELGITTEEMIKEAKLVGVDRFCCVGYDVPSSKQATKYALKYDEVFAAVGIHPNEAHTINKTDLEEIEILAHGHKVVAIGEIGLDYFYSKEHVEVQQEVFKKQIKIALDNDLAVMLHLRDQDGKEDAYNDALKILEKMKIKRAIVHCFTRGYDLAKKFVDKGYYISIPGVITFKDATELQNAVKKLSLNNLIVETDAPYLTPVPNRGKVNTSKEITHTVNEIAKIKNLNKHDVIDITTRNAKNVFNIS;locus_tag=LOCUS_20520;note=WP_011182944.1 TatD family hydrolase (Mesoplasma florum) [pid:46.9%25%2C q_cov:98.9%25%2C s_cov:98.1%25%2C Eval:8.0e-62],MGA_2052
sequence1	MetaGeneAnnotator	CDS	1280449	1280679	.	-	0	ID=MGA_2053;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSDLPILTSIESIANLERALNLTNTSIENLEIGFDFDIVNVDLYKTLEIINNLLGIIDMDEEVIDNIFRKYCLGK;locus_tag=LOCUS_20530;note=WP_011166295.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE (Mycoplasma mycoides) [pid:43.2%25%2C q_cov:97.4%25%2C s_cov:16.2%25%2C Eval:2.7e-11%2C partial hit],internal stop codon at [1280695:1280697](-),MGA_2053
sequence1	MetaGeneAnnotator	CDS	1280695	1281801	.	-	0	ID=MGA_2054;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166295.1;translation=MRIFLDDTIIAPATKVSKQAISIIRLSGRDAFNIVNKILKKDLDISNAQQLRKIYDNNQMIDEALFITFANSKSFTGENVVEINCHGGVLVCNKIINLLIKNGARAAQKGEFSQRAFLNGKINLLQSESINNLIESKNELALKISALGVSGIKDKKILKIKDQIIDVISRIQTSIDYPDYDDIEGSTPEEILITLKKIKDCFTNIIENSKRAIKVNDGIKTLIIGEPNVGKSSLLNALLNEEKAIVTDIEGTTRDFVEGQINFENFSLNLIDTAGIRKTKDPIEKIGIQKSLNNIDYADLILFVVNNENINKEILNKIKNKNYIIVVNKEDLLTKEQIKNIFSLNENIIFVSAINNQITNLTNRLKEM;locus_tag=LOCUS_20540;gene=mnmE;note=WP_011166295.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE (Mycoplasma mycoides) [pid:54.7%25%2C q_cov:99.5%25%2C s_cov:82.1%25%2C Eval:6.0e-107],internal stop codon at [1280695:1280697](-),MGA_2054
sequence1	MetaGeneAnnotator	CDS	1281903	1282412	.	-	0	ID=MGA_2055;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTLLKINNKKFYHFFEKRKQQVKFAYKNKSNEMILFLSNSIRSKIFMFLKELVEESFNIKVFAIAYNKKTNSNFVFIRCEKPINIVDKNKIERLINLIIKNSFNMTVNIVLADYYQLYKGNSVVDERYLKNLIRNCLTTKETQFSLPISKNKREKLYKVFLGYNNIT;locus_tag=LOCUS_20550;note=MGA_2055
sequence1	MetaGeneAnnotator	CDS	1282765	1283184	.	-	0	ID=MGA_2056;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTAFIRVFSGTTDGILDPAKSNYGISVIFSILLSSIFVRLIILTFTLKTQMNQEKMTGMQGKQAEIQQKYKGSNDPQAKQKQQMELMALYKKEGISPISSIATSFLSMPFLFAMFSVVRSTHALKIATVGAITLTEQP;locus_tag=LOCUS_20560;note=WP_011167185.1 membrane protein insertase YidC (Mycoplasma mycoides) [pid:48.6%25%2C q_cov:100.0%25%2C s_cov:35.4%25%2C Eval:9.3e-31%2C partial hit],internal stop codon at [1282531:1282533](-)%2C[1282741:1282743](-)%2C[1282765:1282767](-)%2C[1283185:1283187](-)%2C[1283248:1283250](-)%2C[1283308:1283310](-),MGA_2056
sequence1	MetaGeneAnnotator	CDS	1283308	1283463	.	-	0	ID=MGA_2057;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSVLYGCVQMNTNGYTVNQVSDMAGNKVYAPGVAFEIIIKSLSDYGSKTH;locus_tag=LOCUS_20570;note=WP_011167185.1 membrane protein insertase YidC (Mycoplasma mycoides) [pid:58.8%25%2C q_cov:100.0%25%2C s_cov:12.9%25%2C Eval:2.8e-11%2C partial hit],internal stop codon at [1283185:1283187](-)%2C[1283248:1283250](-)%2C[1283308:1283310](-)%2C[1283497:1283499](-),MGA_2057
sequence1	MetaGeneAnnotator	CDS	1283599	1283928	.	-	0	ID=MGA_2058;product=ribonuclease P protein component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183578.1;translation=MKNENIVKKNHHFQKIIGKKNYLKGRSFIIYFCKEKQDNFKYGISVGKRIGNAVVRNKVKRQIRNMVYYLLPTLKTKDAQIVIMARNQFITKTFEYNFNELKSLLKNFG;locus_tag=LOCUS_20580;gene=rnpA;EC_number=3.1.26.5;note=WP_011183578.1 ribonuclease P protein component (Mesoplasma florum) [pid:46.3%25%2C q_cov:99.1%25%2C s_cov:98.2%25%2C Eval:2.0e-22],MGA_2058
##FASTA
>sequence1
ATGACAAATTCTGAATTATGAAAAAAAGTTAAAGAGTGGTTAATGGCTTCAGATCTTGTTGATCCTAATGTTTATGATGATTATGTTAAAAAAGCTTTATTGCAAACACTCGGTCAAAACGATTTAGCAATTGTTGTTGCTAGTGAAATTGCAAAAAAACATCTTGAATACATCATAAAAGAAGTAAATGAGCATGTCAGTTTTTTGTTAGAAAAAGACGTTGATGTTTCTTTTTTAACTAAAGAGGAATTTGAAAAAGAAAAGTCTTTTTTAAATGCTGTTAAAAAGCAAAAAAGTAATAAAAGTAAAGAATTTTCTTTTGAAAACTTTATTTCTGGGTCAAGTAATATAACTGCATTAAATGCTACAAAAGCAATTATTGAAAACGTTGGTACAAAATGAAACCCGCTTTTTATATTTGGAGATTCTGGTTTGGGAAAAACTCATTTATTAAAAGCAATCAATAATGAATTGTGCAGAAAAAATGATGACTTTAGCGTTAAATATTATACTTCTGGTGATTTTAGAAAAGAAATAATTGATTCTTTACAAGGTGGTTTTCAAGAAATAGAATCTACAAAAGATAGGTTATCGAGTTTAGATGTTTTATTAATTGATGATATTCAATTTTTAGCAAATAGTGATAAAACAAACGAGATATTTTTTGAGCTTTTTAATTCTTTTATCGAAAACAACAAACAAATCGTTATAACTTCAGATAAATATGCAGAAGCCTTAAATGGTTTTGATAGAAGACTTGTTTCAAGATTTAGTCAGGGTTTAAACGTTAAAATTGAAAAACCTGATGCTACAACAGCGTATAATATTGTCGATTATAAATCTAAGGTTTCAAATATTAACTTATCTGATGAAGCAAAAAAGTACATTTCTTCTTATTATGGGTCCGATGTAAGAAAAATTGAGGGAGCTATCAATAAAATTGAGTTTGCTTTAATTCAAAATAAAATCGATATGTCAATTTTAATTACAGATGAAAAAGTTACAGATTTTCTTTCTGATTATTCTTTCGCTCCTGGCGGAGAAGTTACAATACAAAAAATTAAAAATGTTGTTGCTCAAAACTATGGTATTTCTCCTTCTTCAATTGATACTAAAAACAGGTTACAAAAAATTGTTGCAGCAAGACACTTAGCCATGTTTCTAACAGTTGATGTATTGAAGAAAAACTACTCTGAGACAGGTGTGTCTTTTGGAGGAAAGGATCACACAACAGTTATGAACGCTTTTAAGAAAATTGAAGCAAATCTTAAAAAGGATAAAGTTTTTAGAAACCTTGTTTCTAAAATAAAAAAAGAAATTACTTCATAGTGTTAATAACTTTTTGTATTGTTATTAAGTTATTCATAAAACTTATTATTTTAAAGGTTTTATGATTTGTCCACTTATTAACAATATAATAATAATAAAAAATAAATAGAATCTAATAGTGGAGGTATAAATGTTTTTTAAGATAAATAGAAATTATTTCATTGAAGAATTATCAAAGTGTAATAAAATTGTTGATTATAAATCTTCAGTTCCATCATATACAGCGATTTTTATTGAAGTTGAGGTTGATAAAATTTCTTTGGTCTCAACAAATACCTCTGTGTCTATTAAAACGTCTACTTTTGTTAATAAAGAAGGTTTAGAAATAAAAGAAGTTGGATCATTTTTAATAAGAGGAAAAAATTTTATTGAGATTTTAAAAAGAATGGATGACGAGATAATCTCAATTAATAAAGTCGAAAAAAATATAATTACTTTGTCTGGAGAAAATTCAGAGTTTCTTTTAAATGTTTTAGATGAAAACGATTTCTCACAAATAACTTTTAATGAAACGGGAGAATTTTTTGAAATAGATACAGCTGAGTTTAAGAAAGGTTTGAATCAAACGATTATTTCTGTAAATGAATGAAATCAAAAAATAGTTTTACAAGGTTTGAATTTTTTAACAGAAGAAAGTATTTTTTATATAACAGGAACTGATGGTTATAGAGTGTCTAGAAAAAAAATTGTTTTAGATAGATCTGTTGATGAAAAATTATCAGCTAACGTTCCTTTTAAAAGTGTTTTTGAAATTATAAAAGTTTTAAATGATAAAAACAAAACCAAAATTATGATTCATGATAGTTTAATAACTATAATTTCAAATAACACAATTATTCAATCAACTTTGTTAGAAGGACAATTCCCAGATGTTAAAGGAGTATTTCCGACTGATTTTAATAGTACAATTTATGTTGAAAATAAAGCGTTTTTTAAATTAATTTCTAGAGCTGATATTCCGAGTGAAGAAAATACCTCTACTGTTGTAAATTTCATACTTGACGGGGAAACTATAATAATAAAATCAAATATTCAACAAATAGCTAGTTTTGAAGAAGAATTTAAAAACTTTGAACTAAGAGGATTAGACAATCAAAATATTTATTTTAACTCAAAATTTATTTTAGAATCTTTAAAAAGTTTTGAAACAAAAGTTGTAGAAATTAGTTTTATTGACTCAAAAACACCGATTATGATCGCTTCTAGTGAAGATTTATCATTAAGTCAGATAATTTTACCTATGTTTTCTAACTAAGCAAGGAAAGCGCCCCAAAAATGATATAATAGCAATAGTGGGAGAATATCATTATGTCAAACAAATATGGCGCTAACCAAATTCAAGTTCTTGAAGGGCTTGAAGCTGTTCGTAAGAGACCGGGAATGTATATTGGAAATACCAACAAAAACGGTCTTCATCATTTAATATGAGAAATTTTAGATAATGCTGTTGATGAATCGTTAGCAGGTTTTTGTGATGAAATCACAATAATAATGACATTAAGCGATGAAATTATTATTAAAGACAACGGGAGAGGAATTCCTATTGATATCCATCCAAAAACAAACAAAACAACTTTAGAAACAATCTTTACAGTTTTGCATGCTGGAGGAAAATTTGATGAATCTGCATATAAAATTTCTGGTGGATTACATGGAGTTGGAGCAAGTGTGGTTAATGCATTATCTTTATATGTTGAAGCAATTGTTATGAGAGATAACAAAACATATCGTCAATTATTTTCTGATGGAGGAACAAAAGCAACTTCATTAGAAGAACTTGGATCAACTGAAGAAAATGGAACAATTATAAAGTTTAAACCAGATCCAGAAATTTTTAAAGAATCTGTTGAATTTGAGTTCAAAATTATTCAAACAAAAATTAAGCAACTCGCTTTTTTAAATAAAGGATTAAAAATAAATCTTATAGATCAAAAAAATTCAAAACATCTTTCATATCGTTTTGAAGATGGGATTAAAGATTATATTAAAGAAATTAATAGTGGTAAAGAAAAAGTTAGTCAAGAAATTTTTTATGTTAACAACAACATTAATAGAATTGATGTTGAAATAGCGATTCAATATAATGATAACTATGATGAAAATATTTTCTCGTTCTGTAACAATATTTTTACAAGCGAAGGCGGAACTCATGAAGATGGATTCAAAACTTCGTTATTAAGAGCAATTAACTCATATGTTGGTTCTCAAAAAAACTTTAAAGGAAATAAGTTTGTATTTGATGATATTAAAGAAGGGTTATGTGCTGTTATATCAATTAAACATGTTGATCCACTTTATGAAGGGCAAACAAAAGCTAAACTTTCAAATACTGATGCTAAAGAAGCAGTATCTCAAGTTTTATATGAAAATTTTACAGAGTTCTTATTAAAAAATCCAAGTGACGCAAAAAGTATCGTTGATAAAATTTTAATTTCTCAAAAAGCAAGGAAAGCAGCTCAAAAAGCTAGAGAAGAAACTAGAAGAAAGTCTGCAATAGATAATTTTTCTTTACCAGGAAAGTTAGCAGACTGTGAATCAAAAGATGCTGAAGAATCTGAATTATATTTAGTCGAAGGAGACTCAGCTGGTGGGAGCGCAAAAATTGGAAGAAATAGAAAGTATCAAGCTATTCTTTCTTTACGTGGAAAAGTTTTGAATGTAGAAAAAGTAAAACAAGCAAAAGCGTTTGAAAATAATGAGATTCAATCAATAATTGCAGCTATTGGTACAGGAGTTAAAAAAGATTTAAATCTTAAAAAATTAAGATACAAAAAAATTGTAATTATGACTGATGCTGATGTTGATGGTGCTCACATTAGAATATTACTTTTAACTTTTTTTTATCGTTATATGAAAGAGTTAATTACAAATGGAAATATTTATATAGCACAACCTCCTTTGTATAAAATTGAATCAGGAAAAAATATTGACTATGCTTATTCTGATGCTCAGTTAGAAAAATTAAAAAACGAAAAATATAGAGATTTAAAATACATAATTCAAAGATATAAAGGTCTTGGAGAAATGGATGCTATCCAGTTGTGAGAAACAACAATGGATCCAGCAAGAAGAACTATGATTCAAATTAAAGTAGATGATGCATTCATGGCTAATGAAGTTTTTTCTAGTTTAATGGGAGAAAACGTTGAAATGAGAAGAAATTTTATTACTGAAAATGCACAGTTTGTAGAAAATATAGATATATAGTAAGGAGGAGTTTAGATGGTTGATGGCAAAGAAACAATCTTGGAGATCGACATCAAAGATGAAGTTGAAAAAGATTTTTTAGAATATTCAATGAGCGTTATTGTTAGTCGTGCACTTCCTGATTTAAGAGACGGTTTAAAACCTGTTCAAAGAAGAATTTTATATTCAATGAATGACTTAAAAATTACATCAGATACTCCACATAAAAAATCGGCACGTATCGTTGGGGATGTAATTGGTAAGTATCACCCACATGGTGATAGTTCAGTTTATGAAGCAATGGTTAGAATGTCGCAAGACTTTTCATATCGTTATCCATTAGTAGAAGGTCACGGAAACTTTGGATCAATTGATGGCGATGGAGCTGCTGCTATGCGTTATACTGAGGCAAGACTTTCAAAAATATCTTCAATGTTATTGAAAGATATTGATATGGAAACAGTTCCTTATATTGATAATTATGACGCTTCAGAAAAAGAACCTGAGTATTTAACAGGATACTTTCCAAATCTTTTAGTAAATGGAGCAACTGGTATTGCGGTTGGTATGGCTACAAACATTCCTCCTCATAACTTAAAAGAAGTTATTAGTGCAATAATTGCATACATTGAAAATAACGAAATTACAATTGATGAAATTTTAGAATTTATTAAAGGTCCAGATTTTCCAACAGGCGCGCTTATGACTAATGGTACAAATATGATTGAAGGTTATAAAACTGGTAAAGGAAATTTAATTGTTAGAGCAAAAATTGATATTGAAGACACAGAAAAAAAACAAAGAATAGTAATAAGTGAAATTCCATATCAAACAAACAAAGTTAGAATTGTGGAAAAAATTGCTGAGTTGTATAAAAATAAACAAATAGTAGGAATAACAGACATTAGAGATGAATCTAACTATGAAGGAATAAGAGTTGTTTTAGATCTTTCAAGTTCTGCAAACGCTCAATTGATTATCAAAAGACTTTATAAATATACAAGTTTGCAAACAAGTTTTGCAATTAACATGTTAGCTTTGAACAACGGAATACCTGAAGTTTTAAATATAAAAGATGTAATTAAACTTTATGTTAAACATCAAATTAATGTAATTTTAAAAAGATCTGTTTTTGAAAAAAATAAGATAAAAAATAGATTACACTTATTGTATGCATTAAGAGTTGCACTGGATGCAGACAATATCGATAAGATCATAAAAATAATTAGAGAATCAAACACAAACGAAGTTGCTTACAAATCTTTAAATGAAGCATTTGGTTTCGATGAAAGACAAGCTAAAGCAATTTTAGATATGAGATTGCAAAGGTTAGTTGGACTTGAACGTGCAAAAATTGAAACAGATATTTCAAACATGGAAGCAAGATTGGCTGAGTTAGAAAAAATAATTGAATCTAAAGAAGAACAAAATAGAATTTTAAAAGAACAACTAATTGAAATTTCAGAAAAGTTTGGTGATGAAAGAAGAACAAAAATTATTAACGAGTCGCAAACCAAAATTGAAGAAGAAGAACTTATTCAAGATCAAAAAATGTTTATCACAATTACAGAGAATGGATATATTAGAAGATTGAATTCTGAAGATTTTAAATCACAAAAACGTGGTGGAAAAGGAATAATTATAAACTCTTATCCTGAAGATAATATTGTGATATCTCAAATTGGAAAAACAAAAGATGATGTTTTATTCTTTTCTAATGAAGGAAAAGTTTATAAGATCAAAGGTTACAATATAACTCAATTTACAAGAACTTCAAGAGGACTTCCAATTATAAATTTCATTGGAATAAACTCGTCAGAAAAAATCACAACAATTCTTTCTTTTAAAAATAAAGAAAAGAAATTTAAGTATTTAATATTCGTTACAAAAAAAGGAACTATTAAAAAAGTTCCTATTGAAGAATTTGATAGAATTAACAATTATGGAAAAATTGCAATCATTTTAAATAAAGGTGACGAACTAATTTCAGTAGTTCCAAGCTCCGGTTTAAACGAAGTTCTTATAGCTTCTAAAAAAGGAAAAATTTTAAAAATTGATGAAAATGATGTGAGACCAATATCAAGATCATCAGTTGGAGTAAAAGGAATAACTTTAGATAATGATGATGAAGTGACAAAAGCTATTACAAATTATAAAAATGATATCATAGCAACTATTTCAGAAACTGGAATACTGAAAAAAACTTTAATAAGTGAATATAATATTTTTGGAAGAGGATCTAAAGGAATTGCTGGGATGAAATTGAACGAAAAAACAGGTAAGTTTAAATCTATGCATGCCATTAGAGATTCGGATGATCTTATAATGATTTCTTCAAAAGGAAAAATTATAAAAATAGAAGCAAAAGATATTAATTTACAATCTAGAAATTCAATCGGTGTAATTGGTTTTGGATTAGAAGATGGTGAATATATTACAGCAACTACTGTTGAATATAAAAAAGGAGTTTAAGTAAATGTTAGATATTAATAGAATTGAAAATGATTTTGATTTTGTTCTTGAACAATTGAACAAAAGACAAACTAATTATGAAAAGCAATTAAAAAACATAATTGAGATAAATAAAAAAAGAAAAGATATAATCAAACAAGTAGAAGAATTAAAAGCACAAAAAAATAAAGTTTCAAAAAAAATTGGTGTTTTATCAAGAGAAAATAAAAATGATGAAATTAAAAAATTAAAAAATGAAATTGCAAGCACAAATGAAAAAATTAATTTGTTAGATAAACAGCAAAGCAAAATTGACTTAGAGTTAAAAACTTTAATGCTAGAAATTCCTAATGTACCAAACAAAAACATGCCATTAGGAAAAGATGATGAGGAAAACATCGAAATAAAAAAATGATTGGAACCAGGATTAAAAAAAGATTCCGAGGCTCATTGAGATATCGCAACAAAACTAAGCCTTGTAGATTTTGAATTAGGAGTTAAAATCTCTGGATCAAGATTTCTAGCTTATACTGGAAAAGGCTCAAAAATGGTTAGAGCTATTGCAGACATCTTAATTAATAGACACACAAATAAAGGATATAAGGAAATGTCTTTACCAATTCTTGTGAATAGAGAAAATATGCTAGGAACTGGTCAATTACCAAAATTTGAAGACGATGCTTATAAAGTAGATAATCAATTTTTAGTCCCAACTTCAGAAGTATCGTTAACTAATGTTGTTAGACATGAAATTTTAGATCTAAAACAACTTCCCATGTATTTAACTTCATTCTCTCAATGTTTTAGAAGAGAATCAGGAAGTGCTGGAAGAGACACTAAAGGAATGATTAGACTTCATCAATTTAATAAAGTTGAAATGGTGAAAGTTTGTGAACCGAAAAATTCTGATGAAGAACTAGAAAAAATGTTACTTGATGCAGAAGATTGTTTAAAAATGTTTAATATTCCTTATAGAGTAGTTGAATTGTGTACAGGAGACGTTGGATTTGCATCTCAAAAAACCTATGACTTAGAAGTATGATTTCCTAATCAAAACAAGTTTAGAGAAATATCTTCATGCTCAAACTGTGGAGATTTTCAGGCAAGAAGAATGATGGCAAGATTTAAAAATGAAGAAGGTAAGACAGAGTACGTTCACACATTAAACGGATCTGGATTAGCGATAGATAGATTGTTTGCAGCTATTTTAGAAAACAATTATGACGGGGAAAAACTTGTATTACCAGAAGTATTAAGACCTTACTTTAATAAAGAAAGTTATATTAAATAAATTGTTTCACGTGAAACATTTTTTATTTGTTAATTGTTTCACGTGAAACATTTTTTATTTGTTAATTGTTTGTGACATAATCGCTTGTTATTCATACGTGAAACAATAATAAAATTAAAGATTATATGTAATAAAAGTTTTTTATGGTAATATTAGTATGTCATTGTAAGGGTGACGTTCGAACCTGGTCAGGACCGGAAGGTAGCAGCCATAAGAATCTAGTGCCTTGTACAGTGACTTTTTTATTTGGAGAAATTTAATATATGATAGATGAAGTTTGAAATAAATTAAGTGAAAAGTTAAAAGAATGTGAAAAATCAAAAGACGTTCCTGTAGCTGCTTTAATTTTTAAGGACAAAAAAATGTATGCTTCAGCAAGAAACGTTAGATTTAAAAATAAAGATATTACAGGTCATGCTGAAATTAAAGCAATTAATAAAGTTTATAGAAAAAGTAAATCAAAAAACCTATCAGAATTTAACATGGTTGTAACTTTGAAACCTTGTTTAATGTGTTTGGCAGCAATTGAACAAGCTAACATAAAATCTGTATTTTATTTCCTAGATAACTTAAAAGTAGATTATAGTAGATTTAAAACAAATATAATTTTTTTAAAAATACTATCAAGTAAGAATAAAGACTTTGAAATTATCCTAAAAGAATTTTTTAAAAAACTTCGGAATAATAGGTAAAATTATTATAAATAATAAGGAGGGTAAATGGAAAATAAAAAATCTTTATATAGAATTTATAGACCAAAATCTTTAGATGAAGTTGCAGGTCATGAAGGAATAAAAGAGATCATTAAATCTCAAATTAGTAAAAACAATTATCCGCACGCTCTTCTTTTCTCTGGTCAAAGAGGAACCGGAAAAACATCAATTGCGAAAATTTTTGCAAAGATTGTAAATTGTCAAAACTTAATAGATAACAAAACATGCAATGAATGCAAAAGTTGTATAGAATTTGATAGAAACTCTCATCCAGATATTTTTGAAATGGACGCAGCATCTAACAATGGTGTTGATGAAATTAGAAACATAAAAGCAAATGTGTCAACATTACCAGCAATATCAAAATATAAAGTATATATTATTGATGAGGTTCATATGCTAACTAACTCTGCTTTTAATGCATTGTTAAAAACCTTAGAAGAACCACCAAGCCATGTGGTTTTTATTTTAGCCACAACAGAGTTTTCTAAAATTCCCGCAACTATTGTTTCAAGATGCCAGTTGTTTAATTTTAAAAAAATAGCAAAAAAATCATTAGAAAATAAGATTAGAGAAATAACAATAAAAGAAAATTCTCAAATTGACAACGAGGCTTTAGAAGAAATTTTTTATATGTCTGATGGATCTTTAAGGGACGCGTTAAATTATTTAGAACAAACTTTGACAGTAGCAAAAGAAAAAATTACAATTGAAGAATTAAAAAAAGTTTTTTACATTTCAACAAAAAAAGAAAAACTTGAAATTTTAAAAAATGTTTTTAATAAAAATGTGAAAGGAATTATTACTTACTTTGAAAAAGCAAACAATCAAGGTTTGGATTTTAACTCAACAATTTTAGGAATATTGAATATTGTAAAAGAACTTATAACAATAAAAATGACAAATGAAAAAGAACACCTGAAAGTATTAAACGACGAAGATATAAAGTTTTTTGAGAATACGAATTTAAAAGATTTGTTTTTATTAGCTGAAAATATTTCTGAAGCTTTTAGTAAAACAAAAAACTCAAATGTTAGCTATCAGTATATTTTGATAAGCATACTGAAAACCGTTGCTGAACTATCTACACTTATAAGTGTAGATAACAAATCAAACGGAGTGATTGTTAAAAACCAAAATCAAAATACTTTCAATTCTAATTTAGAAGAATCTGTTGATGAAGTGACATCTGTAGTTGTAGAAAAACAAACATTAAACGAAAAGGAAAAAGAAGTTAAAACAAAAATAACTGATCAAGAAGTAGAAACGCAGTCAATGTTAAAGCAAAAGGAAGATGAAAAAAGAGATAATAGTCAGCTTGAAGTAATTTTAAATATAACTGATGAAGAAACAAAATTATACAGACTTCAATTAGCAATTTTGAAAAAAGAAGTTGAGTCTTTAGAAACAGAATTTGAAATAAAAGACGATCAAATTTTAAACGTTTTAGTTGGAGCAAATAAAGAAGCAAGAAAAACATATGAAAAATTATTTGGTAATTTAATTTATAATAATTTAAATAATATTGAAGAACTACAAAACTTTATATGTTTTTATAAAGTAAAAATAAGAGCTGGAAATGAAGATGCAGTTATTATGGTGGTTGAAGAAAATCTAAATTCTAAATGAATTAACGATAAGCTCCAAGACAAAAATTTTAGAGAAAACATTTTTAAAGTTATAAATAAAAGAATAGCTATAATTTGTATTGATAAAAAAAGATGAGACCACATTAGAGAAGAATATACATATAAAAAAGATGCAAACATTTTACATAACAATTATAAAAAAATAGATGTTGAAACTTTTTATAAAAGCTTAAAAAAAGTGGAAACAGAAAATGTCTTTTTAGAAAGAGCGAAAAAACTGTTAAATTTAAATATAAAAGTGGTGGATTAATATGGATGAAATTATTGAAATTTTAAAAGAGTTTGAAGGAATCGGGAGCAAGGCTGCTAAAAAAATATTTTTCCAGATCATGACAAGTAATTCTAAGAAAGACAAATTAATAGAAGTTATAAATAAAATTTCTGATAATTATTCAGTTTGTCAGATTTGTAACTTTTATAAATATAAAAAGGTATGTCAGTTTTGCGATGATTCATCAAGAGATAGAAATCTAATATGCGTTGTATCTTATATAACAGATGGGCAAAGGATTTTAGAAAGTAATTTTAAAGGGTTGGTTCATATTCTTAATGGTGAGATAAATTTAAATAAAAATCTTCAACCAGAAAGTTTAAAAATAAAAGAATTATTTGCTAGAATTAATAAGGAAGTAGAAATATTATTGGCACTTAATTTAACTTTTGAGGGCGAAGTTACAGCAAATTATATTGCTAACCAAATAAAAGATAATACCAAAAGCGTTACTAGAATAGCTAGAGGAATTCCTTTGGGAGGAGTTCTAGACTATATAGATACAGAAACTTTAGAAGATGCTATTAAGAACAGAAAAGCATTGAAAAAATAGAGAGGATAAAAAGTTTTGCTATTTATTACATTAGAAGGAATTGATGGATCTGGAAAAACAACAGTATCAAAAATGTTAAAAGACTCATTAATTCAGAGTGGACATAGAGTTTTATTAACAAGGGAACCGGGCGGAGAACCACTAGCAGAAGATATAAGAAAATTGATTTTAGATACAAATCAGAAACCAACACCTTGAACAGAAACTCTTTTATACATCGCAGCAAGAAAACAACATTTAGATAATGTAATTATTCCAGCTTTAAAAGAAGGAATTATTGTTATATGTGATAGATTTATGGATTCAACTTCAGCATATCAAGGATATGCAAGAAACATTGGAATAGCCGATGTTGAAGAAGTTCAAAATATTGTTTTAGGTTTAACAAAACCAGACGTAACAATATTTTTTGATATAACTCCTAAAGAAGCACAAATTAGATTACTAAATAGAAAAAGAAATCCTGACAGAATTGAAAAAGAAAGTCAAAAATTTCATGAATCAGTTTATGAAGGATATCAAATGTTGATTTCTGAAAATACAGAAAGAATAAAAATAGTTGATTCTAGAAAACCAATTAATGAAGTTTTACAACAAGTTAAATTTATTATAGATAATGCTATTGGAGATTTAATTTCTAACCATAATGACTAAAAATGAAATTTTAAAAATATTGTTGCAATTAAAAAACGAGAATAAGATTTATCATTCAATTATATTTTCGTGTAACAATCAAGATTTACTTGAAGATCTAGCAAACGAATTTATAAGAATAATTTTTTGTGTAAATGACTCATTAAAAAATGATAATTGTAAAAGTTGTAACAAGGTTATAAATAATTTAACTTTTAATATTTTGAGAATTGGTGATGGTACTGAGTCAATTAAAAAAGAAAAAATTTTAGAACTAATAACAGTATTTTCCAGCTCTTCAATTAGCGGAGAAGAGAAAAAAGTTTATAAAATTTCAAATGCAGAAAATTTAGCAGACACTTCTGCTAACTCATTATTAAAATTTTTAGAAGAACCTCCGAAAAATACATTTGCTTTGTTATTAACAAAAGATAGAAACCAAATTTTACAAACTATTAAATCAAGATGCAAAGTATTTGTTTTAGATTATGAACGAAAAGAGATATTAAAAAACTCAATCATGGAAGAACTTATAACAAACAAAAAAAGAGATGACTTATTAATCTATTCTTATGAATTTAAGAAATTAGAAAAAAAAGAGCAAGTTAATATTTTAGAATCTGTTTTTCAAAACATAATTATAAAAAAACATACACAGCTTGCAACTTTGTTTTTAGATACAATTTTAGAACTAAAAAAATCTTCATACTCAAGTTTATTAATTGAAAATTTATTTATAAAAATTTATGAGGTGCTGTAATGAAAGTTTTAAATCAAGTACTTAACTTTAAAGACTTAAAAATTTTTCAAGATACAAAACACTTTTCTTTTTGTTTAGATTCTGTCCTATTAGCCAAGTTTTATATTCCAAAAGTAAAAGATAAAAAAATTTGTGACTTTGGAACTAATAATGCAATAATACCTTTGCTTCTTTCAAAATATATAAGAAAAGACGCAAAGATTTATGGAATAGAAATTCAAAAGGAAGCTTGTGACATAGCTTGTGAAAATATTTTAATAAATAATCTGTCTGATAAAATCGAAATTATAAACGAAGATATTAAAACTTTTGTTAAAGATAAAAATAATTTTTTTGATGTTATTTATTGTAATCCTCCTTTTTTTAAAATTAGTAAAGGATCAAATTTAAATAAAAAAAGCAAAAATTTAATTCCTGCAAGACATGAATTGCTAATAAATTTAGAAGAGATAATTTATTCTGCAAAAGTTGGTCTAAAAAATGGCGGAAGATTTGTTATGGTACATTTAGCAGAACGTCTAGATGAAATTATTTATTTACTCAAAAAAAATAATTTTAGTCTAAAGAATTTAAGATTTGTTTGTTCAAAACAAAATCAAGAACCTAAAAAAGTTTTGATAGATGCAATTAATGATGGTAATTCAGGAATAAAAATTTTGAATAACTTATATGTTCACAATGATGATGAAAGTTATACAAATGAAGTTTTAGAAATATTTGGTGATTAAATGAGAATCTGTAATAAAAAGAAATACATAGTTGGACTTTCTGGTGGACCAGATAGTATTTATTTACTTGATAATTTAATAAAAAAAGTTAATGTAAACAAAATAATCGCTTGTCATGTTAATTACAATTTTAGAAAAGATTCAACTACTGATATGTTAATATGTAAAAAATATTGCGAAAAAAATAAAATAAAATTATTAATAAAAAACATTAACATTGATTATGACAATTTAAAAAAAAATTTTGAAGCATGAGCAAGAGAAGAAAGATATGACTTTTTTTTAGATCAGTTAGAAAAAAATAATTTTGATAAAATTTTAATTGCTCATAATATGAATGATGACATTGAAACTTACTTAATGCAAAAACAAAAAAAAGCTTTATCAAGTTATTTTGGTATAAAAAAAGAAACTTTTTATAAAGACAAAAAAGTTATGAGACCAATAATTGATACAAAAAAAAGTCAAATATTAAAATACTTAAAAGAAAACAATATTGATTATGCAACCGATTCAACTAATTGTGATATTAAATATTTTAGAAACTCTATAAGAGCCACTTTGAATGAAGACGATTTTATAAAACTATTAGAAGAAAAAAATCTTAAAAATTTAGAGCTAAATAAAATTAACATTGAGATTAAAAAAATTTTAGCCGGACAATTAAAACAAGCTCACTTCAATAGGGATGAATCTTTTAATCAAAGACTATTGTTTTCTTTTTTAGAACAAAAAGGTTTTGGACAAATTTTTTATTCTAGAAAAAAAAACACTTTAAAAGAAACAATTAAACAAATAAAATCTACAAAAAGTTTTGTACGAGTTAAGATTGAAAATTTACTTTTGATTAAAGATAGACAAAACATTTATTGTATAGATTTATTCAACTATGAAGTTTTAGATAAACAAATTAATGATTTGACAGAAAAGGATTTAAAAAATTTTGAACCATCTATAAATTTAAAAGATTTTGATGGCTCATTAATTATCACAAATGACTGACAAAAACATAAGTTAGACCTCTTATATAACAATAAAAAACTAAGTGAGTTTTATAAAAAAAATAAAACAAGTTACTACAAGAGATATTTTCAACCTATAATTTATGATAAAAAAAATAAGATTATAAAAAATATTATGAATTAATGATAAAATCAAAATAATGTCCTAGAAAAGGTGAAATATAAATGAAGAATAAGAAAAAATGACTTTTAATTTTATTGACTATAATGATTGCATTAGCGGTTGGATTTGCAATATATTACTTCCAAAAAGGTAATGCAACAAAATGAAATTATAGTGATTTATGCGAAAATGCTTCAAAAATTAGAGGTCAGGTATCTGTTAACTCTGTAGGAAATGGTATTTATGTATTAAGTGGTTATTATGAACAAAATGGTAAATTGTTTAAATTTACAGCTGTAATAGATGAAAAAGACTATTATGCATTTAAAGATTTAGGTCTAACAGATATGATGCTATCTTATACAGCGGGGAATGGATGACAACAGTTACTAATAAGTCTAGCTCCAACACTTATTTTTATATTATTCTACATATGAATGTTTTCAAGCATGATGAAAGGTGGAGGAATGGGCGGAAATATGTTTGGTAATAACAAACAAAGACCCAGAGAAACAAAATCTGACGTTAAGTTTAAAAATGTAGCAGGTATCAATGAAGAAAAGCAAGAACTAGTGGAGATTGTAGACTATTTAAAAAATCCAAATAAATACGCTCAAATGGGAGCAAGAGTTCCAAAAGGAGTCCTAATGGAAGGTCCTCCTGGAACAGGAAAAACTTTACTTGCAAAAGCCGTAGCTGGAGAAGCTAATGTATCATTCTTCTCAATGGCTGGATCAGAGTTTGAAGAAATGTTTGTTGGACTTGGAGCAAGCAGGGTTAGAGATTTATTTTCAGATGCAAAAAAAGCAGCACCATGTATAATTTTTATAGATGAGATTGATGCTGTTGGTAGAAAAAGAAATTCATCAATGGGGTTAGGAACGAGCGAACAAACTCTTAACCAATTACTAGTTGAGATGGATGGGTTTGGTACAAACTCTGGAGTTATAGTTATGGCTGCAACTAACAGAGCTGATGTTTTAGATCCTGCCTTATTAAGACCAGGACGTTTTGATAGAACTATTCAAATTTCTCTTCCAGATATTAGAGAAAGAGAAGCTATTTTAAAATTACATGCGAACAATAAATCAGTTTCACCTGAAATTGATTGAAAACGTATTGCAGAAAGAACCCCAGGATTTTCAGGAGCTCAGTTAGAAAATGTTTTAAATGAAGCTGCAATTTTAGTTGTTAGAGAAAAGAAAAAAATGATAACAATCAATGATATTGATGAAGCTATTGATAGAGTTGTTGGAGGACCTGCAAAAAAATCAAGAGTTATGACTTTACAAGACAAACAAATTGTTTCTTATCATGAGGCAGGTCACGCTTTAATTGGATTAAAACTTAGATCAGCATCAAAAGTTCAAAAAGTTACAATTATACCCCGTGGAAATGCTGGAGGATATACTATTATGACTCCAAAAGATGAATCTAATTTCTCTTCAAAAGAAGATTTATTTGCAGCAATTGCGGGTTATCTTGGAGGTAGAGCTGCTGAAGAAATTATTTTTGGGAAAGATAATGTAACAACTGGAGCACATGATGATTTAGATAAAGCCACAAACATTGCAAGAAAAATGGTTACACAATTTGGTATGTCTAAATTAGGATTAACAAAATACTTAACAATGGCTGAAGAGGCATATGGTCAAACAAAAGGAGTTTACTCAGATGAAGTAGCTTATAAAATTGATCAAGAAGTAAGTAGAATGTTAGATGAAAGTTATGTAATCGCAGTTAAACTTATTAATGAATACAAACCATTACTTGAGTTAATTGCTGAGTCGTTAAGAGTTTTAGAAACAATTACAGCAGAGCAAATTGATTACATTGAAAAAAATAACAAATTACCTAATGAAGTAATTTTAGAAAAAGAAAGAAAAGCTAAAGAAGATAAAAAACGTGAAGCAGGAGAAATTTTAGAATTTGAACCTGATGAAGAGGACGAAACAAAAAAATAATCTTAATATTTATAAAACCTTGTTATGAGAGGTTTTTTTTATTTATAATTAATTTATGTAAAACTTTTGGAGGAAAACTTATGGATATGGAAATTAGAGCAACTAGCTCAGAAAGAAACGTCAAAATAGCTATTGTTGATATATCTGAAGCTTTAGATGAAATAATAAAATTACAAAAAAGTAACCCTTTAGCTTCTGTTGCTTTAGGAAGAACTATTATTGCGAATGCTTTATTAAGTATAAGTATTAAAGATAGAAGTAAAATGACTACAAACATTAACGGAATGGGTTTAGTTGGATCGATAATCGCAGAATTCCAAAATGATTCAATTAGAGGATATATTGAAAATCCAAACTTTGATATTTCTTTAATTAAAGAAAATAAAGGTAGTCCTTTATCTCAAGCAGTTGGCAAGATGGGTTTTTTACAAATATCTAGAGATAATGGAGAAAAAGAACCTTATACATCAAGAGTAGAGCTTGTTTCAGGAGAAATAAATATTGACTTTATGTATTATTTACAACAATCAGATCAAATAAATTCATTGATAACTACAACTGTAGAAATCAATGATGATGGATCTATAAAAAAAGCCTGTGGAATCATAATACAGTTATTGCCAGGATTTAAAGATGAAGATATTGACTTTATTGAAAAAAAAGTTGGATCTCTAGAACACTTAAAAAAAACTTTAGTTGATTCAACAAACTACGAATCTTTATTGAAAGATATTTGTCAAGATGCAAAAGTTTTAGAAGTAAAACCTTTAAAATTTGAATGTACATGTGATGTTCGAAAGGTTATGGACTCAATTAAATTGCTTGGGCAAGAAGAAATTTCAAATGCATACAACAAGGGAGAAATTATAGAAGTTATTTGTGATTTTTGTAAAAAGCAATACAATATTGATTCAAAAGATTTGAAAAACTTAATAAATTAATTATGATATAATACATTAGACGTTATTTAATTTGAATAGAGGAAGTGTTTTATGTCAAATCAAAATACAAATAGGGGTCAAAATCCAAATAATAATCCCAACAACAATAATTTAAATAATCAACAACCAAAGGGGCCTAATGGACAACCAATAATGCCAAATGGTCAAATACCAATTGGACCAAAAGGTCAACCAATTATGGGACAACCAATAATGCCAAATGGTCAAATGCCTTTAGGACCTAATGGACAACCATTGAAACCCAATGGTAAACAACCAAAAGCACCAAAGACTCCAAAAACTAAAACTGAATGATTACCAGAATTAACAGAACAAGAAAGAAAAGATGCTAAGGACTCTAAAGCAAAGGAAAAAATTCTTTCAAAAGCACAAAAATATAAAGAGAAAAAAGCTAAAAAAGGTGGAGCATTCAAAGTTGTTAACTTTCCAGAAGTTAAAGAAACTGGACTAAAAGGTCATAAAACAAGAATTAGATTACAAAAGCAATTAACTAGTAAGTATTCTAAAGATATTTTAAATGGAGATATAATTTCAACAACAGGAAATCGTCCAGATACTAGTAGATACGCAATTGAAATTTATGGAGCTAAAAAATGATATACCAATGGAGATATGGTAACTCAAATCTTAAAAGGTGTAGATTTAAAAATTGAAAAAAGTAAATTTATAGTTATTTTAGGTCCATCTGGATCTGGGAAAACTACTTTACTAAACTCAATTTCTGGTTTAGACAAGGTTACAGTAGGAGATGTTTTTTCGGTAGGTCATAACCTAACTTTACTAAAAGACTCACATTTAACAAAATTTAGAAGAGAAAATGTTGGATTTATTTTTCAACAATATAACTTACTTTCAAACTTAACTGCAAGAGAAAATGCAGAAGTGGGAGAAAACTTAAGTGTACCAACAGAAAACTCTATGACAATTGAAGAGATTTTTGAAACAATTGGTATGAAAGAACAGATGAATAAGTACCCTCACCAAATGTCAGGGGGACAACAACAAAGGGTCTCTATTGCAAGAGCTTTAGCTAAAAACCCAGAAATCCTTTTTGGAGACGAACCAACAGGGGCGTTAGATGAAGAAATGGGTAGAAAAGTTTTAGAGATTTTATTAGAAGTTAAAAATAGATTTAAAACAACTGTTATTATTGTTACTCACAACCCTAACATTGCAGAAATTGGAGATACAGTAATTCATGTTAGAAATGGTTTAATAGATAAGTTAGCACATAACTCAAATCCTAAAAAACCATCTGAAATAGATTGATCATAATTTAAAGAGATTTAAGGAGATATTAAATATGCCATTATTTACTTTTAGAGGTGTACCTGAAGAAAAAGTACAAGAATATTTTAAAAAGGTTGGAGAAATAGCACAATTAGTTAATGCTGATGTAAAACAGTTTGTTTTTTGATGTGAAGATACAAAGTTAATTGGGAACGGTTATGATAAGGATGCAATTTATGTCTCAATTGAATGAAAGGGTAGACCCTTGAAGCAAGAAGTAGTAACAATGCATATTCAAGAATTTTTTGGCTCATTATCTAAGCACATTTATGTTAAGTTTACAGAAATCAATAGTTTCTTATATATTAATGGAGACGTCATTGATTAATGAAAATTAAAAACATAGATATTAAAGGCAAGGTATTTTTAGGTCCTATGGCTGGAACTACAAATGCTGCTTTTAGAATAATTTGTAAGGAAAAGGGAGCATCTCTTGTTTATGCTGAGATGGTAAGTACTGAAGGTTTGGTTCATAATAATCAAAAAACTAAAACCATGATCGAAGTTTCAGAACTTGAACACCCAATCACCTTACAAATTTTTGGTTTTGATGTAAATTCATTTGTAAAAGCAGCAAGCATTGTTGAAGAATTTTCAGATTGTGACATTATTGATATAAATATGGGATGTCCAGCTCCTAAAGTTGCTCAAAGAAGCCAAGCAGGAGCAAACTTATTAAAATTTCCAGAACGTGTGGGAGAAGTTATAAAGGCAGTTGTTGAAAATAGTTCTAAACCAGTTACTGTAAAAATGAGAATAGGTTGGGATGAAAACAATAAGAACATTGTGGAACTTGCTAAAATAGCAGAACAAAACGGTGCATCAGCAATAGCTGTTCATGGAAGAACAAGAAATCAATTTTACAATGGAAATGCAGACTGAAGCTGAATCAAAAAAGTAAAAGAAGCTGTATCAATTCCTGTAATAGGAAATGGAGATGTAGTTGATGGTCCAAGTGCAAAAAAAATGATAGAAGAAACTGGATGCGATGCAATAATGGTTGCAAGAGCAGCACAAGGAAATCCGTGAGTTTTTAGAGAAATTCAACACTATTTAGATACAGGTCAGGAATTAGAAAAACCTGATTATCAAGAAATTAAAAACACAATTTTAAGGCATACAGATTTATTAATTGAGATGCGTGGTGAAGAGTTTGCAATAAGGGAAATGCGGAAGCAAATTTTGTGGTATCTTGCAAGACTAGGAAAAAATACAATCATTCAAGAAATGAAACAAAAAGCAATACAAATTGAAAATTTGAATGATATATATAATATATTTAAAATATATGAAACAGAAACAGGAGAAAATTATGAAAGATAACAATTTGGAAAGAGATTTTAGTGAACAAGAGATTATTCGTAGAGAAAAATATCAGCAACTTGTAAAAGATGGAAGAGATCCGTATTTAAACACAATTTTTGATAGATCTCACAAAATTCAAGAAATAATCGATCAATTCTCAGAGTTTAATAAAGAAGAATTGGCCAACAAAACAGATGTAGTAATTACTGCAGGAAGAATTAGATTCTTTAGAGAAGCAGGAAGTAAAGCAATTTTTGCAAATATTCAAGACCAAGAAGCAATGATTCAAATCTATGTAAGACAAGATGAAATTGGAGAAGAAGAATTTAAATACTTTAAAAACCTAGATTTAGGAGACATCATTGGAGTTACAGGAAAAATGATGAAAACAGACCATGGGGAAATAACAATAAGAGTTAAAGAAGCTATTTTATTAACAAAAGCTTTAAAACCATTACCTGATAAACATGCAGGGATAGCAGATATTGAAGAAAAATATCGTAGAAGATATGTTGATTTAATTGTTAATCCAGAAACAAAACAAACATTTATAAATAGAACAAAAATTATTAGAACAATTCAAAAGTATTTAGATGATAAAGGATATATGGAAGTTGAAACTCCAATTTTACACTCTCTAAGTGGTGGAGCGGCAGCGAAACCATTTTGTACACATTACAATGCGTTAGACAGTGAGTTTTATTTAAGAATCGCAACAGAATTACATTTAAAAAGATGTATTGTTGGAGGATTCGAAGGAGTTTATGAAATTGGAAGAATCTTCAGAAACGAAGGTTTAAGTACAAGACATAATCCTGAATTTACTTCAATAGAATTATATGTTGCATATAAAGATATGTATTTTTTGATGGACTTATGTGAAGAAGTAATTAGAAAATGCGCAATGGAAGTTAATGGAAAAACAACTTTATCATATGGTGGACACGATTTAGATTTAGGAAAACCATTTAGAAGATGACATATGGTTGATGCTATTAAAGAAATTACTGGTGTAGATTTTTGAAAAGAAATGACATATGAAGAAGCTTTACAAATAGCAAAAGAAAAAGGTATAAAAGTTGAAAAACATCATTTCTCAGTAGGACATATTATTAATTTATTTTATGAAGAATTTGTAGAAGAAACAATTATTGAACCAACTTTTGTTTATGGTCACCCAAGAGAAATATCACCTTTAGCAAAAGCAAACCCCAAAGACCCAAGATTTACAGAAAGATATGAACTATTTATTGTTAATAGAGAATATGCGAACTGTTTTTCTGAGTTAAACAACCCAATTGATCAATATGAGAGATTTTTAGATCAATTAAAAGAAGCGAGAAGTGGAAATGATGAAGCAAATGATATGGATATTGATTTTGTTGAAGCATTAGAATATGGAATGCCTCCAACTGCAGGAATCGGAATAGGAATTGACAGATTAGTTATGTTATTAACTAACTCAGAATCAATTAAAGATGTATTATTATTCCCACAAATGAAACCAAGAGGGTAACTTTTATGAAGTTTGGAATTGCATTAGGTTATGTTTCAAAGCTTAGTTTGTTAGAAACTATTCAAGGAATGGAACAAATCAAAAAGAAAATTAAAGAAAGTTTGAAAGTAAAGTTTAGCCTTATCGAAGTTAACTCATCAATTGTTACAGATAAACACTTGTGATTGAATGATGATAATCAACAAACCAAAAGACCAATAGATTTTGATATTTCCTATAACAATAGTTATGGTGAAATTTTACAATCAAATAATAAATGAAGAAGATACTTTTTAGGTGAATTAGGTTTAAAAGAAAACAATGTAGGGATTTTTACAGACTTTCAAGCTATTGAAAGAGACTCTGAAATTAGTAATATTTCATCTGTAACTTATCATGAGTTTGGAATGGAAATTATAAAAACAGAATATAACATTGAAGAAGTTAATAAAGCTATTACAGGAATTTTTCAAATTATTTCAACTGTAGATAAAGAAGTTTCGAGAAATTTTACTAAATTAAATATAAGTCATTTTGGAAATACTTTGATTTTTGTAACACATAAAAAATTAAAAGAACTTTATCCACTTTTAACTTTTAACGAAAGAATAAATCGTTTTGGAAGAGACAATGGCTCTTTTGTTTTACAAGATTATGTTGAAAAATTATTAAACCAAAGTAGCGCCAACCAGTTTTCAAGCGATATATTTGATTTTAAAACTTTTTCAAAAATTTATTATTATAATAGTGACTGTGAAAAAGTTGTAAGTATTGGTTATGTAAGTTATACAGTTGATAGAGAAATGTTAAAAAGACAAAATAATATTTTAAAAGAAAATGTAAAAACACAAACTCAATATCATCATTTGTTAAAATCTAACAAGCTACCTATGACATTGTCATGTGGAATATTTATAGATAGAATCACAATGGGTATTTTAGAAAAACAACACATAGGCGAAGTTCAATCTTCTATTTGGGATCAAGATTTTCTTGATTATTGCAATACAAACAATATTAAAATATTATAATCAACCTATAAGGTTGGTTTTTATTTATAATTTTATTAAGGAGAATTTATGGTTGATTTAATTATAGTTGCAAATGGAACTGGCCAAAGATATGGTTCAAATAAATTATTAGAAAAAATTGATGAAAGATTTGTAATAGAACTAACAATTGAAAAATTTATCAACATTGAAAAAATTAAAAATATAATCATTGTTACAAATGATGAAATAAAAAATATTTTAGATAATAAATATAAAAATTTAATACTAGTAAAAGGCGGAAAAACAAGAAGTCTTTCCGTTCAAAAAGGTTTAAATTATGTTAAAAGTAGTTTTGTGATGATTCATGATGGAGCAAGACCTTATGTGGGTCAAGAGTTAATAAACAGTCTAATAGAAAATATAAAAGATAGCGATGGAATAATTCCAATACTTAAAATAACAAGTTGTTTAAAAAAGATTGGCGACACTATAAAAACTGTAAACAGAGAAGAATATGTATTAAGTCAAACTCCTCAATTATTTAAAACTACTTCTATAAAAAAAGAGTATGCAAATATTGACGAGAATTGATATGATGATTTTCAAGCCTTAGAGTTAAAAGGGTATAAATTAAAAACTATTATAGGAGAAGAAACAAATAAGAAAATAACTTTTAAAAAGGATATCAAGAGTTAAAAGTTTTTTTAGGGCTAAATATAATAAAATAATATATAGATAAATATGGAGAATATAATGAAAAAATTATTAAGTATATTAGGTGCGTTTGGCATATCGTTAACTATAACATCTTCAGTTACTGCGTGTTATCCTATTAAAGTAAAAAAGAGTTTAAGAGAACTTCCGGTTCAAGATATTGGTGAATTGAAAGGAACAAAAGACTTGCCAACTGCTACAGAAATAATTAACGCAGTATTAGATAAAAATGCTGACTTTGGTATAAGTGCATCTGATTTTGAAGTAAGTGGGAAAATAACAACAAGCAGTGTAAAGTTAAAAGCATCTTCAACATCAACTAATTTCAGAGGAAAAGTTATTATTAGGTTTTCATATATCAAAGAAGTTGATGAGAGTAGCACAATTAACAGCATGAATCTTAAACTAAGTAAAAATTACAATAAATATATAAATCAATTATCAATAACAAAAATTGTCATAAAAAATACAAAGAATTAAATAGTTTTAATATATAATATATAAGCGAGTTAATTTTTATTAACTCCTTGCCTGAAATTAGGCCAAAAGACCATAAGGAGAATTTATAAAATATATGATCAGAAAATACGAAGTTATGTATATTATTGACCAAGACGCTAGTGATGTTAAGGGTGTTCAAAAGAAACTTAACGATGTTCTTGTTGCTAATGGGGGTAAAATTCTTGAATCTGAAGAATGAGGGTTAAAAGATTTTGCTTATGAAATAAACAAAAAGAAAAAAGGTCATTACTTTGTTTTAATAGTAGAAACACAAAGTGATAACATTGAAGAATTTAGACGTATTTCAAGAATTGATAAAAGTGTTGTTCGTGAATTAATTATCAATACTGAAAATGAAAAAAAATACGTTCAATCAACAAAATTATCAAAAACAGATATGTCAAAATTTAAAGAAGAAAAAAAACCTTCAAGAAATTTTGAAAGAAAACCAGGTTATAGAAGACCTGAAGGTGATACAACTGCTAGTGAAGCACCTCAAAAAGAAAATGTTATTAAATCAGAAAGCGTAAAAGAAGCTATTAAAGAAGTTGAATCTACACCTAAAACAGCAAAAGATGTTGCTGAAAAACCAACAAAAGTAGAATCAGCAGAAAAAAAAGTAACTAAAAAAGCAACTGCAGAAAAAAAAGTAACTAAAAAAGATTCTTAATAATCTGATTTCTTAGGAGGAAATATGAACTCAGTTAATTTAATAGGAAGAATAACAAAAGATCCTGAATTAAGAACTTCAAGTGGAGGTAAATCTTATGTAGCATTTACATTAGCTGTAAATGAGTTTGGAGGAGGAAACCAATACACTCAGTTTATTCCATGTTTTGCATGAGAAAAAACAGCAGAAAATATGGCGCGTTATGTAAAAAAAGGTGCACAGATTTCTGTTGAAGGAAATATAAATGTTCGTCAAGATAATAACAATGGACAATATTCAACAGTTGTTTCGATAAGAGCAAACAGAGTTCAATTTTTAGGGGCAAATCAAGCTGGTGGAATGAATGTTTCTCAAAGCAATTCTCAACCAGAAATGAGTAGACCACAAACAAATAATTATGATTTTGATTTAGTTGAAGATAACAAACCTTCAAATGATGACGATTCAATTTTATGAGAAGACTAAAAGGAGAATAGATTATGAAACCAAAATTCGTAAGAAGAAAAAAAGTTAACTTTTTTGCTAAAAATAATATTGCTTATATAGATTACAAAGATGTAGATTTATTAAAAAAATTTATATCAACTAATGGACAAATTTTACCAAGAAGAATTACTGGTACTTCACCAAAACATCAAAGAATGCTAGCAACTGCAATTAAAAGAGCTAGAATAATGGGATTACTTCCATTTGTAAGCAACTAATTTTTAATTTTATTAAGCACTCAAAAAGATTGGGTGCTTTTTAATTGTTTGTTATAATAAAGGTGGTGATTTTTATGAAAGTTATTTTATTACAAGACGTCAAAAACTATGGGAAAAAAGACCAAATAGTTGAAGTTTCAGATGGTTATGCAAGAAACTATTTAATACCAAAAAAACTAGCTATTGTTGCTACAAAAAATGATTTAAGTCATTTAGGAGTTAAATTAAAAAAGGAGCAAGAAAAGATAGATTCACAAAAACGAGAAGTAGAGGATTTAAAAACAAAAATTGAAGCAAATATTTTAAATTTTGGTTTAAAAGTTAAAGATAATAAATCATTTGGATCTATTTCTTTGTCTCAGATTTGTGATAGATTAAAAAAAGAATATGCTATAGATGTAGATAAAAGAAAGTTTGAAAAACATGATAATTTAACTGATATTGGTTTACATTACTTAAAAATCAAACTTGACTTTAAAATAATAGCTACATTAAAAGTTCAAGTAGAAGGAATAAAATAATGAATGAAAATTTAGATTTAAATTCACAAACAGTTCTTTTAGATTCAGAAAAAGCAGTTCTAGCAATCGCAATGCATTCACCAAAAGTTAATTTTGAAATATTAACTCAGCTAGAAGCAAACGATTTTTCAATTGAACCGCATAGAATGATTTTTGAAGCTATTAGAGATTTAAATCAAAATAGTCAAAATCCTACAATCACAAAAATTGCAGATCATTTACAACAAAAAAAACAACTAGAACAAGTTGGTGGAATTGAATACATTGGAGAAGTTTCAAGTTACTTTTATACAGATGAAGGTTTTGAAGATTATGTTGAAATAGTTTTTAAAAACTCAATCGGAAGACAACTTGATAGAGCTGTTAATGAAGTTAAAAGATTAAGAGAAGCAAAATCTCCTATTGATGAAATATTTTTAGTTGCTCAACAAAAAATATTAGATATAAAAACTGAAATTCAAAAGGATGATGCTCAGGCAATTAAAGAAACCGTTGTTGATGTAGTTAAAAAAATTCATGACTTACAAAATACAGGAAGTTCAATTAATGGAGTTGCATCAGGTTTTAAAGATTTAGATAATATTACAAATGGATGGCAAAAAGGTGATTTTGTTATTTTGGCCGCAAGACCAAGTATGGGAAAAACTGCTTTTGCTTTAAATTTAGCAATAAATGCAGCAGAAAGAAAAAAAGGAGTAGTTTTTTTCTCGTTAGAAATGCCAAAAGAACAATTAGTTCAAAGAGTGTTATCATCTGTCTCTGCAGTTGATTCTTCATCACTAAGAACTGCTCAAAACTTAACAGAATCTGTTTGAAAAAGAATAACAAATGGAGCTGAGCAAATAAAAAAGTTAAATATTGTGATTGATGACTCACCAGGATTAAATGTGATGCAAATTCAATCAAAATTAAGAAAATTAAAAAGAGACTTTGAAATCGATATATGCTTTATAGATTATTTACAATTGATTTCATCAATGCAAAGTAGAATGGATAATCGTCAAAATGAAGTTGCTGCAATTTCTAGGCACTTAAAAAAAATAGCAAGAGAACTAAACATACCAATAGTGTGTTTATCGCAACTATCACGTAGTGTAGAAAAGAGAGAAGAAAAAGTTCCTTTAATGTCAGATTTAAGAGATTCGGGAGCCATAGAACAAGATGCAGATATAATAATGTTTTTATATAGAAAAGCATATTATGAAAAGAAAGAATATGAAGTTTTTGATGATAGTCAAAATGACGAAACAGATGTAATCATTTCAAAACACAGAAATGGTGCAACAGGTGTAATTAAAGTTAACTTCTTAAGAAATTATGGTAAGTTCACTGATAGATCAAAAAATTCATAAAAAGTATAAAAATAATGTAAAATTAAAAAGTTAGGACGGTTTAAAATATGAAGAAATTGTTGTCTTTAGTTAGTGCATTTAGTTTAGGTGCCATATCAAGCGTATCAGCAACCTCAGCAGGATGTCAAATTCCCACAAAAGCAATTAAAATTACAGTTGATGGTAAGGAAAAATCAGAAGATAATGAAGATGTTTTAGAAGTAAAAAATTATGATAATTCAGTAGGGCAAAATAAAGTAGTTGGAGTTACTAATTTGTTGTTAGAAGCAATCACATTTACAGATGAAAAATATCAAGATTCAAAAACATTAAAAAAACAAAAAGATTTTTTAGGTGATCAAGGACAAAGCTTATCACTTATGAATTACATTAAAAAAAATAGTGATTCTACAGATTCGGTTTTTAAAGATTTTAAAAACTCATACGAAGCATCTAGAAATACTAACTTTATTGCGGTTAATTTTGAAAGATCAGATGCTGCAAAAAAAGGTCAAAATAGTTTATTTAGTTTAAAAGATGATGCTAGAGTTTTTGTTGTTAAAAAAACAAAAGAAAATAAAGAAGTAACAAAATCAGAAATTGTAGATAGTTTTGATTTAGCAGATGGTTTAGATGGACATACATCATTTAAAAGTGATGCAGAACATATTATAAAAACTGGTGCTTCTTTAAATGAAACATTTGCAGCTCTAGCACAAGGTTCGGATGCTCAAAACAGAATTTTTGAAAATTATGATTCAGCAAACACTTATGATCAAGAAATAGTTACAAGAGCAAGAAAATTAGACTCAACTTTAGAAGATGAAAAAACTAACAAACCACTTAAACTGTTAGGAGAGTTTGAAGTTCCTAAACAAGTAGATAATAAAGTAGTTGAACCAATAGATGGAAATGCACCAAAAGCAGGAAAAACTGATGATAAATTTAGACTTTACAATTCTGATGATGGAAAAATAATTCAAGCAAGCTCAACTCTTATTCATACAGAGTCAAAAAGTTTTGCAAAAATCAGTCTGGATTTTGATGATCCAGGAAACAATAGTATAGAAGAGAGAAAATTTAGAATAGATTATAATAATTTAGATAAAGTTATTTTACAATGAAGTTTAAAAACTGTTGACATCACAGCTGTAACAAGTACAAATAACCCAGATGGTATTGAACATTCAATTTATTGATATGAACCATATCAATACATATTTAAAAATACAACAGAAAACGAAAAACAAGATATGTTTAACATATATGATAAAAATTTCACACCAAATATCACAATTTTTAGAAAATAGGTATAAATTGAACTAGTCAATTAAAATTTTGATTAAATAGATACTTTATCCATACGAATATCGTATGTATTTTTTATATTTTATACTAGGTCTAACATATTTATGAAAATCAATATAAATGAAATTATTGTATAGATATTTAAATAATTAAGCCCTTCTATTTTATAAGTATGAATATATTCATTTTTATAGTTCTAGAAAGATTTCACGCTCCATAACCAGGAAAGTGATTTAGGGTGATATACATACTTATCTTGTTTTTTAATATAATATTTTCAGAGTTCTATTATATAGTGAATACCTTGACAAAAATGAACAATATGAGAGATACCACTTTTTTAATTAGAAAAAATAAACTTCGCATAACATAATTTATCATTTATACTATTAGATAATTTTAAATCTATAATTTTTGAATTATATAAATCTTTTATGACAAATAAACTGTATATCCTAAAGCTGTCTTTACGTAAGTTATATTTGTAACTCTTTTTAGATTCAAGCTATCTGTATTAAACTTTAATTGAATAAGTTTTTTTATCTCAAAGGACCAGGTTTGTCATATTTTGTAGCTTTTTCATATCTCTTTTAAATTGTTAATTTTTATATATTTATAAGCGACTTATAGTATCATGTTGTATCCAAAACATTGTTACATAAATAATAAATATAATTTTTATAGTAAGAATGCGATTATAGTTTTATCCACAGGCTTTTCATTATTTAGCTGATTTAAATGGCCAAATCTTGAAATACCTAAATATTTACAAACTAGCGTTAAATTAATGTTTTTTGTTTTTCAAAAATTCAAAGTACTGTTAATTACTTTTCTTCCCTAATTCTTTTTTATCTTGAGTTAACTTAAAGCTTTTCTTAATTTTTTGTTGTCGTATCATTATGATATTTACTATTCATCAATAAGATCTAAATTTAAAAATATTTTCTTTAGTTTAAATTCTGGCTTTCGTCTTTTGACCGCACTTGTGCTAACATTATACTTTAGTGCGCCACTTTTTATTCCCATTTTTTTGCCTTTCAAAAAGCTTGATTTTTTTTGATCATTATTTTGCCATTTATAAAATTTAATAATAAAAGTACACATTTACGTTTCTTTTTATTTTAGATGTTCAAAATAGAGTTTAAAAATTACTAAAAATATGAGATAATTAACAAAAAGTTAGGTAGGGGCAGTTGTGAATTATTACATTAAGTTAGATAACGGCTATTTTCATGTTGTTGATGGCAATGTGAATAAAGTGATTGCATCATTTGTGAGTGAAATAGACGCTCATAAATTCTTACAATCACTTTTTAGTAATTTTGGAGAACCTTGATCAGCTGTTTATGGAACGCTAATCGAAAATCCAGTAGTTATACAACCAATCATAAGTGCTTCACCATTATATTATGAATCAAGCTCTCCTTCATGTCATAAGTCATTACAATTACCTCAACAAATTATAATAGAAAATAAATTACCTTTTGGTTATAGCCCTAGCGCTCAATACTCATCATTATTTAGCAGGACCCCAACAGGAGGTACACCTTTATACAATGGTGGTTTTTTAAACAACGGAGGAGTTCCTTCAAGTCCTATGTTTAGCACGCCACCAATATTAAGTGAAGGTTTAAATCAACCTCAAAGTTTTAATAGTAATATTTATTCCAATCCTCCACAAGTTAATTCAAATACTAATGGATGAAGTCAATCACAACCACAAATTAATAGTAACAAACCTGCTCAAAACATTGCAGTACCACAAAACCAAACAAGAAATAATCAATTACAACAACCTCAAAGTTTAAGTGGTCAGACAAGTTCAACACAACAAAGTTCAAATAATCAAGCCGCTCAAAACATTGCAGTACCACAAAACCAAACAAGAAATAATCAATTACAACAACCTCAAAGTTTAAGTGATAACCAAAATAATTCAGTACAACCACAAAATAGCTCAACTCAACTAGGATGAAACAAGCAACCAAATAATTCACAACAAAGTTTACAAAGAAACAATCAAGTACAGCGTCCTCAAAACCTGGGAAATCAAAATCAAGATGCAGATCTACAATCTCAAAATACGCAACAAAATCAAGAAAGTGGTTTTGAAAGCAATCAAAGCTATGACAACATAAGTTCTGATGACAATAATACTTTTAATCAAAGTAGTGGAGCTCAAGCAAATAATGAAAATGGTGCAAATAACAAAAAATCAAAAAGAAATAAAAAATTTGTATTTGATGATTTAACAATGGCTCTTGATATAAGTGCCTATGATGATGAAGGCGCAATTGTTCAAATTGATGATTTAGAAGTTAATAATAAAGATGATGATAGTTTGGGAGAAGCATCAGTTTATTCTAAAAAAACAAAAGTAGGTAAATCAAAAGAAAAGAAGGAAGAAGACGAAGCTCTAGATAATTTCGAAATAAACAGCTCAATGTTTGTGAATGATATAGATTTTGAAAATGATGAAATTATACATCACAACAAAAACAGTAAAGGAATTAACAGGTTAAAACGTGAACAAGATGCTCAAGAAAATATTATTGAAAATCAAGATAATATGAGTTCAGTTTTAGAGGGTGGTCGTCAAAGCAAAACTTCTTGAGATGATAAAAAAAATCATATTGATGATTATGATTTAGATGCATTAAGTTCACTTGAAGACTATGAAAAAAGACATTTAAGTGAAAGTTGACAATCTTATAGTAACAAAAGTGAATCTGATTACAATAAGCAAAGACTATCAATTCAAAAAGAATTGGAAGAAAAATATCATTCTGAACAAATGGATGATTATGATTTAGATGCATTAAGTTCACTTGAAGACTATGAAAAAAGACATTTAAGTGGAAAATGAAAATACGATAGAGGACAAAACGAGTCCGAATCTTTTGTGTTTGATAATAGGGATCTAGAAAATCAGAGCAAAATTAATGATTTAGATAATCTAGATAGTAGAATACAAGGACAATCTGAAAAAAGAGCGTTAGATGAATTAAATTATAATAAATCATCTAATATGAATGAGCAAAAAAATGATAATTTAAATAGTAGGGCTAACCTTTCAGATATATATGATATAAACACTTTAGAACAACAATATCAAAACGGACTATTAACAAGTGATTTAAATTTAGTAAAAAAAGATGATGGTGTTATCGATTTAGGACCAGTAGATGATGATGATACAATTTTTTCTACTCCAAGAATGGATGCCCAACAAGAAGACTATGAAGATTTTGGTGCAATAAAAAATGATAAAAAAGCACTCAAAAAAGCTAAAAAAAGGAAAAATAAAAATCGAGATCCATTAAGCAATACTCAAGCATTGTCTTATGTTGTAGATAATAAGATGATTAGCAATGTTGATGGTAATTTAGTTAATAAAAAAGCAATTAAAAAAGAAGAAAAATTAAATAAAAAATTACAAAAACAACAAAAATCTAAAGAACCCGAAATTATAAATGATGATATTTCATTAGATAAAATCAGTACAAGTAATATTGTACAACCATTAGTTCAAACACCAGTACAACTAATTGCAGATTTAGAAAGTGTTGAAGACTCAGGAACAATAACAAAAATATATGAACAAAATTTAATACCAACAAGTAGTATTCAATTAGGTAAAAAAAATGATGATGTTATAGATTTAGGACCAATAATTGATGATGATACAATTTATTCAACGCCAAGAATGGATGCTAAAGAAGAAGATCAAAAAGAAGAATTAACAAAACAAGACAAAAAATTACTTAAAAAAATAAAAAAAAGTGAACAAGCAAACCGTAAAAAATATGAAAAAATGTTAAAATAAGTCTTATGGAAGATTTATTAAAAGATATTAAAAAAAGTTGAGCTTTAGTTTTTAACCATTATGAAATTAAAAATGGCATTAGTGCAGTGATTAATAAAATTAGTGATTTTAATAATGTTTATCCAAAAAAAGAAGATATATTTAAAGTTTTTAAGTTGCTTGATTTTGAAAATGTAAAAGTAATTATTTTAGGGCAAGATCCATATCACACAAAAAATGTTGCAAACGGGATTGCATTTAGTGCAAATAAAAGCGCAAAAACACCACAAAGCTTAAGAAACATTTTTAAAGAGTTAAAAAATGATCTATATATTGATCATTTTGATAATAATGACTTATCTGAGTGAGTGAAGCAAGGTGTTTTATTAATTAATACATCATTAACAGTGGTTGAATCAAACCCTGGATCACATGCGGATTATGGTTGAAAAGAGATTGTTCTTAAAATAATAAAATTTTTATACAATAAAAATAAAAATATAATTTTTTGTTTATGAGGAAATTTTGCAAAAAACTTATATAATAATCTTAATATAAATAGTGATTATGTGATTATTAGTGCACACCCTTCACCGTTTAGTTATAAAAGAGGTTTTGCAAATTCAAAACCCTTTTCTAGAATAAATTCATTCCTAGATAATCTTGGATTAGAAGTTATAGATTGAAGCAGATAAAAGGAGAAGTTTTATGCAAAGGTTCGCAGAGTTATTGTTAAAAGGTAACAATTTGGCGTATTTAGGAGCAGGGATTATTGGTTTCTTTATTGTAGCCTATATTGTTTACAATAGTCTATCTTATTCAATTTTAAGAGAAAGATATCACGGAATTAGATTTACAACAAAAAATATTGCGTATATAACTATGCTTGTTGCTGTTAGCGCAAGTGTTACAATTGTTGTTTCGCTTGTTGCGCCAGTTACAGTTTTCCCTCCAATTCGTATTGCTATTGAAGGTTTAATGGTAAAAATAGCAGGATTTATTTTTGGTCCAATTGTTGGGGTAATAGTTGGTTTAATAACTGAAATTATTGTTATGTTATTTGTTCCTTCATTTATTCACCCTGCTTTTATAATTATAATTATTTGTTATGGTTTTGTTGCAGGAATAGGAGCAAGTTTTTTAAGAATTGGTAAAGGAAACAATTGAATAATCGTTGCACTTTTAAATATATTTTTATTGGGATTTGGTGGTGCAATGTATTTCTTGATCGATGCTGCAAACTTTCCAGACGGAGCTATAAAAATGGTTGGTTTTTATATGAGTAAAGAAGTATTTAAATGAGTATTTTTAATCTCAATATTTATTTGTGTAATTATAGTATGAGGTGCTTATTTAATAGGGACTTTTACTGGTAATAAGAAAAAACTTAATGTTTTTTTACCAATCCTTTTATTTGCAACAGCATCAGAATATATTGTAACTTCGGTAATATCGGCTTGAGGAGACTATGGATTCTTAGGTCTAGAAACAAGTAAAGATGATAATGGATATATTTTAATGTTTATGGCAAGACTTGTTCAAGCCCCAGTTAAAATATTAGGTAACTCAGTAATTTTATACTACACATATAAAGCAGTCGCACCATTGATAAAAAACGATAGATAGGAATTCAATAAATGCTAAAAATGTATGACTCCCTTTCTGGTGAATTAAAAACAATTGATGAATCAAAAGTTCGTATTTATACTTGTGGACCAACAGTTTATAATTATATTCATATTGGAAATGCAAGACCTTTAATATTATCTGATTTAATTGTAAGATTTTTAGAATTTAAAGATATTAAGTATAAATATTTATTAAATATAACAGATATAGATGACAAAATAATTGATAAAGCTATAGCAGAAGGAGTATCTGAAATTGATATTGCAAAAAAGTATAGCGAAGCCTTTTTAAAAGATTTAGAAGATTTAAATATAAAATTACCAACTAAAGTAATACCTATTTCTTCAAAATTATTAGAAATAATTGATTTTATTGAAGTTTTAATAGATAAAAAGCATGCCTATGAAGTTGATGGTAATGTTTATTTTGATATTTCTTCATTAGCAAACAAATATGGAGAATTATCAAAACAAAAAAAAGAAGAATTAAATATCGGTGCTAGAGTTGAAGAGGATAAAAATAAAAAAAATCCTGATGACTTTGTTTTATGAAAAAAAACAGATAAAGGAAAAAAGTGACTAGCAAAATGAAGTTATGGTAGACCAGGATGACATACTGAGTGTGCTTTATTAATAGATAATTTCTTTACAAAAACTTTAGATATTCATATTGGAGGAATTGATTTAAAATTCCCTCATCATGAAAACGAGCGAATTCAATATATAGCAAAAAACAATAAAGAAGTTGCATGAGTTTGAGCACACAATGGTCACTTATCAATTAATAATGAAAAAATGTCTAAATCATTAGGCAATACAATTTTAGTTAAAGATTTTATAAAAAAATATGGAGCAAATGTGTTAAGATTTATGTATTTAAATTCTAACTACAGACAACCATTAAATATTAATCAACAAACAATTGATCAAGCAATTGATTGAAATACAAAAGTATTAAATCTTTTAAAAACTGCAAACTGAAAAATTGCTATTAATGAAATTACATTAAATAACGAAACACCAATTGATGATAATTTTGATTCATACAAGTACATAACAAAGTTTAAAGAATTTATGAATAATAATTTAAATACACCAATGATCATAACGCTACTTGATGAAATGGCAAAAAATATTAATAAGCAATTTAAAAATAAGGTTTTAGATAGAACTTTAGATAAATTTAACGCTATTTTAAGTACACTTGGTTTTAAATATGAACTACCAAAAATTGATAAAAAAACACAAGCTAAATTAAAAGAGTGATTAGAATCAGTTGCTAATAAAGATTTTGAAAATGCAGATAATTTAAGAGATGTTTTGAAAGAAGGAGGAATTATTTAAGATGCCAAATTTAGTTTTTGGAAAGAAAAACATTTTTAGCATTATTAAAAATTTTCCTAGTTTAGTTGAAAAAATATATGTTGTTAAAGGGTTTTTATTTGATAATGAAATTTTTGAAGTTGTAAAAACTAAAAATTTAAAATTAGAATTCATTGAAAACCAAAAGTTTCAGAAAATATTAAATCAAAAAGTAAATCATCAAAATATTATTGCTTATGTAAAAGACTTTGAATATAGTCAATTACAAGATTTAATAAGTAATAAAGAAAATCAAACAATTTTAGTTTTGGATAGAGTGCAAGATCCTAATAACTTTGGGGCAATTATAAGAAGTGCTGTTTTATTTGGAGTTGATGGAATAGTTATTTTAGACAGAAATCAAGTAGATGTAACAGCTGCAGTTTTAAAAACTTCAGCAGGAACAGCATACGAAATTGCCATTGCAAAAGTTGCAAACTTAGCAAATGCACTTAATGTATTAAAACAAAAAGGTTTTTGAGTTTATGCATCTTATTTATCAAATGATGCAACAAATATTGCTGATTTAAAATTTGAAAACAAAAAAGTAATTTTAATAGGAAGTGAAGGCAAAGGTTTATCAAATAAACTAGTAAGTCACTCTGATTTTAAATTTAAAATTAACACAACAAATATTATTGATTCACTAAATGTATCTGTTGCTACTGGTATAATTCTTTTTAAAGCAAGTCTTGACTAGCAACAGATTAAAGCATGCAATTTATTTTATATTAAAAGAACGATTTATTTTCTTATCAAACGAAGAAATAATTACAATGACAGAAAATACAGAAAGAATAATGCAAAAAGTTCATAGAAACTCGCGGTATAACTTGTTTGAGTTAAGTGAAGAATTAACTCCTTTTTATGAAGCTGTTAATGAAATTTCTCATGTCTATGACAAAAATAAATGCAGTAATTTTTTTGTGTTTTACTATGTAAGATTGCGGCAAAGATTATTAGATTATACAAGATGAATAACTAGAAAAAATAGAGATTTATTTAAAACAGAAAGAGTTATTCAATACGAAGATGGAACAACTAGTTATGAAATTATGATAGAAAGATATTCGTATGAAAACTACCAAGTTGAAAATCTCAAAAAAATAAGTGATAGTACTTTTATTGCTTTTTGTAAAACTTACCCAAACTACATTGTAATTTTAGCAACAAGTCTTTATCTAAAAGGATATGCAATTAAAAAAATCTGTATGATGTTAGGAATTACACGTAGAGATTATGATAAAATAATTAAGAATTTTAAAAACTTTTTAATTAATTTACTAATTGAAGATAAAACTATATAATATCTTTTAGAAAAGAGTGTTTAAAAATGGCAATTTCATCAAATAAAAAAATCTTGTTAGTTTGTGAAGAATGCCTATCAAGAAATTATAGCTTACAAAAAAGCACTATTTCGCAAAGAGATAGATTAGTTATTAAAAAGTTTTGTAATAAGTGTAATTTAAGAACTGTTCATAAGGAGTCAAGATAGTCATGAAAGATAAAGAAAAAGATCTAGATTTAAAAGCTCAAAAGAAAGCTGAAAAAGAAAAAACTAAGGCATTAAAAGCAGAGGCTAAAGCAAAAGAAAAAGCTGAATTCCAAAAAATTTATGATGCACTTGATGCAGATAAAGGTTTAACAAAAGAAGAAAAAATTAAAAAAGCAAGAGCGGCAAAAGTTAAAGAACATCGTAAAAAAATTAATGTTAAATTAGCTTTAAAAGAAACTCCTATTAAAATGCTTAAAGAAATTAATAAAATAAAATGAAGCGGAAGAGCAAATTTAGGTCAAAAATTTTCTTGAGTTATAATATTTTTATTGATATTTATTTTGTTCTTTTATGGTGTAGATACAGGATTAAGATATTTATTTGCAGAGATAAAAATTATTTAGGAGATAAACAAGCATGGAAAATAAAGAAATATCATCCCTTACTGAAGAGTTAGAGTCTTTTAAGGGTCAGTGATTTGTTATAAATTGTAATAGTGGACATGAAGACCGTGTTAGAGGAGATTTATTACAAAAAATAGAAACTTCAGGTTTGGAAAATGTTATTTTTGACATTAGAATTTCTAAGTCTCAATTTATGGGGAAAAATAATAAATTAACAGATAAAAATAAATACCCAGGTTATTTATTTATTAATATGTTAATGACTGATGAAACTTGATTTATAGTACGAAACACTCCAGGGGTAAATGGGTTTATTGGATCTTCTGGAAAAGGAGCAAAACCTTTTCCAATAACAGCAGAAGAAGTGGCTAGAGTTTTATATAGTCAAACAGAAAACGCAAAACAACAAGGACAAAAAGCAACTCAAACAACTCAACCAAAAAAAGAAAAGGTTTTATATACAGCTGATTTCAAAGTAAAAGATGTGGTTATTGTAAAAGAAGGTCCTTTTGCTAATACTGAAGGTCAAGTATTAGAAATGGATTATGAAAAGGGAGTTGCTGTAGTAAATATTGAGTTATTCGGAAGAATCACTCCAACAGAATTTGAATTTTTGAACCTTGATTTAGCTTACAAAGCATAGCGGCAACTTTATTTATAAAGTTGCTTTTTAAAAAAGATAGGGAGATATTAGTTTGAAAACAGTTAAGATTAAAATTATTTTAGAAGACGGAAGAATTATGGATGCTGAATTGTATCCGCAATTAGCTCCTTTAAGTGTTGAAAACTTTGTAAATTTAGTAAAACAAAAGTATTATGACGGATTGATTTTCCACAGAGTTATTAAAGGATTTATGATTCAAGGAGGAGGCTTTAATATTGAAATGCAAGAAAAAGAAGATTTACAACCAATTAAAGGTGAATTTTCAAGCAATGGATGAAAAGACAACTTAAAATTGAAACATGAACAAGGTGTTTTATCTATGGCAAGAACTAATGATCCAAACAGTGCTACAAGTCAATTCTTTATAGTTACTGGTGAAGCTGGTTTTTTAGATGGACAATACGCTACTTTTGGAAAACTTATTGGGCAAAAAAGTTTAGAAGTCGCAAGACAAATTGAAAATGTAGAAACAATAAGTATTGACTTTTACGATGATGTACCAAAAACTCCAGTTATAATAAAAACAATTGAACTATTATATTAATTATATTTTTTATAAAAGGTAAAAAAATTTGAATTTTTAAAAGTTGTTTTAAAGTAAACTTATCAATAGTGTTATATAATGATTTTGGGTTTAACCCAATTAAATTTTTTTAAAGAATTTAATTTAAGATTATTTTGTATTAATGACCAAGAAAACAAAACTAAAGGATTTGTGTTTATACACTTTATAAAAAATAATAATTAAAAAGTTTAAATAAGATAAAAAAGTTGATTAGTGATGTGGTCAATTTTTTTTATGCAAATCAAGCATAATTGTGATAATATTAAATAAGGCAGATTTTAATTGTGGAAGTTAGAATATGAATATATTTAAACGTTAGGACCACAGCGAAAACAGGGAGGTGTTGTTCGTGGCAAAGAAAATCACACGTATAGCAAAACTTGAATTTATGGCAATGCAAGCAAAACCAGGAGCTGAATTAGCTTCATTAGGAATTAACATGCCGCAATTCACACAACAATTTAATGATGCCACTAAAGAAAGAGCTGGTGAAGTAGTACCAGTTGTTATTACAGCATATGATGATAAATCATTTGACTTTGTATTAAAAACTACTCCTGCAGCATTTTTATTAAAAAAAGCTGCAAATATTAGTAAAGGAAGTAAAAATTCTGGAAAAGAAGTAGTAGCAACAATTTCAGCAGAGGAAGTAAGAAAAATAGCAGAATACAAAATGGTTGACTTAAATGCTACAACTATTGAAGCTGCAATGAGAATAATTGAAGGATCAGCAAGAAATATGGGTATAAAAGTTGAAGGTATGCCTGAAAAAGAAGGTAAAAAGTAATGCCAAAACTAAGTAAAAAATTAACTATAGCGAATGCAAAAGTAGATAAAGCAAAATTATACCCAATTTCTGAAGCTATTAAATTAGCAAAAGAAACTTCAATTACAAAATTTGATTCAACTGTTGAAATAGCGTTTAACTTAAATGTTGACCCAAGACATGCAGATCAACAAATAAGAGGTGCTTTAGTTTTACCTGGTGGAACAGGTAAAAGCCAAAAAGTTTTAGTTTTAACAAAAACTAAGGTTAAAGAAGCTGAAGAAGCAAAAGCTGAGTTTGTTGGTGCAGAAGAACTTATTCAAAAAATAGCAAAAGAAAACTGATTTGATTTTGATGTAATAGTTGCTACTCCTGAAATGATGGCTGAACTTGGAAAAATAGGTAAAGTATTGGGACCGAAAGGATTAATGCCAAACCCAAAAACAGGAACAGTTACTTTAGATGTTAAGAAGGCTGTAGAAGAAATTAAAAAAGGTAAAGTTGAATATAGAACTGATAAAGAAGGAAATATTCATTCAATTTTAGGAAAAGTTTCATTTAAAGAAGAAGATTTAATTAAAAATTACCAAGCCTTATTTGAAGTAATTAAAAAAGCAAAACCAGCAGCTGTTAAAGGAACATATATAAAAAATATATCTGTAACTACAACCATGGGGCCAGGAATTAAAATACTAATGGAAAATTAAAATAAAAATATTTCTTAAGAAATATTTTTTTTATTAAACTAAAACCAATTTACATATAATTGTGTTAAGTATATAATATAAATAATAACAATTCGAAAATGGGGTAAAAAAATGAAAAAATTAATAAGTTTTTTATTAACTTTTACATTAACGACTAATTTATCTAGTTTAGTAGTCGCGTGTCCTAGTAAGTCTTTAGCTTTAGAAAGTATAACAAACAAAGAAATAGGGAGTTTTCAAGGAGAAGATAGTGTACCATTGCTTAGTCAAATAATCGAGTTAGTTAATCAAAAAAATAAAGGTTTAGAACTAACAGAAGATGATGTTGTTTTTGGAAGTGAACCAACACAAACATCAGCAATCTTAAAGTCTGTTTTTAAATCGCTAAAATATACTGGACAAGTAGAAATTACTTATGAGTACTCAAGAAAAGTTTTCAATTATAATGAAAAAATTGATTTGTCACAAATAGCAGGAAAAGATTTAATTTTAGAACCAAAAAACGAAACTTTTAAAGCGGCTCAGAAAGTTGCTGTAGAAAAAATTAAAACTATTTGTAAAGTTGATGTAGAAGAAAACATTGACTACATAATTAAAGAAAGCGATTTTATTGTAGCAACTCCTGGATTTGATGGTGTTTTAAGACTTACTTCTTTAGAGGATAGTAAACTTTTAATACCTAATAAAGTATTAGAATTTAAATTAGTTTTTGTAAAAGTTGATTTATCAGAAATACCAGAAGAATATAGAGATATAACTCCTATAAATGTTTCAAAAGATGAAGTATATAAAGAAATATTTTCGGTAATTGAAAAAACATTAGGTGTAGGTTTATCACTTGATAATGGAGCTGCACAATATTTTGAAAACGATTTACTTTATAATGATCCTCCAAAAGCTCCTAATATAAAAGGAAGTGTTATTTTATATACTTCAGATAAGGCTAGATATTTTATAGCAAACAGATATGTAAAGTTCACCATCAATTTTGTTAAAGGTGATCTATCTTCAATTAAAGGCAATGATTTAATAATTAAACCAAAAACAAATACATTAAAAGGTGCTGAAACAGAAGTAAAAGAAGTAATAAAAAATAAACTAGGAATATATGATGATGATCCTAATTTAGAAATTGAATTTTTTAAAGCATACTACGATTATGATGGTCAATATAACATAAAAGCAAATTCAAACAGTATATGATTTGTTGCAAACTCATCTGCTAAATTTACTTTTAAATACGAATCAGAAAACAGTTAATTTTTATTTATATGAGGTAAGTATTATGAAAAAGCTTATTTATATTTTATTATCTTTAAACATCGTTGTTAATGTTTGTTTTTTTAGTAGCGCTTGTTTACAATCTTTTAAAAAAATTGATCTTGATTCTATAGAAGAAAAAAGTTTAGGAAATTTCCAAGGTAGTGAAGAATTACCTTCCTTATTAGAATTAGTAAATCAAATAAATCTGCAAAATGAATACCTTGAGTTAAGAACTTCATATGTTGAATTTGATGGAAATCCAACAGAAGTTGAGGCTAAAATTAAAGCTAAAAAAAGTTCAGCTTTATTTCAAGGAAGTACAAACTTTTATTATGAATATAAAAAACAAGATATAGTTCCAGATACTAAACTGGAGGATATAATCAAGGAAACAAATTTAGGTTATATAAAAACTGATAATAATATGCCAAATAAAAAAGAACTTTTAAATTCTATAAAAAAGAAAAATATGTTATCGGCTAGGTTTTTAACCGAGGAAGACTTTGATATAGATGAAGGTCAAACAGATACATATGCCAAAATAAATGCTAAAGGGATAACCTTTAAAGGTAGTATAGAATTGACTTATTCTTGCGGCACAGAAGATTTAAAAGAAAAATTATCAGATGTCATTAAAATAACAGATTTAGGAGATTATCAAGCATCAGAAGAGAAGCCTAAACCAGATTTAGATTGAATTTATAAAAAAATTTTAGAAAAAAATCCTGATACTACAAAATATTTAAATAAACAAGATATTAAAGTAAAAAATGAAGTAAATGATGACGGAGTAGACATAGTTGGAACTGATGAAAATTATACAGGTACTGTTCATATAACTTTTAAAATCATAAATGAAGAAGTTTAATAAAATTTGCATTTTTTATATATTGTAAAAAACAAATATAATATAAAAAGATAATAAAGGAGTTTTTATGAAATATGATAGTAAATTTGTAAGGCACAAAACTAATAGTTCATTAAAACAAATAAAAAATTATATTAACAAAAATTTATTAAAAAAAGATATAATTAATGAAAAATTAGAGATGGATGATGAAGGATTAATTATTTTATACAAAATAAAATTTTTAAAAGAAATTGGTTTCACATTAGATGAAACAAGAATTATTTTAGACAATTTAAAAGAAATAGAGCTTTTAAAAATGTTTAAATATTTTATTTTAAAAGAAAAAAACTTATTAAATGATTTTGAAAAAAACTTAGTGGCTTTTTCAGAAAATAAAAAGTTAGAAATCAATAGAAATACTTTTGGTTATTTTGAGTCTGAAACCTTAGCCAAAGGAGTCATGTTTGATCTTTATAATTATAGAATTGAATGATATAAAAATGAAACATTTAAAAAAGAATTAAAAGTAATAAGAAAAAATATATTTACAAGTTTTTCTGATTATATAAAAAATAAACATTTAGAAAATCTTTATCTGTACTTTGAAAGTCTTAATGTTTTTTTAAAAACATATATTAAGGATTATTCTAAATTACATTTTTTTTGCATGATTAAGTGATGAACTGCAGAACCTAGATATGTAAAACAAATAAAAAATAAACTAAATTATAATTATGGACCTGACTTATTTAATCAAGCTGTAATTTGAATTACAAAATTTTAAAAGTGCTAACCCTAGGTTAGTACTTTTTGTTTATTGTAGGAATAATTAAAAAAAGGTTTAATTAAATACATAAGGAGGAAAAGAAATGGAGTTAAAAATTTATGCACCATGTAATGGATCTACAACAAAATTAGAAGACTTAAAAGATGGAGTCTTTTCAGAAAAACTACTTGGTGATGGTATAGTTTTTTATCCTGAAGAAAGTATGTTTTATTCACCTTTAGAAAAAGGAACTTTATTACAAGTGTTTGATACTAAACACGCATACTTTTTTAAAAGCACTAATTTTGAAAATGCTATATTAATGCATATAGGATTAGATACAGTGAAATTAAAAGGTAAACCGTTCGAACTACTTTCTAAAGAAAAAAAAAATGTAAATAAAAAATCATCTATAGTTAAAGTTGATTTAGAGTATATAAAAAAAGAAAATATAAGTATTGCAACACCAATTACTATTAGTGGTGAATATCAATATGAATTAAAAGATTTAAATATAGGAGAAGTAAAAAAAGGTGATCTTTTATATACCATTGTTTTTGAAAAAACAAATGTAGAAGAAATAAAAAATAATGCAACTTCTATTGTTGAATTTAAATCAAAATACTTACTAGCTGCAGAACAGTTTTTAGTAGATATTGGTGGAGAATCAAACTACAAAGATGTTTATAATTGTATGACTAGACTTCGTTTTTCAATTATTGATAAAGCAAAAGTTGATACAAAAAATATATCAAAAAATAAACTTGTAAAAGGAGTTGTATGAAATGGACTTGAACTTCAAATCATAATTGGAGGAGAGTGTTATAAAGTTAAAGATGAAATTTTGAACTTAAAAAATAAAGTTTCAAACATAGTTGTATCAAAAGACAAAATATTAAAACCACCTTTATCAAGAAGAATGCTTGGAGTTGTGACCGGGATAATGGCACCAAACGTTCCTATAATTTTAGCATCAGGAATTTTATCAGCACTTTATGCCTTGCTTGCAGCAACAAAAGCTATTGATACTTCTAATGATGCGAATATGTTTTCAACAATTATGAAAATTTTAAGTAAAACAGGACTATTGTTAGTCGGAATTTTCTTTTGTATGAACACAATTAAATATTTAGGTGGAAACATTTTACTAGGAGCCTTATTAGGCCTAATATTAGTTTCAAGATTTTATTTTCAAACAGGAACATCAGATTCGGATTTATATAAATTTGGAACTTATATTCAAGATAAAAATTATCATATTTCTGGATGATATTTATTTAGTATTGGAGATTTTCCAGTAGCAGTTAAATCTTATGAAGGTTCAATCTTACCATTTATCTTTGTAGGGTTCTTAGGATTTTATGTTGATAAATGAATTAAAACATGAATGCCTTCAACAATTGATGTTGTATTTAGATATCCTTTAGTAATTATTATTACTATTGTTCCAACATTATTTGGGTTAGGACCAATTTTATCCTTAATTGAAATTGGAGTTGCCAAAGCAATTGGGTTTATTGAAAAATGACCAATTGGATTAGGAGTTGGAATCTTTGCTTTAATAATTCAACCTCTTGTTATTATGGGAGTTCACGTTGCGGTTTATGTAACTTTACAAGTTCCTTTATTGTCAGGAGACCCAACAGCTGCTAGTTTAATCTTACCTGGAGGTCAAGCAGCGGTTTGAGGACAAATTGGTGCTGCAATTGGAGTATTAATCATGACAAAAAACTGAAATTTTAAATCCGTCATACTTGGTACACTTCCAAGTGCAGCATTTGGTATAACAGAAACAATTCTTTATGGTGTTAACATTCCAAAAGGAAGACCATTTGCAATTGGTTGTGTTGCTGGTGCAGTTGGTGGAATTGTAATGGGTTCACTTGGTGCAAAACTTAGAAGACTTGTTGGAGATGGAATTTTATATCCAATGGGATTAGATGGATTAGATCAATTATGATTTGTAATTGGATCTCTAGTAAGTTTAATAACAGCAATTTTATTAACAGTATTCTTATATAGAGAAAGAATTGATGAAAAAAGATATGCAATTAAAATATCTTCAAAAGTAAAAAGATTTATTACAAATATTTTTGTAGATGCAAAAAATAAATATAATAAAAATCTTGACAGTTTAAATAAAGAGTTTATAAGTTGTAAAAAAGAATTTAATGATTATGAAAAATACTTACAAAAAATTACAAAAATAGAAAATAGACTTTTAAAACTAGAGCAAAAAGAAGAAATAAAAAGAAAAAAACTTTTTGAAGCTATTAAAAGACTTGAATCAAAAACATCACAATCTTCAATTGATAAAAAAAATGATTTAATTAGTTTGTATAATCAATTTTCATTAGAAAAAGAAAAACTAAAACTAAATTTAGAAAAACAAGAAATAACAAATACAAATAAACTTGTAATAAAAACTTATCAAGAAAAAATAAAAGACTTAGATAGTAAAGTAGCAAACACAATTAGTATTTTAGAAAAAGAAACTAATCTTCAATATTTAAATAATTTTAAAAACGGATATTGAAATGCAACTCATACAGTTGATATTTCATATGGTTATGAAGATATGAGATTATATGGATTTAGTAAAAGTGAAAAAAAAGAAATAAAAAATTTAAAACTGCAAGGAGTTAAATAATATGAGTAATTTTGAATTTCCAAAAAACTTTATGATTGGAGGAGCTGCTGCTGCAACGCAATACGAAGGAGCTTTTGATCAAGATGATAAAGGTATGTGTGTTGCGGACTACAAATTTTATAATCCTAAATTAGTAAGAAATGATACAAAGATAAATTGACTTGAAATGACAAAACAAGAATATAACGATGCTAAAAAAAATAAAGATTTAGTTTTTCCATTTAGATGGGGAATAGATTTTTATAATAAGTATGCAGAAGACTTTAAATTGTTTAAACAAGTTGGAATAAACACATTTAGAACTTCTATATCATGAAGTAGAATAATTCCAAAAAATGATGGAGTTGTAAATCAAAAAGCAGTTGATCATTATAAAAAAATATTTGATGAAGCTTTAAAAAATAATATTAAATTAGTTTTAACAATTAACCATTATGATTGTCCAATTTGATTATTAGAAGAGTTTAATGGTTTTGAAAATAAAAAATCTATTGAAAAATTTTTAGAGTATGCAAAAGTTGTGCTAACAGAGTTTGATAAATATACAGATTATTGAATTTGTTTTAATGAGATTAACTTAACAACTCATGGTGGATATACTGGAGCTGGACTTGTTGTTGATGAAAATGATGATAAAAGATTAGAAAAATTATACAATGCAGTTCACAATCAATTTGTTGCTCAAGCATTGTGTGTAAAGTTAGCACACAAAATCAATCCAAATAATAAAATGGGTTCAATGAATGCAGCTGGACATTCTTATCCTGCTTCAACTAATCCAAAAGATGGATTAGCAGAGTTAAAAGTTTCTCAAATGTATAAATGATATTTTTATGAAGTAATTGCAAATGGAGTATATCCTCAGTATGCATTAAACTATTTTCAAAAAATGAATATTAAATTAAACATTACTGAAGAAGAAAAAGAAATTTTAAAAAATAATACAGTTGACTATTTAACTTTCTCTTATTATTCTTCTAATACTGTAGAGTATGATGAAGAGGAAAAAAATATTTTACATGGTAAACCAGGACCAAGAAATAAATTTTTAGAAGCAACTGAATGAGGATGACAAATTGATCCAATTGGTTTAAGAGTATTTATGAATGATTTATATTATCGTTTTAAAAAACCTATTATGATTGTTGAAAATGGTATGGGTGTTGATGAAAAATGAGATGATAAAAAAAATGAGTTAAATGATTCATATAGAATAAATTATTTACAAGAACATTTAAAAAATTTATTATTAGCAATTTATGAAGATGGAGTTGAATGTATTGGATATACAATTTGAACAGCAATTGATTTAGTAAGTTTATCTTCAAAAGAAATGTCAAAACGTTATGGTTTAATTTATGTTGACATTGACGACTATGGAAAAGGTAGTGGAGAAAGAAGAATAAAAGAATCAGGAAAATGATTTAAACAAGTTGTGGATAGTAACGGAAAAAAACTTTGAGAAAACTAATTTAAAGTATTGTGTTGATGCACAATACTTTTTTTGTTATTAAGTATATTTGCTTTATAATTTAAATAGTTGAAAAACTAAGAACGGGAGAAATATTATGAAAAAATTATTAAGTATATTAGGAGCTGTTGGATTAAGTGCAGCAGGATCAAGTGTTGCAATATCATGCAACTTTAAAGGAGCAAAACCACCAGGTTTTGATATTAATAGAAATATAAAGTTGCAGTATGGAGAAGAAAAAGTTTTTAATTTGACACTTAAGGAAAAAGAACCAAAAAAAGATACACCAATAATAGTTGAATCAAGCGATATTAAAATTGTATCTGTCATTTCAAATATAGATAAAGATACAGAAGGAACTGGAAAGTTTAGTATTACATTAAAAGCAATATCTTCAGGTGATGCTAATATAACAATTAAATATGGTGAAATTTATGAAGATACAATTTCTGTTAAGGTTGGCTTAAAAGATAAAATAGATTTATCAACAATAGAAAATAAAGATTTAGGAAAATGAAGCGGTTCAAGAGATTATCCATCAGATATAGAAATCGTAGAAAAACTTAACAAAGTAAATCTAAATTTAAATCTAGACTATCAAGAAGTAGAAATTAGTGCAATTGTAGGAAAAGATAAAAAATTAACTTCTTTAATTACGGCTTTAGAAACATCGATTAATTTTAAAGGTAATGTGACTGTAACTTATGAATATAGCAAAAATGATAAAGAGGAAAAATAAGAAAAAACTTATTCTAGAAATTTAGAATAAGTTTTTATTTGAAAATATGAAAAAATTATTAAGTATATTAGGAACAGTAGGAATGATTTCACAGCTTCAAGTGCTGTTGTTGCATGTCCTAAAAAAACTACTCAAGCGTGATCTTTTAAAGGGGACTTTAAATCTGAAATTTTAATTAAAGAAGGAGAAGTTAAAGAATTAAGCATAGAAGTTGTTAGTCCAAAAAAAAATGCTGACATAAAAGTAGAAACAAAAAATACAAATGGTGTTGAAGCAAAAGTTATATTTGCTAAAGATGAAAACGGAGATGGTAAAATTCAATTAGTTTTAACAGGATTAAAAGCAAAAGAAACTGCAGAAGTTACTTTAACATATGGAAAAACAGTTGATGTAATTAATGTAACAGTTGCAGAAAAAACTAATCAAGTAGCTCTTGATCTCTCTACTTTTACACAAGAAGAAAAAACTATTTATGTTAAACCTATAAATGAAACAAATGCAACTCAAGAAGATATAAAATTAATTAACAATAAGTTTAATACTAGCTTAGCAAAAGAAGAGTTTAAATTTACTTATATTCATAGTGAAAATGAAAGTGAAAAAACTTTAAAAGTTGAACCAGGAGAAGGTAAAACTTCATCCAAAGGATCAGTAACATTCTCATTTAAAGAAGGAAGTAAAATGCATTTAAACTCTTCTTTTGATTAACAAAAATTGATGTTAAAGATGCCAAACAAGACACAGCTGAAGTAGGTATGTTAAGTGCTATTAATCAAGCATATAAGTTATTTCAAAATAAAGAAGGAGAAATAATAAAAAATGAATTTGTGTTTTCAGAATTTAAAGCTCCAACAAGTAGCGCTGAAGGATCAATTACAGTTACTGCAAAATTATCTAGTGCTCGTGTTGAGGGACATGTAGTTTTTGTTTTAAAGCTGGTTTAAAAAAACAATATAATCATTTATTTAATATATAAATAAATGATTTTTTTTATAACTAAAAACTTATAGATTTTTAAATATAATAAGATTTATTTTGAAATATTTTATTAATGTGTCTCACTTTTTAACATTTTTGTCTCACTTTTTAACATTTTTGTCTCATTTTTTAATAAACATATATAATTAAATTGGTGATAAAATGAAAGCGCAAATACATTTAAAGGACTTAATAAATATTATAGAAAAGGTTCGTAATAATATAGATAAAGAAACAATAAGTATTTTAAAAAGTTTGAGTAAAGATATATCAAATCAAGGTTATAGTAAAGAAGCTTCTTATATTTTAGACCTTATGGGAATAGACTCAGTAACTTTTGCAAATAAAGATGTCTTATTTGGCAATGATAAAAATTTTGAATTATTAACTTTAGAAAATAATTATAAGGATTTTTTAATAAATGATAATGATGTCACTTATTTTAGACTAAAAAAGATTTTAGAAAATGAAAAGGTTTTATATAAATTTAATGGTATTAAATTAATCATAGAAGGTAGACCAGGCTCAGGGAAAACAAGTTTGATAAAAAATCTAGCAAAATCATTAGAAAAAAAACTTTATTCTGTAAGTGCAGCAAAAATAGTTTCTTCTAAACTTGGTGAAACACAAAAAAATATAGAAACATTATTTCAAGAGATAAATCAATGTAATGATGCAATTATATTATTTGATGAGTTCGATTCTTTAATTGGTTCAAGAGACAGAAACATAAATGATGAATATCACAGAATGATAGGAGTATTTAATAATTGTGTCGATAATTTAAAACCTGGTTTAATATTTGTGGCTATAACAAATAAACAAAATTTTATAGATGAATCTACTATTAGAAGATTTAATATGAAAATCACAATGAATAATATTGATATAGCAAAATTGATGTTATTGCTACAAGATAAGTCGAAGGGTTTAGAAATTAATTTTAATGAAAAGTTAATTGAAAAAATATTTTCTACATTCATTGATGAAATAAATTATTCTTTCCCTGAAGAAATTATTTTAAATGCAATTCTTTATGAACAGGAAGTTGAACAAGCAGCAATAAAATTATTAAATATTGATGAAAATCAGTTACTAGAAAAAGGTTTTTCATTAAGGGATTTACAAACTATAACAGGCATGAGTCGATCCACACTTCAAAGAATGTATTCGAAGGAGACTGGTTAAGAAATGGCAAATATATATAAAATCAAGGAACCTTCAACTGAATTACAAACAAATGGTAGAGATACAATTAATTACGCTAAATGAACTTTTGATATAAGAAAAAAGGTAGATGAAATTATATCAACTTTAGAAAAAATGATAGTTATCTTTGATAATTACAAAATCTTTCAAATTATGCCCATTTCTGTTACTTACAATAAAATTGTACCTAAAACTTCCAGAATAAAGCATATGTTTTTAATGGGAAATAACCCAAAGCAGATTAGTGCAGAATATTTATCTGATGGAAAAAAAGTTTCTAAAATAAGATTAATTTATGGATGTGATAAAAAAGCATTATTATTTACATTAGAAAAACTCAAAAACATATCAAACAATTTATCTAAATGTAATTTTGAAATAGAGTTTAATAAAAAATTAGAAAATAAAAAAATAAAAACTATATCAAGTGAATCTTATAATAAGTCAATAAATAGTTGGATAAAATTAAACTATAAAGAACTTAAAAATAAAGATCTTTGAATAATTAATGACTTGATTTATATTGAAAAAATAGAAATAAAAAAATATGCAAAAATAGACAAACCACAAATTTTTTCTTTTTTAAATATTAAAAAAGTTGAAGAAATAAAAACTCTTTTAGAAAAAGAAGGAGTTAACTTTAATTTTGATTCATACATTGGGTCTGAATTCTGAAATTTAGATATTGAAACAACCAATAAAATTATTGAATTATATCCATTTTTGTTTTCTTTTATGACAAGCGATGATGAAATAGAAATTTTAGATAAAGAATTAGAACAAGAATTGAAAAAAGACTTAGAAAAGAAAAATAAATTGAAATTTAATAATACAATAATTGGAGTTTTTGATTCTGCTGTAAAGCTTCCAGGGTATTTAAACGTAGTAGAATCACATGAAAATTTATTACCAATTAATAAAAATAGAGATTTTGAACATGGTACAGAAGTTATTTCGGTATTAGCATGTAATGATTTAATAAATAAAAATAAAGATAATTTAGGATGTTTCAAAATAAAACTATTTGAGGTTTTACCGCAAGGAAAAATATTGACTTCTTATTTAATGAGACAAATAGAGTTAGCTGTTAAAAAAAATTATAAATCAATAAAAGTGTGAAATATATCAATAGGTTGCTATAAAAATGGTAATAAAGTATCGATTTTTGGTAAACTCCTTGATGTATTACAGTATAAATATGATGTTCAATTTATTGTATCAGCAGGTAACGAGAAAGCTAATAATTTAACTTCTCCTGGTGATTCTTTATCTTCTATTTCTGTAGGAAGTGTTTATAAAAATTACAATGGGGAAACTAATATATGTGAATACTCTGGGTCATCTAAAATCTTTGGTTTTTATAACAAGCCTAATACATATGAGTATGGAAATAATAATAAACAAGTAGATTGAGATAAAAATTATTTATATACTTTAAATTCAAAAGAAAAAATTTGCATTAGTGATGGAACTTCTTTTACAACTCCATTGGTTACAAGAAAATATGCTTATTTATTGGAAAAATTTAAATTACAAACATATACTACAAGAGCGTTAATTAATTATTTAGCTAAAATTGATAAAAATAACATATCTAATTTAGATGTTTTAAAAAACAAAGATGAAATTTTTTTATTTATTGAAGGTTCAATAAAACAAAAAAGTAAAAAGGAAATTACTATTAAATTACCTAAAAGCAATAATAAAACGGAGTTTGCAATATCGTACTCATTGTCTTATAATGTGCCAAATCAATTGACACTTGGTGATGAATATTGTTCTTCTGATATTGCATTTAGAATTGCAGAAACAGTTGATAATAAAAGATCTAATATAGTAAAACTAAAAAAAGATAAGGATAGTATTGATGGTGTTTCTGCTAATGAAGATTACCTAAGAAAACATTTTGGAAAATATAATCCAAATAGAGTTATATTGGACTCAGACTTTTTAGAAAATAATAAAAAAACAACAAAAAATATAACAAATGTTTTCTCTTTTGTAGTACAAAGAGTAGATTTAATTGATAATATTTTTCCTGAAATTAAATATGGAATTGTAGTTCATTTAAAACCACTTGTTGAAAAGTGCTTATCTGATTTTGCGATGAATAATAGAGAATTAATTATAGAAAACCTTAGCAATGTTTTTGAAAGTGAAGAGATAGAACTAGATGTGATTTAAAAAAATGCTTTTAATATCTTTAACAAAACCATTTTATATATTTTTAAATAACTTTAAAATTCCTATATTAATAAACTCTTAATAAACTTAAGAGTTTTTTACACATATAAGTGTTATTATATTTTTAAGATTTTTAAAGGAGGCAGTTATGAAAAAATTAATTAGCATGTTATCAACATTATTTTTAACAACTACATCTGTGTTATCAATAAATGCATGTACAGGAGATAAGAACAGCTCTAGTTCAAGTAATGAAAATAATCAACAAGTCGATAAAAAAGTTGATTTAAATGATATTCCTGTAAAAATACTAAAACATCTATCCAATAGTTTAGAAGATGCAAAAGCAGAAGCAGTAGCAATACTAAAAAATTATAATAGTTCATTAAAAGAGGGAGAAGATTATAATTTTGATAAGAGTTATTTTAGTAGATCAACACCTTTATATTCTGGTTGATTAAAAGTGGTTTCATTAGAAAAAAGTAAAATTATAAAAGGATATATAATATTTGCTTTAGAATATGTTGATGATAGAATAAGTGTTAATAAACTATCAATCCCAAATAACTCAACAGCATACAATGAAGAAGCTTGAAAAAGTATTGTAACAAACGCTTTATTAGAACTTAATACCAATGTCAAAGAAAATATCGATTATACATTTTCGGATATAGAAGAAATAGATATATATGGTCGTTTTTTATCAGGACATGTTTATGCAACTAGAAATAGTATTTATTTAAAAGGCGAAACTTATCAAATAAATATAAAAAAATATTAGTCTAGATTAAAATTACAAACTTATTCTATTATTTAGAATAAGTTTTTTTATATAACTGAATATTTTAGTTTTTAGTGTTAATTAAATAAATGTTAAAATCATAAAAAAAAGGAATGAAATTATATGAAAAAATTAAAAATTGTATTAATGTCTTTAACTTTAGCTATTAGTTCTTCATCTTTATTAATAGCATGTAAAACACCAAGTAATAAAGAAAGTCAAGATAAAAGATTTGACTTAGAAACTATTGCTTCTCAAAGTGCCATAGTTAGTCCTTTTACTACTAGTGAATTAAGTGTAAAACAATTAATTGTAGAAAAACTTTTATATATAACAAGTTTAAACTTAGTAGAAAATGAAGATTTTATATTTACAAAATACACTCCTATGAGTGAATCTTATAATGGAAGTGTTATTGTAAATGCTACTTCAAATAATTCAAAAATAAAGAACTCTAAAGAGTTTGTAATTCAAAATTCTTATTTTAAATCAAAAAATTAGATCAAATAAAAACTACAAGTTTATATCCAAGCAATAATACTTTTGAAGCTGCTAAAAAAGCTGTTTTAGCAGAAGTATCTTTGTTTTTAAATTTTAATAGTTTTTGTAGAAAGTGATTTAAATTTTAATAAAAGTAATTTTAAAGCAGCTTCAAAAGATAGTGATGGATATTTTAAGTTAAGTTCAAATAATATATTCAAATTTGCAAAAGAAAAAGAATTTAAAATGGCTTATTCAAATAATGAAGATCAAAAAATAAGTTTATCAAAAATTGAAAATGATACATCTTTAACACCTATGGATAATGAAGATTCTAATGTTTTAAATGATGCTTTAAGTTATATAAAAACAAATTTAAAGGTTAAAAATATTGAAGAAAATGATTTTATTTATGAATTTAGAAAAGCATCTCCAATACAAAATGGATACATAAGTATTATTGCAAATGATAGTTCATCTATAATTAAAGGAAAAGTTATTTTTAAAGTTATTTTTAAAGTTAATCGAACAAATATTGCTTCACTAGGTTGAAATATATTAGGACCTGAAGCAAATGATTTTGCTTCACTCACAGGAAAAGCAATAGATTTTATAAAATTAAAAAATAAAAATGCTATTTTAGGTATAGATTATGATTTTGATGAATTTAAAAGCTATATGCCAACAAGTAATGGTAAACCTGGTGAATTATTAGTATATGCAATTGAAAGTAGTTTAATCTTTAATGGAAGTTTGAATGTGAAAATTAAATATAATGGAGAACTTGCTAAATTAAATCAATTAAAAGGAGATTTACAAAGCGTTAAAGTAGGAGAACAAGTATCTTTTGATGTTGAAATAATTAATGGTGATAATAGAACATATTTATTTGGGGATGTGGTTAAAGAAACAGGAGAATGTATTGATAATAAAATAAAAATAATACAATACTAAAATAATAAAAATAAGTTTAATGTTTCATATATAGGAAAAAGTCAAGGAAAAGCAACAGTTGTGTTTAAATATGGACTAATAAATGAAACTGGATATATAAATGTTATTTAAGTCCTATAAACTTATAAGTTAATAAAAATAGTTTTATAAAATAAAAAAATTTTATAAGTTTAAAAAATTTATACATTGCTTTAAATAGTAGTAAAATAATATAGATGATATTCATCAAAAAGGAGAAAAATATAGAATGAAGAAATTATTAAGTTTATTAGGAGCAATGGGAATGGTTGCTACCTCAAGTAGTGTTGCAGTTGCATGTAACAATGGTACAAGTGTTAAAGATTTATCAACAATAAAAACAGCTGATTTAACAGTTGCTCCAACAGCAAATGATGAAGCAGCAGCAAAAAAAGCTGTATTAGCACAAATTAATGCAAAATTAAGTGTTAAAGCCGTTGAGACAACAGATGTAGTATTTAGTAAATTTAGTCAAGCAACATCAGCTGAAAAAGCTGGATCAATTGTGGCTACTGCTGCAGAAAAAAGTACTTTAGTTAAAGGTACAACAACTTTTGTTTTAACATTTAAATCAGCAGAAGCATCATCAAAAACTGAATTATTAGCACAAATTAAAGTTAAAAATAGTGATGCAAGTGCTTTAACAGAAGATGATTTTGACATTGCTTCAGAACCAGCAATTTCAGCAACAGCTGCTAAAATTACTGCAAAAGGTGATAAATACCAAGGTAGTGTATCATTAACTTACTCAAAAGGAGAAGCATCATCTAAAGCTGAATTAAGTTCAGTTATTAAAACACTTGATTTAGGAGCTTTCTCATTTTCAGAAAGTACACCATCAAAAACTGAATTATTAGCACAAATTAAAGTTAAAAATAGTGATGCAAGTGCTTTAACAGAAGATGATTTTGACATTGCTTCAGAACCAGCAATTTCAGCAACAGCTGCTAAAATTACTGCAAAAGGTGATAAATACCAAGGTAGTGTATCATTAACTTACTCAAAAGGATAAAATATAATTAATTAAAAAGCAATTTAAAAAACAACCTTAATTATAAAAGTGAAAATTATTTTTATATATCACTTTTAAAATAGGTTGTTTTTATTTTTTATAATAAAATTAAAAACTATTTAAAATTTAATTAATTTTTTCTAAAACATTTCTTTTAAAAATAAAATAAAGCTTAAAAATATGATCAAACTTAAAAATAAGATAAACTCAATAGCAACTAAAGATATGCTTGCATAATAAAAAAATATTATCCTTAATCGGATAATAAAGTTTAAAAATTTAATATCTTTATAAAAGCTAAATTAAGATTTTTAAATAAGTATTTAAATTTTGAATTGAGACTCTATAATTCTAAGATAAAAATTTGTAACTTAAATGTAATTTTAATTTAAGTGATTTTTTTGTTAAAAGCTTAAATATCATGTATAACTTTATAATATTTTTTCAACATCAAATATCTTATTTAATATTAAATAAGATATTTATTTTTTTATAAAAAAGATGTATTAACTATGATCATAAAAAAATAAAAAACTAAGTTTAAAAAAACTTATTAAAGAATAGAGCGTCACACAAACTATATAAAAGCTTCATATCTAATTTTGTAGGTAGCTAATTTTTTATAGCAAATGCTAAACTATTTAGTATTGAATAAAAAATAAAATAGTTTAAGATACAGATATAAATGCAAGAAAGTAGATTTAAAGTTCAATATTAAAATTACATAAATTATTTATGTTTGATAAAATCATTTTAAATAAAAATAAATTTTTGGGCTAATATATGCACAAATAGGGAGAAAAAATAAAAATAAGTAATGAAGTTATGTTGGAAACTGCCAAGCAAGATTTGTAACATTTAGAGGAGAAATTCATATTAAAAAATAAAAGATTTATATTTAACTATATAAAATAGTAAAAAAATTACAATATAAAAATATAGCATTATAATTACTGTTTAAACTTTCTTAATATTAATACAAAACTTATAAAAAATGGTTAGAAAATTGTATAAAAAAATATTTAATAAAATGAGTATTAAGTTATGACTTATTTACAAGTCAAGTTTTGATGATAAAGATCTGAATACAAAAAGCATTAAAAACAATGGTATAAAAAAATACTAAAATTTAGTTTAAGTCGAAAAATGTACTAAAGATATATGAAACCAAGAATTTTGCTTATGTCAATTGACAAAATTATAAAAAGTGAATATCTTATATTAAAAAAAACCTATAAATATAGATTCTAATGCATTAGAAAACCAAGAAACAAATAAAATGAGATTTAATGCATATAAAGCATTAAAAATTTTATTTAGCTATCTTATAGTTTAAAGTAAAAAACTAAAAAAATGATTCTTTTGCTTATATTGATATATCTAAGACTACCTTTAATAACATACTTTGTAAATAATTATAAAAACAAAGAACTTATTAATAGTGTGAGATTTTTAGTTAATAAATATGATGTAAAAAATAGTTTTATTTATAATGATAGAGGATAGTAATTTAGAAACTTGATCATAATAGCGTTTTGCATCAATTCAATATTAGGATGCGTAGATATTTTTCTTAAAAAACTTAATATTATAAACTTTTTTAAAAGCATTAAACAAAACTATTGTGTAGATAATAAATTTAAAGTCATTAAAAGTATATAAATTTAATTAAAGATTGTATATTAAATTATTCTAACAATAAAATAATAAAGACATTTAAAAACATTATCAAAGAAAATTCTGAGAGTATTTTTTAAAGATTGAGTAGTTGGGATGAAACAATTTTTTAAATAAAATTTTTGTAGTACAATTTATATATTTAAATTTTGTTAATTACATATAGGGAAAATATCATATGTTACTGACAAAAAGAATGACCATACCTAAGTATTACTATTTGATTTTTTTATTTATAAATATATAATATAAATATGGCTATCAGCCATGAAAGGGAATAAAAAAATGAAAAAATTATTAAGTTTATTAGGAGCAATGGGATTAGTTGCTACTTCAGGTAGTGTTGCAGTTGCATGTAACAAAGGTGATAAAAATACTACAACAAAAGATTTATCAACAATTAAAGGAGATGATTTAAAATTAACTCCAGAAACTAACACAAAAGAAGCAGCAGTTACAGCAGCTGTTGCTAAAATTAAAGCAAAATTAAGTGTTGATGTAGTATTAGATACTGACTTTACAGTAGGAGAAAAAGATTTTACTGAAGCTACTTCAAAAGCAGCTGGATCATTAAAAATTACTGCTAAATCAGGAAGTAAAGTTTTAACTGAAGGAAAAACAGTAACATTTAGTTTAGCATTTAAAGCTGAAGGAACAACAAAACCAGTAATGGCATTATCAGATAAAGATAGTAAAATTAAAAACAATGCTGTTGAAATTGCTATGCCACAATCAGGTAATGGAACTATTGAAGTTATCATCACAGTAACAAACCCAGTAGCTGAAAAAGTAGTAACTGTTAGTGTAGCAGAACAAAGTGAAGATAAATTATCAGCTGGAGAAGTTTCTGCTGTTCCTGATCAATCAGGACAATTTAAAGTTACTTTAACTTCAAAAGATAAAATCAGCGAAGCTGTAAATGTAACTTTTAACTATGAAGGTGCAGACGCAGTTGTTTTAGCAGTAACTGCTTCAGAAAGAGCAAGTCAATAATTTCATAAAATTAAAATTATCCTTTATAAGGATAATTTTTTTTATTTTGTTTAATTTATATTAATTTTAAATATTTATAAACTATAAAAAAGTGACTTCTATGATTTATTTTTGCTTAAAAATTGTACTATATTATCAAAAATATAAAATAAATTGTTATAGGTTAGATATAAAAAGTCTTTATCAATATTTAGTTAATTAGGACCATTATTAACTGCTTTTAGTTCCGTAATTGTATGTTAGCCAGTTAGGACAAAATAAATTTAAATAATTTACCAAAAAATGATATTTAAAATTTAAAAGTTTGTAATGACATTTTTACAAATGAAATTATAATTTACTAAGTTGTTTAAAAATTTATTTTTTGTTTTGTGTAATAATGATACCGAAGTAAATAGAATCACTCAAAAAATTAGTAGTTTAATATTTTAGAAAAAAATTAATGTTAGTTTAACTTACTTAAACAAAAGTAAAAGCTGAATTAAAAATTAATCTAAATAAAAAATTAAATAAAGGTTTATAAGCGTTTAAATGATTGGCTAATTTATGTAAAATCAACTCTAAGTCAATTGTTCTATGCAATTAATAAAAAAAATCTGTTTATTGTATATCAATCTACAGTATTATTATTTCTTTAAACTAGGACAAACAATTACAAAGTTAAATTAATTAAGAACAAAGACCAGCTCAACATAGTTTAGTAAAAAGTATGTTTAAGTTTTAATTACATAAAAAGAGAATTACCAAAATAAAAATAAATATAAAAGATAGATTTATAAGTTATCTTTTATATTTGTACGAACTAAAATTTGTTTTTTAAAATTCATTCATTTATAATATATATATGGCTATCAGCCATGAAAGGGAATAAAAATATGAAAAAATTATTAAGTTTATTAGGAGCAATCGGAATGGTTGCTACTTCAAGTAGTGTTGCAGTTGCATGTAACAACGGCGTTAATGGAACTAAACAATTTGGTGAACAATTTAAAGATACAGAAGTTACTGTTGGAACACCAGTTGTTTTAAATTTAGTAGCTGCAAATAAAGCAAAAGATGCAAAAATCTCAGCAAAATCAGCTGATGAAAAAATTGCAAAAGTTAGTGTAAGTGCCGAAACTGATGCAAACGGAGAAGGTAAATTTGATTTAACAATTACTGGTGTCGCAAAAGGACAAGTGGTAATCACTGTTAGTTATGGAGACAAATCCGCTTCTTTAAAAGCTACTGTAAAAGAAGCAACTAAACCTGCTTTTGCAGATACTTTAAAAGCAGAAGATGCAATGGTTGGAGTACAAACTAGTATTGAAGTTTCAATTTTAAATGGAGATTCAAAAACTGTTTTAAAAGCAGAAGGTGATGATTCTAAATTGAACAAAGAAGTTACAGTAGTTGTTGACAATACAGATAAAAACAAATTTACAGTAACTTATACTGGTAAAGCAGAAGGCGAAGATGGAAAATTATCATTAACTTATGGAGAGTTAAAAAAAGATTTAACAGTTAAAGTTGTTAGTGATGCAAGAAAAGCTTTAGATACTTTATTATCAGGGGGGGCTTTAGACTTAAAAAGCGAAGCTGGAGCATATAGTGAAGCTCAAGCTAAAGAAGCTGCGTTAAAAATAATTAAAACAAAATTAGGTGATTCAGCAGATCCAAAAGAAACAATTGATGTTGTATTCTCAGGATTTGAAGCATCTAAAAGTACTAGCGAAGATGGTAAATTAGTTGCTACTGCATCATTATCAAGTAAATTAATAAAAGGTACAGTAAATTTTGTTTTAAAACAAACTAGCTAATAAATCTTTTAAAAATCTATACAGTAATGTATAGATTTTTTTTATAATCATTTCAATATTTATAAATAACTAGAATAATAAAAATATGTCAATAACTAATCAATTTTTCCCAAAACTTTATTTTTAGAGTTTTTGTAAAATATTCAATTAGTATATTTTCATGGACTATTTGTTTTAATTTGCTTATGTGTTTTTTGTATATCATAAACACTTTTATCTTCATAAGCTTCTTTATAAGTGGAGTTTTGTTGAACTTCAATTAAAGGCATTCATTCACTAAAAGAGTTTGAATATAATTGCCCATCAAAAGTTTCTACTACAAAAATTTTTGTTTTATTTTTATAAAAGACTGGCTCGCCATTCGAATGTGGTAAATAAAATTTATTTTGGTATTTTATTGTAGAACCTTTATTAATAGTTCTTTCAAATCTTCTTGATAAATAAAAGTCAATGTTTTTATGTTCTTTAAAAATAGCAAAAGAGTTAATGATATTATTTAATTGAAGGGAAAACTGTGAATTATATTTTTTAATATATTCATTTAAAAATGAATTTGCTTCATTTATATTTGATATATTATTTTCTTTGAGTTCCTTTGGTAGGCGATCTTGAAGTGTATTTCACAACCTTTCAATACGGCCTTTTGTTTGAGGAACACTTGAAGTTGTTAGCTTTATTCCTAAGTTATGACATAAGAATCCGTATTGCGTTAAAGAGTCAGAGTGAAGATCTGACTCTTTTTCTTTTTGACTTCAAAATACAGTCCTTTTGTCAGTAAGTATCTCCTTTGGAACCCCATACTCCAATAAAACTTTTTTTGTTATATTGTAGTATCCCATAAGAGTTTCTTCTTTATCAAAATATAAAGCTAAAACTTTACCTGTTGCATCATCTATAAAACCATGTAAATACCATTTCTCATTATCAACTCAGTAGTGGACTGAAGCATCAGTTTGCAAGCGCTCACCAAACTCTGTTTTTCGATTTTGCATAGGATGAATATTTTCTATTGAAAGCAAAGTATTTAAATACTCTCGTTTCTCAAGTTTTTTAATATTTTCATTTTTTAATAAGTTAGTAATTTTTTGTTTAATCATTTTTTTATTTACTTTATGAATTCTTGGTGAATATAAATTATTCTTTTTTAATAAATTGATTAAGTAAGTATATGAAACACTTATTTGATGGTTTGATCAAAGCTTTTCTAAAAAGTGTTTATAATTATATTCTTCATATTTATTAATGTACAAGTCAATAATTTGATCACTTATTTGATGTTTTATTTTTTTATTTGATATTCTTCCAGTATTTTTGTGGATAAATGCTGTGTAACCATACTTTTTATATTTGTTAATTAATAAGTTAACATTTCTTATTGTTTGACAGATTTTTATTGCTGCAGCTTTTTTAGATAGTTTTTCATCAATTACAGCTTTAATTATTTCCATTTTATTTTTTTCATTCATTTTTAAATATCTCCTCATATTTAAATCCCCCATTATAAATTATATATTTGGGAAATTTTTATTTGTTATATATAGGGAAAATATCATATGTTATTGACAATTTATAAATAACTAGAATAATAAAAATATTGCTTTTTTCCAATATTTAAAATAAAATAAAAATATGGCTATCAGCCATGAAAGGGAATAAAAAATATGAAAAAATTATTAAGTATTTTAGGAGCAATGGGAATGGTTGCTACTTCAGGTAGTGTTGCTGTTGCATGTAACAAAACAAAAGCTAGTCAATTTGGAGACAAATTTGTAAATTCAACAGTTGAAGCAGGAAGTGATTTAACTTTAGCATTAAAAGTTGCAACTCCTGTAAAAGATGCAGATGTTAAAGCAGAATCTGATAAAGTTGCTACTGCTACTGTAAAAACAAGTATTGCAAAAGATAGCGATTCTAAAGGAGAATTTAACTTAGTTATCTCTGGAGTTGCAGAAGGTACTGCAACTATTAAAGTAACTTATGGAACAATTACAGAAAGCATTAAAGTAACAGTTTCAAAAGCAACAATTAAAGATTTAAAAGATGTTGTTAAAGTTGTTGCTTTAGGAGATTTATCAGGAGCTGGAGAAAACCCAACTGTTGATGAAGTTGTAGCACAAGTTAATGCTAAAAACGAAGGTTTAAACTTAACAAAAGAAGATGTTACAATGTCAGGAGATAAATTAACTGAAAAAGCTACTTTAAAAGCAGTTGAAAAATCAACTAAATTTAAAGGTAGTGTTGAAGTATCATACACTTATAAAAAAGAAACAAGAAAAGATTTATCAGGATTAAGTGAGAGTGATTTAACTGTAGCCCCAGCTAAAAATGATGAAGTAGAAGCAAAAAAAGTTGTATTAGCAAAAATAAATGAAAAATTATCAATAGAAGCAGCTGAATCTACTGATATTACATTTAGTGAATTTAAAGCTGCAACAGAATCTTCAAAACCAGGAAGCATTATTGCAACAGCTGTTAAATCAAGCGCTTTAGTTAAAGGTAGTCCATTAAAATTTACATTAACATTTAAAGCATCAGACTTACTTTAATATAAACTAAAACTCTTTATTATTTAAAGAGTTTTTTTATCCTTAAATTGGAAAAACTTTTATATATAGTAGAAAATAATTTTTCTTACAAAATTATAAAATTTGATATTATATTATTGTCATTTAGTATGATTAAATAGTTTTAAACTATTAAGATATTCTAAATGAAAAATTTTTATAGTAGAAAATAATTAAATTTTAGAAAATGATACAGGAAGGAATAAAACAAATGAAAAAATTATTAAGTTTATTAGGAGCAATGGGAATGGTTGCTACCTCAAGTAGTGTTACTGTAGCATGTAATAAAGATTCAAAAACAGATTTAAGTGCATTATCTACTAAAGCATTAGGAGATATTTCAGGATCAGGAGATTTACCAGTTGCTGCAGATTTAGTAAAAGCAATCAACAAAGTAAATAGTAACTATGGATTATCAAATAGTGATGTTGAATTAGACGGAGCAGCTACTACTGAAAAAGCAACTTTAAAGGCTAAATCAACTTCAACTAAATTTACAGGAAAAGTAGTAGTCACTTATAAATATACAAAAGCAACTACAGATACTAAAAAGGATTTAAGTGAAGCTGTTAAAACTAAGGAATTAGGAGAATGAGAAGGAGTTGGTTCATTACCAACTATAGATGAAGTTGTAGAACAAGTAAATTTAAAAAATGAAGGTTTAAATTTAAGTAAAGCAGATGTTCAAATGGCAAAAATTTCAGATGATAAAGATTTAACAAAAGGAGCAAAATTAACAGCATTATCTGACTCAGCTGGTTTTTCAGGTAGTGTGGAAGTTACATACACATATACACAAACTAAAAAAACAAGCATTGGAACAGTTGCGGATCAAAATGTTAAAGTTTTTGATAAAGCTGCAAGTTTTGACGTTACAATTTCTAATCCAACTAGTGATGGTGCATTAACAGCTCAGGAAGCATCTTCATCTGGAATGCTAAGTGAAATTAAAGTTGAAAAAAAAGAAGCTGGAAAATGAACTGTTAAATATGATGTAATAGCTGGAAAAGCTAATGAAAAAGATAATGGTGAAGCAAAAGAGAGTTTTCCTACAGTAATAAATCTTGCATATGGAAATTTAACTAAAAAAGTAAATGTTATAGTAGTTAAAAATGATTTAAATTTATTAATACCATTCGGTACATATACATTTTCATGAGTTGATGACAAACCTACAGCAACTGAATTAGCAAATTATTGAAATAGTCAACATCAAGACCAAAAAATATCTGAAAGTGATTTTGATTTGACAAATAATTCAGGAGATAAAGAAAACGGTGTAGGAGCAACAGTAAAAGCTAAAAAAGAGTCTAAATTATTATATGGTACAACAACTATTCAAATAAAAAACTCATAATTTAATTATAAATTTGCGTATTGAAGCGCAAATTTTTATTTTAATTAAAAAAGTACATAATAAATTAATTATAAAGTATTTTAGTTTAAATAATAAAGACTTGAATGACATAACATAAATAGACCATTTAATATAAAATAAATGGTCTATTTATGTTTCCTTTTTATACTTGTAATTATTAATAAGTTTTCAAATAATTATAATAAATTATAAAACCTAAAATCTTTTATAAGTAAAAATGTATATTTAAAAATATGAAAAAAATTTTATTCATTTAAGTGATTGAATATTAATAGTGAGAAATAATATTTTTTTTACCAATTTAGTTGCGATAAGTTCTTAAAAAAGGAGTGAGAATGAGTATGAAAAAAATTATAGCTTTTGTAAGCATTATATTTTTGCCTATGCCTTTATTAAGTTTTACAAGCGCATGTGTAAAGATACCTCCAAAATTTGATTTAGCAGCAATTGATGAAAAAGATTTAGGTGTTGTTTATGGATCAAATGAAGTACCAACTTTAACTGAAATTGTAAATGATGTTAATTTTACAAACTTAAATTATGATTTAAAAGAAAGTAGTGTTTAATTTGAAGCTGAACTAACTATTAAAAACGCAAAACTATTAGCCTTGAAAAGTTCAAAAATATTTACAAGTCAAGTTGATTTATCTTATCAATATACTTTAGTTAATAGAAAATATCTAACAACACTTAGTTCAAAGATTTACAAATTGATACTCAACAAACTATAAAAGAATATGTAATAAATATTGCAACAAGAAGAATAATAAAAGCTTTAAATGTTAATGTGCAAGTAGATCATGATTTTATAGTTGGAGATAAAGATTTTTTACCTTCTACTTATAGTGATGATGGTTTTTTAAAAGTAACTTCTACAAAAAATAGTGCATATTTATTACCAAATAAGTCTGTTGTATTTATTTTAAAACTTAAAAAAGGAGATTTATCAACTCTTAAAGATGAAGATTTAATTATTAATCCAAATGGAAATGATGAACAATCTGTAAAAACAGCAATAACAAAAAAATTAAAAGAAGATTTTAATAATAACATAAGTGAAGATGATTTAGATTTTAGTAATTTTAATCAAGCAACAATATTTAATAAAAAGGTTCAATGACAGCAAAAGTTAAAGAAACAAGTCAATACTTAATTGCTAATTCAAGTGCAAAATTTAGCATAAATTATTTTGATGATAGAATTGATTTAGATAATTTATCAGTTGATGATAAAAAAGTTTATTTTTCTACTTATAGTGAAAGTGATGCAAAACAAAGTGTGATAGATAAATTCAAAGAAACTTTTAATAAAACTCTTGTAGAAGAAAAAGATGTAAGTTTTAGTAATTACAACGCACAGACTCCATTAAAAGAAGATGGTACTGGATATATAGAAGTAACTGCTAAAGATAAAAATGAGTATATTAAAGGGGCAACAAAATTTGTATTAGTTGAAAAAAGAATAAGTTTATCTTTTGACAATAGAATAGTTAGAAATTTAGGATCAGTTAATGGGAATGGTAGCCCTTTGCTTCTTTAGAACAAGCAATAGAATTCTTTAATGCAAAAAACCCAAACTTTACACTCTCAACAGATGATGTTGATTTTGATGGAAAACCAACAAAAGAAACTTGTGTGTTAAAAGCAAAAGATTCTTCAACAAAAGTTGTTGGATCAGCCTATTTAACTTATAAATATGATAAGGTAGTTAAAACTTACAAAATTAATTAAAATAATTTTTTTATTAAAAAGCCTATTTTTTTTAAAAATAAGGGTATTTTTTCAAAAAAGTGCCTATTTTTTTTAAAAATAAGGGTATTTTTTAAATTTGTATATATAATAATTTTTAGGTGAAACAAATGAAAACAAATGACATTAAAAATATTTATAATTTGATTTATAAATTAAATAACGAAGAATTTAATCTTATTATCGATATGTTGAAAAATAAAATAGAGGTTTCAGACAAGGAAATTGAGTTATTGATTAGAAGATATACATTAAAAGATTATGATTTATTGAGCATGGATGATAAAGAGAAAACTTATAATTTATGATCAACTGAACTTTATTTGAATGAAATTAAAAAAATAAATATGATCATAAATAATGATAAATTATTACAAGAAATCGGAGGTTTAAAAATCTTATTATATGGACAAACAGGAACTGGTAAAACATCTTTAGTTGAAAATATAATTAACTATAATAATGATATTGAATACGAAAATATTAAATGACACAACTTAGTTTCTCCAAAACTTGGTCAAACACAAATGAATATAATGCAATTAGAAAACGAGCTAAGTAATTTTAAAAAAAAGAAAATAATTTTTTTAGATGAATTAGACTCTTTAATAACAAATCGTAATGAGATGAATGATGTATCAGAATACTCAAGAATAGTTGGAACTTTTATAAAATTTATGGACCTATTAAAACCTAATATAATTTTAATAGCAGCAACAAATTTAATAGATAAAATCGATGCTGCTATTATCAGAAGATTTAATGTAAAAATAGAAGGTAAAGTTATTAACTTTGAAATGTTTTATAACTTTATTGATACAGAATTAACTCTTCAGTTATCAACACATGAAAAAAATCTTTTAAAAGAGGTTTTTCAAGATCATAATTTTACAATATCTGAAGCAAAACAGTTTGTTTCAAATTATAAAATAGATTGTAATTTATCTAGTATAGATAATAATTGAGCATACATATTACATAACTTAAATGGTGTATCAAAAATTAACTTAGAAAAATTATCTAAAAATAAAAAAGAGGAGATAGAAAGGGTAATAAAAAAATATGGGAGTTTACAATATAAATAATGAGAAAGCAATAAATCACAAAAACAAGTCCTCTCCTACAATATATAAATTTAATAAAATAAATAAACAAGTAAAAAAATTAATAGAAAAACTAATTGATGAAGATTTCCCTCACGATATTGATAAAGAAGGTAATAAATTTTTCAAATTTTTATATAAGGGATTACCTCCAAAAACAAGTAGAGTAAAAATGTACAAAAATACTCCTTTAGACAAATTTCACTTAAATCAAAAAGATATTGTTGTAAACTTTAATTTAGATAATAGTATTTCAACAGAAATAATATATAAAGTTTCTAATGAAGATTTTGAATTTTTTAAAACTAAATTAATAAATATTATAGAAGATAATAGACTATTTGAAGAGAGTTTATACAAAGGTGAGTTTAGCAATAAAAAAAAGAATGAAAAGTTTTTGTTAACTTGCTTATCACTTATTGAATCTGTAAAAAAAATAAATGAAAAAGAAAATTTATCAGACTTAGAAACTGCAAAAGTAGTTAAAATTTATAATATGTATGATGATATGAAGCTGGCTTTAAAAAATATAGGTGTAGATTGTGAAGTGGAAATTAATAACACAATTGCCATTACTCCCTATCAGTACTCTTTGATAAAAGAAAAAATGCCTTATATTATTAATAGATCAATTGAAGCAAAAGAGTTGTCAGATAACTTGCTTGATGATCTTGAAATACCTAATAGCTTAAAAATACCCAATAACAAAACTAATAGTGCAATTATTGGTGTTATAGATTCTGGCATGAATCTTGATGGAGATTTTAAAAATTTCATTGACTCTTACAGTAAAATGATTGAACCAAATGGTTCTACAACATATGAACATGGAAATAGAGTTGCCTCATTGATCATTGCACACGATGAACTAAATGATGATAAAGATAATTTAGGTAATTTTAAGATTAGATATTTTGAAGTTTCAAGTAAGAAATCATATTCTAAGGGTATTGCAACAGTTAATATGGATTTCTTAAGTAAGCAATTAAAAAGTATCATTAAAAATAATAAAGATATAAAAGTTTGAAATATATCACTTGGTGCATTAAAAAAACAAGTAAATAATAAATTATTATCATATGAGTCCATAGTTTTAGATAAATTGGCTCAAGAATATGATTGTTTATTTGTTGTGGCTTCAGGAAATTATAGAGTAGATTATGGTTATGATTCTTTGTGTTCTCCGGCTGATTCTTTAAATTGTATTAGTGTAGGATCAGTAACATTGAATGATAAAAATAAAGTTGTACCTTCTGATTTTTCTTCAATAGGAGTTACGCTGCATTGTCGAAAACCTGAAGTATCAGCTTTTGGAGGACCAAAATTAAAAAATGGTTCTAAATTAATGACTGCAGGCTCATTTGATATAATCCAACCTTCAAGAGGAACTTCTTTTAGTGCGCCAAAAGTTTCAAGAATTGCAGGTTATTTAATTAGCAATGGATATTCAACTTTAGAAGTTAAGTCAACACTAATAAATTTAGCAAAAAGTGAAACTCCATCAAATTTAAGCTCATTATTTGGATATATCGAAGATTGCAATAAAGAAGCGACTTCTTTAAAAACAACTTTAGAATTTGAAAGCGGAGTAAAAAATAAATATTTTGATATAAATTTAGATAATGTTGAAAATGTTTCTATAGCATGAGCAAACCATGTAAATAGTTTACCTTCATTAGGAGAAGAATATTCAATTACAAATTTTAATGTTAGTTTAATTAAATATAAAAAAAATTGAAAAAACTTACCCTATGATAAAAGTGGGAAAAATAGTTACACTCCAGAATTTCATGCTTGAGAATTAGAAAAAAATAACTCAATGGCCTGAAAAAAAAGATCTAAATATTTACCAGAATCTAAAAGAAGATTATATGATGGCAAATATTTTACCTCACACAAAAAAGAATATAAACTCTTAAATAACAAAAATATTATAAAATCTCATGAAAAAGTTGATTATAACTATGCAATAAGAATTAACAGACAAGAACTCTTTAATTTAATTAAAAATGATTCAATAAAGCTTGGCATTAGTATAATTTTTTCAGGACCAAATTTCAAAGAAGAGGATTTTATTTTAAATAACGAATCCTTAATAGAAATTAAAAATATTCAATCATTTGTAGAAACTGAGATTGGTTAACTTATTTTAATAATAAAAATCTAATAATATATTAGAATAGACAACCTTAAAGAGACCAATTATTTAAAAAAATTTAAATAATAAGTTTCTATAGAAAGGTTGTTTTTATATGCCAAAAGTAATAGATAAAAAGATAAAATTAATTGCTATTAAAAAGTTTTTAGCTAGAGAAAAAACTTCTAAAATCTCTGAAGAATTAAACTTAAAAAGTGGTTATGTTCAAATAAAACAATGAGTAAAAAGATATAATATTAACGAATTAGAAAGCGAATTAAATTTTTCGCCTTGTGAGGTTAATATTTATATGAAAAAAGACATTGAAAATAAATTGCTTAAAGATGAAAATAAGAAACTTGAAAAAGAATTAAACAAACTTAAAAAAGAAAAGTTAAAAGATAAGGCAAAAATTGAGTTTTTGGAAAAGCGCATGCCTTCTTGCATGAATTTATTGAAAACTCAAATGAAGATACAAACAAGTAAGAAGGCCTGAAAAAACAATGCATATAATGTGATTTATTTTGATGACTCTTGTGAACTAAATATGAAAGATAAATGTAAAGCTCTATTTGTTAATTTTTCTAATTATGCTAAATGAAAAAAGAAAAATAAAGAAGAGCTTTTACAAAATAAAACAATAGAATTAAAAAGAAAATATAATGATCAAGCAGTTGTTTTAATAAATAAGTTTACAAAAACAATGGTTCATCTGGTTCTAGAAATGTTAGCTCTTTAATAAGTGATGAGTTTAAAGTTAATATTAGTTATAAGATAATAAATGAATTACGAAATAACAAGTTAGTAAATTTAGAAAAAATTAATAGAGAACATAAAAGACAAAATCTCCAAAGAGGTAATGTTGTACCTGATCTAATTAAGAAAGATTTTAGTACTCAATATAATTTACAAAAAGTAGGAATGGACGGTTCATATTTAGACCTTATAATTAAAGGCAAAAAAGTTAAAATACTTGGTGAGTTTGCATATAATTGATATAACAGAGATATGATTGCTTATAATTTTTCTTTAAGTGAAAACTCAGAAGTTGTTGTAAAAACAATTAAAGAGGTAATAAAAGTTATAAGCAAATACAAAGTAGATTTTACAATACTTCAAACTGATCGAGGAACTGCAAATGCATCATATGCGGTAAAAGATTTAATTAATTCATGTCCAAATTTAGTTTTATCAATGTCTGAAGCTGGATTTAAACATAACGCACCAACAGAAGCTTTAAACGGTTGATACAAAGACTGTTTTTTTGCAGAATATGGAAATGAATTTAAAAGCATCATAGAGTTTAAATTATTTTTTGATGAATTCATTATTAAAAGAAATAATTTACAAAATTATTTATATAATAAAAAAAGAAACCAAATATCATAAGATATTTTTGGTCTCTTTAAGGTTGTCTATTCTGATACATAAAATATCTTTATTATTATTTTTAAGCACAAAGTTTCATCCTAAATCTTTATAAAAAAAAATATTAGTTTTTTTTCTTATATTATCTAATGTTAATCATACCAATTTTGCTTCAATAATATTGGGAAATTGTTTTTCTATATCTTTTTGAAGTTTTATAACATATTCATTATTATGCAAACAACTAAAATATGGTTTCATTTTATTTTATCCTTTCTTTCTTTTCGCTGAAAGAACTTCCTACATTTTTTAAATCAGTATTTTTATTTACTTTTAAAGTTGATCGATTATTTCATAAATCGTTACTTCTTTTTAACTGATCATTATAAACTTTTTCATCAATAGCTAGTTTTTTCATATTTTCTTCTAAAAGCTGAAAATATTTAACGCCCATTATTAGAAAATGATAATCTTCAATAGTTTTAGAACAAATATTACAAATAGTGTTTTTAGTTAAGAAATAATCATTTTTTTCGTTATTATTTACATTAATTTCTGTAGATGTAAAACCGTGCTCACAATTATTCATAATTTCTCCGCCCGTTTTATCTATTTATTTTTTTTTCTTCTCTTTTATTTAAAAACTCTGTATTTAGGTTTCTGGTTTTATCTACATTTAAAGATTTTTTATCATTAAATAATTCTTTCACTTGTTCTTTATTTTTGTTTCAATCACTAACTATTTCTTTTTGTTGTTCTATAGTAGGTTAGTTAAAGACTTTATTTACACTATTAAATACTTTGTTAAATTCTTTCATAGGGTTCATATCTTTAGTTGCTTTTGTTCATGAATTAATGTAATTAGAAGCTATTTTTTTAGTTTTTTCATTTTCTATTCCTACATTTTTTCACTTACTCAAGCAAACATTTCAGCTTGTGTTTCTTTAACACCACGAATGTGTCCTTCGTAACCTAAATTATCTGTATTGTGTTCTAAATATATATGACCAAATTCATGTAGTAAAGTTTGATTTTTTAAATCCGGATCACTATCAACTGATATATTGATTTTTTTACCATCTGTATAACCAGCTTCTCCTTTTTCGCTAAGACTATAATTAAGGGCAAAAGGTTTAATAGATTGTAAGTATTCAACAAGATAATTAAACTCTGGATTTTTTATTTTATTTTGAAAGTTTTCTTCAACAATTTTATTTATCTCTTCTTCTTTTAAATTGGTTTGTTTAGCATCAAAAAGGGGTTGTTTTTTATATTTCATATATGTATCTACACATTTATTTGAACCGCACTTTGATGCTATTCCATGTTCTTTACACATTGGTAGGGGAGATAAAACATATAAAGCTTTTGCTCCTTTGTTGACATTGACTCCTCCTTTTTGTCATGCGTTATATGTTTTTAACTCAGTTATATTTTTGGACTGACTCATTAAAAGTAATGCATTTTTAAATGAGTATTTTTGAAAAATATTGGTTTTTTTATTGTATTTAATCAAGTCATTTACTAATAATTCTATTGATTCTGGGTTTTTAAAAGCTTCTTCTAATTCTTAATATAATTCTGCTTCAATTTCTTTGACTTCTATATTTTTAATGTTACTAAAATCAATCATCGTTCAAACCTTTAAATGAATCTGTGAAATTATTTAAGTTTTCTTCATATTCTTTTTTGTTTTTTGAATTTTCTAAAGATATCTCAGCTTTTAAAAAATTAGCTATTTTTTTATTTTTTTCTTCTTTTTTCATCTTAAATTTCTCTTTTCTTATTTTTTTCTTTTCTTTACTTTAATAATTATTTCTACACCAAAAATTTAAGTTTTTTTTACAATAAATTATAAACTTTTAATTTTTTAAGAAAGGTGTTGTTATAGATATCATTACCTATTTTTTCTAGTGAAGAAAGAGTGTATTCAACTATGTTTAAATAACTTTCATAAAAATTATGATCATCTTCTTTTGAAGCAATTCTTAAAATCATTTCTTTTTTTCTTGAATCTAAATAAAAAAAATTTTTTATATAACAAATAAATATCTCTTTAAAAATTTTAGAATTTAAAAATTCCGTATATATTATTGCAACTAAAAAATTATTAGAATAGTTATTATTTAATTTGTTTTCTTTATCAAAAAATGAATACATTTTATTTCTTTCTTTATCATTTATAAAATCTTCAATAAACATTATTTTTATGTCACTATATAAACTTACAACATCAGATAATTTAATTCTACTCATATGTAATTCGTTTCATTTATAAATTATTTAAAACTATTTTAACAACATATTTTTCCCACTCATATAAAGCTTTTTTAAAAAATAATTCTTAATAAAATATGATCGATTTCAATTTGGTTCTTATACAAAATTATATTTTCAAAAGTCTTTATATCATAAATATTTTTCGATATGTAACCACTCCTTTATTAATTTCTTGCAAAAACAAGAAATTAATAAATTCATTATAAAAAAACAAAAAAATTTTCCCCGGGGAAAGAAAAAACCACGTAAGCGGTTTTTTAAGCATCAAAAATTCTATCATTTTCATCTGAATCTAAAAATCTTTTAATTTTCATATTAATATCATGGGCTATGCTTTTCAAACTTCTTTTCGTCTTTTGTTTGTTTCTTCTTTTTTCATCTTAAATGTCTTTTTTCTTATTTTTTTCATTTTGTTTTTCTATTTTTTTTAAAGCAGCATTTTTATTTACTTTTAAAGTACTTTTTTCTTTATTCAAATAACTATATTTATCTATTTAGTTTTTCATTTCTTCAAACGAAATTTCTTTTTTTTCTACTTCAAATTGAAAATTAAATATCATATCTAAACTTATATCGCCTTGATCTAAATAAAATTCTTTTTTATCAAGATCTGCTATAACAGAAAACACACAATTTTCTATATTGTCATTTTCGTTAAAATCTTGTTCTAGTTTAATGCCTCTTTCAAAACTTGTATCTTCTTTAAAAGCTTCTTGTATAGTTTTTTTTAAAAAAGGTTCACCATCAAAAAAATTTCAATAACATTAAACTTGATATTTTTTATTTGGTTAAAATTAGCAGAACAATAGTGCAAAACTCTTTTTTCGATATGTAACCACTCCTTTATTAATTTCTTGCAAAAACAAGAAATTAATAAATTCATTATAACAAAACAAAAAAATTTTCCCCGGGGAAAGAAAAAAACCACATAAGCGGTTTTTTAAGCATCAAAAATTCTTTCGTTTTCTTCTGAATCTAAAAATCTTTTAATTTTCATATTAATATCATGGGCTATGCTTTTAAATTCTTGTTCGATATAATCTCACTTTTCTAATAATATTATTGATTCTTTTCAAACTTCTTTTCGTCTTTTATTTGTTTCTTCAATTCTTTTATTTGTTTCTTCAATTCTTTTATTTGTTTCTTCAATTCTTTTATTTGTTTCTTCAATTCTTTTATTTGTTTCTTCAATTCTTTTATTTGTTTCTTCAATTCTTTTATTCATTTCTTCATTTCATTTCAAAGCTTGAATAAATTTTTTATTCATTTCTTCAATTTTTTTATTATTTTTTTTCATTCATTTTTTTTGCTCTTTTAAAAAATCATCCATAATTTAAATTTCCTTTTTTTAATTTTAACATTTTAATTACTTAATTTTATTAAATTCTTTTTTTATCCCATTAGATATTTTTTTTAATTCAGCCTTTTTATTAATTTTTAAAGTGCTATCATTTTCTAAAAAATTATCAATATCATTTTTAAGTGCACTCAAATTGTTTTTCGCTATTAAAGCATTTTTCACTTTTTTATTTAAAATAAAGTTTTGTGCTAAAATTTCTTTATTTTCTTGTGATAGTTTGTTTATTTCTTGTGATAGTTTGTTTGTTTCTTGTGATAGTTTGTTTGTTTCTTTTTCTATTTTTTCTTTTTCTTGTTCTATTTTGTTTTTTTCTTGTGATAGTTTGTTTTTTTCTTGTGATAGTTTGTTTTTTTCTTGTTCTATTTTTTCTTTTTCTTGTGATACACTAACTATTTTTTTAGTTTTATTCTCGCTTTCTTGTCTTAATTTTTCATAATTAATTTCAAGTTCTATTATATAGTGTTGATAATTTTCTATTAGTTTTCTATCATTTTTTAAAGCTTCAAGTTCAGCTAAAGTAATATTTATGTCTGCAAATAAACTATCTTCTTTAGCATTATCTCTTTTTAAGTGTGTTTTGTCTGGAACAATAATATTAGTAAGTCTTTTAATATGATATTTAATATGGCCTTTTAAAAAAAATCATACTTTAAACAGGGAAAAATAAATTCTACACAAGAAAGAGGTGTAGAATTTTTTATGTCAAAAAATTTAACAATAGAACAATGAGCTGAGATAATTGGAATATATAAAACAAAAGGAATTAAAATAGCTGAACAAGAGTATCGTAAATTTAAATTAAAAGAAATTAAATTTTCGCAAAATCTTCAAAAAAGAATAAAACAAAAAGCTTATTTATTAGATAATTATGGTATGAAAAGTTTAAAAAGAAAAAAAGGTTCAGGAAGACATAAAAAGAGAGATGATTCTGATATTCCTGGAATAATTAATGATCTAACAGAAGAACAAAAACGTGAAATAATCTAAGATTGAATAAAAAACCAAAGAGATAAAAGAGAGAAAGAATCCATTAATAAAATAAAATCATTAAATATTAGTACGAAGGCAAGAATTATATCAATGCATAAAACAACTTTTTATAAAAAGCAAAAAATTAGAAGTTATAAATACAATAATTTAAAAAGTGAAGTTGTGAAAATCTTAAGTGAGTCTAAGTTTATCTATGGCAGTAGAAAAATAAGTATATTATTAGAAAAAGAAAAAATATTCATATGCGATAGAACTTTAAGACATTATTTAAAAAGATGAGGTTATATAATCAAAACAAGAATTAAAAAAAGAAAACAAGAATCGAAAAATATTTATGCTAAATATAAAGACTTAGTTAAACGCAATTATAATCCAAGTATTGATAATATTATTGCGACTGATGTATCTTACATACCTGGTTTGGTAGAAGGAAATTATTATTATATATCTGCGGCTATTAGTCATAAAACTAAAAAAATTGAGTCATGATGCTTGTCAAAAAATAATAATACACAGTTGGTTGTTGATACTATAACTAAAATTAATAAATCTAATTTTATTCTACATTCAGATCATGGTTCTCAATATTCAAGTAACGAGGTTACTGAATTAGTAAAACAGATAAATGGCCAAACTTCAATGAGCAGAGTTGGTAATTCCTTAGATAATAGAGAAATTGAATATTTTTTTAGTTGTTTAAAAGGAGAATATCTAAATCATATTAATACAAGCAAAATGAGCTTCAAAGAAATTTTTAACCATATAGATTGGTATAATAAAAAAAGAATACAAAAAGTTTTAAATTGAAAAACGCCAGCTAGTGCCTGCGTTAATATTTAAAACTGTAGAATTTATTTTTCCCAGTTTAATTACAGGAGAAGATTTAAAATTAACTCCAGAAGCTAACACAAAAGATGCTGCAGTTACAGCAGCTGTTGATAAAATTAAAGCAAAATTAAGTGTTGATGTAGTATTAGATACTGACTTTACAGTAGGAGAAAAAGACTATACCGAAGCTAAATCAGATACAACTGGATCATTAAAAATTACTTCTAAATCAGGAAGCAAAGTTTTAACTGAAGGAAAAACAGTAACATTTAGTTTAGCATTTAAAGCTGAAGAGGCTGCAAAAACTCCAGTATTGTCTTTTGGAGATGAAGTATCTCAAAATGCAGTGGAAATAAGCATGAAAGAAAACAGTGCAAAAAAAACTATCACAATTAAAGTTGAAAATCCTACAAAGGATGTAAAGCCAACAGTTAAAAAATCTGGTGATGATAGTAATGCGAAACTAGAAATATGTCAAGTTTCTGGTGATAATGAAACATATACTGTTGAGTTAACAGGAAAAGCAAAAACAGATAGTAGTCCAATTGAAGTAACTGTTAAATATACAGGAGCAACAAAAGATTTAACTTTAAATGTTACTGTAAAAGAATAAAACAAAATATTAAAAAAACTTTGAAATTTATCTAATAATTTTCAAAGTTTTTTAATTGTTTTTTTATTAAAAAACTAAAATAACTACGCTTAATAAATAATAAATTTTTATAAAGCGTTCAATTAAGGAAAACTGAGAAAAAATACTTACAATTGAACTTGTCAATTAAAATTGACATTAAAAAGATACTTTCTCCATACGAAATTCGTATGGAGTTTTTTTATACTTTAATGAAGGTCTTACGTAATTATAAAACTCAATATAATCAGAAATTACATTATATATATTAGAATAATTTAGCTCACTTACTTTATAAGTATAAATACACTCGTTTTTTAAAGTTCAAAAAAACGATTCGTATGCACCGTTATTAGGAGAATTTCCTCTTCTCGACATAGAAATCTTTATATTATTAGAATTACATAAATATTTTCAAGTCTTGTTTGTGTATGGCCAACCTTGATCAGAATGAATAAGTTTTGGTTTACCTTTTTTTGTGATTGCAGGTTTTAAATTTGTATGGCAAAGTTCATTATCAGGTTTTTTAGAAAGTTTTCAATCTACTATTTCTGAATTGTATAAGTCTTTAATGGCTGATAAATAAACCATCCCTGAACTTGTTTTAATGTAAGTAACATCTGTAACCCATTTTTCATTTAAGTTATTTGCTTTAAAATTTCTGTTTAAAATATTTTTAAATCTTAATGGACCTGATTTATCATAATCGGGTACTCTTTTCTTTTTGACTGCCTTAATGCCTAATATTTTCATATATCTGTATAAAACCCAAGGTTTTAAGTTCATTTTAAAATACTTATTTAACATGAGTGTAATCATATTGTAGCCATAACGTTTTTAAAAAGATTATGTATATAAATGATTTTGTTAGCAATTTTTGTATCATAGTTTTTGTATTTAGGTTTACCTGTTTTTAATCATTTTAAATAACCATATCTTGATACTCCTAAGTATTTACAAACTATTTTTAATGAAAAACACTTTTTCTCATTAAAAATAGCGAAGTACTTTTCCTTAACAGTCTTCGCCAAATGCTTTTTTAAAGCGCGCTATAATTTTAACGCTTCTCTCAATTCTTCTAAACTCATATCATCAGGATCTTTAAATAACCAATCATGAGATTTGAATTTCTTAATATTACTTTTAGCTTGAACTCCATTACCTCATTCTAAAGCACCTTCACCTTCAGTTCTTATTTCATGTTTTTATCTCTTAATAGTACTGGTACTTAAATTAAATTTTACTGCAGTATTAATTATTCCAACTTCTTTTGCCTCATTAACTATGTTAATTTTTTCTTGTTTTGATCATTGTTTTGCCGTATAAAAAGAACACCTTTCAATTAAATTTTAACAATAAAAGTACTTTTTTACTGTCAATTTTATTTTAGATGTTCATATGATATCTTTTTTTACTTTTTCTTGAATTTTTAACTTATATTCTTCTGAAGTAGAAGTTTGAAAACCAAATTTTAAAGTATGTACATTTAAGTCTTTTATGTCATATCTTTTATCTGGACTTGGATCAGAAGTAGCTTTATTTTGTCTAATGTCACTAACATAATTTCTTCAATAAGCTATAACACCTTCGTAAGATAATTTCATAAAATCTTCACTATTAGCATTATTTCAACCTTTATAATTAATCATATAATTTCTTAAATGATTTCCGTGTGAAGTAGATCAATAACTAGAGATAAGATTTCTATCTTGATTAATTTCGTTTATGTCTTCTATAAAATCTCCATATTTTTTATTAACATACATAAACTTTTGCAAAAAGAAAGGCGGATTTTTTTTATCATTTAAATCTTTATTTGTTTTTGTTTCAATAACAAAATGATATAAACCTTCATATGTTTGTATAGTTGTGTCATTTTTATTTACTTTATAAACATTTTTATCATTTTCAACAGATGTTTCTAAATTTGTATCTATTTTTCATCTAGAAACTGAATTAAAAGTTTCATTATTTCACGAATTAGAAAAACCAACTCCACCAACTTCGCTAGCTAAAGCTATGTAACCTTGTTCATAATCATTTTTGTTTTTTGAATCTATTTTGTAATTATCACTACTTACAGGGTCTAATTCAAAACTAACATCTTTTTTTGATGGTTTATTAACTCAAATTAATTGTTCTCTTGTTCCTGTTAATGGATTAATTGTTGGGTCATAATTTGGGTTATCTTCTTTATCTCCAGTTACTTTATTTGTAATAGTAGGGGATGTTAGTTTTTCAAAATCTGGATTATTTGAATTTCAATTCATCATTGTTAAATCAAGAGTATCCATACTATTTTCTATAATAATAGTTATTGAGTATTTTCCACCTTGATCCCCCAAAATATTTGGATTTTTATCATGAACAATTAAAATTTCATAACTTGTTGAATTTGTTTTATCAATTTGTCCATCGTCAAACTTAACCGGAAGATGTTCTAAAGTATAAGAATAAAAACCATTATATCCATTAAGTTGTTGACCATTAATAGAGATGTGATCATAATCCTTAGAATTTGGGTCAGTTTTCTTTTCTGCAAAACTTAAACCTACTGTTGTGTGAAATTTTATTTTTCCACCGTTATAACTACTAGATAAACCACCACCAGAATTAATAACTTCTTCTTTATCTTGAACAACAGTTATTCCATCTCTATCAATAATGTTTCCTGGAGACCATGTAATTCTTTGTGCTATATTTTTATTTCAAAAATCCGCAGAAAGACTAAAATCTATATAAGTTTTAAAAGTTCATTTTTCTTGTCTTATTTGTTGATAATCCTTAGTGTTAAAAGTAAATTGTGTTAGAGCATATGGTTTATTTCCATTGTCATCTCAAGAACTTTGTTTAGGAATTGTTATTTCTAAACTCGTTTTTCCACCAGAATAGCTATTATATAAATAATCTAAAATATATCTTTGACCATCAAAACAATTTACTATTCTATTTTCAACTTCTTCTTTGACTTTTTGATAAACAGAAGAATCGTTAATATTTGTAGTTGTTGAACTTGAAACTTTTATGTGACGAGCTTCAACTCCGTTTTTATCATAATTATCAATTTTTCCTTTTCCTAAATAATTAGTATTGTTGTTTAATTTATTAAAATAATCGCCTCATTTAAATGTAGAATATAAATCTATTTGTTCATTTCTAAAAGATAAAAAGCAAGCATGATTATTACCAGAATTGCTTCAATTTATATATCCATACAAAGAAATTGTAAAAATTATTCTATTCCCAGATTCATGAATATATAATTCATATCACAATGTTTCTTTATCGTGGTCTGGTTCTCTTCTTAAATAACCAGAAGATATTGATCTACCTATATCTGATTTTTTTATATTATAACTTTCATTATATAAAGGTGGATCAAAACCATTAGCTTTATTATTTTTAGCATCTACCGGCTTATGAAATCATCCCCAACCAATAGCGCCGTCTCAAAAATTATAAGTATAATCAAATTTAATACTTACTGAATTATAATTTCTTCAAAAATCATCTTTGTTATAACTATATTTACTATATTCAAAACTATATACATCAAAACTTACACTTTGTGTTTGGAGTTTAGGTTGTGATCAAAACGATTGTCCATAGTTATAACTAAATCAATATTTTCCGACAGGATCTACACTCTCTTTGTAATCAGTTCTATCAATATATATTCATTTTGCCTTGTCGCTATTAAATCCTGTATCATGAACCGTTGGATAAAATCCTCCTTCAGTAGAAATTTTATTAGTTATGCTATTAGTTTTTTGTTTTTCAAAATCTAGATTGTTCAAATTTTTGTTCTGTCTGAAAAAAATAAACAATATAATAAAACTTGTAATAAACAAAAAACTAATAATTATTAAATTTTTGTATTTTTTCATAAATACCCCCTTAGTTTTTAATTATACAAATTTTTAAAAATAAAAAAAAAGAAGTTTTAAAAACTTCTTTTATTTTGAATATTTTTCTATCATTTTATCAAAATCGTTTTTTAATTGCTCATAAACTTCTGGGCTTTCTTCTTTAAGATCTTTAACTGCATCTTTAAGTGATTTTAAAAATTCTTCTTTAGAATTTAGTGGAATAATTGTTTGATTTTCTGGTAATTTGCTAGCATCTATTTTGCATATTTTGTAAGCAGACTCACTCAAATAAATTCACATTTTATTACATTCTACTCTCTGCTCAAAAGTTGGTTCGCCATCTACTACGATTTTTTCTAGTGGTACATATTTATCTAACATTTCTTTATGTTTAGCTACTAATTCATCTAAACTAAGTTCTGGTTCTGAAGTTTCGTTCCCGCTATCACTATCTTTTTTTGTATCATCGTTACCGCACGCAACAGCAACACTGCTTGAGGTAGCAACCATTCCCATTGCTCCTAATAAACTTAATAATTTCTTCATTTTTTTCTCCTTTTTTAAAGCTATTTAAATTATATCAAAAAATAAAAAAGAACCCTTTTTAAAGTTCTTTTTTATTATGCACAAGTGCACAAAACAAGAAATATATATCAATAACCTGAAAATAACTTTGTGTTATTTAGAGCCGAAAAATTCTTTTCGACAAAAAAAATATAACACACTATTTTTTTTATTTTTAAAAAAAAAATAAAAACTCTTATAAGAAACATAAACAAGCATAAATTTTTATTTTGACTTATATTACCACTTTGCTTTTTTTCGTTGGGTTCTACACGGGTTCTACACCTAATTTAACCTTTTTAAGTATTTAAAAAACTATAAATTTAAATCATCATAAATTTTAATAAAATTTTCAATTTCAGCTTTATCTTTTAAAAGTTTAAAGTTTAAAAAAAAATAAAAAAACAATATAAATAAATATCATAAATAATTAAAATTTGATAATTTTTTATTTTCAATTAAAAATTTTAAATCAAATGTAAAAAAGTATAAAAGAAAAAACACCATCATAAATAAATTGAATATCCAACAAAATAATTGTCTATTTTGTTCTTTTTTTAATTTTTCCATATTTGAATCTCCTTAGTAAAAAAGATATCACAAAAGTGCAGGGAAATAAAAAAACAGAAATAAATCTGTTTTTTTATTTGGTTTTGCTTTTTCCTTTTACAACCACAAATTCAACTCTATCTTTTATATCTGCTTTTTTATCAACTTTTAAAGTGTTTTGTTTTTCAACTAAAGTTTTTTTAATCTCTTTAATAATTTTTTTAGCTTCTTTTAAAGTTTCATAATGAGATTCATAACCTCCAGCTAAACCTTTAGCAAATTCATATTCAGCTGCAAAATCAGGATCAGGATAAACACCATCATTTTCTTGTAGTTCTTCTTCTAAATTTTCATATTGATTATTATAGTACTTATAATCTTTTTTTATTTCTTCTAATTTTAAATTTATAAAATTTTCTAAATCTGTAAACTTCATTTTTCTCCTTGTGAATCAACAAAACCAAAATATTTATTAATAATTTGTTTATTTTCTTTAACATATTGTTTTAGCTCTTTTTTAAAGATACTTTTTATAAGTTCTATTTTTTTAAAAGAAAGATTTTTTAAAGGGATACATAAAATATCTTCATTATTATTTTTAAGCACAAAATTTCATCCTAAATCTTTATAAAAAAAATTATTAGTTTTTTCTCTTACGTTATCTAACGTTAATCAGACCAAATTTGCTTCAATAATATTGGGAAATTGTTTTTCTATATCTTTTTGAAGTTTTATAACATATTCATTATTATGCAAACAATTAAAATACGGTTTCATTTTATTTATTCCTTTCTTTCTTTTTATTTAAAGAACTTCCTACTTTTTTTAAATCAGCATTTTTATTTACTTTTAAAGTTGATTGATTGTTTCATAAATCGTTACTTCTTTTTAACTGATCATTGTAAACTTTTTCGTCAATAGCTAGTTCTTTCATATTTTCTTCTAAAAGCTGAAAATATTTAACACCCATTATTCGAAAATGATAATCTTCAATAGTTTTAGAACAAATATTACAAATAGTGTTTTTAGTTAAGAAATATTCATTTTTTTCATTATTATTTACATTGATTTCTGTAGATGTGAAACCATGCTCACAATTATTCATATTTTCTCCGCCCGTTTTATCTATTTATTTTTTTTTCTTCTTTTTTATTTAAAAACTCTATATTTAGGTTTCTGGTTTTATCTACATTTAAAGTTTTTTTATCATTAAATAATTCTTTCACTTGTTCTTTATTTTTGTTTCAATCACTAACTATTTCTTTTTGTTGTTCTATAGTTGGTTTGTTAAAGACTTTGTTTACACTATTAAATACTTTGTTGAATTCTTTCATAGGGTTCATATCTTTAGTTTCTTTTGTTCATGAATTAATGTAATTAGAAGCTATTTTTTTAGTTTTTTCATTTTCTATTCCCAACATTTTTTCACTTACTCAAGCAAACATTTCAGCTTGTGTTTCTTTAACACCGCGAATGTGTCCTTCGTAACCTAAATTATCTGTATTGTGTTCTAAATATATATGACCAAATTCATGTAGTAAAGTTTGATTTTTTAAATCCGGATCACTATCAACTGATATATTGATTTTTTTACCGTCTGTGTATCCAGCTTCTCCTTTTTCGCTAAGACTATAATTAAGGGCAAAAGGTTTAATAGATTGTAAGTATTCAACAAGATAATTAAACTCTGGATTTTTTATTTTATTTTGAAAGTTTTCTTCAACAATTTTATTTATCTCTTCTTCTTTTAAATTGGTTTGTTTAGCATCAAAAAGGGGTTGTTTTTTATATTTCATATATGTATCTACACATTTATTTGAACCGCACTTTGATGCTATTCCATGTTCTTTACACATTGGTAGGGGAGATAAAACATATAAAGCTTTTGCTCCTTTGTTGACATTGACTCCTCCTTTTTGTCATGCGTTATATGTTTTTAACTCAGTTATATTTTTGGACTGACTCATTAAAAGTAATGCATTTTTAAATGAGTATTTTTGAAAAATATTGGTTTTTTTATTGTATTTAATCAAGTCATTTACTAATAATTCTATTGATTCTGGGTTTTTAAAAGCTTCTTCTAATTCTTAATATAATTCTGCTTCAATTTCTTTGACTTCTATATTTTTAATGTTACTAAAATCAATCATCGTTCAAACCTTTAAATGAATCTGTGAAATTATTTAAGTTTTCTTCATACACTTTTTTGTTTTTTGAATTTTCTAAAGATATCTCAGCTTTTAAAAAATTAGCTATTTTTTTATTTTTTTCTTCTTTTTTCATCTTAAATTTCTCTTTTCTTATTTTTTTCTTTTCTTTACTTTAATAATTATTTCTACACCAAAAATTTAAGTTTTTTTTACAATAAATTATAAACTTTTAATTTTTTAAGAAAGGTGTTGTTATAGATATCATTACCTATTTTTTCTAGTGAAGAAAGAGTGTATTCAACTATGTTTAAATAACTTTCATAAAAATTATGATCATCTTCTTTTGAAGCAATTCTTAAAATCATTTCTTTTTTTCTTGAATCTAAATAAAAAAAATTTTTTATATAACAAATAAATATCTCTTTAAAAATTTTAGAATTTAAAAATTCCGTATATATTATTGCAACTAAAAAATTATTAGAATAGTTATTATTTAATTTGTTTTCTTTATCAAAAAATGAATACATTTTATTTCTTTCTTTATCATTTATAAAATCTTCAATAAACATTATTTTTATGTCACTATATAAACTTACAACATCAGATAATTTAATTCTACTCATATGTAATTCGTTTCATTTATAAATTATTTAAAACTATTTTAACAACATATTTTTCCCACTCATATAAAGCTTTTTTAAAAAATAATTCTTAATAAAATATGATCGATTTCAATTTGGTTCTTATACAAAATTATATTTTCAAAAGTCTTTATATCATAAATATTTTTCGATATGTAACCACTCCTTTATTAATTTCTTGCAAAAACAAGAAATTAATAAATTCATTATAACAAAACAAAAAAATTTTCCCCGGGGAAAGAAAAAAACCACGTAAGCGGTTTTTTAAGCATCAAAAATTCTATCATTTTCATCTGAATCTAAAAATCTTTTAATTTTCATATTAATATCATGGGCTATGCTTTTCAAACTTCTTTTCGTCTTTTGTTTGTTTCTTCTTTTTTCATCTTAAATGTCTTTTTTCTTATTTTTTTCATTTTGTTTTTCTATTTTTTTTAAAGCAGCATTTTTATTTACTTTTAAAGTACTTTTTTCTTTATTCAAATAACTATATTTATCTATTTAGTTTTTCATTTCTTCAAACGAAATTTCTTTTTTTTCTGCTTCAAATTGAAAATTAAATATCATATCTAAACTTATATCGCCTTGATCTAAATAAAATTTTTTTTTATCAAGATCTGCTATAACAGAAAACACACAATTTTCTATATTGTCATTTTCGTTAAAATCTTGTTCTAGTTTAATGCCTCTTTCAAAACTTGTATCTTTTTTAAAAGCTTCTTGTATAGTTTTGTTTAAAAAAGGTTCCCCATCAAAAAAATTCTCAATAACATTAAACTTGATATTTTTTATTTGGTTAAAATTAGCAGAACAATAGTGCAAAACTCTTTTTTGATATGTAACCACTCCTTTATTAATTTCTTGCAAAAACAAGAAATTAATAAATTCATTATAACAAAACAAAAAATTTTCCCCGGGGAAAGAAAAAAACCACATAAGCGGTTTTTTAAGCATCAAAAATTCTATCTTTTTCATCTGAATCTAAAAATCTTTTAATTTTCATATTAATATCATGAGCTATGCCTTTAAATTCTTGTTCTATATAATCTCACTTTTCTAATAATATTATAGTTTCTTTCCAAACTTCTTTTCGTCTTTTGTTTGTTTCTTCACTGCTTTTATTTATTTCTTCATTTCATTTATTTATTTCTTCACTTCTTTTATTTATTTCTTCATTTCATTTATTTATTTCTTCATTTCATTTATTTGTTTCTTCACTTCTTTTATTTATTTCTTCATTTCATTTCAAAGCTTGAATAAATTTTTTATTTGTTTCTTCAATTTTTTTATTATTTTTTTTCATTCATTTTTTTTGCTCTTTTAAAAAATCATCCATAATTTAAATTTCCTTTTTTTAATTTTAACATTTTAATTACTTAATTTTATTAAATTCTTTTTTTATCCCGTTAGATATTTTTTTTAATTTAGCCTTTTTATTAATTTTTAAAGTGCTATCATTTTCTAAAAAATTATCAATATCGTTTTTAAGTGCACTTAAATTGTTTTTTGCAATTAAAGCGTTTTTCACTTTTTTATTTAAAATAAAGTTTTCTGCTAAAACTTCTTTATTTTCTTGTTCTATTTTTTCTTTTTCTTGTGATAGTTTGTTTTTTTCTTGTTCTATTTTTTCTTTTTCTTGTGATACACTAACTATTTTTTTAGTTTTATTCTCACTTTCTTGTCTTAATTTTTCATAATTAATTTCAAGTTCTATTATATAGTGTTGATAATTTTCTATTACTTTTCTATTATTTCTTAAAGCTTCAAGTTCAGCTAAAGTAATATTTATGTCAGCAAACAAACTATCTTCTTTAGCATAATTTCTACTTAAATGAGTTTTGTTTGGCACAATAATATCATTAAGTTTTTTAATATGATATTTAATATGATTTTTTAAAGAAATATCATATTTAGAGATAACTTTCTCAATAGTTAAAATAATTTCTTGAGCTCTATCTCTGGGTCAAGTGCTAATTTTGTTATTGCTAAAATCTATAAAAGCCTTTTTTATCAAATTTATTATGTATTTCTTTATATTCTATTAATAACTTAGTAACAAAAGTCATATCTTCTTCACTTGATAGATCTTTTGATTCTTTTTCGATTCCTTTTTTAACTTCTTTAAATAGCTTACTATCTGATTTATTCTTTTTTTTCGTCTTCAACAGCCCCCAATATACTTTCTACTAATACAAATGCTTTAAACATAAACATTTGCATATCAGCACTATTTAATTCATTTTTATGTTTTTCTAAAAATTTTTCTAGATTTCCTTCTACAGAAATATCAAGTTCATAATTTTTGTGTTTAACTAAAAATATATTTATATCTTGTCTATCTTTTTTCATATTTATTTCCTCTCTAAATAACAAAATTATATCAAATAAAAAAAACCATTTTTGAATATCTAAAATAAAATTGACAGTAAAAAAGTACTTTTATTGTTAAAATTTTATGAAAAGTGTTATTTTTATATGGCAAAACAATGATCAAAAAACGAAAAAATTAAAATTATTGAAGAGTCTAAAAAAATTGGAATAACAGATGCTGCATTAAAATATGATGTTAGCACAAGTACAGTCAAAAGATGAAAATCAGAAATTAAAACTAAAGGTGAAGGCGCTCTTGAATGAGGGAACGGAATCCAAACAAAAGGAAATATTAAGAAATTTAAATCTCATGATTGAATTTTTAAAGACCCTGACGATATGACAACAGAAGAATTAAGAGAAGCTTTAAAATTGGAGCGAGCTCTAAAAAAGCATTTGGCGAAGACAACTAAAGAAAAGTACTTCGCTATTTTTAATTGTTCTAAAAAGTTTACTTTAACATTAACTTGTAAATATTTAAGCGTTTCACGATTTGGTTATTTAAAATGACTAAAAAATGGAAAACCTATGAACAAAAACTATAATCGAATTCTTGCTATAAAAATTAAATTTACTTTCTATTTATTTAAAGAATGTTTTGGTTACAACATGATAACTCTACTTTTAAACAAATATTTTAATCAAAACTTAAAACCATGAGTAGTTTATAGATATATGAAAATTAATAATTTAAAAGCAGTTCGAAAAAAAAGAGTACCTAAATATGATAAATCTGGTCCTTTGAGATATGAAAACTTATTGAAAAGGAACTGCAATGCAGATTGTTTAAATCAAAAATGAGTTACAGATGTTACTTATATAAAGACAGCATTAGGAAATGCATATTTATCTGTTATAAAAGATTTATATAATTCAGAAATTGTTGTTTGAAAATTATCTAACAGTCCTATTGGTAAATTATGTTATACAATCCTTATCTCTGTAATCAAAAAGAGAGGCACTCCTAATATTATTAATTCTGATCAAGGTAGTCCTTATACCAATGAAACTTGAAAAAGTTTATGTGATGAAAACAAGATAAGTATATCCATGTCAAGAAGAGGTAACTCTCCTGATAACGGAGCGTTCGAATCTTTTTTGGAACAATAAAAAATGAATGTATTTATACTTATAAAATAAAAGAGTTAAACTTTTCAAATATCTATACAATAATTTCAGATTATATTGATTTTTATAATTATGTTAGACCTATGTTGAAACATAAAAAAACTCCATACGAATTTCGTATGGAGAAAGTACATTTTTAATGTCAATTTTAATTGACAAGTTCAGTACATAGGGATTTTTTATATGTAAAAATAGAAAAAAATCTAAAGCTGTATTTTAAAAAGCTAAAAGTGTAAAAATTAAAATATGCTTTATTCATAGATAAAAATCATACTTAGTATATAAAAATACAATATAAAATTTTATAAATCTGCTGTAAAAAGAAGATTTGTTTACTAATTAAGAAAAAAATATAATTTTTGTATCTCTTTAAGGTTGTCTATTCTTGTTATTAAAAAATTTTAATTGAACATCAATAATTTGATTTTTATATTTATATATATATAATATAAATATGGCTATCAGCCATGAAAGGGAATAAAAAATATGAAAAAATTATTAAGTTTATTAGGAGCAATGGGATTAGTTGCTACTTCAGGTAGTGTTGCAGTTGCATGTAACAAGGGAGAAAAAGACGCAAAAACACCTGCTTTTGCAGATACTTTAAAAGCAAGTGAAGCAATGGTTGGAGTTAAAACTAGCATTGAAGTTTCAATTACAAATGGAGATTCAAAAACAGTTTTAACAGCTGTAGGAGATGATGTAAAAATTAATAAAGACGTTACAGTAGTTGTTGATAGTAACGATAAAAACAAATTTACAGTTACTTATACTGGAAAAGCTGAAGGTGTAGATGGAAAATTATCACTAGCTTATGGAGAATTAAAAAAAGATTTAACAGTTACAGTAGTTGCTGATGCAAGAAAAGATTTAACAGAATTATTATCAGGAGCTTTAGACTTAAAAAGTGATGCTGGAGCATACGATGAAGCTGGAGCTAAAACAGCTGCATTAGCTAAAATTAAAGAAAAATTAGCTGAATCAGGAGATCCAAAAGAAACAACTGATGTTGTATTTTCAGAATTTCAAGCATCTACAAGTACTAGCGTTGATGGTAAATTAGTTGCTACTGCATCTGAATCAAGCAGATTAGTAAAAGGTACAGCAACTTTTGTATTAAAACAAACTAGCTAATAAAATTTTTAAAAATCTATACAGTAATGTATAGATTTTTTATACTCTTTTTATTACTTTTAAAAACAATAGTCAGCAAAAGTGTGTTAATAACTAATATATTTTTCCCAAGACTTTATTTTTAGAGTTTTTTTAAAATATTCAATTAGTATATTTTCCTGGGCTCTTTGTTTTAATTTGCTTATGAGTTTTTTGTATATCATAAACATTCTTATCTTTATAAGTGGAGTTTTGTTGAACTTCAATTAATGGCATTCATTCACTAAATGAGTTTGAATATAATTGCCCATCAAAAGTTTCTACTAATAAAATTTTTTTTATAAAAGACTGGCTTGCCATTCGAGTGTGGTAAATAAAATTTATGTTAGTATTTTATTGTATATACTTTATTAATAGTTCGTTCAAATCTTCTTTATAAATAAAAGTCTATGTTTTTTTGTTCGTTAAAAATAGCAAAAGAGTTAATGATATTATTGAACTGAACTAAAAATTGTTAATTATATATTTTAATATATTATTTATACCAAATATATTATTTTTTGAGCTCCTTTGGTAGGCGATCTTGAAGTGTATTTTACAATCTTTCAATACGGCCTTTTGTTTGATGAACACTTGAAGTTGTTAGCTTAATTTCTAGTTATGACATAAGAATACGTATTGTGTTAAAGAATCAGAGTGTAGATCTGACTCTTTTTCTTTTTGACTGCAAAAAACAGTCCTTTTGTCAGTAAGTATTTCTTTAGGAGTCCCATATAACAATAAAACTTTTTTTGTTATATTTTAGTATCTCATAAGAGTTTATTCTTTACCAAAATATAAAGTTAAAACTTTACCTGTTGTATCACCTATAAAACCATGTAAATACCATTTCTCATTATCAACTTAGTAGTGGATCGACGCATCAGTTTGTAAGCGTTAACCAAACTTAGTTTTTTTCTTTTGCACAGGATGAATATTTTCTATCGAAAGCAAATTATTTAAATACTCTCATTTCTCAAGATTTTAAATATTGTCATTTTTTAATGAGTTAGTAATTTTTTGTTTAATCGTTTTTTTTAGTTACTTTATGAATTATTGGTGAATATAAATTATTCTCTTTTTATAAGTTAATTAAGTAAGTATATGAAACACTTATTTGTTGGTCTGATCAAAGTTTTTCTAAAAAGTGCTTATAGTTATATTCTTCATATTTATTAATGTACAAATCAATTATTTGCTCGCTTGTTTGCTATTTTTTTTTTATTTGATATTCTTCCTGTATTTTTGTGTATAAATGCTGTGTAACCATACTTTTTATATTTGTTGCTTAATAAGTTAACATTTCTTATTGTTTGACATATTTTTATTGCATAATCTTTTTTAGATAATTTTCCATTAATCACATCTTTAATTATTTCCATTTTGTTTTTTTTTATTTATTTTTAAATATATCCTCATATTTAAACTTCCCCTATAAATTATATACTTGGGTTATTTTTATTTGTTGTATATAGGGAAAATATCATATGTTATTGACATACACTATTTATAAAATTAATTAAATAAATTGCTTTTAAAAAGCATAGTTGTATAATTAGATTAACAAATAAATGATAAATGGATATAGGGACTTTACTTATGAAAAGACTGTTTAATTTATTAGGAATAACAACTTTAATATCAAGTACGTGCACTTTGTCAATTGCTTGTCATCCAAAAGCTATGTCACTAAACAAATTAATTAATAAAGATCTTGGGGAAATATTTGGAGATGATGAAATTCCAAGCTTACAAGAAATTGTGCAAGCAATAAACGAAAAAAACGAAGGTCTAAATTTAACTATAGATCAAGTGGAATTTGAATCTGAACCAACAACAAATGAAGCAGTTATAAAAGCAGTTTATTTAGCAACTACTTTTACAGGTAAAACTCAAATAACTTATAATTATTCACAAAACTTTATAAAAAAAGATTTATCAACTTTAAATGGAGAAATTTTAAATCCAAGTAATCCTACACAAGAAACCGCAGTTGATGTTGCAATTAATCTAATAAAAGAAAAACTTGAAGTTGATTTACAACAAGATATAGACTTTATTGTCGAAACTGATTTTAAACCTGCTTCTCTAGAAACAAGTGGAAAAATTACTTTAAGTTCAAAATCTGAAAGTAAAAAACTAATTGCAAATAAATCTGCAACATTTGAAATTACATATAACGAAAACAGAAAAGATTTATCAACCTTAGATAATGAAGTTTTAGATCCAGCTAATCCATCTTTAATTTCTGCAATTGATGTTGTAGTTGCTTTAATTAAACAAAAACTTGAAGTTAATGTACAACAAGATATTGATTTTACAATTAGTAAAGAAGATTTTAAACCAGCAAGTTCAAAAGGGAATGGTTCATTAAAAGTTGTGGCAAAAGAAGGAAGTCAAAAATTAATAGAAAATAAATCTGCAACATTTAGTTTAAATTACAATGAAAATAGAAAAGACTTATCAACAATTGATGGGGCAAATCTAAACTTAGTCCCTGAAGATAATTCAAAACCAAGCGCATTAAAAGCAGCTATTGATAAAGTTAAAGATGTATTAAAAGTTGATGTTACTGAAAATACAGACTTCACATTAGATCAATTTAATCCAGCTTCTTTAGAAAAATCAGGAACTTTAAAAATTACAGCAAAAGAAGAAAGTTCAAAATTAATTGAAAATAAATCTGTAACATTTAGTTTAACTTATGCTGTTATTAAAAAAGATTTATCTGATATTAAAGGAGATAGTTTAATATTAAAACCAATTGATAACTCAAGAGATAACGCAATAAAAGCAGCCGTGAAAAGAATAAGTGAAGTATTAGGACTTGAAACTATTGAAGGACAAGATTTTGAAGTCAATAATTTTAGTCCATCAAAATCTAGCAATCAAGGAGAACTTATAGTTAAGGCTTTAGAAAAAAGTACAAAATTGATTGCAAATAAAACAGCAAAATTTGATTTAGATTATAGCAAAGAAAAAGTGGATATATCAAAAATTCAAGGTGAAGATTTAAAATTAAAACCTACTGACAATAAAAAAGAAGAAGCAATTAACTCTGCTATTGCAAAAATAAAAGCAGTTCTTGGAGTTGATGTTCAAAACGATGTTGACTTTACAATTGGAGGAAGTGATTATAATCCAGCAACATGATCGCAAGAAGGTTCATTGAAAGTAACTTCAAAAGAAGAAAGTGATGCATTAATTGGAAATAAAACAGCAACATTTAGTTTAACTTATGTTGAAAAACGTGCTGACTTAACAAAAATTCAAGGTGAAAATTTAGAGTTAAGTCCAGTTGATAATTCAAAAACCGAGGCTGTAAATGAAGCTATAAAAAAAATAAAAGAAGTATTAAAAGTTGATGTAAAAGAAAATACAGATTTTAAAGTAGATAGTTTTAATGGAGCTACTCCTAATGGTAAAGGTATTTTAAAAATAACTTCAATAAACAATAGTCAATATTTAGTAAATGAAAAACATTCAACGTTTAGTACAAATTATGTTGATATAAGAGTTGATTTAAACGATTTAAATATACCAAGTGCTGAACAAGGAAAAACAAATGGAAATAATGAAAAAATTGATAAATATGATGCTTTAAATATAATCAATCAAAAAATAGCAGAACAATTTAAAAAAGGTCAAAATTATTTATCTCTAGATACAGATGTTAATATCGAAGTAGATGCTTCATGAATATCAGTTACTCCAAAAACGGGGTCTTCAAAAATAAAAGGGGATATGAAGAAATTTCAATATCAATATAAACAAATTTATTTTGAAATGAACTCTTTAGAAGAGTCCGATAACTTCGTTGTAAAAGGTGAAACAATAACAATTAAAGAAGCAGATAATAAAGATACATATAAATTTAAATTGGTTTGAAAAGGAAAAGATATTGACCAAACAGTTGGATTTTGTGGAAAACCATCTGTTGATAGTCAAAATAGCAATAATGAATATTTTCAAGTAGAATATGACTCAAACTCATTAGATAATTCAGATGTTTATAGTAAAAAATATCATGTAATATATATTAAAAATGTAAAAAAGGCATTTAGTGAACCAAAAGAATTTTGAACAATTTTAGGAACTTTTAAAATAAGTGTTAAATTAGTAGTTAATGAAATAACATAAAAACATAATTTATTTTATCATCTAAGGGGGGAACAAAAATGAAAAAAGTAGTATTTATTATTTTTGGTTTATCATTATCTATTTCATTGATGCCAAATTTAACTTCATGTATAAAATTACCAAGTAAAATTGATATAAACGATATTTTGATAAAAGATTTAGGAGAAATTAAAGGCAAAGATTTTTTACCCAACTTAAAAGACCTTGTGACAGCATTAAACTATTTAAACAAAAACTTAGATTTAAAAAAAGAAATTGTTGAGTTTGAATCAACACCAACAGTTAGTCAAGCAACTATAAATGTAAAATCTGATGCTACAAAATTTTTTGGATCAGCTGAATTAAGTTATGATTATAAATTAGAAAATAAAATAAGTTTATCACAAATTATGGGAAGTAATTTGAACCTAGATACAGAAAGTTCTGAGAAAGAAGTATTAATTTTTGCTGTAAAAGAAAAAATTAAAACAAGATTAAATGTAGAAGTTAAAGAAGGTTTAGATTTTATGGTTGATGAATCTGATGTTGGTCAAAAAACACAGGAATATAATGGTTCATTTAAAATTAAAACACTAGAATCAAGTCCTTACTTAATCGCAAATGAAGATTTAGTTTTCAAATACAAATTATAATAAATAATGTTATAAACTTAAAAGATTATGATTTTAAAGCTTTTAAGTTTTTTGTTTAGAAAATTTATTTTTTATTTTTAAATATATATAATATATATGTATAAAAGGAGAAAAAAAATGAAAAAATTATTAAGTGTATTAGGAGCTATAGGCTTAGTTTCTGCATCATCAAGTGTTGCAATAGCATGTAACAAAAAAGAAAAAGAAGTAGAAAAAATTGATTTAGCAACATTACCAATAAAAGAGTTAGGTGAAATTGAAGGAAGTGATTATGTTGTATCAATTGGAGATCTTGTACGTGCTATAAATACAACAATTGGAAATGAAAGTATGCATTTAGATCAAGTAGATGTTCAGTTTGATGGTGATGTTTCATGATCAAAAGCTACATTGAAAGCATCTAATAATTCAACACTTTATAAAGGGAGTGTTGAATTAACATACAAATTTGCAAAACAATTGGTTGTTGATACAGAAAATAATCAAGATATTGATAATGCAAGATCAATATTAAAAAAACATAATATGGTTAATGAAGATTTTACATGAAAAGAAACATTTAAAGATACTGATGAATTTTCAGAAGGTAATGTAAATTATGGAAAATTTGATGGAAAATGTTTAGAAGGAACAGAACCTGAATTACCTGAATCAGAAGCAACAAGTTCAATTGAAACTATATTTAATGAATTAAAAGTAGTATTTACAGATACTAAAAATTTAGAACATTTGGACAACAAAAATAAAATAGTATATTTCTTTTCTGCAAGAGCAAATGCAGGAGATAAAAAAGTAACTTTATTTTTAGTAAAAGGAATTGTTGTTAAATCTGGTGAAAAAACAAATTATAGTTTTACAACTATAAATAGAACAACCTTTGATTTAAAAATTCTTGGAGGAAGTAACTAAAATAATTTTTGATATTTAAGCATAAAATTTAAAATAAGCAAAATGTTCTTAGAATTCTAAGAACATTTTTTTTATAAATTTTTTAAAAAAATAAAAATTTTACTTGCCTTAACCTAAGGTTAATGTTTTATTATTAAAACATAAGGAAGTGAAAAGATATGAACAAAAAATGGTGATTTTCAGATTATGATGGAACAATATTAATTGATTCAATCAAAGGAGTTACAAAAAAAGATTGAGACTTTATTAATAAATGAATAAAAGATGGTAATAACTTTGTAATTGCATCTGGAAGAAATAGAGATGATGTAAAAAGTATTTTAAAAGAAGCTAATTTAAATTACAATTATTTGATAACAAATAATGGGGCTATGGTTCATGATAAAAATGACAATATTATATTGCATAGAGTAATACCAATGGATGTTAGAAAAGATATTTTAAAATTAATTGAAAAATGGATGGATAAAGTTGGTATTGAACTTTGTTTTGGAAATGAAAGCATGATAGTTTCAATTTTAAAAGAAAAAAGAAAAGATGTAGAACCAGATCAACTTTTTGAAAAGATATGGACATTTAAACCAAATGTTAATAAAGATTTTCAAGATCAAGTTTTAAAAGATTTAAATTTAGATACAGTTAAGTTTTTTAGTTATTATGAAGATTTAGAAGCAATAGAAAATGATTTTAAAAAACTAAATAATACAAGATATATGCAAACATATTATTTTGTTTTAGAACTTACTAATAAAGATACTTCAAAACTAGATGGAATAAAACAAATTCAAAATATTTATAACATTGATGAAAAAGATATTTATACAACTGGAGATGGAGAAAATGATGTAGAAATGTTAAAAGGATTTCAAAATTCATTTGCAATTGAATCAGGAAATAAAAAAGCATTAGCAGCTGGAAAACATATTATAAAAGCTGTTAATGAATTACAAAATTATATTTAAGAAAGGAAAGTTGGTATGGAAAAAAAACTATATGTAAGTGAAATTGCAAAACAGTTTAACTTAACAGAAAATACAATAAGGTTTTATGAGAAAAAAGGATTAATGCCTTATATGAAAAGAGATAAAAATAATTATCGCTATATTTTAGAAGATGATGTTAAATGATTTGATACAGTTATATGTCTTAAAAAAACAGGAATGTCAATTTTAGAAATTAAAGAATATATTAAACTTGCTGAAAAAGGAAATGTTACAGCAGCAAAGCGTTTAGAAATGATTGTCAATCAAAAAAAAGTTGTTAATGAACAATTAGAGTTTTTAAAAAAACAATTAGGATTTTTAGATTATAAAATTGAATATTACAACAATATTTTAGAAAAAGAAAATAAAGGAGAATAGAAAAAATGAGAGCAGTATTTGGAAGTAAAAAACCTGGAAAAGTAGCAGAGTTAAGAGAAGTTGAAAAACCAACAGTAATAAAAGATGATGAAGTTTTAGTAAAAACTTTATATTGTAGTTTGTGTCATAGTGATTTAAGTTTAGCTAAAGGTGATTGAGGAGAAGTTTCTGATAGTAGTGTTGGACATGAATCATTAGGAGAAGTTGTGCAAGTTGGTGCTAATGTAAAAGACTTAAAAGTAGGAGATTATGTAGCTGGTCCTGCAGGTTTAAGAGGGGCATGTCAAAAATGTAAATATTGTTTACGTGGAGAAGAAGTATTTTGTGATGAAGTAGTTTTCACAGGTCAAAGAGGATATGGAACTATGCAAGATTATACAGTTGAAAAAGCTGCATATAGTATTAAAGTTCCTAAGGATACTGATTTAGCAGCAGCATGTATAATTACTTGTGCAGGTATTACAGTTTACAAAGGATTTAAGTTAGCAAATCCAATTAAAGGAGACACAGTTGCGATTTTTGGAATTGGTGGATTAGGAAATGTAGCAATTGAATATGCAAAAAATGTTTTTGGTTTAAAAGTAATTGCAGTTGGATCTAATGAAAAAAGTTTAGAAATTGCAAAACAAAAAGGTGCAGATTTAATTATTAATTGAAAACAAGATGATGTAGATAAAAAAATTAAAGATTTTACAAATGGAGTTGGTTTAGATTTAGCAATGGTAACTAGTTCAACATTACCTCAGTTTGAATTAGCTTATAGAAATTTAGGAAAGCTTGGTAAACTTTGTTCAATTGGATTGCCAGCAGGAAAATTAGAAACTGATATTTTAGATATTACTTTAGGACAAAAAATGGTTTATGGATCATTAGTTGGAACACGTCAAGATTTAAGAGAAGCACTTGAAGCTTTATATGAGAAAAAAGTAAATCCAGATTTTGAAGTAAAATCAATTAATGAAGCAGAAAAATATTTTGAACTAATGGATCAAAATAAATTACATACTAGAATTGTATTTGACTTAACTAAATAACCGATTGGTTATTTTTTTATGTAAAAAGAGTGCTATAATGAAAGCAAATGAGTTTTTTAAAGGAGTTTAATGGAATCAATTGTAGGAAAGCTATGATCAGTAGCTAATAGAGGGGATAGTAATACATATAAATTAATTGCAAAAAAATTAAATGACTGTTTTATTGATAGTATTTTTCCTTCTCAAAGAGAATTATCTAGTATGTGTTTTTGTTCTATTTCTACAATAACTCAATTTTCTAAAAGCATTGGCTTAGAAGGTTATAGAGAACTTATAGTAAGGTTAAAGGTTGAGCTAGAAAGATTTAATTTCAATTCTAAAAAAGACAATAATAACATTAATAATAATTTTGATACAGTTACTTTTATTAAAAGATGATTAGATTTAAATAAAGATTTTATTAATAAATTAACAAATAAGATTAAATTATATAAAAAAATAACTTTATTATGTAGTTATCATTTAATTGATATAAATTCCTATTTAAAAAAAATAACTAAAAAAATGAATGTAGAAATCAATATAATAGATTTAACTTCAGAACTTTTTAAATATAGAACTTATGAAAAAGATAACACTGTAAACTTAGCAATAATATCTGGATTCGACAATGAATCACTATGTTCAATTTACTTACCATATTTTTTAACAAGCTTTGAAAATGCATTTTTATTAATATCACATTCTCAACATGAAAAAATTATAAATTTAACTAATTCAAATGTAATGTTTTGAAGTTTTTATGGTGATGATTCTAGTTATGAAAAAAGATTTTTAGCGTTGATTCTTATTTTTAATTTAATATTTGAGGAATACTCCAACTAAAAAACTACTTTTGTATGAGCGAAGTACTTCTGTGTTTTCTTATTAATTTCTTAAAAGTTTCATAATATAAATATGAAAGGATGAGAAAAATGAGAAAAAGCTTAAAAATATATTCTCCGGTTAATGGAGAAATAAAAAAAATCGAAGATTCAATTGATGAAGTTTTCAAATCTAAGGCTCTTGGAGATGGTTTCGTTATAATACCTTTAGAAAATGAATTTGTTTCACCATTTGAAGAAGCAATTGTCAAAATGGTTTTTCCAACTAAACACGCATATGGTTTTTTAGTAGATGATTTAAATTTTTTAATTCATTGTGGTATGGACACAGTCAAATTAGAAGGTTCTTCTTTTATAAGCTATATTAATGTTGACCAAAACTTAAAAAAAGGAAATAAAATATTTAAAGCTGATTTAGAAATAATAAAAGAAAATAATTTGTCTATTGAAACTCCAATAGTATTTGAAGTACAGGAAATAGAAAACTATAATTTTAAAACTTTAAATTTAGGAAAAGTAAAAAAAGGTGATTTAGTTTGTGAAATAGAATATTCTTTAAAAGAAATTCAAGAAAATCAAGAAAATCAAGAACTTACTTTAAAATCATTTAAATCTAAATATGAATTAGCTGCAGAACAATTTGTAGAAGCTGTTGGTGGAAAAAATAATTTTAGCGAAGTTTATAATTGCATGACTAGATTAAGATTTGCAATTGTAGAAAAAGAAAAAGTGGATACTGACAGTATTAAAAAAAATAAATTAGTAAAAGGTATTGTATGAAATGGCTTAGAATTACAAGTTATAATTGGCGGAGAATGTTATAAATTAAAAGATGAAATACTAAATATGGATAAAAAAACCGAAGATTTTGGTAAAAGAGTAGGCATAAAACCACCTTTACAAAAAAGAATATTAGGAGCTGTTGCAGGTATTATGACTCCAAGTATTCCTGTTATAATGGCTAGTGGTATTTTGAGTGTTATTTACGCACTAACTAATCAATCTCACATAACTAAGGACTTATCAAATGGTGTAGAAGGGGCAGATGCTTTAAGTTTAATTTTATTTATAATGAGCAAAGTAGGGTTAACACTAGTGGGAGTATTCTTTTGTATAAATACAGTTAAATTTTTTGGAGGTAATCCGTTAGCGGGAGCTTTAATTGCATTAGCTTTAATATCTAGATTTTATTTTTCTACAGGAGAATCAGATTCTAATGCTTATCAAGCGGGTCATTACATAAGCAATGCAAAATTTGGAGTTCAAGGATGATATTTATTTAGCATTGCTGATTATCCAATAGTTATAAAGTCTTATGAAGGTAGTGTTCTCCCGTTTATAGTCGCAGGTATTATAGTCGCATATTTAGATAAGTGAGTTAAAACTTGAATGCCTTCAAGTTTAGATGTTGTTTTTAGATATGGTATTGTGTTAATAGTAACAACATTGTCAATATTATTATTTTTAGGACCTTTATTATCATTAATAGAATATGGTATGGCGCAATTTATTTTCTTAATTGAAGATCTACCTATTGGGTTAGGTGTTGCAATATTTGCATTTTTATGACAACCATTAGTATTAACTGGTGTTCATGTGGCAGTTATAATGACAATAATGATTCCTTTTTATACAGGTATACCAAGTTTAATGCTAACTGGTTCTGCTTTAGGAGTATGGGGTCAAGTTGGTGCAGGTTTAGGCGTTGGTTTAGTAACAAAAAATAAAAATCTTAAAAGTGCTGTATACGGAGCCTTACCAGGTGGATTGTTTGGTATAACCGAACCAATTATATATGGTGTTACATTGCCCAAAGGAAAACCATTTTTAATGGGATGTATAGCAGCAGGAATAACAGGAATATTAGCAGGAGTTTTAGATGTAAAAACCGAAGTTCCAGCAGGTCAAGGTATATTTGCAATTTTAGGATATGTTGGATTTAAACATCAAGCATTAGCGGTTTTAGTTAGAGTTGTATCAATAGGATTGGGAACATTGTTAAGTGCCGTAACTTATCGAGAAAGACTAAAAGAAGATAGATATTCAAGAAATGTTACAAGAAAATTAAAAAAACTAATTGAAAAAGTTAATAAAGAATTATTAGTAAAATATAATGAAAATTTAAATAATATAGATCAAGAAGTAAAAAACTCTAAAAAAATACTCGCTCAATATAATAAATATGTGATTAGCATGTCAATTATTGAGAGTAAAATCATATCAACAGAGCAAAAAGAGGAAAAAAACAAAAAAAGATTATATAAAAAAGCTGTATCTTTAATAAAATCTAAAAATACTTCACCAGAATTTTTAGAAACACGAAAAGATTTTATAAAAAAATATAATGAATACAATTTGGATAATATAAAAAATGAGTTGGATGATAAAAAAAATGATTTAAACAACTCTAATAAAGAAATGTTAGAAAAATACAAAAATGTTGTAGAAAAAATCGTCAACTCATCTTCTAGCTTAGTTTCTGATATATCACAAGATTTAAAAATTATGGATGCAACTACATATGCAAATGGTTATTGAAATGCAATTCATAGTGTTGAAATTGGTTTTGGATATGAAGACTTAAAAAAATATGGTTTATCAAAAGAAACAAAAAGAAAAATAAAAGGAGAAATAAAAAATGTACAAATTTAAAAAAGAAAACTTTTTATGAGGTGGTGCAACTGCAGCAAGTCAAGTTGAAGGTGCATGAAACTTAAATAATAAATCTTTAACTATTTCCGAAATGCGTCCATTTATAAAAAATTTAGATAGAAAAAATATTAAAGATGTATTAGACATATCAAAAGAAAATTATTTAAAATCAATCGAAAATAAAGACAATTTACATTATCCAAAAAGATTTGGTGTTGATTTTTATCATAGATATAAAGAAGATATAAAATTATTTAAAGAATGTCATTTAGGTATTTATAGACTTTCTATGGCATGGGCAAGAATATTTCCAAATGGAGATGATGAAAAACCAAATGAAGCAGGCTTAAAATTTTATAGAGATGTATTTGAAGAATGCAAAAAAAACAATATTAAAATAATGGTTACAATTAATCATTTTGACTTACCATATCCTATTATTGAAAAATATGGAGGATGAGTAAATAAAAAAGTTACTGATCTATATTTAAAATATGCAGTTACTATTTTTAAGGAATTTAAAGATATTGTTGATTATTGATTGCCATTTAATGAAATTAATGTTGCAATATGATCTGGTGTTACTGGATTAGGAATTTTTAGAGAAGATTATAAAAGTAATAAATTATATTTGGAGGCTTGCTATCAGGGATTGCACAATCAGTTTTATGCACAAGCTAAATTTATAGAAGAAGCAAAAAATATTTCTCATGAAGCTAAAATTGGTTGTATGGTTGCAAACTCTACAAACTATCCATTAAACTGCGATCCTAAAAATGTTAGAGAGTGTCAAAGATTACAACAAATACACAGATTTTTCTTTTATGACTTGATGGTTTATGGAAGTTATCCAAGTTACATAAATAGATTTTTTAAGGAAAATAATATAAATTTAGAAATCAAAAAAAATGAAATGGAAACTATAAAAAATAACAAGATCGACTTTATATCATTTAGCTATTATGCGACTGGAACTATTTCATTAGATGAAAGTGATAAAACAGAATCAAATTTAACAATTGCTGGCAAAAATCCTTATTTAAAAGCAACTGACTGAGGTTGACATATTGATTCAATAGGAATAAGAATAACAATTAATGAAATTTGAGACAAATATCATTTACCTATATTTATTTCAGAAAATGGTATTGGTGTTTTAGAAAAACTAAATGAGCAAAATACAATCGAAGATGATTATAGAATTGATTATCTAAAAGAACATATGATTCAAATTGGTGAAGCAATTGAAGATGGTTGTGATGTATTTGGATACACTATGTGAACTCCAATAGATGTTGTTTCTGCAGGAACAAATGAAATGTCAAAAAGATATGGAATGATTTATGTTGATTATGATGACTTTCATAACGGAACTGGAAATAGATATTTAAAAAAATCTTATCACTGATTTAAAAAATTTAGAGAAACAAATTTACTTTAAAAAAATAGTTTTATATTTTATAACTAATGAGAAAAATAATTATTATTGAATTGTAAAATAAATTTTACTGCTCAACATAATTATTTTTTTATTTAAAATATAATAAATATAAAGACAAGAATATGTATGTAGTGATTTAGCCAATAGATTTGAATCAAACTTGAATAAAAAATTAAAAAATTTCAACAAAGAAATCTGAGATTGAATAAAAATTTTAATAGAAACTTATCTAAATTATACGATTTTTATTATGAAGTAATAAAGTTAATTGGAGTAGAAAACTTTAATGTAAAAATTACTGATATAGAAATATTAGAAAAATGTCTCTATAAATTAAATTTACATATTAATAGAGTTGATAATTAAAGTGTTGAGTTTTACTTCAGAAAATAAGAATGGACTTCTCAAAGTATTTTGAAAAAAATAATAGTAGTGAGAAAAGTATATTCTTTTATAATCTTTGTATCGTTTTAGATTTTTTTGTTTATATAAATACAACTGAGTTATGTTTAAATTTTTAAAAAAATAGAGTTGAGATTTTTAGAAGACATCAAAACATCTTTTTATATAATAACAACAAATTATATAAATTATGCTGATGCCCTATATTATATATGAAAAAAATATAAAGGAATTTATACAACAAAAATAAATGTATGTAAAGTTCATGGTGAATTTCAAACTGAAATAGATTTTTTGCAAATATTCAAATAAATTTAAAAACAAAAAAAATCTTGACCTGCATTTGAATATATATGTATACAAGAAAAGCTTGACAAATCCAATACAATAAATTTTTTATTTTTGGTTTAAATATGATAAAGGACAAAACTTAATTTTAAATATAATTAAAGTTGCATGTGTAACAAATGTTATTAATTTATATAAATTTTTTAAATAACTAAAGAGATAAATTATAAAGGATTTTAATTATTTAAAAATGCAGAATAATGAAGTTAAAGACTTATTTTGCTCTTTAGATAAGCTGAAAAATAAAAGTATAAATAAATATGGTCTAGATATAGAAAGTTTTATGTATGATAAATTAACAACCCTTTAAAATAAACTTTCATAATAATACAAATAAAAAAATCGACGTAATTTTAAAACCGTTTTTAAAAATTCAAATAAGAATTATTTAAAAAAATGTTTATATGAAATTTAAAAACCTGATTAATTTAACTTATAATTAAAATATAAAAGGAAGTATAAATTATGAAGTGATGATTTTCAGATTATGATGGAACAATTAATTTACAACATGATGATTCAATTGATCCAAGAGATTTAGATTTTATTAACAGATGAATTAAAAACAATAATGCATTTGCAATAGCAACAGGAAGAATGGTAAGCGAAGTCCAAGAAGTTTTAGCAAAAAATAATGTACCATACAATTATATTATTTGTAACAATGGTGCAATGGTTTATGAAAAAGATAAAGGTGTAATTGTAGAAACTCCAATTCCACTTGAGTATCGAAAAGATATTATAGAGGTTTTAGATAAACTAAGAGATAAATATATTTTAGGATACTGCTTATTAGATCAAAGAAAAGATTATGCAAAACCTTATTTGGAAGAAATTGATAGTAATCCATTCTTATCTAAGTATGCTCCTAAAAAAAATAATTATGAAATAGGTAAAAAAGATATTTTAGAAAATAAAGATGTAAATTTAATTTATGTGTATGTAAATAAAGATGAAGCAATTGAAATGAGAACTTTTTTAGAAAAACAATTACCTTTTTTAAAAGTAGTAAGAACTCATATTAATGTTATTGAAATAATGCAAAAAGATGTTTCAAAAGCACATGGAATTTTAGAAATACAAAAACTAAAAGGTTTCAAAATGGAAGATGTTATTACAAGTGGTGATGGAGAAAATGATATTGAAATGCTTGCTTTAACTAAAAACTCATTTACAATGAAACACCATCAACCTGGTGTAAGAGAACATGCTGAATATGAAATAAATAATGTTTTTGAAATCGAAGACATTTTAAATTTTGATTTAACTTAATTTTATTTATATTTAATAAGAAACTACTAATTACTAATATTTTCATAAATAATATATAATAATTTAGGAAAAGGAGAAATATAATGAAGAAATTGTTAATTATTTTAGGAGCAATGGGATTAGTTGCTACATCATCAAGTGTTGCAATCGCATGTAACAAAGAAAATAATAGTAGTGAAAAAACTGATTTATCTACATTGCCAATAAAAGAATTAGGAACTATTAATGGTGCCGAAGACAAACCTACATTAGAAGACCTTGTAAAAGCTATTAATAATGTAAACAGTAATTACAATTTAAGCATTGGAGAAGTTTCTTATGACGGACAACCAACTTTATCAAAAGCAAGATTAAAAGCAAGTACAAATGCAAAAAAATTTAAAGGTACTGTGGATATAACATATACTTTTAAAAAAGAAGAAAGTCAAACACCAGGAAGTACAGTTGAAAATTTAACTTATGCTCAAAGTAAATCAAAAGTTGATGTTATTAATTTATTTAAAAATGAAAATTATAACTTGATTAATGATCAAAATAAATGAACAAAAAATTATGCAGATACAGAAGCTAGCAAAATTGAAGATGATAATAATATTTTAAATTATGGAGCTTATCAGGGAAGCTTAATCGATTCAGAAAAAATAACAGAAGAAAATAAAACTAGAGAAAATGAACACAATGTATTTAATGAAATAAAAGTATTTTTTAATCAATCTAAAGATTTAAATCACTTAAATCAAGACGCTAAACAAGCGTATATCTTTACAGCAAAAGCAAATGCAGAAGATTCTAAGTTTATTATTTTTCTTATTGAAGCAAAATGAACAGTTGAAAATGAAAAAAGCAAAACAACAACTAATTTTGTTTTTACAACTTTAAATCAATTAGAAATAATAATAAGTTAATATTTAAAGTAAAAGTAGTTTTAAGAAAAACTTAATATAAAAAAAAACAAAGAATAGACAAACTTAAAGAGACCAAAAATATCTTATGATATTTGGTTTCTTTTTTATTATATAAATAATTTTGTAAATTATTTCTTTTAATAATAAATTCATCAAACAATTATTTAAACTCTATAATGCTTTTAAATTCACTTCCATATTCTGCAAAAAAACAATCTTTGTATCAGCCATTTAAAGCTTCTTTTGGTGCATTATGTTTAAATCCAGCTTTAGATATTGATAAAACTAAATTTGAACATGAACTAATTACATCTTTTACTGCATATGATGCATTTGCAGTTCCTCTATCAGTTTGAAGTATTGTAAAATCTACTTTGTATTTGGTTATAACTTTTATTACTTCTTAATTGTTTTTGCAACAAATTTTGAGTTTTCACTTGAAGAAAAATTATAAGCAATCATATCTCTGTTATATCAATTATATGCAAACTCACCAAGTAATTTAACTTTTTACCTTTAATTATAAGGTCTAAATATGAACCATCTATTCCAACTTTTTGTAAATTATATTGAGTACTAAAATCTTTTTAATTAAATCCGGCACGACATTACCTCTTTAAAGATTTTGTCTTTTATGTTCTCTATTAATTTTTGCTAAATTTACTAACTTGTTATTTGTAATTCATTTATTATCTTATAACTAATATTAACTTTAAACTCATCATTTATTCAAGAACTAACTTTTCTAGAAACAGATGAACCATTTTTTTCTGTAAACTTATTTATTAAATCAATTGTTTGATCATTATATTTTCTTTTTAATTATATTGTTTTATTCTTTAAAAGTTCTTCTTTATTTTTATTTTTTCATTTAGCATAATTAGAAAAATTGACAAATAGAGCTTCACATTTATCTTTCATATTTAGATCACTAGACTCATCAAAATAAATCACATTATATGCATTGTTTTTTTCATGCCTTCTTACTTGTTTGTATCTTCATTTGAGTTTTCGATAAATTCATGCAAGAAGGCATGCGCTTTTCCAAAAACTCAATTTTTGCCTTATCTTTTAACTTTTCTTTTTTAAGTTTGTTTAATTCTTTTTCAAGTTTCTTATTTTCATCTTTAAGCAATTTATTTTCAATGTCTTTTTTCATATAAATATTAACCTCACAAAGCGAATAATTTAATTCGCTTTCTAATTCATTAATATTATATCTTTTTATTAATTGTTTTATTTGAACTTGACCACTTTTTAAGTTTAATTCTTCAAAGATTTTTGAAGTTTTTTCTCCAGCTAAAAACTTCTTAATAGCAATTAATTTTATCTTTTATCTATTACTTTTGGCATATAAAAACAACCTTTCTATAGAAACTTATTATTTAAATTTTTTTAAATAATCGGTCTGTTTAAGGTTATCTATTTTCAATATAGGAAATATTGTTTTTTTATTTATGAAATTATAATTAAATAGATTCTTAAAAAAAGGTAAAAAAAGTATGAGCAAAATTTTCAAAAAATATAGAAAGTTATTTATAAAAACTTGAGTAGAAACAATTGGTACAATTTTGTTTTTAGTAATTTTTACTATGATTGTATTTGGGATTTTAGCAACACCGTTACAATTAACTTTAAAAGCAAGTTATTTATTAAAAAATACAAATAGTTAAAATAATCAAATGCAACATAATTTTAATTACGACAATAATTTTTAAATAAAGTTATTTTAAAATGTGTTGATTGTAAGCGATTATGTCACAAAAAACAATATATTAATATATGCTTCTTGTATTTCTTCTTTTCTTATTAAAGAAGTATCAATTACTATATTTTCATGAACTTTCAATTTTTGGTGGTTTAATAGACTCTAGTTCTTCTTTTTTAATTGTATATTTATTACCGTGAAGCCTATTTCATCTATTTCTATTAAGTTATATACATCATTACCAATTGAAGAATAATATTTTTATCCTGAGTTTTCATAACCATAACTTTTGTTTTTGGTTTTAAATACAGCGGCTCATACCCTGAACAAACAAACCATTTTTTATTATCATAATCAATACTTGAACCTTTATTGACGATTCTTGTTGTTCTATATGAAAAAACAATATTTGGATTTTCTGTAAATTTTCTTACAACTGATTTACAATTATCAATAGGAGTTGAATATTTTTTATTATATTCTTTAATCAGTGTAGGTAAATAATCATTTAACTCTTCAATTGTTTTAATATTTTTGATTCGAATTCTTTGAGGCCATCTTCTTTGAAGGGTGCCAAAAGTTCTCTCAACCAAAGCTTTTTCTTGTGGTATAGAGGTAGTTTTTGTTGATACTTTTAAAGAATGAAAAATAAATTGCAATTGAGTACGAGACTCTGAATACCCTTCAGAGTCTCTATTTATTTTAGAGCTAAATACATTTCGATTGTCAGTTACATTCTTAATAGGAATGCCATAATTTACAAATGTTTCTTTATAAACACGATAATAACTCTCTGTTGTTTCTTGCTCGCTAAAATGTCCTGCTAAAATTCTTTTTGTTGACTTATCAATTACAATGTGTAAATGACTTTTTACTCCCTTAATCCACTCGTGATTTGAAGCATCTGCTTCAAAAATTGCCCCAAAGTTTGTTTCTCTTTTTTGGGTTGGGTGAGGGTGTTTTAATAATGGAATTTTATTTTTGATTATAACTAATGGGTCTAAATCATTGTTTAATCGATTTGTTCTTAATCTAATTTCTTTTTTGGTTTTTTTATGCATACTAAAAACTAACTCATTATTTTCTTTCATTATATTTCTTAATGAAGAATAGCTAATTTTATCTTTTCAACAATTTTCTCAATAATCTAACATACTAAAATCATAATATTTTAATTTATAAAAACTAATTATTTTTTCTTTAATATCATGATCTATTTTATTTCTTGGGATTTTCCCAGTGTTTTTATGAATAAAAGCTTTTGGTCCAATTTTTTTATACTCTTTTAACTTTCTATATGTGTGTCTTTTTGATCAACCAAGAGTTTCTGCGCTTGTGTTTATGTCATGTAGTTTATTAGATAAACCTTTTATAACCTCTAATTTAACTTGTTTCATTATGTCTAATTCAATTCCTCTCATAATTTTGCCTCCAAGTATATTGTACTTGTGACATAATCGCTTGTTAATTGTTTGTGACATAATCGCTTGTTATTCATATAATTTACTATTTACTTTTTATAAAGTATTAAAATTTATGATATTATATATATGCTATTCGTACCAAAGAAAGTAACTGGGATTTATCCCTTAATTTGTTACCGAGGAATGAAATTACAGATACAAACTATTTTTATTTTTAAAAATAGTTATTTAGTGTATTTTTTAATTAACCTCGGAAATAATTATTTTCGAGGTTTTATTTTGATCAAAAAAATAGTAAAAGGAGGTAGTATTAGTGTCAAACGCAAGACCAGCACATGCTAAAAAGAATGAAATTGTAAAAGATATTGCTAATCGTATTAAAAATTGTAAAGGAATGGCAATAGCAGAATACAAAAACTTATCAGTTGCTCAAATGACTGATTTAAGAAACAAAGCTCGTGAACAAGGTATTTTTATTAAAGTTTATAAAGATTCATTAGTTACAAGAGCAGTACAAGAACTAAAAATTTCAGGATTAGAACCATATTTAACTGAACAAAATGTTTACATTTTCTCTGATGAAGAAGCTCTATATCCTGCAAAATTAGTTGATAACTTTGCAAAAATCAATAAAGATTTAAAATTAAAAGCGGGAATTTATGAAGGAAATGTATTAGATACAGCAGCAATCAATGAAATTGCTTCTCTTCCATCAAAAGAAGAACTATACTCAATGTTTGCTTCATCTCTTATCTACCCATTACGTCAATTTATGTTGACAGTAAAAGAAATTGCAAAAACAAGATCAGAATAGTTTAAATTAAAGTGTACTAATAGCAACTTAATAAATTAAATGAAAAGGAGAACCAAATTATGGCAGTTACAAAAGACGATATTATTAAAGCTTTAGAAGAAATGAAATTAACTGAATTAAATGAATTAGTTAAAGCTATCGAAGATCACTTCGGAGTTGTTGCAGCAGCAGCAGTTGCAGCACCAGCAGCAGGGGGAGCAGCAGATGCAGCACCAACTGAAGTTAATGTATTATTAACAAATCCAGGAGGAAACAAAGTTGCAGTTATTAAAATTGTAAAAGAAATTACTGGATTAGGATTAATGGATGCTAAAAAATTAGTTGATGGAACATTACCAGCAACTATTAAAGAAAACGTAAAAGTTGAAGAAGCAGAAAACATGAAAAAACAATTAATGGAAGCTGGAGCTTCAGTAGATTTAAAATAATTTATCTAAAAATTAAATCACTTTATAAAAAGTGATTTTTTATTTGTTAAAATTACTTATAAGGGGTGGTTTGATTGGAAGTTTTAAAAAAAGAATACCTAAAAAATATTGACTTAAATGATTGTTTCTTTGATTCATTAAAAAATGATTATGGAACTAACGATTTTGTATCTTGATTTCAAAAAAAGCATCAGAAAACTATGAAGCATTTTTAAAATACGATGAAAATAATAAAATTAAAGCTTTCTTAATGCTACAAATAAAAGATGAACCAGAAAATGACATTTTACCAATTCAACCTAATAAAAAAAGAATAAAAATATCTACTTTCAAAATAGATGATGACTTTAAATCTCTAATATTATCAGAAGCTATTATAAATATCATTTTTTCGGAAATGGATAAAGAAAAAATATATGAATGTTATGTAACAATGTATAAAGACAAGCAAAAGGCTCTTCTTAATGTATTATTTTCATGAGGTTTTTTAGAAGTTGGAACTAAAAATAATGAAATAGTTATGGTCAAAATGAAAAACACAGATCTTAATGACGTGAAAAAAAATTATAAATGATATTTTAATTAAGAAAATCTGAATAATATAAAAGATGTAAACTTTTTTTAATTCCTTTAGAACCAGAATATCATGATAAATTATTTCCAGAAAATCATTTAGCAAAAACACAAAACACAGCAAAAGCATTTGATATTTCTTCAATTAGCATAAGCAAAACATATTTATCAAAAATTAATTATAATAAATTACCTAAAAGAGGAGATTTTCTTTTAGAATACAGAATGAGCAAGGAGCAAAAGTTCTTTAAATCAGCTGTTACAGGAATTGGTATTGTTAGTGAAGTTATTTATGATAAAAACTTATCATTTAAAAATTGAAAAAAACACGTCGGAAACACCTCTGTTTTTACAGATGAAGAACTGGAATTACAGTTTAAAATGGGTAGAAATAAAATTATTAAATTTTTTCATATTTTTGCATTTGGAGAAGGCAAAAATATAAATCTCAAAGCTTTATATGATTTAAATATATGACCAGATAATTTTTATTTACCAGCATATCCAATTAATGATAAAGAACTAGTTTTAAATTTAATTTTAGAAAGGTGAAAATAAATGAAACTTTTAATATCTATACACAACGAACACATTGAAAATATAAAAAAAGGTCACAAAAAATTTGAATTTAGAAAAGTTATTGGAAGACAGTTTAATGAAAATGAAATTTATTTTTATGCAACTTATCCAACTTCAAAAGTAGTAGGAGTTGCAAAAATAAAAAAAGTACATATTGATAAACCTAGCGTAATATGAGATATAGCCAAGAATTTCTCGGGAGTTGATAAAGAATTTTATTATAGTTATTATCATAATAAAAAATTGCAGTAGCCTATGAAATAGAAGAATATATTAGTTTCAAAAAACCACTGGATTTACAACACTTTGGCATAAAAAATGCACCTCAATCATTTGTATATATTAAATAATATATTTTATAAAAAATAATTTTTTTATAAAATCAAAAAAGGTAACAAAATATGGAAAGTAAGAAAATATATTCATACTTAGAAAATAAAATATTAAGTAATGAATTAAAAAAAGATGACAAACTACAATCAGAAAATCAACTTTGCGTTAAGTTTAATGTATCAAGAAATTTAATAAGAGATGTTTATAACGACTTAATAATAGATGGTTATATTCATAGCCAAAAAGGTAAAGGTTATTTTGTAAATGATAAAAAATTTTGAATGAAAAACTTAAACCCACAAAAAAAGTTTCCTGAGTATGAATGCGAAAATAAGTTATTAGATTTCAAAATAGATTTACCGAATTGATTTTTAGAAAACTATAATTTAGAAAGTAAAAATTTTCAATGTTATACAAAAGCTAGATATTTAAATAATAAAGAATTGTGTTTAACTTACATATTTTTAAATTTAAATTTAATACCTAATCCTAACGAAAAAGAAATAGAAAATTCTGTTATAAGTTATTTGAGCAAAAGATATGATTTTAGTAAATCATATAACTTTATTAAAATACAAAAAGCAGATCAAAAAGATAAAGAATATTTTGGTTTAAATGATAATAGTTATGTTGTTTGTGAGTACTCAATAATTTTTAATAGCGATGAAACTATATTACAATGCTCACTTGATAAAAGTAGAATAGAAGATTTTAACTTTGGTTATATAGCTAGAGTTGTATAAATAACTTGTCCTTACAAGTTATTTTTATTTTTATAAGAAATATAATTTTAATGAGGTGATAATAATGTCTTTAAAAGATAATATAAATAAAGAAATGTTTCGTTATAGTTATATTGAAAAAGAAAATATTTTTACAGTTAATGCTAATTATGCAATTGCCTTAAGAGTATCTGATATTTGAGAAGAAGGTTTGAATTTAATATTAGAAGTTACTTTTAATAATTTTCAAAAAGCTTATTTATCATTTGGTGAATTTGAAAATAGTATTATAAATATTAAGTTCTGACAAAAACAGCTGAACAAAAACAGATATAATGAGCAATTTAAAAAACATTTAAAACAAGAAAAATTAAATTATAAAAACAACTCAGAAAATATAGAAATTACATTAAAAAATAAAGAAAGATTAGTGATAGAAAAAAAACAGTTTAGAATTTTATTAATTGATGTAAATGGAAAAATAAAAACCCAAACTTCAGTAAGACCAGGTTGAGATAACTTAGAAGGATTTTGTTCTCCTGGATTAGGATATAAAATTAAAGAAAAAGTACAATTGCCATTCTTAACTTTACAATTAGCTAGTGAAGAACTACTTTATGGTTTGGGAGAAAAGTTTAATAACTTTGTTAAAAATGGGACTCAATCTGTAATTTATAATTTAGATAATCAAGCAGTATCAAATGGAGATCTTGGCTATGGTGGGGTTCCACTAGTTTATTCAAATCAAAATTGAGCTATGTTGGTTAATACAGGATATAAAACAGAATGAGAAGTTGGATCGCCAATAACCGAATCATTATCTGTACTATCTTACGAAGAGTGTTTTGATATTCTTTTATTTACAAGTGACTCTATAAAAAATTTAGTTTCACTTTATACAGAATTTACCGGAAGAATAACAGGAGTACCTGATGAAGCATACGGTATTTGATTAAATCGTTTGTACTATCATAATAAAAATGAGCTATTTACTGAAATAAATAATGCAGAAAAATTTAATTATCCAGTTGATGTTTTTACTTTAGATCCAAAATGAATAAAAAATCGTTATACAAAAACTTGTAACTTTGAATTTAATGAAGAACAATTTGGAAACTTAAAAGAGTTACTTGATGAAGTTCATAAAAAAAATGCTAAGATGTGTTTTTGAATTAATCCATATATTCAAATTGATAACTCATCAACTTGAAAAGAAATAGAAGCTAATAAATTTTATACTAAACGTGTTGATGGTGGTGTTGCTCATATTTGAAGTGGTTTATGTAACTATCAAGAAAATGCAACTGCAATTGATTTAACAAATCCAGACGCTGTAGTTTATTGAAAAAATAAAATTAAAGATTTACTAATTAGTGGATTAGATTTTATAAAAACTGATTATGGAGATAGTATTGATGAAAAAGCATTAATGTACAATGGGGAGTTAGGAAAAAACTTTAGAAATGCCTATATTGAATTATATTTAAGATATGCATACGAAGCAACTCAAGAAGTTCATGGAAAAGATAAAGGTTTTGTTTTATCAAGACCTGGTTATATTGGAACAAATAAATATGTTGGTAAATGAGCAGGAGATTCAGCATCAAGTTTTAATGAGTTAAAAATGCAAATGTGATCTGGATTATCAAATTCATTGTGTGGAACAGTAATGTGAGGAACAGATATTGGAGGTTTTTTAGATATTAATGTTAAAGAAAAAGATTTATATGCAAGATGATCACAATTTGGTTTGTTAACTCCATTTTCTAGATACCATGGAGTTGGAGCGAGAGAGCCTTGATATTTTGGAGAAAAAGATTTAGAAATATCAAGAAATTATGCAATTTTAAAAAGAAGATTATTACCATATTATAAAGTTTATGAAAAACAATCAATTGAAAAAGGTTTACCAATTATTAGACCATTAGTTTTAGAATTTCAAAATGATAGTATCGCTTCAAAAGTAGACAATCAATTTATGCTTGGACAAAAAATAATGATAGCTCCAATCTTAAGTGATCAAAAATATAAAAGACAAGTTTATTTTCCAGAAGGACAATGAGTTAGCTTCTTTGATAAAAAACAAATTTACGAAGGAAATAAGTTATATGAAATTGATTGTCCAATTGAAAATACTTTAATATTTGTAAAGCAAAATAGTGTAATACCATTAATGAAATCAGGAAATTATAAATTTAATAAAATTGAAAGTGAAAAGATAGTTTTGAATATTTATGGTGAAGTAAATGATGAGACTTTAGAATTTAGAATTAATAATAAAGATTACAAAGTAGTTGTAAAAAATAATAACATAGAAAAAAATGATAAATTTGAAATCTTATAGGAGGTAATATGAAAAATAAACAATCAATAAAAATATATGCTCCTGTAGATTGTTTTGTTAATGATATTAAAGAACTAAATGATGGAGTATTTAGTGAAGGTATGCTTGGGATAGGAATTTATTTTAATCCAAAAAATAATAATTTATATGCTCCTGTCGAAGGAAAATGTGTGCAAGTGTTTAACACAAAACATGCTATTCACTTTGAAGATTTAAATGGTAATATTTTATTAATGCATATTGGTATTGACTCAGTTCAATTAAATGGAGAAGGATTTGATATAAAAGTTAATCCAGGTCAAGTAGTTGGTTTAAAGAATGAAGTTGCAACTGTAGACTTCAAACTATTCGAACAAAAAAACATAATTAAATCGACTCCAATAGTAATTGAAACAGATAACAATTTTGAATATGAATTTAAAAATTTCAAACCTGGAGATTATAAAAAAGGAGACTTGATTTTAGAAATAGAAAAAACTTTAATTGAAAATAAAGCTTCTGAAAATAAAGTTCAAAAAGATGATGCAGGAAAAGTTATGCCAATTATTTTTAAAGATAAATGGGAACAACTTTCTGAAGAACTTCTAAAAGGTGTAAGTGGAAAAGATAATGTTACAAATGTAAACAACTGTAATACAAGATTAAGATTACAGATTAAAAATATGGATAAACTTAGTCTTGATACAGTTAAACAAAATAGAAATGTTAAAGGTATCAATATAAAAGGTAATGAGCTTCAAATAATTATTGGTCCTGATGCTTATAAACTTAAAGAAGTATTTAATGATTATGCTGCAAGATCAATGATTAACAAAAATGCAAAAAAAGTTAAAGAAACATTTAAATCTAAATTAGTAAAAGTTATAAATGGGATTTTAATACCAGTTGTACCAATAATTTGTGCTGCATCATTTATAACATTGGTTAAAACAATTTTTGAAACAACTCATGTAATTGATCAAGTGTCATTAGACTATAGTCATGGAGCTTTAAGTGTTTTAACTGATTATGATTTAGTTACAGGATTATTTTTCATCCTAAGTCAAACAGCTTGAGCTTTTGTAGGAATATATTTTAGTTATTCCACAGTTAAGTTTTTAAAAGGTAATACAATAATGGGAATCCTTTTAGGATTAACATTAGTTTCACCATTTTTATTTAGTGGATTGAAATGAGATTTATTTACAATTGGAACTTGAACGTTTAGTGTGTCTGCATATCCTTCTTCAATACTTCCTCATATTTTTGTTGGAGTTGTATATGTTTATTTTGATAGATGATGTAGAAAGTGAATACCTACTTGTGTCGATTTAATTTTTAGACACTCAATTAGTTATGCAGTATCAATACTAAGTGTATTTTTAATTGCAGGTCCTTTATTAGCGTTATTAGAAAGTGGCTTATACTTTGTAATAATTGATGGATTAACAAAAATTCCATTTGGAATTGGAACTGCTTTGTTTGGATTTTTATGACAACCACTTGTTTTAACTGGTATGCATACTGCCTTTTATGTACCAATAAATAATATGATTGGAAATGGTATACCATTAGTTTTAGGAACAGTTAAAGAAGCTGGATCATTAGGACAATTTGGTGCTTGTGTTGCAGTTATATTTGCAACAAAAGGATCTGCTACAAAACAAATTGCAGTATCATCTTCACCACCGGCCTTACTCGGGATTACCGAACCAGCCATATATGGATGTAACCTTGTTAAAGTTATTCCGTTTATTGCAGGATGCATAGGTTCTGGTTTAGGTGGATTGTATTTTGGTTTAACAGATTGTAAATTATATGCAATAGGTAATGGAGTCTTATCATCTATTGGAACATTAAAAGGTGGGACAATGAACTTTGTTAACTGTTGGATCGGATATGTAATCACAATGGCTTCAGCATTCTTAATAACATTCTTCTTCTATAAAGAAAGAATAGATGAGAAAAATGGTATTCAAAGATTATATAAAAAAGTAATTAGAACTTTTGAATTAAAAGAAAATAAAAAATTAAATAATTTATATTATATAAATAAGTTTAAAGAAATTTACAACAAAGAAGCAAAACTTAAAATTAAAAAACTTGAAAAATTTTTATATAAAAAAGGTCTTATTGAAAATAAAATAACTAGTTTAATTGTTAAAGAAGACAATTTAAAACAAAAATATTCAAAACTTGCAAGTAAATATTATGAAAAAAATATGGAAGACAAAGTTGTGAAATATAATGATCTAATTTTAAATACTAAAATAGATAAAGATAAATATAATGGAAAACTTAATGTTTTTGTTAAAGAAATTTTAGAATTAAATACAGACTATAACAAAATAAGTATTAAAGCAAAAGAATTAACAGATTCATTTGTAGAAGGCGTAGTAAAAGAATTAAAAAATGAAAATCTTAAAGTGTTGAAAAATAACTTTAACCAAATAATAATGTCGTTAGAAAATAATGCTTTAAATGTGCCAAAACAAGAAGAACTTTTATTTAACTTTAAAGAGTTTGTAAAAAATAAAAAACTTGAAAAAAAAACAATAATATCTAAATAAACTAAAAATCTATATATGAAAATATATAGATTTTTTAAGTTTAATTATAAGCAATAGTAAATTTATATTTTATTGAATTGAAAGGATGATAAAATGAAAAAATACTTATTTTATTAGGATCATTTGGTCTAATATCTTCTACTTCAAGTATTATTTATGCATGTAAAGATACAAACTTTAACTTTGGGCCAAATTTTCAAAACTTAAGAATAGCCGCATAAGAAACTAAAGAAATAGAATTAACTTTACCTATAGAAAAAGGAAGTTAATTTTCAACACTGGAAGTAAAATCAAAAGATGAATCAATTGCAAAAGTAAGGGATTTTAAATGAGATACAATTAATTTTAGTAAATATACATTTAATATAACTGGAATAAAAGAAGGTTATACAACAATAACTGCTAACTATCTAAATAGATATTCAAAAACAATTCAAGTCAAAGTTACCGGACCAATTAACCAAGGATTATAATATTAAAATCACTAAGATATTTTTTAATACTCATCAAAAAAAATTATAAAGAAGAAATTCTGTATTTTAAAATAATGATAGATTTTTTTGTTTGAGCATATAATAAGTGTGAAAATACAATATGTATTTTTAGTGAAATGCATGATAAAGTGAAGAAATTATTAGGATTATTAGGAGCAATGGGATTAGTTGCTACATCGGGTAGTGTTGTTGTTTCATGCGGCAATTCAGCACAAGCAGATTTTGGTAAAGAATTTAAAGATATATCAATTGCAGTGGGAGAAGTTAAAGAAATAAATATTACAATTCCTACAACAGATTCAGAAAGTTTAAAAACTTTTGAAATAAAATCAAAAGATGAGACAATTGCAAAAATAAGTGAATCAAAAAAAGACGATAAAAGTCCAGAAAATATATTTAATTAAAGTTGTTGGAGTTAAAGAAGGTTTAACAAAAATTACTGCAAAATACGATAAAGGATCTAAAGACATAAATGTTACAGTTAATGAGGCAGTTGAAGAAGAAATAAAAGATTTATGCTCAGTTGATGGTAGTGTTGTTTTATATACAGATGGCGATGAAAGTGAAGAACTTGCAAAACCAATAGCTATAGCTGAAATTAATAAACAATTAAAACCAACTGTTGCATATGTAGAATCTGATTTTAGTTTTGAATATGTAGGTAAAACAAGTGCAACTAATGCAAAACTTAGAGTTAAACCTGCTGAAAATAGCAAGAAGTTAAAAGGTGATGTAATGTTTGATATCAAAAAAGAAACTAGAACAGATTTATCAACTATTTTTCCAGATAATAAATTAGAAGTAACAGCTGTTAAAATAGAATATGTCAGAGCTGAAATACAAACACAAATTAGAACAAAAGTAAATGGTGCAACTGTAGTAACTGATTTTGATACAAAAGATTATGTTGAACCTGCAAGTGATAAAAATAAAAATGGAAGTATAACTATATTTGCTGCAAAAAATAGTGATAAACTTAAAAGTTTAGTTACTTTAGAAGTAGTATGAAAATCATCAAGTAAGTAAACAAAGTTATATTTATTAAAAAATGTTTCATTTATGAAACATTTTTCAATTTTTTATATAAAAAATTTATTATATATATAGGAGTTTAATAATGGCAAAGTCAAATAAAATTAATTTTTTAAAACCTTATATTACAAATGAAGGAATAGAAGTAGGTGATTATACTTATTTTTATTCCTTTAATGGCGAACAAGGATTAAAAGAATTTCAAAATAAAAACGTTTTATATCATTTTTATAAAATTTCAAATAATAAATTAATTATAGGAAAGTTTTGTGCGATTGCAGATGAGGTTAAGTTTATAATGAGTGGTGCAAATCATAGAATTAATTCTTTATCAACTTTTCCATTTGAAATGTTCGATGAATTTAATGATGAACACGATTTAATATGTGCTAATCCTGTATTTAAAGGAGACACAGTTGTGGGAAATGATGTTTGAATTGGGTATGGTGCAACTATTTTACCTGGAATAAAAATTGGAAATGGAGCAATAATTGGTGCAAAAACTGTTGTATCAAAAGATGTTGATCCTTATACAGTTGTTGCTGGAAATCCTTGCAAAGTAATAAAAACAAGGTTTGATAATGAAACTATTAAAAAACTACAAGACTTAAAATGATGAGATAAATCTGAAAAAGAAATAAAAAAATTAATTCCCCTATTGACAGATTCTAACAATAACTTATAATTTTTTGTATTGAACAAAATTTTATAAGTTTTGTTTTTGTGTATCAATCTTAACAATCAATAAAAATTTTAAGAGGTAATTTATGAATATAACACAAGAGCAAGAAGATATTATTAATAATATTTTAACTAAAAACATTATTGTAGAAGCGGTGGCTGGAAGCGGAAAAACAACAACAGCACTTGAAATGGCAAAAAGATATTTAGATAAAAAGTTTTTATTAGTAACATATAACAAAGATTTAAAACAAGATACAAGAGAAAAAGTAGTTAAACAAAATTTAAATAATATAATTGTTGAAAATTATCATTCAATTACAATGAAATATTATGGAATAAGAAATGCAGCAAATGATGATGCAGTTTTAGATGTAATTGAAAATGATTTAGCTTTAGCTTATGATTTTATTCCTGATGTATTAATATTAGATGAAGTTCAGGATATGAATATTAGTTTTTATAAGCTAATAAAAAAATTATTAAGAGATTTAAATAATGAACAAATATCAATTTGTGTTTTAGGAGATCGAAAACAAACTTTATATAGATTTATGAAATCTGACTATCGATATTTAGAATTAGCAGATGAAATTTTTACTTACTCTAAAAAGGAATGAATTAGATTAAAGCTTACAGAAAGTTTTAGAGTACCAAATAAAGTTTGTGATTTTTTAAACAAATGTTTTTATAAAACAGAGTTTATTAAAAGTAATAATATCAATAATGTGCCTATTGATTATTTGATTTATGATCCTTATAACATTGATCAAGTAAGCAATATTATTTTAAATAATATTGAAATATACGGAATTAAAAACACATTTTTATTAGCAAATAGTTTACAAACAAACTCAAATATCAATCCACTAAATAATATTTTAAATTCTGTAAATGATAAATTTGCTTTATTTTTAAAAGAAAAAGATATAAAAACAAATGATAAAAATTTAAAAAAGAATAAATTAGAAATTACAACAATTAACTCAACTAAAGGTAGAGAAAAAGATTTAGTTATAGTTTATGGATTTGATGAGTTTTATTTTAAAGCTTATGCAAAAGATGAAAATAATAAAATACCTAGTGATAAATTTTATGTAGCAATCACAAGAGCAAAACAAAAAGTTATACTTTTAAATACAGCATGAAGTGCACCATTATGCTTTTTAGATAAGTATGACATATTAAATACTTGTAATGTAGTTGGAGATTTTGAAGCATTAAATAAAAAATGTGAATTAGAAAATCGAAAAAAAGATAAAGATATATATTTTGATGTAACTCAATTAATTGAATATTTAGACCCAAGTATTTTGTATAAATTTAAAAAAATTCTTTCAGTAGAAGAATATGAGTTTACAAATAAAGCCAATGTTGATTTTTCAAAAATTCCATTTAGTATTGAATTAAATTTTAAAGACAAATTAATTAAAGAAAATGTTTCAGCAATAAATGGTTCACTAATTACTTATATTCCTTTATATATGAAAACAAATTTTATTGATGCAGTATTTAAATGAATCAATATGATTATTGAAATAAGAAAAGCACAAGATAAAAACTTTCAACTAACTAATGAGATAAATAATATAAATGATATTTTTAAAAAAGGTAACTTATCTATACAAGACTTAACACATATTGCATGTATTATTGAAACTGCAAAATCAGGTAGAAACTACAAATATTTGCAACTAAAAGATTCTAACTTTGATTGATTAAATAAAACTTTTATGGAAGATACTTTAAAAGTAATTGAAGAAATTGATCCAAAAGGAACTATGCTTTTTGAAGAAGACTTAATAATTAATGCAGAAAATAATGATATATTAAAAAAAATTAATAAAGAATTAGGCTTAAATACAATTAATTTATATGGAATTTATGATGGATATAATAGTGAAACAAATGAGTTATGAGAGTTTAAATTAACAAAAAATGTTGATTATGAAATGTTTTTACAAGCTTGTATCTATTCATATATAATTCAACAAAAGAACAAACAAAGTTTAAAAGCTACATATTTGTTTAATTTATATACTTCAAAAATATACTTATTAAAATTTGACATAAAAGAATTTGAAAAGATATTATATGAAATTTTATATTTTAAATGTACAAATGTAGCAGAAAAAAATGATAATCAATTTTTAAAGGAGGTTTTAAATTGTGAATAAACCAAGTTTTATAGTAATAGATTTTGAAACAGCCAATTATAAAAATGAACCATGTCAAGTTGGTATAGTAATTTGCGAAAATGGTGTGATTACAGATAGATATGAGACTTTAATAAGTTTACCAAAGTATAGTTATATTGATTTTAAATATACAATGATTCATAACATTTATGATGAGCAACTAGTAGGACAACCAGGTTTTGTAGAAGTATGTAAAAAAATAAAAGAAAAATTACAAAAAGGATATGTTGTAATTGCTCATAATGCCAAATTTGATATGATGGTTTTAAAAAGAGCTATGCAAAATAATAATATTGAAATGTTTGATTTTGATTATGCATGCAGTGTTGAAATTATTAGAAACTCATTTCCAAAAAGATTTTTAAATCATAAATTATCCACTTTAGCCAATGCATTAAATATAAAGTTTAATCATCATAACGCATTAGCAGATTCAGAAGCAACTTGTGAAGTCTTATTAAAGTGCTTTAATGATCATGAAAGTTTTTTAAATGCATTAAAACATCCAAAATATATTCTTAAAAAGTTTACAACTTATTTTAATAAAAAATGTCACTTTCATAACTAATAATAAGTTTTTACTTATTTTTTTTGTCTTAAAAATAAAGTTTAAGATTTTCCATATAATTTAAAAAATATAGAATTTTTTTTATTTAGTGCTATAATGTAAGCGAAGATAGTGAGTGATTTTTATGAGTAAAGACAACAAAAAATTTGTTTCCATTGATTTAGGAACAGCATATACTCTTGTTTATATACATGGACAAGGTATTGTTTACAATGAAGCTTCAATTATTGCATATAAAGTAAAAGAAAATAAGATTATTGCAGTAGGTAATGATGCTTATAAAATGATTGGAAAAGGAAACAAATCTATTAAAATAGTTAAACCAATGGCAGAAGGTGTTATTTGTGATATAAAAACAACCGTTAGCCAATTGCGATTTATCTTTAAAAAATTGAGAATGGAAGACCAACTAAAAGGATGCACAATGCTATTAGCATGCCCTTCAGTAATTACAGAGCTAGAAAAACAAGCTTTAATTAAAATTGCAAACAGTTTTGGAGCAATTAATGTATTTATTGAAGAAGAAGTGAAAATGGCAGCGCTTGGTGGAGGAGTAAATATCTTTGCACCAACTGGAAAATTGATTGTTGATAGTGGAGGAGGTACTACTGATGTTGCAGTAATAGCCTCTGGAGATATAGTGCTATCCAAATCAATAAAAATTGCAGGAAATTATTTAAATGAAGAAATTAAAAAATTTGTTAGATCTCAATATGGGTTAGAAGTTGGTACAAAAACAGCAGAACTTATAAAAATCAATATTGGTTCATTAGCTAAGTATAGTGACGAAAGACGTATGAAAGTTTATGGACGTGATGTTGTTTCAGGATTACCAAGGGAAGTCGAGTTGAGTCCTGAAGAAGTAAGAGAAGTTTTAAAAGTACCAGTATCAAGAATTATTGATTTAATAGTTCAAGTATTAGAAGATACCCCTCCAGAATTAGCAGGAGATATCTTCTTAAATGGAATTGTGTTATGTGGTGGAGGAGCCTTGATAAGAGGTTTTGATAAATATGTAGCAGATATATTACAATTACCAGCTAAAGTTGGAGAACAACCACTTTTAGCAGTAATAAATGGTACTAAGAAATTTGAAACAAATATATGAGACATGTTATACGAAAGAAAACATGCAACACCTATAATTTAAATAAATGCTAAAAAATACATTAAGGAGTTAATGTATTTTTTATTAGATATAAAATTTTAATAAAATTTTTTGATTATAAAAAATTCCTTTTATATATATTTATTTAAAATTATCTTATAGAAAAAGGAGAGAAATATAGTGAAAAAATTATTAAGTTTATTAGGAGCAGTTGGATTAGTTGCTTCTTCATCAAGTGTTGCTGTTGCATGTAACAAAGGTAACAAAACAGATACTACCAAAACTGACTTATCAGCAATGTCTAAAAAAGACTTGGGAGAATTGCATTTAGCAATTACTAACCCAGCAGTTGATTTGCTTAACTCAGTGCCATCAATTTCAGACATAGTTAACGCAGTAAACGCAGTTAACTCAAATTATGGCTTAAATGATGCTGATGTTGAGTTTGACGGAACTCCAACAGCAACAAAAGCTAAGATAAAAGCTACTTCTACAACTAAAAGTTTTACTGGAAGTGTAGAGTTAACATATACTGCATTAAGAGAATTAAATTTAAATTTAGTTGAAAAATTAGTAAATGGAGAAGGAATAGGAGCTTTACTTCCAACATTTTATGTGGGTGGAATAACTGTGGATGATAATACAAATTCCCAAAAAGTTCAAGAAGCAGTTAGTGCTTATACAAAAGGGTTTTTAGCAACCGCAAAAGCTCTTGCAGAGCAAAATAAGCTAACTTTTAATATTGATGAAAGTAAATTAATTGGTGCATTAGATATAAAAATGTTTAGCGATGATGCTGGTAAAACTGCTTGACAAAGTGGAGATGTTAAAAGTATAACTATTTCTGTAAAATCAGGAAAAGAAAAAGACGTTACAAGTTACTTTTTAAGTGGTAGTGCAACAGTAAAAATTGTAAAACGAGTTGATATAAATACTGTTATTACTGGTGATGAAAACAATAAAAAATTAGAAATCAGCGTTAAAGATGATAAAGAAATTTTATCAAAAATTTTAGAAGCATTATCTACAAAATATACTTCTTATAAAGACACTCCAAAAGTTTGAGGTTTATCTGGATCTTATGGAACAGATGCAAGTCCATTTAAATACGATAGTAATAGTCAAACTGATGGAAAAGTAACTTTACCAGGAACACCAATTGGATGATTTAATGCTCTTTTCACAAGTACTGTAGTTTTAAGCGTTAAAGTAAATAAAATTCAAACTTCTTAAACTATTATTTTAAATACCTATAATGTTAAAATATTATCTAGTTATTTTTTTATTATAATAATTAATATAGATCTATTTCTATTTAGAAAAGGAAAGAATAACGGAACCTAAGTAGACCATTTATTGTAAAATAAATGGTTTTTTATATATTTCAATTATATTTTATATATTGTAAATTATTATAATCTTTTGAAAAGTTTTCAAATAGATTATAAAAGCACTCTTTATTTGCAAATCTATTACCATATGTTGCAAAAAACTTTTGTTTTATTCATCCATTTAAACTTTCGGTAGTGCATTGTGCTTAAATCCCTTTTTTGACATAAATGTATAATATTTTTATTTTTATTAACATAAGTAAAAAATACTTTCATTTGAAAAAGCTAATCCTCTATCTGATTGAATAATTTTTTTTAATTTGTTTTGTATTGCATAATTGTTAATTTTTTGAATTACATATAAAGCAATTACAGAGTTCTCGCTTTGATCAAACTTATAATTAACTATTGTTCTTGTTAATCAATCATAAGAAATTAAACAGCTTAGCTTTGTTATACTTTTTGAGTTATTCAAAAAAATTTTAAAGTTAGTACCATCAATGCCTACAACATTAGGCGTTTTATAATTCATTTCGATTAAATCATTTCTAACATAACTATTGTGTTTCTTAGATTCTTTAAAATAACCAGTTTTATTGACTCTATTTGCTTTTTTTAAAATATTTGATACATCTTTTCTTATTTTTCTAACTAATTTTTCAAATACTCTAATACTTTTATTTATAAAAATTCATTTTCTAATTAAATCAGACCCTGATGCTAGCATGTTATTTGCATCGTTATAGTCTTTTATTATTTCAACAACTCTATCATAAATAGGACTCCTAAAACTAGGTAGATCTTTAAGATCTAAACCTTGATTATACAAATTTATTGGATTTTCTAAATTGTTTTTTTAAATCTTTTGAATGTATTTTTATGTACTTTAAAATATTTAACTAAATAATTTGTACCAATTCCATATTTTGCAATAAATGTATAAATTTGACAGCATGCGAAATGTTTATAGGACTTTGTCGCCATTATCATTATCTAGTCCTTCTTGCCATCCTTAACATGTTCAACATTGTGGTTATTGTGCAAGAAGGAATGGACTTTTCCAAAATTTCTTTGCTCGCTATTGCTAGTAGTTTTTCTATTGCTCAAACTTTAATTTATTTTCTAAGCTTTTTATTTTTTCTTTTAATACTTTATTTTTTAGTTCTTTAGAAATGAACTCTTTTTTTAATTTTTGACTCACTTTATCAATCTCATTGCATAATTTGCTTCTATTATAAGAATAACAAAGTTTATCATTTTTATCTCAAATTCTTATTAGCTGACCCCCAGATATGATATTTAATTCATAAGCTATTTTATCCACTGATTCACCATTTCTAAATCTGTTTAATGCTATTTTTTTAATTTATTCTGTATACTTTTTAGGCATTTTTTCCTTTCTAATATAAAAGACCAGTTTTTTAACTGGTCTAATTAGGTTTTTTTCTGAATATATTCTGAAGAAATTAATTACTTTATTAGAAGCAATGGGTTTGGTTGCTTCAACAAGTGTTATGTCATTAAATACTGTCTCATGTAAAGCTGGTAAATTAAGTTTTATTGATGAAAAAACTAAATCTGATTTAATTAAATATTTAGATGAAGAAAATATATTGCTGATAATAAATGTGAAATAACATTAGAATATTTAAAAGCGTCTATCTTATCAAGATGCTGATTGGATATATTACTACTAGTGCTTGTGAAGGAGCTCCAATAAATAATTATAGTTTATTGGAAAAAATAAAAGCACTGTTTTAACTTTCTAAAGATTTAGAGTTACATAATGCTAATAAAAATGGTTATAATTTTGCATAAAAGGTATTCAGGGAGATAAAAATTTACAATATATTTAATCTAAGTTATACATAAAAATAATATAGCTTCAAATTCTTATGAAACGAATTATAAAACAGTTAACAAGTTAGATGTTTTTATATAATAAATTTTTTAAAAATTATTTATTTTTTTATAATATTTTTTATTAGAAAATTTCGTATTGATTTTGTCTATATAGAAAAAGAAAAAAATATGAATAAATTATTAAGTTTATTTGGAGCATTAGGGATGGTTGCTTCAATGGGATTTGCAGCATCTCAAGTAGTATCATATGGAGTTGGAACTTTAACTTATGTTGAAGGAAAAAAACAAGAAGATTTAGTTTCTGCTTTAACAAAAGCAGAAATAATTGCAGATAACAAATTAGTTAAAGATTGAGAAGATACAAAAAAATCTGAAGGTGAATTATTAGGAGTTAAAATAACATATGGAGCAATGGATGGAACTTTAATTTCAAATGTTGAACTTACATATGAACTTGCTATGTTGTTTAATGAGTTAAAAGATTTAAAAGCAAGTACTGACGAAGCAAAAAACATCTACAGGTTATGCATTTTCATTAAAAGGTGTTAAAGGAGAAAGTATTTTCACTTTATATTTACTTAAACAATTTTCTAAAGCAAAAAGTAGTTCAGTTTCACAAACTAATTCTTCAATGAATAGTTTAAAAATTACATTAGAAGCAGTAGTAGCTTAGTTTTATTAAAAATACTACTTTTAAAGTAGTATTTTTTTATTTTTAATCATGCTTTATTGCTTTATCTTTACTATAACGCGATTTAATAATATCTAAAATATTATTGAACTCATTTGTTATATTAGCAATTGATTTTTTATAGTTGTATCTTGTTCCAAATTCTCTAAATAATTCGCAGTTTAGAATTTCTTGTTCATTAATAATATTTTCATCAATAGTTATTTTTTGATTTACAATAGGAATATTTATCTTACAAATTTTTATTTTTTTAATAAAGTTATCAATTTTTCCACCCTTTATTGGTCCTTCATTATAACCAACATAGTTATTGCCAAAAGCATCATAAGCAGCTTCTATACAAATAAGAATTAAAATAAAAGAAAGCAGTAAAACATTTAATAATGTAAGCAACAAAAACAATATATTAATAGGTAAAAGTTGTCATTTAGTTTTATATTTTGCAACACTCAATTTTACAACAACTACTTTATCTATAAATCTTAATTTAATATATGTATCATGTTTTTCTCTATTTATTTTTATAGATTCAATATCTTCAAATTTCTTTTTTGCTAATTTTAAATAGTAATTACAATAATCTAGTTTATTTATGAAATTTTTAAGTTCACGATGATCTCTTATTTCTGTCCCATAACATAAATTTTTTATTTTACAAACAATTATTAATATTGATACATTAATAAGAAAAAAATAAAGAAATATTAAACAAATATTTGTTATAGATTTATCTTTTAAAACTCCAAGACTTATTATTTGATTTATAAGTTTAGGGATAAAAAAAGAGACTGATAAAGTGGCAATTAGAACAAGAAAAGCAATAATTATTCAAAATTTGTTTTGAATTTTTGAGTTAAATTTTTCTTGATACTTTTTAAAAAAAGCCTCATTTTCTATATCACTAGCATCCAAATTAGTAATTTCTTTTTCTTTCATTATTTTATTCTCATTCTTTCTTATTATGAATTTAGCATAATTTTTCTTTATAAGTATTTAAAAGTAAAATTAAATAAAAAAAAACACAAATGCCTATTGAAATGTACAAACAATTAATATAGAATTTGTATGCGTATGTTTTACTTTAATGGAGGCCTTAATGAGTTACAAAAATAAACAAGTAAATGCATTGGTTACTCGTCGTGATTATACAAAAGTTTCAGGAGATTTGCCATTACCAAATTTGATTGAATTGCAAACAGAAACTTTTAATTGATTTTTAAAAGAAGGAATTAAAGAAGTTTTTGAAGAGGTATTTCCAATTCTGTCAGCAGATGGAGATATCGTTTTAAACTTGATGGACTGAGAGTTTAGAGAACCTAGATTATCAGTAAGACAAGCAAAAGAAGAATCAAAAATCTTTGAAGCTCCTATTTATGCTAATTTAAACTTAACTATAAGACAAGAAGCAACAGAAATTTTGATTGAAGATAAAATTGTAGGAGATAAAAAAACATTCTTAAAAGGTTGATTACAAGAAAAAATTGAATCAACTGGAGTTGATTTTAAAAACTCAAAAGACAATTTATTCTTTTATGAATTTAAATCAAAATCAGGAGATAAAGATTCAATCCAAATTGAAATAGTATCAGAAGAAGACGACAAGTACATTGCAAATATAGATATATATAAAACTGGAGAAGTATTTTTTGGGGAATTCCCATTAATGACAGATAGAGGGACTTTCATTATTAATGGTAGTGAAAAAGTTGTTGTATCTCAATTAGTAAGATCACCAGGAAGTTATTTTAAAAAAGAAATGAACCGTAAAAATGGGGAAATGATATACTATGCAGATATCATCCCATCTAGAGGTACATGATTAGAATTTGAACTAGATGCTAAAAAATTGCTAGACAATAAAGTATCTAATATTTTCTATGTAAAAATTGATAAATCAAGAAAAACAACATCAACTAGTTTATTAACAGCATTTAAAATGGAAAGCCAAGAAATCATTGAGTTATTTGATAACGATCCAATTATAACTTCAAGTTATGAACAAGATGGATTATCTGGTGATTTACAAATTGATTTTGAAAACCAAGTTCAAGAAATTTATAAAAAAATAAGACAAGGTGAAACTGCAACTACTGAAGGTGCAAGTAAACACTTATATGGATTATTATTTGATAAAAAAAGATATGACTTAACAAAAGCTGGAAGATTTAAATTAAAACAAAAATTAGCTGTTAAAAACAGGTTAATTGGTAGAGTATTAGCAGAAGATATAATTGATATTAATGGTAAAGTTGCATTCAAAAAAGATACTGAAATTACTAAATCAATGTACAATGATTTAGAAAAAGTATTAGATGAAGGTGCAATGACTCAAAAATTAAATTTTAGTGATGCAATTATTTCAGGAAATGAAATTCAAAAAGTAAAAGTATATAAAAATAATGACACAAGAGATGAAACAACAATGATAATCGGAGTTACTAACAAAAGCAGTGACGAGTTTATTAATGTACCAGATATTATTGCAACAATCTCATACGCTATTAACTTAATGGATGATATCGGAGAAGTTGATGATATTGACCACTTAGGAAACAGAAGGGTAAGAACTGTTGGAGAATTATTACAAAACCAATTTAGAATTGGTATGGTTCGTATCGAAAAAAATGTTAGAGAAAAACTAGCAACTTCAAATCCATTTAAAATGAAACCATCAAGTATAATTAATAACAAGCCATTAACTGCGATAATCGGCGAGTTCTTTAACTTATCACAATTATCTCAATTTATGGATCAAACAAATCCATTAGCAGAATTAACAAATAAACGTCGTTTAACCGCTTTAGGTCCAGGGGGATTAAGTAGAGATAGAGCTGCACTTGAGGTGCGTGACGTCCATACTTCTCACTATGGAAGAATTTGTCCAATTGAAACTCCTGAGGGACCAAACATCGGACTGATAAATAACCTTTCTACTTATGCAAAAATTAATCCTTATGGTTTTATTGAAACTCCATATCGTAAAGTTTTAAATGGAAAAGTTTTAAAAGATGAACACGTTTATTTAACTGCAGATAAAGAAAAAGATTTTATTGTTGCTCAAGCAAATATTCAAACAGATAAAGATGGAAAAATTCTTGATGAAAGTGTAATTGCACGTTATCGTGGAGATGATATAATGGCAGACCCAATGGATGTTGATTTTGTTGACGTTTCTCCAAAACAAATTGTTTCAATTGCTACTTCATGTATTCCGTTTTTAGAAAATGATGATGCTAACCGTGCACTTATGGGTGCGAACATGCAACGTCAAGCAGTACCATTGATCAATCCAGAGTCTCCAATTGTTGGAACTGGTGTTGAATATGAAGCTGCTCGTGACTCAGGAGATGCTGTTGTTGCTACTGAAGATGGAATTGTTAAATATGTTGACTCAAAAACTATTACTATTGAAGGTAAAAACGGAGTTAAATCATATACTTTAAATGATTTTTCAAGATCAAATAATGGAACTGCTATTACTCATTTACCAATTGTAAAAGTTGGAGATAAAGTTAAAGCAAACGAAATCTTAGCTGATGGACCTTCAATGGAAAAAGGAGAATTAGCTTTAGGACAAAATGTTGTTGTTGCTTTTACAACTTGAAATGGTTATAACTTTGAGGATGCTGTTATTGTTTCTGAAAGAATTGTAATTGAAGATAGATTTACTTCAATTCATATTGATGAATATACTTTGGAAAGAAGACAAACAAAACAAGGACCAGAAGAAATTACTAGAGACATTCCAAACATAAGTGAATCTCATAAAAAACATTTAGATTCAGATGGAATTGTTGCAATTGGAACTGAAGTAAAAGTTGGAGATATTCTTGTTGGTAAAGTTACTCCAAAATCTCAAACTCAATTATCGCCAGAAGACAAATTGTTACATGCTATTTTTGGAGAAAAATCAAGAAATGTTAAAGATAATTCATTAAGAGTGCCAAATGGTGGAGAAGGAATTATTAAATCCATTAAACGTTTTAGTAAAGCTGAAGGTCATGATTTACCTGCAGATATTTTAGAAATTATTAAAATCTATGTTGTTCAAAAACGTAAAATTCAAGAAGGTGACAAAATGGCTGGACGTCACGGAAACAAAGGTGTTATTTCAAAAATCTTACCAGTTGAAGATATGCCGCATATGGAAGATGGAACTCCAGTTGACATTATGTTAAACCCACAAGGGATTCCTTCACGTATGAATATTGGACAAGTATTAGAAATCCACTTAGGTATGGCTGCTAAAAAATTAAATATAAAAGTTGCAACTCCAGTTTTTGAAGGTGTAAAAGAAGATGACTTAAAAGCAATCATGGATGAAGCTGGAATGACAAATTATGGAAAGGTTAAATTAATAGACGGAAGAACAGGAGAAGCATTTGATAAACCAATTTCAGTTGGAGTTATGTATATGCTAAAACTTTCTCACATGGTGGATGACAAATTACATACAAGAAATATTGGACCTTACTCATTGATTACACAACAACCACTTGGAGGAAAAGCTCAAAATGGTGGTCAAAGATTTGGGGAAATGGAAGTTTGAGCGCTTGAAGCTTATGGTGCAGCTTATACATTGAGAGAAATTTTAACAATAAAATCTGATGATATTAAAGGACGTATTAAAACTTATGAAGCTATTGTTAGATCTAAACCTATTCCAAAACCAGGAATTCCTGAATCATTTAATGTTCTTACAAAAGAAATTATGGGATTAGGATTTGACATGCATATGATAGATGAAGATGGAAACAAAGTTCCAATTAATGCTTATGAAGAAGATGAAATTGACTTTGCAAACATTGATATAAATACATCATTTGATTCTAGCGACGTTGAAGTAGGTTATAAAGAAACTGATGAACATGATGATGTTGATTATAAGGAAGATGAAGATTATTATGGATCAGAAGATGGACTTGAATAAAAAAAGAAGGGAGTTTTAATATGGCAGGAAATAAACGTATGATCAAAATTGAACTAACTTCTCCTGAAGTTATTAAAAAATGATCTCGTGGTGAAGTAACAAAACCAGAAACTATAAACTACAAAACTTTAAAAACAGAAAAAGAGGGACTATTTGATGAAAGAATCTTTGGTCCTACTAAAAACTATGAATGTAGTTGTGGGAAATATAAAAAAGTAAAAAACAAAGGTAAAGTTTGTGAACGTTGTTTAGTAGAAATTACTGAAACAATTGTGCGTCGTGAAAGAATGGGGCACATTGAGCTTGAAGAACCAGTAACTCATATTTGAATGTTAAAAGTTGCACCTTCAAGAATAGCTTCGATTTTAGATTTAAAAACTAAGGAAGTTGAAGAAGTGGTTTACTTTGTAAGTCACATTGTTTTAGACCCAGGAACTTCAAAACATTTAAAAAGAGGACAAGTTCTTGATTTAGGAAATGCGAAAGCAAGTTTAAAAACTAGACAACAATTAGTTAAAACTTTAGAAGATATTAGAACAGAATTAACTCCTGATACGTTTCCTTGAAAAAGAGCAGAATCATTATTAGAACAATTAAAATCAACTTCAACTCCATTCTCAATGGATGAAGCAGCAACATTTATTTCAAGACATATTGGTGCAAAATTCGGAATTGGTGCAAGTGCTATTGAAGAATTATTAAAAGGAATTGATTTAGATTCAGAAATTGAAAAAATTAAAGAAGATCTAAAAGAACGTAAAGGTTCATCAGAACAAAACAAAATGATGAAACGTTTAGAGATTTTAGACTCATTAAAAAAATCAAATTCACGTCCAGAGTGAATGGTATTACATGTAATACCAGTCATACCTCCAGACATTAGACCAATTATTCAATTGGATGGGGGAAGATTTACAACCTCTGAAATTAATGATTTATATAGAAGAATTATAATTAGAAATGAACGTCTAAAAAAAGTTAAAGCTATGGGAGCGCCAAGTATCATTGTTAACAACGAAAAACGTATGTTACAAGAAGCTGTTGATGCTTTATTAGATAATGAACGTAAGCCAAGACCAGTTACAGGAAAAGATAAACGTGCTTTAAAATCTTTAACTTCAATTTTAAAAGGAAAACAAGGAAGATTTCGTCAAAACCTTTTAGGAAAACGTGTTGACTATTCAGGTCGTTCAGTTATTGCGATTGGACCAGATCTAAAAATGTATCAAGCAGGAATTCCTAGAGATATGGCAATTACTTTATTCAAACCTTTTGTAATTAGAAGATTACAAGAAAAAGACTATGCAGAAAATGTTAAAGTTGCTGAAAAAATGATTTTAGCAAATGATTCAAAAGTTTGAGATGTTTTAGAAGAAGTTATTAAAGATAGACCGGTTCTTTTAAACCGTGCTCCAACTCTTCACCGTTTAGGAATTCAAGCATTTGAACCAAAACTTGTTAAGGGAAAAGCTATTCGTTTACACCCACTTGTTACTACAGCTTTCAATGCTGACTTTGATGGAGACCAAATGGCTGTCCACTTACCAATTAGTGATGAAGCGGTTGCGGAAGCAAGAGCGTTGATGTTAGGAAGTAAAGCAATTTTAGGACCAAAAGATGGTAAACCAATTGTTACTCCTACTCAGGATATGATTTTAGGAAACTATTATATTTCAACAGAAGAAAAATCATCTGCTGATGTTGAAATTAAAGGTGAAGGAACTGTCTTTTCAAGCTATGAAGAAGTTAAAATTGCTTATGAAACAGAATCAGTTTCATTAAGTGCAATTATTGCTATTCCAGTTAGTGCATTAAGCGATAAACCTTTTGATAAAGAAGATCAAGATAAATACTTAATTACTAATGTTGGTAAAATCTTTTTTAACCAAATGTTTGATGAAAAATTTGCTTGAGTAGTAAATAGTAATATTTGAGATGCTGAAAAAGAAATTAAAAAATTCTTAGTTCCAGAAGGAACAAATATAAGAGAATATATTCAAAATGACTATGAAATCCAACAACCAATCAAGAAAAAAGAATTATCTTTGATTATCGAAAAATACTTTAAAACTTATGGAGCGCAAAAAACTGCAAGAATGCTAGATAATATGAAAGATTTAGGATTCCACTTTAGTTCAAAATCAGGAACTACAATTAGTGCAGCTGATGTTGTTGCTTTTGAAGAAAAACATGATGAATTCAAAATTGCAGATGAAAAAGTACATCAAATTACAGAGTTCTATAATATGGGAATGCTTACAAAAGCTGAAAAAAAACGTCGTGTAATTAGTATTTGATCAAGTGTAAAAGACAGTATTCAATCAAGATTAGAATCAGTTCTAAAAAGAGATCCAAAAAACCCAGTATTTGTTATGGCCGACTCTGGAGCTCGTGGTAACGTATCAAACTTTACTCAACTTGTAGGTATGAGAGGACTTATGAATGACCCTAAAGGGGACATTAAAGAAATCCCAATTAAGTCTTCATTTAGAGAAGGATTAACTGTGTCTGAATACTTTATTTCTACTCACGGAGCTAGAAAAGGTATGGCTGATGTTGCCTTAAAAACTGCTGACTCAGGTTATCTAACAAGGAGACTTGTAGATATTTCTCAAGAAATTATAGTTACTCAAGATGATTGTAATGGATCAAAAGGATTTAATGTTTATTCAATTATTGATACAAAACACAACAATATAATAGTACCTTTAAAAGATAGACTTGTAGGACGATACTCATTTGAAGATGTAACTTTTGAAGGAAAAGTTTTAGTTGAAGCCAATACATTATTTACAGGTGAACTTGCTGATAAAGTTATTAATGCAGGAATTACTGATGTTCAAATTAGAACTGTATTAAATTGCGAAGCTGCTCGTGGAGTGTGTAGAAAATGTTATGGGGTTAACTTAGCAACTGGAAATGAAGTTGCTTTAGGAGAACCAGTTGGAGTTGTAGCTGCACAATCAATTGGAGAACCAGGAACTCAGTTAACTATGCGTACATTCCATACCGGAGGGGTTGCTGGTGGAGCAGACATAACTCAAGGACTTCCTCGTATAAAAGAATTACTTGACGTTACAACACCAAAAGGATCAATTGCTTTAATCTCTCAAATTGATGGAGTTGTAAAAGAAGTAATTGAAGAAGATCAGATTCTTACAATTGTTGTTGAATCAGATAACGATGAAAGAAAATACAAATCTCAATATGGAGCAATTTCTAGGGTTAATGTTGGAGACAAAGTAAGACGTGGTAAAAAACTTACTGAAGGTGCTATCAATATTAAAGAATTACTAGAGGTTGCAAAAATTGAAGATGTACAAAACTACATTTTAAAAGAAGTCCAAAAAGTTTATCGTTTACAAGGGATTGAAATTTCAGATAAATATATTGAAATCATTGTTAAACAAATGTTAAACAAAGTAAAGATTATTGATTCGGGTGATTCATCATTATTACCTGGAGAAATAATTTCTGAAAAAACTTTCAAAGATGAAGTTTTAAAATCAATTCAAGTTGGAAAAAAACCACCACTTGCAAAATTTGTAATCTTTGGTATTAAAAAGGCACCACTAGAATCAGATTCATGATTATCAAGTGCTTCATTCCAAGATACAGCAAGAGTTCTTGTTAAGGCTGTTATAAAAGGAAAAGTAGATAAATTAGAAGGATTAAAAGAAAACATTATGTTAGGAAACTTAATCCCTGCTGGAACTGGATTAACAGGATCTGAAGATATTATCAGAAAAGGTAAAGAAACTTTAGAATCAGAATATTAAAAAAATAAGTGTGGAATTTTAAACACTTATTTTTTATATTAAAATAGTTTTTACTCTTATAAGTGTATAATTAAAAAAAAAGGAGTTATATGATGAAAAATCAAAAAGCAATCAAAGGAATGCTAATTAGTATTTTAGTATTATCTGCAATATCTTTTTTAGCACATATATTTAGTGGATATTTAGTAGATTTAACAGAAGTTTTAGATAAAAATGGTTGAGAATATCATAGCAAAGCTTTATATGCAACAATTAGTTTTGATACTGTCTCTATTATTATCTTATTTGCAACTATTGTAATTGGTTCAGTATATTTCAAAAATAATAAAGAAAACTTATTTTGAGGATTTATTATAACAGCAGTTATTGGCTCATCATTTTCAAGCTTTTTTTCTTATTACGTTAATAGATCAGTAAACGTTGTTAAAATAATATTCTTAATATCTATATTTATTATTTCAACATTATCTGTGATTTTCAAATTAAATCAGTTTGCAAAAAATACAAATATAGAAGCAAAAATAGAATTATTGAAGTATTATTACAGAATTAGTGCATCTTTAATTATATTTTGCGCATTACTAGGAATTAGTGCAATTTCAATTAATGGATATAATGAATATAGAAATAATGGTTTTGTTAGAAATGCTGTATACTATGAAGGGGTATTTGTTTTATTATCTCTTATATTTGCAATTGTTCATTTATCAAGCAAACAAACTTGATCAATAGTAACTGCATGAATTTTAACAGGATTCTATACATTAGAAAATGTTATTATATTTGCCTCATTTATTGTAGTTACAGTATTAGTTATTTACTCATTAGTGCAAAGAAGCAAATATATCAAATTGCAAAAACAAACCGATGATGTTAATAAAATTATAAATTTATAAAATAAACTCAACTGAGTTTATTTTTTTATTTGATTTTATGTCAAAATGTTATATTCTTATTGAGAGGCAATTTAAAAAATGAAAATATATATAGGAAATGATCACACAGCAGTTGAGATGAAAAATAGTATAGTAAATTATTTGTTAGAAAATGGTTATGAAGTTGAAAACCTTGGAGTTGATACTAGCGACCCAAGTGATTATCCAGATTTAGGACATAATGTTGCAAATAAAGTCGCAAATGATAAATACTCAAAAGGGATCATTATTTGCGGAACAGGAATTGGGATTTCAATTGCTGCAAATAAAGTAAAAGGTATAAGAGCAGCCTTGTGTTATGAGATAGAAACAACAAAAATGGCAAGAAAACACAATGATGCAAATATCCTTGCTCTTGGTGCAAGAATCATCGCAAATCAAAAAGCAATATTATTAGTAGAAGAATTTTTAAAAACAGATTTTGAAGGTGGAAGACACCAAAATAGAATTAATAAAATTGACACAATTTAAGGAGAAAATTTATGGCATTTAAAGTTATTGAACATCCACTAATATTAGATAAGTTAACAAGAATGAGAAAAAAAGAAACATCATCAAAGGATTTTAGAGAAAATTTAAATGAAATCGGACAACTGATGGTTTATGAAATTTTTAGAGATGTACCATTGGCAAAAATTCAAATTGAAACACCAGTTCAAAAAACTGAGGGATACACTATTGATACACCTGTTGTATTAATACCAATCATAAGAGCTGGTTTAGGAATGACAGAAGGAATTCAAAGACTTGTTCCTACTTCAAGAATTGCTCACGTTGGATTATATCGAAATGAAGAAACTTTAGAACCAGTGCAGTATTATGCAAAAGCAACTAAAGACATTGATAAAAGTTATGTTATTGTTGTAGATCCAATGTTAGCAACCGGGGGAAGCGCTTCTAAAGCAATCTCAATTGCAAAAGAGTGAGGAGCAAAAAACATTAAGTTTGTTTGTTTGGTATCTGTTCAACAAGGAGTAGATAAATTGCTAAAAGATCATCCAGATATTGATATTTATACAGCCTCATTAGATCCAATTTTAAATGAAAATGGATATATTGTTCCTGGTTTAGGAGATGCTGGAGATAGAATATTTGGTACAAAATAAATGGATAATGCACTAGGCATTATTTTTTTATTAAAATTATTTTAATTATTAAATAGAATTTTAATTTAGCATAGACATATATTTTTAAAGTTTTGATAAAGTATAATATCTTTACTATAACAATTAGGAGGTTTTTCTATGAAAAAATTATTGACTATTTTAGCTTCTCTTTGTTTAACTTCACAAACAAGCTTTTATTTAATATCATGTGACAACAATGAACAAAAATCAAATGATAATTTAGAAAATGAAGATACAAGACCAGAAGAAGATACTAGAGTTGATTTAAGTGAAATAGGAAAAAAAGATGTAAAACATTATAGAGTTGCTCCAAAAACTAATGGTTTAGAATATTTAAAATTAGCTATATTGTCAAGAATCAATAGTGATTTAGGAATTAAAGTAGTTGAAAATATTGATATTAGTTTTTCTAATTACAAAATAGCAACAGAAACTAGTTATGGAACAATTTTAGCTAGTGCCGTAAGTACCAGTAAAAAAATAAAAGGAAAAGCTAATTTTTATCATTATTTCATAGATGAAAGAGCTTCACTGTTTGATATAAAAATATCTCAAATAGAACCTAAAGAAAATAATATTACATCAATAACTGAAAGTATTAAATGCTTAATGTTAACCACTAACAATGGGGCATTTAAAGATTCAATACCAAATGCAGATTATTTGATTCCGAGTGAGGGCGAATATCGTAAACCAACTCAAAACGAAATAGGTAGCATAACCATTAAAGCGGGACAGAATAGTAAGATTTTTAAAAAAAATACAACTAAAACTTTTGATATTGCATTTCCTGATGACAGAAAAGAATTAGGAGAAATGATTACTGTAAATGAAATATCTCCAGAATACAATACATTTGAAGCTGCAAAAAAATCTGTTAAGGACGTCATGAATATGTATGATAGTAACTTACAAGAAGATTTAGATTACAGAGTTGTTGAATCTGAAGAAACTTATAAAAACCCAACACGCAATAGCCCTGGATTAGTTATTATTACAGCGACTGGGTCAAGTTCTTATATAAGAGGTTCAAAAACATTAATTGTTAATTATAAAGATGTTAGCAAATCTCTTACTGAGTTAAAAAACACAGATTTAAAAGTAACTAAAAATGATGAAGCAACTGCAAAAATTTCTGCCATAAAAGTATTAGATAGTTTTGTGCCTAATTTAACAATTTCAGATTACTATTTTACAAATTATAGAGCTGCAAACAATATTGAAGATGGTTCTATAACTGTACAGGCATTAAATAAAAGTGAAAAAATAAGAGATTTTGTAACTTTTACAATAAAATATTTAAAAAAATTATCTGATATTTCTATACAACAAGTAAATACCAATAAGAACGATAAAGCATCAGCTTATTCATTAATTAAAAAAGTAGTTTTAGAGTTTGATCAAAGATTATTAGAAGGATTGGACTATGTATTTGATGAAAGTTCATATAAAGCTGCAACCAGTGATACAAATGGATCTGTTAGAGTATTTTCAAATCCTTCAAGCAAAAAAATAGAAGGAGAAGTAGTATTTTCAATCGTATATAATAAATTGGCTCTAAACAGTATCAAAGTGACTAATTTAATAAATATAAATGAGCAAAGTTAAAGTACTATAATATGTATAATTACAAGATTATTAAGTGATCAAAAACGTTAATATTTAAATATAGACTAAAATTTTATATTTTACAAAAATTTGAGTTACATATAAGATTATTAAATCCATTATTAATAGAAATAACATTGAATTATTTTATGATATTATTGATGTGATTTTTTAAATTACAACTGGATTAGTTTATTTTGTTTTAGATTTACAACTCACAATAATAAAGATGAGAAAAAAGGATATAGTTTAAGACATGAGTATGTGAGTTGTTAAGATTGATATATTAAAATTCACTATGAAGGGCTGTAAACTTTTTATAATAAGATAAATATGTAAATAATTTTTTAGTAAATTTTAACAATAAAACTGTTTATATAAAGTTTAAAGCAATCAAGTCAAAATGAGATATTTCTGTTATGAATTCAATACCAATTTTTACTTAGTGTTTGAATTAAATTTATTTTTAAGGCATATTACAGCTTGAAACAATTTTTTATTTTTTAGTTTCTAATAAAATTTTTATAATATTGCTATTTTTAGGAGTATTATATTTTAGATGGAACCTTTTAAGTGAGAATATGTTTAAAGATTTTTTCAAGGATAACAAAAAAAATATATATAAATACTTACTACCAGTGTATATTGTATCAACAGTTACGCTAGTAGTTTTATTAATATGTGGTGTTATCGCATATTCTTGACTTACTGGTTTTGTGTTAACCTTAATATTTGGGCTAGTCGCATATATATTTTTAGTCTATTCTGCAAAAAAACTTATAGATCATCAAAATCCATATTTATTTGTTTTTTTTTCAGTTTTAAGAATAGGTTTGTATATGGTTCCATTCATTATTAGTATTTATTTATCGGAATATATAAATAGTTTTGGAGTAATAATTGGCTTTTTAATATCATTACTTTTTCCAGTGATATTAAGAAATTAATTTATAAATACATAATAATGTAAAAAATATTAATCAAAAAGGGGGTAGGCCATGGGTCAATTATTTGAAAGCTGAAAAGATATAACCCCACAACTTTTTTCAATATTTCTAACAATGATAGTTATATGTAGCTTATGTATTGTATATAATGTCAAAATTAGAAATTTAAAAGATGGTGAAGAACTAAGTGGATTTTTAGTTTTAACTGAAACATTCATTGGTATGATGGAAAACATTGTTGTTACTACAATGGGGAAAAAATTTAGACATTTAACTCCATTTGCTATGTACATCTTTTTATATATACTTGTTTCATCTATCATTTCACTTTTAGGGTTTGAACCTTTATCTAGTTCTTACACAGTTACGCTTTCAATGGCGATTGTGTCATTCTTTGGTATTTATTACTATGGATTAAGATATCAAAAATTCATGTTCTTTATGAAATTTGCACTTAACCCAATTGAAGTAATTACTCAATTTGTGCCAATCTTGTCATTGTCATTCAGGCTGTTTGGAAATATTTTAGCAGGAGCAACAATTTTAGGGTTGCTTTATGGTGCATTTACGAACTTATGAGGATCATTTTTTGGAGCAAAATCTGAAGATGGAACTGGTATAGCTCATGACATATGAGACGAAACCAATTTAATGGCTCAATATAAATATTTTTGAACCGGATTTAACTTATTATCAGTAATGATATTACCGATATTACATTTGTATTTCGATTTATTTGATGGAGTAATTCAATCAATTGTGTTTACAATGTTAACATTCTCTTATTGAGCAAATGCAAAAAACGGGGAACATGAGTCCGGACCAGAACCAACCGAAAGAGAAAGCGACAAAAAAGTTGCTAAAAAAGCTAGTAAAAAAGATTTATTATCAGAACCAGTAGCAGTAGCTACAGCGGTTTAAATTTAAAATAAAAAAACAAAAATTTATTATTAAGCGTTGATTAGCGCATAAAGGAGATTTAAAATTATGTTTACAGAAATGTTATTTAGTTTTGTTACAAACTTTGGTCAAGCATGAGTTTCAACTATTCCAGCAATTTTATTTGTTTCAACTGGTGGAAACGGAGATTACGCTATTGGTGCAGGTATCACTGGTATTGGTATGATAGGTGCTTCATTAGGTCAAGGAATTGTTGGACAAGGTGCTTGTCTTGCAATTGGACGTAACCCAGAAGTTGCAGGTAAAATTACTACAACATTAATTATTACAGCTGGATTCTCAGAATCTGGTGCCATCTACGCTCTTGTTATTGCAATTCTAATCTTATTTGTTTTAGCATAAGATTTTTTTAGATTAGAGAGAAAAGCAATGATAACTACATTAACTAGTTTGGTTTTACAAGCAGAATCAACTCCTGGGATTCCGGAAGTAACAAAAGCATTATTTCCAAACTTACCTAACTTTATTGCTCATGTTTTATCTACAATAATAATTATTTTATTTTTAGCAAAACTTGTTTACAAACCATTCAAAAAAATAGTTGCAGAACGTCGTAAAAAAATTAACGAGTTATTAGATGACGCCTCATCAAAACAAGCACTTGCTAACAAAGATAAAAAAGATGCAGCAAAGTTGTTAATTCAAGCAAGAGAAGAATCAAAAGGTATTATCTTAAATGCAAAAACAGAAGCAGATGAATTAAAATTTGATATCATCGATAATGCAAAAAAAGAGGCTCAAAATATTCAAGAACATGCGAAACAAGCTATGGAATTTGAAAAAAATGAAGCCCAAGAAGATATAAGAAAAGAAATAATTGATTTAGCCTTTTTAGCATCTCAAAAAATTCTTGCAAAAGAAGTAAATATAGATGTTGATAAAAAACTTATAGAAGAATTCTTAGATAAATTAGACTAATATGTTTATTAAAGAAAGTTTAATTAGAAACTGATCAAATGCAATTTGTAATATTGCAATTGAAACAAAAAAGGTAGAAGAATTCTTAAATACAGCAAAAGACTTGAATCAAATTTTTAAAAGTAATTATGAATTGATGGAATTTTTATCGAATAAAAGTATTGATATCAATACTAGATTAAAAGTTATTGATAATATTTTTGCAAAGCAAATTGATAAAAACTTAACAAATGCATTAAAACTAATCGTTATAAGAGATATTGTTCCTGGATTAAGACATATAATTAAACAAGTTATAAAGGATCTTTTAGATGCAACAAACACAATTCAAGGAGTGGTCTATTCAATTTCGCCACTTGACCCATCAATCATTAAAAAAATTGAAGCTAAACTATCAACAAAAACAGACAAAAAAGTTATATTAGACAATGTAATAGATAAAGAATTAATCGCTGGTATTAAAGTTGAGTTGGCTGGGAAAAAATATGACTCATCAATTCAAGGTAAATCTCTTGATATGAGACGAAAAGTTATGAAAAATAGAAAATAGGGTGATTTTATGCCACTAAAAATTAATGAAATATCAGATGTGATAAAAAAACAAATCCAAGAGTATGGTAAAGATCTTGTCATTCAAGAAGTTGGTACAGTTGCTAGCATTGGTGATGGTGTTGCCTTATTATTTGGTTTAGATAAAGCAATGATGGGAGAACTTTTAGTATTTAACGACAACACATATGGTATGGCTCTAAACCTAGAAGATGGAGCAGTTGGTGCTGTTGTTATGGGAGACGATGCAGAAATTAAGCAAGGGGACAAAGTTAAAAGAACGCAAAGAGTTGTTGAAACACCAGTTGGAGATGAACTATTAGGAAGAGTTCTTGATGGAATTGGAAATCCAATTGATGGGAATGGTCCATTAAAAAATAAAAAATTTGCACCAGTTGAAAAAATTGCATCAGGAGTTATGTCAAGAAAATCTGTTGATCAACCTTTAGAAACTGGAATCTTATCAATTGACTCAATTATTCCAATCGGAAAAGGTCAAAGGGAATTAATTATTGGTGATAGACAGACAGGAAAAACAGCTATTGCTATTGATACAATTATTAATCAAAAAGGAAAAAGCGTAAAATGTGTATATGTTGCGATTGGACAAAAAGAATCAACTGTTGCACAAGTTGTTGAAAAATTAAAACAAGCAGGAGCGATGGAATATACAACAGTTATATCTGCTTCTGCTAGTGAACCTGCACCAATGCAATATATTGCTCCTTATACTGGAGTTTCAATTGCCGAAGAATGAATGGCAAAGGGCGAAGATGTTTTAATTATTTACGATGACTTATCGAAACACGCAATTGCATATCGTACACTTGCACTTTTACTTAGAAGACCACCAGGTAGGGAAGCTTATCCTGGGGACGTATTCTACTTACACTCAAGATTGTTAGAAAGAGCTGCTAGAGTTAATGAAAAATTTGGTGGAGGAAGTATTACTGCTTTACCAATTATCGAAACTCAAGCTGGAGATATTTCAGCATATATTCCTACAAATGTTATTTCAATTACTGATGGACAAATTTTCTTATCAGAACAATTATTTAACTCAGGAATTAGACCTGCTGTTGATACAGGATTATCAGTTTCAAGGGTAGGAAGTGCTGCACAAATTAAAGCTGTTAAACAAATGGGTGGAACATTAAAATTAGAACTAGCCCAATATTATGAATTACAAGCATTTGCAAAATTTGGTAGTGATTTAGATGAATCTACAAAAGCAACATTAGACCATGGAGCAAAAATTGTTGAATTATTAAAACAAAGACAATATTCTCCAATTAGTCAAATTACTCAATCAATTATTTTATTAGCAATTAAAGATCGTTTAATTAAATGATTACCAGTTAGTGAAATGATGAACTTTAAAGCAGAATTACTAAAACACTTTAAATCAAATGACAAAGCAAAAGCATTAAAAAAACAATTATCAGAAGAAAAAGCTTATGACGAAGCTTTAACAAAAAAAGTTAGAGAAGAAATCGTTAAAGTTGTAAAAAACTGTGTATTAAATATTAAAGATTGAAAAGCAACAACTTATGGTTCTCAAGAAGAATGAGATAAGCTAAAATAATATGGCAAATTTAAGTGAGTTAAAAAATCAAATTGCTTCTGTTAAAGATATTGGAAAAATAACAGGAGCAATGGAACTTGTTGCTACTGCAAAATTAAAACGTATTTCAAAAAGAGTTGGAGATATTCATGCTTATATGGATGAAATTTATAATGTATTTGATTACATTGTTTCTCACTCTGAAGAATCAATTTACTTAAAAAAAGCAGATACACAAATTAATAAAACTTTGTGGGTTATAATCACTTCAAACTTAGGTTTATGTGGTGGATATAATGCAAACGTTTTTAAAGCAATCAAAGGCAAAATTGGTATTAATGATGAAGTAGTAGCAATCGGAAACAAAGCTGTAAGTTATTGTAATTCAAATAAATTAAATATTAGAAGAGCTGTTGTTGATGTTGATGTTAACTATACTAGTGATAGTGCAAACAATCTAGCTTCAGACTTATTAAGTTGATATTCACAAGGTGAAATTGATGCTATTAATGTTGTTTATACAAAATTTATTAACAATGTAACTTTTGAACCACACATTATTAATTTATTTCCAATTATTAAAAATGAAGAAAAAAGTGAAAAACATGAAGATATCTTGTTAGAACCAGATGCAGAAACTGTTTTAGCAACTGGAGTTGCACTTTATTTAAATACAATTATTTTTGGAACTATATTAGAATCACAACTTTCAGAACAAGCAAGTAGAAGAACAGCGATGGAAGCTGCAACAAAAAATGGAAAAGAGTTATCTGAATCTTTAAGTATTGCATACAACCGTAAAAGACAAGAAAACATTACACAAGAAATTAGTGAAATTGTTGGTGGGGCAAATGCTCAAAGTGATAATTAATATGGAGGAAATTATTTTATGAAAACAAGTTTAGGTAAAGTAGTTCAAGTCATGGGTCCAGTTGTGGACGTTCGCTTCAAGGAAAATGAAATGCCAGAATTATACAACACTGTTGAGTTAGATAATTCAGGTACAAAATTAGTTTTAGAAGTTGTTCAACACATTGGAGATGATCTTGTAAGAACTATTGCTATGGGACCAACTGAAGGTCTTGTCAGAGGAATGGATGCAAAAAACACAGGAGCACCAATTAGTGTGCCTGTTGGAAATGAAGTATTGGGAAGAATGTTTAATGTTCTTGGAGACCCAATCGATGAAAAACCACAAGTTGATTCTAAAAAAATGCCAATTCATAGAACTGCACCAAGTTATGATGAACTATCAACATCAGCTGAAATTTTAGAAACAGGAATTAAAGTTGTTGATTTAATGATGCCTTTCTCTAAGGGTGGAAAAATCGGATTATTTGGTGGAGCAGGAGTTGGAAAAACTGTTCTAGTTCAAGAGTTAATTAATAACGTTGCCAAAGCTCACGGGGGAATTTCAGTATTTGCTGGAGTTGGAGAACGTACAAGAGAAGGTAACGATTTATACTACGAAATGATTGATGCTGGAGTTATTGACAAAACTAGTTTAGTATTTGGTCAAATGAACGAGCCTCCAGGAGCAAGAATGAGAGTTGCTTTAACAGGTCTTACTATTGCTGAATATTTTAGAGATGAAAAAAATCAAGACGTGCTATTATTTATTGACAACATTTTTAGATTTACCCAAGCTGGATCAGAAGTTTCTGCCCTTTTAGGAAGAATGCCTTCTGCTGTTGGATATCAACCAACTTTAGCTACTGAAATGGGAGCTTTACAAGAAAGAATTACTTCAACTAAAAAAGGTTCAATTACTTCTGTTCAAGCAGTTTATGTTCCAGCCGATGATTTAACAGATCCAGCACCTGCAACAACATTTGCTCACTTAGATGCAAGGGTTGTTTTAGATAGATCAATTGCTGCATTAGGAATTTATCCGGCAATTGATCCATTATCATCAAGTTCAAGAATGTTAGATCCAGAAATCGTCGGAGAAGAACACTACTCAATTGCTTTAAAAGTTCAAGAAACATTGCAAAAATACAAAGAATTACAATCAATTATTGCTATTTTAGGTATGGATGAACTTTCAGAAGACGATAGAATTACTGTTAATAGAGCAAGAAAAATAAGAAACTTTATGTCTCAACCATTTACAGTTGGTGAAAAATTTACAGGACGTAGTGGAAAATATGTTAGTGTTCAAGACACAATAACTTCATTTAAAGCTATTTTAAATGGGGATTGCGATGATATTCCTGAAACTTTATTTATGTATGCAGGTTCAATTGAAGAAGTTATCGAAAGAAACAAAAGCGATAAAAAATAATTATGGAATTAAAACTAAAAGTAATTACTCCAAATGGAATATTTCTAAATTCAATAGAAGTAAATCATGTTGGAGTACAAACTATGGATGGGGATATGACAATATATGCTCATCATGCTGCAATTGTATCAACTTTAAATATTGGAATTGTTAAATATACTGATTCTAAAGGGAATTTGAAATATATTCATGTTCACAGAGGAATTTTACAAGTTAATAATAACGAGGTAAAAGTATTAACACCTTGATTGTATGAAGTTGATGAAAAAGGTAAAAGAATTGGACCTAGAACTTAATAAAAATATAACTTTATCTAAATAAGATAAAGTTTTTTTATTAAAAAAATTATTAAGTTTTAAAAATTATTTTACTTAAATAGTAGCAATTAACATTGCGTTATTTGTTAAATTTAAAAATTTCAAGTTTGCTTTATATTATTATTATCTTTATATTATTAATAAGGAGTTGTGATTATGGAAAATAAAAATTTAAAAACATATTTTTACATATTTAATATTTTTTATAATCTCAATGATTACGAAATAAGGGATTAATAGGAAAATTTAATTGTATCTATTAATAAGAGTTATAGTCCAAATTTGAATATAAAAAGTAAAGCATTTACATTAGTAGAAAGGGGTAAGTTTTATGAAATATTTATTGTCAATTTTATCATCATTATCAATTTCAACAACAGTTGTTGGAGCTACAACAATTAGTTTATTGCAAACAAATACATCTAATAAGGACAAAAATAACAATAATATTGAAAATCAAAATTCTGATGATCAAAATAAAGAAAAAGAAGAACCTAAACCAGAACCTAAAAAACTGGATTTAAATGAAGTTATTAAAATCAATAAAGTTGATAATTTAAAAATAATTTATGACAAATCTGTTGAAGATTTATTACTTACAGCTATTGCTGCTTTAAATCCCTCTTTACAAATGGATCAGGTTGAAATACATGATTTAAATACGGATATTGGAAGTGCATCAGTTGTTGCTAAAGACGATTCAAAACTATACAGTGGATATGCAGATATAAGTTTTTCTGTTTATAAATACAATAAAGTTAACTTTGTGTTAGAAAAAGATAATGTTGAATTAGCGCCATCTGGACCTACACAACAACAACTTATTAAAGTAACAAATTACAGTATTGATAATTGAGATAATCTAAATTATCCTGAAGTTTTTGGCTATGATAAAACATATTTAACAGTAAGTTTTGACAACAAAGCCGGAACAATAGTTTTAAAAGCGGTAGGAAATTATAAAAAACCGCCTGTAAGTGATTTAATTGTAACTGTAAAATCTAATGATTTAAGACCGGATAATGAAAAAATTATTAAAGTTAAATTAAAAGTTGAAAAAGTGGACTTTGAGTTAGATAAAAATGATATCAAATTAAATATCATGGATCAAACTGAACAAGTTATTAATGTTAAAAACTACGATCAATTAATTGATGATGTAAATAGACCAAATAAAATTCAAATTAATTCAAAAGATGTTGAAGCAAGATTTAGTGATGATCATAGAAAAATATATATAAAATCAACAGGAGTTTATGGAGAAAATGCTGAAGTAAAAGTAAGTTCTCCATGACATGTCGAAGTAATAAAAGTAACACTATATTATAATAGTATAAACGCTCAATACGATAGAAAAACACTTGAAATGCTTGTAAATAGCACAGAATATGTAAATATAACAAACTTCGATACATTAAAAATTGAGAAAAACATGCCATATCGTATTCAATCTTCAAATGAAAAAGCTATAACCGCTTATCTAGATAGAGTTAATAAACGTATTGTGATAAATAGTCATGATTTAGTTGACGAAAATGTTGTTTTAACTATTCGTTCAGATAATTTGAATAACTATCCAGATTATATTTATGTAAAAGTTAAAGCCAAAGATGCGCCTTTCAAATTGGATAGAAAAAATGTATCAATGAAGGTTTATGAAACAACATCAATTAAAATAACTAATCCAGATGAAGTAAGAGACTCTCCTAGAAACATTCCTTCTAAATTTATTTATACAAAAGATTATGCAAAAATTTGATATGACAAAGAAAATAGACAAATTCAAATTCAAGCATTTGATAAAACTGTAACTAATTTAACTGTAACTATTTCTTCAGAAATGGGATATTCAATGTCAATTAGTTTAACAATCATCATACCTCAAGTAAAATTCAAATTAGAAAAACCAAAAGATATGTATGTTGGTCAAACTCAGGAAGTAAATGTAACTAATTTCTATGAATTAGTTCATGAAAATAACTACCCTGTCAGATTTGAATATAGCAAACAAGGAGTTATTGAAGCTTCATTTAATAGTAGTAGTAAAAAAGTTGTTATAAGATCAATATCACAAAATGTATTTTGTAGAAACTTTAGTTTAACTGTTATATCAAAAGATGGAAAGTACAGAGAAACGTATCAGTTTGATGTTATAAAACAATTTAGTTTAAGCTCTTTAAATACTAATTTGGGTAATTTAAGTGATAGAAATACAACTAATATAGCAAATACTTTATATAACTTAAATTACAATATCGGACTAGATAAAGAAGTATTTCAAAGTCTTTCTATTGGAGATAATACATATACAAGAGCTACATTATATAATAATAGTTACTTATCTAAAAAGTGATTTACAGGGGACTCAATTTATGTTTATTATAGCGTTCCTCTAAAAGACAGTCCTAATTTTAATTCAGGATGAACACCTGAAGCTGTATCTAATAAAAATAAAGTGGAAACAAAAATATCAAATACTTATTATAAGGATTTTGATATACCATTAGATAAATTGCGAAGAGATTTTAAAGAAGTAAAGTTAACATTTTACACTAAATATGAATGAAGTAAAGAATATATTGGTACAGGAAGCTTTGGAAATAATATTGAACATCATAGCGAAGAAACAATTGCTGTTAATTATAATGTAAATTATAATCATAGTGCACAAGCATTTAAAAACGGAGTGTCAGATTTCCAATCTGGTAATACTTGGATTGAAATTAGAGCTGATTTCTATGCCGCAGTAAGATTTGAGAATTATAATTCAAATGCAAGAATGGTTGTAGATTTAACAATTACAAATTATGCATATAGAACAAATCCAGGATTCTGAAGTACTTATGAATGTGGAGTTCATGCATATATGGTTTTAAATGATTTTGAATTTATAAAATAACTCAATTATTTACCAATATAGGAAAAATAAATCATGTTTTTAAAAAATCTACTTTTAGTTTTAAATCTCGTTAAAATTAAAAAAATATTTTCTCCATAATTTGTATGGAGTTTTTTGTTATTTTTTATTAATATAATTGCAAAAATTATATCTTTTAAAGATCTAAGAAAAAAGTGTTTTAAATCTTGACTACAAACTTTATTAAAATAAGGTGTAAATAAAAAATATTTTCTAAGTTAAAAAATATAAAACGCAGATACATAAATAAAGAACACCATAAACTACATAAAATTATGTATCTAATTTTTATAGAGAGGTGATTTTATATGATAATAAGTTGTTTATTTTGTGTTGCAGAAAAAAGTAAATAATAGGTGCGTTTACAACTACACATATAAGACCTAAAAGTTAACTATAAATTCAGTAGCGAACAAACATTAATTATTTATGTTTGAATAAATTTTTATATATAAAAAGGTTTTTTTGGCCTAAATAAGAAAAAAGAGTTAAAAACCAAAAAATAAATAAAAAGTTATGTTTCGCTTATAAAATAAGAGTTGAATATTTATGAAAAGATATACAGATCAAAGAAAAAAAATCAAATAAATTAGGGGTTATAGAATGTATAAAGCATATCTTGTTAAAGTATAAAAAAATAATTAAATATTTAATTTTCTAAAACAAAAAAAGAGGAGCAAAAAAATATAGTATTATCATATTAATTAGGCTTTTAATCATTAATTTTAAAGCTTATTAACATTATTAGCAAATGCTATAAAAACTAATAAAAAAACACATGCTATGATTTATCTATAATCTAAGTTTTTTATGAAAAAGATTCAAAATACAGAACTCATCGTAAATGAGCAAAATAAAAATTATCATAAAATTTTGGTTTAATTAAAAAAAATTTTTTAGTTTTATGAAATCACAAATTTTAGTTCTTAACAATTGCTAATATAATTGCAAATGAAAAGTCTAAAATAAAAAACAAAGGCCTAATAAATACTGTTACTCATTTATTAAAAAATAAATAAAAAAATAAAAATGAACTTATAGAAAAGAATTATTAAAAAATTTTTTAAATATATCAATGTTTAAATGGAAAACAAAAAAATTACTTACTTGTTTTCATTATTATATTTTATATTATCTTGAATAACATATTTTAAAATGTGTAAACAAATGAATCACTTATTAATAGTAGGAAACTTGTAGCTAATAGATATGATTTTAAAAATAGCATTATCTATACGGGCATATTATCCTAATTTAGGAACTTAATTATAAAAAAGTTTTGCAAAAATCACAATATTATTTAAAGCATGAAAGAAAAATATGAATTTGAAAAAATTTTATAATAGAAGTATTTCTTAAAAGTATAAAACCAATTTATTATGAAGATGAAAGATTTAAGCTAAAAAATATTTTGTAATTGAAATAAAAGATGGCATATGAAATTATGCTAATAATAGAAAATCAACAAATTAAAAACTACTCCTAATAATATTTGCTGGTATTCTGTTAAAAAATATGTAGTTTAGCGTGACAGCTTAAGAAATATATAAGAAAAAAGCGACTAAATTATATATAAATCAGTTGCTTTACGGATGTTTATTTTATTTTGATAGTGTAGTAAGGTAGATACTTTTATTTTTTTATTTTTTTATTAATTTGTTTTATATCTATTATAGTTTCATTATTTATTCTTAAATCTAAGCGTTTCTTTCTCTCTTTTATTTGTAAATCTGCTCTTTTTTCAATGCTTTTTGTAAATGCTCAAATTTTTTCTTTTTTTAAAAATCCCATAAATCTGATGTAATTAATATTTAAAGGTTTAAAGTTAACTCTACCCAAATTTACATCTTTTAAAATTCTTGTAATTTTTTTGTTTAGTAGAACTTGTTCTTTGCATTCTTCCAATTTAACTCTATGCTCTCTACTAAAGTCGTTTAAATTTTTAAAAATATTTTCAACACAACCATATTTTTCTATTAATCTTGTTGCGGTGCTAAAATGCATTCCCTTAACACCTTTTATATTATCAGAATGATCACCCAGTAAACTTTTCATATCCGGTATTTGAGCTGGTTTACAACCAAACTTTTCATAAACTTCTTCGGCTGTAACAACTTCTTTTTTACATTTTTTAGACTGTTGTGAAATTACGTTAACATCCTGTGAAATTAATTGGTAAGTATCTTTATCATTAGAAATAATATCCACTTTATAACCTAGCTTAACAGCGATTCTCGCAATGGTACCCATAATGTCATCACCTTCAAAAGAGTCTTTTTCATATCAAGGAATGTTTGCGCTTGTTAAAAAATCTCTAACTTTTTGCATTTGAGGAATTAACTCACCTGGTGTATCTTTTCTTGTTGCTTTGTAAGCAGGGTATAGTTGTTTTCTTCAACAATCTTTTCCTACATCAAAAGTAACTATTATTGTATGGTATTCTTTTGAATCTATCATTTCTTGAATTTTAGCAATAAACACATAAACAGCATTTATTAAAACTCCCTCTCTATTTATTGCTAATTTTTTTCTTTTTAAAGATCCATAGTATCCTTTATGTAAAAGGTTGTATCCATCAATAATAACTATTTTCTTTTTTTCTTCCATAATTAATCCCTTCTAAAAATAATCTTGTTGTTGAAAAACAATTGTACAATGTTGTTTTAAAATCTCTAACTTATTTAAATCCTCAATTTTAAAAGTAAAAAAAACATCATCGTTCAAAAACTCTTGACTATATTCAACTTTTAAATTGTGTAATGTCAATTTTATATTTTTAATATTGCTTATATTAAATTTAATTTTTACTAAGTATAAGAGTTCAAGTGGTTTTATTTCTATCTCTTTTAAAAGCTGAATAGCACCATTGCTATATGCTCTTTGTAAACCACCAGTTCCAAGTTTAATACCACCATAATATCTAACACAAAAAATTATAACATTTGTTAAATTATTGATTTCGATTAATTTTAATAATGGTTCTCCAGCAGTTCCGGTTGGTTCTCCGTCATTGTTATAACCATATTTAATATTATTATTAGTCCCATAACGATAGGCTCAACAATTATGTTTAGCATCATTTCGTTTGTATTTTTCAATAAATCTTTCAAATTCGCTTCTATTACAAATTGTTGCAATATAGGTGATAAATTTTGACTTTTTAATAGTTTCTTCAAAAATATAAAACTTTTTTTCTTTGATTATATTCATATAAGTCACTTAGTCACCATTTATATTCTACATTTTTTTATTAAAAAAAGAAACTTTAATCAATATTTATTAACTTATTAATTAAAAAAGTATAATAAAAATTACAAATAAAATTAATACAATTGTTATATAATATTTTTGTTGCAATACTTTTATGGCAAAGAAGGGAAGCTACTTTTTAATGGCAAGAGATAGTAAATTAGTTAATAAATACGGTAAAATCGCAGACATAATAATACAAAACGAGCAAGCATATGCTCAGTTTACTGATGAACAATTAAAAAATAAGACTCAAGAATTTAAAGATCGTGTGGCAAATGGAGAAACTTTAGATAGTTTATTAGTTGAAGCTTATTCAGTTGTAAGGGAAGCTGCTTTTAGAGTATTGAAATTAAAAGCTTATAGAGTTCAATTAATTGGGGGAATTATTCTTCACGAAGGTGATATAGCAGAAATGAAAACTGGGGAAGGAAAAACGTTAACTGGTCTTTTTGCTGCTTATTTAAATGCATTAACTGGACAAGGTGTTCATGTTGTTACAGTTAATGAATATTTATCAAAAAGGGATAGTGAAATAAACGGACTTGTTTATAATTTTTTAGGTTTAACAGTTGGTCTAAATAGTAGAGATATTAGTAAATCAGATAAAAGAGAAGCTTATGCTCAAGACATAACATATACAACTAATGCAGAATTAGGATTTGATTATTTAAGAGATAATATGGTTTATAATTTTGAAGATAAAGTGCAAAGAAAATTAAATTTTGCAATTATTGATGAGGCTGACTCAGTATTGATTGATGAGGCTAGAACTCCACTTATTATTTCTGGAGGAAGCCAAAATAGAATTAATATGTATATGGCAGCAGACGCTTGTTCGAAAACTTTAAAAGAACCAGAAGATGTTGAAATTGATTTAGAATCAAAACAAGTTTATTTAACAGATTCAGGAATCAAAAAAGCACAAAAGTATTTTAGTATTGAAAACTTATTTGATTTTAGAAATACTGAAATTTTTCACTTAATCATGAACGCTTTAAAAGCAAACTTTACTTTCAAAAAAGAAATTGAATATACTGTACAAGATGGAGAAATTATTTTAATTGACCAATTTACAGGAAGAACTATGCCCGGTCGTGCTTATAGTGACGGATTACAACAAGCATTACAAGCAAAAGAAGGCGTAGAGATAGAAGAAGAAACTCAAACTCTTGCTACAATTACTTATCAAAATTTTTATCGTTTATACAATAAGCTTTCTGGTATGACAGGAACTGCAAAAACTGAAGAAGAAGAGTTTTTAAAAATATATAACACTAGAGTTATTGTTTGTCCAACAAATAAACCAGTTATTAGAAAAGATGAACCTGATTTAACTTTTGGTACAAAAAATGCAAAATTAAAAAGATTAGTTCATGATTTAAAAGAGTTAAATGAAATCGGAAGACCTGTTTTGATTGGTACAACTAGTGTTGAATCTTCAGAACAAGTTGCAAGATATTTAGAAAAAGCTGGACTAAAATTTGAAATGATTAATGCAAAAAACCACTTACGTGAAGCAGAAATTGTTGAAAAAGCTGGACAAGTTAAAGCTATTACATTAGCAACCAACATGGCTGGTCGTGGTACCGACATTAAACTAACTGATGAAACAAGAAAACTTGGTGGTTTATTTGTTATGGGAATCGAACGTAACGAAGCAAGACGTATTGACAATCAGCTAAGAGGACGTGCTGGTCGTCAAGGTGATCCAGGGACCTCAAGATTTTATATTTCAATGGAAGATGAATTGTTAATTCGTTTTACAGCTCCAAAAGTAAGACAATATTTCTTAAAACTAGGAGATGACCATATTAAATCAAAAATGTTTACAAAAGCCATTACAAATGCTCAAAAAAAATTAGAAGGTTTAAACTTTGATCAAAGAAAAAACGTTTTAGATTATGATAACATTTTATCTCAACAACGTGAAGCTATGTATTCTCAACGTGATGATATTTTACAACAAGAAGATTTAAAAGTAGTTCTTTCAAAATTCCAATACACTATTGCATTTGAAATAATTGAAGAGTGCTCAGAATTAGTAAGAGGAGAAAGAACTGTTAATGTGGAATTATTAATTAAAAGATTAAATACTCAATACATTGTAAAAGATTCATTAGAAGAAAAAGATTTAATAGGTTTAGAAAAACAACAAATGGCAAAAATAATTCAAAAACATATGATGGAATTATATTTACAAAAAGTTGAAGGAGTTCCTGAAAATGTTATTCACGAAATGGAAAGAAGAACTATTTTACAATCATTTGATAGATTTTGAACTCGTCATATTAACCTAAGCCAAAAATTAAGAAGTGGAATATATCTACAACAATATGCACAAAATAACCCTTTACATGAATATGTTGAACAATCAGCTAAACTATTCAACAAAATGAAAATTAACATCGCAACAGAAGCAGTTGATAGATTGTATCAATCATTTAATGGTGAAGGTAGTGTTGAAAATAGTTCTAGATCAAAAATTGATTTGGGGAGTTTAGGCTCAGATGATATTTCAATTCAAGTTGCACCACAACCTCAACCAAAAGAGCAAGTTATAAATGTTACAGAACAAGATATTGATAACATTTTAACTGAAATTGGAATTAAACCTGAAGACTTTTCTAGACCAAATGTGGAAAAAAGATTTGCTGAACTTAAAGAAGAGTTTAAAGACGATTCTCAAAAAATGAAAAAACTAGATGTTCAACAACATATTATTTCTGGATTAATGGATAAATTAGATGAAGTTGTAGATCAAAAAAGAAGACAAGCACTTGAACTTACTCAAGATGGTATTGATAAAATTGTTGAAAAGTTTGGTCTTAAAGGAAAATTATTTACAACACAAGAAGTTAAAGAAGCATTTGAAAGATTGTTACCAGAGCAAAATACGGAGGAATTAAAAAATCAACTTGATGTTGAAGCAAATATTTTAAATGCAATCGCAGAAGCTATTGAAAGAAAAGCAGAAGAAGATAAAAATGTTGGTGATAATAAAAACGAAGATAAATCTGGTGAATATGTTATGAAAGATAAAAAAGGTAATGTTGTTAAAAAAATTAAAACAAACCCAGATGGATCAATTAATGAAGATGAACTAGAAGACACAGAACAAGTTCAAACAAAAATTAAAATTGGATAATAAAAAATCTCTTAATAATTATTAAGAGATTTTTTTTCAAAATAAGGAGTGATAAATAATGGCTAATGATTTAATGATTAAAGAAAATATTAACAATTTGTTTAATAGTAATCTAGAGTTAATGGAATTTACAAAAAAAATAACACAGCAAAAAAATAAAATAATTATATTTTTAACTTTAGCAATATTTTTAACTTTATATTCTCCAATTCCAACTATTCTTATTTGGTTTAAGAGTTTTGAAAAAGTTTATATTAATATTCTAATAAGTGGTTTATTTCTTGCTTTAACAGTTTTTGGAGTTGTTTTATTTATAATGTCATTTTTGAAATATAAAGCTTTTAAAAAAGTTAATATTAAAACAAAATTGATCAACATTTTATTAAAAGATAATTTTTTAAATAATGTTTATAAAAGTTCATTTTATAAAAATATAAAAAATTGAAATATAAATGAGTTTCATTTAAATATCTTAAATGAAACAACTATTTTTAATAAAACTAAAACAAGTATAGAAAAAAATTATTTAGTTCCTCAAATAGAAAAAATAAAAAATTTAAATTGTATAAGTTTTATTTACAAGGACCATAAAGTAAAGTTTTATATTGATAATCCAATAAAATTTTTAAAAGAACAAGATAAAAATAAAGAAGATTATTTTAATAAAGATATTTATATTTCAAGTGCAATTATTTTAATAGATAATATCTTATTTAATAAAGAATATGATGATGTAATTCTTTATAACAAATCTTGAAAGAAAAACTTTTATAAAACAAACTATAATGACTTTGATAAAAAGTATTGCATAAACTTAAAGCAAGATGATGCAAGAGCAAAAAACTTTTTAAAAGAAGAGTATATTAAAGCTTGAGCAACTTTAAGTTATGATAAGTTATATTCGATAGGAGTGAAGAAAAATATTTACGCTAATATTTTTCAAGTTTCACAAGTGCAATATTTTAATCAAATTGGTTTAATAGACTTTGAAAATTTTATTACTATAAAAAACTTAAAAAACAAGCTAATAAAAAAAGTTCAACTTGATTTAAATATGCTAAGTAACTTATTTTCTTATTTGAAAATTTTTTACTAAATTTTAAAAATAAATTAAAATATATAAAAATTTAATTTGTTATGTTATTATCATTGAGCGTATAAATCAAACTAGGCAAAAGCCTAGTATTTTTACATAGGTGGTTTTTTATGATTAAAGAAAGAAGAAATTTTGAATTAGTAACTGAATATAGTCCAAGTGGAGATCAACCAAGAGCAATCCAGGGTTTATTAAAAGGATTAGAAAACAAAAGAAAACATCAAGTTCTATTGGGGGCAACTGGAACAGGAAAAACATTTACAATGGCAAACATTATAAAAAATATTAATAAGCAAACTTTAGTTTTAGCGCATAATAAAACTTTAGCGATGCAATTGTACATTGAGTTAAAAGAATTGTTTCCAAATAACCGAGTGGAGTATTTTGTTTCTAACTTTGATTTTTATCAACCTGAAGCGTATATTCCTTCAAGAGATTTATATATCGATAAAGATGCAAAAAGAAATAATGACTTAGAAATGATGAGACTTAGTGCAAAGAATGCATTAATAACTAGAACTGATACAATTGTTGTTGCATCAGTCGCTGCAATTTATGCGAGTCAAGATCCTCGTGAATATGGTGAAGTATTTTTTGAATTAAAAGTTGGACAAAAAATTTCTAAAAAAGAATTATTGTCTTTTTTAGTTAGAACAGGTTATATAAGAAATGATAATGCTCTTGCAATGGGAGAGTTTAGTGCAAAAGGAGATATAATTCAAATTGCTCCAAGTTGAACTGATTCATTTAATTTAAGAATATCAATGTATGGCGATGAAATTGAAGCACTAGATATAATGGATGTTTTAAATAACACAGTTAAAGATAAACTAAGAATGTTTACAATTTTTCCAGCAGCAGCTTATGTTACACAATGAGATAAATTAAAAAAAGCAATTGAAAATATTGGTAATGAATTAGAAGAGCGTGTTCAATATTTTTTAGACAAAGGAAAAATTTTAGAAGCAGATCGTTTAGCTAAAAGAACAAAATATGATATGGAAACCTTAGAAGAGTTTGGGGTATGTAGCGGGATTGAAAACTATTCTGCTCACTTAGACTTTAGACCTCCAGGAGTTACACCATTTACATTACTAGATTATTTTGAAAAAGATTTTTTGACAATTATTGATGAGTCACATATGATGATTCCTCAGGTTAGAGGAATGTTTAATACAGATAGAAGTAGAAAAGAAACTTTAGTTGAACATGGTTTTAGATTACCAAGCGCATTAGATAATCGCCCTTTAAACTTTGAAGAGTTTGTAAAAAAATTAAATAATGTAATTTATACTTCTGCAACTCCAGGAGATTATGAATTAGAATTAGCAAATCATGAATATGTTGAGCAGATTATTAGACCAACTGGTTTGATAGACCCAATTATCACAGTGTTGCCCACAACAAATCAAATTGAAGTCATCATCGATAACATCAATAAAGTAGTTGAAAAAAAACAAAAAGTTTTCATCACAGCTTTAACAATTAAACAATCAGAAGACATAACAAGTTTTTTACAAGGAAGAAATATTAGAGTTGCTTATCTTCACTCTGAGTTAAAAACTTTAGAACGTAATGAAGTTTTATCAGATTTAAGAAAAGGTGTTTATGATGTTATTGTTGGAGTTAACTTATTAAGAGAAGGTTTAGATATTCCTGAGGTTAGTTTAGTTTGTATTTTAGAGGCTGACAAACAAGGTTTTTTAAGAAACACAAGAAGTTTAATTCAAACAGTTGGTCGTGCTGCAAGAAACGTTGATGGAAGAGTTATATTTTTTGCAAACTCAATTTCACAAGCAATGAAAGAAGCTATGGAAGAAACGGAAAGAAGAAGAAATATACAAATCGCTTATAATAAAGAACATAACATTACTCCTAAAACTATTATTAAAAAAATTAGTGACTTTGGAATTATGGATTCTAAAATAAGAAGCGAAATAGATAAAATAAATAAATCTAAAAAAGATAAAGCAAAACAAAAAGAAAAGTTAATTGAAGGAATAAGAAAAGAAATGTTACAAGCTGCAAAAGAACAAAATTATGAAAAAGCAGCAGAGTTAAGAGATATTATTTTAGAAATTCAATCAGATTAGGAGAAAAAAAATGAGTTTAGATAAAATTATAGTTAAAGGGGCAAGAGAAAATAATTTAAAGAATGTTGACATCACTATTCCAAAAAATAAGTTAATTGTTTTTACAGGTTTATCAGGAAGTGGAAAATCATCCTTAGCGTTCAACACAATTTATGCAGAAGGAGAAAGAAGATACATTGAATCACTATCATCTTTTTCTAGACAATTTTTAAAATCAACTGAAAAACCAGATGTTGATGACATCGAAGGATTAAGTCCTGCAATTTCAATTGATCAAAAAACTACAAGTCATAACCCAAGATCAACAGTTGGAACGACAACTGAAATTCATGATCATTTAAGATTACTTTATGCAAATGTTGGTACACCTTATTGTATAAATGGACATGGTCCAATTAAAAGTCAATCATTAAAAGAAATAATTAACTCTATAAAAAAAATGACAAGTGACAATGAACAAATTTATATTTTGTCACCAGTTGTTAGAGATAAAAAAGGAACTCACAAAGATTTATTTTCAAGATTGCAAAGAGAAGGTTTTATTAGAGTTCAAGTTAATGGCGAAATAAAAACTTTAGATGAAGAAATTGAATTAGAACAAAATAAAAGACATGATATTGATATTGTTGTTGATCGTTTAGTTTATAAAGTAGAGGATGAAGATTTACAATCAAGATTATATTCTGCGATTGAAATTGGATTGACTTATTCAAATGGTATAATAAAAATAAACTATCCAAATAAAAATAACGAAACAAAACTATACTCAACAAAATATTCTTGTAGTGAATGTGGATTTATGATTCCAAATCTAGAACCAAACTTATTTTCATTTAATAAAAAAGTTGGAGCATGTGAAACTTGTTCTGGTTTAGGAATTAATCTAGAAGCTGATCCTAGTTTAATCATTCCTGATACAAGTTTATCAATTAAACAAGGTGGAATTTTATATTACAAAAATTTAGTAGGTACTCAAAACTTAGAATGACAAGAGTTTAAAATTTTGTGTGACTATTATTTAATTGATATGGATATGCCAATTAGCTCTTTAAGACAAAAACAAGTTGATGTAATTTTATACGGAAGTGATGAACCACTTGAAGTAACTTTAAACTCAACAAGTGGGAATGTTTTTAACAAAATGAATTATACAGAAGGTCTAGCAAACTTAATTGAAAGAAGATATTTAACAACTAAGTCAGAAGATAACAGAAAATTTTATGGTAAGTTTATGTCATCAAGAGTATGTAAAACTTGTAATGGAAAAAGATTAAATGAACTTGCATTATCTGTAAAATTAAACGGACTTAGCATTGCAGATTTTGTTGAGCTAACTATAGAAAATGAGTTAAATTTTTTATTAAATCTTGAATTAACAGATCAACAAAAACAAATTGCTTCATTAGTTTTAAATCAGCTTTTATCAAGAATAAGTTTCTTAAATGAAGTTGGATTAAATTATTTAACCTTAGCAAGAAGCGCAACAACTTTATCTGGAGGAGAGTCTCAAAGAATTAGACTTGCAAAACAATTAGGTTCAAAACTTTCAGGAGTTTTATATGTTTTAGATGAACCTTCGATTGGTTTACATCAAAAAGATAATGATAAACTTATTGCAACATTAAAAAAGCTTAGAGACTTGGGAAATACCTTAATTGTTGTAGAACATGATGAAGATACAATGAAGCATTCTGATTGAATTGTTGACATTGGACCTGGAGCTGGAGTTCATGGTGGAGAAGTAGTTGCACAAGGAAGTTATGATGATATTTGTAATGAACCAAGATCAATTACCGGACAATACTTATCAAAAAAATTATCAATACCTGTTCCAAAAAAAAGACGTGGTGGTAATGGTAAAAAACTAGAAATCATTCAAGCAAGTGAAAATAATTTAAAAAATATTGATGTAACTATTCCGTTAGGAAAGTTTGTAACTATAACAGGGGTTAGTGGAAGTGGTAAGTCTACATTAATGGAAGAAATTATTTATAAAGGTTTAAGAAAAGAAGTTGCAAAAGAATTGATACACCCAGGTAAATATAAAAAAATGAAAGGTACTGAAAACATAGATAAAATTATTTATGTTTCTCAAGATCCAATTGGAAAAACTCCAAGATCAAATCCTGCAACTTATACTTCAGTTTTTGATGATATCAGAGATTTATTCGCAGAAACTCCAGAAGCAAAAATGCGTGGATACAAAAAAGGAAGATTTAGTTTTAACGTTCCTGGCGGAAGATGTGACGCATGTCAAGGTGATGGAGTTGTTAGAGTTGATATGCAGTTTCTTGGTTATGTTGAAGTCATTTGTGAAGTTTGTGAAGGTAGAAGATATAACGAAGAAACTCTACAAGTTAAATATAAATCTAAAAATGTTTGAGATGTTTTATCTATGACAGTAAAAGAGGCTGCAGACTTTTTTGAAAATATTCCTAAAATAAAAGAAAAACTTGATACTATACTTGCAGTTGGACTCGGATATATTAAACTAGGACAAAATGCAACAACTTTGTCTGGTGGAGAAGCACAACGTGTTAAGCTGTCTACTTTCTTATTAAAAAAATCAACAGGCCAAACTTTATTTTTATTAGATGAACCAACAACAGGATTACATGTTGATGATGTAAATCGTTTAATAAAAGTTTTAAATATTTTAGTAGATCAAGGAAACACCGTTTTAACAATTGAACATAACTTAGACTTTATTAAAGTTTCGGATTATTTAATTGATTTAGGACCTGATGGAGGAATGGCTGGAGGGGAAATTCTTGCTACAGGAACTCCAGAACAAGTTGTATTAGCACAAAATAGTTACACAGCAAAATATCTAAGGGAGTACTTAAATGATTAATGTAGAAGAAGAAATTGTTCCGATGAGTTTGTTTTTCAAAAAACAATATAATTTAAAAAAACTATTAGCAGAACAAAAAAATCCACAAAATAATTTTAAAGTTATTAGTGTTGTTGGTACAAATGGTAAAGGATCAACTTCTAATTACATCTATAAAAACTTATACAAAAATAATAAAAGTGTAGGATTATTTTTTTCACCTGCATTTATTTATCACAATGAAAGAATACAAGTTAACAATCAATGAATAGAAGATGAAATTTTATTAAAAATCATTGAAGATAGTAAACCATTATTTGAAAAGTATGAGTTAACTTTTTTCGAAATATGAACTTATATAGCAATAGTTTATTTTAATTTAAAAAAAATTGAATTAGCAGTAGTTGAAGCTGGAATAGGTGGAATGAAAGATGCAACAAGTTTATTTGAAAATCAAATTGCAGTTTGCTTAACATCGATCGGATTTGATCATACAGATGTGTTAGGAAATAAAATAGAAAACATAATAGAAAACAAAATAAAGATTGTTAAAAACAATAATAAAATCTATACAACTATAAACAATTATAAGTATGATGATATTTTTAAATCTTTCGTAAGCAATGAAATTATTTACTGTGAACCAACAAATAATTTAACATACCAAAAGTATAATCAAGGAATAGCAAAAGAAGTCTTAAAGTTATTTAATATTCAGTTTGATGCAAATACTAATGTGCCTTTAGGAAGACAATCAGTTTTAAAGGAAGATCCTAACTTTATTATTGATGGATGTCATAACTTTAATGGAGCAGAAGAACTAGTTAAATCTATTAAAGATTTAGATAAGTATACTATTTTGTTTGCATCAAGCAAAGGTAGAGAAAACAGTGAAATGGTAGCGTTTTTAAAAAGTAAATGCAAAGAATTTTATGTAACTACTTTTGATCATTTTAAAGCCTGAGAGTTAAATCTTGTTAATGAAGATAATAAAGTTTATGATTGAAAACAGTTTTTAAATGATAATATTAATAAGGATATATTAGTGTGTGGTAGTTTATATTTCATACCATTAGTATATAGGTGATTTATGGGAGGTAAATAATGAGTAACTATTATATAATTACTAATGTTATTGGTTTTCTAGGTGTTGCCGCTTTATTTGTCGGAGCATTGGCTTTAGAAAAATTTACTTTTAAAAAAATTTCAGTTAGACATATCACAGTTATGGCAACTTTCGGAGCATCTAGTGTTGTTTTAACTAATTTGGTTGGATATAACATTCCTATTCTGGGAAATGTTAGATTAGCTTTTGGAGATTGAATTATCTTTTTACTAGGAATGATGTTTGGTCCGTTGTGTGGGGTAATATCTGCTATTGCGATTGATACAGTAGGAAATCTAATTCCTAATGCGTTTGGATATCATTCGGGTTATATGATGAACAAATCTATATTAGGAATTTGTGGAGCACTTGTTTTTATATCAAAAAAAGATAACTGAATTATTTTAAAAACAGCCTTGTTCTACGGAATTCCTTATACTTTACAAAGTTTATTATTTAATCAAATTTGAATGATGTCTTGAAAAGGAGAAGCTGCTTGATTAGATATAGTTCCCAAACTAATAAAGCTACCAATTACTTTACCTATTTATATAATAATTAGTTATAGTACTTTCAAAGTATTACAAAAACTACTGGATAGATGACAAACAGAAGATATATGATGTTTTAAAAATAGAAACATGCAAGTCTTAAGTTTAGAATTTGAATAATGGTTATGCCATTATTTTTTTCACAAAAGTTGATATAATAATTAAAGAAAAAAGGATATGGCTTATGAAATTTAAAAAAAGTTATTTTGAAAATAGTTATTGTAAAAATGCTTATAACTCTGCTCAAATTGAAGGGAACAAGTTATCAGCGGTAGTTTTTGAAAAAATTATTTTTCATTTTGACGAAAAAGAAATTTGAAGTGAAATTTATAAAGACTATTCAGTTGATTATAATCCGATTCTTGCGAAATGATATGAAGAAGCATGAGGTTTTAAAAGATCATATTCACTCTTGTATAAAACAATTCAAAATAATAGTCACGATAGACTAGATAAAAATTTAATAAAAGAGTTTCACTTAATCTTAATGGAGTTAGTTAGTAATTTTGAAAAAGAAAATAAAGGTAATTTTAGAAAAGCAAATGTACACATTTCAAATACCTGTGTAAAAAATTCATTTCCTGAGTATATTGAAAAAGATTTAGAAACAGTAATTGATATTTTTTATGAAATGAGAAAAAAAGTAAAGGATTTAGAAAGTAAAATTCAAGCTTTAGCATTTTTACATTGTGGTTTTGAAATCATTCATCCTTTTGCTGATGGCAATGGAAGAGTAGGAAGAATGATATTAACTTTAGAAGCGTTAAAAATGGGTTTGCCTCCAATTTCAATTGATTTTAAAAATAGAATTTTATACTATTTAGCATTACAAAAATCTAGTGGTACATCTAATCCTATTTCAAATTCAGTTATAGAAAGAATAAATATTGATAATCTAATAACAATGCAATCATTGCTGTATAAATCGATAAGGAAAGAACTAAAATTAAATGAAGATAGCGATGATGAAAAAGGATATATGGAATTTAAAAAAGTTGAACCTCATGACTTTAAAAAGGAAAATTGAGAAATTTTAGATAAAAAATATAATCAGTATATCTTAGATGAATCGATTGCTATTTTAGATTTTAAAAAAGTTGTTAAAAAAATGAGAGAAGAATGAACTAAAAAATATGGTTATACATTCAAAGATTAATTAAGTTATAATCTAGAAGTGAGGTATCTTTTATGAGAAAAATTACTGTTAGAAAAGTAGCCGCTAAACTAAACTTAGTAGTTTTGGCTGGTGAAAGTGGATTAGATAATTTTATTCAAGTTTATGGATTAAATCGTGCTGGATTAGAATTAACTGGAAATTTTGAAGAAGGGGAAAAAGCACATAGATTAATCTTGATGTCTACAAAAGAATATAATTATATAATGAAATTTAGTGATGAAGAAAGAAAAGTTAGATACGAAAAACTTTTAAACAAACATATTCCAGGAGTTATTTTAACTAAAAAGTTTGATGATCCTATTTTTGTACAAGTAGGTCACTGTCTTGGAATTCCAATTTTACAAACACAAGCCGAATCTACAAGTGATTTTTCAAAAGATGTTTTAGACTTATTAGATGATTATTTTGCACCAACTACAGAATTACATGCTTCTTTTATAAATATTTTTGGACAAGGTACTTTATTGACTGGAGAATCTGGAATAGGTAAATCTGAGTTAGCGCTTGAGTTAGTTAAAGCAAACCACTTATTTGTTGGAGATGATAGAATTGTTGTGACAAAAAAAGCCGGAGCACTTTATGGTAAGTCGCATCCAATTTTAAAAAACTTAGTTGAAGTAAGAGGAATCGGAATTATTGATGTTGCAAAAACTAATGGTTATAAAGTTATAATGGAACAATCAACAGTTGATTTAATTATTGAATTGTCAATTTTTAAAAAAGATGGAGTAGATGATTCTGAAAGATTAGGACATGATTTTAATACTAAAAATATTTTAGGAATGGAAATTCCATATATAAAAATACCTGTATCTTCAGGAAGAAATATACAAAATATTGTTGAAACAGCTGTATCTAAATTAAAAATTAAAAATAGTGGCCTTTATAAAGATGATGCAGATTTATTAACAGAAAGAATGAGAGATTTTTCAGATGATGAATAGTTTTGCCTATGATAATCCATTATGAAATGCTTGAGTAACAGGACAAGGAGAAGGAGATAATCTTTCTTTTTTATACTCAACTTTTTTAGTAATAGGTACATTTGTTACTTTAATTGCAACTTTTATAACAATTAAATTAAGAAAAATTCCTATGCAAGAATTGATTCATGCAACTTATATTGTTATTGGTTGTGGTGTTTTAGGGGGATCAATTTTTGGAAAACTAGGTACAGGAGTTCCTTTATATAGAGTTGTGTTTATTTGAGAACCAGGAATGAGCTTTTTTGGAGCTTTTTTATGTGGTTTTGTTGGAGGTTTTGCTTTTTTATATGCAAAAAGACATAACAAAAAAATCTCAATTTATGCATATGCTGATTGTATTGTTCCTAATGTATTATTAGGTCAAGCAATTGGAAGATGAGGAAACTTATTTAATCATGAAATTTTAGGTAGAACAACTTCTGTGGAAAAATTACAGTGACTGCCTTCATGAATTTGACAAAGATTATTTTATTATGTAGATCCAGCAACAGGAATGGAAGCAAAAGATTTAGTTTATAAAGAACCATTATTTTTATATGAAATGTTTGGAACTTTAATAAGTTGAGTTGTTATTGTTTTTGTGATTCAAAATTTAGGTAAATGATTTAGTAAAAAACCTTGAATAGTTGACCCTCAAGCATTTCCAATAAAACATCCAATTAAATTAAACCAAATAAAAAATGTTGATACATATATTGATATTAAATATAAACAAGTTTATATAAAGGGAGAAGAGTTATATAAAATGTCTAAAAGACAAGCCTGATTAAAAGCATATTTTGCTTATCAAGCTGATTTAATTGAAGCAAATAAAGCGCAAAAAGTTATTGATGATCATAAAAGTATTTATTTAAAAGCAACAGAGCGATATAAGGTTTTAAAAACAAAATTAAAAGAAGAAATTACAAAAATTGAATATAAATATAAAAATAATAAAATCGATAAAAATGAATTATTAAAACAAAAAAAAGAACTTGCAGCAAAGTTTAAAAATGATAGCGAAAAATCAAGAAGCGAAAAATCAAGATTAAAATCATTTTTTACTTTAAATAGTGAAAAATTATATGAAATAAACAATCCTAATAAATATTTTGTAATTAAATCAGGAGTAATGTCTTCAAGTTATATTATAATTATTGCATTGATTAGAATTATTCTTGACTCATTTAGAACTAATTATGAACTCGCATTTAAATGAAGCCCTGTATTTAACTACTTATCTCTAAGTGGAATTATGTTTCTTGGAATAATCTTTTTAGTAATATCTCAATTTATAGCGCCAAAAAAATGGAGAGAGGAAGGCTGATTATATGAAAAATCCTATTAATAATGATTATGATGTAATTATTGCTGGAGCAGGTCCTGCTGGATTGACTGCTTCAATTTATGCTGTTAGATCTGGAATGAAGGCTGTTGTTTTAGAAAAAGAATTACCTGGAGGAAAAGTTGGGAAGACAGGGGAAATAGAAAATTATCCAGGTTTCGATAAAATTGAAGGTCCTGAATTAGCTTTTAAATTTGTAGATCAAGCAATAAAATTAGGAGCAAACATTGAATACTCTGGATTGAAATCATACAAAAAAGAAGGAAATTCATTTATTGTTCAATTAACTAATGGAAAAACTATAACAGGAACAACTTTAATTTTAGCAACTGGTACAAAAGAAAGGCTATTAAATGTGCCAGGAGAAAAAGAGTTATATGGTAAAGGTGTATCGTACTGTGCGGTTTGTGATGGAGCTAATTTTAAAAATGAAGTTGTAGCAGTTGTTGGAGGAGGATATTCAGCAGTTGAAGAATCTATTTTCTTATCAAGATTAGTTTCAAAAGTACATCTAATTCATAGAAGTCAAAAGTTTAGAGTTGACCAAAAACTTCTAGATAAATTAAAAGCAAATGAAAAAGTAGAATTACATTTAGATAGTGTTGTAAAATCAATTAATGGTCAAAACTCTGTTGAAGGTGTGACAATTCAAAGTCTTTTAGATAATAGTGAAAAAAGCATTGGTATTAAAGCAATATTTCCTTTTATCGGTCAAAATCCTGTTACAGAATTCATTGAACAAACTACAATTTTAGATGAAAATAAACATATTGTAGGTGATGAAAATATGAAAACAACAATTGAAGGTTTATTTGTAGCAGGAGATGTAAGACGTTCCCCATTAAAACAAATAGCAACAGCGGTTTCAGATGGAGCTTTAGCAGGTCAAAATGCAGTTAAATATATTGAAAACCTTGATTAATTTCAAGGTTTTTGTTTTTTGTGATAAAATTTAAAAGTTAGAGGTGATTTATTAATGGAAAAATGAGAGGACAAGTGATTTAGTCCATACGACGCAAATTGATCTGTTAAAAGTGACTATGGACCATTACACATGTACGCATTTTTTATAACTACTGGAGTTATTGTTGCAATTGCACTTGCTGCTTTTCGGTTATGAAGAAGAAGACTGCCAGCACAAGAGATGTTAATAGCAGCAGTTTTTATAGTTCCTTGCGGACTATTTGGAGGAAGCTTCTTTGGTAAGCTTAATGCCAGTGGAGATGATTGATTAAATGGAGAAGGATTCTTTAAATTGTTTGCATTTTGAGAACCAGGAATGTCAATTCACGGAGCTATATTATTTGGAACAATATCTGCATTTTTAATTCTTTATTTTTTAAGAAAAAAACGTAAAATTTCATTATTTACTTATGGAGATTGTATTGCTCCAGGCATTTTGATTAGTCAATCAGTTGGTAGATGAGGGAACTTTTTTAACCATGAATTATTTGGTAGACCTTTAGGTATATATGGTGGAGTAAATTTACCAAAATGATTACAAGATAATTTAACTTATACTTATAATGGACCATCTGGAAATGTTTTAAATGGTGTTACGCTTGAAAATGGGCAACATTATGTGATGCAACCATTATTTTTATATGAATCAGTTGGATTTTTAATAGTGTATTTATGCATTGTTTTAATCATTCCTGGAATTGGAAAATGAATTGGCAAAAAACCTTGAAAAGTAGAACCAAATCAATTCCAATTAAGCTGAAAAGAATCATGAAAAGCACCATTTACTTTCAATAAAGACTCAATTGATAACACTTATTTTGAAATTTGAAGAAATGCTTTTTATACAAAAGTAGAAAAATCAAGAGTAAATTGATATGAACAAGAAAAAAGTAAAATTACAACAAAAAATATTGTGGCAAAAAAATGAAAAGAAGGGCTTTTATTAGATAAAGCTAATAACCCACATGGATATAAATGTGCAAGAGCAGGTGTACAACTTGGAGCATATTTTTTAGGATGAAATATTATAAGATTTTATGTCGAGACAAACAGAAGTGAAGAAGGTTTATTTGTTATGCATAAACCAGAACTTTCACTTGCATTAGTTGCAATTACTGGAATTGTTGGAGTAATAATAATGATATATGCTCAATTTATTGGACCATATTTATTTAGAACTCCAGGATATATTTATGAAAAACCTTATTTCTTTACAAGAGAAGTACTAGAAAAAGATAACAAAATCGCAGATCGAAAAATTAAAAATAGCGTGGTAAAAATGAGTGAGCAATTAGCAATAGAGGCTGAAAGAAAACAACAAGCAAAAGTACAAACTCAAATGAAAAATCAAGATTCTAAAAAAAGAGAAGTTAATAAATCAACTTATGTTAAACATCCAAGTAGAAGAATGCAAATTCAAAGCAAGCGTGCAAAACATCAAAATATCAAAACTCAAGGACTAAATCGAAAAAAAAAATAATTTAATATATTAAGAAGGTGATGCAATGTCTTTTGCAACAACTGTTAAAGAAGAAATACTTGATCATAACTTTGATAAAGAACAAGCAATTATGTTGCTGTCTGGATTTATAAAATATAATGGAGAATTAATTTATACTTTATCAGGTTTTTCTTTGCGTCTCCATTCAAAATCAAATCATGTAATACGAAAAATTTATGAGTTACTAAAAATAGTATATAGTGGAAATATAGAAATATCTATTATTCAAACTCAAATATTAAAAAAAGATAAAGTTTATCAACTTTTATTGACTGACAACGTGATACACTTTTTAAGTAAATATAACTTATATGATATTGATAAAAGTGCTAAAATTATAAAGATTAGTTTAAACGAGGATTTCGATAATAGCTTGGTACGCGCATATATCTCTGGGGTTTTTATTGCCGTTGGCAGCGTCAATAATCCAGATACCGTTAACTATCATCTAGAACTCCAATTCAAAGAAGAAGAATCTGCTATTTATATTAGAGATCTTCTTAATAAATTTGAATTTGGTTTTAAAGTAATCACAAGAAAAAGCAATTATATCTGCTATGTTAAAAGATGTTTAGTTGTTTCTGATTTTTTAAAGTTTATAGATGCTCCTGAAGCAGTTTTAAAGTTTGAAAATACACGTATATCAAGAGACTTTACAAATAATGTTAATCGTATCAATAATATTGATGTTTATAACATTAAAAAAACATCCAAGACTAGTGATAAACAAATTTCACAAATAGAAGCAATTCAAAAGAATAATCTATTTAGTGAATTGTCAGATAAGGCTCAAAAATTGGCCAACATACGTTTGGTTCACCCGGATGCATCATTTAGTCGCTTAGAAGAACTTATGAATGATGAAGGTATTAGTATTACTAAATCTGGTATTAGCAATTTATTTAAAATAATTGCAAAACTATCGGAAAGCATAGGTGAAATTTATGAAAAGTAACGATGTAATAGCTATTTTTAGTCAAAACATGAAAGAGTTAAGAGTGCAAAAAGGCTTAACTCAAGAAGAACTAAGTTTTAAAGCAGGTATCCACAGAAACTATATATCTGATACAGAGCGTGGTCGCAGAAATGTATCACTAAAAGCTGTGGAAAAAATAGCAGCTGGACTTGGAGTTACAATCCAAGAACTATTTAATAATAGTACTATTACTAAATAAATAAAAAATATGCAATACGTGTTTGCATATTTTTTTTAGCTTTTTTCTTTTGATGCTTCAAAACATTTAATTAATATATCTTTAAAGTTATTATGTATTAAAACATTATGACCAGCTTCAGTTGGACCACCAGGAACTATTATTTTATTTATTAAATCATCTAATTTATATTCTTCACTTAAAGCAAAATTAGTTGTCGCTACAATTGTATCTTTAATAAATTCATTTGCTTGTTTTAGATCATAACCACACTCTTTTGCAAATTCTTTAAACCCATTTATAAATTCATAAATAAAAGCAGGTGCACAACCTGTAAGTGCAACAAACCCTGAAAAATTACTTTCCTCAAGCTCATATGCTTTTCCAAAATACTTAATAATATCAATTCCTATATTTATTAAGTTTTTATTAACTCCATAAGTAACATAACCTGTTGATGATTTGCATTCGCTTGCATTCATATTAGGCATAATTCTTACAATGTTTATATTATTTTCAAAATTTAATTTTATAGTATCAATTGTATAAGCATTCAACATTGATATTATTAACTTATTTTTTTGATCATTTAATTTAAAAGTTTTAAAAAAATTTTTTGCGTCACTCGGTCTAAAACCAAGTATAAATATGTCAAACTGATTAAAATTAATTACTTGTTTGTAATCTAAATAATTACATTTATATAAATTTGCTAAGTTTTGTGATTTTTGCTCGTTTCTATTTAATATAAACATTTTATATTTTGTTTTTTCTAGTTTAATCGATAAAGCTTTTAAAATAGCTTCACCCATATGACCAGTACCAATCATAAGTATTTTTTTCATACTAAAATTATAAAATAAAAAAAAAGAAAAAAAAAGCTATTAATTAGTCATATATCATTATTTTTGTCATTTCATCAATTTCTGGATTGATTATAAGATCTGCATAATTAGAATATAAAATATAAGTCTTAAAACCTTTAGACTTTAAGGTCCTATATATATTTAAATCACTTCGGTAGTTACTGTTAATTAGTAAAATTTTTTTATGTTTTTCTAATTTTTTATAGTAGTTATAGTTAAAAGTCATAACTGGTATATTAATAGTATTTTTTATATGATTACTTGCATAAACAAGTGGACCTCTTATATCTACTACTTGTCATTTATTATTTTTTAAAATTTTTAATAATTTATTTGCTGTTTTTACTTTATACTTTTTTTTAAAAGCATTTGAAGCAAATACCTTGCTTATAAATTTAAATACATAATCTAATCATTGCATGCTATCACCTTTAAAAATTATATTATAATTTGATTAAATTAAAACTTTTTAGCAAAAAAATAAATAGGAGAAATCAAGATGTTTAATAATATTATAAAACCTTTTAGACTAAAAAAAGGTGATAGCATTGCAATAGTAAGTTTATCAAATGGAATATTAGGAGAAGATTTTTGTAAATATCAACTTGAAATTGGAACTAAAAGATTAGAAGAGTTTGGATTAAAAGTAAAGTTTATGAATAATACTTTAAAAGGTGAAGAATATATAAAAAGTAATCCACAAAAAAGGGCAGAGGATTTAAAACAAGCATTTTTAGATAAAGATGTAAAAATAATTATGTCAGCTATTGGGGGAGATGACAGTTATAAGATAATACCTTACTTGATGAATGATGAATTTAAATCGATAGTACAAAATAATCCAAAAATATTTATAGGATATTCAGACACAACTAATATACATTTATTTTTAACTAAATTAGGGGTTTCTACAATTTATGGTCATGCTTTTTTAACAGATATTGCAGAATTAGACACAAGAATGCTAGAATATACTAAGAAATCTTTTTTATCATTATTTGAAAATTTCGAAAGTTATGAGATTCTTTCTTCAAACACTTGGTTTGAAGAAAGAAAATCTTTTGATAAATCTGAGTATAAACAACCAAGAGTAGAACATATAGAAAAAGTTGGATATGAGTTTATCAATTTCAAAAAACCTTTAGAAGGAATTTTATATGGAGGTTGTTTAGAAAGTTTTTACTCAATTTTTACAAGCGATCGATATAATGATCAAACAGAGGTTTTTGAAAAATATAATATTCTACCAACTCTTGATGAATGAAAAAAAATTGTTTTATTTTTAGAAACTAGTGAAGAAAAACCAAATGAGATTACTTTTAAAAACATGTTAAAAGAATTTGAAAAAAGAGATATTTTAAAAAACGTAAAATGCTTAATTTTGGGAAAACCTCAAGATAATATATATTATGATGAATATAAAAAAATACTTTTAAAATACTCTCAAAAATATAATTTACCAATAGTTTTAAATATTAATTTTGGTCATAGTTACCCAAAAAATATTATTCCTTATGCAATTAATGTAAAATTAGATAATTATAGTAAAATAATAAAAGCAATAGAAAGAATTTTAAAATCTTAAGCATAGGTTTTAAAAAGGATTTAAAAATGAAAAATATTAGCAAAAGCACTAACAATGACGATGTTCTTAAATACGATAAAATGATTTCAAGATTTTCAGTTGCAATTATTGTAATTGGAGCTTTTGTATTATTACAAGAAATTTGAACACTATATTTTATTGTAAAATTTAGTTTTAAATATGGAATTTGACCTGTTATTTATGCAATGTTTGAATTAAACCAAATAAAATATCTCATAATAGTTCATGTTTTATTTTTTGCTAGTGGATTTTTTGCAATAATATTTGCGTCAATAATTCATAGAAGGTTAGCTGCTAGAAAAGAAGGAAAAATAGTTTATACAAAAGGAATTTTTGTAATGACAATTATAAGTATTTTTTTATGTTTCGGAATACTTTATTTTGCTTATTGAATAGTTTTGTTAGTAAGACAAAATAGATATAAAGGTATTGAGTCAAATGATCAAAAAGAGTCTGACTATTTAGAAAGCAAGATATTTGGTAGTCGAGAAACTGAAAATATATAAAATAACTTTTACATTATAAAAATTGTTTATTTGATATAAACAATTTTTTTTGTTATCCTATAAACTAGGAGGTAAATATAATGAAAAAATTACTTGGATTCTTGAGTGCGGTTTTAGTATCAACTCAAGTATCAGCAGCAACCATTGGATGTTCTCCAGTGAACTCACACAGAAATAAACCAGTTGATTTTCAAAATCCTGATGCTGATGGTGGAACAAATGATTCTACTGCTAGCAATCTAATGAGTACAAGAAAAATGAACTGAGGAAGTATTTTAACAAAAGATTATACAAATACAAGTTCAAGCAAAGCTAGTTATATGAGCTTAAATGGAAAGAGTATTTCAAGTAGAAGTTTAGTAAATGTAGCTCAAGCAGCAGTTCCTGATTCAGATAAACAAATTTCAACTTTAGCAACAAGAGATTTAGTTTCAAATAGATTAGCTAATAAAACTCTATCATTCAATCCATATACAGACATTGGAATTGTAGAAGACAGCACTGAATATTTACTAAAAAATAAAGGTTTAGGTTCTTCTTACAGAGATGATGTAAAATTTGAAAAAAATGCAGATTTAGTAAATAATAAATATAATGATTTAGGATATCTATGAAAAAATAGTGGCCTTTTTAATCAAAATGAAGATGGAATTACACTTGGGTTTATGCAAAACGCAAGCGATGAAAGTGAATTAGTGCCAATGTGAGACGCAGCACCTAATTTAACTTCTAATGAGTCAGCAAAATGATTTCAAGACAGATGAGATAAATGAGTAAAAGAAGAATTGGATACTAAAAAAGTAACTATCTCATTTGGACCTTTTGCAAATTCATTTTGACATGAAGCATACAAAAATAACTATACAGAAGAACAATTAGCAGATAAATTAGCTGAAATATCAACAAAGTATGGAACAAAAAAATTTGACTTTTATTTTGCGGCCCCTTATTTAACTAATACAGGAAGTTATGCAGATTCACAAAGATTATTAGCAGGTGCGCTAAAAATATTACTAGAAAGAGATAATGAATTTGATTTAAGATTATCATTAGTTGTTTCAACAAAGAGTGGTATTTCAAGTGTAATAGCTAGTCAAGGCGGATGAAATGGAGATATAAGTTTAATTGGAAGCGAAGAGTTTCCATTGTACATGTTTACAAAATTTTTAGGGATGAATTTTAGACTTAATTTAGTTCTACCTTATTTAACTTGATCTGATTTCAACACATCTCAATTAAAAGATAAAGAGAATTGAGAAGAACAAATAATGGAATTAGCAATTACTAATACAGAAAATACTTGAAAAACTATCAATCAAAGAGTTAACGGTTCAAATGCCATAAAAATAGATAACGCTTACAGTAGAATGGCTATTACACCTTGAATTGGAAGAAGAGCTGAAAAAGCAATTTATGACTTTAATGCAAAGGATGCAGAAAAGTTAAGAGTATTTGCAAAAGCTAAAAAAATTGGTCAAATTTCAATGTTTTATTTAACAAGAGATTACCCTTCATTATTTGAAAGTAACGGATTAAACGAAGATGCATTAGCTGATAAAAACCCAATCGATCAAAATATAAGATCTGGAAGCGGATATGAGAAATTTACATATGCAAAAGTCTTAACAGGAAAATTATCAGGTACAAGTATACCAGAAGAAGCTACAGGTGAAAATGTTAAATCACTATCTGGTTTTATGGATTATGATAGAGATATTCGTCAAAATACTTCATTAGATGAAATACAAAAACAACAAGGAGCAAGTGGTTGAGATGGTGTAACTGGGGGGAATGAAAATCAATGAAGTGAAGGTCAACCTTCAACAAATGATGGAAACGTTATCGCTCCAACTACTCCAACTGTTTCATCTAAAAACAACTATGTAAGTTGAGAAGATGCTAACCCAAACAGAACTAAAAATGTTACTGAAAAAGCAAAAGAAAATGGTCAAACATATTTCTCACCTTACTTAGATGCTGGATTATATGAAGGAAATAATGTGGATGATATTGTAAAACAAACTGGATTAAATCACTTAACATTAGCATTTGTTCAACAAGTAAATGCACACAATAATAACATTGATTTATCGGTAGCTGGAATTGAAAATAAAGGTGAAGGATATAATTGATGAAAAGAATCAGTATTTTATCAAAAAGCTTTATTACCATTAATTAATTCAAATAATTTTGGAAATATTAAAGTTGCATATGGTGGTGCTACAACTGGTGGATATATTGAAAAAAATCCATGAAACTTAGCATATAAATTAGCTGGAGGAGATATTAATCAAGCAAGTAGTTTACTACAAACAGCTCTTGAAAATTACAATAAAGACTTAGCTGATTTTGCTAGTCAAAAAAGTGGCAAATCATTATCAACACCAAAAAATATTGACTTTGATATTGAAGGAGAAGCTCAACATGATACAACAGGAAATCAAGTATTAGCAAAAACTTTAGCTAATATGAAAAAACAAGATAAATCATGAAACTTCTCAGTTACACTTCCTGTTTTACCATCAGGTTTAACAAGAGATGGATATGCAGTTATGGATACTTTTGTAAAAGCTTACAAAGAAGCGGGATTAAGTTATAATGAAGTTCCTGTAGTTAACTTAATGTTAATGGATTATGGAGATCCAATTTATATTGCAGCTAAAAATGCTGGAAAAACAAATTACGATCTTGCAGTTGAAGCAATTGAAAATACAAAAGAAAATCTTGCAAAATCAATCTTAAATAATTACAAAAAAAGTTCTATTAATAATGGAGAAGTTTACAACCTAATTGGTGCAACACCAATGATAGGGGTAAACGATACAGTTGCTGGAGTATTTACATTAGAAGATGCAAAAGACTTATACAACTGAGCTCAAAATAATGGAATTTCATACATTGGAATGTGATCAATGAACGATGATAGAGGAAAAATTAGCAATATTTCTAGACCAAAATCACTAGTAAGTCACGGACTGGGTTATTTAGGTGAATATGACTTCGCAAAAGCATTTAATGGATCATGAGATGATGGTGTTAAAACACCTAAGAAAAAAGCTTAATTATAAAAATTACCTTAATAGGTAATTTTTTTTATTTATATAGGCTGCATTTTTTAGTCTAGAAGTTCGTAGTTAATTAGCAATAGAAAATTTAGTTTATGTATACCAAAATTTTATTTTTGACCTGCACATATTTTTTTAAACTATGCAGTTTTTGCAATAATATTTTGCTCAACTATTATTAAAATAATTCATGAAATTAAAAAAGCAATTATTATTAAAGGTATGAGACTATTTACTATATTTATTCATTGATTTTTAAAACAAAAAAACAAAATAAATTTTGAGTCAAAAATTAAACATTAAAGGTCAATTAAATACTTGATAAAAAACTATTAGAACATAAAGATATTTAAAATAATATAAACTTATACATATTATTTTAAATATTGTTGTAAAACTCAGCATATTAGTTTAGAATATTATAGTAAGGTTTAAACTATTAAATAAGAATTGGAGGCGAAAAATGATGCTTGAAATGTTCGCAAGTTCTTCTGAAAGATTGCTGGGTAATAGAGTCATTTTTGCGTTTGAAATATTAGCATTAATAATATCTGTTATGATGATAACAATTGGTATGATTCAAAACAAAACTTCTCAAACTGGATTAAGTGCTCTTAACGGGGGAAATGACGAGTTATTCTCTAACTCAAAAGAAAGAGGTTTAGATAAAACTTTATCAATATGAATGTTTAGTCTAGGAATAATTGTTTTTGTTTGTACAATAGCTATTGGTGTAATAACACATGTTGTACTTGTCGAGCCGCAATCTGCTTCTTAATCTTTTTATTTGTAGTTAGAAGGTTGGTAAAATAAATGAATGACCAGGTTTTAGCAATTATAAAAGAAAAAGAAATACTTCACTTAAATGACATAATTAAATTAATAAATGTTGATCAAGAATTAATCACAAATTCTTTAAAAGAATTACAGTATGACTACAAAATTGGATGATCAAAAGATAATGTAGTTTATTTTATCGGACAAAAATATAGAGTCGGATCTTTAAGAATAAATGATCGTGGTTTTGGTTTTGTTAAAGATTTAAATGATCTTGAACAAGATTTTTTTGTACCTCCAGATGCTTTAAAAGGAGCTATTACAACTGATGAAGTTGTTTTTAGTGTATACAAAGAAGATGATAATCGTTATAGAGCAGTAATTGAAGATGTATCTTTAAGAACAAAAACAAATCTAGTTGGAGAAATTCGTCCATCAAGAGATGGCAGATTTTTAGATTTCCATGCAAATGAACCAGGATTTAAAAATTATCGTATTGTAATGGTTAATGCAAAAGACTTTCAACTTAAAAAAGACTTAATAATAAAAGTAAAAATTTTATATGTTAAAGAAAAAAAGTTATTTACAAAAATTCAAAAAGTAATTGGAGATGCTAATAAAGCTGTCGATAGAATAATTTCAATCGCTTATGAATTTGATATTAATCCTGATTTTAATAGACAAACTTTAGATAATGCAGAACTTGTTGCAAAACCAATTGATTATAATGATCCAAAAGTTAGTAGAAGAAAAAATTTAATTACAAACAAAAATTTAGTAACAATTGATGGAGTTGACTCTAAGGATTTGGATGATGCTATTTATGTTGAAAAAACAAATTATGGTTATAAATTATTTGTTGCAATTGCTGATGTAAGTTATTATGTAAAACCATTTTCTCCATTAGATAACTCTGCTTTATTTAGAGGAAACTCAGTTTATCTTGCTAATAAAGTAATTCCAATGTTACCTGAAAAACTATCAAATGGAGTTTGTTCTTTAAATCCAAATGAAGATAAATTATGTATGGTTTCAGAAATGGATTTTGATAATAACGGAAAAATGAAAAGTAAAAAAGTTTATGAATCAATTATGAACTCAAAAGCAAGATTGACTTATTCAGAAGTAAATGAATTATATGAAAAAAACATAAGCTCAAGAAGTCAAGAAATTATTGATATGCTGTTTATAGCCAAGGAATTACATGAGTTAATAGATAAAGAAAGAACTTCAAGAGGTTCAATCGAATTTGATGTTCCAGAACCAAAAATTATTTTAGATAAAGATAGTAACGTTATTGATATACTAGCAAGAGATAGAGGTATTAGTGAAAAACTAATTGAAAACTTTATGGTTAGTGCTAATGAATCTGTTGCAGAAATTATTTTTGAAAAAAACTTGCCTTATGTTTATAGAGATCATGGTGTTCCAAAAGAAGAAAACTTAATTGAATGACATACTAATTTAAAAGCTCTTGGAATAAATGTTAAGTTAACTGAACTAGATAAAATAAATCCAAAAACGATAAGAATGGCATTAGATCAAATATCTTCTCAAGTGAAAGATCAAACCGAAAGAGATGTAATTAATGTAACTTTATTAAAATATATGGAAAAAGCAATCTATAATCTTGAAAATATAGGGCACTTTGGATTAGCAAGTGAATGTTATACTCATTTTACAAGTCCAATTAGAAGATATAGTGACCTAATGGTTCACAGATTCTTAAAACAATACTTAATTGATAAAGATTACAATGAACATAAATTACAATTAAATGAAAAATTTATTGTAAAAGCTTGTTCAATAATTAATGATACTGAAAAAAGAGCGGTTAATGCAGAAAGAGAAGTTAACAAAGTTTGTATGGCTGAATATATGACAAAACATATAGATCAAGAATACGAAGGAGTAATAGCAGCTGTATTAAAATTTGGGCTATTTGTTCAATTACCAAATTGCGTTGAAGGCTTAATTCACATTTCAGAATTACCAGATTTTAAATTTGATGAAAAAACAAATATTTTAATTAATAATCAAAATAAAATTTTTAGACTAGGCCAAAAAGTAAAAATTAAAGTAAAAAACGCAGATGTAAAAAAACGTATTATTGATTTTGTGCTAGTATAATCATTATTAGAAGGAACTTGATTATGGGAGAGCATGTTATATTAAAGAATAAAAAAGCTTATTTCAATTATGAAATATTAGATAGTTGAGAAGCAGGGATTGTTTTAACTGGGCCTGAAATAAAATCGATTAGAGGAAAAGAAGTTTCGATTGAAGAAGCGTTTATTTTAATTAGAAAAGGCCAAGTTGAAATCTTAAATATGAATATTAAAAAGTATGAGTATGCTCATTATGTTAATCAAGATTCAATTAGAAATAGAAAATTATTACTTCATAAACAAGAAATAAAAAAAATATTAAAAAGAATACAGTTAGAAAACTTAACTTTAGTACCATTAAAACTTTATTTTAAAGGAAATTATGCAAAACTAGAGATTGGCTTAGGTAAAGGTAAAAAACTTGTAGACAAAAGAGAAACTATCAAAAAAAGAGATGTCGAAAGACGCTTAAAAAAAATAAAACAATAGGAGTGATTTTATGGAATTAACACATCAAAGAATTATTTATTTAGCTGTTGCTGTTTCTTTTTTAATTTTAATGATTATTTTAATGACTATAAAACTAATTTTAGATAAAAGGAATCGCAATTTAGGAAAAATCACTTTAAAAGAAATTAACTATACAGGTTTAGCTGGAGTATGACAGTTTACAAAAAGACATATTTTCTCTTTTGCTATACTTGCATGTGGTGCATTTGGAATAATTGCCGTTATTATGATGTTTCAATAAAAAATATTAAAAATTTTTTTCAATTTTCTTTTTTTATTTAGAAAAAATTTTATATATGTTAATATAGAAAGTAGAAAGGAAATAGAAATATGTCACAAAACGAAATGACAAAAGAAAAATCTAAGAAAAAGATTAAAAGCGGTCCACCGTCTAAAGGTTCTATTTATTGAAAAAAATTTAGACAATCTAGTGGTGCAACACTTTCTAAATTAAGTAAAGCATTCTTATTACCAATTGCTTTATTACCAATTGCTGGTGTTTTCTTAGGGATTGGTGCAACAATTGTTGCACAAACTACTGAATATTCAGGTTTTTGATATTTAGGTAAAGTTATGAATACAATGGGTGATGTTGCATTTGGAAACTTACCCATATTATTTGCAGTTTCAGTAGCCATTGCATATACTGAAGATTCAGGGGTTGCTGCTATTACTGCGATTGTTGGATTTTTAGTTATGAATGGTATTCAAGCGGCATTATTAAAAGAAAATCATGAAGCTATCTGACAATGAGTTGTTGATGGTGATCAAAACAAAGCGGAAAATGCAGGTAGTGTTTTTCAAAATGGGTGATTTTGAACTGAGGAAAAAAATGCAGCAGGAGATATTATTAAACAAGGTTGACAATCATATGGACCTGCAGAATATAGTTTATTATGATGAAAAGGAATTCCTGCAGGATTAATTACTGCAAATGTTGGTATTAGATCACTAAATACTGGAGTATTTGCTTCTATATTTGTCGGTTTTATTGCTGCTTATATGTATAATAGATTTCATAAAACTCAATTGCCATCATTTATAAGTTTTTTTTCAGGTTCAAAACTAGTTCCAATTATAAATTTCTTTGCAGTTATACCATTATCATTTGCATTTATATTTATATGACCAGCAGTGGGTAAAGGATTAGAATGATTTGGAACAAAATCTGGAGAATTACCAGGAGGTCTTGACTCATTTATTTATGAAATAATTGAACGTTCTCTAATTCCATTTGGATTACACCACGTTTTTTATGCTCCATTATGGTGATCATCAGCAGGAGGATCAATTATAGGTGCATTAGAAAATTATGCAAATAAAAATGACGCTTGAGATAAAACTGATGTTTTAGCTTCTGGTGCAACTATTAGACAAGTTTATGATTATTTAAATAGTTTACCAGATAAAAGTCAATTAATAGGTGATCAATACATGATGTATTGAATCTTAGGGGGTGCAAATAAATTATCTGCATTGTCTGGAATTAATCCTGATTTTGCCTCTAGTAATGCTCCGCTATTAAATTTTAAAGACTTAGAAAAAATGGGACTTAACTTAGGAAGATTTCAATCTGGAAAATTTGGATTTATGTTATTTGGTTTACCAGCAGCTGGACTTGCCATGTGATTGAATGTTCCTAAACAAAACCGAAAATCAGTTATTGGTATTTACTTTTCAGCAGCATTTACTTGTTTCTTAACTGGTATTACTGAACCTATAGAATTCTCATTCTTATTTTTAGCACCTTGATTATTCTATGGAGTACACATGCCACTGGCTTCTATTGCATTTTTATTAGCTGGTTTATTACATGTCCACGTGACAATGACTGTTTCAGGTGGATTTATTGATTACATAGTATTTGGTCTAATTCCACTAAACCTAAAAACTAATGCATTATATGCAATATTAATTGCACTGGTTATGGCGCCCGTCTACTTCTTTGCATTCTTCTTTGCAGTTAAATATGGAAAAGTACAAGTTCCAGGTAGATCTGGCGAAGTAAAACTATTTACAAAAGCAGATGTAAAAGCTAAAAAAGCAGGAAGTACTGGAGAAGCTACAAAAGAAGCTGCCAGAGAAAAAGCTACAAAAATAATTGAATTCCTCGGAGGAGAAGCAAATATTAAAGCTGTTGACTCATGTGCTTCAAGACTAAGATTGACAGTAGTCGATGCAAGTGTTGTTGATAAACAAGGAATTATGGCTCTTGGAGGAGCTTCAGGAATTGTTGCTAAAGGTACAAGTGTACAAGTTGTATATGGTGGAGAACAAGAAGTTATTAAACCATATATGAGAGAAGTTTTAGCAGAACAAAGAAAAGAAGGTCCAAAGGACACAGATACAGTAGAAAAAACAATAAAATAAAAATTAAAAAAATCCTTTTTAGAGGATTTTTTTAATTTGTTAAAAATTTATAAAATTTTTTTCATAATTGTAATTTATAATAAAACTAGTATTTACTATGTTAATATTTTAAATAGAAATAAGGAGAATTAAATATGACAAATGGTAGAAAAATTGTTTTAGTAGGTTGTGGAGCTGTAGGAACTAGTTTTGTTTACTCAGCAATTAACCAAGGTTTAGCACAACACTATGTATTAATAGATGTTGTAAAAGATTTTGCAGAAGGAAATGAAATGGACTTAACAGATACTCACGCTGTTTTACCTACGCCTTTCGCAACAATCAAAGCAGGAGATTATTCAGATTGTGGAGATGCTGATATCGTTGTTATTACAGCAGGAAGACCTCAAAAACCAGGAGAAACAAGATTACAAATGGTTGCAGATAATGCAAAAATTATGAAACAAGTAGCTTTAGGAATTAAAGGTTCAGGATTTTCAGGAATAACAATTATTGCATCAAATCCAGTTGATATTTTAACTCAAGTATATCAAGAAGTTACAGGATATGACTCATCAAAAGTTATCTCATCAGGAACTACATTAGACTCATCAAGATTAAGAAAATTATTAGGAGCAAAATTAGATGTTTCTCCTAGATCAGTAAAAGCATACCTAATCGGAGAACATGGTGATTCATCAGTTGCTATTTGAAGTAGATCAATCATTATGGGAAAAACTATTGCTGAATATATTCAAGAAGGAGTTGTGACTGAAGCTGAATTAGAACAAGTAAAAGATGATGCAACTCATATGGCCTATAAAATTATAGAAAAAAAACGAGCAACATTTTATGGAATAGGAGCTTGTTTAGCTAAAATTGTAAAAGCGGTTTTAAATGATGAAAAAGCATCAATGATGGTTGGGGCATATTTAACAGGACAATATGGAGTAGAAGATGTTTACATTAGTGTTCCATGTATTGTTGGAGCAAAAGGTATCGAACAAATCATTGAATGAAAATTATCAGATGATGAACTTGAAGGATTACGTCACTCTGGAGTTACATTAAAAGAAGTATACAAAACTGCAAAAGCAGCAATCCAAGAATAACAATTCTATAATATAAGACTTCCATATTTAAAAAATAATTTTTAAATATGGAAGTCTTTTTTATTTACACTATAAGTTTTCATAAATTTGATATAATACTTTTGTTATATTTTTAGAAAGAAGGTTATTTATGAAATACTACAAAAATATGAAAACCCTATTAATTTGAGGTTTTACTACTGTTGTGGTATTGTTTTTTTTAAATAGTATATTTATATATGCTATTGATTTGCCAAAAATCATAAAAAATGAATACATGTATGGTGAAAAATGAAAACAACTTACAAAAGTAGTTATGGACACTTTAGGTATTTTATCTTTATTAGCTGGTATTATTTCTTGTATTATGTTTTATAAATCTAAAAAAGACTTTTATATAGTATTGTTTTTAACACTTTCGATTGTAGGTACTGTATTTATTTTTGCAATTAACGAAATATTGAATATTGAATATAAAAAAATAATGAAATATTCAAGATTGGGTGTTACTCTTGTTGTTTGTGGTTTAATAACTGGAATTTACTGTAAAAGTATATTAGAAAAAAATAAAGAAAATTTGGATTCTAACATTACTTTTGATCAAAAAAACGCTATTTTTTTTAAATACGGTGCAATATGTGGCATTATTTCAATATTAATATCTTTAATTATTGCTGGTATTAATTTTTATGAAAAAAATTTTAGATTTGAATTTTTAGGGTATGATTTTACAAATATAATTATCTATATAAACGGAATCACAATGGCACTTGCGATTTTAAATTTATTATTCTTTATTCTTTATCTAACTACAAAAAAAAGATGAACAATTACTACAGGACTTGTTATGCTTATAATACTTTGATCATTTGAAACAGGTCCAATATCTGTTATTAGTTGTGTGTTTTTAATGGTTGGAATCGTTTCTAGTTCAAGGAATAAAAGAAATGAAAAAAATAATGATACATATTTAAATAAAGAAGAAAACAAAGAAAATATAGAATAATTAAAAAATAAAAAATTTAGTAAATAAACTAATAAATATAATTCTCTAAGTATACATTATGTTAAAAAAAACATAAAATTATACAAGGAGAATTTTTTATATGGCAAATCATAAAGGCAACAAATCAACAATTTTAGACTTAAACGCTAAAAAAGATCATGTGAATAAACATTTCAATGAGCATATTTCTTACAAAGAATTATCAATGATATATAACATTTCTTATTCAGCGGCTAGAAGGATGTGTATAGATTGAGAAATTTATGGAGAAGCAGTACTTATTTCTAAAACTGGAAAGCACAACAAGCACAATGGTAAAGTTAAGATTAATTCAAAAGATCCAAAAGATTAAAAAATAGCAGAATTAAATAAAAAATTAAAATGGCTAGAAATGGAGAATGAAGTTTTAAAAAAGTTCAATGAACTAATGGAGGATTCAGAAAAAGAGTAATAAATTACTATAAAACCATAGAGAAATATAAAAATAAGTACACTGTTTTATCATTATGTAAACTATTTAAAATTACAAGAGCAAGTTATTATAGATGATGCTGTAAAGGTAAACCAGAATATGATTTAAAAATTGATATGAATCTAGCTCTTAAGATTAAAAATATTTTTACAAATAATAATGGAATATATGGATCACCTAGAATTAGAATTATTTTAAATAATCAAGGTTTAGAGGTAAGTCAAACCAAAGTAGCTAGGATTATGAAAATATTCAAATTATATTCAATTATAAGGGTAAAAAAAATGTATAGAAAGCCAAAAGAAATTAAAACAATTACTCATGGTCCAAATTACGTCAATAGAAACTGATCAATATTTTTAAAAAACGAATGTTGAGTAACTGATGTTTCTTATATACCTTTGAATAAAAAGTTTGCTTATTTAAGCATTATTAAAGATGCTAATACTGGTTTTATTGTTGGTCATAAATTATCACTAAAAAATGATGTTGAACTATATAGAAAAACGCTTGAAAAGGCATCTTTTTATAGAAATGATTTATCTAAAAAGCTTATAATTCATTCTGACAATGTAAATCAATACACTTCTATATTTGCGAAAAAATATGCTAAAAGAAATAATATTATTATTTCGTTATCTAGGCCCGGCAATTCTATAGATAATGCAATGTGTGAAACTTTTTTTTCATCATTAAAAGAAGAATGAAAACAACAACTAAAACAAAATAACTTTTTAGATTTAGAAAAATCAATTGATAATTACATAGAATTTTATAATTATGAAAGAATAATGGTAAAACATAAAACCCCACCAGCCTATGTTTATTTAAAACTAACACAAAATAAAAAGAATGTTTCAAACTATGTTGAAACATTCTTATAAAAAACATTATGTATACTTGACAAAGTATATTTAAGTAAATAAATTAACACTTTTTTGTTTAGATTTTTATATTTATGATAATATTTTTTAGAAAGGAGATATATATATATGAACGCTGGATATTGAAAAAGATATGCTATGAATGTTGTTAATGCTTTATTAATATTTATGACATTAGGTGTATATTTTATTATTTGTTGTATTAGATTTTGATCTGGAGAAAAAAACATGGGTATGTATGCTGCATCAGTTTCTTACTCTGATAGTTCTGCAATGGGTAAACTATTTTTATGCAGAATTTTAGAAGCACTTTTCTGTATTTTGTTTATCCCTTTAATTATAAATTTTATTACAATAATAATGAAAAAAGGAACATTTGCTGAAAGATGAGCAAATAACTTCTTTATTGAAGACTAATAAATAAAAAATGCCAATTGGCATTTTTTATTTATTAAATTATTTAAAAATAATTATAAAATTGTTTTATAATTATTTTATGGGGGTGTCCCGGTTTCGACAGGATAACTTTAGTCCATAATTGCAGTGGTGTAGTAGACCTTAATTACTTCTAGGTTTGATAAAATGCAAACAAAAAATCAGAAAAAATTGAAATGCCAGCATTTATGATCAATAACGCATCAGCTGGAGCTATGTTAATGGCTTAATTAACCCTTTAAGAGTTAATAGCAGTTCACGTTAATTTTGGTTACTCGTGTTTTTCAAAATTAATGCAATACTAAATACGATAGATAATATGATTTTAGTAATAAGTATTATCGAAAATCTATTACTAACGCTATAAATTAAATCTCGCTTCTTCTGTTGATTTATAGTGTAAGTTAGAAGAAACTAAACTGTAGACGTTGTGGTTCGGAGTATTTTGGACGCGGGTTCGATTCCCGCCATCTCCACCATTTTTTTTTGTTTTATAAGAAAGGTTTGTGATTATTATGAATATTTTATTAGCAGCAATTGCATGTCTTTCTTATACTGCAATCGTAGCAATTGTTTATACATTTGCTTGAGGATTATCTAGACATTTATTTGAAAAAATAAAAATTTATTATGAATTAGTTCTTGGAGTTATTCTTGGAGTTATATCTATTTTTGGAGTTATTATTCTTTCGTTAACAATGGGAGAAAATAAAAACTATATGTTATTAATTTTATTACCAATCTTTTTATATTGAACTTGTTTAATATTTATTTCAATTTATGCAACTATTGGAGTTGTTGTTTGAAACTTGTTAGGCTTATTTTTATTTCCAACATTATTCCCACAATACTTTATATCATTTTTAAACACAAGTTCAATTATTTTAATTATTACAAGTTACTTGATGGCTTTTGTAATATATATAATAAATATTTTTTATAAAAAATTAACTACCTGAGTAATTTGATCAATCATTACAATTACATCATTAATCGTTGGAATAGTATTAGCTTTTCCAAATATTAAATCCGATGGCACTGTTGATTATTTAATAACAATATTGTTATGATTAGGAACTGGATATATTACTTATGCATATTTTGCTATTATAAATCAAATTTATAATCATGCTTTAAAATTAAGAAATTTAGTTACTTATGACTATCAATACTATTTAAATCAAGCATCAGCACATGATGAAATATTAAATTACATACATAAAAATAAAATTAGATTTGGAACTTATTTCACATTTTTCATTTCTAACTATGATAAGTTTGATGAAAAAGTAAATAATGAAATTAGAGAAACAGTAGTTACATCAATTGCAAAACAAGCTCATGAAATTTTTACTAAAAATTATAATCAAGTAATTTTTTTTAAACCTAACTACAAAACTTTTGGCATATTTATTCCAATGCTTGAAATGCAAAATAGTGTTAAAGAAGAACAAAGATTAAAATTTGCAGAAAAAATTTCAAGGTCTATTTCTAAAATTCAAACAACTTTTAAAATAGAAAATTTTAAAGTTAGTATTAAAGTTAGAGGTGTAGTTTCATATTATGGGTTTCATTCAAATAGTTTGGAAACTCTTTTTGAATATAATGTTATTACTCAAAACAATGCAGCTTTTAGCGATAGAGAAAAAGTTGTATTAGTAGACCCAAGAAAAGTTTTAAAAGAAAAGACTAAATATAAAAAAATCTTAACCTTAAATGAATTGGTTTCATTAAATAATTCTGCACCAATTTTTGAATCAATTTATAGTATTGAAAAAAATGATTATGAAAGTTTTTATTTAAATAGTGCCGTTGAAGGTATTGAAATAACATCCAATTTATTTAAAGAAAAACTTGAAACTATTAAAGAATATGGACTTAACTCAATATTTATAAGGTACTTAGCTTTGAATGCTTTGAAAAGTATTGCTAAATACAAATCTTATAAAAAAAGAAATTTTATTGAATATGATCCATTATTTATCTCCAGTGAAAGTTTTAGTGTAGATAGTTTTATTTTGAAATTAAAATCTTTAAAAATAGATTTGAAAAAACTAGTTTTTAACTTTCCTATAACTCAAGAAGTCGAGAATAGAGATTTACTAGAAAAAAACATTAATGAACTAAGAGAAAATGGAGTTAGTTTTTCAGTATCAGATTTGGGATCAGAAGCAACAGATTTTGGTCTTTTAGGAATTTATAGACCAAATTATGTTTTTTTGGAAAGAAGTATTGTAAAAAAAATAAATTTAATTAAAGAAAATGAAAAAATTATCAAAAATATTATTAATATTTGTAATAAGATTAATGCAAAGTTAGTTGCAACAGATGTAGATACATATATGATTTACAAATCATTAAAAGAACTTGGTATCAAATATTTTGAGGGAAATCTTATTGGTCATGGAATAGAACCAAAAATGGAATTAGAAAACGAATTAAAATACTTATTAGTAAAATAAAAGGAGAAACATGAAAGAACAAAACATAGTACCAGAGCAGCTCGCCGAAAGATTGAATGAAATTTTAAAAGCAGATGATATTATTTTATATAGAGAAACTTTAAAAAATTATTATCCCGCAGATTTAGCAGAGGCTTTAAGTTGTTTACCATTAGAAAGAATAATAATTGCATTAAGAATTATGCCAACAGAAGATTTGGCGGAAATATTTCCGCATTTTAATAATGAAATACAAGAAGAAATTATTGAATCATATACTTCAGTAGAAATAAAAGAATTATTTGATCAAATTTTTACAGATGATATTGTAGAAATTTTAGAAGAACTACCTTCAAATATTGTTGAAAAAATATTAAGAGCAACTACTCCAGAATCAAGATTATTGATTAACTCAATTTTAAAATATAATGTAAATACTGCAGGAAGTATAATGTCTGTTGATTATACAAGTTTAAAAATAAATTGAACGGTTAAAGAAGCGATAAATATTATTAAAAAAGAAAGAGATGAAGCAGAAGAAGTTCATTACTTCTTTGTAGTTGATGATTTAAATAACTTAAAAGGAGTAGTTGAACTAAAAACTTTATTTTTTTCAAAAAATGAGGCATTAATTGAAGATATCATGGATGATAGATACATTTATGCAAATACAAAAACAGATCAAGAAGAAGTTGCAAATATGTTTAAAAAATATGACATAACAACTTTACCGATTATTAATAGTCAAAATAAACTTGTAGGAATAATTACAGTCGATGACATTTTAGATGTTTTAGAAGAAGAAGCTACAGAAGATATACATATTATGGCAGGAATAAATCCAACAGAAGATGAATATTTTAAAACAAGTGTATTTAAAATGGTTAAATCAAGAATTATTTGATTGCTATTACTAATGGTTTCTGCAACTATAACTCAAGTGATAATTTTAGTTTTTATGAATCTTTATGGTGTTACAAAAGAAACTGCATCATTTGATATAGGAAATAATAATTTTTCAATAAGTTATGTAATGGCAATACTATTGACCCCTTTACTAACAGTAATATCAGGGACAACGGGAAATGCAAGTAACCAATCTTCAACTATGATTGTTAGAGCGCTTTCACTTAAAGAAGTGGAACCAAAAGACTATTGAAGAATATTATGAAAAGAACTAAGGGTATCAACAACACTTGGATTAATTTTAGTTGCTATCAACTTTGTTCGTATGATTGCAATTTATGCAGTAGAGTTTAAAGGAAATATCAATCAAAGAGAGTTATGGTATGCAATAGCAACACTTTCAATATCGATGTTTTTAGCAATTGTATTTTCAAAAGTAATTGGAGCAACATTTCCGTTGCTAGCTCAAAAGATGAAAATTGATCCAGCTATAACAGCAGGGCCATTACTTACAACAATTATTGATGCAATTTCAACAGCGATATTTTTTGGAATAGGAATGATTTTCTTTTTTGTTGTATTATAGAAAGTAAAATTATAGATGAGATTAAGAAATAAAAATTGAACAAAAGAATATATTGAAAAAAATAATAGTTTAATGATTAAAACAGAAAACAAAGTTATGGTAGAAAATCTTTTTGAAAAAACTCAAAAAACATATTTAGAAATAGGTTGTGGTAAAGGACAATTTATTATTAAAAATGCAATTAAATATGAAAATCAAAATTATATAGCCATGGAAAAAGAAACAACTGTTATTGGTATTGCTATAAAAAAAGCTATAGAAACTTTTAAAGGTCATCCCAAAAACTTAAAGTTTTTAAATTGTTATGCTGAAAAATTATTAGACATTTTTTTAGAAAACACATTTGACGGAATTTATTTAAATTTTTCAGATCCTTGACCTAAGAAAAAACATTATAAAAAAAGATTAACTTATATTTGTTTTTTAAATATTTACGAAAAGCTTTTAAAAAAAGATGGCTTAATAGAAATAAAAACCGACAATGATAATTTATATGAGTTTAGTTTAGAACAAATAAAAGACTCAAATTTTGAATTAATATTTAGTACAAATGATCTATATAAGTATGAAAAAAATTTAGTTAATAACATTGCTACTGAATATGAAGAAAAATTTCATAGTCAAAATAAAACTATAAATAAATTAGTTATAAAAAAAATCAGATAGTTATTCATTTTTAATGTTATCTGATTTTTTATTTTCAATTTGTTCTTTTGACTTTTTATAAAAATTAATATAATTTTTTTTAAACTTATCATTGTTATTTAATAGATAAGAATTTATATTAAAAAATATATAAAAATATACTAAGTTATAAACCATTACTATTATAAATGCTCACCAATAACCGCTTGCATAATCTGCCCACTTTAGTTTTTGAATTTGTGCTCCACTAGTTAAATGAATAAAAAAACAAATCACTGCAAAAAATATTATAAATATATGGATGTATCTACTTGATTTAACTTCTACACTAATTACATTTGTTTCTAAATTTGTTGTTGTATGAATATCGTTAAATAAAGTTACCGAAGTTTTAGAGAAATTTAAAACTATACTAATAAAATATATCACTAAAAAGTTTAGAACTAATTGACATGATCATATAACTTTTTGTTTTTTATCAATCGAAATTGTAAATACAACTATAAAAAGAATTATTATTGTTGTAAATATAATTGCTCCCATTCAAATAAGCGGTTTTTTTAAAACTGGTTTTACTAATTTGAAGTCCATATTTATCACCTAGACTTTATTATAAATTAAAATTAGGAAAAATTTTTATTTATAAGTTTAGCACAAAAAATAAATAAAAATATGTGTAAAATAAGTATATATTTAAAGGAGAACAATTAATGACGCCACATATCAGTGCTAAAAAAAACGAAATTGCAAAAGTTGTTTTAATGCCAGGAGATCCATTAAGAGCTAAAATGATTGCTGAAAAATATTTAGAAAATTATAAATTAGTAAATAAAGTTAGAAATATGTTTATGTATACTGGTGAATATAAAGGTATTGAAGTTACTGTTGCAGGAAGTGGTATGGGTTGTCCTAGTATAGGTATTTACTCATATGAATTGTTTAACTTTTATGATGTTGACTATATAATCAGAGTTGGATCATGTGGAAGTTATCGTAAAGAAATTAAAGTTTATGATATTTACAACGTCAAAGAAGCATACGGAGATAGTAATTATGCAAAAATCGCTGCTAATATTGATGAAAAAGTTATTCCTGCTGGAAATAAAATTTATGAAATAATTCAAAAAACAGCAGCTGAAAAAAAAATAAGCATGCATACTGGAAGAATTTATTCTTCTGATGTTTTTTACACATATGAAACAAAAGAAAATTTTGCAGAAGATAATAATTTAGATGTTGTTGAAATGGAATCATTTGCATTATTTGCAAATGCAATTCATGCTAAAAAACAAGCAGGATGTTTATTAACAGTCTCAGATAGTCTTATAACTGAAGAAAAAACAACTGCAGAAGAAAGACAAAATAATTTTTTATCAATGATAGAACTGGCTTTGGATTCAGTTTTGAAAATAACAGATTAAACTGTTATTTTTTTAAGAAAGGGTTTTATGAATATATTAGCAATAGAATCAAGTTGCGATGAGTTTAGTATCGCTATAATGATTGATGGAAAAATTAAAGCAAATATAATTTCTTCGCAGATAAAAGATCATACTAAATATGGAGGAGTTATTCCAGAACTTGCTTCAAGATTACATGTTAAAAATTTTTCTTATGTTTTAAAAGAAGCTTTATATGTAGCAAATTTAAAAATAGAAGAAATTAACCAGATTGCATATACTGCTAATCCAGGTTTAATAGGGAGTTTAATTATCGGAAAAATGGTTGCAGAAACATTAGCGTTATATTTAGATATTCCAATTATGGGTCTTAATCATATTCAAGGTCATATATATGGGGCTGCTATTGAAGAAGACTTTAAATATCCTGTTTTAGCACTTGTTGTAAGCGGAGGCCATACTCAAATAGTTTATTTGAAAGAGTCTTTAAATTTTGAAATTATAGGAACAACTCAGGATGATGCAATAGGTGAATGTTATGATAAAGTGGCGAGAGCAATTGGACTTGGTTATCCTGGTGGTCCTAAAATTGATAAACTTGCACAAAATGGTAATGAAAATTTTTATAAATTTCCAATTGTTAAAAATGACGAAAGTCTAGATTTTTCATATTCTGGTTTAAAAACAGCAAGTCTTAATTTAATCAATAAACTTAAGCAAAACAAGGAAGAAATAAATTTAGAAAATTTTTGTGCAAGTTTTCAAAAATCAGCAATTGATAACTTAATGATAAAGTTTGAAAAAGCTATAAAAAAATTTTTTCCAGCAACTATAACAATTGCAGGAGGGGTTTCTTCCAACAAAATGTTAAGAAAAAAAATTTTTTCCATTTCTTCAATGTATAATATAGATAGAACAATAGTACCGAAATTGCAATACTGCACCGATAATGCTGCAATGATTGCTAAATTATGCAATGAATATTTAATCAAATAAATTTAACAATAGACAGGAGAATAACAATAAAAAATGAGATCATTTTTAAGTAAATTAACAACAATTGACGAAAAAGATTTAACAATTAAAGAAAAGAAAATAGTTGATTATATAAAAAACCACCTTAAAGAAATCGTCGAAACTAATATGAAGATTGAAAGAATGGCACAGGAAGCTGGAACTGGTTATAGTGCAATATATGGATTGTTAAAGAAACTAAATATAAAAGGATTTAGAGATTTTGCCATTTTATTAGCAAATGATGCAGAAAACCAAGAAATTAATATAGCGAAAAATGATGAAAATGTTGTTTATGGTTATATTAATTTAATAAAACAAAATTATGCACTAATTGAAAAAAGATCTATTTTTGAAACATTAAATGTAATTAGAGATGTTTCAAACGCAAGAGTATTCTTCTGTTATTGGGAGAATTTGTTATCTGGACCAGCACAAGAACTATTTAACTTCTTTTATAAAGAAGGTTATAATGCAATATTGCTAGATAGCGATCAAGAAATCTTAAAAGATAGAATAAACTCTTCGGTCGAAAATGATGTTTTTGTATTTTTCACAAGATATGGAAACTCATCTAGATTAAATAGTTTTATAGAAAGTATTGGAGAACTTAAAAGAAAAATAGTTTATGTTTCTGGAAAAGTGGCTTCAAATAACATTACACAATATTTAACTTCAATTCATACTTTAATAGTAGATAATCCAGATCAAAAAGTATTTAAGGGTCATATTTCTCAATCCGTTCCATTTAACTATTTTAATGACCTATTAATTTATCATTATTTAAATTCAGAGGGATAATTAAATGAGTATTTATAAAATAAAACCTAGTTTTTCAAAAAGAATTTGAGGTAGCTCAAAATTAAAAGAACTAGGTTTTAACATAAATAGCAATGATGTTGGTGAAGCTTGAGTAGTTTCGGCACATGAAAATGGAATGGGTTATTTGAATTGAAATGGTAAAGAAATCAGTTTAAAAGATTTTTACAAACAAAATAGTTTTTTTAAAAATAAAAGTGAGCATTTTCCTTTGTTAGTAAAAATAATTACAGCAAATGATTTTTTATCAGTCCAAGTTCATCCAAATGATGATTATGCTTTAAAAAAGCATAATTCACTTGGAAAACCAGAAAGCTGATATATTTTAGATTGTCCAAAAGATGCTACTTTAATTTATGGTCATAGCGCAACTTCAAAAGAAGAATTTGAAAAAGCTATTGAAAATAATCAATGAGATAAAATTTTAAAAAGAGTACCAATTAGCAAAGGGGACTTTTTATATGTTCCACCTGGAAAAATCCATGCTATTACCCCAGGAGTTACATTATATGAATTGCAAAGATCAAGTGATATTACATATAGACTTTATGATTTTGATAGAGCAGATCAAAATGGGGTTAAAAGAGAATTACATATCGATGATTCTTTAAATAATATAAAAATTCCAGATTCAAAAGATATTATTATAAGAAATGCAAAAGATAAGGTTTTTGAATCAGAGTATTTTTCATTGTTTATATATGAAAAGAATAGTAATTTTAAAATTGAAGAAAATGTTGAATGAATGTTGATGACTATTATTGAAGGTAATGGCAAATTAAATAATATTGAAGTTAAAGAAAGTGAATCATTGATCTACTTAGTAGATGAAGATTTAAAAATGGAAGGGGATTTAAAAATTTTAATATCATGAATTAAATCTTAATTAAGGTGAAAAAATGAAAGTAAAAAAAATTGGTACCTTCAATAAAGTGAGAAAAGTTTTTGTCAATTTATATAGTGCATTAGAAAAACCATTTGCACCGACAAAATTCTTTTTAAAAAAATATGATAAGAGTGTCTGACCACTTATTAAAACTAATAATGTTGTTAGAAGGTTTTATAAAAGAGAAGAATTAGTAATTGAAGATTACGAAAATGTTGAACTAATAAATTGTAAATCAAGAGATGGGGTGAATATATCGGCTTATCTTTATACTCCTAATAAAAATTCTAACAAGTGGGTAATTGCAAGCCATTGGTTCGGTGGTTATAAAAACTGGTCATTACACCACGCAAAAGTTTTTACAAAAATGGGATACAATATTATCGCTTTTGATTTCAGAGGGCATGGTGATTCACAAAACATTCCAACCACAATGGGATTAAATGAAGTTTATGATTTAATGGGAGTTTTTGACTGACTTAAAGAAAATAAAACTATAGATCAACTTGCTCTTTTTGGTATAAGCATGGGAGCGTTTTGCTCAAATTTTGTTGCATTAAAATATAGTGATGAATTCAAGCAAGCAAATTTGAAATATATAGTTTCGGATTGTGCATATGGAAGTGTTTATCGTTTATTAATTCATGTTAGAAATATATATTTAAAATTATTTATTAGTAAAAAAAGAGTTAAAAAAATAATTAGAAAACTTATAGCTAAATATAATGAGTCGGAACATAATATTGATTTAAGAGATGCGAGTGTTTTTAAACTATTAAGAGAAGGGTATAAACCAGTATTTCCAACTTTATTTTTTCACAGTAAAGATGATAAAGTAACACCACCAACTGATACTTATGAATTTATTATTGAAAGAAATAAAATGGCTGGTGATGACTATCTTATTTATTCTTATTCAATGCATACACAAGCAATAAGAGAACACTTTAAAACTTATAATTTTAAAATTGCCAAATACATTTCTAGTATGGATAAAAATAGAAAAGATTTTTATAATGTAGTAGATGAGTGAAGTTTGGTAGAATATAATAAAAGAGATCAAGAAGCAGCAGATCTTAAATAGGAGGTAGTATGGATTTAAAAGATTTATTTTTAAATTATCAAAAACATGAGAGTCAAAATGTTACTTTTTTAGGAAGAGTGAGGAGTCATAGACAAGGTAAGGCTGTGAGCTTTTTAGTTTTAAACGATGGTACATCTTTAAATGACGTTCAAGTAGTTTACAAAAGTGAAGTTGAAGGCTTTGATAAAATTAAAGACGCAAGAGTGAGCAGTATTGTTGAAGTATATGGAGAAGTTATTGTAACACCAAGAAAACCTCAACCATTTGAAATACAAGCAAAAAAACTTGTTTTACTAGATCAAGCAGTTGAAGAATATCCTTTACAAAAAAAAGAACATTCACCAGAATTTTTAAGAGAAATTGCTCACCTAAGAGCAAGAACAAAAACTTTTCAATCTATATTTAGACTAAGAAGTTCTTTAGCATACGCAATTCATAAATTTTTTCAAGAACAAAACTATGTATATGTAAATGCTCCAATTATTACAGGAAATGATGCAGAAGGTGCTGGTGAAGCATTTGTTGTAACTACAAGAGAAGATGGAAATTATGAAGAAGACTTCTTTGGAAAAAAAGCATCTTTATCCGTTTCAGGTCAATTGCACGGAGAATCATATGCTCAAGCATTTAATAAAATTTATACTTTTGGACCAACTTTTAGAGCAGAAGACTCTAATACTTCTAGACATGCTGCAGAATTTTGAATGATTGAACCAGAAATTGCTTTTATTGATTTACAAAAAAATTTAGAAATAATTGAATCAATGGTTAAATTTGTAATTAATTATGTAATGGAAAATAATTTAGATGAACTTAAGTTTTGTGAAAAAAATTTAGAATTTGGTTTAATTGAAAAACTAACAAAAGTAAGAGATGCAAAATTTCAAGTATGTACATATGAAGAAGTAATTAATACATTAAAAATAGCAGTTGATGAAGGTCATGTATTTGAAAATAATGACATAAAATTTGGAACAGATCTAGGGTCTGAACATGAAAAATATATTTGTGAAGTTGTTTATAAAGGTCCTACATTTATAATTAATTATCCAAAAGATATTAAAGCATTTTATATGAAACAAAATGATGATAATAAAACTGTTGCTGCATCTGATTTAATAGTTCCTGGAATCGGTGAGTTAGTTGGAGGAAGCCAAAGAGAAGATGACTTTGAAAAATTAATTAGACGTTGTAAAGATATGGGAGTAAATATTGAAGAATTAGATTGATACAATAATTTAAGGAAATATGGATATTATAAATCAGCTGGTTTTGGTTTAGGATTTGAAAGATTAGTTATGTATATAACTGGAGCTTCAAATATTAGAGATGTTATATCATTCCCAAGAACACCAAACAATTTATTATTTTAATTAAAAAACTCTTGCAAGAGTTTTTTAATTAATAAGTGATATTATTATCATATAAAGTTTAATTGTCAATAATGGAGGTAAATATGTTAGTATCATTCGTTTTAGTATCTGAAGGATCATTGAGTACCATTGAAAACTCTTTGAATAGCATATTAGCGCAAACTATTGATGACTATGAAATTGTAATTGTTGGTGATAATAACATTAGTGATAATTCTGAGGATAAAGAATTGAAAAAAAAGTTTTGAGAATTAAAAAATTGTAAATTAGTCTTAAATAGTTCTATTCAAGGATATTCTGTTTCTTGAAATATAGCTATGGATTTAGTTGAAGGTGAATATTTAAAATTTATAGCAGCTAATGATTCAATTGAACCGAATTTTGTAGTAGTATTAAAAGAAAATTTGCAAAAAAATTCAAAGGATCAAATTGATCTTATTGAGCATTTGGTAGAACTAGATGGAATAGGAAAAGGAATATCAACTCAGAATTTTTTAGAAAATCAAAGAATTTATAATCTTGAAAATAATTACGAACCTTTTGCTTTTTTAAATCCGATTTTATTTAACAAAATTTTTAGAACAAAATTAATTCATGAATTTGGATTTAAGTTTAGAAGATTTGTAAGGTTTGATATGTTGTTTGTGTATAAATTTTTAGGACAAACAAAAAAATTTCTTGCATTAAATAATTTAAAAATGGGAACAAGATTTTTAGAACAATCAAAACATTCTGCATTTGATATTGTAAATCAGTGAACTCATATAACAAATTATTATCGTAGAATAGGAAAATATAAATTATTAAAAGATTATATTACTTATGCTTATTACAAAACTTTATGTTATGTTTGATTAGAGTTAATAAGATTATATGATAATAAACTATTAATGAAAAAAGCTGTTAGCTTTGCAGAAAGAAAATTTTCAGAAAAAAGAGAAGACTTTATAAAAAATAATGAAGTGTTCAAATTAAAACGTGATGAAGTTTTTAATAACATTTGTGAAGACTTTAATAAATATTTAAAAGATTTATTAAAAACTTCTAAGTAAGGACAATCATGCAAAAAGAAATAAATGCAAAAAATAAATATAAAGAATACACTTCTTCACAAGAGTGGAATGTACCACATTTGGGAAGAATTTTTTTTGCTAGACTATTTGACATAGTTCTTTCTTCAATTCCAATGATTATACTTTTTTTTACATACAAAGCTGAAAACTGAAAAACAGCTGTTGTTGTAACTTCAACTAATTTAATATTTTTATTTTTTTACTTTGTAGTTTTAACTTATTTTTTAAAGGGTAACACTATTGGAAAATTAATTTTTAACTTAAGAATATTAAAAGAAAATAAAAAAATAACTTTTTGAGATATTTTTTTAAGAGAAATTTATTTTACTTTCATACCAATAATAATACAAATTATTTTTCAAATTATTATTATTACAGTTTTTTGAAATATAAATAAAGATAATAACGAGAAGCCCCAAGGAAAAGAAACAATTAAACTACTTCAAAATATAAGTTACTTGTTTTATGTTTGTTGGTATTTATATATTATAATAACAATTTCATTACAAAAACAACATCAAACTGGATTTGATATGAAAAGAAAAATTTTTGTTAAACATAAAATCAAAAAATTAACAGAATTAAAAAAAGAAAAATTAATTAATAAAAAACATACTCATCTTAAAGATGATAGACCAGGTTTAATAAATCTGAATGAACTAGATTTTTTAAAGGAGAAATATATGAATAAGTTTGAAAACTCATTAAGAAAAATTAATGAACTAGTTGAAAAAAAATATTATACAGGAGCAGTATTTGTTGTTTCAAAAAATAAAAAAGTTATTTTTAAAGATTGTATAGGAATAAATGATACAGATATAAATGAACCAATGAAAGAAAATTTATTATTCAAAGCTTATTCTATGACTAAACCACTAACTGTAGTTGCTTTTTTTATTTTAGTACAAAGAGGATTAATTTCATTAGAAACAAAATTGGAAGATATATATGAAGATTTTAAAAATATAAAAGTTTTTAAAGATCATAAAACAAAAGAAACAGAAAGTATAAAAAATAAAATTACAATGAAACATTTATTAACTATGACAGCAGGGTTTACATATCATGGTATGTTTAATCAAACTGAAAAACTTACATCAGTTTTTTTAAATAATTTTGAAAAAAATAATGAAGTTGGTCACTGAGATTATAATAAGTTTTGTAAAGAATTAGCAAAAGTACCTTTAGCATTTCAACCAGGAACAAGTTGATACTATGGAATTGGCTTAGACGTTTTATCAGCAGTAATAGAAAAAGTTAGTGGACAAAAATTTTATGAGTTTGTAAAAGAAACAATTTTTGACAAGCTAGATATGAAAGATAGTGCTTTTAATATTTTTGATAGAAGTCGCGAGGCTTGTGTTTATAATTTAACTACAGAGAATGAAATAAATACTTTAACAAAAAATAATAATTTTGAGTTTTTATTTCAAGATGTTCATGAGCAAACTCCAATAGCGCTAGGTGGTTCTGGACTTATTACAACAGCAAATGACTACAATGTATTTTTGAATTTTCTACTAGATGGTAAAGATAAAAATGGAAATGAACTTTTAGAGTTAAGATTAATAAATGAAATTTCAAAAGACCAAATTAAAGAATTAAAAAAAGATTTTAGATGAACTTTAAATGAAGATTACAGTTATGGTTATGGAGTTAGAGTCAGAATAAAAAACGAGAACTATCCTTTAACAGCTATAGGAGAATTTGGTTGAGGAGGATTACTTGGTTCAACAGCGCTTGTAGATCCTAAAAATAAAATCACTATGACAATTATGTTAAGTTCAAAACCAGGAAATAATAAAATTATAGAGCATGATTTTTTAGATGCTTTTTATAAAGATTTAAAAGAAGAAAAATTAATTTAAGGAGAAATATGCACAGTTTTTTAGAAGGACTTAATGACAATCAACTAGAAAGTATAATTACTACAGATGTTCCGTTAAGAGTTATTGCAGGAGCAGGTAGCGGTAAGACAAGAGTTATAACAAACAAAATTGCTTATCTTGTAGAGCAAGAACAAATAAATCCATTCAAAATTTTAGCAGTTACATTTACAAATAAAGCTGCAAATGAAATGAAAAATAGAATAAAAAAAATATCACACAATAAATATACTATTCCTCACATAATGACTTTTCATGCATTTTGTGTAAGAGTTTTGAGAGAAGATTATGAACTTTTAAATTTAAAAAAAGATTTCGTTATCATTGATACAAGTGAGCAAGAAAAAATAATTAGAAAGCTTTTAAAAACTTTAAATTTAGATGATTCTAAAAATAAACCAGAAAGAAAAATAATTTCAAAAATAAGTAAATGAAAGTCTAGTTTTGTTACTTGAGATGATGCATATGAAAGTAGTTTTAATCCTACTGATAAAAGTTATGCAAAAGTTTATAGAGATTATGAAGATTATTTAAAAGAAAATGGATATGTAGATTTTGATGATTTACTTTTAAAGGTTCATGCACTTTTAAAATATAATATTGAAACTAGAAAAAAATGAATAAATCGTTTTAGTTATATTTTAGTTGATGAGTTTCAAGATACAAATAATGTTCAATATGATTTAATAAAATGATTAACAGATAAAAGAGGTTGTTTAACAGTAGTTGGAGATCCAGACCAAACTATTTATTCTTGAAGAGGTGCAAAGGTTAACATAATTTTAAATTTTGAAAGAGAGTTTCAAAATGCAAGAACAATTTTATTAGACCAAAATTATCGTTCAACAAAACCAATTTTAGATTTAGCAAATAGTTTTATTCAAAATAATAAAAATAGAGAAGATAAAAATATTTATACTCAAAAAAAAGAAGGAGAAAAAGTAGAAGTAAAAGAATGTGCTACAAAATATTTTGAAGCAAAATATATAGCAAAAAAAATTGAAGAATTAGTTAAAAATCATAAATATGCATATTCAGATATTTTTGTTTTGTATAGAATAAATGCTTGATCAGTAGACTTTGAAAAAGAGTTTGCAAACTCTAAAATACCTTTTCAATTAGTTGGAGGATTTCAATTCAGAGACAGAAAAGTAATTAAAGATGTAACTGCCTTATTAAAAGCAATTGCAATAAAAGATAATTTTTCTTTTGAAAGAGTATTTAGTTTTGTTCCTAAAGTTGGTGCAGTAACTGCTGATAGATTATTTAATTGTGCAGAAGAAAATGACTTAAATATGTTTGAACTATTAACACAAAGAGAAGATTTAGTTGCAAAAATATCTAAGCACTTAGGTGAAATTACAAATGTTCTAAGAGATTGTAATCAAATGTTTTTAGATAACAAACCAGTTGTTGAAATTGCAAGCTATGCAATTAACAAATCAGGATATAAAGAAAGACTTGATTTAAAAGATAAAGACGGAGTAGATTCTAGTGAAAACTTAAATGCTTATTTAGATCAAATGAGAAGATTTGATAATGATTATGAAGCAAATGAATCAGATGGAAATAGATTAATTAAGTTTCTACAAGAAGAAACATTAAATATGACTTCAGAAGATATATTTGAAACCCCAAATAAAGTAACTTTAATGACTATCCATGCAGCTAAAGGGCTAGAAAACAAAGTTATATTCATAGTTGGTTTAAGTAGTGATGTTTTTCCATCAAGAATGAGCATGTATTCTAAAGAAGGGTTAGAAGAAGAAAGAAGAACTTTTTATGTTGCTATAACAAGAGCGCAAGAAAGACTATATATTTCTTATGTTTCAGGAGAGTATTCATATTTAGCAAACGGTGAATTTGGACCTAGTCGTTTTATCAACGAATTAGACCCAAATTTATACAGTATTGAAAAAAGTATTTTTTTTCACTCTTCAACAGAAATGTCAAGCAAAAAATACGACTCAGGAGTAGTTGAAACAGTACCTCAAAAACTAGATGCTGGTGTAAAAACTGGTGAAATTATTGAACATTTGATGTTTGGAGAAGGTGTTGTTAATAAAATAATGGATAAATATATTCAAGTATCATTTTCAAATCCGGCTTATGGAACAAAACTAATACCAATAAGTTCAAATAGTTGAAATAAAAAATAGTATTTTTCAAAAATATTAAACTTTTTATATATAATATACTTTGTTAGGAGGATTAAAGTATGACTTCATTTACAGCAAAAGTTATTGATCCAGTTGGGTTACATGCAAGACCTGCATCAGTTTTAACAAAAGAAGCTTCAAAATACGCTTCAGATATTAAAATTATTTGTGGTGAAAAAGAAGGTAACTTAAAATCAATTATGAACGTTATGGCTTTAGCGGTTAAATCAGGGGCTGAAGTAACTATTCAAGCATCAGGAGAAGATGAAAAAGAAGCTATCACAGCAATTGAACACGCTATGAGAGAAAACTCAATTATCTAAATATAAACATAAAATGGTTTTTTTATAATAAAATCATTTTTTTTTATTTAAAGTTATAATTATCTTGTATTTAAAAATTTATTTTAATATTAATTTTAACAAATTTTTTCATACTGTATTTTGAAGATAAAAATTTTAAATAGAGATTATGTAACTTAGAAGAAAGGATAACTATAAAATGATAGAGCTAAAAAATGTTTGTAGAAAACTTGGTAATTTTAGTCTAAAAGATGTTAGTTTTCAAATTAAAAAAGGTGCTGTTGTTGCTTTTGTTGGTGACAATGGCGCGGGTAAAACTACAACTATTAAAGCAATTTTTGGAGAACTAAAAATTGATAGTGGCGAAATTCTTATGGATGGTGAAAATTTATTTTCAAAAAATAATTTACACAGATTAGCATTTTTTCCAGATTCAAACAATATACCGTTAAATATCAAAGTACATGATTATATGTTATATATTTGTGCCGCTAACGGTATTCCATCATCAAAAGCTGCAAAAAAAATTGATGATGTTTACAAACTTTTAGAACTAAGACCATATAAAAATAAGTATATTAAACAACTTTCAGCTGGTTGAAAGAAAAAAGCTATTATGGCAAGTGTTCTAATTAGAAGACCAGAATATATAGTATTTGATGAACCAACAGCTAATGTTGACGTTGAGTCAAAAATGTATTTTATGAGTATTTTAGAATTATTAATTAATCAAGGGATAACAATTATGATAACAAGTCATATTATTGAAGAGTTACAAGAGGTTGCTAACTATCTTGTTTTAATAAAAAAAGGTGAAATTGTTCACGCTTCTGAATTTAATAATAAAACACAACACATTATGGACGTATATAAAAAATATATGAAAAACCCAATTAAGGATTTATCAATTTTAAGAAAATTGTATAACAAGGAGTTATAAAATGGAAAAAACATTTGAACAAAATCAAGTACAACATAATGAAAAATTCAGAAAGCCAAAAGTTAATACGAGAGTAATTTTTTGTATTAACCTTAAAATGACATTTAAAAACCCAGGTGTAATTGTTGCATTCATACTTCATTTGCTTGCATTAATTGCGATATTGTTTGTAGAAACAAGTGTTGGAATTCAACCACAATCTATAAAAGATATTTCTACATATAAAGTTTTATTTTATGTACTAACAACATTATCAACTATATTTTTTGTGATGATGCTTATGTTATTTTTGTTTAAAAAACAAAAAAAATCAGGTATACATGCAATTGAGTTAAGAGCGGGTCTTGCAACTTGAAAATCATATATAATTAGATTTTTAGTAGCTTTTTCAGTTATTACAATTGCTAATTTAATTATTTTAGGATTTGTTGCAATATTAGGAATTTTAATGCCTGTTTCAAATGAATTATACTTAGCATTTCCTTATTCACAAGCTGCGTTTAATTTCTTTTTAGCAATCATTATTATTCTTATTTTATTGCCATTGTTTATATATTCATCAACTATGGTAGGAACATTATTATCAACTGTTTTAATGTTTGCGTTTTCATTAAGTCCTATATTTGCATCAATTAGATATAGTTTTATGGGAAGGGATGTTCAAGATGATTATGCTTTAAAATTCAATGCAATTAATGATTTTTATAATGCAACAAAAAATGATCAAAATGTTAATAAAATTTTTCAAGATGAGGCGGTTTCAACAACTGATTCTAGATCAAAACTTTTAACAACTATTGAAAAAAATTTTGTAGGTTCATCAACTTCTCAGTTTAAAAGTTTAGCATTTCCTATTCCTCAAAACATAAAAGATTATTCAAATAATTTAATGAGAAAATCTGAATCAGAAGAACAGTACCCAATCAACCCTTATGAGTGAAATCTTGTTAATAATGATCCAAGTACAATGAATAATAATTTCTTGAGTATTCCTTTTACTAGTTTAATATGAGACTCAATTTTAACTGACTCTTTAAGTATTGGTCAAGTTAACTATGATTTTTCTTATGTCCCATCAGTAAGCAAAACACAAAGAATTAAAAAAAGTATTTTTGAAGGTACAGAAATAAAAAATGTCTTAGATAAAATTTATGATGCTTTAGAAAAAAATCAAAGCAACATTTCCTCAAATAACGAAAACCAAATTCCTTCTTTATTTATCAATAAGCAATCACAATATAAGGCTGTAAAAACAAAAACAATTCTTGTAAATAATTTTGCAAGGCAACTTGGAAATTATATTCCAGAATTTTCAAATATTTTAAATTCAGTAGCAAAAATTTATGATAAATATGCTGCTGTATTTAATGAACAACAAACTTCTATCTTAAAAAATAGTAAACCACTTAATGTTGTTTACAATTATAATAGCGACGGATATAAAGCAGAAGATTTTTATACTTCTGATTTTAGAGCAAACTCATTTTCTTCTAGACAACTTTATAATCCTGTAAATAATCCAAATAAAGGGAAAAATTATAGAGAAGCTTACTCTGTTGATTATGCATATTTTAGCGAGTACAAAAAGTACAAAGCTCAATCAAACGAAGAAGCAAATAACCAAAATGAGTATGATCTGGGAGATACAGGATTGGAAGAACTTAATGATAATGAAAAAAGTATAATAGAAAATAATAAAAAAGTTGAAAACTTGTATAAAAAATTTCCTGAAATTACAATAATTAACTGACTAATTGTTAATATGTGATATGAGTCACTTGCTATTGCGGTTTCTTCAGTTGACGATCTATATGATTACTATGTAAATTCAAAAAATGGATCAAAATTAACTTTTGATATATTTAGACATTTTGCAGTTATGTCAAGTGGATTATTATCAAATAGTTCAATTAATGACTCATATAATAATTATTCAGGTGCACCAATTTATCAAGGACAAACATCATCTATTAAAAATATTTTAGATTATGAGAAATATTTACCAGAGTATGTAGATAGTTATAATGTACAAAAACCTTACCTTGAAGAAGGTGCGGTTATTTATAAAAATTCATTTATTATACCATTAGCATATGCAATGTATTTATTAATTGCTTCACCACTAGCTTATTTAGGTTATTTAGCTTATAGAAAAAAAATTAGAGTTTAGGAGATAATACAATGATAGAGATTAAAAAAATTACTAGAGATCTAGGTGGATTCTTCTTAAATCAAGTAAGTTTTACAATTAAAAAAGGTGCAGTTGTTGCTTTTGTTGGTGATAATGGTGCTGGTAAAACTACAACAATTAAATCTTTGTTTGGTGAAATTAAACTTGATAGTGGTGAAATATTAATAGATGGAGAAAGTCTTTTTATTAATGAAAATTTACAAAGAATAGCATTTTTTCCAGACTCAAACAATGTACCTATGGATATGACATTAAAAGATTATGTTAAATACATATGTGCTATTAATGCAATGAGTTCTAAACAAACAAAAGAAAGATCAAAAGAAGTATTTGAAATGTTAGGTTTAGAAAAATATATTAATAAAAAATTTAGAGAACTATCTGCAGGATGAAAAAAACGCGCTATTATGGCAAGCGTTCTTATAAGATCTCCAGAATTTATAGTTTTTGATGAGCCAACAGCAAATGTTGACGTTGAAGCAAAACTTTCATTTATGAATATTTTGCATGAATTATCAAAAATCGGAGTAACAATTTTAATTACTAGTCATATTCTTGAAGAACTTCAAGAGGTGGCAAATTATTTAGTTTTAATTAAAAATGGAGAAATAGTCTATGAAAAAGACTTTGATAATCAAAAAGAGAGCATTGCTCAAATATATAAAAAATTAATGGCTGAAAAATCAGATAACATTAAATTATTATCAGAAATTTATTCTCCTATAGATCAAGGAGGAGTAAAATAATGGAAGCAAAATTAGTTAAAAATAAATCTGAAAAAAAACCATTTAAAATTATGCCTCGTTTTGAAGGGAAAATGCTATTATTTTTTATTACTATTAGAAAATCATTTTCTAGCAAAGCAAGCAAAGGAACTGGAATTACATTTTTAATTTTAAGTTTTATATTTACATTAATAACAGCTTTAACAAATAAAGGTTTTAGAGTAGATCAATCTATCTCTCAAATTTCTATTACTATTGGATATATTTTTATAATATTTTTCTATTTAGTTTTTGCAAGTATTATAGTTGTAAGTTTATTTAAAGTGCCAATTCTAGAAGGTATTCAACAAATTGAAACAAGAGCTGGAATAAGTCTATTTAAATCATTTTTAATTAAATATATAGCTTACATTACTGTAACCTATATATATTTATTAATTAATTTAATTATAGCAGCAATTTTATCAACAACTTTTTCAAACCAACCATTAAGTTCAGCTTTACTTATTTTCTCGCCAGTATTATTTTTAATGTTATTTACATTAATATGATTTCCTATTTTATGTACAATTTCATTAATATCATCTGTTGCAATGGGAACATTTGGTAACATATTTTTAGGAGCAATTGTATCATTAACACCATTTATTAATGGTATGATTGGGGTAAATGAAGACTATGATAAAGTTAAATATAGAGCTATAATTCGTTCTCAAATTGCAAAATTAAGTTTTGCAAATGATTTTTATAAAAAATTTATCACTGATGATAAAGTAAAAGGAATTTTTGAAGAAGATTCAGATACAGATATTTTAAAAACAATAGCTAATAATTTAGAAGTAGTAAATTTAGAAGATTTAGCATTAGATAATTTAGAAACAGGTCTTATTAAAGAAGCAATAAACTCAAATAGCTCAGAATCAAGTAGACCAAATGGTAATTCTGATTCAAACTCACAAATAAGTTTTTCATATTCTACAGTTGTTTCAAAACTAATTAGGGCTTTGTACGCAGGACAATTTAACTTAGAATTAGATTCATCAATTAGAGAATATAAAAATCATTTAGATGATATTGAAGAAAAGATTATTAATTCAAATCCTAATAATTCAGGAAGTTTTAATGAGTATAGTAAAGATAATTTAAACACAAAAATTGCTTTAAAAGAAAACAATCTTGAATCTATAAGATTTAAAGCATCAACTGTTTCTCAAAAAACGGTTTTAAGTGGATTAGAAATAAATAATGTTTTAAATGAAATATATAATAAAGTAGCAGAAAGTATTTTTACAGAAGATCAAGCACCAGTTTCATACCCTGGATATCAAGGGGGATTGTTTATAGATCCAGTTGATGAACAACTTAAATCAATTAATCAGTCATTCTTAGATATAGATTCATTATCTAAATGATTAGAAAAAAAATTGCCAGACTATAGTAATTTATTAAAATATATCAATAGTCAATATAATAACTATAATGAAATTTTATTTAATAGATCTAAATGAACAAGTAGTCAAACCGGAGATTCATTTAATGATAATGAAGCTCAATCAATTTTTAGAGTGCCTGCAAATACTGGAACAGATTTATATAGTATTAATGGACAAACGGATAGCAATTTATTGGTTTACAAAAGATATCCAGAATTGATGATGATAAATAATTTGATTATACAAAATTGAATTAATACAATGACTTATTCAACAGAATTTTTAAGAATTTTAGGAAATTTAAATTTTGAAGATAGTTTAGGGATTGATGAAGCTCAAAATAGTTTACAAAATTATATGAAAGATTTTGTAAAAATGAATCAACTTAACTTATTCAATCATTTTTGAATTATGTACGAAGGTTTAATATATGATAGTGCATATGGAGATGCATTATTCACAAATACTTATGAATTGGCTTCAAAAGGAGTAAATAATAGCATTGAAAATTTTGTTGATTATGCAAAATACGCAACTGCTAAAACAGATAGACAAATAAAATACAAATTTAGCAGTGATTCATATTTTAAAAACCAAATAACAGATTATATGCCAAAAGACTCAGAAGGTAAAGTTACAGATTGATCTATAACTTTGGAGAATATTGATGGTGAATTAAGTAGAGAAAAAATATTTAACGGATTACAAATGCTTAATAAAAAAGCTCTTATAGCAAGTAAAAATAATGTAAATAATATACAATCAGTTTCTATTGCAGGATTAACTGCTGTAAAGAGTGGAAGTGATTGATATATTAGACCAGTCAAAAATCAAAGTTACTGAAAAAATCCAGAAGAAACTAGTGGAAGTCAATATAACTTTAAAGATGTAAAAGTAATTGTAAAAAATTTAAATACAACAACAAAATTGCAATCAATTTTTAAAGAAAATCCATTGCAAAAAGGATTGGGATTCAATATTATTTTAGCTGCATTATCATATTTTGCATTTTCATTATTAGCAACAATCCTTGTTTTCTTACTATTTAGAAGACAATCAAGAATCTAGTTTATAAAAAAATATTTTGTATGAATAGTACAAAATATTTTTTTTATGGTTAAAAACATTCAATTTATTTAACCTTTTAAAATAAAACTTTATTTTGTGTATAATTAATATGATATAAAACTTTAGGAGGAATATAATCATGTCAAATAAATTAAACGGAATTGGAGCAAGTAACGGAATTGCAGTGGCTAGCGTATATGTTTTAGATGAACAACCAATTGTTATTCCTAAAAAGGATGCAACCAATTTAGAGCAAGAATTAGAATTAATTAACTCTTCAATCGCAAAAGCAAAAAAAGACTTAGAAAGTTTACAAGCAATTGCAAAAGAAAAATTAGGAGAAGAAAAAGCAGCTATATTTGAAGCTCATGCTTCAATTTTAGAAGATCCAGCAATGGCTGAAGAATTTACAGCATTAATAAAAGAAAAAAACTATAATGCGGCAAGAGCTATTGATGAAGTTTCTAAAAAATACATCGAAATGTTCGGAGCTATGGAAGATGCATACTTCAAAGAAAGAGCAGCAGATGTAAAAGATGTAACTCAAAGATTAATTCGTTATGTATTAAAAATGCCAGTTTTAGATTTAGCATCAATTAGTAGTGAAGTTATAATTGTTGCAGAAGACTTAACACCAAGTCAAACAGCACAATTGAACCCAAAATATGTCAAAGGTTTTGCATGTAATGTTGGGGGAAGAACAAGTCATGCTGCAATTATGGCAAGAAGTTTAGAAATTCCTGCAGTTTTAGGTTTAAGAACAATTTTATCAACAGCTAAAGAAGGAGATGTTTTAGCAATTGATGGAAGTACAGGAGATGTTGAAATTAATCCTTCTGACAAATCAGTTTGAGAAGCAAAAGCAAAAAAATTCCTTGAAGAAAAAGCAGAGTTAGAACAATTTAAAACAAAATCAACAATTACAAAAGATGGATATGATAAATTCATTTTAGAAGGAAATATAGGTAGTCCAAAAGATGTTGCAGCTGTTTTAGAAAATGGTGGAGAAGGAGTTGGACTATTTAGATCTGAATTCTTATACATGGACAATGATCATTTCCCAACTGAAGAAGAACAATTTGAAGCTTACAAAAAAGTTGTAAGTGATATGAATGGTAAAATGACTGTTATTAGAACACTTGATATTGGTGGAGATAAAAAGCTAAGTTATTTTGCATTCCCAGAAGAAATGAACCCATTTTTAGGATATCGTGCTATTAGATTTACAATGGATAGAAAAGACATCTTTAGAGATCAAATTAGAGCATTATTAAGAGCAAGTGCATTTGGACCTGTTGGAATTATGTTTCCAATGATAGCAACAATTGATGAATTTGTTAGTGCAAAAAAATTCACTCTTGAATGTAAAGCAGAACTCGAAAAAGAAGGGGTTGCAGTTGGAAAAGATTTAGAAATTGGTATGATGGTAGAAATTCCTGCAGCTGCAGTTAATGCCGAAAACTTTGCAAAACATGCAGACTTCTTTAGTGTTGGAACAAACGATTTAATTCAATACTCAATGGCAGCAGATAGAATGAGTGAAAATGTTACATACTTATACCAACCATTTAACCCATCAATTTTAAGATTATTAAAATTGACAATAGATGGAGCTCATAAACATGGAAAATGAGCTGGTATGTGTGGAGAAATGGCTGGAGAACCAGACGCAGTTCCATTATTAATGGGATTAGGTCTTGATGCTTATTCAATGTCTGCAACAAGTATTACAAAAGCAAGAAGCATAATGTCAAAATTAACATTAGTAGAAACTCAAGAACTTGCAAAAAAAGCATTAGAATGTGAAACATCAAGTCAAGTTTTAGATTTAGTGCATAAATTAATGAGCGATAAATAATATAAAAATCCTATTTGAAATAGGATTTTTTTGTTACTAAAAATTTTTTTAATTATAAACAATTTTTATAAATAGTCATTTTAATCTAAAAAAATATATAATAAAACTCAATAGGTGCATTATGAAAAGAAATAAAAAATTAAAAGTTTACTTACAAATATTAATATTTACATTTTTGTTAGTTATACTTTTTGAAAGTTTAGACAATAATAATAAATTTATGGTTTTGTTTGATCAAGTATTAGTTTTTTTAATGGTGCTTTTTTTATTTTTATCATCACTTTCAATAATAATAATTTTTTCAAAGTTTTATGAAGAAGTAAAATTAAATATATCTAAATATTCATTAATAAAAAATATTAGAAAATCTCAAAAATCAATTTTACTGAATAAAATTACTTTATTTTTATTACCTCTAGCTTGTTATAGAGTAAATATTACTTCAAAAATTATTTTGGATACAGATGATGGAAAGAACTTTTTAATTTCTTTAACTGTAATTTGTGCATTAGCAGTTATTTTGACTTATGTAAGTTATTTTTTAATTTTTTCTTATTTACTAGAAGCAAAAAAAAGAAATTTAACAAAAAAAGAAGAGTTATGACAAGAGATTATTTATAGCAAAATTGAGTTGGAATTTAGAAATATTGTAGAGTTACAAAAAAACAATTTTTTGGAAAATATAAATTTAATTTTTGAAGATAATATTAGATCTTTTTTACTTATAGAAAGTAAAAAACATAATTTAATAATTAATGCGCGATTCTCTTTATTATTGTCAAATAAGAAAAAGGCCAGCACTCCTCCTGATTTTTATTAAATATGTATTTTAAAAGCTTTTATAAATTTATATTTTTGTAATAAACAAAATATTTTTTGTTATATCTAAAAAAATAAAAGGAGAAAAATTTATGAAAAAATTACTTACTATTTTAAGTGTATTAACTATGTCTTCATTTTCAGCTTCTATTCTTGTTGCATGTGATAGCAATAATAATCAACAAAACGAAAAAAACGATAACCCATCTAATGAAAACAATAATGTGAATAATAATAATGAAAATAATAACGAAGAAAAACCACAAGAAGAAAATAACGAATTAATAGATTTGAGTGCATTAAAATATAAAAACTTACCAGCAGGCTATATGGAAAACGGAGTCTATGATAGAGACAATGGTGCAAATTTAGGAAATAAAAAAAATTTAGAGTATAAAATTAATGCTGAATCTATTTTGTTTTCTTTAAACCAATTAAACAAAATAGATTTAAAAAGTAGTGACATTGAAATATCGGAAATCGATAACGGAACAGCTGGGATGAATGGAGTTGCTGTTATTAAAGCTGCAATTGGTTCTAAAAGTGTCAAAGGAGAAACTAGTTTAATATTAAATCAAAATATTAATTTTTCAGCTTTAGTTGGAAATAGAAAACTTAATAATATTTATATTAAACAAGATATTTTTGATAATTTAGAAACTGAAATAAAAGATCCAAATAACAAATCTGCTTTTGCTGCATATATAGTAGAACAAATCGGAGTTTCAAATCCTGCTCTTGAGGCTCTTGCAGAACCTATGGTTAGTGGTGCAGAAAAAATATTACCCAAAGTCAATTTTACAAGCAAAGAATTTGTGATTCAGGAAACACCATCACTTAATGGATTGTTTGTAGCTGATCAGAATTTAAAATTTGAATTAAATTTTGTTAAAGACGAAAGAGCATTTTTTATAAAAAATAAAGATTCGCTCCCATTAGTAAATATGGAGTTAGATAAAAATACTGATGTTAGCCCATCTGAAAATTACATTTCCTTAAAAAAAACAGTATACAAAAAGTTAAATAACTCTAATTCTTGAAAGAACAAAGTATCTTTAGAAGAATTTATAAAATTTACAAGAGTTCAGAAAGGAAAAAGAAATATGTATTATATAAATGTAATTGCTGGGTCTTCAAAACTTTATGGTCATGACTTTTTACTTTTCTTTATGTCAGGTAAATTATTTGATGAACAAGGATCTGTTAGAGTTAATGCACAAGTCAAAAACAATTAGAAAAAACATTTTATTTAAGTATAAAAAAAATATATTTTTATAATTTTAAAGTTATAATTATTTTATTAATAAAGGTGAAATATGAAAAAAGAAAAAAAACAAAATAGCTTTATTAAAATAGTTATTTTTGCAATATTGTTATGATTCTTATTTAGTAGTCTAGATAAAAATCAAAATTTATCAATTCTTTTTAATCAAGTTTTGATTTTTTTACTTGTTTTATTTTTACTTTTTTCATCAATTTCAATAATTATAATTTTTTCTAGATATTTTGAAGAAGTAAAATTAAATATTTCTAAATATTCATTGATTAAAACTTTTAACAGATCACAAACACCAATTTTGTTAAATAAGTTGATTATTGTTTTAGCGCCAATAGCTTGCTATAGAGTAAAATTAATAGCAAATCTATTTTTAAAAGACTTTAATCAAAACTATTATTTGTTATCACTTTTTATAATATGCACTTTAGCAGTATTGTTATCATTAGCTAGTTATTTTTTAATAGTTTCTTATTTTATTGATATGAAAAAACGTAACTTAATATTGAAAAACAATGATTTAGAAGAAGTGCTGCTAAATCAATTAAATTTAGATACAAATGATTTATTTGAAATTAAAGTAAATCAATTTTATAATTCAATTAATATTATTTTTGAAAACAACATTAGAGCTTTTATTTTAGTTGAAAATGAAAAACATAACTTAAAAGTTAATAGTTATTTTTCTATTTTATTAAACAATAACAAAAAGGCAACAACTCCTCCTCGATTATCTTTTTAATTCTTTTTATTCAAAATTTTAATGAATTAATATTAAGAGAGGAATAGGTTTAACGACCTTGATGAATATGCGGATACAAAAACCTTTTTTTAAAAACGCATTTAAAAACATTTTAAAAAACAAAATTCAGTTTATTACTGTTATTATTTTGATTTTTATAAGTAGTTTGGTTTTTACAATGTGTTACTCTGCAACTTCTAGAATAAATAAATCATACAATGAATATTCTTCACAAAAAGAAAGTAATTTACATGATTTTGTTGCAGATTTCACTTCAACTTCTTACATCAGTAACGAAGACAATGAAGACAAAATAAATTTTAAAAAATTATCTGATCCATTAATAAGAGATAATTTAGTTTTAACTTATATAAAAAATAAGTTACAAGATACTAATAACAGTTTTGTTTTTGATAGAGTTGAAGCAAGACAGTTTTCATTATCTACAAATAAAACTTTAAAAGTTGTAATTTTAAATCCTGAACAAAAAGTAGACAAATTTGTTGTTGAAGAAGGTATGGATTTAAACACTTGGACAACTTATTCAAAAGCTACAAATAATTTAAGTTTAAAATGAGCTTATATTGATAGAAGATTTGCAGATTATAATAATATTAAATTAAACGATATTATTAGATTACAAGATGATAAATTTGGTAGTTCAATTCTTGTAAAGAATAGCCAAAATAAGGATAAAGATTTTGATAAAACTTTAAAAGAACATGAAAATGAAGATATTAGTTTGTGAATGAACAATACTCCATACAATGAACTTAGTTGATTTCAAGTAGTTGGATTTGGTAGTTCAGCTGATTTTGTAACACCAATTGTAAATTCTGAAAAACCACTTCCTAATTATAAAGAAGAAGCATTGGTTTATGTGAACCCATTAAATTTTGGAATTACATATAAATACTATGAAACAGTTTTTGCAAATAATGAATTTAGTTTAAACAATTATGGTTCTACAAAAATTTGATATTCAGACAATCAAATATCAAACTATGAAACTTTGAAAGTTATATCTGATGCTGATAAAGAAATTTATTTTGTAGGAAAATTTGCAAATGAAAAATATAAAGCAAATTCTATAGAATATTTGAATAATTTAATAGAAAGTTTTGAAGTATCAAAAGAAATTGGATTAAAGTCTAATTACATAAATGCTTTAAATGAAAATGCAAAAATATTTACAAAAACAGGTGATTCTAACTATTCAATGGGAGCTAGAACTAGTACTTTTCCGTTTATATTAATAATATTTAATGTTGTTTCATATGTTTTAATTGCAATTATTTTAGGAATTGGAATTGTAATTTTAATAGCACAATTAAAATTGCAATTAGAAAAAGCTTTTGGCCAAATGGGAGTAATGATTTCATTGGGTTATAAAAAAATTCAGTTGATACTTTCAAATAGTATTTATGCATTTATTATTGCATTAGTTGGAGGAACTATTGGATATATTTGTGGATACTTTTTACAATTTTTAATAATTACTGTTTTTGATAAATTTTTTGCTATTCAAATTCAACAAATTAGTTTTAATTTAGAATCATTCATTATATCTATTTTTGGGATTTTTGCATTTTTAGAGTTTGTAACTCTTATAACATGTATTTATATGTTTAACAAAAATACTGTTTTAGAAATGATAAATTACGAACAAAGAAGTGCTACAACTAGATTTAATTTATTTTTTAAAAAATTATTTATTAGAAGAACAAAAAACTTTAACTCTAAATTCTCAGGAGCAATCTTATCAAGCTCTGTATTAAAATTGTTTGCAGTTTTAGTTTCTATGTTTGTTGCAGCAACAATGACAACAGCAAGCATAATTATGCCACATGTTCTAAAAGAAAACCAAAAATATATTTACAGCGGTGATGAATATGATAATAAGGTTACTTATTATTCTCCAATTTATAATGATCCAGTTTCTTTTTATAAAACTTATAATCCTGAATCAACAAATAAAAATTATGACTCTTTAGATGCAAAAAATTTAATTGATAGTTATTTAAAAAATAATATAAGTTCAAAGTTTTTTAATCCATCAAATGACTTGGGTGAATTAAATGATATGAGTTATAAAAATATTGATTTAGATTATTTAAAAAGCAAAGATTTATATTTACAAAATAACTCACAAAATAGTTCTGATTTATTAATAACTTCTCTAACAGGAAGTTTGTGACCTGATATATATAGATATGTAAAACCTTCATGATTAAATAATAAAAAAGAATTTATGGATGTACTATTTAATGCTAATAACTCAAGAAATGCAATTGAAGACTTAGAAAATATGAGATTATTTTATTTAAAATATAAACATACAATCGGATTAAATATTAGAAGAGAAGGTTACTTTGTAAAAAGAACATCTTTACTTACATCGCTTGCAAGTGATGGTGGACCTAATAATGACTTAATATCTGCAAATGAGTTTGCAAGTAATTCTTCAATACCAATAAGTGTTAATATCGAAAAAGACGGAAGCATAATGAATGATGAAGTATTTCAAAACTCTTTATATAAATTTGTAAATAGTTCAAATTATATGTCAGAGTCAGTTGTTATATGTGGACCGATTTATAATTGAATAGTTGCTTATTTTAGAGCTAACTTACAACAAATTTTTTTACAAGGAATTTATACAAGCTTACCTTCAAACATTAGAGACATAATGTTAAAAGAATTTGAAAAGGATAATGGCTCATTTAATATGTCTTTTGGGACAACTCCTTTTAATCAAGAAAATGAAGAGTTGGGAACATATTTAAATTCTGAATTAAAAAATATTGATTTTAAAGTTTATGGTATTAATCAAAATGGATTACAAAAACTTTATGACAATAATTCAAATGATATTAAAGCAAAACTTGTTGAAAAAGATTCAATAATAATAAATGAAACATTAGCGAAGAAATTAAAATTAAAAGTTGGACAAACAGTTGATATTAATCACATCATTGAATATTTAGAAAAAGATGGTCAAGAACTTGGTGTTGATAGTTGAAATACTAATAAGATCAATGCACAAGATTCTGAAGGATATACTAGTTCTAAAAATATTTATAAAAACTCAGTTTTAAATTCAAAAAAAATAGGGTGAACTAATAGCAAAATGATTCAAGATGATGTAGATGAGCAAGAAAAAGATTTAGTTTATTATTCTAGAATAGACTTATCAAGTGATAGTATGGTTTCTCCAACTAGTATGTCAAAACAAATTAAAAAAGGAGCAATCAAAAAAAAGGTTAAGAAAATAAATAAAGAATATAAAGTTGTAGGAATTGCAAATCAGTATGGAGTTTCAAAAGCATGAATAGATAATGAAACTGCAAATGAACAAGCACAATACAATAAAACAAAACCATTATTATTTAGTTTATTTATTAAAGAATGATCAAATCCAAAAAGTTTAGTGAGTGGTTCAGAAGAACAAATTTTTGTAAACAAGTTGAAAGAGTTTAACAATACATCAACTTTATTTAATAGTAATTATGAAAATTTTGTAAATTGAACAAATTCAAACCAAGATTTTAATAAATATTTAACTTTATTTAATAATGAGTATCCGATATTTAATTATAAAAACTCAAATGATAAATCATTTAGTGATTTATCTAAGGGTATTACAACAATTCAAAGATATGGAGATTACACAATATTTGGATTAAAAGGTGGAAAAGTAAATGGAGCTAACCAAACTTCATATTCAGCATTTTCACAATCACCAATTGAAAGCGTTTGACAATATGATGCTGCAATTGAAATTTTATCTAGAATTGAAAAAACTCTTAACTCGATTATTTTTACATTGTTGCCAATTATATTAATTATTAGTTTTATAGTAATTTTATTAACAATTAACTCTGTTATTGCAAAAAATCAAAAAATTATTGCGATGATGAAAATACTAGGATATAGCAAAGTTTATATTTCTAGATTATTTATAGGTATATATATTCCACCTGCAATTCTAGGATCAATTCTAGGATTTGTAGCAGGCTGGTTCTTTTTGAAACTAACTTTATATAATGCAATAACTTCAATATTATTACCATTTAATTTCTACATTTGATATTTAATCGTTGGAGGGTTTGGAACATTTGTTCTTTACTTAATTAGTGTTGCTATAAGTTGAAATGCACTAAGAAGAGTAAATATGCTAATTGCTGTTCAAGGAGGATAAAATGAAAAAACTTTTAAAATTACTTTTAGTAGTTACAAGTATGGTTCAACCTATTATTATTGTAAGTTGTGATAAAAAACAAACCAATACTTTAATAGATAGACCAGAACCAATTTTACCTATCTCTAAACAGGGATTTGAAAATGTAAATATTGATGCAATTGAAATTGATAAAATTATGTACAACTATGATTTGTATGAACAAGTAATTGAACAGCTTAAAAAAGCAAATTATAATGTAAATGATATTAATGTAAGTGTTATAAAAAACGGAATAAATACTTTAGATAAAGATAATTCCGATTTATTTAGAAATGGAACATATGAATGAACTTTTTCTAATAAGAATAATGATAAAGAATATATAAAAGCAAAACTAATTATTACAAACTCATTAAATTTAGCTGATATATTTAGTGCTTTAAATATTGGAACAATTTATGACAGTCGTCCAAAATCAATATTGATAGGTTTACTAACTAAGAATTTAAACTTAATAAATATGATTGAACAAATTTCAGAGCAGTTAATTGATGTAAAAAATTATATTTACAATCAAAATAATAAATCTGCAATTATAAAAATTTCAGAAGATAATGATTTTCCAAAATTAAGTGGTGGAAAAGATGTTATCCCTAAAAAGTTTTATGGGTCAATAGAAGTTAATTTTGAAATACAAAAATTTGATTATGCAAAATTAAATGATGATCAAAAAGGAATAACATTTAATCAATTTTGAAAAAATTTAAATTATATTTCTAGTAGTGATATAAATATGCCTAATAATATTGGAATAATAAATCAATTTAATATTTATAGTTTATTAATGAGTTTAATTATTACAAATTTTACTACTGGTGAATCACAATTTTATTGACCAATAATAATAAATGATATTTTATCTGAAGAACAAAACTCATTTAAACCAGAAAAATCAGATAAACCAAATGCTATTGAAGGAAAAGATTTTATGGTAAATATTTATTTTAAAGAATATAAAAATGAATATCCAAATGATGCAAGTAATGAACAACTTGATAAAAACTCATTTATTTTTGATCAAAAAGAACCAGTAAAACTATATTTTAAATACTTAAATTAAGTAAAAAAGGAGAAAAAAAATGAAAAAATTACTAGCTATTTTAGGAGTATTAACAATGATGTCTACAACATCTTCGGTAGTTGTAGCTTGTGGAGAAGATAATACATCTGATAATTCAAGTAATAACAAACCAGTTGATCCAGAAAGTCCAACAGACCCAAATACTCCAAATGAAGATTTGATTGATTTAGCAAAATTACAATATAAAAATCTTCCAGCAGGTTTCATGGAAGCTGGTGCTTATGATAGAAACAATGGGAAAAATTTAGGATCAGAAAATAATGAAAATCAAGTAGATTTTTATAAAATTAATTCAGAGTCTGTTTTATTTTCTTTAAATCAAATGAATAAATTAAGTTTATCAAGTGACGATGTTGATATTTCTGAAATATCAAATGGAGAATCACATAATGGTTATGGTGGAGTAGCTGTTATTAAAGCTAAAACTGGATCAAAAAAAGCAAAAGGAGAAGCATCTTTAATTTTAAATCAAAGTATTGATTTCAAAGCTCTAGTTGGTAATACCAATTTAGATAATATATACATTAAAGAAGATATTTTCAATGATTTAGAAAATCAAATGAAAAATGAAAGTAATATGCAAGCATTTGCTGCTTTTATCATTGAACAAATAGGAGTTGCAAATCCAGCTCTTGAAGCATTAGCTACACCAATGATGTATGGCGCTGCAGGAATAATACCTAATACAAGTTTTACTCCAACTGAGTTTAATATTTCAAAGACACCTTCTTTAGATGGATTATTTGTAGCTGCACAAGATTTGGTATTTAAAACTAAGTTTGTTAAAGATGATAGAGTAGTGTTAACAAGTTCTGATACTCAAAACATACAACTAAATAAAACCGTTAACCAAGACTCAAAAAATAATTACATTGAAATAAAAAAAGCGGCATATAATAAATTAGGTAATACAGGAAATTGAAAAAGCAAAGTAGATGTCAACGAATTTATCAAATATTCAAGGGTGGAAAAAAAAGAATCAGGATATACAGTTTATGTCATTTCGGGCTCATCTAAAATTTATGGACATGATGTATTATTGCCATTTGTCGCTGGAAAATTATTAGTTGCCAATGCAGTAGTAGATATTGAAGTAACAATAGCAGCTTAAATTTATGCTGTATTTTAAAATAAAATAATATTAATTAAAATCTTATTTTATATTGTAAAATAATCTAGAAAGGGGATAACTCTTATGGGATTATTTACAAAAAATAAAAGTTTAGAAGTTTTTGCACCTGTTGATGGAGAAGTAATAGACTTATCAACAGTTAAAGATGATGTTTTTGCAGAAGGTATGCTAGGTGATGGTTTAGCTTTTGTTCCTGCAAGTGGAGAATTTTATGCTCCAATTGATGGAAAATTAGTTACAGTATTTCCATCAGGACATGCTTATGGAATTGCAAATAAAAATGGAGTAGAAATTTTACTACACATTGGAATTGACACAGTTTCTCTTGAAGGAAAAGGGTTTGATGTTAAAGTTAAACAAAATCAAACTGTATCAAAAGGTGAATTACTTGTAGTAGTAGATTTAAAAGAAGTATCTTCAAAAGTTCCATCAATGCAAACACCATTAATTTTTACAACTGATTCAATGCAAGGTAAGCAAATTGAAATTGTAAAAAAAGGTAAAGTTTCTAAAGGTGACTTAGTAGCAATAGTAAAATAAGAAAAAAATGTTTATATATAAACATTTTTTTTATTTTTATAGAGTAAAATAACCTTAGATTAATTTTGGAGCTGAAATAAATGATTAATAAAAAAGACTATTATAAAATTTTAGATGTTAATAAAGAAACTAAAATTAAAGATATTAAAAAATCATATAAAGACAAAGCAAAAGAACTAAATGTTAATGTTGACATGGAAAATAAAAACGATTTTATAGAGTTATGTGAAGCTGCAATTGTATTGACTGATAAAAAAAAGAAAAGGCTTTATGACAATGGTGGTTTTGAAAAAGTTTATGGAAATAATCTAGAAAATTATACAGTTTTAAGTTTTGATGATTCTTATAAATTTTTTATGGGTAAATATAAAGATACAAATAACAAAATTTTTTTAAATAAGTTTACAAATTTTCAAGAAAAAGTTTATGGTTTAACAACAAGTGGTTTTAATTTTAAGTCTTTAAAATGAAAAACTGATGGTTTAATTTTTCTGGCATCAACTTTATTTTTTCCATTTTTAATTTCTGTTATGGCAAAGTTGCTTTTTACTTGATCTGATAAAACTGAAACTGCATTGCAATTCATATATATTATTTCTGTTACAGTTGGGGCAATTGTTTTGATTGCATATCATAAATCTGGTTATTTTAAATATGGTTATGCATGACAGTTTTTATTTGTAATAATACCTTTATTAGCATTAATTTTGGTTATCGCATTTTCAAATGCTAATCAATATATTTTAGCTATGGTTGTAAATTTAGTTCCAAAATTCATATTACTTATCTTGATACTTTATATTGATAAAAAAACAAGAAAAATAATTATAGAAACATTTAAAAAACATTGATTAACACTTTTAATCACTTGTGTTTTTGGATTTATAATAATTATAGGAATAAATTTATTAGTGTCTGGAGTGATAGAGCAAAAATTATTTAAGTTAGCAGAATCTAAAAATGAGTCTAATTTAGCAGGAGCATTATCTGATCAAAATGCTTCTAAAACAACAAAAATAACATATGCAATTTTATTAGTTCTTTATGCAGTGATGGTGGCTCCTTTTGTTGAGGAAATGGCATTTAGAAGTGCTTGATTTTTAAACGTTTCAAATAAATGATTAGCATATGTAACAAGCTCAATTGCATTTGGGTTTATTCACTATGGATTTAGTGGAGATTTTGAACACGTACTTTCATATTCAGCAGGAGGATTTATTCTTGGTGGAGTATTTATATGAACCAAAGGAAATATAACATACAGTTGATTGGTTCACATGGGAAACAACTTATTTGCAGTAATTGTGTTATTAGTAAGCGTAAGTTGATAGGAGAAATATGACAATATTAAAAGTAAATAAAAATGATGAAAATCAAACAATTTTTAATTTTATTAAAAAGAATTTTAAAACAACAAGTTTATCAGTTATATATAAATGATTTAGAACCAATAAAATAAAATTAAATGAAAAAAGAATTAAAGATCAAAAGAGAGTTTTAAAATTAGGAGATGAAATCAAAGTTTATGATAGTGCTTCTATTTCTAAAAGAAATGAAGAAAAACTTGTAGATTATTCTGAATTAAAAATAATATATGAAGATGAAAATTTATTAATTGTAGATAAACCTTCAAATCTTGAAATGCATTCTTTAATAAACATTTGTTTAGATCAAATAGTAAGAAGTTATTTGATAGATACTAATAAATATGATGTGGAACTTGAAAATAGTTTTGTAATAAGCCACGTTCATCGCCTTGATAAATTAACAAAGGGATTAGTTATTTATGCCAAAAATAAAAAAAGTTTAGATATCTTATTACAAGCAATTCAAGATAAAGATAATATTGAAAAATTTTATCTAGCCAAATTGGAAAATAACAATATTAAAACAGGACTAATTGAAGGTTTTATTGATTATAATAGTGATACTCAATTAGCAAATTTCAGCTTAAAAGATAACAAGTTTTTTAAATCTTGTTCTCAAGAACAAAATTGATTTAATAAAGAAGAAAATATTTTAGAGGTAAAACTTTTGACCGGTAGAAAACATCAAATCAGAGCAATTTGTTCTTATTTTAAATCTCCAATAGTTGATGACTTTAGATATGGAGCTAAAAAATCTAAGAATAGATCAATTGATTTAATTGCGTATAAATTAATATTTAAAAACTTTAGTGATGAATTAAGTTATTTAAATGACAAAGAATTTTGCTCCACATTCATTTTCTAAAATGTTATTATTATAAGGTTAGGGGGAAAAACTATGTTATCTACAAAACAAAGTATTTTTAGTACTATTATAGGAACATTTATTTCCCTATTAAATACAATCATACAATTCTTACTAATTTATTGAGTTTTAGAAAAATATGGAACACAGTTTAACGGGTTTGTTAAAATTGTTGGTTCTTTTTCTATGCTTGTTTCAACAGCAGAGAGTTCATTAGGTATTGCAACAACTATTTTATTAGTTAGACCAATTGCGCATAATGACTGAATCACAGCAAATGAAGTATATTCAACATCAAGAAAACTATATCGAAAAGCATGTAAATCAGAACTTGCCATTACTGCTGCTATTTGTTTGTTATATCCTTTATATGCAGGATTATCTTCTCAAGAAGGTATATTTAGTGCACAAAGCTGAGAAAATATTGCCATTCCTTTATCTGGAAAAGTAAGTGGAGATGCAAGTTATTGAGTGCTAATATTAATAGCATTTTCATTTGGGGCTAAAAATATTGTTGGTAACTTTTGATTTAACTCAATCGAGTGTGTAATGGCAGCGGATAATAGAAATACTGTTAGAAGATTAATAATATTATTTAGCGATATTTTTATTTACTCATTGGTATTTTATTTGATGAGCTTAAACAACATTCCACCGTATATTCCATTTTTCAGTTTAATAATTTATAGTCCGATAAAAGGGTTTTTAGTTTCTCTATATGTTAAGCGAAAATATTTGTGGTTAAAATTTTATAAAGATTTTAATAGTTTTAAATTAACTACAATTTCAAAAAGAATATCATATTCTTCAATCGGTACATCAATTTTAATTAACTCAGATATGATAGTTGCTGCTTTGTTATTAGGATTAGGCGTTTCTTCAACACTTTCTTTATATTTGGTTATTGCTATAAATGTTAGATTGATTATGACAAACTTTATAACTTCTTTTAGAGAATTTTTTATAACACTTGTTGCTCAAAGAGGAAGAATAAATTGAGATAGTTATTCAAAATATGAACTTTATACATATTTAGTTGCTGCATTCACTTTTATAAATATTGCAATTTTATCTCCATATTTTGTAAGTGCTTTATATTCAGATCTTGCGTTATCAAATTTAGAATCAGGACATTTTGCAAATGCCGAAAGAGATGCTTTAACATTTATGTTTTTTAGTCCTAAATTTTCAATCTTATATGCTTTTTCAACCGCAATTATAATTTTATGTGAAGGTCAAATTACTTTAATTCATGCAAAAGGAAGATATGGAGAGGTTTCTAAATTTCAAAATATTTTAGGAACCGTTTATATATTTGTGGTTTTAGGATTAGTATTTTTAGCAAAAAAATTTGCAATTGGTGGAGCAAATAATCAATTAATTTCTGGAATAGTTACTTTATATGTTGTAAAAGGACTATTTTTAATTGTTAGATATTGTTATTTATGATTATATGTTTGAAGATATGCAACTTATAACTCAACTTGAAAACATGTTTGAAATAATATTGCTATATTATTCACAGCACCAACAACAATGACATTGTTTACATTATTATATTTAACAAAACATTTTGATATACAAGAAAAAGCAACTGGTACAAATACACCAATATTGCCATTAGTAATATTATTCTTTGGGGTTATATTTATAAGCGGAATAGTTTTAATTTTAACTGCATATATTTTTTCACCAAAAATGATGAATGGAATTATGAAAAATATGCCTTTAATAAGTAGAATCTTAAATAAAAAACAAACAAATGCAAGATTAAAAAGATTTGAAGAAAATGGTATTGACATTGAAAAAATTGTCGATAAAACCGATGAACTTGCTCCAGCAATTTATGGAATAGTGAGCGAATCTTCAGCGGCAGATTTATCACTTGATACAATCGATATTAATGTTGAACAAAAAAATGATAAAATTTATGTTTTAAAAGGAAAAGATTAAACCTTATTTAAATAAGGTTTTTTATTTGAATATAGTCTTAATATCAAAAGTTATATAATGATATAATCAAAATGGTGAAATTAATGGGAAGTTCAAACATCATTATTCCAATAGCTATTGCGATAACATGTATATTTGTTTTTTATGCATCTGGTGTAATTATTTTGGAGTTAATTAAATTTAAAACAAAAAATCCATATGCAGCAATTGCGGCAGGATTTTTTTCATATTTTACATTTATTTCAATATTTACCTTTCCATTACAATTAATCTCAGTTTTACCTTATATATTTTTTATATATTATTTATGAGCCTTATCAATTGTTTATATAATATTTTGCTTAGTTTTTGCAAAACATTGATTGTCTTTAAATTTATTAAGTAAAAATCTATGATTTTTTATTTTAGCAGTAATAGTTATTGGTGTTGCAACATATTTTGAATATAAAAAATTAGGAATAGAAAATGAGTTTTCTAGACATAAAAATATTTTATCCATACTTTCATGATTAAGAGATAATCCAGTTTCATTTTTTAACAATTCTACATTATTTAACTTCTTAGGTTTTAGACCTTTTCAAGGTTGATATACCTTCCAATTATCAATGATAATTTTAACTGGAGTACAAAGCTATCAATATCAAGATATAATTATGCCTTTATCATTTATACTTGATGTATTTTTATGTGCTTCAATATTTATAACAATGTTTGATTCGTTTGATAAAACTAGCACAGCTTATAAAAAATATGCTTTATACATCTTATCATTATTTTTATTTACATTAACAAAAATTGCATTTATACATTATGATTATGCTTATTGAACTGGAGATACAATTTTCTTATACTTAATTTTTTATGCTATGGTTTTAGCTTTAAGATATACAAACATTGGTTTTCGAGAAAGAAAGATGCCACTTTTTATCGGTTTAGTTATTGGAGGATATATTTCATTTTCATGAAATAGTTCCTATCAAGTTTTATTTTTGATTTATTGTATTTTGTTTATTATTCAAAAAAAATATAATACAAATTTTACAAAAGACTTTTTAAAGATTTCTTCTATTGCTGTAATTGATTTAATATTCTTTAATTTAGTTTCTAAATATTACATTCCAACAATTTTGTTTGCAGCAATATTATTATTAATAATTGTTACGACTTATTTTATGTCAAAAAAATATTCAGCTGTTGTACGGTTTGAAACTTTTGTTGATTCAAAAATTACATTAGTAACATTGTTGCTACCAATTGTTTTTATGATAGTTTCAATTGCAATGACTTTAAAAACAAATAGATCTTTTGTTGATCCAAAAGAAAGCTATTTGAATTTTTTATATGTTTGAACAAACTTATTGCCAAGTAACACTTTAAGATTTTGAGCAACCTTTATTGCTGCAATGTCAATATTGATTTTGTCTGTTGTTTGAGTTTTTTTAAGAAAAAAGTTTAAGCTATCACTAATTACAGGGATTGTAGATTTAACATTAATAAATTATTTAACTTTTTATAATCCAATAGCTGTTAAGTTTATAAATTTAATTTATCCAATGATGAGTCAGTCGAATGGTTTAATTATGATTGTTCAAGGATCAGTACTTATGAATATTCTTGTCTATTGATTCTTTAATAAACAAGAAGAAAAAAATACTAAAAACAAAAGCGTGGTTGTGATAAAAAACTTTAATTGATTAAAACTATAGGAGAAATTTTATGAATAATGTTAAAGAAAAAATTTTAGAAATAAAACAAAAACTTAACGAATGAGGTTATGCCTATTATGTTTTAGATGATCCTGTTGTTGATGATGCAGAGTATGATAAGTTATTTAATGAACTAGTTAAGCTAGAACAAGAGCATCCTGATTTAATTACATATGATTCACCAACTAAAAGAGTTGGAGGTATTGTTTTAGATAAGTTTGAAAAATATCAGCATAAAGTTCCAATGTTAAGTCTCGCAAATGCATTTAATGAAAAAGATTTAAAAAATTTTGATGATCAAATTTTTAAAGAAATAGAAAATAAAAATTATAGTTTTTTTGTAGAACCAAAAATTGATGGTTTATCAATATCATTAATTTATTCAAAAGGAAAATTATTTAAAGCTGTTACAAGAGGTGATGGAGTATTTGGAGAAGATGTTACCAATAATGTTAAAACTATAAAAAGCATTCCTTTGGTTATCGAAAATAAAGATGACTATGTTGAAATAAGAGGAGAAGTTTTTTTGTCAAAAAAAGAGTTTGAAAAAATAAATCAACAAAGACAACTTGATGAAGAACCTTTATTTGCAAATCCTAGAAACGCAGCTGCCGGAACAATTCGACAACTTGATTCAAATATCGCTGCTTCAAGAAATTTAGATGCATATCTTTATTATTATATGGATAGAGAAAAAATTAAAACACATTCTGAATCCTTAAATTATTTAAAAAACTTAAAATTTAAAATTAACGAGTTAGGAAAAATTTGTAAAAACATTGATGAAGTTATGCAACACATCAATTATATTAGTGAGCAACGAAACAAACTAAATTATGAAATTGATGGAGTCGTAGTTAAAGTAAATAATTTTGATTTATATGAAAAAGTTGGTTATACTTCAAAGTTTCCTAAGTGAGCCATAGCATTCAAGTTTCCAGCAGAAATTAAAAATACCAGGCTTTTAAATATTTTTGCAACAGTAGGAAGAACAGGAAAAATTACTTACAATGCTAATCTTGAACCAGTTCAACTTGCAGGAACAACTGTTCAATCTGCAACTTTACATAATGCAGATTTTATTAAACAAAGAGATATTAGAGTTGGATCAATAGTTAAAGTAAAAAAAGCCGGAGATATTATTCCTGAAATAATAGAACCAATTAAAGATGAAACTTTTAAATTATTATCAGTTTGAAAAGAAACACATGTTTGTCCTGAATGTAACTCGGTTTTAGAGAGAGTAGAAGATGAAGTTGATCAATATTGTATTAATAGTTCTTGTAGAAGAAAAGTTGTTAGATTGATGGAGCACTTTGTTTCAAGAGAAGCTATGAATATTGAAGGGTTGAGTATAAAAATAATAGAAAAACTTTTTGAAAATAATTTTATTTATAATGTAGCAGATATTTATAAATTAAAAAATTTTAAAGAAGAATTAATTAGTCTAGATAAAATGGGAAAAAAATCTGTTGAAAATCTTTTAGAAGCTATAGAAAAATCAAAAACAAACTCTGCAGAAAAATTATTTTTTGGTTTGGGAGTAAGACATGTTGGTAAAAAAACTGCTCAATTATTAGTAACAAATTTTAAAGATATAAAAGACTTTGATAAAATTAGTTTTGAACAGCTAGAAAAAGTTCGTGATGTAGGGCCAATTGTGGCAAGATCGGTAATTGATTGGTTTGAAAATAAAAATAATAAAAAACTTTTAGAAGATTTAGTATCACTTGGAGTAAATACTTCTTATTTAGGAAACATTGGATCTAAATATAATGAAATTATTTCAAATAAAAGTTTTGTAATTACAGGCACCCTATCAAATTCTAGAAATTATTTCAAAAATATTTTAGAAGAACATGGAGCAAAAGTAATTGATAGTGTAAGTAAAAAAACAGATTATTTACTAGTTGGTGAAGATGCTGGAAGTAAACTTGAAAAAGCAAACAAACTTGGTGTTAAAATAATTAATGAACAAGAATTTTTAGAAATGTTAGGAGAAAAATAATGAAAATAAAAAAAGACTTAATATTTGAATTAGCTGAAGATATTATGTTAGAAATAACTGATAAAGAAGCAGAAGATTTTTTAAAAATAGAAAATCAACTTTTAGAAAAGTTTAATAAAGCTTATGCAATAAATATCGAAGGGGTTGAACCTAGTCATTATTGTTTTGATTATGCAAATACTTTTTTAAGAGATGATGATGATATTAGAAAAATTGACAAGCAAGACTTTTTAAAAAATGCACCTAAAAAAGACAATGACTATGTTGTTATAGAAAAGGTGGTTAAATAATTATGAATTTTAAAAACTTAACAATCGTTGATATTCACAATAAAATAAAAAATAAAGAATTAAAAGTTAAAGATTTAGTTGATAGTGTTTATGAAAATTTAAAAGCAGAGTTTAAATCAAATTTTTTAGTAACATTGATTGAAAATAAAAATAGTGAAAAAGAATTACAAGAATTATTTGATGAAAATAAATTATTATCAGCAATTCCTTATGTAACAAAAGATAATATTTCAACAAAAAATATTTTAACTACAGCAGGATCAAATATTTTATCAAATTATTTTCCTCCTTATGATGCAACAATCACTGAACATTTAAAAAATGAACATACAATTTTACTAGGTAAGGCTTCTTTGGATGAACTTGGAATGGGTGGAACTGGTTTGTTTGGTTTCAATGGAGAGGTAAGACATCCTAAAGATAGCGAAAGAATAGCAGGCGGTAGTTCAAGTGGTAGTGCGTATGCTGTTGCAGCTGGATTAGTTCCTTTTGCAACTGGAACTGATACAGGAGATTCTATAAGAAAACCAGCAAGTTATTGTGGTATTGTTGGATTTAAACCAACTTATGGAAGTATTTCAAGATATGGTGTTATACCATATGCTCCAAGTTTAGATCATTTAGGTTTTTTTACAAACTCAGTAGATGATGCTGCTATATTAAGTGATGCAACATTTAAACATGATCCTAAAGATTTTACTTCTATAAATAATGAAAATGAGTTTTATAAAAATATAAATAATTTAGATAAAAAAACTAAGTTTGGATTTTTAAAATCAGTTTTAAAATATTTTAAAGAAGATTTAAAAAAAGATTATCTTAATTTATTTGAAAAAATTAAAGCAGAAGGTTTTGAAGTAATTGAAATAGATTTTGATGAAAAATTATTAGCAACAATTCCTGCTGTTTATATGATGATTTCTTTTTCTGAAGGAGTTTCTACTCATGCAAATTTAGATGGTATAAATTTTGGTAAGCGTGAAGAAGGTAAAGATTATAAAGATATAATGAAAAAAACACGTACAAAAAATTTTGGAAATACTGTTAAGAGAAGATTTACTATTGGAAGTTTTCAATTAAAAAAAGAAAATCAAGAAGACTTACTTTTAAGATCAAAAAAAATTAGAAGATTAATTATTGAAGAATTAACAAAAGTTTTTAATCAGATTGATATTTTATTTTTACCTCCATCATTAGATGTTGCACCAACTGTGAAAAATATTTTAGGAACAGATGTTGAAGAAAGAGGCGATCATGATGGAATCTGAGTGGATGATATTTTAGAATTAGCAAACTTTAATGGTATGCCTTCAATTACAATTCCTTTTATAGAAAAAAATAATTTACCTATTGGAATAAATATAAATGCAAAACCAAAAAATGACTTACAAGTTTTACAAGCTGCAAAGTTTTTAGAAAATCTAATAAAAAATAGCAAAAGAGGTGATTCACATGAATAATTTTGAAGTTATAATTGGAATTGAAAATCATGTCGAATTAAAAACGAAATCAAAAATGTTTTCACCAGCACCTGTAAGTTTTGGTAAAGAACCAAATACGCAAATTTGTGAAATTGATTTAGGATATCCTGGGGCAATGCCAAGTGTGAATAAAGAAGGAGTTAAATATGCTCTTTTAGCTTGTAATGCATTGAACATGCAAATTGATAAACTTTTAAGATTTGATAGAAAAAATTATTTTTATCCTGATCTAGTTAAAGGTTTTCAAATAACTCAACAATTTTTCCCAATTGGAAAAGAAGGAAGTTTAGAAATAATTTTAGAAAATGGTGAAACTAAAAAAATAGAAATTGAAAGATTGCATATTGAAGAAGATACTGCAAAACAAATTCACAAAGGTGATTTAACTTTTTTAGATTATAATCGTAGCGGAATTGGTTTGGTTGAAATAGTTACCAAACCAGTTATAAGAAGTGCTTATGAAGCTGTAGAATACGTAAATAATTTAAGAGAAATATTATTATTTCTTGGAGTAAGTGATGTAAAGATGAGCGAAGGTTCTTTACGTTGTGATGTAAATATTTCTTTAAGACCATATGGGTATGAAGGTTTTGGAAACAAGGTTGAAATTAAAAATTTAAACTCATTAAATAATGTAAAAAAAGCAATAGAGTTTGAAATTGAAAGACAGTCAAAATTAATTTTAGATGGAAAAGTTGTGCAACAAGAAACCAGAAGATTTGATGAAACTAAGCAAGAAACTATTTTAATGAGAGTAAAAACTGATGCAATAGATTATAAATACTTTAGAGAACCAAATATTAATCCTATACTTTTAGATGATAATTGAGTGAAAGAAGTTATTGACAATTCGCCTGAACTTGCTAAACAAAAAAGAGTTCGCTATGTAGAAAAGTTTGGTTTAAGTTTAGATGATACAAATTATTTATTATCAAGTATTGAATTAACAAACTTTTTTGAAAAAGCAGTTTCATTTAATGTTGATCCAAAAAAAGTTGCAAACTATATAATCACAGATATTAAAGCTCTATTAAATAAAGAAAGTATAACTATTGATAAAACTCATTTAAAATCTGAAGATATAGTTGATATCATTAAATATTTAGAGTCAGGATTAATTTCTTCAAAACATGTAAAAGCAATATTGCCAATAGCTTATGCAACTAATAAAACTGTTGAAGAAATAATAAAAGAAAATAATTTAAAATTAATTAGTGATGAAAATGAGATAATGCATTTTTTAAAACCAATTGTTGATAAAAATATTGATTTAATTAAAGAACAATATGAAAATAGACCTGAAAGAGTTGAAAAAACTATAATGGGTCAACTTATGAAAGAAACTGCTGGAAATGTAAATCCAGATTTCGCAATGAGTTTAATTAATAAGTTGATAAAAGAAGTAAAGTAGAAAAATCTTCTTTTTTTATATAAAAAAAGAAGACTCATTAGTCTTCTAGATCAGCTCCTCTAATTTTTTCAATTAGATTATTGATTATATTATTTTTAGCAAACACAACTAATAAGTCATCTTCTTTTAATGCTGTATATTCATCAGGAATCACTATTTTTCCGTTACGCTTAATTTGAACTATATTAAAATCTTTGTTTGTACTTAGTCCAGCTTCATTAATTGTTTTATCAATAATTTGTTCATCTTTTACAATAATATTTGTAAAACTATATTCTCCATCTGTTGATTGTACATCACCATCTATATCAAATAATGATTTAGTCGCAATCAATTTACCTGTTAACACGTCGGGAATAATAATTTTATCTTCTTCAATTCCTAGTGCTAATAAAATTCTTTTGTGATGTCTATCTCTAGCATTAACTATAATATTTTCAACACCTAAGTCAATTAAGTTTAAAACCGTAATAATTGATGCTTCCATGCTTGATCTTAAACTAACGATAACACAGTCAAATTGAGCAATTCCATTTCTTTCTAAAGCACTTTTATTTGTTGTATCTAAAACTATTGCTTCTGCTGATTCAAAATCTGCTGCGTATAAATTAAGTTTTTCTTCATTAATATCAAATATTTTAATATATTGTTTTTTTTCATCTAATGTTTGAGCAACAGATAGTCCAAAAAAACTAGCTCCTATAATTGCAAAACTTTTCTTTTTAGCCATTTTTTAAAGCCTCTTAACTTTCTAACTTTGTTTATTATACAACTCATTAACTTAACTTATCAATTTAAATAAGACATATTTTTGATTTATAAAATAAAGTTGTTGTATAATTATAAAAGTTTAATGCTAGGAGCAGTTGAAAATGGATAATTTGTTGGAAAAAAAACACGATAAAAAAAGTTTAAAATTGCAAAATAAGGAAAATAAAAAGCTTGCTTCACATAAGAAAAAAATTCAAAAAGATATTGCAAAAAAAACTACTTTTCAAAAACTAAAATCATGATGACCATTTTCAAAAATAAGTGGAAAAATCATAATTGGTTATTTATCTGCAATCATAATTGGAGGTTTTTTATTATCTATTCCTGGTATTGTAAATGATAGAGAATCAGAATGAAATTTTATAACTGGAATGTTTACTGCTTCAAGTGCAATTTCTGACACTGGAATAACAATATTACAAACAAACACACAATATAGTTTATTTGGACAAATTTTAATATTAGTAATGATAAAAATCGGTGGAATAGGATTGTTAACAATTAAATTGGTTATTTTGGCATTGTTAAATCGAAAAATTTCACTTGATGATCAACATGTTGCAAAAAGTGAAAGAGGAACTGGAACGGTTGCAAATACTGTTGAAATGATTCGTGATGCATTTTTATTTTTAACTTTTATTGAAATAGCAGGAACGGGAGTATTATTTTTTGGATTTTATTTGACACCATTAACTGATACAAGTCCTGTAAATACAAGTTTTGATGTAACAGATTCATATCATAATTTCTCAAGATCATTATGAGCTTCAATTTTTCATTCTGTTAGTGCGGTAAATAATGCTGGGTTTGATATTATTTCAAATTCTTCATTACAACCTTATAATCAAGGAAATAATAGAGGATATGTATTGCAAGTTATTTTTATGCTGCAATGAATAATTGGTGGTCTTGGTTATCCTACTTATCATGATATAAAAAGAAAAATTAAAGCAAGAAAAGAAGGTAAAAAAGTAAAATTTTCGTTATTTACAAAACTAAATTTCGTTTTTTATACTATCTTATTAGTTGTAGGTCCAACCCTAGTTATTCTTTCAGAAGTATTGACGGTTGAAAAAAGCAAAATTATGTATCGTCCAACCGAAACTGAGGGGGTTTATGAAAAACAAAAAACTTATCAATGAGTTTTTGATATTATTTTTAACGTAACTTCCTGTCGTAACGCTGGGTTTTCAACAGTAGATATTAATAACTTCACTGCTGGATCAAAATTTGTTATGGCAATTTGGATGTTTATTGGCGCTGCTCCTTCTTCTACAGCTGGAGGGATTAGAACAACAACATTTGCAATATGTTTAATTGCTATTATTTCAATTATTAGAAATAAACATTCTGTTGAAGCATTTAAGAAAAAAGTGCCAGATGAAACTGTAAGAAGAAGTTTTGCGGTTATATTTTTATCATTTTTTATTGTAGTTTTTAGTATTTTTGTAGTTTATCTTGATTCAAATAAAATGTTATATGACAGAAACATGAATACTGATGATACTGAATATACAATTATTCAATTAATTGTATATGTTTCAAGTGCATTTGGAACGGTTGGTTTCCAGCCATTTGCAAATAGTGAAATTTTAGCAATGGGAGTTGTAAGTAAAATTATGCTTGTTTTAACTATGTTTATTGGACAATTAGGTATTTCAAATACTTTGCTTGCTTTTGTAAAACCAAAAAACAAACAAAACTTTGGATATTTAGAAGAAGAAGTAACAATAGGATAAGAAAATTCTTAGATTTGAAAAAAAGTTTCAATTTATTAAAAAAGCTATATAAGGTATTATTTAAAGGGTTTTTCAAGTAATGAAAAACCCTTTTTAGTTGCAAGTATATTTTAAAGTTGTATGATATTGTTTAAGAGTATTTTCACAAGGGGAAAAATTTATGCAAGAAAATCAAAATGTTCAAGATTTGTCGTTTTCACAAGAACTTGATAAATATTCAAAAAAATGACATGCATTGTCCAATGAAAGAATACTAAAAATATTAAAAACAAATCAAAAATCTGGTTTAACAACTCAAGAGGCAGCAAAACGTTTGGAAGAGTTTGGTAGAAATACATTACCAAAACCTAAAAAACCAAATATCTTTGCAATATTTTTTAAAAGTTTTTTAGATCCTTTATGTATAATGATGGCAATTGCAGGAATTGCATCATTAATAATAGGTTTAATAAATACTTTAGAAGCACCTGATATTGCTGGGCTTATTATTATTGCAGTGATTATTTTAACAAATTCAATTATAGCAACATTACAAGAATGAAAATCACTTAACCAAAAAGAAGCTATAAAAAACAATGTATTAGAAGCCGTTGTATTAAGAGATGGAAAACAAACAAGAATTAATATTGAAGAACTAGTTCCTGGTGATATTATCTATACAAAATCAGGAGATTTTGTTCCTGCTGATTCAAGAATTATTGATAATCAAATGTTGAAAGTTGATGAGTCTGCTTTAACAGGAGAAAATGAAGCTGTAGAAAAAGTTGATGAAGTAATTGAAGAACAACATTTAGTTTTAGGAGATCAAAAAAATATTGCTTTTATGTCAACACTTGTTGTTGAAGGTAAAATGGTTGGAGTTGTTTTTAATACAGGTAGAGAATCAGAAATAGGAAAAATCGCAACAAAGATAAGTGAAACTAAAAAACAAAAAACACCTTTAGAACATAAAGTTTCTAAATTAACTTTAATAATAGGTTTAGCTTCAGTTATTCTTGGAGCAATAATTTTTGGAATTGCATACGTTAATAATGAAAAAATAGGAGAAAGCATTTATAAATTATTACTTGTTGCTGTATCTTCTGCTATCAGTATTATTCCAGAATCATTAACAATCATTGTTAAAATTTGCTTGTTTATTGCAACAAAAAAAATGGCAAGAAAAAATGTAATGATTAAAAAACCAAAATCAATTGAAACTTTAGGAAATGTTAATGTAATTTGTTCAGATAAAACAGGTACTTTAACTCAAAACAAAATGTTTGTTGATAGCTTGTATATGAGTGGTAAAGAATATAAAGCTAAAGAAATAGAACTACAAGAAGATCCTTTAGTAAGATGTATGGCTTTATGTAATGATGGAGTTATAAATAAAAAAGGCGAAAAAATTGGTAATGCAACTGATTTAGCATTAGTTGGATTATTAATGGATAATAAAATCAATTATCAAGCAATGAGAAGAAAGTATAAAAGAGTTGATGAAATTCCTTTTGATTCTAAAAGAAAAGTTATGTCAACAGTTAATCAAGTTGATGGACCTGATGGAAAATATGTAGCCTATACAAAAGGGGCAATGGATTATTTAATTCCTCATTGTAAACATATTGTAGATAATGATATTGTAAGACCAATTACAGATCAAGATATAGAAAATATTAAAGAACAACTTTTAGTATTTGCAAAAAAAGGAATGAGAACTTTAGGATTTGCAAAAAAAGATTTAGATGAAATTGATTTAGAACAAGATTATCAATATGAAGACAAACTTGTTTTTATGGGATTGGTTGCAATTATTGATCCGCCAAGAGAAGAAGTTAAATATTCTATTGAAGATGCTCATAATGCTGGAATTAGAGTAATTATGATTACAGGAGACCACAAAGTTACTGCTTTTGAAATAGCTTCAAGATTAGGAATTACAGATGAACAATACAATGATGTAATCACAGGAGCTGAAATTGAATCTCTAAGTAATGAAGAATTGATTGAAAAATTAAAATCAACAAATGTATTTGCAAGAGTTAATCCAGAACATAAAGCTTTAATTGTTGACTTGCTTCAAAGTCAAAATAACATTGTTGCTATGACTGGTGACGGAGTAAATGATTCTCCAAGTTTAGTAAAAGCTGATGTTGGAATAGCAATGGGTATAACAGGAACTGAGGTTTCTAAAAAAGTAAGTGATGTAATTCTAACTGATGATAATTTTAAATCAATCATTTCAGGTATAAACTCAGGAAGAAATGTTTATGAGAAAATCAAATATTCAATTTCATTTTTAGTTGCAGCAAATATCAGTCAGGTTTTAACTATTTTAATTGTATTAGGGATTTTTGGACAACTTGCATTAAACTCAGTAAACATTTTATTTCATATTTTTGTAGTAGAAACAATTGTTGCAATTCCAATTGGAATGCAAAGAGAAAGAAAAGGAGTTATGTTAAATCCTCCTCCAACTCATAAAAAAGAGAGTTTGCTAAAAGGTATTATTACTCAGATTTGTTTAACAACATTATTTAATACACTATTTGCTGTTTTAAACTACTCAATTGCAGATATATATGTAATGCATTCAGATTTAGCAAGTTCAAAAGAAGAATTGCAAAAGTTAGCTTCAGGTTATGCTAAGGCTGGATCTTATATTTGTATAATGAATTCTCCAATATTTTATGCAATTTTATTTAATAATAGATTTTTACCTATTAAAAATGATAATGGAGAAACAATTATTGATAAATATAAACCAAATAAATGATTGATAATTTTGATGTGTATAGCACTAACTTTAACAACTTTAACAATGCTTCCATTTGAAGGATTAAACGAGTTTTTTGATTTTAAAACTCATAAATTACCTGCAATTTTAGCAGTAATATTTATAATTAATACTTTGTTAACCCCAATTTGCATATATTTAGTAAATCTGATTGTATTAAAAACAACATCAAACATGAAAAAAAACTTATCAAAACAACAAACAATTAATAAAGAACTTTAAAAAGTTAAAACTATTTTTAGGTTTAACTTTTTTTAGTTTTAACACTTATAGTGTTGCATTAAATAAGTGTATATAGTAAACTCATTAGTGTTAAAGGAGAAAAACACAAATGAGAAAAATTTTAGGATTATTAGGAGCAGCTGGATTAATAGTATCTTCTACAAGTGCTGTAATAGCTTGTGGTGGAGATAAAACTGCTACTTTAGATTTTACAACTAGACAAAAGTCATTAGAGTCTGCAAAAACAGTTTATGATATATTTAAAGGTGAAGGGGACTATGTACCTAAAACAAACGGTAATTTAGTAATTAATTTTAAATTACCAGGTGATGTTAGCGGTAAAATAAGTTTTAACAACAAACAATATAAAGATATTTTTACATCAGAAAATAATGCAGAAATATTAAAAGCATTAAGACAAACTCAAACTGAAGTTAAAGACAAAAGTGATTTAAATGATGTTGAAAAAAACTTTCAAAAAGCATTTAATAACTATTATGTAACAAAATCATTTATGGATGGTATGAAAACAGCGTTTGATGCTGCCGGAGCTAATTCAAGTGGCAATGTTAAAATAGAAAATGCATACAATACTTCAACTAAAAGTGAAAAAAATAAAAAAGAAGAATATGATGCATTAGCAACAAAACTTCAAGATTGAATGAATTTAACATTTGATATGAAAATTCCAGAAAATACATATATATCTGAAATGAATTTAGATTATAAGGGATTAACAGGTTGAAAAATTCATTTTAGATTAATGATTGATGTTAATAACAATGGTTATGATGCAAGCGACAAAGATGAATCAGATGATATAGCATTAGATGTTAAAAAATTAAAAGATAATTCCACTGATGCTGAAGTTGCAAATGCTAATGCTAAAGCATCAGACAGCTGATTATCAAAAGCTAAAAACAATATTTCTTTAGGAATCTATAAAATAAAATTATTCATCCAACAATTAGTTTTAACTAATGGAAAAGATTGATTAGCAGATGTATTATCTGGCCTAATGCAAGGATTTGCAGAAAGTGCATTAACATTAATTCCTGCAATTAAAGCATTATTGAAAGTACCTGGAGCAGAATATATTTTCAATAAATTTGTTATAGCTCCAATTGCTGATAAAATTGCGACACCATTGGCTGACATTATTGTTAAATGAGCAGAAGACAATAAAACAAGCACAGGATCAATGATTACAAATAATTATGTAAATAACATGTTTTTGTTAGCATAAAATAATAAAATTGGTTTACAAAACCAATTTTTTATTTTAATGTGGTTTAAAATTTCATTTTCTTTTTGCTAATATATATTTGATATAAATAAATGGAATGAAACAATGAAAAAAAAGGTATTGAATGAAAGAGCATTTACTTTTTCTAAATTTTTAACAGTATTTAAACTTGTAGGTTCTAGTATCAAAAGACATCCTATAATTTTTTTTAGTTTTGTTTTGTTTACTATTTTAAATTCTATTTTAGCAGCCGCTTTTCCTTTGATTGTAAAAGGATTATTTAGTACTTTAGTTGATAAAAATGTTAAAACAAGTCCTTTTTTTATGTTTGAATTTACATATGAAGAATGAATTTATGCAGGAATAATATTATTAGGTTTATTTACTTTTGTACAGTTTTTTTCTAGTTTTTTAGCAGGAATTTTTTCAAGAAAATCTGAAATTGCTTTAAGAAAAAAAGTTTTGAAACATTTAATAGAAGTTGACATTAGTTATTATTCAAAAAGACAAATTGGATCTGTTATGACAAGAGTTATAAGTGATACTCAGTTTGTTGGAGATGGATTTAACAACTTTTTTACAAATTGACTTTCAATGTTATGAGGATTAATTGTAACAAGTTTTATTTTAATAAATTTATCATCTCTTTTAACTGGTGTATTAATTGGTTTATTTTTCTTATTTGTAGTAGTAATAATTTTTATGTTTTTTAGATATCGTCAATTTTTAATTGGAGCAATGGATGAAAAAAGAAAAGTTAATGCAGATATGACAGATAGAATCATGAATATAAGACTTGTTAAATCTTCTGGAACAGAAATGTTTGAAGTAAATAGAAATAAAGAATTGAATAAGGAATTAGCAAGAAAACAAAAAAGTTCTGTTGCTATGCAATCTGCATTTCAATTATTTAATAGTGTTTTAAGCTCTTTTTTACCGATGATTATGTTAATAGTTTGTATTTTTGTATATAACAAAACTATGACACCATTTGCACTATCAACTCTATGTGTAACTATGTTAAGTGCAACAGGAAGCTTGGTCTCTAATTTAATGTCTTTAACTTCATCGCTAAGAGGGATGGCTATTAGCTCAAATTGTGCAACAAGAGTTAATGATATATTAAAAAGAAAATCAATTATTTTATTTAATGAGAATCCTATTAAAATTGAATCTATTAATAATATTAAGTTTGAAAATGTTACATTTAATTATCCTGAAGAACCTCATATTAATGTGTTATCTACTTTTAATTTTGAGTTTGAAAAAGGAAAAAGTTATGCTATTGTTGGAGAAACTGGTGTAGGAAAATCTACAATAGCAAAAATGCTTTTAAGATTTTATGATGCAACAACAGGAAAAGTTTTAGTAAATGATATTGATATAAAAGATTTGGATCTATCAAACTATTTATCACATGTTGGATATGTTGAACAAGAACCTCAAATTTTGTATGGAACTTTTATGGATAATATTACTTATAGTGTTCCTAATAAAACAAAAGAAGAAGTATATGAAGCAGCTAAAAAATCACAATTACATGAATATGTAATGAGTTTAAAAGAAAATTATGAAACTTTATTAGGAGAAAGAGGATTGATGCTGTCAGGAGGTCAAAAACAAAGACTTGTAATTGCAAGACTATTTTTAAAAAATCCTGACCTATTGATTTTAGATGAAGCAACAAGTGCATTAGATAATATAATTGAAAAAGAAATACAAAAAGATTTAGATGAATTGATACAAAATAGAACAACAATTGTTATTGCTCATCGTTTATCAACAATTAAAAAAGTAGATAAAGTTATAGTTTTAGACAGAAAAGTAGGAATTTTGGAAATAGGAACTTTTGATGAACTAAAAAAACAACCCGGAAAATTTCAAAAGTTGTACAATGCCGGCTTATTGAAATAACAAATACATTTATAAATGACTTTTAATATGAGTCATTTTTTTATTTAAAAATATTTAAAAAAAATAAAAAATTTCTTGTAATTGTAATAACTTCTATGCTATTATGAATAAGTAGTTTTTATGTATCTGGCTTTTTAGCTCAGTTGGTAGAGCAACCGGCTGTTAACCGGTTGGTCGCAGGTTCGAGTCCTGCAAAAGCCGCCATTTTTTATGGCCTGTTGGTGAAGCGGTGAACACACACGGTTTTCATCCGTGCATACACGGGTTCGATCCCCGTACAGGCTACCATTTTATTGTATTTTATTTGTGGAGTGCTAGCTCAGTTGGGAGAGCTCCTGCCTTACAAGCAGGCGGTCGGCGGTTCGAGCCCGTCGCACTCCACCATTTATTATGCTGATGTGGCTCAATTGGCAGAGCAACTGACTTGTAATCAGTAGGTTGTAGGTTCAAGTCCTATCATCAGCACCAGTACAGAAAATATAGACAATCTCATTTTGTGGAGATTGTTTTTTTGTGTAAAATATTTGTAGAAACTATGAGGAAAAAATAATGCATACAATGATAAAAAATAGTAGATTAATTCTCATATCTATAGGAAGTTGTTTATCTTTTTTTATTAATTTTTTAGTTTTATTTTTTTGGAAACCAATTGCTATAAATTTAAATAGATACACTGTACAAGGATATGTATTTACTATTACTTATGTTGTCATTTTATTGATTTGAGTTATTGCTTTTACTTGCATTATTTTAATTTGAAGAAGATTATCTCTTGGATATATTGGATCAATACTTGCGCTTGTTTTTTCAATTCAAGTTATAATAGTATCTTTTTTCTTATTGACTTGAATATTTTGACTTCCAAATACAATTTCAGCAATTGTATTAATAGTAGGTAGTTCTTTAATTATTAAAGATAATAGAGAAAATTTATAGAAACTAAATATTTTTGTGATATTATAATTTTGTTGCAAATTGTCTCGTTAGCTCAGTCGGTAGAGCAACTGGCTTTTAACCAGTGGGTCATAAGTTCGAGTCTTATACGGGACACCATCCATCCGGGATTGGCGGAATTGGCAGACGCACCAGACTTAGGATCTGGCGTGGTAACACGTGGGGGTTCAAGTCCCTTATCCCGGACCATGTAGGAAAGCAAAAATCTCTTGTTTCACAAGAGATTTTTTTTAAATAAAATATTAAAATACTTCATAAAAGTGTTTTAATATATAGCAAGGTGGTTTTGTATGAAAAACATAAATAAAGAAAAAGTAATAATTTTTATAGATCTTGATGGTACTTCTTTAATGTCTAATCACTTGTTTAGTCAAACTACAATTGATGTTGTTAAAAAATTATATAAAAATGGTCATTATATAATTCCTATAACAGCAAGAAGTACAAAAGATGCTATTTTTCAACAAGCTATTTATTTAGGATTAGATAAGTTAGGTGGAATAGCTGTTGCGAATAATGGAACTCACATTTATGATTTTAAAATAAATTCATATATAAGAAAAAGTGTTATTTCAAGAGAAATGATAGAAAAAGTTTTTAACCAAACTTATGGTAAAATTGGAAAGTACAAAGTTCATTATTTTGCAGATGATATTACTTATGTATATGGAGCTGGGGAAGATTCTAGATACTGAAGCGATATTATGAAAGTTGATTATAAAATAGTTAAAGACTTAGTAGAGATTGAATCAGCAATTAATCATTTAACAATCATTTTAGATGAAAATGCAAATGATTATGATCGTAACCAATTATATAAAGACTTTAGTTTTATAGAACCAGAATTGCAAATTACTCAATATACTCGTAGAGTATATGAACTTTGTGCAAAGGGAATCAATAAAGGTGAGGCAATAGAGTATATTTTGAATCATCTTGGCTATAATCAAACAAATTGTTCAACATTTTGTTTTGGAGATAGTGTAAATGATATCCCTATGTTTAAAGTTGTACAATATCCTATTGCAATGGCAAATGCTATTGATGATATTAAAGGTATTGCAAAATTTGTCACTTTATCCAATGATGAAGATGGAGTTGCAAAGTTTATTGAAGAACATATTTTATAAGAAGGAGAATATATTATGGCAAAAATTATAAGTTCAGCTGAGGAATTTTACTCAGAAATAGCAAAACCAAATACAGTTGTAGATTTCTATGCAGATTGATGTGGACCATGTAAAATGTTTGCACCATTATTCGATCAAGTATCACAAGAAGCATCAAACTCAAACTTTATAAAAGTTAATGTTGATGAATTAAGAGAAGTTGCAGATAAATATGAAATTAAATCAATCCCAACAGTTGTGAAATTTGAAAATGGTAACGAAACAAACAGAAACGTTGGTTCTTTAGGTAAAGATGCATTATTAGATTTTGCTAAATAATTATTATGATTAAATTAATCGCATTAGATATTGATGGAACATTATTAGGAAAAAACAAAAGAGTTTCTAAAAAAAATATTGCAGCTATTAATGAAGCAAGGAAAAAGGGAATAAAGTTTTGTATTGCTTCAGGTAGAGCTTTTAATAGAGTAGATAAAATCGCAAAAGAAATTGGAATAAATGAATCATTAGAATATGTTGTAACCATGAATGGTGGAGCTATTTATAAATATGATAAAAATAAAAAACCAGTTTTAATAAAAGAAACTTTATTTGATATTGATGATGTTAAATATATATACAATAGTGCTTTAGATAACAAGTTAAATTGTTTTTCTTATTCGCAAGATATTAAAGTTGCTTATGTGATAAAAAATAAAGGTGCATTCATCTGATTTATGAAAAAAATATCACATCGAAAGATAAAAGTTTATACAAAAGATGAGATGGATCAAAAAGCATACAAAATAATAGTTTATGGTAAGAAAAAACTTATTGAAAAATGCAAAGAGACTTTAAGTCAAAAAAATTATGAAATGTTTTCATGAAGTTATGTTTCTGGAAATACTGCAAATATTGAAATTAATCCTAATGGAGTTGATAAAATATTTGCGCTTCAAGACATAGCAAAAGTTGAAAATATAACCGCTGATGAAATAATGTACTTTGGTGATGGTGATAATGATAAAAAAGCAATGGAGTGAGTTGGACTTAGTGTTGCTATGAAAAACGCATCAAAACATATCAAAAAAATTGCTACTCAAATTACAGGACATCATAAAAAATCAGGAGTTGCAAAAGCATTAAACGAATATTTAAAAAGTATTGAAAGCGAAAAATAACTTTTTATAAAAGTTATTTTTTTTTACTTCATTTGATAATTCTTTATAATAAAAATAGATATAAAAGGTGAATATATGAAAAAAAAGCAAATAGTTATAAATCATTTAATTTCTTTAATTAATGATGGAAAAGTAAAAAATGGGGAAAAGTTTCCTTCTGAAGCACAACTAATTACAAAATTTAAATTTTCTAAACAACCGATTAGAGAAGCTTTTAAACATTTACAACAATTAAACATTGCTTTTTCAAAACAAGGTGAAGGATATTTTTTAGGTAATAAAATTAAAAGTAATGTTTTATTTTGCTTTGGTGAGTTATTTGATAATACTAGAAGTAGATATTATTATGCTGGAATCGTTAATAGTAAAGATATATGATGCGAAACTAAAGAAGTTTTTTTAGAACACGATCAATATCGAAAAATAGTAGTTAGAAGATTTAGAAATAATGAACCTTTTATTTATGAAGAATCATACTTACCCTTAGAAAATACACCTAAATTTGATATTGAACTAATTAATGAAATTGGGATTTTTAAATATTTAGAAAACATTGAAGGTTTTAAAATTTCATATTCTCAAAAAAATATTTTACAAGCACCAATAAATTTTAAAGATACTTTAACATTTGAATATGGATATTATGATGGTTCATTTGTTTTAGATATAGGAAATGTATTTGATCAAAATGGAGTTTTAATGGAATATTGCTTAAATTTTTATGAATTTAAAAATTTTAAATGAAATTTTATAGAGCATAGAAAAAACATATAATTATAAGTTTGTCTTTCTTATTTTGCAGCACTATTATGTAGATATATAAAAAATAGGGAGGTATATATGGCAAAAATTAATTATAAACAAGAAGCCAAAACATTTTTAGACCATGTTGGTGGATGAGAAAATATTGAATCATTCCTACATTGTTATACAAGAATGAGATATAACGTTATTGATAAAAACAAAGTTAATGTCGATGAAATTCAAAAATCTAAAATTGTTAAAGGTGTTAATTGAAGTGGAAATCAAGTACAAATCATTTTAGGTGCTGGTGTTGTTGATAAAATTGATGAAGAAACTTCAAAAATTAAATTAACAGCAAGTAGCTTTGAAATGAAAGCAAACGTAAAAGCTAAAAATAACAAGAACATTGTAAAAAGAGCAATGAGTACTTTGGGAGATATTTTCTTACCAATTATTCCAGCTTTAGTTGCAGCAGGAATGCTTATGGGATTAAGTGCACTGCTTGTTCAAACAAAAGCAATTAGTCAAAATACTAGAGCTTATGATATTTTTTCAATATTAACAGATACTGCATTTTCATTTTTAGCAGTTTTAGTATGTTGAAGTACTGTTAAAAGATTTGGTGGATCTCCAGTAATTGGAATAGTTATTGGTATTATGTTAGTAAATCCGATACTACCAAGTAAAAGTGCGATAAATTTATATGAAAAATATAAAGAATTCATAGATAGTGGTCACACTGATAGTGATTGAGAAGAAATTGTTCATAAATCAGTTCCTGCTGCAGTAGAAGCATGAAAAATTGGATTCTTAAAAATTACAGGATATCAAGGATCGGTTTTACCACCATTAGTATTAGGAATTGGAGCAGCATTTTTAGAAAAAGGATTAAGAAAAATAGTTCCTAATTTTTTAAACATGATAATTACACCATTTGTTACAATAGCAGTGATATTTTTAGCTGGTCTACTTTTATTAGGACCATTACTACAATATGTTGAAGAAGGAATCTTGATAGCATCAACTTGATTCTTAAAAATTAAATTTGGTTTTGGAACTGCAATACTTTCAGGAATCGTTCAAGCAATAGTTATTACAGGTTGTCACCAATTACTACAAGGATTAGAAATTCAAATGGTAATTCAAGGTTCAATTGATGGATCAGGTTCAATGATGAATGCTGTGTGAACGGCATCAATCGCATCTCAAGCAGGGGCAGGAATTGCTGTTGCATTGAAAGAACAAAATAGATCAAAAATGAAAGTATTAATGTCTTCGGTAGCTCCGGCCTTGTTTGGAATAACAGAACCAGTTATATTCGGAGTTAACTTGCCAAAAACAAAACCATTCTTATGTGGTCTTGCTGGAGGATTTATTGCTGGATTATTTGCAGGAGCATTAAATGTAAGTTGTTCAGGTATGGGAGTAACTGTAATTCCAGGATTACTATTATACTCAGGAAATGTCAGAAACTTACTGCTAATAATTTGTGTCAACGCAATAGCAATCGGAGCAGCTTTAGGATTAACACTTCTTGTTTATAGAGATAGAATTACTCTTAGAGGAGTTGTTCTAAAATCAATTGCAAAAGAAGAAAAAGTTGAAAAAGAAAACAAAAAAGAGTTTTCAATATTTTTCTTAAACAAAAAAGATGAAGTTAAAGAAGTAAATAGCTTTTTAAATAAATATAAAAAAGCAGTTGTTGCAGAAGGAAATATTCAATACTCAATGAATAATGCAAAACATCCTGAAAAATATGAGGAAAAATTAGCTAAAGCAAAAGTTGTAGCTGATGAATATAGAGAAAAATATGACAAAGAATATAAAGTAAAAAGTCAAACTATTATTGATGAAGCAGTAAAAACTTTAAAATTAGAATCTAGAGAACTTTTGCCTAAATTAGAAAAAGAGTTTGTTTTTAATGGATAATAAATACAAAAAAATAGAAGATTTTAGTGAGCAAGAAATAGCAAGCGCACAAAAAAAGGCAAAAGAAGATCTATATTATCCAAATTATCATATTGCACCAATAACAGGTTTATTAAATGATCCTAATGGTTTAATCTATGTTAATGGATTACATTACATTCATTATCAAGTTCACCCAGTTGATGCAATACATGGATTAAAGTATTGAGCATTATGCACAACAAAAGATTTTTTAAATTATCAATATTGAGGTTTATCAAGTAAACCTGAAATTAAAGAAGAAAGTCATGGAGTTTTTTCTGGATCAGCTTTTTTAGAAAATGACCAAATTAAAATTTTATATACAGGAAATCATCGAGATGATGAAAATGTAAGACATCAAACTCAAATTATAGGAACTTTAAAAGATAACAAAGTAATTGATAAAGCTGTTTTAATTGAGCATGACTTTGATTTATATGATGAACATATTAGAGATCCAAAAATTATTGAAATTAAAAATAAAGAGTATATTTACTTTGGTGTACAAATGAAAGGTTCTAAAGTTGGATCAATTGCTTTTTATGATTATGAAACTAAAAAAAATGTATGTAACATTAAATATGATTTTGAAAACTTTGGTTATATGTGAGAGTGTCCAAATATTGAAAAAGTTGGAAACAAATATTTTGTAGTATTTTGTCCGCAAGGAGCAAAAAGTAATGACAAAATAAAATTCTTTAATTATGATAGTACTGTTTATTTATTTGCAGATGATATTGATTTAGAAAAACAAGAGTTTATAAATCCAACATATCCTCAGCTACTTGATTATGGCCATGATTTTTATGCACCTCAAAATTATTATGTTAATAAAGAGTTAATATCAATTGGATGATTTGGAACATTTGCAATAGTATATCCAAGTGATAAAAATAGTTGACAAGGAATGTTAACAATTCCTAAAAAAGTAACACTTGAAAATAATGTTATAAAACAATATCCTTATGAAGTATTTGTAAATAATATTTTACAAGACCATAAAACAATTAATGAAAATAAATTTTTAGTTAAGAAAAACTTTAGATTAAAATTCAGAACAAATAAAAATTTAGATTTAAAAATTGGAAATGGTAAAGATTATATACAATTAATAATAAATGATGAAAAAATTATATTTGATAGAGCAAATCAAGAAGAAAAAGTCATATCTGATTTGGAAGGGATTAGATATGTTGAAAGAAAACATAAAGATCAAGAAGTAGAATTATGAGTTGATAACTCATCGATTGAAATTTTTGTAAATAATTATGAAAGTGTGTTTTCTTCAAGATTTTTTATAAAAGAAGTTTGTCAAATTGAATTTGATGCACAAATAGATTTTGATTATTGAGATATCAAAAAAATAAATATGAAAATATGTGATTAAATCTCATTAAAATTATAATTGCTTTTAGTAAAAAACAAAAACCCTTACTTAGTAAGGGTTTTTGTTTATTTAAATTTTATTCCATTATACTTGCTTCGTATAACTCTTTGAATGTTCCGTTTGTTTGTTTAAGTTTATCAAATGTTCCAATTTGAGCTACGTTATGAACTTGTTTTCCTAAAACAATAATCTCATCAACTTTTTTAATTGTTGATAACCTATGAGCTACAATAATTGTTGTTCTTGATTGCATTAACTTATTTAATTCATTTTGAATTTCTTTTTCAACTTTTGGATCTAAAGCACTAGTTGCTTCATCTAATAAAAGTATCTTTGGATTTTTTAAAAACATTCTTGCGATTACTAGTCTTTGTTTTTGTCCACCAGATAACATAACTCCATGTTCTCCTAAAATAGTGTTATATTTTTGTGGTCAAGTCATTATCAAATCATGTAATCCTGCCTTTTTACAAGCTTCAATTATTTTTTTATTGTTGGCTGAAAAATTACCATAGCGAATATTTTCAAAAACATTACCATATAAGATTTGTGGTTCTTGTTCGACATAACCAACACTATTTAAATAATCTTTAAGTTCAATGTCTTTTAAATCATATTTTTTGTTTAAAAGTATTTTACCTTTTGAAGGATCGTAAAATCTTAACAACAATTTTATAATTGTAGATTTTCCACAACCAGTTTCTCCAACAATGGCATAACTTTTTCCTTTTTTAAATGTATAACTAAAGTCAGACAAGATATTTATGTCAGGTTTTTCGGGATAATTAAATCCAACATTTTCAAAAGTTATATCTCCTCAAATGTCTTTTAATTTAATAGATTGTTGTTTTACTTTTTTCATTTTAGGTTTTGTTTCAATTAATCTTAAAACTCGTTCTGATGACACAGAAGCATTAATTAAACCAACAAGAGCACTCATAATTTGCAATAATGGTTCAGCTAACATTGATTCTGCTAATTGGAAAGATGCTAATTTATATTTAAAAAAATCTAAACCTGTATTAGAATCTGAAAATACACCATAAACTAAAATTGAAAATAATATTGATGAGAAATTTAATATAAAAACTCCTCCTCAAATAATTGTTAACATCATTGATTGATTAATATTAACTTTTTTTGTTTCGTTGTAATATTTTTGGTGAATATTTAAAAATCTTTTTGTTTCATAATCTTCAGTTCCGCTTGATTTAATTAAAGTAATTGCAGACAATCTGTTTACAACATCACCATTAATTTGAGATATTGTATTTTTTGCTTTTGACAATCTTTTTCTAGTTCCTAAAAAACTAAATATAATTGCAATGTTAGATATAAAAAACACTGCTAATGCAAATATAGCAATTTTTCACGAAAATATAATCATTAAAATTGATGCTGCTAAAATTTCTAAACTTGATACTCCAATTTGTAAAGGAACTTCAATTGCTTGATCTCCAATGATTTGAGTATCTTTAATAATTCTAGTAATTAAATCTCCAATTTTTTTATCTGAGTAATAAGAAATATCTTGTTTAACTAGATTTTCTAAAGCTTCATTTCTTAAGCTAATTTCTATTTTTACTCCAATTTTATAAGAAACAAATTCATAAAAATATGATACTGTGCAATAAATAATAATATCTAAAACTGATATACCAATTAATCAATACATATCTAAATTTCAAAATGACATAATTGATTGATTACTTGTTTCTTGAATCACTCCTAATTCATTTGAAAGTTTTAAATTAATTGCTAGTGTTAATTGATAGGTAAGTAGTGGTAGTAATATTGAACATGCCACAATGATTAAACTTAATAATACTAATACTAAAGTTAACTTATATTCTTTTTTATAATAATAAAATAATAATTTCTTAAAAGGTCCCTTCCTTGAACCTACATCTGAATTCATATTTATCTCCATTTCTTTATAAACTAAAAAATATTGATTTTATTCAATATTTATTTTATAATGCAGAGTTTCTCTAATTCTCCTACGATAAATTAAAGTTAATTTTAACTTTTATTAAAATTAAGATGGTCTTATAAAAAGACAAAATAAACTATTTCAGTTTTTTTTGTGAGCTTTTTAGGTGCTCTATTATTTTATAAGTGGCTTAGATTAAAAAAATAAGACCACAACCCACTAATACAAATTTATATATTAGTTTTGCATTGAACCCATCTCTTAAGAGATAATTCTATTCTATTTTAGCACTGCCAAAAATCAGTGTCAAACTATTAAATTTTAGAAAGCTACTAAATTAAGTCTCTTAAAAGAAATTTTAAAAGCTAAAATTTATTTAAAATAATTAATTGTATAAATTTTATAAATTAAGGCTATATCATTGCACTGCTCAAAAATTACTTTATAATAAATTAGTAAAGATTTTTTCTAACGAAAGGAGTAATAACTATGAAACTATATGCAATCATAAATATAAGCCAATACATAATAGAAGAATGACTAGATGTTGTTATTACTCGTACAGAATGATTTGAAAAAATTTTAGAAACTGAACAACTCCTCCTGATTGCGTAATGAATTAAGATTACGCGTGAACAATTTAATATTTAAGTCTATAGAGGAGAAAAATGCCAATGAACAAAAGAAATAACATATTGGAAATTCGTAATTTAACAAAAAGTTATGACGGAAAAGTTGTTTTAAAAGGTATTGGTTTTAACGTCCATGAAGGTGAGTTTATAACTTTATTAGGGCCATCAGGTTGTGGAAAAACTACAACTTTGAACATTATTGGGGGACGTGAAAAACAAGATTTAGGAGACTTATTATTTGAAGGAAGAGATTTAACTCCAACTCCAAGTAATAAACGCCAAATTAATACAATTTTTCAAAACTATGCATTGTTTCCACATTATGATGTGTATGACAATATCGCATATGGATTAAGAATTAAAAAGACTAAAGAAGACTTAATTGAACAAGAAGTTATGAAATACATCAAAAAGTTTTCTCTTGAAGGGCATGAAACTAAAAGAATTCATGAATTAAGTGGTGGACAAAAACAACGTGTTGCCATCGCTAGAGCTTTAGTCCTTAAACCAAGAATTTTACTATTAGATGAACCTATGTCAGCTCTTGACGTGCAATTAAGAAAAAAAATGCAAGCAGAATTAAAAGAGTTACAAGAAGAAATTGGAATTACATTTATTCTAGTTACTCATGATCAAGAAGAGGCTTTGACTTTGAGTGATAGAGTTGTTGTTATGAACGATGGAAACATTCAACAAATTGGTACACCAGAAGAAATCTATAATGAACCTGAAAACAGATGAGTTGCAAACTTTATTGGAGTTTCAAATATTATTGAAGATGGTGAAATGATTAGAGATACAAAAGTAAAATTTGATGATAAAGAATTTGATTGTGTTGATAAAGGATTTGGAGAAAACCAAAAAAATATCGACATTGTTATCAGGCCAGAAGATATTAAAATTGGAGCACCTGGTAAAGGTTATTATGATGGTATTGTTGAAGATATCATTTTTAAAGGTGTTCATTATGAAATATTAGTAGCATGTGATAAAAGAAAATATAAAGTACATACAACAGAATTCCATGACTTTGATACAAAAGTGTCTGTAAGTTGAGGACCAAATGATATCCACGTAATGTGAAAAGAAATTGATGACTAATAGCGAAAATAAAGATGTTATAGAAAATCAAGAAATAACATCAGAAGTTATAGATAACAAAGACAATGTGGATGTCGAAACAGAACTAGAGGATATTGAAAACATTGAAGCAATTGGTGAGTCGGAATTTGTTTATCAAAAACCTCCATTAAGAGAAAGAATTGAAGAATTCAAAATAGTAAAAGCATTAAAAGGTAAAATTTGACCTATTATGGTTCCGTTTTTTGTAGTAATGGGATTTTTAGTAGTTTTACCTCTTTTAGGAATGTTATTGTTTGCAATAATAGATCCTTCAGGAAATAGTATTAAATTTAAAGCAAACTTCGAAAACTTTTTAAAGTTTTTCGCTTCTAAAAATATAATGGCAGTACTAGGATTATCATTATTGTATGCATTTGGTGCAAGTATAATTTGTGTTGCTATGGCTTATCCGATTGCATTAGTTTTAGCGCAATTAAGAAGCAAAATGTTAGCTAAAAATATGTGAGTTTTAATAACTTTACCAATTTGAATTAGTATGATTTTAAAAATTATTGGTTTAAATAGTTTACTATCATTAATTGGTTCATCATTTTTAGGAACTCCTGGAGCCATAGTTTTAGGAATGGTATATATGTTTTTACCATTTGCTATTTCTCCAATTTATAATGCAATTGAAAATCAAGATCCAAATTATTATGCAGCAGCTTTAGATTTAAAAGCTAGCAAATTTCAAGCATTTTGACACATTACATTTAGACAATCATTACCTGGAGTTTTTGCAGGATTTACATTAGTAATCGTTCAAGCATCAACTTCACTATTGATTGTTAGATACATGGGTGATGGAAAAATTAGCTTAATTACATCCATAATTGAGAACTACTTCTTTAAAGGGACCGATTTTGGATTTGGAGCAACAATTGCAGTAGCACTTGCAATCTTATTATTTGCAATTATGGGATTAATGAAATTAATCTCTAATAAATTCGAAGTAAGGGGGTCAAGAAAATGAAAAAGTTCTTCAAATCAAGTTACTTCGCTTTAATGCTATTATTTATTTACATACCTATATTTGTAATGATAGTAATGTCATTTAACTCAGGAAATAATCTAAGTGAATGACAAGGTTTTAGCACTAAGTGATATACATCATTTTTAGAAAACTCTCCTTTTGTTAAATCAATTTTAGTTTCTTTATTTGTCGCTGTTGTTTCAACAATAGTTTCAATAGTAATTGGAGTTTTAGCAGTAATTGGACTTTCTAAAATGAGAAGAAGAATTTCTAACAATTGAGTTAGAGTTGCAAACATTCCGCTTGTAAATGCTGATGTAATTACAGCGGTTGGTTTAATGTTATTATTCATATTTTCAGGATTGAAATTTGGGATATTCACTTTAATATCTGCTCACGTTTCATTCAACGTTCCATATGTAATAATTACAGTTTTACCATTTATGAAAAGAATTGATCAAAACTATTTAGATGCTTCAAAAGATTTAGGAGCAACTACAACTAAAACAATTTGAAAAGTAGTATTGCCAATATTATTACCTTCAATTGTAACAGCAGCTGCAATTTGTTTTGCAATGAGTTTTGATGACTTTATCATTTCATACTTTACTGGTGGAGATCAAACAAACGTTTCAACATTTATTTATACAGCAAAAAGAATGCAACCATACATTAATGTATTTGGTGTATTTATGGTAATTATTGTTACTTTGATTTTACTTGTATGAAATGGATGTCAATTTATTAACAATAAATCAAAAACAGTAAAAGAATTAATTAAAAAAGGCGATTATAAAATTAAAATCAGAAATGCTTTAGAAAATAAAATTATTTATTGAAAAGCATGTATGGAAAATGAAGTTAAAACAAGACATAGTAAAAGTATAATTAACTGAATTAAATATAGAATTTTAAGCTTACAATTACGAATTAAAAAGAATAAAAACTTTAACTCAAAAATAAGTAGACTAGAATGAAAAATTGCTTTACTAACAGATGAAATTGCAGAAGCAAAAAGAGTAAAAACTATTCATACTAAATTGAGTGAAAAGAAAAAACAGATAGAAGCAAAAATTCAAAAATTAAATAATGCAAAAAAAGCACAAAAATTTGAAGCTGTTATTGCAAAAATTAATAAAAAACTTTATAAATATGAAAAAGAAATAGAATGATTTAAAGATAGAGATATCAATGACAAACAAAGAGCCAAAGAAATTGGTGAAGAAATTGTTAAATTACAAAGTGAGTCTGCATCATTACAAAAAGGTGATAAAGACTATGATTGATATTTAAATAAAATTAAATCATTAACAAAAAAACAAAAAGAATTAAATGAAGGTAGAGATAAAGCAAAACTTCGTGAAACAGTTGCTAAACTTGAAGCTATGAAAGCAAAAAGTATTAGTAGTATTGAAGAAACTTATAGTGTTTGATTAGCACAAAAAAATAAAGTGTTTAAAGAAGTTTCTTTAGTGGAAGCAATTGATAAAAAAATTAAAAAATTAAAAACTAATAATGCTAGTGAAAATGAAATTGCAAGTTTATTAGAAGTAAGAAATACAAAAATGCAAGAAGCAAAAGATGTATATTCTCAAAAAATTCAAAAAGCAGAAGCAAAACTAAACGCTGTTAAAGATGATATTAATAAAAAACAAGAAAAATACTTTCCAGATGTTACTGCTGAAGGTTATACTTCAAAAAGAACAAGATGAATTAATAGAAGTTGAAAAAGATTATCACTTGGAGTTTTATTATTAGGATCATTTGGATTACTAACAGCTGCTTATGTAAAAAATAATGTTTACGATTTAGTTGTTGGTAACTGAGGAAGTTATATTGATACTTCTTTATTAACTGATTTTGAAAAAGAAAATAATGTAAAAATCAACTATCAACAATATGATTCAAATGAAAGTTTATATAACAAAAGTTATACATTTAGTTATGACATAATGGTTCCAAGTGACTATATGGCAAAAAAATTAGCTCAAGAAAATAAATTACAAAAAATTGATTGATGTAGAGTAGAGGTTTTACAAACACCTAATTTTGATGGTGCTCCAACTGATTGTGAGAAAAACAATGATCAACCAATCAGTGAAACATTTGACAAATTAAGTGATACTCTTGTAAATGTAGATAACAAAACTGTTTTAGATACAAATGGAGAACCAATTTTAAATTATGCAATCCCTTATTTATGAGGGGATGTAAGAATGATTTGAAATATCAAAAATCAAAAAGTTATTGATTTACTTTCAAGTAAAGGAATTTACAATCCTGATACAAAAGAAACTGATGAAAGTAAATTAAGTTGAAATATTTTATGAGAAGCAGCTGATTTAGGATTAGATGTAAAATTAAATGAAGATCCTAAAAACGTATTTATGTTTGCTTTTGAAAAATTATTTGGAAATGTTATGGCTGTAAAAGCTGCTCCAGAAAATGGAAACTTATCAAAACAACAACAAATTGATCTTGCTGAAGTAGAAGTGAAAAAATTAGTAAGCAAAAGCAATGTTGGAATTTATGGAGACCAATTAACAGATAAAATTGCTACTGGTGATTTTGATGTAACTGTTGTTTATAATGGAGATGCTATTTATGGACACAGTGATGATTATGAAAGTTCTTCTGAAGGTGATGAAGAAGGTGATGAAGAAGAAACTACTCCAAATGAAGAATCATCATCTGATGAAGCAAGAACAAGATCAAATATGAGTATAACTTCAAGAATTGAGGGTGGAAATCCTAATTTAGAATCAATTTCTTTAATTCCAAATGCCCCAGCAGAGTACAAGCCAGCTAACGGAGAAAGTGTTGGAGAAGTTAAACAAACAACAAATATTTGAACTGACTTTATGGTAATAAGTAAAGATAATAGAAATTTAGACTTAACATATAAATTTATAAACATGATTTATTCAAGATATGCACAAGAAAAAATAGCAGAAGAAACTGGATATACAGTTCCGACAAGTTATGTTATTGATAATCCGCCTTATGATGGAGTATTAGGTGAATGATATGTGCCAACTGAAGATGGAGAACCATTTGATTTAGATGCAACTTGAGATAATTACATGGTTGACAAATTTAATAATATTATTGCAACAAAAAACTAATCAAGTAATTGATTAAACATTTAAAAAAAGATTATTTTTGTTATAATCTTTTTTGTAATGGTACCATAGCCAAGAGGCTAAGGCATGGGACTGCAACTCCCTGATCGTCGGTTCGACTCCGACTGGTACCTCCATATTTAGAAGCAAAAGGACATTATGTCCTTTTTTTACAATTTTTTGGGTGAGAGAATGAATAGAGAAGAGTATATAGTTTTTACTAAAAACAATAATGGTGTTATTTATATGAGAAATGAACAAAATGGCATTAGAACCATAAGCAATTCTTGTAGATTTAAATAGTAAAAAAGATGCTTTTTTTAAAATAAATGAATTATTTGTTAAAGTAACAGAATCAGAAATTGATAGTTCATTTAGATGGTTTTTACCTTTTTATACAGATTATGGTAAAACTTAAAAACTGGCAAAACGTATTTATTAACAAAAACTGTAGTTTTCAAGACAGAGGAGTTATTTTTATAGGATATAACTTCATGACTGGAATGAATGTAACAATAGCAACTTTGAATCACGGGTCATGGGTTAAAAAAAGATGAAAGAAATTTGATTTATATTCAACCGGTTGTTATTTCTAATAACATTTGAGTCGTTTTGAGAGTAACTATTCTACCTTGACTCACAATTGGACAAAACACAATAATTGCTGCTGGTGTGGTTCTTGCAAGGGATGCAGAGCCTAATAGCATTTATGCAGGAGCCTAGCTATGAAAATAAAAAACTTACCAGATTAATTTTTAAAAAAAAATAAAAAACACAACATTTTTAAAATAGTTTGTTATAATAATAATTGTCAATTTTAAATTAATTGGTAAAAAATTCAAAACTATATTATAATTATTTTGGTTTGCTTAATATGCGCCTTTAGATCAATTGGATAGATCGTTTGACTACGGATCAAAAGGTTAGGGGTTCGAGTCCCTTAAGGCGCGCCATTATAGAAAATCGAATATTATAATAATGTTGTTGTAATATTCATACATCGGGAAGTGGCTCAGCTTGGTAGAGCATTCGGTTTGGGACCGAAGGGTCGCAGGTTCGAATCCTGTCTTCCCGACCATTATTTTTACAATTTTATATTTTATTATATATGGGCCCGTAGCTCAGCTGGGAGAGCACCTGCCTTGCACGCAGGGGGTCGACGGTTCGATCCCGTTCGGGTCCACCATATATGGCGGGGTAGCTCAGCTGGTTAGAGCGCTCGGCTCATACCCGGGAGGTCAAGAGTTCAAGTCTCTTCCCCGCTACCATATATTGTTATTTTTAATGGACCTTTAGCTCAGTTGGTTAGAGCATCCGGCTCATAACCGGATGGTCATTGGTTCGAGTCCAATAAGGTCCACCATAATTTCGACTCTATGCGAATTCGCAAATTATGTGGGACAATGAATACATTAGTAACGGAAGATTACCCAAGCCTGGCTGAAGGGGTCGGTCTTGAAAACCGAGAGTCGGGGAAACCCGAGCGGGGGTTCGAATCCCTCATCTTCCGCCATTCATCGCGGGGTGGAGCAGTTGGTAGCTCGTCGGGCTCATAACCCGAAGGCCGCAGGTTCAAGTCCTGCCCCCGCAACCATTGGCCCCATAGCGAAGTTGGTTATCGCGCCTCCCTGTCACGGAGGAGACCACGGGTTCGAGTCCCGTTGGGGTCGCCATTTTTTATTGGTTTTGTAGCTCAGTTGGTAGAGCAGTTGACTGAAGCTCAACGTGTCGGCGGTTCAATTCCGTCCAAAACCACCATTCTGTTATGAATATTTATAAATGCCTTTAAAAGGTATTTTTTTTACTTAAATTAGTAAAATTTTTTTATTTTCAAAAATTTATTTATATATAAAAAATTTCAAAAGTATGCCATTTTATCTATAAAAAATAATGATAAAAATAAATTTATTATAAAAACTTATTTTTTAAAACTTGAATTTTAAAACTTGTAGAGTAAAATTAAGATAATTTAGTGCTTAATATAATCAAAAAATTTAGGAGCGATACTATGAAAAGATTATTATCTGCAATAGCAACTTTTGGAGTTTTAATTTCATCAAGTACTTCTGCTATTTCATGTAGTTTTAAAAGTGGTCATAATAATGAGTATAAAAATACTGATGGAAACAAAGGTGATGGTGGTTTAGATTACGGAAAAGATAAACCTGAAGTACCTAGTGAAGAAGATGATCCAGAACCAGGTACCGGTGGAATTGATGAATCCGCAGATCCTTCAAAATATACTGATACATTATTTCAATTAGACAAAAATAGATCTTATATTTATACAAGCGATAAAAACGATGTAACCATAGCAAATATAACTAATTATGATGAAATCGCAAAATACTCAAATAGTTTGCCAAATCTTATTAGTTTCGTGAACTCTGAAGATTCTAAGTTAGTTTCAATTAGGGTTGATAAAGATAAAATAATAGCTAAAATAAAAGACATTACAAATCCTGTATTAACAACAATTAAAAGTATTAAACCAATTCAAATACAAATTAAATCTAAAAATGATGGAAAGCAACAAGTTGATTTCACTTTAAATATTCAAACAGATCATTTAGATCTAGCTAATTTACAAAATAATGTAAAGGTTAATTATTTTTTAACAGATGATGATAGCAATGGAATGCCAAAAAGTTTAGGATATACTTCAAGTTATTTAGAAAATTTAAGCAATAGTAGTAATTCTGATCATGAAAAAGCAAAAAAAGATTTTTTTGACAAGTTTATTAATGATAGCGGAATTAATATAAATCTTTCTGATGTAACAATTACTCAATCAAATAGTGGAGAAAATGGAAAAGATATTGAATTTAACATTAAAGGAAGAAACAAGCCTGATTCAAAAATTGTGCCTGATTCAAATATAAAATTAATTATAAATAAAGATGTAGATCCGAATGAAGTATTTAAAAACAAAAGCCTAGAAGTAAATGTATTTAGCGGAACATTTCAAAGCATTAAGTCAAGAGGTATGACTGATGGAGATAAACAAGGAATAAAAGCTTTGGTTTTTGAAGAACTTATTGCAAATAGTGGAATTGCAGACTATTTAAAAAAATTAAGTGATGATAATTATGCTCGCTCAACTACTCAAGTATTAAAAAATTCTACAATAAATTTAAATACAAAAACTTTATCAGGATCAATGGATTTAAACTTAGCATATTTGGGATTAGTTTTTAAAGGTAATTTGAAAGTTAATTATCATTTGGTTGAAGAAAGTAGAGCAAATTTATATTCAGAAGTAACAAAAAATGATGCATATAAAAAATATGACGTTAATAGAGAATTTCTTACAGATCAAACATCTGAAAATATATTAAAAGCTAAACTTCAATTGTACAATCAATTGAGTCAAGATTTTAGACAACAAGTTGATCAAAATGAGTTTGTTAAATATACTAAATTTACAGAATCCGCAAAAGAAACTTCATTTACAAGATCTTTAAGTAGTTATTGACAAGTAAAATATTGAGCTGGGTTTTCCGAATTTGGAGTTGCTATGAGATATAAACTTATTGTATTACCTGGATCTAAAAAACTTTATGGTCACTATCCAAAAACATTTTGAAATTACATAAACACAGCAGATCCGGATAAACCTACTGGAGGTCCTTATCATGTTATTGTTGATGCAATAGTTCCAAATGTTCCTAATGCAGATGCTTGAAAAAAAGAAGGTGGAGCTAGTGGTGGATCTGACTTTACAGGTTATGAAGGTGGATTTGATAAAGAATTTACCGAAGGACTTGGTTGATGATCTAAATCAAAACATAATCAAGTTGAAACCCCAAATAGAGATGGGTATGTCCAAAATGGAGAATACAATGAAGGATATGATATTTTGAAATTTTAATTAAAAAATTAAATTAATTTGATTTTGATTTGCTTAGAAAAAATTTGCATTTATAAAATTATATAATTAAAAGTGATTTATAAATTTATCTCAGGTTTATAGATAGTTTTGAATTTAAATGTCTTTATTTATCAATACGCCATAAAAATCTTATTGAAAGGAGTGATTGTTTTTATGAGTTGTGAATTAAATTGTCATGCATGCAAATGTGACTGTAAAGGAACAGGAGATCACAAATTATGTAAAGATTGTAGTTGCTCAGGAGAACATGGAAGCAAAGATAAAAAATAATTTTAAACCGCTATAAATAATATTTATAGCGGTATTTTTTATTTTTGTTAACTATTATAGTTAACAAACTAATAATTAAAAATAGTTAAAAAAAATACAAAAAAAGATGTCAATAAGTAATCAATTTTTCCCAAAACTTTATTTTTAGAGTTTTTGTAAAATATTCAATTAGTATATTTTCATGGACTATTTGTTTTAATTTGCTTATGTGTTTTTTGTATATCATAAACACTTTTATCTTCATAAGCTTCTTTATAAGTGGAGTTTTGTTGAACTTCAATTAAAGGCATTCATTCACTAAATGAGTTTGAATGTAATTGCCCATCAAAAGTTTCTACTACAAAAATTTTTGTTTTATTTTTATAAAAGACTGGCTCGCCATTAGAATGTGGTATATAAAATTTATTTTGGTATTTTATTGTAGAACCTTTATTAATAGTTCGTTCAAATCTTCTTGATAAATAAAAGTCAATGTTTTTATGTTCTTTAAAAATAGCAGAAGAGTTAATGATATTATTTAATTGAAGGGAAAACTGTGAATTATATCTTTTAATATATTCATTTAAAAATGAATTTGCTTCATTTATATCTGATATATTATTTTCTTTGAGTTCCTTTGGTAGGCGATCTTGAAGTGTATTTCACAACCTTTCAATACGGCCTTTTGTTTGAGGAACACTTGAAGTTGTTAGCTTTATTCCTAAGTTATGACATAAGAATCCGTATTGTGTTAAAGAGTCAGAGTGAAGGTCTGACTCTTTTTCTTTTTGACTTCAAAATACAGTCCTTTTGTCAGTAAGTATCTCCTTTGGAATCCCATACTCTAATAAAACTTTTTTTGTTATATTGTAGTATCCCATAAGAGTTTCTTCTTTATCAAAATATAAAGCTAAAACTTTACCTGTTGCATCATCTATAAAACCATGTAAATACCATTTCTCATTATCAACTCAGTAGTGGACTGATGCATCAGTTTGCAAGCGCTCACCAAACTCTGTTTTTCGATTTTGCATAGGATGAATATTTTCTATTGAAAGCAAAGTATTTAAATACTCTCGTTTCTCAGGTTTTTTAATATTTTCATTTTTTAATAAGTTAGTAATTTTTTGTTTAATCATTTTTTTAGTTACTTTATGAATTCTTGGTGAATATAAATTATTCTTTTTTAATAAATTGATTAAGTAAGTATATGAAACACTTATTTGATGGTTTGATCAAAGCTTTTCTAAAAAGTGTTTATAATTATATTCTTCATATTTATTAATGTACAAGTCAATAATTTGATCACTTATTTGATGTTTTATTTTTTTATTTGATATTCTTCCAGTATTTTTGTGGATAAATGCTGTGTAACCATACTTTTTATATTTGTTAATTAATAAGTTAACATTTCTTATTGTTTGACAGATTTTTATAGCTGCAGCTTTTTTAGATAGTTTTTCATCAATTACAGCTTTAATTATTTCCATTTTATCTTTTTCATTCATTTTTAAATATCTCCTCATATTTAAATCCCCCATTATAAATTATATATTTGGGAAATTTTTATTTGTTATATATAGGGAAAATATCATATGTTATTGACAAAAATAGTTAAAAAAAATACAAAAAAAGATTGTAAATTTTTTTCAGATAACTTATAATCTAATTGTTTTTCGGAGCATAGCTCAGTTGGTTAGAGCGCACCCCTGATAAGGGTGAGGTCGGTGGTTCAAGTCCACTTGTTCCGACCATTTTTAAAATAAAATTAAGCGCTTCGATTGTGAAGCGCTTTTCAATTATAAAGGAGATTAACATGGACATTAAAGAAAAAAATGATGTTGAAAAAGATGCTGTTCTTGAAACAAAACATATTATCAAGAATAACAAAATTAAAAGACGTTTTTTTGCAACAGGTAAATGATATAAAATTGCTATCACTTTAATTTTATGATCAGTTTTACAAGAAATATTAATGGCATCAACTGATTTGATTGATAATGTTTTTGTTAACCATATTATTAGTAGTCAAGTTAAAGGGTTTGATGATCTAACAAATTATATAAAAGGTACAGGTTGAGCAGAACATATGACCGAAGATAAACTTAATTCAGTAGGTCTTGGTAGTTTGACAGGTTATGCTCTTGATAATATAAATTATACTCCTGGGCAAATTGGAGTTAATGGTGTAAGTGCAAGTAACCAACTTTATATAATTATGTTTGCAATGGTATCAGGATTTTGTTATGGTTCTGGAATATTTAGTGCTCAATATTTTGGGGCAGGGGAATATCAAAAATTAAAACACATCACTTGTTTAAAAATGTATTTAACTTTAATAATAACAATGATTTTTGCATTAATTGGAATTCAGCAAATTACAAAATACTTTATTGGATTTACAACACATCCAGATTATGAAAAAGCAAAAGTACCATTAGATACGTATTTAACAGAAAACTCTAGTGCTCAAGAAATTAAACAAGTTTTTGAATACATTCAAAATAAAGTTTCAATTTTATCAACTGAACAAGGGGAAAAATATTATAGAATTGTTTCGCTTAGTTATCCAATTTTAACGATTAATCAAGTTGCCACAACTGCTTTAAGAGAAACAAGAAGACCATTTTATTCTTTCTTTATGTCTTCAATTTCGTTAATTGCAAATGCTTTATGTAATGTATTTTTCACAGCTCCTACTTTTATTCCAAATTATCATGGTTTTGGAGTTGTAGGAGCTGCAATTGGTACAGTAAGTTCAAGAGTTTTACAACTGGGATTTATAGTTGGATTGCTTGCTATTAAGAAGTTTGAGTTTATCCCAAGAATTAGACATTTTATAATTCCAAAATACATTTTAAGAATATCGTTGATAAAAAGTCTACCAATTTTATTAAATGAAACATTATTCGCTTTTGGACAAGTTATGCAAGTTAAATTACGTGCGCAATACTCAGCTGACTCATTGTCGGCAAATGCAATGTATGAAACGATGCTTATGGCATTCTTCTCCCCAATGTATCATGGATTAAATGCTGGAATATCAACCTTAGTAGGAAATGAGTTGGGGGCAAAACATTTTGATGAAGCAAAATATAACGCTAAACATTTAATGAGGTTTAGCTTCATGATTGCTTGTGTATTTTTGATATTATTTTCAGGATTGTCTTGAGTTATTCCAAAACTAATTTTTCCAAACACAACTCATGAAGGAATTAAAATTGGTGAGTGAATGGTATTTATATATTCTGCAACTTATCCAGTTATTCTTATGAATAGTTGTGTATATTCTATTCTCAGGGCTGGGGGAAATGTTGTTCAGGCATTCTTGATGGACTCGGCATTCAATTGAGTATTTCAAATTCCAGTATTATTTGTATTGATTTATTATAATACGTTTAACAATCCACAAGGATTTATAAATTTAGACATAATATATATTCATTTAATTGTATGTATGTTTGAAATATTAAAATTAATTCCTTCGATGATCTTTTATTTTAGAGGTAAATGATTAACAAGTATAATTGATGAAACTAAGTTTGAACATAAAGATAAACCAAAAGATAAAATGGATAAATCAAAAAATATTATAGTAGAAGATAAAACAGAAGAAATGAAATTAGAAAACTAGTTTCATTTTTTTCCCTATTTTGGTGCTTATTAATATATAATAAATAAAGTTTTAAAAGAAAGAGGTGGTATTATGAGTATTCCTTCCGCCAGTTGGGGTAGAAAAAAAATAATTAATAACGAGAGCGCTCATAATAATGCACCCTTATTTAATAAATTTTAAAGTATGTTAAGAGCTCTCTCTAGAAAGGGAGAACATGGAAAAATTAACAAAAAGAATTTCAAAAGAAGTAAAAAATAATACAATAAAAGACTCTCTCACTACTTTTTCTAGATTAGATCAAAAACAAGTTTTGGAAAAACTTGAAATTAAACAATTTGGTTTAAAAGATGAAGAGTTAGAAAGACAAAAACAAAAATATGGAAACAACAAGTTAGAACCAAAAAGATTTAACTTTCCTTTAGTGTTGGCAAAAGCTTTTCTAAGCCCATTTAATTTAATTTTAATTATTATTGATGTATATAGTTTTTATAATTTTTTTAGTCAAGTATCAGCTGAAAGAGACAACTTTGATTTAGTAGGAGCTTTATTAGTTTTAATAATGATTCTTTTAAGTGGATCAATAACATTTTTACAAGAAGTAAGATCATTTTTTGTTATTCGAAAAATGACATTTGATAATAAAAAAACTTCACACATAATTAGAAACACAGATTTTGAAATCAAAACAATTGATAATGCAAACTCTGTAAAATTAATTAAAGAAGCAGAACAAATTGACTCAGAAGAATTAGTACCTGGAGATTTAATTTATTTATCAAATGGAGATTTAATTCCTGCTGATATAAAAATTGTTTGAGCAAATAATTTATACTTAAATCAATCTTCATTAACAGGAGAGTCATTTCCAGTTTTGAAAAAAGAAGAAAATAATAAAAAAGAATATTTAGAATTTGAAAATATTTGCTTTACAGGAACTGATGTAATTTCAGGGTCTGCTCTTGGAGTTGTTGTTACAACTGCAAAAGATACATATTTTTCAACAATTAATGATAGAGTGACAGAAAAAAGACCTAAGTCATCATTTGATAAAGGAATAAAAAGAATAACTTTGTTATTAATTTCATTTATGTTAGCAGTTACTCCAATTGTATTTGCTGTTTTTGGTTTAAGAGCATCTGGACAAGCAGGAATTTGATTAGATGCTACTTTATTTGCGATCTCAATTGCTGTGGGATTAACTCCTGAAATGCTACCGATTATAATTACCGCAAACTTATCCAAAGGATATGCAAAAATTAAAAAACAAGAAGTACTGGTTAAGAATTTGAATGCTGTTCAAAATATGGGAGCAATTGATATTCTATGTACAGATAAAACTGGAACTATAACAAGTGGAGAAATTCATTTAGATAGAGTTATGGATTTTAACGGAAGTAAAAATGAGTATGTAAATAAAATTTTATATTTAAATAGTTATTTTCAAACAGGATTTCAAAGCCCTATAGATCAAGCGGTTTTATTAACAGAAAAATTTGAAAAACCATTTGTTGAAGAATATACAAAAGAGTGAGAAGTACCATTTGATTTCAACCGTAAAATGTTATCAGTTATTTTATCAAAAAATGAAGAAAAAGAAATTTTTACAAAAGGGGCTATTGAAGAAGTAATGGCTGTATGTAATCGTGTATCAATTCAAGGAGAAATTGTACCAATTACAGAATTACATAAAGAAAAAATTAGAAATAGAGTTAAAGATTTAAACAAAGATGGTTATAGAGTTGTTGCAATTGCTCACAATCATTTAGAAGACGAAGATATTGAAGAAGATTTAGTATTTCTAGGATTTGCTACATTCTTTGATGAACCAAAAGCAACTTCAAAAGAAATTATTAAAACTTTAAAAACAAGAGGTATTGATACAAAAATACTAACTGGAGATAGCGAAATCATTACAAGAGCAATTTGTAAAAAGGTTGATTTTAAAATTACAAAAATTTATACAGGAAAAGAAATTGAAGAAATGAGCGAAACTCAATTGCAAAGAGCTGTAATGGATGCAAATGTTTTTGTTAAGTTAAGCCCTTTACACAAATCATTAATTATTGCAACCTTAAAAGCTAATGGTCATGTTGTTGGATTTATGGGTGATGGAATAAATGATGCTCCCGTTTTAAGAAACTCAGATGTTGCTATTTCATTTATAGATGCTTCAAATATTGCTCAAGATGCAGCTGATATTATTTTAGTAAATGATTCATTAATGGTAATTGAAACAGCTGTTCATGAAGGAAGATCAAGTTTAGCAAATATTTTAAAATATATTAAAGTTACAATTGCTTCTAACTTTGGAAATGTATTAAGTGTATTAGTGGCTTTATTCTTAACAAATGTTGAACCAATGCAACCAATTCATTTATTATTACAAAACTTATTATATGACATAGTTATGTTTGCCTTTATTTTTGATAAAGTAGATAAAAAATTCACTGACTCACCAAGACCGCTGCGAACTAAAAATATAATATGGTTTACCATCATAAACGGTCCGGTGAGCTCCATATTTGATATATCAACATTCTTAGTTTTATTATTTGCGTTTAAAAATCAAGTTGGAGTTCCGTTTGGAATGAATCAAGATAAAGAAGCTTTAAGTCCAGATAGTATAGCGACATTTAATGCTTCATGATTTTTAGTTGGTTTAATGACTCAAACTGCTGTTATGCAAATGTATCGAACTGAAAAAGTACCATTTATACAATCAAACGCATCGTGACAAGTAAATGTTTCTACAGCATTTGTTTGTTCTATGGCAGTAATTGTGCCTTATACTCCAATTAATAGTCTTGTTAAAATGAGTCAACCTCCACTAGCATTCTTACCTATTGGAATTGGATTTGTACTAATGTATGTGATATTAGCACAATGTGTAAAAATGTTATATATTAAAAGATTTAAAGAATGATTATAAATATTAGTTACATATACAAAAATCTATTTTATATAGATTTTTTTTTGAAAAAATTTTTCACTCTATATGTGTTATTTTTTAAAAGTAATAAAAAAAGAACAAAAAATTATTAAAGATACTAATAGTTTTTAAACTTAATTTATTACATAGAAAATAACGGAGGTATAAAATATGGATGACAGAAATCATGTTACATATTCAGCATCTTGTAGTTGCCATAAGTGCGCTTTAATTACTGTTTTAAAAGGCGTATTTATTGAACTAAAACGAAGTAATTCAAATAATAAATATCGATATAATTAAAAAATAAGAGTTATTTTATAACTCTTATTTTTTAATGTAGTATATAAGAATAAATTTTGAATCATTAAAATAAATATTTAATCACTCAATATATTCTTCTAATTTGTGTTTATCTTTTGGTAATCAATTTGCAAATAATTCAACTTCATATCATTGTTTTTTATCTTTTGCAAATCTTCTTTCTAAAGCTTTTACAACACGATTTTTTTCATCGTATAGTTCTAATCCTTCATAGCCAACAAGTGTTACAACTTTTTTTTCTTGATCATTTTGAGATTCTAGTTCAACTTTAATTTCTCTTAAACTTTTAAATTGAATATATAACTCAATAAAGTTTTTTCCATACTTTCTTAATAGTATAAACTTTTGTTTTTTGTTTATTAAATCCATACTTTCTTTTGTAATTACAAATTTAAGCATATATCATCTTTCTTTCTAATAAATTTATTATAATACTAATAAAAACTTTTACTATATAATAAAATCATTTAAAATATATGTAGATTTCATATAAAAAAGGGGAAAAAATGAGAAAAATATTAACGGTACTTTTAACAACTAATTTTTTATTTTCATCTTCCGTATCACTTATTTCTTGTAATATTGACAAAAAAAAGGATGTAATTGACATAAGTCTTATAAAAAACACTAATTTAGGAGAATTATATGTAGATACACAAAACAAACTTCCTAGTTTAGATGCTATAGTTTCTGCTATGAATGATAAAAACATAAATCTTAATTTAAAATCTAGATATGTTAAAATTGATGACACTTTAACGCAGAATGAAACTACTGCAAAAATTACAGTTATTGATTTATCTAGTAATTTTAAAGGAAGCGTAGTAGTGAATTATTCTATAGTGAAAGCAAATTCAGAAAAAATAAGATTATCATCATTAATTGATGTTACAGACCTTCAAAGCATTACATTCACCAATGATGATTCTTTAAAATCATTGCCTTCAATTGATGATGTTTTTTTAGGTATGAAGGCAATGAATCCCAAGACAATGGAAATAAAAAGAAGTGAAATAAGAAAAGGATTTTTTGGAACTACTCAAATCAGTTTTTGCATTGAAGCTTTTGGAGAAAAATATACAGGAAGTACAGTATTCAATTTTAAAAAATTAGACTCAAGTAAGGTTTCGATAGCTAAAGCTTTTACAAATAATAATTTGGGAGAAATGAGTTTCATTGAAAGTTTGCCATCAAAAGAAGTTTTTTTAAAGGCATTTAAAGAAAAAAATTCTTCATCAAGTGATTTTTCAATAAATGACTTTGAATTTTATGAAAAAGGATCAGATTCTGAAACAATTGAAATTATAGGAAATAATAAGTATAGTAATTTATCGCATGCAAGATTTTCTTATATAAAAAAATAATTCATACTTTTTCCTTAAAAAAAGTATGCTATTTAAAAATTGTTATATATCTAATAAAATATCAATTTAAAGGAACTACAAATGGAGAAAAATACAATGGAATATTCACACAAGAAAATTGAAAAAAAATGACAAAAATATTGAGAAGAAAATAATATTTATATAACTACTGAAAATAGTGATAAAAAAGCATATATTTTAGATATGTTTCCATATCCAAGTGGAGCAGGACTTCATGTTGGACATCCAAAAGGATATATAGCAACAGATGTTTTTGCAAGAATGAGAAAACTTCAAGGTTATGATGTTTTACACCCAATTGGATATGATGCATTTGGATTGCCAGCAGAACAATATGCTATTAAAACAGGAAATGACCCAAGAGAGTTTACAGAGAAAAATATAAATATTTTTAGAAAACAATTAAAAATTCTTGGGTTTAGTTATGATTACAATAAAGAAGTAAATACTAGTCATCCTGGTTATTACAAAACAACTCAGTGAATTTTTCAACAACTTTATAAACAAGGTTTAGCAGAAATAAGATATGCAAATGTTAACTGATGTGAAGGTTTAGGAACTGTTCTTGCGAATGAAGAAGTCACTGTTAAAAATGGAAAAATGTACTCAGATATTGGAGATTTTGAAGTAGTAAAAAAACCAATGAAACAATGAGTATTAAAAATTACAGAATATGCAGATAAACTTTTAGATGGTTTAGATGATCTTGATTGACCAAATTCTGTAAAAGAGTTACAAAGAAATTGAATCGGAAGAAGTGAAGGGGTAGTTTTGAATTTCAAAGTTAAAGATTCTGATCAAGATATACCAGTATTTACAACAAGACCAGATACTGTTTTTGGCGCAACTTATTTAGTTTTAGCTCCAGAGTATGAATTATTAAATAAATTAGTAAGTGAAGACAAAAGAAAAGAAGTTAATGATTATATTGATTTAGCAAAAACAAAAACTGATATCCAAAGACAAGATGATTCAAAAGAAAAAACAGGATTATTTATTGGAAACTATGTAATTAATCCATTTACTAATGAAGAAATTCCTTTATGAGTTGCTGATTATGTTTTAAATGATTATGGAACAGGTGCTGTGATGGGGGTTGCTGCTCATGATGTAAGAGACTTTGAATTTGCTACAAAATTTAGTTTACCAATAAAATTTGTAATTGAAGCAAAAGATATGTCAAAAGCATTTGTTGGAGAAGGACCTCATATTAATTCAGACTTTTTAAATGGTTTATTAAAAGATGAAGCAAAAGCTTTAATTACAAAAAAAATTGTTGATAATAACTTAGGGTATATTAAAGTTAATTATAAATTAAGAGATTGATTATTTTCTAGACAAAGATTTTATGGAGAACCTTTTCCAGTTATCTTTTTAGAAGACGGACAAATTGCTTTAATTGATGAAAAAGATTTACCTTTAGAATTACCAAAAACAGATTATATTAAACCTTCTGGAACTGGTGAATCACCACTTGCAAATATCAAAGAGTGAGTCAATATTAAATATAAAGGTAAAAAAGTTACAAGAGAAACAAACACAATGCCTCAATGAGCTGGATCATGTTGATATTATTTGGCATATATTTTAACAACAAGTCCAAATAATTTAATTGATATAAATTCAAAAGAAGCAAAAGAGTTATTTAAAAAATGATTACCTGTGGATTTATATGTTGGTGGTCAAGAACATGCAACTTTACACTTACTATATGCAAGATTTTGACATAAGGTTTTATATGATATTGGAGTTGTTCCAACAAAAGAACCATTTCAAAGACTTATAAATCAGGGGATGATTTTAGCAGATAATGGAGAAAAAATGTCTAAATCTAAAGGAAACACAATAAATCCCGATGAAATAGTAGAATCTCATGGGGCAGATACACTAAGACTATACGAAATGTTTATGGGACCAATCGAGGCATCATTTCCTTGAGCATTCAACGGATTAGATGGAGCAAGAAAATGATTGGATAGAGTGTATCGCATGTTTGATAAATTTGATTTTAGTCAAGAAAATAATGGTAATTTGGATTCAGTTTATAATGAAGTTGTTAAAAAAGTAACCAATATGATTGAAGATTGCAAAATGAATACAGCGGTTTCTCAATTAATGGTTTTTGTAAACGCAGTTTATAAAGAAACCGATCCTATTTACATAGATTACATAAAAGGTTTTTTAAAAATGCTTAGTGTATATGCACCACATTTAGCAGAAGAATTATGAGAAAAATTGGGACAAAAAACTAGTGTATGTTTGGATAATTGACCAAATTTTGATGAAACTAAATTAGTAAAAGATACTGTTATAATTGCTGTTCAGGTGAATGGAAAACTTAGAGCAACATTTGAAACTTCAAAAGGAACTTCTAAAGAAGATTTATTAAAAAAAGCAAAAGAAATTGATAAAGTAAAAGAAATTATTTTAGACGGAACTTTATTAAAAGAAATAGCTGTCATTGATAAGATTGTTAGTTTTGTTTTAAAATAAGGAATTTTATTGAAATATATTTTCAATAAAATTTTTTTTATGTCAATAACTAATCAATTTTTCCCAAAACTTTATTTTTAGAGTTTTTGTAAAATATTCAATTAGTATATTTTCATGGACTATTCGTTTTAATTTGCTTATGCGTTTTTTGTATATCAGAAACACTTTTATCTTCATAAGTTTCTTTATAAGTGGAGTTTTGTAGAACTTCTATTAAAGGCATTCATTCACTAAATGAGTTTGAATATAATTGCCCATCAAAAGTTTCTACTACTAATATTTTAGTTTTATTTTTATAAAAGACTGGCTCGCCATTCGAGTGTGGTAAATAAAATTTATGTTGGTATTTTATTGTATATACTTTATTAATAGTTCGTTCAAATCTTCTTTATAAATAAAAGTCTATGTTTTTATGTTCTTTAAAAATAGCAAAAGAGTTAATGATATTATTGAACTGAACTAAAAATTGTGAATTATATATTTTAATATATTATTTATACCAGATATATTATTTTTTGAGCTCCTTTGGTAGGCGATCTTGAAGTGTATTTTACAATCTTTCAATACGGCCTTTTGTTTGATGAACACTCGAAGTTGTTAGCTTAATTTCTAAGTTATGACATAAGAATACGTATTGTGTTAAAGAATCAGAGTGTAGATCTGACTCTTTTTCTTTTTGACTGCAAAAAAACAGTCCTTTTGTCAGTAAGTATTTCTTTAGGAGTCCCATATAACAATAAAACTTTTTTTGTTATATTTTAGTATCTCATAAGAGTTTCTTCTTTATCAAAATATAAAGCTAAAAAATTACCTGTTGTATCACCTATAAAACCATGTAAATACCATTTCTCATTATCAACTCAGTAGAGGATCGACCCATCAGTTTGCAAGCGCTCACTAAACTCTGTTTTTGATTTTGCATAGGATGAATATTTTCTATTGAAAGCAAAGTATTTAAATACTCTCGTTTCTCAAGATTTTAAATATTGTCATTTTTTAATGAGTTAGTAATTTTTGTTTAATCATTTTTTTAGTTACTTTATGAATTCTTTGTTAATATAAATTATTCTCTTTTTATAAGTTAATTAAGTAAGTATATGAAACACTTATTTGATGGTTTGATCAAAGCTTTTCTAGAAAGTGTTTATAATTATGTTCTCATATTTATTAATGTATAAGTCAATTATTCTATCACTTATTTGATGTTTTATTTTTTTATTTGACATTCTTCCTGTATTTTTGTGAATAAATGCTGTGTAACCATACTTTTTATATTTTTTAATTAATAAGTTAACATTTCTTATTGTTTGACAGATTTTTATTGCTGCAGCTTTTTTAGATAGTTTTTCATCAATTACAGCTTTAATTATTTCTATTTTATTTTTTTCATTCCTTTTTAAATATCTCCTCATAATTAAACCCCCAGTTAAATTATATATTTGGGAAATTTTTATTTGTTATATATAGGGAAAATATCATATGTTATTGACAGAAATATATTTTCAATAAAAATTTTTTTATTTACAATTATAAATAAATCTATATAATTAACTAATATTGAGGTGATTTTGTGAATACAAAGTTGATGAATAAAAAAAATTTCACTAAAGCTATAAAAAAAATTATTTTAATCGCTACTCTAATTTTGATTTCATTCGCAAGTGATCAAATCATCGTCGCAATTTGTAACATAATACATGGATTTGTTGCAAATTCATATACGTTTATTTTATTAGCTAGATTTTTAATGTTTTTATTATGTTATATTTTAATAAAGAAAATAGTTAACTATTTTATTTTTAAAAAAACAAAAGTAAAAATAACCAAGTTTGAATATATTATCATTGCAATAATTACAATTATTGATTTTATCGTTTCTTTCAAAACTTTAAGGATGAGTTTTTATGATAAAGGATATTTATATTTTTGAAAATTATTAAAATGAAATTCAACTTTAATGTTTTTCTTATTTATCGGTTTAATATTTAGTTTATTAGCATTTGATTTATCAGTTTTTGTTATATCAGTTTTTGAAGCAACAAAAAAAGTTTTTAATGCAATAATATTATTTTTTAAGTGAGTAAGTTATCTTTTGAAAAAAACAAAAGAATTACTATTTTTGTTTTTCAAAAATTTAATATTTAAAACTCGTGAAAAAATTAACTTTCAAATTTCTAATTTCAATAAAACAAAAGAAGTCAAATTTATAACATCTAATTATGGTGATTATTTAGCTAATTATCTTATTTAATCATTAAAACAAATAAGAGAGGAAGACTAAAAATGGAAAAAAGTTTACAAAAAAATGAAAAAGAAAAAGTGATTAATTCACATCAAATATTAAATTTAAATAACAATCAAAGCGGGATTCAAGTCAACAAACTAGAAAAAAAATTTAAATCAGGATATGGAATTGAAGATATTAATTTCATAGTTAAACCTGGAAAAGTTTTTGGTTATTTAGGACCAAATGGTGCTGGTAAGTCAACAACAATTAGATCTTTAATGGGATTTATAAAACCCGATAAAGGAAGTTCTTTAATAGAAACAAAAGGTGTTGAAGAGCTTACAACTTATGATTCATGAAAAGATAAAGATGATACACAAAAATTAATAGGTTATGTTCCGGGGGAAATTGCTTTTCCAGAAAATATGAACGGAGTAAATTTATTAAAAATGATTTTTAAATTAAGAAATATGACAGATTGAGAACAAGTTAAAAAATATATTTATTATTGAGAATTTGATCCCAATATGAAAATAAAAAAAATGTCAAAAGGTATGAAACAAAAACTAGCTCTTGTAATCGCTTGAATGCACAACCCTGACATTATAATATTAGATGAACCAACAACCGGATTAGATCCATTGATGCAAGAAAAATTCGTATCTTTAGTTAAAAAATCTAAAGCTGAAGGAAAAGCTATTATTATGTCATCCCATATATTTTCAGAAATTGAAAAAACTTGTGATACAGTTGCTATTATTAAAAAAGGAAAAATAGTCTCATTAATTGATGTTAAAGATATTCATTATAACGATGAAAAAACTTATGAAGTTAAATTTCAAAATAAAGTAGATAATATTTTAAAAGAATCAAAATTATGAAAAGTTGATTTAATTGATGAAAAAACTGCAATGGTAGTTGTAGAAAATAAAAATATAAATCAATTTTTAGAAGTAGTTACGAGTTTAAAAGCAGAGTTTTTAAAAGAACATCCATTAGATTTAGAACAATACTTTATGAAGTATTATGAAAATGAAATTTCAACTGTTGTAAAAGATAACATAGAAAAATTTGATAATAATATTAAACCAACAGCAAAACATAAAGCTAAATTAGAGTTTATAAAAAGAAGTTATAGAAAAATGTCAACTTTATGATTATTCTTAACTATCTTGCCAATAGCGATGTTGTCAATTTTATTTATAACAATGTATACAAAAGGTACTTTTGATTTAGATCCTGCTTTGAATGGTAAAAGTCTAGTTGAAACACAGATGAAAATTAAGGCCACATTAAATCAAGTTATGAACATGATGTTCTTTGGAAATCTTGGTTTCTTATTACCGGTTGTCTTTATAATTGTTACTTCTGGTTCAATAGTTTCTGGAGAAGTAGAAAAAGGAACAATGGTTAATATGTTAACTACAAGTTTAACTAGAAAAAGTGTAATAATAACAAAATTAACTTCATTTATAAGTTTAATTGGATTAGGAACTTTGTTACAATATATAGTTTCAATTATATTTATTCAAGCATTTAAAATTCAAGAATATATTGATTTATCAACATTTGCAGTTAAATTCTTAGGTTTATTTTTGTTATTATTTTTAATAGGTTCAATAGGATTTATGTCAAGTTGCTACTTTAATAGATCAGTTTATGCACTTTCGTTAGTTGGAGTTATAGTTATAGTTTCATGAGTATTAACAATTGCTGCAAAAGCTGATGAATCTTTAAAACCATTGAAATACATTTCAATTAATACATTATTTGATTATGAAGGAGCAAAAGCAAGCGATTTATCAACTTTTTTAGGACAATATCTATTTATGGCATTGGCTGGAACTGGATTATTTGTAGGATCTTATTTTGTATTTACTAAAAAAGATCTACCTTTATAATAACAAACATTCAAATTTTCAAGTAAGCATATTCTATCAAGAATAGAATATGTTTTTTTATTATAAACACTATATTTTGCTTATCTTAATAAAAGGTTATAAGTGATATAATATTAATTAATGGTGGTGGTTTTATATGGGCAAAATTATCGAAAATGATGGGTCTAAAGAACTTTTTTTAGATTTTTCTTATATTCAAAATGTTATGTTCAAAGAAAACATTGCAGAGCTTGATAATATAATTTCAAAATTAGAAATTGAAAATATAAATTCTTATCAAGAATTACAACAGTTTTTGAGAAACTCAATGATTAAGCAAGCTTTTATTTGTTTGATTGATGACAAAACTAGACAATTAAATAAAAAAAGTAAAGATAATTACGTTTATGATGCAATAATTAGAATCGAATTAAATACTACAAGTCAATCAAAGTTACCCAAAGATACTTATCTTGGTTTTTTTGTTAATATTAATCCTAAAACTCCGTATTTAACAATTTCATCGATCTTTGAAACAAGATTGAAACCAATTGCTCAAGAATTCGAGTCAATTATTCAAGAATCAAGAATTCAATTAATTAGATATCAAGGTCAAATAACTCCTGAAGAAGTTTTAAGAAGAAATGTTTTAAATTCTTCTAATATCGCAAGTATCGGAAAATTAGTTTCAAAATTTGAAGAAGAAAAAAATAAATGATTGAATTATTTAGATTTTTCTTATGATTTATTGGAAGTGCAAAGAAAAAATTCTTTACCTTATTTAAATGCTATTGCTAAAAAAGTTATAAAGATAGATAAAAGAGATTATAAGGATAACTTAAAGTTTTTAAAGTTTTATAATTTAAAAAGTAACACGTATTTATTTTTAGAAGAAAATCAAAAAGAAGTTTTAGAATCATATAATATAGATTATTTAGTTACAAATTTAATAATTTTAGATGTATTGTGCGATAATACTGAAAAATTAGAAAAAATAATTAAAACAAATGAATTAGCAATTGTCCCTTTAAAAGTAAGTAAAACTTTACCAGCAATGTATAATATACAAAAAAATATAAAAGATATTTTTGATTTCAGTTTTGAAAAATTACAAGATAATTTTATTGTTATTAATTTAACGATTTTTATAGAAGAAAATAGTAATATTGAAAGTTTGATGCATTATTGAGAAAAAAATAACGAAACAATATTTGGAGGTAGTCTTGAACTTGAAGAAACTAAAAAGTATTTTTATGAAGAACTAAATGAATGAAAAGTTCATCAGCTAGTTTATGAAAGTGAAAACAATTTTGATTACAGTTTATTTAAAAATAAAAATAATATTGATTCATTAGCATGTGGTTATCTAGCTTATATCGGAATTGGTGAAGATGTACTAATTGAAAGAGGGAGACAAGTTTTAAAAAGAATAAGCGAAGGAAATACAAAAAATCCATATCTTATAAATTATTTATTTAACACAAAGCTAATTGATTTATCAGAAACAAACAATTCTTTTACTTTAGATGATAAAGATTTTTATTATACTTTAAATAGAGAACAAAAAGAAGCTGTTAAAAAAGCTTTAAATTCTAAAGATGTTTTTTTATTACAAGGACCTCCTGGAACAGGAAAGACGCAAGTAATCTGTGAAATAATATTTCAATTAACAAAAATAAATAGAAAAGTCTTAGTTTCAAGTCAAAACCATGAAGCAATAAAAAATGTTGTTGACAGATTACCTTATGAACCAAATATCAACAGAATTAGATTAACTAATCAGATAAATTTAAAAACTAAATCAGTCAACAATTTTTCTCCTGAAAGAAGTGTTTATAATTATTACAAGTCAATTGCAAAATCTATGTTTGATGATATGATGGTTGAACAAGAAGCCATAAATGAAGTAAAAGAAATAGAAAACAAGTTAGAAAAGCTTTTAATCAACAGTAAAGGTTATCATCAAAAAAATACACAAGCAAAAAAAATTCAAAGCGAAATTGAAGAAATAAATCAAGAAATTAATAAACTAAAAACTGAATATCTAGAAAAAATTCATTTTAGAAATTCTTTAAAAGAAGAGTTGTTAAATGTAGAAAATTTAATTGAAGTATTAAGTAATTTTGATTTTAATATATCAATAAATATATCTAATTTAATTTACCAACTTTATAATCAAGAAATCAAATTTTTATTTGAAGAGTATATTTTAAATAATCTAAATGAAAATATATATGAAGAAAATGTTTTTTATAAAATAAGAAAAGTCTGTGAACTTGTTTTATTTAAAGATGAAATATTTATTTCTATAAAAAATTTAAAAAAAAGAATAGTTGATCTTAAAAGAGATGCTGAGTTTGAATTAGCAGAAAAAGAAGAAGGAAGTCTTAATGCTTTAGAAAAACTATTATTAAAAAACGAAGGTATAAGAAGTTTAATAAGTATACTTTCTCAATTTAGAAATAAATTAGAAGATCTTAAAATAGATATTAATTATAAGTTAGAAAAAATAAAAAGTGATGAAAACTTAGAAAACAAAATTGATAACTTAGAAATTAAAAAAAATGAGTTGTATGTTACTAGACAGAATTTATCTGAACTTGCAGGGGAAAATGCAGCAGAAGTTAGAGAACTAATAAAATTTGCTAATAAAAAATTTAATTTAAGTTTAGGAATTACTGATGTAGATTTAGAAGAACAAGTTAAAAATCAATTAGAGATATATGGAAAAAGCTTACAAAAAAGAAAAGAAAAAACAGACACATTAAAAAGCTTTTATGAGTTAGTATCTTCTTATGCTAGTGACAACTATAATATAACTAATGAATGGGAAAAGGAAATTGCAACAGAAAATTTCACTCCACAAATGATTCAAGAGTCTAGAAGATACACAAGCTCAGTTTTAAATAATTTAGTAAATGTATATGCAATGACACTAACTTCAACTAATATGTTTAGATTTAATAAAGATGAAAGTGCAAAAAAATTAGGTTTAGAAGAAATAAATTTAAAAACTATGGATGTTGATGTCGTAATTATTGATGAAGCTTCTAAAGCAACTTTGTTAGAAATATTAATGCCCTTAATATATGGAAAGTCCTTAATTTTAGTAGGAGATTACAGACAACTTCCACCAATTTTAAAGTTAAAACCTTCTGATGTTGATTTAGTAAATGAAATAACTAAGAAAAATTATAACTATCAAGAGCTTTATGAATTGCTAGATCAATCAGCATTTAAAAGTTTAATTTCTGCAAAAAATAAAAGTATTACTACAATGTTAAAAACTCAGTATAGAAGTCATAGACAAATAATGGAAGTAGTAAATAAGTTTTATGACAATGAATTAAGAGTTGAACCTCAAGTAAGCGAACAAAAAATGCATGACCTATCAGTTTTATCAAAATATGATAATGAAATTATTAATTCAAAAAACTCAGTTTATTGAATTGATTCAACATACAACTTAAGTGAAGAAGTTAGTTTTGAAGAAGGAGAAGAATATTCAACTAGTTTATATAATAGTTTAGAAATAGATTTAACTTGTGAACTTGTAAAAAATATTGATAAAAGTTTAGAACAAAAAAAATTAAAAATAAAACCTTCATTAGCAATAATAAGTTTTTATGCTTTACATGTAACTAAATTAAAAAAAGTTTTAAATAAAATAAAAATAAAAAATATTAATTTAATAATAAATACAGTAGATGATTTTCAAGGAAAAGAAGCTGATTATGTTATTGTAAATATGGTTAGAAATCCAAAAAGACTTTCTTCAAAAAGTGGTAGAGAGTTCTTAAAAAAATATGAACGTATAAATGTTGCTTTTAGTAGAGCAAGAGAATTATTAATAATAGTTGGAGCACAAAGAGCAGTTAATGATATTACAGTTCAAATTCCAACTGTAAATGACCCAAGTATTTCAAATACTTATGATGTTTATTCCGATATAATTTCAAAGATTCATTATGATGGTGGAACATTAACAACAAAAGATATTTTATAGGAGGTGTAATATGATAATAGATAAAGTTGAAATTTTATATGATAAGCAATTGTTGCCATTAAAAATTTTATACTCTGAAATTAGAAAACCTACTTTCATAGAATTTTTAGTTTTGTCAATTATTATTGAACATCCTAAAAAAAATTTAAGTTTAAAAGAAATTTTAAATGAAGATTTTAAAATTACAAATACAGATTTTTTTGAAAGAGCTTTAAAAGATTTAGTAGCATATAAAATTGTAGATCTTAATAAAACAAAATCTGGTTGAAGTACATTGGGAATTGATATTGAAGTTGAAAAACTACAAGTTGATTCAAGTATAAAAAAACAATTCTTACAAAAAGATTATACAATTTCTCAAAATAATAAAAGTTATGATATTAAATATGTTTATGATCCAATAAGAAAAACTTATGAAGTTATAAATGACATAGATTGAGATAAACGAGTTAAAGATGTAAAGTTTTCTTATAACTTAAAAATAAGTTATCAGGATAAAGATTTTTTAAACAAAAAATTTATTACAAATAATATAAATAATTTTATAAAAAATAATAAAGATATTTTTGGAGAAAATTTTATTTTTAACGATTTAAAAATAAATAACGACCTTGGAATAGAAGATATAGATAATGTTAAAAGTTTAGTAAACAATGTAGTATGTGCGAATGAAATAAGTATTGAAATAACAAAAAAAAACAATTTTAAAATTATTTCAAAAGAAAATTTTTTTGAAAATTTTTTAAAAGAAAACTCAAATGTTGAAAGTGAAATTATTTTAAATGTTTTACAACAATATAATAAAAAAATTCTTGATGTATTCAATCCTAAAAAAGCAATTGAAGATACAAATAACTTTTTATTAGAACCAGATTTAATTTCAAATATTAATATTAAAACAAGTCAAAATCTTTTACTTGTTAATAATCATGATGTTAAAAGTTTTGATAAATTATTAATAAATAAGCATTTATTATCCACTGCAAAAATAATTATTTTTTATAATTCAAGAGCAAATGACAAAACTATAGAAACAAAAAATGGAAGAATAATAGCTTATGTTGATAGTAGTAAAAGTAAGTTATTAGATGAAAATACTTTAATTTATATTGATTCAGAAAGTCAGATTGAAGGATATGCAATAGCAAACAAAAGTATAAATGAAGTTAAAATAAATTTACCAGTGTTTTATAAACATAAAAATAAAACCAAAATTGACTTAAATGATATTTTTGAAGACAATTTAGAAAGATTACTAGATAATTATAGAGATAATCTATTTGGAAACGATTTAAAAAAATCTACAATAACATTTTTGTTGTTAAAAAGAATTGGAAGAGAAGACAAATTATTTGAAATATTGTATGAATTCTTAAAAAAAGATATTGATTATGGAAAAAACTTTAAAAATCTAACTAATGTTTTTTTGGAAGAAAATAACAAAGATGCAATATTATTTTTAGAAAAAGTCTTAAAAGAAGTTTTTATTAATGTTTCTAAAAAAAGAACAGCAAAAGATATAATCAACTTAATAGAAAAATACAATTGATTAAACACTTCAGAATTTTTAGAAATGATAAATAATATTAATTTAGAAAATGATATGGAAAATTTATTTAAAGTTAATGCAATATTAGATTCTAGAAAAATTGATGGTTGAAAAGGGAATATAAGAAATTGTTTAGTCGAATTATTTAAATATTCTAAAAACAGACTTGTTCCTGATTTACTGGATATAAATAAATATAACTCATTAACTTGAGAACAACATGCATCTACAATAAATAGCATTGGAAGCATTACAAAAAGTTTATACACTAATGATTACGAAAAAGTGCAATCCAATTACTCCAGTATGTTAAATAAATTAGTTGATATAATTAAAAGTAATAATAATATATATGATTATAAAAACTATTTATTAAGTATTGGAGATTGTATTATTGATTTTTATAAAGAGTATTATAATTATAAAATAAACGAAATACAAAATTTAGACCAACAAGACATTAACTATAAAGCTAAAATTTTAGCTGCAAACTTTATAAGTAATTTAGAAGAAAAAATTGATTCACTTATTTCTGAAGAAGCAGAAAGTTTACCAGTTGAAATAAAACTAGAGTGAGCAAAATTTATTGAAAATAAAACTCATGAAGTTGATAAAATTTTAAAAGATGATGTCACAATTTTATATAGTGCATTAAATTTATTATTCGCAAAAACTGAGGTACAATCAGAAAAAAGTTTAGAACATTATCAAAATAGATTTAGAGGTATTTAATATGAGTATGACAGCAGAAGAAGTATTGTTTAACTGTAAAAAACAGTTTGACTTCATTAAAACAGATATTGATACATTACTAAGATACGTAAAAGAATTACTTGAACAATGCAGAGATATTGATAATTCTTCATTCTTTGTAGAACAGTTTAAAGAAATTGAAAAAGTAATTAAAAATGAAATTGAAGATTTAAAAATATCAGAAGAGTATGTCAAAGAAGTCGAAACAGAAACTCACATTGCTATAGAAAGATATCATGAAATTCAAAGGTTTGCAGAACAAAAAAGAGATAAAATAGCAGAAATAAAAGCTAGGGTACTAGGTTTGAGAAAAGATGTTGTTAAAAAAGAACAAGAAACTATTGCTAAAAATTTATATAGTTCTGTATATGAAAGTTTTGAGCAATTAAAAAATATATTGATTAATAGTCAAAAAAATATTGATGATAAAACAATCATGCTTAATTATTTAAACGATAACGAAGCTGTTTTAAAAAACTTTTCTAAGGAAAATATTATAAATAAAGCAAACTCATATATATCAGCGCAAAAAGAATCAATAAAATATTTATCAAAACAAGTAGTAAACGATATAGAAAGAAATTATTCATATGATAACGATTTGATAGAAGCAATCGAAAAAGAAAAAATTGAATATTTAAATAATTTAAATGAAGATAATTTTATTAAAAATTCAAAGATTTTTTTTTCAAAAGTATCTAAAAATATAGAAAATGAATCTATTCGAAAAGATAATGTTATAAAAATTATAAATGCGATTCAAGCAACAGGATATTTAGTAGATGAAAATGATATTAAAAAAATTAAGGAAAAAAATCTAGTTTTAATTCATGCAGTAAAAGAAACTGGAGAGTCAGCTGATTTTGCTGTTAGATTAGATGGGAGTTTTCTTTATAACTATGAAGGTTTTGAGGGTCATGAACATGATGCTGATGCTGATGCATTTTTAAAAAAAATGAGAGAGCAAGGTATCACTTCATGAGAAGCGTTTAATAAGCAGTATCGTGAACCAAAATACGTTTCAAAAAATAGTGCAATAATAAATTCTAAAAAGAAAAGTTCAGGTAAATAGGAGTAATTATGAGTGTAAAAAGAGAAATGCAACAATTAAAAAATTTAGTTGGGATTAAAAAAGCAATAATTCTAGAAGGAAATATTGATGATATATATCAACTTGAAGGTAAATATGTTAATATACATAATTTTTTAGCTAACATCTTTTTAGAAAAAAAATATGTAGATAGTTACTTTTATGATCGAAACTCAGGGATAAAAGGAAAAAAAATACAAAATTTAATCATTGAAAACTTAGAACAAGAGGATAATAACAGTATGAATGATATGTTTAATACTGCAAATGAAAATGATAATAAGAAAAATGAAGGACAACTTAATCTAAAAAAAATAATCGATTTTTATAAAATACTAAACTCTAATTTAAATCGTACTGATGAAAGAAAAGTTGGTTTTATTGCAGATTACACAGATTATGTTTTTAGTGATCAAAGTTTAGATGCAGACGATAGAGCTATTTTGACAGAGTTTTCAAAATCTTTAAAAGAAAGTGATTTTGTTATTTCCAAAGTAGATGAACTTTTAAATTGTGTGATTTTTTTGACTAAAAAAATTAATCAGTTACCTCCTAGTTTATATTTAGATAACCCTGAAATAAAAATTTTATCTCTACCCAAACCAAATAGAGATGAAAGAAAAGAATTTTTATTAACAGTCAAATCAATGATCCAAGTATCAGATATCGCAACAGAATTTGAAAATATTGTAGATGCTACTGAGGGTTGAACTTTAAAAGAGTTATCGCATTTTGTAAAATTTTGTTGTAACTTTAATATTCCAACAACTTTTAATAAAATATTTAACATTTATTTATACGGAGAAAAAACTTCACCATGAGAAGATTTAGATTATGAAAAAATGGTAAACATAAAAAATGAGTTAAAAAGTAGAGTTATTGGTCAAGATGATGCAATTGAAAAAGTTTCTAAGGTTATTTATAAAGCATTTACAGGATTAACTGGAATAACATACTCTTCAAAAAGATCAAAACCTAAAGGAACTTTATTTTTTGTAGGACCAACTGGTACAGGTAAAACTGAACTAGCAAAAGCAATAACACAATTTTTATTTAATGATGAAGCAAATTTAATTAGATTTGATATGTCTGAATACGGACAAGAAAATGCAGATCAAAAATTAATTGGTGCGCCTCCTGGTTATGTAGGATTTGAAGGCGGTGGACAACTAACAAATGCTGTAAAAGAAAAACCATTTTCAGTAATCTTGTTTGATGAAATTGAAAAAGCTAGTCCTAAAATTTTTGATAAATTTTTACAAGTTTTAGAAGATGGTAGACTTTCTGATAATACTGGACAAACAGTTAGTTTTAGTGAAAGTTTTATAATATTTACTTCAAACATTGGAGCAGCAGAAGTGGAACCAAATGAAGATAAAGAAAAAGTATATAAAAGTTTTATAGAAAAAGTTCAACATCATTTTACTCATGAATTAAATAGACCTGAACTTTTAGGAAGGTTTGGAAATAATATTGTTCCGTTTAACTTTATAAGAAATAATGAATTAAAAGCAAAAATAGTTAGTCAAAAGTTAAAACCATTAAAAATTGCAATTTATGAAAAATATAAAGCTGAACTGCATATTGATATTACAAATCAAGAAATATTAAATATTATTTTAAAAGATGCAGATGAAAAAAGAGGAGGAAGAGATGTTCTTAACTCGTTAGAAACTAATCTAGTTGATCCCCTTTCAGAATTTCTTTTTGAAAATCTTAAAAATATTAAACCAGGTACTAAAATATATGTAGATGCAGCTAATAATAAAGTTGCTTTCAAAATATAATGTCTAATATAAACTTTGCAAAAATTTTACTTAATAGCGAGATTGAAGGACCTGGTACTAGATTTGTAATTTGATTTCAAGGTTGCAACATTGGCTGTAAAGGTTGCTCAAATAAAGAACTTTTAAAATTAGAAAAAAAATTTTTTATTAAGACAAGCTTATTGTTTGAAAAAATTTTAGAAGCTAAAGATAAGTTTAATATTGAAGGGATAACTCTATTGGGTGGAGAACCTTTTTTGCAACCAGAAGCATTAAAAGAAATCGTTAATTTTTGTTATAAAAACAAACTTACTATTATTTGCTTTACAGGATATATTTATGAAAAACTTCTTCCTGAATTTAAAGATATTTTAAATAAAATAGATATCCTTATTGATGGACCATTTATAATGAGTCAATTAGATATAAAAAGAAGATTAATTGGTAGTAAAAATCAAAGAGTTTTAAAATTAACAGATACTTATAAAAATTGTGATTATTTTGAAAAACCTCACTCAGAAGTAGAAATTCAAATTTATAACGACCGATTTTCCATGAATGGTGATGGTGCAGTTTTTGATAATGAAAAAGGAGAATTTATTTTCAAATTAGAATAGGTTCTTCTTTTTTGTATTAAAATTAACTTGACAAGATAAAAGCGAGGAGAAAGTTATGTCAAAATGTTTAGAATTATTAAAAACAAGAAGATCTACAAAGCGCTGAAAAGATCAATTTAAATTAAGTGATGAACAAAAAATCACTATTTTAGATGCGATAAGATTTGCACCTTCTTCAAACGGAATGGAACCCTTTAGAGTTTTATATATAGAGGATATGGATATTAGAAAAGAACTAAATCAAGCATTTTTTGGTCAATCAGGTGTTTTAACTGCTTCTGCATTATTGATATGAATTACACCAAGTGAAAATTGAATTGAAAATAAAGTTGTGCCAGTTCAAGTAGCTAGGAACATACCAGAACAATTTGCCACTCTAAGAGAAGGGAAAATTAATGGATTAAGAGCAACTTGAAAAAATCATAATGTTAGTGCAAATCAATGAGCGGCAAGACAAGCTTATATTTCTTTGGGAACAATGATTGTTACAGCAGCAGAACAGGGAATTAATACTTGTCCACTAGAAGGTTTTATTCCAGGCGATGTTAAAGAAGTTCTAGTAAAAACTGGTTTAATGGATAAAGAAAATGAAGAAGTAAGTTTAGCTTGTTTTGTAGGAAAAGTTGATGAAAGTGCTGAAATGCATTATGCATTTAGTAAATCTAGAAAACCAGCTGAAGAAAGTTACAAAGTTGTTTAAGGAGAATAAAATGTCAAAAATTTATGATTTAATGAAAAATAGAAGATCTGCAAAAAGATACGATACAAGTTTTAAAATAAAGGAAGATCAACTTAAAGAATTACTTGAGGTTGTTAGATATTCACCTTCGTCATACGGAATGGAAGCCTATAAAGTTTATTGTATTGTAAATGAAAAAATAAAAGAAGAGTTATTTCACGCGTGACATAATCAACCTGCCACAAAAGAAGCTAGTGCATTATTTATATGAACAGTTTTTAAAGAAGATTATATGCGTAAAATTCATATGCCAAAACAAATTTCTGAAATAATTGATCCAACTAGCGATAAAGCAGAACCATATATTAGAAATGGTATTGAACATTTTTTAAAAAGTCAAAATGTAAGTATGCAACAATGATTAGAAAGGCAAGTGTATATTTCTTTGGGAGCAGTGGTAATAGCTGTTGAGGATATGAGTTTAGATTGTTGTCCAGTTGAAGGTTTTTCAAGATTAGAAACAGATAGAATTTTAGAAAAGTATATGATAATTAACTCAGAAATTGAAACATCTACTGTTTGTTTATTTTTAGGTAAAATTGATAAAAATAAGAAAAATCATTATAGTTATAAAAGATACAAAAAAAGCTCCGAAGAAGCATACGAAATTATTGAATAAAAAAGATACTTTCTTACTTAGAAAGTATCTTTTTTATTTCTTTTGATGTATTACCTCCAACTACTACGCTATTATCAAAATTTTTTGTAACAACCGATTCTTCTCCAACTATAACATTGTCTCCTAGTTTAATAACGCCAGGTAAAATTATAGAACCACCACCAATTCAAACTTTATTTCAAATTTTTATAGGTTTTTCAAACTTTATACCAAAGTTTTATCATATGGATTCAAAGTGTGAGTTGCAGTGTATATTTGTACATTTGGACCAAACATACAATTATTTTCCGAAAATAAAAGAGCAAACATCTAATATAGTTAAATTATAATTTAAATAAAAGTTTTTTTAAGATAAATATTGAAACCATAGTCAAAAAAACTCTAGGTTCTAAGCATAAAACTTTCTTTAGTTTTTTCCAAAAATATTTTCTATCAATTTTTTACGTATATTAACAGAAAAGCTGTTATTAAACTTTTTATATATTTTTTTGCTTTAAGTTTTTCTTTAATTAATTTTTTATCTTTTACCTTAAAAATTTACTTTAATTATTTTGGTTTTTTCTGAATTCTTATTAAAACCTACTTTAAGCAATTTTGTAAATATAAGTTATATACATTTTCAAGCAGACAAGCAATAGTCATTGGTCCAACTCCACCAGGAACTGGAGTGATTCATTTTACTATATCTTTTACACTTTCAAAATCTACATCTCCACAATACTTACCATTTACAAAATTTGCTCCAACATCAATTATTGTCATATTTTCATGAACAAACTCTTTTGTTACTAGATTAGCGCAACCAGCAGCTGAGATTAAAATATCTGATTCTTTAGCAAATTTTTTAACATCCTTTGTTTGTTTATGACAAATTGTAACAGTTGCTGATTTATTTAATAACATATTAGCCAGAGGCTTTCCTACAATATTACTTTTTCCAATAACAACAATATTTGCACCTGCTATTTTTATATTTTTTCATTCTAATAATTTAATTATTCCTAGGGGTGTTGCCGGATATATTATTGAGTTTCCTAAAACAACATCTCCAATTGTGCATGGACTAAATCCATCAGCATCTTTTTTTGGAGAAATACGACTATTTATAGTAAATACATCAATATGTTTTGGAAGCGGTAATTGAACAATTATCCCATCAACTGTCTCATCCTTGTTCAAAAAATCAATGTGTTTTAAAAGTTCTTCTTGAGAAGTTCTGCCATCCAATTTTAAATGATCATGTAGCATTCCAATATTTTCAATACTTTTAATTTTATGCTGAATATACTTATTGCTTGATGGATTATCTCCAACTTGTACAACTACAATTTTGGGTAATCTATTATTTTTAATATTCATTATTTTTACTTTTAAATTATCTAATAAAATTTTTGAAAGTTCTTTTCCATTAATTAAATTTTGCATACTTTTTATTCCTTCTATTTTTCATTATATAATTAAATTGTTAAAAAACAATGAAAAGGAATTAAAATGACAAAAATAATAAATGTATTAAATGGTTTAAATATTAAAAATGAAGATTATGAATTTTATGGTCCAGATATTGTTAAAATAGATTATTCTAAATATCAAAATATTAAAAATAAAGGTAAGTTAATCTTATTGACTTCAATTAACCCTAAACCTTCTGGAGAAGGAAAAACAACTACTGCAATTGGTTTGACAGATGGTTTAAATTTAATCGGGAAAAAAGCTATTTTAGCTTTAAGAGAACCAAGCTTAGGCCCTGTATTTGGCGCAAAAGGCACTGCAACTGGTGGAGGAGAAAGTGAAGTTTTTCCTGTTGATAAAATAAATTTACACTTTACAGGAGACATTCACGCTATAACTGCTGCAAATAATTTAATATCATCAGTAATTGACAACGAAATATATTGAGGTAATAAAAAAAATATCGATTTAAATAGAATTGTTTGACAAAGATGTTTGGATTTAAATGATAGAGCACTTAGAAAAGTAGAATTAGAAATTAAAAAAAACATAAAACGAAAAGAAAGTTTCAATATTACGGCTGCAAGTAATATGATGACAATATTATGTTTATCAAAAAACACATATGATTTGCAAGAAAGATTAGAGAATACAATTGTCGCTTACGATATTCACGGTAAAGAACTTTTAATAAAAGATTTTGAAGTAGTTGGGTCAGTTATGGTTTTAATACAAAATGTTATCAAACCTAATTTAGTTTTAACAAAATATAATTCACCAAGTTTGATTCATTTAGGTCCATTTGCAAATATTGCCATTGGAACTAATTCGATGATTTCAACAAATTTAGCTCTTAAATTAGGGGATTATGCTATTGTAGAATCAGGTTTTGGTAGTGATTTGGGATTTGAAAAATTCATGAACGTTATTAACTTTGATAATGATTTAATTCCTGACTGTGTGATTATGGTTGTGACCATTGCTTCTTTAAGAATGCACGATGATTTTACAAATAATTTTATTCACTTAGAACAACACTTAAAACATATTGAATTATATAATTTGAATTTAATAGTAGCTTTGAACGTAATGAAAGGCGATACTAAAGAAGAGTTTGATTTAATAACAAATTGGTTAAATAAAAATAACTATATTTGAGAACAAAACGAAGCATACGAAAAAGGCCCAGAAGGAGCAAAAAAACTTGCAAATAGAGTTGTTGAAGTAACCAAAAATAAAAAACAAGTTAAATGATTAATAAATAATAATGACACCATAGAGCAAAAAATTCAAAAAATTGCAAAAAACTTTTATTACTTAGATGAAGTAACATTTTCAGATAATTCAATAAAAAAAATTAAAGAATTAGCAAAATCTAAATACTCAAACTTACCAATTTGTATGGTAAAAGAACATAGTAAAATTGATGGAAATACACAAAATATTAAAAATTATAAATTAAACATAAGAAACATGGAATTAAATAGTGGAGGAAGATTTATTCTCGCTTACACTAACTCAGTATTTAGTATGCCAGGACTTGGCAAAGATGCTAATTACAAATATATTAATTTAATTAATAATAAAGTTAAAGGATTAAAATAAAAATAATCAAATAGCAAGAAAGGCTAACATGTTAAATATTAATAAAAAAAATAAAACAAAAAATAAAGCATTTGAGTTTTTGACAATTTTTTCAATGGCATTTGGAATAGTTGTAGGATCAGGAATATATATTAAAAATAGAAACGAAGAAGGTGGAGTTTTAGATGCTGCTAATAACAATCCTTATTTAGCTATAATTATATGAATATTTATTGGAGTAGTTTGTACAATGATGATAATTTCATACGTAGAAATATCGTCTGCAATTAAAAAAGATGAACATAATACAACATTATCTTGATCTGCAAAATTTATTTCAAGAAGATCGGCATCGGTCATTGCTATATTTTATATAAGCTTTTATATGCCTATACTTGCATCTTTAGGAGCAATTTTCACAGTTAGTGTATTTTTTGACTATGGTTTAAATAACTTTTTACAAGCAATGGGAAAAAATACGATTTCAGAAACTCTTACAACCGCTGAATATACTGCTTTAAAAGTAGTTTTATCATCAATAATTTTAATCGGTTTTCAAATTTTAAACATGTTTACTCAAAAGCCGGGTAGGTATATTCAAACAATATGTACATTTATTAAATTTATTCCTTTAATAGTTGTATTAATAGGAGGTTTTGTAGTATTTTTTACAAATAATGTAGTTGATGCAAGTGGAAACCCAGATAGTACAAACAGTTTTGAAAATTCAACAAATAAATGAGAGTTTTGATCATTTTTTGCAACTATCGTACCAATTGTTTTTGCTTTTGATGGTTTTATTCATGCTGTAACATTACAAAAAGATGTAGAAAACAAAAAAGTAGTGACACCAGCATTGTTCGTGGGAATAATATCTATCTCAGTATTTTATTTATTAATTACAATTGCTATTTTTATTGGTGGAAATGATGGAAATATTTTTAAACTTTTAAATACTATATTTATTAAAGTACCTATTTTAAGTTTTATATCTAAAATATTAATAGCATTTACAGTTGCAACACTATCAAATGGTTATACAACTTTAATACCAAAAACAATTGAATCTGCTTCACATGAAGGTTTTTTATACTTTGGAAAAAACGCTAAAAATATAAGTAAAAGAAAAGCTTCTATAATTAGTATAATAATAACTTTAATTATTTTTTATTCTACTATTATAATTTCTTTATTAATAACTCCTTTAAGAGATACTAATGAGATTAATTATGCATTCATTAGTGAAACAATTTCTACTTCAACTGTTATATTTGCTTTTATTGTTTATTACTCTTTAATTTTAGCTATGGTTATAAATAGGAAAACTAATAAAGTTAAAGTCAATAAAATAAAAGGTGGCTTAACAATTGGAATTATAAATATTGTTATCTTATCTCTATTTATGCCTTATGTTTATTTTGAGTATTTAATAAGACCTTTTATTACTCATAATAAAGATGCGATGATATGTGCTGCTGGATCTTTTGCAATTATTGCAATAATTGCAATCTATTATGGAGTCAATGAATTTTATTTAAAAAGACAAAAAAAACTTTCTTAAAAGATTTTAAGAAAGTTTTTTATTTTTTAAAGTAGTTTAATCCCAATACTTCTAATGAAGATAATGTTATAAAGTTATATGGTTTATTGAAGTGAGGTAAGAAGAATATATCAACTAATGGCAATTCATCAATTGTTAATTCTTTTTGTACAGCTAAAGCAAACATATACATAACTTCTGTATGATTATTTAATGAGGCAACTTGTGCTCCAATAATTTTTCTAGATTTTTTCTCTCACACAATTTTAATATAAACATCTTTGTAAGTTGACATAAATTCTGGTCTATCTGAGTCTTTAAACATAACTTCTTCAACTTCAATTCCATATTTATCAGCTAAGTTTTTAGAAACTCCAACTGAAGCCATTTTTCAACCAAATACATCAATTCCGTTTGCTCCTGTAAAACCAGGACTTTTAAGTGTATTTTTTGAAACAATGTTTACAGCTGCCAAAATTCCTGTTCTAACAGCAGTAGTTGCAAGAGCTATTTGTGCATCTTGTTTTAATGAAACATTATAAACTTGTGCACAATCTCCAACTGCATAAATGTCAGGATTTGATGATTGCATAAATTCATTAGTTTTAATTGCTCCTCTATTATCAAGATCTACTATTCCTTTTAATAAATCTGTTTGAGGTTTGACTCCTACTGAAAATACTACATAATCAGCCTCAATTTCACTTTTATCAGTGACTACTTTTGTTACTTTTCCATTTTCACCAACAAATTTAACAACTTTTTGGTTTAAAGCTAAGTTAACGTTTTTACTTTTCATTTCATTTTCAACTAATTTTGTAAATTCCCCATCATAATAAAGTGGCATAATTCTATCGGCTATATCAACAAGACTTACTTCTTTTCCTGCTTTAACAAAGGCGTCCACTAATTCGACTCCGATGTATCCAGCACCAACGACCACTACTTTTTTAATACTTTTATTTTCATTGGCTGCTTTTATCTTTTGAGCATGATGATAATTTTTACAAATTTGTATATTTTCTAAGTTAATTCCATCGATATTTGGAAAAATTGGTCAAGTTCCTGTTGCAACAATTAATTTGTCATAATTGTCATCAAATTCTTCTCCAGTTTTTAAATTTTTAATTCTAACTGTTTTTGCTTTTGGATTAATTCCAACTCAATCGTGTTCCATTTTTGTTTGTACACCTTCGTTAGCTAAAATTTCTGGTGAAGCATAAAACAATCCATTAGGGTCCTTAACTTCTCCTTGAACTCATAATGCAATTCCACAACCTAAAAATGAAATATTATCATTTCTTTCGTATGTAGAAACTTCCATTTCTGGATTTAATCTTTTTAAAGTTCTAACCGCTGTTGTTCCTGCGTGATTTGTACCTATTACTATTGTTTTCATATAAATTCCTTTCTAAATGATATTAATAATATCCACTATTATTTTATGCTTTTTTATAGATTAATAACACAATTTTGAATAGTATTTAAAATAGTTTTTTAGTAAAATATATAAAATGAGGTATAACTATGTTTTTAAGAAATATGGGAGAAGTTGGTTTTTACACAAAAAGAACTAATTGATTAAAATATTTACACGAAGGTAATTTAAATTTTAAGTCAAAAATATACATAAAAAAATTAAGTAAAATAATCAATGACCAATCAACTTTTAACTCTTTTAAATATTGAATTTTATGAAGATGAATAAATAAGAACTTTGAATTTAGTGAATCTTTTGTAAATAGTTTAAGAAAAAATATTAAAAAGCTCGATTTAAATATTGACTCTAAAGAAGAAAATTTTTTATACCAACTTGATGAATTAATTTTTAATGCATGAAGACCTTTAAAAGAACTACCTGTTAGATTTCAACTTGATAAAAAAGAAAAAATCAATTTACTTCAAACTGAAATAAATGTTCATAAAATGATTGATTTAAAAAATACTAAGTTAAAAATGATAGGTAAATTTGATGCGTATTTCTCAAGCAAAAGTATTTATTTAACTGACGAAAAACAAGTAATTAAGTATGAAATTATTTATGATCAAATAATTGATATAAAAACAAAAAGGTATGGAGTTTTAATTGAAACTGTAAAAACAAATTATCTATTTAGAGGTAGAAATAGATTATTAACTTATGTTATTTTACAAAGAATGCTCCCAAGACTTAAATTAGACATCAGCAAAATTATCAATTTATATGATTATTTTGATTTTTGAAACAGTTTTTTTAGTAAAATAAATTAAGGAGGATATCATATGAACGTAATTATCGTTAAAAACGACACACAAATTGGTCAAAAAACAGGGGATTTAATTTTAAATAAAGTAAAAGCAAATAAAAGCGCAGTTTTAGGATTGGCAACAGGTAGTTCGCCAATCTCGACATATAAATATATTATAGAAAAAACAAAAGCAGAAAATATAGATTGATCTAATATAAAAACTTTTAATTTAGATGAATATAAAGGATTAGAACCAACTCATGAACATTCATATCGCTTCTTTATGAATGATAATTTGTTTAATCATATTAATATTGATAAAAATAATACATATGTTCCGAGTGGAGCAATAAAAAGCAATCAAGAAGCTGGTGAATATGACAAAGAAATTGAAAAAGCCGGAGGAATTGACTTACAACTATTAGGAATTGGTACAAATGGTCATATTGGATTTAATGAACCAGGAACTAGTTTTGATTCTATAACTTCAATTGTTAATTTAACAGATGAAACAATTGAAATGAACTCAAGATTCTTTGCTAACAAAAGCGATGTTCCTACTCAAGCGATTTCAATGGGTTTAAAATCAATAATGAATGCAAAAGAAATAGTTTTAATCGCAATGGGAAAAAATAAAGCAGAAGCAATATATCATTTAGTCGAAGGAGAAGTAGGGACTCAATGACCATGTAGTATTTTACAAAATCATAGTAATGTTACAATTGTTGTTGATGAACAAGCCGCTTCTTTATTAAAAAAATAGTAAAAGAATATTTTTATAAAAAATTTATTTTAACTTTATTAGTATCATTTTAATTGATTATTTATGGTTTTGACAAGCATGTGTGCTTGTTTTTTATTTACTATTTAATTACAATTAGGTTAATAGTTTATATAATGTAGCGTAAATGATGGTTGCAAATGATAACTATAAAAATTTTTATGAGTTTTTTTATCTCGACAAAGGAATAGGTGATTATATGAAGCATTTATTATTGATTATTACTTCATTTATGGTGGTTTCTATAGCCGCAGGTGAACCTGCTGTTATGATTCTAGATAATAATAAGGGTGAAGAAAATAATACAGAAAACCTAGATAACAATAATGATCAAGATAATCAGACTTCAATAATTAACCTTAAAAAAGTAGTAAAAGTAAGAAGTTTCAAAGATTTAAAAAAACCAACAAAAGAAAATTTATTAGATTATGTAAAACAATATAATACAAAATTAAATATTGATGAAGTTGAAGTTAAAGACTTTGTTGTTGAAAAAGATAAAGTAGGTTATGCAACAATTAATACAAAAGATGGATCTAAAGTATATATTGGTAGTGTAAAAATCTCATTTACAGTATATCAATACGTTCATACTGATTTTAAATTACAAAAAACAAGAAAAGAAACAGAACCTGAAGAATTTGAAACAAGAGCTACAATAAGGCTGAACTCATATGAAGATATAGCGATTACAAACTTTGATAGTCTGGGAGATTATGTTGAAAATATGCCATCAGTCTTTAATTATGATACAAATAAATTGAAAGTTACTTTTAATAAAGAACAAAAATCAATAAGAGTATTAGCGAAGGCGTTAACAGAAACCGAATTAAGAGTTGAAGTTAGTTCTTTAGATGGTATAGCACAAGATGAAATAATAGTAAATATAAAACCAGATCATATTGCTTTTGAACTTGAAGAGGATAATATAAAATTAGAATTAAAAGGCGAACAAAGAGTTAATATAACTAATTGATCTGCATTAATAAACGATCAAAATCAACCAGATCCTGATTTAATTGAAGTTAATTACAAAAATGTGGTCGATGTATCCATTGATACAACAAGTGAACAAAAAGCAATAGTTATAAAATCTAATGGAAATTATATTGACGACATGATTAATGTAGTGATTTATTCAAAAGATAAAGAAACATATAGAATAATCGGGGTTTCACTTATTAGTGATAATAATAATAGATTCAAATTAGACGAAGCGTATTTTGATGTTTTAGTAAATACAGAATTTAAAATTAAAGTTCACAAATCAAATCTTTCAGATGTCCAACCAAGCTTAAATAAAATTTCTGATCCAGATGCAGTTGAGTTTATTAAGTTTGATGATCAAGAAATATCTTGAAATTACATTATTTTTAGAACAAAAAAAGAAAAAGAAAATGTTAAAATAACACTAAATTCAGTAGCACTACCAAATGCTCAAGATTCTCAAACCGTGATTGTAAATGTCAAACCAACAAGAATTGATTTTAAATTAGAAACAACCTATGTTTTAATGAATGTTGGAGAAACAAGAAAAGTTAAAATTACAAACTTTGATGATTTAATAGATAAAAAAAATTATCCAAAAGTACAATCATGAACTAATCATAATGAATTTAAAGTTACTTTAAGTGAAGATGATAAATCTATTATTATAGAATCTTTAAATACAAGTAAGCCAATCAATGACAGAATTCATTTAAAATCTGATACAGGAGCAGAAGCGTTTGTAGAAGTTAAATGTATAGTACCAGAGGTCTCTTTTCAATTAGAAAACCCTTATAATATGGATTTAATACTGAATTCTGGAACAGAAAACGTTAAAAAATTAAAAATTAAAAACTACGATAATTTAAAATATGAGCAAAATATGCCTAAGGATTTTGATTTAAATATAAACGGTAAACAACTTTCTCTTGATGAAAAAAATAATATTTTAAAAACAGAAATAGATAAAGTAAATAAACAATTAGTAATAACAGCTATATCTGAGAAAGGTTATTCAAATGTTAACTTGACTATAAAATCTGAAAACGGAAGTCAAATGTCTTATTTATTAGATATCGTTAAACCAATTAAATTAGAAGATATTAATAAAGATGCAATTAGTGTAGTTGAAAATGATGAAACGTCAATTTTAACTGCATTAAGACTAGCAAATACTAATACTGATTCTAATCCGGTTAGTGAAGATGTTGCAAGTATTAATGAAGTGGCTTGAAATATGCTTAAAGTAGATGATATCTCTTATAATAGAGCTAGAATTAGTGTTAATCTTGATATAAACGGAAAACCGATAACAAGATGATTTACAGGTGAACCTATATACTTTAAATTTACTCCTGGAAATTATGAAATTGATGATGTTTATTTGTCTACATCACTGGTTGATGAATATTCTTCTCATTCTGAATCAAAATCTGAAAGTTTTTCTGAAGAAAAAACATATATATTACCTGATTCGATTGATAAATTAAGTAAAGTTTATACGAACATAAAACTTACGTTTAACTCTTATTTAGCATATACTCCAAATGATTATAATCCTCCACTTTCAGATGCTGATTTGCTTAAAAATGAAAAAGGTATTATTTCAGTAGCGTTAAAATTAGGAAATAACTCTACTAATGTAGAAATAGATAAAATAGATGCAGAATTTCCAATTAAAGATGATGTAACAGGGATAACAAAAGCAATCAACAGTTTCGATATTAGTTTTGATGGAAACTCAGTTAAATTGAAACTAAAATCATATGCTTATGCATATAGAAAAGGCGGGGCATGAGGAGCTTTACCAAGAGTCGATGCACAAGCGAAAGTAGAATTATTAAAAGCAGAATTAACAGTTTAAAAAATAGATATGATATCTATTTTTTTAATCTCTAAAATTTTTTTAAATTAATAAATTTATTTTATTTATTTTGAGTCAATGTTTAAGGTTTTATTTTAGTTTTATGTTATTAATAAGTTTGAATTTATTGATAGAATTAAATACTATAAAGATAGTAATTTGAAAGGAATGGTAATATGAAAAACTTATTAGCTTTATTATCATCGTTATCAATTGGAATCTCATCAGTGGGTAGTGCAGTTAATTATGTTGTAGATGACAATGTTCCTTCAAAAAATAATGATAATTCTGAGTTGAATAATGCAGATCAAACAGATAATAGTGAAAGTAAACCAAATACTGATGATAATAAAAATAAAGATAAGCGAATAGATTTAGAAAAAGTCATAAAAAGAACTCAGCTAGATCAAGTAAAAATTAATAATGAAGATAACGCAAGCGAACTTGTTTTAAATGCTATTGTTAACATAAATCCAAGTTTAGATAAAAATGAAGTAACAATACAAGATTACGCAACAAATTCAAGTCATGATAAAGGTACTGCGACAATTGTCGCGAATGAAGACTCAAAAAAATACAAAGGATTAGTAGATATAAACTTTTCAATCTTTCATTACTCAAAAGATAATTTTTTATTAGAAAAAAATAATGTAGAAATGAGAATGGGAGAAACTCAACAAATTAAAGTTGTAAACTTTAATAAAGATGAAAATTCCAATTATTATGAATGAGCAAAAGAAAATTGACCTGAAAAGTTTGTCTATAATCCAATTTATATAAAAATCGAGTTTAATTCTGAACAAGGAACTATTGACATAACAGCGAAAGATGATATAAAAGAACCTCCAGCAAGCGAACAAAGAGTAATTGTTATGTCAAACGATAAAAGACCTGGAAATCAACAGGAAATAAAAGTTCAAATTTTTGCAAAATCAATGGACTTTAATTTAGCAAAAACTAGTGTTGACCTAAAAGCACAAAGTGGTCAAACCACTTCGATTTTAGTAACTAATTGAGATGATTTAATTGAAGATTCAAATAGACCAGATAATGAACACTTTTCTTATTCCGCTCCAGCATTAATTTCTGCAAGAGTAGATTATTCAAGAAAATCAGTGATAATTGAAGCAACAGGAAACATTGCAAAGTCAGTTGTTTTAACAGTTGGATCAAGAAACAGAACAGTTGATGTTACTGTCAATTTGATTTATCCTGAAAAACAAGCAGTATTTGAAACAACTTCAATTACAATGACAACCAATTCAACTAAAAATATAAATATAGTTAACTATGATGATTTAAGAGTAGATGAAAATATGCCATCACAATTTAGTATAAATCACCCAAATGCTGTTAAAGTAAGTTTGGACAAAGTAACAAAATCATTAAAATTTGAAGCACAAAATGTTGTTATGAACAATGTTGAAATATCAGTATGATCAAAAAACTTACCAAATAACAAACAAGTAATAAAAGTAAATATTACACCTGAAGATAAACCTTTCCATTTAGATAAAGATTCAGTAAACTTAAAAGTTTATGAAACAACTGAGGTAAATATTTCCAATATGCCTGAAATTCAAGATGGAGATAGAAACATTCCTTCTAAAATTCAATTCGATGCAAGCATTGTTAATGCTTTCTATAATAGACAAAAAAGAGCTATTATAATCACAGCAAAAGATAAAGCTGTATCAAATTATGTAATTAAAGCAACTTCATTGATGGGGCATACAGAAGAAATTAGAGTAAACATTAGTGTTCCGCAAGTTAATTTTGTATTATCTCCAATTAAAGATATGAATGCCGGAGAAACTCAAATAATAGACGTTACAAATTACGGATCATTAATACATGAAGATAATTACCCTGTAAACTTCTCGTTTAATGTGAATGGGATAGTTGACGCAAGATATGATAAAAACAATCATAAAATTTATATTGAATCAAAAAGTGTTTATAAATTTAAACGTGGTTTAGTAATGACTGTTAAATCAAAAAATAATAAATACAGTCAAGATTATACTTTTGATGTAATAAAACGATTTGATTTAAATAATTTTGTTTATAAAAATTTAGGTGAATTTGGTAATAAAGATGCTTCAACAATAACAGATGCTTTTTATAATAAAAATAAAAACAATATAACTTTAGAGAAAGAAATTTATGACGGATTAATAGCTTACGATATTTCTTACTCAAGAGCTAAAATTAAAGCAAATAGTGCTTTAGCTCAAAAATGATTATATGGTGAGGCAAATGTTAATTTTAAAGTTCCTTTAAAAGAAACATTTAATGTAGAAACAGATTACACTGATGCTTATGGGCATAAAAATGATGATACAAGCGAAAGAACAACTTTTGCGACAGGAACAGCAAATACTTCATTAGATAATTTAAGACGTGATTTTTCAAAAATTAAAGTTAATTTATTATTGGATTATAACTGAACAAGAGAATATACACCACCCATTAGTCAAAGTTGTTGATTGGAAAATAAAAATAAAAATATATCTTCAAATTTTAGTCTATATAATACTTCAGAAACATTAGTACATAATGATGGGGAAAAATGAGACGATCTATCAACAAACGAAGTTAAAATATATTTTTATGTATGAATAGAATGATCAGATAACGGAAATAATACTAGTTCATATAAAATTAATATTAAAACGTTGGCTTATATTAATAGAACTAATCTTTCTTGACGTGATTTTGCTATTAATATTGCAGCAAGATCAAAAATTAAACTTTTAAATGTAGAATTTGTTAATTAAGAAATTAGTTTTTAAATAGAATAGACAACCTTAGATAAAGATAATTATTTAAAATGATTTAAATAATTAGTCTCTATAGAAAGGTTGTTTTTATATTTTAAAAGCAATAGAAAAGTAGATTAATTTTATTACCCTAAACAAATTTATAGTTAGTATAAAATTTTTAAAAAATTTCTAAACTTTAAATTTAAAAAGTGAACACATTGAAATAAAGTAATGAGTAAAAGATATAATATTAAGAAATCAAAAAGCAAATTATATTATCCACTTTGTGAGAATAATATTTATATGAAAAAATACATTAAAAAAGAAGGTTTAATAAATAAAGTTAGTTTTAATAATATTATTAAAGCTTCATCAGATAGTAAAGATATAAATATGTCATTAATATTAGAACGTGGTATGTGAGAAATGTACCCAATTTATTCAAATATTATATCTGATGCATCTTTAACTGGTGGAAAAGTTTTAAAAGCAGCAGAAATTGAATTTTGGGAAAAGTGTATGCCTTCTTGCATTAATTAACAAAAACTCAAATTAAAATAGTAAGAAATAATAAGAATTAAAAAACAGTGCACATTATACCTTATTTGAAGAATCTTTTTGAGTTAAATACAAAATATAAATGCGATATTTTATTTGTTTATTTTTACAATTATAATAAATAAAAATTATAAAAAATTTTACAAAATAAATTTATAGACTAAAAAACAAACTATAATAAGTAAGATAATTATCGAACCTAACTATACTATTTTTTCAACTGTTCTACTTATGTTTTCTTTTAAATATTAATAATTTCTTTTCATTTAGACTATTTTAAATTAAAAAGTTATTTTTTATTTTTAATTTGTAATCATTATGCTTTTTCATAGTGATAGAATGTATATTGTATAATAAAAAATAAGTTAGGAGTTAATTATGAGAAAACAAATTATTGTAGGAAATTGAAAAATGTTTAAAACTAATAAAATTGGAGTTAGATTTATTGAAAATATAGAAGCAAAAATCAAAGGAAACCCAAATTTAATTGTAGGAATAGCTGCTCCATCAATTATGTTAAGTGATTTAACAAAAGTTGCTAAAAATATTAAAATAGCAGCTCAAAATTGTTATTTCAAAGAAGAAGGTGCTTACACTGGAGAAATATCAATTCCAATGTTAAAAGAAATAGGAATTGAATATGTAGTAATTGGTCATTCGGAAAGAAGAGATATTTTTAAAGAAGATGATGAATTAATTAACAACAAAGTTAAAGCTTTATTAGAAGCAAACTTAGTGCCAATTTTGTGTTGTGGTGAAAGTTTAGAAATTTATGAAAATGGAAAAACTATGGAGCACGTAAAAAATCAATTAACAAAAAACTTAAATGGTATTAGTGCCAATCATGTAAAAAAAGTTGTAATTGCATATGAACCAATTTGGGCAATTGGAACTGGAAAAGTTGCGACTCCTCAAATAGCACAAGATGTAATAAAAGCAATAAGAGATCATTTAGCATCAATGTATGATCAAAACATTGCGAATGAAGTTTTAATTCAGTATGGAGGAAGTGTTAAACCTGAAAACATAAAAGAAATTTTATCACAACCAGATATTGATGGAGCGTTAGTAGGTGGAGCTTCATTAATTGAAGACTCATATTTAGGTTTAATTGAATAAATATGATTAATAAAAATATTGAATTAATAGCTTTGGATATGGATGGAACTAGTTATAAAAGTTTGGGAAAACATATCGAAAGTAATTTAGAACCTATTAATAAAGTACTTGAAAATGGAAAAAAAGTAGTTTTTGTAACAGGTAGGCCTTTTGAAAGTGAAGCGAATGAGCTTCATCTTTATAACTTTAAAAAAAATGAATCTTTTATGATTGCTTTTAATGGTGCTGTAATTTATGATATTTTGGAAAAAAAAGTAATACAAGAAAATGTGATACAGAAAGGTATCGTAGAAAAAGTTTTTGAAATATTAAATAAAGAAGAATATAAAGATACAAGTATTTGAGCGTATTCAAAAAATAATAAAGGAATTTTTATAAATAAATCTATAGAAGATAATAAACTTGTGGAAGTAGAAACTAAACTTTTTGATGGAATCATCCATATAGTTGGAAAAAACACAATTTTTACAGATTGTTATAAAATTTTATTAATTGATTTTGATAAAAAGTTAATTGAAGAGTTGAAAGAAATTGGGTTAAATGTTTTTTGGCATGATGGTTCTATTTCTGCAGAAGTAACTAGTAAAAATGTAGATAAAGCAATTGCTTTAAAGTATATATTAAAGCATTACAATATTGATCCAAGTCAAGTTATGGCTATGGGTGATGGAGCCAATGATATACCAATGTTAGATTATGCAGGACTATCAATTGTCCCTGCAAATGCAAAAGATGAAATAAAAAAACATGCAAAAGTAATTTCTAAATACACATTTTTAGAAGGTGCAGTTGGAATGGCTATAAAAAAATATATATTAGGAGAATAAATATGAAAGCAAAAAAACCAGTACTTTTAGCAATACTTGACGGATGAGGATTAGCAGGTCCGGGAAAAGGTAATGCAATTTTAGAAGCTAACATGGAATTTGTAGAAAGTCTTAAAAAAGAATATCCATGAGTTGAAGCGCATGCAAGCGGAGAATGAGTGGGACTTCCTGAAGGGCAGATGGGAAACTCAGAAGTAGGACACATTCATTTGGGAGCAGGAAGAATTAAGTATGAATCTCTATCCTTAATTAACAAATCTATTAAAGATGGAACATTTGAAAAAAATGAAGCATTAAATAAAGCTATCATAAACTGCAAAAACAATAATAGTGCATTCCATATTATGGGATTATTTTCAGATGGTGGAGTTCACTCACATATGTTACATATGTTTGCAGCATTTGAAGCTGCAGCAAAAGCTGGATTAAAAGAAATTTATGTTCATTTGTTTACAGATGGAAGAGATACAAAACCAACTGTTGCAATAAATTATTTAAATGATTTAGAATCATTATTTAAAAAGTATGGCGTTGGCTCTGTTGGATCAATTTCTGGTAGATTTTATTCAATGGATAGAGATAAAAGAATGGAAAGAGTTGCACAAGGTTATAAATCATTAGTAGATAGAAAAGATGTTAATGTATTTACTAATCCTGCAGACTATATTAAAGAACAATATAACGAAGGAAAAGATGATGAAGGAATTTTACCTGGTTACAATCAATCTGCTCCAAATGGTTATATAAAAGAAAATGACTCTGTTTTATTCGCAAACTTTAGACCTGATAGAGCAATTCAAATGGCAAGTACATTTACAAATCATGATTATATGGCTTGAAGTTCACCAGAGTTTAATGGATTAACTTTCTTAGGGGATAAAATCTTTTTTGTATCAATGATGGAATACTCAGAAAGTGTTTTATCAAAATACATTGCTTTCAAGCCTATTGAAGTTATAAACGGATTAGGGGAATGAGTAAGTATGAAAGGTTATCAACAATTAAGAATTGCTGAAACTGAAAAGATTGCTCATGTTAGTTTCTTTTTTGATGGAGGAAAAGATTACTTTAAAAATGGATTAGCAACACCTGAGGAAATTAAATTAAAAGGTGCGGCGATTAATCTGATACCATCTACAAAAGAAGTCCCAACATATGATTTAAAACCTGAAATGTCAGCTGTTGAAATTACAGATCAATTAATAAAACAAATTAAAAAACAAAAGTATGATTTAATAGTTTTAAATTATGCTAACTGTGATATGGTTGGACATACTGGAGTTTTAGACGCTGCTATTAAAGGAGTCAAAACTCTAGACGAACAATTAAAAAGAGTATATGAAGCAACAAAAGAAGCGGGTTATGTACTTATTATTACAGCTGACCACGGCAATGCAGAAGTTATGATTGATGCTGAAGGTGGACCGAACAAAAAACACACAAGCCAACCAGTGCCAATTATTGTTACAGATAGAACAGTTAAATTAAGAAAAAAAGATGCTGCAATCGCAGATGTTGCACCAACTATTTTAGAGTTAATAGGAGAAGAAATACCTTCTGAAATGACTCAACCATCATTAATTGAAAAATAATATAAACAAAAAACAAGCATAATGCTTGTTTTTTGTTTATCAACCATTTCCTAGTTTATTTCTATCTTTTACTAATTTATCTATATTTAAAATTGCTTTCATTGCTTCGTAAAATGCAGAAACTATGTTATTTATTTTTCCTTTATATGTACAACAATCTCCTGCTGCATATACTCCTTCGATTGAAGTCATCATATTTTCATCGACTATAATATGATTGTTTTCAACTTTATAATTTATAAAAAAATCTTTTTCCATTTTTCAATCTGCTCCAAAATTCACAACAGCATATTCGAAATCAAGTTTTAAAACTTTTTTTGTTTCACAATTTTCAAGTTCTATTTCTTTTACTAAATTATTTTCTTCTTTCAAAATTGATTTAAATACATAAGGTGTTAAAACTTCTACTCCATTTTTAGCAGCCTCATTAACTCCGCTTAATGCACCTCTAAATTCGTTTCTTCTATGAATCAGTTTTACTGTTTTTGTTCAATTTATAAGTTCATTGGCAAAATCAATTGCAGAGTCCCCTCCTCCAAAAACTAATATTTTTTTATCTTTAAACTTTTTTAAATTATCTATACCATATAAAATATTTTCATAGTCTTTTTCTAAAAGTTTTTTTCTTTCATAAAAACCAATACCAATTGTGCATAAAATCTTTTTATAGACTTGAGTTGTTTTATCTGAAAATGTAACTTTGAAATAATTTTTAATTAAGTTTTTTTCAATGTTTTCATCAATCATCTCAATTTTTTCAACACTACAAAAAAATTTTTGTTCAAAAATACTTTCATCTTTTTCAATCATGTTATACATTTCATCCATAACATTTTTTGCAATTTTTATATCAATTCCAGGTAAATTTCTTAAAGTTTTTGTTGGATAAAGTCTATTGACTTGTCCTCCATATGATTTTTCAGCATCAACAATAGTTCCTGACAAATCATAATTTCTAGCTAGTTTTCATGCATATAAACCAGCTGGCCCAGCCCCAATAATAAGAACATCTTTTATCATTTTTATTGCTACTCCTAACTAAAAAATTATATCATAATATATATTAATGAAATTGGAGATAGATTTATGATTATAAATTCTTTAGAAGAAATAAATAAAGTTGTTAATTTAATGGTACCATATTGCAAAAAAAATGTAGCAATATTATTATCTGGAGATTTAGGTGCTGGAAAAACTACATTTACTAAAAGATTATTAAAAAAACTTGGTGTTAACGAAGTTGTAAATTCTCCAACTTTTGTAATTATGAATCAATATAAAGTAAATAATTTAAATATTAATCATGTTGATGCATATCGATTAAATGAAAATGAAGAATCAGATATGTATTTAGAACAATTTTATAATGCTTTAAATATTATTGAATGAAGTGATAATTTAAACATAAAATATGAACAATATTTTAAAATAATAAAAATATCAATTAAAATAGTAAATGAAAATGTTAGAAAGTTTGTGATAGAAGGTGTTTAATATGAATTTGTTTATAGATACAAGTAATAATAATTTAATATTAATTTTAGAAAAGGATAATAATGTAATTGATAGCTTTGTTGAAAAAAATCAAACAAGACTAAGTGATATAGTTTTAATAGAAATTAATAAACTATTAAAAAAACACGATTTAACTTTAAGAAATATTGAAAAATTTTATATTACAAAAGGGCCGGGTAGTTATACAGGAGTAAGGTTAGCAATAACAATTGTAAAAACTTTAAAAACAGTGAATAACAGTTTTAGAGTTTATGCAATAAGTAGTTTAGCTTATCAAGCAGGAAGTAGTGATTGTGTGAGTTTATTAGATGCCAAGGGCCAAAAATCATATGTTGGAGTTTATCAAAATAAAAGAAATATAATTGTAGATCAGCTTTTACCAGACGAATATATTTGCGATTTTTGTAAAAACTATAAAGATTTTGCATTAATAAAGGATTATTATGAAATTGACTTTGTAAAAAATTATTTAGATTTAAAAGAAAAGTTTGAATTAATTGAAGATATTGATAATTTAGAACCAGTTTATATAAAAAACTTTATTTAAATATAAAACTATTAATTATATATAGATTTTATTAATATTTATATAAACATCACCTTGTTTTTTGTTATAATTCTTTTGTATGGATTGATACTCAAGTTGGTGAAGAGGGCACCCTGCTAAGGTGTTAGGTCGGGCAACCGGCGCGAGAGTTCGAGTCTCTCTCAATCCGCCATTTAGAAATTAATATGGAGTTTAGCTCCATTTTTTTATATTTAATTTTATTTTTTGTATATATTTTGAAGCACTACTCCTGAATAAGTATTTAATAATTAACTTTTAAATAAAGTGTAATAATTTTAGTGGGAGGAGAATTAAAAAATATGAATGAATTTATATATTTTATTAAAGGATTCTTTGGAGCACCTGCTGTTTTAATAGCATTGTTTGCTTTATTTGGATCTATAATGCAAAGAAATAAATTTACTGATGTGTTGCTATCAACTTTAAAAGCAGCTGTAGGTTATTTAATTCTAGCAGGTGGAATTGGTCTTTTAGTATCTACATTAGATGATTTCACAGTTTCGTTTAATCAATTATTTGGATTAACCGGAATTATGCCAAATTCTGATGCATTGGCAGGTAATATTATGAAAGCTATTCCTCAAATAGCTACAATAGCAGCTTTAATGATGTTTATATCAATAATTATCAACATTATGCTTGCTAGATTCTCAAGATTTAAATATATCTTTTTAACAGGTCATCATACTTTATTTATTTGTGTAGTAATAGCTACTATGTTCCATATTGCTGGATTAGACCTATCAAGTGATATTTGATACTTCTTAGTTGTAGGATCAGGAATAGTTTCAATTTATATGTTACTATCTCCAGCATTAACAAAACCATATATGGAATATTTAACACAAGATAAAAAACTATATATCGGACATGCAAATGTTTTTGGATTTGCAATTGCAGGAGCAATAGGTAGATTGGTTGGAAAAATCAAAAAAGGAAAAGTAAAATCTACTGAGGATATAAGATTTCCAAAATGATTAAGTGTATTTTCAAACTCAACAGTTTCAGTTGCTGTAACTATGATTATTATATTTGGAATTACATATGGTTCAATGTGAGGTGTTTATGGTAAAGAACAAATGGTCTCACTAGGAGTTATAGGTTCTAGTGACTCAGTGATTGTAAAAATTTTATTAGATGCTTTAACATTTACAGCAGGAGTAGAAGTTTTAATATATGGAATTAAAACAATGGTTGGAGAATTAATTCCTGCATTAGAAGGTATAAGTCAAAGATTAATACCTGGAGCAAAAATGGCAGTAGATTGTTCTGTTGCATTATATTATTCACCGACTGCAGTATTATTAGGATTTGTATCAAGTTTTGCAGGGGGAATCATAGGATTACTAATTTCTATTGGATTGAATTTAGCAGCCCCAGCGATGATACCATCTGTTATCATTCCAGGAATTATTGCACACTTCTTCACAGGAGGAGTTAGTGGGACATTTGGAAATATAAAAGGTGGTGTATTAGGAGCTATATTGGGAGCTTTTGTAAATGGTTTATTATTATCATTTGTACCAATTTTATTCATATTAATGGAACAAGTTTATGGAGCTCAATTTGATCCAAATAATGTATTACAGTGAGCAGAATCAGACTACTCATTAATGTCATTAGTTGGTTGAATATTGTACTTTGTATGAACAAAATGATTATTGTTAGCTATTGTTCTTTGTGTAATGATTGCATTAATTGTGGATGGAGTAATTTGAGAAAGAAAAGATAGAAAAAATAGACCTGAGTTTTATGCAGAGTTAAAAGAAATTCAACAAAAAATTAAAGCAAATAGAATTGCTGAAAAAGAAAAAAGAAAAGCAGATAAAAAACTTTCTGTAAATGAAAGCAAAGTTAAAAGAGAGTAGGAAAAAAAATGAAAAAAATAATTACAACCGGTTCTATTGGAGTTGACTATGTATTTTTAGTTGATAAACTTCCTAATAAAGGTCAATCAATAATTTCTAAAAAATTTGAAGTTTTTTGTGGAGGTAAAGGTGCTAATCAAGCTGTATCACTTGGAAAACTCGGAGCAAGTGTTAAAATGATTGGTCATGTTGGTAATGATGAAAATGGAAATATCTCAATTAAAAATTTAATGGATAATTCAATTGATACAAAATATGTAAAAAAAGTATCTAATTATACAACTCAAATAGCTAATATAGTTGTTGATGATAACGGAGATAACTTGTTAATTGTAGATGTAGGAGCTAACTTCTCTTTTACTAGAGAAGAAGTAGAAGATTACAAACACTTAATTGATGAAGCAGATATTGTACTAACACAATTAGAAACATCAATTGAGTTTATTGAAGAGTTTTTAAAATATGCAAAAGAAAAAAATAAAATAGTTATTTTAAATCCAGGGCCTGCAAAATTAATTTCAAAAGATTTAATTCAATGTTGTGATTTTATAACTCCAAATGAAACAGAATTATGTATTCTTTTGAATAAAGAATACACAGAAGATTTTGAAACTTTAAAAAAATATGCTTTCGAGTTACAAGATATATCTCAAAAAAATGTAATTGTAACTCTTGGAATAAATGGATCAATGTGAATAAATGAAAAAAAAGAGTTTAAAAAATATGAAGCATATAAAATAAAAGCGGTTGATGCAACCGCTGCAGGTGATACATTTATGGGGGGATTTACAACTTATCTTGCAATGAATAAAAACATTGATGAATGCATAAGATATGCAACAGCAGCTAGTGCTTTAGCGGTAACTAAATTAGGAGCGCAATCTTCTATACCATCTAAAAAAGAAGTTGAAGAGTTTATTAAAAAAAATAATTAACTATTATTTCAATCTTTTAAAATTAAATTAGATTTTTCAAGAGTTTCAAAAGCATTCTTATCAGTATTTAAAATTAAGTTAAATAATAAATTTGATATGAACATTTGTCCACTACTTGAACTAATTGAGGGAAATCTTAAAGTCTCATTCTTATGATAAGAATGATAAAGTTTAAAATTAGCTTTTTGTAAATTAGCATTATTAACTTCAATACTATTAGTAGAAGTTATTCAAACTACTTTAATATTATTATTTATAGCATATTTTGCAACTTCATTAGCTTCTTTAGTAAGACCGCTAGAACAAAAAATTATAATTACTGAATTTTCTGATTCAACAAAACTTAAATTAGTAATACATCCATGAACAGATTCGTAAACAGTGTTATTAATACCAACTTTTTGCAAATTTCTTGACAAAAATAATGCCGATAAATATGAAGCTTCAACTCCAAAAAAAACAACACTTTTAGAAGCAATAATAACATCTGCAACTTGTTTAAGTTGCTCATGATCTACAATGTTTTTACTTTCAAGTATTGAATAAATTTCAAAGCTTGAAACATTATGTGTAATATTCTGACTGCTGTTTGGAGGATAAATTTTAGTCAATTCATTAGTTTTAGTTTTTAGAGAATAATCAATTTGCATTGCCTTTAAAGATGCATACTCTAACTTTTTAATCAATCTAATTAAAGTTGCTTCACCCACATTATATTTGATAGATAAATTTTTCAAATTATTAGAAATAAAATATTCAATATCTTTATCTATTTGATCTATAACGTATTGTTCGCTATCAGTTAATTTTAAACTTTTCATAATTAGTAACCTCTAAAAGTATATATAAATTATTATAATATAAAAAGGAAATAAAAAAATGAATAAAAAAATAGTAGCAGTTAGTATCTATGTTTTCAATTTCTTAGAAATTGGAAAAAAACTAGAGCAACTAACAAATTCAGGAGTAAATTGAATTCACTTAGATATAATGGATGGAATTTTTGTAAATAATTATGCTTTGTGTCAAAAATTTTGTTCAGATATTAGAGAAAAATATAAGGATATTAAAATAGATATCCACATGATGTGTGTTGAAAGTTATAAATATATTGATTCTTTTTCTAAAGCCGGAGCAAATTACTTTAACTTTCACTATGAATCGATAACAGATAAAAGCCCCCAACATATAAATGAAATAATTCAAAAAATAAAAAACTCGGGTATGAAACCTATTATGGCTTTAAACCCTGAAACAAGTGTAAATCAAATTGAAAAGTACCTATCTTTATTAGATGGAATAATGTGTATGAATATTTTGCCAGGGTTTAATGGTCAAAAATTAATTCCTGAATCTTATGAAAAAATAAAAAATTTGAAAGACATTAGAGAGAAAAAAAGTTTAAATTATTTTATAATGACAGATGGTGGAGCTAGAGAAGATACATATTCTCAAATATGTGAAAGTGGTGCAGATGTTATTGTTGTAGGTGCTTTTGTAAATGTTGAAGAAAATAAAATAAAAGAACAAGTTGATAAAATTCAGAAATTTAAAAATAAATAAAAGAGGTAAGTATGAAAATAAACAAATATATTGACTCTACATTATTAAAACCTGAGGCAACTAAAGAAGATGTAATAGAATTTTGCAAAGAAGCTATTGAAAACGATTTTGCAGCAGTTTGTTTACATGTATCTAGAATAAAACTTGCAAAAGAAATGCTGAAAAATAGCAATATTGAAATTTCAGGAACTGTTGGTTTTCCGTTTGGAAACACAAGCGTAGAAGTAAAAATATTAGAAGCAAAAGAAAGTATAAAAATGGGTGCAACTGAGATTGATTTTGTAATAAATATTGGTTATGTCAAAGATCATAATTGAGAATTGGTCTTAAATGAACTAAAAGAAATCAAAAAAGCAATCCCTAATAATATAGTTAAAGTTATTTTAGAAAATTGTTTGTTAACTAATGAAGAAATTGTGAAATGTTGTAAATTAGCATGTGAAGCGAAAATAGATTATGTGAAAACATCAACAGGTTATTCATAATATGGAGCTAAAATAGAAGATGTTAGGTTAATGAAAAAAATTGTAGGAAATGATTGCAAAATCAAAGCTGCTGGTGGAATTAAAACATTGGACGAAGCAATTATATTTATTGAAGCAGGTGTTGATAGAATAGGAACTAGTTCAGGATATAACTTAATTAATAATTTAAAATCAAATTCAAGCTATTAAGAAAATTAATACTAAAAAAACTTTCTTTTATGAAAGTTTTTTTAGTATTATATTTATTAGAAAGAAATATGCAGTAATGGCATTAATTTTATAAAGGGGATAATATGGCTAAAAATAAAAATAATATAGATCTTAAAGAAGAACAACCAAAAAAAGGATTTTTAAAAAAAATGTTTGTAGGAAAAGCTGAACAAAAAAAAGTACTACAAATTATTAAGACTAAGAAAAACCAAAATTTATATTTTTATACAGATGTAAACAATATCTTATTAATTTTAGAAAATGGTATTAGATTAGTAAAAGATCAAAAATTAAACAAAGGTGAAGAATATGTTGTTTGAACATATTTAGAAAACAATAACTCAATTGGATTAGAGTTTGATTCTTCTACTAGAGCTCATTTTTGAAAATGAGCTAGTGAAGCAAAAGTTGATGTTGAAAAAATCTCTGTTATTGGAATAAATCCAGTAAATCTTGCAAAAATATGTAAAAAAGATTGAGCATTAGATAATGCCGGAAACATTGTTTATGTATATGAAACAATACCAGTTGATGCTATTGATTTTATCATGATAAAAGATAAGGCAAATTTAAAACGCATTGAAACATATGTTAATGCAAATGATATAAATATTGATGTTTTTTATGGAGAAACTGGAAATATAAATAAAAAAGAAAAAGAGGTTAAATAAAATGGCTCAAAAAATAGAAAAAATAACTTCAAGAGAGGATGATTTTTCGCAATGATATACAGATGTAGTTAAAAATGCAGGTTTAGCAGATTATGGTTCAGTTAAAGGTACAATGATTTTTAAACCTTATGGATATGCAATTTGGGAAAATATTGTTGCTATTACTGACAAAATGTTTAAAGAACAAAATGTACAAAATGTTTATTTTCCATTATTAATTCCAAAAAATTTATTTAGTAAAGAAAAAGAACATATTGAAGGATTTGCACCTGAATTAGCAACAGTTACAAAAGTTGGTGATAAAGATTTATCAGAAGAACTATACATTAGACCAACAAGTGAAGTATTAATTTGTACTCATTTTGCAAAAGAAGTTAAATCCTATCGTGACCTTCCTTTGATTTATAATCAATGAACTAATGTAATGCGCTGAGAAAAAACCACAAGACCTTTTTTAAGAACTAGTGAATTTTTATGGCAAGAAGGTCATACTGTTCATGCAAGTGAACAAGAAGCAAAAAATATGACGTTAACTATGTTTGATGTTTACAAAAAATTAGCAAATGATTATTTATTATTACCAGTTATAAGTGGTAGAAAAACTGAAAAAGAGAAGTTTTCAGGTGCAAAAGAAACTTATTCAATTGAAGCTTTGATGTATGATGGTCAAGCTCTTCAATCGGGAACAAGTCATTATTTTGGAACAAACTTTGCTGAAGCTTTTAATATTAAGTTTCAAAATAAAGATCAAAAAGAAGAGTTTGCGTACTCTACTAGTTGAGGAGTTTCAACAAGATTAATAGGAGCTATTATTATGACTCATTCAGATGATCAAGGTCTAGTTTTACCTTCAAAAATTGCACCAATTCAAATTCAAATTATTAATATTAACGAATCTGAAGAAGTAGAAAAAACCTCAAACCAATTATTCAATAGTTTAAAAGATAGTTACAGAGTTTTTATTGATAAAACTGATAAATCATTTGGTTTTAAAATAAGTGAGGCTGAAATTAAAGGTATTCCAATTAGAATAGAAATTGGTCCAAGAGATTTAACCAATAATGTAGTAACGATATCTAGAAGAGATACAAGAACAAAAGAGCAAGTAAGTATAGATAAGGTAGTTGAATATGTTGAAAAACAAATTCAAGATTATGATAAAAATATTTATAATATTGCATTAAAAAATTTAAAAAATAAAACATATGAAGCAAATACAATTGATGAATATGAATCAATTTTGAATAAAAACCAAGGTTTAGTATTAGTTCCATTTTGCGGTGATATCAATTGTGAAAATCAAGTTAAAGAAAGAACTCAAACAAATTCAAGATGTATTCCTGATATTGACGAAAAAATAGAAGCAAAATGCTTTAATTGTGAAAAACAAGCGAAATATAGAGTTTATTTTGCAAGAGCATATTAAAAAATATAAACTGTTCACATTAGTAAAATAGTTTATGTTTTTTTATCATTTTTTTCCAACAATAATATCAACAATTTTTTTGAATTCATAGTGTTTACTATCTGCAACTTTTTTTACTTCACATTGTTCTAATAAAATATTAAAAATACCAACAAAAGTTGCATCATCGATATCATCAAACTTTGGTTTACACTTGAAATAAACTCTTGAAAAAGTAAAAATTGGATATTTAGAGATATATTCAAATATAGTTTTTTTAAGTTCTCTATACCTTGGATTTTCTTCTTTGATTATTTCATTTCTAATTCTTACAATAAGCTTAATCGCTTCGCTAAAAGTTTTTATATTAGATTCAAGTTGATAAACAAGTAAATCTAAAAAAAAATCTATTCATTTTTGAAAATCACAACTATTATCAAGTTTTGCTAACTCTTGATAATATGTAAATTGGTCTTTTAAAATACCTTTTGAAATGTAAAAATAAGGTTTAGTTGATAAGTCATATTTGTTAATTATTAGATTAAATAAGATTCTTCCAGTTCTTCCATTACCATCAGTAAAAGGATGAATTTTTTCAAAATAAGCATGAGCAATCGCGCCTTTTACAAGAGCTTCTAAAACTTTATTGCATCCTTCAAAACCTTTATTATCATTTAATCAATTGACAAAGTCATTCATATAAATTGGAACGTCTTGTGGTTTTGGTGGGTAATAGTTTGCTATTTTTACTTGTTTAATTCTTCACATTCCTGGAATTGCATTAATTGCATGAACAGACATCATATTTTGAAATAAATCACGATGAATATTTAAGATTAACTCTTCAGTAAAAAGTTTATTGTTTTTTATTGCTAAGTTAGCATTTTTTAAAGCATTTACATAATTTGATATTTTTTTACTTGTGGGAGTATCTTGTGCAAGAAGTTCAACATCATTTGTATCCAATCCTTCAATCATATTTGAATGCCTAGCTTCATATTTCAATAATTGCATAGATAAAAACTGAGTATCAAAAGGTGAATTATCCAAGTATCTATTATAATTTATAAATAACTCAACTATTTTATCAACCTTTTTTTGAAATTCTAAAGGTTTAAATTTAACATCATATATTTTATATAGTTCTTTTCTAATATCTTCCATATAAGTCAATACTTTCTTTACTAATTATATCAAAATAAAAATTAGGTAAATTTAATACAATAAACATATTTTATAAAAAAATTAAAAAGCAAATTTTAAAGTTATAATAATTTTGTAGAGATATCAAAAAATAAATATTTAATATTGCAAATTAAAGAAGGGGGGGGATTTACATGGAAAATGTAAAACCTGGGGATAAACTTCTTGTTCATGCATATAAACATAACGGAAATTTATATAGATCATGAGATAGCGGAATTGTATTAGAATCTAGTGAAAAACACTTAATATTAATAAATCAAGAGGTTTTAATAACAGAAGTAACAGGAAGAAAATGAAAGACTAATGAACCTGCAATTTGATTTTTCTTCAAGGATTATTGATTTAATGTTATATGTATGTTTAAAGATAGTGGGATAAATTATTATTGTAATTTAGCATCACCTTTTATAGTAGAATCAGAAACTATTAAATATATTGATTATGATTTAGATATAAAAGTTTTTAATGATGGAAGCTATAAAATACTTGATTTAAAAGAGTTTAATAGAAATAGAATATCTTTAAAATACACAAGAAATATTATCGAAACTGTATGAGAAAGTATTGATAAATTGAAAAAAATGATTAAAGAAAAAAAAGACTTTTTTGATCATGACTATGTAACAAAATTGTGAGAATGATATTTACAAAGTGGTTTTGCAAAATAAAAAGTTGAATTTAAATTCAACTTTTTATTTATTGATGTGCACATCCTAGTAAAGTTGCATTAGTAATATCTTTTGCAAATTCACAAGGTGTTACAAATGATATATCTTTTGTAACAACAGCTATACGTTTAAATATCTTTTGAAAAAACTCTTTATTATTTAATGCTACACTACCTCCAACAACAAGGATTTCAGGGTTTAAGAAATATATTCCTGTTGAAAAAAATTGTACAAGCTTATCTTCTAATTCTTTAAAATACTGATTTATAATTTCGTTGCTATTTGTATTGTATAGATCAAATGCTTCTTTAGCGCTATTTACTTCAACTCCACGTTTCTTTAATTGTCTTGGTATATTGGAACCACTTCCAAAAAACTCTATTCCAGATTTAACTTCATCGCCTTGTGAAAGATCTGGAATTGCATTTGCAATCTCACAAGCAGTTGTAGAATATCCATTTAAAATTTTATTATCAATTACAAAACCAGCCCCAACTCCAGTTGAAATTGTAACAAATAAAACAGATGATTTGTTAAACACTAATGCTTGGCCTAATGCTGCAATATTTGCATCATTGTTAAAAGCAATCGGTACATCAAAATCTTTTTTAAACATATCTAAAACATTCATATTTGATCATCCAGGTAAATTATGAGTATTTAAAATCATTCCTCTTTTTAGATCTAATGGACCTGGAATGCATAATCCTATTCCTTCTAATTTATCACTTTCACTTGCTTTTTTAATATACTCTTTAATAATGTTGTAAGTTGTTCAAGGATTTTTTACATCTGTTTCAAAAATTTTTAAATCCTTAATTTCAGATCCAAAAACTTTTGCTATTCTTGTAGAAGTTCCTCCAATATCGATCGCTATTTTCATTTATATCTCCTTTTTTTTTATACAACTATATATTAAATTATTTTTAAACTTATTTAAATAAAATATTATTTCAAGTAAAATCAATTTATGCAAAAATGAAAAATTAATATTTATGGAGGTCTATTATGGACAAATCAAAAATAAGAAACTTTAGTATAATTGCCCATATTGACCATGGAAAATCTACTTTAGCAGATCGAATTTTAGAATTGACAGGAAGTGTTGATAAAAGAGAAATGCAAGCGCAATTACTTGATTCAATGGATATAGAAAGAGAACGTGGGATTACAATCAAATTAAACTCAGTTCAATTAAAATATAAATCAAAAGATGGAAATGAATATATTTTTCATTTAATTGATACTCCAGGTCATGTTGACTTTACTTATGAAGTTTCAAGAAGTTTAGCAGCATGTGAAGGAGCTTTACTTGTAGTTGATGCAAGCCAAGGAATAGAAGCGCAAACATTAGCAAATGTTTATTTAGCATTAGATAATAACTTAGAAATAATTCCTGTTATTAACAAAATAGATCTTCCAGCAGCTGATGTTGAAAGAGTAAAAGAAGAAATTGAAAACGTCATAGGAATTGATTGTAGTAATGCACCAATGATTAGTGCTAAAACTGGTTTAAACGTTGAAGATGTTTTAGAAGCAATAGTAAAATATATCCCTTATCCTCTTGATGCAGATGATAGTAAACCGTTAAAAGCTTTAATATTTGATTCTTATTATGATAAATATCGTGGAGTAATGGCTTCAATTAGAATTGTTGAAGGAAGTGTTGAAGTTGGCCAACAAATCAAAATGATGCAATCTGGAGCTACTTATGAAGTAACAGAAGTTGGTGTAAAAACTCCTTTTGAAGTTAAAAAAAATAAACTTGAAGCAGGAGAAGTTGGTTGATTAAGCGCATCAATCAAGACAGTTAGAGATGTACAAGTTGGAGACACAATCACAACTAAAGAAAATGGAGCAACAGAACCATTACATGGTTATAAAAAATTAAACCCAATGGTATATTGTGGTATTTATCCAGTTGATACTGCCAAATATAAAGATTTAAAAGAATCACTTGAAAAAATAAGTTTAAGTGATGCTAGTTTAGTTTATGAACCAGAAAGTTCACAGTCATTAGGGTTTGGTTTTAGATGTGGATTTTTAGGTTTATTGCATATGGATGTAATTCAAGAAAGACTTGAAAGAGAATATGATTTAACTTTAATCGCAACAGCTCCTTCTGTTGTTTATAAAGTGAATATGACAAATAATGAAACTATTGAAATTGATAATCCTGCTTTTTTACCAGAACCTCAAAAAATTAATACAATTGAAGAACCTTATGTAAAAGTTTCGATTATGACTCCAGATCAATATCTTGGAGATTTAATGGGATTATGTCAAGACAAACGTGGAAATTACATTAATATTGATTATATTGATGATACTAGAAGAAATTTAGTTTATGAAATGCCTTTAAATGAAATAGTTTTTGATTTTTTTAATAAATTAAAATCAATATCAAAAGGTTATGCTTCATTTGATTATGAGTTAATCGGATATAAAGTATCAAAATTAGTTAAAATGGATATTTTATTAAATGGAGATGTTGTTGATGCTTTATCAACAATTGTGCATAAAGATTTTGCTTATCATCGGGGAAAAGTATTAACAGAAAAATTAAAAGAAATAATACCAAGACAAAACTTTGAAGTACCAGTTCAAGCTGCAATTGGATCAAAAATTATAGCAAGAGAAACTATAAAAGCTATGAGAAAAAATGTTTTAGCAAAATGTTATGGTGGAGATATTTCTCGTAAGAAAAAGTTATTAGAAAAACAAAAAGAAGGTAAAAAAAGAATGAAAGCAATTGGTTCTGTAGAAGTTCCTCAAGAAGCCTTTATTGCTGTGTTAAAATTAGATGATTAATTTGACTATAAGTGTTGTTATTTAAATATATTAAATATATAATAATGAAAAGTAGAGGTATGAGTATGAAAGCTGTAAGAAATTGAAGATTTGTTATTTTTTTATTTATTGATTTAATGGCTATACTAGTTATGCCTTTTTTAGTTATTGCAAAAATAGACACTGGTTGAGTAGTTAGTTACACTATTCATAATTTACAAACGCTAGATATTTTAAATATAATGTTTGCATTACTTTATTTAACTTTTTCAATTGTTGCAAATTGTACAAAAGATAAAGTAATGAAAGTTTTTGGTGGAATTAATGTAGTTGCATCATTAATATTTATTTTAATAATTGGTATGTATTGTTTTGCTGATTTAACATCAAATTCATCAAGAATTATGTTTGGAATTATGCTTATGATATTTGTTGCAGTTGACATTATTTTAACAATACTTTCTACAGCAGTTAACTTACAAGCAACAACAATTATTCAACAAGTTGGAAATGGAGCATATGCAAATAGTGATATATCATCTGTACCAATGCCGATGATTAATAATGTTGAAATTCAAGATTCTACTGCTTTAAAAGCAAGAATTCACCAAATGCAAGGTGGGTTGAGCAAAAGTTATGATGAAGCAATTGATGAAATTGAAAAAACTGGATATTTAAACGGTATAAAAGTCGGTTTAGATTTAAATGATAGTGATGATGCTGTTAAAATTAAACCATTATCTATTGAAGAAGCAAGAGCACAAAATATTGTTCCTCAAGAAGTATTGCAACCAAAAAAAGAAAATAACTCATTTTATGAAACAGAACAAATTAATACTGTTCAACAATTTCAAAATGCTAAAAATGACTTCTTAGACGAAGATCCATTAGCATCAATTTATAATAATGAAGATTATGATAGTATTAGTTCTACATCATTATCTAGAAAAGATAGTGGATTAGCAGGTGGATTTAAATATTTAGCTAAAAAAAGAGATGATAGTTCTCATTAGTTATAGAATGTAGAATTTAGTTATATACTAAATTCTTTTTTTATAAAAATGATAAAATCATAAAGTTAGAGGGTGAAATAATGCTTAATGCTATAAAAGAAAAGAAAGAAAAAACACCAAAAGAGAGTTTTAAAACAAGATTTTCAAAAAAATTTAAAAAGTTTAAAGATGATATTAAATTAAAAACTAAGGAACAATTATCAGCTGCCAGAGCAACAAGTAGATTTTTTTTAATATTAGTATTAATTTTTAGAATTGCAATTATATTTTTTTGAATTATAGCACCAATTATGATGACCCTAGCATTCGCTTATGATCCTGGAACTAGAAACTTAGTTTGATATATTTGCGCAACAGTTGTTCATCCAAAAATGCTTAACGGAGAAGTTCTCTTTACTGTTGATATTGCATATGTTAATAATGTTATAAATATTGCTGCACCAATCATTTGATTTGCTTCGTTCTTATTAATTTTTTTATGTGTAGTTTTACCATTCTTTTATACAAGAAAATGAGCAGGAAAAGCATTTTTTGCTTTTAATTTATTTTTTTGACCATTATTTTTTTTAGGTATTGATTATGCAATTTACTTTTTAAAATCAAGATTCCCAATGGGACCAGATATAGATATCAATGGTCCTCAATATCCTTTAAGAATTTCATATCTTGCACTTAATGAAACTTATACTTTTAAAAGTCCTTGAAATATCGTTTATCAAATTACATGATGTTTTTTACTTCTAGTAGGAGTATTTGTTTCTGTTGAAGCAGGATTAATTAAAAGTTATAAACTTGATTATGATGATTTATATTCACAACCAAAAGTTGGTCAATCACTTGTTGATAATGTAATTGAAGGAAGACTTGAGTTTGGAGAAATTAAAAGTGAAGATTTAAATACTGAAATTAAAAACTTACGCAAAGATTTAATCGATGAAGATAGACAAAGAAGAATTGATAGACTAGAAAAAATAGCAGAAGAAAGAAAAGCAAGAAAATTAGCAAAGAAAAATAAATATTCTAAAAATAAAAGTAGTGAAAAAATAAAAAAGAAAAACCTGAAAAAGTAAAAAAGGAAAAAGATAACAAGTAGATTTGTTAATTTAAGAGAAGGTAATTATGTTGAAACTAAAAAAGACACTAAGCTATAAAACGCAACCGATTGAGTACGATTTAATTTTAAGAGATCAAAAATATATAAGACTTAAAATTGTTGACACAAAACTTTCAGTGTCTGCACCTTTGAGTATTCAAGATTGAGAAATTGAACATTTTATTTATAAGAATATAGCAAAAATTCAAAAAGTAATAGATTTTAAAGAAAAGAATAAAAAAGTTGAAGTTGCAAATCCTGGATTCGTAAAAATTTTTGACAAAAAAATTGAAACATTTTTTAGACTTCAACCAAATGAAAATCAAAAAAATACTTACAAATTATATGAGTCATTAGAATTAACAATAAAACATATGTATAAAAAAATGTCTATTGAATATTACAATATATTTGTACAAAGAATAAGTTATTGAAAACAAGTAATGAATTTAGATTTTAAAAATTTGTCAGTAAAAGAAATGAAAGGAAAATGAGGAATTTGTTATCCTGAAAAATCAAAAATCGTTTTAAATATCAGATTAATTCATTATCCTCTTGATGCATTAGATTATGTTATTGTGCATGAGTTAACCCACTTAGTTCATAAAAATCATTCTAAAAATTTCTGATACTATGTTCAAAATTACTTACCAAATTATAAAAAAGCTAGTGATTTATTAAAAGTAGTAATTTAGATATAATAAAAGTATAATTATTCTTATAAGGAGTTATGACTATGGGCTGAAAAAAGGAGTTTAAAAAGTTCCAAAAAGAGTTTAATAAAAAAAGCTCAATTTTTAACAACTCTTTTGATGAGTCAAGTTTTATAGAATGAGAAAGAGCATCTCAAGATGTTTATTATTGAACGATTGAAAATATTTTAGCAATGATCGAATCATATAATTTAGAAATTAAAGAGTTTTTAAATAATCAACTTTTTCCAAATAAATTAGAAGAAGCATACAATTGAAGATTTATAAGTTTAGATTATAATGAAGAATTTACTTCATATCCTTGTACAAGTTTTTTTGAAAAAACCTATGATTTTTTAAACAAAAAAATTGGTAGTTATGGAGCAACCTTAGTTATTAGTGCATGTACAAAATATTGTTATTATACAACTATAAAATTTTGAAAAGTTTTTAATGCAACTTTTTCAAATAAAAACATCAATGATAAGACTTTGTTACGGGTTTTTGAAGTTATGCAAAGAACTGCTTTAGATGCTATTGAATGTATTGTTGAAAAAGCTTTATTATTAATTGCAGATATTGATATTGTTCCATATAAACATCATTTGTTGGTTGAAGAAATCATTGATTTAGGAGATGATTTTACATATCATTGAAGTAGAATGTTTGATCAAGTTGTTGATTTAACTTTAGAAACTTACATTTATCAAAAAGATTTCAATGAAACTATTCACTCATTTACTCAAGAGTATTACAATAATATTGATGAAACTGATGGTGATTTTGAAGATTTCTTTGAAAAAACAAAAACATTAGTATTTAATGATGAAGTAAATGATGCATTTAATTACTTTGGAATTTCAAAAATGGATCGGCCTAGTGATTTTAAAAAAATATATAGAAAATTAGCAAAACAATTTCACCCAGATGTTAATCCAGATCCAAATGCAGCTATTGAAATGAAAAAAATTAATATGTTTAAAACTATCATCGAACAATATTACGAAAAATACGAAATAGTTTAGGAGAAGTGAATATGGAAAAAGAAGTTTGAAATAAATTATTAAAATCTTCAAATGAACTAATTAAAAATTTTGATAAATCTGAGTTAATAAATGTAGTTAAAGATTTTAGTGAAAATTTAGTTTCTTTTAGTGAGAAATATGCTTTAAATAGAGATGGTTTTTATAAATATATTAATAAAACGTACAAAAAAACCTTATTACAAGCAATAAATATAATTTCATCAGCAGATAGTGTTGCTGTAATTATGCAGTTAAATGAAGGTGTAAATGATTATATTATTTTAATCAATCTTTTTAGACAACTAATGGTGACATTAGATTCTTTATCAAGTGAGTATTGATTACAATTAATAAATGTAACAAAAACAAGTGATGGTGAATTTGCAAAATATATTATTAACCAAGCAAATTCATTAGGATTTGAAAAAAATGATAAACAATTAAAAGAAATAGAAAAAAATGCAAAAAAATTCAATTTTGTTAAGGATGAGTATTATAATAAAATATTGAATAGAAAACTTTGAAATGATGTAAAAGAACTTGAAAAAACAATTTTTATCAAGCCTGATGGTGATTTTGAGTATTTCAAAGAATTACTTTCAATAAAAGATGAGTTAGCAGAAGATATGGTTATTAATTTATGAGCAATTCTTGCAATTGCAATAAGTTATTTAGACTATTTGAATGAGTTGCTGAAGGGATAAACAAACAATGAAATACAAAGAATGAGAGTATTACAGTCATATACCAAAAGATATAATTTCAAATGAGGTTTATATGCTTCTTTCGCTTTTTGGTTCTGAAAATCGATATTTAAAATTACTTGAAAAAAGATGATTTGAAAAAAGAGATATGATTGATTTTAGAGATTATATGGAAAATGCATTTGAAGAAACTGAAGTAACAGAAAAACAAGAAGTAGATAGAGATAGTTTGAGTTGCTTATTAAGATTAATGGCTATTTGTGATACATTCTCAGATTATGAGTATATTTATGATGTTTCAAAAAAAATTTATGAAGATCCAGACATTAAAGACAAAGATCAAAGACTATATGATTATGCATTTGTTGAATTAATAGTTACATTATATGATGCACTTGTTAATGAGTTTAAAGATCTAACAATAATGACAAAATATAAACCAATTACAGAAGAATTAATTAATGAAATAGTGAAATTATCTGAGCTATTAGATGATTCTAAATTGGTAGTTAAAAAAACTTATTTGATAAATGACTTAATAAGTGATCTTTTAGATTTATTAGAAGATGATAGTGAAAATAAAAATGAATTTGAACACTCAGAAGAAGTTGTTCTTTACAACTTTGCAATTTATTATTCAACTAAATTTTATTTTGCATTGTTACTAAGAGAAAAAATAATAGCCGAAGAAGAAAAAATAACTAATACTATTATTGAAGAAAATAAACCATTAATGGAAGAAGATGGCATGAGAATGTCTGAAACTATTATGTTAAACGAAGATGCAAAAGAAATATTTTATAAAACATTAAAAAATTAGGGACAAAAAATTGAGCAATTTACAAGACAAATTTCCATTTTGTTGCAAAAAAGATAGTACATATTTTTCAACATTATTGGAAAACTATCTAAATTTAAGAAAAAAACAAAGTGGTTTAGAAATCTTGAATAATGATTATAAGATTTATAAGAATTTATCATTATCAAATTTAGACGTTTTATTTTTAAAAGTTAAAAACTTAGTTGAAAAAGTTAATGACCAAGACTTAAAACAATTAGAAAAAAAGTTTTGAGATATTAGTAGCATATTATTTATTTATTATATTAAATTAGTGTTTCAAACTATTCTTGATGATTTTGATCAAAATGAGTTTTTAAATTACATTAAAAATAAAACGATTTATTCTCAAATTATTGCGATGACTAAGAATTTAGAAACTGCTTGGAGTATAATAAAAGAAATTTTAGATGATATAGAAACTTATAATAACACTATATTGTACTAAAAGTAGATAGAAAAGAGAGTATGAAAAAGATTTTAAGTATATTAAGCTCTATTACTTTGTTAGCAACTCCATCAGTTGTTGTTGCATGTGGAGATTCAAACGCTAGTGATAAAGAAATAAAACCATTAACTTATAAAGAAGGAATATTGGATAAAGATGTAATTAAAGCAATTGAAGAATTTGGAGAATTTTTATTTGAAGATAATAAATTAGCAGTTGATTTAGATGACATTGATTTTAAGGATTTTAATTTTGAATTTAGTAATTTATTTAACCTTGATACAAAAATTTTAGGAACACCAATTGAAAATGGAAAAGTTTTTGATACTTTAAAGAAATCATTTGTAGAATTAGAGAATTTAAACCAAATTGGAAAAACCACAAGCACTATTGAATATAACTTTTTCTCAATGAAGGGTAAACAAGGAAATACAAGTTTTATGCTTTATGAAAATAAAGTATCTATAAATGCTTTAAGTATTAAAAAATCTTATATTAAAACAATTTATGAAAAAAATGTAGCTATTGATCAATCAAAAACTGAAGATCGATAATATATTTTTAAAACACCTCACAATAGGTGTTTTTTTATACTTTAAAAAAAATATCATTTTTTAAAATTTTTTTTATTTGATTTAAGATTGATTTTAAATGGTTTATTTATAGTTAATAAAAACTAAAAGATTGATAAAAAGTGTAATTAAACATAATATATAAGAGTAAAAGTAAAAATGATAGTGAATAATAAAATTTAGAAAGGAAAGCTTATGAAAAATCTACTTGCTCTTCTATCATCAATGATTATAGCAACTTCATCTTTAAGTACAATAACAAACTCATCTGTTAGTAGAAAACCTAGTGATCATAATAACTCTAATCTAGATAATAATGGCGGAAACAGTGATGAAGGTGGACAAAGTAATACTCTTCCAAATGAGGATCCTAGCACGCCAGAAACACCAGTTCAACCTGAAGAACCAAGTGTTCCAGCTGATACAAGAAGAGAACTTGAAGAAGTAATAGTAAATCATAAATTTGAAAATTTAAAAGCTTATAGTGAAGATGATTTAAGAAATGAATTATTTAATAGATATAGTGAATTAAAAGGAGAAGTAACATTTTCACAATATAAATATGATGAAAATGAATTTAGTGGTAGTTTATTAGTTTCTTCTAATGAAAACTCTGAAAAATACAAAGGAAATGTAACTATTCATTTTAGTGTTTATCACTATGCTAAAACTGATTTCCAATTAGAGAAAAAACATGTAGAATTGAGAATTGGAGAACAAAAAAATATTTTAGTTAAAAATTTTAATCAATTAGTAGCACCAGAAAATTATCCTCAAGCTGAAAAGTATGATTCAAATTATTTAGAAGTAAGTTTTGATAAAGAAGTACAAAGTGTTGTTATTAAAGCGAAAGATGTAAAAGAACCACCAAAAGATAATGCACTAGAAGTTACATTAATTTCTGCTGATGGAAGAGAAAATAGCAAACAAAAAATAAGTGTAACTTTATGAGCGAAAAAAGTAGACTTTCAATTATGCGAAAATTCAATTAACTTAAAAGCTGATAGAAATAGTAGTAAAATCGTTAATATTTCAAATTTTGATGACCTATATGATAGTTCAAATATTCCATATAAAGTTGAAGTTGATGATAATGGTAAAAATTATATAAGCGCTAGTTTAACTGCTGAAAATAATGGTATTTTAATATCATCTATAAATGGATATACAAGTGACAAATTAAAAGTAACAGTAATTGCAAAAGAACATAGTGAAATTATTGAAGTAACATTAGATTGTCCTGCTGTAAAAGCAGTTTTAGAACACAAATCAGTTGATATGAACATTAAAGAAGAAACGTATATAAAAATTTCAAACTACGATGAATTATATGTTCAAGACAATATGCCAGATAAAATTTCAGTTAGTGATACAAATATTTTAAAAGCTGAGTTAGATATAAATAAAAAAGCAATTAAAATAACTGCATTTAATAAACCTGTTGTAAATGCTTGAGTTAAAGTATGATCAAATAATTTTTTAAATGAACCACAAACAATTAATGTAAATATAAATACATTAGATGTTAACTTTGAGTTAGAAAATCATGATTTATCTCTTGTTTATAATCAAAAAACAAGTATAAATGTAAAAAATATTAACGACTTATATGATGCAGATAAAAACCTACCAAAACAATTTGAATATAATCATGATTTATTAAGTGTTGAGTTTAATGAAGTTACAAAACAAATTGATATTATTGCAAAATCAAATGAAGCTACAAATCAAGTAATTAAAGTAAGCTCAAAAATTGGTCATTTTGAAAATATTAATTATTCAATTACAGCTCCAAAAGCTGACTTTAGATTAAAAACTCATGATGCAAAACTTCAATACAATAGCGAAGTAAGAATTCAAGTTGAAAATATAAATGAATTATATGGTGCTGAAAAAAACTTACCATCAGAATTTAGTGGATATGATAAAGATGCAATTAATGTAAGTTATGATAATGTAAAAAATGAAGTAGTGATTGTTGCAAAACAAAAAGAAGTAGCAAGCGGAACAATTCTAGTTAAATCAAAAACAGGCCACAGTGAAGAAATAAGTTATTCTGTTTCAATTCCTAATGTTGACTTCAAATTAGAAGCTAAAGAAATAAATCTAAAGTATAATGAAAAAACAACTTTAAAAGTTACAAATATAAACGATTTATATGGTGCGTCAAAAAACTTACCAACTAAATTTAGTGGTTATGATACTAGTGCTATCGATGTAAGTTATGATAGTAAAAATAATCAAGTTGTAATAGTTTCAAAACAAAAAGAAGTTGCAAATGGACAGATAATAATCGAATCAGAGTCAGGAGCTAGAAAAGAAGTTAAATTTACTGTTTCAATTCCTAATGTTGACTTCAAATTAGAAAAAACAAATGTAGTACTTCAAGCAAAAACAAAAACAACTATTGATGTTACAAATGTTAATGAATTATACGATGCATACAAAAACTTACCAACTGAATTTAGTGGATATGATACTAATGCAGTAAGTGTAAGGTATAACAGAAAAAATGCTCAAATTGTAATTGAAGCTAAATCAAAAGAAGTTACAAATGGAATAATAACTGTTAGATCTAAAGAAGGTAATGTTGAAACTATTACTTATTCAATTACTATTCCAAAAGTTGACTTTAAATTAGATACTACTTCAATTAATTTAGAAGTTTATAAATCAACAAGAATTAAAGTCACAAATGTTAATGACTTATATGATTCTGATAAAAACTTACCAACTGAATTTAGTGGATATAATAAAGATGCAATTGATGTAAGTTATGATAGAAGTGTAAATGAAATTGTAATTGTAGCAAAAGATCAAAGTGTCAATAACGGTTCAATTACAGTACGTTCAAAAAATGGATCAGTTCAATCAATTACTTATTCAATAACAATTCCACAAGTAGATTTTAAATTAGGTAGTGTAAGTCAAATGAATGCTGGAGATACTCAAGAAATTGATGTAACAAATGGAAGTTCATTAGTACACTCAGATAATTATCCATCTGTATTTGAATTTAGCAAAAATGGGGTAGTTTCTGCAAGTTATGATTCTGTAAGACATAAAATCATAGTCAAATCTTTATCAAAAGATATTTTCTGTAGAACTTTAGAAATGACAATTAAATCAAAAAATGGTAGAGTTTCTAAAACAGTAAAATTTGATGTAATTAAACAGTTCGATTTAAGTACATTAAACGGAGATTTGGGAAAATTTGATAAATTTGATGCAACAGCTATGAAAAATAAATTTTATGAGTTAAATAAAAACATCGGATTTAATAAAGATATTTTTGATGGATTGGAAATTTATGAGCAAGGAAAAGATTCAGCAAAAATTAGAGCACAAAGTGATTTAGCTAAAAAATGATTTAAAAATAGTTTAGACATAAGTTATAAAATTCCACCTGAACCATTAGTTTATAATATGAATGATTCTTATGATGCAAAATGAACTAAAGATTCAAGTACAGTGGGTTCAATAAAAAGAATTGAAGATTATGGTGGAGTATCCTTCTTTAAATCACTAGGAAAACAAGTTTCTTCAATCAAACAAGAGTATACAAAAATGAAACTTACATTTACAGTAGAGGCAAAATGATCTAAACCTTATAAAGGTAGTGTAAATTGAGATGATTCAAATAGTCATTACGAATCTTCAGAAAAATATGAGTTAGAATTACCTATAGAAAATTTAAATAACGGTAACAAAACTCAAATATTTAAAATTGAAAAAAGTTATACAGAAAGTAATGGTATTAAGGATGTTGCTATTTTTACCATTTATATAACTTTAAATGTTACAGGAGGTCGTATAAATGGAATTATATACCAAGACATTTCAACAGAAAGATTACATGCTGAAGGTAATTATGATTGATTTTCAGCAAAATATAAAACAAGTTTTGATTTAGTAACATTTAAAAATTAGTATTTAAACATTGAATATAACTCAATGTTTTTTTATTTTTATGTTGAATTATGATAAAAAAATCCTAAAAATTTGGTATTATTTTTTTATGTGAAACATTTAGGAGAAAATTAAATGAGCAAAAAAATAATAAATATTGCTGTTATAGCACACGTTGATGCAGGAAAGTCAACATTAGTAGATGCATTTTTAAATCAAGCTGGAGTTTTTAGAGCAAATGAAGAAGTAAAAGAACAAGTTATGGATAGTAATGATCAAGAAAGAGAAAGAGGAATTACTATTTATTCTAAGAATTGTGCTATTGAATATCATGATTATAAAATTAATATAGTTGATACGCCAGGCCATGCTGATTTTTCAAGTGAAGTTGAAAGAATTATGAAAACAGTTGATACTGTAATTTTGTTAGTTGACTCAGCAGAAGGACCAATGCCTCAAACTCGTTTTGTCCTTTCAAAAGCTTTAGAATTAGGTTTAAAACCAATTTTATTAATTAATAAAATAGATAAAAAAGATCAAAGAGCATTAGAAGTTGTAGATGAAGTTTTAGAGTTATTTATGGAATTAGATGCAAATGATGAACAATTAGAATTTAAAACTTTATTTGGAATTGCAAGACAAGGAATTGTTAAATACTCAATCGATGAAGAATCAAATGATTTATCACCTTTATTTGAAACTATTATCAAACAAGTAGGGAATTATCCAACAGAGTTAATAAATGAAAATCCTCAGTTACAAATATCTTCACTTGCATATGATTCATTTATTGGAAGATTAGGAATAGGAAGATTATTTAAAGGTGTTTTAAAAGAAGGACAACAAGTAGCTATTTCTAAAAATGATGGAACAATAAATCGTGAAAAAATCTCAGGTTTATTTGTTTATCAAGGATTAAAAAGAGTTCAAGTAAAAGAAGCTCAAGCAGGAGATATTGTTGTTGTTTCAGGAATTAAAGATTTAACAATCGGAGATACAGTTAATAATCCTGATAATATTGACGCTCTTCCTCCGATCATTATTGAAGAACCAACAATGAGTATGAACTTTTTAGTTAATACTTCACCATTTGCAGGAAAAGTAGGAAAATTTGTTACAACTAGAAACATTAAAGAAAGATTAGATAAAGAATTAGAAGTTAATGTTGGATTAAAAGTTGAAAGTTTGACAGATTCAAGTGCTGATGGATTTAAAGTTTTAGGTAGAGGAGAATTGCATTTATCTGTTCTTATCGAAACAATGAGAAGAGAAGGTTTTGAATTAGGAATTTCTAGACCAGAGGTTGTTTTTAAAGTGGATGAAAAAGGAGAAAAACTTGAACCAATCGAAAAAGTAATAGTTGATGTGCCATCAGAATTCTCAGGAACAGTTATTAATAAACTTAATTTAAGAAAAGGAAAAATGCTTGATATGGATTCTGACGGAATTAGAGATAAAGTAACTTATGCAGTACCTACTCGTGGATTAATTGGATTTAAATCTGATTTTACAAATGACACAAGAGGTGAAGGAGTTATGGTTAAGTCTCTAATTGGATATGAACAATACAAAGGACCAATTGAAGGAAGAATCAATGGAGTTTTAGTATCAATGGCAAGTGGAGTTTCTTTACCTTATGCTTTAAATAACTTAGAAGATCGTGGAATTTTATTTATCGGACCACAAGTTCAAGTTTATGATGGAATGATAGTTGGTTTACACTCAAGAGATAATGATTTAGAAGTTAATCCAACTAATGCTAAAAAACTTACTAACACTAGATCTAGTGGTACAGATGATGCTGTAAAACTTACTCCACCAAGAAAATTCACATTAGAAGAAGCTCTTGACTTTATTGAATGAGATGAACTTGTTGAAGTTACGCCAGATGATATTAGATTAAGAAAAAAATGACTTTCAAGTAATGAAAGAAGACAACATAGAAATGATCCTCACTAGGAAAATTTCTATTTTTTTATTTTTTTATAAAAAAAATTCTATTAAAATCAACAAAAAACTTAATATTAGTGGGCATTTAGAGTTATTATAAAGAGGTAAGGAGAGAAAAATATATGTCAAAAATAGTTAGTGTAGTAGCACGTGAAGTATTAGACTCACGTGGATTTCCAACAGTTCAAGTAAATGTTGAAACAGAATTTGGTGGACGTGGATCAGCAAAAGTTCCTTCAGGAGCATCAACTGGTTCAAGAGAAGCTTTAGAATTAAGAGACGGAGATAAAAAACGTTACAATGGTAAAGGGGTTTTAAAAGCCGTTGCCAATGTTAATGATAAATTAGCAGATTTAGTAATAGGTATGGAAGTATTTGATCAAGTAGCTATCGATGCAGCAATGTGTAAATTAGATGGTGATGACTTCAAAAAAAACTTAGGAGCAAATGCAATTTTAGGAGTTTCATTAGCAGTTGCAAAAGCAGCAGCAGATGAATTAGACATTCCTTTATACAGATACATTGGAGGAACAAACGCAAGAAGATTACCAGTTCCAATGTTAAACGTTATTAATGGGGGAGAACATGCAGATAGTGCAATCGACTTCCAAGAATTTATGATTATGCCTGTAGGAGCACCTTCATTTAAAGAAGCTTTAAGATGAGCATCAGAAACATTTCAAGCATTAAAATCTTTATTACATGAAAAAGGAGATATTACTGCAGTTGGAGACGAAGGGGGATTTGCACCTCACTTTAAATGAGCTTATGAACAAGAAACAATTGAAGCATTCAAAGCTAAAACTCCAGTAGAAGTTGCTTTAGACTTATTGGTAGAAGCTATTCAAAAAGCTGGTTATAAAACAGGTCATGAAGGAATTATGATTGCAATGGACTGTGCAAACTCAGAATTATATTTTGAAGATAAAAAATACCACTTCAAAAAAATTGAAAAATTAACAGGTCAAGAATGAGCTATGACAACTAAAGAAATGATTGGATTTTTAGATAAATTGGTTGACAAATACCCAATTATTTCAATAGAAGATGGATTAGCAGAATCGGATTGAGAAGGATTCCAAGAACAAGTTAGTGTAATGGGAGATAGAATTCAAATTGTTGGAGATGACTTATTTGTTACAAACCCAAAAATTACATCTGAAGGTATCGAAAAACATGCAGCAAACTCAGTTTTAATTAAATTCAACCAAATTGGTTCATTAACTGAAACTATCGAAACAATTCAAATGGCTCAAAAAGCTGGATGAACTGCAGTTACTTCACACCGTTCAGGAGAAACAGAAGATGCAACAATTGCAGATTTAGCTGTTGCTTTAAATACTGGACAAATCAAAACAGGATCAATGTCAAGATCTGATAGAATTGCAAAATACAACAGATTATTAGAAATTGAAGCAGAACTTGGAGATGCAGCAATTTATGATGGATATAAATCTTTCTACAACTTAAAAAAATAACAATCTAATTAAACTCTATTTATAGAGTTTTTTTTATGTATAATTTTTTTGAGGTGAAAAAAATGCTTTTTAAAACAAAAAAGAATAATGCTATTTTTTGAGTTTTATCATTTGCATTTTTTTTCACTATATTTACTGCTTTTGCTTTTTTTGATTTCAAAATATCAAAAAGTGTTTTAGATAGTAATGTTAAAAATGATGGTTTTGCAAGTTTTATAATGTATTTTTTTAATATATATGGACATTCTATAATATGTTTTCCAGTTTATTTTTCATTTGCAATTCTTACATTGTTACTTTTTAAAAGAGCAAAAGGAGCTTTAAATAAAGTTTTTTATATTATTATTCAAGTAGTTTATGTTGTAGTTTTTATAATAGCATTATGTTTTTTTAGTTTTTATAAAACTATAGAAGATTGAAATGATAATGCTAATAGAACTCAATATATAATGCAATTAACAATAAGCTCTTTAATAATTGTGTTAGCAATAATAACAATTACTTTAACTTTATTATTTTCACATACAAATAAAATTGTAAAAACAAAACCTGACATTGAAAAAATTGCATTTCAAGCATTACTGTGTTTAATTTATATTTCAATAAGTATGGCGGTTGTATATTTTTTAAAAATAGCTGTTGCAAGACCAAGACCAAGAGAAATATTTGCTACTAAAGATCCTTTAAATGAATTTAAGTATCCATTTGAAATTAGTACAAAAAATAGAAGTGGACAAAGTTTTCCTTCTGGTCATGCTTTATCTTCTACAAGTATGTTTGGTTTTTTATTTTTCTTTGACAAAGAAACTAAGAAAAAAAATATTAAATATATTTTAATGATTATTTTTTCACTTCTTACTTTTTTAACAGATATTTCTAGAGTGTTAATATTAGCACATTTTATCACAGACGTTTTAATGGCAAACTTCTTAGCATGTTGTAGTTATTATTTAGTTAAAGATTGTTTAGCAAAATATCTTTATAAAAAAGATCAAAAAATAAAAAATAAAGATGATTCTGAAATAAAACCTAGGAAAAGTAAAATAAAAAAAGTTGAGGAAAAACAAAATGGCTAAATATGTTGGTTTAGATATTGGTTCAAAAACAATTGGTATAGCAATTAGTGAAGGATTTATTGCAAATTCACATTCAACAATTAGATTTGAAGAAAATGATTTTAAATCTGGCGCACAAAAATTAAAAGATTTTTTAGAAGCAGACGGTTTTGAAAAATTAATAATAGGTTATCCCTTTAATATGAATGGTTCATCTGGGTATCGTATTGAAATGGTTGAAGAATTTATTGAAAACTTAAAATTATTTATAAACATAAATGATAATAATTTAGTAAAAATAGATGAAAGACTAACTTCAAGAATGGCAAAATCAATTATGATTGAAGCTAATTTGAGTCGAAAAAAACAAAAAAGTTCAAAAGATCAATTAGCAGCTCAACTTATTTTAGAAACTTTTTTGAATAATAATAATTAGTATAGAATAAAAATATGGAGGAAAATTAATGCAACACCCACTTGTAAAAGAGATTTTATTAACAGAAGAACAAATCGAAAAGCGTGTTAAAGAACTTGGAGATGAAGTTACAAAATATTATAAATCTCAAGAAGTAAAAGAAAACACTTTAATATTAGTTGGACTATTAAAAGGATGTGTTCCTTTTATGGCTAAACTTATGTCAAAAATTGATTATCAATGCCAAACAGAGTATATGAAAGTCTCATCATATTTTGGAGCAACTCAGTCTAGTGGAAAAGTAAATATCTTACTAGATTTAGGAATCGATATTGAAGGAAAAACAGTATTACTGGTTGAAGATATTATTGATACTGGGCTAACAATACAATATGTAAAAGAATATTTAGAATCAAAAAATCCTAAAGAAGTTAAAGTTATAGCCTTAGTTGATAAACCAGAAGGAAGAAAAGTTGATGTTGAACTTGATTGATGTGGCTTTTCAATTCCAAATAAATTTGTAATTGGTTATGGTCTTGATTATGATGAAAGATTTAGAAATTTACCATATGTAGCAGTTTGTGATACAGATAAATTAGATGATTGAAAATGATAAAAACTTTTTAGTTTTTTTTTTTTTTTTATTTTAATAGTTTATAAAACCTTTTAAATTAACCCTTTTTTACTAAAAAAGTTGTATTTATCTAAATCTATACAAAGAATAGTTATATAATATTTAGTATGGAGGCATAAATATGATTAAAAAAATTGGAGTTTTAACTTCTGGAGGAGATGCTCCAGGAATGAATGCTGCAATTAGTGCAGTTGTAAAATCAGCAATTTCTAAAGGAATTGAACCATATGTTGTAAGAGAAGGATACAAAGGACTAATCAATAAATGAATTGAAAAAGTTGATCTATCTTTTGCTTCTGATATTATCGCAAGAGGTGGTACAGTAATTGGATCTGCTAGATTTCCTGAATTTAAAGAAGAATCTGTTAGAAAAGTTGCAGTTGAAAACTTAAAAGAAATGGGTATTGAAGCATTAGTTGTTATAGGTGGAGATGGTAGTTATCAGGGAGCTGAAAAACTAACAAATCTAGGAATAAATTGTATTGGTTTACCAGGCACTATTGATAATGATATTGTTTCATCGGATTATACTATTGGATTTGATACAGCATTAAACACAGTTGTAAGATCAATTGACCAAATCAGAGATACAATGCAATCACACAGTAGATGTTGTGTGGTCGAAATTATGGGAAATGGTTGTGGTGATTTAACTTTATATGGTTCAATAGCAACGGGAGCTGAAGTATTTTCAACTAAGGAAAGTTTTTTAACAGAAGATCAAATTTGCGAACAAGTAACTATGCTGGCAAAAGCAGGTAGAAGAAGTGTAATAGTTGCTGTTGCAGAACAATTATATGATTCGCATGCTTTAGCAAAAAAAATCGAAAAGGCTTCTGGATATGTAACAAGAGCAACAGTTTTAGGACATATTCAAAGAGGCGGAAGTCCAACTGCAATGGATAGATACTTGGCTATTAATGCAGGAATATTTGCTGTTGAAAAACTAGTAGAAGGTAAAGGTGGACTTTACATAGGAATGAGTGAAAATAAACTTGTGGCTAGAGATATTAACTCAACTTTAAATATGCCAAAACCAGATAAAACTGAAGAGTATGAAAAAACTAAAAAAATTAACTTGTCAATTTAATTAATATTTGCAAAAGAGGAGAAAATTATTATGCAAAAACAAATAGAGTTTTATGAACCTAATCAATTAGAAAAGAAAATTAAAAGAACTAAAATCGTTACAACAATTGGACCAAGTACAAATACTAAAGATGCAATTAGAAAATTATTTGAAAATGGAATGAATGTTGTTAGATTAAACTTCTCACATGGATCTCAAGAAGAACATGAAGCAAAAATAAAAATGGTTTTAGATTTACGAAAAGAAGAACAAAAACCAATTTCTATTTTACTTGATACAAAAGGACCAGAAATTCGTGTTGGAAAAATGAAGGATGGTAAACAAGAAATAAAAGCTGGAAGTGATATTAGAATTTATACTTTAGAAGAAGAATATAAGAACAGAGAATGCGATACAAACGAAATGACTGTATCATATGATATGAGTGTTGATTTAAAAAGTGGAGACACAATTTTAGTTGATGATGGAAAATTAACAATGCATGTTGTAAATGTTGAACCAGGAATTGTTAGTTGTAAAGCATTTAATCATCATATTGTTAAAACAAACAAACGTATTAACTTACCAGGTGTTGACTTTTCATTACCATTCTTAAGTGATAAAGATGTTTCAGATATTCGTTTTGGAGCAAAAAATCAAATTGATTATATCGCAGCTTCTTTTGTAAATACTGCGCAAAATGTTAAAGATATTAGACAAATTTTAAAAGAAGAGAAAAAAGAACATATTCAAATTATTTCAAAAATTGAATCAAAAATCGGAATTTTTAATATTGATGAAATTGTTGATGAAAGTGATGGAATAATGGTTGCAAGAGGGGATTTAGGATTAGAAATTCCTTACTATGAAGTACCTCACTGAGAAAAAGAAATTATTAGAAAATGTCGTGAAAAAGGAAAAATCTGTATTGTTGCAACTCAAATGTTAGAATCAATGACAGACAATCCTCAACCAACTAGAGCGGAAGTAACTGATGTTTATTATGCAACAGAACTTGGAGCAGATGCAACAATGTTAAGTGGAGAATCTGCTGCAGGAATTTATCCTTATATTACAACTCATACAATGGCAACAATTAATAAACGTGCTGAATTGAACTTTTATGGAAAAATCTATTATGATAGAGCGTTAGAAATGGCTCGTAACTCTACAAGTGGAAAAAGAGCAGAAATTGCTGATGAACTTGCGAATATTACTAGAAATGGTAAATATGAATATGCAGTTGTATTATCAAGATCTGGAGAATTATTAAAAACTATTTCTAAATTTAGACCTAATGTTACAATTCTTGGAGTTATTGAAGATGAAAAACTTTGAAATGCATTTGGATGTTGACATTCAATCTTTATGAATAAAGTTGATAAAGTTGATGATGTAATTAACAAACCTGAATTAGCAGCCGAAATTGCTCGTTTATGAGGAGCAAAAAAAGGTGAAGAGATCTTAATTGTTAAATCAGAAGATATAATTAAACATATTGTTTAAAAAAATGGGAGAAATCCCATTTTTTATGTAGAAATGGTTGTTAAATGTTATAATTTTTAATGTAAAACAAAAGGAGAATAAAATGAAAACTTATAACTTAAAAGATAAAGTAAAAAGAACAAAAATCATTACAACTCTAGGACCTTCAGTTCACTCAAAAGGTGCTATTAATGAGTTATATGAAAATGGTATGACAACAATTCGTTTAAACTTCTCACATGCTGACTTTCAAGAACATGGAGAAAGAATAAATTGGTTGAAAGAGTTAAGAGAAGAAATTAACAAGCCAATCTCAATTTTATTAGATACAAAAGGACCAGAAATTCGTGTTGGAAAAATGAAAGACGGAAAACAAGAAATTAAAGCAGGAACAGATTTAACTGTTTATACAGATCCTGAAAGCTTTGCGTTAAGAGAATGTGGACCGACAGAATTACAAATGTCTTATGATATGAGTCAAGATGTTAAAGTTGGAGACGTTGTTTTGATTGATGATGGAAAATTAACAACTCACGTAACTAGTGTTGATAAAGACAAAAAAATTGTTATGTGTAAAGCATTTAATAGACACATTGTAAAAACTAATAAAAGAGTAAACTTACCAGGAGTAGACTTTACTTTACCGTTTTTAGCAGAAAAAGATTATAATGATATCAAATTTGGAATTCGACAAGGCGTTGATTATATTGCAGCTTCTTTTGTAAACTCAGCAGATAATGTTGCAGAAATTAGAAAAATTTTAAAAGAAGAAAACGCAGAACACGTACAAATTATTTCAAAAATTGAATCACAAATTGGAATTGATAATATTGATTCAATAATTGATGCTAGTGATGGGATTATGATTGCTAGAGGGGATTTAGGATTAGAAATTCCTTACTATGAAGTGCCATTCCAAGAAAAAAGAATTATTAGAAAATGTCGCGAAAAAGGAAAATTAGTAGTTGTTGCAACTCAAATGTTAGAATCAATGACAGACAACCCTCAACCAACTAGAGCGGAAGTAACTGATGTTTATTATGCAACAGAACTTGGAGCAGATGCAACAATGTTAAGTGGAGAATCAGCAAATGGAGACTATCCATTTATTACAACTGAAACAATGGCGACAATTAATAAACGTGCAGAAATTGAATTTTATACAAAACTATATTACGAAAAACAATTAGAAAATGCTAGAAAATCAACTAGCGGACAAAGAGCAGATATTGCAAACCAATTAGCTAAAAATACTATGGATGGAAAGTATGAATTTGCAGTTGTTGCTTCTAGAACTGGTGAATTATTAAAAACAATTTCTAAATTTAGACCAAATGTTACAATTCTTGGCGTTAGTGCAGAACCTAAATTATGAACTGCATTTGGAGTTTGACATTCAATCTTTATGAATAGAGTTGATGACTTTGATAAGTTCTTAAATGACGAAAAAGCAATTATTAATATTGCAAAAAGTTGAGGAGCTAAAATAGGTGAAAAAATCTTATTTGTAAGAAATGAAAATATTAAAGAATTAGTAATAGTTTAAAAAATTTGACATATGTCAAATTTTTTTTTATTTACTAAAGTATTTTTATAAATAAGCATTTATTAGAAAATCCCTTATAATAAAAATAAAACTTTTTTTTAAATTTTTATAAAAAATAAAACTTTTTTTATAAAACTCTTGTTATTTTGGAAAAATATTCTATAATTATTGTGAAAGGAATTAAAAATATGTTAAAAATATTACTATGTTGTTCTGCAGGAATGTCAACTAGCATGTTAGTTTCTAAAATGCAATCCGCAGCACGTCGTGAAGGTTTAGAATGTAAAATAGAAGCTATGAGCATAACCGAAGGTAAGCAACAAATAGACAAATGAGATGTAGTTATGTTAGGTCCTCAAGTCGGTTATGGTTTAAAAGAGTTTGAAGGAGTTACAACTAAACCTGTAGCAATTATCCCAGCGCCAATTTACGCTGTTGCAAAAGGTGCAGAAGCAATTCAAATGGCTAAGGACATGGCGAAAAAAGCTGGAATAAGTTTTTAAAAAGTTAAAGTAGTATTTGTGTAAAGTGTATGTTTTTTATTTATTAATTAGCAAAAACTTTTTATTATTAATCTTTTGTTACTACTAGATTAAATTAGGAGGATAAATATGAGTACAGGAAAAAATGCCGAAGCATCAAAATTAAAAGTTTGATTCGGAAAAAAATTTGTTCCTGCAATGAATAAATTAGGATCACAAAAACATTTAGCAGCAATGCGTGATGCTTTTGGTACATTGCTTCCATTGACCATCGCTGGATCACTGGGACTTATTATTGGTTCTATAGGATTTGCCGGAGGGGGTTCTGGTTATGTTTCTGTTTTAGGATTATTTGCTAAAATGATACATCCTGAACTTTCGAATCAAGCAATCACTGACTTCATTCAAAATGATGCGGTGTTTTCAAAAATATGATTAATTGGTACATATACATTTAACCAATTAAACGGAATCACAATAGGATTCACATCAATTTGATTTTCATTTACTTTTGGATATTTCTTATCTATGAGCAGAAACTTCAAATTACCAATTTTAGGAGGATTTGCTTCAACAATTGGATTTATGGCTACAACAATGGGGAACGTTAGTTTCTTCCAAGGTGCAGCTGGATTAATCTCAGCAATTATTTTTGGAGCAATTTCAACAGAAATTTTTATTAAATTGTCTAACGTAAAAGCATTATATATAAAACTACCAGACGGTGTACCACCAAGTGTAAGTAAATCATTTGCAGTTTTCTTACCATTCTTGTTCACAATGTTAATTATGGCATCAATGAATTTAGTGGTATTTATTCCTGCATTTTTTTGACAAGATACATTTAGAGTTAACTCTGCATCACAGTATGCAGCAAGTACCCCAGCAGAATTTGCTAGAATGTTAACAAGTATTTTAGGGTTGGGAGATAATGCCGAAGCTGCTTATAATAAATTTGTAAACGCTGAGTCTACTCCAGCAGCTTTGAAAGATATTAGTCAAGATATGTTTAACAAAATATATGATATAGCACAAAACTTTAAAAATTCTTTAAATGGTAAAGAATTTAAAGATATTACAAATTCAGATATAACTCAAGCTTTTGAAAGTTTAAAAAATCTATATGGAACATTAGGTGAAAGTGACCAAAATATTTTCACAACATTTATATTAACATTAGCTGGTAAAAATGACATATACTCATTTACATCATCAGCCGCTTCACAATTTATTGAATATAATGGAGCTTATGTATTTTTTGCAAAATATAGAGCAGCAAGTATTAATCATGACCAATTCGGACTTGCTGCTGCAGTATATCAATTCTTTGTAACATTCTTATTATCATTTGCTAAAGGATCAGCTGGAGGATTAGGATTAGCATTAGCATATGCATTCTTTATTTCATTCTTATGATTCTTTGGAGTTCACGGATCAAATGTAGTTAATGGTGCATTTTCGCCAATATGGCAAATGATTTTAATTGTTAACTTAACATTAATTTCAGATTTAGGTTATACAGTAGCGGCTAAATCTGGAGAATTGGGAGTATTTTCCACTCCGATATTCGATTGTTTTATGAATATTGGTGGTTCAGGAGCGTCATTAGCTCTAATTATAGGAACGTTTGTGTTCTCGCGAAGACAAGATAATAGGAAAATATCATTATACTCTGCACCTTGTGGTGTATTCCAAATTAACGAACCAATTGTATTTGGTTTCCCAATTGTTTTAAATGGTAGATATTTAGCACCATTTATTATAGCACCAATGGTAAATATCTTCTTAGCATGATTAGCATCTCCAGGTGTGTTGAATATGATTGGTTATGCAGAACTTCAAGTTCCATGAACAACACCATTCTTAATTGCATCACCATTAACATATATTCATACAGCAGGACAAGCGTTTGTTGTAGCATTAGTATGTTTTGGAGCATCATTTGGAATTTATACACCATTCATATTATTAGACAATATTTTACACTTCAAAAAATTAAGAAAAGAAAATATTGAAGAATACAATAGACAAATGAGATTCTTTAATGACCCATACCTTAGAGCAACTATTAAATTAGAAGATAAAGTTGAAAGAATCGTAAGTTATGGTGAATCAGCATTTAGTAATGCAGAAGCACAAAATAGATTCTGAGAACAAAAATTAACAAATCCTGCTAAATTAGAAAGCAGAAAAGCAAAAAACTTAGCTATTGCTGATGCAAAAGTGGCATTTTATGATTACAAAGCAGAAATTGTAAAACAAACTGGTGAAGTAAGAAATAATATGTTACAAGAAGCTTGAGAAAAACCAAGAAGAATTAATGAAGCTAAATTCTTATTAAATGAAAAAGTTTTATCTCATGAAGTAACAGATATTAAAAATGAAAAATTAGCTTTAAAAGATCAAATTAAATCTATCAAAGACGAATTTGTAACAAAAATGCCAGATATTAAATCAAAACAATTAAATGAAAAACAAAAATATATGGAATTAAAACGTCAAAATAATGAAAAACTTAAAGCTAAAAAAGCAGAATTAAAACAACAATTAAAAGATATTAATATGAAATTTAAAGAAAGTAAAATAAAAGCTTAATTTAAATTCTAGATAGAGGTAAAAAATGAAAGATTTTCTATTTAGCGTATCTACTTGTGCATTTCAAATAGAAGGTGCAAGATCGCTAGGTGGTAGAAGTCAATCAATTTGGGATGAGTTTACAAAAAGAAATTTTGTTATACCACCCATCGGAAAGGCTTCAAGAGAAATTAATAGTATTGAAGTTGCAGCAGATTTTTATCATAAATATAAGACTGATGCTAGAATAATGCATAAACTTGGTTTGAATGCATTTGTATACAACATGGATTGAACAAGAATTTATCCAAAAGATGAAAACTATGTTAACCCTGAAGGAATAAAATTTTATATTGATTTCTTTGAAGAATTTAACAAAAAAAATATTAAACCAATCCCTGTCTTATTTCATTGAGACACACCTCTATGAGCAGAGATACGTGGTGGATTTCAAAATAAAGAAATTCAAAACTGATTTAGAAATTATGCTCGAACATGTTTCAAACATCTGGGTAAATATACAGATGTTTGATTTGTTTCTGATGAAAATTCAACTTTTTCAAGAGATGCTTATTTAAGTGATTATTTACCTCCCCAAAAAGTAGGTAAATGAAATTTTGTAAACGCTATTCATAATTTAAATATGATAGCAGCTGTTACAAAAGAAGAATTTGAATTAGCAAAAAAAGAAGGATATATATCTAAAGAAGCAATTATTGGTGTTGATCACGATTGGTCACCACCAATTGCTTTTTCTGAGGATATTGAAGATACAAAAGCATGTGAAAGATATAATGAGTGAAATTTAGAATTATATTTATCACCAAGTATAAAAGGAGTTTATCCTAAAGTGTTTTTTGAATATATTAAAAAAAATAACTTAAACTTTGTAATTGACAACTTAGATTTAGAATATCTTAAAAAAAATAAACTTGATTTAATTGGATGAAATTATTATCGACCTGTATTTATTGCTCATAGTGTTAAAAAATATAAAGATGAAGATTGACATATTCCACCTCAGTATGATGAAGAACTTGATATTTATTATGTATTTCCAAAAAAACAAAAATATACAAAATGAAACTGACTAATAAATCCAGATAGAATTATTACTGGTTCTCAAGAATTATGTAAAATTTATGGCGCAAGTACCCCACTTATGATTTTAGAAAATGGTATGGGAGATTTTGACAATAAAAGCGAAGAAATGATTATAGATAATGACAGAATTAATTATTTATCTATTCATTTACAAAAAGTTTTAGAAGCAAAAAAATTAGGTATAAATTTTATTGGCTACTCTTTATGAACATACTGTGATATATATTCACCAAGTGGTGGGTATAGAAAAGATTATGGTTTAGTTAGTGTTGATTTTAATTCTACAATTAGAGAAAGAAAGCCAAAACTTAGTTATGCATGATATAAAAAAGTTATTGAAAATAAAGGCAACGAAGTTTTTTTTGATATAGATACTTTAAAAAAAGAATTAAAAATTATTTTAGATGAATGAGATTTATTTTTTAAATAAATTCTATAGTTATTGTTTTTAAAAAATAATAAACTATATAGTAAAATATAAATAGTTAGGAATAAGATTATGCAGTTTTTAAAAATTTTTGATGCAGTACCACCAGCAACTCCATTACAATGAGTTTTTATAATTCTAGCAATAATATTTATTGTTGGTCCTGGATTTGTTTGAGTAGGTTTATCATTTTATAGTAAATCAAAAAGAAGGCCTATTCCACGTTTACATTTAATAATGTTTGGTGTACAGATTTTAGGAATTCTTATAGGAATATTGTTAATTGTTTTTGGAGCAATGGCTACAGCCAAATCTTAATGGAGAGTTATGAAAAAATTTGATTTAAAAGATAAAGTTCTAATTAAGAGTGGTGAAGATTATTATAAATTAAAAGATGAATTTGAAAAATTAGAACAAGAATTTGAAAAAAAAGTTTATTCTTCTATGATGGATGAGACAAAAAGAATTCAAATGATAATCAAAAAAGCAGTTATTAAGGCTCCTGTGGATGAAGTGTTTAAAGCATTTGTAAAATTAGCTTTAAAAGATTTAAATCCGAATATAGATATAAACGAAATTGAAGAAGGGTGTTTTGGAATAACTTCAAAAAAAAGTAGCAATCAAACTTTTAGAGTAGATACTTACGAAATTGATGAAGAATTCACAATTAAGTACTTTGGTAAAAATAATGCATATATAAGATCTATTTTATTCAAAGGCGTAAAAAACAAAACTAAAATAAAATATACTGATACAAATATTAGCAAGGAAACTATATTCGGTTTAAAATTGAACTACTTAAAAGGAGTTTATCAAAAATCTAGGAAGTTTAGTTTTGCAATACAAGTTATAAATTTAAAATTATTGGTGGAAATCTTAGATGAAACTAAAAAAAATAAATATAAAGAAAAAATTAAAGAATTAACTAAAAAGTTAATTAAATATCAAGAATAAAAAAACATTCTTTTAGGAATGTTTTTTTTATTACATTTTAATATATAATTATTTTGTTAAATTAAAGAAATAGAAGGACAATATATGAAAATCATATTATTAGATGGACAAGTAAAAAATTATGAGCAACCAAAATCTGTGTTAGACATAGCAGGAGATATTGCTATTAGTTTAAAAAAGAAATGTGTCGGGGCTATTATAAATGATAAAGATGTTTTAACAAATACCGCGCTTATAGATAAAGATTGTAAATTAGAATTAATTACTGATAGACATGACTTGTATAAGTCTGTTATAAACTATACCGCAAGAATAATAACAGTTTTTGCTTTAAAACAAATATATCCAGATGCAGAAATTGTTCCGCAAAGTGATGATCTTTCAAATGATGAGTTTTCTGTTTATTTCGATTATCCAAAGGGAATGAAATTTGAAGAACTAAAATCAGTTGAAGAGAAGGCAAATAAAATGATTGCTGAAAAAACAGATTTTGTTTTTGGAAAATATAGCGAAGAAGAATTCCCAGAGTTAATTAGAAAAATTAATATTAAAAAAGAATATCAAGATTATGTTAAAAAAGAATGTGAATCTAGATATATCAAATATGAAATAGGAAATTATAAAGATGATTTATTTTTTGCAAGACATGCACTTTTAAAAAATACAGGAAGTCTTTTTAAAATTGAGTTAACTCAATTAACAGGAGCATATTTCTTAGGAGATTCTTCAAAACCAATGATTTATAAATTACATGGTTTAGCAGCACAAAGTAAAGAAGATTTTGAAGTTTTAAAAACCAGATATGAAGATCAAAGAAATAATGATCATAAATTTATAGCAAAGAATTTAGAAATATATCATTTAGATCCAATTATTGGTCAAGGATTACCAATATGATTACCTAATGGAACAATCTTGAAACAAGAAATTAAAAAATATTTAATGCAAAAAGAATTTGAATATGACTTTATACAAATTGAAACTCCAGTTATTGGAACTTCAGATTTATATAAAAGAAGTGGTCATTGAGACCATTATCGTGAAGATATGTTTTCACCAATGCAACTACCAAAAGAAGAAATGGTTTTAAAACCAATGTCATGTCCACATCACATTAGTGTTTATAATTATAAACAAAGAAGTTATCGTGAATTACCATTGAGATTTGCAGAACATGCTTTGCAACATAGATATGAATCATCAGGAAGTTTAACAGGTCTTGAAAGAGTTAGAGCAATGGAATTAACTGACTCACATATTTTTGTAAGACCAGATCAAGTTAAAGAAGAGTTTATTCGTTGTTTTAATCTTATTCAAGAAGTTTTATCAACATTCGATATAAAAATTGATTATCTTTCACTTTCGTTAAGAGACCCTAATGATAAACATAAGTATTTTAATGATGATAAAATGTGAAACGAAGCCGAAGAACAACTTGAACAAGTGTTAAAAGAATTAAAATTAGATTATAAAAAAATGATAGGTGAAGCTGCTTTTTATGGACCTAAATTAGACATTCAAGCAAAAACTGCTTTAGGACATGAAATAACAGTTTCAACAATTCAATTAGATTTCTTATTGCCTCAAAAATTTGAATTAGCTTATGTTGGACCAAATAGGGAATTATTAAGACCAATTATGATTCATAGAGGATTAGTAGGAACTTATGAAAGATTTATTTCTGTTTTATTAGAACAAACTAAGGGAGTTTTACCATTATGATGTACTCCAAGACAAGTTGAAATTATTCCTGTTCAAAATAACGGAAATAATGAATATTCAGAAAAAATAAGAAAAGAATTAAAAAAACACGGAATAAGAGCTGAAATTGATAAAAGAGATGAAAGATTAAGTTATCGTGTAAGAGATGCTCAAATTAGAAAAATACCATTCCAATTAGTTTTAGGAGAAAAAGAAGAAAAAGAAAACTTAATTACTTATAGAAAATATAGTAGTGAAGAATCAGTAACTATAAAACTCGAAGATTTTATCAAATTGTTAAAACAAATTATTGATGATAAAGTTTATGTATAAAAATTATAAAAATAGCTTTTGCTATTTTTATTTTATTTATAAAAATAAATAGTTTTTGTTAATATATAAATAACAAAATTGATATGAATAGTAAAGAGGATAATATGGCTAGAAGAAAAAAAGAAAAATATATAACTGATAAAAATTTTACTTTTAAAAAAATGTTTGCTGCTTTAATAATGGTTGGTGGAGGCATCAAAAGACACCCAATAGTTTTTAGCTTTTGTACTATTTTTACAGTAATTGATGCAATTGCTTGATCTTTTTCTGCTGTTGTTATCAAAGGTTTAACAACAATTTTATTAGATCCTACTAAAACCACCGAAACTTCAAGTTTATATGGTTGAGTTGAGTTAACATGACAACAATGAATTTATTTTGGAATAGGAATGTTTTTCTTGTTTGTTGTAGCAGAGTTTTTAACAAATATAACTGCAGGAATATTTTCAAAAAAACTTGAAATAGATTTAAGAAAAGCTGCTTTAAAACATTTAGTAGATATTGACATTAGTTATTATTCTAGAAATCAAATTGGTTTGATAATGACTAGAGTAATTGGTGATAGTCAAGGAATTGGTGATGCTTTTAATATGTTTTATTTAACATTTATTTGAATGTTAGGTAGTGTATTTTCAACAATTGCAATCATGTTGAGTATTGATACAACTCTTGCTTGAATCGCAATTGGTTTATTAGTTGTTATGCTTATTATAATTTGTATTATGTTTCTTTATTTTAGAAGAGCAAATGTTATCGCTTTTGATGTAAGACAAAATATAGATGCAGATATAATTGATAGATTAATAAATATTAGATTAGTTAAATCAACTGGTTCAGAAAATTTTGAATCAAATCGTAATAAAGAGCTGCATAAAAAGTATGAAGAAAGAAAAAATCATGCTGTTGTTTGACAGGGTGCATTAAATGTTTTTAATGGGGTTATGATCTCCTTACTTCCTATAATTATGTTAATTATTTGTATTTATTTATATCAAGGAAAAATGCCAATAAAAGAATTTTCTAGTTTAACAGTTACATTTATAAGTGCAAGTACAAACTTTTTAATTAATTTATCTGTATTAACTCAAATCTTGCGTGGAATGATGTGAATGTCAAACTGTGCTATGCGATTAAATTATATATTTGACGAAAAAACTATTATTCATTTTATTGATGATCCAGTAAAAATAAAAACAATTGAAACAATTGAGTTTAAAAATGTAAGTTTTAATTACCCTGAATCTCCGCATGTAAAAGTTTTACCAACCATAAATATCTCTTTTGAAAAAGGAAAAAGCTATGCGTTTGTTGGAGAAACAGGAGTTGGAAAATCTACAATCGCAAAAATGCTTTTAAGATTTTATGATGTTACAACGGGTGAGTTATTAATAAACGGAATAAATATAAAAAATCTTGATTTAGCAAATTATTTATCTCATGTTGGATATGTTGAACAAGAACCTCAAATTTTATACGGAACAGTTATGGATAATTTAAAATATAGTTTGGGATGAGAAGCGACTCACGAAAAAGCAATCGAAGCGTCTAAAAAAGCAAAGCTACACGACTTCATTGAAACCTTACCTGATAAATATGATACAATACTAGGGGAACGTGGTTTTATGTTTTCTGGAGGTCAAAAACAAAGATTGATTATTGCAAGATTGTTTTTAAAAAATCCTGAGTTACTAATATTAGATGAAGCAACTAGCGCTTTGGATAATATTGTAGAAAAAGAAATACAATCAGAATTAGATGAATTGATGAAAAATAGAACAACAATTGTTATTGCGCATAGATTATCAACAATAAAAAATGTTGATAAAGTAATCGTATTAGAAAGAAACGAAGGAATAACACAAATTGGAAGCTTTGACGAATTAAAAGTAACACCAGGAAGATTTCAAAAACTATATAATTATGGATTACTAAAATAAAATGAATGAGGTATTATTATGGCAACAGATTTAAATTGAGAAGAAATATCAATGGGTATAATTACTTATGCTGGAATGGCAAAAACAAATGCAGTTTTAGCAATCAGAGAAGCAAAAGAAAAAAATTATGATAAAGCAAGTGAATTAATTAAAGAAGCTCACGATAATATTGTAACTGCTGAAAAAATGCATATGGATGTTATTACAGCAGAATGTAATGGTGAAAAAATTGAGTTTAAAGTTTTATTTATGCATGCAGAAGATCAAATGTTAACAACTCAATCTATGATTGTTTTAGCAGAAGAAATGATTGATATGTATAAAGTTATCAATAAATAGTTAAAAATGTCTTATGACATTTTTTTATTTGCTAATTTATATATTTAAATTATTGATAAAATTATATTAGAAGTGAGGAAAGATATGAAAAAAAGAATAGGAATATCAATTTTTCCTGAACAGTCAAGTTTTGAAGAAGACCAAAAATATTTGGATAAAGCTTGAAGTTTAGGTTATGAAGTTGTTTTTACAAGTATTTTACATTTTGTAGGTAGTGAAAACGAGAAAGAAAAAGCAAAAAAAGTTTTAAGAGTTGTTAAGTATGCAAAAGAATTGGGATTTTATACAATTGTTGATGTTGAATATAAATCAATGGATTTGATTGGAATTTCAATAAATGATGCATCTAAATGTAATGAGTATGGAATTGATTGTTTAAGATTGGATTCTCCAAGTTTACCAGCTGAAATTGCATTTGTTACACATAACAAAGCAAAAGTAGATATTCAATTAAATATGTCAAATAATGATAGCTTGATAGATAATGTAATGGATTTTAAACCAATTGCAAATAGATTGAGTGGATGTCATAACTTCTATCCATTAGAATTTACAGGACTTCCATTTGATTATTTTATGGAATGTAATAAACGCTATTTAAAATATCGGTTAAACACTTCTGCTTTTATTGGAAGTCATCACGGAGTTATGACAAGTGCAGTTGGACAAAAAGAGTTACCAACAATTGAAGAAATAAGATATTTACCAGTTAGTCAACAAGCAAAAGTTTTATTTTATACAGATGAAATTGATACAGTCTTATTTGGAAATGCATATGCAACAGATGAAGAATTAAAAGAATTAGCATCAGTTGATAGAGATGAAGTTACTTTTGACTTAAAATGTGTTGAAGGTGTTACAGATATTGAAAAACAAGTTTTATTATTTGATCACTATCGTAGAGGTGATATTACAGAATATTTTATAAGAGCAACACAAAGTAGGGTTAAATTTAAAAATGATGATTTTCCAGCTAGAAAATCTAAAAGTTTTTATAATCGAGGAGATGTTGTAATTATAAATAACAGTGATAAAAAATATAAAGCTGAAATTCATATTATATTAGAAGATAACTTTGCAGATAAAATTGGAAAGTATAATTATCTAGGAACTATTAGTGAGTCTGAAAAAAGGTTAATAGATTTTGTGGTTCCTTGAAAACAATTTAGATTTAATTTGGTTTAATATTTAACATATAAATATTTAATTTATTATAAAAAATTAAAAAACTAATATAAAATAAAAATGAAGATAAATTTCAAAAAGGAGATTGACATTATAATTATATAAATTGTTGATTTCTTTTTTTTATGAAGTATATTTATTTTCACGGAGGAATATTAAATGAAAAAATTACTTTCTATATTGGGTGCTGCAGCTATTTTGGGTTCATCTGCGTCAAATGTTGTTGCTTGTAATAGCGATGATGAACTAAGTGTTGTATTTATACCATCAAATAATGCAACAGAAATAATTAACACAGTTAAACCATTAGAAGATAAACTATCAGCTAAATTAAAAGAAAAAGCAGAAGCTGATGGAAGAACTTTTTCTAAAAAAGTAAAAGTTTCAGTTTCAACTAGTTATGAAGTTGCTGGAAATGAATTAAGTGATGGTACAATTGATGTTGCATTTTTACCAATTGGAACTTATGAATCAATTAGAGGTACTTTGGATCAATCAACTGGATTATATAGTAATGCCGCGGTATTACTTAACGCTTCAAGAAGTGGTGTAACCCCAGATACAACTCTAAAGGAATTTAAAACAAATGATAAATTTGATAGCTCAAAAGCTTCAAAAGTTATGGATGCAAATTTATCATATGATTTGTCAAATAATTATAATAATATAACAAAAAATGGATTTTCAACTAAAAAAGAAGCACAAGAAAAATTACTAGATGACAGTAATAAAGCATCTTATTACAGATCATATATTTATGCAAATGTTAAATCATTAAGTGATAAATATAAAATTGATTTTTCTAAGGTTGCAAAAGAAGAATATGTAACAAAATTAAAAGACATATTTACAAATGAAAATAATTTTACAGGAGAAAACGCATTGAAATTTGCTTTTGGAAAATCAAAAACTTCAAGTGCAAGTGCTTTATATCCAATCATGTGATTAAAAAATGTTATCGGTTTAAATGATACTCAAGTAAAAAAACTTTGAGATTTAAAAACTAGACAAGAATCTTATCCTGAAGCAGCTTCAAAATTAAACTCTCAATCATTTGATTTTGCAGTTGGATACAGTGATATAAGAAATGAAATTAGCAATGAAAGTGAATCGCTTGAAGCATTCAAAAATACAGTTGTAGTAGGAGCAAGTGATGCAATTTTAAATGATGGAATTCAATACTCTCGTAAAAAATTAAAAGATGAAAAATTAATAAGTGATTTAAGAAAATCTTTTGAAGAATTAGCAATTTCTGAAGCAGATATTTTTAAAATTTATAATCACACAGGTTATGTTGGACCAGACGAAGGAAGCGTTACTGATTTTGAAAAAAGTACAGACTCTGCAATAACAAATTGATCTAAAACAACATCTGAAATCTTAAAAATGATCGAAAACTGATCTTAATATAAAAAAATGTGAGAGTTATCTCACATTTTTAAAGTAGAAGCATGATTAAATTCGATAATGTAAATAAAGTGTGACCAAACGGTAAACACGCTTTAAAAAATATAAATTTAGAGATTGAAGATGGAGAGTTTGTTGCAATAATTGGATTATCTGGAGCTGGAAAAACAACATTATTAAAAACTATAAATCAAATTAACACTATTACTAGCGGAGAAATTATAATAGATTTTTATAATAAATATGAAAAAAAAGAAGAGTTTAATGTACACAAAATCAAAGGAAAAAAATTAATTAGATTAAGACAAAAAATTGGATTGATGTCTCAAGAATATAATAATATCGAAAAATTAAGTGTTTTAAAAAATGTTTTAAACGCAAGAATATCAAGAATTAATTTTTGAAGATCTTTAACGGGTATATTTTCTAGATATGATAAAGAAATAGCGTTAAAATCATTAGAAAAATTAAATTTATTAGAATATGCTTATGCAAGAGTTGAAAACTTAAGCGGGGGACAACAACAAAGAATTGCCTTAGCAAGAACGATAAGTCAGCATCCTGCATTAATAATTGCTGATGAACCTGTCTCTGCTTTGGACCCAATTTTAGCAAATCAAGTAATGAATGATTTTGCTTTAATAAATAAAACAGATAAAATAACTGTTATTATAAATATTCACCATGTGGAACTTGCAAAAAAATATGCAACTAGAATAATTGGTGTTAAAGATGGAGAAATAGTTTTTAATGGACCATCAAAAGATTTAAATGAGGAAAAACTTAAATTAATTTATGGAGAAAATTATTAGTTATGCAAAAAAGAATATTTAATGCAATTATTTCTAAAGATGTTTTTAAGATCAATAATAGTTATTCAAAAGCACCAAAAAAAGTCTTTTTCTATACTTTTTTTTGTGTAGTTATTTGTTTAATTATTTTTGGATTTAATTTTTTAGATATTAATTGAGCTAAATTTTTTAATAGTTTTTCTTTGTTCGGTGAAAAGTTAAAAAAATTAGTAAATTGAGACTTTAAAAATTTTCTAGAAAAAGATAATATGGGAATTTCTTTTATGAATAGTGCTTTAAAGTCGATTTGAGAAACAATCTCAATGGCTTTTGCAGGTTCAATATTGGGGGTACTGATTTCAATCCCTTTTTCAATAGCAGCAGCATCTAACATTGTGAAAAATAAATTTATTAATAATTTTTCAAGATTTATTATTGCTATTTTTAGAACTATTCCATCTTTCACTTATGCTTTAATTCTGGTTGGATATTTTGGTCAAACAATGGCAACGGTAACAATAGCAATAACAATTTTTAGTTTTTCAATCACATCAAAGTTTTTGTTTGAAAGAATTGAACACATTAATATAAACATATTTATTTCAATGCAAGCTACAGGAGCTAATAAATTTAGATCATTTAGATCCGCAGTTGTTCCACAAATCTCATCACATATTATTTCTGCAGCATTTTATGCTTTAGAAACTAATATAAGATATATTTCAGTTATCGCTGGAGTGACGGGTGTTGGAATAGGTCAACTTATAAATAATGGTGTTTCATATGGTCGTTACGATAAAGTTGGATTTATGCTTGCCTTATTAATAGTTATTATAATTTTTTTAGAAATACTGATTTACATAATTAAAAACTATATTATTTTTGATAGAGATTATTTACTAGATCAAAAAGAACAAAAAAAAGCTATCAAAATACAAAATGCTATAAAAAAAGAAAATAACTTAAGATTTTATATAAAATATATTCTGTTAAAAGAATGAAACTCAGAATTGAGTATTTTAAAAGCAAATAAAAAAACAAATTTACAACAACTTCGTGAAAAAAAAATAGAAAAAAATAAAATAATAAATAAGTTTAAAGAAGAATATAAAAAAAATATTTTAAAAGACAAACAAAAATTTGTAGAATATAGGAAAGTTCATTTAAACTCAAGAAATTGGTTTATCTTCAATGAAGAATTAAACAATTATGTTAGAATGGACAAAATTTATATAACAAAAATTAATTTGGAAGTATTAAATTTAAAAGAAAAAATGATAAGTGAAATAAAAGACACTGCATTTTCAAAACATCAAGAATTTAAAAAAACTTTAACAGTTGAAAAAGTATTAAAACAAAAACCTTTATTTTTTATAAAAAGAATGGTTATGTATTTATTGATACTTGGTTTATTTGCATATTCTATTTCCTTAGTAAAATTTAGATTAGAAAATGATGCAACTATTGCATCTACGAATCAACATATTAAAGAAATATTTAATATTGATTGAACTGGTTTGTTTAAAAAACACGGTAACGCACCATACAGTGTAATCTATTTATTAATAGAAGGAATATCTATATCAATCATTGGTACTACACTAGGAGCAATTTTTGCTTATATTTTTGGAGTTATAAGTTCTGAAAATATTGTTAACTTTTATGTAGCTAAGTTCTTTGTAGTAATTAATTCAGCAATAAGAGCAATTCCTTCTTATATTTATGCCATTATTTTTATTTCGTTAGTAGGTATGGGACCTTTTACAGGAGCTCTTGCTTTAATGATGGGGTCAATTGGAATGTTATCAAAATATGATCGTGAAATCTTTGATGATATAAATATGAAATTAATTTCACAATTACAAGCTACAGGATTGAACAAATGGCAACGTATTAAGTATGGTATTTTACCACAGTCAACTAGTAGTATAGTTTCTTATATTGCATATCGTTTTGATATAAACTTTAAAGAAGTATCTGTTTTAGGTGCTGTTGGAGCAAGTAACATGGGATACTTACTAAATAGTTATTTTTTACAACAATATTTTTCAGAGTTTGGAACTTTACTGTTAGGAATTATGTTAGTGACAATTTTAATCGAAATTATTTCTTCAACCTTAAGAGCAAAAATTAACTTAGGTGTTAACCCTAAATGAGTTGATCAAATAATTTTATGAATTAAACATCATTGATTTGCATTATATAAAGCAAATGAAAAATTAAAATTTAAAGAAAATAATTTAAGCTTTGATGAAGCATATGCTTTTTATGGATATACAAATAAAACTATTTGTCAAAATGCAAAAGAAATTAAAAAGACAAAAAAATTATCTTATAAAGTATCTTGATTGATCTCTTATTGTAATTATTTTGATATTGAATTTAAAAATGAAAATTTCAAAGACTTAAAAATGCTTTATAAAAAACACAATGAACTTTTGAAAGTTAATGTTAATGAATTTAAAAAAAGCAGAAAAGAAAAAATTAAGTTTTTGATAAGTAAAAAAACTGAAGATAAACAAAAATTAAAAACTTATTATAGTAGTGAAATTAATAAACTAGAAACTAATTATCAAAAAAAAGAATTTAAAAAAGAATTTAGAAAGAATAAAAACTATATTAATCGTAATACAAAAATTGCAATTAATAGTTTGAATTATTAGGTGAAAAAATGTTTACAAAATTAATTGAATTAATATCTTCTCATAATAAAATAATTCTTTTGCGACACATTTCTCCAGACTTTGATGCAATTGGTTCTCAAATGAGTATCTTTCAGTTTATTAATGATAATTTTAAAAATAAAACTATAAAGTTAGGAACAACTCTACCAGAAGAATATAAATGTATAGGCAAAGTTGACAATTTAGTTGAACAAGATTTTGAAAAAGCATTAGTTATTATAACAGATACAGCAAATACAGCTAGAATTGATATAGAAGATGTAAATTGACTAAAAAAAGCAACAGTATTTAAAATTGATCATCACGTAAATGTAGATAAATATGCAGATTATGAAATAGTTGATGCGTCATATCCTGCTACATGTGAGCTATTAACAGATTTATTTTCGAAATCTAACTTAATTTTTTCTGATAAGACTGCTTTTTATTTGTTTCATGGTCTTGTAACTGATACTGATAGATTTATGTTTAGAAATGTTACTAATAGAACTTTTAAAATGGCAGAAATATTGTCTAAAAAAATTGAAGATTTAAACTCTATTTATAAAAATATTTATCAAATTAATACAAATGAAATTAGATTAAAAGGATATATTCTTTCTAATTTTAAAATAGTTAAAAATGAAATAGCATATATTTATTTAAACAAAGAAGTTTTGAAAGAGTATGAAATTAATAACCCAGATAAAGTTGCGTTATGAGTAAATATGCTAGGAGAAATTAAAAACATAAAATTATGATTATTTTTTGTTGAGAATGATTCTCACATAAGAACAGAATTTAGAAGTCAGTCAATAAATGTTAGATTAATTGCAGAAAAATTCAATGGTGGAGGTCATGTAAGCGCAAGCGGTGCTAAACTATTTGATAGTAAAAGTATTGATTTAGTTATTGAAGAGTGCATAAAAGCATCTATATAACTTTAGATTAAAAACAAGTGTTATATCACTTGTTTTTAGTTTACTTAATTTTTAACAAAAAAACTTTCTAATATTTGTAGTTATTTTTAAGAACCAACATAAAATACATTATATTTTTATTATTTCGTAAAACAAATAATAATTATTTAATTTTAAAACATAGATATATTTTAATTATAATAATATTTGACATATAGAATTGAGGAACATTAAATTGAGTTTATTTGTACAAAAAATTACTAATATCTTAAATAAAATAATCATAGAAAATAATTTAAAAGGCGAAATAATTATCGAAAGCTCAAAAGACGAAAATAAAGGAGATTTTTCAACAAATTTTGCCTTGATAAATTCGAAATTAAATGAAAAAAAACCTAGAGAGCTTGCAGGCGTTTTAATAGCAAGTTTAAGTAGAGAAAGTTTATTTGATAAAGTTGAAATAGCTGGACCAGGATTTATTAATATGACAATTAATAAAGAAAGTTTAGGTGAAGTTATTTTAAAAGTTCTAAAAGAAAAAGATCAATATGGTAAATCAAGGGTTAAAAATTTAAAATATAATCTAGAATTAGTTTCTGCAAATCCAACTGGATATCTTCATATAGGACATGCAAGAAACGGAGCAATTGGTGATAGTGTTGCAAGAATTTTAAAGTTTGCTGGATACGAAATAGAAACAGAATATTATACAAATGATGCTGGAAATCAAATTAATATTAGTGCGTCAACTTTGTTTTATCATTATAAAAACTTATTAAATGAACCTGTAAATCAACCAACAGAAATGTATGGTGGGGATATGTATATTGAGGTTGCTAAATTATTTTTAGAAAAATTTGGTGACAAATTTAAAAATGCAAATATAAATGAAGATAATAAAATAGATGATCCTGAAATTCATAACATATTTAGAAGTGAATCAATTAGTTTTTTTATGAAAATAATAAAACAACAACTAAAAGATTTTGGTGTAGAAGTTGATTTATATACAAGTGAAGCAAAAATGTATGAAACACATGAAATCGAAAAAACATTAGATTTATATGAAAAATTGGGAAAGACATACACTAATGATAATGCTTTATGATTGAAAACAACCGAATTTGGCGACGATAAAGATAGAGTTTTAAAAAAATCAAATGGTGATTACACCTATATAACTCCTGACTTAGCAAGTCATAATTCAAGATTTAAAAGAAGTAAGGCAGATTTGTATGTTAATTTTTGAGGTGGAGATCATCATGGTTATATTAATCGTATGAATGCAGGCTTAGCATTATTAGGATACCCATTAGGAATTTTAAAAATAGATATGATTCAAATGGTAAGATTAATAAAAGATGGAACAGAATTAAAAATGTCAAAACGTAAAGGTACAGCAATTTGACTTATTGATTTACTTGAAATGGTAGGAAAAGATTCAATAAGATATATGCTAGTATCTAAAAATCCATCAAGTCATATGGATTTTGATTTAGATGTTGTTTTGAAAAAAAATAGCACAAACCCAGTTTATTATGCACAATATGCAACTGCAAGAGCTTATAAAATTATTCAAAAAGCTAATGATTTAAATTGAGATTTAAATAACTCTAATTTTAATTTATTATCAACTCAAAAAGAAAAAGAAATAATTTTATTGCTTGATGCTTTTAATAAAACTGTAGAATATAGCGCAAACAATCGTTTACCTAGTGTGATTTGTGATTACATTCAAAATTTAGCAAAAAGGTTTCACTCATATTATTCTGATTTTAAAGTAATTGATGAAGAGAATGTTGATTTAAGTACTCAACGTTGTCAATTAGTTAAAGCAATATATCAAGTATTATCAAATTGCTTTGATTTAATTGGAATTGATGTTATAAATTCTATGTAAAAATAATAAAAAAAACATAAATATATAAAATATTGATATATAATTATTTTGTTTAAAAAGAAGAAGCACATGCTCACCACAACTTTTAGGAAGTGGTAATAAACTATTTATTATTCTTAAATCTAAGAAAATTTAAATAATTTTGAGTGTGTCGTTAATCTTTTTTAAGGACACACTTTTATTTTGGAGGAACAATGGCAGAAAATAACAAAAGCGCAAAAACAGAATTTGTTAATAAAGAAATTAGAGCAAGACAAGTGCTTGTAATCAATGAAGATGGTACTAAACTAGGACCTATTAATAAATTTGAAGCAATTAAAATGGCAGAAGAACAAGGATTAGATTTATTTCAAGTAGGGATGCAAGACAATCAAACTGCTATTGCAAAAATCTTAGACTTTGGTAAATACAAATACGAGCAAAAAAGAAAACAACGTGAAAATAAAAAAAACCAAGTTAAAGTTGAAAATAAAGAAATTAGACTTACAGTTGGAATTGGCGATCACGATATGGATACCAAAGCTAGAAAAGCAAGAGAATTTTTAGAAGAAGGCGACAGAGTTAAAATCTCATTGAAATTCAAGGGTAGAGAAATAGCTTATCAAGAGTTCGGGAAACAAACTTTAGACAAGTTTTTTGAAAAAATAGAAGATATTGCAAAAGTTGAAAAAGAAGCAAAACTAAATACAAGATTTTTAGATATGTATGTGGTTCCTAAAAAAGGTTAATTAAATAGAAGGAGAATAGCTATGCCAAAAATGAAAACAAAAAGCGCTCTAGCAAAAAGAGTGAAAAAGAATGGTACAGGTAAACTAAAAAGAGGTCACGCTTATAGATCTCACTTAGCACAAAACAAATCAACTAAACAAAAAAGACATCTTAAAAAAGCATCATTTATATCAGCAGGTGATATGAAACGTCTAAAAGGATTATTACAAAACTAAAAGGTAGGTAGAAAAGTATGGCAAGAATTAAATTTGGAAAAGTAACCAGAGCAAGAAGAAAACGTTGAATTAAAAGAGCAAAAGGATACTACGGAACTAAAAAAGCAAACTATAAAAAAGCTCATGAACAAGTAGTAAGATCAATGCATTATGCATTTGTTGGAAGAAAACTTAAAAAACGTGACTTTAGAAAATTATGAATTGTGCGTATCAACGCTGCTGTTAGACCTTTAGGATTAAGTTATTCAAAATTTATGAACGGAATAAAATTAGCTGGAATTGATATTAACAGAAAAATGCTATCTGAGTTAGCTATTCATGAACCTCAACAATTTGCAAATATTGTTGAAGCATCAAAAAAAGCTTTAAGTGCTAAAAAATAAAGATAAAATAATAAACAGATTTTAGAGCACAACTCATAAATCTGTTTTTTTGTTATTCATAAAGAAGGAGAATCAATATGGCAAAGTTTAATAATGGTGTTATTGATTTTGATAAAGAAGATATTGAAGCAGCTTGAGAAAATGCTCCACATCTTGTTAATAAAGAAAAAGAAGAATACAGAATGTGCTATATTTGTAAATTCCATATGCTTAAAGAGAATTTTGACAAAGATAAGTTGAGTACTTATGGATGAATTGTTGATCTAATAAATTTGAAAAAATTAGATTTAGATCATAAAAATTTTATAGCTATCCATCCATGATGTATGGAATATAAAAAAGGCTTAGATAATAGATCATTATTAAAAAAAGTAAAAGCTCAATTATGAGCGTTTAATGATAGTAAGGAATAATTTAAAAATGACGAGTGAATATAAAAAAATAATTAAGTAAATAACTAAAAATTGACTTAATTTATTCGAAAGAAATGAAAAAATGAATAAAATAGTAAGAAAATATTGATTTAGTATTTTTTTGTGTTTAATTTTAAAAGTTATAGGTGATATTGTTTTTATATCTTCTAGTTATTTTTTATCTAAAATAGTTAATCAGATTATAAATGAAAATAAGCATTTTTTAGATTTGTGATTTTTAGTGCTGCTAACAGCGATAGGAAACATTTCCGGAATAGTTCTAGAATATTTTAGTAATTTGATAGCAACAAAATTATCTTATAAATTAAAAATGAAACTTATAGAAATTGTTGCTTTAAAAATTAATTCTTTATCAGATTTAGAATATGAAAAATATAAAAAAGGTGAGTATTTATCTTGATTTAAAAATGATGTTCCGAATGTATATTATGCAATAAGTGCAAAATTAATATTTCTATGATCGGATTTAATATTATGTACTATTTCTCTTATATTAATTTATATTTTTGTAAGTTACATATTACTTTTGTTAACTTTAATAGGAGGAGTTTTAATTTTATTAGTTCCTATATTTTTGGGTAATATAAAATCAAAAATACAATCAAAGCTATCAAAAGAACAAGGTGTATTTACGCAAGGAATAGAAAAATATTATAAATGGATATACTGAATTTTCTTTTAGAAATAAAAAAAGTTTGTTTAAAAAATTAATTACAAATTATTCTATTAGAATAGAAAAATATAAGTTAAAAAAATAGAATAGACAACCTTAAAGAGACCAAAAAATCTTATGATATTTGGTTTTTTTTTTATTATATAAATAATTTTGTAAATTATTTCTTTTAATAATGAATTCATCAAAAAATAATTTAAACTCTATGATGCTTTTAAATTCATTTCCATATTCTGCAAAAAAACAGTCTTTGTATCAACCGTTTAAAGCTTCTGTTGGTGCGTTATGTTTAAATCCAGCTTCAGACATTGATAAAACTAAATTTGGACATAAATTAATTAAATCTTTTACCGCATATGATGCATTTGCAATTTTTCGATCAGTTTGAAGTATTGTAAAATCTACTTTGTATTTGCTTATAACTTTTATTACCTCTTTAATTGTTTTTACAACAACTTCTGAGTTTTCACTTAAAGAAAAATTATAAGCAATCATATCTCTGTTATATCAATTATATGCAAACTCACCAAGTATTTTAACTTTTTTGCCTTTAGTTATAAGGTCTAAATATGAACCGTCCATTCCTATTTTTTGTAAATTATATTGAGTACTAAAATCTTTCTTAATTAGATCAGGTACAACATTACCTCTTTGGAGATTTTGTCTTTTATGTTCTCTATTAATTTTTTCTAATTTTACTAACTTTTTATTTCGTAATTCATTTATTATCTTATAACTAATATTAACTTTAAACTCATCACTTATTCAAGAACTAACATTTCTAGAACCGGATGAACCATTTTTTTCTGTAAACTTATTTATTAAAACAACTGCTTGATCATTATATTTTCTTTTTAATTCTATTGTTTAATTTTTTAAAAGCTCTTCTTTATTTTTATTTTTTCATTTAGCATAATTAGAAAAATTAACAAATAGAGCTTTACATTTATCTTTCATATTTAGTTCACAAGACTCATCAAAATAAATCACATTATAAACTGGGAAAAATAAATTCTACAGTTTTAAATATTAACGCCGGCACTAGCTGGCGTTTTTCAATTTAAAACTTTTTGTATTCTTTTGTTATTATACCAATCTATATACCAATCTATATACCAATCTATATACCAATCTATATACCAATCTATATACCAATCTATATGGTTAAAAATTTCTTTGAAGCTCATTTTGCTTGTATTAATATGATTTAGATATTCTCCTTTTAAACAACTAAAAAAATATTTAATTTCTCTATTATCTAAGGAATTACCAACTCTGCTCATTGAAGTTTGGCCATTTATCTGTTTTATTAATCAGTAACCTCGTTACTTGAATATTGAGAACCATGATCTGAATGTAGAATAAAATTAGATTTATTAATTTTAGTTATAGTATCAACAACCAACTGTGTATTATTATTTTTTGACAAGCATCATGACTCAATTTTTTTAGTTTTATGACTAATAGCAGCAGATATATAATAATAATTTCCTTCTACCAAACCAGGTATGTAAGATACATCAGTCGCAATAATATTATCAATACTTGGATTATAATTGCGTTTAACTAAGTCTTTATATTTAGCATAAATATTTTTCGATTCTTGTTTTCTTTTTTTAATTCTTGTTTTGATTATAAAACCTCATCTTTTTAAATAATGTCTTAAAGTTCTATCGCATATGAATATTTTTTCTTTTTCTAATAATATACTTATTTTTCTACTGCCATAGATAAACTTAGACTCACTTAAGATTTTCACAACTTCACTTTTTAAATTATTGTATTTATAACTTCTAATTTTTTGCTTTTTATAAAAAGTTGTTCTATGCATTGATATAATTCTTGCCTTCGTACTAATATTTAATGATTTTATTTTATTAATAGATTCTTTCTCTCTTTTATCTCTTTGGTTTTTTATTCAATCTTCGATTATTTCACGTTTTTGTTCTTCTGTTAGATCATTAATTATTCCAGGAATATCAGAATCATCTCTCTTTTTATGTCTTCCTGAACCTTTTTTTCTTTTTAAACTTTTCATACCATAATTATCTAATAAATAAGCTTTTTGTTTTATTCTTTTTTGAAGATTTTGCGAAAATTTAATTTCTTTTAATTTAAATTTACGATACTCTTGTTCAGCTATTTTAATTCCTTTTGTTTTATATATTCCGATTATCTCAGCTCATTGTTCTATTGTTAAATTTTTTGACATAAAAAATTCTACACCTCTTTCTTGTGTAGAATTTATTTTTCCCTGTTTATTATATGCATTGTTTTTCAGGCCTTCTTACTTGTTTGTATCTTCATTTGAGTTTTCGATAAATTCATGAAAGAAGGCATGCGCTTTTCCAAAAACTCAATTTTTGCCTTATCTTTTAACTTTTCTTTTTTAAGCTTGTTTAATTCTTTTTCAAGTTTCTTATTTTCATCTTTAAGCAATTTATTTTCAATGTCTTTTTTCATATAAATATTAACCTCACAAGGCGAATAATTTAATTCGCTTTCTAATTCGTTAATATTATATCTTTTTACTCATTGTTTTATTTGAACTTGACCACTTTTTAAGTTTAATTCTTCAGAGATTTTAGAAGTTTTTTCTCCAGCTAAAAACTTTTTAATAGCAATTAATTTTATCTTTTTATCTATTACTTTTGGCATATAAAAACAACCTTTCTATAGAAACTTATTATTTAAACTTTTTTAAATAATTGGTCTCTTTAAGGTTGTCTATTCTAATATAATTTTGGATTTTTATTTAATTGTTTAATAGGTATTTTTCAAATGATACTACAGCAAAGTTGAATAATAGTAGCGGCTGTATTATACTTTTTAGATTTAGTAAAGCCCGGTGCGCTATTACTAACAACAGCTTGTTCTTCTTTCTTTTTGTCTGGTTTTGTAGGTTTGGTTAGTGATGTTTCAAATGCAAAAGAAGGAAAAAGTTTAATAAAAAAATACAAAATAGAGAATAAAATAAAAAAAGAAATATTTAAAAATATTGAGTTTAATGAATTAGAAATAAGAAATTTAAATTACTCTGTTGAAAATAAACAAATATTTAAAAATTTTAATTTAGAATTTAAGAAAAATAAGAAATACTTAATAGTTAGGGAATCTGGAAAAGGTAAATCAACTTTATTTAGAATAATATTTGGTATCATAAAAAATCATTCAGGAGATATTTTTATAAATAAAAATATAAATTATAAAGATTTAAGTGATAAACAAATTAAAAAAATTATTTCATATTTACCTCAACAACCAACAGTTTTTGATGACTCAATTAGAAATAATGTAAATTTATGAGATAAAAGTATTAAAGATGAAAAGATATTAGAGGCATTAAAAAAAGTTAATTTATTAAATATTGATAAACAAAGTTTAGATACTAAAATAAATCCAGACAATAAAAACTTTTCGGGTGGGGAAGTTCAAAGAATGGCAATCGCAAGAGCTCTTGTTGAAGATAAACAAATTATAATAATGTATGAGATAACTGCAAGTTTAGATAAATTTAATAGAAAGAGCATTGAAGATCTTGTAGGTGATTTGAATAAAACTGTTTTATATATTTCTCATACAACAGAACTAGATAATAAAAATTTTGATTATGTAATAAAGTTATAAGAAAGGAAATTATGAAAAAATATTTTAAAAAGATATGAGTATATTATGTTTTTTATACATTAATAGATATATTGAGTAGTTTAATCTTGAACTATAGTTTTTTAGCAGTAGGTCAAATACTTGACGATGCGATGAATAAAGATAAAAACAAGTTAATTATTCATACAATAGTGATTATTGTAGGACTTAGCATAAGTCAAATTTTATCTAGTTTTAACAGTTTTATTATTGTTGCTAGAGCAAACAAAAAGTTAATTATCGAAATTAGAAAAACAATATCAGATAAAATTAATTCATTAAGTTTTCAAAACTATAGCGAATATAAAAAAGGTCAGTATATATCTTGATTTACAAATGATGTTGAACTAATTCAATCAAATGTTTTTGACCCAATTTATAGTATATTTAAAAATACACCATCAATTTTTATAATAGCTTATTCATTTTATTCACTTAATTGAATACTAGGAGTGATAGCTTTTATTTCTGTGATTGTATCGATAGTTTTACCAATGTTTTTTTACAAAAAAGATGAAAAGTATAATTATCAATATTCCAAAACTTCAGAACAAAATTCAACTAAGTCTCTATCGTTAATAAATGGTTATAAAGAATTATCATACCGTAATAAAAAAGAAACTTTCAGTAAATTAATTTGTGATATAAACAAACCGATTGAACTTTTAAAGAGTAAAATAAAATCTTTTGATTATAGTAAAAATTTGATAGGTAGTTTAGTTAGAAATTTATTTAAAATAGCAATCGTTTTAGTGGGAATTTACCTATTTTCCATTGGAAAAGCAACAGCTGGTTCTGTTATATCAGCGCCAGTAATAACTTATAATTTAAACAGTTCTGTTTTAAGTTTGGCAAATTCTTTTATAAAAATTAAAACTGTAAAAAAAATAAAGGAAAAATTTATTTTTGAAAATGCACAAGAAGATAATTATATTCCTAAAAAAATTCGATTTAAAAGTTTAAAAATTGATAATTCAACATTTTTTATTGAGAAAAGAAAAATTTATAGCAATTTTGAATTAGAAATAAAAATTAATAAAAAATATTTGTTAATAGGTGAGTCCGGAAAAGGAAAGACAACTTTATTCAAAATAATATTTGGTTTAATAAATAATTATAAAGGAGATATAAAAATAAATAATGAAATAAATTATAAATCCTTAGATGTAAAAGATATATGAAACTTAATTGCATATATACCACAAGAAAGCATAATATATAATGCATCAGTTAGGGATGATATAAGTTTATTTGATGATTCAATTAATGACGAAGAAATTATTGATGTTATGCACAAAGTGAATTTAAAAAAATGATTAAATGAAAATAATCTTAATACTATGTTGGTTAATGATACAAAAAATTTATCAGGAGGCGAAGTGCAAAAAATTGCTATTGCAAGAGCGTTACTACAAAATAAACCTTTTATGATTATGGATGAAATTACTGCCAGTTTGGACAACGAAAACAGATTAAACATTGAAAAAATGGTTGCAAATTTAGATAAAACAGTACTATTTATCTCTCATACAATTGATATAGATAATAATAATTTTGATTTAACTATAAGATTATAATAATTATAAAAAAAATAATTGTAAACACTTATAATTTTAAAAAAGATTCACAATTATTTTTTCTTGTAATTCAATCCAACCAAGTTTTTAACTTTATTAATTTTTTTAAAAGCTTTTTCTTTTGCTTTTTTTGCACCTATTTCTAATCATTCTTCAACTTGTTTAGAATTGTATATTTCTTTGTATTTATTTTGAATTGGAGTTAGTAAGTCTACAACAGCTGCGCTTACTTCATCTTTTAATACTCCATAATCTTTTTCTTTAAAAAACTCTTCAACGTCTTCAATACTTATATTTTTTAAACAAGAGTATATAGTAATCAAATTACTTACACCGGGTTTATTTTCAGGGTCAAATTTGATTAAGTTTTCACTATCAGTAACCGCAGACTTAATTTTTCTTTTAACTTCATCAATATTATCTAATAAGGCTATGTAAGATTTAGGATTATCAGAAGATTTTGACATTTTTTTTGTAGGATCCTGTAAATCTAAAATCTTTGCACCCACTTTTGGAGTATATTCTTCTGGAATTTTAAACATTTGTCCGTATTTAGAATTCATTCTTTCTCCAATACTTCTTGTTAATTCTATATGCTGCTTTTGGTCTTTTCCTACCGGTACTAAATCTGCATCATATAATAAAATATCTGATGCCATTAAAACCGGATACATTAATAATCCTGAAGGAATAAATTCAGTACCATTACTTGATTTTAATTTACTTGATTTATCTTTAAATTGAGTCATTCTATTAAGTTCACCAATATTTGTATTACAAGTTAAAATTCATGATAATTCACTATGTTCACTTACATCACTTTGTAAAAAAACTGTAGCTTTATTTGGATCTAATCCACAAGCAAAATATAGGGCAATTGCTTGTTTTATATTTTGTCTTAAAACTTCTTTTTCAATTGGTGTTGTAATTCCGTGTAAATTAGCTACAAATATGTACATATCATATTCGTCTTGTAATTCAACAAAATTTTTTAATGCCCCAATATAATTTCCTAATGTAATTTTTCCAGTGGTAGTAATACCAGAAACCATTCTTTTTTTATCCATAGTAAAATATTCCTTTTCATATGCATATGGTTATACAATAAATATTATAAATATAATTAATCTATATTGTTAATTAAAAATTATTAATTTAATTAAAAAACCCTATCAATATCTCTTAAAAATATTTAAAATAGTGATAGCGATTAAAAAGAGGTAAGAGATGTTTAAGTTTAATATAGTAAATAATGATTATGAAATAACCAAAGCGCCAGTTTTGAATTTAAAAGAAAAGTTGCTCGAAAAAGGACATATAATTGATGAAAAAAATCCCGAATATGTATTTATAATTGGAGGAGATGGAACATTTTTAAAAGCTGTTCGTCTTTATCAAGAAAAATTAGATTTAGTTAACTTCGTACCTTTTAAATTTGGAGGAATAGGATTTTATACAAACAAAAATGACTTAAAACAAATTGATATGATAATTGATAAATTAGAAAAAAATGATTTATTTAATTTAACTTATCAATTATTAGAAGTTGAGAATGGACCAACTACCCATTATGTAGTTAATGAAATAAGAATTTTAAATGAAAAAAAACCTCTTTATGTAAAGGTATTTATAAACGATGAATATTTAGAAACATTTCATGGAACTGGACTAGTTGTGTCAACTTCAACTGGAAGTACAGGATATATTAAATCAGCTGGAGGAAGTGTTGTTTTACCTAAAAATAGTGGCTTGTATCAAATTCAAGAATTAGTTCCTGTAAGTACAAATCGCTTTAGAACTTTAAACTCACCAATTATTTTAAATGATAGTTATTATGTAAAGTTAGAATTTGAAACTGAACAAGAGGTGCTGATTTGTGATACTCATGTGACAGAAGTACATGGAACAATTTTGAATATTAAAGTAAGTAACAAAAAAATAAAAGTATTAAGCCATAAAGATCCTAAATCAATGAGTGAAATAAATATATTAAGAGAAATATTTATTATTGATAAGAAAGAAGTGGAATAATGAGCAATAATTTGATTTATATAATGGTTGGAATAATATCTGCATTATGTTTAATCTCTCTTTATATCTATCTTTCTTTTACAAAAAGAATAAATATAAAATTTAAAAGAAATAAATTACAAAATGATCCTAAAGCTTTTACCTATTCAAATATTATGAAAGGTTTAGGTGGAATAGAAAATGTTTCTTCAATAGAAAAAGATAAAATTTATTTATTAAGTTATAGTATTGTAAATATTAAGTATTTGAAATCAATTGGTATAAAAGTAGATAACCAAAAAGATTATGTGGTTTTAGATGTTAAAAATTTTAATATGAATAACTTTTATAAAAAGTTAGAAAATGAATTAGAAAAAAATAAAAACTCTTAATTCGAGTTTTTATTTTTTTCGACTATATCCATAAGCTCCACCAATTAATACTTTTGCATTGTAACCTTTTTCACTTAAAAATTCAGCTGATTCACCACTTCTGTTTCCAGCATTACAAACTGTGACAATTAATCTTTTTTTATCATTTCCAACAATTGCTTGATAATTTGATAATAACTTACTAATTTCGCAATTTATTGAATTAGGAACTTTTGGTAATGTTTTATATTCCATATCAGTTCTTACATCAATTATTAAAACATCAGGATCATTTTCGATTTGTTTGAACTCCTCATAACTTATACTTCTCACAATAACACCTCAAAATTATTATATCACTTGTGATCAAGTGATTATTTTTTAAGAATTTTATAATAAAATGTTGGTAAATATATAAACTTACTATGTATTTTTGTTAAAAAATAAATTATAATCATAAAGATTAAACCTGTTGAAAATTTTTAATATATAAGATAATCATTAAATTTACATACCTTTAAAAAATAATAGAATTGAATAGGAGAGAATTATTAATATGGCAGAAATTAAGTTTATGGCCCTTGGTGGTCAAGACGAAAGAGGTAAAAATGCCTTTATTGTAAGTGTTGATGGAGACTTATTTGTTTTTGATGCAGGAATTAAATTTCCAGAAAGAAGTATTTTAGGGATTGATGTTGTTATTCCTAGTTTTGAATATTTAGAAGCAAATGCAAAAAAAATAAAAGGAATATTTTTATCTAATCCAAGTAGCAATAATGCTGGAGCAATAAGTTATATTTTAAGAGTAATTGATGTTCCAGTTTATTGTAATGAATTAACTTCAACACTTTTAAAATATAGAAATTTAAAATATAGAATAAAAAATAGAGAAAATAACTTCAAAATTGTAAATGATAAAGATATTGTCAAATTTGGTAAAAACAGTGTAGAAATTTTTAGAACTACATCAAGTTTTCCTGAAACTTTTGGATTTGCTTTACATACAGAAGATGGAACAATTGTTTATGCAGGAGATTATATAATTGATGGTAATGAACAATCATGATTTTCAACAGATATGAATCACTTAGCAAAAATTGCAGAAAGAAATGTTTTAGCACTTTTAAGTGACTCAGAATATGCTTCAAGAATTGGATATACAGTTCCAAATCATCGAATTGATAAATATATCGCAACGCCAATGAAAGATCTTAAACATCGTTTGGTTTTAGGATTATTTGAAGAAGATGTATTTAAATTATTTGAAATTATCAAACAAGCAAAAGAACAAGGAAGAAAAATGGCGATTTATGGTAAAACAATTTCAAAAGTTGTTGAATCAAAAATCATTCAAGATTCTTTAAAAATTTCAAAAGATGACATCATCTCATTAGAAGAGTATATGAAATCAACAGATGGAATTTTAGTTTTAACTGGAGCAGGAGATTTATTATATTCTAGATTAGCAAAAATCGCTGCTGGAAATGATGAAGTTATTGAGTTTTCAGAACAAGATACTATTGTTTTAGCAACTCCTCCAGCAGCAGGGGTTGAAAAACGTCATGCCGAAATTTTAGATGAACTTGCAAGAACAAATGCTAATTTAATTGCTTTGAGTGATAAAAATATTTGAGCAATGCGTGCAAGTTATGAAGATATAAAATTAATGACTAGAATTATGAAACCAAAAAGTTTTATACCAATTAAAGGGTTATACAAAGAATTTTTAAGTGCAGAAAGAGCAGCGCTTGAAGCTGGTGTTAAAAAAGAAAATATTCAATTAATTAATAATGGACAAGTGTTAAAAATTTCAAAAGACGGAAGACTTGTAATTGCTTCAGAAATGATAAAAACAAGTGATGTTTATGTTGATGGAATTGGAGTTGGAGATATTGGTGCTGTAGTTTTAAACGAAAGAAAACAACTTGCAACAGATGGAGTTGTAAGTATTGGTGCAAATATTGATGAAAAAACAAAAGACTTAGCTTCATTAATAGATATTCAAATGCGTGGAGTTATTTATATTCAAGAAGATAATCCAATTTTTAAATTAATGCAAAAGCAAATTGTGACAATTTTAGAAAAATACAAGATTGAGGCAAAAACAAAAAACATTCCATATGATTTAAATAATATTAAAAAAGATATTATTTCTAAAATTAGAAGTTCTATAAAACAAGAAACAGGAAAGCAACCAATTGTATTGGTAGTTGTAAATGAAATTAATGTTAATTCGTTTTATGAGCCTAAAAAGAAGGTAAATAAATAAACCAATTTCTCGGTTTATTTTTTTTATTAAGAATATAATTTAAATATAATATTTTTTAAATGAACAAAAAGTAATGTGAGTAATCTAAAAAAACTAATATATTTTTTAAGTATTTTAATTTCTTCAACTATAACTTCTCAAACAATCTCAGTGCTATTTTTTCAGGAACAATTATAGATAGAAATGAAGAAGCAAAACAAAGTGATATTTGCTATTTTGTTGGAAATATTAAAAAATATGTTTTAAAAGAATACAAAATTCCAACAAAAGAATCGTTAGTCACTTTATTAAGTGCAAAAGCTAGATTTAAAGTTGTTTTAGAAAATATTGAAAAAGAAAGCACCATATTTTAGATAAATTATAAATCATTAATCACAAAAATAAAAATACAAATTATGTAAAACAGATTTTTATTTCCTGAAATTAAAAGTAATTCTCTTGCCATGAGTAAGATCAAAAATAAATCAATTAATTTAAATTACATAGTTAAAATTAATGAAGTAGATAAAAAATACATTAAAAATTTTTTGATGAATTAGTTTATAACGGAGAATTAAAAAAATATAATAATCATGATGATAATCTTAGGCTTGTTTTTAATAATATATTAAGTGAAACATTAGATGAAAAAGTATTTAAATTTATATTTAAAACTTATGTTTTAGATTACGCAATATTTCTAGCATTGGTTATAGTGATGATTTTGCACAAGACTATGGAATTAATAACAACTTTTTAAATATCTATGGTAAAGATGGTATGAAATTTAGCAATTATAGTTTAATCCCTTTAAATATAGAGCATTTTAATTACACAAGAGATATAAACTTTGATTTTGGTAATGTAATAACTTGAACAAGAAAAGAGTCAAAATTAAATAAAAAGATTGATTTAAATGGTTTTGATAAAGATAGAATTATAAATTAAAAATTTAATTTGATTTACTTAAATGATTTTAAAAATTAACCAATACTTCTGAAGGGTTTTTAAAATATTTACTAATTCAATGTTTAAAGAGTTTTTTGCAAACTTCAGTAATTTATTTTTACAAGAACTAATAAATTTTTATATAACAAATATAACTATAAAAGCAAATAAAAATATTTATCTATATCCTAATAGTCAATTGAAGTTGGATAATAAATCTAGAACAAATTATAAAGATTTTTTTCTAGCTAATAAACATAAAAATGTTTTAAATAATGTAGAGTTTAATTTATTATTTAGTGCGAATCAAAAGAGTACAAATTTTTTGAATAGTTTAAACGAAATAAGATTTTATATAAGTTATGAAGATTGAAATTAGAAAGAAAGCTGATAATATGAATAGTAAAAAAAATAAAAAAAAAGTTAGTTTCAAAATTAGTGATAAAATTTAGAATAAATTATAATTATAGTATTTTAGGTGTTTTTAATTTAATTAGTTTATTAATATTATTTTTAATGCTATATATTCCATTATAAGATAAAATATATATAAAATTTTTTGCAGTTGGTGGTTATTTTTTTTATCATTGATAAAAGTTTTATTTTTATATCTTTATTTACTCATAAATATTATTTTAAAACAAAGCTAATTGTTTATATTTGTTTTACTGTTTTTCTTTTGCATTTTGCAGTTTTTGTTTAAAAAAAGATAATTTCAAATAGTATGGAATGAAGAGAATTTTATGTGTGAGATTTTGAAATCAAAAGTTAACATTATCTGTAGTAGTGTTTACTATCTTTATTTCTTCAATTTTAACGGTTTTAATTTGTTGTTTTTTGTATTTCAATTATAAGCTTATTAGTCCGTATATGATTGTCTTTTTTAGTGCAGAAAAACAGTTGAATCAATTCAAATTAACAAATAAAATAATGAAGATTATTTAAAAATAAAAAAATAAAAAATGAAATTGATATTTTTATCAATTTTTAGTCTTTTTTATAAATTATGGTAAAATTCTATAAAATATATTAAAATAAACAAGTAAGGGCAAATATAGGGTGATTATATGAATGATTATGGGCGTAATCATATTACACTAGATGCTAACGATGATGATCGTACAAGAGCACTAGATATCCAAAGAAAACAAAGAAGACCTGATTCAATTGCATGAATTATTTCAGCGCTACTTTTATTTTTCATAAATGTTGTAGCATTAGGAAGAATAACGGTGATTGGACAATTGTTAGATGATTTAGTCTTCACTTTTTTGTTTGGTTGATTTAAGTATTTTTTATATTTATTGTTTTTTATAATCGATTTTGCCATATACTTTGGTATTAAATTTAAACCCAAAAAGAGATTTTTAGCCATGATTTTTGTAACTTGAATAATGTGTTGTTGAGTAATTTCATCAATATTGTTTATTGTTGCGCATAATTTAAAGTCAGATGATCTTGTAATTCCTAATTATTGAAGTAAAGATATTTTTTTGAACTCTCTTAAATCTTATCTAACTCAGTGAAAAACTCATTCATTCTTTGGTTCAACTCAAAATTTACTAGTTTCAAGTAAAGATAGTTATTTTACAACATATGCTGGGGGAGGATTTATTGGTGCATTTTTATCAGGAATATCAAGCTATTTAACTATTTATGGTTCATTAATTTTAGCTTTAGTATTTTTCTTTATAAATATGGTTTGAATTTTTACAGGAGATCCATTTTATTTGTTTAAACCAAAAAACAAAAGAAGAGGAAAAAGATTAAGAATTTTATCGTTAAAAAGTAAAGATAGTAATGGAAATATAAATAAAATAAAAAGACCTAAAAGAAATAGCATTTTTAGTGTGATTAATTTAGATGGTGAAAGAACATTAGATGAGCGTGATATTTTAGCATCAGTAAAAGAGTCTGATATTACAATTGAGATGCCTAGTTATATAAAAAATAGTGATCATTATATTTATAGAAATGTTGATGAAAACTTTTATAATGAAGATTATGTAAGTAGTCCACAAGCAAGTTATGATCCAATTTTTGATTTTGACCAAAATATTTTAGGAAGTTCAAGTAAAGGTTATTTGCAAGTTCAAGATAATTACAATAACTTAGCAGAACAACAAAATTTTCAACAATATCAAAATTTTAATAATCAAAATAATTACAATTATCAACAATCTTATCAGCAAACTCCAAAATTTATGAATCAATATCAAGATATGGGATATACTAATAATCAATTTACCGGAAATGATAACTCATTATTTGCAAACAGTCAAATAGAAGCAAAAGAAAATTTTATCGAAGCACAAGAAGATGTAAGAAAAGCATTTGAAAGACAAACAAGTATAACTCCCCATGGTTTTAATGGAAAAACTCAAGAGTTTTTAAGTGCAATGAAAAAAGAAAAACTAGAAAAAGAAGGTCAAGTTCAAAGTACATTAGACCAATTTTTAGTAAAAGATAAAGTGTATAAAAACGAAGTTGAAACAAATGCCTTTAGTGAAGAATATGTTTCTCCAATGGAAAATATAGTTAAAACAAATTTTCATGGTGACTATGGTTATTCAAGACAAAATAACTCTTCAAATACAATCGAATTAGATACAAATAAAGCAATCGAAAAAACTGTTTTTGTAAATTTAGGGTATCAACTTCCCTCAATCGAGTTATTAAACGTTGATGAAAATAGTAGACATGAATATGAAAAACTAAAAGCACAAGCGCAATTAAAAGAAAATTCAATAAATAATACCTTTAGAGAATTTAATGTTGATGCTAAAGTTGTGGATAAAAATATTGGTCCAACTGTGACAAAATTCGAAGTACAACCTGGACCAAGAACTAAAGTTAATAATGTAACTAGTTTAGAAAATGATTTAAAATTAAGTTTAGCAACTCAAAATATCAGAATTGAAGCACCTATCCCAGGTAAAACTTTAGTAGGTATTGAAGTGCCTAATGATACTTCAATGGTTGTTCCTTTACGTAGTGTTATAGAAAAAGCACCATTAACAAAAATAAGTTCTAAACTATTATTTGCTATTGGTAAAACAGTCTCTGGAGAATTATTGTTTGGAGAATTAGATAAAGCTCCCCACTTGTTAGTTGCTGGATCAACAGGTAGTGGTAAATCGGTTATGATTAATGGAATTATTACATCAATCTTATTAAGAGCTAAACCTCATGAAGTTAAATTACTTTTAATCGATCCTAAAAAAGTAGAATTATCTATTTATTCATCAATTCCACATTTACTTGCACCGGTTATTAGTGATATGAATTTAGCGAATAGTGCATTAAAAAAAGTAATTAATGAAATGGAACGTAGATATGCTTTGATGCAATCTACTAAAACAAAAAATATCGAAACTTATAACGCAACTGTTAAAGATCCTGCAAAAAAATTACCATTCTATGTTGTTGTGATTGATGAGTTAGCTGACTTAATGATGACTGCAAATAAAAAAGATGTTGAAGATTCAATCAAAAGAATTACTCAAATGGCTAGAGCGGCAGGTATTCATTTAATCGTAGCAACTCAAAGACCATCAACAGATGTTATAACAGGAGTTATTAAATCAAACATCACAACTAGAATCGGATTTTCAGTTGCAAGTACAATTGATTCAAGAACTATTTTAGATTCATCTGGTGCTGAAAAATTAATTGGAAAAGGGGACTTATTATATCATCCACCAAATGCAAATAATGTTACAAGAGCACAAGGTTCATTTGTAAGCGATGATGAAATTAAAAGAATTGTTGATCATTGTTCAAGACAACAAAATCAAATGTTTGAAGAAGAATTTATGGTTCAAGAAAATGAAAGTTATGAACCTTCTGGAGGTTCAAGACAAAAAGACCCATTATTTGAAGAAATAAAACAATATGTTATAAGAGAACAAAAAGCATCAACCAGTTTAATTCAAAGAAAATTTTCAATCGGTTATGGAAGAGCTGCAAGAATAATTGATGAACTTGAAGAAAATGGTGTAATAGGACCAGCAAAAAACAACTCAAAACCAAGGGATGTTTATATTAAAAATGGAGACTTTTATTAAAAACAAAAAAAGGATATTATCCTTTTTTTGTTTTATGTATAATTTAATTCAATATCACTAGATAAAAAATATGGATTATTAAATCTATCGCTTAAACTTATAATTGCACTTTTATTTGATTTATCAATATTTTTTACTATTAAACCTTTATTATATTCTTCAATATTATTAGCTTTTAATAAATGACTAATAATTTTTCCTTCTCCTGGATGAATTGCTCCAAACTTTAAGTTATTTAAAGTTGTTATATTAATTAAGTTATTTAAATCCAATTTTAAAAAAGTCTTTACAGTTGCACTACCACTTAATGAAACTTGCTCCAAACTATTTTCTTTTCCTTCTTTAACAGTTACTTTAATTGATTTTATTTGTTCTTGATTATCAATATGTAGTTTTGTTGCTTCGTAATCTGAAAAAAACTCAAAGTTTACAATATCAAATAAGTATTCAACATCTATATCAGTTTTAACAAATTTATTAACTCGATTAATAACATTTTGAGCATAATCTTTTAAGTTTAAAATTGTTAATTCTTGACTGATAATTTCACTTGCGCTTAATGCAATATATCCTTTTAAAACAGCTTTGTTAAAAAGCTTGTATGCTCCTTTTTTATCAACAAAATCTTCTATTCCTTTTATATCCATATCTTTCTCCTTAAATTTAAAAATATTATACATATTATTTAAACAATTAACTTTTTTTATAAAATATTTAGCATTCTTAAAAAATACTATAATATTTTTATGAGGTGAAATGTTATGAGTGTAGAAAATCAGTTAAAAACTTTACCTGAAAAACCTGGATGTTATATGTATTTTAATAAAGATAATAAAGTTATCTATGTTGGTAAAGCAAAAAACTTAAAAAAAAGAGTAAGTTCATATTTCACAAAAGCTCATGATGTTAAAACAACTAAGTTAGTTAGAGATATTGTAAAATTAGAAACAATTATTACTTTAAACGAAAAAGAATCGCTTTTATTAGAACAAAATTTGATTAAAAAATATAAACCAAGATACAATATTGTTTTAAATGATGATAAAAATTATCCCTATATTGCAATTACTAATGAAAAAGATCCTGAATATATTTATGTAAGAAATTACAATGCAAAAAATAAAAAATCTTTTGGTCCTTTTCCTGATGGAAGTAGTGCTAGAAAAATTTTAAGAACAATTGAAAGAATTTATCCTTTAAGAAGATGTAAAGGAAATTTAGGTCATCCTTGTACTTATTATTATATTCAACAATGTAGTGGTGCATGTTTTAAAGAAGTTGAACAAACTTATTATGAAAATCAAATTAAAAAAATTGAAAATTTCTTTTTAGGAGTTTCAGATGATGTTCAAAATATTTTAGAGTCTAAAATGTTACAAGCTGCAAAAAATTTGCAATTTGAAGAAGCGCAAAGAATCAAAGAGATAATCGAACATCTTAAATTTACAACAGAAAAACAAGATGTTGATTTAAATGATAATATTAATCGTGATATTTTTAACTATTATGAATTTGAAAACTATATTTGCTTTACAGTTTTATTTTATAGAAGTGGAAAACTATCTTTAAAAAATAATGAAGTTATTAAAAATGAAGGTCAAGATATTAATGATTTATTTAAAAGTTATATTTTACAAATATATACAAAAAATTTAGTACCTGACTTTATAGGTATTCCTATTGAAATTAATGTTGAAGATTTAAAATTATATTTAGAAAAAAATATAATAAATGAAAATGATTTAAATACAAATAGGTTATTAAACTTAGCAAAAGAAAATGCTAAAGAATTTTTATTTCAAAAATTACACTATGCAAATAATAATAACATTACAAAAGAAGATATTTTAAAACAACTTCAAGTATTATTAAAGTTAGACAGTTTTCCTTATCATATTGAAATGTATGATGTTGCAAATATGTTAGATGAATATGTAACTGGTGCAATGGTTGTTTTTAAAAATGGTATTGTAAGTAAAAATGATTTTAGAAAATATAATATTGAAATAAATGAAAAGGGTGATTATCATAGAATAAAAGAAATGATATATCGAAGATACAGTAAAGATGCTGATTTTCCAGAAAAGTGAGCTGACTTGCTAATAATGGATGGAGGAATCATTCAAGTTCATGCTGCAAAAGAAGCTTTAAAAAGTTTAAATATAAATATACCAATAATGGGTTTAGTAAAAAATGATAATCATAAAACTGAAAGTATATTAGATTTAGAAGAACGGAAAATTGAAATTGATAAAAAAAGTGATTTGTTTAAGTTATTAGAAAATTTTCAATTAAGAGTACATAACTATGCAATTAGCGGATTTAGAAAAAGACAACAAAAAGGAATTTTAAAAGAAGATTATATTTCTAAAGTTAAAGGTTTGGGAGATATAAAAATCAAAAAACTTTATGAAAATTTTAAATCAATAAGCTCAATGCAAACCTTATCAGTAGATCAATTAAATGAAGTTATTAAAAACAAAAAAATCGCAGAGATTTTATTTGAGCATTTAAAAAATTATAAAAGGTAATTTTAAAAAGAAGTATAATTGAAAATATAGAAAGAACGAATGGGCATGAGTGAAACAAAAGAAGATTTAAAAAAAACAAAAAAAGAATTAGTTGTTGTTGAAAAACGCAAAGATTCTGAACATAAATTAGCAAAAATTAAAAAAACTAAATTTGAAATTGAGCCATTCGAAAAGATCAAAACTCCTTTTTATAAAATCTCAAATCCAAAAGAGATATTTGGAATGGCTATCCCAATTTTTATTCAACTTTTATTTACTATTCTAATTACTCAAATAAACTTGATAGCAATTAACAATTACATGGGTGGTGCTTATGCTGAAGGAACTTCGAAATCTGTTTTAGCATATAACACATTACAATTTGTTCCGAGTTTAATTGCTACTGGAACAATAATTGTATCCGGAAATTTAATTGGACAAGGTAGAAAAGAAGAAGTTTCAAGAGTCATTGTTACAGGGTTATTGGTAAATCTTTCAATAATGCTACCAATTTTTGTTATTATCACAATTTTAAGTGACACAATTGTGAGTTGAGTTGGAGCATCGTCTTCTCAACCGATAACCGATATAAATGGGCAACAAATTTTAGAACCAACTGAATTAACATATGCTTCTCATTATTATCGTTATACAAATATAAATTTAATAATGATGTCAATTTATCAAGTTTTTGTAGCTGGTCTTCAAGCTTTTAAAAAAAGTAAAGTTGTAACAATTGGAACAATGATTGCCAATGTTATTGATTTAAGTTTAATTTCTATTATTTTGTATGGTACAAATATTCCTCCAGTATACAGCTCATTAGTTTTACCAATAACTGGTTTATTTCAAATATTTTTTATGTTATTTATGTGCTTAAAATATATTGATTTTAAAGTTAATAAAAAACGTCAATTAAGTTGAAATTATGCAAAAGAAACGTTAAAAACTGGTCTGCCAATTACCATTGAAATGGGAGTTTGAAATTTATGTAACTTTGGAACTTCAGTTGCGATTGGCCAATTGCACATAGGAACTGGAAATGAGTGAATAATTTTACATAGAAATGCAAATAGTATTGGGCAATATTCATCTGCATTTATTCAAGCAATCGGAACAGTAACAGCAGTTTTTGTATCAAGAAAAATCGGAGAAAAAGATAAACAAGGTGCCTATGAAATTGCCTTAGAATGTTGAAAAGCAGCAATTTATGTAACCTTGATTTCAAACATAATTATGATTGCTATTAGTTATCCTTTATTATTGCTTTTAAATTCTAAAGACACAGCAATTCCATGAGGAGTTTCTGTTCTAACAATTTTTTCGGTAAAAATATTATTTGATACTGTAAATATGACTTTATTACGTGCCTTATGAAGTGTTGGAGATTTATGATATCCAATTTTAGTATCGTTTGTAACCATGGGAATTGGAATGGTTGCATTACCATTTATACTTGTTAAAGCATTAAATATAGTTGAAGGTCCAGGACTATTATGTGTATATTCAGCTGTTGTGGTTGATCCTTTCTTAAGATCGATAATTTATGTAAATCGATGACTAAAAGGAAAATGACAAAAATATATTCATATTGTAAAATAAAAAAGGTATAATTAATTAGTTATAAAGGGGAATTTTATTATGGATAAAGATATAATTTTAACCGAAGAAGGTCTTGAAGAAGTAAAACAAGAATTAAATAATTTAATAAATGTAGTTAGACCTGAAGTTATTGCTGAATTAGTTGAAGCAAGAGCGCAAGGGGACTTATCTGAAAATGCTGATTATGATGCAGCAAGAAATAGACAAGCTGAGGTAGAAGCAAGAATTAAAGAACTTGAAACAATGATTTCAAGAGCAAAAATCATTTCAAGTGATGTAAAAACTTCTGAAGTAAAAATTGGAAATACAGTTTTGTTTAAAAATATAAAAATTAATAAACAAATGGAAATTAAAATAGTTGGTGCAATAGAAGCTGATCCTTTTGAAGGGAAAATCTCAAACGAATCACCTTTAGCAAAAGCTATGTTGGGTAAAAAAGTGAAAGATATCATTGAAGTTAGAGAATTAAAAGAACCATATAAAATAGAAATTCTGACAATTAAGTAATATTTAAGAGGATAAAGATATGAACGCAAAAGAATTTTTAGATAAAAAAATCAATAATTTAGTAAACTCTCATCCTGACTTGAAACAAATTATTGCAAAACTAGCTAGGTTAAAAAGAAATTGTAGATTATTCGGTACCTTTGCATTATTAGGGTTAATTTTAGGAATTGTTATTTTAATAGCATCAACAAATCATATTATACCTGGTGTAGAATATGGCTCACAAGCTATCATTATTTTATTTATAATTGGAGTTTTAGGAGTTGTAGCAGGATTAATTCTTTTGATATTTTGATATACTGCAAGAAAAAAAGTTCGAGTTGAACATTTTGATGAAAAAATAACAAATATTCTTTATGATGATCAACAAATTCAAAAAATTTATAGTGAATTTTATTATAAATTTGTAGATGATAAAGATACTGATGATTTTGAAATAAAAATAGTAAAAAGAATCCCCGATATAACTTCTGAGTATGCAGATTATAGAAGTTTTGTTAAAAAAAGAATATTAGCTATTAATAACAATACACAAAACTCTTTTAATTTTCTTTATAAAAATAAAAAAGTAACATTTTTTATAAAAACACCAAGAAAATTTATTGAAGTTTATTATACAACTGATTCAAAAGGAAATACCGTTAGACATGAAAGAATTCATTATGTATCTAATGCAGCAGTACATATGGAAAATACAAAATATGATGAAACATATAATGGAGTAAGGGTTGTTCAAGAAAAAGATCCAGTTAAAGGATTATTTCAAACTGATTCTATAGAATTTAATAAAAGATTTTATATCAATGTAAAAGAAAATGATATAAGAGGGCCAAAATTTTTAAGTCCTAGGTTAATTGAAAAATTATCATCACTTGATATAAAAAATATTTATTCAGTAGGTATTGAAGGTAATATTTATGCAGACTGATTTTTGGTAAGCCAGAGTAATTTTAAACATGACGTGTGTTCATTTAGTACAGTTGATGTAAAAAATTTACCAACTTTTATCAAAAGTGTAATTGATAAAATTGCTTCAGATTTTTACTTGTTCGAACATCTATTTGATTGTGTTAGAGCAGTTTATTAAAATTTTTAAATTAAAACTAAAATGATATAAAATTATTTATAGAAAGTGTGATGAATATGTTAACACCAAATATTGAAAATAATATTAATGCGGATGCAAATAAAAAACCAAGTAGAAGTGCCTTTGGAACATTTTTTTGATATTTCTTATTTATTTTAATCATTCCAATTTTTATACATATTGGAAATATGAACTACTTAAGAAGAATGAATGTTAAGGTAAGTGAATCAGAATCTGGAATTGATGTTCAACTTAAAAGAAGAAGAGATACATTATTGAAATTAATAGATGCTGTAAAAGGAAGTATTAAGTTTGAAAAAGAAACTTTATCAACAATTGTTTCTATGAGATCTGGAGTTGGTATTGAAGGAATGATGAAAAATCAAAGAGCAATGGATTCTATCCAAAGAGGAATTAATATTCAAATGGAAAACTATCCAAATTTAAAATCTACAGATAATATTAGAGAATTAATGGATGCAACAAGAGATATTGAAGAAGATATCTCTGCACAGAGAAGAATTTACAATCAAAATGTAAGTGAATTTAACCAAAGTATTGCGGTTTATCCAATGAACCAAGCCGCAGCTTCTTTAAAATATGTAAATAAATATTTCTTTGAAATCACTGAAGCTGAACGTGAAGATGTAGTTATTAACTTTGATTAAAAAAGTTAATAACTTTTTTTATTTTTATTTATAATATTAAATATAGAGAGAAGGATAATAATGCAAGTCGCACCAGGTCAAGAATTAAATAACATTAACAACAATGCAAATCAACCTGTAAAAGCAAGTTTTTTGGGTATTTTATTTTGATTATTTTTATTTTTATTAATTATTCCAATTTTTGTGCATATTGGCATTAACAATAGAATTAAACGTTTAAAAGTAAAAATTAATCAAGGAGAATCTGATATTGATGTTCAACTTAAATTGAGAAAAGATTTACTATTGAAATTAATCGATTCTGTAAAAGGGAGCATTAAGTTTGAAAAAGAATTGTTATCAACACTTACATCAATGAGAACGGGTTCAGGTTTGGAAAATAGTGCAAAAAATTCAAAAATTTTAGATAAAATTGGTAAAGAAATAAATTTGCAAATGGAAAACTACCCAGACTTAAAATCAACAAGTGCAATTAGAGATTTGATGAATTCAACAAGCGAAGTTGAAGAAACAATCTCATATGCAAGAAGAAATTATAATGATGCAGTTAGTACTTATAATCAAGTTGTTTCAACTTATCCATCAAATGTAGTTGCTAAATTTTCAAGATGTAAATATAGATCATTTTTTGAAGTAGCAGATTGAGATAGAGATGATGTTGAATTAAAATTTTAATTTAAAAGGAGATTATTTTGGTAGTACAAAAAACTTTTAAAGACAAAAAACCAATCATTTATCTAGTTGGAACTCCAATTGGAAACATAAATGATTTTTCTTTTCGAGCAATAAATATTTTAAAAGAAGTTAATAAAATATATTGCGAAGATACAAGAACAAGTAAAACGCTTTTAGATAATTATAAAATTAAAAATAACTTGATTGCACTTCATAAATTTAATGAAAACTTTAAAACAGATAACATAAAAAATGATATAGAAAATAATTTAAATATAGCAATTATTAGTGACGCTGGTGTGCCTGGGATTTCAGATCCGGGATTAAAAATATTAAATAATCTTTCTCAAGAAATTTTGAATTTTTCAATCTCAGCAGTTAATTGTGGTCCTGCATATATTCACGCATTAGTTATATCAGGTTTTGATTTTGTAAAAAACTGTTTTTTAGGATTTTTGTCAAAAAAACCTGACCAAATAAGCGAGCAAGTATTAAACATTGTAAAAAGTGATAAAGATATTGTAATTTCTTTTTATGAATCAGTTCATCGTATTGTAAATACGATGAATGTATTTTTTAATATTTTAAATCATAATGTTGAAGTTACAATTTGTAGAGAATTAACTAAAGTTAACGAAGAAATAATAAGAGGTTCTTTAAAAGAAGTTTGAAACTATGTTAATAGTGATGATTTTGTTAAAAAAGGAGAATTTGTTGTTGTTTTAAATAAAGGCGCAGTTAAAAAAGAAAAAAAAATTATTTTAGATGATTTAATAGAAGAAGTTGATATTTTGATTGATAATGGATTAGCTAAAAAAGATGCTATAAAAGAAGTTGCTAAAAAATTTGGTATTAATAAAAATAGTTTATATAATGAATTTCACAAAAAGTAGAATATTTGTGATTTTTTTTTGTTTTTTTGTCGATATATTATATGAAAGGAGAATTTATGAGAGAATTAACCAATCAAGAAAAACACGATGTAATAGGAGGAGCAGGTATTACTGGCGCTCTATTTTCAGGAATTGCAAGCATATTCAAAAGCATAGGATCATTTTTTACAGACACAATCAATACTGGTGTAACAGCAGGTTTAGCTTATAAATATGCAGGAAGTGCTGATGAGTTTGAATATAAAAACGGAAGTAGTTCATTTAAATTTAGTAAAAAAGCTTCAATTAGTGCTAAAAATGATTTAGATAAAAAAGCATTAGACATTGAAGCGAAGACAGCAGAATCATTCATTCCAGTTGCCCCAGTTATTTCTTTTAATTAATTTTTTTAAATGGTCGTTTTGACCATTTTTTTTATAAAAAAATGAATATTTTTAAATATTCAATCTAAAAATAGTATAAAATAATTTAGGTTGCTAGTTTCAACCGCTCTTTTGTATGTAAATAAGTAGTATTTAGCTCACATACAAGGCGAGTCTAGACTGGAGGAATATATATGTTCGCAATTATTAAAACGGGAGGAAAACAATTAACTGTAAAACCTGGTGATGAAATTTTTGTTGAAAAATTAGTAGTAGAAGAGGGTAAAACAGTTATTTTTGACCAAGTTTTAGCAACTGATACAAAAATTGGTACACCACTTGTAAGTGGTGCAATCGTAACTGGAACTGTTATTAAACAAGGAAAAGGTAGAAAACTACGTGTAGTTAGATACCATCCTAAAAAAAATGTTAATAAAGTTTATGGTCACAGACAACCTTATACTAAAGTGAAAATTGATGCAATTTCATTAGATGGAAGTGTACCAAAACAAGTAGCAGCACCAAAAGAACCAGAAGTTAAAAAAGTTGATACTCCAGTAGCAAGTAATGATGCAGCACCAAAACCTGCAGCACCAAAACCTACTGCTCCTAAAAAACCTGCAGCACCTAAACCGGCAGCGACAAAAAAACCTACTGCTCCAAAAGATGCTGCTTCTAAACCAGCTGCTCCTAAAAAACCAGCAGCACCAAAACCAGAGGAAAAATAATGGTTTTAGCAAGGTTTAACTTTAAAAATGAGAATATTAAGAAAGTTACAGTTTCAGGACATGCTGAAGCAGATAATTATGGAAATGATTTAGTTTGTGCTGGAATTACCGCTATTATTTCAGGAACCTTAAATGGACTAGATCAATTGTATAAAAAAGATGTTGAACTAATAGTTCTTGAAAATGAAATAGTTATTATAGTAAAAAAAGATTCAAAAGATCTTCAAAAAATACTAATATTTTTATTAATTCAATTACAAACTATAGAAATTCAATATCCAAAAAATTTTAAAATAGAGGAGGTGCTTTAATATGTGTTTTTTATTAGGATTACAATATTTTGCTTCTAAAAAAGGAGTTGGGTCAACTAAAAATGGTAGAGACTCAGAATCAAAACGTTTAGGAGCAAAAAAAGCAGATGGACAATTTGCAAATGCTGGTTCAATAATATTTAGACAAAGAGGAACTAAAATTCATGCTGGTACAAACGTTGGGCGTGGTGGAGATGATACATTATTTGCATTAGTTTCAGGAATTGTTAAATATGAAAGATTTGGTAAAAATAGAACTAGAGCAATAGTTGTACCTCAACAACAAAAATAATACTTCAAATTCCTTATAGGAATTTTTTTTATTTGAATAGATAAATATAATTATATAATTTAATAGCATACAAGAAAGGATAAAAATTATGAAAATAAATAAAGAAGTTTTATTAGGTAGGTACTTTGATGAAGCTATTGAAAACACTAAAAAAATTGTAGCAATGCCAAGTTATCGTAGAGATTTAACAAAAGGAAGTAAATTGCCACAAGATACATTAAATGTTTTAAATTATTGTATTGATTTATGCAAAAGCTGAGGGTTAAAAACTTTTGTCTCAGAAGAACTTAAATATGGATATGCAGATTATGGAGATGGTGACAAATTATTTGTTATAATTTGTCATTTAGACGTTGTTCCTCCCGGAAATATAAGTGAATGAATAAATCCTCCATTTGAGCCAAAAATAATTGATGATAAATTGTATGGTAGAGGTGCTTTTGATGATAAAGGACCAACAATGATGAATTTATTTGCTTTTAAATATTTAATAGATAATGGTTTTAAATCAAACTATAAAATAAGATTTATATTTGGAACTTGTGAAGAGACAAATTGAGAATGTATGGAAAATTATATTGCAAATGAAAAACTATGTGACCTAGGTTATGTACCAGATGGACATTTTCCAGTAGTATATGCTGAAAAATGAATTGCAGATTTAGATTTAATTGGTGATTTTAAATGTAATTTTGAAATTATAGGGGGTCAAGCTTACAATGCTGTTAATGATCTTGTAAGTTATATCGGTCCAAAAATTGATTTAATTCAAAATGAATTAGAAAAAATAAATGTTAAAAGTTATGTTGAAAATGAAATTTTATATGTAAAAGGTATTTCTGCTCATGGAAGTCTTCCGTTTAAAGGGGTTTCTGCAAGTAACTCATTGTTATTTGTTTTAAATAAACTTAATTTTGATCATCCCTTAATAAAATTTGTTGCAAATGATATTTATGCTGATTATGAAATGAAAAATATTTTTGGTAATCTAGAAGATGAAACTGGTGTTTTAACAGCGTGTAATGGAATTATTGATATTAATAAAAAATCTTTTAAATATACTTTAAACTTAAGAATTCCTTGTACAAGAGATGTTCAAAAAGATGTAGTAGAAAAATTATCAAGTTATTTAATTGAAAAGAACATAAAGACAAATACAGTTAAACTTGAAGATAGAGTATATTTCCCAAAAGACAGCGAAGTAGTAACAAAAATGATGTCTATTTATCAAGAAGTAACAGGAGATTATAAAACTGAACCAATTGCAATTGGTGGAGGAACATTTGCAAAATCAATGCCTAATATAATTGCTTTTGGAGCAGAATTTGATTTAAATGATTCAACAATGCATTCATATAATGAATATGTAAAAATTGAAGATTTAAAAAAAATGATTGAAATATATGCAAAATCCATAGTCTTATTAACCTATAATCAATAAAAAAGTTTTAGCAATAAAACTTTTTTATTTTTTAATTTATTTTCTTTATAAAAAACTATGTTATATTTATGTTGAAGGAGGAAAATATGGACAAAAAAATTCAACAAGATTTACAAAAATACATTGAAGAACATGCAAAAATGCAATTTAATTGTTATAACTTGAGTAAAAATTGCGATGATTTAGGATATCCTGGATTTACACATTTCTTTCAAGTTCAAGCGCAAGATGAATTTGTACATCAAAGACGAATAATGAATTATTTATTGGACAGAAGTCAAAGTTTTGAAGCACCAAGTGTTAGTGCAGAAAAAGTTAGTTACAAAAGCATTACTGAAATTTTAAAAGCTTATGTTGATCATCGCACTCACTTTGCAAATATCACAAATGAATTTGCAAATAACGCAAAAGAAGCAAAAGACTATACAACATTTAAATTTTATGAATGATTCTCAATTGATTTTTATGAAGAGATTGCAGAAATAAATGATTTAATTGATTGACTAAATATGCCAAATTCAAATCATTATGAAATTGACAAAAATGCTGCAAAACGTGATAACCCAGATACACTAGCTGTAGTTGATCCATTTGCACCACATAAATAAAAAAATATAATTTTTGTAACAAAACACATTATATTTTTTTTTTTTTTTGTCTTTCTGTATTTAAAACAATTTTTATATATATAAAATCTAATTAGCATTTCTAAATAGACTTGATATTATTGTAAAAATTATTTATACTCAATTTATTGTATATAACTATCAAAAAGGGTATGCAATCACATACGGGAATTTTTTTACCCAGTGCTTATTATTTTAATTAAATAAGTGGTAAATTTTAGAACCGTTTGGAAGTCTAACAAATAAAATTTTTAAAAGAAAGTAAGAAGGTAACTAAATGGCTAAGGACTTGACAAGAGATCAATTATGAGACGCAGGAGCTCACTTTGGACATCAAACTAAAAGATGAAATCCAAAAATGAAACCATATATTTATGGTGAAAAAAACAAAAATCATATTATTGATTTACAACAAACTCTATGAAGATTAGATGATGTTAAAAAATTAATAACTAATATAGGTGCTAAAAAAGAAAAAGTCATTTTTGTAGGAACTAAAAGAACTGCAAAAAACGCTGTAAAAGAAGCAGCTTTAAGAAGTGGAAATTTCTTTGTAAATTCAAGATGACTTGGTGGTACTTTAACAAATATGAAAACAATTTCATTACGTATTAAAGCGCTTTGAGATATTGAAAATGAAGAAAAAACAGGAAAAATTAATTTAAGACCTAAAAAAGAACAAATTTTAATTAAAAAAGAAAAAGCTAAGTTAGAAAAAACACTTGGTGGAATCAAGCAAATGCATAAATTGCCAGCAGTAATGTTTGTGGTTGATCCAAAAAACGACGAAATTGCTGTTAAAGAAGCGAGAAAATTAAGAATTCCAGTAATTGGTATTTGTGATACAAATGTTGATCCAGATATGGTAGATTATGTAATTCCGGCAAATGATGATATTCAAGAGTCAGTTAACTTAATTGTTAATTATATAGTTGATGTTTATGCTGATGCAGCAGGATTAAAATTACAACCAAGTACATTAAAAGTGGTAGCTCAGAAAAAAGAAGATGGTGTACAAGGACAAAGATTTGGTGAAGGAAGAGCTCCTAGAAGATTTGACGAAGATAGAAATGCTTCTAAAAATGAAGAATCAAAAAAAGATTTAGAAGCAAATAAAGCAGAAAAAGCTTAGAAAGTTCAAGAGGGGTGATTAGATAATGGCAGTAAGTCCACAACAAATTAAAGAATTAAGAGAAATAACATCAGCTGGTATGATGGATTGTAAAAAAGCATTAGAAGCAACAAATGGCGTAATTGATGATGCGATTATTTGACTAAGAGAAAATGGTTTAGTAAAAGCCGCTAAAAAATCAGATAGAATTGCAGCAGAAGGAGTTGCTTTTGCTAAAACAAATGGAAAAAGAGGAATTGTTTTTGAAGTTAATTCAGAAACAGACTTTGTTTCTAAAAACGAAAAATTCATGAGTCTTATTAAAGAAATAGGTGATGCATTATTAGCAGCAAGTGCAAAAACTTTAGAAGAAGCACTTGAAGTAAAACTTAGTTCAGGAACAGTTAAAGAAGCATGTATAAGTGCAACCGCAACTATCGGAGAAAAAATTGAATTAAGAAGATTTGTATCGGTAGATGGTGATTCAATTGCTGTTTACAATCATGCAAACAACAGAATTTCAGTGTTACTACAATTTGAAGGAGATATTTCACAAGAAGATGCTTATGATGTATGTATGCACGTAGCTGCAATGGCTCCTAAATATTTATCAAGAGATGAAGTGCCACAAGACTTTAAAGATCAAGAGATGCATATTATTAAGGAAAATACAGATCTAACTGGCAAACCTGAAAATATCGCTAAAGGAATTTTGGAAGGTAAATTAAGCAAAAAACTTGCAGAAGTTACTTTATTAGATCAAGGTTTTGTAAAAGACGAAAAACAAACAGTTGGTAACTTTATTAAATCAAAAAAAGCTACTTTAAAATCTATGTACAGATTTGAAGTAGGAGAAGGAATTGAAAAAGTAATTACTGATTTTGCAGCAGAAGTTGCAGCGCAATTGAAAGGTTAAGTGAAAAAAATGTTATTAGCAGGAACATGAAATAATGGGGCTATTGATCAAAAGAATATTTTATTAATTCTTATTGTACAATTATGTGTTATTGTAGTACCAACAATTTATACTTATGTATTATTTTTTAAGTTTCAAAAAGTTGATGTAGATAAAAAGAAATTTAATACTAAATGATTTGCAATTGTAGCAGCTTTGCAAATTTTAACAATGGTACCTCAAATAGTAGGGTGATTGATGTATTTTGGTGAAAAAATTATGCCAAATAATTATGATATGGCATTATACATAGCATGAGGATGTGTAGGAGCAGTATTTGCTTTAGTTGCTACATGATATATATTGTTATTTTTCTTCCCACAAAGAATTTGGGTGTTTTTTGATGAAGAAAAACTATTTGTATTTGATAAAGGTATTAAAAAAGAAAAAATTGTAAACATTTTAAATGATCAAAGTTCAAATATGTTGTATATTAATTATACTGAAGGAAAAACTAGTTTGAAAAAAATTGCAATTCCATTCAAGTCAACTACAGCAGAATTTATCTGAGTTAGTGCACTTTCAGAAGGGTTAGAAAAATTTGAAGGTTCAGAAGCTATATTCTTTAAAGAAAAAAGTATTAGTTTAAAAATGGGAGACCCAGCTGAAGAAGAAAATATTCAACAAGTTCCAACACAAGTCATTATTGATGGACAAGAAATTGATCCAAACCAACAATATATGGACAATCAACAATTATATCCAAACCAACAATATATGGACAATCAACAATTATATCCAAACCAACAATATATGGAAAATCAACAATTAGATCCAAACCAACAATATATGGACAATCAACAATTAGATCAAAACCAACAATATATGGAAAATCAACAATTAGATCAAAACCAACAATATTATGGTCAAGATAATATGAATAATCCTGAGCCTCAAAATCAAGAATTTTATCAAGATGTTCCAAATGAACAAAGTCAAAATAATGAAGAAGATGCATTATTTAAAGATGGAGATTTTGACGACTAATAACAACTTAATAATTAATTTAAAAACCTTATTTAAGGTTTTTTTTATTGTAAAATAATATAGAAAAAGGCAGAGGTAACTTTGTAAAAGTTTGAGAAATACTCTTAGAACCTGATATAGTTGATACTATCGTAGGGAGTCCTTTGAAAAAGACACATATTCTGCTTTTTTCATGGAGGAAATTCATGGAAAAAAATAAAAAAACATTAAACTATGTAATTGCATGTTTAACATCTTTAAAAACAGTTGTTATTATTGGATTATTGATTTTTTATATGATTAAAGTTTTAAATGCTAATCAATATGATGATGATGGAGAACTTGTAAAACTAGACTCATCTCAAAAAGGTTTAGTTTATTTTGCATTTATATCGATGATAATTGCAATTACATTTTTTGCGATTGCATTTGTTATTTATTTTATTTTTGATTATGAAAATAAAATAAAATTATTTTGTTTTTCAATTGTAACATTTAGCATTGAAGGTATAATTTGTTCAAGTATCATGATAAAAAAAAGTATTTTTTATTTTAATAAAAATAGTTTTAAAGTATTTAAAAATTGAAGAATATTAGATATAACATTAATTGGACTATTATTAGGTTTATATTTATTAATTGATTTTATTTCAGGTTTTGTACCAACATTGCCATTTTGAATCACTATTTCTTTGAAATATATTATTTTATATTTTGGAGCGTATATTCTTCCTATATCTTGTACATTTACATTATGTATGTTGGCAGCATTTATGACAATATTAATACCAACAACTGCTGCACATACTTTTATACAATATTTATTCGACTATTGAATACCAACTTTATGTTTCTTTGTTGCAGGTTTTTTTAAACCAAACGAAACTATAAAAAACATATACTATCAAGTTTTTAGTTGATTTATTTTTGTAATATCTCCAATTTTTATATTATATTTTTGTAGAGTTCTATCAGGAGTTTTATATTGATTAAATCCAAATGCAATTGGAGATGATGTATTTTATTCGTTTGTTTGAAATGGTAGATGAAGTTATTCTGTTATATATAATTCTTTTAATACAATAACAGATTATGTAACTTTACAAATTTTAGTACCACCAATTTGTAAATCGCTATCAATTCTTAGAAAAAGATATTTTGATAATAGAGAAATTTATTACTAAACACTCTTTAAAGGGTCACCCCAAACTACATAAAAGTTATGTATAAAATTTTATAGAGGGGTGATTTTTTTATAGTAAAAACTATTTTATTTAGTACTGAAGAAAAAAAGAAAATAATAGATGAGTTTACAACTACAGATATAAGCGCAAGAAAGTTAGCTTTAAAATATAATATTAAACAAACATCAACTATTTATGTTTGACAAAATCGTTATAAACAAAAAGGAATTGCTGGGCTAATTGATGCACAGAGAGGTAGAAAAGCTAAAATTAATAAAGAAGTTGAGTTTGAAAAAACGAAACAAGAGTTGGAACATTTAAGAAAAGAGATGCAAATTAAAGAAAAAAAGAATAAAAAACTAACAAGTAAAGTAAAAGTTATGGAAAAGTATACAGCATCTCTAGTCAAGGAATGAAAAAACAAAAAGTAAATATCGAATTGTATAAAATAGCAAAAAATTACGAGCGAAAAAATATAGCATTATCATGACTAATTAATCTTTTAAATATTAATCTAAAAGCTTATAATAAATGATGAGCAAATGGTTCAAAAGAATATATGACCAAAAGAGACACAAGTTATGACTTATTTATAAACAAAGTTTTTTACGATAAAGATTCAAAATATTGAACTCATCGAAAATGAGGGCATAAAAAAATTGCACTAAAATTTGGTTTATGTCTAAAAATGGTCTTGAGTTCTATGAAAGCACAAAATCTAGTTCCTGAAAATTGTGAAAAAAGTAGAAAATGAAAAGCTTATACTAAAAAAAGCAAAGATCCAATAAATACAGCTCCCAATTTATTAAAAAACCAAGAAACAAATAAAATCGAGTTTATTGCAAATAAATCGTTAGAAAAAATTTGTTTAGATATTTCGGAGTTAAAAATAAAAAACAAAAAAATTTACTTATTTGCTTATATATATATTCTAGACTACCTTTAATAACATATTTTGCAAACAATTAAACAAACGAAGAACTTATTAATAGTATGCAACTTTTAGTTGCTAAATATGATGTAAAAAATAGCATTACCATACTGATAGAGAATCACAATTTAGGAGTTTAATTATAAAAGAATTTTGTAACAATTACAATATTATTCAAAGCATGACAGATAGATATGCTTCATGACAAAACTCGATAGTAGAAACATTTTTTAAAAGCATAAAACAAAATTATTATGTAGGTTATAAGTTTGAAGATAATGGAACTTTTATAAATTGAATTAAAGATTGTATATAAAATTATTCTAATAATAGAATAATAAACAAATTAAAAAATACTCCCAAAGAAATTTTTGAGAGTAATTTGTTAAAATATATGTAGTTTGGGGTGACCCTTTACTTTATAAATATTTTTTTTATAATAATTTAGATAACTTTAATAATTTTTATTTCTAAAAAAGTATTTTGTTATAATCTTTTTAGTGAGGTATATATGGCATTAAAATTTAAACGTGTATTGTTAAAAATTTCAGGAGAGGCACTTAAGGGTAGCTCGGATGAAATTTATGATAAGGTTAAATTGGAAGATACTGCAAGACAAGTTATAAGTTTAACAAGAGAAGGACTACAAGTTGGTATTGTAGTTGGAGGAGGAAATATTTGAAGAGGTAAATTAGCTGGTACTTTAGAATTACAAAAAATTGATGCTGACTATATGGGTATGTTTGCAACAATTATGAATGCACTAGCAATTGAAGCTACCATCAAAAAAATGGGATTTGAAAAAGTTAAAGTGTATTCTTCTTTAGAAATTAGAACAGTAACAAGTAGTTATAATTATAGAAATGCAAGAGAAAAATTAGATGAAGGATATATTGTTATTTTTGCCGGAGGAACTGGATTTAGTTACTTTACAACAGATACTGGAGCTTGTATTAGAGGAATTGAAATTGAAGCAGATGCATTATTAATGGCAAAAAATGGAACAAAAGGTGTATATGACTCAGATCCAAATATTAATCCAAATGCAAAGTTTTTATCAAATTTATCATTCCATGATTTAGTGGTAAAAAACTTGAAGGTAATGGATTCAACTGCTGCAAGTTTAGCGCATGATGGAAAACTAGATATTGTAGTTTTTGATATGAACGGACAAGACAATATTATTAAAATTGCTCATGGAGAATTAGAAGCAACGTTTATCAAATAAGAAGGGAACATAATATGTTAAAAGATATTTTAGAAAATGCACAATTAGAGATGGAAGAAGTTATTGAAGCTTTTAAACATTATTTATCAAAAGTTAGAACAGGAAGAGCAAATGCTTCAATGTTAAAAAGTGTTGTTGTTGATTTTTATGGAACTCCAACTCCAATAGATCAAACAAGTCAAATTACATCACCTGAACCACAACAATTATTAGTAAAACCCTATGATAGAGGTCAATTACCTAATGTTGTTGCAGCAATTCATAAAGCAGATTTAGGTTTAAACCCAATGAGTGAGGGAGATTTAATTAGAATTATTATCCCACAATTAACAGAAGATGTAAGAAAAGACTTGGTTAAAAAAGTTCACAAAGAATTAGAAACTTTTAAAATTAGAGTAAGAAATGCAAGAAGAGATGCAAATGAAAAGATTAAAAAATCTGATTTTACTGAGGATGATAAAGGTTATGGAGAAGATGAAGTACAAAAATTAACAGATAAATACATTCAATCTCTTGATTCTATTACAAAAGATAAAGAAAAAGATTTAATGACAATCTAAAAGTGCTAAAGCACTCTTTTTATTTTCACTAATTATTAAATATATTGACTTAAAAATATAGTTTAGTTTATAATAAAAATTAGAGGTGCTAAAAAATGGGCTACAAATTAGGGGCGTTAGTATCTTATAATGATGAAAATTGAGTAATAATTGATGTTAAAACTAAGGAAATATCAGATGGGCAATTGATATTTTTAAAAATTAAAAACGTATTATCTCAAGAAATATTAAATGTTAGTTCTAATGTGGTTAAAGAAGTTGAAATTAAACCAATAAAAGAAGAACAAAGAGAAAATCTTGAAGATACACAATATATTCAATCATTTTTCAATGGGGTTGGTGAAGAAGATTCTGATGAATTTTTCAACCTTGGTGAAGAAGAATCGTTATTTGATATAGAAGAAATCGAAATTGATAGTACTTTAAAAAGTATTGAAAAGGATGACGAAATCAAGCTAAACGAAGAAGAAGAAAATGAAGTTTTAGGTAAAATTGATGAGCCTAAAAATTTTGAACGTCCAGATACAAGAGTTCATTTTTCTACTCCAATAAATCCTGATTTGACAGGATCATTATCAAGAACTCCTGCAGTAGATGAAACTTTAAGTGATATGGAACCGGTTGCAATTTTTAATAAAGAAAAAAGAGTATCTAACAATAGTTTAGATAAACTTTATGAAACACCAAAAATCATGCCATCAAGAGTAAGGGGAAACGACAATAGTATCAACATCTTTGATAATAATGTAGCAATCAAAAACAGTATTTTTAATAATCAAAATGAGCAAAAACAAAATGATTACAACCAATCAAATATAAAAGATAAACATAATCATAATTATAATAATCATACAAATTTTGAAAATAATCAAAATATGTATCGAGAAAATTTTAATAATAGCAATTTGCAATATCAAAACAGTTTTAGTAATGCTGCTCAAGAAAACGTATCAAGTATCACAATAAATAACGATAGTTTAGAACAAAATATAAATGCAAGTAATAAAGTTCAAGAAAGTGTTATTACAAATGATAACACTAGAATGTTAAGTGCATTTGAAAGAAAAATTGGAAGCATAATAACAAAAGAAATACCTGAAAATAAAAACAACATTTTAGAAACTCAAACTATTAAAACAAAAGAAATAAAAACTGAACTTAATAGTATTGAAAATAAGCCGAATAATAATTTTGAAGTATTAAAAGAAACAAACATTGAAATAATAAAAAAATTAAAAAATAAGTCAGAAAATCAAAACATAATTGATCAAAACCAAAGTTTCGAAAAGAAAATGGCAGATCCAAATATATATGATTATACAAAAGATTCCAATAAACCAAGTGAACCTGTATTTAATGAATCATTTGAAGATAGTGAATTAACAGCTTCTCAAACTGATAAACTTGTAATTGAAGGTCTTGCCAATAAAGACGAAAAAGTTATTGAAAAACATTTTGATGCTTTAACAACCGGTCCGTTAAATACAAAGAAGTTATTAGATAATTTTAATAAGCAACAAAAAATAGCAAAAAATCTAGATCTAAATTTTAAAGAAAGTTTAGATGAGAATGAAAATAATATCTTTGGACAAAATTCTCAGTTTAATAAAAAAGCATTAAACGAATCGATAATTTATAAGAGATTTAAAACTTTAACTTGCTGATTAATATTTTTATTTGTTATAGGATTTATAACTCCTTTAGTTGGCATATTTATGAAATCAAGTTATGCTTATTTAGATTTAAAAAGTTTTAATTTCAACCAAATTTTAGCAAAAGTATTTCATATGTATTTATTTGAGACGGACGCGTTTATAAACTTTAAAGTATATGCAATAGGAGACATAGTGCTAATTATTTTAACGCCAATGCTTTTATTTACTTTTGCAATATATCTAATCGTTTATCTTGTTTGTGTAAGTGATAAACAATACAAAAAAATAGCATTCTACAACTTTGAATTAGGAAGCAAAATTGAAGTTATAGAACAAATTCAAGAATTCAACAATGAAACCAGTTTATATTTATTAAAAATTCATAATGATATGAAAAAAATAAAAAAAGAAGTTAAAAGCTTTAAAACAAAGGATAATACAAATACTAAATCAGAAAAAGAGCAACCAATAAATATTCAACATTAGTTTGAGATATTTATTGTTTTTTGTATTAAAATATAATATGTATTTTTTAAAGGAGATTGTAAAAAATGAATAATTGAGATCTTTTAATATTATTACCAATTATTTTTGTTAGTAGTATTTTTGTAATTTTTTTTATAATCCATAAAGAAAAAATAAAGCTAAAAGCAGGACTATTTTTAGGAGAAATTTTTATTTTTTGATTAGGAGTGGCTTTTATTGGTTATCAATTAACAAATGCTGCTAACACAATCATTAAAAGCATTGATTCGATGGCTTATATATTAATAATTTTATTTAGCTCTAGTTTATTTGCAATATTTCTTAAACCTTTAGCCACTTTTTTTACTGGTGTAATAAGAAAGAGAAAATTTTGAACAATTTTATCTTATTCAATTTTGATTTTTATTTCGTTTGTTTTGATTTTTGTTAAATTAAACCAACTAACAATAGGAATAATTTCTTTATTTTATGCTATTCTATTATCTACATCTACAATTCATAATTTGATTTTAAATGAACAATTTTATTATAGAGTAAACACTTTACCTTCAACTTGAATTTGTTATACATTTATCGGTTTAGGTTCTGCATTTGGAGTTTATATTGCAAATATACAATCAGTAGTTTTTAAAAGTATTAATTTTTTAGACTTAGATATTATTGCGTTATTGATTGGGTTAATTGTTTTGTTATCAACAATTTTTATTTTAAAAGAAAATAAAAGTCTTGCAGGAGCATTTGATAAAGAAGTGATAATTCAATTACCTAAAAAAAATAATTGAAATTTTATGTTAATTTATACTTTAACTTTACTCTTATCTTTAACATATTCAATATCAAATTCTATAATCACTCAAACATTTTTAAGCTTAAAGTTTTTAGAATATGGACTTTCAAAAGAACAAATCGAAACATGATTAAGAACTTTTAATAATGCTTTTATCATTCCTTCATTAATTATTTCTTATTTTATATTTAAATATTTATTAAAATATTTTGGTCAAAAATATTTATTTATGATGAACTTGTTGGTTTTATTTATTATGTATACTATTCTAGTGTTTATTACTAATCCTTATATTTTCATATTTTTAAATATATTTATAGGAATAACTTATACTCAACTTATTTATACTTTATTCTCGTTTTGTATGTTTTGAAATTATAGAGCGCCAAAAAATCCTGTTACAGGTTTTTTTGGTTCTGCACTATTTTTAGGAAAATTTATAATAGAGTCAATTGAAAATATTTTAATAAAACAAAAAGTTTCTATTTTTAAAGATTTTTATAAAATTTGAGATATAAATAATAATGATCAATTAACAGCGATAAAAAATCAATATTTTGATGTATTATCAATCTTATTCTCAGTTTGTGTTGCATTAACATTAATAATTGCTTTGATTTATTATTATAGTAGTAATAAATTGATTGCTGATTTTATAAATTATCGATTAGCTACGCAAAATTTAAAAGGAATTTTAAAAAGAAGAGTTATTGAAAAAACAAAAACACAAATTAACGTTGAAGATTTAAAAGTTAAAGTTTAAAATATTTTTTTAATTTAATAAATATAAAAAAAGCAACAATTAAGTTTGTTGCTTTTTTCAATTATCATAATACTCATTTATTAAATTTTTTAGTTCGGGAACTAAATAATTTTGTTCTACAGTTTTAAAAATTTCTCCTTTTTTAAAAATTATTCCGCCATTTCTGCCTCCAGCAATCCCGATATCAGCTTGACTTGCTTCTCCGGGTCCGTTAACAACACAACCTAATATTGCAATTTTTAAAGGAAATTTGAAACTTTCAACATATTCTTCAATTTCATTTACAACATCTTTTAAATCAAATTCAAGTCTTCCGCAAGTTGGACAGGCAATAACTTCGACCATATTATCAAACAAACCTATAGAGTTAAGTAATCTTTTTGCAACTTTTATTTCCATTATTGGGTCTTCACTTAAACTAATTCTTATTGTAGAACCGATGCCTTGATATAATAGGTATCCAATTCCAAAACTTGATTTTATAGCTCCGTTTAATAAACTTCCTGCTTCGGTTATCCCGATATGAGCAGGATAATCTCAAATTTCGCTTGCCATACTATATGCTTCAATTGCCATTATTGGATCTGTTGCTTTTAGAGAATAAATAATGTCATAAAATTCATACTTTTCTAGAATTTCAATATGTTCTCTTAACGATTCCACCATGCATTTAGATGTTCATCCATATTTTTGAACTAGTTTTTTTGGTAGACTACCAGAATTAATGCCTATTCTTATAGGAATCTTTTTGTCTTTACATTTTTGAACTACAGCAATTGTATTTTCTTCTATTCCGATATTACCAGGATTTATTCTAATTTTTGCACAACCGGCATCTGCTGCGATTAAAGCGAACTTATAATTGAAATGGATATCTGCTACAACTGGGATTGGACTTTTTTCAACTATTTCTTTTAAGGCGTTTGCATCGTGTATACCTAAAACTGCAACTCTTACAACTTCACAACCCTCTTTATACAATTCGTTTATTTGTTTTAAAGTTTCATTAACATTATGAGTTTTAGAAGTTGTCATTGATTGAATAACAACTTTATTGTTGCCTCCAATTTGAACATTTCCAACATAAATTTTTCTCGTTTTTTCTCGTTTTATCATTAAAAAATCTCTCTCAATTCTTCTATAAAAAATAATACCATACCAATATAGAAACAAATATTTAATATATAATTAATCTTGTGGGGTAAATTATGGCTGATAAAATTACGTTGAAAGATATTGTCGAAATAAACAAAATTTTAACAAAAAAATCATATAATTCTTTAAAAGAGTTTAATACTTATTTAGATGTAATTGGCGAATATATTGATGATACTTTTTTTAAACAAAATATCATCGCTGAAAAACTTATTAAACATCAAGAATTAAGCTCAAGATTTATAGATTTGCAATTTGAAGAAAGTAGTTTAAATCTTTCATATAAAAATTTGCATGATTATTTATCAAATTGTAAAAGAGCCATTGAAAAAGCATTATATAGCGATTCGAGTATTTTTAATTTTTCAATATTTGTAGAAATAAAAAGTATTGTTAGATACATTTTAGAAAAAACATATGAAATCGAAAGTTTAACGGATTATGAAACTTTATATGGTATTAATACTATTGAATTTCATCAACAAAATGAAACTTTTAAATATCTTTATAGTGTTTTTGATAAATTTACATATATTGCTCGTCATTTAAACGAAAGATTTTTAAAACATAATAAAATCGATGTTAGTGAATTGTCTTTAAAATTTTTTAAAGATTTTCCTAATGATATTTCTTTTTTAGCCCAAAATGTTGCTTCTTATCAAGTATTAGTTACAACAATTGAAACTATTACATATTCAAAAGCATGACACTTTGTTAGAAAATTAAGAAATATTTTAGAGCATGATTTTGCAGACCCATCAGAAAAATATAATATAACATTTTTAATAGAGTTATTATTTATAATAATTGGTAGAATAATGTTGGTTTTAAACAAGACTTTAATGTCAGAATCTGATATTAGAAAAACTTTAGAAGATTTACAAAAACAAGAGAGGGATGAGTAATTTGAAAGAAAGATGAAATCAAGTTGAACTCGAAAACTTTACAGGTCCTTTAGATCTTTTATTACAAATGATAAAAGATAAACAAGTAAGTATTTTAGAAATAAATCTTTTAGAATTATCAAATCAATATCTAGAATATATAAAAAAAATAGCTGACAAAGATATAGAACTTGCAAGTGAATATTTAGTAATGGCTGCTTATTTTTTAGAACTAAAATCAAAATTTTTAATACCTAAAGAAGAAGTATTAGTTGATGGAGATTATGAAGAAGATCAAAGAAAAGAATTATTAAATCGTCTTTTAGAATATCATAAGATTAAAGAAGTTACTGAGTTTTTTAAAGAGCAACAAATTGAATCTTTAAAAGGATTGAGTAAAGCAAAATCTATTATTAAAATTACAAGAATTGATGATGAAAAATTACCATTAGCTCCAAATAATATTAACTTAGATAAATTTTCAAAAATTTTTTTAAGAGCCATTGAAAAATCTAAATTTAGAACTGTTGAAACAAATATTCTTACAACAACAGAAGTTTCACCAGAAGAAATTGCAAATGAAATTAAAAAGCATTTAATAAAACATAGTATTGACAAAATAAAATTAGAAGATTTGATTGAACAAAAAGACTTTTCATTAAGAATGCTTGTAGCAACTTTTATGGCAGTTTTAGACTTAGCTTCAAAAAAACTTATAAATATTTTTCAAGAAGGTGACGATATCATCGTTGAAAATATTAGCAAAGGAGAATAATCAATGAATTTCAAAAAACAAATGGCAATTGTTGAAGGTTTATTTTTTGTAAACGGAGATGAAGGGACAAGTATAGAAGATATTAAACTTATTTTAGAAATTAATGATGAAAAAAAAATTGTTGAAGTTATTAATGCTTTAATAGAAAAATATCAAAAAGATGATTCATGTGGATTAGAAATTCAAAACTTTGCAAAAACAAAATATCGAATGATAACAAAAAAAGAAAATGTTGAGTTTTATACAAAGTTATCTAATATAAAAACAGAAACAAAATTATCAACCGCAAGTATAGAAACACTTTCTATTATCGCCTATAAAGGTCCAATCACTAGAGCTGCAGTCGAAAACATAAGAGGAGTAAATTGTGATGCTATCTTTTATAAATTAAAAACTAGAAATTTAATTACAAATGTTGGTAAAAGTGATGAGGTTGGAAAACCAAGTCTTTATAAAGTTACAGATAGTTTTTTAAAGTATTTTAATTTAAAAAGTCTTGATGATTTACCAAAAATAGAAGATGAAAGCAAAAATGAAAAAGACATTTTTGGAAGGTAAATAAAATGGAGAGATTACAAAAAATTATAGCAGCAAGAGGATATTGTTCTAGAAGACAAGCGGAAAATTTGATTGCTCAAGGAAAAGTAAAAGTAAATGGTGTAGTTGTAACAGAAGCTGGTAGTTCTTTTGATAAAAATGTTGTTATTTTTATCAATAACAAGGAAGTAAAAAAAGTAAGCGATAAAGTTTATTATTTATTCAATAAACCTAGATTAGTTTTAACAACAATGAATGATCCAAAAGGTAGACCGACTGTTGCAGATTATTTTAAAGATTCTAAAATTAGAGTGTTTCCTGTCGGAAGACTTGATTATGATGTAAGTGGAGCGCTTATTATGACAAATGATGGTGAGTTTGCTAACTTTGTTATGCATCCAAGATATGAGTTTAGAAAAACTTATCAAGCACTATGCAAAGGAACTGTTTCAAAGCAACAAATTAAAAAATTGATAGTTGGAGTTATTATTGATGATGATTATAAGACTAAAGCAATTTATGCAAAGTTAGTTAATTATGATGCAAAATTTGATGAATCAATAGTAGAGATAACAGTTGCCGAAGGAAGAAAACATCATGTTAAAAAAATGCTTATTGCAGCAGATATATTTTTAAAAAAATTAAAAAGAACACAAATTGAATTTTTAGAAATTAGTGATGTTAAATTAGGAACTTATCGTGCATTAAAGACGCATGAAGTTAAAATGTTTTATGGTTTATATAATTCAAATAATCGAAAAAACTAATTTTTATTTTCATCAAATTAAAAATATTGTAAAATTTTAAGTATAAGTAAAGAGGTTTATATGGGAAGAGCACACGAAGTTAGAAAACAAAGTATGGAAAAAACGGCTGCAATGAAGTCGGCAATTTACGGAAGAGCTGCAAAAGAGATTTATATGGCAGCAAAAAGCGGAAGCGCAGATCCGGATTCAAACTTAGCATTAAGAAGTGCAATTGATAAAGCTAAATCAAAACAAGTTCCAGCAGATGTAATTCAAAGAGCGATTAAAAGAGCATCTGGAGGAGATGCGGAAAATTATACTTCAAATAGATATGAAGGATATGGTCCGGGAAACTCAATGATAATTGTTGATTCATTAACAACTAATGTTAATAGAGCAATTGCCGAAATTAGAGATGCATTTAATAAAAATGGCGGAAAAATTGCAAACTCTGGATCAGTTTCGCATTCATTTCAAGCAACTAGTTTATTTGCTTTTGAAGGAAAAAGTGTAGAAGAAGTTTTAGAGTTATTAATGGAATCAGATTGCGAAGTTAATGATGTTGTTGAAGAAGAAGGTCTAACAATTGTTTATGCACCTTTTAACTCATTTAATTCTGTAAAACAAGTTTTAGATAACATCGGAATTGGTGATTATAAGATAGCAGAAACTATAATGTTAGCAGATGAAAATATAAAAATTGAAGATGAAGAAGCAGTTGCTAATTTTGAAAAACTTATTAATAAGTTAAATGAGTTAGAAGATGTTCAAAACGTTTATCATAATGTAGAAGACTAGACTATGTTAATAACATAGTCTTTATTTTGTTATAATAAAAATATTGGAGAATATAAATGAATAGAGATATAGTTTTACTTAGAGCTGTTGAAGTAGCCGCACTTGCAACTCACAAATATATTGGAAGAAAAGATAAAAAATTAATAGATCAAGCAGCAGTTGAAGCACTAGAAGTAATATTAAAAAACGAAAAAGATTTCAAATTAAAAGTTGTTAATGGTGAAGGAGAGCTTGATGAAGCGCCAATGTTATATTCGGGACAAATTTTGGGAGACATTGAAAATCCTGAGGCTAAAATTTATGATTTATCTGTTGATCCTGTTGAAGGTACTTATCCTGCTGCGTATAATTTTGCAGGTAGTGTTGCTGCAATTGCAGTTTCAAGATTAAACACTCAATTGCAATTACCAGAAATGTATATGGAAAAACTATTTGTAAGTGATGAGTTTAGAGAATGGATAGATTTAAAAAAAGGAATTATTAATGTAATCAAAGATATGCAAAAGTTTTGTCAACGAAAAGACTTAAAATGTATTATTTTAGATAAACCAAGACATAAAGAAATTATTGAAGAACTAAGTGCAATTGGTGTCATAGTTAGAATGATTCAAGATGGAGATGTTCTTGCGGCAATCGATGTTGTGAATGGTGCTGCTGATTTTGTTTATGGAATTGGCGGAGCGCCTGAAGGGAGTTTAATGGCATCTTTAGCAATTGCTTCAGGATGTAAAATGCAATCACGTTTAGTTCCTTATCAAGAAATTTGACCAAATGAAAAAGAAACTAAACTAAGAATGCAAACAGAAAATGCATGAATAGAAAAACATAATATTGATTTTGATACAATCTTAGAAGATTTAGATTTAATAGCTGATGAAAGGGCAAGGTTTTTTGCAGCAGGAATAACTGCTGGCGGTTCATTAAGACCAATTGATTATAAAAATGGTAAATTCTATGTTAATGCATTTATGGCAAGTCATGGAATAGCGAGAAATATAAAATCAGTTTATGATATTAAAAAAGTAAATGCTTTAAAACCAGGCATTAAATCAATATTTGATAAATACAAAAGATAAATTCAGTAAATATGTAATTAATAATTTTGGAAGGAGAGTAAATAATATGTCAATTATAGTTTATGTTGCAACAGCACTTACATTAGTTTGTTTAATAACATTAAAAATGTTTAATATATATATTTATTCTTCTATAAAAGTTGTAAATATAAACTCTGCTGATATAAATATATCAACGTCTAAAATAAATGATATAACTACAAAACTAGTAAGTTATTTAAATGTAACAGATTTAAAAATTATTTATGGAGAAACAGATTTTTATTGCAGAATTACAAAAATGCTTAATCGAAAAAAACAATTAGTCGAAATACCAAAATGGATTATGCCAAGTGTGGGTTATGAATTAGACTATTTAATAGCAAGCATTTGATATAACTCAAAACTTTATAAAAAAGATAAATATATTAAAAGATATAATTTTGTGGCTCAAATTTTACCTTCAACTTTTATTTTGATTTATATAGTTGCTTTAATATTAGATCTTATTTTAATTATTTTAAATAAATATATTTTGAGTGATTTTGATTATTATGGTAGTTTTTTTGAATTTTTAGGTAAGTTTTTTATACTTGATTTTATAGCTATTTTATTTTTCTTTATGTATATAACTTGTTTGTTTTTTGCAACAAAACATAAAATAAATATAGAAGCAACTTATGAAAGAGAAATTGTAAAATTTGTCGATGAAAATTGCGAAGGTTATAAATCTGATATTGGTGCTGCAAGAGTATATTCTTTAAAAATTGATAAATTGTATTTAAATACATTTTTGTTTAATAAAAAAACAAGTAATATCAAATTTTGTGGACCTTTTACTATGTTATAAATAAAAACTCATATAGTTTATCTATATGAGTTTTTATTATGCTTGACCTAAACCTTTTTCTTTTCATTCAGTAAGAATTTCTTCTTTACCTCCAGGTTTTAAATAACGATCTTTATATTGTTGATATCTTTCTTTACATTCTATAATTTCTTTTTCTGCATGATCAACATCACCTCATCCATCGATTCTGACTTCTTTTTTTTGTAAAGATTTATATTGTAAGAAGAAGTTTTCGATTTCATCTTTTAAATGTTGAGGAACATCACTTATCTTTTGATATGCATTAAATCTAGGATCATCATGAAATACACCAAATAATTTTGTATCGATCTCTCCGGCGTCTATCATTTTAATACTTCCAAGAATTCTTATTTTCACTTTAACCCCTGGCATTGTAGGATAAGTTACTAAACTAATTACATCAAGTGGATCTCCATCTCAATCTAAAGTTTCATCAATAAATCCATATTCTCCTGGATAAAAGTTTGCTCCATATAAAACTCTATCTAAACTAATTGATTTTGAAGCAATATCATATTCATATTTATTTGAACTACCTTTTGGAATTTCAACTATCATTTCAATTACATTATTTTTCATATTTTATTTATCTCCTTATACATATTCATTTTATAGTAAAATATTTCTATATTTTGATAAAGTAACAAATTAAAGAAAGGCATTTTAATAAAAATGAAGGATAATAATAAAATAAAAGTTATAAACAAAAAAGTCGATATTAAAAAAAGTATTGAAGAAATTGAAACAGGAACTTTTTATATAAATAAATGAAGAAAGTATTTTAAATTAACACCTTATAAAATTGCAATCCTAGCAACAGTTTTAGCATTAAATATTGTTTTATCGGCTTTTAGTGCATTTGCACTAACTCCATTAGTGATTGGTGGGTTTTTAAGAGTCGAGATTAGTTTTTTAACATACATAATTGCTTGGAAATTAGTTAATGGTTTTTACTCATTGTTATTAGTTATTCCTGCGACGTGACTTAGATATGTTGGAGTTGATCCAAATGCAGAACCAATTGGATTATTAACTATGAACTTAAGTGACTTATTTGCTTTATCTTTCTTTATTTTAGTTAGTAATTTATTAAATATGAAAAAAGAACATACAGGAAAAATGAAAATATATATAAAATATATTTTTGCAGCAGTAGTAGTTTCTATTTCTACAGGTTTTTTTAATATTTTAATTAACTTTACATTTATTTTAGATATGTATAGCGAATATATGGGAGTAGAAGCAATTAAAGCACTTAAAACATACTCATTTGCAAGTGTATTGATATTTTTTAACTTTATTAAATATGTAACAAACTTTTGACTATTTTTAACTTTCTATGAAACTATTAATATAATTTATAAAAAAAGTATATTTTCTTAATTTTTCTTATTTATAAATGTTATAATTTAAAAGTAATTATAAAAGTTATAATTTAGAAAAATTATAACATAGAAGGAAAAAACCATGGAAGATAAAAAAGAACAACATGTTATACCTGAACATAAAGAAGATGGTAAAAAACATGATCATTATCATGGAGAACACCATTTCGATGGGCAAGGTAATCATGATGATATTTTAGATGAAGATTTTAATATAAAAAATAGTATCTATACATCTAAAAGAAATTTAATTTTTAGAACAGCTGCTGCTGGTACATTTTTAGCTTTAGCTGCTATTGGAAGTGCAATTGATATGTTTGGTGAAAGATTTTTCAAATTACCATTAAATGAAATAATTTTATCAATTAGATATTTTGATATTTTGATTATTTGTTTATCTATTGCAAGCATAGGGCCTGTTTTTTCTAGTTTTATTGGAGTTATAATGCCATGAATTCACATGTTAATGGATGGAGATCATCCGCCATTAACTCACGTTGTTGATTCATTTGGATATTTCTCAGTTGTTTGAATTTTATGATTCTTCTACTATGTAGTATTTAGAAATTCATACATTCACAAAGATAAAAATAGAAAAAAAGATTTGTTTAAAAGATATATGCCATTAGTTGGATTTATACCTGTGTCAGTAATTGTATATACAGCTTTTACAATTTTAATAATATTTATAACAGACCAAAGTGGACATCACCATGATGATCATGACGAAAGTATTATTAATAAAATTATTAGTTATCATGAAAAACATGAACACGAAGCTCAAGGAGATGAATGAGATTTATTTAAAGAAAAAGCTGTTATTTATTCATTTACTATCGCAGGATTTGAGTTAGTTAGATTTTCTATATGTGGAGCGTTGTTTGTAATCTTAGAACCACAAATGAAAAAAATTAATCATAGATATAGATAAAAATCTCTCTTTATTTTTTCTTAAAATGGAAAAGAGATTTTTTTTTGATAAAATCAAAGTGTAGTTAAATTTCTTTATTAATTACAAGAAATTGGAGGAAATAATTTATGGGGAAAAAACCATTATATGTTTCATTAGATTTAGGTACAGCATACACACTTGTTTATATTTCAGGACAGGGAATTGTGTACAATGAACCATCGATAGTAGCATATAAAATAGCAGAAAATAAAATAGTAGCAGTTGGAGAAGAAGCTTATAAAATGATAGGTAAGGCCAACAAAAATTTAAGAATTGTTAGACCAATGGTTGATGGAGTTATTACAGATATTAAAGCAACTCAATCACAATTGAATCACATTTTTGCTAGATTAAGATTAACAAAAGCTTTACAAGGTTCGGTGATTCTTATGGCATGTCCATCAGTAATTACAGAATTAGAAAAAAATGCTCTTAGAAAAATAGCAACAAATTTAGGAGCGGCACATGTTTTTGTTGAAGAAGAAGTAAAAATGGCGGCACTTGGTGGAGGAGTTAATATTAACTCACCAACAGGGCAATTAGTAATTGATATGGGTGGAGGAACATCTGATGTTGCAGTTATTGCATCAGGAGATATAGTTTCATCAAAATCAATTAAAGTGGCTGGAAATACTTTGAATGAAGAAATTTTAAAATTTATTAGAGCACAATATGGAATGGAAGTTGGAATCAAAACTGCTGAAACAGTTAAAATTCAAATGGGTTCATTAGCTAAATATCCTGATGAAAGATCTATGAAAGTTTATGGACGTGACGTTGTTTCAGGATTACCAAGAGAAATTGAAATCACTCCTCCAGAAATTAGAGAAGTATTAAAAGTTCCATTATCAAAAATTATAGATTTAACAGTTAGAGTATTAGAAGAAACTCCCCCAGAATTAGCTGGTGATATTTTCAGAAATGGTATTGTTTTATGTGGAGGAACAGCTTTAATAAAAGGTATTGATAAATATTTTGGAGATACTTTACAATTACCAGTAAAAGTTGGTGAACAACCATTATTAGCGGTTATTAATGGAACAAGAAAATATGAAGAAGATATTTATGACAAATTAAGAGAGATGTTATATAAGCCTAAAAACCAAGAGTTTTAACAAAAAAACCTATTAAATTGAACATCTAAAATAAAATTGACAGTAAAAAAGTACTTTTATTGTTAAAATTTTATTGAGAGGTGTTCTTTTTATATGGCAAAACAATAATCAAAAAACGAAAAAATTAAAATTATTGAAGAGTCTAAAAAAATTGGAATAACAGATGCTACATTAAAATATGATGTTAGCACAAGTACAGTCAAAAGATGAAAATCAGAAATTAAAACTAAAGGTGAAGGCGCTCTTGAATGAGGGAACGGAATCAAAACAAAAGGAAATATTAAGAAATTTAAATCTCATGATTGAATTTTTAAAGACCCTGACGATATGACAACAGAAGAATTAAGAGAAGCTTTAAAATTGGAGCGAGCTCTAAAAAAGCATTTGGCGAAGACAACTAAAGAAAAGTACTTCGCCATTTTTAAATACTCAAAAAAGTTTACTTTGTCATTAGTTTGTAAAGATTTAAGCATTTCAATATTTGGTTATTTAAAATGACTAAAAAATTGAAAACCTATGAATAAAAACTATAATCGAATTCTTGCTATAAAAATTAAATTTATTTTCTATTTATTTAAAGAACGTTTTGGTTACAACATGATAACTCTACTTTTAAACAAATATTTTAATCAAAACTTAAAACCATGAGTAGTTTATAGATATATGAAAATCAATAATTTAAAAGCAGTTCGCAAAAAAAGAGTACTTAAATATGATAAATCTGGTCCTTTGAGATATGAAAACTTATTGAAAAGGAACTTCAATGCAGATTGTTTAAATTAAAAATGAGTTACAGATGTTAGTTATATAAAGACAGCATCAGGAAATGCATATTTATTTGTTATAAAAGATTTATATAATTCAGAAATTGTTGCTTGAAAATTATCTAACAGTCCTAATGGTAAATTATGTTATACAAACCTTATCTCTGCAATCAAAAAGAGAGGCACTCCTAATATTATTAATTCTGATCAAGGTAGTCCTTATACCAATGAAACTTGAAAAAGTTTATGTGATGAAAACAAGATAAGTATATCCATGTCAAAAAGAGGTAACTCTCTTGATAACGGAGCGTGCGAATCTTTTTTTGGAACAATAAAAAATGAATGTATTTATACTTATAAAATAAAAGAATTAAACTTTTCAAATATCTATACAATAATTTCAGATTATATTGATTTTTATAATTATGTTAGACCTATGTTGAAACATAAAAAATCTCCATACGAAATTCGTATGGAGAAAGTACCTTTTTAATGTCAATTTTAATTAACAAGTTCAAAATAGGTTTTTTTGTTTATATAATTTTAATAAAAAAAGAATAAAATTATTCTTTTCCTATTTTAATAGCCCCTGTAGGACAAACCATTTGACAAGTTTTTAATTCTTTATCATTTTCTTTTGCTTCAGCCAGTCCATCTTCATCCATAAATAAGATGTCATCTTCATCAATATTTACACAAGCTTCGCAACCAATGCAAAGAGTTTTATCTACTCAAGTTTTTTTCATTTTATCTCTCCTATTATTTTTATAATAACAAAAATATTAAAAACTGTTTAATTAATTTATAATTATATAGATTGGGGATTAAATATATGGCCGATATTTCAAGAATGGAGCGAAATAAAGAACTCCATAACAAAATAAGATTAGAAATTGCTCAAAAAAAACAAAAACAAGATGAAAAATCTTTAATTTATACCACTTTTGAAAGACTTAAATTAATTGATGGTGAGTATTTTAAAGAAAAATTAGACTATTTTGATAAAAAACATCAAATTGAAAAACCTTATCTTGATAAAGATAAAAGTAATAGTTTAATATCAGAAGATATACGATTTCAGATAAAAAGAGAAATTGCAGAACTTAAGAAAATAAAACCAATTGATTATGATAAAAAACCTCAAAAAACAGAAATGAATGAAGAAATTGAAATTAAAAGTGCCAAGTTTTTAAAATATTATAATAATTTAGTAGCAAATGAAAAAGTTTTTTATGATAATATTGAAAAGTTTAAAGTAAAACAAAAAATTTTAAAAGATCCATCGCATGATATCTCAATGACAACAGTTCAACAAGTTAGAAATAGTGATACTAGAAGCACAAATATAATGATAAAATCTGTTGAAGATAGACTTGAGGCTGGACAAAAAACTTTAAATAAAGTATGAGCTACATATGACAAAAAAAGAAGATTTAAAAATATAACCTGATTTTTTATTGTTTTAATACTTATGATGATAATTGCTCTTATTATTCCATTTTTTTTATAGGAGAAGTATATGAATTTAAAAATAAATATTGCAGTAGATGGAACAGCAAGTAGTGGTAAAAGCTCTGTTATGATGGTTGTTGCAAAAGATTTAGGATTTCATTTTATCGATACTGGTTTAATGTATCGAGCATATACAAAAATGTGCTTGGATAATAAAGTTGATTTTAATAACAATGTTAAAATTATCGAACAGTTAAAAAACTTTGATTTTCATTATCGAGAAGGAAATCAAATTTATGTAGGAAATAAAAATTATACAAAATATTTATCAGATTATGATGTGGTTGAAAATATAAAATATATTGCAACTTTATTAGAAGTAAGAAATAAAATGGTTGATTTACAAAGAAAAATGGCAATCAATGGAAATAAAATTATGGTAGGAAGAGACATTACTACCGTTGTTTTACCAAATGCTGAATTAAAAATTTATTTTGATTGTTCTGCAGAAACTAGAGCAAAAAGAAGAGTTAAACAAAATGAAGAAAATAATATTTATCCAAATGATTATGAAGATATTTTAAGACAAATAATTCAAAGAGATGAGTCTGATAAAAATAGGAAAGAAAGTCCGCTAATGATTGCAAAAGATGCATGAGTGATTGATACAAGTGATTTAACATTTGATCAAGTGGTAGAAAAAGTAAAAACAAAAGTATTATCATTTATTAATCAGGAGGAATAAATTTATGTCAAGAAAAGGAATAGTTGCAATTGTTGGAAGACCTAATGTGGGAAAATCAACACTATTCAATCGAATTATTAAAGAGAAAAAAGCAATTGTAGAAGACCGTCCTGGCGTTACTAGAGATAGAATGTATGGTAATGCAGAATGATTAACTAGACCTTTTATTGTTGTAGATACTGGTGGTATTACTCTTGAAGATAGTATGTTTGCAAAAGAAATTAAAATGCAAGCAGAAATAGCAATGAAAGAAGCAGATGTTATTATCTTTCTTTTAAACTTTAAAGAAGGAATAACTCTCGAAGATGAAGCTGTTGCAAAATTACTATATAAAACTAATAAACCAATAATTCTAGCAATAAATAAATATGATAAAAAAGAAAAATATGATGAATCTTATTCTTATATGTCATTAGGATTTGGAGAGCCCTTTTTAGTATCTTCTTCACATGGAATTGGTACAGGAGATTTATTAGATAAGGTGATTGAACAATTACCTAAATTTAATGATGAAAATCTAGAAGCAGAAACTAAATTAGCAATTGTTGGTAAACCAAATGTGGGTAAATCAAGTATTGTTAATGCTTTGGTTGGAGAAAATAGAATGATTGTTTCTGAAATTGCAGGAACAACAATTGATAGTGTTGATACAAAAATTAAGTATAATAATTCTGAATATACTTTAATTGATACAGCGGGTTTAAGAAAAAAAGGAAAAATTTATGAGACCTTAGAAAAGTATAGTTATTTACGTTCATTAACTTCTATTAATAAAGCAGATATTGTACTATTAGTTTTAGATTCAAGTACCCCAATTAGTGATCATGACACTAATATAGGAGGTTTTGCTTTTGATGAACATAAACCAATTATTATTGTTGGAAATAAATGAGATATTGTAGAAAAAGTTACAAACACAATGATTAAAAAAGAAGAAGAAATTAGAGCATACTTTAAATATCTAAATTATGCTTCAATATTGTTTGTATCCGCAAAAGAAAATAAGAGAGTAAATAAAATTTTTGATGCAGTTGATTTAATTAAAAAAAATCTTAAAAAAAGAATTAGAACAAGTATATTAAATGAAATCTTTAATAAAGCTCAATTAATTAATCCTTCACCAAATCATAATGGAGGAAGGTTGAAAATTTATTACGCTTCTCAAGTAGAGGCTTATTTACCTACATTTGTATTATTTGTAAATAATCCAAGTTATTTACATTTTTCCTACAAAAGATTTTTAGAAAACCAAATAAGAACACAATTTGATTTTAGTGGTGTTCCAATAACTTTAATTTTTAGAGAAAGGAAATAATAAAATGAAAAAAATAAATGTTGCAATAATTGGTACAGGCGCTTATGGAACGGTTTTGGCAAATGTTTTAGCAGATAATGGACATGATGTAGTTATGTATGGAATTGAAAGGATACAAGTTGAAGATATAAATAACAATCATTTAAATACAAGATTTTTTCAAGACCTAATAATAAATAGTAATATAAAAGCTACAACAGATATAGCAGAGGCTATGGAAAATGCACAAGTTGTAATCCTTTCAACACCAACTTTTGCGATTGAAAATGCTGTGGATAACATTATTAAATATGGAAAACGGGAAATGCATGTAATAAATGTTGCTAAAGGATTGGATGAAAACAACTTGAATGTTTTAAGTAAATTCATTGTAAATAAACTAACCGGAACTGGAGTTATGAAATCTTTTGGAGCGATTTATGGTCCATCTGTTGCAATTGAAGTTATTATGAGGAAACCAACTTGTGTAATGAGCTGTAATGAAGATATAAAAACTGCTGAATATATTGCCGAGTTATTTACTAATGATTATTTTATTGTTAAACCAACTAGAGACATCATTGGGTGTGAAATTGCTGCAGCATTAAAAAATACCGTGGCTATTGCAAGCGGTTTATTATTTGGATTTAATGCAGCAGACAATGCTAAGGCTTCACTTATAACAATTGGTAACGCTGAAATTTATAACATAGCAAAAGAATATGGTGCAAAAATTGAAACATTTATGAACTTTGCTACTTTAGGGGATTTAATACTAACTGCCAGTTCTATTAAATCAAGAAATTTTTCATTAGGTGTTCAAATAGCTCAAAAAGATGATGCTTCTGCTGTTTTAAAGTACCATAAAAACACAGTTGAAGGTGTAAAAACTTGTGAAATAGCCTATAAAATCGTTAAAAAACTTAAAATTTCTTCTCCATTATTTGAAATAATGTACAAAATACTATACAATAAGGGTAAGCCTAGTGTGCTAATAAATGATTTTTTCAAGCATGCAAAGGTAGTATAGATATAAGGGGTAGGTAAAACATGACAAAAAAAGAATTGTCTGATAAATTAGCTTCAGAATTTAATCATTCAAAAGCTGATGGAGAAAAAATGGTTAATTTCATTTTTGATTCAATCACTAGTAGTTTAATTAAAGGTGAAGAAGTCGCTATTGCCGGATTTGGAAAATTCGCTACTGCAGATCGTGCTGCAAGAGAAGGTGTTAATCCTTCAACAGGAGAAAAAATCAAAATTGAAGCAACAACTGTTGCTAAATTCAAAGTTGCAAAACAACTTAAAGAAGCAGTAGCTAAAAAATAATTAGTTACAATTTGGTAAGAGTTGCTTGGTAACTCTTATTTTTTTTTTTTTTTGCGGAGGGGTTATGTTTGATCTATTTAAAAGGGGAATTATTAATAAAAAAAGCCTACTTATATTAAACTACTCAAAATTTAGTATCAATGAAAATCAGTTAGCAATACTTTTAATTATTATGGAGTTATCAAATGAAGAACAAAAAAATTTTACTCCATCTCAAATTGCAAAATATATGAATCTTGAAAAAGATGTTATTGAGCAAGAAATTAGTAAATTATTAGTCGATGGATTAATTACAATTGAACAAAATGGTAAAAAATCAATATTAGATTTATCGCCGCTTTTTAATAAGATCATCGTTAGTTTAGAAGAACAAAACTCAGGTTTGGCAAAAGATATGAAATATTCATTTATTGAGCAAATGTTAAGAATCAATCTTACTCAAGAAAATATAGATTTAATAATTGAATATATGAATAAAGGTCTTTCTAAACCTAAAATTTTATCAATAATCACAGAAAATAACATCAAGACTTTTGATGAATTAATTAATTATCTAAATGAATATGTCAAAAAAACTAACAAGCTAAAAATTACTCGTTATAATTGATTAAACGATTAATATATTTAGTTAAATCTAAAACTAAATTATCAAAATAAAGTTCAAAACTATTATTTTTAAATCACTCATAAGGAATTTTTTTAATTTTAAAATTAGATAATTGATTATAATTCACAGCAAAATAACTATCGTAGTCGTGAAAATATATTATCAAAAAAGCAATACCATTTAAATTGTTAATCAATTTGAGTTTTTCAAATTGATTTTTCTTTATATTTGCTAAATTAAAATCTGCTTTATTAGTTTCTTTGGCATCAAATTCTAGATAAATCCCATTATAAATACCTATATAATCACAAAAACTATTTTTTTCTAATTTTGCTTTTATTACATTATTTTCAATGTTTATTATAGAATTATTTATTGGCACTTTTTGAATTAATAAACCTTTTTTTAGTAACGCATGTAAGCTATTATTTATAACTGTTTCTAAATACATCCCTTTATTTTTTAGTATCATATAAAACACTCCATTCAATATTTATATCGTTAAATAAATCTGAAATTTCTAAAATAATTTAAAAAATTTTAACTGATTTGGATTTTATTTCGCAAAACATAATAATACACTATATGATTAGACATAATCTTTTAAAACTTAAACAATTACTTAAATTATGGGAAATTAAAGTTTAAAATTTATAGAAAGTTTTTTGTGTTTACTATATTTTTTTAATATTATTAAAAAAAATTAGCATTTAGTAATCAAAAAAATATTTTTTTATATAGTTAAAAATGATATACTGCTAATTTTTTGAAAATATATAAAAAATAAATTTAGAAAGAGAATAAATAACATTACAATTATTTTTGTTAACATTAATTTTAATAGCTATAGTTTTTGTGAAAAATTAATTGATGATTCTTATTGCTTAAATGATGAACATTACATTGTCAATTTTATTCTGAGATTGAATATAATGACTATAATATAACACTAACCAACTCCGATTATTTTAAAACTTTAATAAAAAAATATATTATAAAGGAAAAATTTTATTTATATAATAAAGACTTTGATTGTTAAATGAAAGTAAAAGTTTTAAATTATTATTTTTTTGATTATTTTTGAATATTTCTAAGCGAGAATAATTACTTTATTTTTTCTAGAATATTTGTTTATTTTAATTTAATAACTTATATTAAATAACTTTGTCTCTTTGAGGTTGTCTATTCTAAAATTAAGAGGTGATATAAAATTACTTTTCTGGATTTTTTTATGAAAGTACAAATAAATAAAAAAAAAGAATAAAACTTTAAATTTATATACAATGTTATGAAAAAAAGGAAAGTTATTTCACATAATAATTCAAAAACTTACACTTTAAATTGGATATATAGAAATAGTCTATATTTAAATTAAATTATAGAAGCTTTACTTATCAATAAATAATCTTATTTAGAATAACGGAGCCTAAGTAGACCATTTATTGTAAAATTAATGATCTTTTATATATTTCAATTATATTTTATATATTGTAAATTATTATAATCTTTTGAAAACTTCTCAAATAGATTATAAAAGCACTCTTTATTTGCAAATCTATCACCATATGTTGCAAAAAACTTTTGTTTTATTCATCCATTTAAACTTTCGGTAGGTACATTGTGCTTAAATCCCTTTTTTGACATAGAATGTATAATATTTTTATTTTTATTAACATAAGTAAAAAATACTTTCATTTGAAAAAGCTAATCCTCTATCTGATTGAATAATTTTTTTTAATTTGTTTTGTATTGCATAATTGTTAATTTTTTGAATTACATATAAAGCAATTACAGAATTCTCACTTTGATCAAACTTATAATTAACTATTGTTCTTATTAATCAATCATAAGAAATTAAACAGCTTAGCTTTGTTATACTTTTTGAGTTATTCAAAAAAATTTTAAAGTTAGTACCATCAATGCCTACAACATTAGGTGTTTTATAATTCATTTCGATTAAATCATTTCTAACATAACTATTGTGTTTCTTAGATTCTTTAAAATAACCAGTTTTATTGACTCTATTTGCTTTTTTTAAAATATTTGATACATCTTTTCTTATTTTTCTAACTAATTTTTCAAATACTATAATACTTTTATTTATAAAAATTCATTTTCTAATTAAATCAGACCCTGATGCTAGCATGTTATTTGCATCGTTATAGTCTTTTATTATTTCAACAGCTCTATCATAAATAGGACTCCTAAAACTAGGTAGATCTTTAAGATCTAAACCTTGATTATACAAATTTATTGGCTTTTCTAAATTGTTTTTTTAAATCTTTTGAATGTATTTTTATGTACTTTAAAATATTTAACTAAATAATTTGTACCAATTCCATATTTTGCAATAAATGTATAAATTTGACAGCATGCGAAATGTTTATAGGCCTTTGTCGCCATTATCATTATCTAGTCCTTCTTGCCATCCTTAACATGTTCAACATTGTGGTTATTGTGCAAGAAGGAATGGACTTTTCCAAAATTTCTTTGCTCGCTATTGCTAGTAGTTTTTCTTGTTGCTCAAACTTTAATTTATTTTCTAAGATTTTTATTTTTTCTTTTAATACTTTATTTTTTTTCTTTATTTTTTAGTTCTTTAGAAATGAACTCTTTTTTTGATTTTTGACTCACTTTATCAATCTCATTGCATAATTTGCTTCTATTATAAGAATAACAAAGTTTATCATTTTTATCTCAAATTCTTATTAGCTGACCCCCAGATATGATATTTAATTCATAAGCTATTTTATCCACTGATTCACCATTTCTAAATCTGTTTAATGCTATTTTTTTAATTTATTCTGTATACTTTTTAGGCATTTTTTTCTTTTTAATATAAAAGACCAGTTTTTTAACTGGTCTACTTAGGTTTTTTTGGATAAGAAAAAATTTTTAGTGATATTTATTATTTTTATACTATAAATAAATTACAAAAAATTTTTGATACTTTTTTTGTTTGTAATATATTGACACAATAACCCAGACATATTTATAACTTTTTTTATTAAATCAACAAATTTTTTATAAAATATATATATGGGGGTTAATTTATGGCTAATGTAAATATTAATGCACAATTAACAAAAAAAGATATTTTGGAAAAAGAGTTTGAGGTTGAATATAAAGGATATAAAGTAGAAGAAGTTGATTCTTTTTTAGACTTAATAGCAGAAGATTATAAATATTATGAAAAAATGGAGTCAGAAAAAGAACAAATAATACAAAAATTAAATGAAAGATGTCAAAGTTTAGAAAATGATTTAAATCAAACAATTGCAACTTTAAAACTAACAAAAAAACAACAAGAAGAGTTAGCTAGAAAAGGAGTTAACTCATCAGATATTATTAAACGTATTTCAGCTTTGGAAAAAACTAATTTAAACAAAGATTAGTTATTAGTGTAAAATATACTAGTGAAATAATTTTTTGAATCAACCGCTATATTTGCAAAATAATATAGAGGAAACTCCACGCTTGCACATTCTGTGATGAATGTAGTGTTTGTGCTAGAGGAAAAAATAACTCTAGGCGCCTTAATTGGTGACGACAAGAATTAGCCTAAGTGTTTTTACATATGGCAAAGTCTTTAAAGTGCCACAGGGACGATTAGCTAGAAATAGTGAAATGGAACGGGTAAACTCCACAAGCAAGAAACTCAAATTATGGTAGAGGAGCTAAAAGATTGAGAATCAAATTGATCTTTTGGATCACTTTTTTAAGTGATAGATAGATGGTTGATGCGGTAAAAACGTACAGAACGTGGGTTATGATAAAAATTATTCACTATTTTTTTTAAGGATTTGTTAAAATGAATAAATTATTTGAATATTTAAAAAACAACAATTATACATTAGCAAGTTGCGAATCATTTACTGGAGGAATGTTTGCTAATTTATTTACAAACATGTCTGGTGCTAGTGATTATTTTAAAGGAGCATATGTTTGTTATTCAAATGAGTTTAAAATAAAACACTTAAATATAGAAGAACAAATCATTAAAAAAAATAGCGAAGTTTCTAAAGAAGTTTTAACAAAAATGTTAAAACAAACTCAAGCATTATTAAATGTTAATGTAGTTTTTGGTTTTACAGGATTTGCATCTCCTATTGATAATAACAATCCTAGAAGCGGTTTAAGCTATGTTGGATTTGCAATTAATAATGATATATTTATATATGAATTTATAGATGTGAATAATTTATCTAGAGAAGAGTATAAAATAAAAGCAATAGAATATGTATTAAAAAAATTTAATTCTATTTGAAAAAAATGTAATTTTTAATATTTTCTTTTCGATTTATTTTATAGGGAGGAAAATATATGCTAAAAAAAATAGAAAGCAATGTAAACGAAGGGTTTGTATTAAATATGGAAAATATATATGACGATCCAAATTTTAAAGCTGTTTTAAAAGACATTGAAAAAACGTTTGGAAAAGGTGCGATTATGCGTCTTGGAGATAAAGCAAATAACTTTATCGAAGCACTTCCGAGTGGAAGTTTTTTGATTGATAATGCAATTGGGATTGGAGGATATCCTAAAGGAAGAATAATTGAAATATTTGGTCCTGAATCTAGTGGTAAAACTACTTTATCACTTCATGCAATTGCAGAGGCACAAAAAAATAAAGGAAGAGCTGCATTTATTGATGCAGAGCATGCTTTAGACCCAAAGTATGCAAAAAATTTAGGGGTAGATATTGAAAATTTAATTGTTGCTCAACCAGATTCCGGAGAACAAGCATTAGATATATTAGAAATGCTAGTAAAATCAAATACAATGGATGTAATAGTAGTTGACTCGGTTGCAGCATTAGTTCCCAAAAGTGAATTAGAAGGAGAAATGAGCGATCAACAAATTGGTTTACAAGCAAGATTGATGTCAAAAGCATTGAGAAAATTAAACGGAATAATTTCAAAAACTAATACAACAGTAATATTTATAAATCAATTACGTGAAAAGGTTGGAGTAATTTTTGGAAATCCTGAAACTACTCCCGGAGGAAGGGCTTTAAGATTTTATTCATCACTAAGAATGGAAGTTAGAAAAGGTGAAACTCTAACTTTAAACGGAGAAGCAAATGCGAACAAAATTAAAGTAAAAATTGTAAAAAATAAAGTTTCCCCACCTTTTAAAACTTGTACAATAATTATCGCTTATAATAAAGGAATTGAAAAAGATTTAGAAATTATTGAACTTGCAACTTTATATAATATTTTAACAAGGGCAGGAGTTTGGTATTCATATAATGAAGAAAAAATAGGACAAGGAAAAGAGTCGGTTAGAGAATGATTAAAAAATAATCCTGAAAAAGAACAAGAAATTATGCAAAAAGTCAATGAAATTATTAAATAAAATAAAAAATATGTTTAGAAAAGAGAAATAAAGATGACTAATACAAATGATTTAAAAAGTTATAATAATCATACATATCCAAATGAATTTAAAAAAATAGCTTTATTTTTTTTATTGATTTCATTTGTTTATCTTATAATAATTGGTGTTTTTATATCTCTTTTTTGAGTGCAATTACCAAATTATTCATTTAATGAAAAACTTGTTTTAATTATCCCAATTTTTGTATTGGTATGTATTTTTGGAACAATATCAGATTGTTCAAGTACACTTGAATTTTTAAAAATTAAAACCATTAACAGAATCAAAGATAATACAGTTTTAAAAATAGCATTTATTTGTATATGACTTCCGATTCTCAATATTATGATTTTTTATTTCTTACTATTAATAAAAAAAAGAATGATTAAAGCAGGTCCTTATGAATATAAAAATAAAATTTCATATAAATTTGGTGGATTTTTCGATAATATTTTTGGAATCACAAATAAAGGTATAGCTAAATCTATTTTGGTTAAAGGTTTGATAGCTTCAATATTTATAATAGTTTTTTTAACTGCAGCTGTTTTAATCCAAACTAAAGTAATATATTTAGATGAAAAGATAACGGCAAATTGTATTTCTCTTTATATATTTGGTTTATTAATTCACATATTATTAATAATTTCTTATTTAAATGAATATTCATATATTTGTAGAAAATCAAATGATCAAGTAAAAGATAAAAAATATTTTGCAATTGCAATTTATACATTATTTATACCAATTTTAAATTTTGTTTTTTGATCAATAATAGCATATAAAAAATTACAAGAGAAAAAAGTTAAAGTACTCGACTAATTAAATACTTCATTAAAAAAATACGTTTTTTATAAACGTATTTTTTATTTGTGCTCAATATACAAAAATATTTAAACTTAAAATTTTGCTATAAACTTTATAATCATAGTAAACTTTTATTAAATAAAATAATTAAAGAAATAAAATACAAACTTTTTTGAATGATATTACTTTTATGTTTTCGGTTCCTATATTAATAGTTTATATTTTCTAAGTAAAAATAAAGTATTAATAGGAATAGACAAATGCATAGTAAATATTTAAGGAGTAAATATTTAATAAAGATTAACTTTATTATCGATTGGAATATTAAAAAAACAAATAAGTTATTTGAGTGCTGAGATTACAAATAATGTTTTAAATATGATTTTAAAGATTGAATAAGTTGTGTATATCAAGGTAATCAAATATATACAAATTAAGAAATGTAAATAAAGAAATACTTGATGATGAGAAAAAACTTGTTTAAGATATTAAATCTAAGATAGGTTTTAAATTAATTCCTAATCAAATAAAATATATAAATAATAACGATATATAAAAGTTATTATTTATATATATAATTATTTAAATTTGATAAATTTAACTAAAGAATTAAAAAAATAACTTTTTATTTAGGATAAAAAAAGTAAACAATGATTAGATTTTAGCAACTAATTATTAATTATATTTTTTATAGTTTTAACAAATAAGAAAAAAAATTATAAGTGTTATTATACATATTCAAATTGTAATTATATTTAAACATTTAAAAAAATTTAACAGAAAGATTCATATATAAATATTTGTCTAAAATTGTCAACTCTTAACTTTATTTGATTCTATTGAAAATAGTAAGAAAAATAATTTTTATATAAAATGATGTTCTAATAAGTTAAATTTCCAAAAGTATCGAAGATCTTTCAAACGTTATTGGTCGTTGAATAGATAAAGCAAATATTAAGAAAAAAATATATTAAAGTTGTTGTTACTCTTTTAGAAAAACAGTTTAATCATATCACAATAAACTTTTTATAAAAAACACAATAGATTCATATAGTATATTTGTTTATTATGGCGTAGTAACAGATGTGAAAAGTATTATGTTTAAAATATTTAATTAATAAAAAAATATGATTTTGCTATTTGAACTTTAAATTAATAAATATGAAATTTAATAGTGTATTATCATTGATAAGTATAACGTGTTTTTGTTTGCTATAAGTATATAAATTCTACAAGAGATCACTTATTCTAAAATAGAAACTCAACTACACTTAATTTAATTTTGATTATGCAACCACCAAGGCGTTAGTTTTTATTAAATCTTAAAATGATATTTTTTATAACTCCTTTCATTGGAAGTGGTGATTAAATATTGATAAATCAAAATGAATTATGACAATAAATAATATTGTTAAAAAAACTATAATTTACTTACAGATATTTTAATCTTAGTTTCATTAATGAAAAATTATTGTTAATAAAACACCTTATGAAATTTGTATGAGATAGCAGAGAAATATATAATTAATTTTAAATGGTTTTAAGTTTGTTTAAATTATAATAAACTATAAAAATTTTTTTATAAATTCTATTTTATATTAGAAGTTTAAAAAAGTGTATAATAATATTGTTACAAACAACACCATAGTCTACTTGAAAGTAGGAAATAAATGACTAATTCAGAAAGAAACTCATGACTTATAGTTGTGACAGCACTTGCGATTGCAGTGTTTTTACTAATATTGCTTAGTTGCTACTTGTTGTTCAACCGTCGTAGAAGTCATGTGCTAAAAAAAGCGAAAGACGAAGCAAAAAAAATAAAAATGGAAGCAATTGCTGCTGCTAAGATTGAAGCGACTATTTTAAAAAACTCGATTGAAGAAGAACTTTTTTCTAAAAGAGCAGAAATAGAACATGAATCTGCTTTATTAGAACAAAAAAAGATAAAATACTTTGATGATTTAGAAAATTTAAACCTAAGAGAATCTAAAATTGTTGAACAACAACTAGAAAATAATAGGGTTAAAAATAAGTTATCAGTTGATGTTGATAATGTTGTAGAAATTTTAGAAAAACTAGCTGATATGTCATCAGAAGAAGCGAAAGAAAGATTATTAATATATGCAGAAAGTACATATATTGAAGATATATATAAAGAAATAAAAACAAAAGAAGAGTTTATTAGGAAAAACTCAAGAGAGATTGTTTTAAACATTATTATGGAAGCTATGGAAAAATCGCATGTTCAAATAGCTACTGAAAAAAACACAACTATTTTTAAACTCGAAGATGATTCGTGAAAAGGAAAAATTATTGGTAGAGAAGGTAGGAATGTAAAAACATTTCAACAATATGGCGGAGTTGACATTATAATTGATGAAGTTCCAAATAGAATAGTTATATCTTCATTTAACCCTTTAAGAAGAGAAATTGCATATAATACTTTAACAGAATTAATAAAAATAGGTAGATTACAACCTGCTGCTATCGAAGAAACTTTGATAAGTGAAGAGCAAAAAATACAAGAAACATTTTTTAAAACTGGTAATCAAGTTACAAAAGATTTAAACATATTTGATTTAGATGAAGAAATAATTTTAAATTTAGGAAAATTGAAATATCGTTTTAGTTATGGACAAAGTGTTTTACAACATTCGATTGAGGTTGCAAAAATTGCAAAATCACTTGCTAATGCATTAGAATTAGATGAACAAATCGCCCTTAAAGCAGGATTATTACACGATATTGGTAAGGCTATGGATTTTGAACAAGAAGGTAGTCATGTTGAATTAGGGTCAAATCTTTTAAAAATGCATAAAATTGATAATATAATCGTTAATTGTGTAGAATCTCATCACGGAGATGTGGAAAAAAAATCTGTTTATGCAGAAATAATTTCAATTGCAGATACAATAAGTGCTGCAAGATTTGGGGCAAGAAATAATGGAGCAGAACAATTCTTTGAAAGATTAAAAGAAGTAGAAACTGAATGTGAAAAATTTTATGGTGTTTTAAAAGCTTATGTTTTTCAATCAGGAAGACAAATTAGAGTTATAGTAAATCCTGACATTATTCAAGATCATGAAATGCTTAATTTAACTCAACAGATTAAAGAAAAAATAAAAAGTATTAATAAAACTCCAGGAGATATTTATATAACTTTAATTAGAGAAAAAAGAGAATCTACAAAATTATAGTTTAAAATTAATTCAATTGTTTTTTTTAATATTTGTATTTTTAAAATCACTTACTTTATACATTTTTGTATAGAGTTTTTTGTAGAATGAACAAAATAAATTAAAAAAATGATATTGTAGTAAAATTATTTTATAAGGAAAAAGTAATGAATATATTTAAATTAACTTAAAAATATTTCAGAAAAACTTATAAAAAGTGCAAAATACTAAGGGAATGTATTTTGATAATTTTATTTTTATCTTGGTTTTGCTAAGGAGAGAAAAAAATGAGTAAATTAAAAATAATGTTAAAAATATTAGGTTTGTGTGTTATAACAACTTCAACAACATCTGTTGTTGCCTGTCAAGGACCTGCTGGAGGTTCTAGTAACAGTAATGATGGTCCAAGTTATGACTATTTAAATCAAATTGTTGGAGATTTTAGAACTTATGACATTAAAAAATATGGAGCACCATCAATTGATAACTTAGTAAATATGTTTAATGCAAAATCTAAATTTAAAGTTTTGAAGAAACATAATAATCAACCTAATACTATTTTGTTAAAGTCATTTGAAATTACTAGTGAGAAGTTGATAAAAGTTGAATTTGAATTACCAGATATTGAAAGTAATAAGCACTATCTATATTTAAATCAAAAACCATACATTGAATTAAATTTCAGTTTAAACTTTACTTATGAAGATCAAGAATTTTTTATTAAAAAAATAGATGAAAAAGTTTATGGAGAAGGAGTTAAACAAAAAACTTTTTTAAATGATCTTGAAAGCCTTCTTTTTGATGGTATATATGATGATTTGAAAAGTTGAGGTAATGATGTTCCAGACCTTCTTTTGGATAAATTAAATTTAAAGGACAGTTTAGAAGTTTCGCGAAATATGAGTCAGGATTATTTTTTAAAAAATCAAGGTTTAAAATATAAAGATTATTCCGATTCAAATCATAATAATTTTTTTAGTAACTCACTTTTAGAAGAAAACATCATACCTGACTCATTTAGTTTTACATTTATGCCAAAGAATCACTGAATTAAAATAGATAATTCATATGAGTTCGTTTGAAAAGCGGATGAAGATAAAATAAATAATTTAAAAGTAATACCCAATTTAGACGCATTAAGTGCAGATAAAATGAATCAATCAAGTTATAATCGTAAAGTTGTACTAAATTCATTTTATAATAAAGATAATAGTACTAAAGAATTTTTAGAAAGTATATATAATAATAATTTAAATACTTTTTTGAAACCATTAACTAAAAAAATTATAGACACAAAAATAATGAATATATCTCTTTCATATCAAAAAAATCCATCATCAAACACAAAAGATGATGTGTTTGAAAAATTAGATTTATCTACTTTAATTGGTAAATGAAGTGGAAATGAAAATGCTAAAAGCTTTTTTGAAAATTTTAAAAATGAGCATACAAATGATTTTACTTTTTACATTTCTTTTGTATCTCCATCAGATTCAAAAGATTTTAAAGGGCAACTATCAAAAGTCATATTAACTATGGATTTTAATGAATGAAGCGAGCAATAAATTAAAATGAGCAATAAATAAAAAACATCTTTATTGAACTTGTCAATTAAAATTGACATTAAAAAGATACTTTCTCCATACGAATTTCGTATGGAGTTTTTTTATACTTTAATATAGGTCTTACGTAATTATAAAACTCAATATAATCAGAAATTACATTATATATATTAGAATAATTTAGCTCATTTACTTTATAAGTATAAATACACTCGTTTTTTAAAGTTCCAAAAAACGATTCACATGCACCGTTATCAGGAGAATTTCCTCTTCTCGACATAGAAATCTTTATATTATTAGAATCACATAAATATTTTCAAGTCTCGTTTGTGTATGGCGAACCTTGATCAGAATGAATAAGTTTTGGTTTACTTTTTTTTGTGATTGCAGATTTTAAATTTGTATGGCAAAGTTAATTATCAGGTCTTTTAGAAAGTTTTCAATCTACTATTTCTGAATTGTATAAGTCTTTAATGACTGATAAATAAACCATCCCTGAACTTGTTTTAATGTAAGTAACATCTGTAACCCATTTTTCATTTAAGTTATTTGCTTTAAAATTTCTGTTTAAAATATTTTTAAATCTTAATGGAGTTGATTTATAATGATCGGGTACTCTTTTCTTTTTGACTGCCTTAATGCCTAATATTTTCATATATCTGTATACAACCCAAGGTTTTAAGTTCATTTTAAAATACTTATTTAACATGAGTGTAATCATATTGTAGCCATAACGTTTTTAAAAAGATTATGTATATAAATGATTTTGTTAGCAATTTTTATATCATAGTTTTTGTATTTAGGTTTACCTGTTTTTAATCATTTTAAATAACCATATCTTGATACTCCTAAGTATTTACAAACTATTTTTAATGAGAAACACTTTTTCGCATTAAAAATAGCGAAGTACTTTTCCTTAACAGTCTTCGCCAAATGATTTTTTAAAGCGCGCTCTAATTTTAACGCTTCTCTCAATTCTTCTAAACTCATATCATCAGGATCTTTAAATAACCAATCATGAGATTTGAATTTCTTAATATTACTTTTAGCTTGAACTCCATTACCTCATTCTAAAGCACCTTCACCTTCAGTTCTTATTTCATGTTTTTATCTCTTAATAGTACTGGTGCTTAAATTAAATTTCACTGCAGTATTAATTATTCCAACTTCTTTTGCCTCATTAACTATGTTAATTTTTTCTTGTTTTGATCATTGTTTTGCCATATAAAAAGAACACCTTTCAATTAAATTTTAACAATAAAAGTACTTTTTTACTGTCAATTTTATTTTAGATGTTCATTATTAAAGATGTTTTTTTATTTATCAATTTTATTTGCAAAAAATGCAAATGTTTCTGCTCCAGTATGGCAAACTATTACATAAGGTAAACTTTCAACTAACCCAAGTTTTAAACCTTTTTCAACTACCATATCTTTTACACTTTGTAACAGTTCTTTAGAACAATCTGAATATGCAATATCAACAACATACTCACCACTAGTTTCATTAATAATTTTTTCAATAACCTTTGAAACTGCTTTTTTGAAAGTTCTAGTTTTATCTTCTTTATCAATAACTCCTTTGTACGATAAGATTGGTGTTATTTTAAGGATTTTTGCAAGACCAGCTGCAGCCTTAGTTATTCTTCCACCTCTAACAAGTTGATCTAGAGTTTTTGGAATGATATATCCTTTTATTTTTTTGTATTTTTCTTCAATTTTTTTACAAATATCATTTGGTTTAACACCTCGATCAAGTAAATGATGCACTTCTTCTAATTGTCTTTTAATTAAAATACTTACTCCATTGTTATCGATAACATGAACCCTTCCAGCATATCCGCCTTCAGAATCATTTGAAAACATTTTAAATGTATTGTATTGTCCAGAAAGTCCTTTTGAAATTAATAAACAAATTATTTCATCATATTCTTTTAATAATTCATCTCATTTTGTTAACATATCCCCAGTGATAGTTTGTGATGTTCTTAAAACTTGTTTGGCATTTAGCTCATCATATTCTTTTTTTGTAAAATTTTGATCATCTTTTATAGAAGTACCATCCTCTTTTAAAATTACTAATGGTACTAAAAATGTATCTTTATATTTCGATAAGTCCTTGACTCCACAAGATGAGTCGATAATTATTGCTGTTTTCATCTTTTACCTCTTTTATATATTTATTATACTTGCATATATTTTTTAATTTTAAATAACTCTATCTTTTAAAGTTATTTATAAAATTAAAAATTTTTTCTTTATATTCGTTTTCGTTTTTATGATAACAAGAAGAGTGTTTAGCATTTTTAAATATCATTAAATCACTTATCTTATTTTTTTCTTGTTGTATTTTTAAATTGTACATAACAATACTACAATTGTAAGTTATAAAATCATCTTTAAATCCATGAATAAATAATATTGGTAAATCCTTGAAATTTTCATATCCGTCAAACATGTTCATAGTTGAAATATCAGATTTTGCATAACTTTTAAAATTTCTTTTTATCCCCAAAGACATAAAAAATCATGGTATTTTTAAATATTTTTTTAAAAAGAATCTTATTTGTATAATTGCTTCAATAAATGGACAATCAACAATAACTCAATCAACTTTATTTTTAATATAGTATTCTTTTGCAAATAATAAACTAGTTGATGCACCCATACTAACACCAATAATACCTATTTCACTTGGGTTATACTTTTGTTTAATTCATTTTATTAAAAAATCAAGTATTTTTGCATTTGTAACTCCAAAGTCACTTTTAAATCCATATGTGTTTCCATGAGCATAAGCATCAAAAGTTAAAATATTATAGCCTTTGTTGTAAAAAAAATTACAATTTCTTAAACCAATATATTTATTTCTCTTAAAACCATGTAATCCAATCACTCAATTATTTGAGTTTTTGTTTATTATTTTTAATGCACTAATAATATTGCCTTCCATTTTTAACTCAAATTCATTTATATCATTTTTATCTATTGCAAAATCTCTTATTCCTTTTATTTTTAAATCATATATTAATTGGTCTCAACTATTTAATTTAAAACCCTGTTTAGACAAACCAATTCTTTTATAATTGAATAAGTAAAAAATAAATAATTTTGAACATAAAAAACTTAAAAAAAATACAATAGGAAAAAATAAAACCATTACAAACACTTTTAATGGGTTGTACATATACCGCTTTATAACTTTAAAAGCTTTTCTATAATTATTAATTTTGAGTTTATTATTGTTATTTTCCATTTATATCTCCTGAATTAATTATAAGTAAATAAATCTTACCATTTTTTTATTCTATATAGCAAGATTAAATTTGGAAAATTTTTTAAAGTATGATAAAATATAAACAAATAGGATGTGGTTGTATGTTTATAAGGTTTGATGAGTGAGAAAGTTTCAAAAAAGATCTGCAATTAGTTGTTGCACAATTAGAGTCAAAAAATGATTATGAAGTTCAAAGATATATTAGTAAAAACTGAAAGAATTTACCAATTTGTATTGATGTAGAACTTAAAAAAGGTTTAATTGATGATAAACGTCTTGGCGGAAGAAATATTGTAGTTTGTTTTGATTGTAAAAAAGAGATATTAGCTTTAAATGATGAAACAAAAGATGAGATGTTTTATTTAAAAATTTATGAAGAGTTTGCTAAATTAATTAATTTAGATTTCAAATCCATTATTCATATTTCTCAAAAATGTAAAGCTTGCAATGAATGAATTTGTGGTAGTGACTTTTGTGATTGCAAATGTTTTTTTGAAGAAAATGATTGTGAATGAATCATAAAGTTATAAAAAAGTCTTATTAAGATTTTTTATTTTTTGTTAAATTAGAGGTTTTATTTTTTTAAAGGTATATAATAATTTTAATTGAATTTTGTAACGAACAAAGATTTGTAAAAATTTAATATATTAAGTATTTTTATTATTTAAAATACTTTTTTATGTAAAGGAGAGAAAAAATGCAACAAATGCAATCTATAGAAGAAAGATTAAAATTCTTCTCAAAAGATAAATTTAAAAAATATGGCGTTGTTTTAAAAGAAGCTATCAAAGCTCATCCGAAATTATTTTCTTTATTTATCATCATTTCTACTTTAGATACAGTTTTATTTTCTGGAATGACCTTTATTGTTTCAAATTTAGTAAAAAGTATTACCAATACTGGAGGCCATTCTATTTTTGGAATGCCAGTTGAGTGATATCATTGAGTAATAATTGGCGGAGTAATGGTTTTATCTTATATTGTAATTGAATACTTATTGAACTACACAAGTGGTATTTTTACAAGATTAACAGAGATTTTTATTAGGGTAAAATGTTTGAAAACTTTGACTGATGTTGATTTAAGTTTTTATTCTAAAAATCAAATTGGAAATATTATGACAAAAATTATCGGAGATTCTCAAGGAATGGCTGATGGAATGAATGAGTTTCTTGTTAACTTGTCTTATATTGTATTAATGTTTACTTTAATAAATGTAATTATGTTTTCAATCAATTGAAAAATTGCTGCAATTTGTATTGGAATATTTTTAGTTATCTTTGTAATTTCATGAATTATATTTTTCAGATATCAAAAAGCTTTAATTAGATCAATTGATTTTAAGCAAAAAAATGATACAGATGATGTTGATAGATTGATGAATATAAGATTAATAAAATCAAGCGGAACAGAATTAAGTGAATATCAAAAAATTAAAGAGCAAAATAAAAAATATGGGCAAAAAATCAATAAAACTATTTGATTATCTACAATAATGATTATTTTTACAAACTTTTTTGGATGAATTCTACCCGGAATTATCACTTTAACGATATTATTTACTTATAATAAAACTTTGCCAATTGCAGAAGTCTCAGCAATGATAATTTCATTTATTTCATGTATTTCTATACTAACTGGAGCTGTTTTTTTATTACCAGTAGTTTTAAGAGCTTTATCAAGAACAATGAATTGTAATTCTAGATTAGTGTTTATATATTCTCATAAAAGCTTATTAAAATATGTTCCTGAACCTACAAAAATTGATAAAATTGATTCAATTGAATTAAAAGGTGTAGAGTTTATTTACCCAGAAGCTCCTGGAAAATTAATAATGCCAGAAATTAATTTAACTTTTGAAAAAGGAAAAAGTTATGCATTTGTAGGAGAAACAGGAAGTGGAAAATCTACTATCGCAAAATTATTGTTAAGATTTTATGATCCTTCAAAAGGAAGTGTTTTAATCAATGGTATTGATATTAGAGAAATTGATTTACCTTCATATTTAAGTCATGTAGGATATGTTGAACAAGAGCCGCAAATTTTATTTGGAACTGTAATGGACAACATTAGATATGGAAATTTTGATGCAACTGACGAAGAAGTTATTGCTGCTGCAAAAAAAGCACAGTTAAATAATTTTATATTAGGATTAGCAGACAAATATGACACTATTTTAGGAGAAAGAGGATTTATCCTTTCTGGTGGTCAAAAACAAAGACTAGTTATTGCTAGAATGTTTTTAAAAAATCCTGAGTTATTAATTTTAGATGAAGCTACTAGTGCTTTAGATAACATTGTCGAAAAAGAAGTTCAAGCACAATTAGATAAATTGGTTGTTGGAAGAACAACAATAGTAATCGCTCATAGACTTTCAACAATAAAAAATTGTGATCAAATTATTGTTTTAGGAAAAGATGCTGGTGGAATTATTGAAGTAGGTACTTTTGATGAATTGAAAAATTCAACAGGACACTTTGGTGAATTATATAAAGCCGGATTAATGAGTTAGGAGGAAAGAAAATGCCATATGAACAAGGTGCTAAATCCAAAATAATGGATAAAATAGTATCAGAAAAAAACCAAATTGGATATTTAAAAATGCTTTTTAAATATTTTAAAAAACATCCAATGGTTGGAATAACTATATTTTTTCTTGCAGCCATTACTAGTTCGATTGCAGTTAGTCTTCCTTTGGTTATGCAAGAAATGATTACTGGATTGCAGAGTGAAAATCAAGCTTTAACTCATCGATTTATAGTTTGAGATTTTGATTGAATGAAATGAATGTATTTACAAATTGGAATGTATTGTATTTTAGCTATAACTATTTTTTCTTTATACCTTTCAGTTGGAAAACTAGGAAAAAGAATTGAAATTCATTTAAGAAATCAAACAGTTAAAGCTTTATTGATGCAAGATATTTCTTACTATACCGATCAAAAAATTGGAGAAATTTTAACAAGAATCGCTCAAGATACTCAAATTATTGGTGAACAAACTCAAAATATTCCAACAATGGCTTTAATGGCTATATTTAACTTTGTTGGATCTGGAATTGTTTTATCAATAATTGATTGAAAACTTGGATTAATTTCATTTTCATTTGTTTTATTTGGTGTTTCATTTATTTTCTTATTTATGTCAAGAGTACAAAATAAAATGATGGAATTACGTACTGTTATTACTTATGTTAATGGGGATATAACAGATAGAATTGCTACAGTTAGACTTATTAAAGCGAGTGGTACTGAAGAATATGAAAAAAATCGTTTTCAAGAAATACATAATCAATTTTATGATGTTGTAAAAATTTTTTTTAAACGATTTAGTTTAATATTAACAGCTGCATTTGTTGCTGTTATGGCTGTACAATTAATAATCTTTACTTGTGCTTATGCTTTTTATTCAAATGATCAACAAAGATTAATTGTTGTTGCAACTTCATTTGCATCAGGATTAGGTACAATGGTAAGTCCAATTTATCAAGTTTTGAGAATATCATTTGGATATTTGATGGCAAATCAATGTACAAAAAGAGTGCAATTAGTAATAACTTCAAAACCTCGTTTTGATCAACATTACTATGAAGGAACTGGTATAAACTTAGAACATATTGATGGAGATATTATTTTTGAAGATGTTAAATTTGCTTATCCTGAAAAATTAGATCAAATTATTTTACCTAAATTTAATTTTAGATTTGAAAAAGGAAAAAGTTATGCTTTCGTTGGAGAAACTGGTAGTGGAAAATCAACAATTTCAAGACTACTTTTAAGGTTTTATGATCCTACAGAAGGAAGAGTCTTGATAAATGAAACTCAAGACTTAAAAAATTTAAGATTAAAATCTTATTTAGATAGAGTTGGATATGTTGAACAAGAACCACAAATTATGTTTGGTACAGCAAAAGAAAATATTAAATACACAAATCCTGATGCAACAGATGAACAAGTAATTGCTGCTGCTAAAAAAGCTAATCTACATGATTTAATAATGACTTGACCAATGGGATACGAAACCATTCTAGGAGAACGTGGATTTATGTTATCTGGAGGACAAAAACAAAGACTTGTTATTGCAAGAATGTTTTTAAAAAATCCAGAATTACTAATTTTAGATGAAGCAACTAGTGCTTTAGATAATGTTGTTGAAAAAGAAATTCAAAAAGAACTAGAAAAGTTAATGATTGGAAGAACAAGCGTTTCAATTGCACACAGACTTTCAACAATTAAAAACTGTGATCAAATCATTGTGCTCGCTCCGGGACAAGGTGTTGTACAAACCGGAACTTATGATGAATTGAAAAAGCTGCCAGGACATTTTAAAAACTTGTATGATGCTGGACTTATGAAAGAAGATAAAAAACAAACAATATTATAAAATAGAATTAAAAAACTTATAAAGTTTTTTAATTCTATTTTTTGTCTTTATAAAAAAGTTTAATTTTTTTCATTCTTACTTGCATTATATTAAGAATAATGTTTATGTTTTCATTAATAGTTTAATAAAACTATTAATGAAAAAGAGATAAGTTTTGAAAAAACTTTTATTTGGATTAGTTAGCGCAACACTAGTTGCAAGTTTAACAACAACTGCATTAAGTTGTAATATAGTTGAAGTAGACAAAGAAGTAGAAGATAATGTTACATATAAATTAAAAGCAAAAACAATAGTCTATATTTTTCTTATGCAAATGTTACAGAAAGCATGAAAAAATATATTGATAATAAATTAAGTGTTGATACATTTAGAACAAAAAGAAAAAAACCATATCTTACAAGTTACTCACAAATAGGAGAAGTTGCTAAAGTAGTAGCTGAACAAAATGTTAAACCTGAGTTCAAAAAATATCTAGATTATAATAATAATTATGAATATGTTTTATTTTGTTTTCAATATGATGACATACAGCTACAATTGTTATAAGCTCATTTTTACAACATTATAATTTAGCAAATAAACATATTTATTATTTATAAGATCTTCTGCTTGGTTAGATGTACATTTACAAACTGCTTTAAATATTTTTAAAAGTTAATAATACAAAAAAAATTATTGAAAAAAAGTATTTCCAGGTAAAAGAAGCAGAATTGATAAATGAATAATCGAACATATATAAAGAAATAAATGATTAATTGCAATAATAAACTCATATTTTTAGCGTTACTTCAAAATTAGGATAAAAATTTTTTTTATTTTATTATCGATTATTGAGTTAATTTATAAAAAAATTTAATGTTATAATAAACTTTGAAAAAGGAGATAAAAAATGGGATTTGGAGATTTTTTAGCTGGCCGTTTTAAGAAAAGCATTGAAAAAAACTTAAAAAAAACAACTTTAAATGAAGAAAACATAAAAGAAGTATTAAGAGAAATTAGACTTGCTTTATTAGAAGCTGACGTTAACATTGAAGTTGTAAAGAAATTTATTAATAGAGTAGAAAAAAAAGCAGTTGGTGAATATATCCAACAAGGAGTTAGAGCTGATCAACAAATGGTTAAATTAGTTCATGAGGAATTAATTGATATTTTAGGTAAAGTAAATACCCCTTTAGAAATTAACAAAAAACCATCAATTATATTGATGGCAGGACTACAAGGGGCTGGAAAAACAACAACTGTTGGTAAATTAGCTTGATTAATTCAAAAAAAATATAAGAAAAAAGTTTTAATGGTAGGATTAGATATTTATAGACCTGGTGCTATAAATCAATTAGTTGAATTAGGAACAAAAAATAACTTAAATACATTCGAAAAAGGAAAACAAGATCCCGTTAAAACTGCAAAACAAGCAGTTGATTATGCTCAAGAGAATGGTTTTGATGTAATAATATTGGACACTGCTGGTCGTTTACAAATTGATTCTCAATTAATGAAAGAATTAAAAGAAATAAGAAAAGCAGTATCTCCTAATGAAATATTATTAACAGTTGATGGTATGACCGGACAAGATATAATAAATGTTAGTCAAGAGTTCGACTCTCAATTAAAGTTGAGCGGAGTTATTGTTACAAAACTTGATGGCGATTCTAGAGGGGGAGCTACTCTTTCGATAACTGATATTACAAGATTGCCAATTAAATTTATCGGAGAAGGTGAAGGAATAAGTGCGTTAGCAGAATTTCACCCAAAACGTATGGCTGATAGAATTCTTGGAATGGGTGATGTTGATACATTGTTTGAAAAAGCAGCTGACGTTGTTGATCAAAGAACAATGGAAAAAACAATGAAAAGAATGTTTGCCGGACAATTTGACTTAGAAGATTTAAGAAACCAATTAGATCAATTATCTAAAATGGGAAATCTTGGAGGATTGATGAAAATGATGCCTGGAATGAATGGTAGGGTTTCGGAACAACAAATCGAACAAGCACAACATCGTTTATTTGTAGCAAATATATTAATGAGTTCAATGACAATGAAAGAACGTAGAGATCCAAGAGTTTTAAAAGCGCCAAATCGTAAAAAAAGAATATTAAAAGGTTGCGGAAGAACAGAAAAGGAATATAATGATTTATTAAATCAGTTTGATAAAGGTAAAAAACAGGTTTTAGATATGGCAAAACAACTTAAATCTGGAAGAATGCCAAATATGGGAGGGCTTAAATTTTAAAGATTATGAAAAAATTAGTTGTTATAACTGGTGCATCTGCTGGGATAGGGAAAGAATTAGCAATTAAATTTTCTCAAGAAGGATATCCTTTATTATTGCTTGCAAGAAGAGTGGAACTTATAGAAACTTTAAAACTAGATAATGTTATTTGTAAATCAGTTGATGTAAGAAATTATGATGATTTTAAAGCCGCAATTGATGAAGCTGAAAAAAAATTTGGACCAGTTGATTGTTTAATAAATAACGCTGGAATAATGCCTTTGGATAAAGTTTATAATTTAGATTTAAAAATACAATATGATATGGTTGATATTAATATCAAAGGTGTTTTAAATGGAATGAACATTGTTATTAATCAAATGAAAAATGTAAAAACAGGAACGATTATTAATGTAAGTAGTGTTGCTGGTAGATGAACAAGTGAGAATCGCGTTGTTTATAATGGAACAAAATTTGCAGTTCATGCAATTAGTGAGTCTGCAAGAAAAGAACTTGCTCCTTATAATGTTAGAATTTTGACAATCGCTCCAGCATTAGTTGATACAGATTTAATTTCAACAACAACAAATGAAGATGTTTTAGAAAATTATCATAAATATAAAAAAGATTTAAAAGGTGGATTAACTGCTATTCAAGTTGCAGAAGTTATTTACTATGCATATTCTCTACCACAAAATGTTTCTTTAAAAGAGATAGTATTATCAGACACAAAACAAGTTATATAAAAAAATAAGGTTTAATCCTTATTTTTTCTTTTTCTTGATTTCAGCAACAGTTTGTTTTGCTTTTTTAGTTTCTATTGCTTCAACTTTCTTTATTGCTTCATCTTCTTGTTTAATGGCAAGTAATTTTTTATTAGCTTCTTCAATAGATTTTTTAGTAAGTTCTACATCAATTCTACGTTTTTCTGCAGCTTTAATTTTATTTCATATTCCAGTTTTTAAGGCATCATTCATTAATAGTAATACAAGAATTGCTACATTAAATGAGTCATCTATTACTTTAGATACATGACGTTTTTCACGATCTGATAATTCTGATGCTTTATAACTTTCTAATAATGATACTTCTTTAAAGTAATTTGTTGCAAATTCTACACCAAACTTTTGGTATACTAATGCTTCAGCTTCGCGTAAAAAGAAAGCTATATTATGGAATAATCTTAATTTAGTTTCAACATCTTGAGGTGTTGTTGCTCTAAATTGACTTATAATGTTGTTTAATCTATCATCATGATATTGATTATCGATCTCTTCAATTAAAACTCTAGTTGAGTTACTTACAAGTTTTAAAACAGTTTTTTTATTAGCTGTATCTGTTTCTACAAACTTATAATTCATTGCATTTATATATTTTTTTATTCTTAAAGGTAAGATATACATATCATAAGCTATGTATTCTGAATATCTTCATTTTCTTGCAACTATTTGAGTAACAATATTGTAAACAATTTCTAAAATTGTTAAATTTAAAACTCTCTCACTTATTTTAAATTCAAGTTTATTCAATCTTAACAATTGAAAGTATTCGTATCCATAATATTCCATACTTATCATATTAAAGTATGTTTGTATTGATGAGTTATTCATAATCGCAGAATAAGAAAATTGAATATCAGGTACTAATGCATCAATGATATTTTCAAACTGTGGTCTAAAATCGATTACAGATTGAAATTGTTTTTTTTCAGCCATATTGTATTTCCTCCAAATATTAGATATATCTATTTTACCATATAAATCTTTCAATTTTATCTTAAAATAGTATATGATATCAATCCACATAGAAAAGAGAATTATATGAAATTTTTAATATTATGTTTTAATAAAATTTCAAAAGAATACAAAGAAATATATGAATTTTATATAAATAAAATTAAAAAGTTTTGTAATATAGAAGTTATAGAAATTGAAGAAGAGTTTTTTAGTGATAGCAAAAAGAATATGAAAATAAATGAAGATAATTTAATAAAAAAACTTAAAAATTATAAAGATTTTGAGATGCATTTGTTAGAAATTAATACAAAGCAATATGATTCCTTAAGTTTTTCGAAAATTGTTGAACAAAATAAAGATTTTAATAACGGAAAAATTGGTTTTATAATTGGACCTAGTGATGGTTTTAGTGTTGATTTTAAAAATAAAATTGCTAAAAAACTAAGTTTTGGGCTTTTAACAATGCCACATTTATTGGTAAGAATCATTCTATTAGAACAAATCTATCGTGCATTTAAAATTATAAGAAATGAGACATATCATAAATAATTTTAAAATTATTTATAGAACTTTTAAAGTTTATTTATAATTAAAGAGTTAAAATATCATTAGTGAGGTATATATATTTTATGGAAAAAGCAAAATTCAATTGATTTCCAGGTCATATGAATAAAAGTATCAAAGAAATTGAAGAAAAAATACAAATAGTAGATTTGGTAATGGAAATAGTTGATGCAAGAGCACCTTTTTCAACACAAAACCCCTTACTAAGAAAGGTTTTATCAAAAAGACCTAGATTAATAGTATTATCAAAAAGTGATTTAGCAGACGAAGAAGTTACAAAAAATTGAATTAATTATTTTGAACAAAAAGGTGACCAAACATATTTGGTTAAAAATAAAACTCAAAATATTTATGATGATCTTTTAAAATTAATTAATTTAATGACAAAAGAAAAGCAACAAAAAGACATTGCAAGAGGAATTGAAAAACCAAAATTAAATGTTTTAGTTGTAGGTATTCCAAATGTAGGAAAATCAACAACAATATTAAGATTATCAAAAGGAAAGCAAATTAAAACTGGAAATAAACCAGGAGTTACAAGAGGTATGCAAAGAATTGTGATGTCGGAAAACATTACATTGATCGACACACCAGGAATATTACCTGCAAAATTTGAAAACGAAACAATTGCATGTAATTGTGCTGCAACTAATTCTATTAAAATTGAAGTTGTCCCAAAAGAAAGATTTGCAACAAAATTAATGAGATATATCTATAATAGTTATCCTTTATTAATTGAAGATAAATATAAGATTTCAAAAAATGTATTAAGACCAATAAATTATGATGATACTTTTAAACTTTTTGAAGAGATTGCAAAAAGAAATAAGTTTGTAATTTTAGATGATATTGCTGATGTTGAAAAGGCTATAACTTTATTTATAAATGATCTTATAAGTAATAACCTAGGAAGAATATCATTTGAAAAACCAATCGAAATTGATAAAACAAGTTTAATTTCAATTGATAAAGAAGATATTGAAGATAGTGTAGAAAGCGATTTGACAGTAGAATGATAAAAATTAATCGCTATAAATTCGATTTAGATATAAAAGAAAAATATCAAGTTACTATTATTTCTGGAAGTGATGAAGTCGGAAGAGGAGCTATGGCTGGACCAATCGTTGTTGCTTCTATTATTTTAAAAGAAGATTATTTCAATCCATTAATAAAAGATTCTAAACTTTTAAATCAAAAACAAAGAGAAATCTTATATGAAGAAATTTTAAATAATTGTGTTGAATATTCAATTAAAGTGTATGATTCTAAAGTTGTAGATAAATTAAATCCTAAAAAAACAAGTGTTGTAGGAATGATCGAAACTATAAGTGAATTAAAAACAAAACCGCAATTATGTCTTGTTGATGGAGAAAAAATTACAATAAAAGATTATCAAACATTGCAACTTATTAAAGGAGATAATCTTAGTCAATCAATAGCTGCTGCAAGTATTTTAGCAAAAGTATATCGAGACAATATAATGATAGAATATGACAAGCAATATCAAGGATATAATTTTTTTAAACATAAAGGATATTGTACAAAAGAACATATTCAAAAAGTTAAAGAATTAGGGATTCTTGAAATCCATAGATTAACTTACAAACCAATATCAGCTATTAAGGAGAAAAACAATGATTTTTGACAAGTCTAACAAGGAATATTTAAACTGAGTTGAAAATAACAACTTAGATGAAGAGTTAAAAAAACAATTAGAAAATGCAAGTAATGAAGAACTAAATGCAGCATTTGGATTGAAATTGAATTTTGGAACAGCAGGAATTAGAGGTATATTAGGGGCAGGTCCTGGTAGATTTAATGTATACACTATCAAAAAAGTTACAATAAGTTATGCTAAATTATTAATTTCAAAATATCCTAATGATTTACATAGAGGTGTTGTAATTGGGCATGATAATAGACATAATTCAACAAAATTTTCTCGCTTAGCTGCAGAAATTTTAACAAGTTTTGGTATTAAAGCATATTTGTTTGCAGAAAATAAAATGAAACCAACTCCGGTTGTGTCATTTGCTACAAAAGATTTAAATGCAATTGGTGGAGTAATTATTACTGCAAGTCATAATCCTGCAGTGTACAACGGATATAAAATTTATGATGAGTATGGTTGTCAATTAATTGATAGTGAAACACAAATTATTGCAGATAATATGAATGAAATCAAGAACATAATTGATTGAAATTATAAAACGGATGAAGATTTAATTGAAATAGTCGATCAAAAAGTAATTGAAGATTATAATAAAATGATTGCTAATTTACAGTTTTATAAAAATCAATCAAGAGATGGATTTAAAATGATTTATTCTGCAGTTAATGGAACAGGAACCGAATTCACACCTCCTTTATTAAGATCATTTGGATATGAAGTTATAGAAGTAAAAGAGCACTCTTTCGAAGATGAAACTTTTAAAAATGTAGGAAATCCAAATCCAGAGTTTGACCCAGCTTGAACTATTCCTTTTGAATATGGAGAAAAAAATCTTGATGCTTCAATTATAATTATTCAAGATCCTGATGCGGATAGAATTGGGTGTGCTGTAAATCATAATGGTAAATGAATTAGAATTGATGGAAATCAAACCGGACCAATTTTAATAGAATGAAAACTTAGTCAAATGAAAAAACATAATATGATTCCAGAAAATCCTGTTATGTATTCAAGTTTTGTAACAAGTGATTTAGGTGATAGAATTGCAAGTGAAACATACGGTGTTAAGGTTATAAAAACTTTAACTGGATTCAAATGGATGGGATCTGAAATTTTAAAAGAACCCGAAAGAAACTTAAACTTTGTTTTTGCTTATGAAGAAAGTTATGGATATGTAATCGATTCTTCAACAAGAGATAAAGATGGTATTCAAGCAACAACTATGTTAGTAGAAGCTGCTTGATATTATAAAAAAGAAGGAAAAACCTTATTAGATGTATTAGAAGATATTTATAAAAAATATGGATATTACTATACATATACTGAAAATTTGAATTTTAAACCTGAAGAAGTTGAATCAAAAATTGAACCAATTATGAAAACTTTAAGAAAAGAATCATTCAATGCTTTAGGAGACTTAGAATTAAAATATTGTGAAGATTATCTCCATGGTTTATTTAATATGCCGGGTCAAAACTTGTTAAAGTTCTACTTTAATGAAGGTAGTTGGTTTGCAGTTAGACCTAGCGGAACTGAACCAAAAATAAAAATTTATTTTGTTGCTGTTGATAAAGATGAAATTAGTGCAAAAGATAAATGTGAAAAAATGTTTAAAAATTTAAAAAAGATATTAGAAATAAATTAAATAATTTAAAAAAATGCATCAAAAAATGTATTTTTTTTCTTTTTTTATACGATTAAATATACAGGAGGAAATTAAAGATGAACAATGTGACAATTATAGGACAAATTGAAGAACTACCACAAGTTATTTACAACTCAAAAACAGGAGAAAAAAAATTATATAAGTTAGTATTAAAAGTACCAAGAGGGTATAGAAATAAAGATGGAAAGCAACAAGAAGATTTTATAAATGTAAAAGTATGAAGTAATGTTTTAGGAGATGAGTATGAATATTTTGATCAATCATTAGTAGGGATTGAAGGAAAGCTTGTATCTTATGGATTAAGCGATGCTACTAGTTATGGTAATGAACTTGTTGCAAGCAAAATAACTCAATTAAACTAATTTAAGTGGAAAAAATTTTATTATATTTTAGTTTAAAATATAACGGTAATTGAGATAAAATTTATAACGCTTTAGAAAAAAAAGAAAAAATCTTACATAGTCAGTTAGAAGAAACTTGCCAAAAAATAGATTGTGATTTCTTAACAATCTTAAGTCCTTTGTATCCAAACTTTTTAAAAAGTGCACACAAACCACCATTTGTTATATTTTATAAGGGAAATATTGAACTTTTATCTAAATATAACAAAACTATATCAATTGTTGGAGGACAAAAATATAGTGAAAAATCAATTAATAATACTTATAGAATTGTTAAAGAATTAATTAATGAAAAAAGAGTTATAGTTACATATCAAAAAGAAGGAACAAACAATCAAATCATAAGTTTATGTAGAGAAGAAAATTTTGAAAATATTGTAATTTTAGCTGAATCAATGAAAACTTATATTGAAAAAACTAAGAATATAAATGAAAAAGAAAATAAACTATTTATTTGCGAAGTTTATGAGTTTTTAAATAACCAATTAACAGAAGAATATGAAGAATATCTAAACAGAATGCTATGTGGAATCTCAAAAGGTATTCTATTTACACCATACAATTCAAAAGATTCTTATTTTTCATTAGTTAATTATGCTATAAATGAAGGTAAAGAGATATTTGCAATCCCTACAACAGAAAAAGAGTTCAACGAAACAAATAAATTGATAAAAATGGGTGCAAAATTTACAGAAAATGCAAAAGATATAGTAAATTTAATTTAAAGTGTTATAATAAATTTGTGATATTTATATCACACTTGTAAAAGGTTTATACCTAATAATTTTTTTAACTAATCATTTTATTCCCGACACATGAATGATGAGTATAGAAAACAAACATTTTAATAATGTTTGTTTTTTTTTTTTTTTTGAAAAAGTTTAAATAAATAATTATGATACCATTATTAAGATATGATTTACATTTATTAATATAAAAAAGGAGAGGGATTATGGCTAAAAAAACAGCTGTAAATGAACCCCTTAATCTTTCAAGTAAAAATCTAAATAATGAAAAAAAACATAAAGATTTTAATGTTAAAAAAAAAGGCGGTTCATTTACAAAAACAATCATTTATTATATGAAAAAAAACAAATGAATGACATTTTTTATGATCTTAATTTGTGTGATTTCATCTGTTGCAACAGTTTTGGGACCAAAATTAATTCAAAATATGATGGCCAATTTATTAGCTCCTTCATCAGGACTTGATTATTTTAATAATGGTACTAAAACAGTTGGTGAGTTAAATAATTTATTAGATGGAAAAGTATTTATAAGTGGGGATGAAAATCAATTTTTAACAGAAGAATTTGTAAGTAATTCAAAAAACTACTTTACATTATTTTTTGGTTTACATTTTGGATGAGATAAATGAATTTATTTGCAGTTAAGTTTATTTGTAGTTTTAGGAGTTTCTGCATATTTTTCAAGTTATCTTGGTGGAACTATGGGTAAAAATGTTGAAATTGATTTGAGAAATAGATCTTTAGAAAAATTAGTTAAACAAGATATGAGTTACTACTCTGATAAAAAAATTGGAGAAATTCTTACAAAAATTGTTTCAGATACTCAAATAATCGGAGATCAAACTGCAAGTGTTCCGGTTACAATGATTTCTGCATTTATAACATTTTTTGGGTCGTTAGGAGTTTTAGTTACAATTGATTGAAAATTAACTTTAATTGTTATTGCAATTATGTTTGTTTTACTTATTGTTTTACAATCAACTTTTACGGTTGTTGGAAGAATGTCAAAAAGAGTCAGAAAGACTATTACAACAATTAATGGTGATGTAACAGATAGAATTTCAACTGTAAGATTAATTAAATCTAGTGGAACAGAAGCTTATGAAAACGAAAGATTTAATGAAGTTCATAAAGAATATTACAAAAAATCTTTTACATTAATTACAATGCAATCTTTTATATCAACTGTTATGACTGCAGGTATTAGTTCTGTACAAATTATAATAGTTATATGTTCTGCTATTTTATATAAAGATAATCCTCAATATTTAACTGTAACACTTTCGGCATTTATAAGTGGAGTTGGTTCTATGGTGGGACCATTAATGACATTATCAAGATTAGTTTCTGGGATAATTCAAGCTTCTACTTGTTGTTATAGAGTAAATGAAATTATTTTAACAGTACCTAGAATTGATACTCACTATGAAGAAGGTGAAGGAATCATCGTAGATGAAATTGAAGGAAATATTGTATTTAAAGATGTTGAATTTAGATATCCTGAAAAACCAGAACAATTAATTTTACCAAAATTCAACTTCGTTTTTGAAAAAGGAAAAAGTTATGCATTTGTTGGAGAAACTGGTGCAGGAAAATCGACAATATCTAAATTATTGTTAAGATTTTATGATCCTTCTACTGGAGATATTTTTATAAATGATAATGTTAATTTAAAAGATGTTCATTTATCAAGTTATTTAGATAAAGTAGGATATGTTGAACAAGAGCCTCAAATTTTATATGGAACAGTTATGGATAATATAAAATATGGTAACTTTAATGCAACAGATGAAGAAATTATTTCTGCTTCTAAAAAAGCAGAGTTACATGATTTGGTAATGAGCTGACCAAATGGATATGACACTATTCTAGGAGAACGTGGTTTTATGTTATCTGGTGGTCAAAAACAAAGACTTATTATTGCAAGAATGTTTTTAAAAAATCCTCAAATTTTAATTCTTGATGAAGCTACAAGTGCTTTGGATAATATTGTTGAAAAAGAAATACAAGAAGAATTAGAAAAATTAATGAAAAATAGAACTACAATTTCAATAGCGCATAGATTAAGTACGATTATGAATTGTGATCAAATTATAGTTTTAGGAAGAAATCAAGGAATTGTTCAAGTTGGAACATATGAACAATTAAAAGAAGAACATGGTCATTTTAAAAGATTATACGAAGCGGGTTTGATGAATTAATTTTAAAAGAGTATATAGTACTCTTTTTTTATTGGTATAATTAAAAAATGAAAAAAATAGTTAATATTATTGGTGCTGGATTAGCAGGCTGTGAAGCAGCTTATCAACTTGCAAAAAGACAAATATATGTAAATTTATATGAAAAAAAGACAATCAAAAAAAATAGTGTTCAAACATTAGATTTATTTGCTGAGCTAGTTTGTTCAAATACTTTGAGATCAACTGATTTAAAAAATGCTGTTGGAACCTTAAAAGAAGAAATGAGATTATTAGACTCTTTGATTATAAAAGCAGCTGAGTTTGCAAAAATACCAGCTGGCGAAAGTCTAGCGGTAGATAGAAAAAAGTTTTCTCAATATATTACAGATACAATGAAAGAAAATCAGTTTATTAACGTTATGGAACAAGAAATAATAGATATTGATAGTTCGATACCAACTATTATAGCTTCAGGTCCTTTAACTAGTGAAAAATTGCAAGAAAGCATTTCTAAATTTGTGGGAAAAGACTATTTTTATTTTTTTGATGCAGTTTCTCCAATAATAAAAAAAGATTCAATTAATTTTGATATAGTTTTTAGAAAAAATCGATATGAAAAAGGAGAAACTCAAGATTATTTAAATTGTCCAATGAATAAAGAACAATATACAAAGTTCTATAATGAACTAATAAATGCAAAAATAACAGATACTCATTTGAAGGAAGAAAAAGATTTAAAAGTATTTGAAGGTTGTATGCCAGTTGAAGTTATGGCAAAACGAGGTTTTGATACTCTTACTTTTGGCCCTTTGAAACCTGCGGGTTTACGAAACTTGGATGGTACAAATAACTTTGCAGTTGTGCAACTAAGACAAGATAATGCTGCAAATGATTTATATAATCTTGTTGGTTTTCAAACAAACTTAACTTGACCAGAACAAAAAAGAGTTTTTCAATTAATTCCTGGATTAGAAAATGCTGAGTTCGTAAGATATGGAGTAATGCATTTAAATAACTTTATAAATTCTCCAGAATTATTAAATGAATTTAATCAACTTAAATCAAACAAAAACATCTATTTTGCAGGACAAATAACTGGGGTTGAAGGATATGTTGAGTCAACTAGTAGTGGAATAATTGCTGCTATTAATATGGCGAGAATGATTAATAATGAACAACAAGTTATTTTCCCAAAAGATAGTGTAATTGGAGGATTACAAAATTATATTATTTCAACAGATTCTAAAAATTTTCAACCAATGAAAGCAAATTGAAGTATTGTTGATCCACTAAATTTAATAAAAAAAGAAAAAAAAGAAGTAAGAAAAGAAATGTATTCTAATCGTGCCATTAATTCAATTAAAACTTTTATTAAAGAATATAAATTATAGTCTTTATAAAGACATTTTTAATAAAAAAGTTGATAATTTTTATTAAAAAGACTACAATCTTAAAGTTATAAGAGGTAAAGAATGAAATTATATGAAAAAGAAAGTCTTTTTTGATTTGGTTTACACAGAATTGCAAAAGATGATCCTGAGTTAAAATATAACATTACAACTCAAAAAGAACTTATAAATGATTTATACCCTTTAGTTCACCTAGGTGTTATCCAATACACTTTATATCGTGGTATTTCCTTACAAGAAATTCCAATAGAAGAAACTAATGAATATGTAAATTATATTTTAGAAAATATGGATGAAATTTACAAAATTAAATATAGATTTGTAAAAGAAAAGCCAAAAAAAATTAATCTTAATGATAAAGAGATTTATTCACTTTGTGAAGATATTATAAGTAGATTATTTATTCCTTTTATGAATGAATATGCTTTTAAAAAAGTAAGTTCTACAATAGGAATGAATGGTTCTTATATTCGTGAATCATTATTAAGTTATGAATATGATATTAACCATGAATCAGATGATGGTAAACTAAAAACTAGTGTTTTATATCCATTTTTATTCACTTTAAGTTTGATAAAAATCTTTGATAAAAAAGGTTTGTACAATCGTATTTTAAAAACTTATCAAAAAGATGATTTAATAAGAAAATATAAAGCTGGAAGAGAATGAAAGAAAAAAGAAATTGATTATCTTCAAGAAAGTTATGAACTATTAAATAATGATGAAGAATGAAGTTTATTTTTAAGTAATTTCTCTATTTCAAAATGAGATGTGTTTGATATGAAAGAAAGATTTAAAGCTTTATTTCAATTAACAAAAATAACAACTATTTTGATGAAGGATGAAATTACAGCTGTTACTATGTTATCTGATGGTGAAGAAGTTTATGAAATGTTAGAAAATTACTTACCAATGTATATTGATTATGATCGATATATTAATGAAGAAGGGGTAATAGTTCATGATCTTGGTGAACATGATAAATTTGTATTTTCACCATTCTCGCAAAGAAATGTAAACTTTTCAATCTTATTGCCTTATATTGAATCAAAAAACGAAAGACATGTTGCATGTGATTATAAGAAATTGCAAACTACATTATTTATATTTTTAAAATCATATTCTAAGGTAAGAAACTTATTATTAACCCATGAATATCTTCCCAAAATTATTGATATTTTAATTGAAGGTAAGAAAAAAATATTTTGTGATATTTTGGGTATATTTGAAGAAGTTAAAGATCATAAATATAAAAGATTGATTGATTTTGAAAACTTTACTGAAGATTTGTTCTTTTTAACAGAAGAACAAATTAATCAAGCATTAGAATCAAATCCTAAAAATCTTGAAGAATTTATTGCTATCCCTGCATTTGAAAAAATTGGAAAAGTAATGACTTTTAATTTAGCTTTAAAAAATTATACAGCAAGAACAGTTGATTATAGACTTTATGAGTTATTAAAATATTTATTAGTTTTATTTGGTCCGCATCCATTAGACCACACAGTTCAATCTTTAGAAAATATTGAAAATTTTTACAATAAGTTCGAAACTTTTGTTAGAATGTATGAGAGCCAAAAAGAAAAAAATGGCAATAACCAAATAGTTATTGACTTACAAAAATCTTTAGAGTTACCGTTAAAGTTATTAAATTGAAAAAAAGATTAAAATATCTAGCAAATATAATTCAATTTTGCTATTATATTTTTGTCTTATTGCCCACGTAGCTCAGTAGGATAGAGCATGCGCCTTCTAAGCGTAGGGTCAGAAGTTCGAATCTTCTCGTGGGCGCCATTTATAAAAGCGCAAAAGCAACAATTGTTGCTTTTTTTATTTATTTAAAACTATGTTAATATTTAATTGAAAAAAAGATATGGAGATGTTGTATGTTAGCTATTTATGATGAAAATGGACTTACCGAATATGGTAAGAAAGTTGTTTATATATTTACAGCAGTTTTGTTATATATTTGTGGGATTATTGGACATATGCTATTTGTGTTTTTATTTTCTAGAAATAAAGAAAGAGATGAAAAAAAAGTAACTAAAGTGGTCCTGTGAATTACATCATTTATTTTTATTCCAGGTTGGCCAATAATGACTATTATAGTATTTGCTATTTTAGAGAGAAATGGAAAAGCATTTTTAAGTTGATTTCCAACTATTAATAATCCATTTGTTTTAAATGAAAAATATTATAAAGATAAAATAAGAAAAAAAGAACCGACAATAAAAAAACAATAATAAGTATATAATTAATACAAATTTAAAGAAAAGAGTTTTATAATTGGTGAGTCAATAGGAAGTTTATTGGGAGATTATTTTCGATATGCTTATAATTATAAGTTTTTAGACAATGAAACAAAAGATAAAACTATCAAAAAAAATGTTTATAAAGGTTATGTCAGATCTGCTTTAATAGAATTGTTAATTGCACTTTTATTTGGAATTTTAGCCATAATTTTTAGTAAGTATGTTTTAAATTATAAATCTGTATATTCATCAATTTTTTCAGGATTTTTTTTTCTAATGTTTTTTTAATGTTTATGAGACAATGTATGTTTGCTGTTTGTGTATATAAATTAAAAAAAACAGTTAACTATGAAAAAGAAAACTTTACTTTTATATTTTTTTATAGTTGTTTTTTAATTTTTACACCATTTATAGGATTTTTTACAAATCTAATATATTTTAAAAGAGTTAAGAATTATGCTTTAAGTCAAGGTTATAAATATCAATAATAAAAAAATTTAAGTTTGTTAAGGTTTTTTACTTGACAAACTTTTTATTTAATATAGTATTAAAGTTGTCTTTAAAATAGAAAAAAAAGGAGGAAAAAATGGTAAAACTAAGGTTAAAAAGAGCAGGTAAAAAAAGAGCAGCATTTTACAGAATAGTAGCTGCAGATGCTCGTGTTAAACGAGACGGTGCTTATATTGAACTATTAGGAACATACAACCCATTAAATGGAGTTGTTGATCTTAAAAAAGAAGTTGCTTTAAAATGATTACAACAAGGAGCACAACCAACAGATACAGTTAGAAGTATTCTTTCAAAAGAAGGTGTTATGACTGAATTACATAATGTGAAACTAGAAGTGTCAAAATCAGTACCTAAAAAAGAAAAAGCAGCTAAAAAACCAGTAGCTGCTAAGCCAAAAGCTACTAAAAAAGTAGCAGAAGCAAAAGCATAGTAATGATTGAAAATCTATATTTATTGTTAGATAAAATTATACTTAATGCTCTACCTAAAGAATCAACATATATTTTTAAAAAACAATTAGAAACAAAAGATGAATATAAATTTATCCTCTTAATTGATGAAAAAGTTAGTAACTCAAAACTATTTAAAAAAAATAGTTTGATAAAAACAATATTAGATGCTTTAAATCTAGAAGTATCGAAATATGAAAAAAAAATCTCAATTGATGTGGAGGTATATGATGAACTTGGATAAACAATTGCTAAAAGTAGGTAAATTAAAATCTACTCATGGTATTAAGGGTGAATTTAAGTTTTGATTAGATGATGGTATTTATATTATTGATGATTTAAAAGATAAACAAATCTTTTTAAAAGACTTAAAAAATAATTTAGATGTTTACTTAATTGAAAATTTTCATGAAGTGGCAAATAAATTAGTAATTAAGTTTAAAGGTATTGATAATATCAATGATGCATTAAATTTTATTGGTCAAGAAGTATTTTTTAAAATTGAAGATAATTTGATAGAACACGAAGAAACACTAATAGATTTTAAATTAGTTGTAAATAACAATACTATTGGAACTGTTATAGATGAAATGTTTAATGGAGCTCAAGATTTAGTTAAAATTAAAACTAATGATAATAAACAGTTTTGAGTACCTTGTGTAGATGAATATGTTATTGAAATAGATTATGATAACAAAATTATTTATGCAAAAAACATCGAAATATTAATTTAATGAAATTTACAATAATAACGTTATTTCCAAATTTAATTAAAAGTTACATTAGTGAATCGATTATCAAAAGAGCAATTGAAAAAAACAAAGTTGATATAGAAATTGTAGATTTAAGAAACTATACAAATTACTCTCATAATCAGGTTGATGATTATCAATTTGGTGGGGGAAAGGGAATGGTTTTAATGGTTGAACCAATAGTTAATGCTATTGAAAAATATAAAACCAATGAATCATTAGTAATACTAACTTCACCTCAGGGAAAAACTTGAAATCAAAAATTATCAAAAAACTATGCAAATAATTGTAAACATATAATTATAATTTGTGGTCATTATGAAGGTTTTGATGAAAGAGTTTTAGATTATGTTGATCTTGAAGTTTCGATTGGCGATTATGTTTTAACAGGTGGAGAATTAGCAAGTTTAGTATTAGTTGATTCAATAACTAGACTAATTGATGGAGTTATTCAAAATGAATCTCATTTAAATGAAAGTTTTGAAAACAATTTATTAGATTATTCAGTTTATACAAAACCAGTTGATTTTAGAGGAAAAGTCGTTCCAGAAGTCTTGTTAAGTGGACATCATGCAAATATTGAAAAATTTAGACATGAAAGTAGATTAAAAAACACTTACTTAAAAAGACCAGACTTATTAAACGAACAAGAATTATCAAAAACAGATAAAGAATTTTTAAATAATTTAAAAAATAGAAAGGAAGAATAGAAAAATGAACATGTTAACTAAGAAGACTAAATCTTTAGTAGAAGAACAATTAAATAATAATCTTCCTGAATTTACTTCAGGAGATACTATTAAAGTTAATGTAAAAATTAAAGAGGGAGATAAATACCGTATCCAAGCATTTGAAGGTGTTGTGATTAAAACACAAGGTAGTGGAATTTCATTTTCTGTATGTGTAAGAAAAAATTCTGGAGGTATCTTTGTTGAAAGAACTTTCCCAATTCATTCTCCTATCATTGACTCAATTGATGTTATTAAACGTGGTCGTGTTAGAAGAGCAAGAATTTATTACATTAGAAAATTATCTGGTAAAGCTGCACGTATTAAAGAAGTTGTTAATTCAAAATCAAAAGATCTTAAAGCAAAAACAGCTGTTAAAGCAGCTCCAAAAAAAGCAGCTCCTAAAAAAGAAGCAACTCCAGATTCAACTAAATAATAATTTAATTACAGCAGCAATGCTGTTTTTTTATTATTCAGTAATTTTTGTATCTTTCTTTATTTTTTTGTATAATAAAAATAGAAAGAATGAATAATGAATATTATTATAACAATTAGTAAAATTTAAAAACATTAGATTTATAAGTAGTTTAAATCTTTTATTGTAGTATTTGTTTTTAACAAATTATTTTTTAGATTTTCCTTTTTTAATATAATAGCTGTTTTATTTTTTTTTAAAAAAGGAGGGATATTATTAAAAATATAATATATTTTAATATGATGAAAAATATTAAAAACAAATTTTTTTTAACTTTTAACATATTAGTTTTTCTATTGATAATTATATGCGGAATAGTTATGTTTTTGTTATCCGATGTTAATTTCAAAAAAACTCTTATATATACAAACAGTATAATTTATGTATCATGAACTCTTATAATAACTTATATTAATTTGATATTTATTTCTAATTCAATGATTTTTGATCATGAAAACGGAATTATTAATTTAGAGGTTTCAAAAGGTTTTAAACAAAGTGAACTATTATTATACAAAACATTAGCAAAGTTTTTTTACTCTATTGTTTTTAATATTTCATTAATAATAGTAATGGTTTGTTTGCTTTATATCATAAATCCTGTAAATCTTAATTATATTGCTAAGAATTTAATACCTGGTTTTCTTTCTTTTATAGCTTTTGATTTTCTAATAACAGGCTTATATTTCACATTTTGCTCTTTTAAAAAAATTAGAATAGTTTTATCATTAACTAGTTTTGTTTCTATTCTTTATATTTTTTCACCTTTAGTTGGAAGAATACAGTTTATTATAGGAGAAGGAAAAGTAAATGTTAACTGAAATTCTTTTAGTTATGATGTAGAATTTTTAAAAAATTTAGAAGATTTATCATATAAAAAAGATGGATTAATCTACTCATTATTATATAATTTAGGATCATTAAAAAATGACTACTCTTTAAAAAAAGATTTTAAAGGTACCACAGATAATTGCGAAGATAAAAATTATATTTGTTATTACGAGCAGTTTGATGAAGAAAATAAAAATAGAGATGTTTCATGAGGGTATAGTTATGTAGCAGCAAATGGTTTGATGTTAGATGTGGAATATTTTTTAAATAATAGTAAAACATTTTCTCAAAATTTTAAATACACATTAAATGAAAAAATAAATGAAAATAAAATATATAAATTTTTTAACATTACTATAATGAAAAATAATGAAGGTAAATTTGAAGACACATATTTTTACAAACCTTCAAAAAATAATTTATCTGGTAAAAATCAATTATTAGATTATTTTTCTTATATACAACAAGATGAAATGATATTGAACATAAAAAAAATTTTTAATTTATCAATGTCTAATCAAGAATTAAAAGAAGAAATTAATTCTGTTAATAATATTCTTCTGAAATATTTTGAAAGTATTTTTTACAATAATTTTGATAGCCATAATTATAAAGTTTATTCTTTAATTAGAGAAATTATTCAAAATTATGACTATGATATTGAAAATAAAACTAGTTTAGTAAACGAAAAAGACTTTTATGAAAATGCAAAACTAAAAAATGGAAATCGTTTATATATGGCATTGTTATTTAATTTATTTGATGAGTATCTAAGTACTTGAGAAGGAGACTTAAAAGATTTTGAAAAAATATATAACTATATACAAACTAATGACTTTTATTATAATAAGTTTTTTACATTAAATCCAATATATTATCATTTGAATCTATTAGGATTTAGTACATATTCTAGTTATACAGATGATATATTAACTCAAAACAAAGTTTATGATTTAAATATGCCAATTAGATCTTTTTTAGTTGAAAAAAATCCAAATTATATGCAAAGTGATTATAAAAGTAAGTTTAGTATGTATGATAGTTTAGAAAATTCATATATTAAAAAAATTAATTTATCTAAAAGAGTAGTTAGTTCAGAATTTATATATATAGGATATATTTTATTCGGGATATTGTCAGGTTTAATTGGAATCTTAATTTATAGAAAGGTTAATGTCTTTTAGAAAGGGGTATAACATGAAAATTATAATAAAATTATTTGTATTTCTATTCGTTTTCCCCATTATAATGCAAACGCTTTCATCTTGTAATGCTAAAAAAAATAATAGTTCTCTAAGAGATGATGGGTTAATTGGTAAAAGAGAGATAACTAATATTTTAAATAGTCTTGTAAGTGAATCTTATTTATCTTTTAATCAAATTAATAGTGATATAAAAAAAGCTTTTAGTAATTATGACTATATAAGATTTGAAGAAGAAGAAATAAATAAAAAAAGTTTTTTAATTAAAACAGATTTAGCAAGCTTTTCTAAAAGCGCTTGAAATGTTGATATATCAGTAACAGAATCTTCATTTGAAAATGGTAAATATTTTTTTAATAATAATTTATCAATTGTATATAATTATCAATTTAATAGATCTTTAGTAAAAATTGATAAAGTTATTTTAAACTCTTATCAAGAAAATTATTATGGAAACGATGTATTAAATCCAATAATTGTTGAAAATTTTGATGAAGTGGAAAATTTAAAAATAAGGATCACAAAAAATAGAGAGTATGTTTCAAGTTGAGAGTATGATTTTGAACAATCCAATAAGATTTATTTTTATATTAAAAAAAATTTGACTTCAAAAGAACCAATTGTTATTAGTGTTGTATTCTCGGGTAATAATACTAAACAAGATACGGTTTTACAAATAAACAACTTTTATTATGAAAAAAAAGAACCAGCAAAAATTGATTACACAATTAATGGTAGTGAGTTTTTTTGAGGAGATGAAATATTAATAACAATAAAAAATTTAAATAATCTAAGTAATTTTTCTTTTGACACTGGAAACGATATTTTAAAAGGCAAAGCAAAATTAGTATCAAATCAAATAAAATTTAAAGCATACTTTGAAAACGAAAATGCTAACACAATTGATAAAAATAAATATTTATATATTAATTTAAGGTCTGAAAATGATAGCGAATTAATAACAATACATATTAAACCAATTAGACCAATAGATATCGATATAAATAATATTCAATTAGATGTAGGTAAACCAACAAACTTTACTTTAAATAAGAGATTTAAAGATGTAAGTTTAAAAATAAATCAAAATTATGAAAATAGTTTAGTATCCTTCCTTAATGGAAAAATTGATAAAAAAGAGAATTCTGCTAATTATGAAGGATTAAGCGAAATAAGTTTAGAAGGTTGATGATATAGTTCTATAATGAATCGTGAATCTGGAGTTTTAAAATGTAAATTTTATATAGAGATTGATTCAATAGAATATCAAAAAGTTTTGTCATATAGTCTAGGCTTTGAAATAGTAAATAGCACAGAACAGCTATATATTGATAAAAATGATTATAATTTTATTTCGGTTGAAGAGGACAAAAAGTTAACATATAAAAATATTGACAATGCTATTTTTGTCAAAACAAACTCTTCAGAAATAAATTTAAATTTACAAACTAATTTTTTTAGAAAAATAAAAGAAAGCACAAAATTTGTTGAAAATGATGTAATTGTTGTATCTGAAATTAGTCATATTTTTCCAAGTAAAAGCGAAAATTTTTATACAGTTCAAATATCAATTAATATTGAAAAAATAAAATCTATACCAAGCAAAACTCAAGAATTAAAAACAGTATTTTCTTATAAAAATAATTTATATCTTGAGATATCAATAACTTATGACGAAAATTTATAAAAGGAGGTATTTATGTTTATAATAGACAATGTTTCAAAAGAATTTAAAGAAAAAAAAGGTATTTTTAATATATCTACATCATTTAATCAAGGTGATATTGTTGGTTTAGTTGGTGATAATGGCGCTGGTAAATCAACTCTATTAAAATGTTTATTTAATGCATATAAAGTTGATAGTGGTGAATTTTGATATAAAAATGAAAAGCTTAACAAAAATAGTTTAAAAAAATTTTCATTTTTTCCAGATCAAAGTATATATCCAAAAAATATAAGTATAAAAGATTTTTGTATTTATTCAGCAAAATTATCAGGTATAAAAACAAAAGAAGCTAAATCAAGAGCAAATTACTTATTAGAAGTATTAAATTTAATAGAATATAAAAATAAAACATTTAAATCACTTTCGGCAGGTATGCAAAAAAGAGCATTATTGGCAATTTGCTTAATTAATGAACCTGAAATAATTGTTTTAGATGAACCTACAGCAAATTTAGATGTAAGCACAAGAGTTGATTTTATAAACTTGTTAAAACTATTAGCACAAAACGGTAAAACTATTCTTATAACAAGTCATATTATAGATGAGTTACAAAAGTTTATAAATAAATTAGTAATAATTGATGAAGGACACATAGTATTTGATAGATATTTGCATCCTGATGACAATATAGAAAATATTTATTTTAATATTACTAATAGAAAAAAAAGAAAAAGTATTGATATACAAAATCTTTCTTTTTAATTTTTAAAACATATTTTATATTTTTTTAGTATTTAAAACACTTTATTAAAAGTGTTTTTTTATTTATAAATTAATGAAATTAGATAGGAGTTGAACTATAATTATATTGGTGATAATATGAAAAAATACAAATGAGTTAAAGGGATGAATTGTTTAAGTTTAATAATATACTTTTTACTAGTATTTATAACAGGAACTATGTATTCGTATTATTTTTTTGGGGTGAAAAGCAATATTAATTTTGAATTTCCCGAACTATATATATTAATAATGACTATTATAATTTCATGCATAATACTTTTTGTTTTAATTGCATGATTTGTTAACTTTATTATGAAAGAAAAGTTTGAAAAGTATCTAGTATATATAAACTTTGCTATTGCTTTTTTATTTACATTAATTGCAGCAATTGGATTTATATTTATTGACTATGAAAATATAGATCTAGTAAGACAAAACATTTTTTATATATTAATTAGTGTTTCGCTATTATTGACAAGCTATTTGTTTTATAGTCAAATTCGTAATAAAAAGAATTACTAATAAAATTACATATTTGTTAAAATAATGATACTAAAAGGAGCTATTTATGAGTGATAATTATTATGAATTAACTAAAAATAATATAAGAGATTTAATTAGTGAAAGTCACTTTGAAGAAGCAATGATAATTATCAATGATGAACTTTCTGCTCCTTATATACCAAAAGATTTTGAAAGAGCTTTAAATCGATATAAATTTGAAATTGAAGAAATTCTTAAAAAAGATTCAAAAACTTCTTCTTCTAATTGAAGTTTAGAAAAAGTCGTTGATATTATGCAACAATCATTAGATCAAGAAATGCATTTAGTTGCTTTTGATAATTTAAGAAACCTTAATGCAAGAAAAATTTTAGATCATATTAAAGATTATTTGAATGATGAAAATATCAAAAATGAATATAAAACATTTTTATTAATGGTTTTGATTGAACAAAAATTAGATGAGTTTCTTTTAGTTAAAAAGAAAGAAGGAATAATAACAATTAATCCTGCTAAATTTGATTTAAAAGAATCTCAAGATTTTTTAAGAAACTTAGAATATCGCTTAATGACTTTAGTAAGCGACAAAGACCCAAGTTTATTTTCTATTTGTCGTCATGTTGCAAATACCTATTTTTATAATATTTTTCCAGACTTTAAACTTGAACAAAATAATATTGATGATATTGTTGCATGTGTTTATATCTATTCAAGAAAAGCATTAGGGATTGGTGAAGATATTTATCTAAATGATAAATTAAATTTTAATTATGACAATGCAATGTTATTATTAAGTAAGTTTGAAAAAATAATATAGGAGTTTATTTATGAAAAAAGAATCTTTTAATAAAGAAGACTTTAAAGTCTTTGAAGATAAAAAAAATATAATGGCACAATTATTTGGAATTAGTTGTAGTGTTTGTGGAATTGATGAAATTGCTTATGTTGCTTCTAACGCTCCAAAAACAATTGGACAAATTGCTCAAGAAGCATATGATGAAAATCCTGATATAAGCGATGAAGAATTAGATAAATTAATAGAATCACCACTTGAAGCATGACAAGAAGTTGATGATTACAACTCATCAATTGGTATGCCAACTTTTGCTTGTGATAATTGTTATAACCAATTGTTAAATGGAGAAATTCAAATTTCTGATTTGAATCAAGAAGAGGAATAAGAAATGAAGTTTGTAGATTTAGCAAAATTTAACATCAAATCTGGAAAAGGTGGCGATGGAGCTGTTTCTTTTCGTCATGAGTTATATGTTCCTAATGGAGGTCCAAATGGTGGCGATGGTGGAAAAGGTGGCGATGTGATTTTTATTGCTGATGAAGGAAAATCTTCATTATTAGACTTAAAATTACAAAAATCATATGCAGCTGAAGACGGTCATAAAGGTGATATTAAAAATATGCATGGAAAAAACGGTAAAGACATTATTGTAAAAGTACCTGTGGGTACTGTTTTATTTAATGATGAAACTGGAGATTTGCTTGCTGATTTTACGACGGATGGAGAACAAAAAATACTTGCACTTGGAGGAAAAGGCGGAAGAGGTAATGCAAGATTTGCAAACTCAAGAAATAAAGCCCCAACAATTTTTGAAGCTGGAGATCCTGGAATTGAAATTAATATTAAAGCTGAATTAAAAGTTTTAGCAGATGTAGGATTCGTTGGTCTTCCAAATGCTGGTAAATCCACTTTATTAAGAGCAATTTCAAATTCTAAACCAGAAGTTGCAGATTATCCTTTCACAACCATTAATCCTCAATTAGGAGTTTCTAGAGACAAACAAGGAAGAACCTTTACAGTTGCAGATTTACCTGGATTAATTGAAGGAGCAAGTTTAGGAAAAGGATTAGGTCATGAATTTTTAAGACATATTGAAAGATGCAAAATTATTTGTCATGTTATCGATATGTCAGGAAACTACGGAACAGAAGATGTTGTAAAAAATTATGAATTAATCAGAAAAGAACTAGTTGAATATAATTTTAATTTAGAAAAAAGATTAGAAATAATAGTAGCAAACAAAATAGATACTGAAGAAGCGCAAATAAATACTTTATATTTTAAAGAAAAATATAATGATAAGAATATAATAGAAGTATCTGGATTAAATAAAATAAATATAGATAAACTTCTTTTAGAAATTGGAGATAAATTAGAAAACTTAAAAGATGAACCTCTATGATTAATAAAAGAAGATCAAGAAAGTGACTTTAAGTTATATACTTTTGAATCTGATTTAAAAGATGTTGTTGTAAATAATTTAGGAAATGGAAAATGAGATATAACAGGAAAAGACGTTTTAAAAGTTTATCAAAAAACACCAATTTCAACTCACGATAATTTATTATTATTTAACGAGAAATTAAAAAATTTAGGAGTATATGAATTATTAAGAACTAAAGGTGCTAAAAAAGGCGATATAGTAAAAGTTTTTGATTTAGAACTAGAATGGATGGATTAAAATGAATTTAAAAGAGTATTTAGATTATTTAGTAGAATGATTAAGAAGTGAAGTTAAAAAAGCTGGTCAAAAAGGAGTAATAATTGGAATTAGTGGAGGTATTGATTCTGCAGTGGTTGCTGCACTTGGTAAAAAAGCATTTCCTGACAATTATTTAACAGTTTGAATGCCTTGTCAATCAAGTGATTTAGATGAAAAATGTAAAGCAGACTTAATTAATAATTTGGATTTAAAATCAGTTACAGTAGATTTAAAATCAACTTTTGAAACAATTAGTAAAGCTTTAAATGAATCTGGAATTGAACAATCAAAACTTGCATTAGCAAATACAAAAGCAAGATTAAGAATGACAACTTTATATTCAATGGCTCAAACACATAACTATTTAGTTTTAGGAACTGATAATTGAGCAGAGTGACATTTAGGATACTTTACCAAATTTGGTGATGGGGGGGTAGATTTATTACCAATTGTTCATCTACTAAAAGGCGAAGTTAAAGAAGCTGCAAAATTTTTAAATGTACCTGAATCAATAATTAATAGAGCTCCAACCGCTAGTCTCTGAGAAGATCAAACTGATGAACAAGAAATTGGATTTGGTTATGACTTAATAGATAAATATTTATTGGGTCAAAATGTTGAAAATCATATAAAAGAAAGAATTGAACAATTGCATAAAGTATCAGAGCACAAAAGAAATGGCGCCCCTCAACCTAATAAAAAATAGTTAAATATGTATATCGTTTTTATTAATAAAAGAATCACTAGCAGCATAATTTAATATAAAATATATAATATACAAAAAAGAAAGTTTGAGAATAAATATTAATGAAAATTTCAAAAAATATAAGTGCATTAGAAATATACAAAAAAGTTATTTTTACTTATTTTAAAAATAACTTATGATTAAACAACTTTACATCATATTTGATTAATTATAATTATTTTTAAAATCACAAAAAATGTTAGAAGTTAAAAATTTATATAAAGTATTTAAAAATGATGTAGGTGTAAAAGATATCAATTTAAAATTTTTACCAGGAGAAATAATAGGTATACTTGGTCCGAATGGAGCAGGAAAATCAACTTTATTAAAACTTATCTTTAAAGAGTATAAAAAAGATAGTGGAGAAATAATTTATCAAAATGAACAAGGAAATTTAAAAGGATTTAGTTTTTTCACAGATCAGTCATTATTTCCTAAAAATGTAACTTTAAATTTTTTTTGTATGTATAATGCAGAATTAGCAGGAATAAAACCTAAAGAAGCAAAAAAAAGAACAGAACATTTATTAAAGAATTTGGAGTTAGATAAATATAAAAATAAAACTTTTAGATCATTATCGGCTGGTATGCAAAAAAAAGCGATGTTAGCAGTATCTTTAATAAATGATCCAGAAATTATTTTTTTTGATGAACCAACAGCTAATTTAGATATTGATTCAAGAAAAGAATTAATATCATTGATAAAAGATATGAAAGAAAATAATAAATCTATTATAATTGCTAGTCATATTTTAGAAGAACTAGAAACTTTAATTGATAGAGTTATTGTCATAAATAAGGGTAAAGTAGTTGTGAATAAAAAGTTTGATAAAGAAAAAGAAAATTTAGAATTGATTTATTTTGAGAGTATCAAAAATGAAAAGCGAAATAAAAACTTTAAAGATTTAATGAAATGAGATAAGTAATGATGAAATTTTATATATGTTTTAAATATGCACTTTTTTCAATTTTTAAGTCAAAATCAACTTTAATTGTAACAATTTTTTTCTTGTCAACAATTTTTCTAATTAATTTAATATTTGGACTTTATATTAAATTAACTCAAGCGGAATCTGTTGATTTGTTTGTTTTAAATTATATTAACACAGTTTTAATTTTTATTTTTTTAAGTGTTGTTTCTATACTTTTATCAAATGAGTTTTTTACAATCAAAAGAAAAATGGTGTAAAAACAATAGAAATAAAAAATGGTATGAAAATATGAGAAATATTTTTTTCAAAAGTATCAGCTCTTTTATTGGTTATTTTTATATTTTCTATAATTATTTCCACTGTTGTTGTTATAGAGTCGCTAATAATATTCAATGATAATATTTTTGTAACTAAACTTTTATTTATAAATTTATACATTATTTTTTTAGTGCCTCTATTTGTTTTTTCTTTAAATTTGTTAATTGTAAGTTTAAATTTACAAAAAATTAGTTTAATCTTTTCAAGCTTTTTTATGGGATTAATGACTTTATTTTACTTAATAAATGCCGTTTTATATGAATTTAAAAGTGATTCTGGTAAAAATGGTAGCAATCTTATATCAAGCAGCGAATATAATTTTTACCTTAGATACTATATTAAAACATATGAAGAAAAAAATAAAAAAGAAAATAAAATTATAAGTGATTTGGTAGAATATAGTAAAAATTCTGAAAAAATGAAAAATCTAATTCATTTTGATAATTTGGAAAGTTTAAATTTAGAAGAAAGTCGTCTAAAAGATTATTACTTTAGATTTATAACAGATAATAGTTTTTATAGCAGTGGTGATTTATTTTCTAATATAGATTTATTTAATGAATTTAATAAAACATATTTAATAAAGGATGAATATTATAGAGAAGCTAAATATGATGCTAGTTTAATTGAAAATAATTTATTATTTAAGGAACTTTATAATTTCAAAGACACAAAAAATGAAAATGATATTTTTGAGTATAATGACTATAAAAACTTAAAAAAAAGTTCTACTTATTTACATGAACTTAATAGTTACATAAATAAATTGGAAAATTACTTTAAAATAAATAATGAAATAAATTCATATTATTTTGATTTAAAGTCTATAAATAAATTGATTTTGGAAATTTATAAAAAAGGATTTTATTTCACTAACCAAATACTTATTTTATCTAATTCGGTTGGAAGAAATAATTCAAATATTGTAGATTTTTTAAAAGCACCTTTTAATGAAAAAATTGATTATATTAAAAATCAAAAAATTCTTTTTAATATGCAAAAAACTTCTAGTGCAAAATTACTTTATCAAGGCATTTTGTTTTATCTAGTTAATAATTGAAACTATGAAGAACCTTTTACAAATAACACAGAGCAGCCAGATAGTTTTACTTTAAGTTCTTTACAAATGGCAAACTATTATACAAGTCCATTTTTATGATTAGAATTTTTAAGCAAGTTTGGGTTAGTGGATAAAACATTTGATAACATAACCACAATAGAAAGTGCAATTTTTTATAAAAGTAATAATTTTTATATAATAAATAATTCATATTTAAATAATAAATATATTATAAAAGATTATGTTTATGAAGGTCCTAATACAGCATTAATGATTTTTTTGATATTAATTTTTAACTCAATTTTAGTTTTATTTGCATATTCATTATATAGATTTAATTTCTATAAATAATTCTTTATATACTATATTTTTTAGTTGCTTAATGTTTTGTAGCAGTTAAAATTAATTAATAAATATAAGTTTTTTTGACTAATCTTTATTTTTAATAGATAATACATTTACAAGGAGAATTTTAAAAATATGACAGATCAACAAGCAAATAGTATAAGTGATTTTATTGATAATTTAGATGATGAAATAGCAGATAAGATGTTTGAAGAATTAATTGCAGGTATGAGCTTATACTTTGCAATATTAATTTTTGGAGAACAAATCGATAATGTCTTTGAAGACCCTGCTAATAAAGATAAATCAGCAGAAGAAAAAGCTAAAATAATAAAAAGTAATTCAGTTAATGAAGAAGATGTATATGCTGCTTTAATGGGAGCTTTATCAGAAGAAGAAAAAGCTCAAGATTTTGCAGAAGATTGTGTTCAATCAATTGCATTTAATCCTGAATATCCTCAGGTTTTATTAGATAAAATAAAAGAATTAGAAATTGAAGAACAAGATTTCTCATGAAATTTAATAGTTACATTTAAAGATCAATTTATTGATTTCTTTGTAAATGATTTAGATATTGAAGAATGAAAAAATGATATTATTGATGCTTTAGTAGCAAGTTGAGAACAATAATATGGCTATTAAAAAAGTTGCTATTAGCAATTTTTTTAATAAATAAATTTAATTTTATTTAATTTCTTTAACATTTTTTTTAAAAATTATTAAAGAAATTAAATACTAAATATGTTATGATTTATATGATTGTAGATAGGGTTTACAATTTATGGGCTTATATAAAAATAAGGTGAATGTATGTTTCTAGCTAAAACATTTTTTAAAGTATTAACTTTTGAAATTCCATTATGAGTGATTTTGTTAATTTTTGCTTTAATTGGGATTGCTAGTTTATCTATTTACTTTTTTATTCTTTTTAGAAAAAACAAAAAATTTGTGTATGAAAAAGAAGAAGTTTCAGCAAAAGATTTTAAAAGATTAGACAAATTTGAAACTCTTAGAAATGATTTTGAAGTAGAAATCGCACAAGTTAAAAAAATTAGACGTAATTCTAAAAAGTAGTTATATTTTGCTTATAAAAAAGGGGCGTTTTTATGAGTGTATTCAAAAAAATTACAAGTTCTATCATTGGTGGATCAAATAGGGAAAATCAACAAAATATTGTTGATGATTTTGCGTTTCAACAAAACCAAATGAATATGCCAAATCAAAACAACTACCCTATAAATCAGTTTAATCATCATCACCAATATAATTCAAATAATATGCAACAAAATCAGTTTAACAACCCACAAATGCAACAAGGTTTTTCAAATCCAACTAGTATGTATCAAGAACAATTGATTAATCAAAAAAATTATGTTCCTATGCAAAATAATAACCAATATATGGAAACAAATTTATATAATGAACCTCAAGTTGTAAATAATAGTTATCAAAATCCTTATATTAATAACCCAAATCAATATCAACCACAATCTCAAAACTTAAATTATCAACCTCAAAATAACCCTAATCTAAATTTTACAAATGCACAACAAGGATATATTCAACCAGAATTTCAAAATTATCCAAGAAAAAATCGCAACCCAAATAATTATTACAATGATAATATGTTACAGCAACCAGCTTTAGACTTTGATAATATTAATCAAATTGATTATGGAAATTACTATGATCCTAATCAAGAATATTTACAAAATCAAAACTATATAAATCAAAACTTATATCAAGGTCATATTCAGTATACAAATCATATTGAACAACAAAAAATGCAAAATCAAGGATTTAATAACTACCAAGCAAATCAAAATATGTATCAAAATCAATATTTTAACCAAGCACAAACATATTATCGTCCTGAAAGTTATGCAGCAAATCAAATGGTAGGATATCAAAGAAGCCCTGCTAATAACTATAATGGTTATAATAATAATACTTATAAACAAAGATTTTCAAAATCTAACATAATCCCAAATGAAATTGCAAAAGAAATTAGAGCAGAAAAATTAAGAAATGCTTTATTGTTTTTAATCGGATTGACAGGAATAATTGCAACATCTCTAATGTTAGCAATTTATTATAAAACAAGTAATCAAAATGAAAAATGGTTAATATTTAGTAGAAAACATACTATTTATCCATTCTTTTCAATTTTCTTATTATTAATTTCAACATGTTTCTTTTTTATGAGTGTCACAGATTATACATTACTAACTTCAAATGTTAAAAAATATGAAAGAGATTTATTGAATGGTAGAGAAATAGTTCCTTACTTTATAACAAGAAACTATCGATCAATAATAGCAAGAAGTGTTTATATTAATTGGATTGGATTTTCAACATATATAGTTGGTGCAATCTGTTTAGGAATTTTATATGGATTACAAGCTTTATATAAAGAACATCCTGATGAACCTATTACTATTTTCTTTTGAAAAATAGGTACAATGAAATCATTTGAATCTGATATTATTGTAAATATTGTTGTATTAATGTCTGTATTTGGAGTTCATATTTTAAATATAATTACTTCAAGAAGTAGAAAAAATAATATTATTAGTTATTATGGATATGAAATAATACCACAACATGAAATTAATGCTATTAGAAAAAAAGCAAATAAAATTTGTTTAATAATATTTATTGTTGTTTGTTGTATTATATTATTTGCAATATTAATTCCTTGACTTGTAATTAGAAAGAAAAAAGGATTAAGTTGAAAACCATGACAAAGAAGCAAGAATTAAAGAATAGAAATATAAAAAGTTTATATGTTCACATCCCTTATTGTGAACATATTTGTTTTTATTGTGATTTTGCAAAAACAATTAAACCAAAAAGTAAAGAAAATGTTATTGAGTATTTGAATAACCTAGAAAATGAATTAATAAGTTATGAAAATAGGTTAGATAATTTAGAAACTATTTATATTGGTGGAGGAACACCAAGTTGTTTAGATGAAGAAGAAACTATTTTATTATTAAAGTCTTTATCTAAATATGTAAAAAATAATAAAGATTTTGAGTTTAGCATTGAATTAAATCCTGAATCAGTTAGTGAGACTAAATTAAAAATTTATAAAGAATATAAAATAAATAGAATTAGTATGGGAATTCAAACTTTTAATAATGATTTATTAAAAAAAATTGGAAGAATACATGATAAAGATTTAGCTGTTGAAAAGTTTAATTTAATTAGAACTATTGGATTTGACAATATTAGTATTGATTTAATGTATAACTTATTTAATCAAACTAAGGAAAATATAATAGAAGATTTAGAATACATAAAACAGTTAAAACCTGATCATATTTCATGATACTCATTAATTATGAAAGATAACTCTATTTGAGGTAAAAAGAATTTAAAAAAACCTGAAAATGATGAATTTTTTGATGTAATTGTAAATGAAGGTTTAAAAAAATTAGGTTACAAAAGATATGAAATCTCAAATTATTGTTTAAATAATAAAATTTCAAAACACAATTTAAGCTATTGAGATAACTCTTTATTTGCAGGAGTTGGCTTTGGAGCTTCTGGTTTTGAGCTAATAAATAAAAAGTATTATTTAACAATAAATGAAGGTACAATTTTAAATTATCAAAAAAAATTTGAAGAATTGTCTATAGAAGACTATTATTTTCAAATTATAATGATGGGTTTAAGATTAGTAGATGGAATTAATATTAGCTTAGAAAAAAATAAAGATGCTTATCTATTTTATAAAGAAAAAATTGAAATCAATATTAAAAAAGGATTTTTATTATTAGAAAATAATTATTTAAAATGTAATGATAAAGGTTTTGATATATTAAATGATATTCTTGTTGATATTTTATAAAAGAGTAAAAAAGTATAAAAATTTGAAAATTTTTATACTTTTTTTTCGATTATATTATTGGGAAGGAAAATTAGTATATGTTAGCAGATTTACAACATAGAAATTTAAAAGAACTTGGATCATCTTTTTATTTTACAAAGCTGAACTTTACTTTTAAAAATGATGAAAACTTAGCGTTTTTTGTTAATCCTAATTTAATTAAACACAAAGTTACAAATAAATATTTCAGGTTACTAAATTATTCTGTCTTGTCAAATGACTTTGAAACAATTAACGATTACATAAAAAACGATTTTCCAAGCTCAAAAATAAAGCATTTATTAAAGTTAGTTGCAAAGACTACTAAAACACTATTTGAGAATAGATTTAAAAATCAAGTTGATTATGAAAATCTGTTTAAATTAAATATTTATTGTCAGTTATTTTTGATTTACATCAGATACAACCCAAATATTTGATTAAAAATGGATATAAATAATTCTAAACAAATCATGAACAATGGTCCTTTGGATTGAAGTATCATTTATTACATAATTAATTATCATGTATTAAGAGATAGTAGATTTGATCTTACTAAAACTCAAAAAAGCATTATAAATAAATTAATGTCAATAGATTTAAATGACAACAACATTCAAACAAGGGACATTATTGATGAAATTGTTGCAGAACCCATATTAGTCATAAAGGTATTTGTTATGCAAAGAGAAGTTATTAAAAGTATGAGAAATCTAAGAACAAGCAAAAGAAAATATAAACACCTTTTATTTTCAACTGCTATGCAATTAATAATTCATTTTATTAATAATAACATTGATGATTATACTAGAGTGACAAACCATTAAAATCATAATATCCCTTGTTAAAAACAAAGTTATCTTTGTTTTTATTTTTTCAAATTTTTTAGCACTTTACTATTGACATTGCTAAAAACCAATGTATTATATTATTGATTAGCAAAAGAACGTATAGAGTGCTAATCAGGAGGTTAAAATATGGATTTTCAACAAAAACCAGACCCTTTAAATGATCCAGAAATTTTAAGTAAATATACAAGGGATTTATCAAAGGATGCAAAAGAAGGAAAAATAGACCCTATTATTGGTAGGGATGATGAAATAATGCGAGTAATTCGTATATTAAGTAGAAAAACAAAAAATAACCCTGTTCTTGTAGGAGAGCCAGGGGTTGGTAAAACAGCTATAGCAGAAGGGCTTGCTCAAAGAATTAATAAAGGCGATGTCCCAAGCATCTTAAAAAATAAAAGAATTTTAGAACTAGATATGGGAAGTGTTATGGCTGGTGCTAGCTATCTTGGAGATTATGAAGCAAGAATAAAAGGGATAGTAAATGCAATTCAAAAAGAAAATGGAGAGATAATCTTATTTATTGATGAGTTACATTTAATTGTTGGTGCTGGAAAAACCGGTAATGGAGGAGGAATGGATGTTTCTAACCTTTTAAAACCAGCTTTAGCTAGAGGCGGATTAAAAGCCATTGGTGCAACAACTTTAAAAGAATATCGTGAATATATTGAAAAAGATGCCGCTTTAGAAAGAAGATTTCAAAAAGTTATGGTATCTGAACCAACAGTTGAAGAAACAATATCAATTTTAAGGGGATTAAAAGAAAAGTTTGAAACATATCATGGAGTAAGAATTCATGATAATGCTTTAGTAGCAGCAGCACAATTAAGTGATAGATATATTGCAGATCGTTTTTTACCTGATAAAGCTATTGATTTAGTAGATGAAGCAAGTGCAACAATTAAAACTGAGTTAGCTTCTGTTCCCACTGAATTATATCAAGTTGATAGAAAAGTTATGCAATTAGAAATTGAAAGAGCTGCTTTAAGCAAAGAAACTGATGAAAAATCAAAAGAAAGATTAACTTTTAATGAAAAAGAGTTAATGAAATATAAAACAATTCAAAATGAATTAACAAGTAAATGAGAAGAAGAGAAAAAAGCTCATGAAAAAATTAATCAATTAAGATCAACAATGGATTCATTAAAAACAGAACTAGATCGTGCTCAAGCAGAAGGTAAGTTTGAGAGAGCAGGAGAGATTCAATATTCTTTACTTCCAGCGATTGAAAAACAATTAAAAAAAGCGGAAAAAGAAGATGAAAATCAATTAATGTCTGAAGAAGTCTCAGAAAAAGAAATTGCAACAATTATTGGAAGATGAACAGGTATTCCAGTTGAAAACTTAATGGAATCAGAAAAACAAAGATTATTAGGTTTAGAAACTTCACTTCGAAAAATGGTTAAAGGTCAACCAGAAGCATTAAAAGCTGTTAGCGAAGCAATTTTAAGAAGTAGAAGTGGAATTAAAGATCCATCAAAACCGATTGGTAGTTTCTTATTTTTAGGTCCAACTGGGGTTGGTAAAACTGAAGTTGCAAGAAGCTTAGCAAAACAACTATTTAGTAGTGAGAAAAAAATGATTAGACTTGATATGAGTGAGTATATGGAAAAACACTCAGTGTCTAAATTAATTGGATCTCCTCCGGGATATGTTGGATATGAAGAAGGTGGAAGACTTACTGAAGCTGTGAGAAGAAACCCTTATTCAATTGTATTATTTGATGAAGTTGAAAAAGCTCATCCTGATGTATTTAATGTGTTGTTACAAATTTTAGATGATGGAAGAATCACAGATTCTTTAGGAAAAACAATTGATTTTAAAAATACAATTATAATTATGACTTCAAATATAGGATCAGATTATTTAATGACCACTGAGCCAGAACTGATTGATGAAAAAGAAATTGAAAATATGCTTAAAAAATTCTTTAGACCAGAATTCTTAAACAGAATCGACAACATTGTAAGATTTAATCCTCTTTCAAAAGAAGTTATTAGAGAAATTATTGAAAAAACTTTAATTGAATTAAAAGAAAGAATTACTGAAAATGGAGAATATATAATCAACTTCTCAGAAACAAGTGTAGAAAAAATCTTAAAAGAAGGTTATGATAGAGACTTTGGAGCTAGACCAATTAAAAGATATATAGAAAAAAACATCGAAACTGTAATAGCAAAATCAATAGTTTCAAGTGAAATTGAACCTAAAAGAAACTATGTTCTAGATGTACAAAATGATCATTTTGTGGTTTCTAGTTCAAATAAATTAAATTAGCACTTGACTACATTAAGTGCTATTGGTACACTAAAAAAGGATTGTTCGGGAGGTTTTTATGTTAACTAAAAGACAAGAGATAATCTTAAGACTAATTATTGAAGAATACATAAAAACAGCTTCTCCTGTAGGTTCAAAACGAATACAAGAAGTTATGTCAATTGATATATCTTCTGCAACAATTAGAAACGAGTCAGCATTTTTAGAAGAACATGGTTTTTTAGAAAAAGCTCATACTTCTTCTGGGAGAGTGCCCTCGACAAAAGGTTATAGATATTATGTAGATAATCTTATGAAGAGAAATAACATTGAAGATGTAAAACAACAAATTGAAGAAATTTTTAAAAGAAGAGGTGCAACAATTGATGAAATCTTAGAACAAACTTCTAAGATTTTAAGCGAAATGACAAAGTTAGCAACAGTTGTATCTACTAGCGAAAATATAGAAGAAGTTAAATTAAATAGAGTCGAGTTAGTACCGCTATCTCCAAAAAGTGCAGTTGTTATATTTATACTTTCAAATGGAAGTATTGAAAATAAAACAATTGATTTAGATTCTGTTTCAATTGAAGAACTAAAAATCTCAATTGATTTATTTAACGAAAGATTATCAAACTCTAAAATTCAAGAAATTGAATTTAAAGTACAAGCAATTGTTCCAATTCTAAAAGAACAAGTTAAAAAGTATGAATTTATATTACATACATTCGTAAGTGCTTTATTGCATACTGGTTCTTCTCAATTTAAAACTGGAGGAATGAAATATTTGCTTGAAAACCCAGAATTCAACGATCCTAACAAAATTAAAAGTATTGTTGAATTTATAGAAGGAGCTTCTCCGTTTGTTTGATTTAAATCACATTTAAACAATCATTCAAAACCAGCTGTAGCAATTGGTTTTGAAACAGGTATAGGTAATGACGATATTGCAGTTGTTGGTACTAACTTTCCCACAGACACGGGTGGGAAAGGGACTTTGGCTCTAGTTGGGCCAAAAAGAATTCAGTATGATAAGGTATCTGACTTATTAGAATGAATTAGTCTAAAAATTGAAGAGTTCCACAAAGGAGAAGAGTAGATATGGAAAAAGAAAAGTATAAAAAAGTATTTGATTTAATCAATAATGTTAAAAAAGAATTAAATATTGATTCAAATTTGAATAACAATATTCCAAAACAGCAAACTGATAATAATAATGTAGATTTAAATGATAAAACAAACATTAAACACGAAAAAGACAGCAAGTCTGATTCCAAACAATCTGAAGAAAAACCATTAACAAGTATTGAACTTTTAGAATTAGAGTTTGTAGATTTATTAGAAACAAACTCTAAATTAGAAGAACAAAAACTAATGGCGGTTGCAGATAATCAAAATACTGTAAGAAGATATCAAAATGAAGCTGCATCAGTTAGAAAATATGGGGGAGAAAAACTTGCAACTGAGTTACTACCAGCAATTGATATGTTTAGATCAGTTTTAAAAACAAGTCCCGATAATCCAGAAATTAAAAATTATTTAATTGGTTTTGAAATGATAATCAATCAAATTGATCAAGCATTATCAAACGCAGGACTTTCAATGATTCAAACAAAAATTGGAGATGAATTAGATCCAAATATTCATAACGCAATTGATCAAATTGAAACAAAAGATGTAAAAAGTGGAAGAATTGCAGCTATTGTTTCAAATGGTTATCGATTACATGACAGAGTAATAAAACATGTTGGTGTAAAAGTTGCTAAATAAGTTTAATTAAAATGATTAAAGAAAAAAAATTTAAAAATGTGGTTATTAATAAAGAAGTTTTAAAAATTAAAGTTGGAAAAGGAATTTTAATTAAAGAACTAGAAAAAGATAACGACATTGAACATAAAATTAAAAAAATAGCTAGTGAAATTGATGATTATGTTCAAAATGAAGTTTATCAATCAATTTTAGAAAAAAAAGTAATTTAAAATACTAATTATTAAAAATGAAATGAGAAAAAATAATGGAAAAGAATGACTTTAAAAATTATATTGAAAACTTAATAAGGTTAGCTAAAGATTGTCAAGAAAATTGTGAAAAAGCTAATGAAAAATGTCAGAACAATATACATCGTATTGTTGATAATATTGATATTTGCGAAAATGGTAAAGAAAAATGTGATTGTATTTATCATAAAAGATTATATGAATTATCAAAAGATTATGAAAAAATTATTAAAGATTTCACAAATGAAACTACAAAAAAAACTTTTGGTACTTTTGATGAAACTTTTAAAGGTTTTCGAAATATTTTTACAAAGAAAAATAAAGAAGAAAATATTAATTCAGAAGAAATAAAGTGCAAAAAAAATAAAAAACACAAATTTAAAAAAGAATATAAATTTGTAGAAGAAGACTTCGACGACTCGTTATTTGACTTTAAAAATTTACAAGAAGATTATGACGATTTAAAAGAAGACTTCGACAATTTAAAAGAAGATCTTGATGATTTACAAGAAGACTTTGAATATTTAAAAGATGAACTTGAAGATTTAAAAGAAGAATTCAAAGATCTAAAAAGAGATTTTAAAAACTAAAAAATAAAATAATTATAAAGAAAAAAGGAAGGTATAAGATTATGGCTAAAGAAAAAATTATAGGAATAGATTTAGGAACAACAAATTCAGTTGTAGCTGTTATGGAAGGTGGTCAACCAATTGTTTTAGAAAATCCAGAAGGACAAAGAACTACAGCTTCTGTTGTTGCTTTTAAAAATGGAGACATTATTGTTGGGGGAGCTGCAAAAAGACAAGCAGTTACAAACCCAAACACAGCAATTTCTATTAAACGTGAAATGGGAACAACCAACAAAAGAAAATTGGAAAACAAAGATTATACACCAGAACAAATCTCAGCAGAAATTTTAAGATATATGAAAAAATATGCTGAAGATAAGTTGGGAACAAAAATTACAAAAGCAGTTATCACTGTTCCAGCATACTTTAACGATGCACAACGTAAAGCTACAAAAGATGCAGGAAAAATTGCAGGACTTGATGTAGAACGTATTATTAATGAACCAACAGCTGCTGCTTTAGCTTATGGTATTGATAAGCAAGATAAAGAACAAAAAGTTTTAGTATACGATTTAGGAGGAGGAACTTTTGACGTTTCGGTATTAGAATTAGCAGATGGAACTTATGATGTTTTAGCAACTTCTGGGGATAACCAACTAGGAGGAGATGATTTTGACCAAAAAATTATGGATTGAATTTCAAACAAAATTAAAAGTGAATATAATATTGATTTATCAAAAGATAAAATGGCTTTACAAAGATTTAAAGATGAAGCTGAAAAAGCAAAAATTAACTTATCAAGTCAATTAGAAACTGAAATTAACTTACCATTTATTGCAATGAATGAAAGTGGACCAGTTAACTTTAGTGCAAAATTATCAAGAAGTGAATTTGAAAAAATGTCAAAAGATTTAGTTGAAAGAACTAGAAAGCCCGTTGTTGATGCTTTAGAACAAGCTAAACTAAAAGCAACAGATATTCATGAAGTTCTTTTAGTTGGAGGATCAACTAGAATACCAGCAGTTCAAGCATTGGTAAAATCGTTATTAGGTAAAGAACCAAACAGAACAATTAACCCAGATGAAGTTGTTGCTATGGGAGCGGCTATTCAAGGTGGAGTTTTGGCAGGAGATGTAACTGACGTTCTGTTGTTAGATGTTACTCCGTTAACTTTAGGAATTGAAACAATGGGTGGAGTTATGACACCATTAATTAATAGAAACACAACAATTCCTACAGAAAAATCTCAAATTTTCTCAACAGCAGCAGATAATCAACCAGCAGTTGATATTAATGTTTTACAAGGTGAAAGACCAATGGCTGCAGATAATAAATCATTAGGGCAATTCCAATTAACAGGAATCAAACCAGCTCCAAGAGGAGTGCCTCAAATTGAAGTTACATTTAAAATTGATGTTAACGGAATTGTTTCTGTTACTGCAAAAGATAAGCAAACTAATGAAGAAAAAACAATAACAATTTCAAATTCTGGAGCATTAACTGATGCTGAAATCGAAAAAATGTTAAAAGAAGCAGAAGAAAATGCAGAAGCAGATGTTAAAAAACGTAAAAATATCGAGTTAAAAAACAAAGCTGAATCTTACATTAATATAATCGAAGAATCAATCAAAGAAGGTGGAGACAAAGTTCCTGAAGATCAAAAAAAACAATCTGAAGAACTTGCAAAATCTATTAGAGAATTAATTGCTAAAGAAGATTATGATGCTTTAGAGAAAAAAATGGAAGAATTAGAACAAGCTATGAAAATGGCTTCAGAAATGGCAGCTCAACAACAACAAGCAGATATAGATAGTAAAAAAGATAAATCAAACGATGACAAAAAAGATGACTCAAGTAAATAAAAAAGTAAATAATTCAAAACAACTTATTCTAGTTGTTTTTTCAAAAGAGAGTGAGGTTTATTATGGCTAAACGTGATTATTATGAAATTCTTGGAGTTAGCAAAAGTGCAACTGAAGATGAAATTAAAAAAGCATATCGTAAATTAGCTAAAAAATACCACCCTGATGTTAATAAAAATCATGATGCAGAAGAAAAATTTAAAGAAGCAACTGAAGCATGTGAAGTTTTATTAGATCCTAAAAAAAGAAAAATGTATGATCAATTCGGTCATGATGGTTTAAAAGGAATGGGTCAAGGTTCTGGATTCGGAGACTTCGGAGACTTCGGAGACTTCTTCTCTAATATGTCAGGATCAACAGGTGGAGGAGCTGGAGACTTTTTCTCAGATATTTTCTCAAGTTTTTTTGGTGGTAGTGCTAAAAAATCTGGATTTAGTGGATTCGGAAGTAACAAACGTTCTTCAGGACCAGAAGCTTCAAGAGGTAAAGATATTATTATCGAAATAAACCTTACTTTAAAAGAGTTATTGTTCGGAGTTAATAAAGAAATAGTTTTAGATTTAATTTCAAAATGTGAAGTTTGTGATGGAGTTGGTGCAAAAAACAAAAGTGACATTGTAACTTGTGAAGTTTGTGATGGAGTTGGTATGGTAACTGTTGTTCAAGAATTTGGATTTACAAAGTTTCAAAGTAATCAAGCTTGTCCAAAATGTAAAGGACACGGTAAAAAAAATGCTAATCCATGTAAATCTTGTCATGGAGAAGGTGTTAAAAAGAAAAAAGAACCAGTTATGTTTAATATCCCAAAAGGTTTATCTCCAGGAGAAAAAGTTATTTTAAGAAATTCTGGTAATGAAGGAAAAAATGGTGGACCTAAAGGACATATCTATGCCGATATATTTTTAAATGCTTCTAAAAAATTAGTAATTGTTGATAATTATAATATTAAAGGAGTTTTAAATATTTCTTATTTGGATGCCATATTAAAAAATGATATAACTATTGAAACTCTTGATGGTCAAATCAATGTTAATATACCAAAAAATGTAAAAAATGGTGATATTATAGTTGTTGCAAATCATGGATTATATAAAGGAATCAAAAGTAATAAGCGTGGAGATTTACTTTTAGAAATAAATATTAAAGTACCAAATGAAATTAACAATGAAGAAAAAGAAATTATGGAAAAACTATACAAATTAAACAACTTTAAAGTTGAAAATGAATTCAAAGAATAGCATTTATGCTATTTTTTTGATTCTTTAAATAATGTATAATAACTAAATAGGGGTAATGTATGGCAGATAAAGTGAAAATTTTACAAATAAGACAAGCAAAATTTGAAGAACGAAAAAAACAAAGAAAAAATAATTTTTCACCAGTTGAAAAAGTCTGATTTGATAATGTTTTAGAAGAATCTTTAACTTTAGATGATTTTGATAAAACTATAAATTTAAAAAATATTAAATCTGCAAAAATCTCATTAGTACAAAATGCAAACTCACATTTTTTCAAACCTAAAAATATAGATGAAGTAGGTTTTGAAAAAAAAGATTTAGGAACTCCAACTTTTGAAACATTAAATATTGTTGATCGTCGAATTTTAAAAAGACCATCACAATTACCTTCAGATATTTTGTTTTTAAGAGAATCAAGTTATTTAAAAGAACAAAAGATGAAAGATTTAATGTTGGATAAATTAAATGTAGATATTAAATTTAAAAATAATTTTAATAATTATCGTTTAATTGAAGGAGCATCAAAAAACTTTGATACAAAAGGATTTGAAGTAATTGATGAAGATTATAATGATGAAGAATTTTTAACATCTCCAAGTGATAAAAATGAAATAAAAGATAATATAATTCAAAATTTACCAAAAGATGTTGAAAAACTTATTAAAAAAGAAGATGAAAAAGAAAAAAAACAAGAAGAAAATGTAGAACAGGGTATAAATTGAAATGAAATAGATTTAGATAGTTTTGATGAAAATGAAGATAATATTCAGGTTAAACGAAACGAAGAGAGCATTCAATTTAAACACAGCAAAAGCGAAGTTGCGGAAAAACAAAATGAAGAAAACAAAGAGAGTTTACTAAAAGATATTGAAAAACTTAATGTGAATATAGAATCTTTAGAAGATAAAGTTGAGGCTCAACAAAACATATTCGAACCTGAACCTCCAAAAGAAGATGACAAAGTTGTTGACCCAGTCATAGAAGAAAAAATATTAAGTTTTGAAAAAAAACTTGAAGATATCTTTTACAAGGAAGCAAAAGAAGAAGAACAAATGCAGCAAGAACAAGAAGAAATTAAATTTGATCAAGAAAAAAATAATAATGAAAACAAACATCAAAAGGTATCAAAAAAAGAGAAAAAAATAAAAAATGAAGAAAAAAATATTATAAGTGCTAATCAAGAAGAATATCAAAATACAATTGAAAAATCAATACCAGTAGTTAATAATGTTGATTTTACAATAGCTGACAAAACAGATGATTTAGAAAGAGTTATAAAAAATAATGAAAATATAAAAAATAGTGTTTTTGAAAATAATAACCCTTTGCTTACTCAAGAAAAAGGTGCTTCTGATACAACAGTTTTAGTTGAAAAAATAGTTAATAATGCAAAAACTATTAAAAATGCTAATTTAGAAACCTCTAAGTTTGATGATTTTGAAGCTTGATTAAATAACTCTAAGCAAATTAATAAACTTTCAAAAATTGCAAAAAAAGAACAGAAACGAATGATTAAATTACAAAAAGGAAAAAAATAATGAAAAACAAAAAAGTAATAGTGGGTTTAAGTGGTGGAGTTGATTCATCAGTTGTTGTTACATTACTAATTGAACAAGGTTATAATGTAGAAGCTCTTTTCATGAGAAATTGAGATAGTAATCTAAATAATGACATTTTAGGAAATGATTTAGAAAAATTATGTCCTCAAGAGCAAGACTATAATGATGCTTTAAAAGTTGCGGAATCACTTAATATAAAATTACATCGTATTGATTTTATAAGAGAATATTGAGAGTATGTTTTTGAATATTTTTTAACAGAATATCAAAAAGGAAGGACTCCAAATCCCGATATTCTTTGCAATAAATATATAAAGTTTGATAAATTTTTAAAATATGCAATAGAAAAATTAAATGCTGATTATATAGCAATGGGACATTATGCTGGTGTTAGATTTAATAATAAGTCAAAAGAATATGAACTTTTAAGAGGAATTGATACTAATAAAGATCAATCATATTTTTTAAGTCAATTATCTCAATATCAACTTTCTAAAACTCTTTTCCCATTACAAAATTACAAAAAAGAAGAAGTTAGAAAGATAGCGAAAAAATATAATTTAGTTACTTATGAAAAAAAAGATTCAACAGGAATATGTTTTATTGGAGAAAGATACTTTACTCAATTTTTACAAAATTATATTCCTAATCAACCTGGAGAAATAATTGATATAGCAACCAACAAAGTCTTAGGACAGCATATTGGAGCAATGTATTATACGATTGGTCAAAGAAAAGGTTTAAAGCTAGGTGGTCAAAAAGAACCTTATTATGTTGCAAAAAAAGATATGAAAAATAAAATTATATATGTATCAAGATTAAGTAATGAAAGTTATTTAAAATCTAAGAAATGCATAGTAAAAGATTTTAACTTTATTGTTAATTGAAAAAACTATTTTAAAGCAAATAAATTTAATTGTTCTGCTAAATTTCGTTATCGTCAAGTTGATGTTGATGTCCAAGTAGAAGTATTAAATGAGAATACTGTTGAAATTAGTTATAAAAGTGAAGTTAGAGCTGTCACCGAAGGACAAGAAGCTGTTTTATATTTAAATGAAATTTGTCTTGGTGGTGGAAAAATTGATGAAGTTATAAGTTAGTTTTAAAATAGCAAATAAATAGTTTAAAATGAAAGTAACATATTAAGGAGATGAAGACATGTTTTTTGCAGATGGTGAAAGTGGAGGTTTATTTGGAGGAAGTAGTACCACTACAACAATTATTTTTGCTGTTATTGTATTAGTTATTATTATATTTATAGTAATTTCATCAATTACAAGTAAAAAAGCACAAAAAAAAGAACAAGCTAAAAGAAAAAAGGTGGTTAAAGAAGAAATTAAAAACTATCTATCACAAACTCAAAATCAAAAAAATATTAAAATAGAGTATGAAAAAGTTTATGCTCGTAAAGGACCAGAATATAAATATCGAGATGTATTTGATGTTATTGTCCAAATGTATGAACCAAAAACAAATGAATTAATTAAAACTGCAGCTTATGAAGTTGAAGGAATAACAACAAAAGCTGATAAAAAAACTTACAATACTGCTTGACAAGTTAATAAAGAATTAGATATTGAAGATACAAAAAAACGTATAGCAATAGCTGAGAAAAAAATTAAACTTTCTAAAGAAGAAAGAAAAATAATGAGAGCAGAAGAGATTGTTAGATCAAAAGAACTAAGAGCTAATTTAAAAGCTGAAGAAGCAAAAATTAAAGAAACACAAGCAAAACAAAAAGCAAATCCATCATTAAGAGTTCCAGACGAAGTTAAAGCAGCAACAGTTAAATTTATTCCAAAGAGAAACAAATAACGCTTTCTTTTAATAAGGTGTTATTTTTTTATATAATTAAAAAAGTTGAGGGTATTTATGGAATTAAAAAATGTTGTTAAAAAGAAAGATTTTATAAAATGATTTGCAAGTTGTAATAAAGAAGCTTGAGTTTTTCATAATTTAAAAAATTTTGAAAAAGCAATTCATTTAAGAGACAAAAAAGTGTATGAGTTTTTTTTAACTGAAGAACTCGAAGAAGGCGGTTTTGAATCAGGTTCTGGATTTGACCCCTTAGAATTATATAAAAATATTTTAAATAATAAAGATCTAAGCGAAGAACAAAAGAAACAAAAAGAATTATTACTAAATATTTTAGATGAATTTGATGGATTAGAGTTGTCAACAATAAATAACAACTTTATTTTAGATGGTAATGACACAGGTCAAGCAGCAAGAGAGTATTTTATAGAAATGCTAACAAAAGAAAATATAAAAAATAACACTAATTTTAAATATTATGATTTTCAACAATCCGGATATCAAGATTCTAAATGGAAAACAATTGAATTAATCAATAATCCAGAATATAAATTATTTTTTGAACCAACTTTCGAAAAGTATGATGGAAAAATGAAAACACGTTGTGATATTTTATTTAAAAATGAAGACGGTAGTTTCGATATAATTGAAGTAAAAGCATCTACAAAAGAAAAAGATTCGCATTTTTTTGATTTATTCTATCAGTGATATATCGTTTCTGAATCAATAATAATAAAGAATATTAAATTATGCCTACTTAATAAAGAGTATTTTAGAGGGGTAAATGGAAAATTATATATGACCGAAGATTTAAATGATACTTCTAATTTAGTTGATTATAAACTTGAGGTAGAAGAAATTTTAAAAAGAAAAATTGTAATACAAGAAGAAGAACCAGACTATTTAAATTATGATAAATTATTTATTTTAAATAATTCAATAGAAAAAAGAAAAATTAGAATTGATTATATAGATTTTTTTAAATCCATAAGAGATAACTTTGAAATAGATAATGAGATTTTAAAAATGTCTAATACTTTTATAAATGATAAAATATTAAGTGATAAAATGTGTGGATGTTATGAGCTAGATTTTAAAAATTTAAATTTAAAAATAAAAGAAAAAGTTTGTAGTCATGTTGTTAAATGATTTAACAAAAAAAAGTTCTCAATTTTTGATTTACCAAAAAATAAAGAAAAATCAGCAAGATTTTATTATGATAAAAATAAGGTATATATTGAAGACTTAGATTGAGGAGACATAAACTCATTTTTTTATAAAAATGGTGAAAAAGAATATTTCAATGAAGATTGTAAAAAAATCATAAAAATTACTCAGAATTATATTAAAAAAAATAATAATATAAACATTATGGATATGGTTGATATTAATAAAAAAGAAGTTCTAAAAGAAGTTGTTAGAGATTACTTTAATTATCCAATTTATATGTTTGATTTTGAAACGTCAATGTGAGCGATACCTAAATATAATAAATCTAAAAGTTATCAGCAAATACCTTTTCAATTTTCTGTTCATATAATTACAAATGAAAATTATGATTTTAAAAATCCTGATAAAACTATGATTCATTATAATTTTATAGCAAAATCTCCAAATGATCCAAGACCAGAATTTTTAAGTAATTTTTTAAAAGCTTGTTTTTTAAAAGGTCCTGGAAAATATGTTGCTTACAATAAATCATTTGAAAGAATGGTCATTAAAGACTTAATATTAATGTTTCCGGAATTCATTAAACCATTAAAATATATATATGAAAACACAATAGATTTGATGAACTTTTTTCAACTTCCTAAAAATAACTGACTAATATATCATCCTGAGTTTAGAGGTTCAGCCTCTATAAAGGTGACTCAGCCAGTTCTGGATAGTTCATTAACTTATAAAGATTTAAAAATTAATAAAGGAGATAAGGCAAGTTCGGTTTTTAGGAGATTTGCAGATAATTATTTTAGTCAAGACTTATGAGATAAATTATACAAACCAGATATGTTGCTATATTGTGATCGAGATACTCTTGCAATGGTTGTAATTTTACAAGTTGTAATAAATTATATAAAAGAAACATCACCAGATATTTTAAAAGAAATTAAAGGGGAAATTTAAATGAAATATAAAGTTATATTTTGTGGAACGCCACCAATTGCAGTAGAAGTTTTAAAAGGATTAGAAGCTTTAAATCTTGAAATAGTTTGTGTTATTACACAACCAGATAAAATGGTTGGGAGAAAAAAAGTTTTAACTCCATCCGTTGTAAAAGGATATGCATTGGTAAAAAATTACAATATTTTACAACCAGCAAATATTAAAGATGCATTTGAAGAAATAAAAAAATATAATGCTGACTTTTTATTAACTTGTGCATTTGGACAATTTATACCTGAAAACATTTTAAGCTTATTTAAAAACTCAATAAATGTGCATGGTTCAATTTTGCCAAAATATCGAGGTGGAAGTCCGATTCAATACGCAATTATGAATGGAGATAAACAAACCGGTATTAGTTTAATGAAAATGATTAAAAAGATGGATGCTGGAGAAGTTTATAAAACTGAACTAATAGATATTTTAGATGAAGATGATAGTGGAAGTTTATTTGAAAAAATGGGAAAACTTGCTAATCAAATGATTCAAAAATATTTAATTGATATTTTTGAAAAAAAAATAGTAGGAGTAGCTCAAGATGAGAGTCAAGCAACTTTTGCATATAATCTTTCAAATGAACAAGAAAAAATTGATTGATCAAAATCTAATATTGAAGTATTAAATTTCATAAGATCACAATCTCCTTTACCAATAGCTTTTACATATTTAGGTGATGAAAGAATCAAAATAAAAAAAGCAAGATTAGTAAAAGATGATGAAAAATATATTTCTTTATTAAAAATATTTCAACCTGGTGAAATAATTTATTTAGATAAAGAAGGTATAATTGTACAAACAGGTCAAGGAATTATAAAAATTTTAGAATTACAAAGAGCTGGTAAAAAAATGGGAAGTGCTGGAATATATAAATTTGAAAACTCACCATTTTTACCTACTTGTATGTTCAAATAATATTAAATAACTAAGTTTTTGTATATAATATAAAATATAATATTTTAAATATAAGGAGATTTATATGTTAGTAAACGATTTAAGACCTGGAACAACTTTTTTATATGACGGGAACATATTTGTTGTTTTAGATTATTCTTTTTCAAAATCAGGAAGACAACAAGGGAAAGTTACAGTTAAAGTTAAAAACTTAAGAAGTGGATCAAGAGTTGAATTAACTTTCACAGGTGGAGATAAAGTAGAAAAAGCAATGGTAGAAAAAAAAGATATGCAATATCTTTATAATGATGGAAGCAATTGTATGTTAATGAATACTGAAACTTATGATCAAGTTGAAATAAGTTCAAATAAATTAGAATGAGAATTAAAATTTCTTGTTGAAGGAACAATGGTAAAAATGACAGAATACAATGGTGAAGTTCTTGGAATTACAATACCAGAGAAAATGGAATTAACAATTAGTGAAGCAGAACCAGCTGTAAAAGGTGATACTACTAGTGGTGCACAAAAAAAAGCTGTTTTAGAAACCGGATTAGAAATAATGGTTCCTTTATTTATTAAAGAAGGAGAAAAAGTTGTAATTAATACGACAGATGGAAAATATTCAGGAAGAGCTTCTAGTTAAACGAAAAGAAAAGAGTGATTTATATGTATTTTTCGATTGAAAGAAATGTTAATGGTAATTTAGAAGTCGAAGAAAAAATTATTGATAAAATTGTAGAATACCATATAACTAGTGCTACTAAGGGGATTAAAAAAGTTAAAGCAACAATTAGTATGCATCATGAAAGTATTTTATTCATTTTAATAAAAATGACTGTTACAAAAAAAGAAGATTTAGTAATTGATGAAGCAAAAATTAAGTCTGTAATTGAAGAATCAATCAAAAAGAATTTTTTAATAAGACCCAAAAATATTGCCTTTGCATATATTAAAGGCTAACAACAAGTTTAAGCTTGTTGTTTTTGTTAATTTTAAAAAGTTATTAAAAAATATTTTTATTTTTTTAAAATTTGATAAAATTGTATAAATTTATAATGTTATGTGAGATACTTAAAGGTTGACTTTAAAAAGGGTAAAAAATAGTATATAATAATTAAGAATTATAGGTAAAAATTAGGAGGAAATTGATATGGCTGTACAAAAAAAATCGAATGCTAATAAAAAGGAAACATCTAAACCAGGTTCAGAATATGTTTGACAACCTTTTGGACAAAAAGCTTTAGCTTTAATAAATAAATATAATTTACAGACTGAAGAAAATTATAAAAAACTTATTTCTTCATTTGATAGAATTCAATCATTACCAAATGATGATCCTAGAAGACCTAATCTTATAGAATTATGAGAAACTGAGTTTAATAGATTATTCAAACACTTTTGACAAACTTTTGCTAATAATAACAAGAGACAAGAAAGCAATATTGCAGGATGAAAAGACAGACTTAATGTAAAAGTTATTCCTAATACACCAGATGCAAAACGTCAAGATTTAATGTCAAGACTTTCTGGGGCTGGAAGTACAGGAAGAAGAGCGCAAGAAGAAATTCTTTCAAGAGCAGGATATCAAAATGTAACCACAACAGAACCTTTTAATTTTAAAGCGCAACCAAAAACAGGTCAAAGTCTATATGAGATTGAAAATATTTTAGATGCTGTTGAAGGTGGTGTTGATAAACCAGGAAGTATTTTAGAAAATAACAATAGTTCAGGAGAATTTGTTGGGTTTGGAACTGTTGGTGCAGTTCAAAACAATGATGATAATCTTGAAGAATTAGATGTTGATGAAGAAACAAGAATTATGACTCAAGAAGTTAAACCAGATCCAAATTTATTGGATTTCGTAAATGGTACTTCATCAAGATATGAAGAAGAACAAGATGAAGATGTTATAATTTCAAATGAAACTAATCAAAATGCTCCAAGTAGTGAATCAACAAACACATTATCGTATAGTCAAAATATTCAGAATAGAGAATTTGTCGGTAGTGAAGATATGAGCCGTCAACAGTTTAATGTTTTAAATAACATACAATCAGAATATGTTCCTCCTCAAGATTCAGATGCATTAGCTGTTTTAGAATTAGGAACAGAATTTTTCCAAGAACAATTAGGAAGACATGGACTAGCGGCAGAACCGATGCAAGAAGGACAATCTCCATTTGTATATACTGATAAAGATAATTTAATTAATCCAGAAAAAAGAAATATTTTATCAAGAGAAGGATTTGAAATTTATAAAAGTACTGATGATGCAGGACTTAAAACAGAAGGAAAACCAAATTATGATATTTCAACAGGAGAAGTTGTAAAACCATTTCATGAAATAAGACCAGTAGGTAATTATGGTATAACTTACGATTATAAAAAACGTCCATCAATGCAAGATTTCTTTGAATCACAAGAAAAAGAAGGTCGTGTCATTGATGAGATGACTCAAAAAATTGAGTTTTTAAGAGATTTACGTAACGAGCGTCGTCATAGAATTAATATGATGAAAATCGAACGTGCAAACAGTTATATTGTTGCTAGAGCAAGAAGATTAGCTGAAGCTCGTGAGTTAAGAAGATTAAAACGTCGTGAAGATATTAATTTAAAAGCAATTGAAAAAGCAGAAAGAATGCGTAGATTGCATGAACGTCAAAAATTAATACAATTAATGAAAGATCGCCAATTAAAAAGAGCAGAAGAAAAACGCGTTGCAACTGTACTAAAGTTGGAAAGAGAAAGACGTTTAGAGAGAGATGCAAAATATAGATCAGAAATTGCTTCTATAGATGCACAAATTAGACATGAGCAAGAATTAATCAAACGTACAGAATTGAAAATGAAAGCCTACTTCACTAAAGTTCATGATGATCAATTATTTGACGAGTCACTAAGAGTTGCTAAAAAATCTAATCAATTCATAGAACTTGAACAAAAAGCTGAATTAATGCAAGAACTTGAAGAACAAAAAAGAAAAGATAGAATTGAAAAAATTAGTAGAAAATTTAACAAGAATATCAAGTAATAAAAGTAAAGGGGCAGAGTGTATTTTATATTACTCCCCCATTTTTTATTAAAATAGAAAGGACTGAAATCTATGGCAAAAGCAAAAATTAACAAAGTTAAATATCCAAATGAATCTTATTTAAGAGAAATTGGATTAACTAATTCTGCAATAAATACTTTAACAGGTCAAATTGGTAAGTCTCATCAAAAAGCTACGGAAGTTGCAGTTCATGAAGCAGTTTTAAAAATGAATAAATCATTAGATGTAAAAGACAAGTTATCTAAAAAAGATTTAAAGCGTAGAGATCAGTTACTAAATGTAAAAAATAAAGAAAAAAATGTTATTGAAAAATTAGAATTACTTGGCGAAAGAAAGAAAAATTTTGAAAATACCAAAAAACTTGATTATGAATTAATGCAAGAAGAAAGAAGAAAGAAAGCTAAACAAAGTAGAAACAGCTCTTTAATTGGTTCTGCAGATTATGAGAAATTAAATAAAATGGCTGCAGATACTTTTATAAATAACACTAATGTTAGCAAGAAAAAAATTAAGCAAACTTCTTCACATTTAACCAACAGAAATGTTTCAAAAGCTGATTTAAATAATTTGTTTCAACTAAAAGATAATAAAAAATTTAGTTTTAAAAAGTCTGAACCAAAATCAATAATTCCAGTTAGAGGAGCAAGTTTGTTAAGTAAATTTGATTATTTAAGTGAATCGTCAAAACATTTTGCAAAAGAACTAGGTTGAATTGAAGATGATAGACAAAAAAGAATTTTTCAATCACCTTTAAAAAATTATAAAACTGAAAATAATGAAAAAAATGTAAATGAAGAAGATATAAAAAAGACATTTAGTTCTAATACATCAAATAAAAAACTAAATGATAAAAATCTAGAAGAACACGAAGATAATAAAGATGTAAAAAAAGAACTTGATTTAAAAACAATTGACGATATGGTAAAAAAATATACTAATAATGTTGAAAAAATTAATAAACAAAAAGTAAAAAGACAAATTGAAGCAATTAATGTTTCTCAAATTACTAAAAAAATTTTAGATCAAAGTCCATTAGCAAAATTGTCTAGAGATAATAATAAAAAAGTTGTAGCACCAAAAGGTGTAGATATAAATAAAATTCCATCAATAGTTTTTGATAGAAAAAAGTAGTTGAGGTGAACGGGATGGCAAAAGAACTTAAAACTAGTGAAAAAGATTTTAATTTAATATCTGATAAGACTAAAACTAGAATTAAAGGTCTTATGGAAAAAAGATTAACTACACAAACTGTAGCTCTTTTTGCACAAGAATATGAAACATATGATTTTGATATTAGATCAGAAATAATCGATTTTATTGTTTTTTTACTAGATAAAGCGCAACAAGAACTTGAAGATAATGATTCTAGAAGAAAAGATGAGTGAGATCAAAGAGCGTTTGAAAGAAGAAGACTAGATTTTATTGAAAAACAAACAAAAGTTAAAACAATTCAGGCTGCTCTTAAAACTGACCACAGCATTTTAAATAAATTTGATTTTTCAAGTCAGCAAAGTAAAGTTGAAGAAAAAAAACCAATAAAAAGTGTAAAACAAACTAATGTTAAAACTATAAATTTGGAAAAACAAAATACATCTGTAGATTCAAATAAAAAACTTAAAAAAGAAACTATTGCAAGCTCAATTGAAAAAAGAATTAGAGAAGCTGCTTTAAGAGAACAAAAAGAAGCGGCGGCTGAAAAAGCAAGATTAGAAAAAGAAAAAAAAGAAGCAGCAGAATTAAAAGCTAAACTTGAAAAAGAAAAAAAAGAAGCAGCCGAACTAAAATTTAGAAAAGAAAAAGAAAAAAAAGCAGTTGAAGAAAAAGCTAGAAAAGAAAAAGAAAAAAAAGAAGCAGAAGAGAAGAAAAAAGTAGACGCTGAAAAAAAAGCTAAAAATAATTTAAAAGCTCAATCTAATTCAGTTTTTAAACCTAAAGAAGAAAAAGAAAAAGAAAAAGTAGATAAAAAACCAGCAGTTCTTACTCAAAGAGATTATGAAAAAGAACAAGCTGAGAAAGAAAAACTTTGAAAAGAATTATATGGTAAATCAAGAGTGCAAACGCAAGAAGCAAAAAGACCATCTACAAGTTCATTTGCACCAAGTCCAAAAAATACTGATAAAACACCACTTATAAAAGAAGAAAGTTTTGTTAATTTTAGATTATATGGACATACATATCCGATTGATGAATTAACTGATCCGAAACATAAATTATACGTATTTTGAAATACTATAAAAAATAAATATAAATCAGGAAATATCTCAGTTTGATTAAAAGAACAATCTAAATTTAAAAATTGATGAATTTATAAAAAACGTTTAAAAGCAGCAAAAAAAGCTAATAAAATGCAAACAAATAATGCTATTTCAAAACTAAATAACAATGATATAAATCAAAAAAAATTTAATAATAATATAAAACTACAAGAAAATACAAAAGATAATAATGTTGAATAAAAAAAAGATAATCTTATAGGAGAAATACTAAAATGTCACATGATATTATTATATGTTTATCAACAATCGTTTTAATAGTTTTTTTAATTGCTATTCCAGGAATGTTTTATCTTTTAGTTTCTAAGAATAAAAGGAAAGTTAAAACAGTTGAAGAAATTATCAATGAACCTTTCTTTGTTAATGAAGAACATAAAAAAGAAAATTGATGAATTTCAAAAGACGGAAGTTTCGAAAAAAAGTGATTGTTGAAACAAGATTTTGATTATAAGGTAGATTTCTTCGAGTACTATGAAAACTTTTCTAATGGTTTTTTTAGCTCAAAATTCATTAGAACTAAATATGTTTTAGTGGAATTAATGGATTTAAAATCAATCAATAAAACTGTTGATAGATTAAATTCATACTCAAATTGTTTAGAAAATATATGATGAAAAAAATATAAACCTTTATTTGAAAAACAATTTAAAGAAGTTTATTCTATAACAAGTGCTCCTGTATATTTCTTTTATAAATACTATTTTAAATTCGTTTATGATTTAAAAAATGTATTAGCCCATTATATGACAACTATTATAATTCCTAATACTATATTTTCAGAATTGAAAGCAAAACATTTAAAAAGTCTTGAAATCAACAAAAATGTTGATTATCAAAAAAATATTAATTTTGCTTTTGAACAAGTGAAGATAATTGCAGAATTACTAGAAAATAAAATTAAAGAAGAGTTTAAAAAAGAATTAATTACAAAAGGAAAAGAATGAAAATTTGATTATAATGAAGAAAATGCATTCAAATTTATATTTGAAGAAGATAGTTTTATTAAAAGAGTTTTATTAACTGATAGTGCTAAAAAAAGTAAAATAAATTCTAATAGTAATTTTGTCAAACATGAAAAAGATGAAAAACAAAATTTTAACATATAGAATTTTGATGTTAAAATGCTTTATAAAAGCATTTTTTTATATTTTTTAGTACCACTCATGCAATCAGATGAAATTACATCTAATAAAAGGTATAATCAAAGAAAAGAGGTTTTTATGAATTATAAAGCTAGTGATGCAATAGATTTAATTTATAGATTAATAGGAAATATTAGTGCAGTTTCGTTTCCTCATTTTTTAGACAATCACGGTAAAAAACGAAGCTTAGCTAACGATATAAAAGAGTTTTATCGAGATATGTATAAAAGAAAAATAAAATTAAAAGGAGAAGTAGAGAATCATTTTGATTTGAATAATTGATCGTTTTCACAAAATAAAGATGATATTTTAAAGGTTAAAAATTATTTTTTTGGAAACTTCTTTATAAAAACAGATTATAACTATTATCTAAATAAGCAACATATAAATGAAGAGTTGAATAAGTTTCATGATAAAGCTTTAGATAATACCTTTATTTCAAATCTTACCAAAATCGATTGAAGTAGAACAACAAGAATAATAGAAGCAAGTTTTTTAACTTGAATAAACAACAAAAATTTAAAACAAGATGATGAGTTAAAACATCGACTAACTTTAATTTTAACAAGTTTAAATGAAAAAGAAGAAATTAATTATAATCAAAAATATAAAATATTTTTAGAAACTATTGATAAATATAAAGATTTTGTAAATATGTACGATAAAGAAGAATTGCTTAAAACTCCAATTAACAGTGATAGTTACGAGAAATATAATCAGATTTTAAAAATATATGAATATATTGAAAATGGGATGTCAATAGAAGAATATTTAGATTCAGAAAACATTATTATGCAAATTAAAAAGCTACCAGATAATGCTGAATTATGAGAATATGATTTTACAAAAGTTTTATTAAAAAGAGTTTTTTTAATAACGTTGATTAACAGCGTTTTTAAAACTCATGCATCTTCTGCTCCAATTGCTAAAATAGAAATGATTATATCAAATGGTGGATTTAAAATAGATTTTCAAAAAATACCACTAAATAATCTATATATTGCACTAACTCAAAATGAAGAAAATGTTAAAAAACTAATAAAGATAAGTGGTCAAAAACTAAATCGTGACTTAATTGATTTAGTAAAAGGTTTATTTAAAAACTTATTAATAAATATGCAGTTGAATCAATACCATTCATTTGATAACAAAGAAATATTTTATGTGCCTAATAAAAAAGTTATTTATTCATATTTAAAAGAGATCGGAAATTTAATAAAATATCATGAATCTAATCTAAATGAACCAATTTTATCTCATCCAGGTGATAATTTAAGTGATTTTAAAATTGCTATATCTAGTTCGTTACTTAATTTTGAGGATAAAAATGCTATTATTGATGTTTTAAGAAAAAATTACAAAGAAATAAAAGATTATCCAAATGCGGTATTATTAAAAACTATTGAATATATAGAATCACTATCTAATGTTGAAAATATTTAACTTATTTTAATTGTGTAAAATAGGAGATTAAAATGTGTTGTAATTGTAAAGATAATATTTTAAATAATTGTTCATGTTCAATATATGAAGTTGAATGTAATTTGAATTGTTGTTGGTGTTGTTTATATTCAAGAATGGTAGATTTCGAAGCTAAAAAAAATTTTTTTAATATTTTAATAACTGATTTTACAAATGTATTAGCAAAACAAAAACATTTAAAAGTAATTAAAAAAGTTTTAAAAAATTCTTTAAAAGATTTAAATGAGTGCGAACAAGAGTTAAAAATTATTAAGGCAAAAAATTATATAAGTCTTATTAACTCTGATAATGATATTGAAAATATTGTAAAAGATATTGAATTGGATTTAGGTTTAAAAATAAGAAATATAATTAAACAATGAGAAATATATATTGAAATTAGTTATTTAATTTTAGATCTTGATAAAAGTTATTTTTCAAAAAAAACCTATAAAAACTTATCAGATATTTATGATTATATGAATGATTTTTTATTTGAACTAGCAAAACTGTTTAAAACAATAGTTTTCTCTCAAGATAATGCAAGTTTTATTTATACAATTCAAGAAAATTTTATTGATCTAGATAAAACATTAAAAAATTTTCATTCAAAGTTAGAGCAATAAATTGGGCATTTATACCATATATTTGTTATAATAAAAATTGTATGAAATATGTATAAACTAGGAGGCAAAAGTATAATGAAATTTGAAGCAAAAAAATTAGTTGATAAGGGACAAGGAGTTTGGATTGTAACCATTGATGGTAAAGATTGAGAATTTGCTGTTAAAAAAGGGAAGAATAAAGTAGCTTCATCAATTAAAATTGATGGTTTTAGAGAAGGAAAAGCGCCAAAAGAATTACTTGAAAAACATATTACACCTGTTAAATATTTAAATGCAGCTGTTCAATCAATTATGGAAAAAGCATGAGATTTTGCAAAAGAACAAAAAAGTGATGTTGAACCATTTTCTTCTCCAACACCAACCCCAACAAAAGTATCTGAAAAATTTTGTGAATTAGAATTTGTATTCGATTTAAAACCAGAAATTGAAATTGGTGAATACAAAGGGTTAAAATCAAAAGATTTAGTGAAAGAAGATTTTAAAGCAACTAAAGAAGAAATTGATATTGCAATTGATCAATATCGTGATCGTTTTGCATTAGAAAAAGATAAAGACAAAGATGCAAAAATAGCAAAAGGAGATGTTGCTATATTTGACTTTGAAGGATTTGTTGATGGAGTCGCATTTAAAGGTGGGAAAGGTTTGGATTTTAGATTAGTAATTGGGTCAAATCAAATGATTCCTGGTTTTGAAGATGAATTAATCGGTAAGAAATTAGGTGAGTCAAAAATTAAAGTAACTTTTCCAGAAGATTACACACCAGAATTATCAGGAAAAGATGCAGAATTTGTAATAAATGTAAAATCAATTAAAGAAAGAATTTTACCGGAAAAAGATGATGAATTAGCAAAAGATTTAAATTTACCAAATATAAAAACTTATAAAGAATTAGAAAACAGTGTAAAACAACAAATAATAGATCAAAAGACATTAAGTTTAAAAAACACATTTGTAAACAAAGTAATTGATATGATTATTGCTTCTTCCAAAATAGAGTTGCCAAAATCCGCTATTAATAGAGAAATTGAAAACCTATACAAAGAATTTGAAGCACGTGTTGCAAATCAAAAATTAACTATGAAAGAATATAAGAAAAAAACTGGTTTAACTGACGATAAAATAAGAGAAGAATTGTTTGACGATGCCAAAAGAAAGATTTGTAGCTATTTAGTAACAGATAAAGTAAGAAATACAGAAAAGTTTGAACCTACTAAAGAACAAATCGAGGAAAAATATAGTAAATTAGCAGCACAATTTGGAGTAGATGCAGATTACATTAGAAAAACAATTCTGCCAGAAGCTCAAATTAAAGAAGAAATAATCAGAGAGCAAATTGTAGACTTTTTATATGAAAATAATGGCTAAAATATGATTAATATCATATTTTTTTTAAAATTTTTAGCACTTTACACTTGACAGTGCTAAAAAGTATGTTATTATTATTTTGTACCAATATAAATTTAGGGGGAATAGTATGAAAAATTCAAAAAGACTACCGCTTTTGGTAACAAGAGGTAGCTATGTATATCCAAGCTTTGAACAAGTGCTAGAGATTGGTAGGGATAAGACTACTTTAGCAGTAAAAGAAGCTGTTGAGCACAACGATGGTTTGATACTAATCGTATCTCAAAAAAAACCATTAGAAGATGATCCAGATACAAATGAATTATTTAACTTTGGTGTGCTTGCAAAAGTAAATATTAAAAAAGAGTGAAAAGATGGTACTTTAACTGTAAACATAAAAACTATTTCAAGAGCAGCAATTAGTGCAATTGAATTAGATGGGTATTATTCGGCAGAGTATGAAGAAAAAATACCTAATAGTAAAAATAATAAAGATGATGTTGAAAAAATTACAAAACACATTAAACAAATGATTGCTAGTCAAGATGAATTTCCAGCAGAAGTTGAAGAAATTTTAAAAGATTCAACAGCAAATATGGATGCAAGTTTCTTAGTTGATAGTGCAGCACACTTAATGCCATTTATGCCAATTGAAAAGAAACAAGCAATTTTAGAAGAAATTGATCCTGTTAAAAGAATTGGGATCATCAATGACTTTTTAGATGAGAAGCGTCAATCAGCAGACATTGAAACATCAATTAGTAAAAAAATTAAATCTAGAGTTGATGAACAACAAAGAGAATTCTATTTAAGAGAAAAATTAAAAGCTATTAAAGAAGAATTAGGTGATATGGATGGGGAAGGAGACGATATTAAAAAATATAAAAAGCGTCTTGAAACCGAACCTTTCCCAGAACACATCAAAAAACGTATTATGCAAGAAATTGAAAGATATGAAGGATTACCTTCATCTTCAAGTGAAGCAAACATCATCAGAACTTATATAGATTGAATGATGCAAACTCCATGATGACAAAAAGCAGAAGAAAAAACTGATTTAAAATTTGCAAAAGAAATTTTAGATAAACATCATTATGGTTTAGAAAAAGTTAAAGAAAGAATTATCGAGTACTTAGCTGTAAAACAAAATACAAATAAAGTGAAAGGTCAAATTATTACTTTAGTAGGTCCTCCAGGAGTAGGAAAAACTAGTTTAGCAAAATCAATAGCAGATGCTATGGGTAGAAATTTTGTTAAAGTAGCTCTTGGTGGAATTAAAGATGAATCTGAAATTAGAGGTCACAGAAAAACATATATTGGTGCTATGCCAGGAAGAATTATTCAAGGGATGAAAAAAGCTGGAGTAAAAAACCCAGTGTTCTTATTGGATGAAATTGATAAAATGGCAAGTGATTACAGAGGAGATCCAGCTTCAGCAATGCTTGAAGTATTAGATCCAGAACAAAACTCAAAATTTTCAGATCACTACTTAGAAGAAGAATACGATTTAAGTGATGTTGTATTTATTGCAACAGCAAACTATCCTGATGGAATTCCTGAAGCATTATATGACAGAATGGAAATTATTGAATTATCAAGTTATACAGAAATAGAAAAACTAAAAATTGCAAAAGAATATTTAGTGCCAAAAGTTTTAGAAGATCATGCTGTAACTCCAGAACAAGTAAAATTTACAGTAGAAGGTTTAAATGAAATTATTAAACACTATACAAGAGAAGCGGGAGTTCGTCAATTAGAACGTTGAATTGCTTCAATTACAAGAAAATTTGTTGTAAAAATGTTAAATAAAGAAATTGAAACTTTAGTCGTCACTCCAGAAATTGTAAATGAATTGTTAAAAAAACGTATATTTGAACATACTGAAAAAGAAAAAGATGCTCAAGTTGGAGTGGTAACTGGATTAGCATATACTCAATTTGGTGGAGATATCTTACCTATTGAAGTAAATCACTTCCCAGGTAAAGGTGGATTAATTTTAACTGGTAAACTTGGAGATGTTATGAAAGAATCTGCAACAATTGCATATGACTTTGTAAAATCAAATTTCAAATCATTTAATATTCCAAAAGAAGTGTTTAATGAAAATGACATTCATATTCACGTACCAGAAGGAGCTGTACCAAAAGATGGTCCTAGTGCTGGGGTAACAATTACAACAGCGATAGTTTCTGCTTTAACAAATAAACCAGTACCAAAAGATATTGGTATGACTGGTGAAATAACTTTAAGAGGATTAGTTTTTCCAATTGGTGGATTAAGAGAAAAATCAATCTCAGCAAATAGAAGTGGATTAAGTAAAATTATTATTCCATTTAAAAACCAAAAAGATATTGAAGAAATTCCTGAAGAAGTTAGAAATGCATTAAAAATTGTACCTGTACAAAGATATGAAGAAGTTTATGAAGAAGTATTTGGATCAAAACCTGCTGCATTTACAACTGAATTACCAATTGCTACTTCATCAGATTCAAGTGCAAAATCAGCAGAAAGTCATTAATATTTAAAATCAACACTACAAAGTGTTGATTTTTTATTTAAAATATTAAAGTGAGTAGGAGAAGAAAATGGATAAAGCACTTAGTTTTTTATTAAGACCAACAACATTAAAAAAAGTTATTGGTCAAACTCATTTATTAAATAAAAATGGTATTATAACAAAAATGGTTGAAAAGAATTTTGTTGCTAATTTAATTTTTTATGGTCCTCCAGGAATAGGAAAAACTTCAACTGCTATTTCGTTAGCAAATGATTTAAATTGTGAATATATACAGTTTAATGCTTCAAAAGATAAAAAAGAAACTTTAATAAAATTAATAGAACTAAAAACATCTAAAAATAAGTTAATTTTAATAATTGATGAAATCCATAGAATGAATAGAAATATTCAAGATTACTTATTAGAGTTTTTAGAAACTAGAGAGATTGTAGTTTTTATTACAACTACAGAAAATCCTTATTTTGTAATTAATCCTGCAATTAGAAGTAGATGTACTGTTTTACAACTAAATGAAATTTCAAAAGAAGAGATGATTGAGGGAATAAAAAAAATAATAATAGATAATGATTTAAAACTTGATATTGATAATAAAAATATTAGCTTGATAAGTCAATATTCAAATGGTGATTTAAGAACTGCTTTGAATGTTTTGGAAATTTTAGAAAATCTTTATAATGATCAAAAAATTGATGAGAATTTATTAAAAAATATATTTGATAAAGCAAATGTCAAAGGAACAGCAGAAGGTGATGAATATCATGATTTAAAAAGTGCTTTTCAAAAATCTATTAGAGGAAGTGATGTAAATGCTGCTTTGCATTACTGAGCTAGACTTATGGAAATTGGTGATTATGAAATTATATTGAGAAGAATGCAAGTAATTGCTTATGAAGATATTGGTCTTGCGAATCCAGCGATTGCTCAAAGAGTTTATTTAGCTTGTCAATCATTTAGAGAAATAGGAATGCCTGAAGGTATTAAAATGCTTGGCATGGCAGTAATTGAAATGGCTTTAAGTGAAAAATCTAACTCAGCTTATTTAGCAATTGATGCTGCTATTTCAGATGTTAAATCCGGTAATGTCCCACCAATTCCTGTTTATCTAAGAGATGGACATTATGCAAGTGCAGTTAAATTAGGAGTTAATGGATATGTTTATCCTCATAACTATGAAAATGCTTGAGTTGATCAACAATATTTACCAGATAAAATTAAAAATATTAAGTATTTTGAGTTTAAACCACACTCTGCATATGAAAAAAAACTTAAAGAAATTTATGATAAATTTACTAAGAAAAAATAATACAATAATTAAAAGGAGAATCAATTATGCTTACAACATTACAAATAAAAGAAGATTTAGCAAAAGCTGGGTATAATTGATTACCTAACTATAAAGATATTTTAGAAAAAGTATGAGCTAATATGGAACAGTATTTTGATGATGATGAATCTGTAAAATCTGCTTTATGAGCAAGTTTTAAAAGATATGAAGAACCAAGTATTGGTATTGTTTTTATAACTTCAAAAAGAACCTTTACTGTTGAAACAGCTGATAATGGTACAAATACACAATTAAGATATTTACCTTTTGATTCATACAGTTTACAAAAAATTCAAATGCAACTTGCAAAGAATAGTGGATTAAGTTATGTTAGTTTATTAAATGACAGTTTTGGAAATGGTATTACTTTTGGGTGTCCTAATCGAAATGTTGTTCAACATTTCGTAGAAACTTTAAGAGGAAGTTCTAATGCTGAGATTGAAATTTTACCAGAATCAGATGATCCATTATTAGCAGAAAATGAAAAAGAGCAGTTGATTGATGAAAATTTAAACAAAGTACAAGAAAATAAACCTCATAAGTTTGAAATGAAACATGAAGATAAAACTCCAATGAAAGAACACGACTTATGAAGAAAAGCTCCTCCTGAAAATAGTCAAAAAGAAGTTGAAATAAAAATTGTTCCACCAAAAAAAGTAAAGCCTGATAAACAAAAATTAACAGGTTATGCTTCAAAATGAAAATCTAAATTATGATTGTTATGATTTTTATTACCAATGGGTTTAATTGGAGTAGTTTTAACATTAATGTTTTTATTGTAATTTAATAAAAAAATCCTTTGTATTTACAAAGGATTTTATAATTTTTTAGTACTTTCTATTGTTCAGCTTCTTTTTGTTGCATATTCGATTAATTTAACTTGATATTTTTTCTCAACACCATCAATTGGTGATCGATATGTTATTTCCATTTCAATGTTTCCATATTTATCTTCATCAGTGATGTTGCTATATGAAACCATTTTATAACTAAAGTTATCATTAACAATATATTTATCAATATTTGTTTTAATATATTCTTTTTTAATATCACTTAAACTTTTGAAATCACTTAACGCATTATCTCTTATTTTAATAACACTTTCATCATCAAAGATATTTTCAATAGCAGCTAATGGAGAACCTTGATTAAAAGTTTTTTGTCCATCAACATATCCTAAAGCATATAAAGCACCTTTAGCACCTGCATAAATTTGTTCTTCTGAACCTGGTTTTAGTGCAGGTCCTTTTACAGCATATCCTGGGAATTTAATCAAGTTAAGTGCAATTGTTATTGGGTTATATTTCCCATCTTCATCTCCGCTTGTACCTTTCATATTTTTAACAATAGATTTATCACTTTTATAAACTACTTGAATTTTGTTTTCTACTTTTAAACTTCTTGCAAGTGTAGTTATTCCATCATTTACAAGACCAACTCTATTATCTGGTTTTGATTTATCATAATTTTTTCTATTTTCATCATTGTAATATTCTGTAAATTTTTTCAATAAACTTTCAATTGTTCCAGAATCTCCTAGATCAACTCCTAATAAATTTTGAATATTTATTGGTTTATCTCATAGTTTTTTGTTAAGCAATTCTGTAATTAATTGAGAATCTTTATCTCATAAAGCATTAAATCCTTTTGCCATTTTTGCAGTAGTTTCATCACTAATTTTTATACCTGTATCAAAGAAAGTGTTAATTGTATATAGAATTGATGAAACTCCTTGGATACTTCTATTATTTGAAATTGTATCTAATAATACTCCAGCAAGTCTTGATATAGCACTCCCTCCAAGACCCTTAATTATTCCAGGAATACTTACTCCATCTATCATATCTAAGATTTTATATCCAATTCCTTGAATAATTCCGTTTAGTAATGAATCAACTCCGACAACTTCTCGGTTAAACATTCCTCCAGTTAAAGCTCCTAATTTGACAATATCAATTAAGTTAGCATTTTCTGAAAGTTTATAATCAACTCCAAAAGGTTTATTTGGATCTTCATCTGGATTTCTTGATGCATTTGAATAACATAGTAAGAAAAATATTCTTTGCATGCTATACATACTTTTACTATCTTTAACATTAACAGCTCTAGTAATATTTTTTAGTAATTTATAAGCGCTAAATTTAGTTTTATTAGGCATACCTGATGAATTAATGCTGTTATTATAGTCAATTACTAACATTCTTTTCTTTTCATCTTTTTGATTATTCATTATTGAAGCAAATGTTTTATTATCTAAAACTTCAGCCATGTTTGAATTTATTCCTTGGAAATAAAATAAACTATCTGATCCAAGGCTAGTTGATAAAGTATTATCCATTTGTTCAAAATCAAAAATACCAATATTTATTATTAAACTACATAGTATGAAAAATAAATCTGAAATATTTTCAATAATAGCAACATAGTTTAATTTATCTTTATTTTTTACTAAATATAAAATGTTTTCTCCTAAATTTTCTTTGAAAAACTCAGGTTTATCAATTGGGTGATAATCATCCATTTCCAATTGTAATCTTATTGGATCGGTTTCAGGTGTGTTTGCATCAATATTTCTCCCGCTTAGTCTAATTAAAAGTTTATTTAATCTAACTAATGCTGATTGTTGAACTACTTTTGGAGTTAATTGAAGATTTACATCGATTGGAACTTCAGGATCTTGATTTTCTAACTCTTCTTTTGTTGGTTGATATTTTCCTTTAAAATCGTTGAACATTATTTCATTAATATAATCTTCTAAAATAAAGGGAACAACTGTACTTTTATCTGGTCCACCAGTTAAAATAGTCACTAATTCTTTTAATGCATCTTGATCTAATGTACCTGAATTTATAAAGTTAATATTAAAAAATAATCGACATAAAATTGATACAATTCCAGTTTTTCCAAAGTCATTTAGTAATTGTTGTGCATATGGTGCTAACTTTTCAAATGTATTTAATGCGTTATCTGACATTTTAAAATCAACACCATCATCACTTAAAAAACCACCAACTTCTGGTAAAAGACTTTCTAATATTCCTCCTAAAGATGGTTTGATTCCTCCTGCAGATTTAATAGCAGATAAAGCAGTTGATCCAGTATCAATAATGCTATCTGCAAATGAATCAGGAGATATTCCATCATCTAGAGTATAACCATTAGAATCACCAAGCCCAGTGTAAAATTTTTTATCTAATGGGTCTTCAAATGTGGCATTAACAAAATCACTTACTTTTGCTTGTGGAGTTGCTTTAAAAGTCGGTAGCATATCATTCATTTTTTTGCTACCAATATAGTTATTTAAATAATCAACACTTATACCTTCAGCATCGTTTAAAATTGCTCCTCTAGAAGCAACACTTGCTACATCAACAATTGAGTCAACTTTATTTTTTATATATTGTTTTTTATAGTTAACAAGAGAACATGATGTCACAGAAAAAACTGTCGTAGACATAGACAGTGCACTTACAATTGCGAGTAATTTTTTCATTTAATCACCTATAATATTATTATATATAAGTTAATTTAAAAAAAATTTTATCATAATAAAAAATTTTGCTATTGTAATTTTTATAAAAAATCTTTAAGATTAAATTTGTTAGAAAAAGTAGGGATATTAATGTATAAGAGTAGCATATGACTTTACTTAAAACAAGGTTTAAAAGGTGTTGTAAAGTTTAGAATTCAATTCTATGTAATTGTAATTCTAACTTTTATTTCATCTTTAATTTTAAGTCTTTCATTGTCTGCTTCTACAAGAATTTTAGACAATTATAATGAAATTATGCCTAAAATGGATCAATTTGATTATGTTTCTACTAGAGAAGTTGGATCAAAAAAGGATAATGACCCTAAAATTGTTCCGATGATGGATTTAATTGATTATCAATTTTTAGCTGGATATTATTCTGCTAAAAAAGATAATTTTGATGGCTTAAATAAAAGTTATGGATATAATTTTAATTTAGTTTCTATAACAGGTGAAAACGATCCGGAAAATACAAAAGGTTTTGCAGATGATAAATTTAGTCAAAATGATGATGAAAATGGATTAATTAATCACTACATGGTTACTGATAAATTTACTGTAACAGATGATTTTGATGATCTTTTAAAAGACCAATACAATAAAAACTACCAAGAAACTTTTATTTCAAATGCATTTAGTCAACGTCAAGTTAAAGAAGCTTTTCATAAAGTTTTAAGTAATACTAGATTTTTAGATATCATTTTTCATTATCAATATAATAAGGAAAATGATGTAGTTGAATATAAAAAAACTTATGATCAATATAATAAATTAGAAATAACTGGAGCTACAAAATATGCAGATTATATTGATGGATCTGATAAAAGTCCAAGTGACAGTGATTATAATTTAAAAAAAGTTATTTATGGAAATTTTGTAAAAACAGCAATTTATTATTTAAGAGAGTGTTTTTTACAAGATTTATCAAGTAGAAAAGAATATTTAAAAAATACTACATTTGATAAATTATGACAAAGAGGAATAATTAACAAAGAAAATTTCTTTCAAATTTTTACTCCTGCACCAAAAGAAAGTGAAATAGATGAACCTACGAAAGAATATGCAATGCCAACAAGCGTTAAATATCCTTCTAAATATGATTTATATTTAATTAATGCATTAAGTAGTTTAGTAGGACAAGTTATAAACTCTGCAATTGAATATGTTCAATATTATATTGACTCATCAGTTGCTGAAGCTACAAAAGTTGAAAACACAACTAATGTCGATACTTCAAAATTAGCAGTATATTTTAATAAAGGTGTTGTAAATGATGATGGTATCGATAAAGAAAAAGATGTTGCTGGATTTAAATATTGAACTGGTGATGGAAATGTAAGCAATCCAAGATATATCGCAAACATTTTATATACATATATTTTTGGAAATATTTATAGTGAAAATGATATTCAAAAAGATAATAATGATTATGTTAATAAGTTAAATAAATTACAAATAAATATTGATGAAAAACAGTTTCCGTATTTACAACAAGTTGATTTATCTTTTTCATTGGAATCAGATAAAACCAGTGATAATTCTTCAGATATTGGAGATGAAACTTCAAGTTTATCAACACGTAAAAGAGCTGATGAAACAACTCCAGAAAGTAATCGAACAACAGCAGATGTTGAATATTTTGATTATACTTGTCAAAATAAAACTGATAAATTTAAAAAAGGTTTAAGAGGAAGTTTGAATCAAATTATAGTTGAGCTTGACGGAAAAGAATCAGATGCAATGCCAACAGGTAGTGCAGGTAGTATGAGTGATACTAAAATTTTAAAATTTGAAAATGATAGAACTACAATTAACGAAGATATTGCAACAGATACTGGTTTTGTAAATTTCTCAGATCGTTTTGATTATAGTAGAACAAAAATAAACAATATTAAATTATATTATTTAAAAAGTGATATAGTTGGTGAAGCAACTAACGTAACTGTTGATCATCGTGCTGAAATGGGAATGTCAGATACTGTTCAAGAGTTGAAATATCGTATGGTTGTTTTAGATGAATTATGGAATTCTAGATTAACAATTGTATCTGGAAGACCTCCAACAGCAAGCAATGAAATTTTAATTAACTCTCAATTTGCAAAAGTTAATGGAGTTAAATTAGGGAGTTCATTATCAATCGGAGGATCTGCGTTTATTATTTGTGGTTTTGCAGCAGACCCACTTACTTTTTATCCTGTTGCAGATATGGATGTTCCAATTCCTAACATCAAAAAAGGAATTATAGTTTATGCAACAGAAGATACTTTAAAAAGAGTTGTTACAGAAGATTTTAGTAAATATACTTCAAAAATATTAGATACTTTTGTTACTGCAAACAATAGCAAAAATGCTGAAAAAGCAACTTTAGATTATTTTTCATCTTTAATGTCTAATGAAAAATATTTATATCAATCTTATTATGCAAAAAAAGCTTATGCTGATGCACAAAATAATTCTTCAGCTTCAATTAAAAATAGCAAAGATATTTTGTCAAGCATTAATAAGGGATATGATGAATATAAAAGTTTTGCAGATTCAACACTATCTTTCAACTGAACATTAGCACCAATGGTTACTAAAATGTTTCAAATTTTTTCTTATACAGTTTCATTTTTAATTGCATTGATTGCACTTGCTGCTACTTTAATTGCGATTAAAAAAACAATTGAAATGAATGCAGGAGAAATTACAATATTAAAAGCTATGGGAGCAACAAGTTCAAGTGTTGCGGTTTCATACTTATCATATGGTATTATTTCATCATTTATTATTGCACCAGTTGCTTGATTATTAGGATCATTCTTTCAAGAAGGAATTGTTAGTTTATTAATATCCTATACAGGTGGTGCTTATTGGCAAGCTATCTTTGATTGGCAAGCTTTACTTGTAACACTTGGAATATTTGGAGTATTAACGCTTGGTGTTTCTTATTATGTTGCATATCGGTTGGTTAGAAAACCAGTTCTTGAAATTGCAAAAATTAAAGATGTTGTTAAGAAAAATGAGACTCTTGAAAAAATTAAAAAATTTCTTACAAAAAATAAAAGTTTTTCAAAAAAATTCAGTACTGAACTTGCTATAAATGGATTTTCAAAAACTCTTTTAACAGCAGTTGCAATATTCTTTGCTTCGTTCTTTATATCGGGATCAATGGCAATACCTGGATTGGTGAAAAAAACCTTAAATGATTATTATAAAAGTGTAAATTACACCAATTATGTTGATTATGTTGATTTAGTTGGAAACGGTCCTTTATCAAAAAGTGCTTTATCTCCATGGCAAGGTGTTGAAAGCTATGAAGATAAATATATTGATACTCAAGGTAAATTAGATGCAGGAATTACAAATGTAGGTAAAACAACTTCTGCAACATTACCAATTTCTGATCACTCAGTTATGCCAAAAGTATTGATTTCATCAGCTGATGGATCTAAAAATACTGTTAGATATGATTGAACTTATAATGTTGCAACAGAAGGAATAAAAGATGAAAACGGTAAACTTATTCAAGAACCAAATATTATTTCAACAATATCATCAATTTTTGGTAATAATATTCTTGAAATGCTTGGAAAAAGTATTAGTATTGGAGATATTCAATTACTTTTAGATTGAATTATTCACTCAGATAATCCAGAATATGACAATATTGTTAATAGAAGATCAAAAATTTCTCAATACTCAACATTGCTAACTTCAGGATTACCAACTTTGATTAAACAATTGCTAACTTCAGGGTTAGGAGATTTAGAAGGAACTTGAAAAGAACAAATTGTTGATGTTATTCTTACTCAAACTCCAGCTTATATTAGAAACTATTTAAATATTTCAGAAAATAGAAAAAACCAATATCGTTTCGGATGAACTTTTAATACTTACATTCCAGGTATGGATTCAATGTATACAAAAGTTAATATGAAAAATGATGTTGACAATGTTCAAGTAAGTGGTATGGATTCAACTCAAGTTGCTTATAAATTACCAACTGATGGAGAAAAAATCTTTTTAGATCAAAATAGTTTAAAACAAATTGAAGATCTTTTATTTGCAAGAGAATCTGCACCAACAACAGATATAACAGTTAATGGTTTTAAAGTTTATGATTACAGTACAAAAACTTTAAATGTTCCTACATTAGCTAATGAAGACTCTTCAATTAATTATCATTATAAAAATTCGCAACTTGAAAATATGAATTCATCTGTAACTAGATTAGTTTTAGCAAAAGATGGAACAAATATACCAAACAGTGCATGAAAATATGATGATAGAGATTATCAATTCTTTAAAAATGGTGATACTGAAGAAACTAAAAACGCTTGATTAGACCCAGCTTCTTTAAGTGATTCAAAATTCACTTATGCTCCAACATTTTCATTAGATAGCGTTGTTCAAAGCAGAGCAGATGATGAGCAAAAAAATCCTGTTGATTTATTCTACAAAAAAGGATTTGATAGATATTCTTATGCAAAAAAATTAGTTAATAATACTTATGGTTTCTATGATTTACAATCAAAAATGGACGAAAATAACCAAGAACAACTATCTGCTGAGATTAGACCTTATTATCAATTTGATGATATAATGTTATTTATACCTTATGAAAAATATGATGATTTTAAAAATGTAATCAATCAAGGTAATGCAACAATTAGTGATGCGTGATACGGAACAGTTGATGCAAGTAAAGTTCCAGAAGATACTGTTAAAGATTGAAAAAACTCATTAAATATGAAAGAAAATCCAAAACAGTTCTTATGGATTAGACCTTATTCATTGTACTTTGATAGTAATTTACCATACGAAAAACCATCAAATAACTTACAAGGTAGTGAAACAAGTAACTTTACAAATACAAGATATAACTTTTTACAATACATTTTTTCAAAATCAGATAGCCCAATGGCTGTAAAAAGTGATGTAAAAATGAATTGAGCTAAATTATCTGAAGGAAATGTTACAAAAATCAATTTAACAAAAGTAAAATCAATTCCAGTATATGGAAGTAAGTTAATTATTGCAGACCAAGGATTAACAAACTTAATTAATGGATATAGTACTGCAAGATATATTCCATTTAACTTCAACTATGAAAATGTTTCTGAACCATCCGGAAGCTATGATGCTGATGGAGTCAAAATTGATACTTTTAAATTAAATACACCAGAATCTCAAGTGGATGAAAAAAATAAAGATAATTGATTATATGGTAAAGATGAAACCCAAAAAGCAGTTAGACCTATTATGTGATACAACGGTAGTTATTCAAATGCTAGTGAACCATACTTTATGACTACACAAGGATCATTTTCTATGTCACCAAGAATTGGGGATTATTCTATAAATGTACCAAATAACTTTTCTTCAACTGTTGAAATTGGAGCAATTAAGCTTCTAAGTGAAGAGAAAAATTTAATTAACCAAATTGCTGTATTGATTATTACAATTGGAGTATTTTTTATTATCTTTATTGTTATTGTTGCTACTTTAACAATTATCTTGATATCTGATTTATATGTTACTCAATATAAACGATTTATGGTTGTTATGAAATCGCTTGGATACTCGAATCGGGAGATTATAAACTATACATTTAGATTTGTAACGCTCTGGTCATTCTCACTATTCTTGTTCGGAATGATATTAAGTTATCTTGGTGTCTTCTTTACAATGAAATATGTAAGTCAAAATATTTTATCAATTCCAGTTGGCTTTATGTGGTGAACTCCGTTTGCCTCATCCTTACTGATTATTGGTTCTTATGTGTTATCAATTTCATTGACAACAAAAAGAATTAGAAAAGAATCACCAACTGTATTGGTTTTATAGATTATTTACAAATTATATTTTTAAAAATCTCTTTTATAAAGAGATTTTTTTTATCTAAAAAGCAAATAATTTTAATAGCATTTAAGTTTATAATAAAAATGAAATGTTAATAGAGGTTTATTATGAAAAGAATATTGAGTTTACTAACAATATTTAATTTAAGCACATCTTGAATAACAAGCGTAGTTGCTTGTAATAAAGAAAAATTTTTAGGCGATATTTGAGTTGTGATGAATGATGGATATCATGATGATCAATCTTTTACAGAATATGTGTATCGTGGTGCAGATGAGTTTGTAAAAAAAATAATGGATAAATCAGATTATAACGCTGCATATAAAGAACTAGGAGAAATAGGAGAAGCCTCATTAAGATCAGCATATGAGAATGTTGTTGGAGGAGGAGCAAAAGTTTTAGTCTTATCTGGTTATTCTCATGATGCAATTGCCAAAGGATATTTTGATGAAGTAATAAAAAAAGTAAATGGATCTGCTGTTATAGTTGATAATAAAACTTATAAAAATTGAACTTCAACAGTTGGTGTGCAATATCGTGCAGATATTTCTGGTTTTTATGCAGGTATGGCTTCAATAATTTGATCAATAATAAATGATAATTATAATTTAAACAATAAAACATTAGGTTTAGCAACTTTTGGAGGATTATTGCCAGGAAATCAAAATAGTGTTATTAATTATATGGCTGGTTTTTTAAGTGCGATTGATGTTTGAAATATTATTAAAGAAAATCAAAATAATAAGTACCATGAATATAAAAATAAATTGGTAAATTTAGATAAATATGGAAAGTTAAAAGATTGATTAGATAATAATGAGTTTAAAGTTTTAAGAACTCAAAAAGATCCATCTGGGGATGGAGACTTTGGATGACAATCTGGGTCTTATACAGCTGGAGATGGAAAAGATATTTCAAACATATTAATAAATCAAGGTGCAAATATATTGATGCCAGTTGCAGGACCACAAACAGAAGATGCATTAGCTATTTTAAAAAATGATAGTAGTAAAAAAGCAAAAGTAGTTGGTGTTGATGTTGATATGTCAAAAGTTTATAGATCTTATGATAAATTAATTTTAACTTCAGCAATAAAACAATTAACTGAAGGGGGATTAATAGCATTAGCTCATACTGATATATATAAAGATAATATAGAATATCAAGATAAAGCAGCACAATATGCAAAAGATAATAATATTGAAGTTATTTTAAAAGATGAGAATAAACAAAATTTTGAAAATAAAAAAGTTAATTTTGATAAAGAAAAAGGAAAAAGTTGACAAACTAAAACTGCTTGACTTAGTGGAGAGGCAACTTCAGGAGAAAGTAATCTTGTTGAAGACTATATTAATAATGCAATTATAGAAATGTTCAGCAAAGATTCTTTGATAGTAATGTCAAATTATTATTATGAACATACTATGAAGGAAAATCCAAAACTTTCTTTTGAATTATTAAAAGCAAGTTTTACAAAAGAAATGGCCTTAAAGGTTTTTCAAAATTAATTTATAAAGTTAAGAAAGGTTAAAAATGAGTATAGAGTATGCAGTAGAAATGCAAAACATTTCAATGATATTTAATAATAATATTATTGCAAACAAAAATGTAAATCTTAATATTAAAAAAGGTGAGATACATGCTTTGATTGGAGAAAATGGTGCAGGTAAATCAACTTTAATGTCAATTCTTTTTGGAATTTATGAACCTACAAAAGGAATAATTAAAATAAATGGTAATGTACAAATAATTTCAAATCCAATTGTTGCAAATAATTTAAAAATTGGAATGGTGCATCAAAATTTTCAAATGGTTGATATTTTTAAACTTTGAGAAAACATAGCGGTAGGATCTGAAATAAAAAAGTTTAAAGTTTTTAATAATAAAAAAGCAATTTTAAAAAAAATTGAAACTATAATGAAAGAAAATGATTTAGAAGTAAATCTAAATTTATTAGCAAAAAATGCTACAGTTGGTGAACAACAAAGAGCAGAAATTTTAAAATTATTATATAGAGAAGCTGAAATTTTAATTTTTGATGAACCTACTGCTGTTCTAACTCCTAATGAGATTGATGGATTTTTAAAAGTTTTAATTAATTTAAAAAATAATGGTAAATCAATAATTTTAATTTCACATAAAATGGATGAAATAGAAAAAGTAGCAGATCGAGCAACCGTTTTGAGAAGAGGAAAAGTAATTGGAACTTACAATTTAAATGAAACTTCAGTTGACGAATTATCTTTTGCAATGGTTGGAAGACAATTAAAAAAAATAATTAATAATCATAAAGACATAGATAATAAAAAAATTTTAGAAATAGAAAACTTAAATGTACAAAAAAATAATAATAAAAAAGTTATAGGTTTAAAAAAATTAAATTTACAAATTAAGGCCGGTGAAATTTTAGGAATTTCAGGAGTGCAAGGAAATGGACAAGAAGAATTAGCAAATATAATAGCAGGTATGCAAAAACCTAAGTCAGGAAAAGTTTTAATAAATCAAATTGATATAACTAAAAAAAGTATATATGAAAGATATCATAAATATAAAATGTCACACATTCCATTAGATCGACAAAAGCATGGATTAGTATTAGATTTTAATGTTATTGAAAATACAGTTTTACAAGATGTTGGTATAAAACCTTTTGCTTCTAAATTAGGAATCTTAAATTTTGATGAAATAAAGAAATTTGGACAAACTATTGTAGAAAAGTATGATGTTAGAAATGCAAGTAATGGTTATGCAATTGTTAGATCTTTGTCCGGAGGTAATCAGCAAAAAATTATTATTGGAAGAGAACTTACAAGAGAAAGTGATTTTATATTAATTTATCAACCAACAAGAGGACTAGATATTGGGTCAATTGAATTTATACACAGTCAAATCTTAGAAGCTAAGAAATTAAAAAAAGCAATTTTATTAATAAGTTATGAGCTAAATGAAATTTTAGCATTATCAGATCGAGTTGTAATATTAAGTTCTGGTGAAGCAATTGGAGAATTAACAGGAGATAAAATCTCATATGAAAATATAGGAAAATTAATGATTGGAAACAAAAAGTAATGATAATGCTATGAAATTTATTCTCTACTAGAGAAAGGTTAAAAGTAAATTATAAAATTGGAAATTATAATAAGAAACTAAAATATTTTAAAACTTCTATATTTGCTATTTTATTTGGTTTAATACTAGGAATTATTTTTATATTTATGAGTGGCTTTAATGGTTTTTCGTTTTTAGGAACTTCAATTGCAAAATCATTTGATATAAGAAAAATTGGAAGCACTTCAAATTTTGATAAAGTTTTATTATATTTTTCTATTTACTCTTTAATTGGTTTTGGATTAGCTTTAGGCTTTAGAGTTGGAATGTTTAACATGGGAGGTTCAGGCCAAGCATTGATTGGATTAATATTTACATTACTAATAATTCAGTCAATTGCAAATAAACAAGGAATAGATTTTAAAGAAGTTAATAAAGGAACAGTATTTTTAGTTTTTATATGTTTTGTTTTAGCAGGAACTTTTATTTCATGTCTGTCTGGATTGCTAAAAGTATTTTTTAATATTCATGAAGTTGCAACAACTATTTTATTAAACTATGTAGCTTATTTTTTATTAAAGTGAGTAATTAATTTAAATAGTAATCAATGAGGTAACACATCTGCATCTTTAGATTATAATTGAATATCTTTATTTGGTGTTGTTTGATTAGTACCTGTAATTTTAGTTGTTATATCTGCAATAAGTATCACATTAGTTTTAACTTATACTAAATGAGGATTTAGATTTAAAATGGTAGGTAAATCAACAACAGCTGCAAAATATGCTGGAGTAAATGAAAAACTTTATATTATTGTTATTACAATAGTTCAAGGAATATTTATGAGTATGGGTGGATTTATTTATTATTTTGGAATTGCTTATAGTCAATCCATTCAAACAGATATTATTCCAAGTCTTGGTTATGATGCAATAGCAGTTGCTTTAGTTGCTTTCAATAATATAATAGCAATTCCGTTTGTTGCTTTATTGTGATCAATATTTCAAATTGGATTTAAAGCAGCACAATCAACAGCTGGTTTTGTAAGTTTATCAAATCAAACTACAACTTTAATTTTTGGTTTAATAACTTATTCTGCAGCTATATATATAATTTTTTATAGACTAAATATAATTGAGTATATAAAAAATATGATCATTTATAATAAAGATTATGAGTTAAAACAAATTATAAAAAATAAAAAAAATATATTAAAAGAAAATAAAAAAAATATTAAAGCTGAACAAAAAGATTTACAAAAATTAAGTTTTGATACAATTGCACAAATTCAATTATTGAAGAAAAAAAATAAAGATTTGCTGATCGAAATTAACGAAATAAAAGAAGATAGAATAAAAAGTTTTAAAACTAACTCTATTTTAAATTTAAAAGTTTACTACAACAAAATTACAAGTGATATTACTTTTGATTTTTTGGATAAGTTTTCTAATTTGAAAGCTAATTACAATGAACAAATTGAAAAAAATAAAAGCGTTGCTAATTTTAAAATAATAAAAAAAAGCTTGAAAAATGATTTAATAAATAATTTTAAAATATTATTTGAAAAATTTAAAAAAGATATAAGTATTAATCAAAATAAATTTAAAGAAGCAATGATAAATGCAAAAAGTTTTTTAAATAATTATAAAAAAAGTGTTTATCAAAATAACATAAATAAAATTAATAAAAGCGATAATGAATATAAAGAAAAATTAAAAAATGAAAAAACAAAGTTTTTTGAAATTCAAAAGGAGGTGTTTGAAAAATATGTATGATAATTTTTATTTAGTTATATCTTCAATATTAATATTTTTCACAATTTTTTTAATTGCAGCACTCTCTGGTTTAATTTCGGAAAGAGCAGGAGTAGTTAATATCGGTATCGATGGATTTATGACAATTGGTGCTCTAGTTTTCAGCTTAGTTGGTAAAGGTTTTAATGCTAATGGAACACAATTTTTTGCAATCATAATAGCAATGATAGTTGCAGCTGCTTTTGCAATGCTACATGCATTTGCGTCAATAACTTTAAAAGCAAACCAAATAATTTCTGGTACTGCAATTAACTTAGTTGCACAAGGAATTGGTTTATACATTGTTTCTACAAGTTCAATTGGTGTAATGGGAAGAATTTCTTCAGGCTATACAATTATGGGTTGAGGACAAGAAAAGTTTTTTACAATTTATTTTTTAATAGCAATAATAGCTACTTTTGTTGCAGGAATATATTTTACTTTTACAACAGTTGGTAAAAGACATATTGCTGCAGGAGAAAATCCTAGTTTATTAGATGTAGCAGGAATAAATGTTAACAAGTATAGATATATTGCAATTTTAGTTTCAGGATCATTAGCAGGATTAGCAGGATGTTTTTTTGTAATGTTATATAGTTCTGCAAGTTTTAACGGAACTGTAAATGGTTATGGATATCTAGGTTTAACAATTTTAGTTGTTGGTCAATGAAGAATAAGATATGTTGTATTATTTAGTTTTATATTTTCAACTTTTTTTGCATTAGCAAGAATATTGCCTTCATCAAACATTAGTGAGTTTTTCACTTTAAACAAATCTTTACTTCAAGCTTTTCCGTTCTTATTTTCACTTATTACAATGGTTATTTTTTCAAAAAAATCATCACCACCAAAAGCAAATGGTATACCATTTCAAAAAACTACGAGGTAAAAAATGAAAACTATTATTTATGCACATCCAGATAAAAATTCTTTTTGTAATTCAATTTTACAAAAAGTCATTCAAAAGTTAAATGATAAAAACTATGATTATAAAATTATTAATTTAATTGAAGAAAAATTTAATCCAGTTTTTTCCTATGAAGATCATTTAGTTTATAAGAAAAAAGAAGTTCTTAAAGATGATCAAGTTTTGAAATATCAAAAAATTTTAAAAGAAAGTGAAGAGCTAATTTTTATTTTTCCTATATATTGATTTCAAACTCCAGCAATAGTAAAAGGTTTTTTAGATAGAGTCTTTACTGAAGATTTTGCTTTTGGACAAAGCTGATTAGATAATATAAAAAAAGTAACTTTTATAACTACTGCTGCTCTTGAAACAAAAGAAGAAATAGCAAATGATTTTGGAAATCCAATTGATGTCAACTTGTTTGGAGTTTTAAAATATTGTGGAATAAATAATAATTTTTGATTACATTTCGGTGGAATTGGTCATGGAGAAAAAGATAAAGGTTTTTATGATAATATTTTAAAAGAAGTATATAAAAAAATTTAATTATATGAAAGGAATAAAATATGTCTACACCACACAATAATGCAAATAAAGGTGATATAGCAAAAAAAGTTATTATGCCAGGAGATCCTTTGAGAGCAAAATGAATTGCAGATAATTTTTTAAAAAATGTAAAAGTAGTTTCAAGTGTTAGAGGAATTGAAGTATTTACAGGGGAATATAAAAATGAAATTATTTCAGTAATGGCTTCTGGAATGGGAATGCCTTCAATGATGATATATGCTTGAGAATTATTTGAAGATTATGATGTTGATTGTATTATTAGAATTGGAACAAGTGGAGGATACTTACCTAAAACTAAAATTAATGATTTAGTTTTTTCAATGTCTGTTTCAACAGATTCAAATATTCAAACTCATTTTAATGTCCCAGCTGATTGACATTTTAGTCCTTGTGCTAATTTTGAATTATTATCAAAAGCTATTGAAATTGCAAAAATAAAAAAAATAAATTACCATGTTGGACCAACAGTTTGTACTGATGGAATATATACATTAAAAAATTTAGAACCTGATTTTTATAAAGAAAAAATTTGATCAGATTTAAATGTATTATGTAGCGACATGGAAACTTATGCTTTATATGCATGTGCTAATTTTTTTGATAAAAAAGCATTAGCTATTTTAAATGTTGTTGTAAATACAACTGATAGAAATGGTTTAGATTCAGAAGAAAGAGAAACTAAACTTATTAATATGGTTGAAATAGCATTAGAAACTTGTATTAATATTTAGTAATTTTAATTAAATCATTTAGTTTAATATTTAAATATTTGATTGTATGTTTTGCAAGAACAAAAACAACAACTGCATCATTATGGTGTTGAGTTACTTTGTTTGGAGGAAAGTTTGAATAAGTTTCAATTACTTGATATTTTTTATCACAAATAATTAAATCAACTTCTTCTTTAAATCCCATACTATTAAAGCCTTTAACCCCAATAAATCTAAAACCCATTGTATGGTTGAACTTTTCTTTAAAAATTAAAGCATTAAACTTTTGTTTAATAGTTCTAATATTTCTTATATTTATATCTTTTATTTGGTTATTTATAACTAGTTGATATACTTTATTTTCATCAATTTTTTTCTTTTGTACTTTTTTAGAATCATTAACAAAACTTGTTATTAATCTAGCTGCTTTTATTAAACCCATAATTTAATCACCTATTATGATTATAAACATTTTTTCTATATAATTATTATTGAAAAGAGGTAATTTAAATGGCAAATGTAGCAATATTTTTAGCAACAGGTTATGAAGAAACAGAAATGATTTCAACAGTTGATGTTATTAGAAGAGCAGAACAAATGTTTAAAGGTTCATTTCCGGTGGTTGATATTGTATCAATTAGCGATAAAAAAGAAGTAACAGGATCACACGGAATAACTATTAAAGCAGATAAAACTATTCAAGAAATTAACTTCGATAGTTATGATTGTTTAATATTACCTGGAGGTCAACCAGGAGTTAATAACTTAATGGAATCTGAAACTTTAATGAAAAACTTAAAAACTCATGGTGAAAAAGGAAAAACAATAGCAGCTATTTGTGCTGCACCTCAAATTTTAGGTAAATTAGGTTTAGCAGATAATAAAGAAATTACCCATTATCCAGGAAGTACTAAATATTTAGAAAATGCTACTTTAAAACCGCACATGACAGCTATTGAAGATGGAAATATTATTACTGGTTGTTCAATTGGAGGAGCATTACAATTTGGATTACAAATAGTAGATCATTTCACTTCAACAGAACAACGATTAAAATTACATGAAACATTAGTATTTAACTATTAAATTAAAACCACAAATCATAGATTTGTGGTTTTTTTGCACTATAATCATTATATGAAAGCATTAATAGTAGTAGATTATCAATATGATTTTGCAGATCCGAATGGAAGTTTATATTGACCTGGTGGAGAAACTCTTAAAGAAGGGATAATTAAAAAAATAGAAGAATATCAACAAAATAATCAATTTGTTGTATATACAATGGATTGACATCCAGATAATCATTGTAGTTTTGAGATTTGACCGCCTCATTGTATACAAAATACAAAAGGAGCAGAAGTTTTGTTAGACACAAATTATGCTGATTTTATTGTAAAAAAAGGTGTTGAATTAGATAAAGATAGCTATTCGGGTTTTAATAAACAAACGGGGTGTAATATTGCTTTAGAAGATTGATTAAAAATTAATAATGTAACAGAAGTAGAAATTTGTGGTTTAGTAAAGCAATATTGTGTTGAAGCAACTTACCAAGATGCTTTAAAATTTGGTTTTAAAGCCTCTATTATTGAAGATTTAGTTAAATAGAAAGAAAGTATGTATGATTTGATGAAAAAACGCTAAAAATAAATTTGAAGCTGATAAAATAGGAAAAGAAGAAGAACAACTTAAAGCTATAAATAACTATCTATGTACTGTAATTAAAGATTCAAAAAATTTAAGTTTTTTAATTGGTTCAGGTTGTTCTCAACCAACAATACCTTTATTATCGAATATTTTTAAAGATATATTAGAAAAATTTAAAGAAGATTTTGATTTAGTTAAAGAATCATATAATTTTGAAGAAAATAAAAATTTAGAGGCTTTTCTAAATTGATTAAATAGTGCTATTGTTTTTTTTAGAAATAATGAAGAAAGAAAAACATTTTATAAAAATTTATTTGATAATTGTAAACAAATGATTTTGGATAAAATAAAAGAAACTTTTGAAAATGAAAATATTTATTTAGAAAATTTACAATTATATATAAACTTTTATAATATTTTATTAAAAATACGCTCGTTAAAGGAAATATCTTCTATTCCATATAAAAATCCTATAAATATTTTTACAACAAACTATGATATTTTTAATGAAATAGCGATGGAAAAAACTGCAATAAAGTATACAACAGGCTTTGATGGTGATATAGATAGAAAATTTTCAATAGAAAATTTTAGGTTTAGAATAGTTGATGATGAAAATAGATTTAAAGAAAAATGAGATCCTTTTAATGCTTATATAAAGTTATTCAAGATACACGGTTCTATAAATTGAGTGCAAAATGATAATTCTGAAGATATAAATTTATCTGAATCATGATCAAAAAACTACTCAAATGTACTGATTTATCCAACTTTAAATAAAAATAACGAAACTCTTCTTAAACCATATGCGGAGTTATTTAGAGAGTTTTCAATACAATTACAAAAAAATAATACCACCTTGGTAATAATGGGTTATGGTTTTCCTGATGAACACATAAATCAAATAATTTTACAGGCTTTATCTAGTAATTCTTTTACATTGATTGTTTTTGCAGATATTGATGGAGACGAAGACCCAGTCAAAAAATTTTTTGATAAAACTAAAAATTATAATAATGTTGTTTTTATTGGAGGTAAATATGAAAATAATTTATTAATAAATCATTTTGAAAATATCATAAAAACATTAGAGAAAAATATAGGAGAATAAGTAATTGAGTTTATTGATTGGAAAAATTATAAATGTATATACAGATAGAATTGGTATAGAATTAATAGAATCATCTGATTTTTCATATAATTATAACGGTGATTCTTACACGTTGAATGGTATAAATGATTTTATAACGGTTCAAAATGAATATAATAATAAATGTTTATTAAGAATTACTAGTATTTACCAAAAGCAAAAAGCATTGGATAGAAGTGAAAACTCAAAGTTCACAGATATAAATATAGCAGATGCTTGTCCGGTTGGCGAGTGAACTAATGATGTTTTTAAGTTTGGAATAACCAAATATCCAATGGTTGGTAAAAATGTTTATTTAGCAAACAAAGGGGAAATATCAAGTATTTTTGAAAGTGCAGATATCAAAAATTCTATATACTTTGGCGATATTGTTAATTTAGAATATATAAAATTTAAAATTAATTTAAAAACACTTTTTTCAAATCATATGGCAATTATTGGAAATTCTGGATCTGGAAAATCAACAACAATAAAAGAAATAATTAACTCCTTAGTTAATGATTTAGAAGATTCTAATAAGAGCATAAATAGAAAAAATATCAATTTTATTTTATTTGATGTTCATAATGAATACTCTAATTTTATGCAAACTAATTATCAAATTATTGATGCTAAAAAAGACATTTCATTGCCATTAGAAAATTTAAATCTTGCAGACTGAATTAATTTAGTTTTACCGTCAGTTTCAATTCAGCTTCCTATACTTAAGAACTCACTAAAGTTTGCTCATTTGTATGAAGATGTAAAGTTTGATATGAACTCATTATTAGCTTATATTGTCAAAGAACTATATATTAATGTTCAAACTGATTCTGTTGCGAAAAGGCAAAAAATAGTTGGTATTTGTGAAAAAATTAATAATCCTGATCTTTTAAAATTGCTAGATTCATATAATGTTAGGTTTGGAAATTTTGAGGATAAAGATAGCGAAAAAAATTTTAAAGAAAAATTATCAAATTTAATAAAAAATAATAACTTTGAAAGAATAATTATTGATTCATTAGATAAAATAAAAAATATCGAGTCATTAAAAGAAGGGATTGAGCTTGCACTACTTTGGGAAGAAAGAAAGGGTAATAATCAAGTAAGACCTAATTGTATAACTATGATGACTAGAGTAGAAAATATAATATCGGAATATAAAGATAACTTATTCTCTTCAAATATTAATAAAATTGAAAATTATAAGAAAATATATGATAATGAAGAAATTTTAACAGTTGTTAATGTCAGCGAACTTGAGGATGATGATCTTAGATTTTTTGCAAATTTCTTTTTGAATCAAGTTTTCAATAACAAAAAAACTAAAAATGATTTAAAAACTTATAATATAATTTTTGATGAGGCTCATAGATATATAAAAGAAGATAATAACAATGAATTAACTAAAAGTTTTAGTATATTTGAAAAGATAGCAAAAGAAGGTAGAAAATTTGGAATATATCTAACCATCTCAAGTCAGCGCCCTGGTGAGTTATCAAAAACTGTCTTATCACAATGCAATAATTTTATAATGCATAGAATTAAAAGTGGTATTGATTTAGAAAATATTAAAAAAAGTAACCCTTTTATTGATGAATATCAAATAAATAGGTTATCTGTACTTCCAACCGGAACGGCTGTGCTAGCTGGAGAATCATTTTTAATACCTTTAGAAGTAAAAATAGTTAAAAAAGAAGAAAAAAAAGATGAATCTGCAAGTCCGAATCTATTGGATGTATGATTTGAAAAAAAAGAAATTTAAGATATTTTGTCAAATCTATTCATTTTTTAGTTATAATTAGTTTGTCAAAGTTTCATACTGATGGAAAAGAAGGCGTAAGTCTTCTTTTCTATTTGTGTTGGCAAGTTATTATCGATATTTATATCGATATAAATATATAGGAGGATATAGCGACCATGATTGATGGTGCAAAATTATTAGAAGCAATTCATGAAATTGTAGATGAAAAAAAAATTGATAGAGAAATTATTTTTGAAGGTATTGTAGAAGGTTTTAAAAAAGCATATGAAAAATTCTTTGATTTAGAAGCAATAATCAAAGTTGATATTGATGAACAAACAGGACAAATTAATGTTTTTAAACAATTATCTGTAGTTCAACAAGTAGAAGATGATTGATTAGAAATTGGTTTAAATCAAGCAAAAGAAAGATTTGGCGAAGAAGTTACTATTGGCGATAACGTTTTTGAACCTGTTAAATATGGAGAAGATTTTTCAAAATTAGCAGTAATGCAAGTCGGACAAATTATCAAACAAAAAATCCGTGAAGGTGAAAAAAATAAATTATATGAAGAGTTTTTATCAAAAAATCATGAAATAGTTGGTGGTACTGTAAAAGATATTACAGATACAACTTATTTAATTGATGTTGATGGATCAATAATTGCAATTTGAAATAAAAAAATGATTCCTGGTGAAGATTTTGATGAGGGAGATAGAATTTGTTTTTATGTTGAAGAAGTTTCAAGAGAAAACAAACACTCACAAGTTTTAGCTTCAAGAGTTCACCCTCAATTTTTAGCAAAATTAATGGAAACTCAAGTTCCTGAAATTGCAGAAGGAATAATTGAAGTTAAATCAGTATCAAGAGAACCAGGAAAAAGATCAAAAATTGCAGTTCACTCAAATGAAGAAAATATAGATCCAATCGGAGCTTGTGTTGGAGCTGGTGGAAATAGAATTAAAGAAGTTTCAAAAGAATTAAACGGTGAAAAAATTGATATAGTTCTTTGAAATGAAGATAAAAAAACATTTATCATTAATGCATTAGCACCAGTTAAAGTAATAAGTATTGATCTAGATGAAGAAGCAAATGAATGTTTTGCAATCGTTCCAAATGAACAATTGTCTTTAGCAATTGGGAAAAAAGGAATGGCAGCAAGATTAGTTGCTAACTTAGTAAATACAAAAATTAATATTGTTTCACTAGACAATGCAGAAGAACAAGGTATTGATAATTTATGAAATGGTAACATTACTCAAGAAGAATTAAAAAATCCTGATTTTATTAACAATGTTAACAAAAGAAAAACTAATGCAAACAATAATGCAAACAAATTCCAATCTAACTTTGAAAGACCAAAACAAAATGTTCAACAAGAAGTGTATGATGAAATTGATGAATCAATTTATGTTCAAGACAGTTCTTTAGAAGATATTCAAACATATGCAGAAACTTTTGAAAGTATAGCAAAAGAAGATGATGATCAAGAAGAAACAATCGAAGTTGATGATGATTATGATTCTTATTATGAAAAATAAGAAAGTTTAATTATGAACGAAACTACTCATAAGGTTTTAAGAAAAGATGTTTCTTCAAATAAAATGTATTCAAAACTTGAATTGATAAGAGTTGTTAAAAATAAAGAAGGAAACATATTTATCGATCAATCAAAAAAAGCTAACGGAAGAGGAGTTTATTTAAGACCAACTCTAGAATCTGTTGAAAAATTAAAAAAAACAAAGGCATTAGATAGATGTTTAAGAACTAAAGTTCCAGATGAAATTTATCAACTTTTAGTTGAAGAAATTAATAATAACTGAGACTAGTGGAAGATTTATTAAAAACTCTTGGACTTGTTTCAAGTGCAAGACAAATTATATCTGGAGAATCTTTGTTTAAAAAAATTCAACAACAAAAAGTCAGAATAGTTTTAACAACAAGTGATATGGGAAAAAGTCAATTAAAAAAGATTAATGATAAATGTAATTTTTATCAAATCCCAATTTATAATGGTTTGTTTAACAGTGATGATTTAAATAAAGCAATCGGAAAAAATAATATCAAAGCAATCGGCGTAGAAAGTATAAATTTTGCAAAATTATTAATAAATAAAATAAGCAAAGGAGATGTGTAAATATGGCAAAACAAAATAATGATAAGAACAAAAATAATAAACAACAAGCCAAAAACAAATCTAAAGCTCATACTGCAAACTTAAAAAATAAATTAAGAGAGACTAAACAAACAGGAGTTATTGATGGTGTTTTTGTATACACTGAACCACTAACTATTGCTGACTTTGCCTCAAAATTACAAAAGGGTCCTGCAGAAATTGTCAAATGATTTTTCACAAATGGTAGTATGGTTACTCAAAATCAAATGTTAACTGAAGAACAAATGGGAGAGTTATGTTTAGAATTTGGATATGACTTTAAAAAAGAAACAACAGTTACAAAAGAAAATATTTTTGAAACATTTGATGAAAATGACGATCCAAAAGATTTAAAATTAAGAGCCCCAGTTGTAACTATTATGGGTCACGTAGATCATGGAAAAACTACTTTATTAGATTCAATTAGAAATACAAATGTAACTGAGGGAGAGTTTGGAGGAATAACTCAACATATTGGTGCTTACCAAGTTAAGTTAAAAAACAATAAAATTACTTTTATTGACACTCCAGGTCATGAAGCATTTACAGAAATGAGAGCAAGAGGAAGTGAAGTTACAGATATTGTAATTTTAGTAGTTGCTGCAGATGATGGGGTTATGCCTCAAACTGAAGAAGCAATAGATCACGCCAAAGCAGCTGAGGTGCCAATCGTTGTATTTGTGAATAAAATTGATAAACCAGATGCAAACCCAGATAATGTGAAAATGGAATTAATGAAATTTGGAATTGTAGCAGAAGAATATGGTGGAGATATTCCATTTATTTTAGGAAGTGCAATTACAAAAGTAGGAATTGATAATTTACTTGAAACTTTACTATTGATCGCTGAATTAAAAGATTTAAAAGCTAATCCTAATAAATTTGCAAGAGGAACTGTAATTGAAGCTCACTTGGATAAAAGTAGAGGACCTGTTGCAACAGTTTTAATTCAAAATGGAACTTTAAATTTAAGAGATATTGTTATTGCTGGAGGAACTTTTGGAGCAATAAAAGATATCGAAGATGAACATAAAGTAAAAATAAAAAAAGTAGAACCAGGAAAACCAGCAGTTATAATTGGGCTAAATGATGTACCTAGAGCTGGTGATAAATTTATGGTTGTAGTTGAAGAAAAATTAGCAAGAGATATTGCAGAAGCACAAGCAATTAAACAAGCTAATGAATCTAGACAAAAAAATCAAACTTTTACATTAGATTCAATAAAAAATCAAATTGAATCTGGTGAATTAAAATCTATTAATATTATTTTAAAAGCAGATACTCAAGGAACAGTAGAAGCTGTAAGAAACTCAATGTTAAAAATTAGTATTGAGGGTGTAAAAGTTAATGTTATTCGTGCAACAGTTGGAACAATTAGTATTTCTGATGTTAGTTTAGCACTTGCTTCAAATGCTTTGATTTATGGATTTAATGTCAGACCAAATGCTCAAGTTAGACAAAAAGCAGAAGAAGATGGTGTAGATATTAGACTTCATAACATTATTTATAAACTAATTGAAGAAATTGCAGAAGCAGCAACTGGTATGTTAGATCCTGTTTATGAAGAAAAATCATTAGGTGAAGCACAAGTACGTCAATTATTTAGACACTCTCAAGTAGGAACAATTGCTGGATGTAGAGTGTTATCTGGAACTATTCCAAGAGCAAGCAAAGTTCATATTTTAAGAGATGGTATTGTTATTTATACTGGTGAAATGTCTTCGTTAAAAAACAAAAAAGATGACATTAAAGAAGCAAGAGAAGGTAGTGAATGTGGGATAACTATCAAGAACTTTAATGATTTAAAAGAAAATGATATAATTGAAGCATATAAGATAGAAGAGGTAAAATAACATGAGTAAAGAAATTAAATTGGAACGTGCACAATCAACCATTATGAGAGAATTAAATTTAATTTTACAAAGAGAGTTCCCAGATACTGAATTTTTAAACTCTTTATCAGTTCATGAAGTTAGATTAACAAATGATATGAGTATAGCAAAAGTATTTTATTCTTCAATGGATAGCGAAGCTTCAATTGATGATATAAAAGAAGAAATCAAAGAAAATGCTAAGGAAATAAGAATGATTTTAGCTGGTAAAATTGAAATGAGAAGTGTACCAGAATTAAAATTTGAATACGATAGTTCTTTAGAAAAAGCAAATAAAATTGAAAAAATATTAAAAGAAATCAAAAAATAAAATATATAGGAATTATAACAAAAGACCAGTTTATATAACTGGTCTTTTGTTATAAAAAATGCTAATAAAATTTAAATATATATTTTATATAGAAATATGAGCAATTTGCGAAGAAGTAGGAAAACATAAATTACAAAATTTTTATTATTTTTAACTATATAGTATAATAAAAAAAGAAAGGATTATTGATATGAAAAAAATATTAAAAAGTTTATTTTGTATAAGCTTGTCATTATTTCTTTTTGCGAAAAAAGAAAATATAAAAATATATGAAAATAACAATTATGATAATAATGTTTTATGTGTAAATAGTGTGAGTAAAAATTTTATGATACTTAATTCTTATGAGGATGAAAGTAAACATGAGGTCGACTTGGAATATGATAAAGATTATAATAAATATAGCAGTTCTATAAAAGCATATTTTCCTTCAATAACAAACGATAAAGTGAAGAGAATTTATGAAATAACTAACAGAAGTTATGGTATTGGTCAAAGATATTTGTATGATTTTGATTATGAAAAATCAAGTTTAGAGTTTGATTTAAGTTTATTTAATGAAAATAAAGAAAAAGTTCAAAATATAATTATAGAAGCAAACTCAAATGAGAATAGAAGTTTACTAAAAAATTATTTTAATTATTTAACTAATTTAGTTTCAAATGTAAATTTAAAAAATAACAGCTTTATAAGAATTTCTATAAATAAATATACTGGAATTTTTGGTTATATTTCAAATTATTTAAATTTATATGGATGTGATGGGATTAATAATGATGTTTTACTTTATAAAGTAAAAATACCTGAACGTATCAACAATAACAAAGTAAATTTAGTTAAACTATTTGATGCAAAAATAAATCTAAACATTAAATACAGACCAGCATTACAACCTTATGATAATAATAATATATTATAAGATATATTATTATTGATTGTAGATATTTTTTATAAAAAACCAACTAAAAATAATACTAAAATAGACAGCCTTAAAGAGACCAAATTATTTAAAAAACTTTAAATAATATTTTCTTTAAAAAGGTTGTTTTTATATATTCTTTTAAAAATAAAAATTTAATTACATAATAAAAAATTTTTTAAGAAATAATAAATTAATATAATAATAGAAAGGATTTATTATGAAAAAAATATTATTGAAATTAAATTCTTTATTATTGATTAGTGGTTCTTCCTTAGGTTTAACTGCATTTCCAAATAAAGAAAAATATCAAAACAATTCTAATATTTTAGAATTGAATAACTTAGAAAGCAAAAAAAATAAAATTGCTTATGAAAAAATAAGCTTAACTTCTATGCTTTTAGATGATATAGAAGTTGATATAAGCAGTTTGCTAAGTAAAAATTATACTGAATTAGATTTAGCAAAAACAGTTATTAGAAGTGCTATTAATCAGAATGAGGAATATAAAAAAGATTTAAAAGATTTGTTAGTATCATTTACTAAGTATTCAAAATTTTTCTCTTTAGATAATTTTGACATAGATATTAAAAACTTTGGAGATTACTCTAGTGATAAATATCAACTTACAATTTTAGCTAATGATGATAATTCATATTATGAAGGTGAATTAGTTATAAATGCAAGTTTCCATAGAACTACAAAATATAAAACAAGAGACATTGTTGAAACTATCGATTATAATAATTTAGGTTATGTAGAAAGTTTAGAACCAGTAAAAATTTTAGATAAGTTTATTGATGTTAATAAAAAATTTAGTAAACTAGATGCAAAATATTTAGGAATTAAAGATATAACACAAAAAACTGCAACTATTTATTCTCTTGAAGAAAAAGTATTTAAAGGTAAAGTTCAAGTTTATTTTAACGAATTATTAGATTTATCAAAAATAGTTTCTCAAAAAGATCTAGGTCTTCTTGAAAAAGACCCTTCTTTAGAGTATGTAAAAGATTATTTAAAAAATAACTATAAAATAGATCTTGTTTCTATTATTATAGATATAAGAAATTCAGAAAAAAAAGTTATAGTTAAAGCTGATAAACTTTCTAATGTTTATTTCGGAGAGTTTATACTTACTTATACTTTAAAATTTAATTTATCAAATGTAAAATCTACTGAACTAGGTAATTTGTTAAATGTAAATGATGAATACATAATATCTGAATTTGCAAAGAATAATAATTTAAAAAAAGAAAGTTTATACATAGATAAAACTTTACAAAGTTACCGTTCATCTGTTATAAAAGCTTATTCAAACTCTTCTTATACAGGTTATGCGGTTGTTACTTATACTTCAAAAGAGTATATGATTTTAAATGATTATTCAGGTGTAAAAGAAGTTTATGCTTATAATTCAAGACAATATGCAGAATATACAAATAATTATGTATACCATGCAAAATTAGGAAAAACAGCTTTTCTGAACAGTCATAGATATATAAATTTTGATGTAGAAATAACAGCATCTAATAATGGTAATGGAAATTTTCAATCAAATGGTAAACATTCTTATTTTGAAACTTTGAATGCAAATCCTAATAAAAAACAAATGTTTTATCATGGGTATGAAGGAGCTGTTAATTGAGATAAAGGTGCGTGAAATATAAAATGATATTGAAGTGGTGATTATTTATATATAAATAGCTTAATGTATGTAGAAAGTTATGCTTCTTGAGTTAATTCTTATTCTGCGCAATCTACTGCAGAAGTAAAATTATTTAAAATATGATTTGATTAATTTTATTAATTTTGTCATAACTGAATAATTTTATTAACTAATATTTTATAAATTATTTTTATTTGAATAAAAATAAATGAAAGAAACTAAAAGGATATTATGTTTTAATATCATTTTAGTTTTTTTATTAAAAAAATTTTTTTCATTACTTTATAAATAAAAGTTTTTTTAAAAATAGTTTGAACTAAGATATTTTTATTAGTATTTTTATAGTTATATTATTATTTTACAGTGTGTATCTCTTACTCTTTATTAGAATTAAATTTTATAAAATTAATAATTCAAAAAAATACCAATTTAGTGTAATTTTTAATGTTAATTATTTCAAATATTTTTTAAAAAAACAACTCAGTTATTCAAGTGCTTGGATTAGATTTTATTTATTAGTAATGTTAAATATTTTTTGTATTTATATAAAATATTTTATTTAATCAATATATAGATTATGACTTTTGTACAATTTTTATTATAATTATAAAAAGTTTTATTAATTCTTTTAATGCTATTTTTTTATTGAATATATTTTATTTATTCATTTATTTATGATGTACGAAGAAAATATTATATACTTGTTTAAAGTTTATATAAAAGTTAATATTTTTTAACTTTAACTTTAAAATTACAAATAAAAAAAAATCAAGGCTGTAAATGTTATAATAAAAAAGAATAGTAATAATAATTAAAGGATTAAGTAATGAAAAAAGTAATGAGTATATTAAGTTTGTTTTTACTAATGTTTTTATCAGGAACATCAATTTTATCATGTAAAACTATTAAAATAGACAATTCATGAGATAATAAAATATATAAAATAACAAAAAGAGTTCAAGATAATATAATTGAAAAAAATATCAGATCAAAAGATAAACAAGGAATAATAAAAAATATAAAAGATAATATTGGTGATATCGAAGATGTTTATTTTGAAATAAATAATAATATAAAAGAAAAAGATATTTTAATCGATGTTAATATAGATAAAGTAAATGATAAAACATACGAAACTACTTTAAAATTTTTTGATACTTATAAAAGCAATGATAAGTATCTATATAAAAGTATTTTTTCAACTACAGCTGAATATTCTTTTCTTAGAAAATTAGATGAAATTGAAAATATTGAAGTTGAGTCTAATGAAATAACTAATAGTGCTACTTATGGAGCTGCAAACCTTCATATAACAAATTATTCAAAAATAGAAACTATATATATAAAACCAATTGACAATGAAGATCTATTTATTTCTTTTTATATTTTTAATAAAAATAATGAAACATATATTTCTATTGATTTAAAAGAAGTAACAGACAATAAACCAAAAACTACTAAACTTGAAATAAGCGCATCAAATGTCAAAAATAAAATTATAATAAAAGCTACAAGCATCTATAGTGGTGGTTTAGAAATTAAAACAGATATTTCTAAAGTTGATGTGGTATGAGGTGAAAAGTTTGAAATAAAAGTTTTAAATTATTCATTAATATCAGATTTAAAAATAGAGTCAGATTATGATTTACAAAAAATTAATTATGATAATAATACTGGATTAATTTCAGGTTATGCAATAAAAAACAGTAATAACAATTTTTTGATAAATGAAGAATTTTATTTTTATTTAATTTCTGATGTATATTATAGAAAACTTATTGAAGTTTCGATTAAATCCATTAATATATTTGAAAATTTTAATAAAGAAGATATAAATTTATCAACAATAAATAAAACTTATTTAAAAGTAAATAAAAATATAGATGAAATAACTTTTTCTTCTTTAAGAAATAATAGTTTTGATAATGAAAATGTTGTATTTGAAAATGGTAATTATACAAATGGTAATTGACAAGTAAAATATAATAAAATTAATGAAATTATATTGAGTGGTTATTGAGCAAATAAAGAAAAAGATACTTATGTGCTAGTTGATTCAATTTATACCAAAGTAATAAATGGAGTAACATATACACAAAAAATTAAAGACTATCGAGTACATTTTATAGTTACAGAATGAGATAAAAAATTAGACATTTTTTCAAATAAGGATTGTATTAAATTTGAATCAGTTATTAATAACAAATATTTAGATTATACTTTTGATGATTCAAAAAAAGAAATAAAAGTATTTACAAACTCAAACTCAATAAGGTTTTATATTAAAAATAATTTTTATAGAAAAATAAACAACTTAAATGATTTTTATATAGAAAATAATTATCTTGTATCGCTAAATTCTACATATAAGGGTTTTCCTAATAAAAAAATAGAGTATAGTAAAGTAAATATCATAACTATTAAAAATATTGAAGAATTTAAAAAAGCAGTAGAAACTAATATTCTTTACAAAGAAGGAGAAAGCAATTTAAACGATTATAAATTGCAAATTATCTATAAAGAAAGTTAAAAAAAGGTATATAAGCATGAAAAAATTAATTAAATTAATATTTGGTATTTCTTTAACTACAGTTATTAGTTCTACGGTTGTATCATGTTCTCATAAAATAAAACTTTCTGAAAATGATATTAAAAATATGATAAATGAAGAATATAGTAAAAGTGATATGTATTATCGATCTATGGAAGATGTAAATAATGTTTTGAGCAATATTTTTATGAAATATAATAATTATATACAATTAAACAGTGTTGGAAATCCTAACCAAGAAGGTTATTTGATAAAAGCAAATAAAATAGAAGAAACAACAGCAAAAATTAGTTTTTCTATTACTGCGCAAAAAATAGAAAAAGTTGGATCAGAGTTTATTGTTAATGATGATTTTTTTTATAATCAGACTTATAAAACTTTCAAATGAATCGATAAATTAAGTGTTGATAATGACAAATTTCAAACAGATTTTTATAATAAAACTGTATCTATAAAAATTTTAAATTTTGAAGATCTAGATGGAATAAGTTATAAAATAGTTGATGGTAAAGAATGAGTGGAAAAAAGTGATTTTGATAGTATCAATAAAAACATTTTCAATATAACTATTATTCCAAATCTAGAATCATATCAAAGTAATAGAATTATTAGATTTTTGTTTAAGGCAAAAAATGCTAAAGAATATACTAATATTGAAATTGAAAATGTTATAAAAACTTATGATCCTATAATTGAAACAGATATTAAAAATAATGAAATTACTACAAAATGGGGTAATAAAATAGAATTTAATATCTTAGATTATGCTAAATATAAAAATTTAAAAGTAGCTCCTACAAGTTATTCAAATAGTCTAATTGAAGATTTTGTAATAAATAATGGAAAAGTTACGACAACAATGTTGTATAGAAATGATGAATATAATACATTTTTTCAAAGTTCTTATTTTTGATTAAATATTATGGCTGATGATATACCATCACCTACAAAAATAAAAATAATAGCTAATCCTATTGATACTCCATTTGTTAACAACAATAATGAGAGTAATATTAATTTAAATGTAAGCAAGGAAAATGAAATACTTTTTGATAAAAAAATTAAAAATAAAAAATTACATTTTAAAGAAGATGACGCTAAAAAATATTTGTTATTTAAAAATGGTAATGTTGAATCTAATGGTGTAGATTATAGTGGTTTAGATAAAATGATAATTGAAGGTTGAGTTTTTGATAAATCAAAAAACTATATATGATGCAATCTTAGTTTCGATAAAGAATTTATTTTATTAAACAACTCTATTGTTACTAAAAATTTAGTTTATAATTTCTTTTTTATATTAAAAGAGTATAAAATTAACGATATAAAAATTAACGACCAAAATACTATAATTCAATCAAACGATGATAATGATTTAAATTATGAAATTAATAATAATATTGTTGATGTTTATACAAAAGCTGATAATTTTTATTTAAAAATAAAAACTGAAGAATTTAGAAAGTTCAATTCTATTATTGAAGAATTTAGTGATGATGACACGGATATAAAATTAGAATATACATTTGATATTTATCAGTACTATAAAGAGTATTGTGATATAAAAATAAGTTATTTTAGTTATTTAGATGAGAAATTAATATCTACAAAGTTAAAATTTGGTTATAACCAGTATGATCTAAATTTTAAAGTTCATTTATCTTAAAAGAAAAACTTATTCAAATTTAAATAAAAGTTAACGTATATTATAAGTCTTTTAAGTTAATTTATACGCATAATTTTTTCATGACTTATATTTTTATGCTTTTAATGATTAATATTCTATCTTTTTTCTATTGTAAATAATTAATTGGTTTTAAGAAAAATATTTTTATATAAATGAGATAAAAATTTTTTATAAAATAAGTATTTTGGAATATATTATAAATGCTATAATAAAATAAAATATTAAAAGGATAAGTAATGAAAAAAATTTTAAACATATTGAGTATATTTTCTCTAATGTTGTTCACTGGAACAACTATTTTAGCTTGTAGTACTTATGCATATACTCCAGATCAACTTGGTAAAATATTCAAAATTATTAAAAGAATTCAAGATAATATAATTGATAATAATATTAGATTAAAAGATAAACAAGACATAATAAATAATATAGTAAACAATATAAAAGATATTGATGATGTATACTTTGAAAAAAATAGTAATATAAAAGAAAATGATGTTCTTATAAATATAAATATAAATAAAATAAACGATAAATCATTTGAAACAACAATAGAATTTTTTGAGTCTTATAAGATTAATGGCGGTTATGAATACAAAAGTGATTATTCACAATCATCTGAATATTCTTTTCTTAGAAAATTGGAAGAAATTGAAGACATCGAAATAGAATCTAATGACATAAAAAATGATAGAGAAAGTGGATATGCAAGAATTTATATAAAAAATTATTCAAAAATTGAAACAATTTCTTTTAAACCAATTGAAAACGAAGAACAATTTGAGAAATGATGAATTACTAATGATGAATTTGATAATGTCTATATTGCTGTTGAATTTAAAAAAATAATAAATTATAAAAATAATGTTACTAAATTTGAATTAAGTGCAACAAATGTAAATAATAAAAAAGTAATATCTATAACAAATATATTTGATAGTGAACGAAATATTCAAACAAATATTGATAAAGTCAATTTAATATGAGGTGATAAGTTTGAAATTAAAGTTTTAAATTATTCTTTAGTTTCTGATTTAAAAATAAAATGTGATTTTGATTTAAAAGAAATAAAATATGATAACAAAAGCGGGATTATATCTGGTTATGCAATAAAAAATAAGGATAACAATTTTTTGAGAGAGGAACAATTCTCAGTTTATTTGATATCTGATTTATATAACACTAAGGTTTTAAGTTTTTCAATTAAACCTATAGAAATTTTTGAAAATTTAAATGATGAAAATATAAATTTATCCACAACAAGTAAAACATATTTAAAAGTAAATCAAAATATAGATGAACTTACTTTTTCTGCATTAAGTCATAAAAGTTTTGATTATGAAAATGTAGTATTTGAGAATGGAAATTATACAAATGATAATTTACAAGTAAAATATAGAAAAACTGATGAAGTTATATTAAGCGCTTGATGAGCAAATGAAAAAAAAGAATCTTATGTATTGGTTGATTCTAGCTATTCTAAAGTAATTGATGGTGAAACATATACACAAAAATTTAAAAATTATCGATTACATTTTTCAGTTACACAATGAGATAAAAAACTAGATATATTTTCTTTTAAAAATGATGTTAAATTTGAATCAAGAGCTAAAAATAAGTATTTAAAATATAATTTTGATGATTTAAGTAAAGAAATAAAAGTATTTACAAACTCAAACTCAATAAATTTTTATCTAAAAAATACATTTTATAGAAAAATAAATAACTTAAATGATTTGTATATAGAAGATACTAATCTAGTTTCATTAAATCCCACATTTAAAGATTTTCCTGCTAAAAATATTGAATATATTAAAATAAATGTTATAAGTATTCAAAATATTGAAGAATTTAATAAAGCAGAAAAAACCAATTTAATTTACAATATTGGCAAAAGTAATTTAAACAGTTTTAAAATTCAAATTATATATAAAGAAAGTTAAAATGAAGGGGAAAAATGAAAAAATTAATTAAGTTAATGTTCGGTATTTCTTTAACCGCTGCTTTTAGCACCACAGTTATTTCATGTTCAAGAAATAAAATAAAACTTTCTGAAACTGATATTGCAAATATTATTAATAATGAATTTAGTAAAAGTGATAGTTATTTTCATTCAATGGAAGAAGTAACAAGTACACTAGTTCAACTTTTTATGCAATATAACAATTATGTGAAAATAAATAGTATTGGAAATCTTCATCAAGAAGGTTACTTAATAAAAGCCAACAAAATAGAAGAAACAACTTCAAAAATTAATTTTTCTATCACTGCACAAAAAATAGAAAAAGTTGAATCAGAATTCATCGTTAGTGATAGTAATTTTTATAATGAAAATTATAAAGCTTTTAAATGAGTCAATAAAATAAATGTTGATAATGATAAATTTGAGACTGATTTTTATAATAAAAATGTATCTATAAAAATTTTAAATTTACAAGATCTAGATGGAATAAGTTATGAAATTAAAGATGGTAAAGATCAGGTTGAAAATTGTGGTTTTGATCCTAATAATAAAAGTATCTTTAATATAACTATGATTCCCAATATAAATTCAAATATAAATAATCAAACTGTTATAATTATTTTTAAAGCGAAAAATGTTAAACCTTTTACTATTGTCGAAATCAAAAATGTTATAAAAGATTATGATCCTGTAATTAAAACAGACCTTGAAAATAGTGAACTTAGCACAAAATGGGGAAACCGAATAGAATTTAATATTTTAAATTATTCTAAATATAAAAATTTAAAAGTATCTTCTACAAGTTATTCAGATAGTCTAATTGAAGATTTTGTAATAAATAATGGAAAAGTTATGACAACAATGTTGTATAAAGATGATAAATATAATACATTTTTTCAAAATTCTTATTTTTGATTAAATATTATTGCTGATGATATCCCAGCTCCTACTAAAATAAAAGTAATTATCAATCCAATTTCCCCATTTATTAACAATAATGATATGAAAGATATTAATTTAGAAGTTGGTAAGGAAAAAGAAATAGTTTTTGATAAAAAAATTAAAAATAAAAAATTATATTTTAATAATGCTTTAGCTAAAAAATACTTATTATTTAAAAATGGTAATGTTGAATCTGATAGTGTAGATTATAGTAACTTAGATAAAATGATTGTTGAAGGATGAATTTATAATGAATCTGAAGACTATATATCATGTAAATATAGTTTTGATAAAGATTTTAGTTTAGTAAATAATTATTTTGTCACTAAAAATTTAGTTTATAATTTTACTTTTACAATAGAGAAATATAGTGATAATGATATAAAAATAAATGATCAAACCATTAAAATACAGTCAGATGAAGATAGTAGTTTAAAATATGAAATTAATAATTCGATAGTTAATGTTTTTACAAAAGCTGACAACTTTTATTTAAAAATAAAAACAGAAGAATTTAGAAAATTTAACTCAATAATAAAAGAACTTTTTGATTCTACTGATATAGACTTAAAATATACATTTGATATAAATCAATATAATAAAGAATATTGTGATATAAAAATAAGTTATTCTACTGATCCAGAAGAAAAATTAAATACATATTTAATTTTTGGTTATAATCAATATAAATTAACTATCAAAATTAATTTAACTTAATAATTAATAAAATTTGATTATTTGATTTGTATTTAAATAAATGTAATATAGACAGTAATTTTTTATTAAATTATATTATAAGGTTCCTTTTTCCTTTTTTTAAAAAAAATAAAACGTTTTATTTTATAAATATTATTTTTTACATTATTTATATTTTATAATTTTATTGTTAAATTTAGAATGTGTTTATGAAGAAATTGTTATATATATTGAATTTATTTGATATTACAATTTTATCACCAATTTCTGTTGTATCATGTAAAGGTTTAGGACAAAACTATAAATTGGCATGTGATATTTTAAAAGTTGAAAAATTGATAAAAGAAATTTTGATAAATAAAAATATAAGATCATTAAATGAAGATGAATCAATAAAAAGTTTTTAAAATGCATCAAGTGATCTAGATTATGTTCTTTTTGAAAAAAATGATAATATTAAAAATGATGATTTATTATTAAAAGTTGAAATAAAACAAAAAATTTATAAAACTTTTGAAACATAAATTTATTACTATAATACATATGAAAGTAAAAAACTATATCATTATAAAAAAACTCCATTTTCTATTATAAGTTTTTCTTTTTAAATTAATCAATTATTCTTGATACATACTAGTTCGATTTGAAAAACCTAATGCTATTTTAATTCTAAATAAATAGAAGATATCAAACTTATCCTTTTTGAAAATCAGATCAAATTAAAAGTTACAGACTTGAAGACTATGGTAAAACTGCTAATTGTTATATAAAAAATTAAAAAGATAATAAATAATAAAATAGATATCAGTAATTTTGAGTTAAGTTAAAGTAATTTAAAAAATGCATAAATTATAAGTGTAAAAAACATTTATGGTGCAGATAATGATATTAATACCAATGTATCAGAATTATATGTTTTATGAACTAAAAAAATGAACTCATTTTTAAATATCAATCAATTAAAGATTTAGAGGTAAATATCACAACTAAATTAATAACTTGAAATTATAATTATAATACAGATATTATAAGTGGTTATGCATATAAAGAATCCGATAACAATATTCTAATTTATGAAGATTGTTATATTATATTAAGCTCATATAAATTAGGAATGAAAAAATGACAAAAATAGTTAAAAAAAAATAAGTATTTTTAATAATGTTTTTAGCAATTATATAAGTTTATTGAAAAAATACAGTTTTAAATATAAATAAAAATATAAATAAACTGATTTTTAAAACTTTTAACAGTTCTAGCTTTAATCAAAATTATATTAAATGCTTAATGATGAGATGATAGTTAGAATAAACTTATAGATGACATAAGTTATTCTTTTGAAATAAATGCGATAAAATATATTGAATCAATTGAAAATAATAGATATTACTTTTAGTAAATGTTTGAGAAAAAAAATTTCTTTATATGTTCTTTTAAAGATAAAATATTTTTTTTGATTATAATTAAGAAAAAATATTAAAATATAATTTTAATAAAAAAAATAATAGCATTATAGTTTTACAGATAAAGTAAATATAAAAACAATTTTGTGAAAAAATTAAATAATTTAAATACATGAAATATAGAAAATAATTTGTTAATTGATTCAAAAATTTCAGAAAGTTATTTTAAAAACTTAACAATGTTTTTTAATGTATAATAAAACTAAAAGTAATTAGAAAAACTTTAGAATAAATTTTTTCTATAATGAATAAAATTATCATAGTATGGAGGTAATATGAAAAAATTTTTAACTACATTATGTTTATCATCATCACTTGTTATACAACAAGCGTATATTTTGGGATGTAAAACAGATAATAAAGAAGATATTTCAAAGCAAAAAGTAGAATTTGTTAATAATTTGTTAAAACAAGAAATATTTGAAAAAAAATTAAGATTCAATAATATAGAAGAAATAATTAATAAAATAAAAGAAATCACAAGTAGTTTAGATTATTTGCATTTTGATAACAAGGAAGATATAAAACAAGATGATATATTAGCCAAAATTAAAATTGATACAGTATCTAATAAAGAATTTAAAATTTTAATAAGCTATTATAAAAGCTATAAGTCTAATGGCAAGTTTATTTTTGATGATACTTATTATTATAGTTTTAGTTTTCAAATTTTAAAAAAACTTCAATATATTGATAACATTTTTGTTGAAAAAGATAGTATAGAAAATACTATAGATAATTCAATTGCTGACTTAAAAATAACTAATTATAATTTAATAGAAGATATTTATTTAACACCAATAGAAAATAAAGATCAATTTGATATATTTGGTGTTGAAGATAAAAAAGATTACGCAATTGTTCATGTATTTATGAAAAAGATAGTAGATAATCAATCTAAAATAACAAAATTTATTTTATCTGCAAGTAATGCTAAAAATACATTAGTAATTAGTGTTAACAATATTTATGGAATGACTAAAAGCAAATAAAAAAATACTTCTAATAAAACTAGAAGTATTTTTTTATTTGCTACTTGGAGCTTTATATTTTACTACAAATGTTACAGTTCCGGTAACAATTTCACTTGTATCTGCAGCAGTTGCTACAATTGATCCATTTTTTTCACTAGTAGCTTCTACAAAGTCGCTAAACACAATATCTGTTGTTTCTTCAAACTTTTTAAAATATTTATCATACATACTTGTGAATGCAGCTTTTTTAACTGCTTCAATATCATTAGAGTCTGGAGTAATAGTTGAATATTTACTATCCATATATTTCAAATCCTTTTTATGAAATTCCACAGTTGGTTTACATGCAATCGCTTCAATAGAAGTTGAACAAATAAAACTAAAACCTCCTAGAATAATTAATAATTTTTTCATATTTTATTTTTCCTTTCAATTTTGGTAATATCATAGCATTTTTTATCAAATTATAATAAATAATATTAATTATTTATTTAAATTATTTTCTGCAATTTGTTTATTTCTTCTAATTTTTATTAAATAAAAGTCATCTCCAGCTGCTGCAAAAATAAGTCCTAAAATTGAACCTAAAAATATTCCTACTAAAATTGCTGCTTTTTTCTTTCCTTGTTTTGCTAATATAAAAGCAACAACTCACATTGAAATTGTAAATATAAAATATAAACTAAAACCAACAGCTGCTAAAATAACATTCATTTTAAAACCTCATTTATTAAAATTATAACAAAGTATATTAAATATAAAAAAAATAGCTATTGCTATTTTTCTTGTCGTCTTATTTTGGATACAATTAATTGGATTCTGTATGTTAATAATACAAATAATATAATAGCGAATAAGTCAAAAATCATAAGACCAATTCATGAATTCATAAAGGAAGCAAAACCAAATGATTCATCTCCAACTTCAATTAGTGATCTAAAATAAGTCATTGAAGCACCAGCAAATGGTTGCACAATCATTATAATAGTTCCACTAACAAAAGAATAAAAAACTCTTCATCTTTTGCTTTCTTTATCATAAATATTAAATACTTTATAAAAAAGCAGTCAAAATAAAAATACTCATAATGCAAGTCCTAAACTAGATGTAAATCTAAATAAAGGGCTCATTCCATATAATATAAATTGTAATAGTCCATCCAACAAACCAATAATCATACCCCAGTATAAACCGACTACTTGAAAGCTTATAGCAATAACAAAGTATTTTAGAGTAAATCCAACATTTACTCCTGTTATTCCTAATGGAATAACAACATTTATTAAACTAACAGCTGTAGACATACTTAGTAACAAACTGACAAGGGTTATGTTAAGCGTTTCGCTTTTAATTTTTGCATGTCTGTTTGTTTTGGATAGTTTGCTGATTTCGTAATCAATATCTTCATCTCTAATTGTCAATTTATTTGGTTTATTTTCAACTATTGATTCTTGATTTGATAATTCATCAGTTTTTTTCAAATTTTTACTCCAATCTTTTAACAAGTTGGAATCCAATTAATTAGTATTTATAATTGACTTTAATATTATATAATAATTTTATAAATGAGGGACTTTAAATGTTTAGTTTTTTTGTAGAAAAAAAATCAAATAACAACTTTGTAATTGAAGATAAAGATTTTCACCACATAGTAAATGTAGTGAAGTTAAAAATAGGAGAAGAAATATTTTGTATCAATAATCAAATTAAGTATTTGTGCGAAATCAAGGAAATACAAAAAGATTACTTAATAGCAACTATTAAAAAAGAAGTATTATTAGATCAAAATAATGTTCAAGTAAATCTAATAGTTGGAATAATTAGAGAGCAAAAATGAGATTATGTTTTACAAAAAGCAACAGAACTTGGGGTTACAAATATTATTCCTGTTCAATTTAAAAGAAATGTTGTATTAATAGATGATAAAAAAGTTGAAACAAAAATTAAAAGATGACAAGAAATTTGTATTAGTGCTGCAAAACAATCAAAAAGAACAACAGTTCCAAATGTTCAATCAGTTATAAAAGATATAAATGATTTAAAAAATATTAAAGCAGATTTAAATTTAATAGCTTATGAAGATAACAAAATAAATAGTTTAAAAAATTATTTACAGAATAATTTTAATACGATAAATATAGTTGTAGGACCAGAGGGTGGATTTGAAAAAAAAGAAGTAGATTTTTTTATCCAAAATGGATATAGTGAAGTTAGTTTAGGAAGCAATATTTTAAGAACAGAAACTGCATGTTTGTACTTACTTAGTGCTATTTTTTATGAAACAAACTAGTTTTGTTAAATGATATAATTAATACATAAAAAGGGGGCTAAATATGTTTCAAAAAAATGATTCTAAAATACTGACTAGCGATGTTAAATTAATTAACGAACAATTAAAAGCAGTTGAATTAGATAAAAATTTAAAAATAACAATAGATAAAAACATTTTTTTTATAAAAACATTTTTAAAAAAACTTGTAGATATAAAAAAAATAGGAAGCTATGCAATTGAAAATATTTATAATTTTGATGAACCCCCAATTATAGATTTATTAGCATTAAAATATGTAAATAAAGAAATGTACAACACTTACTTTAAAGAAACTGAAACAAAAGATCATTTTGATGATTGTTGAGTTTGTGAATTAAATGAAGATATTTTAGTTAGTTTAAGAAAAAAATTTAAAATAGAAAAAAACATTCAAATAGAATGAAATACAAAAAAATATTTTTATGGACCTGACATAAGAAAAGATTTTTTTATACATAATGACTCTATTAAAATGGACTACTATGAAAAAGAAAAAATAATATTTACGATTATGATAAGAACTGGGATTATTCATAATGAATATCCTGTAATATTATGTATGAAAAACATGTATTTTAAATCAAATGCAATAGAGTATGTAAAAACGTTTAAAACTTTAAATAAATTAACAATTAGAAAATTAGAAATATTATTTTTTTATATAAGATTAAATTTTAGAAATAAGTTTGATGCTCAACAAAGATTAATGATGAGAATTTTAGTTATGAGTGATTTACAAACACAGCTGTTTAGAAATGTTTTTTTTAAAAAGTGAATAACAACAGTTTTTTATTTTTTATTTACAAATGCAAAAGTAGTGGATAATCTTTTTGAAACTAATAAAATATATTATAGAAAACATAAAAAATTTGTTCAGTTATATTCTTCTTTTAAACTAAAGAACTTAAAATGAGTATTTCATAATACTTATTTAAGTACAAAAGATTTTTTAGATAAGTATTTGTATGAAGTGGAAGACTGAATAAATGATAAAACTTATATTAAAAAACCACTACACTTTTGATATGATTCAAATCCTTATATTCAAAATTCAAATTACTCATCTAGTTTCACAATGAAAAAAGATAAAAAAATTTATGATAATTTAGAATTAAAGTTTTATTCAAAAGAAGTTTATCCAAGTGATAAGAATATAGGAATTTTTTTAGTATGATTAAAGTTTTATGAGTTTGAAATTTTACCAATCAGAGAAGAGGAAAACTAATGGCTAAACCTAATTTAATAAAGCAGTTTAATACAGCTATTAATCAAAACATTATTTTGGATAAAGATTTAAATGCTGTTATTAAAGTTTCTTTTTTTGAGTTTAAAAAAATATTTAACAATATATTTTTAGATATAAAAAAATTAGGAGATTTTAAATATAAAAGTTTTTTTAGCAACTCAAGAAGCATAAATTTAGATCTTGCAATAATAAAATATTTTCCTAAAAATGATTTAAAATTTACTCAACTCAATGAAACTATTTTAAAAACATTAGAAAAGTTACCAATAAAATATGTAATTAAAAAAAATCAAAACTATATAGCTATTGAAGAAAAATTTAAAGGTTATAATATAACCTATAGACTTATAACCTTAATAAGAAAAAAACGAGAAGATAAAAAAATAGATTATGTAAATAGGAATGGTTTAGTGCAAGAAGATTTGGCTATAAAAGTTACAAATGCTTTTTGTATAGCTAATAAAATTAGTAATGGAACACTATTTAATATTAAAAAACTTGTTAATTACATTTTAAAAAATCAATTTGAATATACTTATAATTTAGATTACTTATTATTGACATGATTTAACGAATATATTGCAAGAAGTTTAAATAGTTTTATTAATAAAAAATTTAATAAAAGAAATAAAGAAATGGATATTGAAAATTTTAAAAAAATCAAATCATTAAAAATTTGATTTAAAGAACATATTGATGTAAATAATTTGTATTATTATATTTTTACAAAAATAGAAAACATTAATAGTTATTTTTATAATGAATTAGAATTTGAAAATATTGAAATTTTTACAGATATTTCTAGATATTCATTAAATACAAACTCTACTTTTAATAATCCAATGTCATTTTTTTCTGAAATAAAAATATTTGATTTAAAAAATCATAAAGATCTTGTATTTATACAAAATAATTTAGGATTAGACTATGGAATTTCTAAAATTGCTTATGATAAAGCAAGAAATGAAGAAAAAAGATATTTTGTCTCTCCATTTATAGTATCTGGTTTATCTAATTTTGCTATGTTTCAAAAATGATTTACATTGTTAAGCTCAAAATTATATGCAAAATTATCTCAAGAATTAAAAGAAGAAATAAAATCAATGAAACAAAGAGAAGCTATGGAAGAACTAAATATTATTGCACATAATTGATTATCTAGTTATTATAAAAAATTAAAATATTTAGTACCTTACTTTGATAAAAAATATCCTTTAGCATACGAAAGTGATATAAAAACTTTGATGAGATTAATTGTTACAATGGTTGATAAAACAAAAGAAAAAGATTGAATTATGGAAAATGATAATTAAAAAAAATTAATCACATTAATGTGATTAATTTTTTTATGTTGATAATTCGTATAAAACTTTAAAGATACCATCTTCTTTAATTAACTTTTCATAATTTCCGATTTGAACTATTCCTTTATTTGCCTCCATAACAAATATTTTATCAAAGTTTTTTATTGTACTTAATCTATGAGCAATAGAAATTGTTGTTCTACCAACCATTAGTTTTTCTAATTCAGATTGAATTTCTTTTTCGACTTTTGTATCTAATGCACTTGTTGCTTCATCTAAAATTAATATTTCTGGATTTTTTAAAATTAATCTTGCTATTACTAATCTTTGTTTTTGTCCTCCAGAAAGTTGAGCACCTCTTTCAAATAAAACAGTATCATATTGATCTTCTCAACTCATTATTAAATCATGTAATAAGGCTTTTTTTGCAGCTTCATATACTTGTTCTGGTTCTACATTTTCTATTCCATATTTAATGTTATCAAATATTGTTCCACTTAAAATTTGTGGTTCTTGATCTACATATCCAATTTTGTCTAATCATGATTTTAAATTTATATCTTTTAAATTAAATGCATCATTTATAATTATATTTCCATTAGTTGTGTCATAAAATCTTAAAAATAATTTTGCTATTGTTGATTTTCCACTTCCAGTAGGCCCAACAAATGCATAACTTTTTCCTTTTTCAAAAGTTATATTTATATTTTTAAAAACCATTTTATCATCATTATTATAACTAAAGTCAACATTATCAAATTTAATTGTTTTAACTTTTTGATCAAATATTGTTTTTTTATGTTTATCTATTTTTATTTTGTAGTTGAATAAATTATATAAATTCTTTGCTCCATATTTTGCAGCTGGAACTTGTGATAAAACAAATCTTAAATCTAAAAGAGGCATAGTCATAACAATAACTCCTGTTGTAAAAGTTGTTATTATACTAATTAATGTTTGAGAGTTTTCATAATACAAAATAACTCCAAACATAACACTTGCCATTGAAAAACTACCAACTCCTCCAATGATAAGTCCTGCTGGAATTTCAGAAAGTAATAATTTCAATTTATTTTTTTTATCAACTTGTTTTGCAACTTTTTCAAAATCATTTTTTTCTTGATCAAAAGTACCACTTGATTTAATTAATCTTATACTATAAATTTTTTCACTCATATCATTCTCATAATCTTTTGTAAGTTTACTTATTTTTTTTGTAGCAGATACAGATAAGATTGAAAATAAAAATACACCAAACATACAAACAGTAAGTAATCCAAAAACACATAAAGTAAGTTTTCAATCAACTATAAACATGATAATAGAAGATATTAAAATAACTAATCCTGTTCTTACCAAACTAACTGGCGCTTCTTTTATGTATTGGCCTAAAATACTTGTGTCTTTTACTAATGTAGAAATAAGTTCGCCGGTTTTATTTTCATTGAAATATTGTAAATCTTGATCTATATAATAATTTATTAACTCATTTTTTAGTTTAGTTTCATAACTTCTTGATATAACTCCACTAATTAAATAAATAATATAAGATATAAAAACAATAATTAAAATATTTGTTACCATAATAACTAAAAAATCATAAACATTTAATTTAAAACCAAATAATGTGATAAATAAGGTTTTTCCATCATAATTTACAAAATCATAAAATAGTTTGTTTATAATTTTTTGAATAAAATCAGGACTACCGTATTGATCTAAAATCATATCTATTTGTTTTGGATCAATATTAAAACTGCTTAATAGATCATAAAGTGATTCTCGGTTATTTGCAGCACCAATTATTGATTTAGAAACTAACAATGCAGTTATATACTGAACAATTTTAATATTAATTGCTGCTAATATTGCTGTTAATGCAATCAAAACTATCATAAAAAATGTTAAAAACATTCTATTTTTTAATGCTCTTCAAATGTGAATATTAATTCCATCATCAAACTTTAGTTTAAAAAATGTTAGTTTCATATTTTCTCCTTTTTATTTATTTATGCTAATATTAAAAAGAATTACATTTCATATAAATATAATTGTTTCATTTAAAACAAGTTTAGCACCAGAAGGGAGTAAAGTCAATGAAAAGAGATTATAAGTTTAATGAGTTTTCAAATTTAATTAAAGGATTTATTGTTGTGACAATTCTTTCGAGGAATTTAGAAGTATTTATGGAAAAAGAATTTAAAGAATTATATAAAAATGCTTATATTCATTTAATGTTTATAAAACACGTTGAAGGAATAAGTCAAATGGAATTAAGTTTATTAACTGGTACTAACAAATCAACTTTAGTGAGAAATTTAGCAGATTTAATTTCAAAAGATTATGTTATTAAAAAAACATCATCAAGAGCTAATGAAAATGAATTATATTTAACAGAGAAGGGTTTAAAAACTGTAGAAGTTATTCAAAATTGAATTCAAGATAGGGAATTAGAAATAGAAAATGAAACAAAAAATTTTGATAATATGAAAGAAAATGTCTCTTCATACATGTTAAAAGTTATCGATCTTTATTCAAAATAATAATATTTTTAAAAATAACTTATAACTATGAGTTATTTTTTTTATTTTACTCTTATATAATTTTTTTTAGAAAGGGATGAAGTATGAAAAAAATTAATTGAGACGAATATGCCACTGAAGTTATAAAAAATGTTGGTGGAAAAGAAAATATTAAAGAAATATTTAACTGTGCTACAAGATGTAGATTTTATTTAAACGATGATTCTAAGATAAATGTAGCAAACCTTAAACAAATTGAAATTGTTAAAGGATATAATTTAGCAGAAACAGAGCATCAATTAATAATTGGAGCTGGAGTGGTTGATAAACTTGTAAGAGCAATTAATAATCAACTAAATAAAAATGGTGAAAGTGGTAATTTTGAATCTAAACCAAAAGTTAAACTATGAAATAAAAAATTATCTTTCAAACAAAACACATTACAGATTACAAAAAGGGGAATGAACTCATTTGCTGCAATATTTGTACCGTTAGTTCCTGTCTTTATTGCAGGAGGGATGAGTTTAGCGCTTGTATCATTAGTTAATCAGATCTCAAAAAACACCGGTTTTGCAAAAATATTAGACATAATTGGGGGAGGTATTTTAGGTAGTTTACCAGCATTTGTTGGATATACAGCTGCGAAAAAATGAGGAGGAAATCCTTATTTGGGAATGGCTATGGGACTTGTTTTGATAGCACCAGCTTTAATGAACTCATATGCAAATAACAAACCTGTTATGATTGGTGCAGATATTAATGCAAGTAGTGAATGAATTGAAGCATCAGTTAATGAAGCATTTGAAAAATGAAAAACTGAACAGTTAGCTGCAGGAATTTCTGCTGAAAGCTTATCACAACTATCTGCAAATGAAGTAGTTGGAGTTTATCAAACTATATTTTCAGGATTTTTTAAAATTAAATTAATTGGTTATCAAGCACAAATTGTACCAATTTTATTAGTATTAGCATTATCAGTTAACTTAGAAAAATTAATGAGAAAATATATTCCAGACATTGTTGGAATTATTATTGTTCCACTTGGGGTTGTAATAATTTCATCATGATTAGCATTTTGAGCAATCGGTCCATTAGGGCAAATTATTGGAAAAGGAATAGCTATTGCATTGACCGCTATTTTCAAATACACTAACTATACAGGTATAGGATTTGGTGGAATGCTATTTGCAGGATTATATCCATTAATTGTTATTACTGGTTTACACCAAGGATTTTTACCAATTGAAACACAATTATTAATGGATACAAACTTAACATATGGTCACTCATTTTCATTTATTACACCAGTTGCTTGTGTATCAAATATTGCGCAAGGATCTGCTGTATTAGTTGCAGCAATATTAATAAAAGATAAAAAAGAAAAATCTAAAGCAATTTCAGGAGCATTTGGAGCTAACCTAGGAATTACTGAACCTGCTATGTTTGGGATAAACTTACAGATTAAACCATTACTAGTGGGTGCCATGATTGGTTCTGCTGTCGGAGGATATTGATTAGGTATGACTCATACAGTAGCAAACTCCTTAGGAAGCGCTTCATGAGTTGGACTAGTTCAATTTGATTGATCTGCACAATATGCGCAAAATTATTTTGAAGCAAATAAAATACATGCTGCATTTACATCATGGCCACCAGGAGCAAATGTTGTAATCGCAATGGTATTGTCAATGGGAGTCTCATTTACATCTGCATTCTTCTTAATGAAAACTAGATGAGGTTTAAGATCATTAAAAGCATATTTAGACTCTATGAATATTAAAAATGATATAAAAGTTTTAGAAAAAAAAGTAAAAGCTGAAAAACCTAAAAAAGTAAAAGCACAAAATTAATAATAAAAGTCCATTTAATAATGGACTTTTATCATTTTTCTTCATCAACGACTTTATTTTTTAAAATTTCAGTACGTTTTTTAACATAATCTTTTTCAATTTTTCCTATATCATGATATAAATCACGACTTGCTTTAATTCTTAATTTTTTTAATTCTTCGTCACAATATACTCAAGTTAATCATACTATATGGAAGTGACGTAAGTATTTTATTTCTCTTTCATCATACATTTCATAACTTAATTCTTGAGCTTCTCGTTGAGCTAAATCGACTCATTTTTGAGCATCAACATTTTGATTATAAGCTTCTTTTGCAAGATCTTTATAACTTAAAGCTTTTTTAACTATTATGTCTTCTAGTGATTGTAATGTATTTGCAATTTCAGTAACAATTGCTTGATCAAATTCATCATAAGAGTTAAATTGGTGTTTAGAAAGATAAAACATTTTTGTATTTAAATTACTTACAGGGTTTCCACCACTTCCAAGATGCTCTCTTTCAGTAATTATTTTAAATTCTGCTTCAATTTCTTTATAGAAATCTGATTTAATACGCATATGTTTCCACCTCTTTATTTACCATTAATCTCATATATTATAGCATAAAATTATACACAATTAAATAGATAATACAAGACTTATTATTAACTTTTTATATTTTATTATTGATGCTAGATTTACTAATTAATATAATATCACTATATGTATGAAAAAATTTTTAATAAATTAACTTTAAAAATAAAACTATTCCGATAAAAAGTGTTTTAAAACTAATTATTTAAGTATTTTTGTATTAATATTCTAGTGTAAATGAAAAGAGGATATGAATGAAAAATTATGTATGATGAAAAACAAGTAACATGTATCAAATTTGACCTAAATCATTTAAAGATACAAATAATGATGGGATAGGAGATTTAAAAGGAGTGACTCAAAAGTTAGATTATATTAAAGATTTAGGTTTTGATGCAATTTGACTATCTCCATTTTTTAAATCACCAATGGCAGATAATGGATATGATGTAGCAGATTATTATCATGTCAATCCAATCTTTGGAACAGATGAAGATTTTGATGAGTTAATCAAAGAAGCTAAAAAAAGAGATATAAAACTTATTATTGATATGGTTTTTAACCATACAAGTGATCAACATGAATGATTTATTGATGCATGCAAATCAAAAGATAGTATTTATTCAGATTATTATATTTGAAGAGATAAACCAGATGATTCAATTACTTCAATGTTCACAGGACCAGCATGAACTTATTGTGAAGCAAGAAACCAATATTATTTACATTTATTTGATAAAACCCAACCAGACTTAAATTGAGATAATCCAAAAGTTTTAGAAGAATGTGCTAAAGTTTTAGATTATTGACATAATAAAAAGGGGATTGCAGGGTTTAGATTTGATGTCTTAGAACTATTAGGAAAAGATATTGAAAATCATATTCTTGCAAATGGTCCGAAATTACATAGTCGTATTAATGAGTTAATGAAAAAAGGTAACTTAACTTATGAAACAGTCAAAATTGGAGAATGTTGAGGAGCAGGGTTAGAAGAAACTTTATTATATACTGATAAAAAAAATGAAGAACTTTCAATGGTTTTTAATTTTAAAACAATAAAAGCAATTAAAAATGAAGAAGACTCTAGAAATAAAATTGGTAAATTAAATGTTGAAAAATTAAAAAATGCAATTGTAGATTTTGCAAATCAAGTTGTTCAATCACAAGGATGATTATCAACTGTTTTAGAAAATCATGATTTACCAAGAAGTATAAGTGTATTTGGAGATTCAGATTATTGACAAGATTCTGCAAAAACTTTAGCTTTATTACTTTATAGTGTTGTAGGAACTCCATTTGTTTATCAAGGTCAAGAAATAGGAACTAAAAACTTTGTTGGAAATAGATATGAAGATTTTAATGATATTGAATTATTTAGAATGAAAGTTAATTTAGTTGATAGTAAAAAAATGAGTGATAAAGAGTTTTTTGATTTAATGAATTGAAAAGGAAGAGATAATGCAAGAAGACCAATTCAATGAAATAGTGAAAAAAACTTTGGATTTACAAATGGTACACCTTGAATTACTATGAATAACAACCAAAATGACATAACTGTAGAAAATCAATTAAAAGATCCTAACTCAATTTTAAATTTTTATAAAAAATTAAATCAATTAAGAAAAGGAGAATACTTAGATTATTTTGTTAATGGAAATATGAAGTTGAATCAAAGCGATAATGAAATAATTGATTTTAGTATAGAACTTGATGAAAAACCAAGTTTAAGATTTATTGGTAACTTTGGTAAAAATCAAAATAAACATATCATTAATAAATATTCAAAAATATTTTTTAATGAACAAAATATAGATATAAAAGAAAGTGAAATAATTTTAAAACCTTGAAGCTCAATTTTAATATTAGAATAATAGTAAAAAAAATTAGTGTACAAAATATATTTAGTATACAAAGCAATGTTGATTTTAATTTAAATATATATTTTTAAATATTCTTATATATTATAAAATATATAAGAATGGAGCATAAAACTATGAATAATGAATCGGGTATTTTTTTAGTTAATAAACCTCTAAACATAACTTCAAATGATTTAATTCAAAAGATAAAAAAGAAATTTAATATAAAAAAAATTGGTCATGCAGGGACGTTAGATCCAATTGCTACTGGTTTAATGGTTGTTTTAACAAATCAAGCTACTAAAATTTCTAATTATCTTTTAAAAGCAGATAAAGTGTATGTTGTTGAAATGAAATTATTTCAAAAAACAGATAGTGGTGATATAACTGGAAAAGTAATTGAAACACAAGAATTTAAAAAAATAGCAAAAAAAGATGTAGAAACATTAGCACAAAAATATAATGGTTATATTTATGATCAATATCCTCCAATTTATTCTGCAATTAAAGTAAATGGAAAAAAATTATATGAATATGCAAGAAATGATCAAGAAGTAAAAATTGAACCAAGAAAAGTAACGATTAATGAATGTGAAGTTATTGATTTTAACCAAAAAAATGCCACTATTAAATTAAAAGTAAATTGTAGTAAAGGTACTTATATTCGTAGTTTTGTTCAAGATTTTGCAAAAGAATTAGATTGTATTTCAACTGTTAGTTCTTTAGAAAGAGTTGCTTCTGGTAATTTTAATTTAGATCAAGCAAAAACAATTGAAAAAATTGAAGAAAGTGATTTAATAACAATGTATGATGGATTAATTCAAAATAATCATACTTTGATTGAGTATCACAAAAGTAGAGATATAATTCAAGGAAGAGCAATCACATTAACTGGTAGAAGTGATAAAGTCATTTTTATAATTGATGATAAAAAAAATGTTATTGCAATCTATAAATGAGTTGCAAAAGATTTATATACATGTCAACGTGGTTTATGAGATGAAGACTTTGAAGCTAGTTTAACAGAAGCAGAAAGAGATTTTTAAAATGAAAAAAATTGATGTATATTTGAAAAAAGAAGAAAATTTTGATATCCAAAAAAATAACACTATTTGCATTGGATTTTTTGACGGTATTCATCGAGCTCACCAAAAAATAATGCAAAAAACTCAACAAATTGCACAAGAAAATAATGAAATATTTTCAGTAATGACTTTTAATCAAAAAGTAAGTGAGTTTTTAGCGGGGCAATTTCATAATTTACAATCAAGAAAAATAAAATATCGTATGTTAGTTGATTTATTTGATCCAGAATTTTTATTTGAAATTCAAGTAAACGAAAATACTATAGCTGTTTCAAAACAAGATTTTATTGATTATTTAAAAAATAAATTAAATGTAAAGCATTTAGTTGTCGGAAGTGATTTTACCTTTGGGCACTATAAAGAAGGAAGAGTAGAAGACTTGTATGAAGCATTTGGAAAAGAAAATGTTTTTGTGTTTTCAAGAATTGAAAAATATTCTTCAAGTAATTTAAAACAATTATTAGCTGAAGGAAAAATTGAATTATTAAATGAAAAAATGGGATATATTTATAAACTTGATTTAAAAAAAATCCCAGAAAAAGCAAATGCTTTTAAAATTTCAAAAAGTAAAGCAACTATAAAAGATGGTTTTTATAGAGTAATTTATAATGATGTAGTTTGTAAAGTTCAATTTGAAAGTAATATAGCTTATTTTCCAGATAACTTTGTAAGTCCAAGTGAAATAAGTATTGAATTAGTTCAAAGAGTTAATTAATAAACTCTTTTTTTTATTTAAAAGTTATTTTTTTAACAAATATAAAAAATACAAATTGCTATAATATTTCTATAAAAGGAGATAATTTTATGAATGAGATAAAAATTGAAAATCCAACAAGTGAAGGTAAAGAAAGTAAAAAGTTTTTAACTTTATTAAAAGTCAATTGCTTTATTATAAGTCTTATTGGTTTAGGATTATTTATATTTGCAATTATATACGGAAGAGTATTGATAGGAAATTACAAACGTGAAGAAAATGTTTTAGATCCACAATGATATTATTATGTAATTTTTTTCTTTGGAGTATATTATTTTGCATCTCAAATTTCTTTAGCGATTGGAATTGAAAAAATTTTAAAAAGAATAAATTATTCTTTATATCAACGAAAAGTTTTTATATTATGTAATTTATTAGTAATGGTTTTAACAGTTTTAACATCATCTACATTATATTTATTTTTAAAATATAATAAAGCTCTTGAAAAAGAAGGTTATGATGATAAAGAACAATTTGATTATTATGTTAATACAAAAATTAATCCTAGATTTAATATGAAAATCTTAGTTACAACAACTTTTGGTATAACTATATTTTTTTCATTATTCGTTGGATTTTTAATTTATGCATATTTGAAGAATATTGATTTTATTAGTTGAAATTTTACTACTGTAATAATTGGGTCATATTCATTTATGATTGTTTTTGGAAGTAGTACAATTTGTGCAAGATTTTTATGTGACACAAATGCATTTTTAAATAGTGATAACAAAATTGATACAAAATGATTTGTTATAAGTTCTATTCCAATAATTGGACCAATAACTTTATTGATTTATTATAGTAAGAAGAAAATAGTTAATAAAAGAGATAAAGTAATTTAGTTTTTTTCAGACTTTTAAAGTCTGTTTTTTTTATGAATATTATTATTTGATAAATTAAGTATGATTGTTATAATTAAAATTAAAGGTATATATAAATGAGTCAATATAAAGAATTAAATAGCAATAATAAAAATAAATCATTAGTAACTTTATTAATGATATTTAGTATTTTATTTTTATTATGTGGGATTGCATTAATTTTAGTTTCAATTATTTCTGGAAAGATTTTTACAAAAATTTTTAATCGCAATGGTAATGCTACTATTCCGAATTGATATTATTATTTAATATTTGATATAGGTTTTTTTAATATTATTTTTAATTTAATTTTTATTTTATATATAAGAAATGGTTTAAACAATAGTAAATATAGTTTATATCAGCAAAAAATATATTTGCTTGCTAATCTATTGATATTTATTATTGCAGTTTTTCCAATTTTTATAGTATCAATATATTTAAAATATATTGACCTTTTAAAAAAAGAAAGTCTTGAAGATGAAGAAAAATTTGATAAATATATAAATTCAAATGCTATTCCAAAAAATAAAAATAAAAAAATAATGTTATATTTATTTATTTTTTTAATAATTTTAGTCAATTTTTTATTAATTATGTTTTTAAATTCTGATTATAAAGAATCTAAAGTCGAAGAAAAGCGTTTGATATTAGCTTTAAATTTTATTGTATTTATCTTTTTTTGCATCATTTTATTGATAAGTCCTAAATTATTATGTGATACAAATATTTATTTAAATGAAAACAAACAAATTAAAAAGAAATGATTAATTATTGGTATGATTCCTATAATTGGATCATTCATTTTACTGATTTATTTTTACAATAAAAAAGATAAAAAACTTCATAATAGTTAATAATTAAATTCATTATTAAATAATAAGTATATTAACTAATGTATAATAAAATATGGAAAAAATAATAATAATAATAATAATAATAATAATAATATCAATATAGAAATCAAATTTAATAACAAACAAAGTGGAAAATGTAAATCATATTTAAAATTTTATAGTTTATTTTTAATTATATTAGGTATCAGTTTAATAGTTTTTTTCAATAGTATATGGAAAGGTATATATTTGACGTATTTTTAGAAGTGATAATGAATCTCATCCAAAATGGTATTATCATTTATTGTTTGATTAGGTATCATTTACTTTGCTATTAATTTACCTTTTTTTGCAAAACCGGAAAGTATTGCAAAAAATACTACGTACTCACTTTACCAAATTAAAATTTTTATGTTATGTCTTTTATTAATAACTATCTTAACTATATTTTGTTTATTTACAATTTTATTATTTTTAAAATATGTTAATGCTCTTAAAAAAGAAGGGTATGATGACAAAGATAGATATGAAAAATACATAAGTTTTGATAAAAATAAAATATTAAACATATCAAAATTATTAGTTTTTGGGTTTGGTATATTTATCATGTTCTTAGTTCTTTTAAGTTTATGTATATATTTTAAAATTGAAAATGATATTAAAAGTAATAGAATAGTAATTCCAATATTGAATTTCACATTCTGATTGTTAATTTTTTTACTAAATTCAATTTGTGGATATTATTTAACTGGTACTAGTGTTTTTTTAAATAAAGATAATAAAATTGATAAAAAGTGAATAATTATTAGTGCTATACCAGTAATTGGTGCAATTATAATAATTAATTATCATAAAAAAAATAAAAATATCAGTATTAAATAACAGAGAAGAAAGAAAAATGAGTGAAAAAGAAATGAAAAGTAATGATAATTTAAAAACCAAAAATAGCTTAGAAAGTAAAAAAATATTACATTTTTTTATCAATTTATTCTACATTACTAATGATTGCTGGAATATCTATTTTTGCAGCGGTCATAGTTTGTAGCAATTTTTTAGTAATATCTGCTAAAGCTGGTCAAAACATAAATCATGTTTAATGATATTAATATATTCTTTTTTATACTGGAATATATTTTATAGTTACTCATTTTACATATTTATTTTTTACAAAATTTATTATAAAAAAAACACATCACTCACTATATCGATTAAAAATCTTTGTAATAGCAAATGCTTTTTTAATGGTAATAACTATTTTACCAACATTTAGTATGTTATTATTTATCAAATATGCAGATGCTCTTAAAAAAGAAGGTTTTGATGATAATGATAGATATGAATATTATATAAATAATAAATTAAACAAAAATTCATTTATTGGAGGTCGAACTTGTTCTGTAATTGTGTTTATGATTATGACAATAGGTCTTGTTGTATGATTTTTTTGCTTTAATAACTCAACAAATGATACAAAGTTAATGGCTATAAAATATTGTGTTACTGGGTTTTTTGTATTTTTAAATCTTGTTACAACTGCCGGGCTTGGCGCTACATTTTTAAGCAATTCAAAAATCTATTTAAATGAAGAAAAAAGTTGATAGAAAATGATTGATATGTGCTTGAATACCAATTTTAAGTCCATTTATTATTGGAACTTGTTTTTTGGTAAGAAAATAAAAAACTTTTATAAATAATTGTATTTATTTTTTTTATTAATATTATAAAATTAAGAGAAAAGAGGCGATAACTATGGATGATAAAATTTTAAAAAAAACTATTTCTATAAAAACTCTTAGATTATGAGGAAAAAACCCAAGATATACCGATCTTGTTTTTATAAATATTGAAAAAATCGGATCAGAAGACTTTATAATTAATGAAAATTTAATGGGTGTAGAAAGTGATATGTATAAAGAAAATTATAGGGAAAATATGAAAAAACTTTTAGCACCAGCCGATTCTCCAAAACTCACTTATGACTTAATTGAATCAATGATGGAAGGTTTCGATTCATCTATTGATGATATGTTTGTTGTAAGACCGGTATGGTTGGATAATTATAATTATAGTAAATCAAAAGATATTTATTATGTTGTTGAAGGAAATAGAAGACTTCTAGTAATTGATTTATTAAGTGACAGAAATAGTTCTAGAAAGTATTTGAAAGAATTTACTGAAAAGCTAGAAAAAGATTTAAATAAAACTAATTTTAATAATGATCAAAAAAAAGAGACTATCCTAAAAATTAAAATAAATAATTTTAAAAAAATTTTAGCAAAGTGTGAAGAATATGATAAGAATCCCAAAATTGGATTAAGTATATCTTGCAAAGTATTAGATTATAATTTTTTCATTTCAAAAACAGGTATGGAGCAATTAAATAAAGTTTTGAATTCTAGACACTTTGGCAAGAAAAAGGGAAAAATGAATTGACCAAGAGGTCTTATATTAAAAAAAATTTATTCATTAATAGTAAAGTTTGTTATAGAAGCGAAAAATAGAAGTGAAAATATTGATTGAAAAGTAATAAACAAAAAAATTGAAAATACTATTGGTAAAACAATAACAAGTTCTGATTTAAATAATGCTATTTTTTTTGTTGAGTGTATAAATGCATGAAATGCGGATAAAAAAGATAATGAAAAAATAAAATTTGGTGATACAGAAAATGGGGATATTGATACTTCTGAAATAATTTTATATAATGATGAAAATCAAGAACTTTTACAAATAGACACAGAAGATATAAGTGGTTTTTCTGTTTCTGCTCTTGAGTTGGCAAAAACAAACTTAATAATACTAGATAAAGATTTAACTAAAAAATCATTATCAAAAGTTATAAAGTTTGTTTATGAAGACAAAGAAAAAATAAGTGATAACTCAAGTATTATCAAAATAAAAAGAAAAACGGAAAATACTTTTATAGATAATCATGACGTAGTACAAAAAATTTTAAAAGAGATTACAAATGCCGTTTATAACAAAGAAATCACAACTAGATCATCTAAAAATAGTGATATAACGGAATCCGGTAAAAAAATTCGTCAACTAATTTTTCCTTTGGGATATGATTCCGAGGAACTTAAAAATAATATTTATAACATATCTTTGGAACAAATTGGAAGCATAAATCCTGAATTAATAGAAGATGTTAAAATAAAAGTAATAGTTACAGATTTTCAAGATATAGATAGTACTTTAGAAAATAATTCGCTTAAATATAAATATGATAACTCTGAAAATAATTTAATATCAAATATAAAATATATTTGACTAAAAGAATTTGAATTAATTAAAAAATTTAAAAATCAATTGTTAGTTTCTGATATATCTGTAATTATTTTTAGCTCATTACTTAGAACTACTATAGAAGTTATAAATTGTTATATATTTTCTAAACTATGCATTTTTTACTTAGAAAATATTGAAAAGTTTGAAAAAAAAGAATTTGATGAAAAAATTTGTAATATAGTGAGTGAAAATATAATAGATACAAAATTAAATGAAATTTTAAGTAAAATACCTTTCGAAACAGAAGAAAATCAGATTACAAATGGTAAAGATTGGTTCAATAATTTTAAAAAATTAAACGAAAATGATAAAAATATTTTCATAGAAGACGTAAGAAAAATATTTGACTGTTTTATGGGTTGTTATGTAGAAAATACATTTCATCCAGAATCAAAAATTCTAACAAAAGAGGATATTATGTCTAATAAAGAGTTTTTAAATAAGTATTTTTTTGGTACCAGTTATAATGGGAGTAATATTTTAAATGAAGTATATAAAAAAATTACCACAAAACAAGAGTGAGATGATTTCATAAACTTTATTATAACTGAAAAAATTTTAGGAATAGAAGATAGAAAGGTTATCGAATGTTTTGAATTGATTAAATTTTATTATGATAATAAAATTTTATGATTTGATGACGAATATAAAAAAAACTCATTAATTGTAAATAGGCTAATTCATAAATCAATGTTTGCGCAAAGAGTATATGAACTTAGTGGGATTATTTATTTGGACTCAATAACTGATTTTTTAAAAACTATATTAAAAAAAGTTCTTAATTTTGTTAATTAAATTAATATTTTTACGATGTAAGGAGAAAAAAATGCCAAATGATAACAATGAAGTTATATATGAAAAAATAAGAAAAATATTTAAAAATAAGAAAAAAGTTTTAAAAAAAGATATAACTTGAAAAAATTATTCAAGGATGTGAGGAGATAAAACACATAGAATTTGCTCATATGTGGCAATGTTCCCACCGAGGCTAGCGAACTACTTTATAAAAAAATTTTCAAAAGAAAACGATTATGTATTTGATACTTTTTCGGGTAGAGGAACAACTATACTTGAATCAAGATTGTTAAAAAGAAAAGCTTTTGGAATTGATTTAAATCCTTTTGCATATGTATTGTCAAGGGCGAAGTCCAAAAGTTACTCGTGAGAAATTATCGAAAATGAAATAAATATTTGAAAGAGAAATTATGATAGTTTTAATGAAGCGATTATATTGGATGAAAATTTAAAAGTATTTTATAGTGATGAAAATTTGAGGCAACTAACATTTATTAAATATAAATATGGAAGAAATTGAAACAACATAAATGATGTTGATAATTATATATTAGCAATAGTTTTGGGATTAATGCATGGTCCAGCCAAGAAAAACGGAGAAAGTATATATTTCTCGTTAAGTATGAGTAATTGTATTTCGATGTCAAAAAATTATGTTATAAAATATGCTAAAAAACATGATTTAATTAAGCCTGTTGATGATATTTTTGAAAAAATAAAAAAAAGAGCGAAATACATTATTGGAAGTTCTCAATATTCTAATGAAGAGGCAAAAATCGTATATGGTAATAGTTTGAATATAACAAATTATATAGATGCAAAACCAAAACTTATTTTTACATCTCCCCCATATCTTAATATAATTAACTACACTCAACAAAACTGAATTAAAATGTGACTTTTGGGTTTTGAGGATAAAATTGATAATAATAATATAGGATTGGATGATAAACATAATCTAACAAATTATGTTAATTTTATGATAAATTATATGACTTCTATAAGCAAAATAATGGATAAAAACTCTACTCTTGTTATAGTTATTGGTGAAGTTTTAAGAATAAATACAATATATTCTTTTGATGATATGTGAAAAGAAAAAATAAGTAAAATTATTAAAAATCTAAAACTTATAGAAAAATATACAGATCCAATCGATCAAAACAAAAAAGCTACAAATTCAATGGGCCAAAGAGCTGGAAAATCGACAAGAATTGACAAAATTTATGTATTTAAAAAAATATAATTAATTTACATTAGAACTAATTTTGAGTTTTTCAGCACTAATATAAATCATAAGTTTATGCAAAAATTTGACATAACCTACTTTAATATATATACTATTTCTTGTATTGATGTTTATACGTTGCATAGATCTTAACCCTTTAGGTATTTATGCTTTGTTTAAACCCATTCAATCAAAATAGAGACTTAAATAAAGGGAGAAATACATGGTTTCAAATAAGGAAAAAACCGATATTGTTAAGCAATTTGGAAGTAACGATAAAGATACTGGAAAAGCAGAAGTGCAAATCGCATTACTTACAAGTGATATTAAAAACTTGCAAGAACATTCACAAAAACATAAAAAAGACTATTCATCAATTAGAAGTTTAGTTAAAAAAGTTGCTCAAAGAAGACACTTATTAAATTACTTACTTAAAAAAGATGTTAATAGATATAAAGCAGTTATTGAAAAATTAGGGATTAGAAAATAGATTTAAAAACTTACTATTTATAGTAAGTTTTTATTTTATCTTTAAAAAAAGTTTTTCATTTTAAAGCGATTTATTTACAAGTTTTATTTTTATTATATTTGCATCAGTTTTTAGTTCAACAAGCTATATTATTTATAAAAACACTAGTAATTTCAATAATGTTGTAAACTATGCAAAAGCATCAAACATTAGCATTTATAAAAATGATTTAATGTGGTCGGGACAATCATTACAATACTTTTTATATAAGCATTCAAATATTAATCAAAACAAATATATAAATAACTTAAAAATAGATATATAAATTTTAGAGTCAGAATAGGAGATAAAGATAAAGAACAAGAATTTAAAGATAATTCTTATTTATTTAATATGTATTTAGTATCTAATGCAATAAATATTTCTATGTATGGATTAACAAATTATGAAGAATTTTTTGAAGAAACATTTGCAAAATGACAAACAACTTATATAGTATATACAGAATATTCTTTAAATAATTTTAAAAAAGAAACTGATAATGATCAATGCTTAAAAAAAATGATGAAGTAGTGCAAATATTTATGCTATTTTAAATCATGAATTTGGTCACGCTATGGATGGACATATAATTCAATTATTAAGTGAGGGAAGTCATAGTAAAGATAACTTTAAATAAATAGTAAATAGTAACTTTAAAAATAATCTATATAATGGACAAATATTTAGTGAAGTTATAGTAAAAGAACCAGATCCAATAAATCCTTCAGAATCAAATGATTCTAGTCAATCAGGAGACAATCTCAACCAAGTGATAATCAAAATTCTAATAATATTGAACCAAATACAAAAGAAAATACTTTATACGAAACTGAACAAGATACAAAAGAAAATGTTGAAAGTAAATCTAATAATAATTGGGTTTTGCCAACATCACTTGTTATTGGTTTTATATTAGTGACAATTGTAATTAGAAGTTCTATTTTTGAGATAAAAAGAAAAAGAAAAAGATAGTATATTTTCATCAGGTTGATATATCTAAAAAATAATATAAATAAATTTATTTGATATAAAAATCTTAATTTATTTTAAATCATTCATACTTTATGATTAATCTTATAAAGAATCTGCATTGTGCTATATATAAAATAATGTAAAAATATATTGAAATTTTTACATTATTTTATTTTTTTAAATAAGTTTTTATTTATTCACCATGTTTGTCTTGTTATATTAAGGCTACTTTTATTGTATACATTTATTCCTTTACTAGCATGTGGTCTTAAATGTACTAATAAATCATCTCCTTTTTGAATAAAATTTGGTTTTATTCTATCAGATTGATCTAAGTTCATTATTCTTAATATTTCATCTTTAGTTAATTCATAAACTTTTTCTAAAGTTTCAATATCATCATTTGAAAAACTATATTCATAAATGCTTTCAATAGTTTTATTTTCTTTATTTATCCCAATAACAATATATTTAAACAAAACTACTTTACTATAGAATTCACTATCATAAAAGTTATTATTTATAGTATCATAAATATTTAAATCATGTTGTGCACCTATTTCTTCTTGTATTTTATTGTTTTTTAAAACTTTACAAACTATTTTATAATCAGTGCTAATTAAATAGTCAAAAAGCAAGTTGTTATTTAATTTTAAATACTCTTTAAAAGCATTTCTATGAGGACTTTTACCAAAAGCATTCCAGTTTCCATAATTACTTAAATCTGTGCCAATTAATTTTTTTAGTTCTGAAATTACTTCATTATAATCGTAGGCAACTTTATATTCTTTTTTGTATTCACTAAATAACTCAAAAATTTCTTTTTGATCTCTGTATTGAGTTATTAAACTATTTATAAATGGTATCTTAAACGAAAATGCTCTTTGCTTAGCTAATATTTTATTATGTGGTTGATTTCTAACGCTATTAGCAGAACTACCTTTTGTACAAGCTGCTAAAAGATCTGTATCTTTTTCTGATAACTCGTGTGCTAAACCATCATTTACTTTGTTTTTAATAATTTCTCAATCTTTTTTGATTATTTCATATTGTTCATTTTGTTTTATATTATAAATAAATGCATCTATTACAAATCATTCTTCTTTGGGTAAGTTAAAATCATGTAAATATACAATAACTAAGGTTATTTTATTCTTTAAAAATAAACTACTTTCTTCAAATTTTGTTTCTTTATCTAAGATTTCATAATTAATTAAATTTAAAACCATTCTTTCTTTAGGAGCAACTTTATATTTTTTGTTATTTATTTTATAGATATGAGTTTTAGTCTCATTTGCTAAATCAGTTTGTTTTACAGGTATTACTTTTAGTTCTATATTTAAATCTAAAAAATCAGGTTCTTTTTTACTGTTTCTTGATATATTAAAAAGCTTTTCTTGAATTAAATTACCTATACTTCCTTTATCTTTTTGATTAAAATCTATATCTCATAAGTCTTTAAATTTTATTCCAATAATTTTTCTAGCTTTATCAAGAATTTCTTGTATTTTTAATAGTTTATTACTCTGATCATTATTCATTTTTTTACCTGCCTATGTTAATATTATATTTGTTTTAGAATGAGGTTTGCATGAAAAAAATTACTGTTGTTGAATTATTTGCTGGAGTTGGTGGTTTTAGATTAGGTTTAGAAAGAGCTAATAAAAATGCATTTGATTTTGTGTTTGTAAATCAATGAGAACCTAATGAAAAAATGCAACATGCTTTTAATTGTTATGTTAATAATTTTGGTAATGAAAATGCAATAAATGAAAACATAGTTGATGCTAAAAACAAAATACCTAATAATCCTGATTTGATAGTAGGGGGTTTTCCTTGCCAAGATTATTCAGTTGCAGCTACAAATGCTAAAGGAATAGAAGGTAAAAAAGGTGTATTGTGATGAGAAATAAGTTGAATAATAGAAAATAAAAATCCTAGATTTTTATTATTAGAGAATGTGGATAGATTATTAAAGTCTCCATCATCTCTTAGAGGTAGAGACTTTGCTATTATGTTAATAAGACTTCATAAATTAGGTTATAACGCTGAATGACAAGTTATTAACGCTGCAGACTATGGGATGGTTCAAAGACGTAGAAGAATTTTTATTTTTATTTGAAAACAAAGTGAATCTAAATATAAAAAGTCAATATTTGAAAAGCATTTTAAAAGTACACCTAAAATTGAACCTGTTGAGTTTGATTTAATAGATGAATATCCAAATGAAATTGATGCTTCAAATAATTATAAAAAAGGAAAGTTTTTAAATAAAGGTACTTTTATAAATGGTATTGTTAGGATGTACGATTATAATCCTGTTTTTAATGGTAAAAAAAAGATATTAAATGATGTTTTATTAGAAAATTTTGATAAAAAATATTTTTTATCAAATGAACAAATTGAAAAAATGAAATATCTAAAAGGAAAAAAATCAATCGAAAGAATAAGACCTAATGGAGAAAAGTATTTTTATACTGAGGGATCTATGAGTTTTTATGATGATATAAATAAGCAAGCAAGAACTATTATAACTAGCGAAACATCTATGAATAGATCTACGCATATTATAAAAGTAAAAAATAAATATAGATTTATTACACCAATTGAAGCTGAAAGAATTAATGGATTTCCCGACAATTGAACAGAAACAATAGCATCTGAAAAGAAAAGATATTTTTGTATGGGTAATGCATTAGTTATTGAAATAATAGAAAGATTAGCAAAAAGTATTATTGATTTATTTTAAAATATAAAACAATTGAAAATTATTTAGTTTTTTAAAAATAGTTATTTTTTTAATATAGAAAGTTAATTAATAATAAGATTATGATATATGTTTTATTAAAATGTATTATAAGCTTATTTGGATAGCGAAAACTTATGAACTTTATTTAAGCCTAAAAGTACTTATCATTTTTTTGTTATAATAATGATATATAAAAATATAGGAGAATTTATGGGAAATAAAAGTGTATTAAAAAATACGTTAATATAAAAAAAAGCTAATAATTTAGAAAATGAAAACATTTTTGATGAAAATGATGTTGAATTTATAGATGAAGAATTAGAAGCAGATTTAATTTTTGACCATGATAAAAGAAAGATTTATAGAGAAAGACAAGATAAATCTTTAAAGGATATTATATCTATGATTGAAAGAGAAGAAATTATATTACAACCTGATTTTCAAAGAAAGTATGTATGAAATGAAACTAATGCTTCAAAATTTATTGAGTCTTTATTATTGAATATACCTATACCTAATATTTTTGTTTATGAAAATAATTTGGAAAATTGAGAAGTTATAGACGGTCAACAGAGATTAACAACGATTTATAAGTTTTTTAACAATGAATTTAATCTAAAAAACTTAAACGCTATAAGTGAACTAAATGGCAAAACTTATGAAGATTTTTCTGATGTAATAAAAAGAAAATTTAATAATGTAATTTTGCAATTTACAATATTGGGAAAAGAAACTTCAGAGTTTTTAAAATTTGATATATTTTCAAGATTAAATAAAGGTTCTACAATGTTGAATGCACAAGAATTAAGAAATTGTTTATATAAAGGTGCTTTTAAAGATCTTTTGAAAGAGCTATCAACATATTTGCAAATAAACTATAGATCACTTTTAAGTGAGAATATGAGAAATAGAATGTTGGATGAAGAATTAATATTAAGGTTCTTTTATATTGATGATTTATATAATAAAAACAATAATTTTAATAATTATAAAAATATTTCAATTGGTATGAATGAATTTATGAATGAGGCAAATAAACTTAGTTATGATAAAATAGATGAATTAAAAAGTATTTTCATAGATTCAATAAAAAAAGTAGCAGAATTGTTTAAAGAAAAAGTATTCAAAGTATACGAAAAAAATATTAATTCAAATCAAAAAAACTGAGGATCAAAAATTAATAGAGGTGTTTTTGAAATAGAAATGTCAGTTTTAAGAAAATATGATAGTTTAAAACTTTTAAAAAAAGAAAAAGTTATTATTGAAAAACTTGCAGATATTATGTTAAATGACAATGATTTTAGCAATTCTCTAAAAATACATACAAATAATAAAAATAGTTTAATAAAAAGATTTGAAACTTTTGAAAAACTTATTAAAGGAATAATGGAAAGTGATTAAAATGTCTATTGTTTTTGAAAGTGAACTTACATTTACAGATTATATTAAGCAAAAAATAAAAATAATTGAAAATGAAAATGACAATGAGAAAGTAAATGTTTTCTTGATTGAATTAATAATATTAGTCTTTTCTTATTTTGAACATGATTTAAAAAAACACATTGTTGATAATTTTGATAATTTAGAGTGTGCGGATGAGGATTTCAAAAACTTTATACTTCAAAGATTAATTTTTTTTCAAGAAAAAGAAAGTATCATTATTAAAATAGAGGATTATTATTCTGACAAAGAAGACTTTCAAAAGTTTAATGAAATGATAAAATTATGTTCCAAGTTTTTTGATAAAGACTTCTCATATGTAAAAAAATACTTAAAAGATGACTTTGTTCATTTGCTAACACAAAATAAAATAAGTAAACTTATAGAAAATGCAAAAAAAATTAAAAAATTAAAGATTGAATTAGGTGTAGAAGATGATTGAAGTCAAGTTGTAAATATTGAAGTTACAAGTATAGAAGATTTTTATAAAAATGAATTGTCGAATTATAGGAATAAAGCCGTACATAATTTACAAATAGATGATAATTTTTATAATAATATTTATAAGCAAAGTAAATTAGAGAGTTGATTTTTAAAAGTTTTAGAAGTACTAAATATAATAAAAAATAATTTTTTTATAAGTAAATAAAAATACCTAAATCTAAATTTTATCTATTATATATAATTTAATTCAATATACTAATATTTCTTCAATTTTATAATTTTTTATACTAGTTAACTTTAAATTTATTTAACAAAAAAGCATTTAATATTAATCTTATTTCTCATAAAAGAATTTATGAAAAAAAGTTATTGGTAATAACACAAAATTTTAAACATTCACATATAATAAGTTTTTATATTTAAATGTTTAAAATCCATTGTTAATAAAAAAATTAAAAAAATAAAATTGGTTATTGTATTTTTAGTATTAAATTATTTAATAAAAAAATATATTAATAAATAATACAACTACACTATATAAAATAAAGTTTCAAGATAAGTAATTGATATAATAATATTTATTATTATTTGAAATTTTTGGAATCATATTTTAATTTTCTAAGAAAAAAGAATTTCTTTATTTCTGATTGTATGATATAAATAAATTTAAATAAGTTGTAAAATATATTCAAATAATAGCTCAATTTTAGGTTATTTTTTTTATACAATAACGTTATAAAGTAATTCGTTTATAAAATAATTAGAAATAAAATAGTTATAAGAGGAAATCCATGAAAAAAATAAAAGTTTTTGAAACCTTTGCAGGAATAGGAGCTCAAAGAAAAGCTTTAGATATTTTAAAACAAAATAATATATTGGATTACGAAATAGTTGCAACTAGTGAATGAGACATTTGAGCTAACATAAGTTATAATTCTATACATCATAATAATAAGAATATAGCCAAAAATTTATCCGACGAAGAAATTAATAGTTTTTTATCTAACTTTACACATTCTAATGATTCAAAAAAGCCTATGAATATAGAAACTTTGTTTAAAAAACCGAGATTAGTAAGAGAACTATTATATAGCTCATATAAGAATTCTAATAATCAAGGTAGTATATTAAGTATTGATGAAAAAAAATTGTTAGAAAAAATTAAAAAATTCGATCTATTAACTTACTCATTTCCTTGTCAAGATTTATCTGCGGCTGGCAGTATACATGGATTTAATAAAGGCATGAAAAAAGGCTCTGGAACTAGAAGTGGTTTGTTGTGAGAGATTGAAAGAATACTTTCAAAACTAAAAAAACATAATAGATTGCCGAAATATTTACTTTTAGAAAATGTTAAAAATATGATATCTCAAAAGCATAAAGATGATTATTTAGACTGATTAAAATTTTTAAAAAAAATTGGATACAATACACAAACATATGTTCTAAACGCTAGAGATTATGGAGTTCCACAAAATCGCGAAAGAGTTTATGCTCTAAGTGTTTTGAGTCCAAAAAATAATTTATTTTTGGATACATATACAACTACAAAAAAAATTATCGAAAAGAATATACCTAAGGATATAACGAAAGAATACAATTTAAATTTTAAAATGTCTGAGGTATTGAAAATTGATTATAAAATAAAAAAATATTATGATGAAGCATTAAATTCCATTCCTAATAAAACTATAAGTAGAAAAAAAATGTTTTATGATAACAAAAAATTATATAGTGAAAATTTAAATACTTTAAATAAAATACCTAAAAATAATAAATGTTATAATTACAATGAGTATTTTGAAAAAAACGGTATTTTTTTAAATATTTGTAGAACAATTACAACAAAGCAAGATAGAAATCCTAATGCCGGAGTAATTGATTTAAAAAAAACCGCTTTGGAAAATATTGATAAGAGTAAAGCTAATTATAGACTTTTAACAACAAGAGAAGTTTTTTCTTTAATGGGGTTTTTTGAAGAAGATTTTGAAAAAGTGAAAAATCTAAATCTTTTAAGCAAGGCAATTTTATATAGACAAGCTGGAAATTCAATAGTTGTAAATGTTCTTGTGGTAATTTTTTATATGTTAGCAAAAATGAAAGAAGGGTAGACTATGGTAAGTAAAAACTTTGAGTTTATAAAAAATTATAATAAATTTTTATGGGTTTATGAATCTATTTCTAACATTGAAGATAATATAGTAGAAGCTGGATCTTATGGTGTTCTAGCAGAGTCATCAAAATTATTAGAAAGATTATTTAAGCAAATTACTAAAGATGAAAATTCAAAAAGATCTTTGTACGTTTTAAGAAGAGACTTTGCAATGTTACTTCAAGAAGAATATCAAATTGAAATACCAAATAATGTTCAAGCATCTATAAATTTTATTATTAGAGATAGAAATAGTAATTTTCATGATAGTAATGAAATTGATTATGGTGAATCCTCACAAACTTTTTCGACTAAATTAAATTACTTAATGTGCTTAAGAAAAATTTTGCATTTTTGTTTATATACATTAGAAGATAAAGAAATAAAAATTGATTCTTTTGTTGATGATATATACTATAAGAAACTTAATAAGACCAAATATTTAGAAGATGCAAAAGAATTTAAATATGAAAATAACCAAATTAGATTAGAAAAAATCTCAATAGGTGAATTAATTTTAAGTGATAAAAATAATTTCTTTATTCCTTCATACCAAAGAGATTATAGGTGAGGGGAAGAAGAATGCCAAGAATTAATAAATCAATTGATTTCTAAATTTAGAACTCAAGAACAAATATATTTTGGTGCTTTAGCTTGTAGAATTCTAAATAGCGATATAAATGAAGATGTTGAAATTGAAAATATTAATTTGATAAACGAAGAAAAAAATATTAGGTTAATAGATGGTCAACAAAGAGTTACTACCTCTTTGATATTATTCAAAGCTTTTTTTGACTTATTTAAACAAAAAAAATATGAAGATTTCTTGAATCCTTTATTTAAAATTCCTAAAGAGTTGCAAGATTTATTTGAATATAAAGAAAATAATGAATATAGTGATCGTAGAATAAGAAAAAAGTTTGTAAATTTAACTGCTAATAACGATAGTGGTCAAAATGGTATTTATGTAGTTTTAAAGGGATTCAAAAATCAAAATGCTTTTAAAGATGAATTAAATTTATATCAAAAAGCCGGTGTTATAAGTAATTATGAATTTTTTTATAGAGAACTGAATTCTTATGATATAGAAACTTTATTATTGATTTACAACTATTACTATAATAATTTCATATTATCTTGCATTGTCTTTGATGATGATAATACTAACGAAATGGAAATATTTGAAAATTTAAATTCAAAAGGTAAAGAACTAGATACATTTGATATGATTAAAAATTATATTTTCAATATGCTTGATGACAAAATATTTAATCTACATACAAGTGATGTTACAAAGGAATTAAATAAATATTTCAATTTAGATAATGTTACAAAATACAAGGGTAATAAAGAAGAACAATCTAAAAGATATGAAACATTTCTTTTTAATTATTTAAATTATAAAAATACTATTAGTCCATTTTTTAAAGGTAAAATTCAACAAAATAAAAAAAGTATTTTGAAAGTTTTTAAAGAGCTCCATTATAGACATAATATTGATTTAAATGATTACAAATCTATTTGCAATGATTTAGGAAGATATTTTTATATTTATAAAAATATATATATAACAAGCTCTTATATTGAAAAAAATAGTGAATATTATAACTTTTTTGAAGAACTGACAAATATAACTCATAAAGATTTCACTATATTATTATTTTATTTATTTGATGTATATAGTTCATATTCATGAAATTCTTATGAAAGAAGATTATATTTTCAATATGAAGAATATTTAAAAGCATGCTTATTTGAAATCGAAAAATGAGTTGTAATGCTTTTACAAGTTAAAGGTACAGGACAATCTTTTAAAAACTCGGTTTATGGAAAACTTATAAAGTTTTTAAAAACATACGAAAATTATAGTACTTTCAAAACAAATTTACCAAACCTTATAAAAGATTGATTTAGTGCAAAAATTGCTCCTAATAAAGAAAATGAAAAATTACTTATATCTATGGAACACACATTACCGCCAAAACAACAAGCTTTAGATTCAATTGAAAAGAGTGAATTAAAAGATGATAATATAATTAAAGTTTTTTTACGTAGAATTGAAAAGTATTGATTAAATTTAAATTCAAATGGAGAACAATGAAAAGTGTATAAAAAGCCTTCTATTGAGCATATAATGCCTAAAGAAATGACTGATGAATGAAAATTTATGGCTAATAGCGGTAAAAAATACGATGAAAAAGCAGAAGATATATATAAAACTCATTTAAATATGTTAGGTAATCTGCTATTGATAAATTCACAAGATAATTCAAAGTTAAAAAATTATCCATTTAAAAAGAAAAAAGAAATATATAAAAAATTAGATATTCCAATCTCAAATATCCCATTCAATGTTGATTCTGATACTTTGTTAACAATCAATAATTTCACTTTTGAAATTATTGAACAAAGAACTATTAAATTAGCAAACATAGTTATAGAAAAAATATATGAACTTACATAGTCAAGCTCAAAAAATAATAGATTTATTCGACAATGACAATGGATTTGTTTTTTGAAAAATGGGAACAAGAATTTATACTATTTTATATAACTTTTTTGAATATTACTCATCTATACCGAAAAATAAAAAGTTTATGGAACTAGAAGTAAAAGATTCAAATGGAAAATATTTTTTAATGTGCGGTGATCAAAATATTACTCCATCAACTACAAGAAACTATCCTATTTCAAAATCATCAATAAGACAATATATTGATGTATTATGTTCTTTTGATCTAATAGTTAAAAGTAACTACAACCAAAATATCTATTTAATTAAAAAAATAGAGGCCTTATCTTTTGAAAATATATTTAATCCTAATAATATATTTTTTGAGCTTGTAAAAGAAAATATATTTTTAAAGTATGAACAAGCAAAAAAAATATTTTATAGTTGCATAATTAGTAAACTTGCTTCGTTATTTGAAGAAGATGAAACTTTATATATAAAGTTTAATAATAAAAAGAAAGAAAAAGTTAAATGCATAGATATTATAAAACAATGTAAAAAATGTGGATATCAAGATTTTTTCTCAGTGATTGATGATTTTGGAAAAGATTTAGAAGATTTATATAACTTTATAAATGATAAAATTATATGTAGAATTTAGCAATGTAAACAAATAATTACATTACATTAGTAAAAAGCAATAATTTAGTGTATAATTAACTTATGTTTTGGAATTAATTTAATAGATTAACTCCAAATCAAATTAAAATCAATATATGTTTTACATTAGAAAGATGGTGCGAAAAGATGGCTACTACAAAAAAAGGACCTGATAAAGCAGCGGTTAAACGTGCTGCATCTAACGCAAAAAGATCTGAACACATTCAAACAAGAAAAAAAGCGAGTGACCCAAAACCTAATAAAATTCAACAAAAAGAAATTAAGTTAACAGAAGGTCAATCAAAATTTATTTGAGAAAAAGCAGATCCAGTATCAGCAACAAATGCAGCTATTTATAGAAAAGATGTTGCAGGAGCAATTATTAAATTTAATCAATATGGATTGGAATCAGAATTTGGATGAGTTAACGCTTTGATTGATCCAGAAGGTGAATATGATGATGTTAACAACATTGTAGCATTACACTGAATGAATGCTAAAGTTAAACGTAAAGCTGATGAACAATGAACAGCTGTTGTTACAGGAATTAGAGACACAAGAGAAATTTACAACTTTATGAAAGAAGTTAAAGTTCCTGGTGATGCATTAGCAAAATCTAAAAAAACTGTTTTATTCAAACCTTCAGTTGTTGAACCTAAAAAAATTAACATTGAAATCCGTACACAACAACCTAAAAAATAATAAAAGATATCTTCGCTATGAAGGTATTTTTTATTTTCATTTTATTATTTGATATTGTATAATTATATTGTCCTTCGGGACACCAAGAATATTTGTTATTCTTTAAGTTTGCGTGAGTGTTCAAAACCGCTCTATAAATTAGTATTTCCTATCTCATGCATTTTATAGCGGGTGGAAATATTTTTTTTTATTTTATTTTTTAAGTGTATTATTAATAAATAGTATTTTTAAAAAATTAAATAAAAAAGGGGATTTCAAATGAGTTCTACTATTATTGTAATAGTTGGTCCAACAGCTAGTGGAAAAACAGATTTATCTATCAAGTTAGCAAAAGAGTTTAATGGAGAGTGCATTAATGCTGATGCAACTCAAATTTTTTGTGGAACAGATATAGCAACAAATAAAATAACCACAGAAGAAATGCAAGGTATAAAACATCACTTATTATCAACTAAAAAAGTTAATGAAACTTATTCAGTTGCTGATTTTCAAAAAGATGGTAGAAAAGCAATTGAAAAAATTTTAAAAAACAATAAAACTCCAATTATTATTGGAGGAACTGGTTTATATATAAATGCTTTATTAAGAAAATATAACTTTAAAAGTGATGATCATATCCCTGGATTTAACAAAAAATTTGATAATTTAGATAACAATCAACTTTGAGAAATATTAAATCAAAAAGATTCTATTAGTGCTAGTCAAATTCATCCTAATAATCGTTATCGTATTATAAGAGCTTTAGAAATATATGAGCTTAATGGAATAAAAAAAAGTGATTTAATAGTTGATAATAAAGAATTTTATTATGATAAAATATTATTTATAGGAATAAATCCTGACAGAAGCTTATTACACTCAAAAATTAACTCAAGAGTTTTAAAATTAGTTGATATGGGATTATTTGAAGAGATAGAAAAAGCATGGATAGATAACGATAAAAATAAAAATGCACAAGCCCTTAAATGTATTGGTGGTCCAGAAATTATTGGTTATTTAAATAAAGAATATGATTATCAAACAGCAATTAGTTTAATGCAAAGAAATAATCGAAGATATGCAAGAAGGCAGATCACATGGTTTAAAAATCAATTAAAAGAGACTAATTGATTTACACATAACTATAAAAACTTTGAATTAATGTGTCTAGATATTGTAAATTTTGTAAAAAAAAGAATATAATTAACAAGGAATGTTTATAAGGAGAGATTTGGATGATATCTATATATGAAAGAATCGAAAATCTTGTAAAAGACAATAAAAATACCACTTTTAAATTAATTGCAAAGCAAATTTTAGAAGATTTTAATAATGGTATTTTTAAAAGTCAAAATGAGTTAGCAGTTGCATGTTATGTTTCTATGTCTACAATCACGCAATTTTCTAAAGCTGCTCAATGCGAAGGATATAAAGAACTTGCAATTAGATTAAAGATTGAATATGAAAATGCAATGGTTGCTGCTCCTGTTAAAGAAGAAATAAATTATAAAGAATTAGATACAAAATCTTTAGAGGTAATTAATGATTGAGCAATGTCTTCTGCTGATTTTATTTTAGAATTAGCAAAACAAATTAATACTAAGAAAAAAATATGAATTGCACCATCATTTCAAACAAGTCCTGCAGCTAGACATTTTGAAAATATCTTAAGAAATCAAGGAATTGATGTTCATGTTATGGATAGTGCTATAAACTTAGAACTTGTAAGACATGTTGATTTTAAAGATGAATTAATTTTAGTTATTATGACCGGAAGAGATACAATCACACTTTCAAGAATTTTAGAATATCTTGAAAAAATCACAAAAAATGTTTATGTTATTACAACAAATAATCACACTGAAGAAATACCTGATGTAAATGGTTGAAAAAAAATCCTTATAAACTACGCTTTAAGTGGTGATTATAAATATAGAGCACAAGCATTAATGACTTTATTTTTATTAATTGCAGAAAAAATTGATGGAACTACTATGTCAAATATAAGATTAGTAGGGTAGTAGATAATACAATTATTTGGTTTCATTGATCAAAAAAAATAATTTAAAAAAAATATTAAAAAAATAGTGCATTTTAGTTGAAATATATAGTCTATTAGTATATTATTCTAATGTACTCAATTTGCGGGTGTAGTTTAATGGTAGAACTTCAGCCTTCCAAGCTGACTGTGAGGGTTCGATTCCCTTCACCCGCTCCATTTAAGAGAGCGAAAATATAAATTGGTCAATGCAATTGACGTTAGAGTATAACTCCATGTTGATAAACGTGGAGTTTTTTTATAAAAAATAATATTTATTTTAAATTATTGTTGTGTTATTTTTTTAATTTTATATTTGATAAAATAGAAGAATAAAAGGTAAAGTTATGAAAAAAGATGAAAATAATAAAAATATGTGACAAAGCTTTAATGATCAAAGAACGGATTTCTTTGTAAGTGTAGGGTATTTGTTAATTGAGTGTATTATCCCAGGTATTTTGATTTGAGTTTTGATAGGAAATGACTTCTCATTTTCTTTCAATAAAAATCTACCTCATCCAATCATTGGTTATGTATTTTTAGTATGTATAATTTATTTAATTTATAGTGTTTTATGTACTTGTTTTATCTATCACTTAAATGGTCATAAAGCAGATAACTTCACTTATGTAGTAACAATAGCAATTGTATTTTTTGTATTAATTTTATTAGGGTATGCATTTAAACAAAATAATACTATATTTATAATTATTAAATTAGTTATTATTTTATTATCAGCAGTAGTTGCTGTAACTGCAGGAGTATTTTTAACTTATATTGCAAGAAATAATGAGTTTAAAAGAAAAGAGTTAGTTGAAGGTTATTTAAAAGATCAACGAGAAGGTAAATCATTAAGTGAAAAAATGATTAAAAGAATTGAATCTTATAATTTAATGATTAAAAAACGAGAAGAAAAGCAAAAGAAATTTGATGAACTTAAAGCAAAGCTTGATTTAAAAATTGAACAAGAATATCAATTACAAAAACAAAGAGAAGAAGAAAAGAAAAATCGTATTATTAAAAAACTAGATAAAAAAGAAGAATTACAAAGAGCAAAACAACAAAAAAAAGAAAATAAAAAAAATAAAATTGAGTTTAAATAATAAACTCAATTTTTTATATAACTATTTCATATCTATCATTTGATCTTTGATATTTTTCTTGTGCAATTTGTAAATAGATGTACTCATTTGTATTTTCATACATATAATTTGCTCATAAAGTTCATAATACATCTTGATAAGCAATACATTTATTTAAGATATGCAATTCATTTTTTTCTATTAAATTATTTTTTATTGCTTTTTTTACAAAATAATCTATTAAATCTTTTTTATCATTTAAAGTCTCTGTTATAAAACTTGCTAAATCAAAGAACTTATCATTTAATTGAACATAATCATAATCAATAAATTTCAAATCATTATTTTTATGTATCAAAATATTTCCCGGTACTAAATCATTATGACTAATTATAGCTGGCAATTGTTGTAAATCATTTGCATATTCTAAAACTTTGTTGATATTTTGACTTAAGTCATATAATGGTTTTTTAATATTTTCTTTAAAAAATTTTAAAAAGTCAGCATAGTTAAATCTTTTAATAAAACTAAAATCAAATTTAATATCATGAAATTGATTAATTCCATTAACTACTAAATCAATGATTTGATGATTAATTTCAATTTCTTCTAGACTTTTATAATTAATTAATATTTTAAAACTACTTACTAAATGATTATTTTCAAAATCAATAGTTCTTGGTTTTATCATAATTTCTTGTTTTGCACTCATAAATGCAATTAATACATTTATTTCATTTTGTTTATCTAAATATTTTTCACTAATATCTTTAGATACTTTTATTACTTTTAAATTATCGATTTTAATGTCATTTGTTAGACCTTTAAAATTAAAATTCATATTTGTATCTCCATAACTAAAAATATTATATTATAAATAAGAACTTAAATATTTTTACAAACAAATTATAAAAAAGGATAGATAATATGAAAAAAACAATATGATTAGCAACTAATAGTGAAGATAAAATAAAAGAGTTTAATTTTTTATTAGATTATTTTGAAATTAAAACTTTAAAAGATATTGATAAAAATATAGATATTGTTGAAGATGGAATTACATTTGTTGACAATGCGATGATTAAAGCAAAATATTTATCTAATTTAGTTAAAGGGATAATTATTGCAGATGATTCAGGGTTATGTATTAATAATTTAAATGGATTTCCAGGAGTTCATTCAAAAAGATGAGCTGGAGAAAATATAAGCGATTGAAACATTATAAATAATAAATTATTAGATATTTTAAAAGCAAATGATTTAAATACTATTGAAAAGAGAAGTGCTTATTTTAACTGCACATTAGCTATGATTGATACTGATTCAAATATAAGTGAGATTTTTGAAGGTAAAGTTGATGGATATATTGGTTTTGATCAAGCTGGAAGTGAAGGTTTTGCTTATGACAAGGTATTTATTCCAAATGGATATGATAAAACTTTTGCTCAATTAGGATTTGAAATTAAACAACAATTAAGTCACAGAAGTATAGCTATAAAAAAATTAGCAAATCATTTAAAAAATAATTATAAATTTTAATAAAATCATTGAAATTATTGCAATCTAAAACTATAATTAACTTGTTTCATATAAAACAAGAAGGTGTAATTGAAACTTATAGATTAGAGGCGATAATATGAAAGAATTGTCATTTAAAACAAAAAAAGATGCAAATATTAAAGCACATGTTAGAAGAGCTTTATTAGATAAAAAATTTGCAACTATTCTTCTAATACTACTTATTTTTGCAGCAGCCTTATTAGCAACTATCAATATTAAAATAGTGCAATATATAACATCACTTTTAGTATCAAAAACATTAGTTAGTTCTTCAACTAATCAAAGTGTTTTATACGATTTATTAGAAAAAATAGGAAAATCACCTGAAGAAATAGCATTTATTTTAGCAAACTATAAACAAGATAGTAAGTTTATTGAAAGTATCATTCATGAGTTATTTTATGATTATGTTCAATATGATGGTGCTAAACTTTATGTTGAATTATTAGGATTAAAATTAGATATTTATAATTTTTGTTTATGAATGGTTTTAAACATTGTTGTAGTAGTTGTTTTGTCATACTTTATTTATTTATTAAGTGGTTTGATTGCAAGAAGTTATGAAACTAAATTAAAAACAATATTTTTAAATAAATTAATAGATCAAGATTTACATTATTTTAGTCAAAATAAAACAGGAGAAATAATTACTTCATTAGTTAAAGACACAAGTTTAATTGGTCAATATATAAAAGATTCAACAGTTAGTTATATAAGAACTGCATTTATTGTTACAATTTCTTCAATAATTATGTTTGCAGTTGATTGAAAACTTGCTTTATGTGTATTTGGTTTATTAGTAGTATGTATGATTGGAGTATTTTTATTTTCATTATTGTCAATTAAAGCAACTAAAAATATTAATTCTCTTACAAAAAATTACGAAAATGAAATGAGCGAAAAAATTTATAGTATAAGATTAATAAAAGCTAGTGGAACATTTAATCAAGAAAAAACTTATTTTGAAAATAAAGCAAAACAAGTTGATAAAAAAAATAAACTTAAATTATTACTATCTGAAATTCCTTCAGGATTAATTATTGGGGGTGTTGGTAGTTTTTCAATGGCAAGTGTTATCTTTGGAGTATTATTATACTTTGATGAGTCTCAAACTTTAATAAGTATAATTACAACATTTAGCTCTGGAGTTATTGTTATGACTATGCCATTATTGGATTTGAGAATGGTTTTATCACAAATACCAAGTGCAAAATCTAGTTCAGAAAATATTTATAAATTATTAAATCAAGAAATAACAATTGATAAACATAAAGAAATGATTTTAAATGAAGAAATTCAAAATATAAAATTTAAAAATTTAAACTTTGGATATCCAGATGATCAAAAAGTCATTTTAAAAGATTTTAATTTAGAGTTTGAAAAAGGAAAAAGTTATGCGTTTGTTGGACCAACTGGAAGTGGAAAATCAACAATTGCAAAATTTTTATTAAGATTTTATGACACAACAACTGGAGATGTAATAGTTAATGATAAGTTTAATATTAAAGATTTAAACTTAAAGTTTTGATTAGATAAAATTGGATATGTTGATCAAGAACCTCAAATTTTAAGCGGAACAATTTATGATAATATTAAATATGGATTAAATAACGTTACAAATGATCAAATTATTGAAGCTGCAAAAAAAGCAAAACTACATGATTTGATTATGTCTTTTGAAAACGGTTATGAAACTATTTTGTATGAAAGAGAAAGTCAATTATCAGGTGGACAAAAACAAAGATTAGTAATAGCAAGATTAATTTTAAAAAACCCAGAAATATTAATTTTAGATGAAGCAACTAGTGCTTTAGATAATAAAGTTGAAAAAGAAATTCAAAGTGAACTTGAAAAATTAATGGTTGGTAGAACTACATTTTCTATTGCTCACCGATTAAGTACGATTAAAAACTTCGACAAGATCTTTGTTATTGAACCTAATAAAGGTGTTGTTCAATCAGGAAATTATGAAACATTAATTAAACAAGAAGGAATATTTAAAATGTTATATGAAATTTCACATTAATTAATAAATAGTAAAAACTTTTTGATTTTATAAAATAAATATCAAAAAGTTTTTTTATCTTATAAATAGTTGTATTAACTATTTTTTTAGATAAAATAACTATAATTCACTAAATAAGTGTTGAATGGAGATTTATATGGCAGGTTTAGGAAAAAGTGGCGCATTAATAAATTTAGCAGCAGGAATTATATGTTTTGTATTTAGTTTTTTTTATATGTTATCAGAGAAATTAACAGCATTAATTATGCAACAAAATATTATAGAGTCTAAAATATATAAAATCGTTGGAGGCTTATTGTTTGTTGTATCATTAGTTTTAATAATATTATCAGCTTTAACAGCTGGGATGAATACTAATGGACTTAGAATAAGTTTGGGAGTTATCTCATTATTATTAATATTTATATCTTGATTAGCCTTATTCTTTCCGGTTATATTACTTTTAATAGGGGGTATTTTAACTTTGTGTGGTAAAGATGATGAAAATCGATATTTAAATAACTATAGAGACAGTTCGAATTTCATTGGATATCAAAGTGTAAATATTAATCATAATCTGAATTATCAACAAGGTTATGAAACAACACCAGCTACAGTAAATGGATATGGATATAATAATTATCAAAACGGATATGATTATCAAAATACAAATAATTATCAAAACGGATATGATTATCAAAATACTTATTATTATCAAAACGGAAACCAATATCCAAATCAATATCAAAATACAAAAGATGATCAATATACTTATGATTATCAAAACGGATATTACATTCAAAATCCAAATGATAATAATAGCAATAACAACAATGGATATTAAAAAAATATTTAAATAGGGAAACTGACTAAAAAAGGAAATTTATTATGTTAAAAAAAATAAATAATTTTACTCTTAAATCATTTTATGATTACAACGGTCCTGAAGAAAATTTTGACTTAAAAAATATAATTTTTGGATATAACGGGAAAGGGAAGACTTCATTAAGTTATGGTATTGTTGAAGAATTTTTTAAAGATAATAATAAAAAAAATGAAAACATAAGATTTTTTAATAATAAATATGTTGAAGAAAACTTGTTAATAGAAGAAGAGCATAAAACACAAATTAAAAGTGTAGTTGCTAATTTTGGAAAAAAGTCTGTTGAAAATAGAAAAGAAATTTATAAGTTAAAAAATGACATAGTGGACATAAAAAATTATGAGTTAGAAATCAATGAAATAGAAAAAAAAATTATTGATGAATATGAACAAATATTTAATAGAAAAAAAGGAAATACAAAAATATTAAATCCTCATTATTTAAATGTCCAAGAATTATTTTCTAAATACGAAAAGCTTGTAGATGATGCAAAAAAAATAGAGAATAATTTGGAAGAATTATCGAAGATTACCGGTGATAATAGTTTAGAAGATTTGTTAATTGAAAAAAAAGAAGTTCTATTTAATAAAATTTTACTTACAAAAGACGAAGATATTGAAAAAATGAAGAAAATTTTATTAAATAATTATGATAATTCTCATATCCCTTCTTCTGAAGTTGTTGATTGATTGAATGAAGGGTTAAAAATTCACAAAAACCATAAAATATGTGAGTTTTGTGGGAATAACATTAATTTAGAAAATATTAAAGTTAAAATTCAAAAATATAATAAAGATGAAAAACAAAAAGCTAACCAATTTTTAATTTCTTTTCGTAATAATTTAGAAAATTATATTGAACATATAAATAATTTCTTTTTGAATAATTATAAATCATATGAAAAATTATTTAATTTTGATTTGTCTAAATACTTTGAAAATTTTAATAAAATAGTTAATAACCTTTTAAGTTTTATTGATCTAATAAATAATAAGTTAAAAGAAATAACCAATATCATAAATGTAGATACAGAAGAATTAAAAAAAGATTTAAATAATATTAACTCTAATATAGAAGATTTAAACAACTTAAAGAATAATGACATAAATAATTTGGAAAAAAAAATAAATAAATTTAATATTTTATTAAAAGGTTCAATAGGTTTAGAATTAATTGTTAATCCACTAATAAAAGAAAAAAAAGATTTATTGATAGAAAAAATAAAAAATATTGAAGAAATTAAAGAAAAAAATAATATTTTAAACAAAAAAATTAAAGAGTTAGAAAATAATCAATCTAATAAAATTGATTTTGCGGTTATTATTAATGAAATTTTAAACAATTTAGATGTTGGGATAAATTTAGAACTAACAAATAATAACTATACTTTAAAAAACACAAAAATGGATAAAGAGTTAGAGATAAATGATATAAGCGATGGGGAAAAAAACTTACTAGCAATCTTATATTTTTATATTGAATTATTTGAAGACATTAATCAAACTGAGGTTAAAAAAAATATTGAACTTGTTGTTATAGATGATCCAATATCTAGTGTGGATGATTTAAATAAAATGTATATTCTAAGTATTTTAAAAGAAATTTTATCATATCCAAATTATCAATTATTTATCTTAACTCATGTTTGAGATGATTTTTGTAATCTTTCTTACACATTCATGAGAGATGAAAAAGTTTCTCTATTTGAAGTGAAAAAAAGTAATAATAAAAGTTACGTTCAAATCATAAAAAATAAAAAAATAAAATTACCTTATAAATATGATTTTAAAGAGATATATGATTTTTCAAAAGAAAATGATATATCAAACTTATCAAAAAATAATTATTTTTATTATCCAAATGTAATGAGAAGAATTATAGAACATTTTTTAAGTTTTAAATATTCTGAAGAAGTACCAGCAAATTCAAAAAATTTTAATAAAATAAAAAAAATTTTGCTCTTTAAGTCTGATAACCCAAATGATAAAAAAAACCTTGAGGTATTATTAAATGTTTGCAATATTTATTCTCATAAATATCAAAGAAATCCTAATGAAATCTTATCATCAGCAAAATTTTTAATGAAAGTAATTAAAAATGTAGATGAAAATCATTTTAATGAAAATAAACAATAGTATATCTCTTAAATTATAGAAACTACTTTAAAACATTTTATGGTATAATCATAAATATTTAGAGGTGAATATTTATGGCTAAAAAAAGATCTATTTATAATAAATCAAGACTATATTTAGAAATTGCATCTAATGGTCAAATTACTCATAAAGCTCATTATGATTATTTAAAAATAATTTTTAATACTTGTAGTGAAAAACATAAAAAGTTTTTTTATGATGCAAATATAGTTAATCATGATACTGGAAATTTAATTAAAAGAGATTTTATTGATCAAGATACAACTTATAAAATTTTTACTCAATTTAACAATATTGGAATGTTAGAAAGAGCAGATGAAATAAATTATATTGATATCAATGATTTTGATTACAAAAAGAAATTTTAATTTCTTTTTTTATTTGAAAGGATAACATATGAGAAAAATAAATATAATTTTATTTGAACCAGAAATTGCCAATAATGTTGGTGCTATTATGAGAACTTGTGCGTTAACAAATGCAAAACTTCATTTAATTGAACCATTTGGTTTTATATTTGATAGAAGAAATTTTGCAAGAACAAGCGCTAATAATTTTGAAGGTTGTGAATATGTAAAATATGAAGATTGACAAGATTTTGTTGATAAAAATCCAAATGTAAACATTTTTTTTATGACAAGATATGGTAAAAAACCGATAAGTGATTTTAATTTCAAAGAAATAAACGATGAAGTATTTATAATGTTTGGAAAAGAATCAACTGGAATTGATAAAGAAATATTAAAAAATAATCTTTCAAGATGTTTTAGAATTCCTATGGTAGAAACAGGAAGAAGTTTAAATATTGCAAATTCTGTAGGTATAGCCACTTATGAAGTACTAAGACAATGAGATTATTTAGATTTAAGTAAAGTTGAAGTAGAAAAAGGAGAAGATTACTTGGAAAAATAGTTTTCTTTTTTTATTTCTATATAATAAATAACAAGGTGGGAAATAAAAATGAAATTTAGTGATTTTGGGTTTAAAAAGTTTATAAATGATGCTTTAGATGAAAAGGGATTTAAAGAGCCAACAAGTATACAAAAAAAGGTAATACCTTTATTAAAAAAGCATAAAAGCGTTATTGCTCAATCTCACACTGGTACTGGAAAAACACATGCATTTTTATTACCAATTTTAAATAACTTAGATTATGAAGTAAATAAAGTACAAGCTTTAATAATAACCCCAACAAGAGAACTTGCAAGACAAATATTTGCAAATACAAAAGAAATGTTAAAACATAATAATAAAGCAACTGTTGCTTTTTTTGTTGGTGGAGAAGCTTTTGAAAAACAAGCATCTTCATTAAAAAATAAGCAACCAATGATTGTAATTGGAACACCAACCAAATTAAAAAGCCTATATGAAAGCAATCTATTACAATTAACAACAACAAACTATGTTGTAATCGATGAATGTGATATGATTTTTGATCTTGGTTTTATTGATGATCTTGATTATATGCTTGCAAAAATGAATAATGATACAAATATTAGTTTATTTTCAGCAACAATTGCAAATGGATTAAAACCATTTTTAACTAAGTATTTGTCAAAATCTATTTTCATTGAAAATATTGATAAAAAACCAACAAATGAAAATATTGAACACATTTTAATTTGAACTAAAAACAAAGAAAATAAAGAAGTTTTAAAATTAATTGTAGAATCAATAAATCCTTATATTGTTATAGTTTTTGTTAATAAAAAAGATCAAGTAAAAGAAGTGATTGGTTGATTAAAAGATTTTGGTATAAAAAATATTGGAGAGCTTCATGGTGATTTAGATCCAAGACAAAGATCAATAATGCAAAAAAGAATTCAAAATATGGAATTTAGATGAATTGTTGCTAGCGATATTGCTGCTAGAGGAATTGATATTGATGGAGTAAGCCATGTAGTTTCAATTGATTTGCCAAAAGATTTAGAATATTATATTCATAGAAGTGGAAGAACAGGTAGAAATCAATATTTAGGAAAAAGTTATGTTCTTTTTAACTCAACAAATCAACATCTAATTGATACTTTAAAATCTAAAAAAATAGAGTTTAAAAATATGAAATTAGCAAATAATCAATTAGTTGATATCATTGAAAGAAAAAAAAATAAAGTTATAAATCCTAATAATCCAGGGGTTTTAGAAGAACAAAAAATAATAAATCGTTTTAAAAAACAACCTATAAAACCTGGTTATAAGAAAAAAAGAAAATTAGAGATTGAAAAAGTTAAAAAAGATATAAGGAGAAAACACATTAAAGAGTCAATAGCAAAAATTAAAAAAGCTAAGTATAAAAAAAGAAGAGAAGAGTTATTTGATTAAAAAATAGATTGGATTATAAAGTAATGGGAATTTTGGTTAAAATATTTTTATCTTGATCGTGCTTATATACAAATGTTGTACCAACAACAAATTTTTTGGTTAAACAATTTGCAACTTCCGAAGAAACAAATGTTAAAGATGGTGATAATCAAAAAGTTGAATATAAATATAATAGTTTTTTAACTGATGACAAAATAAAAAGCACTAATATTACAGAAAACTGATTGATGTATTCAGGAAGAATTTTAAAATATTACTATGCAAACTATATAACTGGTTTAACTCAAAATATAGTTGGAGAAATTCAAGAAATATTAACTGTTAAAAAAGAAGAAAGTCCAACTGAATCAGATACTCAAGAAGATAAAACAAGTAAATTAGAAAAAATAGAATTTTATAGAAGTTTATTTATTCAAAATCTAATTGGAAGTACTTTGAATATTAGTATATATGGGGCTTCATCGGATAATGAGTTTTTTGCAGAAGCTTTTTCTAAATGATTGCAAACACCAAGAGAACTAATGAACAAAAGTTGATATATAACAAATAACTTCTTTTGTAATGTTTTACCAATGTTAATGAAAAATGGTGATACTTTACAAAATAAAACAAAAACTATCATAAATTGAATTAATGGTCAAAATAAATCAAATGAATATGATATTTCATTAAAAAGTCCTTTAAGTAATACGATTGATTTACATTATCAAAACAGTAACATTGGGTGAAAGTCAAGTGTTAATGGAGTTAACTATTTTGACCAAAGTATTTCAAAAATTATTCAACAATGTAAAATATTTGAACTTAAAGAAGATTCAAAATCAAAATTAAGATATTTATTAAATGATTGAATGAACGATTCATTCACTCCAGCACCAGATATTTCAATCGCTTTATTTGAGAGCTTTAATTCTCAACACTTTGGAGATTTTAAAAGCTTAGATTCATATTTACAAAATAGAACTATTGATGAAGCTGGTTATAGTACCGTTTGGTTTTCAAATATCTTGAGCTTCTTAAAAAAAGATTATGCACATAATTCAAAATTAGGAGATGATTATTTTGATTGAACAGATCAAAAAAAAGCAAGTTTTGAAAGTATTGTGACTCAGTTATTTAATTATTTATATTCAATCATCTCTAATGATGAAGGTTTATCAAACTTAATATCTGCATTTGTTGTAGCTGGAGATGAAAAATTAGTTGGAGATAAAAGTGACGGATTAGTTGCAGGATATACTTCAACAAGTTTTGTTAGAATGAGCAATAATAAATATTCTGTTAAAAGTTCTTATATTGTAATTTTGGCAAATGCTTTAACAATTAAAGACTATAATAGTGAATATTTATCTGGATTTTGATCTGCTCCAGATGAAATGCATGTTTTGGTTCATGAATTCGGACATGCACTTGACGGATATGGTGGTAAAGACGATTATTACCGAAGAACAAGTGAAGCAAATTCATCATATTATCCAGATTATTATGAAGGAAAATATGTTGGAGGATATGATAGCGTTAAAGTATCTGATTTAGAACTTTACTCAACATATGCAATTGCAGCAATTGCATTATTTGCTACATTATGTTTCTTATATGGATCAAATCGTATTAAAAAAGCTAGAAAATAAAAAGCAATATATTAATATTGCTTTTGTTATTTATCAATGTTTTGTTTATAATAAGTCTAGCTGATAAAAAAGGGAGAAATATTTTTATGGATATTACAGAAAGAATAAAAAAACTTATTGAAGCAATAAGTTATCAAGTTTATGAAAAAGAAGTCATTTTTAGACTTGCTATGCTTGCTTTATTAGGAGAAGAATCAATCTTCTTGTTAGGAAAACCAGGAATTGCAAAATCATTGATTTCACGTAGGATGAAATTTGCAATTAGAGGAGGAACAAATTTTGAGTATTTGATGAGTAAATTCTCAACTCCTGAAGAAATTTATGGACCAATTGATCTAAGACTTTTAAAAGAAGGTAAATATGTTAGAGTGGTTGATGGGTATTTGCCATCTTCTAACATTGGATTTTTAGATGAGATTTGAAAAGCTGGTCCAAGTATTCAAAATACGTTGCTAACAATCATTAATGAAAAAATCTTTAGAAATGGTGGAAAAGATATTAAAGTTCCATTGAAATTACTTATATCAGCTTCTAACGAATTACCAGCTGAAGGTGAAGGTTTAGAAGCTTTATTTGACCGTTTCATTATTAGATTTATTGCTGAAGGTTTAAAAAATGAAAATAACTTTGAACAACTTTTAGATGGAGAATCATCACTTGATGTTGAAGTTGATCCTAATTTACAAATCTCTCTTGAAGAACTTGAAATTTGAAAAAAACAATCAAAACAAGTTAGAGTGAGTCGTAAGTGCTTAGATTTCATCCATTATTTTAGAAAAAAAATAATTTTAGATACAAATGGAGAAGCTTATATTTCGGATAGACGTTGAAAAAAAATCTCTGGGTTAATGAAAACTAGTGCTTTTTATAATGGTAGAGGTGAAACGGATATTCCTGATTTATTTGTTATCCCATTTTGCATTTGAGATAATGAAGAGCAAGAAAAAGAATATACAAATATCTTTTATAAAGCATTTTTAGAGCAATTTGGTTTAGAGTGAAGAAATGAAAAAAGAAACTTATTAAACCAATTAGATACAATGAATGCTCAAATTGGACAAATTGAAGCTCAATTTTTAAGATTAACACCTTATGATTCGCCATTCAAAATGCAAATTAAAGGAACTTATTATTTAATTAATTTTACTGATGGACCAGAAGAATACCGTACTTGTTTTATTTCAGCAGCTGATTGAAATAAAATAAGTAATTTACCAAGTGAACCATTTGAAATTGATTTACATTTTGGACCAAATGTTAATAAATACAAAGGTACTCAAAAAATGCTTGTAAGAGCATACAAATCAGATCAAATTCTATTTGTAAATGAAAATAAAAAATATCAAATTCAAAATGATAATCCAATGGAATTTAATAACCAAATGATGACTATTGCTCAACAAGTTAGTCAACTTGAAGAACAAGTAAAAGAAGTAAGTAAAAAAATGTTTAAAGAATACAAAAAATACACAAGTATGAATTGTTTATTCTTTGAAGAGGTTTATAAAGAAAAAATTGCAGAAGCATTTGATACAGTTAAAAAATCAAGTGCTCCACAACAAGACGAAAATGTTGATATAAATGATGGAATGAATGAAATCAATGAAGTTCCATATAGCGAATTAGAAGTTGCGTATTAAGCGCACTTTTTAATATTGTTAGAAAATAGTAGGTGAAAATATGGAATTTGATGATTTTGAACCAGTAAATGAGATTAAAAGAGAACTTGAAAAATTAAGACAAAGAGATCTACACAATAGTGATTTTGCTTTATTTAAAAAAGAGCATGAATATGCAGCAGAACAGTTGGATGACAAAATCAACAATTTTTATAGCGCTTCACATTTATCGACAATTAAACAAATTAAACTTCCTGAACCAATAAGAAAAGAAATTATTTATTATAACTATGTTTCTGAAAAATTTGACGAGGTTGATTTTGCAAAAAAATTAAACTTAATAAGACAAAAATTAATTGAATTTGATTCACCATTTGAAACTTATATTGATACAATGCAATGAAAAATTGACAATGGTTGATTTGAATTAAAAGGAAGAGATTGATTAACTGAATTTTTTAGAACTTGAACATTTATGTTAACTAAAAGAGTTTTAGACTATCGTATGAAAACTGTTGAAGATTTAAGATATAACTATTTAGTTGAAATTTATAGTATTATTAAAAACTATGGAAAATATGCAAAAATCTATAAAACTATGTATGATGTCTTTGGAAAAATAGCAGAAGTCGATGATGAATTAAGAAATCAAAATATTGAATCAATTTCTCGTTTTGCAGAGTTTTTATATAAAGATCCAAGTATTTTAAGAATTGCTGAGCTATTGGGTAGACTTAATGGTGAAGATGATTTGATGGAAATTAACATTACTGAACAAATTGTTACTTATCCTACAAAAGTAAAATTACCTTATAACCCTGAAGAATTGGTTGGAGTAACTATTTCAAAAGATATCGAAAGACTTTTACCAATGGAATTAGCCAATTTATTTGATCCAGAACTTGAAATAGTATTTTATAAAAAATTTGTAGAATCTCAATTACAAGCTTTTTTATTTGAATCAAATGAAACTATTATAGAACATGAAGTTGAAGAAGTTGAATATGAAGCTCCAATTCCTTTAGAACAAGGAAAATTTATAATTTGTATCGACACTTCTGGATCAATGGAAGGTTCAGGAGAATATATTGCAAAAGCATTAGCGATAGCTGTTGCAAAAGTTGCTTTAAAAGAACAAAGAGATTTGGTTTTTGTAAACTTTGCCAGTCAACATGTTGATGAATTTGAAATTAACGCAAGGCAGTTAAACATTCAAAAAATGTTAGAGTTTTTATCCAAATCATTTTATGGTAGAACTAATGCTAAACCCGCTTTTCAAAAAGTTGTTCAAAAAATGACAACAGAAGAATTTAAAAGAGCAGATTTATTGATGATTTCTGATTTTATGATGGATGCTATTCCAGATGATACAAGAGTTCAAATAGCAGATTTAAAAGATAATTATAATCGTTTTCATTCACTTGTTATTGGAACAATGCCGAATGTTGAAACTCAAGATATCTTTGATAATGTTATGTATTATGACCCAAATGATCCATTTGCAACAACTCAAATAGTTAAATCTTTAAATGAAACTTTAAGAGATTTAAGAGAATTAAAAGATGAAGAAGCAGCTTATCGTGATGAACAAATTGCTGAACTTAATAAAGTTAGAGATAAAAAACGTTTTAGAGATAAACATTTAGATTCTCCAAAAGCTAAAAAACTTGAAAAGAAAAAACAAAAAGAAAAAGAATTAATTGAAAAAAGAAACAAAATAATGGAAAGTAATAGTGAAGGAAATTAACAAATGGAAGTTAGAGAAAGAGCTGATTTTATCATTTTATATTTTGACAAAAATGAAGATATTATTGTAGAACTTGAAAAAGTAGTTCGTGAATATATGATAATTGAAGCAAAAGTAACAGGTAGTGGTTATTTAAATAGATTAGAATATGGGGTTTTAACTCAATCAGATCCAATTTTTTTCTCCAAATATTTAGTTGATAAATTATTAACAGTTACAAATTTTCATGGCAGAATTTTAGAAAGAGAATTATCATTAATGGTTAATGCAATTGATAGTGATAATGTTATTCATAGCGGAAAAGTCTTTTCGACAAATACAGAAATTGATTTAATTTTAACCTTAGAAGTTTTAAGAACAGAGTAATTTTCATTTTAAAATTATTTTTAATTCCAAAAAATAGTTTTATAAGCGAGATTAATAAATTTAAATAAGTTAATATATAAATAGTACTTATATAAAGAGGCGATTAAATGATTCAACAACAGTATCAATACCCACCACAATACCCGCAACAACAAATGCCACCACAAAAACCTGTGAGGGTTAAAATTAAGAGAAGAAGACGAGTAATTTTTCGTGGTTGAATTAGACGTTTTTTAGCCTTTTTTTTGTTATTTACAACAATCTTATATACATTTGGATCTTTTGTATTAACAGTTCCTGGAATGGGATTAGAATCACAAAAGTTTATTAAAGATATTGAACAAAAAACTTTAAATTTATTTCCACAAGGAAAATATGTGATAACAGCTTATAAAACTGATGATGAAAAAGATCGAAAACCAGAAAATGAAACTGGTTTATATGAAATTGCAGCAGATTCTTCTGTAAGAATGAGTTTTGTAAACGATATTGTTTCTGCAATTGATTTTAATGATGGTGCAATGCTTAAAAATAAAGATATGTATGAGCAATTTGCAAATGATTGATATAAAGAATATTGAAGTAGTAAAATTGATAATAAAGAAGATATTGATCTTCATGATGTTGCTGTTGATTTAATTAAATTTGATAAAGCAGCAGCGGCAAAGTTTTTCTTATATGGTTATACAAATGTTGGTATCAAATGAATGGTTAAGAAAAATGGTATAAAAGAACTTTATTCTAAAGATGTTTATAGAGAAGTTACAAAACAACAAACTGTTGTAAATCAAAGTTTATATGAAAGCAAAATGCAAACAAAAAGAGATTCATTGACAGGAGCGTTATCTGTAATTAAATCTCCAGGAACAAATTTAATAAATAATAAAATATGATTTATCAATCAACAAATCGAATCAATCAAATTAGCAATTAATAATAAATGATTACATAATCAAATAATAGGTCCAGTTATGGGAAGAATTTTTAAAGGTTCATTAACAGATAAAGATTTACCAAAAAAATTAACAATTGATGATTTATATTCACCTTGGTTCACTCAAGGATTAACTTGATTAAAATGAGGAACTTCTTTAATTTTTACTTGTATACTTATTCTTCCTTTGGGTTTAACTGCTTCTGGTTTTTTATTCAAAAGAGAGAGAGGTTATACTAAAAAAGAGAAAAAACAAAGAGCAAGAGCTAAAAAAGTTAAGTTTAAAGAATCTGTTGGTGGGCCAGTTGTTAATAATGTTACTGATAAAATTAATAAACCAGTTACACTATTGCAACCAAATCTTACAACGAACTCTACTCAAGTTCTATCAACACAAACTCTTAATAAAACACAAGTTATGCAAAAACCAGTTATTAATAATTCAAAAAATATAACTACAAAATCATTGAATCAAAATACTGGACAAATGAACAATAATCAAAGACCGTTAAATAACCAAATGCAAAATAATATGCAACGTCCAATGAATCAGATGCCTTATAACAACCAACAACTAAATCAGTTTAACAATCAAAGACCAACGAATCACCCAGTTGGACAAATGAACAATAATCAAAGACCGTTAAATAACCAAATGCAAAATAATATGCAACGTCCAATGAATCAGATGCCTTATAACAACCAACAACAAAATCAGTTTAACAATCAAAGACCAACGAATCACCCAGTTGGACAAATGAACAATTTTCAAAGACCGTTAAATAACCAAATGCAAAATAATATGCAACGTCCAATGAATCAGATGCCTTATAACAACCAACAACAAAATCAGTTTAACAATCAAAGACCAATGCAAACTCAAAATTTAAATAATTCAAATGTTAATCAAACATCAAATTTTGAAGATAATAATTAATTTCTAAATAAGGGGAGCGATAATATGAAAAAACTATTAAGTTTATTTTTAACTATATGTGCTAGTTCTGTTTTTGTTACCCAAATAGCATCATGCAATAAAAGACCATCAGCAGTTTTTGGGGATGACAATCCATTAAAAATAGGTTTAGAAATTGACCGAAAAAATGCAATTAAAGATAAAGATATCGATCAAAACTCTTATGGTGTTACAAATTATTATATTCTTGGAGATAGTTTAAGTGATGTTGATGGATTAACAACTTATATGGGAACCAAATTATCAATATCAAACTTAAAAATTAATTTTAAATTTGATGGAGACTTTAGTTGAAACTTTGATAATGTCGATGAATTTTCAAAATTAAAACCAACAACTTTTCAAAATAAAATTATTAAAAAAGCAGGTGAAGAAGAATCTGATAACGAAGATAATAATGATACTCCCAACAATGAAGGTACTTCTACTGATTTGAGAAGTTCATTTTCAAATGGACCAACAGCTTCATTCTTGTTGGGTAGAAGAATGTTTAATGTTAAAGATATGAAACCAAGTAACATAATGATGAAAAAACCAACTTACAAAGGTGAGTACGGTACAACTTATGCAGTTGGAGGAGCAACTGCTAGTCATACTGGTTCAAGTATGTCAACATTGTTAGAAGATGCAGCGATTGACAATCAAGCAAAAGCATTAATATCTCAACATAAGTTTGGATCAAAAGCAGTTGTTGCTATGTCAATTGGAGGAAATGATGTATTTAATATGATTAGCACCTATAATCCATATGGAGCTAGTGAAAAAACTACTCAAATTATGGATGAGGCAATTGAAAAAATTAGATATACAGTTTTTTCATTGTTAAATAACGGAATAAAAAACATCTTATTAATTACCTCCCCATCAATGGATAAAGTACCAAAAAATGCTTCAAGGTTTTACAAAACTTATGATCCAAATTCTGAGGATGAAAATAAAAGCAAGTGCTATGATGCTTATGGAAAACTTTATGATGATCCAAATTATGAAGGAAGTATTTGTTATAGTAATGGAGATAGCGAAGAATCTGAAGATGAAGATAACCCGATAACTGCAGGAATTCCAATTAGAAAAAAAACAAATGAAACAATTTTTATTGAAGCAACAACAAAAGAGTTTAATAGAAGAATTGAAAATATTGTAAAAGAAGTTCATAGTTATTATCCTAATGGATTGAGAACTTTTGATTTATTTAATAAGTTTGATAGTATTAATGAACAATCAAAATTTACAATTAAATATGAAAATTATATTAACAATGTTGGATTAGCGGTATGAGCAGAAGGTAATCCAAAACCAGATTATGATCCAATTGGTAGTTTTAGTTTGAATTCAGATACTTTAAAAAAAATTGTAAGCAAAATTGCAGAAGCAGCAAAAGATGTTAATTCTAGTAGTTCAACAAATAGACAAATAAATGTGCAATTAAACTTTTGAGGAGACCCTCGACCTGGTTATCCAGCTGATGTTAATAGTTACTTTTTTGATGATAATATTCATCCAACTAAAATTGTTCATAGTGATGTTGAACAAATGTTAGAAAAAGAAATTAAAGAATTGTTTGATAAAAATAAAAACGAAGGAATAGGAGACAGTAAATAATGAAAAAAATACTTTCAATTGCAGCATCGATTGTTGTAATAACAAGTTCAGCGTCTTTAACTGTCTCGTGTGGTAAAGATGAAGTGGTAAATAGCATTTCATCAAAATCTATGAATATATTATTAAAAGAAGTTGCAAAAACTGCATATCTAAATAATGTTGAAAAATATGATTTTAATTATGTTTTTGATAACATTGTAAAAAACCAACAAATTCAAAAATTTAATGGAAATCCTAATCTTGATGTAAAAGATGAATTTGCTTCATCTTCAAAATACTCAGATATTTACAATAAATATTTTGAATCAAAATTATATGATGAAAATAATGTTGATCTTGATGGAGTTGATTTAAAAAATAATGTAATTAAACCTGAAGATGGATCATTTTTAACTCCAATTTTAAAAAATCTACCAGCAATTTTTGAAGCTGTTGGTAATCGAGACTTTTTAGGAATTGGTGCAACTATATTAAAAGAATCAGGTCTTGTTGATTTTGATACTTTTGCAAGAAATCCAATCTTAACAATCATTAGTAAAGTTTTACCTTCAAATGCATTTTCAAATATTTCAAAAGCTTTTTATCGAAAAGAGTATGAAAATATGAGTGTACAAAATGCATTAAATGCATCTATGATTGGATTTGTAAATGCTTTAAATAAATTTTGTTACCCAGCAAGTACTGGTAAAAGACCAAAAAATTTAGGTGCAAATACTGAAAAAGAAGTTTTGCAAAACTTTACTCCAGCCTTAATTCAATTAACACAAACCATTCAAGATATAATGGATGGTACTGCTAAATTTACTTTAGATCTATTTAACAATATTGATACAATTGCAGACATTGTTAACTTTGTAAAAATGTTATTTATGTATATGACAGGGTTTATAGAAAGATTTTCACCAGATCCTTTTAGTGAAGATCCTATTGAAAAAAGTAAGCCTAATGTTGCATATGATGAAATTTCAATAACTGATATGATCGCTTATCGTAATTCAAACTTTAAAGAGACAATTAACAGTAATCTAAATTTAGAAGCAGGATTTAATTTCTTGCTAAAAATGTTATATATAAATGATGGAATGGCTGCTAAAAATTTAATAAGATTATTGTTTTATGAAGATTTTGCAAATCAATCAGCTGGAGATGGCGGATTAACATGAACTCTAAATGCAAGAGCAGAATCAACTGGTAAAGTTCATACTAAATATACTCATATTGTTGCTAATTTAACTAGTACAGCCGGAGTGCAAAATGATGTTAAAAATATGGCTAATGAAATTAAAAGTTTTATTACAGATGATTTTGATAATAAGTATACAAATACCGGAGGTATATCAGCTTTTATAAGAGCAATTTTAAATAGTATAATTACTGAGGGTACAAATAAAAATCTTGGAAATACATTAACTTGTGCATTAGGGTGATTATCTTCAGAAACAAAAGATGATCCAATGCTTAAAGTTGAAATTTTAGGGCTTGGAGATTATACAGAGACAGTTTTAAGTTGAGGTTTTGTTCAAGACATTGTTGTTGATGCTATAAATGATTTTATTCCATTAACAGAAGATGGTAGAAGAGCTATGTATAGAATTTTAAAAATAAAAACTTTGTGAAAAAATGTATGAGGAACAATTTGAAATAATAACTTACTTGCATATGCAGCCCCGATATTTGATTTAAAAATACCTTTAAACGAACCTAATACATACGCAAAATCAATTGCTGATGTTGTTGAGAATTTTGACATAATTAAAAAACTAGGTCTATATGATATATTTGGATTTAGTTTTGATCCTAATGTAGTTAATAGTTTACAAAATTTAGCTAAATACTTTTTATCAACTAAATCTGGTAATCCCGAAACTAATGGAACAACTCCAGATAATGGAGCTGGCTCAAAAGAAATACCCGTTACAATTTTAGAAAAGAAAAAAAGTGAAGGTAATAATACTAAGTTTAAATTAGACTTTAAAAATTTAAGCAACCTAACTGTAAATATTGGGGCTGCTTTAAATTCTATTATTAAAAATCCAGATAGCATTTTAAACGCAATTGGAATTGATGATAATCAACAAATTATTAAAAACTCACTAGCAGATAATGCAATAACATTATTTTCAGATATTAATGGTGTTCAATATCTTCTTTCTGTTATTCAAAGTTTCTTATATAGATTTGATATAAAACAAAAATTAGTTGCAAAACAAATGTTTGTGGATTATTCAAACATAACTGAAAACCAAGTTGATGAAAGTATTATAAACTTATATCAATATCAATATCGAGTTAGAGATAAAAATATCACTATTGATTTAAAAAGAAGTGCTGATAGATTTACAATCAAAAGAATTAGAATAACTGATATTAATAAATAATAATTTAATTTAAAAAATCTAAAATCTGATTTTAGATTTTTTTTATGATTAAAAAAAATTTCTAAAAATTTTCTTATAAAAAATATTTATACCAAAATGCTAAAATAGTAGTTAATAGTATTTTTTTTTAGTATAATATAACTAATCTTTATACATTTGTGTGAGCACTTTGTATAAAGGTAGAAACGGAAAATATGAGGTGACAGAAGAATGATCGGAATTATTTCGACAGCTTACTTTACAGTGAGAGACCGTGAAGGTGTTAAAACTGTTAAAAAATATTGATGAAGAAATATGGTTATTCAACACATTAAGTATAGAGGGAAATTTTTCATAGTTGCAACTATCGGATACGGTAAAGCAAATGCCGCTATGGCTATTACATACTTAATGGAAGAGTATCCATCTTTAGAAACAGTGCTAAACGTAGATTTAGCTTTATCAACAAATGACAAATTTGACACAACTGACACAGTTATGTCAACAAAATTTATTTATAGAGATGCTGACTTAACAGTATTTAAAGACATCAAATATGGGCAAATTGTACATGAACCAGAAGCATTTGCATTCAATACTGAATTAGTAACTCAAGTTAAAAATTTTAAATTAGGAGTTTCTGATGGTATTGTTGGAACTGCTGATATGTTAATTTACAATTCAAAACAATTTAAAGAAATGGTAGATAAATATGGACAAACAATTGATGTTATTGATACTGAAGCAGGAGCATTAGCTCAAGTGGCTAAAAAATCAAGCGTTAACTTTGTTGCTTTAAAAATTATGTACAACAATGCTTTATCACCATGAGATAATGATCCATTACATAAATTTAAAATTTATGAAACATCAAATACTTTAAAATACTTATTAGCAAGATTATTCAACTTATTATCATCAAGATACATCATCGACTTTTCAAAAAATACAAACGATGAATTAGAAGTAATTAATGAATTATTTGAATTAGAACATGATGCATGAATTAGAAGATTTAAAAAAGATACAGTATCATTGATTTCAGGAATGGGACCATCATTGATGTTGCTTGATAAAAAAGCTATGAAACCTGAAGCAGTTGATGTTGTTGAAGTTATGAAACCAAAAATTGAAGATGAAGGACCATCAAAAGTTATTTTAGGAGAAGACGAGTGAAAAAATGCTCCAAAAAAATGATTACGTAAATTGATGTTCTTACAAAATTTAAGTGTAAATGACGATGAATTATTATGAAATAAATCAGCTAAATATGATCTAAAAACAGGAAAAATATTTACAATTGAAGATGTTGCAAAAAACATTGCTAAGTTAATTGCTGATCGTTCTCAAGACAAATCATCTTATACATATGATGGAACTACAGTAAACAAAAAACATTTATTTGTAGCATGTGATGCACAAATCTCATTCTACATTACTCACAATCATACTCATGAGTTTGTGGAAGGTAAGAAAAAAGGTTCACAATTAGTAGCAAATGAATTTATGAAACACTTAAATCAAATGTTAGCTGAAGTTGAATCGCCATTTGAAAAAATTATTGTTTACATTAAAATTCCAGCTGTTGGAAGTGCAAGATTACCAATCTTCTTGACAACAAAAAATAAAGTTAATACTCCTATAGTATTTGGTGGATACAGCGAAAAAGACCAAAATGTATTTACAGTTGTTGACATCACAAGAAATGATTATGACCCACTAAAAGTTGGTTCATTCAAAGTTACAGTTCGTTTAAAAACTGAGGGTTAAAATTAATAAAAGAAACCACTAATTGTGGTTTTTTTTATTTTTGTTTGGTATGATTTTTTTATTATAGTAGGTGAATCAATTGAAAAAAATCAAGAAAGAAAAAGAAGTTCTTAAAAACAGCGATGCTGATGTTTCTGCTAGTTTAGCATTTGAAGAATTATTAGAATTATCTACTACAAAATTATCAGATATAAACTTAAACACAATAACGTTAGATGATGATGAAAATACAAATTATATTGATATTAATGAAACTATTGATGTTGATGAAAATGATTTATTCAAAATCATAAAAAGAGCACAAAAACAAAAAAGTATTTTAAATAATCAAAGATGAGTAAATTCGGAAGAAAATGAAGAAAATGAAATTATTAAAAAAGCTGAAATGAGTGGTAAATCAAAATACGATTCAGATGTTTTGAGAGAATTGATTTTAAAAAGACAACGAGATAAAAGAAAAGATAAAGGATTAAATAATTTTATAGATAATGTTAAGAAAAAGAAAAACAATTATGATAAATAATTGATTGAGGGGAATAAAATGAAACAAACACAACTAGAAGAAGAATTTCTAGATAAACAAATTACAACTGATGCCAGTCAAATCCAAAATTTGGATAATAAAACAGATAATACAAAAGATATTGATGTTAGTCATTTTGAAAGTAAAATTTTATCAAAAAGAGAACAAATTTTATTAGTTCAAAACTATTTCAGAAATAAATTTTGAAAAGATTTATTAAAATTAATGCTTTCATCATTAATCAGTACAATTGCATTCGATTATTTTATTTCAATCACCGGAAGAGCGGGATTATTTCCAGCGGGTATTGGTGCATTTGCTAGATTTTTATCCATCTTAACTTTCGGAAATGATGTTTCTAAACAAAGTTCATTTTATTTCATATATTATTTTGTTATAAATATTCCTTTATTTGTATTCGGATATATTAAACTTGGTAAAAAGTTTTGTTTTACAACTATATTATTTATTTTATTTCAAATTACATTTGACCAAATTTTACAAAAAATACCTTTTATAAATCCAACTGATTTCCACTTTATTGTAAACTATAAATTATTACAACAAATTGGAAACTCATGAAATGCAGGAATTTGATTATTTGTATTTGGCGTAATTGGAGGATCGATGCTTGGATTGAGTTACTCGATTGTTTATAAAATGGGTTCATCAACTGGTGGAGCTGATTTTATATCTATTTATGTTTCTAAAAAGAAAAATAAACCAATCGGAGCTATTAATAGAAATGTAAATCTTGTTATTTTAGGAGTTGTAATAACTTTGAATTCAATTATTTTACCAGTTAATATGATTAATTCAGATAACATCGTCAATATTTTAAAGAATCTTGGATTAGATAATGCTTTTAAAACTAAGGATAAAAATGATGTTGATATTGTTAATTCAATTTTAAGTTATTTATTTAATAAAGAAGGGTTAATTGATGTAAATGGAATTATAAATCCTGATTTCGCTCAAAAGATGGGTATTAAAAATGGAGTTGTTGACACACAAGCAAGTGCTAATAACTATTTAAGTATTATTGAAGAGATTATCAATAATTTAAAAGGACAAGGTGATATTACAAATTTTGACAGAGATTATGCGTGACAGTATTTAATTGAATATGCTGCAAAAAATGGTTATGGGAATGTTTTACCATTTTCACTTGTTTCAAAAATTAAGTTAGGATTTATTTTAGGACCTTCATTATTCGCTTCAATTGGATTAGTTTTATCTGCTGCATTTACAACAAATGCACTATATCCTAAATTTAAGGTTAGAACTTATATGATTAAAACTAATAATCCAAAAGAGATTAATAAGACTTTATTAGATAATGGATATCAAAATGATATTATAAATTGAGATGTTACAAATAGAATTAATCGAAATTATTTACATCGAGCAGTTGTGATGGTTGCTATGACTGTTTTAAACTGAGACGAAATAGAAAAACAAATATTTTTAGCAGACCCAAATGTGAAAATCAACATTTTACAAACTAAGGCAATTAAAGGTATTTTTGATTATGATATTAAAAAGAATGATGAAAGAGATTTTATTTTAAAAAAAATAACTTCAGACGAACAAGAGTTAGAAAAAATTCGTCAAATTGCATTAGTTAAATACAACAAAGAACAAAAAAAAGGCAAAAAGAAAAAAACAACTAAAATCACAAAAAAAAGTTGTACTAAAAAAACTAAAAAAATATAATTATTGTGGTTTTATTTTCTTTTTTTTGTATAATAAGTAAGTATGGTGATTTGTAAATGAAAAAACAAGAATTGAAATATGTTATATTTAAAATGCTAGAATTAAAATTGGTGGAAATTAGAAAAGAAATCAATAATATTAGCATTATAGATCTATACAATTACATTAATAATATAATTTTAAAAAAAGATAAAATTCGAAATGTGAATGATGCAGCATTTTATATTATGAATATAAAAGTTAATAAACTTTTTGAATATATTAATTATGAATCGATTAAAGATGATTCTAATACAATAGCTAGTGATTTAAAATCTATTTTAGAGGGATAAGTGATCAAGGTGAAAAAAGAATCGCCAAAAAATAAAATTAAAAACACAAGAAAGACTAAGTTTAATTTTTTTCGTTTTTTAACAATTTTTGTAATATTAGCTTCTTTATTGGTGGGAATATTTTTCTCATCACAAGCATTTAATAAGAACTTTCGTTTAGGAAGTGATTTTAAAGGTTATTACTCTGCTTTGGTTGCTGTAAATAATGCAAACAAAGAAGCAGGAGTTGCTGGGCAACCAAACGGGGTTGCAAAAGAAGCTGCACCGGTTTTAGAACAACGTTTAAACCCGATGGGGACAAACCAAATAACCATTGAAACTGCAGGTTTAAATTACTTAAAAGTGTTATCACCAATTGCAGCGTATGATTCAGAAATTCAATTTAAAAATCAAATTCAAAGAAATGGTGGAGCAATCTTACTTAACCAAAAATATGAAGATTTCCAGTTATCATCAGATGAAGATGGAAAAATTACACGATCTGGAATCAACGATTACTTTTCTGATGCAAAAACAACAGCTATTACTTCTGGGAACTCAAAAAGTCCAGCAATTCAATTTAAATTAAACGGATCAAAATTTACAAGTATTTATTCAGAAAGCGAAACATCAAAAGATATGAAGTTGATGATTGACGCAGATGGTTTTTACAATGAAATAAGAAACTACTATAATACAGTTAAGAAAGATACTTTAACAGAAAAAGTGGCAAGTTATTTTGAACAAGTAATTAATCCTTTGAGAGATAAATATAGAGATTCTAACAAAGAAAATATTTCTGATTTACAAAAAAGTATGTTAGAAGATTTATTTGCTGGAACATATAAGCGACTTGATACAGGTGGAAATGAAAGAAGAGTTTTTGTTAACTTAATGAATAGTGAAATAACAGAAACTAATTTTATTGAATTTATTAATAATGATTTTAATTTTTTAAGCGAAACTTCAAAATATGTTTATGATCCAAACTCAAAATCAGAAGATTTTAATGGTGACGAAGCGAAATACGCCAATCCGATCGAAGGTTATTCATTAACTTCTATGAATCAACGTCCATTAGGAAAAATTGCTGATGTTTTTAAAGCGATTAATACTATAATGGGAAAATACTGAGATGATAGAAAATCAGCTATGACAAATAATGAAAAAGTTATGGCAGAAAAAATCGGAAGTTATATTCTATATTCTGGAGCAATTACTAAACAACAATCTCAAAATTCATTAGCTTATGTTGATGGTACTAATTTAAAAATTATTTTTTACAATCAACCAGAGTCTGCAGCTCGTACTGGAGCGGCAATCTTTAACGCTTCAACAAAAGGATATATTTTTACAGTTAATAATATTTTAAAAACAAACCCTTCTGCAACTTCGTTGATGCTACAATTAGCTATTATATTATTAGGAATTGTAGCGATCAGTTTATTAATTTATGCTTTATTCTTATACAGATTGTTAGGACTATTTATGTTTGTTGTGATTTTGGCAATTTCAGCGCTCACATTAATGTCTACAACATGATTTGGATTAACTTTGGGAATTGAAGCTATTATTGCCGTTGCAATTATTGTTTCAATTAATTTAGAAATATTCTCGATGATATTCGAAAATATGAAATTTAATTTATATATAAAACAAAGAAATATTAAGACAAGTTATAATATCTCTATAAAAGAAAATATTACATTAGCAGTTGATGTTTTAGTTTCTTTGGTTATACCAGCCATATCATTATTTTGAATAACTTCTAATGCAATACAATCGTTTTCGATTATTATATTAATGGGAGTATTATTTTCATTAGCGTTAACAATTATACTTGCAACTTTCTTAAATAAGTTATTGATTAATACAAATATTTTTAGTAATAGACCAGGTTTATTTGCTTTAAATACTGATTTTGCAAATCAAGGTAAAGTCTTTTTAAATTATAAAATTAGAAATTTAAAAATAAAGATTAAAAAATATAAACAAAAAAATAAGAATATTACAGATTATGAAGTTAAGCTTGCTAAGTTAGAACAAAAATTAATTGAAAAACAAAATTCTTATAATGAAAAACAATCAAAATTATTAGAAAAATATAAAGTAAAAATTAATAAAAGAATAGATCAACTAGAACTTAGAAAAACTAAATTAGCAGAAAAAAACAGATCAGCAAAACTTTTAAGACTTGAATATAAAATTAATGAGTTTAAATATATTTTAGAAGATCAAATTGAAGTCGAAATGGATGAAGAGAACGAGTTAGTTTTAAATACTCATGATAAAGTAAAAATAAAATCTTACGAAAAAGCTGTTAAACACGGTTCAAAATTTGTATTTGTTTTCTTGGGTTTTGTTTTGTTAGTAGCTGGATTGATTGGTGGAATAATTAAGCCAAACTTAGATTCTTCATTTGGTAATAGAGTTGAATACATTTTATGAGGAACTAAACTTGAGTCAATGTATAACGGTATTAGATCCTTTTCTCAAAAATCAACAGGTAGTGATGAATTAAAAGAAAAAGTAAACGCAATGTTAGTAGAGTCTGATTTTACTCCATCAAACGATGATGAAAGTCCACCATTTAATACAGTTGTTTATAATTTCTTAAATATTGTATTTTCAAATTCTGAATATTTAAATTCAATAACAAGTAATATTGGAAACTCAGAACGTTATTCATTACATAAGTTTAATCTAAATTCTGGTACTAATTTTAATTATATTTCTTCAAATACTAGAGACAATATACAATGAGTTACTTTATCGATAGTTTCAGTTTCAAACTCTGATTCATATACAATAAAAAACTTATTTGCAGAAGTTGGGGGCTTTAATAAAACTCAAGAAATCGACAGTAATGGAGGGTTTATTTCAAAACGTATTAGACCATATACAATTGTTGATATGTCTAAAAAAATGGGATATGGAATTATAGCAATTGTCTTGGCGCTGGCTATTTATATTCTAATAAGATTTAAATGAACCTATTATATTGCAATGGTTGTAGGAATTATTTTAGTTCCTGCGTTAACAGTTGGTACAATAATTGCTTTTTACATTCCATTTGGAATAACAACAATTATTGCAGTTGCAGTTTCGATTTTGTTTACTTGTTTAACAATGTTCACAATCTTTGGAAAAGCAAGAGGATTAATTGCTAATCGCGATGAAAAAAGTATGTACAATTTCTTTAAACAAGAAATAGCATATAGTATTTCTACAAAAAATTTCAGAAAAAAAATCAAAGATGAAATTTTCTTGAAAAAAGCAAATGATAAATTAAAACTAAAAGAAAAAAAATTATCTTCTAAAGAGATTAAAAAACTAAAATTAGCTTTTAAAAAATTTAAACAAGAAAAAATCATAGAATATAAAAAATTAAAAAAAGAAAATAAAATTGAAATAAATAAAGTTTCAAAACATAACAACTATTTAAAAGAAGTTATGGTTCAAACTTTCAAATATGGAATTAAACGTTCATTATTAATCGGTGTATTTTACATTTTAGTATCTCTATTATTATCAATTACAATTACAACACTTGCATCATTTGGAATAAGTGTAATTATTGGAATTCTTTCTGCGGGATTTGTTATGTTATTTATTTGTTTACCAATTTGGTTGTGATTAGAACAGAAACGTATTAGAAATCACTTAACAAGAAAACGTTTTATCAATGGATTAAAAGTTTCTGGCGAAGAACAAATTATTGAAGGGATTAATGACTAATTAAGGTATAGGTTTATGGATTTAAAAGATTATATTTTAGATGTTCAAGATTTTCCTATTAAAGGAGTTACATTTAAAGATATTACTCCTTTATTAAATAATGTTAATGCTTTTAAGTATGCAGTTGATCAAATGGCTGAATATGTAAAGCAAAAAAAAGCTAATGTGGTTGTTGCTCCAGAAGCAAGGGGATTTTTATTTGCATCAGCTGTGGCGTATGTTGCTGGAGTTAGATTTGCTTTAATTAGAAAACCTGGAAAACTACCTAGAGAAGTTATTGATGTAGAGTATGAATTAGAATATGGTAAGAACCATATTCAAATCCACAAAGAAGATTTAAAAGAATCTGATAATGTTGTAATCATTGATGATGTTTTAGCAACCGGTGGGACTATACATGCTATTATCAAGTTAATTGAGCAATGTAAAGCAAAAATTAATGGAATTGTATTTTTAGCAGACATTTCATTTTTACACGATAAAGACTTATTTAGTGAGTTTGATATAAATTGTTTAATAAAATATTAAATTCATAAAAAAAGCACTTTTTATAAGTGTTTTTTTTATGAAAATTTTTTTCATATATTTGCATTTTTATAAATAATATGGTTTTATAAATTTGAAATAAAAAGATGGGTTGAATGAACAAAATACAACTTAATCAATCTATTAAATATCAAAACATTTGGGCAAAGATGTTTTGTGTTTTTATTTCACTCAAATATAAATATAATAGACAGGGCGGTAAAAAAATGAGTGCAAAAGAATTAAATTATAATAATATAATGAATGAATTTAGCCAAGTTATTTCTACACAAAGCAATGATTTAAAAAATGAAAATGCTAATATGAGTGGAGATACAGCTAGTGGTAAAATGATGAAGTTTGCTTCAATTGGAGCAAAAGACTTTGCATTAGAAAACTTAGTAAATCCTGTTTATAGTGATTTACATAAAAAAGCATTAATTCATATTCATGATTTAGATTATTATCCAACAAAATCTGCAACTTGTGTTCAATATAACATTGAAGAGATTTTTGAAAATGGTTTTAAAACTAGAAATGGTTTAATTAGAGAACCTCAATCAATTGGTGTTTATGCTGAATTAGCAGCAATCATTTTCCAAACTTGTCAAAATGAAATGCATGGAGGACAAGCGATTCCCGCATTTGATTATTTCTTAGCTCCAGGAGTAAATAAAAGTTTTAGAAAAGCATTAAAAAGAAATATAGAACAATATTTTCAATTTTTAAATGAAGAAATTAATGTTAAAAAATTAGAAGAAATTTTAAAAGATGAAGAAATAACTTTTAAAGAACTTGAATTTGAACATGTTAAAAGACATGTTTTAAGTGACAAATTTACTCCAGAAGTATATGACACAATTAGAACAATGAGTATAAAAAATGTAGAACATGAAACTGACCAAGCAATGGAAGGATTTATCTACAATTTAAACACTCAACATTCAAGAGGTGGAAATCAAGTAGTATTTTCATCAATCAATTTGGGTACAGATACTTCTAAAGAAGGAAGACAAGTTACAAGATCGTTATTAAAAGCATTAAGAAATGGTCTTGGAAATGGAGAAACATCAATTTTCCCAATAGTTATTTTTAAAGTAAAATCAGGAGTTAATTTTGATGAAAAAAGTTATCAAGAAGCTATGAATATGAGTCAAGAAGAATGATTCAAAGAAGAAAGAGTTTGAAAAACTGCTAATTTCGATTTATTCTTAGATTCAATTAGAACAACTAGTGCAAGATTATTTCCTAATTTTATGTTTTTAGATCAACAATACAATCAACATGAATTGTGAAAAGCAAACGATAAAAAAAGTTGATACTATGAACCAGCAACTATGGGATGTAGAACAAGAGTATTTGAGAATGTTAACGGACCAAAAACAAGTGTTGGAAGAGGGAATTTAAGTTTTACATCAATTAACTTACCTTACATAGCATTAGAGTTATTACAAGATGAAGGTTTATTAAAAGATGGAAAAATTAATTATGAAAAAGCAAAATTTAGTGATTTAAAACAAAAGTTTATTAAAAAAGTAAATGAGTATTCAGGAGATGTTTGTGATCAACTATACGATAGATATAAATATCAAATTAGTGCTGTTGCAAAAGAGTTTCCATTCTTAATGAGAAACAATGTTTTAACAGGTGGAAATGAGTTAGAACCAGATGAATTTGTAGAGTCTGTATTTAAACAAGGTTCATTAACTGTTGGATTTATTGGTCTAGCAGAAGCATTAAAAGCTTTATTAAATGTTCATCACGGTGAAAGTGATGATGCACAAGAATTTGGAATCAAAATAATTAAAGAAATGAATAAAGTTACAGATGATTGAAAAAATAAAACTCATTTAAATTATGGCGTTATTGCAACTCCTGCTGAATCAGTTGCTGGAAGAATGGCTAAATTTACAAGAAAAACATATGGTTCAATTCCAGAAGTCACAGAAAGAGATTATTTTACAAATTCAAATCACGTTCCAGTATATTACAACATAGCTGCAATTGATAAAATCAAAATAGAAGCTGCATATCACCCAATTACATTGGGAGGAAGCATAAGTTATGTTGAACTTGATGGCGAAGCTAAAAAAAATCTACATGCAATTCTTTCGATTATAAATGCAATGAGAATTAGTGGCACAAACTATGGTAGTTTAAATCATCCAGTTGATAGATGCAAAAATTGTCACTATACATCACTTATACCATTAAATTGTCAAATGTGTGGAAATTCAGATATTTCAAGAACAAGAAGAATTACAGGATACTTAGTTGGTGACTTGGATGGATGAAATCAAGGTAAACAAGCTGAAGAATCAGAAAGAGTAAAACACAAAATTTAAAAACTATGAAAATATTAAAAATTTTCAAAGAAACAATTAGTGACGGACCAGGAATTAGATATTCAATTTATATTGCAGGATGTTTACATGCATGTAAGGGTTGTCATAATATGTTAAGTTGAAATTTCAAACTTGGAAAAGATTTTACAAAAGAATATGAAGAACAAATCATAAATGATTTAAAATCAAATTCACTTTTAAATGGAGTTACATTTAGTGGTGGAGATCCAATGTTTAGTTCAATAGAAGTTTTAGCTTTTATAAAAAGAATTAAAAAAGAAACTAACTTAAATATATGATTGTATACAGGATTTACAATCGAAGAATTAATTGAGCAAAAAGATAAAGATAAAGAATCAATGGCTCGATTTGAAATATTAAAAGAAATTGACACATTAGTCGATGGAAGATTTGTTTTAGAACTTTATGACCCAAGTATTTTATACAGAGGAAGTAGTAATCAAAGGTTAATAGAGACTAACAAATATCTTAAAGAAAACAACTTATTATAAAAACCTTTACTATTTGACTGGTAAAGGTTTTTATATATAAGATAGAATGTGTTTGTTTTTTATTATAAAATATTATTAATATAATAATTTTTTTAAAAGAGGTAAAAAATGCTAAAAGATATAGGTAATTTTAATTATGTAGAATGTAGAGATGTCGACACTTTAATTGCTGAAATGAGAAAATATATTAAAAAAGAAGATGCGATTGATGAAGTAAAAAGAGCGTATGATTTTGCAGAAGAAAAACATCATAACCAAAAAAGAAAAAATGGAGACCCTTTTATAATTCATCCACTCTCTACTGCTTATTATCTATCTCAATGAAGAATGGGTCCTAAAACCATCATTGCAGGTCTTTTACATGACATTATCGAAGATACACCAGTTACTTTTGAAGAAGTTGAAGAAATATATGGAACTGATGTTGCAGATATTGTAGAAGCTGTTACAAAGGTGAGTTATTTTACAGAAGAAAATCGTGTGCAAATGAAAGCGCAATATTTAAGAAAACTGTTTTTATCAATGATTAGAGATATAAGGGTAATTATTGTAAAAATAGCTGATAGAATGCATAATATTTTAACTTTAAAATATATGGCACCAGACAAACAAAAATTAATTGCTAAAGAAACTTTAGAGATTTATTCAACAATCGCTCATAGAATTGGAATGAAATCTGCTAAAAACTTATTAGAAGATTACTCTTTTGAATATTTAAATCATGATGAATATACTAAAATTGCTAATTTATTAGAAGAAGATAAAGAAGCGAGATTAGAAATAATAAACGAGATTATTGCGGATATTGATAGAAAAATTGCAAGAGATGCTTCTATAAGTGATGTGGATGTTTTCGGAAGATCAAAAACAATTTATTCAATTTATCGAAAAATGCATTTTTTTGGAAAGTCATTTCAAGATATAAATGATATATTAGCAGTTAGAATTGTTACAAAAAATGTTGATGATTGTTATCGTATTTTAGGATGAATTCACCAAATGTATACACCATTAAGTGGTAGATTTAAAGATTATATTGCAACTCCAAAAAATAACTTATATCAATCACTACATACAACTTTAGCGAATAAAGATGGTATTATTTTTGAAGTTCAAATAAGAACGAGAGAAATGGATGATATCGCAGAGCATGGTGCTGCTGCTCATTGAAAATATAAAGAAGATGAAATAAATATTGATATTTCTGCAAAACAAAGAGAAATTGACGAAAAAGTTGATATGTTTACAAGGTTGATGAATCTTGAAAAATTAGCTTCTGATGGAGAAGTAATTGAGTATGATAAATCATTAAAAGTTTATGATGAAGATGAATTAGAAGAAACTTTTAAAACTGATTATTTAACTGCAATGATTTATGTTTTAACTCCAGATGGTCATGTTGTAACTCTTCCGTTTGGATCTTCAGTTTTAGACTTTGCTTATAAAATTCATACAGATATTGGAAATAAAACTGTTGGTGCAAAAATTAATGGGGTATTTTCTGCATATAATACAACTTTAAACTCAGGAGAAATTATTGAAATTCAAACTTCTAATGAAACCGAGCCTCAAGAAAAATGATTAAAGTTTGTAAGAACAGCAACAGCTAGAAAAGCAATTGAACAATGACTTGCAAAAAAAGCAGAAATAGAAAAAAAAGAAGAAGAAATAACTAATCAAAAATTAATCAGAAATACTAAAAGAGAAATTGATAGATATATAATTGCAAATAATTTAAAATGACAAGTAAACTCTTTAGAAGAAATTCAAAAAAAATTAAAAGTTTTAGATTATAAAAGTATTGATGATTTTTTACTTTCGGTTGGAAAAGGTGACTTTTCTATTTCGGAAGCTGTAAATATTGTTTATGTATCAAATGTCGAATTAAAAGACATTGAAAAAATTAATGATATGAAAACAAGAAAATATAAATCTGTTACTGGAAGAGAAGATATAAAAATTAATAGTATGGAAAGGGTTAATTGTACATTAGCGCAATGTTGTTATCCATTACCATTTGAAAGTATTTCTAGTTTCATGTCAAAAACAAAAGGTATTCAAGTTCATAAAAGTGATTGTGCAAATATCTTAAATAGCAGAAAAACAAAAAACTTATTAAAAGCTGAATGAATTCCTGCAAAAATTATCAATAAAGTTTATGATGTAAAAATAAGAATGCAATTTCAAGACCGTCCAGGAGTTTTGTTTGATATTGTAAATATTCTTACTATTAGAAGAATCAATATAATTCAAGTTAAATTAATTTCTTTTGAAACAGATTATGTAGCGAGAGGAAGTTTTGTAATTCAAGTTAAAAATAGTGAAGAATTAACTACAATCATAAATAACTTAAATGAAGTTCCAGGAATTACAACAGTTTTAAGAGTTGTTAATTCAAACGACTCAGATTTTGATAATTAATATTTTTTATATTATAAATTTGATAACATAAAGATATGAAAAAATTATTTACAACATACAATATCTCTGTTTGTGGAGTTTTAGCTGGAGTGATGTTAGTTTTGGCATCATTTTCATATTTTTTAGGTGATTTAATTGGTAAATCAGTTTTTCAAATTAGTGATATAGTTTATTTATCTATGTTTGTTACAAATATTAATCCTATTGTTTTAATATTTAGCGCAATGGTTTCTGGTAGTTTAACAGATTTGATGTTTGGTGGATTAATTTATATTCCTTTTACAATTTTTATAAAAATTTTAATTGGAGTTACAATGTATTTTTTAAATAAAAAACTAAAAATATATTTTTCTATTATAGTTTCATACAGTTATGTTTTTTTATATGTTTTATATGTTTATATATTATATGATCAAAGTACAACAATTGTTGAAGCAATAACAGATTCAATTCAATATAGTGCAACAGTTGTTTTAAGCTTATTTATTGTTTCTTATAAAGATTTTAAAAAGATATATAATAATAAAAAGCAAAAAAGAGAAATAGAAGTATATAAAGATTTCAATTAAAAATTATAAAAAAGGGGTATTTGTGTAGTGAGAAGTTTTGAAAGAACAATAAGTGTTTTTAAAGAATTTGATTTTGTTTATTTAATATTTGCAGGAATTTTAGTGTTTATTTTACCTTATTTTATATATATTTTTTATCAAAGATATTTTCTAAATAATATTAAAAAAATTAATAAACATTTCTCAGAATTTTTAGATAAAAGAATTCTAACAAAAATTACTTTGACAGGTATTTTGAAATATTTCTTAGTTACTTCAATTTTTTATTTATGTGATTTTATATTTTTTTCATGTGCATTAACTAAAGCTTTATTAGTTGGTTCATTAGATAATAGTTTTTTATATATAATTATTGCTTTTTTTTCTGCACATACAATTATGTTTATAATAACTTCTATTGTATTATTGTTCGTTTATAAAAAACATGGAGTATACTCAGAAAGTGAAGCAAAAGAAGATTTTGAATTTTTTTTAAAGAAATATCAAGCAACTAATTTATTATATTTAGATTTTAATGTATTCAAAACAACAATATATATGTGTACAGATAAAAATAAATTTACAATTAAAGATGCATTAAATTATTTAGATAAGTTATTTGCTAAAAAAATAAAAAAAATAACTAATAGTAGTTATACAAAAAAAATTTATATGTTAAAACACTTTATAGGTGAAAAAGCTTGATTTTTAAATTTAGCTTTAAAAAAGGGTTTAGATAATTTAGATATTAGTATAAATGACTTGCCTGCATCTTTAAATGAGTACAAGTTAGCATTATTTAATAATTTTTGCTATGAATATAATAATTAATATTTTTTTATAAAGTTCTTTCCCCCTAATAAAATAGGTATTGTTTGTGAGTTTGAAATGTGATATACTTAATATAATACTAGAGAAAGGTTTTACATATATGAAAAAAGAAATGATATACCTACCTATTCTTGAATTTGTGCAAGCTAATTTAGATTTTAATATTGCTTCGAATAGAAAAGACTCAGAATACGATTTTAACTTTACAAGATGAAAAACTTTAATATTTTCAAGTCAAAAATTGAAGTTCGTTTTAAAATATGCACAATCAGTTTTGCAATGACTAAGTAAAGTTGTTGATGTTAAAAACTTCAATGTATCAATTGATACTACAACAGTTGATAGATTCAACTTTTCAATCTATGAATTTGATACACATGTATTTAACTGTACATTAGTAACTAACTTCTATTTAATCCCTGAAGAAGAATGGTCTTCAAAAATATTTGAAATGCATTTTTCAAAATATGTATTAACTAACGGTATTTTAAATATTAAAGATCAAACAAGTTTTTGAAAAGGTGAAGAAGGTTTTGAAAAATTTGTAAACATGCTGTATTCAATTATAAAAGAACCTTATAAATTTGAAAAACAAGCTCCAATTCAATGACAAGTTGACTTTAAAGATAAAAAATTATCAAGTTCTCAAATTAGAATGCAAATTGCTTCACTTGTAAATACAGGAATTAGACCAGAAGATCCTTATTTAACAATTGAACAAGCATTAAAAATTGAACAAGGTGCAAATCCTGAATTGGTTGCTCAAGAAGCTAAAAGAGAAAGTGATAGCAAACAAATTATTAATCCGATTTGAGATGAAGCTATTGAACAAGAACAAAAATACAAAGATTTAAACTTTGCTATGCAAAAAGTTCGCGGTATTGATTCAAAGAAAAAGAAAAGAAGATAAAATATAATACAAACTTTAATAAGTTTGTATTTTTTTTATTTTAAAATATATACTAATTTTGTAAGTGAGGAATAAAAAAAATGATAAAAGCAATTTTACTTGATATTGATGGAACTTTAACAAATGATGAAAAAAAGATAACTAAAAAAACTAAAGAAGCTTTGATGAATGCTCAAAAAAAAGGAATAATATTAGTTTTAGCTTCCGGAAGACCAACAAAAGGTTTATATAAATACGCAAAAGAATTAGAAATGGATAAATATAATGGTTTATTAATTTCATTTAATGGAGCTGTTATTACAAATTATGAAACAAATGAAAAATTATTTGAACAAGTAATTGAACATTCAAAAGCAGTAGAAGTATTAAATCATATGAAAAATTTTGATGTTATTCCAATGATTTATAAAGATGATCACATTATTGTAAATGATGTTTATAAAAATACAGTTAATAGTAAAGTTTTTGGAAAAATAAACATAATTGAATATGAAGCAAGAAATACAGATTATTTATTATGTGAAAAAAAAGACTTAGCAACAAATTTAGATTGAGATATTTGTAAAATTTTAGTTGCTGGAGATCCTGATTATTTGCATAATAGTTTTGAAAAAATGAAAAAACCCTTTATAAATAAATTAAACTCAATGTTTACTGCTGAATTTTACTATGAATTTACTGATTTAGGAGTTGATAAAGCCCATGCTTTAAATCAAGTAATGCCCAAATTAAATATTGCAAAAGAAGAAATTATTGCTTTTGGGGATGGTCAAAATGATAAAACTATGATTGAATATGCAGGAATAGGGGTTGCTATGGAAAATGCAATCGATGAATTAAAAGCAGTTGCACAATTTGTTACAAAATCAAATCAAGAAGATGGTATTGCATACGCTTTAGAAAAATACTTAAAATAACCAATTATGGTTATTTTTTAATTATTTTTAACAATTTTTATTTATTTTGGTTGTTTTTGGTTGAAATTAATCAAATTAGGGTATATCATAATTTTGAGGTGATAAATGTTTGTTAAGAGAAGAAAGACTAAAGATTATACTAGATTATGTAAATTCAAACGGTTTTTGTTCTAATGAAGACATTTCAAAAGCTCTAGGCATTCCGTTTAGCACCTTGAGAAGAGATTTGAATGACTTACAAAGTGAATATAAGTTAAAAAGAGTTCACGGTGGAGCACAATCAATTGTAGAGAAATCGATTCTTGAAGAAAGCATAACTTCCAAGTTAGAAAGCAATGTTGAAGCAAAAATAATTATTGCAAAAAAAGCTTTGAATTGCATAAAACCTGGAGAAACTATTTTTCTAGATGCAGGATCTAGTACATATCATTTGGCAAAACTAATAAAACCAGAACTAAGAATAAGAGTATATACAAACTCAATTATTAACGCACAAACATTAGCGAATAATGGCATAAATGAAGTATATATATTACCAGGTAAGTTTAAACCTACAACTAATGCGATTTGTGGAGTAGAAACAATTGCTGCTATAAAAAAATATTATTTTGATGTTTCTTTTATAGGGATAAATGCAATTGACAATGAGTACAATTTTTATACAACTGATGATGATGAAGCAGAAGTTAAAAAATTAGTTATTGAAAATTCACAGTTTAGTTTTGGGCTTGCTGACAAAAGCAAAATGAAATCAAAATCTTTTATAAAATTTAGTGATAAAAGAAAAATAGCATTAATTAATGAAGAGGTTTAAATCTATGATATACACTATAACATTAAACCCAGCTATTGACCACATAATTCTATCTAATAAACCAGTAGAATTAGGAATTACAAATATTTATTCTGACGAATATAAAGTAATCGGTGGGAAAGGAATCAATGCTGGAGTTATACTAAATAATTTAGAATCAAAAGTTAAAGCAATAGGAATTATGGGAAAAGAAAATAAAGATATTTTCTTAAATAAATTTCAAGAAGTAAGATTAAATAATCATTTTTTATTAAATCCTGGAAATACCAGAGTTAATTATAAAATTAAGCATTTAGAATCTCATCAAGAAACTGAATTAAATGGGATGGGATTTGAAACTGAATCAAAAATAATCGATGAATTGCTAAAATATTTAGAACTAAATTTAGAAAAAAAAGATATTGTCATAGTAACAGGAAGTGTTGCTAGAGGAATTTCAAAAGATATATATAAAACAATTGGCCAAATTGTTAACAAAAAAGAAGCATTATTAGTATGTGATGCAAATAATGAATTATTAAAAAATGCATTAGAAGCAAAACCTTACTTAATAAAACCAAACCTTGAAGAAATTTATTCTACATTAGGTTTAGAATTTGAAGAAAATATAAGTTTTGAAAAAGAAAAAGAGTTAATTGAAAAACTTCAAAACTTAGGAGCCCAAAATGTTTTATTAAGTAAAGGTTCAAAAGGGAGTTTGTACTTTACAAGTGATAAAAAAATTTATCAAGTTGGAATTGCAAAAGGAAAACTTGTTAACTCAGTTGGAGCTGGTGATAGTATGTTAGCAGGATTTGTATATGGAATTGATAACAATTTATCAGTGGAAAAAACATTACAATATGCTGCTGCTAGTGGTGGTGCTACTGCATTTAACGAATGACTAGCATCTAAAGAAGAAATTTTAGCTTTAATTGATCAAATTGAAGTAGTTGTAAAATAGGAGGTATTATATGGAACTTAAAGATTTATTTCATAAACAAGTGTCCTTCTTTAATGAAGATTTAAAATCTAAAGAAGAAACCATTGAGTTTCTAGCAAAAGCTTTAGTTAAAGAAAAATTCATTAAAGATGAAAAAACTTTTGTTGATGCTGTTTATAAACGTGAAAGTGAAGGTTCAACAGGGATGGGTGATGGAATTGCTATTCCTCATGTATTAAATCCAACTGTTGAAAAATCAGCAATTGCATTTTGTAAATTAAAAAACAAAGTTGATTGACAATCATTAGATGATCAACCAGCAGACTTAATCTTTATGATTATGACAAATGGAAAAGATGGAAACGAACACTTAGAAGCTTTAGCCAGTTTAAGTGGATATCTAGTAAAAAAAGAAGTTCAAGATGGTTTGAGAAAAGCTAAATCAATTGATGATATCAAAAGATTACTAGGTACTCCAAAAGCTAAAAAAGCAGAAGCGACTCCGGTTGGGGGATATGAAGTTGTTGGTATAACAGCATGTCCAACTGGGATTGCTCATACTTATTTAGCAGCAGAAAAAATTCAAGAGTATGCTGAAGAATTAGGTATGAAAGCAAAAGTGGAAACACAAGGTCGTAGAGGTGTTGAAGATAAATTAACTTCAGAAGATATCAAAAATGCAAAATATATAATATTAGCTCATGAAAAAGCTATTGTAGGAATGTCAAGATTCAATGGTTACAAAGTAGTTGATACTTCAACCAAAGAAGCAATTTATAAAGGAAAAGAAATAATTCAAAACTATGATTCTCATCCAAAATTAATGAAAGTTGAGAATGCTGCTGATGAAGAAGCAGGAAATGTAGGAGAATTAAACTTAGCACAATTTAAAAAAGTAAAACAAAACTTACTAGCAGGGGTTTCAAGAATGTTACCATTTGTTGTTGCTGGTGGAATTATTTTAGGATTAGGATTTTTATTTGACTATATTTATACAACAATAAACAAAATGCAAGCATTCTCATCATGAGAACAAGTAAGAGACTTCTTTAATATTTCAGATGATAGCGCAAAATCATTTTTTGCTAGTCTAAGTACAAAAGGATTAAATGGAGATTTTGCACAAGAACTTAGCGGAACTTGATGTTATTCATCTGGATCATTTGGTACAGTTTGGGTAGTATCTCATTACTTCTCGGCTATTGGGAAAATAGGTATGGAATTAATGATTCCAATTCTTGGAGGATATGTTTGTTATTCAATAGTAGGTCCACAAGGATTAATGGTTGGAGCTGTAGCAGGGTTAATGGCTAATGGTGATGGATTTATTTATGGTGGATCTGCACCTTGATCTGGAGCATGAAGTAGATTCTTGCCTTCTGATTTAGCAGGGTTATCATCAGGATTTATTGGAGCATTAGTAGGAGCTTATCTTGGTGCTTTAATGGTGTTTGGATTAACTAAACTTATGAAAAACTTTGGAAAAGGGTTACAAGGAGTTAGAGATATCGTATTTATACCAGTACTTTCATTATTATGTATAGCAATTATTATGTTAGTAATAAATATTCCGCTAGGATATGTAATGTTTGGATTACAAAAATTAATTACATTATTAGCAAATAATAATTTAATGGCATTAGTATGTGTGCTTGCTGGATTAATGATGTGTGTTGATATGGGGGGTCCAATTAACAAAATTGCATATACAATTGGTACTTTATCAGTTGGATTCCAATTAGTAAAAGATACATCATCAGTTGCATATCAAGAACAAACAATGATTATGACAGCTGCGATGGTTGGGGGAATGGTTCCTCCATTAGGAATTGCTGTAAGTACAGTTTTATTCCCAAGACAATGAACTGCAAAATCAAAAGATGCTGCAAAAACTAACTGATTAATGGGATTATGCTTTGTTTCAGAAGGAGCTATACCATTTATGATTGAAGATCCAAAAAGAATTTCAGTTACAGCTATGTTAGGGGGAGCGATTGCAGGAGCAATTGTTGGAATATTTAAAGTAACAATAGCTGCACCACATGGTGGAATATTTGTAGCACCATTAACTAATTCTATGATATTTGATGGTGATGGAATTCAAAAAGGTATGGGAGTAGTATTCTATATCGTCGCATTTGTATTAGGTTCAATTGCAATGGGAGTTGCTTTAGGATTTTGAAGAATGGCTGATATTAAAACTGGAAAACTTGTATTATCATCAACAAATGGTGTTAAAGAATCATTACAAGAAAGAATTGCAAAAGCAAATCAATCAAATAACACAAAAAGATTAGAAGGTTTAAATAAACAATTAGATAAATATCACCAATTTGAAGAAACTTTAAAAGAAAAACAAGCAATTTATGCAAATAAAGTAGCTCAAAAATCAAGTGCTAAAATGAAAAAATAATATCTAAATTTAAAGTACCTATTAGTAGGTACTTTTTTTATGCTTAATTTAGTGTAAAATATTTAAGTTAGAAATCAGGAGAATGAAAATGATTCAAAAACCAAGAGGAACAGAAGATTTAGTTGATAAAAAAGTAAAAGAGTTTTTTGCTTTGGAATTGATTCTTAGAAATATTGCTGATTTATATAATTATCGTGAAATTAGAACACCTTATTTTGAATCTGCTGATTTATTTTTAAGAAGTGTAGGACAAGATACAGATATTGTTAGTAAAGAAATGTATATTTTTAATGACAAAAAAAATCGTCAATTAGCATTAAGACCTGAAGGAACAGCACCAACTGTTAGATCTATTTTAGAAAATAAAATGTATATTAATGAAAATTTACCTTTAAAATTATTTTATTTTGGAAGTATGTTTCGTTATGAAAGACCACAAAATGGTAGACAAAGACAATTTAATACTTTTGGAGTTGAAATGTTTGGACCAAAGTCTCCAGAAGCAGACAGTGAAACAATTTGTTTAGCTGTTCATGTTTTAAAAACAATTGGTATTGAAAATTTTAATGTGCATTTAAATTATTTAGTTGGAGAAGAACAAAGAAAAATTTATATAAAAGATTTAAAAGATCAATTAAGTTCATTTGAACTATGTGATGATTGCAAAGAAAGATTAGAAAAAAATCCTTTAAGAGTTTTAGATTGTAAAGTTGATCAAGACAAATTTAAAAATATAAAAGATATGAAAGAATATCTATCTGATGAAGATAAAAAATATTATAATGATTTAAAAATTAATTTAAAAAACATTGATATAAAAATTATTGAAAATAAAAATTTAGTTAGAGGTTTAGATTACTATACTGGCTTTGTTTTTGAAATAAAAGATAATAATGATTTAACTTTAATTGGCGGTGGAAGATATGACAAACTTGTTAATGAACTAGGAAATGTTGATCTGCCAGCTGCCGGTTGAGGAATGGGTGTTGAAAGAATAATTTTAAGTTTAGAAAAACAAAATATTTTTTTAAGTGAAGAAAATTATTTAGATGCTTACATTGTCACACTATCTTCAAAATCAAAACAGTTTGCAAATATTTTAATGCTAATGTTAAGAAGTGCTGGATTAAAAGTTGATGGAGATTTTATGAATCGTAGTATGAAGTCTGCTTTTAAGCAAGCTGAAAAAAATAATTCAAAAAATATAATTATAATTGGGGACAATGAGTTAAAAGAAAATAATGTTGTTATAAAAAATCAACAAACAAAAGATGAAAAAAAAGTTTTATTCCAAGATATAGTTGATTACTTAATGAAAGGAAATTAATTTATGATAAGAACAAATACGTGTGGAGATTTAACAATAAAAAATATAGGACAAGAAGTAATTTTACAAGGATGAGTTGCAAAAGTTAGAAAAATGGGAGGACTGACTTTTGTTGACTTAAGAGATCGTTATGGTATTACTCAATTAAATGTTGGAGAAGAATTGAATGACAAAAAAGATTTTTTAAAAAATGAATATGTAATTCAAGTTCATGGAAAAGTTATTGAAAGAAAAAGTAAAAACCTAGAAATAAAAACTGGAGAAATAGAAATAGAAGTTAAGGATTTAATTTTAATAAACAAATCTGAACTAACTCCATTTGAAATCAAAAATAATATAGAAGCAAATGAAGAAACAAGATTAACTTATCGTTATTTAGATTTAAGAAGATATGAAGTTCAAAATAAATTAATAATGAGAAGTAAAATGAATTTTATTATTAGAAACTTTTTTAATCAACAAGACTTTATCGAAATAGAAACTCCTGTATTCGGAAAATCAACTCCAGAAGGAGCTAGAGACTTTTTAGTTCCTTCGAGATTAAATCCTCAAAAGTTTTACGCATTACCTCAATCTCCACAATTATATAAACAATTATTTATGATATCAGGTTTTGATAAATACTTTCAAATTGTAAAATGTTTTAGGGATGAAGATTTAAGAATCGATCGTCAACCAGAGTTTACACAACTTGATATGGAAATGGGATTTGCGACTTCAAATGATGTTATGAACACAATTGAAAATGTTATAAAAGAAATATTTTCAAAATTAAAAGGAATAGAAATTAAAGAACCAATTCCTACAATGAGTTATAAAGAATCATTTGAAAAATATGGAAATGACAAACCAGATTTAAGATTTGGTTATGAAATTAATTGTTTAGATAAAATTTTTAAAAATACTGAAATACCATTATTTTCAAATTTAGAAAATAAAACTATTAGAGCAATTTGTGTAAATGGCTTATTAAATAAAAAAGAATTAGAAACATTAAACGAAACTTCAAAACAAAATAGTGTAAATATTTTAGCATTTGCAAAATATGATTCAAAAGAATGAAGTGGATCAATAGGTTCTAAATTTAGTGATAACGAAAAAAATGAAATTATTAAACATTTTAATATTGAAAATGAAGTAACAGTTCTATTTGTTGTTGAAGAATATGAAAAAGCTTTAAAAGCAATAGGGGCAGTTAGAAGTCATGTTGGAAAATTACAAAACCTATGCGATCCAAATGAATATAAATTACTTTGAATAACTGATTTTCCATTATTCGAATGATCAGATGAAGAAGAAAGATATGTTGCAGCGCATCATCCATTTACAATGCCAAGTGATGATACTTTAGAAAATTTTGATAAAGATAAAGAGAATGCTAAAGCAAAAGCTTATGATATAGTTTTAAATGGTTTTGAAATTGGTGGAGGAAGCCAAAGAATAACAGATCCAAATATTCAACAAAGAATGTTTGATGCTGTCGGACTAACTTCTCAACAAGTAGAACAAAACTTTGGTTGATTTGTTAATGCATATAAATATGGAGCGCCTTATCATTCAGGTTGTGCATTAGGTTTAGATAGAATTATAATGTTATTAACACAAGCTGAAAACATTAGAGAAGTAATAGCATTTCCAAAAAACTCATCAGGTATTGATCCGATGACAAATGCGCCAGATAATGTAACAGATAAGCAATTAAATGAATTACATATAAAAACTCAATAATAGTTAATAAAAACATTCCTAAATAGAATGTTTTTATTTTGATTAAAACTATGTTATATTATTAAAAAGGTATATTGAGAAATGAAAAAAGGTAATTTTATAAAAATATTGAGTAAAATGATTTCAACTTTAATGTTTCCTTTTTTTGTTACTTTTGTTTGTTATTTTTTAATTATAGAAGATAAAAATTATTTAATTAAAAATTTAGATTGACTAAGTTGATTAACAGTTATTTTGACTGAATTGATAAGAGTGAATGCTTTAATAGTTTGTTTAATGGTATTTTTATTTCAAAGTAAAAGCTTGTATTCTAAAGAAGTTAGTCAAATTGATCAAAATACAATGATCAGATGAAATACAAACCAATTATATGCTTTAGGAATGAGTTTTTTTGCTTCATATTTTTTCTTTGAAAATTTGCCAAATAGAATATTAATAATGGATATTATAACTTTTACATGTATTTTTTATACAACTCTAACATTTGTTTTAATTCAAACAGAAAATATTAAAATTTTTGAGCGATTTTTTAAATTATGAAAAGCATTTTTTAAGAAAATATTTTTAATGCTTTATAATTTTTTATTTAGATTTATTGTTGCTATGAATAATACTATTTTATTTGTAAAAGCTAAATATAAAGATCGAAGGATTTTAATAGCTAATTTAAATAAAACAAAAAGAATTAAATTTATAAGTTATATTTATGGTGATAAAGTTAAAAGTTTTGTTTTTTAATATTAAATAATATTTTTTAAATATACTTTTTAGTATGTTTAAATAAAATAATTTGATTTACAAAATATAAATTCGTGTTAATCAAATTAATAATTAAAAAACAACTTAATACGAAGTTATTTTGTAAATTTCTTAATAAAAAGGAGAAAACAAAATGACAAAAATAACAAATAAATATTGATATTTAATTTTAATTTATTCAATAATTGCTTGTGTATCTAATGCTGGTCTTGTTTATGGTGGATATCGTCTATCTAGTGTAATAAATGATGTTTTTAACGAAGATATAAAACAAGCAATAAAAGATACAATAATAGTTTTAACTAGTTTTATAATAGCTATTGTATTTTATTTTTTTGCAGAAATCACAAGCGTATATATTACAAAAAAACTAAATATAAGCTTAAAAATGTTTATAACTGCAAAAATAAATTCATTATCAGATGATGAATTTAATGAATATAAAAAAGGAGATTTTATATCTTGATTTACAAATGATGTAGACTCAATAGGGAGAATGGTATTTTCAAGTATATTTAATATAGCAAGTGGATTGTCAAGCGTAATACTTTCTACTTATGCGATATTTTACTTTCATTGAATTATAGGTTTATCATTATTTGGTGTAACAATTTTAATGATAATATTACCAGGAATATTTCAAGGTTTAGTGTCTAAAAAAGCACAAAACATGTCTAAACAAAAAGAAGAATTTTCTCATCGAATAGAAAATTTATTAAATGGTTATAGACTATTTTCTTACAGTAATGAAAGAAGAATTTTTAATAAATTGATTAAAGTTGCTAATATAAAAGTTGAAAAATCAATTGCTTCATATGGTACTGCAAGCTCATCACAACAATCAGTCTTGTTTGCGCTTATGATATCAAGTCAACTTATAATGATGTTTGTAGCAATATTTTTAGCACTTAATGGTAAAACAGACAAAGGAGCAATGCTATCTGTTGCAAATATTTCAGGTACTTTTTTCCAAGGAGTTAACGCTTTATTTGGATCAATGTTTACAATAAGAGCAGGTATTGTGATATTTAAAAAATTCAAACATAAAAAAATAGATCAAGATATTATTACACAAAATATTCAGTTTAACAAACTTGAGTTAAAAGATATTAATTATAAAATTGAGAATAAAAATATTTTTAATAATTTAAATTTAACAATTGAAAAAAATAAAAAATATTTAGTATTAGGAGAATCTGGTAAAGGAAAAACAACTTTATTTAAAATTGTATTTGGTTTAATCGATAACTATGAAGGTGAGATAAAATTAAATGAAAAACTAAGTTATAAAAACTTAAATAAAAGTAATATAAAAAATATTATCTCTTATGTTCCTCAAGATACTATAATATTTAACGACACAATTAGAAATAATATAAGTTTATTTAATGATGAAGTATCAGATGCAGAAATAATAAAAGCTATTCATGCTGTTAATTTATCTGATTGATTTGAAAAAAATAACTTAGATACTATTATAAATAGTGAATTTAAAAATATGTCTGGAGGAGAAATGCAAAAAATTGCAATTGCAAGAGTTTTGGTTTTCAATAAAGATGTAATGATATTAGATGAAATTACTTCAAGTTTAGATAAAGAAAATAGAAATATAATAGAAAACTTAATAACTAATTTAAATAAAACTATCTTGTTGATTTCGCATACAGCTTTGGAGAATAATAATAATTTTGATAAAGTTATACAACTATAAAAAAGTACTTATTTTTAAAAATCGAGGAGGAATAATGTGAAAGAAAAGATAATAGAATTAAAAAACATACAAAAAGTTATAAATAATAAACTTATTTTAGATAAAGTTAATATAAGTTTTGAATGTAACTCTTTTACAACTATTATCGGAATGTCTGGTTCTGGAAAAACAACTCTTTTGAATATTTTATGCGGTTTAGAATATCCAACACATGGAGAAGTTTTTGTAAAAAAAACTAATATCAATAACTTAAAAAAAGTACAGTTAACAAAATTTAGAAGTTTAAATATAGGTTATATTTTTCAAGATTATAATTTAATAGATTACTTAAATGTAAAGGAAAACATTTTAATTACTTTGATGGTCAATAAACAAAAAGTTGATAAAATTAAATATTTAAATATTTTAAAATTTTTAGATCTTGAAAAAATAGAATTTGTAGTTGCAAATGAACTTTCAGGTGGTGAAAAACAAAGAGTAGCTATTGCAAGAACTTTAGTTGGAGAAAATAAAATTATTATAGCAGATGAACCAACTGGATCATTGGATTTCATAACTGCAAAAAAAGTAATTAAACTTTTAAAAGAAGCAGTTAATGAGTTTGATAAAACTTTAATTGTTGTTACCCATGATCCTAATGTAGCAAAAGAAGGGGAAAAAACTTTTGTTGTAAAAAATAATGAAGTAAAAATGTTAAAAAATAAATTTGAAATTAGCGAAATTGAATATTATTTATCTAATGATGGCAAAAATGAATAAAATACTTTTAAAAAACTTTAAAAACAACTTTCTCATTTTTTTACCTACAACATTTATTTTGATGATAACTTCTATTTTTCTATCAGTATCATGTTTGCTTTTAGAAAATAGTGTTTATTTTTTTCTAAATAATGATAAATATAAGTTAGATAATTCAATATTTATTTTAAATTTTTTTAGTGGTTTTATAGGTATAATAATTTTTATAAGTTTATTTTCTATTTTTAGTGCCTTAAATTTAAATTTAAACCTTAAAAAAAAGCAATTTCATTTATTATATATATTAGGTTTTAGCAATAACAAAATAAAATTATATGTATTTTTAGAAATAATTTTAATTAGTATAGTAATCATTGTTTTATCACTTTTAGTTGCTAATCCATTAAGTGAATTAATAGTCAACTATTTAAAATCTGTTAATGTTTTAGACAAAAAATTTTACATATATAAAAAATATGAGTATCAGTATATTTATGTATTAGGTATTTTATTATTTATTATTTTTATAACTTTTATAGCAACTAAAAATTTAAATAACTTATCAAATAAAAAAATTCATAATAAAAAATTTAAAAATGTTTATTCCTATATAAGTTTTATAGTGGGATTGGTATTTTTATTGATTCCCTTAGCACTTGTTTTAAATAAAAATATAATGCAATCAGAAACAGGTAAGGGTCTTTTAATTGATTGTTTAATAAGTTATATTGTCGGATTAGGTATAATAAGTAAACTTTTAATAAAAAATTTACTAAAAATTATTTATTTAAAGTCGAAGAAATATTTCATAAAACTTTTATTTGCAAATTTAAATAAAAGTTTAGATAAAATTTACTACTCAATTATTTTACTTACTATTTCTTTAATTTTTAGCTTTTATACAATAGCTTTTAATTTCAATGATTTTAATAATATAAATCAAAAAGCTATAAGCTTATTTATTTTAATAATTATCTATTTTTATACTTTTTTAATATACTTAAACTCAATATTTTTATATATTCTTGATCAAAAAAGCAATGTGAAGTTATTAAATATTATAGTTTATACCAAAAACAGACTTATTCTCATGATATTTTTTTCTATTTTAATTAGTAACCTAATATCACTTATATTTTCTATTTTCGGATTTTTATTTTATATTTCTGTGTATAGTTATTGAAATAATGATGCGATAATTGATAATCTATATATAAATAACTTTTTATATATAATATTTTCATCAATAATACTTTCTATTTTAATAAATCATGTTTTAATAAAAATAATAATCTTTAAAGCTTAAAAAAAATTATTATTTATTGATTTTACAGTATATCTATTATTAATTGCTAATATCTTATATTTTTGATAATATATTAGAAATAGATAAAGAGGTTTTTAAAGATGCATTTAAGTGAAAGTGTAAAAAATTTAGTAGGAAACTTGTTTAGAATGGATTTAAACTTAGACTTTTTTGCTCCTGGTTATATTGGATCAAAAAAAACAGAAGAAGATAATATACCATGATTAGGTCTAAAAAATCTAAATAGAGTAGTATATTTAGCAACAACATTTAATTATTACTTTTTTGAAAATATGATAGCTGATGTATCTTTGGCAATTGATGCAAAAGGAAAAGAACCAATAATTGTAGAAGTAAAAGATAGTTTTGTGGAATTAATAGAACTTGAAAAATTAGGTTTTTTACAATCTAGAGTTCAATCACTTTCAACACCACAAATGTTTATCTTAAAAGACATTTATAAATTTATGATTGATAAATATGCTAAATTTAATGAATTTTTTGAAAACGATCCAAATATCAAAATATTAGCAAAGCATCAAGGTCCTTTATCAGCTCCTTTATTTTTGAATTCAAGAGAAGTAGTTGATTACTATGAAAAAGGCGCAAAAATTATATTTACATTAGGTAAATAAAAAACCATTTTACAATGGTTTTTTATTTTTTTATTTTGCTATAATATTTTAAGAAATAAGGTAAATATGAAAAGAGAATTAGTCGCAAAAGAATATAAATGAAATTTAAATAATATTTATAAAACAAAAAAAGATTTTTTAAAAGATTTAAATAAATATATTAAAGGTAATAAGAAGTTATTAAAATATAAAAACAAACTAAGTGATTTTTTAACTTATAAAAAATTCTTTTTAGAAAATGAAAAAATAAATGAGATTAATGATAAACTGAGATACTTTTTGAATATATTAGATGTTGAGCAAAACAATAGTTTTGCACAAGAACTTGATGCAATTTATAATCAAAAAGTAGTCGAACTTGATGGCATGTTTACATGAGTAACAGAAGAGGTTAAAAGTTTTAATCAAAAAGAGTTTTTAAAAAAAGTAGAAAACGATAAAGATTTAAATTCTTATAAAAAGTTTTTTGTTGATTTTTATAAAAATTTAAATTACATATTACCCTATAAAGAAAGAAATCTTTTATCAAGAGTTTCTAATTCATCTTCAATAATATATGAAATGTATTCCGCATTAATTTATAAGGATAAAAAAAGAAAAAAATTTATTTTTAAAGATAAAAAATATGATTTAGATGAAACAACTTATGCAAAAATTCTTGCAGATACAAAACCAATTGAAGACCAAATTCTAAGAGCCAAATATTCTTATGAGTTTAAACAAGAATTAAATAATAAAAAACATACTTTTATAAAACTTTATGATGCTTTAACAAGAGAAAATATTGAATATGCAAATTTAATAGGTAAAAAAAATTTTTTTGATTTATTCTTTGATAAAGATGACTTTTATAAAAGTCATTTATTCACTTTGTTAGAAGCATCAAAATCTGCAAAAGAAGTGTATAGAGAATATTTAAAAATATATAAAGACTTTTTTGGTTTTACAGATAAATTTTATAACACTGATACTTCTTTAAAATTTGTAAAATCAAATAAAGATATAATAGATGTTGAAAAAGGAAAAGATATAATAAAAAAAGTATGTAGCAAATTAGGAAATGAGTATTTGTTATTTTTAAATAAATCATTAGAAAATTACAAAATTGATTATTACGAAAGTGAAAATAAGTCAACTGATGCTTTTACAATACCTTCAGATAAATACGATAATCTAATTTCTATGAATTGAACTGAAAATTGAGAATCGGTTTATACTTTAATCCATGAACTTGGTCATGCAGTGCATTTTGAGTTTGCAAAAAAATATCAACCTAAACCTTTAAATAATTTTGATAATTTGATCGCAGAAATAGCTTCAACTTTTAATGAGCATTTATTAAGTGATGAGCTTTTAAATACTAATAATAAAAACTTAAAAATAAATATTTTACAAAATAATATAGATTTTGTTTCTTTGAATTTTTTATCTTCTACTCTTTGAACTAAGTTTGAACTTGAAGTGTATAAACTTATTGAAAATAAAGAAGTTTTAAATTATACAAAAATAAAAAAAATAATTGATAATATGGAATCTAAAATTAAAATATTTAATGAATATGATAAAGACATGAAATATTATGAATGATTTAATATAAGCCATTTATATGAAGAACCTTTTTATCTATTTAAGTATGCTGTAACAGTTGCTATTTCTTATCACTTTTTCTTAGACTTTAAAAAAACTAATGATTCTACAAATTATTTAAACTTTTTAAAAGAAGGTGGATCACTAGATCCTATAGAATTATTTAAAAAATATGGATTTGATTGTACAAAAAAAGAATCATATGATCCTTTAATAAAACACATTGAAAATTTAATAAATAATTTAAAACAAGAATTAAAAGAATTAAATTAAATTTTGAATAAATCTTGTAATTATTTCACTATAACCATTTATAAAAGAATAAAATTCTGTTGTATTTTTTGAAACTATTGTATAGTTTTCTTTGTTAAGTTTTTTCTTTTTAGATAATTTTTTAGTATACTGAAATGTTAAAATTAGAACTTTATTTAAATTTATAATTGATGATTTTGGAATTATAAAATCAGATCAAATTAGCTCGAGGTATTTATCATCTTTATAAATATTTTTTAATTCATTTTGAAATATATTATAAAATCTTAAAATATTATCATTTGCTAATTTTAAAGCATATTCTTTTCTGTTTTTTACTTCTAATATTTTTAAATTTGAAAAATATATACACATTGTTTCTATTGAATTTATTATTCCTAAAAGTTGACAATACTGAACAATCATCTTTTCAAATTTTTTTAATAGCTTTATATCCACTTTAATAATTTTATATTTTTGATTAAAAAAGTTTTTAAAATTATTTATGTTTTGAAATAATTCTGGATAATCATCAATCAATTTGCTCGTGTTAATTTCAAAACCAACATCTGACTTATTAAATTTTATTAGTCAGACTTTCAATCTTTTTATAATTTTATTAACTTTACTTTTTCAAAATGGATTTAAATCTTTTAAATCTGTAACATTATCTTCGTTAATTTTGAAACATTTAAAATATGAAATCATTGTTAACCATCTTTCTAAATACAATTATAATTATATATTATAAGTAGATTTTTAGGTGATTATATGTTAGGTAAATACAATTTTACAAAAAAAGAGGCTGAATTAGTAATTAAGTTTTTCGAACCTTCAGTTGCAAGTATTTATATATGAATTGAGTATATAAATGATATTTTTAAAATTAATAATTTGAAATTCGATAAATTAGATGAAACAATTAATAAATTAAATAAATTAGAGTTTTTAGATGAGTTTCAAGATCTAAAAGATGAATTTTTAGTAACTTATGAAAAAATTTTATATTATTTAATTAAGTTAGATATTGAAAAAATTAATTATCAAAGAGATATAATTCAACCTAAAATGAGAGTTTTGAAAGAGTGTTTTTTGTTGACGGATGCAATTGTAAAATATTGTTATGATTTTGTGAAAAAAAACAAAAATACTCCTAATCTTGATGATTTAAATGTTTTTTTTATAAATAGGCTTTTAGCATATGTTAAAACCATTGAGTTTTTTAATAAAAATACCAAAAAAAACTTAAGTAAGCAAAACTTAGAAGTAATAGAAAAAATGAAAGCATGCTCTAATTTAGAAGAATGGCAAAAAAGTTTGGACTTAATAATAGGCGATTATGAAGATAATCATTTAGATTATTTGTATTTAAATGATGATTATAACGATTATTTTTGAAAAATAGTCAATAAAATAAGTCAAATGCAAGCGATTTGCGAAATTGCAGTTAATATTAAATATAATCTTAATGATAATCAAGATTAAAATAATTTCAAATAGTAATAATTTTTATTTTTTTTAAATTTTGCTAAAATAATATTGTTATAAAATCAAAATTTTATAACAAAAGCATACATTAATAACAATTTACTTAAACTTTTTATACAAATAGCATACAAAATATATTGATATTTATATTGAGTTTAAAAAAACAAATGCTTTCCTTTCAAAATGGCATTTGTTTTTTTTATTTTAAGAAATATATTCCAATTATAAGATAAAAAATAAAATAATTTTCTATATATGCTATAATATGAAAGTTATAAGAAAACATTAATCTTTTTTATAACAAAAATAGTTTATATTTATAGTGATTAAATTAAACGATTGTTCTAAGGCGAGTTTATGACATATTTCTTATAAACTTGTTTTTTTCTTTTTATTTTCTATTCCCATATTTGTTATACAATGAAACTAAGATAAAGTGGTGATTATATGGATTGATTAATTAGTATCAATAATAATATATACAATTTCGCAAGAGATTTTAACTCTATTTTGAAAAAAAGAAGATTATTCGAGCAAGTTAATAATGAATCTAATAATATTAGTATATTTTGTGCAAGAACTATTAATAATCAGTATTGCGGTGCTCATCTAATCTTAAAGTATAAACATGATTTAAGAGCTCAATATTATTTAACATCTACTGAAGGGTCGCTTCACAAAGAATGGTGTTTCAATGGTGTAAAAGAAGAATTAAATAATAATTTTTATAAAGAAATTATATCTAGTGAATTAATTAATAATTTTTATAAAGAGAATATCGTACAATTATGCGTTTTAGAAAAAAATGCTGCAAAACTTGAAATATTTGATTATACAAATTGCAATATTATAGAATTACAAAAAGTACTATCTAAAAACAATATAAAAAAAGTAACTTTAAATTCAGCAATTAACTACTTTTTTGAAATAGTTAAAAAAGATATTTCAAAAAATGGATTAACTTCATTTGAAGATGATTTTAAAAATAATCATTTTGAAGTATATAATGATCATAAAAATTATATTGATATAAATTTAAAAACTGAGAAATTTAGAAATGCGCCAATTAAATTAACTTTATGTGATTTTACAAAAACAAACTATGATAGTTTTGATGAAAACGGAAATATGATTATAACTATTGATAATATTGATGTTTTTGAATTAGAAAGGGCAGATACTTCTAAAGATATTAAATTAAAAAAAGTTAGAAAAAACTATCATAATAAAGTTCTAAAAGTTATTTTTAAAAATCAAAGAATTATACAAAACTTAATCAAATTAAAGCAATTTGCAAATAGTGAGTATGAAAATAGTCGATTAGATTTTAAAAATTTTTATGGAATTAGCTTCTTAGTTGATAAAACGAGACATTATGAAGTTATAAATAACACATTATTTTTAACTTTTGAAGTTTTAGAATATGAAGAATTTGTAACAGTTAAAAAAAATTTAAAATATTATGAATTAGATGAATTCATTGATAATAAATTACAAAAAAACTAATATAATTAGTTTTTTTGTTTTTGCAGAGACCTTCGCAACTATTTGACTTTATTTGAAAACAATATATTATAAATTTGTATATTTATAATTAATCATAAATAAATTTTAGATAGGGTTTAACGAATAAGTTTGAAAGGTGATTAAAAATGGCAGCAGATTCTAAAAATGATCTTAATTATAACGAAGAGAGTATTCAAGTTTTAGAAGGACTAGAAGCAGTTAGAAAAAGACCGGGAATGTATATTGGTTCAACAGATGTTAGAGGATTACATCACTTAGTTTGAGAGATAGTTGACAATTCAATCGATGAAGCTTTAGCAGGTTTTTGTAATGAAATAAATGTAATAATTGAAAAAGATGGATCGATAACTGTTAAAGATAATGGTAGAGGTGTACCTATTGGTATGTATAAAGGTACAAACCAATCAACTCCTGAAATAATTTTTTCAGTTTTACATGCTGGAGGAAAGTTTGGTGGAGATGGTTATAAAACAAGCGGGGGATTACACGGTGTTGGTTCTTCTGTTGTAAATGCTTTATCTTCTAAATTTAAAGTAACTATTTATCGTGATGGATTAATATCGAAAATATCTTTTTCAAAAGGTGGACATCTAGTTACTCCTTTAAAAACAATAGGAAATAGTAAAGTTACAGGAACAGTTGTTAATTTTTTACCAGATGAAACTATGTTTAGCACAACAAAGTTTTCATTTTCTACAATTAGCGAAAGATTAAAAGAATCTGCATTATTAAATTCAGGATTAAAAATCACTTTAAAAGACGAAAGAAGTGATAAATATGTTGAGTATAAATATGATAATGGTTTAATTGAATTTGTAAATGAACTTAAAGGAAATGAAAAAGCAATATGTAATCCAATTCTTATTAAAGGACAAGATTCACAAATTGATGTTGAAATAGCTCTAACTTATACTGATGACTTTTCTGAAAACGTTATGGGGTTTGCAAATAATGTTAAAACTAGTGATGGAGGAACTCATATATCTGGTTTTAAAACTGGACTTTTAAAATCTTTAAATGAATACGGAAGAGATCAAGCGATTTTAAAAGATAAAAAATTAGAAGCAAATGATGTTAAAGAAGGATTAATAGCTGTTGTTACTGTAAAAATCCCTGAAAATCTAATCCAATATGAAGGTCAAACAAAAGGAAAATTAGGAACTAGTGAAGCAAGAGGGGCTTGTGAAAAAATCACTGAAGAAATATTTGGTTTTTGATTACAAGAAAATAAAGCAATTGCTATATCTATAATAGAAAAAGCCTTGATTGCTAAAAAAGCTAGAGACGAAGCAAGAAAAGCAAGGCAAGCAATAAGAGATCAAAAAACAAAAACCAGAGGAAAAACTATGCTTGGTAAATTAACACCAGCACAAGGAAAAGATAAATCTCTAAATGAATTATTTTTAGTCGAAGGAGATTCAGCTGGTGGAAGTGCAAAATCTGGAAGAGATAGAAAGTTTCAAGCGATATTACCACTTAGAGGTAAGGTTATAAACGCTGAAAAAACAAAAATACTAGATTTATTAAAAAACGAAGAAATTACAACAATCATTAACGCAATTGGTGCAGGTATGGGAAGTGATTTTGATATCAATGATATTAATTATGGAAAAATCATTATAATGACAGATGCAGATACAGATGGTGCTCATATTCAAACTTTATTATTGACTTTCTTTTATCGATATATGAAAGAATTGATAATAAATAAAAATGTATATATTGCAATGCCTCCACTTTTTAAAGTTACACAAGGTAATAAAAAGGACTTTTTATATTTATGAACAGAAGACGAACTTGCTGCATATATGAAAAAAGCTAAGCAAAAAGTTGAGATACAAAGATATAAAGGACTTGGAGAAATGAATGCGGTTCAGTTGTGAGAAACTACAATGGACCCAGAACAAAGAAAATTAATTCAAGTCTCAATTGAAGATGCTTTAAGTGCAGAAAACACTTTTAGAACTCTAATGGGTGATAATGCTGAAAAACGAAAAGAGTGAATAGAAGAAAATGTTAAATTCACTTTAGAAGATAATGCTGAATTTATTTAATCATTTTTAAAAATTTAATAGGAGTTCACTAAATATGGAAAATTTAAGCTTCCAAAGTAAAATCAATTTGATTATTTCAAAAATTGAAGAATATAATAAAATTAATAAAGATATTAAACGTTTTAGTATATTTAATAGTTTTATTATTGATTACGAACTTGATGGAGCTTATTTATACTTTAATATGAGAAATATAGACGATGAAAATATGGAATTAATGACATCAGCTGGAAGTGAACAATCCTTACATGTAAATCTAAAAAAAGATATAGATTTTTTATGAATTATAAAAACTGTTAATCGTTTTATTGAAAATGCAAAAGATACAATGAAAAAAGCAAGAGAGTTATCAAAACCTCAAGCAGGAATTCTGATTTATGATGAGTTTACCGATTCGTATTATTTAAATCCTTCAACAGGACCTTTGTTATTAAAGTCTAAAGAAATTGCCAGAGAAATAGCTTCAACTAGATTAGATATATTTGCAATATTTATTCATTTAAGAACAACAGTTATTGGTAGAGATAGATCTATGGAACTTGTTGGGCTTGATGGAGAAATGATGCTAAAAAAAATTTTGAGTATAATTCAAGAATTAAAACAGTTTGAAATAAAATTAAAAAAAATTGAAGGTATTCCTAGATTTATTTGTGATATAAATGAAATTGATAGTAAAAATTATGAGTTTGAAGGATATTTAACAGATGATTTTGGAGATAATCAATTATACATAACAAAACAAAATGATTTAGTACAAAGAATTAATATAGATACTCAAGTTGGTTTTGAAGTTGTTTATTCAATGCTAAGAACTGCACAAGAGTTTTCTAAATTAATGATGGGTTTAGCAAGAACATTAGTTTCTAAAAATGATCCAAAGTTATATAAACAAGATACTTTATCAAAGTTATGAATTTTAACTTCAGAAGGCAAAAAAACTATGAAAAATTTAAAAATAATGGACTTTTTAAATGAAGATATTTCAGAAATTAATTTTGATATAAATCAATAGAAAGGTAAAAATAATGGCTCAAGAAAATAAAGAAAAAGGTATATTAAATTATTCATTAGAAGAATTAATGGGAGATAGATTTGGTAGATATGCCAAATATATCATTCAAGAAAGAGCTCTTCCTGATGTTAGAGATGGATTAAAACCAGTTCAAAGAAGAGTTTTATATGCAATGAATGATATTAATTTAACTTACGATAAACCATATAAAAAATCTGCACGTATTGTTGGAGATGTAATTGGTAAGTATCACCCTCATGGAGATACTTCTGTTTATGATGCTTTAGTTAGAATGAGTCAAATTTGAAAACTAAATATTCCATTAGTTGACATGCATGGTAATAACGGTTCTATTGATGGGGATAGTGCTGCTGCTATGCGTTATACTGAGGCTAGACTTTCTAAAATAAGTAGTTTATTATTAAAAGATTTGCAAAAAAATACTGTTTTATTTGCACCAAATTTTGATGATTCTGAAAAAGAACCAACAGTTTTACCTGGATATTTTCCAAATATTTTAGTAAATGGATCAACTGGAATTGCTGCAGGTTATGCTACAAATATGCCTCCACATAATTTAGGAGAGATTATTGATGCAGTTATTGCTACAATTAAAAATCCTGAAATAAAATTAAAAGATATATCAAAAATTGTAAAAGGTCCAGATTTTCCAACCGGAGCAATTGTTATGAGTCAAGAAGGAATTGATTCTGCATTTCAAACTGGAAAAGGAAGAATAATTGTTCAATCAAAAATGCATAGAGAAGAAAATAATATTATTATTGATGAAATTCCTTATGAGATAGTTAAACAAGATTTAGTAAGAAAAATTGGCGAAACAGTTGATGCAAATACTGCAATTGATGTTAAAGAAGTAAGAGATGAAACTGATAGAACTGGTTTAAGAATAGTAATCGAACTTGCAGAAAAAACTGACTATGATATTACTAGAAAATTTTTATTAAAAAATACTCCTCTACAAATTTCATATAACTACAATAATGTTGTTATTGTTGATAAACAACCAAAACAATTAGGGATAGTTCCTATAATAAAAGCTTATGTAAGTCATTACAAAGAAGTTTTCATTAAAAAAACTCAATTTGATTTAGATAAAGCAATTAAAAGACAAGAAATTATTGAAGGTTTAATAAAAGCTATTTCAATTTTAGATGAAGTTATAGCAATTATTAGAAATTCAAAAAATAGAACTGATGCAATTGAAAATTTAATCAAAGCATATGATTTTAGTGAAAATCAAGCAATTGCAATTGTAGATTTGAGATTATATCGTTTAACTTCTACTGATATTTTAAAATTAGAAGAAGAGAAAAAAGAGTTATTAGGATTGATTGAAAAATATAAATCAATAATTGGAAATAGTGATGTTTTAAATAATGAAATTATTAATGAATTAACAGAAACAAAAAAAGAATTTAATGTGCCAAGAAGAACTGAAATAGTTAAAGAAATTGAAAACATTGACTTTGAAATAAAAGAAACCATTGTGGAAAAAGATTATACAATTTGAATTTCTCAAGATGGATATATAAAAGCAATTGAAGATAGTCAAATGGGAAAAAATCCAATGGACACATTCAAACGTAAACCAAATGATATATGAATCTCATGTGTACCAGCTTCAAGTTTAGATTTCTTATTATTAGTTTCAAGTTCTGGAACTTATTATTCAATTCCTGTTTATAAAATTAAACCAAGCAAGTGAAAAGAAAATGGGATGCATTTAAATACTGTTGCGCAAATGACAGCTCAAAATGAAAGATTACTAGCTGCATTTGTAGTTAGAACATTTAAAAACGCAAAACAAGAAATATTACTTGCAACTAAATTGGGATTAATAAAAAGAACTCCAATTGAAGATTTAGAAACTAAAATGTTTTCAAAATCATTTAGAATTATGAAATTAGGACCAGGAGATGAATTAGTTTCTGCATCACTTGTTACTTCAAAAACAAAAACTGTTACAATGTTAACTCAATCAGGATTTGCAGTTAGATATGATATTGCAGAAATTCCAAGTGCAGGTCCTAATGCAAAAGGAGTTAAATCAACTGTTGTAAAAGGTGAAAATATTATTGCTGGAAAAGCATTTGATTCTGGAGATATTTTAATATTAACTAATAAAGGTAATATTAAAAAAATTAAACAAGATCTTGTACCAATAATGACAAGACCAAAACGTGGTGTAAGATTATATCCAATGAATAAGAAACGTGATGAATTCGCAACTTTCTTATACAATGTAAGCAATAAAGATATATTAAATATCTTAGATGTAAACGATGAATTAAAACAAATGAGTGTAAGTAGTTTTAAATATTTAGATTTAGAAAGTATACCAACAGATCTAGATATGAATGAAATTTTAACAACTACTTTAGAAAAATCATTTATTATAAAAAATGGAGATATACCTCCATCACCTAAAACTTCTGATGACAATGAAGATAATCAAAGTAAAATTATTAATGATGAAGCAGAAAAAAATATAGAAGAAGAAAATACAGAAGAATTAAAAGTCGATATAGATGATTTATTATAAATACTTTTGTATTTTTTTTATTTAATATAAAAATTTAATAAAAAAAACTATAATAATTTTAAGAGAGTAAAAAAAATGACAGAAATAAAAGGAAAAATAAAAAGTTTTATATTTAATAATGAAAGTTTTGGTATAGCTGTTTTTACATTAATGGATAACGATACAAGATCTATTGTTATCAAAGGTGAAATAACTTCTATGAGACTAAATGTTTTTTATTGTTTAAACGGGGAAACTGTTATTGATAGAAAAACTAATAAAACAGTTTTTGAAGTTAAAAGTTTAAAACAAATTAAAATTACTTCAAAAGAACTTGTAATAAAATATCTTTGCTCACCACTTTTTCCAACAGTAGGAAAAAAACTAGCTTCTAATATTTATGAACATTTTGGAGATGATACTTTTAATAAAATTTTATCTAATCCAGAAGAAATAAAAAATGTTAAAGATATAAAAGATTCTCAAGTGTTAATAATTTTAGAAACATTAAAAGAAAATTTTGAAGAAAATAAAGTCTTAGAAATTTTTGAAGAGCATAATTTAAAGTTAGAATTTTATACACGTGTTGAAAAGTTTTGCAAGAGTAAAGAAGAAATAAAAAACACTTTTGAAAATAATTTTTTTGAGTTTGCAGAAAATAATTTTTTAATTCCTTTTAAAGAAGTTGACAGAGTTGCTTTAGCATTTGGATTAGAAGAAAATTCATCAGAAAGAATTTCATGATGAGCAAAACATCTTGCAAATGAACTTTTAATGAAAACAGGAAATACTTATTTAGAGTTATCTATAATAAAAAAAGAATTACAAAAAGTTTTTTTTAATATAAATTACGAAATTTTTGATGAAAAATTAATTTATGCCAAAAAAAATAAACTATTAATTTTTGAAAATAAAAAAGTTTATACAAAAGAAAGTTATAATGATGAAGTTGTAATTTCTAAATCTTTACTAGAAATTGAAAACAAAATAAAAATTACTAAAAAAACTAATTTAGAAGATTATTTAAAAGAAGTAGAATCGTTTGTTGAAACTTCTTTAAACATAAAAAACTTTAAATATAATCAAGAGCAAAAATTGGCACTTGAAAACTTTTTAAATAATAATGTAAGTATAGTTACAGGGGGACCAGGTACTGGAAAAACAACTGTAATAATTGGACTTGTTAAATTATATGAGTTAGTTTACAAAAAAAATGATTTTGCAATTGTTGCTCCAACCGGTAGAGCTGCAAGTAGAATAAATGAAGTTTCAAATTATGAAGCAACTACTATTCATAGGTTATTAAAATATACAGGTAACAATACTTTTGAATATAATGATTTAAACAAACTTGATAGAGGTATGTTAATAATAGATGAATCATCAATGATTGATAATCATCTATTTGCATCAATTTTTTTAGGATTAGAAAATTTAAATAAAATTGTTTTAGTTGGTGATATAGATCAATTACCAAGTGTAAGTTATGGGAATGCTTTTGAAGATATTATAAAAAGTAATTGTTTTTCTTTAACAAAATTAATTACAAACAATAGACAAATTATAACGGGGGAAAGAAATTCAATAATTGATTTAGCAAATTGTATAAAAAATAATAATATAGAGCTTTTTGATTTTGATAATACAAATAATATAGATTTCATTTTTGAAAATGATGCTAATTATGCATTGGAAAAAATTAAAGATACTTATCTTAATAATAGACCAATTGATTTTGAAGAAGAAATTTTAAATTTACAAATAGTTGCACCAATGTATAAAAATAATTTAGGAATAGATAGAATTAATAATTTTATCCAAAGCATTGTTAATGTGAATAAAAAAAATATTTATAAAAGAGGAGAAGTTGAATATAAAGCTAATGATAAAATTATGTATACAGAAAATGATTCTTATTTAAAAGTTTTTAATGGTGATGTAGGATATATTCAAGAAATAATTTTAGAAAATAAAAAATTTAAAATTGCAAAAACTTATTTCAATAAAGAGTTAAAAGAATTAAATAGTTCACAATTTGGAAAAGTAAAACTTAATTATGCTTGTAGTATTCATAAGACACAAGGAAGTGAATATGATAAAGTTATTTTAGTTTTAGATAATACAAACCAATACTCATCTTTTTTAATTAACAAAAAAATGATATACACTGCAATAACTAGAGCAAAAAAACATTTATTTATAATTGGAGATAAAAAATTATTTATTAATTCATGTAAAAAAGAAATGAAAGAAAGATTAACAACTTTAAAAGATAGAATTGTTCAATTAATTGATTAAAAAAAGTTATAATATATAAGCATAGGAGAAATTTATGAAGAACAAAATATTTACAAGTTTATTTATAAGTACGGCTGCTTTTTTTCTAATTTTGTTGATAGTTTCTTTGGTTATACTTCCTAGTTTTAATGTTAATAATGAATTAAATAGAATATCAGCGGTTGATTCAAGTGATCAAGGATTAAAAGATTATTTGAATGGTGTAAGACCACAAATAAAAAATAAACTTGATTTAGCATATATGATTATGGGTTTAGAAGGATTGGCGACAATGTTAAAAATTCATTCATTTGGTGCTGTTACTTTTACTATTTTGGTTGCTTTCTTTTTACCTTTAGTTGGTACAATGTTAGGAATGAGTTTTTTAGTTTTTATTTTTTTGTTTGTAATTTCAAGAATAAAAAGAGAATATAAATTCAATACAATTAGATTGGTAGGGAAAATTGGTTTATTAGTAAGTTCTATATTATTTTTAATTATGGGAATATGTGGAATAGTTTTGTTTTCAGATATTGAAACCTTTTTAAATAAAAATAACGGTGAAGTATCAAATTATTTAAATAAAATTAATAATAACGATTCTCATAACGCTTTTGCTTTTATTACTGCATATAAATATTTTACAAATGGTAAATTACAAACTCTTATAAATAATGGTTTAAGTCAAACTGGATTATATTTTGGAGATTTACCTATTAATAATATTGAATTTAAAGCAGCAATTAGTATAGGTACTATAATGATGCCTTTGTTTGGAATATTTACAATATTTTTTGCATCAATTTGAATCGCAACATTTATTTCAAATAGAAACAATCAAAATTCCAAATTTTCATATTGATTAAAAAACGTTAGAATTGATTCTAAAAAAGAATTTAGAAGAAGTTTGTTAACTAATGTTTGATTTTGAATATCTTTAATAACTTTTACAATAACAATTATTTTTCCAGGATTTATACACCCATATAAAACATTAGCCCAAACTTTATTAACTGTTATAAATGCTATTTTGTTGCCGATTTGTTTTATACCTATAATTTATGCATGATTTAAAATAATTAAAATTAAAAGATTTAATTATAATAAAATGATGTTTAATCAAATTTTAATATTTTGTATCCTAGTTATGCTAAATCAAATTTTAATTTGAGTTTTATTTAGAGAAGAAATGGGAATGCCTGTTTGAATAGGTATTACATGACCATTTGTAGCTATAATTTTATCAATTGTTTGTCTATTTGGTTTTGTACATCAAAAACATTAAAATAAAATTTCATTTATTAAGTAAAAAAATATAAAGTAAGTTTTAAAAATAATTATTAAAATTTAAACACAAATTTTAATAATTATTTTATTTATTTAGATTAATTAGAATAAAATTAAATAAAAGGGGTATAAAAATGATAATAAAAAATGCATCGATTATTTTAGAAGATAAAACTATCAAAAAAGGATGATTAGAAATTGAAAATAAAAAAATTTTATCCATAAACGAAGGAGAAACTAACTTAGAAGGAATAGATTTAAAAGGCAGTTTTTTACTACCTGGATTTATAGATTGTCATGTTCATGGTGGTTATGGAGTTGATTTTGAATCAGGAACAATTGAAGCATATCATAAGTTTGCAAATCTTGTAACAAAAGAAGGTATAACAACTTATGTTCAAGGAAGTGTTACAAATTCAAAGGAAAATAATATTAAATATATGAGTGCTTTTAAAAAGTTTATGAAAAATCAAGATTTAAAAAGTGCAAAATGTTTAGGAATTCATTTAGAAGGTCCTTTTATTTCGCCTGCAAAAAAAGGAGCACATGAATTAGCTTTATTAGAGCCACCAAATATAAAGACTTTAAAAGAATTAATTGAATTAAGTGATGATAATATTAGAATTATTACATACGCTCCAGATCTACAAGATGGTGGATTTACAAGATATTTAATAGAACATAATATTTTACCTTCTGCAGGTCATACAAATACAAGTGTACAAGATTTTTTAAAAGATTATAAGCTTGGAGTAAGACATCTAACTCATTTGTTTAATGGTATGAGTGGAGTAAGTCAACAAGAACCTGGACTAACTACCGCTGGTTTATATTTTGATGATATTTTGTGTGAAGTTATAACAGATTCAATACATATACAACCAGATACTTTGAGATTAATTTATAAAATCAAAGGACCAAAAGGAATGTGTATTATAACTGATGCAATGAACGCTAAAGGTTTACCGGATGGAGAATATAAACTAGGAAACCTTCCGGTTATAAAAGAAGGTATGAAAGTTTTTTTAAAAGAAAATAAAGCACTTGCAGGAGCTGGTGCTACATATGATCATAATGTAAGAGTAATGTTAAAAGAAATTCCTAATTTATCTTTAAACAATTTAATTTATATGACTTCAATAAATATAGCTAAACAATTAAATATTTTTGATAAAACTGGAAATATTGAAGTTGGAAAATTTGCAGATTTAACAGTTTTAAATAATGAATATCAAGTTGAAAAAACATTTGTAAATGGAGAATTAGTTTATGAAAAATAATATAAATCCAAAATCATATACATTAACAAAATATTTACTTACAATTTCAATGTTATCTTTTTATTTACTTTGTTTTTTAATGGTAGTTGTTTCAATCAAAACAAAACAAGCTAATTTAGGAGAATGATGAACAAATAATTATTTAAAAGTAGGATTTATTTTACAAGTAATGGGAATGCTTTTTGGGATTATTTATTTTTTAATTAGATATCGACTACACAAAAGATCTGAGTATAAATACAATAAAAAAGAATCTTATTTTGTAATAACTTATCTATGTAGTTTTATTTTATTAATTGTATTTTGTTTTTTATTATTATTGGTTATGAAATATGCAATAGTTTCTTATTTTGTTTTAACTTTTATTTTTATTATTTTTGTATTCATATTAGGAATAACTATTTCAGTTTTAGAAACTATTTCAAGATTAAAAGAACAAGCCTTAGTTAATAAAGTTTGATTTGAAAATAATAAAGGTAAAAAAACTCAACACGAAATTAAAGAAGAAAAAAAAGCACAAGAATTACTAGAAAAAAACGACAATCCTTTTATGGAGGAAAAAAATGATTAAACTAGGAACCATAGGAACAAGTGAAATAGTAAAAAAATTTGTTAATAGTGCTAAAAAAAATAGTAATCTTAAAGTTTTGTGTTGTTATTCAAGAAATAAAGAAAAAGCAAAAAATTTTATTATTGAAAATGATTTAGCTGCAAAAGCAGTAGATTCTTTTGAAGTTTTAGTTGATGAAGTTGATGCAATTTATATTGCAAGTCCTAATGGTTTGCATTATGAACATGCAAAGTATTTTTTAACTCAACAAAAGCATGTACTTTTAGAAAAACCTTTGACACTTAATTATGATCAAGCTTGTGAATTAGCACAAATTGCAGAAATGAATAATGTTTTTTTAATGGAAGCATATCGAACTGCTCATTTGCCTCAATTTAAAAAGCTGTTAGATAGTTGTCAAAATTATCAACCATTTTTAGCAAATTTTAGTATGACTCAATATTCTTCAAGAATGGAAAAAGTAAAACATGGAATTTATGATTCTGTATTTGATGAAAATTTAGGAAAAGGATCAACTTATGATATGTTAATATATCCTGTTGAATTAGCAATTGCTTTGTTTGGTCCTGTAAAAGAAGTAAAATCAATGGGATTAAAATTACCCAATGGTAGCGGCTTAAATGATATAGTTCTTATGAAACATACTAATAACGTTTTAGTGAATATAACTTGTTCTAAAGCTTCTGAGGGTTTAAACTATAATGAAATTTTATCAGATCATATAACTATAAGTTTTTTAGATAATTCTCATTTAAAAGAGATAAGCATCAAAAAAAGAGTTAATGATACAAGAGAAATGTTATATGAACAAAAAGAACCAATGGATTACTTTGAGTATGAAATCAAAGTTTTTGTAAAAATGATATTAGAAAATGACATTTCATTAAGAAATTACTTACTTGATGTTAGTTGTGAAGCAATTAAAGTTTTAAATCAAGTAGAAAAAAATCGTGATAAATTAGGAGAAATACAACATGAAACTTAATAAATATATAGATCACACTTTGTTAAAACCAGATGCAACAAAAAAAGAAATTGAAATATTATGCAAAGAAGCAATAGAATATGATTTTGCAACAGTCTGTATTAATCCTTGTTTTGTAAGTTTAGCATCAAGTATTTTAAAAAAAACAAATATTGGTATTACAACAGTTGTAGGGTTCCCGTTAGGATCAAATACTATTAATACTAAAGTTTTAGAACTAAAGGAAGCTTTAAATAATGGTGCTAGTGAAATAGATTTTGTCATAAATATTAGTGCAGTAAAAGATAAAGATTGAATCTATGTTTTAAATGAGTTTAAAGAAATAAAAAATAATGCAAATTCTAATATCGTTAAAGTAATACTTGAAACTTGTTTGTTAACAAAAGAAGAAATAATTAAATGTTGTGAATTAGCTTGTGAAGCAAAAATTGACTATGTAAAAACTTCAACAGGTTTTTCAAAAGCGGGAGCAACATTTGAAAATGTTAAATTAATGAAAGATATAGTTAGTAGTAGGGCACTTGTAAAAGCAGCAGGGGGAATCAGATCATTTGATGATGCAATTAAGATGATTGAAAATGGAGCTTCTAGACTTGGAACAAGTGGCGGAATAAACATTATAAAGGGAGAAACTAATAACACAAGTTATTAGTTTTTTTATAATATAAATACGAATAGAAAGAAGTGATTATTTATGTCTGAAGAAATTAAAAATTGCTTTATTTGTTCAAAACTTACTTCAAAATTAATAACTAAACACGGTAAAAATAAAAATTGAGATTCTATAATTTTCATCTATTGTTCTGATATATGTAGAAATAAGCATAAAGTTTAAGATTTTTAATTCTTAGTAGCTAAGGCATTAAAAAACAATGAATTAATGGTATAATTAATTAAATTAGGAGTTTAAACTATGGCAAAAAGATATGGTTTTGAATTAGGCGAGTATGGTTTACCATCAAGTATTAGAAAAAGAATTGATGACTTAGTTGGTTTAAGTTTAAATCCTTCAACTATAAATCTTTTAACAAGTGAATTTTCATTATTTGAAGAAGAAACTAAAGAAAACATAGGTCGTTATATAGCAAATCTTTTAGAAATAGAAAATGCATTATTAGCAAAACATTTTGAAAAAATAAAACAAGAAAATAGTTTTGGTAATTCTAAACAAGAATTAATCATGAAACAAAGACAAAGTAATTTGTTGAGAATACAACAAATTTTTTCTCATAAAGATAAACTTTTAGAAAGAGTTAATAATATAGAAACTAAAAGTTTTGCTCCAAAAGATGAAGTTAGCTCTGAAAAAATTGATTTTACAAAATTTATGGTAACAAATAATTCAAATACAGTCACAGACGATGAAAAGCAAAAGCAAAAACTTAAATTACTGTCTGAGAAAAAAAGAAAATTGGAACTTGTTGTAAGTGAAAAACAACAACAAATAAATATTGCAAAAAAACAATACGAAGAAGCAAGAATGAGAAATGACTCAAATGCTCAAAAAAGTAAAATTTTAATAATAAAAGAAGTAAACGAAAAATTATTAAAAATAGATGAAGCTATAAAAAAATATAAATCAGTTGAAAATATACCATGAGAAGTTTTTATGGATGAAAATGAATTACAAGATGATTTGGATATTCAAGAACTTAGAATAAGAGAACATTTAAATAAAAAACCTTTTAATCCAAATCCGAAAAAAAGTGAATCTATTATAAATAATAATGTTACAAAAGAAATTGATGTTACCAAAGAAATTGAACAAGGTGACTTTTTTGAAGTTGATGACTTTGAAGACGTCAGTATAAAAAAAAACAAAGAAAGTAAAAAAGCAATAAATGAAAAGCAAAAAAAAAGTAAAGAAAGTTTTTCAAAAACAGAAGTTATTGATAACACAAATGATTTAAATTTAATTAATGAAATTAAAATCATTTTAGATAAAAAAGAAACCAATGTAGAAATAAAAAAAGTAGATAAAATTGAAAAAAATAAGAAAGAAACAAAAACAAAAAAAGCAAAAAATATAGATTCTATAAAAAAAGCAAAAAATATAGATTCTATAAAAAAAGATAAAAATATAAAAGAAATAAAAGATACAAATAAAGTAAAAAAAATTAGTGTTGAAAAAAATTATAATGAGTTCACTTCGATAATTAATGAAGTTGTTGAGCTTGAAAATAGACTAAAAAAAGCAAAAGAAGTTGCAAGAAAAATCGAAGAAGAAAGATTAATTAAAGAAAGGGAAGATGAAAGAAAGCGTTTTGAAAGAGATCAAAAAATAGCAGGACTTCATGCTTTAGAAACAAAAAATAAAGAAAGAATTATTAAAAAAATTAAAAAAAATTATAAAGCAAGAGATAAAAAATATGATCAACTAAAAAAAGAAAAAGAAAAATTAGAAAAAGAATTAAAAACATTAAAAGAAAAACAAAAAATTGATGAACTTAGAAATATTGAGATTGCAAAAAGAAAAGCTATTGAATCAACCGAAAGCATTTTGAAAAAGTATAAGTATAAAGGACATAACCTGCATACAATCATGGAAAAAAAATGAGTTGCTTTTAATATAAAAAGTACTTTGTTTGTTAAAGAAAAAGCAATTAAAGCAATGAAACTGATAAAAATAAAAGATTGAATATATAAAAATAAAGAAAAAGTATTAGCAGAAGATAAAAAACAAATAATTGAAAAAAATAAAAAAGATAAAAGTGAATCAACTAAAAGCTTAGTTGAAAAAAATAAAAAAGTTTTAACTAAATTAAAAAGTTTAAATTATAATAATAAAGAATCTGTTAAAAATAATTTATATAATGAGGAAAAAAGATTAGAATTTTTACAAAGAAAAAAATCTTTAAACATTATAAATAGTATAGAAGTAAATGAGTTACAATGTTTAGAAAGCAAAATTAACAATAAAAACTCAAGCAACAAAATAAATTTGAAAAAATATAAATTAATTAAAAAAGAAATATTTTAGGTGAGTATATGAATAACAATTTAGAAAAGAATGAAATTACAATAGATGAAAAAGTTAAACAAAATATGTTTAGAAGTTTTGATATTTCTTGATATACAAAAAATAGCTCAAAAACTTTTTTAAGAAAATTAGGATCAACATTTGGTTTTGTAATTATATTAATGCCTGTATTTGGAGTAATTTTATCAATAGGTAATTTATTAAATACATATAATGCGCCAAAAGTAATAAGTAATTTATTCACAAATGTTGGTACATTGTTGTTTACAAATATAGGATTGTGATTTGCGATTGCTTTAACAATTGGGTTTACAAATAATAAAGGTGTTGCTGTATATAGTAGCATTATTTTTTATTTCACATTTACATTAACAATGGCTGCCTTTATCAAAATAAATGGTACTGATGGAAAAACATTTGACTTACTATTTTGAAAAAATTTAGAACAAAAGATATATTTAACATCAATCTTTGGATTTGTAACATTTAATACAGGTGTTATTGGAGGGTTTTTGTCTGGTACAATTTCAATTATTATTTATAAAAGCTTTAAAGAAACAAAATTGGTTTCAGGACTTGAGTTTTTTTCAAAAGAAAAGTTTGTTCTAATTTTAATTCCTTTTACTGCTGTTATTTCTGCAATATTGTGATTAATATTTTGACCAGCTATGGGATATTCATTAAGATTTTTAGGAATGGGACTTGCAAAAACTCCCACTGGATTAGACTCATTTGTTTTTGCAACTGTTTCTAGATTTTTAACACCTTTTGGTGCAGGAATGTTGATTCACTCACCATTATGATATACAGAACTTGGTGGTAGTTTAAGAAATTATGAAGGACAATTATTTGCTCAATATTTAGAAAGAACACATTCTGATAATCCAAGTTGATTACCTGATTTAGTTGAAAAATTAATGAATGAAAAACCAGGAACATGAGTTGATAGAAGTGTAACTGATTTTATAAATTCATTAGGATATTCTCAAGAAGAAAAAACACAAATTTTTAATGATCTGAATTATTGATATAGTAATATAGGAAATTTTCAAGGTTCAACACTTAATATGCTTGATTTAAGAGGTGATCAAGTTATAGCTGCAAATGTTATAAATAGTAACTTTATAACAATTCAAGATTGTTGGAATGTAGGTCTTAGAGTTTCTAGATTTATTGCTCCAGGTTTTGCAAATTCAATATTTGCATTACCAGCAATTGGATTAGCAATTTTTTTACAAATTGAAAAAAAAGATAGATCAAAATATTACGCATCATTCTTAATAGCTTTTGCTTCATCTGCTTTATTAGGAATAACTGAACCATTAGAATATATGTTTTGTTATACGTGTCCTATTTTTTACTTCGCAATATATGCTCCAATGCTTGGTTTAATGGGTGCAATTGGATCTATTACACAATTAAAGTTAGGAACTACTTTTTCAACAGGGTTATTTGACTTTATTTTTAATGGAGTTTTACCAACAGTTGCTGGTCAAAATACTAGAATTTGAATGGTTCCTGTTTTGGGGGTTGTATTTGGAGTTATTGAGTTTTTATTAGCATATTTTTATTTCAAATGAACAAAATTTGATCCATTTGAAAAATATTTATCTGAAAAAGATCAAATAAAAGTAAATATTTCTGAAATTAGAAGTTCTTTTTATGGATTTAAAAATATTTTAACTATAAATAAATCTAAAAATCAGGTTATATTAGAAACAAAAAAACCAATAAATAAAGATTCTATGGATAATTGATATGAATCGGTTTCTTTTGAGGGTAATAATAAATATAGTTTTTCTATTAAAAATGATTATGTAAAAACTTATGATACTCTTTTAGACTCGTTAAAAGAAAGACAAAATATTAAAGAATACAAAAAAACTAATAAAAATGAGTATAAAGCAATAAAAAAAGAATATAAAAATTTAAAAAAAGATGAAAAAAAGAAAAAAGTAAAAAATAAGTAAATTTTTAATAAAAGTTCTAGATTTTTTACATTTTTTTTGATATAAATATAGAGAAAAGCATTTATATTTTTTAAATGTTTTTACATTAGGAGTTGAAATTTTAAATATGGCAAGTGTCGTAGTACGTGAAGGTGAACCTATTGAGAAAGCTTTAAAACGCTTTCAAAAAGTAGCTGCTTCTTCAAAAGCTGAAGCAAGAAAACGTGAATATCACCTAAGCAAAAAAGAAAAACGTATCTATAAACAAAAACAAAACAGAAAATTTGGTTAATACCAAATTTTTATTTTGTTTTTTAGTAAAATATATAAATAATATATATAATATTATTAGTAAGAGGAGAAGCTAATGATAAATAAAGAAATTAAAAGTATAAGTATTAATAAAAATACTAAAGATCTTCAACCAAGACCTGAAAAAGCAGCATCAGGAAAATTTGTGAAAAAACCACCAATTTTGGAAGATAAAAGTACCAAATTATCTCTTGTAATGCAGTCAAGAACAATGCTTTCTGCAAAAAAAGGCAAAAATAAAGGAGATATTTCAACTCTTCCTCCAGGTGTAATAGCTTCAATTAAAAATAAAGAAAGAATTAATAAAGAATTAAATCTTGATTGATCAAATAATGTTGAAGCAATTAAACAAAAATATGATATCGATGGTAAACCTTTAACAAGAAAAAGAGCACAAGGAATCATTGAAGAAAGAAAAGAATTTTTTGAAAAAAATAGAAAAAAAAGTATTAAAGCAGCTACTACAAATGTAGCGCCAAAACCTGCTGTTAAAAAAACAGCTACAAAAAAATCTAAATAATAAAATACAAATTTGTAAAAAATTTGTATTTTTTTTTCGATTTAATTATTGGAGGTTTATATGCACTACATAAAATCAAAAATAATAAATATTGAAAATAACTTAATTATTGTCGAAAACAATAACATTGGTTATAAAGGTTATTTAATAGATACACTCAATAGGGATTTAAAAATTGATAATGAAGTAAAATTATTTTATTTAAATTATAGAAATGAATTTATCGATGAAAGTTTGTTTTTTATAGATGAAAATGTCTTAAATTTATCAAAACAATTATTACAAATTAAATATTTCGGCATAAAAACTTTAAATAATTTATTTAATAACATTAGTTTCAACGACTTAATTAACTATGTTAATAATCAAGAAATAGATAAAGTTATGAAATTAACTAATATTAAATTAAATATTTTAAAAGAGGTGTTTTCTATTGTTTCTGATAAAATATTAAATAAAAAATATAATAAAAAACAAATGGAAATTATAAACTCTTTACACAAACTGGGTTATGGAATTAACAATATTTATAAAGTTATATCTATAATTGATTCTAGTCTAGACGAAGAACTTATTTTACAAAAAGCCTTATTTGAATTAAATGAAATTAAAAATTAATACAAACAGACCAGATAGCTTTTCAAATTATATCGGTCAAAAAAATATTGTAAATAATTTAAAAGTATATATAAGTTCTTCTATAAAAAGAAATTCTGTACTAGATCATATGCTATTTTATGGTGGTAGTGGACTTGGAAAAACTAGTTTAGCTTATTTAATTTCTTATGAAGTTAACAAAAAAATTTATGTTTTAAATGGTACATCACTACAAAAACCTAGTGATATTATTGCTCCTTTAACAAGTTTAAAAGAAGGTGAAATTTTATTTATTGATGAAGTTCATGTAATTTCTAAAGAAGTTTTTGAAGTATTGTATCCAGTGTTAGAAGATAATCAGTTAAGCATAATTATTGGAAAAGATTATAACTCTAAAATAGTTAACATCAATTTACCTAATTTTACTTTAATAGCTGCTACTACTGAAATTAATAAACTTTCAGAACCATTTATAAATAGGTTTCCTATTAATTTTTATTTTGAAACTTATAATAAAGATGAAATAGCAAAAATTTTACAATTAAATTCTAATAAATACAATATAGAATTAGATAATGACATTTTATTATTTATAGCAGATCATTGTAAAAATAATCCAAGAATTGCTATAAATATTTTTAAAAGAATTTATGATTATATTGTTATAGAAAAACCTTTAGTTCTAGATATTTCATATATTTCAAAAATTTTAAAAACTTTAAACATTTATAAGTATGGTATTAACAATCAAGATTTAAGTTATTTAAAAATTTTAAATGAGCATAAGGTTATTGGATTAGAATCTATTAAACAAATTATGAACACACAACTAACTATAATAACAAACAATATTGAACCAAACCTATTATTTTATAATTTGATAAAAAAGACATCGAAGGGGAGAATAATAACTGAAAAGGGGAGAGACTTAATAGAATCTATTATATAAATAAACCTTAGTATTTTATGTTTTAATATGCTTATTTTAGTGTATAATATTATTAGTTTTTAAAGTGAGGTTTACTATGGATAAAAAAGTTTATAATTTGAAAGAATCAAGTTTGGGTAAAGTGACATTTTTAGATGGAACTGTATTTATGTCAATATCTTTTTTAGCAGATAGTGGAGAAAAAATTACAGAAGTTATTATCTTATCATCATTAGATGAAGCTGTAAGAAAATTTCCATCATTTGTTACAGAATTAACTTTTAAACATGTTCAAGATAAACTTAAGTTTCATAATGATATAGTTGATTGATTAATTGAAAATTGATTAGATCCAGGAATAGTGACTTGTCAAAAATACATTGCAGAACAATATGGTTTTCCTGAATTTGCAGAAATGAACCCAATTGAATGAATAAAATCTGAGCCAGAAATGGTTGCTCTAACTTTGTCTCATATTGCAGGTAGATATACTAATGGATATTTAAAACTACCATCAAGAATAAGAGAATTAGAGTTTTGTTGTAGATTTGTAAAAAATGTACTTGCAATAAACTTTTGAGAAGATAATATTAAATAATTTAGAAAACAAGAATATATATTCTTGTTTTTTTGTTGCTATAATTATTATTAAAGGTGGTAAATATGAATTTCAAAAAAATATTAAAAATTAATTTAAGTGCCATAATTATAGTTCCTAGCTTTTTTACATTAAGTTGCTCAAAAACAAAAAATGCAATAGGACATTATGAAATGAATAATAATTACGCATACTCTAAAGTTTTTCTTAATAATGAACAAAATTTTAATATTTTGCCGCAATTAAAACGAAAAAGTAATGATAAAAAAATAATAATAGATGATAAAATTAAACAATTAATTTTAGATAATAGCTCAAATGATTTAATAATTGATGATAAATTGTTCGAAAATAATCAAAAGTTTTCTTATAATGGTAGTAAATTAGAAAAAAAAGTTTATAATGAAAAGTTTTCAGAAGATTCTAAAGAAGTTTCAAAAGTTCAATTTGCATATGATTTTTTAGCTAGTGAATATAATATTAATATTTTTGCAAATAAAGATGAACCAGACATAATTTATGATTATTCAGAACTTAAATTAGATAACGATATAAAAGATAATAAATATTATTTTAATCAAGTGTATGATAATGGATCTTTATTACTAAGTTCTGATCAAAAATTAAACTTTACTTATAATCAAAAAACTTATACAAATGATATAACTTTATATGACATTACAGCAGAATTAAATTTTGAAAATTTAACATACTTATTAAATTCAAATCTAGCATATGCAAAAGAAGAAAAAGCAGAAAATGATAATGAAATTTTTTATTCATTAGTAATTAATACTTTTGAGTTAAATTATAAAATAATTAACACTAGTTTAGGAGAAATTGAAAACAAGAATCAAGAAACAATTATAAATAAAATAAAAGAAAAGAATCCAAACTCTAATATTGATTTTGAAAAAGATGTAGATATTGCAATTGATAATAATAATTCAAAAGCAAGAGTAATTGCCAAAAAAGATTCGGCTAAATATAATGGAGAAGTTGAAGTAACTTTTAATTTAAAAGGGGAATCAGAACCTGAACAACCTAATTCTTCAACATTACAAAAAATTTCAACCGAAAGTATAACAACACCAAATAACAATATAACAGGAAAATTAAATAAGATTTTTAAAAAGTTATTTGTAAAAGAAGAAGATAAATTAAATTTCAAAAAACTTGATAGTAATGAAAAAATAAAAGAAGAAGTTGTTTTTGAAAGTGTGCTACCAAAAACAATAACTATAAATAAAAACTTAGTAACTAAAATAAAAATTATTGATAAAGTTAAAGTTGATGATAGTAAAGAAGAAGGTGAGAAAAATGTTTAAAAACTTAATTAAGTTTTTACTTGCATTTAATATTTTAACTTTTGCATCATCATCAATTACTTCTTGTGAACCTATAAAAACTTTTCCGTCAGTAAGTGCACAATCAAATATAGAAACACTTAATCAATTATTTATCGGTCAAGAAATAGAACCTGTTTACATTAATTATTTAAAATATATAAATGGTTTTTTTGAGCATAGTGGCTTTGAGGATGCGTTATCAACAAATAAAATAACTACAAGTCTTATAGATACGGATAAATTAAATGAAACTGAACTGAAGTATTACAACTCATTAAAAAATATTTACCAACCAGTACAAAATGAAAATATTTTAGATTTTAGTGGTATGACTTTTATTGTAGAAAATATTTTTATTGATGAATTTGGATTTGTTAAAAACGATACAAAAAAAGAAACAAGAGAAGAAAATGTTAGTGATCAAGATTTAAAATCTTATGTAAACACAACAATGGCAATAACAGTTTTAAAAGGTTGAAAAACTGTTGGAAGACTTTTATTACAAGTTAAAATGGATGAAAAAGATTATTTTTTAAGAGATACTTCTTTTCAATTTATAAATAAATGACTTGAGTCATCATATAGTTTAATATCAGTCAATAAAAAAGATAAACACGGCTGATATACATATAGTAATTATGAAATAAATGAAGATAATGTAGAAACTTTTAAAAAAGATATAATTAGTAAAGCTAATAGATTGAAAAATTTTGAAATTAAAAACAATGAAATAAGTTTATGATCTGAAAAATTAAATGAAGAAGATAAAAACGGTCAAATAAAAGAAGTCACTTATAATGGTTTTGAATTAAAAGGGCAAAGATATACATTTAAACAATAAAAAAACTTCAATATTATGAAGTTTTTTTATTGTTTAAAATATTTCTAAATATTGTACTTAAATTAATTTTTGCAGCAACTTCTTCTGCAATTGTTACGCCATTATTAAATACTACAATTTTTGAAGTTTCTTTAATATCTTTTGGATCTAAATTTTTTATATCTTCTTCTTTAATGTCGTTTCCAATAATAGTTTCAAAATAATGTTCTATTATTTCACAAGCTTCTAATTTATTATTTAAATCAGCATCATTAATCAAAACTTTTAGTTCTTCTTGGTAATTTTCAGCTTGTGCAGGATTTTGATCTGATCATTTTTTTAATTTATCCACACTTTTTAATATCTCCATATTTAAAATATAAGTAATATCGTCTTCATCAATGTCATTAAATTTTGTATCATTTCCTAATTTTTGTAACAGTACATTATTAATTTCAAGTGCAATTGCTCCACTTTTTACAATATTTCCAATTTGCATTTTTATAATTAACTCTGTAATTTTTTCTTGAATATTTGTCGGATTATCTTTTATTGTAGTTATTAAATCATTTTGAACATCGCTATTAAAATAACCATTAACTTTTAATTCTAAACTATTTTTTCTTATAAAATTATTAATTTGTTCATGTGTTTTTAATTCTCCAACTTGTTTTCTAATATTTGTAAGAATATTGTTCATAACTGTAACATCAGGAGTAAAATCACCAATAAACTCTTGGTTTGAATCTAATAGCCCATTTTTTAATAAATCCAACCTTTCTGTAAAAAATTTCTTAAATCATTCTTGAGAAACACTATTTACAAAATCTTGTAGTACAGCATAGTTATTCATATTTTTATCCCCTTTACTTATATTCTAAATAATATAACAATAAATAACAAAATACAAAAAAATTGATATAATTAGTTAGATAAGTGTGAAAAAACAATGAAAAAATGAAGTATAAATATAATTGAAGATGGATATTTTTTAGTTAATGAGTATCAAAATTTTAGATTTGATAAACACATAGCTAGAACAATGCTTGAAAAAATTCAATTTCCAATAATAATATTGGACACTGAATTTTTTAATCATTCTCATGATGAAGGAGAATATGAAGATAAATTATATAGCGAAGATCAAAAAGATGTTGTTTATGTAATTCAATATAGTTTTGCAAAATCTTTAAAAGAGATAGCGTATAGAGATAATACAAAATCAATCAAATCAATTTATATAAAAAGAGGTCATAACGATAAAACATATAACTTTCAAGAACAATACTCAAAAATGGTAACTAGTTTTTTAAGCATGTGTAGAAATAAAGAAATAAAAACAATAATTTGTGCTGGAGCAAGCAATGATATAAAAATCATTAATAAGTGAATTAATGACTATAAACATTTATTTGCAAGAAAGTCTTTAAATATGGCTTTTTATAATAAAGAAAAAAAAGAGTTGAATGCAAACTTTTTTGATATATATGATATTTTAGAAAATGCATTTAGTTTTTCAAATACTACTTCAACTGGTGAAGAGTTTTATAATGCTAATAACTTGCCGTCAGGAAAACAAGCAGATAATATGATTGCTTTGACAAGCTGTAAAAAATTTTATGATTGATTTGAAAGTATAAATATTAAAGCTATTAAAAATGAAGATGAGGAAATAAGAAATTTATGTATTGCTGCATATACATTTTATTCAACACCTTTTGAAGCAAGAATGAATTTTGAAGTATATAGAAATATGATAAGTGTTATTAGAAAAGTTGTTGTACATTGTTATAATGATGTATTAAAAATATTAATTTTTTTAGGTTTCATATACGAATTTGTTTATCTTCCTTATGAAAAAAACTCATATATTAAAAAATAATTTGCAAATATTTATTTTTAATATAAAATAAATTACATAAATAACTAATAGGTGGGGAAAATGTTTAATATAATTTTTATCAACATAATAAATAATCGAAAACTTATGCACTAAACGTTTTGGTGCTGTTTTCAAAATGTTTGAGTGCGTATTTTGCTAAATGAACTTAGATTAATGCTAATGTTTTTTTGTTTGAAACAGATAAAATCTTTGATTTAAAAGGAGTGAAAAATATGTCAGAGAGGGCAAAAACGTTAACGAAATTGTCAATTATTTTTATGAGTTTTGCAATAATATTTGGATTTAGAAATATTATTAACAATCAAGTTCAATTTGGATTGTTAGCTTGTGTTTTATTTTTAGTAGGAGGAGCAATATATGCTATTCCTATGGTTTTATTAACTTCTGAATTTGGAAGTGTGCATAGATTAAAAGACCAAGAAGCTGGTTTGGGTTCATTTTGTGCGTTTGCACTTGGCAAAAAAGGAGGTTTTTTAGCAAGTTGAGCAAGTTATTTTGGAAACTTATTCTTTTTTGCAACAATGGCACCATTTACAGTAATTGCATTAAGTTTTTTCTTTTATGGGAAAAATGGATTTGATGAATTAGCAGTTGTGTTATCAGCTAAATTAAGTGATGCAACTGCAACAAGATTAAGTACTTGTACTTTAGCTTTATTTGCAATTTTATTATTTTGAGCAGGAACATATGTTTCTTCAAAAGGACCAAAATGAATTGGTAAAATAACAAATGTTGGGGGTACTGCAAGTTTATGTTTAGGAGTATTATTCATATTAATTGCAATGTTTTATGCATTACCAGTAAATGGAGTAGAAAAAACATTTGGTTTAGGTTCATTTAATTCTTTAAATGATAAAGATCAATTCAATGGAGATTGATGAAGTTTTATATCAATGTTTCCGTGATTAATTTTTGCTTATAATGGTATCGAAACAATTAGTGTTTTTATAAAAGACACAAAAGGAGGGGCAAAAGCCTTCAAAATAGGATCTACAATTGGAATGATTGTTGTTATGATTTTAATGGTTGTAGGAACATTGATGCTAAGTATGACAATTTCTCAAGCGGATATTAATAAATGAGGAATATCAAATTCATACTTTATGGTTTATCCTAAAATTTTAGGTATTGCTGAAGGAACAACTTGACATAAAATTATTATTCATATTGTTGGATTTATTACAGCCTTAAATGGAATGGGATCATTATTTTTCTGAACTGCTGCGCCAGCAAAAGTTTTCTTATCTGAAGTTCCACACAACACAATGGGAAAATATTTATCAAAGACAGATAAAAATGGAATTCCAATTAATGCTTTATGAATTCAAGCAATAGTTGTTAGTTTTATATTAATTTTAGTAGGAGCAACTACTTCTGGAGTTGTAACAGAAGAAAATGGGATAAAAACAGTTACTAGTTCAAGTGATTTTTTAACAAGAATTACCCAGGCAACAACTTCATTAGCAACTGTACAAATGTTATTTTATTTTTGAGGTTATATTAAATTTAGATGAAAAAATGATGATGAACCTAGAGACACGAAATTCTTTAAAAATAAAATTCCAGCTATAATAATAACGTCATTTGCACTATTTTTAGTAATTGTCGCGTTCTTCTTTGGGGTAATTCCAAGTCCAGTCTTATGAAAAAAAGATTGAGTTGATGCAATGATAACATTTATATTAGTTTTTGGTGGATTTATATTCTTTATGGGTATTGGTTTATTGGTTTGATACTTACAAGTTACAAGAAAAGGTATACAAGAAGATGGAAGCATTATTGAAAGATCATCTATAATTGATGCTAAAAATTCTAAAAAATTAGAAAATAAAGAAATTAAAATGCAAAAAACTCAAAAGAAAAACTAGTTAATGAATAATAATAAGATACTTTACAAATTATGTAAGGTATTTTTTATTTTAAAAATAGTGTTTAGATAATGACTTTATATACTTATATTATTGTATAATAAGAATATTAATAAAAATTGGAGTAAATATTATGTCTAGAAAGAAAAGTTTTTTACTATTGAACTATTTTAAACCATCTATTTATCTAGAAAGTTATAAAAAGATTAACTTAGATTCTTTAAAAAATAGTGGAATTAAATTAATTATGTGCGATATGGATAATACTTTAATAAGTTGAAATGAAAGAATACCAAATACTGATATTATAAATTTTATAAAAAGTGTATATGAACATAATATGGAATTTGTATTATTTTCTAACAATATAAGAAGTAGGGTAGAAAATTTTGCAAAAAAAGCAGGTATTAAAAACTATTTTTGAGATTGTAAAAAGCCACTTTTAGGGAAATTTAAATTAGTTAGAAAATTAATGCCATATAAAGAAAATGAAATTGTTCTAATTGGAGATCAATTAATAACAGATGTTTTAGTTGCTAATCGTGGTCATATAAAAAGTATATTAGTTTCGCCATTAGGAAGAGTTAGTGGAGAGAAAAAAATAGTTCAGTTTTTAGAAAACTTTATTTTAAATAGATTAGCTCAAAAAAATATTTTACATGAAGGTTTTTATAATGAAGGTGAATTAGGAGGTAACTATGAAATTCTCTAATGATAATAGTGATTTAAAAGACATTGAAAAACAATTAGATGAATTAGAAGACAAAGCACTCTTAGCTCATATTAATGGTGAAAAGAAAATCAATATTAAACAAAAAAATAAAGTTACCCTTACTGAAATGAGTGTTGGATTAGGTAATACAACAAATATTGATAATAAGGGGCCAAAAAAATGTGTAGGTTGTGGAATTGAAATGCATAATACAGATCAAAGGAAACCTGGTTATGTTATAGATGCTGAAAAACAAGATTATTGTTTAAGATGTTTCAAAATAAAACATTACAATAGTTTAGTTGAACAAGATATATTTGATGAAGATTTTGTAGAAATTTTAGATGAAATAAATAAAAATAAAACTAAAATTAGATATTACTATGTAGTTGACATATTTGATTTACCAGGCAGCAGATTAGAATGATTGGAAAAAATGATTTCACAAAAAGAAGTTGTTGTTTTGGTAAACAAAATCGATTTACTTCCTAAGATTGTTAACAAAGCTAAAATTATGAAATATATTAAAAAGTTTTTTGAAGATTCGCCTGTAAAAGATGCAAAATTTATTTTAACTAGTTCAATTAAACTGGAATATGTATATTCTTTAGTTAATGAATTAAAATCAATTATTTATGATCAATATATTGTAGGTATTTCAAATACAGGAAAATCAAGTTTAATAAATGCATGTTTAAAAGCAAATCAACAAGTTCCATCAATTGTTACAAGTAAATATGTAAATACTACATTAAATAAAATTAAAATTAATTTCACAAAAAATAATTATATATATGATACACCTGGACTTGTAAAACAAAATCATATTGCAATTGCAACTGCGCCAACATATTGAGATTTTTTCTTTTTTAAAAAAGAAATTAAACAAGTTACATATCAATTGTTAAAAGGTCAAACTATATTTTATGGCGGACTTGCTTGATTTACATTTGAAGATGGACAAGAAATAAATGAAATAAAAAATAAAATAATAAAAACAAGCTACCACTTTTATGTGAATAAACAAATGCCTTTACATAGAACAAAGTCTGAAAATACAGAAATGTATTTTAGAAAAAATAGACACACTTTATCACCAAGATTAAAAGATAAAGATACAAAATTTGAAAAAAAATATTTTGAATTCAAAGATGAAAAAAAGTATGATTTACATATCTCGGGATTAGGATGAATTAATTTCAAAGCATTTAAAGGATTAAAATTATCAATAACTATTCCAATTACTCAGTCTAATATAAAAGTAAAATTATTACCAGCTATGATATAAATATAAATAAAAGAGGTGTTTTTTATGAAACTAATTTTATCAATCGAAGTAGGAAATAAATTATCAAAAGTTGCACTTATTAATCAATACGGAGAATTACAACTAAATTTTATTGTGGAACACGATTTAAAAATTGGTTTAATTGAAAATTTACATAATAAAATTATTAAAGATATTAAAAAAGTTGGTTATGACATAAATGATATATATGAGAAAATTGGTATTGCCATTCCTGGTTTTGTAGATCATTCAAAAGGAGTGGTAAAATATGCTGGTATTTTAAATTTAAATAATTTTCCTCTAAAAGAAAAAGCGGAAGAATTATTTAAAAAAGAAGTTTTGGTATTAAATGATGCTAATGCAGCTGCTTTAGGAGAGTTTTGAATTGGTTCTGCAAAAAGATTCGACTCTATTATATTTTATACAATTAACGATGGTGTTGGAGGAGCATTGATTTTAGATGGAAAACTTATTGCTGGATCGCGGGGTTTTGCTGGAGAATTTGGTCATGGAAGCGGACTATTTGCAAAAAACTCACAACACAAATGTGTTTGTGGTGCGAATGGTTGTATTGAAAAACTATGTTCATCAACAAGTATTATAAATTTTTTTAAAGAGTTTTTAAGTAAGGATGAACCTAGTTTAAAAAAACATTTTCATGATGAAGATGATATTAAGCTTATAGATATTTATAATGTTTACAAAAAAAATATTGGATCTGAAAAAATAATTGAATTTTTAACAATAATTTTAGATCCGTTAATAAGACATATTTCATTGATGATTAATGCATTAGATCCTGAGGCAATAATTTTTTCAGGAGAAATTACTGAATTAAAAGATTTATTAATTAAAATTATTCAAAATAATTTAAAAAAATATGTTGTATTAAAATTTTATGACGGAACACCAATAAAAATTGCAGAATTAGAAAATGATGCAATTTTAATAGGGTCAGCATATTATGTTTTAAATGATTGAAAAATTACATAACATCGAATAGGAGACCATTATGGAAGATTTAATTAAAAGAATAAACGAACTTGCAGCCTTAAAAAAAGAAGATAAATTAACACCAGAACTTGTAGAAGAACAAAAGGAGTTAAGAAATAAATATATTGAAGCACATAAAAAAAATTTACTTAGTCAATTAAAAAGATTAAAATTTGTTGACAAAGATGGAAATGATATAACAAATGAAAAATTAAAAATTCTAAAAGAACAAAAATAAATAATTTATTTTTGTTCTTTTTTGTTGATTGTAAGCGATTATGTCACAAAAAAACAATATATTAATATATGCTTCTTGTATTTATTCTTTTCTTATTAAAGAAGTATGAATTACTATATTTTCATGAACTTTCAATTTTTGGTGGTTTAATAGACTCTAGTTCTTCTTTTTTAATTGTATATTTATTACCGTGAAGCCTATTTCATCTATTTCTATTAAGTTATATACATCATTACCAATTGAAGAATAATATTTATTATCCTGAGTTTTCATAACCATAACTTTTGTTTTTGGTTTTAAATACAGCGGCTCATACCCTGAACAAACAAACCATTTTTATTATCATAATCAATACTTGAACCTTTATTGACGATTCTTGTGGTTCTATATGAAAAAACAATATTTGGATTTTCTGTAAATTTTCTTACAACTGATTTACAATTATCAATAGGAGTTGAATATTTTTTATTATATTCTTTAATCAGTGTAGGTAAATAATCATTTAACTCTTCAATTGTTTTAATATTTTTGATTCGAATTCTTTGAGGCCATCTTCTTTGAAGGGTGCCAAAAGTTCTCTCAACCAAAGCTTTTTCTTGTGGTATAGAGGTAGTTTTTGTTGATACTTTTAAAGAATGAAAAATAAATTGCAATTGAGTACGAGACTCTGAATACCCTTCAGAGTCTCTATTTATTTTAGAGCTAAATACATTTCGATTGTCAGTTACATTCTTAATAGGAATGCCATAATTTACAAATGTTTCTTTATAAACACGATAATAACTCTCTGTTTTTTCTTGCTCGCTAAAATGTCCTGCTAAAATTATTTTTGTTGACTTATCAATTACAATGTGTAAATGACTTTTTACTCCCTTAATCCACTCGTGATTTGAAGCATCTGCTTCAAAAATTGCCCCAAAGTTTGTTTCTCTTTTTTGGGTTGGGTGAGGGTGTTTTAATAATGGAATTTTATTTTTGATTATAACTAATGGGTCTAAATCATTGTTTAATCGCTTTGTTCTTAATCTAATTTCTTTTTTGGTTTTTTTATGCATACTAAAAACTAACTCATTATTTTCTTTCATTATATTTCTTAATGAAGAATAGCTAATTTTATCTTTTCAACAATTTCTCAATAATCTAACATACTAAAATCATAATATTTTAAATTATAAAGACTAATTATTTTTTCTTTAATATCATGATCTATTTTATTTCTTGGGATTTTCCCAGTGTTTTTATGAATAAAAGCTTTTGGTCCAATTTTTTTATACTCTTTTAACTTTCTATATGTGTGTTTTTTTGATCAACCAAGAGTTTCTGCGCTTGTGTTTATGTCATGTAGTTTATTAGATAAACCTTTTATAACCTCTAATTTAACTTGTTTCATTATGTCTAATTCAATTCCTTTCATAATTTTGCCTACAAGTATATTGTACTTGTGACATAATCGCTTGTTAATTGTTTGTGACATAATCGCTTGTTATTCATAAAATAAATAATTTATTTTTGTTCTTTTTTGATAACAATTTAATTATAAATATATAATTTAAATATAAGGAGAAGTTATATGAATAAAAATAATAATAATTTAAATGCAATGAGAATATTAGGTTTAGAAGCAGTTAATAAAGCTAACTCAGGTCATCCTGGAATAATTTTAGGAGCAGCACCAATTTTATATACATTATTAACAAAATATATGAATGTAAATCCTAAAAACCCTGATTGATTTAATAGAGATCGATTTGTTTTAAGTGCAGGGCACGGAAGTGGTTTATTATATTCTGCTTTGCATTTATCTGGTTTTAATGTGTCAATTGATGATTTGAAACATTTTAGACAAATTGATTCAAATACACCAGGGCATCCTGAGTACGGTTATACTGATGGAGTTGATGCAACAACAGGTCCATTAGGACAAGGTTTTGCAATGGCTGTTGGTATGGCTCTTGCCGAAACTCATTTAGCAAAAAAATATAATAAAGATAATTATAAAATCATTGATCATAATACTTTTGTAATTTGTGGTGATGGAGATTTACAAGAAGGTGTTTGTCAAGAAGCAATTAGTTTTGCTGGAAGATACAAACTTAATAAATTAATAGTCTTTCATGATTCGAACGATATTCAATTAGATGCAAGAGTAGAAGTTGCTCAAGCTGAAAATATGCAAGAAAAATTTAAAGCAGCTAACTGAAATTGTATAAAAATTGAAAATGGAGAAGATTTGAAGGCAATTGAAAATGCAATTGAAAAGGCAAAAAAATCTGATAAACCTACTTATATAGAAGTAAAAACAATCATAGGAATTGGATCGACAAATCAAGGTACGCAAAAAGTTCACGGTGCTCCTTTAGGCGAAGATATAAAGATTGTAAAAAAATATTTTGATTGAAATAATCAAGATTTTGAAATACCAAATGAAGTTTATAATTTTTATAAAGAAAATGTATTAAATCGTTGTTTGAAAATTAATGATGAATGAGAAACTCTTTTTGATAATTATAAAAAAGAGTTTCCTGATCTAGCTAAAAAATTAATAAATAGTATTAACAAAAATTGAGATTTAGATAAAAATGAATTATTAAAATTAAATAATCGTCAAGAACAAGCTACGCGAGTTAGTTCTGGAAATGTTTTAAACTATTTAAGTGAAAAAATAGACGCTATCATTGGTGGAAGTGCAGATTTAACTGAGTCTACAAAAGCAAAAGGTGCTGATGGTCATTATGATTTTAATCATTTAGAAGGCAGAAACATAATGTATGGAGTTAGGGAATTTGCAATGGCTGCTATAAATAATGGTATCGCTTTACATAAAGGACTATTGCCATTTTGCGGGGGATTTTTTGTTTTTGCAGACTATATGAAACCAGCGATTCGTTTAGGAGCACTTATGAATATCCAAACATTGTCAATATTTACTCATGATTCAGTTGCTGTTGGAGAAGATGGACCCACTCATCAACCAGTTGAGCAACTAGCAATGATAAGAAGTATTCCTAATATAAATGTTTTTAGACCATGTGATATGGCAGAAACAATCGCAAGTTATTACAATGCATTAGAAATAAAAAATCAACCAAGTGTAATAGTTGCTACAAGACAAAATTTAAAAGAGTTAGAACACAATGATATCGATTTATTTGAAGCTGTTAAAAAAGGGGCTTATTTATACGCTGAAGAAGAAAATGCTAATATAACTTTAATTGCAACAGGTAGCGAAGTTAGTTTAGCGTTGGATGTTAAAAAAATATTAGAGCTAAAAAATCATAAGGTAAATATTGTTTCAATGGTTAATCAAAATGCATTTGACAAACAAGATGAAGATTATAAAAATCAAATTATAAATAAAAACACAATTAGATTTTCAATCGAATTAGGTTCAACATATGGATGACATAAATATTTAGGAGATAATGGTAAAGCTTTTGGATATGATAATTTTGGATATTCAGCACCAGCAAGTGATGTAATAAAAAAAATTGGATTTAAACCGGAAAACATAGCAAATAAAATTTTAAATATATTAAAATAAATTATATGATATATTTATATTGTGTTAATTTTTAAAAGGAGTAAATAATATGGAATGATGAGTAGTTTTAATAATTGGTATAGTATGTGCGGTTGTTGGAGGAATTATAGGGTTTATAATCACTAGAAAAGTGATTCAAAAGCAATTGAAAGACAACCCCCCAATTAATGAAAATCAAATTAGAGCAATGTACAGAAGTATGGGAAGAAAACCATCTGAAGCTGACATCAAAAAAACTATGAACGCTGTAAAAAGAGGGAAGTAATACCTTTTTTTATTTTGTATGAAAAAAAATTTTAAAAAAATAATTTCAATACTCATAAAAACTATTTAGTGTATAATTTATTGATATGATAAAAGAAGAAGGTGACAAAAGTGATACAAGTTTTCACAGATAATGATTTTAAAGATACAAATGCTTATTTAATATATAATGAAAAAAAACAAGGCATACTCATTGATACTGCTTATGAACGTTACAAAGATATAATAAGTTTTGTAAAAAAAAATGATATTAATTTAACTGATGTATTTATAACTCACGGTCATTTTGCTCACTTTTATGGAATTAATGAAATTTGTGAAATTTTAAATATCGAAAATGTTTACATAGGTAGAAAAGATATGATAATGCTTTTTGATGCTAATAAAAATACAAGCATATTATTCACAGAAGGATGATGTGCAAAACCTTTAAAAAATTTAAAGGTAATAGATAAAGAGTTAGAACTTAAAATAAATGGATTTTTAATTAAAACAATAGCTAGTGAAACTCATACAGATGGATCTATGATAATTGAGTTTCCTGAAATTAAATGTATATTTAATGGAGATACGTTATTTTTACACCATGATGTAATTGGTCCAACAAACTCGTTAGAAGAAGAAAAAAGAATTTTAGAAAATATAAAATGAATATTTAAAAACTATAGTAAAGGATATTCATTTTTTCCTGGTCATTTTGATTATGGTTTTACAATAAGGGATGTTCTTGATAAAGATAACTATATTAAGAAAAAATATAAGAGATTAATAAATTATAGCAACTAAAAAGCAACTAGTATTATTAACTAGTTGCTTTTTGTTTTTTAAAACTAAATAGTGTTGTTTCTTTTTTGTTAATTAATTTAATAATGTTATCTTTATGTCTAAAAATCAAAATAAATGATGATAAAGTTATAATAATGCAAATTTCTAAAAAACTTTCAGCATAATTAATTCTAGAACCATGTGTATGCAATGAATTCATTCAAACCAGTTTCCCTTTAAAGGTACCTCATAATGGTTCAAAAAAACTCATTCCTTTTAATCATTGATCATTATTTAATTCCATTGAATTTACTCCTGAAAATACAGGTATCCAAATTGCTACTAAAGCAAATAATGAACTAAAAATTGATGAAACACTAACAATTCTAAACGTTAAAATTAAAATTACTCAAACAAAAAAGAAAATTAAACATATCGCTCAATTTATTAAAGCTGTTAATCCTAAAAAACAACTTACAGCTTTTCCACCTTTAAATTTATAATATATCGGGAAACAATGACCGATAAGAGCGAAGAATCCAGGTATATAAAAACTAGTATATTGAAACGCCTCGTTAGGTATATAAGTAAAAATAAGAGCGACAAACGCTGTTATAAAAACCTTTGAAGCATCTAATAACATTATTAAAATACCTCATTTTTTTCCTAATTTTCTACTCGCATTTGTAGCGCCAGCATTTTTACTACCAAAATTTCTTATGTCTTCTTTTGTCTTTAGTTTAACTATCATTATAGAAAAACTAAAACTACCTATTAAATATCCTATGATTGATGCTAAAACAGTTCCTATTACATACATAGATTAATTAATCCACCTTCTATGATTTCAATAGTTTGATTTTACTACATTTGAATATATATATTCAACTTTTAATGTAAAATATTATTATAAAAAAGTTAAGGAGTTTTTATGGGTTTAAATGAACAAATTAATTTAAAAAATATAATATTTAGTCTTTATAAAAAAGATAGTGAAGATTTAATAAAGTCAAAAAAATTTGAATTATCTGAAATCATTAAAAATGAATTAATTACTTTAGCTATGACTAGTAATTTAAAGACTTTATTTGAAGGTTTAACAAATATATTTGAAAAAAACCTCGTTTCAAATAATTTTAATTTAAGTTTAATGTTAACTTTATTCTTGCAAAGATATAATTATTTTTATCATACAGAAATTGAATGAGAAAAACATTGCAAAACTATTAATAAAGTAGTATTTAAAGACACAGGTTCTTTTTTTATAGACTATATTGCATTTTTTTTTGACAATCAAATAAATATATATAATGAAAATTATATTTCAATTTTATCATTTTATAAGGTACAAGAGTGAAATAATTCTTTCTATAAAAAACTTATATCTTTAACAAGTGATATAAAACATGCAAATGATTTTCAAATAAAGTTAAGTGCAACAGAAAAATTGGTAAAGTTTTTACAAAATACAAAAAACATTTATTCTTCATTAGAAGGTGTTGGAGTGGAAAGCGAAAAAAAAGAATTTTTAGCTCACTCCAATGAAATAAAAATAGTTTATCAATCAATGAATAAATTAATAAATCAGATTTTAATAAAACTAATTAATAGAGGGTAAAAGGAAAAAAACATGTTTGAAAAATATAATGATATGCCAAAAAATGAATTAATATATGCAAAAGAAAAATTAAATGAAAAAATAAACTTATTAAAAACAGATGAAAAAAAGCTTGAAAAAAAATTAAAAAGAAATTTAGCTTGATGATTTTTATTTCCTATTTTTGGATTATTTATTTACAATTCTCTTTATGTAAAAAGAAGACAAAATAGTGAAACTGGAGAAGAACTTTTAAAAATTAAAACTGAAATGACAATGTTAGAACTTGAAGTTAGAATAATAGAAACAAAAATTATCTAATAGGAGATTTTATGAGTTTGATAGAAGTAAAAGATATAACAAAAAAATATAAAGATAAAATTATATTTGAAAATATATCATTCTCTGTAAACGAAGGAGAATCTGTTGCTATACTTGGAAAAAATGGCGCTGGAAAAACAACGCTTGTTGAAATTATTGCTCAAATGGCAAAACCAAGTAAAGGAGAAGCTGTTATAAATATAGATAACAATCTTAAACAAGAGATAGGAATACAATTTCAAGAAGGTAATTGACCTTCTGGTCTATGCGCGAAAGATATAATAGATTTTTATTTAACTGTATTTGATAATTTTAATAAAGAGAACTTTGAAAAGCTAAATCATACATTTGAGATTATGGAATTTTACAAAACTCCTTTGAGTAAACTTTCTGGTGGTCAAAAACAAAGATTTAATGCTTTATTATCTGTTATAAATGATCCTAAATTAATCATTTTAGACGAACTTACAACAGGTTTGGATATGGAATTGCAATTTAAAATCTTAAGTTATTTTCAAGAGAAAATAAAAGATAAAAAAACATTAATAATAGTTTCTCATCATCCAGAAGAAGTAGAAAGATTATGTAATAGGATAATTATTATTGATAATAAAAAAATTTTAATGGATAAAAAAATAGATCAAGTTACAAAAGAATTCAAAAGTGTAAGAAATTTAATGGAAAAATTTTATAAGGGTGATTTTGATGAAAAATAAAACAGATAATCAAAAAAATTATAAAGTTATATTTAAGCATAAAAAAAAGCTTTTAGTATTTAAGCAATTATTCAAACTAATTGCTAAAGCATTTTTTAAAAATGTAAGGGGTCCATTATTCTCTTATGTGATACCAATTTTTTTTACAACTATTTTTTATTTTTTATTTTCCGGACAAATAACAACAAATAAAGGAAGTGCAATTCTCGGTTATATTGCATTACCTTGTTTAACAATATTAACTTCATTATCAGCTTCAATTGTGGAATGAAAAAACTCAGTTTTTCTAAAAAGAATTGATACAACTGGAATAAGTAAAAAGAATTTTATATTTTGTATATGATCATTTTATTTTTTAGTTAGTTGATCTGGTGTATTTCTAGAAATTTTAGCAGGACTAGCTATTGGAAGAAATGATGTTATCGAATTATACAAAAATTTAGATTGAGGATATTTTATCTTAGCGATTAGTTTGATAACATTAATGGCTATTGGGATTGCAACTTTAATTGGGGGTAATTTGAGTGATGATGGGGCAAACCAAGGTATTTCTATGATTGTCTATTTCATAACCATTTTCTTTTCAGGAGTTATGTTAGATCCGAGATTATACGAAAGTGTAGGAAGCGCAAGATATTTCACTTATTTTATAGCTTTAAAATATCCAGTTGCAATCTTATTATTTTCTCAATATAAAGATGGAAATTGAAATGATGCTGGATTTAATACTGGAAGGTGAAATCCCTTGGAAGATGCTAAATTTCATGATTTTACAAGTACATGACAACCAGTTTTAGGTTCGTTATTAATAGTAATAGCATTATTTGTAATATCTGCATTAACATTTAAGTGAAATAAAAAAAGATAATATGTTTTAAAACATATGTAAAAAATTGAGTTAGATAAAAATATGCTATAATTTTCACAAGAGGGCTTTATGTTAAATAAGAAAATATATAGTATAGATGAAAACTTAAAACTAAACACTGATAAGATTTATTTTACTAAATCAATAAGAAGTTGCGCTCATGAATACATATCTATGGATATAAGAGATAATCATTATAAATGTACCAATGAGGGTTGTTGAATGAAATTTTGGATTAGAACTAAAATAGATTTTTATGTATTTCAACATCGCATAGTTAAAGACTTCGATTTTGATTTATCTGAAAAAAATTATATAAAAAGACTTAAATTGGAAATTAAAAATGCTAAAAATGCTAAAAAATTAAAAGAAAAAGAGCTTAGAAATAAAACTTTAATTAAACTCTTATAAAAGAGTTTTTTTTATATATTCATTAATACTAATTATAATATTTGAGGTGAGAATATGACAAAAGTATATTACTACAATAGTTTAAACAAAATTTTATTGAATTTAGATGATTCTATTTGTTTATTTGCGAATTTTAATAATTGATATAACTATGAAAATTTGCAAATAGAGCAATTAAAAAAATATGCTAAATCTTATGGCTTAAAAACAACATTGTTATTACCTATAAATAGTGAATCTCAAAATAAAATTTGAAATAATAAAAATATTGTAAAATTAGCAAAAAACTTAAAAATAGATCAACTTGTTTTTTATTATGTAAATTTTGTTGTTAATAGTTTTTCTGAAGATGACATACTTAATAATTTTAAAAATACTTTATCTATAAAAAAAATACTTATAACTAGTGATTATCAAAACGCTTATTGAGAAATTTTAAATAGAAGATTTTTCGAAAAAAAGTGAGAAAAAAATTGTATTATATTTAAAAGTGAGCAATTTAAAGACGATTATAAAAGAATATATAAAAAATTAAAAGAAAGTGATTTTAATGGTTTTAAAAATTTAACTGGTTTTGATTATGAGATAAGTGGAATTATATCCGAAGGAAAAAAAATAGGAAGAACAATAGGGTATCCAACAATAAACATCCTAATTGAAGATGATCTTCCTTTAACTTATGGGGTTTATGGGGTTGAAACATATTTTGAACAATTAGATAAAACTTTTTTAGGTGCTGCTATGTATTGAAAAAACGATTTAAATCAAAAAGTTTTAGAAGTATATATACTTGATTTTGATAAAGATGTATACGGATGATCGGTTGATATAAAATTATTAGAAAAAATAAGAAATCCAATAAAAATAACTTCATTAGAAGATTTAAAAAAAATAATTAAAAATGATGTAGATCAAATAAAAAAAATATGAAGAAGATAATTATAGAAGAAGGTATATTATGAATGATAAGTTTTATTTAGGTAGTCATGTGGGTATGAATGCAAAAGGTAAGTATTTAATTGGTAGTGCACAAGAAGCTATAGATAATGGGGCAAATACATTAATGTTTTTTACAGGAGCACCACAAAATACAATTAGAACAGAAACTAATAAATTAAATATCAAAGAATTCAAAGAATTATTAAAAAATAACAATATTGATATAACCAAAACACTTTGTCATGGCCCTTATACAATTAATTTAGCAAATACAGTTAAAAAAGAAACATATGAATTAGGAGTTAGACTTTTAAAAGAAGAACTTTTAAGATTAGAAGCAATAGGAGTGCATCTTGTCGTATTGCATCCAGGAGCAGCTGTTGGAGCAGAAAGAAAAGTAGCTTTAGATAGTGTTGCTAAAGGTTTAAATGAAGTTTATGATCAATTGCCAAACTGTCCTGTAAAAATTGCTTTAGAAACTATGAGCGGAAAAGGTACAGAAGTTTGTATTACATTTGAAGAAATAAAATATGTTTTAAATCAAGTTAAAAGAAAAGAAATGGTAGGGGTTTGTTTTGATACTTGTCATATGCATGATGCTGGGTATGATATAAAGAATAATTTCGATAATGTAGTTGATGATTTTGATAAATTAATTGGATTAGATAAATTATTAGCTATTCATTTAAATGATTCAAAAAATATAATTAATGGGCACAAGGATAGACATGAAAATATAGGTTATGGATATATTGGTTTTAAATCTTTATCTAATATAGTTCATAATCCTTTATTCAAAGAAATACCAATCATTTTAGAAACTCCTTGAATTAATGGAGTAACTAGTCCGTACAAAAAAGAAATAGAAATGTTAAAAGAAAATAAATTTGTTAATAACTTTGGCATGGATATAATTACAGATTAAAAAAATGAACTTTATAAATAAGTTCTTTTTTCAATATCATTGAGTTATTTAATTTTTCAATATACTTCTTATTTTTTTGTTATAGTCTACCATTATTTTTTTAATTAATAGTTTTAATATTGAAAATAGGATTAATGAAGAATCAACTCACAAAGCACATTTATCACTATGCTATTCCATCTCATTAATATCTATTTGATAATCTTTAAAAATAATATCTATAATAGCTTTGTAATTTTCTAAACATATTTTTTCTAATGTCATAAATACATCATTATAACAAAATATTTTTTGAAATTTACTAATATTATAAAAAAGATTTCCTTTATTTTTCGATCAAATAATTTTTCAAAATTTTAATTGTTTAATAAATGAAATAAACTCTTCAAGTCACTTAAATCTCTTATTTATAATAACTCGCAGGTTTTTATCATTTTATAAGTTTTATATTAATTTTTTTAAAAAAACATTTTTATAAAAATTAATATTTTTTTTTATTATAAGGTAAAATTACTATTAAGAATAGGTGAAAATTAAATGAAAAAAATTTTAACTTTATTATCATCGTTAGGTTTGATATTAACTAGCGCTGCTCCAAGTATAATTTCTTGTAAAGCACTTCCTGTTAATAGAGATTTTAAAGATGTCGCTTCAGTAGAAGCGTTATGAGATACAAAAATAGTAAAAACCATTTCATTAACCTCTGTAAGTGATGTTAGTGATAAAGGGGTCATTTTAAAATTAAATAAATTAGCTAAAAAAATAAAAGAACTTGTAGAATATCGTTTAAGTCCAGGAACGGTTGAAGATTTTAAAAGTAAAAAACCAAAATTTGAAATAAGATATTTGGATAATCAATTAGGGATTGGAGATCCTGAATTAGAAGATAATATTGAATCTTCAAAAAATATCACAACAATAGTTAATAATTTATATGATAAATATGGCGAAAATGGCAATTTTGAATTAAAAATGAGTTTCATATTAATGATTGATAATGACGCAACAGGAAAAGAAACTGGCAAAGTCTCAAAATATAAAGGTTTAAAATTTTTTTTAACAAGCAAAGCATCATTTGAATATGATAGAGAAACAAAAAAATTTACATCAAATAGTAAGTATAAAAAGTATAAAAATAGTCAAGAAGCAATAACAGAAAAATCTGATTTAAAAAAAATTAATAAATTAGAAGAAAATCAAATGGAACCAAACAAAACAGCTTTTACAGAGTTGACAGATGGTATTTTATATTTAGATGATGACCAATATTACAATGATAACGTTGATAATATTCAAAATAGTTTAATAAAAAATGAGAGTTATGTAACTGGTTGAATATATAAAAGTTTACTTAGAAAAATTGATGAATCAAATTACAATAATTATATTTATCAATTTTACAGTCAAAAAGATATAAATGTTGTTAATGATGAGGAATGAGAAAGTTATACAATTAAAAATATATTGAATTATGAATTAAATTATTGAAAAAAAACTAGTTCTGATTCATCGGATAAAAGTTTTGAATCAAGAGTTTTGGGAAAAAATCCTAAAGATCCAAGTTCTGATGAGGCAAATCAACTTAATAATTTAGCTTCAAAAGGCGAAGCTATGTTTGAAATATTAGACCAAAAAATTAGAGTTAAAACAAGTGTTGTATGAGAAGAAAAAGCAACCTAATAAAAAATTCTTAGAACCTTAATTTATTAAGGTTTTTTTATTTTATTACTATTTAATTATCTTAAAGATAATTTGCTATAATTATAGATATAACAAAAAGGATAAAATGGAAAAAAGCGTATCTTATTTAAAAAAACAAAGAAGAAATACAGTTCAAATTTTATACAAAGTTTCACTTTTAAATGAACAAATAGACAAAATAAAACAAGAACTATTAGATAATACTCAATTTGAAGAAATAAATGATGATTTATCTGCGTATATAACAAATGTTTTAAATCAGTTTGATGATTTAAAACAAGAACTAAAAAAATACATTCCAAGTAACTGATCGTGAGAGAGATTACCTAATATGATTAAAGCGATTCTGATATCAAGTGCATTTGAAATTATAAATAATATAAATCCAAAAGGTATAGTTATAAATGAATCACTAGACATGGTCAGAGAGTTTTTACCTAGCTGAGACACAAACTTCGTGAATGCTATTTTAGATAAATTAAATTAACTAAAAAAGGAGTAAAGTTATGAAAATAAATAAATTTGATGAACTAAAAGAAATCTTAAATACTTATAAAAATAACTTTACACAAAATTTTAAAAAGCAATTAGCAATTAAGTTTGAAGAAAACGTGGTGCCTAACAATATTTCAAATTTAAAAATTGATTTTTTTAATTATTTAAGTTTCAATTTTGTAAATAGTTTTTTAAGTCAGTTTAACAAAGATAATTTTAGTTTGTTAGAAGAATATTTTAATAGTTCACAAAAAAAATTAGAAAATAGATTAATAAAAAAAATAATTATTGTAACTGCTAAAAAAATAGAAAGAGATAATAAAATAATAATTGATTTTTCTAATGCTTTAATGAGATTTAATTTCAACTTGAAAATAAAAAATATCGATTGATATGGTGAAGAATTTTTTTATAAAGATATTTTAAAATATGAAAGTTTAAAAACAATACAACAAAAGTTTAAAACTAGTTTTTTCAAATTAGATTTTGAATCTCTAACTGATAAATTAGTTCAAAGTATTGATAAAGTTAAAGTTGAAGAGTTGTGAAAAGATTTTTTTATAAAAAAAATCATGAGTTCATTAGAGAAGTTTATGTTTATACCAATAAGTTTAGAAAATTCTCATGCATTTGAAATCGAAACAAAAGTTTTAAAAGATTTAGATCAAAGTACAATGATTATTTTTATAAATAATGTAGAATTTGATGATCTTTATAAAACAAGTTTTTTAAATAGTCAAAAGTTATTTGAAAATATAATTAGATTAGACGTTCCTGTATTTACTATTGGAACATATAAGGATTTAAATTTAATAAATATTGTAAGTAAAAAAAACTTTGATAATGAGTATGTATTTTTATCAGATTTTAATAATATTTATGGAACAAAAGAAGAAAAAGTTTTTGAAGAAAAAGAAAATACAAATACATTAAATATGTATTGAGATGATATTTTATCATCTAAGCAAGAAGATGAAGAAGATTTATTTTCAGAAGAAATAATAAATCAAAAAAATAATGAAGATTTATTGAAGACGGAAGCATTTGAAGAAACAAATAATTTAATAGAAGAAAAAGAAAAAAATAATACTTTAAAAAGTTTTTTTAGTCTTTTTTTTAACGATTATATTAGTGAGGGTGAAGAAATTATACTAGAAAATTTAGAAAAATATAAAAGTATGTTATTAAATTTTAATAATATGTTTATAGAATTTTGAAATAAAGTAGAAATTGAAATAGGTAATGTCGATGAAGAAGAAGTAATTTTTTTTAAAGAAAAAATTTATAAGAAAAACATTATGGATTTATATAATCACATAAGCGATAATTACTCTCAATATAAAAAATATTTTGAAGCAAGTTCAATAAGTTTAGAAAAATTATGTAAACTTTATCACCTATATATAAAAGTTATAATAATATTAAATAATATTGATTTAGTTTATAAATTTAAATAGAAAGAGTGTAGTAATGAGCGAACAAATCATAAATGTTTCTGAATTTAATAAAAAAATAAAAATGTATTTAGAAAAACCAATAGATTTTAAAAACATTTCAGTAAAAGGTGAAATTGCAAACTTAACTTATAATAAAGTTGGTCATATATATTTTTCCTTAAAAGATAGCACAGCTAGAATTGAATGTGCTATATGAAAATTTAATGCGTATAAATTTAAAAATTTAAATCCAATTGAAGGAGATGAAATAATAGCTATTGGATCTATTTCGTATTATGAACCAACAGGCAAAGTCACATTTACAGTAGTAGATATAAAAATTGATGGTATTGGTGAATTAGCAATTTTATACGAAAAAAGAAAAAGAGAATTAGAGCAATTGGGGTGATTTTCTAACGAAAATAAAAAAAATATTATCAAAAAACCTTTAAATATTGGAATAGTAACAGCAGCAACAGGAGCTGCTGTAAATGATTTAATAACAACAATAAAAAGAAGATATCCAATTGTTAATATATATATATTTCCTGCGTTAGTTCAAGGTGAACAAGCTGCAGAAGATATTGCTAAAAAAATAAAATTAGCAAATAATTTTCATTTAAAATTAGATACATTAATAGTTGGTAGAGGTGGAGGAAGTTACGAGGATTTATGAAGTTTTAATGAAATGCCGGTACTTGAAGCTATACACAAATCAAACATTCCAATAATCTCTGCAGTTGGGCATGAACCAGATAATACAATATCTGATTTAGTAGCTGATGCAAGAGCATCTACACCTACGGCAGCTGGAGAATTAGCAACACCAGATAAGAATAACTTAATTAAAATATTAGATTCTATACAAAAAGATTTTGGAAAAATTGTATTGAATAAATTAAATTTATTAAAAAAAGAGATAAATTTAAGTGAAGTGTTAATTAAAAAAGATTTAAAAACAAAATTTGAAAATATAAAAATAGTGTTAATGCAAGAATCGAAAAAAATAAATACCACTATTATAAATAAATTATTTAATTTAAAAGATTATTTATTTAATTTAGAAAATAAAAATAAAAAAAGTTTATACGAAAAGTTCAAAGCATTAAAAAATGATTTTGATTTTGAAGAGAAAAAAATTAATATTTTAAATCCAAAAAAACCATTAGAAAAAGGTTTTGTGATTTTAAAACAAAACAAAAATATAATTTACAGTGTCAATGATATAGACAAAAATAATAATGTTACTGCGATTTTAAAAAATGGAAATTTAGATTTAAAAATACTTAAAATAGATAAGGAGAAATAAAAAATGGAACAAAAAAATTTTATAGAAAATTTAGATAAAATAAAAGAAATTTCAAAAAAACTTGAAGATCCTAGTACTTCAATGGAAGAAGCTTTAGAACTTTATAAAATAGGTACTGAAAAAATTAAAAAAGCTAAAGAACAATTAGAAACAATTGAAGGAGAAGTAAAAAAAGTTTTAGATGATAATTCTTTAGAAGAATTTAAATAAGAGGACAAAATGAAATTAAAAGATGTAAAATGTTTTAAAGATATTTATAAAATCTTTGATAAAAAAGAACTTGAAGAGTTAAGTGCTGATGTTAGAAAAACTTTAAATAGCATAGCTAATAGTCAAGGAGGGCATATAGGTAGTAGTTTGGGAGTTGTCGAACTAACTATTGCATTGATATGTTTTTTTAATGTTGAAGATTCTATTTTTTTATTTGATACAGGACACCAGTCACATGTTTACAAACTTTTTACAAATAGAAAAGATACTTTTAATACTTTACTAAAATTTAATGGTTTATCTAATTTTCAAGAAATGAAAGAAAGCGAGTATGATTGAATATCGAATGGTCATAGTGGAACTTCTTTAGGATATGCTTATGCTTATTCGCTATCTAATAGCAAAAAAAATATTATCTCAATAATTGGAGATGCTTCATTTTACGGCTCTTATACCAACCAGGGATTAATAAATTTAATAAACTCTCCGCATAAAACGATAACTATTATTAATGATAATGATCAATCAATCGGCAATAACTATATTTCAATAAAAAATATGAAGCAATATTGTAACTCTTTAGGTTTTGATTATATAGAATGTTCTGATGGACATGATTTTACAAAACTATTTGCTTCAATAAAAAATGCTAATGATTCTGAAAAACATGTTATTTTACATATAAAAACTGCAAAAGCAAAAGGATACGATGGTGTAAAATTATTAGATTGAAATCATACGATAAAAGAAAATACTGATTTTTCATATCAAAAGGAAATAGCGAATTTAATAGAAGAAATTTTTGATAATAACTCAGTTTTACTTTGTCCTGCGATGCTAAACACAAGTATGTTTGATAATTTGAAAAAAAAATGACCCGATAATGTAATTGATTGTGGAATAAATGAAGAATTGTGCGCGTTGATAGCAAGCGGTTTTGCTAAAACTGGCAAAAAAGTATATATTTCTATTTATTCAACTTTTTTTCAAAGAATATTTGATCAATTAGTACATGATATTGTTAGAAATAATCTATCAATAGTATTTCTAATTGATAGGGCAGGTTTAAGTTACAGCGGGGGAGTGAGTCACCATGGAATCTATGATGTGGGTTTAGCTAAATTTTTTAATAATAATATTATTTTTCATCCATTCACAAAAAAAGATATAGAAGATATAAAATTTATTATAAAAAATAATGAAAATACAAAAAAACAAATATTTATAAGATATGATAAAGCAAAACTTACAAATATAAACAGTAAATTAACAAATTATGATTATATTTGAGAAGAGTTAATTTTTGCTAGTAAAAATAATAAAACTTTAATAACATATGGAACTAATTTACAAGATTTTTATAAACTTGTAAATGAAAAAAACTTAAATATAAACTTAATTAATGCAAGATTTATAAATCCTATAGATAAAGAAATGCTAGAAAAACATAAGAATAATAAATTATACGTATACGAACACATAATAGGAAATAATAACTTATATTTAGATGTGTATAAATATTATAAAAATGAAAAAAAAGATATTGTAAGTTTTAATATAAAAGATCCATTAATAGGTCACGGCAGTAAAAATGATGTTTTAAAAGAACAAAATTTAAATTTTGAACAGATTTTAAAAATAATTAATGATGATTAAAATAAAGCGCAAATGTGCTTTTTTTATATGTAAATTTACTATTAAGTTATTATTTACTATATATTAACTTGGTATAATAAATATGATATTTATTAGAGGTGATTTATGCAAAAAGTTGGAGAAAGAAATTACTTTTTAGAAAAGTTGTTAAAAGATAGAAAGATTAATGATTTACTTAAAAATCAAACTTCAAAAGAGAAAATTGATTTTTTAAGTAATTTAGATGAAATTAGAAGGGTTCTTCACATTAAAGAAAAAAATGATAAAAAAATATATGATCAATATAATAAATTAATTGTAATTCCAACTGGTAGTGAAGAAACTTTAATAAGAGAACTAAATCAATTTAATAAAGCTATGTATAAAAGCTATCCAGAACATTATACTTTAGATATTCCAACACCCGAAGGAAAAGAACCGTATGTAATAAAAAAACCTAAAAGATATAATATAGAAAAAGAATTACCTAAAAATATTTTAAATTTATCAAACCCTTATAAACAAGATTCAAGTTTAGATTTAGAAGAAACATTAGAACAAAAAGAATTATTTGAAAATAAAAATAAAGGTATAAATATATTAAAATTAAATATAGAAATTGCTTTGAAAAATTTGGACTTAATTGTAAATACTCATCAAACATTAAAAGAATATAAACAATTAATTAAAAAAATTATAATAGAAAATAAATTAATTAATAAAAAAGAATTTATAGAAATGATTGAAAAAAATTTAACATATAAAAATATTATTAAAAAATTCAAAGAATACATTTATTTAAGTGAAAAATATATAAAAAATAATAATGAGTTTATAAATTTGGTAGAAAAAACTATAGAAAAAAATAAATATTTTTTTATTTCAAAAGATGAGAAAAATAATCAAGAAATAAATCAATTTAATAATATGGTTTTAAATTCTGTAACTAAAAATAGTTTGTTTTCTGATAATATAGAAGAAATTTTAACTAAGCGAGATTTATACTATAACTGTGAAAATAAAAATGATAATGATGATGTAGAAATAGATTTAGATGATGTTGAGTTAAGTAAAGATTTTACAAACGAAGATATTATTCCTGATTTAAATAATTTAGAATTAGATAATGAAGTAAATAATTTAAATAAGGAAGAAAATTTAGATTTAATTTATGAAAAATCAGATAATCAAAAAAATGAAACATATTTTTTTAAACTTGCTGAAAATATAGATAAATCAGAAATAGAAAGAGAAGTTGAAAAAGCAAATACAAATGTTAAAGAAGCATATGATTTGCTTGAAATACTAGAAGAAATTTTAATTAAAGAAGATAATAAAGTAGAAAATAATTTATTTAAAAATAAAGATGAAGCTAAATGAGATTTACTTGCTAGTAAAAATTATTTAGATGATATTATAGATGATAAAGAATTATTAAATAAAAAATATGAAACAATAAAGCAAAAAGACATTTTAAAAAATAAAGAAGAAATAGTTGTAGAAAATGAATTTGAAAAAAATAAAAAATTAGATGAAATAAAACACAACTTAGAAAAAGGAGAATATGGAAAATTAAAATTATCTAAAACTATGAATTTGACATGTTCAAAGTATATGAATAAGTTAGATAGTTTAAAAAAAGGATTTGAAAAAACATACGGTTCTGAAATGTTTTACAGAATTAAAAATTTAATTATACAAGAAGGTGTATTGTATAAGAATTTAGATACTAATAATGATGTAAAAAAATTAAAAAATAAAAAATTTAAATTACAAAAATCAATTTTGAAAAGACAAAAAGTAAAAGATTGATTTAGATTTAAAAATTAAGAGGTAAAAAATGAAAGAAAGATTGGATCAAATTTTAATAAATAAAAAATTATTTGAAAACAGAAATAAAGCAAGAAGTTTTATCGTTGACGGTAAAATTATAGTTAATAATGAAAAAATTATTAAACCAGGAACAATGTTTGATCCAGAAAAAATAATACTACAAATTATTAATAATGAAAAAACTTATGTAAGTAGAGCTGGTAAAAAATTAGAAAAAGCTATAATAAACTGAAATATAGTACTCAAAGATAAAGTTTGTCTTGACATAGGAAGTTCAACAGGTGGATTTACAGATTGTTGTTTATCTTTTGGAGCTTCATATGTATACGCAATTGATGTTGGTACAAATCAATTAGATTGAAAATTAAGATCTGATTCAAGAGTTAAATCGATAGAGAAAACTAATTTTAGGATAGTAAACTCAAATTACTTTGCTAAAAAAATAGATTTTTTTTGTTGTGATGTAAGTTTTATTTCAGTTGAAAAAATTTTAATTCCATTAAAGGATATAGTAGAAGAAGGTGTTGAAGGAATAATTTTGATAAAACCTCAATTTGAATCTGATAAAGATGACATTAAAAATGGTAAGATTAATTCAAAAGGAGCACATAAGAAATCAGTATTGAGAGTTATTGGTTATTGCCATAAAAATAATTTTATGATTAAAGGAATAAATTTTTCACCAGTACTTGGTAATAAGAAAAAAAATATTGAATATCTTTGTTACATTAAAAAAAGTAATGAAAAGAATTTTATTTTTAATGAAGAATATGTTAATAATATTATAGAAGAAAGTTGAGATTATTTTGCAAATAAAAAGAATAAAGACTAAAGAAAAGGTTATTTTTTTATTAGATATGGATGCTTTTTTTGCAAGTTGTCATGTAGCAAGAGATCCAAGTTTGAAAGATAAAAATCTAGTTGTAGCATCTCCTAATAGAAGAGCTATCATTACAACTGCAAGTTATAATGCAAGAAAGTTTGGAATAAAAGCTGGTATGCCGATCTTTAAAGCAGAAGAATTATGCAAAAATATTTATAGAGTTGATAGCGACTTTGCTTTATATATAAAATACTCACAAATGGTTTTTGATGTTATATATAAAAATTTTTCTCAAAAAATAGAAGTAGCTTCTATTGATGAATGTTATATTGATGTTACTCATGTCTGAAAAAAATATGGTACTGCAAAAAAATGTGCAATTGTTTTAAAAAATATGGTTTATGAAAAAACAGGTTTAACTTGTTCTATTGGTATAAGTTCAAATAAATTTTTAGCTAAATCTTGTGTTGATTTTAATAAACCTAATGGAGTTTCGATTTTATTACCAAAAGATATAGATAAAGTTTTATGACCTTTAGAAGTAAAAGAAATGTTTATGGTAGGAAAAGCTACAGAAGAAGTTTTTTTAAAAAATAATATTTTTACTATTAAAGATTTAGCTCAATCAGATGTAAATAAAATTTATGAACTATTAGGCAAAAGAGGTCTTACATTATGATCTTGAGCAAATGGTTATGGTAGTGATATAGTAGAAAAAGATGAAAATGAATTTAAATCAATAGGAAATGAATTCACCTTAAATTACACAACTACAGATACAAAAGAAATTGAAGAAATGATTTATGAATTAAGTTTAAAAATTTGTGATCGAGCTAATAAAAGATTTTTAAAAGGAAAAACTATAAGTATAATCTTAAAGTATGAAAATGAAAAAAATTATAATTTTAATGCAACCGAGCATAAAAAACATAAACATCATCAAGCTGGTTTAGAACAATATACTGCTGAGGTAGAAAAAGTTTATTCTGTAGCAAAAAATTGTTTTTATAATACATGGACAGGAGAACCTATTTTGTTGATTGGTGTAAGATTAAGCAATTTAATTGATGATATAAATGATAAAAAGCAATTATCTTTAGGTGATGTTAATTTATATGAAAGAACTAATCTAAATGATATACAAAAAATAATTTATGATTTAGAACTAAAATTTGGAACTAAAAAAATATTTACTGGAGATAAGTTAATTAAGTATAATAAGAAAAATAGAGGTCAAAGTAAATATTTAGAAAATGATGATGTACATATTTCAAATAAACAAGTTGTTGCAAAATGAAGTAAAGAAAAAAAAGATTAGTATATTTAGAAAGGTTATTATTTATGAATGAAATAAAAATAGATGATATTATATTAGAATTAACTTCTTTACATAGACAATTAAATCATCTATTGTTCAACAATGAATTAAAAGAATTAAAGATAAACGTAGCTGACAATATTAGATCTAAAAATAAATTAACTAAGGGTCACTTTGAACCACGAAGCAAATGAGAAGATGAAGATATGCAAATTATTATTTGAACTTTATCTTTAAATGGAGACCCTTTTTATGTAATTGAAGTGTTAATTCATGAAATGGTTCATCAATGAAATTATCAAAACAATATTAAAGATGTAGAAAATAATGGAAGGCATAATAAAAAATTTAGAGATGTAGCTATAAAAGTGGGTCTATCAATTCCTAAAACAATAAGAGGAGAAGGAATAAACGATCATGGTAAAGGATTTAATAGAACAAGCATTTCAAAAGATTTAATGAAAATTTTAGAAAAAGAGCTTGATTTCAATAGGGAAGTGATGCAATTTAAACATCAGTACGCACTTGATTATGAACCAAAAAGTTATAATAAAAGATTCAGTTATTATTGTGCATGCGATTACTATAAAAATGTTAAGTTTACAATTAGTAAAAAATTAAATATTTTATGTAAAGACTGTAATGTAACGTTTAAAATAGAACAATAAAGTGTATATTATAATATACACTTTATTGAATTATAATGTTAAATCGTTATATTTACTTGTATACCCTTTTAATGTATTATATATATTATTAATGCTTAATTTTATTTGTAAGTTGTTAGAATGGAGAATTAAATATGGCTCAATTTTCACCTAAATTTTGTTCAATTCATTTAAAAATTCATGTTTGTGAAAACCAAGATATTACAAAAAAAGTCTCTGAAATTGAAGGTGATCTAGGAGCTAAGGTAAGAAGATTACATGGTACACAAACTGAAGAAGAGTTGCAATTAGAAGCTAAAAAACAAGAAAAATTTAAAAATGCACCAGGTAGTTTAGGTGATATTTTAGCTAAAGCTAAAGCTAAAGTTGCAGCAGAAAAAGCTAAATTTGAAAAAGAATCTAATAAGAAAGAAGACGAAGGTAATGTTGTAACAGAAGCTGAGATAGGTGATAGAATGGCTGCTTTAAGAGCTAAAATGACAGGTGATACATTATCTACTTCCACATTATCGATTGATAAAGATTTAAGCATTCACAACCCCCCTAACAGTAATTCTAAGGGTAATAATAAGACTAAAAATGGAAATTTGGAATCTAATAAAAAGAAAACGAATAAAACCGACGATAGCGCTTCAAAACAAGCAAAAAATACAAAAAAATTTGATGATTTTTTTGAAGTTAATAATGATAAAAGTGATGAAATAGAAGTTATTGATGAAAATGATTTAGAAGATAAAGATTCAATAAAAGACAAATTATTTACTTATGAAGAAACTCATGAATTAATTCAATCAGCTGTTGAAAAAGCATTAGAGCAAGTTGGTTTTTTAGATAAAAATAAAACAAAGAAAAATAATAGTTCAAAAAAATAAATCTTTTACTAGTCCTTTGTTGTTGATAAATTTTTTATTATTTCATCCGCCCTTTTATATAAATTTTGTAAAGAGTCATTATTATCAATATAATAATCGCATTTAAGTTTTTTAGCTTTATTTTCTTGAAACTTTGAAATATTTTCGATTTCTAATTTATTAGCCTTATCTCTTTTTTTTACCATCTTTATTCTTTTTTGTAAATCTTTATTAACAAAAATAGTTAAATCAAAATTAATGTCTAATCCTTTTATAACAGCAGCTTCCACTATATAAGTTTGGTTTATTGCTTTAGTTGAATATAAAATATTATTTATTTTTTTACTTATCACAGGTCAAACTAATGAGACGAATTTATCATTTAATTGATCATCATTGAAAATAATTTTTCTTAGCATTTTAGTATTTATTACATTATTTTTCACGCATTCTGGTATGTTTTGTATTAAAAAATTTAGAACTACTTTTGTTTTTAATGCTTCTTTTGCAATTAAATCTGCACTTATTACAAAAAAATTATATTTATCTTTCAAATAATTTACCAAAGTGGATTTACCACTACCAATATATCCGCCAATACCAATAATCTTCATTTCTCTTTTCCTTTATTTATAGATAAAAATAAAAAAAACATTTATATTAAATGATTAATCAATTTAATTATAAATAATTTTTTTAGCATAACTATTAAATTTTGATTTAATTGGTGACATTTTTTCGATTACTTCAAGGCAAACATTTCTATATTCATCATAATCTTCTCCGTTTTTAGCATATTCTAATTTGTTTACAATATCTAATTTATCATCAATGTGTTTAAAACTATTTGATAGACGTTTTCTAACACATAATCCAACTTTTGCCAATAATTCTTCACGTTTAAGAGCAATCGCAAATATTTGTTCTATGATAGCTTCACATTCATAAACATTTCATTCTTTAACGTTGTATCTATATTCATCAATTAGTTCAATTAAATCATCTCTATATCTTCCAAATACATTAAATTTTGATTTTTCAATAATATTAACTAATAAATCAATAAATTTTTGTTCAATACCAGTTAATATATCCATTTTATTTTCAATTTGATTTAATTCATCTTGTCAATCAACTTCACTTGGTGAACCTGTTAATCTTGATATTTTCATTTTAGCTTCTTGATACAAATCTAGACCTGAGTTTTTTGACTTATCAAGCATTTTTGCAAGTGAAGTATAGAAGTTAACAAATACTTTTGTATCATATTTTACTCCACCAATATCAACAATTGATCCATTTCCTTTATCAGGTTTTTGTTTTTTAACATTAGCTTTTATTTTAACAGGTTTTACATAATCATATTCTTTTGCGATATTCATACCGGTTGATGCATCTATATCTCGTAAAACAACTAAGTTAATATTTCATCATGAAGCTTCTCCAAGAATAACTCCTAAAAATCCGAACAAACCAAATAAAATTAATGGTAAAGTTGGTGTCATAATTCAAATTCAAATATATAATGCTTCATTAGAATTATATCCTTGACTAAAGTTATTAAAAAAAATTGCTAAACTTAATCAATAAACCGGTTGGAACCCTTCTCCGTTTGCTCCTAGTAAAATATTTTGTATATCATCTGCAATTTGAACATTAGAAGTAATCGATACAATTCCACTTGCTCCAAATTCTCAACAAAATCCCATTAAATAAGGAGATGCAGCTAAAAATGACAATAGAGATGACAATAATAATAAAGCTATACAAATTCAACTAATAATCATTGTTATTTGAAAACTTCTTATTGGTTTTACTATTCTTGCAACCCCTTTTTTTGTTTGATTGTTATATCCAACTGTGTGAATAATCATTCTAAAAAATATTAAAACCAAGGAAGACCCACCAATAAATATAGGTAGATAGAATATTGTAAATTGATCTGGAACTATAGCAAAATTTTTAGTTTCAAAATTGAATAACATAAACTTTAAAGCATCATTAAAGTATTCGTATATTCCAATATCAAAACCGCCGTTTGAATATCTCTCTTTATTATAAGCATCATAAATTGCGTTAAAAGAAGCTTTTTGTCCACCTTCTTTTCAATTAACCATCGGAGAAAAGTAAATTAGTAAACCAAATAAAAGGTATGTAATTGAAAAAATGATTACTGCTGCAATCATAAATTTAATTTTAGAGTTCTTTTTTAAAATCTTAATTTTTTTCATTTATACCCCATCAATACATTTTAATTATTATATATTATATTTAAAATGAAATTAAACTAAAAAGTGTAAATTAATCTAGTAATTTACAAATAAATCAAAATCTATCTTTAGATCTCTATATCTTAAACAATCATTAACCAATTTAACTTGTTTGTCTGTTAATTCAAATGCTTTAAATATAAACTTTTGTTCTTCACTAAGATATATTCCGTTTTCTTCTATTTCAAGTTCTGGTTTTACACAACTTGGAATAGAATTATTATCAATTTTATTATCTCCAATTAAATATTTAAATAAAGGTCGATATTCACCTCTACCAGGACCAAGATTTACTAGCCCAATTGCAAATCTTGGGTCCACTACAAACACACTTAATATATTAATTTTTGTTTTTTCATCTATAAAACCAGCAATAGTTTTATTTGTTAAAATAAATGAAGTTCTATCTAAAGGAGATACTTTAAAAATCTTTATAAAAGTATTATTTACAATATTATGAAAATAAACATCTAAAAACTTATAATTAAAATCTTTAAAAGAATTTGGTGGAACTATAATTTGTTTTTTGTATTCTTGATTAACAAAGTTAACATCAGATTTTTCTACATATTCATATAAACTTTCAAAAATTCTTGGTGTAAAAATATAATCATACATATCAAATAAAGTGTAGCTAATAATAGATAAAATACTTTTTCTAACCTCCATTGGAGCATCTTGATTTATTGCATCAAAAACTCGATAATTTTTTTCATACTCTACAAATGAATATTTATACTCTCCGTTTAATAAACACACTAAAAAATAAAAATACTTCACAAATAAAAGTTCTTTACCTGTTATTTTAATTTCTTTGTCTTTTTTATCGATTCTTCTTTCAAAAATAGCTTTTCCAATTTTTGCTATTTGATTATATTGTTTGTGAATTTTTTCAATATCAAAGCTATCGTCTCAACTAAAAAGCATTTCAATAATTGGTTCATTTTCAACCTCAACTTCAACAACACTATCAGATGAAAAGTCTATATATCTAAAACATTTAGATCCATCATCTTTTGTGCTGATTCATTTATCTAAAAAATCACTAGGAAGTAATAAATTTCTTTTTACTTTTTTTTGAACTTTTTTTTCTGGACCTTTCATAATTATCTCCTTAATATATATCTCTATTTATAAGTTTCAATTCTCTTTCTGGAGAAATCGGTGTAGTTGTTATAATTAATTTTTCACGCTTTGCAATAACAAAAAAAATGTTACCCTTTCCTGTGTAGATATAAATTGTATCATTTGTTTCAAAATTTCTTGTTGAGTTTTCAATCATATCAAGTACTTTTTCTTTTATTTCTCATTCATTAGATTCGCTTAAATTAAGTCTTTGTTTTATCCTTTGAAGCCCATGATCTGAAAATTTAAATTCATGTCTGTAATAATAACTCATTAATATAAGCACATCCTCTAAAAATATTATATAAAAAAAAGTAATATAAGCATACAATTAATTAAAAAAACTAGAAGGTTATCTAGTTTTTATCATCTTTTTGTTCTTTGTTTTTTTTGTTATCTCGTTTATCTAAAAACTCTTTTACATATATTTCTGGTTCATAAATACTTTGATCCATTTCATATTTTCTTCCTTGCATTAATTCACTCATAAGTTTTTGATATTCTTGATTTGCATAAATAACTTTTTCTCTATCCATTTTAGGGTTTAAGAATACTATTACAACAATAATAACTATACAAATCATTAAAATTACAAAATTAATTCATAATAATGATTTAATTAAAGTTATTATAGATGATGATATATTTCCTTCTACAATTGAAGAAAAAACATTTTGAATATCTTCATCGCTAACTGATGTGTTCATTTTTTGAGCAGCAGCATTAATTGCATTTCTAAAGTTTTCAAATATTGATGAACTACCTGAAATTGTGCTAATTACATTTCCAAGATATAATGTGAAGATATTTACAAAAACAAATACTCCAGCAAAAATTATGTTAAATCATGGTATTCAATATTGTTCTTTATATGTTAGCGGCGGTTTTATCATTACATAAAATATATATATCAATAAAATAAAGTTAAGTGCTAAAAATATATAATTCATATTAGAAGTGAAATTACTTCCAAATAAAATGGCTCTTTGCAAAGATAAAACTTCTACATTTCCAGTATAAAGATTTGAAAATGATGAATTAGCAATACTTTGATCTGATTTTGCAAGATCTATTGATCCTGTAGTTAAAAATATCACTAGTATTAAATATGTCAAACCACAAATTCCATAAAAAACTGATAATGCAATTTTGTATCAATATGCATGTTTTAATTTTGTTTTAAATGGGAAAAATCTTTGATCTTGAAGTGGTGGCGGTGGTAACGTTCCGCCCATTTGGTTAAACATATTATGATTAAATCCATTTGCAAAATTACTATGAAAATTATTATTATTATTATTTTTGTTATTGACATCAAGATTTGGTTTTTCTGTGCCAACGCCTACCACTTCTACTTCTTTACCATTTGTTTCTATTTTTGTATAATCTGTTTCTCCGTATTTTTCTTTCATTTCATCAGTAACCTTAGAAGATAGAGTTATTTCTTTTGATGAAATTTGAATTGCTTCACTTGTTAATTTTTCTTTTGAAACTTCATATTTATTTAAGCAAAAAGTTAATAAATCTGAATAGTCAGCATAAATATCTATTATTACTTTATTTTCTGGTTTTTCAAATTTTATTTTTTCTTTTGTAATATTCACAATAGCTTTTGCAAGATTTGAACTTCATTTCTCATCTTTGAAAGTTGCGCTACTGTCTATTTCTAATGATAACAAGTTATTGATATTTGCTATAATTTTAGCTCTAAGTTCAAAATCAATAAAAATTTTAGTTCTTAACTTTTCATCTCTAATCAGATTAAATAAGCTTGTAACAACGCTTTGATAAACGCTTTGTGCTTCCATTTTATATTACCTCTCTTTTAAATAACTTGATAAATTCTAATTCTGGTATTATTTTGTTATCAATTTCCCCGTTTTTCAAATTTTTTTCTAGTTTATATAATGTCTTTATTGTATCATTTATTTTATTTATATCTAGTCTATTTTCACTCATTAATTTTTGAACTCTATAGGGGTTTTGATTCAAAATTGATGATATTTGACTAATGTTTTTATTCATTTTTTTTAATAACAAAGCGTTCCGCAATAAGCAAAATTGACTACTTAATAGTGCTAAAAAACTAAACATGTTAGAGTTTAGTTCGATATATACATTTCAACCTTTTAAAAAAGCTTTTATATCGTTTTTTATAAAAGATTCTGCTAATTCAAAAATATTGTATTGATAGTATTTAAAAACATTATCTTCTATTACTTCTTTTGTAATATCTTTATTTAAACTAATCAATTTATTAACTTCATTAACTAAAATAGACACATCATCAATTACTCTATCTAAAAAGTATATAATAGCTTCTTTATTGTAATTTAATCCTTCTTTTTCAAGTTTTTTAACTACCAAATCATATTTTTGATCAAAATTAGGTATATCTACTTTCAATGTTTTTGCATTATTTTCAATCAACTTTGCTATTTTTAATTTTTTAGAGATTTTTTCACTTTTTACTGTAAAAATTATATCCACATTAGGATTTTTATTATTTATAATTTTTTCAATATATTTATTATCATAATCTTTATGTAATTGCGGTTTATTTTCATTGACAAAAAAACTGTCATTTATAATAATGATTTTTTTTCTAGAAAAAAGTGAATATGTATTAATTTGACTGATAATTTCAATAATCGAATCATCTATTAAAGAGTAATTAAAAATTTCATAATCATTATCAACATTAATTTTTTTTACTAATTTATCTATTTGTTTACTTATTAAATATTGATCTTTTGAATAAATAAAAAACACTATTCTCACCTATATCTATACTTTAACATTAAAAAATTGCTTTTTTTTATTTTTTCTTGTTTTTTACTAGTTATTTACTATATACTTTATATGTATATGATTAAATATTGAAATAGGAGGAAAAATGGCAAATATTAAATCTCAAAAGAAGAGAATTTTAACTAATGAGAAATCAAGATTAGTTAATAAAGCTTTTAGAAGTCAAGTTAAAACAGCTATTAAAAAGGCTATAGTTGCTAAAGCTGAAAATTCTGCAGATAAAGATCAATTAATTAATACAGCAGTAAGTTTAATTGATAAATCAGTAACTAAATCTGTATGAAAGTTAAATAAGGCAGCAAGAGAAAAATCAAGATTAATGAAATAATAAGTTTCTAGAGTTTAAATAAACTCTTTTTTTATTTCTACAACTTTTTTAGATTTAATTTTATATTTATATGATTTTTCACCATTTGTAATATAGTTTTGACAGCTGTTATCTTCTAAAGTGTTAATTGTTTCTTTACTTGGAAATTGTAACTTATCTTTTTTCATACCTGAAATAAAACAAATTTTAGGTTTAATAGCTTTGACAAATTTATCACTTGTAGCAGTTTTGCTTCCATGATGACCTACTTGATATAAATCAACACCATTTTTTACAAGTTCTAAAAATAAAGAATTATTTAACATTCTAGCTTCTCTTTTTTTACTTGCATCACCTGTAAATAAAAAAGTTTGATTATTTAATTTAACAACAATAATTTGCGAATTATCATTTTCATCTGAGTTACCATACTCATTAAAAATATAAAATTTAATATCATCAAACTCAACTAAAATATCTTTTTTTAAATTTCTATAAATATATTTTATAGTAGTTTCTTTTTTGAGTTGTTCTAACGAATTATAATGATCACTATGGTTATGAGATATAAATACACTTTGAATTTTATTCAAACCTTTATATTTTAAATAATCCGGTAATGTTGATTTATTTTGACCTACTCCAGCACCAGCATCAATAACAAAAATATTTGAATTATAATTAATCATAAAAGAATTTCCATTACCAACATTTAGCATTTCGATAGTTTGACTAAAAATATTGATAATAGTATTTGTAAAATACATACCTATTAAACTAAATGTCAACATTGAATATAAAAAGAATTTTATTTTTTTATTAAAAATAATAAACTTAGTCAAAAAATAGAGACTTAAATAATAAATGATAATATAACCAAAATTTATATATCCTGTCAAAGATGTTAAATTATATTTTGAAAAAAAGATTACTGTAAACTTTAATAAATTATAGTCAAAATTAAGGAGCGGATTTAAAAATGGTAAAACAAAAAAGAAACTTAATATAAAACTAAGAAAAAATAATGGCAACAAAATTATCTCTTGTATTTGAGCTAATCAATAAATTTTAAAATCATAAATAATGTTCAAAGGAATAAATACAAGATTAATTACTATAAAATTTATTATCAAGTTAGTACTTTCTTTTCTATCTTTATATTTTTTTAATAACAAAATGGCTATTGTACAATATACAAATCCAATATTGAATAAGTACATTGGATTTATAAATAATACAATGAATCATGTTATTGATAGCTTTGTAATTTTATTTAAATTAAAGTTAAAATATTTTTTTAATTTATTTAACAAAAAACCTATTAAAACTTTTAACAAGGTTGGTGGCATTCCTATTAAATAACAATAAAAAAACATAAAAATAAGTGAGATAAAACTTAACATTCTATTTTTTTTATACTTTTTTGAAATCAATTTTTTAATAAACACCACAAATAAATACAGATATACACCTGAAATATTTGATAAGTAGCTTAAACTTAGGTTTATTAAATTTTTATATACTTCATCATTAGATTTATTTTGAAAAAGTAACAAGTTAGCTAAATTATTTTCTGAATGATTTAGTTTAAAAAAATAGTATCTAGGATCTTTGAAAAATACTTTTAATATTTTTATATATTCAATAGATTCATTAACATTCTTATCGTTTAAATATTTATTAAAATTGAAACTTCAAAAGTTACCATAAACATTGAGTTTCTTAACTTCCCCTACCGCTTTTACAACCTCCCCTACCGAAAAATTAGCATCCCCTTTTCATACTAAATATTGTTTAAAACCTTTTACTAAGATTACATATTTTTCTTTTACTTCACTCACATAGTATATGTCACTGTTTTTAAAAAAATCCACTTTAAATATATAGAAAGTTAAAAAATAAACAAAAAAGATAAAATACAAAATAAAAAAAATATATACTTTTTTTATAAATAGAAGATAAATGCAAAAGATTAAACCGTAAACAGAAAGTTTAATATAAATGCTAGATATTTTTAAAGTGATGACCACAAATATGATACTAAAAACATTAAAAGCAAATCAATTGATTCTATTGAATAAGTCTTGGTATAGCTTCTTTATAGAAGGATTTGTTAAATTCACCATTATTAAATACAGCTTTTAATTCCTTGTAACACATATCGAAAGTCTTTTTAAAGTTTTTAAATATTTTAATTGTTTTTTGACTATTACTTTTTGTAACACCTTTATTTATAAAAAAAATTTCAGTTAAATCTTTTCTTAAAGTTTTTATAGTTTTAATATTTTCTTTAGGTAAAAGCCAAATAATTTTATCTTTTTGAAATAACTTACTAGTTTTTAATTCAAAAAAATTAAGTAAATAATTTAAGTTATTATCTTTTAAAAAGTTTTTTTCATTTGTTAAATCTTTATTATACTTTATAGGTTCTGGTAAATATTTTTTATTTTCTAATTTTATATCATAGACTATTTTAAAACTTATTAAAGAGTTTTCATATATTATGTTTTCTTTTTGTTTTGTATTACTTCTAAAAATTAAAAATGATGATAATAAAATTACTAAAACTATTAAAATTAGTAGATATAAATATTTTTTAATAATTTCACCTCCACTATTTTAATCGTTAATTTTTTAAGATTTTTTATATAAAAAAAAAAAAAAATAAATATACTTTTTCAAGTATGCAAAATGTTTTTTTATAAGAATACTTCAAAATTATTTTAATATTCTTTTTTTGAAATAAAACCGATATTAACATATGCTTGAGGTCCATTATGTTTAATCATTATTCTTGTATAGTTATAAAAATCTAAATAATTATCTATTATTTTTTTTAGATTAATAAAGCTATTTTGTTTTAGTTTCTTTTTTATTATTCTTTTAGTAAAGAAAAAAATTTTACATATTACATTATCAATAGAGTTACCCAGCCTAGATAATTATATTATCGAGCTTTTTTGCATATCGTATTGCAAATGCAAATGTGTACTATATTTCGTTATTAGAATTAATAATAAGTTTTTTAAAAATATCTTTTCTATGAAACAAAACTTTCTCTAGTGATTTTTTATAAATATTTATATCTTTTTTTAAAGATACTTAATGACCAAATATAAATACAGTATTTGCATCTTTTATAACACTTAAATATGCAAACTTTTTTTAAACTGTATATAAGTTACATTTGTAACTCATAACTCATTTTTTGAATATATAGATCAAATCCTATTAAGATGATTGAGTCATGTGTTATATTTTTAACTTCATTTTGTTTTCTATGCATTTTTTTTATTCTTATAATTGAATACAGTTTAAATATTTTCATTATTCTAGTTACTTTAGTTTGACTAACTATAACACCTTTATTATTCACAATTATTTTTATTTTTGGCATCCTATAAATTCCATTGTGTTTAATGAAAATATCTTTTATTTTATAAGCTAAATTATTAGCTAATTTTAAGTCATATTCTGGCTTATTTTTTTTGCAACAGCTATAATAACTATCTCTAGTTATATTTAATAATTTACATAAATAAAAAAATTGTATATTTATTTTTATATTTATCTATTGTTTTGTAGAAATTAATTATTCTTTTTCTGAATTCTCCATTAGTTTATTATACTTTTTTAAAACATCATTCTCCATTTTTGATATTTTTAGTTTTTTGTTAAGTTCAGTAATTTTCTTATCTTTTGGATCTTTTGAATTAGTTCTAATTTTTCCATTATATTTGTTATGCTTTTCTATTTTTTATATAAGTGATTCATCACCATAAACTTTTCAATCTAAACACATTTTTCTAACTGTTGAGTATGAATGTTGTAAATTTTTGATAATTATCTAAAAAAAAAATTTTTGATTAAAGTACTTATTTATTAATTTTTTTTAGTATTAAATTTCATAATACTTGATACATTTCCTTTTAAATTTGCCATAAAAAAATTCTCCTTATGTAATTTTATGTTTTTTTCAACACAATGTATACTTAGAGAATTATATTCAAGTTTTTTATTAAGTTTATCTTAATTTTTTTAAATTAAGTACTCAATCAGTTTACTAATAGTTTTTTCAGTAATAAGAATAATATTGTTAATGCAAATTATTATTTTTTTTTCATTTATTTCTATAAATAGGCGGAAGAGTTCTACTACTACATAATTTTACAGGGTACCATAACTTGTATATTTTTTTTCTACATAATCTTTATGTTCTACTACTACATAATTTTACAGGGTACCATAACAAGGAGAAAAATTATGTTTAAAGCTTTATTGTTCTACTACTACATAATTTTACAGGGTACCATAACAATGAAGCAGCGTTAAAAGTTTTGTTGTTAGTTCTACTACTACATAATTTTACAGGGTACCATAACGGGCTGTAAATGCTTTTGTAAGTTGTGCCAGTTCTACTACTACATAATTTTACAGGGTACCATAACTATATAATAAAGCCAACATATCAAAGTTTAGTTCTACTACTACATAATTTTACAGGGTACCATAACTAACTGACCATGTATTGATCTTTACTAGAAGTTCTACTACTACATAATTTTACAGGGTACCATAACGGTTTGACGACCTTATATCTATTCTTTTTTGTTCTACTACTACATAATTTTACAGGGTACCATAACTGATATATTCTAAATATTGATTTGCTAATGGTTCTACTACTACATAATTTTACAGGGTACCATAACAAAAACCTGATTATATTACTTATCAGTTAAGTTCTACTACTACATAATTTTACAGGGTACCATAACTTGTATTTAGAAAACTCAAAAGTAATAGTAGTTCTACTACTACATAATTTTACAGGGTACCATAACCATTAGCAAGTTGGTTGTCTTTATTTACAAGTTCTACTACTACATAATTTTACAGGGTACCATAACACGGCGTTGCTAACCCAGAAGACTTTGCTGGTTCTACTACTACATAATTTTACAGGGTACCATAACTGATTTCCAGGACAAAAAAGTAGCTTGCCTGTTCTACTACTACATAATTTTACAGGGTACCATAACTAAATAAACTTTTCATTTTATCTAAATATCGTTCTACTACTACATAATTTTACAGGGTACCATAACTAGGAGCAATTAGCCTTGTAAGAATTGTATGTTCTACTACTACATAATTTTACAGGGTACCATAACAAGATGTACATTTTCATAAATCAAACATATGTTCTACTACTACATAATTTTACAGGGTACCATAACTCTGCTTATTATTCTCTCTCACATTAAATAGTTCTACTACTACATAATTTTACAGGGTACCATAACTAAAAGTAGTCATCTCATACTCACTAAAAGGTTCTACTACTACATAATTTTACAGGGTACCATAACTAATATTTTATTTAACTCTTCTAACGCTCAGTTCTACTACTACATAATTTTACAGGGTACCATAACTTGTATTGTTTATCTTCAATAGCTTTAGCAGTTCTACTACTACATAATTTTACAGGGTACCATAACTGACTAATCAATAGGGACGCTCCCCTTAAGGTTCTACTACTACATAATTTTACAGGGTACCATAACAGGGGGTTTTATCAACAAATTGGAAATACCGTTCTACTACTACATAATTTTACAGGGTACCATAACCATCATACTAAATAACATATATATCTAAATGTTCTACTACTACATAATTTTACAGGGTACCATAACGAAAACACAACTCTGTTATAGACATGTTTTGTTCTACTACTACATAATTTTACAGGGTACCATAACATATATGATTCTTTAAATGTATTTCTATATGTTCTACTACTACATAATTTTACAGGGTACCATAACATAATAATTGTCAATGTAAATAAAAGGAGGGTTCTACTACTACATAATTTTACAGGGTACCATAACCTAAAAATATCGCTATCTCTAATTCTAATTGTTCTACTACTACATAATTTTACAGGGTACCATAACTGACTAATCTTTTGTTTTTAAACCCTATCAGTTCTACTACTACATAATTTTACAGGGTACCATAACACTTCTCTTTTAATTTCTCTAATCTTTTAGGTTCTACTACTACATAATTTTACAGGGTACCATAACCATACAACTTTTTATAATCATCTTTTTTAAGTTCTACTACTACATAATTTTACAGGGTACCATAACTAGAAACACAAGTAGTCTTGCCACTATGTCGTTCTACTACTACATAATTTTACAGGGTACCATAACAATCAAGTTTGCTTGTTAATTGTTTTGCTTGTTCTACTACTACATAATTTTACAGGGTACCATAACATATATACATGTTTATTTTAAACTCTATATGTTCTACTACTACATAATTTTACAGGGTACCATAACTTAGATATGTTTAAAACTAATTCTGTCGATGTTCTACTACTACATAATTTTACAGGGTACCATAACGATTTAGATGGAATGAATAACCCAGTTTATGTTCTACTACTACATAATTTTACAGGGTACCATAACGATATAAAAGATTACATGGTAATTTACAAAGTTCTACTACTACATAATTTTACAGGGTACCATAACCTGCTTCTATTTTTTGTAAAATAAATCTGTGTTCTACTACTACATAATTTTACAGGGTACCATAACCTCAAATCAAGTGTTTTTTTAAAATAATTATAAGTTTAAAAGGTAATGGAAAACAGGATAATTTATTTCTAAATTTTTACTATTATAACTACTTATTAGGTTCTTAGTGTTTAAAAGTAGCTCATTATAAAAGTCATTTTCTAAAGTACAATTTGAAAAATTCATATAAAACTTTAAATTATCAATAATAAATGATAAATCTAAAAACTTGTTATCTATTCATATTTTTAAATTTTCTAGATTTAAATCATTTTCATAAATAAACTTGTCACTAACAATTGTAAAATTTTTTAACTCTTTAATATCATCAAAAAACTCTTTTATTTCTATATAATTTAGCCCAAAAAATGGATTCACAAATAAAAAATGTAAATTTTTATCATCAATTATTAATAAATTTTTTAATATTTCAATATATATTATTCTTAACTTGTTTTGATTTAAATAAGTGTTGGTTTCATTTTCATCGATATTTTGTAACTTTAAAATTGTTTGATCACAAATATAGTTAATAATTTGATCTTGAATCTCTATAGTTATTTTTAAGCCTAATTTAGATTCTAAATTAGTAATTAAATTTTCAATTATGTTGAGTTCAGTTAAATCAATTGTATTAATAAACCCAAATAAAGTTGATAAACTTTGAGAAGAAAAAGCATCATAAGTTATACAAAGATTTAATAACTCTTTTAAAATAGTTTTACTTCCTCCACAAATACTTTTAGTAAAATCTATGAAGTTGGGTACTTTTATTAATTTAGTTGTTAATTTATCTATCATAATATCATTTTCTTGCATTTTGATTTCATAATCCGGACTAGAAAATTTGTTTAAAAAACTTAAACTTAAAGCTAACTCCAAATCATTTATAACATCTAGATTGTTTATAATAAATACATTATTATTTGTAAAATTAAAGTTAATATTTTTATTACTATTTTTATTTAAAATTTTCATTATATTTCTATAAGTCTCCTATCATCATTTATTAATTCATTATTATTTTTTTTACCAACAACAATTTTAATATTTTGATATTGTTTTTCTGTAATTATTAGAAATCTTACATTTCCAAGCTTAGGTAAAAATTTATTAATTCTTTTAATAACAAAATCAACACTTTCTTTGTTATAACAAATTTTTGAATAAATTGAATATTGCATCATGTGAAACCCTTCTTTAAATAAGTTATTTCTAAATTTATTATAAGATCTTACATTGTCTTTTGAATCGAAAGGTAAGTCATAAAATACCATTAATCTCATAAATTTATAGCTCATAATATTCTACTGATGAACTTATTGGATAAATTACATCATTAGTACTTTTATCTTCAAAAAAGTTTAAAACCATATCAACATATTTATCAATAGCATTTGTTAAATAGATTTTATTATTACCATAAATAACTTTAGAGTTTAAAATGTTTATTAATTCTAGTTTTGTAGATCTAGAAAAATAATCGATTTGTGTTACATATTTATAAACATAATTATCAACAATTGGGCGAAATGGTTCCATTAAATCATCCGCAAGAGCAAAAGCATTGTACATATTATGATGAAATAAGGCTATGCTTGGATGAAGTCCTTTTGAAGTGATTGATCTAATAAATGCATTTCTTATAATTGTATAACCAAAGTTTAAAGCTGCATTTATGTGATTTTCTTTTTCTCTTGTAAAAGTGTTTCCAAATAGCTCTTTAAAATAAACCTTAGCCGCGTGTCCTTCTTTATTTGTTGAATCACTAAATTTCATTTCTTCAATATATTTATATAACAAGTTAACTTTTTCTAGTTTTTTTAAGTTAACTTTTAATATATCAATTTGTGCTTCAATTTTTTGTTTTACAATTTGTGTTCATAAATATAATTTATCTTCTTTTTTTCAATTTAATTGATTATTAATAATTTTTAATTGTAAGTGATTTGCTTCAATTGGTTGAATAATCGATATTGGTTTTAACTCCACATCACAAATTAAAGTTAAAATCTTTTTTTGAGCAAGTTTATTAATAATTCTTGTAGTAACAACAGTTTTATAATTTTCAAATAATATTGCATTAATGTCATCTAATGGAATATGATATTTAACATTTGCACTTTCAACAACTAAATTATTTAAAAATAAATTTATCCTTTCTCCATCTTTAATAATTATTGTTTTTCAAGACATTTTTTAATAAAAAAAGAGGAATAAATTCCTCAGTTACGGCATTAAAGCCTTATATATGATAGTCCTGTAAAATTATGTAGTAGTAGAACTCATATACATAATTAATATATCATATAATATTTAAATTAGTCAAGATATTTTATTTTTGTTCTTGTTGAATTTGATGTGACTAATTTAATTTTTTTCATTTTCTTAATTGATTTGAAAATTCTTTTTTCATTTTCTACACTTTTATTTAAATATTTAAATTCAAATCTTTCAGCATTTTTGTCAAATCCTACAACGATATAATTTAAAATCTCACCATCATATTCAAAAATCAATTCATTATTTTTAAATAATGTGAATTTTTTCTTATATGTTTCATCAATTTTATATAATAATTTTTCTTGCTCATATTCTTTTGTTTTAAAATTAATATTTGAGTTATTTTTATTACTTACAAAATATGCTACTTTATGAGTAATTGGTAAAACTTTATACAAATTATACTGTTGTGAATAAAATAAATCTCAACCTAAAGTATTTGATCCTGTCATAACAATTTCTTTACCTTTTTTAACATTTTTAAATTTATGAGTAATTTTTGTATATTGATTAACAACTCCATTATTGTATTTTAAATATCTTATGTTTGGTGGATTTTTTTCATTAGATTGTTTTATAATTTTTTCATTTAGTTCATAAACAAAATGATGAAATGGGTTTTTAACTGGTTTATTATCTTTATCAACATCATTTATATAAGTATCATATATTTTTTTTAAATGATTAAATGTTTTTGAATCTGACTCATAAACTAATAAATCTTTATAATCTATGGTAAATAACTTATTAATTTTTTTTATTTTTTCTGAATCTTTTGATAATAAATCTATTTTTTCAATTTTATATAGATTATTGTCAATTACTTTGCAACTATAAATAGTTTCATTAAACATCATTTTGTTTGAACTTTTTTCTATCTTTTTAGTAAATTTATAATCAAAACTATTAATGTCATTAACAATTAAGTTTATTTCTTCTCTTTTAATAATTTCTTTTTCATCTAATTCTCCAATTATTTTATTCATAGTTCTTCCATCATAAATATCAATAATTGGAGCTAATGCACAAATTGTTGCATCAACTGCATGATGTTTAAAATCATCACGATCTTTTTTAGGTAAATATAAGAAGTTACTTCTTATATAATTTGTAAATCCCCCATTAATTGTTTTAATTGAATAAGGTTTTTTTAATTCTTTTTTAAAAAAAGTTAAATAGTTTTTTACTTCTAAAGTTGCATATCTAGTATCATTTAAGTTTCTATTAATAAAACTTTTTTTAACTTCTGTGTCATTTATATCTTGTTCAAATATTAAATTTTGATACTTATTATAACCATACTTTCCAAATTTTTTACTTCCAACATAATTTATATACATTAATGATTTAAATTGCTCTCAATCACGATGTATTTCTCTAAAATATTCATATGGTGTTTTTTTACCCTTTTGTTGATTTTCATTTTGTAATACCAATACTTTATTGGTTCTAGAATCGTCTAATGATACTGAAAAAGGAATAATATGATCAATTTCACAATAATTTGGATCATTAAAAAGTCTAGTTATATCTATTGTTTTACCAGAGTACACACATTTACCATCTTGTTCATTTAATAAAGTTAATTTTAATCTTGTTTTAAAATCAATTCTTTTAGTGTTTTGATTATATTTTTTTTCAATTTCAGTTCTTTCTTTTTCATTTTTCTTTTGAATTTCATTAATATATTTTTTTCTATCTTCTGAATTTGATTCTCTTGCTAATTCAATTACAATATCTTTAATTTCAATATCAGACATATTTTCAATTTCTTTAATGATTTTTAAACTTTCAATTAAAGATCTTTTAACAACTGGAGATATATACATCTCTGAAATTTTTTGTCTTAAAACAGGCATTTTTGTAAATTTTCTATCAATTTTGATGTTGTAATCTGGTTTTATATTTTTTTCAGAAAAAATTTGCATGTGATTTTTATTTTCATATCACATTTCTTCAATAGCAATATTCATAGTTTTTGCACTTAGACTATGAGTACCTGTTAAACTTATTAAACTAATTGCTTCAATTTGTTTATCATCTAATAAATTGCTATTTATTTTTAAAAGTTGTTCTTTTCTAGAATCTGAACTTTGAAAAACAGTTAGTATTTCTACAATTTTATCTAATAAATCAATATTTTTTAAACTTATAAAATCATACTTTAAATTTGAACTTATTAAAATACTTCTAATTTTATTAATAGATTCAAATTTTGTGAAATTTGGTTTTTCCTTTTTATCGATTCGATAACCAGTAATATCACTTTCTTTTACTTTTAATAACTTTGCAATAATTTTTAAAGTAATATTTTTACTTTTAGTACCATCATGATTTATTACAGATTCAATTACTTCATACTTTTGATCATAAGTTAAACCGTTTTCAACATCATTAATCTTTAAATTACATAAATCATTTAAAATATTAAATAAGTATGAAGTCATCGAATGTTTTGGTGCTCTTTTTTCTTTACTGTTATATGTATCATAACCAGAAAGACGTTCAAAAAATTCTGATTCATCTTTTCAGCCATACTCACTTTTAGTTGTTTTTGAACTAGTAGTTCATCCAGGACCATCAAAATATTGTCTTTTTCTTTCGTATAATTTTATAAAACTTTCTTTAAATTCTTCATTTATTAAACCATTAGCTATTTGTGTATCTAATATTTTTTCAACTTCTTTTTTATATCAATCATGAGCAATTAATGCATCTTCTGCTTTTAATCCTCGATACTTACCAAATGTTTTAAAATTGTTTGCTTGAATATCAACAGGAAGTTTATCTTGTTTTGCATTAATTTCATCTAAACTAACATCTTCTTTTTTTTCTTTTTTTAATTCCATTAAATCGTCTTTATAATTAAAACTTCCTCTTTTTTTAGTGTAATTATAAAGTATTAACATTAATTCTTGTAAACTTATCTTATTTTCAAGTGATTTTTTTCTCACTTCTAAATAGTCGATATTAAAATCAAGTTTATAAAAATCTTCATAACTATTTAAAAAATCAAACTTTACAAATATATTTAGTAAATCTCTTTTTCTTAAAACTTTTCTTCTTAGATTTCTTCTTCTTGTTCTTTGCATTCTTCTATCAGAAGTAGTAGAAGTTTTTTGACCTCCAGCATTTGCTTCACTAAATAAACGTGATCCTGCATTTATGATTTTTTTATTTTCTATATCATATATTGATCATCCAACTGAAGCTATACCTATATCTAATCCTACATTTACTTTTTTCATACCATTACTCCTTTTATTCTTAAATATTTAACTATAAACTTATCTTATATTCAAGTTAAAAACAAAAAACAACTCTTAAGAGTTGTTTTTTTTTTAACGATTTATTAATAATATAACAAGGTTCAATAACTCGCTTTTACAGAATAAAATTCAGTCTCAACAATTATTTGTGTTTTTTTTCTGTATGAACCTTTAATATAATCATTATATATCAAATAAACTCAAATAGTTTTTATATTTTTTAAATGTTTCAATCATAAATACTTCTGGTGTAAACTCATTTATACTTTCTAAGTTAAATAAATCTTTTAAAATAAATGTTGAAAATTACTAATTAAAATTACATTTTTTTTCATTTTTAACCACTGAAAACTTTGATCAATATAAAAATCAACATTTCAAAAAATAATTTTTGGTAACTCAAGATTATAACTTTTAAATTTATTTTTTCAATGTTTAAAGTTACTATCTTGATTATTTGACGTAGCTTGGTCAAACTCCATATAACTAATAATTAAAATATATTTTGGATTATCAGAAAAATTAATATTATTTTTCATAGCTAATAATATTTTTTTTAAATACTAGATCAATATTTGTTGTACCAACTGCATTAAGAGTTTTTAAAATATTAATATCATTAATAAAATTACCTTTTAATTTAATAAATTTAGGTTAATTTTCAAATTCAAATAAAACATTTTTAAATACACCTTGATTTTGATGTTCTAAAAACATTTCTAAGCCCATTGAATTGTATAAAGACAACACTTCTATGGAACCACTAAAATCACACACTGGTAAAATATTTGTGTTTTTTGGAACTGCAATTTTTTTCATATTATTTCAATATGCAGCAGCTTCATTTATATCATAAAAAGCATGTTCGATAATTTCATATGCAAAAAAAGTTATTAGCATTTAAATTATTTGAATAACTAATTGATTTATTTAAAAAATCATTATATTTATCAAAATCATTTCTACTAAAAGCATTTGCATATTTTTTTAAAGATTTACCTGATAAATTACTATAATTTATACTTTGATAATCTTTGATTCTTAAGTTATTTTCAACAAGGTTTAATTTAGCTTTTAAACTTGTAAGTATTTTATGATATACTTTGTAATAAAAGTTTATATCAAAATTTAGTTTAACTAAGTTAACAAATTTTTTAGCTAAAGTTATTTGTTTATGATTAGAAACGTTGATTGAAGGCATTCATTTTGAAATTTATGAAATACTTTTATCACTTTGATTAACTTCGCTAATTAAAGTTGAATAAATTAACTCGATTAAACGCAAATCTGTTGGATTAATTGCAAGATTAATTGCATAATCATATTTACCTAATTTTAAAATAACATCAAATAAAACTTGACGATCAACTTTATTACTTAAAAAATTAATCATGCTTTTTGCTACTCTTCTTTCTCCTTTTCCTCCTCTTATATCTAAGTAGTTTAAAAAGTTAAGAATAAATAATTTGTTATTTTCTTCTCAGGCTTCATCAACAATTTCTTTTAATAAGTCAACAGGATAAAAACTTAAATTTTTAGAAAAAAGATCTAAGTTTTTTTCAAAGTAGATAAATAAGCAATAGAATTTTTGGTATTTCTTATTAGGTTAAGTTGATTTTGTAATTTAGTTAAAAACATATAAATACCCCCTAAAAGACATAAAAAAAATATTTTTTTAAAAATTAAATATTTTTAATTTTTATTATACACTTATTTATGTATAAACATAAAAATAATATTTTTTTATACAAAAATAAAGTTAAAAAATTGTTGTTCTTGTAAAGTTGTAAAATATTTATAGGAGGAAAATATAATTGATTAAAAATATTGATGAGTATTTGATTGAAATTGAAAAAGACATTGAAAAAGTTTATGAAATTTCAAATAATTTAATTAGTTTTAAAAAAACAACTAAAGAAATTAAAAAAAGCATAATTCAAGATTGAAAAGATAAAAATATTGATGATAATCAAAAAGTTAAGTGCTTAAGCACTTTAAAAGAAAGTTATAAACAATATTTAAAGATTTTTGATAAAAAAAGTAAAGATAACCTTATAGATTTAAATCAACAATATAATCAATACGTTGATACTTACAATAAAGATAAAAAACCTTTAAAAAAGAAAATACCTGTTAAAGGAATGAAGATATTAGGAATAAGTTTAGTTCCATTAATGATGTTATTAGCTTTGTGTATAAGTTATTTATGTGTAAACAAAATTAATCTAACTAATCAAAACTCTATAATTGCATTTAGTTTATCAATGCTAATTTTAGTAGTTTGTTTAATATTTTTAGTTTTTATAATCATATTTTCAACTAAAAAATCAGTTTTAGATTACAAGAATAAATCTTATATTTGTGCAAGCATTGGATTTACAGCAAGCTTTTTTGATACATTAGGAATTGGTTCATTTGCAACTAACACTGGTCTTTTAAAAGCAACAAAAAGTTTAAAAGATGATAAAAAATTACCAGGAACATTGAATATTGGTATGGCAATTCCGAACCTATTTTCTGGTGTATTATTTATGACAAGTGTTAGTGTTGATTTAACAACTTTAATTACATTTGTATTATCTGCAATTATTGGTTCTTTAATTGGAAGTAGTATTGTTAATAAAATTAATAAAAAACTAATCGCTATTATAATGGGAGTAGTTCTTGCAATTACTTCAATTCTAATGCTTTTAACAGTCAAAGGAATTGAAGTATTTCCATCAGGAAGTGCTATGGGAGTTTCAGATGTTTGATGAAAATTATTCTTAGGATGTCTTGCTTTTGTATTTTTAGGAATAATGATGAGTTTTGGAGTTGGTCTATATGCTCCAGCAATGGCAGTTATTTCATTTTTAGGAATTAACTTCTTAGTAGTATTTCCAATAATGACTTGTAGTGCAGGATTAACAATGCATATAAATGGTTATAAATTCTATTTTAAAAATAACTATATGCCAAAAACAAGCTTTTTTATGACAATAGGAGGCATAATTGGAGTTTTAACTTCTTATACGATTGTATTTTTAGGTTTAATTACTTTATTAAAAATTGATCAAACTTTAATAACAGATGTTTTCAAATGATTAAGTGTTTTTGTTATTGCCTATTCTTCTTATACTTTATTTAGAAGTTATTTTAAACAAAGAAAAGTTGTAATAAGTGCTGTACCAAAAATAAGTTATAATATTGATTATTTGGATTTTAACAACTATATTAATAGTTTTTATACAAATACTTTTGTAAAAAATATCTAAAAAAAATGTTTCTTAAATAATTTATAAGAAACATTTTTTTATTTGGTTTGTTTTACTTTATTAGTTTTTATTTTTTTATTTTCTTTATAAGTTTTTTTTAATTCAAATATATCTTCATTAAAATCTTCTAAAAGTAAATTTCTTGTTCTTTGAGAAAAATATTTAACTTTGCCTAAAATTATTGTCATTAAAAACGTTACACAACAACTTACTAAAATTGATATTGCTCCTCATAAAAATCCTCCACCAAATCAAGTTGATACTCCAGTAGCATCTGGTGCTTTATGTTGGAACATCAAATAACCAAATATAGAACTTGCTCCTTGTAAAGCATAAGTGTTAGAAGCAACTAATACAAGACTTCCACAAAATACACCAATTGAACAAGCAATTAAAGGATATAAATGTTTTAAATTAACAGTAAATAATGAAGGTTCAGTTATACCTCCTATTATTGAAGATACACCATTTGATATTCCTAATTCTTTTAACTGTTTAACTTTTCTATTTAAAACTACAAAAGCAATTGTTGCTACTCCTTGCGAAACATTTGAAAGTGTACATAATCCTTGAATGATTGTTGCTCCATACATTGCTTGACCTTGTAAAATAATTGGTGTTAATGAATGGTGTAATCCAGTAATTACTAAAGGACCATATAATGCTCCAATTAAAGGAACTGCTATATATTTTGCAATGTAATTTGTACTTAATCAATTCACTGAAATTGATAAATAGTTTGTAAATAACATTCCAATTGGAGCAATAATAAATACTGAAAATAAGAATGTAACTGCAATTATTAATACTAGACTTAAAATGTTTCTAGCAGTAACATTTTTTATTTTAGAAGTTCATCTTTCCATATAAGCTCCAAAAATTGCAACTATAATCATTGGAACCATTAAACCATTAAAGTTGATTTTAAAAGGATAAGTAGTTCCTTCTCCAAATAAAGTTCAACCAGGATATTGACCAAGAATTGTTTGACCTTCTTCAGGTTTTACATCTCCCATATTAATTAAACCCGGAGCAGTTAATACAACTGCAATTAATATTCCGTAAATTGGAGTACATCTCATTGCTTTAAAAACAGTATAACCTACAGCAATTGTTATAAATAATGAAAAAGTACTAGTTAATACATTTAAGATATCTGCAAATTGTCCTAAAAAATGAACACTATCTCCAGCTGAAGTATTAGTTCCATTTCATTCTACAGTTAATAACGATCAAATTGTTAATAAAAGTCCATATCCAATTAAGGGATAAACTATTGGAGAAAAAACTTTACTTATAAAAGATAAACACTTATTAGTAATTCCTTTTACTCGAAATTTACCTTTCATTTTTGATATTTCATCGTTTTGTTTAGTAACAAAATTTATATCATCACTTGAGACTTTTATGTTGTTATCAATTATAGTTTTTCCATCAATATCATAGTTATTAATCTTACAAAATGTTTCATAGAAATTTTTAACATCCATCCCAATTATGACTTGATATTCATTTCCTCCAACATTTTTTTTAATACCAGTTGAATAACTTGCTTTTTTTATCTCTTCTTCATTTACTATGTCTCAATTTTTAAGTTGAAATCTCATTCTAGTCATACAGTGCATAAATGAAATGATGTTTTCATAACCACCAAGACTATTAAATAATTCTTGAGCACTGTTAATATAATCTTTTTTAATCATTACTCTATCCTTTCTTAGCTTCAATCATTTGTTTATATCAATATGCTGATTTTTTAAATTTACGACTTTGATCTTTTAAATCAACTTCAATTAAACCATAACGATTTTTAAAAGCATTTCTAAAACTTCAACAATCAAGTGCTGCTCATAAATGATATCCAAAGCAATTTGATCCATCATTAATTGCTTTTTTAATTTGTAGTAAATGATCTGTTAAAAATTCAATTCGATAGTCATCTTCAATCATACCTTGTTGATTTCTATAGCGTTCTTCATTTTCAACTCCCATTCCATTCTCTGCAATATATCAAGGAATGTTATTAAAATCATTTTTTATTTCCATTCCAATTTCATATAATGCTTCAGGATATATTTCTCAACCTCTATGAGGATTAATTTTTGCATTTTCTGGTATTTTTATTTCAAATTTATCCATAACTCATCTATTTAAATTATTTTCTTTACATTTAACTCGACAAGGAAAATAATAATTTATCCCTAAAAAGTCTATTTTAGTTTGTTTAATAATATCAATTTCTTCTTGGGAGTGAGCTGGTAACATATCATATTCTTTTAAAGTTTCTATTAAAATAGGATCAATTTGTCCATTATACATAATTTTTAAAGGTCCTTTATTTACATATGCATCATAAATTCTTGCTGCATCAATATCTTCTTTACTTTGTGAATAAGCATAAGTATAGTTTCAATTAAATACAACTCCAATTTTTGCTTTTAAATTATGTTTTTTGTATTCTAATAAAACTTTTGAATGTACTAAAAATATTCCAAATGCTTGGTTAACAGCTTGTTTTGGATCATTTAATGCAGGATAATGTTTATCATTTAAATAACCTTCATAAACTGGAACTAAAGGTTCGTTAAATGTAACATAATAATCAACTTCGTCATTAAATTCTTGAAAAACAAAGTTACAGTAGTTTACAAAACTATTAATCACTTCACGTGATTCTCATCCACCCTTTTGATGTGCTCATAAAGGCATATCAAAATGAAATAATGTCATAAATATTTTGATGTTATTTTTTTTATACTCGTTAATATAATCATGATAAAAATTTACAGCTTCATGGTTAAGGTTTTTACCATCAGGAAATAGTCTCGCTCATGAAAAACCAGTTCTTAATGAATCAAATCCAATTTCTTTAAACATTTTTATATCATTTTTATAATGTCTAGTAATGTCACAAGTTATTTCTGGTCCAACACGATCATAAAATAACTCTGGATGTTCTTGAAAGTATTTATCAAAAGTTAAATCCCCAATTTTTGTAATACCCTTTCCTTCTGTTTGCATAGAACTCATAGAAGCTCCAATTTGAAAATCTTTTTTAAATATAATCATATATTATTCCTCCTAATTTGATACTAACTATTAGAATTTTTTTTACAATTAAAATATCATAATAGAGAAATTTTTCATAAATTAAGAAGTTTTTTGTTAATATAAATAAGAGGTAAATTTATGTTTAAAAGTATAAAAGAAAAGCTAACTTTAATTAAAAATAATTTGGAAAATCAAACTCATATTTTAATAGCAAACTATTTATTAGAATGTATCGAAAATAAAAAAACACCCAAAATAAATGAGTGTTCTAAAAAAGCATTTTGTTCTGAATCAGTTATAACTGCTTTTTCAAAAAAATATGGATATGAAGGATTTAAAGAATTAGCTACAAGAATTAAAGTAGAAATTGAATATTATAACTATAATACAAAACATAATAATATTGAAAATGAAAAAAATAAATATTATAAAAAGTTATTACTTAATTCTTTTGAAATGATTGATTTATATTTGTATTATTTACTATAACAAAATAATGTCAATAACTAATTAATATTTCCTAAAACTTTATTTTTTGAGTTTTTATAAAATATTCAATTAGTATACTTTCAAGGACTGCTTGTTTTTATTGGATTATAAATTTTATTTATCTCAGCCGGGTTTTTATCTTCATACACCTCTTTATAAGTAGAATTTTGTAATACTTCTAATAAAGGCATTCATTCACTATATGAGTTTGAATATAGTTTTCCGTCAAATGTCTCAACAACCATTATTTTTGTTTTATTTTTATAAAAAACTGGTTCTCCATTTGAATGTGGAATATAGTACTTATTTTGGTATTTTATAGTTGAACCCTTATTTACTGTTCTTTCAAATCTTCTAGATAAATAAAAATCTATATTTTTAGTTTCTTCAAAAAATCTAAAAGAATTAGTGATATTCCCTATTGAAGGGAAAACTGTGAATTATATTTATCTATATATTCATCTAAAAACAAATTAGCTTAGTTTATAGTTGATATATTATTTTCTTTAAGTTCCTTTGGTAGGCGATCTTGAAGTGTATTTCACAACCTTTCAATACGGCCTTTAGTTTGTGGAACGCTAGATGTTGTTAATTTTATTCCTAAGTTGTGACGCAAAAATTTGTATTGTGTTAAGGTGTCAGAATGTAGATCTGACTCCTTTTCTTTTGGACTTCAAAATACCGTTCTTTTGTCTGTCAATAATTCTTTAGGAACCCCATAGTTAAGCAAAACTTTCTTTATGATATTGTAATAACCCATAAGAGTTTCTTTAGTGTCAAAATATAAAGCCAATATTTTGCCAGTAGCATCATCAATAAAACCATGTAGATATCATTTTTCTTCTTTAATTCAGTAATGTACAGAAGCATCTGTTCGCAACCTTTCTCCAAACTCAGTTTTTCTATGTTGCATCGGATGACTATTTTCAATACTTTATTAAGTATTGAAATACTCTTTTTTTTCTATATTTTTTATATTTTGATTTTTTAAACTGTTAGCTATTTTTTGTTTAATTATTTTTTTAGTTACTCTATGTATTCTTGGAAAATACATGTTATTTTCCTTTAATAAACTAAGTAAATATGTATACGAAACTTTTATATTATAATTTTCTAGCAACTTTTCTTGAAAGTGTTTGTAATTATAGTCAAAAAATTCATCTATATATAATTTAATTATTTTTTGACTAATATCACTGCTAATTCTTCTGCAAGACAATCTGCCAGTGTTCTTATGAATAAAAGTTATGTAACCATTTTTTTATATTTATTAATTAATATATTTACATTTCTAATTGTTTGACATAACTTTATAGAAGCTGACTCTTTTGTTTTTTTGATCTATAACGTCTTTGATAATTTACATTCTCTTTTTTTCATTCATTTTTAAATATCTCCTCATTTTAAACCTCCCAAAAAATAATTATAGTTTGGGAAATTTTAATTTGTTATATATAAGGAAAATATCATATGTTATTGACATATTTGTATTATTTACTATAACAAAATAATTGTATATTTTTAAATAAAATGTTACTATAAATTAGTAATTAGGAGGAAATAATGAAAAAATTATTAATACATTTAATTTCTATATTCATAATAACTAGTTCTTCAGTTCAAGCTACATCATGTTATAACGGAAATGAAAATAAGACAGAGGAAACTAAACCTGAAGAAAACCATGAAGTATCAAAATTTAGTAGTTTTATTGATTTTATGAAAGCACAAATGAAAAATGAAAACGGAAGAATTGACAATTGATACCATTTATTTTGAAAAGATTACAGTGGAATATCAGAAGAAAAACAATATGATGAATTTTTTAGCAATACTGTAAATGGACAATTTAATTCTATTCGTTACGTAAACACTAGTTACGTAAGAAACTTTGGAGAAAGAATTAAAAATCAATTATTAAATAACGAAGAAATAAATAAAGATTTTATAGATAAAAACAACAATCAATTCTCAAAAAATATGTATTATAAGTTAAGTGAAAATCCTTATAAAGTTGGAACAATTTTTGATGATTTGTTTATGTCTTTACACCATTCTTATGATAAAAATGATCAACCAGTTTTAAATGATAAATCTATAGTATATGCTATGCTTGATAATAAAAGCTTTCAAAATTATAAAGAATTTAAATATATTGAAATAAGAGTATATAAATCATGATATTTATGAGATTTAAAACCTGAAAAAGTATATGACTATGAATATTTCTACATAAAAGCAGAAGAAAGTTCAAAAGATTTGTATAACGGAAATTACAACAACATTTTTTATGAATTAGAAGATTTAAATAATAATACACTTAAAAAAAATTAGTTAATAAAATTAAATTTTATAGTTTTAAATACTAACGTTGGCAATAGCGAACGTTATTATTTAAATTTTTTTTCGTAATTTTTACTATATTGATTTATACAAATTTTATATGACTATATCTAGTGTTTTTTTCACTTATTTATTTTTCTTTATTAATATGATTTAAATAATTACATTTTATACTAATAAAAAATAATTTATTTTATTAGTATAAAAATTACAATAATTACTCATAAAAGTTTTCTAAAAATACATTTAATGATTTTGTAAATTTATTAATTATATTTTAAACTTCTTCAAATAATTATTATATTTTTAAATTTTTTTGCATATTAAAATTGTTTATTTTTTATTATAAATAAAGTAGTTATAGTATTATTTATTTTATAATTAATAATTACATCATAATCAATCATAAACCATTAAAGTGTTTAGCTTATTAAATATCTTGAGTTATTTGAAAGTGTCTTAAATTAGTTCATGAATACCTGTAAAAATAGTTGTTTTTATAACATTTTTTAATTAAATAATTTTTAAGATATCGATTATGCTTCTTATATTCATTTGATAAAAGTTTTAAATATTTTATTTACTTTTTTTAGATACTTTTAATTTCTTTTCTTATTGTTTTTTAATTAATTTTATATAAACTATAGTATTTTTATTTGCAAAAATTATTTCTATTAAAGTCAGAATCTCATGCTAAATTATTATTTTTGATAATATATTCTTTAATTTAACCAATATCTATATCACATTTAGAAATCCTAAAATCAGTTAAAACTTAAACTTTTAATTATTTTTGCATAAAAATTATATTTTATAAACTTATTATGTTGTTTTGAAAACACTTAATTAATTAATTTATACCAATTTTATATTTTTAATAAAAATACAAAATTAGCAAATTATAAAATGTTTATAGGTCAATTTTTTTACATTTACTTTTAAGTTTATTTAAAATAAGTTCTTTTTTTAGTTTTTTACTCATTTTATCAACAAAAATATGAAATTCACTTAAACTATTAGAATAATAAAATTTATCTTTCTTAACAAATATTCTGGTTAAATTGCTAACTGATTTAATATTTTGATCAAATTCTATTTGGTAAATAGCATTCCATTAATATATATCTAAAGCTATTTTTTTTTTTTTTTTGTGTTTTATAGATATTTTTCCTATTTAGTGTAAAAAATATGTTTTAACTAATTTAATTAGGTTTGTTTCTTAAAATCTTAGATATATCATTAATAATTATTTTTTACTTATAAATATTTTTTTCATAGTATATATTAATATGAATTTTAAACGAACTAACACAATAATATTGTGTACGCTTTGAGATTTTATTTCTGTTTTACTTGTAAATTTTATAAACTTGTTACGATATTTTAGATTTTTTGTTTTTATAAAATTATTCATATTAAGTATGTCTATGTATATAAAATTAAACTTACTTTTTGATCAGTTATTTTTATTAATATTATTTTTTTACTTGTTTTTTTATCTTAATAAAAATTTCAAAGATAATTCAATAAAATATAATTATCTTTGAAATTTTTATAGTTGTTTATTTCAATTATCGAATACATCACTATTTACAACACTTAACTTTTTAGTACTTTTTATTTTAATGCTAAAAAAGGTTGAGAATGCTTCTCCAAAAACTATTGCATTTTGAACTCCAATTGTGGATAAAAACTCAAATAATTTTAATCTGAAGTCGCAACAATTTTGCACTTGCATAATATCTTTATAGTTATTTAAAGTGTGTACAATAAAATTAGAGCATTGACTTATATATAATTCAGGAATATCTGATAGTGATTGAGTCGACAATCATAAACTAAAATTAAATTTTCTTCCTTCTCTGACAAGAAGTTCTAAATACTTATGGAATATTTGATTATCATCTTTAAATAACCTGTGACTTTCATCCATAACAATTAATATATGCCTATTATTAGTCATAGAAGAGTTGTGAATCAATTTTGTTATTAATGTAAATATTAACTTGTCAATTGGATTTTTATAATTCATTTTTATTATCATTACGTGCTTAAATTTATTATTCATAAAATCATATAAAAAATTTAATTCTGGTTTTTCACTTTCAAAGACTTTTAAATTTTTAACAAAAAATGGATTCTTAATAAACTTATTTATTCTTGGTAAATCATATTTTGTTTTATAATCTTCTTTTTCTTTTGCTACATCCATTAGTTTTTTTAAATTATCTATTTCACTGATACGTCCTATTAAATGATTACTCATTGTTTCTGTGAAACCAAAAATTTCAATATATTCATATAAATCTAAACTTTCATAACTACCTATATTAAAATTTATAAGTGGTCATAATGTTTCATCATTACTTAACAAGTCATATCTTTGTATATAATTTTCATTGACAATATTTGTATATTCCCCATTATAATCAAAAATTATTATTTTAGGATTAAAATATCTTGAAAATTCTATTTTTTTATCATTTTTATAAAGCTCCTTATTTAATGTACTTCTAATTAAATGGGCGATGGTTCTTGACTTTCCAGAACCTGTTTTACCAAATATGCCTAAGTGTTTTCCGAATAAATTATTAAAATTAGAAGATATTTCAATATTTTTATTATTTATAAGATTTCCAACTTTAATAGATAAATATTTTGAATCAACACTACAAATAGTTTTCAACACTTTTTCTTCTAATAGATAAACTTCATTATTAATTTTTGGATATTTTTCTAACTTATCACTAAAGCTATTTTCTATCTTATTATAAGTTCCTATAATAGTCGAACAAACAGTTACTTTACTTCTCTTTCATTCAATGACATTAAAATTATTGTCATAATTATCATTTATTGAATTTACTTTCAAAATTATTGAAAAATTATTAGTTATATTTGTTTCTAAAAAACTATTAATATAAAAATCTTTATTAATGCAAAAATTTTGATCAATGTTATCAAACGGGACTTTGATAATTATTTTATCTTGTGTTATAGAACTAATATATCCAACAAAATTATTCATTTTCTCAAATTTCTTCATTTTCTTCTAAATCTTCATATTCTACTAATCTTTTGTTGTTTCACAACAAGTTTTTTAATAAATTATTTATATTTTTACCATTATCATACCTTTCGTTTGATATTATTTTTTTAGAAATTAAACTGAAATCAGAAAATTCTTTTCCAAAAAAAAAAAAAAAATATTTAAGTTATGACCTCTATTAAATAATTTTACAAAATCTTCGTGTCTTTTGTTATTTTTATCGTAATAATCATACACAAATATATAAGCCTCAAGACTAGAATTACTATAAAGTGAATCAAATAATAACGAATTAACATGGGTGTCATTTAATGAATAACTACAAACAACAATATTAGTTTTTTGAATAGATAAAACGTTTTTAAAATATCTAAATAAATCAGAATATATAGATAAGTTTGATTCATTAAATTTATTAGATGTATGTAAAATAAAATGAGAACTATTTTCTAAATTTTTAATCAATAATTTATTAACAACAGCATCTCTATAAAAATCGATTTGTTTTTCAATTATGTTATTATTTTCCTTTTCTCAACCTATTAAACCATGTAGTTTTACAAGATTAATATGATCCATTTTTATTCTTTGATTTTGAAAACTATTTGTATACTTTATAGTATCATATTGAGAAATTTTAAAAGTTCTTGTCAAAACGCCTGAAAAACCATTATTAATATTAAAATCAAAAAAATCAGCCATCTTTTCTAACAAAACATCATAATTTAAGGAAAAAATAGTTATAGTTTTATTATTTTTAAGTTTATTAAAAATACTATTTAAAAAAATAATTATATCTATATTAACTGTATAGTCATAATCAATATTTCCGATAGCCGCTCTTAAAAACTGTTTAATAAAAGAGTCATTATCTTCAGAAAATTTATTATAAATAAATTTATAGGCATCATTATCTTTAATTTCAAGAAAAGTTAAAAATTTCATAAAATAATTTAGTTGTTCTTCTATATTTACTTCGTTTTCTAAGGCAAAATGATCAATAGATTCTTTTAAAAATCTTTATTTTTTAAATCCTTATTTTCATCTAAGGAATTAAACAAACTACTTATTCAGTTAGTAAATAATTTATTATTTATTTTTTTAAAACACTATTTATTGATATTCCATTACCAAATAAAAACACAAGATTTTTACTTGAACTTATTCTTTCATTCAAATCTAAATAAGTTTTTTCCATTTCTGAGTTCTCTAAATAGTCTTTTGAAAAATATTTAGAGAATATTTCGTATTTCTCCATTTTTATATCCTCTTTAATATTATATTGCAATTTATATAGAATAGATAACTAATATGAATATACATATTTATTTATATGAATAATAAGCAATTATGTAACAGGTAAAATATACTTGGAAGTAAAATTACGAAGTAATTGAATTATGCATAATTAAATAAATAAAATTAAAAATATAAAAATTTATCAAATAAACCAACCTATTTAATCACAAGTTTAGAAACACTTGGAAAATCGAAAAAGACAAACATAGAAAAAGTTAAAAAAATATAAAGAATTTAGACCAATAAATATACTTTGTCAAGTACACAAAATGTTTTTTATAAGAATACTTCAAAATTATTTGAAGTATTCTTTTTATTTGTAATAAAAACAATATAAGCATATGCTGGAGGTTCATTATGTTTAAACATTATTCTTGTATAGTTATAAAACTCTACATAATTATCTATTACCTTTTTTAGATTGATAAAACTATTTTGTTTTAATTTATTTTTTCATTCTTCTTTTAATGAAAAAAAAGTTTCACACATTGCATTATCAATAGAATTGCCAGGTCTAGATAATGATATTATTATGTTATTTTTTTTAGCATATCGCCTTACAAATACAGATGTTTACTTAATTCCATTATCAGAATGAATAATTAGTTTTTTAGATATATCTTTTCTATGTAGCGAAGCTTTTTCCAGTTATTTTTTATAAATATCTATATCGTTTTGAAAGATACTTCATAACCGACTATAAGCCCAGTATTTGCATCTTTTATAACACTTAAATACGTATACTTTTTATTAAACGGTATATAAGTTACATCTCTAACTCATAACTCATTTTTTGAGTATAAAGATCAATTTCTATTAACTTGATTAGGGCCGTGTGTAATTTTTTTGACTTCTTTAGGCTTTCTATTCATTTTTTTAATTCTTATAACTGAATATAATTTAAAAATTTTTATAATTCTAGCTATCTTAGTTCAACTTGCCACAATTCCATTATTATTTAAAACTATTTTTATTCTTGGCGTCCCATAAATTTCATTATTTTTTATAAAAATATCTTTTATTTTAGAATCTAAATTCATATCTACTTTTAAGTTAAATTATGACTTATTCTTTTTCAACAGATATAATAACTAGCACTGATTATATTTAATAATTTACATAAAGAAAAAATTGTATATTTATTTTTATATTTATCTATTTTTTAAAATAATTAATTATTCTTTTTCTGAATCCTCCATTAGTTCCTTGAACTTTTTTAAAACCTTATTCTAATTTTCTAATCATTTTAGTTTTTGTTAAGTTCAGCAATTTTTTTGTCTTTCGGATCTTTTGAATTAGTTCTAATTTTTTCGTTATGTTTGTTGTGTTTTCCTGTTTTTGAAATAAGTGATTCATCACCATAAACTTCTCAATCTAAACACATTCTTCTAACTGTTGAATATGATATGTTGTAAGTTTTTGATAAATCTCTAAAAGATAAATTTTGCTTAAAGTATTTATTTATTAATTCTTTTTTAGTATAAAAATCTAGAATATTTGATTTGTTTCCTTTTAAATTTGCCATATAAAAAATTCTCCTTGTATAATTTTATGTTTTTTTAACACAATGTATACTTAGAGAATTATATTTAAAAACTTTTTAAATCTTTATTAATTATATTAATAAAACTACTTTTTATAAAAGTACAATAATAAATTGTTAAAATTATTTTTTATCATTCAATTTCATTTTACTCTTTTGTTAAAAAATATGTTTTTATTAATAAAAGTTTTTTGAGCCTAATTTTGTATATCTAAAATATTTAAATCTATATAAAATTATTTACTTATTTTGAAGGGTTTTGTTATTAATATTTCAAAAAAATAATATCGCAATAAGATTTTTATCAATTATTATATCATTTTAACGAGTGAATAATTTATTAATCAATAAATTATTTTTTATAAATTTAAATAATAAAATAAAAATATAAAATTTGTAAGTTTTTAAAACAGTTTTTATTGCATTATCAATTATTCGTAACTAGTTATTTAATTTATATAAAAATAAAATAATACACTTTATGTAAAAAGGTCAAGTTTTAAATATAAAATAGTTTAAATTTAAACTCAATATAAACTATATTATAGCAAGATAATATTTAAAATATATTAGTTTTTATACTATTAAAAAATTCAAATTTATAACATTTATTAGTACATTATAAATAGCACTAATAAATGTATATTTAAAAAGCGGAGAAAAAATTATGAAAAAATTATTAATAACTATAAATACTCTATTATTATCTTCTCTTGGCGCTTTAACTTTATCTGCTTGTGATCCAAAGTCTAACTATCCTAAGACTAACTATGTAAAATGAGAATTAAGCGATACTAAATTCGAATTAATTAAACAAGGTCTTAAAAAAAGTTCTATAGAGATTATAATTGAAACAAATTTAAGAGAAATTTCTAATAAAATAAATAATTATTCGGCATCAATTAACAAAGATTTTTATGTGAAATTTTATAATAAAAACAATTTATATAATGAAATTAAATATACTGATAATGATAATATTTATGGTGACACAACAATTATTATTACAGCATCAGATACAACTGAAGTTTTAAAAGGACAAAAAACAATAAAAATAGATAAATTAAACTTAGAAAAGTTAAAAAATACTCAGTTAGATGCTGGTTATAAAATGAATTTTTATGAAGAAAAAATAAAAGCAATATTTTATAATGAAAATAGCAATATTAATCCTATTTTAAATGTAGATTATAAAATAATTAATCAATGAACAAATAATGAAAGTTTTGAAAGCGGAAGTTCAATTAAAGTATCAGCTATAAAAAAGTCAAAAATACTATCAGGTGAATTTGAAATTAATGTAGTATCTTATGATTCCGAAGATGAAAATAGTGTTTTTATAGAAAAATATAATTTTAGCTACACTCAAAAATTTTCTTTAAAAAAGGAAAAAGAGCACTATGATTATTTAAAAAGTATTTTTGAAAAAGAAATTTTTAGTTGATTTGTTTTTAAAGACAAAGAAGATTTATCATATAGATTTGAATATAAAAGCTCGAGCGAAAATTATCTAGATCTTAAAATTATCACAGGTGTTTTTGTAAAAATAGTAGAAACATCAAAATACATTAAGCAAACGCAAAATGAATTTAAACTAAATATAAAATATTATTAAAGTATTTTTAAAAAAGGAAGTTAAGTAAATGAAAAAGTTATTACTTTTTATAAATAGTATTGGAATATCTCTTTTAAGTGTGTCAAGTTTAGCAGCTTGTTTTACAAATAGTAAGAATCAAAATGAATCTCAAAAAAAATGAGATATTGATAAAACAATTTTACAAACTATCAAACAAGGTTTGAAAAGACAAGAAATTGAAGAACTAATTATAAAAAGTTTAAATGATGCTGTATGATTATTTAATAAATATTTTGTAGACATCAATAAAGATTTTCGTATTCAGTTTTTTAATAGTGATGATTTAAATAAAGAAATAATGTATACAGATTTGGATGTTATTTATGGACAGACAACAATTATTGTTAAAGCAAACGAATCTAGTAAATTTTTAACAAATCAAAAATCTATAAATATTGATAAAATGGATATTTCAAAGTTTAACAATATGAATACAGAAGCTGGGTATAAAATTGATTTTTATTTAAAAAAAATTAAGGAAATAATTGAACTTGAAAATGAAAAAATAAAAATCGATTTAAATGTTGATTATAAGATAAATTATCCAGAAAACGATTCTAAAAGTATAAAAATAGGACAAAAAATATATGTAAATGCAGTTGATAGTTCAAAAGTACTTCAAGGAAGTTTTAAATGAGATGTTATAGCGTATGACCCTTTGAGATCTGATAGTGTTTTTAAAACAAAAAACGATAGCAATTTTAACTTTACTCTTGAATATGAACCAAAAAATAGTGATGAGTTTTTTAAAAGTTTAGAAGATTCATTAGAAAAAATATTTTTTAAAGATTTTGTTTTTAAAAATAAAATTGATTTTATATATAGGTACGAAGATAAAGATTGAGATTTTGAGGAAGGTTATAAAATAATTACAGGTGTTTTTGTTTTATTCCAAAAAGATTCAGACTATATTAAATATACAGAGGAAGAAATAAAATTACCACTTACTTATTCAGAATAATGTTAATTTTAATAAATTTTATTTTAACGATTTTACTTTATCAGCATTAATATTTTCATTAGCAATATTTAGATTTTTATTAACCCCCACCTACTTTTATTCATTCAGTTAAAAAATATAATAAAAAAAGAGAGAAATAGTTTTTTAAATATACTTTGTCAAGTATACAAAAAGTTATTTATAAGAATACTTCAAAATTATTTGAAGTATTCTTTTTGTTTGGAGTAAAACTAATATAAGCATATGCCGGCGGTCCATTATGTTTAATAATTATTCTTTTATGGTTATAAACTCTACATAATTATCTATTACCTTTTTTAAATTAATAAATCTATTTTGTTTTAATTTAGTTTTTCATTCTTCTTTTAATGAAGAAAAAAAGTTTCACACATTGCATTATCAATAGAATTACCAGGTCTAGATAATGATATTATCATGTTATTTTTTTTAACATATCGTCTTGAAAATACAGATGTGTACTGAATTCCATTATCAAAATTAATAATTAGTTTTTTAGATATATCTTTTCTATGTAGCGAAGCTTTTTCTAGTGATTTTTATAAATATCAATATCGTTTTTTAAAGATACTTCATGACCGACTATAAACTCAGTATTTGCATCTTTTATAACACTTAAATATGCAAACTTTTTATTAAACGATATATAAGTAACATCTGTAACTCATAACTCATTTTTTGAGTATAAAGTTCAATTTCTATTAACATGATTAGGCCGTGTGTAATTTTTTTGACTTCTTTAGGCTTTCTATTCGTTTTTTTAATTCTTATAACTGAATATAATTTAAAAATTTTCATAATTCTAGCTATCTTAGTTTAACTTGCCACAATTCCAATATTATTTAAAACTATTTTTATTCTTGGCGCCCCATAAATTTCATTATTTTTCATAAAAATCTCTTTTATTTTAGAAGCTAAATTCAAATCTACTTTTAAGTTAAATTCTGGCTTATTTTTTTACATCATCGATAATAACTAGTTCTAGTTATATTTGATAATTTACATAAAAAAATAATTGTATATTTATTTTTATATTTATCTATTGTTTTGTAATAATTAATTATTCTTTTTCTGAATCATCCATTAGTTCATTGAACTTTTTTAAAACCTCATTCTCCATTTCTAATCATTTTATTTTTTTGTTTAGTTCAGCAATTTTTTTGTCTTTCGGATCTTTTGAATTGGTTCTAATTTTTCCATTATGTTTGTTATGTTTTCCAGTTTTTGAAATAAGTGATTCATCACCATAAACTTCTCAATCTAAACACATTCTTCTAACTGTTGAATATGATATGTTGTAAGTTTTTGATAAATCTCTAAAAGATAAATTTTGCTTAAAGTATTTATTTATTAATTCTTTTTTAGTATCAAAATCTAGAATATTTGATTTGTTTCCTTTTAAATTTGCCATATAAAAAATTCTCCTTGTATAATTTTATGTTTTTTTTAACATAATGTATACTTAGAGAATTATATTTAATTTAAAATATTTAAATATTATTAATAACTACTAATATAATTTATTTAACTAATATTTTTAAAAATTAGTAAGTAATAATTTTGTATTTCTACATTAATTAAATAATTATTGATATTACTTTTAGATTTTTTATTTATTTAAGTCACCTTTCTAATTTTATCACTATTTATATTTTGGTAAAACTATTTAAAATATATAATTATTTGTTATTAAATAAATATACCATCTTTATTTTAACAAATTTAAGTGTATTTTATCTTATATAATCAACTTATAAGTTGAAAGGATAATAAAATGATAATAAATAAATTTAAAAATATATACGGAATTAAAGAAATTAAATTTGAAGATGCGAATACTACCTTTACTAAAAGTGTAACATTAATTTATTCTAAAAACGGATTGATGAAATCTTCTTTTGTAAAAGGAATCAAAGATATAGTTTCAGGAAAATTTCCAATAGAAAGAATTTATGGTAATAATCCAGAATATGATATTACGATTTTAAATAAAAACTACACTAATGGGAAAATTGTTGGCAAAGATGATCGAGTAATTTGTATGGAAAATAACAATTATCAAGAAAAGTTAACTGAAATTAATCAAATTGTATCCTTATTGCAAAGTGATGAATTAACTAAAAAATATAATGAATTACTCACAAAAAATGAAAATGTTATTAAGGAAATAAAAAAGTTATTTGAAAACAAACTTGATTCTAATAATTCTACATTAAAAAATATAGGTCAACAAGTTTATGGTTTGAGTGATAACTATGAAATTGAACTAATTAAAACATTAGTAAATACTGATGTAGATGTATTAATAGAAGCTAAATCATTAACTACTAAGGATTTATTATCATTAAAAAAAGATTTTTTAGACAATCTAAATAATTCAAAACCCGGAATAGAACTTTTTAAAACTATAAAAACTATGAAAAGAGGTATTTTTACAAATGACATTTTTACTATGGAGGATTTCAATGATTTAAAGGAATTTTTTAAAAATAAAGTAAAAAATTTCTTTTCATTAGGAGAAATTATTTTAAAAACTAATTCCAATGAGAATATAACTATAACTTCAGTTGATGAACTTAAAGAATATTATGACAAAGAAGTTCTTACAATATATGGAAGTGAAGATGTTTTAAAGAAAGTAAAAGAAGTAAAAAAGTTTTTTTTTAATAATAAAACTAATAGAGAATCTAGTGAATTATTTTTGCAAAACCCTTGATTATGAGATAAAACACAAAATAAAGATTTAGTAAAAAGCTGTTTTAGAAGTATGTGTGAAGCTTTTTTTGAAGATATTATAAATATTTTTAATAATATAAGTTCAAATGTTAAAGATATAGAAGAATTTAATGAAAATATAGTAAATGATAAACAATATTCGACCGTATGAGAAAAAATATTAGATAAATTTTCTAGTATAATTGACTTACCTTTTAAAATAAAAATTACAAATAAAAAAAACGCTCTTCTTTTAAAAGAAGTACCCATATTTGAATTTGTTTATGAAGATGAGAAAGTAGTCAATCATAATGAGGATAAGGTTTTAGAAACTCTTAGTTCAGGAGAAAAAAAAGCTTTATATTTTTTAAAACTACTCTATAAGATTGAAATTGCTAAAAAAAATAATAAAGAATATGAAATGGTTATTATATTAGATGATGTAATTGAATCATTTGATTATAAAAATAAATACGCTATATTATCTTATCTTAATGAGTTAATATATAAAGAAGTACCAAATGTTAAAAATAAAATAAAATTAATAATTTTTTCTCACAACTTTGATTTTATTAGAAACTGTCAATCTCAGTTTAAAGCTAAAAGTAACACTTATATGGCAGTTAAAAATAAAGATAATAAAAATATTGTTTTAAAGAATTTTTTTAAAGGTTATAGTACTTTGAAAAATGTGGATGATGGTTTAAAGTTATTTAAAGGTTGAATAGATAAAGCTAGAAATATAGTTGATAAACAATCAACTGAGTATAATGAAATATTAATTGCATTATTGCCAGTATTAAGAAATATAAATAGTATAAAAATAAAAAATGATAATTCTTCAATAATAAAAGCTCTACATTATTATGGAGATACCAGTTTTTCAAAAATAAAATGAGAAAATTTAATAGATATTTTCGATGATATCAAGTTAGAAATTGACAAAGCGTATTATAATCAAAATATAGAAACTGTTGCTGTCGAAGTATCTGATGAATTAGTTAAAAATGAAAGAGATGATATCTATGATAGTTTACTTAAAAAATTAACACTTTCGATAACAATAAGGTTACTTTTAGAAAAATATATGTATAAATTAACAAGTAATAATTCTGATGAGAAAAGTGAAAAGAAAAAAATATTTGCCAACGAAACAGGTGAGATATATAGTAATTTAAAAAATAAATATAAAGCGAATAATAAGGAATTACCTTCTGAATTTAAAGATGTTATAACAAGTTCGTTAAGAGTTATTAATGATCATATTCACATTAACTCTTTTATGTATGAACCACTTTTAGACTTAGATGAAGAATTGCTATCAAATCTATATAAAAGAGTTAGAAATTTATCTTTTGAAAAAAATAAGTAATTAAAAAGCACAAAATGCTCTTTTATTACAATTGATTTTTTTATAAGATTTTGTAATTCTTTTTTTATAATAAGTACTGCTCTTTTTTTTAAATATATTTATTTAATTAGCTTTTTTGTAAAAATCTAACAAGTTTAAAAATTTTAATAAATTTGACTTATTTAAAGTATGATAACAACCTAATTTATAATAATCTTCTTTACTTTGAGATTTAGAGTATTTATTTGATAATTCTTGTATTTCTAGATCTATTTCAAGTTATATTTTTTTTATAGTTTTCTCAATTATTATTACAAATAATATATAACCCATAATTCATTAAATTTAATCTGTTATATACTTCTACTATGTGTTCATTTATTTTTTCTTCTTAAGATTTTAAGTTAATAAATACTGGGCAAGGTTCTTCATAGTCATTCCGTCATTTGATATAGAAATAATTAAGTCACTTAAATCAGAATCCTCAATAAAAACTTGATAATTAGCTTTTAATCATTCAATAATCTCTTTTTTTGTTTCTTCTGTTGTCATCTTTTAAATTTTTCATTTTTAAATTTATCAAAGTTTATGGTTAAATAAAAAAAATTAAACCTATCCATATATTGAAAATTATTGATAGCAAGCAATTACGTACATTCAAAATATGCTTGATTTCAAAATTTTTATAGTAATTAAATAATTTATAGTAAAGACATAAAATTATATGTCAAAAGTATTTTTTATAAAAAACATAAAAATAAAATTTATTATTAAAATTTAAAAAAGAGAAAGTATTTTTTTTCCTTTCTAATATAAAAGACCAGTTTTTTAACTGGTCTACTTAGGTTTTTTTTCTAATAAAATTATTTATATATTTTTTTATTAATTTTTAAATTAAGATAAAAGAATAAATTTATTAGAGCAAAATGTCTTAGAACATGGTGTGAGTCGTCATAATTAAAACTTAATAAATGTTTATTTTGATAATCATTATCATAAATTTTATTAAACTTAAAGTAAGTTGTTATTAAATAAGTATTTTTAGTTTTTTTATTTATTATTTTTTTAATATACAAAGAAGCCAAATTTTTAAAATCACTTTCAGATATAATTATTAATTTTATACATTTATTATCATCAAAGTAGGATTCTAAGTCTAAATAATCTAACTCTATTTTAATTACTTGACTGGAGATATTTTGCTCTTGTAATACTTTTTGAAAATAACTTACTGAGTCTAAATTTTGTCAAGAAGATAAAATCTTTATTTTTTTTTGTAATAAAATATTTTTTATTAATGAATCTAAAAAACTTTTACTTTGAATAACTCAATTATTCATACTTTTAATAGTTTCTAATTCTTTATTGATTTTGTTCTTTTTAATTTCTTCTTTTGCTTTTAATATTGTTTTTTCATATTCAAGTTTTAATTTAAAAATAAGTTCACGATAACCACTACATCCAGTTTCTTTTGCAAAACGAGTAACTGTTGCTTCTGAAACAAAACATTCTTTTGAAAAATCTTTTTCGCTTTTAAATTCTCCGATTAAAAACATATTTAATAATTTTTTACTTATAATATGTTTTATTGTATTTTTTTCATCTTTTGACATTTCATCAATTTTTTCATATATATTCATAAATTTATCCTTCAATTTTTTAATAATATTTTTTTAACTTATCAATATTTGGAAGTAAATTTTAAATTAATATTTTTATAAATCTATAAATTTTTAATTACAAATCAATTTTGTTTGATAGATTATTGTAAATGGTTTTTTAAATACTTTTGAAATCAATAATAGCTATTTTTTTTATATCTTTTTTTTGAACCATTACCATTATCATCTTGATCAACATATATCAATCCATATCTTTTTGACATTTCATTACTTGCAGATGAAACAACATCGATTGGTGTTCAAGTTATGTATCCAAACACGTTAACTCCATCATTAATTGCATTTTTTAATTCTTTTAAATGTAATTCTAAATAGTTAATTCTTCTATCATCTTTTATTGTTAAATCTTTTTCAAGCTTATCATTTATACCTATTCCATTTTCTGCTATAAACAAAGGTAGTTTGTATCTATCTCACAAATCATTTAATGTTATTCTTAACCCAATTGAATCTATTTGTCATCCTCATTCACTTTCATTTAAATATGGATTTTTTTCAAGTTTAAAAAGATTAGCTTCTGATGTTAAATTTTTATTTAAAGAATTAACTCCACTCATATAATAACTAAATGCTATAAAATCAATTTTATTTTCTTTAATCAATTCAAGTTCGGACTCATCAAAAGCAATTTTAATATTATTATCAATAAAATATTTTAACATATAAGTTGGGTACTCACCCTTAACCATTAAATCATAATAAAAATAAACTTTTTTTTCTTGCTCTTTTAAATTATATAAAACATTTTCAGGTTTACAATCTAGTGAATAACAAGTTGCTTGAGCTAACATACAACCCATTTGAAAATCTTTGTTAATTTTTTTTGCTATTTTAATAGTTTTTGCGTTTGCAACAAATTGATTATGTAAAGCTTGATAACAACTTTCTAATAAATTATCTTCCTTGTCTGCAATTATTCCTGCACTTACAAAAGTAGTAAAAATAGTAGCATTGATTTCGTTAAATGGTATTCAATATTTTACAAAATCTTTAAACTCATTTAATACTACACTTGCATATCCAGTAAATAAATTAATAACTTTTTTGTTTTTTCATCCTCCATATTTTTGAACAATTTTATACGGTAAATCAAAATGAGAAATTGTAACAATGGGTTCTAGATTAAATTTTTTACATTCTTTTATAATATTCTTATAAAATTTTATTCCCTTTTGACATACCTTGCCATCATCAATATTTGGAATTATTCTTGATCAAGAAATTGAAAATCTAAAAGCATTCATTCCCATATCTGCAATTAACTTAATATCTTCCTTATATCTATGATAAAAATCTATTCCTTCTCTTTTGGGAAAGTATAAATCTGACTCATTTTTTAAAGCATAGTCTATTTTTTTTGAACTAGTTATTTTTAGATTTGTTATATCTTTTCGATTTTTTACATCTTCAAAATATTTTAAATCAGCTACAGTTAAAGATTTTCCATTAATATTATAAGCACCTTCAACTTGTGGCGCAGAAACACCACCTCCAATTAAAAAGTTTTTAGGAAACATGTTCTTTAACCTTCTTTCTATTCAAAGTTAATAAATTATTTTTACACTCAGTTAAATTAAAATGTATATCTAGAGAGTGAATTGAATTAAAGTAATTGTTCATAATATTTTCAAGATTTTCATTTTTAATAAAGTATTTATTCAACGTTTTTTTTATTTTACTAATCATTAAAACTTGTAAGTTGCTTAATGTTTTTAAAGCTTCTTGATAACTATTTAAAAATTTTTGCTTAATATTTAAATAACTTTCAAGTTTTGCATCATTTTTAATCTTATTAATTTTTATTTGTAAATTATTTACTTTAATTAAGTTATTAATTGCAAAATCTTTTTTGTTTTCTAATTTAATAATATCTTCGTTTTGCTTATCTGTTAAAATATTAATCTTAGAATCCATTCTAGAGTATTTTGATAATTTTTTTTCTATACTTTTAATCAACATTTTATCTTGTTTTGTAAACTTAAACTCTTTGTTTAAATCATTTAATAATTGATTATTTTTATCATTAATTATGATTTTATTTAATTTAATAAATTTTACAAAAATTTTGTTAACTTTTTTAATTGAATGATTTTCTTCAAGTCTTTCTTTGTACATCAAAAATGTGAAAATATATGAGGCTCCAATAGAAATAAATGACCCTAAAAAGAATATTCCTATTTGATAAGCTCCTCCCGGTAAAAATCTTGTTACACCTAAAAACCCCATTCCTCCAGCTACCGAAGCATTTATTTTTAATAATCCTGTAACTAAACCTGCAAAACCAGCACCTAAACAACCTGAAATAAAAGGTGTTAATCTTGGTAAAGTAATTCCATAGATAATTGGTTCGGTAATTCCAACAAGTGCAGAAGGAATTGTAGAATATGCAATTTCTTTTGTTTTATAATTTGTTGTTCAATTACCTATACAAATAACAGCACCTAATTGTCCAAAGACCCCAAAGACTGTTGCTGCATATAATGGACTTGGTAAATTTTGAATCACAGTCACTATAACAGGTACATGAACACCTGTAAGTACAAGTGGTTGTCATAAAAGTGCAAACAACATAGTACCTATTCCATAAGGGATATTTCCAAGTCAATTAACACTAACACCAACAAAACCTTCTATAATTCCAAGAATTGGTCCTAATACAAACATAACTAGTAGCATTACTGTACTAAATGATATTGCAGTTCTAAAACATATATCTATAGAAGGTGGCATTCATGATTTTACTCATTTGTCAATATATACATATAATGATCCTGCAACAACTTGTGGAATTATAGAATTATAATAACCTCCTAATTTAATTTTTAAAAATCCTCATTCAAATAAAGTATAGTTAACCCCTCACATTAAATAAGGACTAGCGATTGCAACTCCAATTAATGCTCCAACAATAATATTTCCTTTAAGATATTTAACAGTACTAATGCATAAAAATATACCTAACATTCCAATACCAACTTCTGATATTATGTATATAAAAGCTGAAAATATTTTTGCATTCTTCATTTGTTCATAATTTTTAATATCATCAATGACATTAAACTGTATTAATAATGATTTTATAGCCATTAATATACCTGCTGCTAAAATAATTGGTATAGTTGGGACTACTACTCCACTTATAAAACCTAATGTTTTATCTTTAAAACTTTTTTTTGTATTTTTAATTTCTATTTTGATATCTTCATTGTTTAGTTTATCGATTTCTTCTTTAACTTTATAAACCTCTCCTCCAATGATAATTTGCAATTCTTGTCCACTTCAGTTAATCCCTTTAACAATTACTAATTTTTTAATTTTATCTTCTTCAACTAAATTTTTATTATTTATTGAAAATCTAAGTCTTGTCATGCAATTATAATGGGTTAAAAAATTACTTTTACCCCCTATTAAATTTAATATTTCTTTTGCTGCTTTTAAAAACTTTGTTTCGTTTTGTTCAAATTTAGTTTTTACAATATCATCTTCTATAACTATATAACCTATTAATTCACCTTGTTTTACCACTCCACTTTTTTGTAAAATAACTTTTTTTATATTTTCAAATACAACAATGGTTTCATTAGATAAGTTATTGTTTTTTATTTTATCATAGTCTATTTTTAAAATAACTTCATTTAAATTGATAAAGTCGTGTTCATTTTTTAAAAAATGAAAGGGTTTTCCCTTTAATTTAACCGTATCAATTCCGATATGAATTAAAGCTTTTGGACCATAAACTGATTTAACAAAAAATGCATGTTTAGTATCAAAAATCATCTCTATACTTGACTCATTAAATACGCTATGCAATTCGGTCCCATCAGGAATTATTAAAAAACCTTCACCCAACATTTTAGATCTGAATGTATTATCACTAGACTCTGCGATGTTTTTTAAATAACCTGAAATTGGTGCATATATTTCTACTTTTTTCATTCATCCTCCTACGAGTATATAATTACAAAATCTAGAAATTTATTCTATAAAACCAATTAAATCAAAAACTAGTTTCTAAAAAAGAAACTAGTTGACAATATTTATTATTTGAGCTATTAAATAACCTACTAATATACTTCTTAAATAATAACTAGTTGATGAATTATTCAAATCAAAAATTATTTTGACTTCACATTTATCAATTCTGGTACTTAAAGCAGTACTTGTAAGGAAAATAATATTATTGTTGTATTTTATTTTGTGATAAACATTAAATATACCCCCAACTTCCATTCCTCCTACTAAAAATAAAACTGTAGAGTTTTTTAAATTTATATCTAAATTGTAGTTAGCAACAAGCATTTCTGTAAAAAATACTTTATAACCTTTTTTATTTAAATAAAAATAAAGTATTTTTGCTTGATTAATTAATTGATTAGAAGCAACAATATAAGTATCATTTTTAATAAGTTCAGCAATTGTGAGTAGTTTTTCTTTATAATTATCAAAAAAATTGATACAATTTATAAAATAGTTTTTTGTATCATCATATGATTTAATTTCCATTTTATTATCTAGAATATTTAAATAATTTTCTCTTTCAAATTTAAGTCTACTTACTAATTCTCTATAACCTGTAAAACCAAGTTTATTACAAAACTTAGATATTGCAGATTTACTAACAAAACAATTATTTGAAATTGTTTGAATTGGAAGAAAAATATTTTTATCAAAACACTCTAATAAATTATTTATTATAACTATTTTTAATTGATTATGAGTTTCTTTTAAAACTAAAATAAGTTTTTCTCTGAGATTCATGTGATTACCTTCTTTTACATATGAGTTTATTGCTATTTTTATTTATTTTTAATGCATAAAATATAGACTAAACAAAAGAATATGTTAGTTTAAGTTAATCAGTTAGCATGAAAAACTAATTTGTTTATCTATTTATATTATATTGAAAATTATGATTAAATTACCAAAGTTTGGTTGAATTATTAGATTATTTTCTAAACATCAAGTAATTAAGCTGTAAAGAAAATATTCTTCGAAGTAAAAGTTTTAGAAAAATTGGATTTGACACAAAATTATAAGTTATAAAATATTGATCAAACAAACTTAACAACATAAATCCAAAAGAATATTATTTGTTGATTAAAAATCACACACGTTATAATTGATAAAATCCACAAAAAAATCAGCAAGTTATTTTTGTAAACAATACACAAAATAGAGTCAATATTATAATTAGAAAAAACCTTTTACATATTGAATTTCACAAACACTTAACTGATATTCTAAAATGTGTATCTAAAAAATAAATATAGACTTTGAAGGGTGCGTACTCAATTGCAATTTATTTTTCAATTGTTGAAAATATTATAAAAATTACCTCTATACCCTAAAAATTTTTTAGTTGATAGAACTCTTGCACCCTGCAAAGAAAATTGCTAAAAAGAATTTGAATTAAAAAATTTTTTTGTTCAAGTTATGAACATCTATATTTAAACCAAAAATACAAATATTATTGCTATAAAAATTTAAGCTAAAATATATTATTGTTTAATTGACAATGATATTTATAATTTAATATAAGTAGTCATCATAAACTTTATGGTAATGAAGAAACAATTAAAAAAAATATTTAAAATCATAAATATTAAATAACAACAAAAAATATAAAAAGTATTTATTAATATATTGTTTCTGACATAATCGCTTACAGTTAAAATTTTGATACCTTAGCTTATAAATTGCAAGCAAAATAAATCATATAAGTAAAAATTTTTAGACAGAAAGTTTGTGAGATCTTCTTGTAAACATTCAAATAATAGCTTTAATTTATGTTTAATTGCCATAATAACAATTAATAATTCTAAAACAAAATGTATAGTTGTGATCACCAATTAATCGAGATAATATTTAACATATTAATAATTAATTACAAATGTTTTTTTGTAATTAATTTATTAATGTATATTTAGTTTGTGATCTTAATAAAACTAGACTGCTTAGTGCTATTATTAATATTACAAAGATGTAATATTAATTTTTTTAAGCAATTTATATAATTAAATTAAAATAAAAAACAATCTTTTTTAAGTCTATTATTTAAGACATAATTAAAAATTGCTCTAATATTTTATAAAAATATAATTATTTTTTTCTTGTATTTTCAATAAATGATTTATCTCTATACATCTCTGACGCACTTCCATGTAATTTTCAAATTTTATCAGTAGTAAATGTAACATCGACAAAGTTTAACTTAAATCTTATATCTGATGTTTCATCACCTAACTTATAAATTTTGCACATATAAAATCCATTTGTATCAGGATCACCATTAATCTCATTTTTTAATATAAAACCTATTAATGTTTCTGTTAAAAATTCTCAATTATATATTGTTTGGTTGCCTTCTTTTAATAAAAATTTTCTTGCTGTATCTTGAATTTCAAGTCCATTATCACTTCTATTTGAAACATCAAGTGATAAAACTTTACTAAATCTTTTTAAAGTAAGTTGTCAATGCATCATAGCAACGCCTTTATATTCACCACTATATAAACCAGAAATATAATTTTGATCAAAACTATCTCATAGGTTTTTATCATATATTTCACCACTAAAAGCAGCTATTTTATATTCATCTGATGTATTTTCAATTCCAAAAGTTTTATGATAAGATTCTATTCCTTTTTGTAAGTTTGCAATAATTGATTTAAAAATTACAGAATTTTCATTCAAATCAGGACTTGTAATTTCTTCATCACTAACTTGATATCCTACTGCAATATAAAATTCATTTAAGTCAACTGAAAAATTATTAATTTTTAGTTTTAATCCTTTAATATTAAATAATCCCATGTTTGTAGATTTTTTTAAAGCCTTTATGTCTTTTGATTCTTCATCATTCGAAACACTAGCATAGTAATCAGCTAATCAAGTTTTGTAATTATTTTTTACATAATCATATAAAGATTTATCATAATTATCTTTTGTTTTTTCTATAGAAATATTTTTGAAAATATAATTATACAACTCTTCATTTTTTATCAAATTTGGAGTTATTGAATAATTATCATTGTTTTTTCATTTGAATTTACTATTAGTTGTAGCTTTTAATGAGTAATCTCAATACTCACCATCAGCATTTAAATTTTTATCATTTAATTCAAAAATTTTTTGATTTGGATCATTGCTAAAATCAATATTTATATTTTCATTTAAATTTGTAGTTTCTTTAATTTTATCAGAAATTGCTTTTTTAAATCCTTTCTCACTAAACTTTTCTTCTATTAAACTTTTTACTTCATCTTTATTATTTGTTATAAATTTATCATCATCAACAAAATTTGTTTTCTTAATTAAAGTGTTAAATTTATCAGCACCTAAAAATGCATATTTTAATTCCTTTACTTTATTGTTTATTAAATAAGTAAGCGCTTTATTTGAAGTAGAAATAAAATTAAAATCAAAGTCTTTAAAAGTTCTATCTTCTTTAATTGACTGTGTTTTATTATTTTCAGAATATCTTATTATAAAATTAAACTTTACATTTATACTAATGTATGATTCTTTAGACTCATTTCTTTTTTTAAAATTATTTGAGCTTCCTTGATCTGTTTCAAAAAATTTAATTCCGCCCTCTTCATTTGTTAATAATTTATCTTCATCAATTGAAAATAATTCGTTATCATTAACATTATTTAACAATATACTATATTTTTCTTTTCCTTTTAATTTTATAATACTTTCAACTATTCTTTGATAATTAATTAAACTTTTAAAATCACTTAAAAACTCAACTTTTTTATCATTGTTTTTAGGATTTTCAAAAATAGTTTTTAATGATGTTGTTGACTCTTCATTAATACCATCTATCATTTTAATTACTTTAGGTTTAATAAATAAATAACTAGAGTCATAATTTACTTCTTGAAATCAATTTTCACTTGCACGTTTAATTTCAGAATTAATAATTTCACTTACTTCTTTTAAATAATCCACAAGAGCTATATCATAATTTAGCAATTCTGGAAGTTTTTCGCTATCTTGATCGTTTTCCTTTTGTGAACTTTTTTTAGAACAAGCAACAACATAAGATACAATTGATGCTGTTAAAGTTATAGTAGACAATAAGTATAATATTTTTTTCATTTGTTATCTCCTCTTTTCTAGTATTTTTAATATGCATTTATTATATTTTCAATTTAAAAGAAAGTACTTTCACTTTACAAATACTGTTATCAAAATTATGAATAACAAGTCATTATGTCAAAATAAAATATACTGGCACGTAAACTGTTTGAGAAATTGCAATAGATATAATTAAAAAAAAAAAAAAAATAGAAGTTATAAAAGGTTTATTAAATAATCTAAAATTCATAAACACAAGTGCAAAAAGACATGTATACAAAAGTTAAAAATTATAAAAAATCAAAATTTATAAATTAAAATATTATAATTTTAGAATGTTAGATTATTGAAAAAGTCGTTAAAAAGATACAATCAGCTATTCTTCATTAAGAAATATAATGAAAGAAAATTAAAAGTTAGTAATTAGTATGAGCAAAAAAAACTAAAAAAAACAGTTTAAAAATAACTTAGACTCATTAGTTATAATTAAAATAAAATTCCATTATTAAAACTCTCTAACCCAATCTAAAGAAAATAACAAATTTTGGTGCAGTTTTTTAAGAATATGCTCATATCGTTTTATTCTATATAGAAAAAATTCAAATAATTTTGAAGTATTCTTATAAAAAATTTTTGCATACTTGACAAATTATAATTAAAAATATAGTAATTGATGTTTGCGTAATAAGAAAATATAACAAATATATGTTAACATATTGTATTTTTATTATAAACTTGCTTACAAAAAACAAATATTATATAAATAAAGGACTATATTTATGATTAAAAAAATTCAGTCCAAGCTTATTTATAGGCTTGGACTGAATTTTTCATAAATTGTTTTATTGCTTTGATAAAACTTTAATAATTTCTCTTATATGGGGTGTTTATAAAATTTGTTTCCCTAAAACACTGACTTTTGATCTAAATAAGTCTTAGAAACATAAAAAACTTTATTAAAAATATTTATTAAAATTTATTTTTTAAGTAATATCACATCAAGTTTCGATGTTTTTATCCAAATCTTCAATAAAAACATTATTTTTTTTTTTTTTTTATATTTATTTTTACCTCTATAAAATGTGTATATATTATTTTCTTAAATTAGTCAACATAGTTTCAAAATCTCAATGTTATATTATTCTAACATCCAGGCTTGAAATTCAACATTAATTATAATATTTTCATAAATAAACTTATGAATTGTTTTTAAAATTTTTTTTATCTTCTGGTTTTACTATGCTACATTAACCATAACGTTTTTAAATCTTTTTATAGTTTCAAACTTATTTATCTTTAAAAGGTCAAAACCTCAAGATTTTAAAAAAGAGATACATGTAAGTAATGCTGTTCTATTATTGCCATCAAAAAAGGATGATCTTTAATGATCAAATAAAAATTATAACAGCTTTATCTACTACATTTTTATAAAGCAACTCACCACCAAACGATTTAAATAGAGTAGTGCAACAGAACAAAACTAATTATAGTTTATTATTTTATAATTATTAGACTTATCTCTAATTGTGATGCTAATATTAAATTATTTCTCAATTGAATATGTAGAGAGTCAATTCAATTATTCACTTGTTCTCAATAATTTTTTGAGTTCCAATTATGAACAAGAACTATAACAAGAAACTTTCAAACATATTCTTGCTTTATTTTTAAATATTAACTTTTAACTTTTGTTCTATAAGGGTTTGCGTTATATGCGTAATATATTCTCAATAAGTCTTATTATAATTCATTAATTTTTTTATGTAATTCAAAATAGTGTATTCATCTAAATCTTTATCATCATTGTCATAGATATAAAAAAAATTGGTAACTTGTAATTTTTTTATTATTTTTACCTTGGTTTATATAATAAAAATACTATATTTTAATAATTGTCTTCTTTACTCAGTGTTTTTCCCTTGTGCATTTATATTTATAACAAATATTTTATTGCAATATTTACATTTCAAATCTTTATAGCTTAAATTGATTTCGTAATTAGATATTATCTATAAAAGATATTTATTAATTTAGATAAATTTATTTTATTATTAGTCAACGTTGCTTTAAAAATTTTATCTCCAATATAAAATTTTAATAATCATCATAAATAAATAATAGTCTATGATGACTTAAAGCATTTCTTAAACTTTTAATATCTTCTAAGTTTTTATATAAATATTTTTAAATTTTCAAATAGATCATTTTTTAATTTATTATCTAATAGAATAACTAAATCTATTAATTCTGAGAAAAATAAATTTTCTATACCGCGAGATAAACTACCTTTATGTTCATTTAACTTTTTTGTAATTTTTTTATTTATTTTATTAGTTCTTGCTTTTTTAAAATTATTTAAATAATCATTGAAAGTATTTCCGATAAGTGCTCTTATACTTTCTTCAAATGCTTATAAATATTTATATAGTATATTTCAAATTTTTTTATCAAATTGATTTAATTTAACTAAATGTATGAGTTCTACTTACCTTGGTTATTCAAACCTATATAGTTTGCAAGCATAGTGTGATATGCTAGACGTTTAATTCAATGTAATTATTAAATTCATTTATAAATTTTTCTTTATTTGCTTTTGGAAATATTAATCTGTTAAAAACTTCTCTTTACTAATATTTAAACGTTTTTTTATTTTCGGTCATATTTGTTGTAAACATTATTAATTGATGCATAAAATAAAGAGAAACTTCTTTTATCAGGGTCCTTATTATTATTTTTTAAATTTAAATAATCATTTTTTATTTCTTTTAAAAAAGAAGAACCTAAGTAGACCATTTATTGTAAAATTAATGGTCTACTTAGGTTTGGTCATTCTAATTATATTTACTTTATTGAAATATAGTTTTTTATTCTTTAATAGGTGTTATAACAAATTTATTATAAAGATCTTTTGCAAAACTTATTGATAATTGATGCATGCAATTAATTCATTTTACAATAGTTTTATCAGTGTCTTCTTTATTTTTTTTATTTAATGCTTCATAATAATTTAAATATTTTCCTACATAAGAGCTGTTCACTTCTTTAATATCTTTTGGTTGAATTCCGTTATAATCTTTAAAAATAACTAACTTAATATTATATGCAAAACTTAAAAAAGTATTTTTAATATAACTTTGAACATCATCGTTCAATCTAAAATTCTTTTCTACTTCTTTATCATTTTCATTTTCTTGTTCTGATATAGCTTGAACGAAATTTGCAAAATCATGAACTTCTGTTAGATTTTCTAGTTTTTCTTTTTCATTTTGTATATCGTTCAATTTAGCTTTCACTTCATCTTCATCTTTTGGTTGTAAAGGAATATCATATCCTACAAACATACCTAACTGACATGAAGTTGTTAAAAAAGAAGTTGAACATATCAAAGTAAATGATGATAACCAGATTATTTTTTTTAGCATTTAATTCCCTCTTTTTTTAGTTTTTTAACTTATTAAGTTTTTCTATAATTAAATTATATTGAGTTTTATAATCTTTTGCTTTATGTTTTTCTAATTCTATTTTTTTAACATCAGCTTTTTCTAGAAAGTTTTTATTAATTAAAATTTTTTCAGATCTTTCAATCTCTTTTTCTAACTTAACTTTAGTTTCTTCTAATTTAATTATTTGTTTTTCATTATCAATAAAATCAGCATTTGCAATTTCTAAAAAACAATCTCCAATTGGAACACTAGTAAATTCTTCGCCTATTTCTTTTAATTCTATTGCGGAATTAACAAGCGTTTTTAAAAATTTATTCAAATCATTTATCATTGATTTTGCTATATTTTTATATTTTGAATTATGATAATTTAAGTTAAATGTTAAATGTAATTCATTTTTTAATTCTTGATTTAATCTAAATTCTCTAATTTTTTTAATAGATTCTATAACTAGACTTTCAAAACCTTCAATTTCATAATTAAATTCATTTATTTCATAATATTCTTCTAAAATTGATGTTTTTAGATCTAGTAATTGATATATTTCTTCACTAACAAACGGCATTAAAGGATGTAAAAGTAGTAATATTTGTTTTAAAGTAAATCCCAAAACTGCTAGTGTAATGTTTTTGGCATTTATATCATTTGAGTTTATTTCTGCTTTTGATAATTCTAAATATCAATTACAAAAATCATCTCAAATAAAATTATAAAGTATTTTTCCAGCAAGTGTGAACTCATATTTATCAAAAGCAATAAAAAATTCTTTTTGAGTTATTGAAAGTTTATTTAAAATTCATTTATCAGCGATATTGTTACTTTCTTGTAAGTTTGATATGATTTTATCTAACTCTTTTTTATCAGGGACTTTATCAATATTTAGCATAACAAATCTTGATGCATTTCAAATTTTATTTACAAAGTTTCAACTGGCTCTTAATTTTTCTTCACTATATCTTAAATCTTGCCCAGGAGAAGAATTTGTCAATAAAAAGTAACGCATAGAATCTGCTCCAAAGTCTTGTACAACTTGCATCGGATCAACACCATTTCCTAATGATTTTGACATTTTTCTTCCTTGTTCATCTCTAATTAAACCATGTAACAAACAATCTTCAAAGGGTTTATTTTTAGTAAATTCTAAAGAACTAAATACCATTCTTGCAACTCAAAAGAAAATAATATCATATCCAGTTACCAGAACATTAGTCGGAAAATATCTTTCAAATAATTTTGAATTATTTTTTCCGTTTCAATTTAGTGTTGCAAATGGTCATAACGCTGATGAAAATCATGTATCTAAAACATCTTCATCTTGAAATCAATTTTCAATATCTTTTGGAGCTTGTTCTCCCACATAAATTTCATTAGTGTTTTTGTTATATCATGCAGGAATTTGATGTCCTCATCATAATTGTCTAGAAATTGTTCAATCATTAATATTTTCCATTCATTTATTTAAAACATCATCAAATCTTTTTGGATAAAAGTTGATTTTATTATCACTTTTTTGTAAATCTAAAACTTGTTTTGCTAATGTATCCATTTTCACAAATCATTGCTCTGATAAATATGGTTCAACAACGGCATTACTTCTTTCAGAATATCCCACTTGATGATCTATTTCTTCTTTTTTTATTAATAAATCAAGTTTTTGCATTTTTTCAACAAGTTGTTTTCTTGCTTCAAATCTATCTAAACCTTTGAATTCTAAAGATTTTTCATTCATAGTTCCATCAATATTCATACAAATAATTTGGTCTAAATTATACTTTTTTCCAATAATATAATCGTTTGGGTCATGTGCCGGAGTACATTTCATAACTCCTGTTCCAAACTCAACATCAACATACTCATCAGCTATAATTGGAATAAGTTGATTATTTACTGGGTTAATAACTTTTTTACCTATATAGTTTTGATATCTTTTGTCATTTGGATTAACAACAACACAAGCATCTCCAAACATAGTTTCAGGTCTTGTGGTTGCAATTATTAAATAATTTTGTTTATCATTTTCAAAAAAGTATTTAAAATGATACATTCCACCTTTAGTTTCTTTGTAAATTACTTCAATATTTGAGATTGCTGTTTTTTGAACTGGATCTCAATTAACAATTCTTTTATCTTTATAAATTAAACCTTTATTATACATTTCAACAAAAACTTTATTTACTAATTTATTCATCTCAGGAGAATAAGTAAACTTTTCCAAGCTGTAATCTAAACTTAAACCTAATTTTTCTCATTGATTTCTAATTGTTTGAGCATACTCATCTTTTCACTCTCAAACTTTTTTTACGAAAGCATCTCTTCCAATTTCAAAACGACTAATTTTTTGTTCTTTTAGTCTTTGTTCAACTTTTACTTGGGTTGCTATTCCGGCATGATCCATACCTGGTAGATATAAAGTGTCAAATCCAGATAATTTTTTATATCTAATCAAAGCATCTTGTAAAGTTCCGTCTCAAGCATGACCAAGATGTAATTTTCCTGTTACATTTGGCGGAGGAATAACGATTGAATATGGTGGTTTTTTTGAGTGAATATTTGCTTTAAAATAATCATTCTCTAGTCAAAACTTGTACTTATCTTTTTCAACGATTAAATGATTATATTTTTTATCAAGTTCTTTTTTCATAAACTAGATTCCTTTCATAAAAAAAGTTCCTATTTATTTATTAAAAATAAATAGGAACGAATAAATATCCGCGATACCATCCTAATTAGTCTATTAAATAGACCCGCTTAATTAGTATTAAGTTTAGAATTGTATAACCTTCAAAATATAGTTTTATTAGTTCACACCAACCACTAACTCTCTGTAAAAACTAATTATTTTTACTCCTTACAATTTTTAACAGCAATGTTATTATACACTTTTTAATAATCACATAACAATATAGGTATTATAAAGAATGCAAACACATTCCCTATTATAGATATGAATGATGAAATGACGTTTGATATTGTATGAATGAGTAAGTTTTGTGAATTAATTTTAAAAAAGTAAAATAACATAATCCATATCGCAATTATAATATATGTTATTAATGCTTGAACAATACAAAATATTATCCCGATAGTAACCATTTTAGTATTGTTTTTACGTATTTGTTCGATCATTACAAAGTTAGATAATAGAAAAATAAAGACTATAAAACCTAATTGAACTCATAAAAATCCTTTATAAATATGAATAGATTTTAGATGTGACAAAATAGCTAAAATAATCCCGACAATTAAACAGCCAGTAAAGCCAACAAACAAAAAACCTATCTTAAGTTTTCCCACTCTTTTTTTCTCCTTTGTAGAGTTTAATTATATAAAAGTACATTAAGTATATTAAAATTTTATTTTATTTTAAAAGATTATTTTTAAATTTAAAAATAAAACTTAAAAATTAATATATTAAATCACACTTGTATTTTGGATAAATTCAAGTGCATATGGTGGTTCTGAACTCTTTTTAAAAGTAGTTAGTAAAATAGATTTTTTATAGTTAGCAATAGCTATATCTTCATCTTTTTGTTGATCAAGATAATTTTTGATTAAGTCTTCATTATGACTATAATTTATTAATAATGCATAAGCTTTTGCGTTATTTTCATATAAATTCTTTTTAATTTTGATATTTTTTAAAAATCTTCTTGTAACTCTTTCAGAAATTCTTAAAATAGAAATTTTTAAACAAAATCAAAAAATTGATGTAAATAATATTGAAATTAATATTAAAAACGAAATAACTATAATTGTTAAATGAAACTCATTTGAAAATAAATATTTTATTCCTGGGAAAATATCTGAAATAAAACTATCTTTTATTCCTTGATTAAAGTCTAATCAGTTATCAAAGCGGAAAAAGTAGCTAAAGTTCATATTAAAGTTTTTATTGAAATAACTTGAAATATTAAATATATAAAATGAACTTAATGCTAAAAAAGGAACTAAACAGCAAGCCATTTTAAATAATATTTTCATATTATCTTTTTTAAAAATTCAAAGATAAGATTTTACAATATTTTGATCAATTAAAAACTTATCAACTAAACGCATTAAAAGAGAAATATATTTAGAAATAAAGTATATTGCTAAAGTTATACCAATTACTAATTTTAAAACTGTAGAGATATAGTAGTCCGTTCTTGTTTTTATTAAAAAGTCAAAAACTGGTGTCACAACAAACATTAAAAAACATATAAAAAAGTTTATATATCTTTTAAAGTAATTCTTAAGTTTTAATTTCGTTTGTTTTAAGACTTTCATATATTCACTCTCTACATAATTATAATTATTTTACTATATATACCTATTAAATGCTAGTTTTTATTAAATTGCATAAAAATCTAAAAAAATTTGATCATATACTCTTTCAATATAATACAATTGCTTGCTAGCTCTTTTAGAAAATTTATTTTTTAATCTCTCTTGTAATAAATTATAGTAACTTGTTCATATATCTTTGTAAGAATTTAATATTTTTTTGTTTAATTCACCAATATCTTTTGATTCTTGTAAATTTAAATCATCACTATTTAAAGTTACAAAAATACCATTTTTTGAGCTTAATTCTACATTTTTACAAGTTAAATTAAGTTGTTTATCTCCTCATTCGATATTTTCAAATAAACTTTCATTTGAATAATATTGATCTTTAACTAATTTTGAATAGTTATTTTGAATATTTTTTTTGCTTGTAGTAATAGCGCTTAATGTGTTGATAAATGATGGTACTAATAAAATATTTAAAACTATATTAATTATTGACATTATTAATGTATCTGTATCAGTATTCGTTCCAATTTTTTGAGTTTCATAAAAACATATGATTGCAGTAATGATTACCGAACATATTGTTCAAGTCATGAATCAAAGTGGTTGGTAATCCACTTCTCTTCCAACTTTAATTTTATTTTTATCTACTTTTAAAGAATATTCAAAAACTTTTATATATTTAAAGTATACATTTAGTCCAAATCAATTTATAATAACAAACTTTATAACTAAATAAAAAGTTAAAACTAATATTATTATACTTTCTCATGATTTTGCTCCTTTTTCTATAGCTACTCCTTTTGCAATTGCATAAATAAATAAAGAAACAGTTAATAACAATAATATTTGATCAATAATAAAATAAGCAAATTTTATTGGTTTGAATACTAAAATATTTTTTATAAATTTTTTTTGATTATTCAATAAAGCTACTTTCATAAATCCCCCTAGTAAAATAATGACCATATTTTTAAATAGTTTTAATAATATATGTTTATTAATATTTTATTAATTAATATTTTCTTGTTCAAATTTATTCATTTTAGATAGATTTTCAATAGTTTTATCGATTTTTAAAGACACTCTAAAATAAAACAATCCAAAATCAAGAGCTTTTTTTACTTTAAAATGCTCTATATCTTTTATGTTTTTATTTTTAGTTAAAAACAATGCCCCGCAAACTGAAGAAATTAATAACATTATATCAATTACTAGTAATAACGCTATTATTCCTGTCTTCCAACTAGAAAAGTTTTTTCAATTTAACATAAGCACGACTGCTCCTGATATAAAAAATAATATAAAAAGAAAAATTGAAACTATGAATATTTTTAAAACGGATTTTTTATATTTGTCAACTTTTAATTCCACTTTATAATCATTCCTTTTTTATATTATACAATATTGTCATTAATGATATCAATACTATAAATAAATTTTATCTATAAAAACTCTAAATATACTACATTTCTTGTCGTTTTTTAGCACTTTTAGATTTTGTTAAATTTTTAACTTTAGTAGAAATTTTTTTTGTAAATTCTTCATATCTATCTCGATATTTATTTTTTAGATAAAATCCTAAATTATTAACAGATATTAATAAAAGATGTTGTAGAACAATCCATGTTCCAAAAACCACTATAACTATAAAAATATATAAAGGTACAGAATTAGTTAAAAATAAATCTTCTTTTTCAAAATCTAAAAACTCATAAGGCCATAGATGAATATCATCTTGCAAATAAATTAAACCTCTAATATAAATATAAAATAAATAACATACAGGATATAAACACGATATATAAATATCTCTTTGTTTAATTCATTTTATGTAACTTAATTTTTGTTTACATGATGTTATTGGAAATATTATAAACAAAATTAATGGACATATAAAGTGAGTTACAATTGTACATGCGATTTGACTTTTTGAATAAGCACTTAACATGTTTTCTTCAGAAACTAAAGAATAAATAATACCTGCTCAAAAAACTAAAAATACAATCATATTTCAGTTCATTAAAGAAAATTTGAAACCTTCTGAAGTAACTCCAACTGGTTTTTTATTATATGAAAATATTTGAAAAAATAATCAAACAATTGTCATTATATTAACATGAACTGACATATAGCTCATTAAGTCTTCAAAGTTTCTAGATTTTGGCTGATCATAGTATCAATATTCGTGAAAACAACACTCATATACTCCTCAAATTAGAAAACTTAAAAAAAACAATGCTAGAAATAAATAACAATATCAAATTTTACTTTTATAGTATATTTTATTCATAAATTAATCCTTTTTTAAATTTTTTTTATTATATCATAAATATAAAAAGCAGTGTTTTAAATCTAATTTCCATATAAAGAATAAAAGCAATTAATACTGAATTACTTTTATTCTTTCATAGAAGTTGAAAATGATAATGTTACATAATATAATATTGAAAATATCAAAAATGATATATAAATATAAATTGTATCTTTTGTAAAAGGTACAATTATTGGATAAACAATAAACAAAATAATAACAATAGTTGTAAAACAAACAATAATATTAAGGACATTTTTGATTTTCAAACTTTACTAAATAAAATAAGTATTTAACATTGAAGTTGTTATCGTTAATAACCCTACAATTACAGAAGGAATAATGATAGCTAAGTTTCGTCCAAATAATAATATTGCCAATAAACTAATAAATCCAAATGAAATAAATATAACTAATTTTGTCTCTCGTATTTTTGATAAATAAATTTAATATTAAATATAGTATAGTGCAAAGAAGTGTTATTATAAATTTATTTTAATTACTTGCTAATAGAATAAAAAAACTGCATTTTATTTATGCAGATTTTTTATTATTTTTGTTGTTGTTTTTGTTTTTTTAATTTTGCTTTTTCTTTTTCAGCTGCAGCAATAGCTTTATCTACTTCTATAAATTCTTTTACTATTTTTTGATTTCTTCTTCAAGGATCTGGGAAATAGTGATAACTGACAAATACAACCCCATCAACAAGCAAGATACCAACTGTTGGTAATATTACCAACCCAAAGATAACTGGAAGCATATATCAATGATCAAAGTATTCTTGAGTATTTAATAAATTTAAAATATTATTATTAATTCCCGGTACAAATAAAGCAATAGCATTTAATGCTGCTGCAATAAATGAAGCTATAATTAATGGTTTATTTGTTACAAAATTGATTTTTTTACTTGTTTGTCATTGACTTAATTTAATAAAATTCGCAAACAAACAAGGAGCACATGTGATTGTCATAAAAATTGAAGTTCTTCCATAATCTCCAATTTCAATTTTTAATCCCATTGGTATTTCAGGGTGATTTCGATAAACTTGGAATCAACCTTCTTTCGCTAAAGTCGCAGTATCCAAATCTGCATATTTTGCAATATTATCTGGATCATTTTTAAATGTATCTAGTATTTTTTTTAAATGATTTTCATCAACAAACGACATTCCAAAGTAAAATGCAGCTATTGAACAAATTGTTAAAAAGAAGATAATTTTCATCATTGAAAACCATATTCCTTTAAATAAGGAGTTTTTACCTTTAATTGGTTTGACTTTCATTAAACTTGGATCATTATTTCCCATACCAACCGCTAAAGCAATACATGATTCAACTATTAAATTCATTCATAAGATATTTGTAGCTTCTAAAGGAGAAACGGTATTTATTGTTGAAAGAATAAATATTGATAAAACGTTTGCTAAGTTAACTCCTAGAATAAAAGTAATAGCTCTTTTGATTTTTGCATAAACGTTTCTACCTTCATTTACACCTTTAATAATTGTTTCAAAGTTATCATCAATTAAAATAACATCAGCTGCTTGTTTTGCAACATCAGTTCCTGTAATTCCCATTGCAACACCAATATCTGCTTTTGCCAGTGATGGTGCATCATTTACCCCATCCCCAGTCATACTGGTAATGTTTCCTCTTTTTTGTAAAGCATTAACTATTCTTACTTTATGTTCTGGATTAACTCTTGCAAAAACACGAATTTGTTCAATAATGTCAAATAATTGTTCATCATCCATTTCATTTAGTTTTTCAGAACTCATAACTTCAGTTTCGTCTTGTGCTAATTCTAAATCTCTTGCAATTGCAAGAGCAGTTACAGCATGATCTCCTGTAATCATAACAACTCTAACACCAGCTTGTTTTGCTTGACGAACAGCAGAAACTGCAGATTCTCTAACAGGGTCAATCATTGCAACAGCACCTAATAAAGTTAAATCAGATTCTAAATCTTCATTTTGATTATCAATTGTTTTATAAGCGAATGCCAAAACTCTTAAAGCATCTCTTGAAAGTTTTTTAGCAATATTTAATAATTCCACTTTATCTTCTTCTGTGATGTCTCTAATAACATTATCAATCATAATTTTTGAACAACATTTGATTAATTGATCAATTGCTCCTTTTGTAAATACATTATATTTATCATCAATATTATTGACAGTTGTCATCATTTTTCTTTCACTATCAAAAGGTAATTCATTTACTCTTGAATAAAGTTCTCTTGCTTTTTGTTCATCTAAACCGGTTACTTCTGCAAAATCAACTAATGCTAATTCAGTAGGATCCCCAATTCTTTCATCGCCTTCAGTAACTGAGTCATTACATAAAACTAAGGCTTTTAAAAATAAATCCAAATGACGATCTTTTTTATGTTTTAAATAATCTTTTGCTTCAGATATTTTATTATCCATAACTAATTTAGTTACTGTCATTTTATTTTGAGTTAAGGTTCCAGTTTTATCTGTACAAATTACATTAACACTTCCAAGAGTTTCAACTGCTTTAAGTTTTTTGACAATAACATTTTCATCAGCCATTCTTCTAGCGCTTAAACTTAAAGTTACTGAAATAATTGCTGCTAAACATTCTGGGATAACTCCAATTGCAAGTGTAATTGCAACCATTAAGTAGTTTGATCATGCAGTTCTGTCTCCAGAGAAGAATAATGCAATAAAAATGATTACACCTAATGAAAAGCTTAACAATGCAATAATCATTGTAAAAAATCCTAATTTTTTTTCTAATGGCGTTGCTTCTTCATCATTTTCATTAATTGAAGTTGCAATTTTTCCTATTTCAGTGTCAACTCCAACTTTAATAACAATACCAATTGCTCTTCCTGCTGTTGTAAACGTTGACATAAATCCAATATTTTTCATTTCCGCTAAAATACTTGTACTTATAATTTCTTTTGAAGTTTTTTCAACAGGAACTGATTCTCCAGTTAAAATTGATTCATCAATCATCAGTCCGTTCGCTTCAATTATTCTAATTTCTGCAGGAATATATTTTCCCGCTTCTAAAACAACAATATCTCCAACTACCAAACTTGATGCTTCAACTTCTTGTTGATTTCCATTTCTTATTACAATTGCTTTTGGTTTTGACAAACTTTTTAAAGCATCCATTGACTTTCTGGCTTTTAATGTTTGAAATGTTTCTAAAATCGCATCAATAATAACAATCATAAAAATGACAATAAAATCGATAAAGTCTTCTAAGTTCACTTTTCAAGTTGTACCAATTAAAGGAGCAACAACACTAATTATTGCAGCTACCATTAATATTATTTGAATAGGTTCAAATAAGGAATGTAAAAAAACTAAATATCATGGTGTAACTTTACCTTGAGGTAGTTCATTTTTACCATATTTAGTTAAATTGTTTTCAACTTGTATATCATTCAATCCTTTTTTAATATCTGAGTTTAAATTATTTGCTATATCTTTTATACTTTTCGAAAGATAATCATCCACGTTTGTTTAATTCCCCTTTATTTCTTAAAAATCTAGTAAAATTATATCAAATAGAAAATAAATATACAAAAAATATTGTAAAATTATTAAATATACAAGGAGGTTTAAAATGTATAAAAACCAAATTGAACAAGCAATTAATTATTTTAAACATCAAATCACAGTTAAAGCAAAAGAAATATTAATAGAAACTACAAGAATAAATTTAGAAAATAAATTTAATATAATAACAAATCGTGCATTAATTGCATTTTGAAAAGCAATTCAAATTTTTCCAGATCAAGAAGATATCAATGTAACACTTACAGCAACAAAAGTAGCAAACGAAATTGAAAGCAGTAGTATGAAAAATCAAATTAATAATTTTACAAGAAGTTATAATAATGCTGGAGTTGGATTACAAATGGATGAAATTTGTGAATCTGAAGTTGTAAAAATGCTTAATATATTTTTTATATCTGGAAATTGTGATTTAAAAATTCTTAATTTTATCTTAAATAACATTTAAAAAAGCGCATGGTTGCGCTTTTTTAAATATCTAAAAGTTAAAATTACTTGGATCTGGTCCATCTCTTTGTTCTTTGATTGTTGCAATCAAATCTAAGTCTTCTTTTGTAAGAGTAAAGTCATCAATATTTGCATTTTCTATAACTCTTTGTTTTTTTGAAGATTTTGGAATAATAACATAATCATTTAATTCAGCTCACTTTAAACATATTTGTGCTTCTGATTTGTTATATTTTTTTGCTAATTGATTTAATTGTTCAACCTCAAAACATTTTCCTCTAATTAGAGTTCCTCATGATTCAACAACAATTTCATGTTTTTTACAATAATCTACAAGTTCTTTACAAGTTAAAGCTGGATGCAATTCAAATTGATTAATAACTGGTTTAATTTTTGCAACTTTCAATAATTCTTCTAAATGTTCAACTAAAAAGTTACTTACTCCAATTGATTTTACCTTTCCTTCTATTACAGCTTCTTCTAAAGCTTTTCAACACTCTAGTCTTTTTGGTGTTGGTCAATGAATTAATAATAAATCAATATATTCAATACCTAATTCATTTAAGATTACATCAATTTCTTTTTTAGTATCTTCATAAGCATGTGAGCTATTTCAAATTTTTGAAGTAATAAAGATGTCTTCTCTTTTTACTCTTGTACTTTTGATAGCTTCCCCTACTGCTTTTTGGTTTTTATAAATCATTGCTGTATCAATATGACGATACCCTGCTTCAATTGCCGCTTGCACAGCTTCAAAGATTTCATCTTTTTCTTTTAACTGATAAGTTCCAAGACCCATTTGTGGAATATTCAATCCATTGTTGAATTTTATATCTTTTTTTAGAATGCTCATTTTTTTCCTCCATTCACTAAATATTTTAGAACAAAAAAATAAAAAGTATTAACTTTTTATTTTTTTAACAAATAAATCTATTTCTGCAGATCCGCTAAATAATGATTCTGGAGGATCTCCATACATGGTTGCTTTTAAATGAATGTGGTTATCTATTCCATCATTATTTTTTACTTCATTAATAGAATCAAACTTAAATTTTTGATTTACTAAATCCATAAAATCTATTTTATATTCGTCTAAAAATTTTGTTATTTTATGAGTTTTATCACTATAAATTGCTGTCATAATTGAAATGATATCAGCAATTAAATTATTATATTTATCTTTATCATTAAGAATTGCATTATAATTTTGACTAGTTATATCCAAACTATATATATCTAGTTTTTTTTGCAAATCATCAATCGGGATTGTATTATTACCATACATTGCTTGATATGCTATTTTTGTTTCAACAACATCAGATCAAACTAATTTATCTTTTTGCTTTATAGCATTTGCAGTTTTTACAATTAAGTTTAATTCTGGTATCTTATCATTTGTTTCGTAATTATTATAATTAGAAATAGTTGAACTAATTTCTTCATTTGTAAAATTAACATATACTTCTTTTTCAAAAGTTGGTTCATTTTTCATAGTGTTAGATCATTTAAAATTTTTTTCTTCTTTTAATTTATCCATTACTTTGTTGGCTCTAATTAATGCATAATCACCAGAAATATATTTTTTATATTTTATTTCTTTTTCTATTTCATCTATAACAGTATTTTCTGCAATTGATAAACTTCTAGAAGCTTTTTTACAAGCAATAATCGGTTGAACATTCACACCAATTAAACTACCAACACTTAAAAACAAAAGCAACTTTTTCATTATTTGACCTCCAATTAAGTCTTGTATAATTATACAAAATTTTATTAGTATAAATCTATCTTATTTTTTAAATTCTTCGACTAATTCTAAAAGTTTTTTACCAACACCATCTTGATCAATTGGTAAAATAACTTCTTTTGCCAATTCTTTTATACCAGGAATCGCATTTCCTACTGCATAAGTATTTTTAAAATTTCTAAACATTGGATAATCGTTAAATTCGTCACCAAAAACATAAATATTATCTTCACTTATTTCCAAATATTTTGCTAAAGCTTTTAATCCTCAATCTTTTCCTGCACCTTTTTTATAAATTTCAATTGTAATTAAATCTTTATAATCAAATTTTAAAGTTGCTAATTCAAATTTACTTAAAGTTTTCATTGCGCTATTATATTCTTCTTCGCTATAACAACTTACATTTAACGAAGTAAATGAACCTTTTACATTTTCTTTGATTGCATGATATAATTCATCTCTTGTTTTATAAAAATGAGTTAAGTCATCTAAAGAATTTACAAAATTATGTTTTTCTTGATGATCTTTATCAGCAAAATGAATTGTTTCTAAAGCATATATTTTTATATCATTTAATAAATAAAAATCAAATCCATTTTCATATAAAACATCTAATATTTCATTACCTTCTTGATTTGTAAAATGATGTTGAGCAATATATTGATGTGTTTTTGGATCAATTAAACTTGTTCCATTTGTTGTAATAATTGGTAAAGATACATCTAAATCAATTGCATGTTGAAGTGCTGAAAAATAATTTCTTCCAGTTACAATTGTAAATGCATTATTAGTTTTTTGCATAAACTCTTTAATTAATTGTTTATTAGAATTTGTTAAAATGTTTCCTTCTTTTACGATTGTTCCATCAAGATCTGAAGCTGCAACTTTTTTAAATTTACTCATATTCATATTTCCTTTTTTATCTTTTATTATTTTAAACCTATTTTTATCAATAAAAGAAAAAAACATTTATTAAAAAATGTTTTTTTCTTTTAACTCTATTAATTTTTTTCCTACTCCATTATTATTAATATTATCTATTATTTCATTTGCAATACTTATAATTTCAGGAACAGCATTTCCTACTGCAAAATTATTTTTTAAACCCTTAAACATTGGAATATCATTTACTTGGTCACCAAATACATAAATATCTTGTAAATCAACTTTTAAATAATTTGCAAGCATTTTTAAACCACTTAATTTATTTACATTTGGTTTAAAGTATTCAATTGTTGGTTGATCAAAATAAGCAAAAGTTAATTTACTAAAGTTATAACTTTCAAATAATTTTTCAATTTCATCAAACTCTTGTTTTGTTTCATACTCAATAAACACTGAATTATAATATTTACAATCTTTTTTGATTCCTTGATATAGTTCATTAAAATCATCATACAAATGATAAATATTTTCATCAATATTACTATTTTTAAACTTATCTCTTCTAAAGTGTTTATTTCAAATTGAAGTTTTTAAACAAAATATTTGAAAGTCATTTACTACACTAAATCTAATATTATGTTTTAACATAATATCTAATATTTTAAAATATTCTTCTTTATTAAAATGTAATGAATCTATTAATGTTTCGCTAACCGGATCAATTAATGATGATCCATTAATTGTAATAACAGGTAAAGTTACACCAATATCTTTAATATGATTTTTTGATGAAAAAAATTGTCTTCCTGTTACGACACTAAATGCATTATTAGTTTCTATCATAAATGCTTGAATATCTTTTTTTGTTTCTTTTAAAAGTTCATTTTCTTTTGTAATAATAGTTCCATCCAAATCTGAACAAACTATTTTTTTAAAACTTGACATGAATACCTCTCAACTTAAATATAATATATCATATTTTAATTTAAAACAATTTGTTCAATTAAATCAATCGCTTTATCTAAATTAGCTTTATCAACCGATGAGATTGATAAAAATATATCATTTTTATCTAAATCTAAGGTTGATTTTACTAATTTTTCGTTTTTTATAATATCATTTTTTTTACATTTATCTTTTTTTGTAGCGATTATTAAAACTCTAATATTATTTGTTTTAAAAAATTGATATAAACTTATATCATCATTGGTTGGTTTATGTCTTAAATCAACTAATTGACATACTCCTTTTAAATTACTTCGATTTAAAAGATATTCTTCCATCATTATACCGAAAGCTTCTTTTTGAGAAAAACTGACTCTTGCATAACCATAACCTGGCGCATCAACAATGCGATATGCTGAGTTATTAATATCAAAAAAGTTCAACAATCTTGTTTTTCCAGGTGTTGAACTAGTTTTTGCTAATTTATTTTGATTACATATTGCATTAATAAAGGTCGATTTTCCAACATTACTTCTTCCAACAAAACATATTTCTGGTACATTATCTTCGATTCAATCTTTTTTTGCAGCACCAGATTTCATAAACTTAGCTTGTTTTATCATTTTGAGACTTTTTTTTGTATCCTTTTAATTGGCTTTATTAATTTTTGATACTCTTTTTCAAAAATTTTTTCTTCTTCAGTACTAGTATCTGGTTCTAAAAGCACTACTTCATAGTAATATCTATTCAATTTATTAACAAAATCGCGTTGTTTTTCTATTTCTTCTTCAATAATTGAGTTTCTAATGTCATCTTTTTGATATTTTTCTATTAAAGACTCTAAAAGAGATTGCTCCATTTCTAGGTAAGAAAAAAAGTCATCTTTTTTGATTTTCTTTAGGTTTTTTTTAGAAAAAATTTTTTTTTCTTCTTTATTCAAGAACTTTTCTAACATAAAAACTCACTCCTTTATTTTTCATAATGATTATAGTTTAAAACAACAAAAAAACCAAATAAACTATTTAATATAACCCCTATTTATCTAGGTCTTATGAGAAAATAAATATTCTTATTTTTTATAAGATTATTAGAAAATATATATACTATTTTTCATCAAAAAAATCTTTCAATTGTCATGAATATTTAACTTGATAAACTTCTCTTAAATTAGATTCACTACTGTATGAAATAACTAAATAATTTCTTTTTAAAGTGTTCGAAATAGCAATAATTGTCTTTTTTTTGATAATTGTATTATCTAAAAAATAATAGCTTTCATTTGCTTCTACAATTAGCATTGCCTTATATAATTTAGTTCCAACTATTATTAAAACAAATATAAAAACTATATAAGCTAAATAAGAACCAGTAAATAAATATGAATTTAATCCAGTAATTTCATCTTTTTTATAAATATTTAAATACACTATTAGACCAATCATAAGACCTAAAATTATAGGAAAAACACAATATGTAATTGCATAAAATCAATATAATATTTTTTTACTATAATAAACTCTTTTGTTTTCTAGTTTTTTTAATGCTTTCATTTTTAAGTTTATTCATACTACAGATCCAAAAAATAATAAACTTACTAATGTTATAAAAATGATACCTATTAGCATTTTATTTGCCATTTTCTTGCTCCTTTATTAATTCATTAAAACTTAAAACTAAATTTACATCTTCTAAATCGAATAAATATCGCTTATTTGCAAGAACTAATTCAATCCCTTTTATTCAATCTCCAATATAAAAAGTATAACAAATTAATGAAACTATATTTTTTAATTCAACTTTTAAATATTTTTGTTTAAACTCAATAACTAAATGTTTATTAGTTAAAAACAAGTTTGCAAATTCAGATGTTAGTTTATTATCATTATAATAATACTTATAATCACTTATTCTTAGTTTATTATCGGCTTTTTCTTTTTTTCTTTTTCGATAATATATTTTAATTGCATTTTGATTAAAATAACAAACTTCAGTATCTGGTAATTTATAGTTTATATTTACTTTTTCTAGTTTAAAATCTTTTTGTTTTTCTTGAAATTTTTTTAAATACTCATTATTAATTGTTTTATAACCTTTTATTCTAATTGAATAAAATAATGCTAAAAGACCACTTACTAATAAAGCACAAAGTCAAATAGATATAAAAATTATTAAAACATAATCTCGATTTTGCATATTTTACCTTTTATCTAAAAATGATTTTATCATTATAAATAAGAATTAATGGTAAAAAAATACAAGTAATTTATCTCCTTGTATTTTTTATCCGCTTACCTTTGTAGATACTTTTTCTAAAAATTTAATTCTATCTTCAATTGAAGAATTTGATAAATGATCATATAAAATAACTTCTGTATTAAATAATCCAAATCTGTCTAAGATGGTTTTTTTCATTTTATCATATTCTGCTTTTGCAATTGATTTTCCTAATGATCATTCTCTACTTAAACTTGTTTGTATTATATATGTTTTATCAATATCAATAACAGATTTCCATTCGAATGGTTTATCTTCATTATTAATAATAGTCCCAACAAATACCCTATCAAAAAAACCCTTTAAAATTGCTGGAAAATCTATAAAATACAAGGGATAGATTACAATTAATTTATCCGTTTCGTCTCTAAGAGTTAAGATTTTGTCTTTATATGGACTTTTTTCAAATGTTCCAAAACCAAATGACTCTATTTCTTCTTGAGTTATTACTGGATCAAATTTTTCAGCATATAAATCCCATAATTCATAATCCTTATTATTTGCTTTTAAATTTTTAATAATAACATTAGCTATTTCATGATTGAAACTCTTTTTATTAGGATTTGCTAATACTATTACTGTTTTCATAATTTTCATCTCCTTTAAAGTTCTATAAAATAGTTATTCTTTTATTGATTATAGCAAGATATAGGAAATATATACACTATAATAAAAAACTCTGTAAATAGTAGATTCTATTTACAGAGTTTTTTATTTTTTCTTGTTATTTTTTGTAGCACTTCTTTGTATATTTGTTTTATTTACATAAGTTTTAGTTTTTATTTCACGTTTTGTTTGTTCTTTATGTGTTGATCAATAATTCACAGCTGGTGAAGCATCTTCTAAATCTTTTTGACCAGATCAAACATATTTTTTTTGATAATTTTTTTCATTCATTTTACTCACACTACTTTTTAAGTCTTTTTTAAATACACCACTTCTTGAAAAACCATCATCAAAATATGATTTAGCAGACATATGATTTTTACTTTTTGGATTTTTATTAACATTTTTAGAAGTTAAAATATTATACACACTTGTTGAAGAAGAAACTTTTCTTCTTGATTTTGTTACTCCATATTTTATAAATAAGAATCAACTTAATCAAATAATTAATCCTAAAGCTAATAATGCCCCAAATATTGCTAGTAATAATATTGCTCAAAATGGCAACGCTGGAGCTGGAGGTAAAATAGTTACACTAAATGTATCTGTTTTAACTTCATTTTTAATATTAGTTCCTTTGACATTCACTTGATATGTATTTTCATTTTCGATATATTTTATTGCTTCTAAAATAATTTTTCCTTCTTCAATGTTAGCTTTTAAATAACTCTCATTACTTGAAATAATTGTTACTTCTTCAAATACAACATAATTTTTTAATTCTATAATTTGTTTTTTATTTTGTTTGATTTTAATATCAGAAATATCTATATCTCCAAAATCTAAACTCTCTTTATAAACAGATAAATTGATAGTTAAACTTTGTTTTGCATTACTTGCACTTATTGTAAATGAAGTATTTCCAGCTGTTTTTGAAACAACTTTTACATTTTTATTTTCTAAACTCACAGTCGCAATGTTTAGATCATTTGATACAACACTAACATCTTCTAAATCATCAAAGTTATTTATTTGATAAATTCCTGAATAACCATTTTCAATCATTTTATCAGGATCAAAATTATCTAATCATTTACCATCGATTACATATTTTCTATTAGCAAAATTTGTTAAAGTATATTCAAATTCTCTTGAGTTAGATGAATTTTTTTGCGATACTTTAACTTTTACATTAGCACTTTTTTGGTGATCATTTCATGTAATATTTGTAATTTCAAAATCTAATTTATCTAAGTCAGGATAATCTTTTAAAATATTTTTTATTCAATTGATTATATCTTCGTTTATATCTCCTAAACTTAATTTTTGATTTACATCACTATTTTCTTTTAAGATTTTTTCTACTTCTTCTAAATCAATTGTTGAAGATTTTATAATATTTTTAAAATCAATTTTAATTTTTCCTACTAATTGATTAATCTGATCTTCGGTTAAATAACTTTTAGCTTTTGAATTAGGAATAACATCTACATCTGAAATTAAATGATTTTGATTTGAAATTTCTCAAGTAAAGATTTTTGATTCATCAATTTGTAAATATTGATCTTCTTTTAAAATTTGACTATTTATATTTTTTATAAGATTTTTTAAATCATCACCTACATAGTTTTTCGCTTCTATACTTTCTTTGTATTCAAAAATGTAATTACTTGTTCAATTTAAATTGCTATGTGTTGAAAAATATAATTTAGGTCCAATTTGTTCTCCATTTGTATAGATAAATTTTGCATCAGTATCTTGACCTAAAGTATATTCTTTTCCTTTTAATCAATTATTTATTTTAGACTCTGTCATAAAATATCTATTTGAATTATCTAAAATTTTTGTAACATTTATTAAATTTGGTAGGTCTTCTTCATGTAAAGAGCTTTTAATATTTTCAAATCCATTAGTTAATGAAATTTTTTTATAAATATTTTGATATGTCTGATATCTTAATTTATTTTTTTTACTTATCTCACTAGTTTGATAATAATTTTTAATTAATTCATTATCTAAATCCACTTTAAGATTTTTTAAAAATGAGAAATCTAAATTTTTTCTTATTTCAACATTATCTATACCATCTATATTAAAAAAAGAAGTTAAATAATTATCATCATTTAATTTATATATGTATTCATTATTATTTTTATTAGTATTAAAAGAATAATTAGAAATTTTATTTCCGTTATCAAAGTTATTGTTTGTCAAAAATCAATTAATTAAGTCTTCATTTGAATTTTTAGTTACTGTGTATAATCCATCATTTGAATTATTTGAATTTGCATCATTTTTTAAAACATAATTAATCGATACTTCTGTATTTTTTTCATATATACCTATAGATTGAATTTTTTCATTATTAGCAGAAATACTTATTTTTTTTATGTTATTTGAGCTTTTATCGACATTAAAAAAATAATTTGCTTTTTCCGTTTTATTTCTAGCCACATCATAGTTTGAAAGATCTTTTAATTTATCTAAACTGTAAATAAAATCACTTGATGCAACATTTAATGTGTTATTACTAGGTAGTAATCATAATTTTTTATTATTATTACCAACTATTATCCCATCTGCACTACTTTCATTTAAATAGTAATGAATAACACCATCAAAATCTTCTCAAACTAAAACATAATCTTTTGTATTCGCTTGTTTTACACAATAAATACTTTTAACGCTTGAAGCATTAATTATTTTAGGCAAATTGACAGGTTCAGGATTTAATAATCTTTTATTAAAAGTTTCAAAATCTGGAACGTTAAACTTATATATATATTTTCCGTTATATTGCAAGAAAACTTTATTATAAGCATCAAATAAATAGTTTGCATTGTTAGCAAATATTTTATCTAATTCTTTAAAATCCAATAATTTAGAATAATTTAAAGTCATTATTTCATTCCCATTTGAAATGTCTTTATAAATTTCATTTAGTAATTTTTTAACATTTAGTCTGATAAATGATTTGTCGGTTCAAGCATATATTTCATCTTTATATAGGTAAACATTTTTTATTACTTCTTTAATATTTTCTTTTTCAAAATCTATAATATTGTAAGTTTCTCAAATATTACTAAATTCATTATATAAAATAATAGAAATTTTACTTGAAAAAGTATATTGTTCGCCAAAAAAAATAACATTTTGTTTTTGGTTTGTTGTGTCATTATAAAAAGTTGTAGGTAAAAAATAACTTAATTTATTTTTTTTAATATTATATTTATACGAAATATCATAATCTTTTTGAATATAATTTTGGATAAAATTTTCTTTTAAAAAATTTTTTTTCTCATAAAATGATTGAAAATTAAACGCAGTAAATATTGTACAAATTACAACAATTAATACAGTTAAATACTTTTTCATTTTCAAACATCTCCTTTTAAAATTAAATTATTTTCTTTTTTTTCTTATTACAAAAAATCATATTGATAGAGAAACTGTTAATAGCATAAGAACCGATAAAGAAGATACTAAAGGAACTAATCATTTATTATTTTCAATTTTTCCTGATAATCCTAAAATTCTAACTTTAACCTTATAAAAGTTTCCATTTTCTAATATATTATTACCAGAATCATGAACAGGGTTATTAAATAATCTATCATAAACATAAACTTCTACTATTGTATCTAATGGTTTTAATTTATTTTTAATTTGTTCTTCACTAACTGCAAAACCTATTCCAAGAGCTAATCTTCTATCACTATTTAATATTCATTCTATATTCATTGCACTTGAATCAATAGAAAAACCTTTTCCATTGAATTGCATACTTTCTATTTTATTTAATTGAGACTTTATGTCTAATTGTCCTTCTTTATTTTCACTATTTTTATAATCATTTCTATCTTTAAGCACTTTTTCCTTATAAGAAACTGTAATAGGTGGTAATTTTATATATAAATTATTTTTATAATCGATCAGTGTGTTATTTTTTTCTTCTTCGGTAGCTTCTCCTAGTTTTAAAAGATTATAATAATCATTATTTTTTCCAATTTTTATAAAAATGTTATCTAATTTAGATTTATATCTATTTGTTAATTGATCAAATCTGGTATTATTTTCTTTGTTGAATCCTCAATCAAGTAAGTTTGGGTAGTTTTCTTTTCCCCCAATTCAATCATTAATTTCTCACAAAGTTTGTTGCTTTTGGAAAACACCTTTATATTCATTAGATAAATTAAAACAACTACTTAAATTATCTTCAATTTCATTATATATATGACCAACAATATCATTTACTTTATCATATGTATCTAATACAAAATTATTTTTTGTATATTTATTAAAAAAATATCTAGCAACTTCAATTAAATCGAAGGAATTTTTATAATTAAAAGAAATTTTTTGAGTATTTTCGTTTGTAAATTTAGAGAATCAATTATCATTTGCTAAAAAATCTACATCTCCTGAAGTTTTTAAGTCACCGTATGTATTTTCAGGAAAAAATTTTTTTATGTTGTCATTATTTATTTCTATTATATAATCATATTTTTTTGTTTCTATGTTTTTTTGAATTAAATATTCATCTTTATTAAAGAAAACATTATCATCATAAACTAAATCATTTGCATTTAATTGTGCTTCATCATAACTAATTGCTTTTTTAAATAGTTCATTATATTTAATATTATTAACTGGAGTCATATTTTTATATTCATTTATTATTTTTTCTTTTATTAAATTAATCTTTTCATTTTGTGAAAGATTTATTTGTTCAGAAGATAAATTTATATCTATTAAGTCAGGAAAACTTTTTACATTTTTTAAATTAAATTTTTTATATACTTTTGATAAAGAATATATAGCTTCAGATTTATAAGTTCCTGTTACAGCTGGTGTTCCATATTTATCAGGTGATGCTTTTCTTGTTATAAAAACAAGTTCGCCATTTATAAAATTTAGTGAATTAGGAATAATATCAAAAGTTAAATTTTGATCTGGATTTAAATATAATGTGTTTACACTATTTAGTTTAATTACTTTGTCAACAAAACTATTATGTGAAGCAAAATCATTAACATTATTATAAATGTATTTATATATTCCTAAGTTAGTTGTAACCGCTATAACAAATTCTTCATTAAAGATATCATAAAAAGATATCAAATTTTTTGTTACTTCTACCTCTAAAGTTGGTGTTCCTGCACTACCAAGCGCTGCACCTTCTATTTTATCTTTCTTAGTATTTAGTTTAAATAAAAAATTTAGTTTTAATTTTTCATTACTGCTGTTAAAAATATCGGTAGATTCCAAATAATAAATTCCACCATTTTGATATGAACTTGTTCCATCATAAATTGCAAAAATAATATAATCTTTTTCAAGCGTTTGATTTTCGCTATCAATATTATAATTGTGTTGAGTAGTTGTTATTCTTGAAAAGATTTTATCAACATATGTATCATCATTAAAAACTTTATAATTTGAAAAATTAGTCTTTGAAGAAAATATCTTATATCCAGAAGATGTTCTAACAAATAATCCAATATCATCATTTATAGAAAAAAATGCAGATTGATAAAGATTACCTATAGATATAAAATTGCTTAAAATTTTATATTTAATTTTATTTGTATTATCAAAATTTATATTCCCATAATTGCTTAAATCATTTGTATCCTTGATTATTAATTCATTAAAATCTGCTGAAATAATAGCCATGTTATCGCTTTCTTCACCATAAGAAACTGCTATATAAATTATTCCTTGATTTTTGCTTCTAATTGGTGAGTAAATACCTCTTATTTTTAAACTTTTTAGATTTACTCCGCTTATATTATTTGGTACCTCAAAAATATTAGAAGCATAACTTACTGAATCAAAAATTACAAACTTATTATTATTTATATCACCTGTTGTAAGTTCTTGTGTACTATTTCAAGAATTTAATGTAGATTCATCATCATCTCTAACGGCTAAACTCACTATTTGTCTTCTATACGCATTACCATTTAATGTGAATCCCATATTTGATGCAATCGATGAATATTCATAACTATCAGAAACATCAGGAGCATAAAATTTTTTTTCTGTTCCTTTTATAAAATTAAATTTTTCTTTACCAGTTGAATAATCTACTTCATATAAACCTCTAGTATTTCTGTCAGAAATAAATAATTTTGTATTGTTGTTGATGTCAGTTGTGTTTAAACTGAAATTTGATTCTATTTTTATTTGTTCTTTTTTTTCATCATTATTTAAATTTAATGATTTTATATCATTATCAATATTCGCACCATAATTTGAGTTCAAAAAAAAGGAATTTTTCATAATTTTTTTTTGACCTTCATTATTTCCATAACCATTTGAAATATCTGCATTATCAGTCAAATAATTCATAGTATCTTTATATGCATCAGCATTAGTCAAACTTGGATATTCTATTTTATTATTTGTATCAACTTCATTATATGGTATATCAACTTGCCCTTCTTCTAACTTATTCATTTCTTTATAGATCACTTGCCCTACATTTGGTGCACTAACTGAAACACTAGTTAAAAAAGCTAATATAAATTTCATAATATCTCTCCTTTTTATTCATTACTTCTCACAAAAAAATATTGATATTTTATTATAAAAACAGCAATAAATTAATAAAATATCAATAATAAGGTTTTAATATAGTTTTAAATTTTACTTTATACAACTATTATTATTTAGTATCTTTTTTTTATATTTATATCTAACTAATCAAATTAAATTTAAAGACATGCTTTAAATATATGAAAGTTAATTTCTTTTGTACAAGCTTAACGCCATAAAAGTTTTATGTTACAAAAGAAGAATTATCTTTTTTATAACATATATATATTATATAAAAAAGCAAAAAAAAAATTTTCATAATCAAAAATTTTTTATCTTTTTTCAAATTTATTTGGTTTAGATTTAAAGTTGGATTTATTAAATGATCTTTTTTCAAAACCACCTTTATTATCTCTATCTGATTTTTTATAATCTTTTTTGTCTTTGTCGAATCTATTGAATTCTTTTCTTTCGCCATCAAATTTCTTGTAATCTTTTCTTGGGTGATCTGATTTTTTATAATCTTTTTTGTCTTTATCGAATCGATTGAATTCTTTTCTCTCGCCATCAAATTTCTTGTAATCTTTTCTTGGGTGATCTGATTTTTTATAATCTTTTTTGTCTTTATCGAATCGATTGAATTCTTTTCTCTCGCCATCAAATTTCTTGTAATCTTTTCTTGGGTAATCTGATTTTTTATAATCTTTTTTGTCTTTATCGAATCGATTGAATTCTTTTCTCTCTCCATCAAACTTTTTAAATTCTTTTTTATCACCTTCTGGTCTTTTAAAACCTTTTTTATTAAAACTTGGTTTTTTACCAAACTTTCCTTTTTCTCTAGACTCTTCTTCAGAATTTAACATAATTTTTTTATGCATTCCATATTTAATACGACTTTCTCTTATTCTGGTAGATTTTAATCGCTTATTAATAATAAAGTCTTTATCTTTATTTAACTCAACTATCATTTCAATTTTACGTTTAATTTTTTCTCAATTTATTTTTTTAATAGCTTTTAACTTTTCATTTAATTGTTCATTTTCTTCTTCAAACGGTGCTAATTCTAAGTTAGCAAAGTTATTAAAATCTTTTAAAATAACCAATAATTTATTAGCAAATGAAATATCTATTTCAATTTCATCTATTAATTGATCAGATTCTTCTTCTTTAAGAACAATAAAATCTTGATTTTCTAATAATTCTAAATAAAAATTAATACTATCAACAATTTTTTGATTATATTCTTGTAAGTTATTTTCTTCAAAAATATCATTTTCTTTTACAAATTTTATAATCATATTAGTTTTTTCTAAAACATTGCTGTGATCTTGTAAATAAGTATTTTTCTTAACTCTAATCGCATCTAAAACTGATTTAATAATTGCTACAAACTGATTAAAATTTGCTATTAAATTATTAAACATATTTTGATAAACATTAACTTTTATTTCAGCTGTTTGTAAACTTAAGAAATTAAAGTCTTTATAAATTGATTTTAAAATTGCATTAATATGTTCCATATTAATTTTTTGAATTTTAAAATATACTAAGTTATTATTTAAACAATGTTTTAATGCATGTTTATCGCTTTCAACTAAATAATCATATTCCTCAAAATTCTCTAACATTACAACTAATGTTTTTATATTTTTTCTGAATGTAAAAAACGCTTTAATTAAAATTTCTTGACTAACTTTTAAGTTTTTTTCTAATTTTGTTAAATCAACTGCATTGTATGGATCATATCCAAAAATTGGTGTATTTTCTAATTTATTGATAATAAATTCAATATTGTTATTACTTATTTTTAGTAAATCATATTTTTCTGTGATGCTTTCTAATTTGATATTAAAGTTTAATACAAAAAAATCTTTAATAACTCATTGAATTTCATTAACTATTTCTAAACTTAATAATTTTTTTATCAATTTAATTTTAAATAATTGATCTATATAGTAATGAATTAATGAGCTTTTTTTATTTACTAATTTAAATTCAATAATAAAACTTGATATATCGAAAGTATATGTTAAAAATTCTATTGCACTACTTTTATCTAATACTTTTTTTGCCATATTTTTAACATTATTATCAATAATATTTAAGGCTTCATCTATATTATTAATATCTTTTAAGTAATTTGAAATAACAATTTCGATTTCAATTAGTTTATCTTTAAGTTGTTTGACAATAATTTTATCCATTAATGGTTCTCTTTTCTAAATAATTCAAGATTAATTAACTTGTTAATTTTAACTTAAATATATTTAAAATGAAAAAGAATTTTGTTATTTATTTTGTAATATATATGTAGATAAAGGAGAATAACAATGGCAAATAAAGTATTAGTAATTTCAGGAACAGCTAGTCCTAAAGACAAGTCTTTTTCTATAGCTTTACAAAATAAATTTGTAGAAGAATATAAAAAATTAAATAGTGATGATGAGTTTATTTATCTTGATTTAAATGATGAAAAAATGGCACAAATTACTCTTTCAAGAGATAATATGAAAGATTTTTTCAACCAAGAAGATGCGCTAAATTATATTGAACAATTAAAAAGCGTAAATAAAGTAATTATTGCAAGTCCCATGAATAATTTTGCAGTAAGTGCAATGATAAAAAACTATTTAGATCACATTTTATTAGCAAATCAAACATTTTCATATAAATACTCTAAAAAAGGAGATGCTAAAGGTCTTTTAGATCATTTATCAGTTCAAGTTTTAACAACTCAAGGAGCACCAATTGGATGATATCCATTTGGAGATCATACTAATTATTTAAAAGGTACATGAGAATTTGTTGGAGCTAAAGTAAATCATCCAATTTGCTTTGCTGGAACTAAATTAGAACCAGTTGTAAGTATGGATCCAAATCAAGCCATATTGCAAGTTGAATCTGAAATCATAAAAGCTGCAAAAAGTTTTTAATTAATTAAATATATATAAAAAGCAATGGAATTTTGCTTTTTTTATTTATAATTAAATAGTAATAAGGAGAAATAAAATGTACGCATTTGATTATGATGATATTCAACTAATTCCAGGTTTATGCACAGTTAAATCAAGAAGTGAGTGTGACACAAGCATCAAACTTGGAAAATATACCTTTAAAATGCCAGTTGTTCCTGCAAATATGGCAAGTATTATTAATGAAGAAATTTGTACTCTATTAGCAGAACAAAACTACTTTTATATAATGCATCGTTTTAATGTTGATTCTTTTGAGTTTACAAAAAATATGCATTCAAAAGACTTAATTGCATCAATTAGTGTTGGAGTTAAAGATAATGACTATAAATTAATTGAAAGATTTAAAAAAGAAAATGTTATACCAGAATTCATAACTATTGATATAGCTCATGGTCATTCAATAAGTGTCAAAAATATGATAGAACACATTAGAAATAATTTAAATGATGAAACTTTTATTATCGCTGGAAATGTAGGAACTCCACATGCTGTTAAAGATCTTGAATATTGAGGAGCTGATGCTACAAAAGTTGGAGTTGGTCCTGGAAAAGTATGTATTACCAAGTTAAAAACTGGTTTTGGAACTGGTGGATGACAATTAGGAGCAATAAAATGATGTAGTAAAGCTGCAAATAAACCAATTATTGCTGATGGTGGATTGAGAGTTAATGGAGATATTGCAAAATCAATAAGATTTGGAGCAACTATGTGTATGGTTGGTAGTTTATTTGCAGCTCATATTGAATCACCTGGTAAAGAAGTTACTGTAAATAATATTCTATATAAAGAATATTATGGTAGTGCTAGTGAATATAATAAAGGTGAAAAAAGATATGTTGAAGGTAAAAAAGAATTAATTCAAATTAGAGGAAATTTAATGGAAACATATCGTGAAATGCAAGAAGATTTACAATCTTCAATATCTTATTCTGGAGGAAATAAAACAAAAGACATTAAAAAAGTTGACTATGTTATCTTAAAAACAAGTAATTTTTAAAAATTTCATATAAAATAATATTGAGGAGATGAAAAATATGGATAAATGTCAAAATCCAGGATGTTCAAATGAAATCAGTGTACAAGAACCTAAACGTATCTATGTATATGATGAAAAAGTTGAAGATGAAATCCCAGTATCAGTATGTGATGAATGTTATAAAAAAAGCAAAGACGAAGAAAACGACATTGATTGAAGTCACTCAGTAGTCGAAGAAGAAGAAAAATAAAAAATTGATGTAAAATACATCAATTTTTTATATAATTTCTAAAATACTTTTGATAATCAAATACATTTCATTATCAAAAGTATTTTTTTGATAATTATTCTCTAGTTCTTCTATTTCTCTTATTCTTAATTTTTTAAAAACTTCATAAACTGCTGAATTTAAAGATTTTTCATCAATACGATAGCATAATGCTTTTTTAGTTTTATAAAAATTATCTATACTTACAATATTTGCATTAAAAAAGAAAAATAAAAAGTACTCATTTAGAATGTTAATGCTGTCATTGTTATAAAAAGCAAATAATACAGGTATTTTTGCTTTTAATCCCTTTTGAATTATATCAATAACTTCAGCTTCTCTAATGTTTGCGGTAAATTGATAATCTTCTTCTCTTAAATTAATTATTATTTTATTGAAATTTTGGTATTTAGTAATTTCTAATGTTTTATTTCCCCTTTTTATATCAGTTCAAACTTTAAAATAATCATATAACAAATCAAAGTTTTCATAATTTTTAATTTTGTAAAATTTTAAAATTCAAAACATAAAACATATTTCTTGATAATAATTTTTTTTGTCATCCGTCTTTACATGAAAAGTATATTTTTTTTCTATAACTTGCGCAAAAACAGTTAACTCCTTATCTATTTTTTTTATTAAAGATAAGTCATAAATATTTTTTTCTTTAATAAAATTTTTGATCATTTCATTATTATGATCATAAGTTTTTATTTCTTTTTTAATATCATAAAATTGTTTAAAAATGTTTTTTTCAATTATTATTTCTTTTGATTTTTTTGTTAAAAACTCTGAATCAATTGAACAAATCATATTTATATTTTTTAAATTTAATGATAAAGTTTCTAAAAGTTCTTGTCATTCATAAAGTTCTTCTAAATCTAAATAATATAAATTATCAATTGTTAATACAACTTTTAAACTAAATCTTTTTAAAAGTTTATTAAATTCAAATAAAATTTCTTCTAATATTAATTCATATGAAACTTGATCGCTTTCTTTAATTTTTTTATAAAAGATAAATTTATATGAATAAACATCATTATAATTTTTATTTTTTTGTTTTATTATTTTTTTTATATTTTGTTCTTTTAAAAAAGTTTCAAATATTTTTAAATCACTTATAGTTTTTAGTTCTAAAATTAAAAAACCTAAAAAATCATTTAATAAGTTTTCACTTTTATTAAACTTATCAAAATTAAAAGCTATATGATAATAACCTTTCTTAAATAAAGTTGAAGCTACACTTTCAATTAAAAAACTTTTTCCTGAGTTTTTTGGACCATCTATTGCAATTAATCCTTTATACTCATTTAAAATTCCATTTGATATTTTTTCAATTAAAGGTTCAACATTCACTCTGTCTAAATAAAATTCATTTCCCATACTCATATTCCCAACACTTAATTATTTTAAAAAAAATTGTTACCTTTATTAAATCCTGCAAAAAATTTCATTTTTAAATATTCTTGTCCCATATTAGGGTTTTCAAATCTAAATTTATTTAATGCAGAATATAATAATTTATTTTCATTTTCTAATTTATCATAAAAACTTTTATCAAATAAAATATTATCTGAAAGAATTAATGCACAATTAGAAACAAAAGCTTCTATAAATTTTTCTTTGTTTTCTAAAATTTTTAAATACTGATTAAAAAACTTTTCTAATCTTTCATCTTTTTTATTATAAACAATTGTTGTCAAAGATATTTCATCTGTGTTTGCAATATTAATAGTAGCAACTCTTTCAGGTACAAAAATATTATTAATAGAGTTAACTAAACTGAAATCTTCAGGACAAACTTGTGGATACATCAAATCAAAAAGTTTCATATTTTTATTTGTTTCTAATTCCAATTTTATAATTTTTAAATCTTTATTCTCTAAAAAATTAGTTTTATAAATTTTTAAGTTTTCTAATAATGATTTAACTAAACTTGAAAGTTTTTTTATTCTAAACACAAACAATGCTTTATAATCTTCATCACTTATTGAATTAAAATACTTTCTAAATTCTTCTTTCAAACATTCTAATTGAACTTTACCAATAAAAGTTTTATACAATAAAGCGATAATGTGTATTTTAATAATTTCTTGATCACTTGTTTTTGAGTTAATCGTAATAAGTCTCAACTCATTAAAGTGATTATTGCATAATCCATAAAACTTAAAGTTCTCATTTGAAACTTTTTTAAAAAAATCTTCTCCCATTTTAAAAATATTATCAAATGGATTTAATCTATTTGTTGATAATAAATTTTTTTTATCAAAATTTATTTCATACAATCTATTTTCGTTTGCATATTCACTACAATTTGGATAATTACATTTTTCTAACTTCGCAAGTTTTAAAAAAGTATTTTTAAAAGATTCAAAAGTAGATAATAAATATTTTTCGTATTCTTCTGGTTTATGTAATATTTCTTCATATGTTTTATATGTTTTATCGACAATATTTATTAATTTTAATTTACAACAATCTTCATACTTTTTTTCACTTAAGCAAAAACATAGTTCATCATCAAAAAATGAAAAGAAGTTATATCCATTTTTTTGTAAAAAGTTAATATTATCATTATCTAAAAAATAATTTTCAAATATTGCTCTTACAAACTTCTCAGATTGTTCATTTGCTATTTTGTTGTTCTTTATCTCATTATATAAAGTTTGTTTATCAATAGTTTCAACAATAGCAACTTTCTCATCTTCTTTTTTATCTTTTTCCATATAAACCTCACATATATTTATTATAACTTTTTAAAAATATAAATAAACAAAAAGAACAACTATTTTAGATAGTTGGTCTTTTTTTGATATTAATTTGTTCTTTTTGTCTTTTTCGATTTTGTGCTCTATCAGCAGATGCTTTTTTCTTAGCTTCTACTTCTTGTAATCTAAATTTTTCTCTTTGTTCTTTTAATAAAATTGCTCTTTCACGTCTAAGTTTCTTCTTCAACTCTTTTGCTTCTTGTTCTTTTTTTTGTGCAAGTTTTATTTTATCATTTTTCTCTTCTAACAATATGTCTTTATCTTGTTTAATAGAAGGTTTTATTACATTTAGATTATTCATTTCTTTTTCATCATCAATAACATCTAAATCATATAATTTTGCTTTATCATCAAACATATTAACTATTTCAATATCTTCTTTAAATAAGATTGGATCAACTTTATCTTCAATAAAGTTTTTCTTAAAGTTTCTAATCATCATATTTTTAGGAATATTCAATTCAAACTTAAATTTTGCAATAAAGTCAGGAGCAGTTATAGCTCTTGTGCAATTTAAGTCAAAGATAACTCTTTTTATTTCATAAATATCGTTTGCAGTTTTTATAGAATAAGATCATTGTAATTCTTTGAAATAAAAATCAAATAACAACTCAGAAAAGTCATATTGAACAGTTTTATTTTCTCTAAATAAAGGAATATTATCTAAAAATTCTTTAACTTTTTCATTTCTAAAATAAAAGTCATGTTGATCTCCATATTGAATAATATCTCCATCTTCAATTTGGTATAAAACATCTCCTATTTTTCTTAAAAATTCTTCATCGTATCTAAAAGTTGATTTTATAACATCTAAATATCTTTTATGAGTTTGTAATTGACTTGCTCTAACTGGCATTTGACGATATTCAAAAAAGATTTCTCTAAATAATCCTATTGCGTTTAATCCCCCAACTGTTAATAAATCTCTTTTAGTTAAGTTAGGTTTATGAAATTTTTCATAGTGACTTCCTAAAGCAAAACTAGTGTCTTGTGTAGGAAATTCAGCTGGAGTTAAAGTAATTATTGGAAAAATATAAGGATAATAACAATGTATTGAATAGTATCATGCGATTGATTTTTGATTTCTACCTACCATTTTAATAGCAAACTTATTTAATTCTGCTAATTCTTCATCTTTAAGAACTATTAATGCATCTATTTTTAAATCCATATTTTTAATTTTTCTTGCAAATTTAGGATAATATTTTTCAAAACTAGCAGTTGAACGTTTTCAACCACCATTTAATAATTCATTAATTATTGGTAATTCTTCTAAACCATAGAATTCACCTGCTACTAAAGTTTGTGTATCATCAAATTCAAATATTTGTTTACCAGGAGTAATAAAGTTTTCTACAACTATTTTTTTTAAATGCATAATTTTTCTCCTTTTTTTAAGATAAATTACTATAATTATACCAAAAAATATGAAAAAATGTACCTTCTCTTAGTAGAATAAGGATGGTTTTAAGAAATAAAAAAATATCTAATATTAGACACTTTTACCTAACGATTCTTTAATCGCTTTTATATTTTGTATTATTTTTTTTCTTTTTAAATATACTATAATATTCAATGTTGCAACTGTACTTATAAATCCAATTGTTAAGCACAAAAAAATAACTCATAAAAAAATATTTTTTACATTTTCAAGGTCTACATCATAACCAATTTTTCTACCACTATAATAATAATCATATTTTTTAGTTGAAGTATCATTTTTGTTTCTAAAACTATTTAATCTACCACCAAATCCATCTAGAGCGTGACCCATTTCATGAATTAGAACCGAATATCAAATTGGCGATGAAAATCATTGTGTTTTATAACTGTTATTATTTTTTGCATCAATTAAGCCTTTAAATTTAATAATTATATAGGATGAACTTATCGATCAAGTTTCATCTTCAAATGTTGAATCTGTTGCATTATATCCTAAAACATTTTTAGATGAGTCTTTTAAAACTTCATCACTAGATATCACAAAACTATTTAAGATATTATTAACTCATAACTCATTTTTTATTAATGAAAATAAGTAGTTATATAAATATAGTGTGGCATCTTTTAATTCTTTAGTATAACTTTTTTTTCATTTATAAATTGAAAAAAAATTAGTATATCTATTATCAATAGAATCATATATTTTTTTAAATATTACATTACTTTCATTAAATTCATTTTTTGAGTTTTCAACTAACTTTGCATCTAAAGCATCAAAGTCATCATAATAATTTGAGTTAAAATTATGAAAATATTTTATACTCTGCTCACTTGCTTTTGTATAAGAATCATTCATTCATCCACCAAGTAAATTATAATAATAAGTTCCTAGGTGCATTTCTTTATCAATTATTTTTAAAACAATCGATTGATCAAAAAAACTAGTAAAGCATGTTGATAAATAGTTTCCACTTTTTCCACTTTCAAATTCTTCTCATCCAACTTTTTCGCTTTCATATCCCAAATCAATACAGTCATTTGGTTTTTCTTCTAAGTCTAGATTATAAATTGGTCGATCGTCATATTTCGAAAACAAATAATCTAATAAACTATCTTTTTTATCAATTTGATTTTCTCCATTTTTAATTAACTCAGGAAAAAATATTGTAAAAAAATAATTTGTTATTTCTCAACTTTTATTTTTTAGTGAATCTGGAGTAAGTAATCATTTTGAAAAAGCTTCTGCAAAAAATTCTCTATCATTTGTTGCTCCATATTCACTTATATTAATTGTAGAAGCGATTATATTTTGTACTAGTAACGCTTTATAAAAATTAAGTTCAGTTTTTTTAGAACCAAAATGATTTATACCTTCGTATGTTAAAAAATATTCATTATAATCATAAACATCAATTATTGAATCATAAAATTCTTGTTTAATTTTCGTAACACTTTTTGCATAATAATATTTCAAGATTCTTCCGTAATACATCATTTTTGTTGTTGCATCTTTTTTTGAATTATCTTTTTTAATAATTTTATCTTCTTTTAAAAAAGAATCATAATTAAAAGTTAAATCATTTACATTTTCAGATTTTTCATTATAAAACTTATCTCTTTTGTAACTTGATGTTACAAAAGAGCTATTGAATAATAAACCTATAGATAAAAATAACTTAATTACAATATTAATCATAATAACCCTTCTAAAAAATTATTTATTATTTGCTATTTAACGTCTTTATCGCTTTTTGCTTTTTTTAAAAAAACCAATCCTACAATTACAAGTGCTATTCCTACCGCTGCTCCGATCGCTATATATGTTATTCATTTTTTTGATGAAGTGTTAGAAGGTGTAACAGATGAGTCTTTATTGTTAGATCCTCCAATATAATTACCTGAATATAAATCTCCATAATTTCTATATGCGCTATTATTTTTTAATCTTAAAGAGTTTTCTCTACCACCAAACGCTTCTACTGCATGCCCCATTTCGTGAACAATTACATTAAAATTTTCTGGAGAACTGAATCAACCTTTTTGATATTGACTATTAAATTGTTTTAATAACAATCCATCTGATCTAATAACTATATAAGAATCTGTGGTGGTTATTAAAACTTCAGATTCATTATCTGGATTTTTATAACCCGCTCCAGATGTCGAAGTATATCCTAAAACACCCTCCATAGAACTGCCATCATTATTTTTTAATGGTGAATCAGATGATAACACTAAACCACTTATAACATTTTTTACATAGTTTTCATTTTTAAATAAGGCATATAAATAATTATATAAATTTAAAAAGACATTTTTTAATTTTTCAGTTCAATCATCGTTTCAAGCATCAATAACATCACTACCTGTTCAACTTAATTTTTTATAATAGTTTGCAAATGAATTTATTAAATAATTTGGAGAAATTTGTGCTATTCCATTTGTATCTATTGAGTTTTTTATTAAAAATTCATCTAAACTAGCAAAAGTGAAGTGGTTATCATTAAAATCATTGAATTTTTTAATATTACTTTCACTCGCTTTAGTGAATGAATCATACATAAAACTTTGAGAAGCAGATATTAGATTTTTTAGCTGATTAAAGTTTAGATTCAATGACCTTCTTGCTCAATAAAGTTGAGTATAACAATAGTTCATTGCGACATATCCATATGATTCTTTTATATCATCTGTAAAGTTTAATCATCCAATTTGTTGATTATTTGCATATTTTAAATCCACTGGATTAGAACTTGCACTAGTTAAATCTAAGTCGTATTTTGTTAAACTTGATGAATTATTTTGAACAATAGTTTTAATTTCTTCAATATCTTTATCTGTAATAACTCTTCCAGTTGAAATAAGTTTAGGCATTATAGTAGTATAAAAATCATTAATTATTTCTCAACTACGATTTTTTTGATCATCTGGTGTTAATAATCATTTTGCAAATGATTCTGCAAAAAACTCATTATCAGATGATGCACCATATGCGCTAATATTAATTGTAGAAGCTATTATATTTTGCATTAGTAAAGCTTTTTTAAATTCTTTTTTACTATATATGTCATCATCTAAAGAAATTTTATTTATTTCAGTTTCTAAATTATTAAGTAAATTTTTTTCATCTTTTATACTATTTGCAATATAATACTTTAAAATTCTTCCGTAAAATAATGCTTTTTGTAATGCATTATCATCATTTATACTAATATTAGAATAGTCATCTAATAATAAATCATTATAATTATATGTTGATGCTTTAGTGCTAACTTTATTAACCTTAGTTGTAATGTCATCACTAATTTTATTGTTTAATTTAATAAGATTTTCACTTATTAAATTAGATGTTGTAAATAAATTTGAAAAAATCATTGAAATTGCTATAAACATTTTATTTAAAAATAAAATCACTTGTTACACCCCATTATTTTTTATGATTTTATTGCACTTTTAAATGCATTATAATTATTATAATCTATTTTTTTGTTATATTTTTATTATTTACAAAAAAACAAAAAAAAGAATACTTTATGTATTCTAATAATTAATCTAAAACTGTATTTGTTAATTCTTTTAAGGCATCATTTTTTGCTTTCGATCAAAAATCTACTGCTAAAAATTTATCTACAATTCTTGTTGAAATATGTAAATCTTTGAAATAAAAGTTCATTTTATTAAATCTTAAACAAATATGACCAATTGTAATTGCTAAAAAATCATAACCATCTTCAATTAATTCTTTTCCTGTTTTATCTCTAAATTCAGGATAACCATATGTTTCATACATTGCTCTGCGCATTGTTTCTACACCTGGATCATATCATTCATTAATAACATAATCTTTTAGTTCTTTAATTTTTTTTTCGCCTTCTTCACCCATTGCTTTTCATACTTTTATAACATGTTCTTCAAAAGATGGAGCAAATCTTCTAATCCCTTCGTCTAATGATGGATAAAAGATTTGAATTGGTTTTGCACCTTCAACTTCTACGTGAGCTAAAAATCATGGTTCAGAAAATGAAACTACACCAATTTGATCAGAACTAATTTGATATATTTTTTCACTCATAATAGTACTCCTTTTTATTTGAGGTAATTATACCACATATTTACTACATATTTTATAAATATCTAGTCCTAAAAAATGAGATTAAAAGTTAATTGGTTTTCCAGTTTCTAATGCTTCAGCTGCTTCTCAAACCGCTTCACTTAAAGTTGGGTGCGGATGAATTGCTTTTGCAAGTTCAGTGATTGTACCTTCTGATTGAATTAGAGTTGTAATTTCTGAGATCATATCAGTTGCTGTATTCGAAATGATATGTGCTCCAATTATTTGTTTATATTTTGGCTCACAAATTAATTTGACAAATCCTGTTGTATTTCCATCTGCCAATGCTTTTCCAATTGCTGCAAATGGGAATTTAAATGCTTTATATTCAACACCTTCTTTTTTTAATTGATCTTCTGTTTTTCCAATCATTGAAACTTCTGGGTGTGTATAAATACAACTTGGTACTCGATTGTAATCCATAATTAAATCATCAGCCTCATGATTTCCTAATCTTTTTGCAATTCGATTTGCAGCAATTAATCCTTGATAAGAAGCAACATGAGCTAACATCATTTTTCCAGTGACATCCCCAATTGCATAAACTCCATCAATATTTGTTTCACAATATTCATTAACAACAATATGGCTTCTTTCGTTTTTTTCTAAACCAATATTGTCAAATCCAGTTGTTACAGTTTTTCTTCCAACTGATTGTAAACAGAAGTCAGCCTCAATAGTATAAGTTTGACCATCTTTTTCATAAACTACACTATTTCCTTTAAATTCTTTTGTTGCAGCACCAGTTATAATTTCTAGATTCCCACGATTCAAAAGTTCTTTTGTCATTTCTTTTGAAACATCACTATCTAACATTTCTAAAATAGTTGGTAAAAATTGTAAAATTGTAACTTGTGTTCCTAATCTTTTATAAACACATGCAAATTCAACACCAATTACCCCTCCTCCAATTATGACTAATTTTTTTGGAATTTTTGGTAAAGCTAAAGCTCCTGTTGAATCAATTAAAAATCCACTTTCAGTTGCTTCTTTTGCTCCTGGTAAATTCATAGAATTTGGAACACTTCCTGTTGCAAGGATTAAATTATCACAAGTATATCTTTTTTTATTTACTTCAATAGTATTTTTATCAATAGCAACAGCTTCTCCTTCAACAACATTTACATTATTTTTTTTCATTAACCCTTTAATACCATTGGTTAATTTTAAAACTATATCTGCTTTTCTATCTTGAATTGCTTTTCAATCTGCTTTTACACCTTTCATATCAACTTTAATTCCAAATTTTTCCGCTTTACTAATTTGTTCATATAAATCAGCTGATTTTAATAAGGTTTTTGTTGGAATGCACCCAATATTTAAACATACTCCTCCAAATTTTGCTTTTTCAATAATCAAAGTTTTTAATCCAAGTCTAGAGCATTTAATAGCACCAACATATCCCCCGACTCCAGCTCCAACCATTATTACATCATAATGATTCTCTAAATTAGTTGCTTTAAATTTTGGTGCTGGTCTTAAATTTTTTGAGTTTCCTTTTACAATTCCAGGATGATTTTGTTGATCTAAAACTTGTGTTACTTTTGCAAAAGTATCAACTGGTCTTGGTGGCACTTCTCTTTTTCTTCCTCTTTGAATTAGATCATTTGATACAGGAGTTGCACCAACTACTGATGCATTTTCTTCAGCAGGTTGTTCAACTGTTACAGGTTCATCACCAGTTCCATCATTTATTTCTATAACTACATCTCCAACTTTAATTTCTTGTCCATTTTTGATTAAAATGTTTGCAATCACTCCATCAACTGGTGCAAAAATATCTGAATTTACTTTATCTGTTTCAACATTAAACAATGAATCTCCGCTTTTTATTTTATCTCCAACTTTTACAAAAACTTCAGTAACAGTTCCTTCTGTTAAACCTTCTCCAATATCTGCAAATTTTACTTTAAACATATATTCTTATCTCCTTTAAACTAATAAAATAGCTGGATTTTGTAAATAATAAACTATTCTTTGTAAAAATCTACCAGCATCAGCACCATCAATTACCTTGTGATCTGCTGTTAATGAAAATGGCATAAATTCTCTAATCTCAATTTGATCATTAATAACACCAGGGGCACGAGTAATTGTACCAACACCTAAAATTGCAGATTCAGGATAGTTAACTATTGGAGTTGCATAATCTAATCCTACTGATCCAAAATTTGTAACTGTAAAAGTTGCTCCAGTCATTTCATTCATTGCTAATTTTTTACTTCTTGCTTTTGAAGCAAGATCATTTATTTTAACAGCAATTTGTAAAACACTTAATTTATCTGCCCCTTTAATAACAGGAACCATTAAACCATCAGGTGTGTCACATGCCATACCAATATTGATTTGATTTGCAAATTTAATTGCTTTATTTTCTTCATCAATTCTTACATTTAAATTAGGCATATCTTTTAAAGACAAAGTAACAGCTTTAATAATAAACGCTAAATAAGTCAATTTAACTCTTTGACTATCTGCAAAACCTTTTAATTGATTTCTTAAGTTAACAAGTTCAGTTATATCAACATTTTTAAATCCAGTAAATCCAGCTACTTTTGTATGAGCAACATCCATTGCTTTAACTGTTGCTTTTCTAATTGGATTTCAAGGTACAGAATTAAATGATAAAGGTTCATTGAATTCTGGTACTGAAATAGCAGGATTTGTATAATCAACTTTTGGTTTTGGTCCAGGACCAATTGGTGCCATTTGTGGTAACGCTTGAGGTTGAACAATATGTGGATTTGCAGCAAAACTTTCAATATCTGCAGCTAAAATTCTATTATTTGGTCCAGTTGGACTAACTTTTGTTAAATCGACACCCATTACTGCTGCCATTTTTCTTGCTAATGGTGTTGCTCTTACATTTGCAAAACTATTATCTATCATACTTGCTTGACTCATATCAAAACTCATTCCTTGTGGTTGAGAACTTTGTGGTTGTTCTCTTGAAATAACTTCATTTGAAACTGGAGTTGCACCAACTACTGATGCATTTTCTTCAACTGGTTTTACTTCTACTTTTGCAGGTTCACTACTTGTTGAAGCCCCAGTTCCATCATCAATTTCTATAACTACATCTCCAACTTTAATTTCTTGTCCATTTTTAATTAATACATTTGCAATTTTTCCATCAACTGGTGCATAAATATCTGAATTAACTTTATCTGTTTCAACATTAAATAAAGAATCTCCACTTTTAACACTATCTCCAACTTTTACAAAAATTTCAGTTACTGTTCCTTCTGTTAAACCTTCTCCAATATCTGCAAATTTTACTTTAAACATATATTCTCTCCTAAGTATTAAAATTTATAATTTAATACTTCTTCCATTTTCGCTAAAATTTTAATTGGATTTGGTTGATGATAAGTTTCTCCAGAATCAAAAGGAATAACAATGTCATATCCTGTACATCTTGAAAGTGGTGCTTTTAAATAATCAAAACATTCTTCATTAACTGTTGCAATAATTTCTGCTGATACTGAAAATGATCTAACAGCTTCATGAACTACTAATAGTCTTCCTGTTTTTTTAACAGATTCACAAACCATTTTTTTATCTCATGGTTTTATACTTCTTAAATCAATTAATTCAATTGTAATATCAGGATTTTTTGATTCTAATTCTTCAATTGCTTTTTGGCAATCTACAGTTTGTGCTCCATAGGTTACAACAGTTAAATCATTTCCTTCTTGAATTTTAAAAGCTTCTCCAATTGGAACAGTATAAAATCCATCTGGTACTTCTTGTTTAAATGCACGATATAATTTTGTTGGTTCAAAAACAATAACTGGATCTGGTGATTCAATTGCAGCTAAAATTAATCCTTTAGTATCATAAGGAGTTGAAGGACATACAACTTTTATTCCAGGAGTATGTGCATACATCGCTTCCATTGCTTCAGAGTGAGATTCTAAAGCTCTAATTCCCCCACCCATTGGCATTCTTATAACTAATGGTGAAGGATATTTTCCTCTTGTTCTGTTTCTAAATCTACCCATATGACCTAAAATATTTTGCAATGATGCTCATCCTAGTCCTTCAAATTGTAATTCAACAACTGGTTTCATCCCATTAATTGCCATTCCAATTCCAACTCCAGCAAACATAGCTTCACTAATCGGAGCATCAAAACATCTTTCTTCTCCATATTTTGCTTGTAATCCTTCTGTAGCTCTAAAAACTCCCCCTTCATAACCAGCATCTTCACCAAAAACAACTACTTCTTTTCATTTATCCATAGCAACATCAAGTGCTTCTGATACTGCTTTAACATTATTTAAAACTTTTGGCATTAGTGGTGACCTCCTTTGGCATCAGGGTATTTTTCATAAAACTCTTTTGCTTGGTTATATTGTTCTTCTAGTTCTGAGGTTTTTGATTCATATACAAAATTAAATACATCTTCTAATGGATAATCTTTGTTCGCTTCTGCATAATTGAATTCATTGCTAATTAATTCATCTTGTTCTTTATCTAAATCTTCTTGTTTTTTATCATCTCAAATACCTTTTTCAATAATGTAATTTTTCATTCTGATTAAAGGATCTCTTAGTAAGGCTGCTTGAAATTCTTCTTCTGGACGATAAATTTTTGGATTATCTGAAGAAGAGTGAGCACCAAGACGATAAGTATCTAATTCTAATAAAACTGGTCCATTACCACTTCTTGCAAATTCAATAGCTTCTTGCGAAACGGCAAAAACTGCAAAAAAGTCATTGCCATCTACTTTTATTGACGGAATTCCTGTAGCAATTCCTTTTACAGCTATATTTAAAGATTTTGTTGATTTAGCATATGGAGTTGAAATTGCTCACTTGTTATTTTCACAAATAAATACTACTGGTAATTCATGAAGTTTTGCAAAGTTCATTGCTTCATAAGTTTCTCCTTCACTCATTCCTCCATCACCAGTTGTTGTTAAAGTAACTCCTCCAGTTTGTTTATATTTTTCTGCAAATGCAATTCCAGTTGCATGTGAATATTGACTTCCAATAATAATATTTGGTGGTAATAAATTAACTCCTTCTGGAGATTGAGCACCATATTCGTTTCCCATTCAATATAACATTATATTTCTCATAGGCATTCCAGCAGTAAGTCATGCTGCATTATTTCTATAACCAGGAACCAATCAATCCTTTCCTCTTATCATGGCAAATGCATAACCAACTTCACTTGCTTCTTGACCTGTTGAAGATAAAAATGACAATAATCTTCCTTGTCTTTGTGCTTTATTTTGAAATTCATCTTGTCTTCTAGATAAATTCATAATTTTATATGCTTCTAGTATTTGATCATCTTTTAATTTTGGCATTAATTTTGGATTTACAATTTTTCCATCTTGATCCATAATTTCTACTCTCTCATTCTTTAAAGGGTCAAATACATTTAAAAATTTTGTTTTCATTTTTTCCCTCCTATTGTATTAGTAAATTCAAAACATCTTGAACTTCAATACTACTTCCAAAAATATCTTTGATATTTACTAGTTCAATTATTTTTTTTATTTCACTAGCTTTATACTCAACGTTTACTAATTTCTTTTCTAATATTTCTGTTCCTGCATAACCTAAAAAATCTCCATAAATTTTTACTTCTTTAATTTTGTTATCGATAACATTTAAAAAGATTTCAAAACTACCTTTACCTTCAATTCTTGTTTTATTAATATAATCGAAAGTTGCATTTTTAACAAATGTTCAATCTGAATTTTTATATTTATTTACAAACAGTTTATCAATTTCTTCTAAATCATTTACATCTAATTTTAAATAGTTAATTGATCCTAAAGATTCATAAGTTTTAATCAATTCGTCTCAAAACACAGGTATTTCAATTTTGTTTTCAATTTCAGAGTTAATATTTGTAACTCTTGCTGTAATTGATTCAATGTTTTTTGATAAAATCTTCGCTCTATCAACTGTTAAGTATTTTGCTAATTTATCTAAATTTGCATTAAATAATATTGTTCCATGCTGTAAAAAACGATCTTTATATTTTCACATTGCATTTCCGGATATTTTTTTATCATTTAAAACAATATCATTTCTTCCTGAAAATTTAGCCGCTACTCCCATTTTATTTAGCGTTTGAATAATTGGGTCTAGCATTTTTTCGAACATCGAGACTCCTTTATTTTCTTTATCGGTATAAATAATACTAAAATTCATGTTTCCTAAATCTTGAAATACAGTTCCCCCACCGGTATTTCTTCTTATAACATTAACATTGTCTTTTTCTGCTGACTGAAGATTAATTTCTGCTGCTGGATTTTGATTTCTTCCAACAACAATAGTGTTATCATTTTGTCACAAAAATAAGATTGGGTCTTGAAATTTAGCATTTATTGTTAAATATTCTTCTGTTGCTAAGTTATATTTTGGGTCAAAAATTTTTGATTTATAAATATACATTTAATGACCTTCTTTCTATATATTTTAATTATATTCTTATCTAATTAAATAATGCTTTTAAATAGTTGAAAAAAAATTTCAATTTAATACAAAAAACTAAATAAGTAGATTGTTTAGGTTTATGGTTACAAATTTATAAAACAAACATTTAATAACATTTATTTAATAAAAATCAAATTGTAAATTAGTAGAAAAATTAAAATACATCAGAAAAATAACGAGTCACCCCAAACTACATATACTTTAACAAATTACACTAAAAATTTCTTTAGTAGTATTTTTTCATATGTTTTTTATTTTTTTTTGTTTTTTTTCTAACATAAAAGACCAGTTTTTAATCTGGTCTTTTATGTTTCTATTTTTCTAATTTTTTTCAGTTTTTATAATTTCTAATTTTTTAATATAATACCTTTTTTTAAAATTTTCAAGTTTTTTAGTATTAAAATTATTTTTAAAGTAAAATGATTTTTTTATTATATATCTATTATTATAGTGATAAAAAATAAAATAATAAGTGTTTTTATTTATTATAGCAATTGCTTTATTTTCAATATTTTTTTTATTATTAAATTTCGAAATAGTTCTAAATGCAATTTTGTTTATTAATCTATTTATAAAAATTGGTCAAAAAATTCCTACAATTATTGTAAATTCAAGATCAGATAGTCAATGTGTTTTAGAAATAAGTTGTGTATAGAAAACTAAGTTTAAATAAAACATTCAAAAACTAAACATAAATATGTATCTTTTTGTATATTTTTTATGATTATTTTTATCATAAAAAAATACCATTGCAAAAAATACTGAATAAGTTGCAGCCATATGACCTGATGGAAAATCTGCATAAAGCAATCCTCAACCCGCGTCTCCTCTTTTACCGGTTAAAAAGTTAACTCATCCATCAGGAAAATCATAAATTGAATATCACGGAACAAAAGGAACACTTTGGTCTCCTAATTCTCCTAAACCTCAATTCATAATTTCATGACCTTTTGAAAGATAATAATCTTTTCATTCAGGAGATACAAGATTTTCATTATTTAAAATATCATTAAAATCAGTTTGATAATAATATGGTCTTAAAAAAGTTAGTTTTAAAACTCATACACTAATGTTAAGACTTAATGCAGATAAAAATGTTTTAAACGCTCGTAATAAATAAGCATTTTCAATAACATCTTTTCTATGGGAAAATTTAAATCTTAAATAGTACAATGAAATTGAAAGTATGATTGAATCAATTAATGCTAAAGTTACTATTATTTTTCTTCCTGTAGAATAAGATTCAAAAAATCAAGCAGAAATATCTGGTCCAAATCCATCATCTAGATTTGTATAAGCTAAATAATTTTTAACTTGAAAAGCAACAAAAAGAATAATAGCACAAGCATAATATACTCAAATTCATCAATATCACTTTTTATTAGTTCTGCACCATACTGCTAATGATTCAGCAAAAATAGATACAATTATGTAATAAAACAATACTGGTTGAGTTGTTCCTGAATTTTCAAATATTCAACAAAAAATTCTTATTCAACGATATTCCATTAGAGGTTTAAATAACTCATTAACTTCTAAATCTCAGAAAGTAGACAAAATAAACTGGAATAAAGATCAAGAAAACCAAACAATTAATGCATAATTAAAAATTTTCATTTGTTTATTCTCCACTTTAAAAAACATTTTTTCACCTCTACTCAATTTGTCTATAATTTTTTTTATTCTTTTGACTCTACGGTTTTAATTTCTTTTATATAATATTTCTTCATAAGTATTTCTATTTTTTTATTAACTTTACCAATAACCGGAAAGAAAATTCCAGCAGAAGCTAAATCATAAACATTTCCATTATGTATAACCATTAAGTGATAACTTTTGTTTCTGATTATTACCAAACCTTTTACTTGAATATTATTTTTAGAGATTTTTTTACAAATAATTTTAAAAACTATTTTATTAATAATTTTATATAAACCTAGAGGTCATAGAACACCTAATACATTTGTAAATGATAAATCTGATAATCAGTGTGTTTTTGTTATTAGTTGAGTTGATAAAACTAAATTTAAGTAAAACATCCAAAAACAAAATAGTGCTATATATCTTTTTGTATAATTTTGATGTAATTTTTTATCATAGAAAAATACAAGAGCATAAAATACAGAATAAGTTGAAGCCATATGACCTGAAGGGAAATCTGCATATAAAAAGTTATAACCAGGGTCCCCTCTTTCTCCACTGATAAAGTTTTTCCATCCATTAGGAAAATCTGTTATCTCAAATCAAGGCACAAATTTCGATCCATAATTTCCTAACAAACCTTTTCCTCATTTCATTATATTATGACCTTCGTTTAAATAATAGTCTTTTCATTCTTGTTTGACTAAATTTTCATTATTTAAGATATTATCAAAATCAGTTTGATAATAATATGGTCTTAAAAAAGTTAGTTTTAATACTCACACTATTAAAGTTAAACCAGCAGCTGAAATAAATGTTTTTAACGATTTCAATCAATATGCATTTTCTATTACATCTTTTCTTTTGACAAATTTAAATCTTAAATAATAAAAAAATGCTAATAATATAATTGTATCGACAATAGCTAATGCTATAACAATATATCTACATATTTCATATGACTCAAAAAATCAAGCTGAAATATCAGGACCAAATCCATCATCTATACCAACAAAACTAAAATAATTTTTAACATGCACATAAATTCATGTTAAGAAAATAAAAATATAGTAAATTCAAATTCATATATGAAACTTATTATTTTTTTTACAATAAACATAGATAGATTCAAAAAATATCGTAAATATTACAAAATAAAACAATACTGGTTGAGCCATATCCCCAGAGTTTTCAAAAATTCAAGCAAAAATTCTAATTCAACGATACTCCATTAATTCACCAAAAAATTTATTTATTTCTTGATCAAAAAAAGTAGCTGCAACAAATTGTATTAATGATATTGTAAATCAAACAGCTAAAGCATATTTGAATATTCTAACTTGCGCATTGCTTTTGCTAAAAATCATTTTATTACCTCCAAATTTCACCTTCATAAAAATAATTTAAGAACAAATAGTTCTTAAATTATTTTTTTATATACGAGTTCAAAACGCTTGCTTATTTCTAAAAATACAAAAATATACTAACATATTATACTAAAAAAAAATTATCCTTTTTTATTAATCTTTATCGATTGCTTTTTCATGAACATCGCTATATCTATGTCCTAAAATCTCAATATTATCTAAATGTTTTTTAATTTCATTTAATTCTTCTTGAGAAAAAACAACATCAACACCACTTATATTCTGATCTAACCTTTGTAGGTTTCTAGTACCAGGAATTGGTACAATAAAATCTTTTTGATTTAGTAATCATCCAATTGCAATAGCAGCAGGAGTTGTATTTTTTTGTTGTGCTATTTCTTTTACATATTCTACCAATCTCATATTTGCTTCTAAATATTCTGGATTATTAAATCTTGGAATTGTATTTCTAAAATCACCTTCTTCAAATACTTGTCCCGGTTTAATAGAACCAGTTAAAAAACCTTTGCCAAGAGGAGAAAATGGAACAAATCCAATCCCTAATTCTTCTAATGTAGGTAAAATTTTTTTTTCAGGTTCTCTTCAAAACATTGAATATTCACTTTGTACAACTAATACAGGAAAAACTTTGTGTGCTCTTCTAATAGTTGAAGCACTTGCTTCGCTAAGCCCTCAATATCTAATTTTTCCTTGTTCTTTTAACTCTTTCATAACTTGAGCAACTTCTTCAATAGGAACGTTTTGATCAACTCTATGTTGATAAAAAATATCAATATAGTTAGTTTGCAATCTTTTTAAGCATCCTTCAACAGCTCTTAAAATATTTTCTCTAGAAGAATCAATTCCTACAACTTTATTACCATCATATTTAAATCCAAACTTTGTAGCAATAATTACTTCATCTCTACAATCTTTAAAAGCTTCGCCAACTATCTCTTCGTTTTCAAACGGACCATAAATTTCAGCGGTATCAAAAAAAGTTATACCTCTTTTTTTAGCTTCTCTTAAAAATTTTATCGCTTCTTCTCTTGATGGAAATGGTGGAAATGATAAACTAAAACCCATCACACCAAGACCGATTGCAGAAACTTCTAATTTGTTTCCTAATTTTCTTGTTTTCATACATATACCTCTTTTCAGTCTTATAAAGACAAATTCATTGTAAAACATTAACCTTAGGTTAATGCAAGAGATTTTTTATTTTTTTTTATTTTTTTTTATTTTTAAATTCTAAATCTTGTAATAGAAATGTATCATCGTATGTTAATTCATTCAAAACAAACTCTTCTTGTATTTGCAAACCTAATTTTGCATTATTAATTTTGGTAACAAAACTTTTATGATATTTTTCAGGTAAATAACTTAAAAATAAATCTAAATTATAATCTAATCAATCAAAATTAAACTCATTATTTTTTAAAGACTCTACTAAAATAAAGTTATAATGCATTACTTTGTTTCGAAAATCTTTTAATGTGTGTAAATCCACTAAAACATTATGATCTACAATTTCATTTTTCATCAAACTAAATAAAATTTGTGATCAACCATCTTTATTTTCATTTTTTTTAATTATATTAAACTTTTCAAAAACACTAAAATCATCTATAACATCATTTTTGATATATTTTCCGTTTATTATTATAAAATGATCAAAAATTAAAGCTTTTAAAAAATCTTCTATATTTGCAAAGTAACGATATAAGATATTTTTAATTCTTTTATCATAAATTATTATAGACCTTACTTCTTTGTAATTTATAGCTTCTCTTTGAGTTATAAAACTTAATAAATCAGCAAGATATAAATATGTTTTCATACCTCTGATATCTTTGTAATCATAAAAGTCTTTTAAATCTTCATCATCAATAACTAAGTTCTTTATTTCTTTCATATAATTCACCTTGATAAATGTATTTTACCTTATTATAAATAAAAAATAGAAAGATAATTACCTTTCTATTAGTGGCATAATTGTATTCTTAATTGTCAAATAAGATTCTGCATTCACTAAGTGAACTAATTTAATTATAAACTATAAAACTTGTATTTTCTATAAAAGTTAACTTTTTAGTGTTATTTTTTTATTTTGAACATAATAGTAACCTGCTTTTATTTCCGCAACTTCTTCTTCGAATTCTTTAATTAATGAGCTTATTTTTTCAAGTAAAGCTATAGATAATAAGAAATCTTTATTTTGATCTTTCAAAAAAGATTCTTTAATACAAAATCAGTTTGTAACTTTTTTGCATTTTATTAAAATATTTGGGAAAGTTTTAATCATAGTCTCACAGAAATACTTTTTTTTATTTTCAATAATACTATTAATTTCAATTTCACTTAGACATGCACAATAAAATGATTTATTTAAATTATTGTGTTTATTTATCATATTTTTCCTCCTATAATAAATATCGTTAGAAATAAAACAATATTAACAAATTATTTAATTTATCGATAATATTCAATAAAACTTCATTCAAAACCTTCATAATTATAATAACTCTCTCGATATTCAATTAATTGTTGGTTTATTGTAAATAACATTCCTTTATCTAAAATCAAATTGTTAGATTCTAGTTCTTTTGCTATTTTTAAATTTAAATTTGTTTTTGATACAGATAATATTTTTTTAATAGAAAAACCAATCGGTTGTTTAATGTGAGATCTTAAAAACATCAATAATCCTTGTTCATTTAATAACTCGTTATTAATCTGATCTTTTAAAAGATAATCAGATATATATGAAATTTGCACAATAAATAATTTATTTTTAATATATCTTTTTACAAGTACTTTATGAACAAAATCTTCATAATAAAATTTTGTTTGTTTTCTTAAAACTTCATCTACTTTAAATTTACCCTCATATGTATATTTACTAATAGCTTCAGGATGTAAACTTGAAAAAGAAAATAAAATGTTATTTTCATTTTCAATAACCATATATCCTTTACCATGTCTTGAAATAACTAATTTATCTTCTATTAATTTATAAAAAGCTTTTCTAATTGGTTGAAGTGAAATTTTAAATTTATTTTTTATAAAACTTTCGCTTGGCAAAAAATCATTTGCTTTTACATTATGACTTTTTATTAATTCAAATAAATAATTATATATTTCTTCTCATTTTCTCATAAAAACCACCACTTACTATTTATAAAAATTTATAAAAAAACTATTTATAAAATGCAGCATTTTATAAATAGCATAGAGCTCCCTTACCTTCTACTATTCTTTTTGCAAATTTATTTGCAAATTTAATAGCATTTCCCATATCTTCATAACTAAAGTTAATTGATAATTGACTAATAAGAGCACCAATAAATCCATCACCAGCTCCAGTTGTATCAACTACTTTATTAGATTTTATAACCGAGAAATTATCTCCTTTTCCATCATGGAAAAACTCAACACCATTTTCTCCTTTGGTCATTAAAATAAATTGATTTGAGTAATTCATAAAAAATAATTTTTTATGTTTATTTAAAATCATAAACTCTTCTTCGCTTAGTTTCACAATTTTTGCATATTTTATTACACTAAAAACAACTTTTGCAAATTCATCTTCACTTGTTCATAAATCATCACGATAATTTGGATCGAAAACTACAATCTTATTTGTTTCATACAATTTTTTCATAATATCGATATAATTCGGATAACAATCACTTAACAAACCAAAAGCAGAACCAAAATGAGCTAAATCAATTTTATCAATATTAATATTAATATTATTTCTCATATCATTTTTTATATCAAACTTGAAGTTTCTTTCGCCACTTGGTTCTAAACTAACAACAGCTGTTGATAACTCTGTATTTTTTATTGTTGTTATAAATTCATTGTTTATATTTTGGTCTTTCAAAAAATTTCTTATTACATTAGAATTTTCATCATCTCCAAAATTAGATCCTAAATAAACATTTTTATCTGAGTTATATTTAATAGCAATTGCTGCATTAAGTGGTGCTCCTCCAATTTTAGAAGTTTTTTTATCTCCTTCAATAAAAACATCCATTAATGCTTCACCGATACATATTACATTCATTTGAAGTTCTCCTTTTTTTCAACATTATTTTACCTATAACTATAAAAATATAGGTAAAAATTCTTCATAAAAATTAACAAAATTATTAAAATACATATAATCTGATAATGTTGATGATTGAGCAAACAAGTTTTCATATTTTAAAATTTCAACATAAATATTTATTTCTTTTTGGTCTAACGAATCAATAAATCTAATCGGACTAGATTGTAAAGATAATTTCATATTTGTCAATCCCATATTACTATCTTTTGAAGTATATAAATTAATTAATTCTTCAATTTCTTGTTGCTCTTTACTTACAACATTTAACTCTAAAGATTTAGTATTTTTATTATCCGCTTTATATAAAAAATCTTTTTCGTTAAATACTAAATATAAGTTTATTATTTTGTGGTTAGAATTTGTAAAAGTAATTCTATAAATATCTTTAATAGTTCTAATTTCGTTTCTTGCTTGAAATTGAGCATCTTGAGGTTCGTAAAAATCAATGTTATAACAACCAGTTTCTCTAAGTAATTTGTAGATTGATTTAATCATAAAATTTCTGTCCACAAAATCACCTCTCATTAATTTAATTTTAACATTTTATTACATAGTTTTTAAATATTTAAAAACAAAAAAGCAGATTAACTGCTTTGAGTATTTCAATTTTGATAATAACTTTTTTTAATTATTAAATTACTTGAATAATTGTATAAGAAACTTATTCCTATCATAAAGCCAAGCACCCCTGAGAAAGTTATTACGAAAATCCCATATGCAGGAATTCCCGCTAATCCTTTTGAATGTAAATCCAAGAAGAAATATGGATATATATAATTTTTGATATTTCCATTTTCATCAGAAAATGTATAAATATTGTTATTTGGATCAGTATTTTGCATTGATTGATATCTCAATTCACCTCTAACTAATGCAAAAACGCAATATAAAAAAATTACTAAAAATTGTATTCAGAATTTTTTCAAAAAGAATTGTTTTAAACCAACTTCTTCTTTTCTCGGAATTAAAAACAATACATAAACAACAAATGCTATTGGCATAATTACATGACTATATATTGATGAAAATGCAGCAAAAGCTTCTTTTGGAAAACCAGCAACTGGTATTAAAACTGCATTATAAACAACTAAAGTAACTGTAATTAATGTAGCTAAACTTGTTGCAGTTGTATAATTTGTCGCTTTTGTTAACCCTTCTTTTTTTCATTGTATTGCTGCAATCAAAAACCAAACTTGACAAAAAACATTTGATAATAAAGTAAATGTTGTAAAGTACTCCATTGACATCATTTCAAAATTTCCACTAAATTTCTGCGATAATTCGGTTTGATCTACTAATTTAAAAATATAAAAACCATAAATAACTATCATTGACATTAATGAAAAAAATATTTTATATGCTAATAAAATTTTTTCATAATTTTTCATAATCTCTAAACACCTCATTACTATTATAAATAAATAATTTATTTATTTGCCGTTTTTAAATATTTTTTTATAACTTAAAAATAAATTAAAATATAAAAAATACCTTGTAAAAAGGTATTTTTTATATTCCAAAACTTTTCGCCATATTGATATTATTAATAATTTAAATTTACTATTAGACTTTTAATAAAAGTAACAGATTTTAAATATTGTTTTATAATATATTGAAAAATAAAATTATTATCAAATTAAGCTCTTTTTAAAGAAATCTTAGCTTGACCTTTGTCTTCATCGATTGACATTACATATCCATCAACTGATTGTCCGATTGTTAAATGATTATTTACATTTGAAACATATCCATCAGTGATTTCTGAAATGTGAATTAAACCTTTGTATGTTTTTCCGTCAAGATCAACGTCACAAAAGGCACCAAAGTTAACGATGTTTGTTATAGTTACTTTTACAATTTGTCCCATTTAAAAATTTAAACTCCTTTACCCTATTAACTATATATTAAAAACTTTTACATTAATATAGTTTTTCAAATGTTTTGTAAAAAAGTTTAATATATTTTTAATACAATCCTTACATTAGTTTTGCTTGTTTCATATATTCAAAAATTCTTTTATATTTTGCGGTTTATCTGTTTTATATTCTACAATAATTTTTTCATCTGCTGCAAATTGCAATGTTTCTTATAAATCTTTTCTTGTTCCTGCTAAACTTCAAGTTATATAAATTTCTTTTAATACTGTATTAAAAATTGGTATTTCCATATTTTCTTGAGGCAATCATGCGCAAGCCATAAACCTACCATTTCTCATTGAGTTAAATGCTAGTAAAAATGTTTTTTTCGCAACAGCTGTAACTACAGTCCCTTGTAATACTTCCGCTTTTTTTTAATTATATCTACGTGTTCTTCATTTTTTAAATTTATAGTTAAGATTGCTCCTGAGCTTTTTGCTAAAGCTAGTTTTTTTCATCGAAATCAATCGACACAAATTTTTATCCCATTGCATTTGCGTATTGGATTGACATATGAACTAAACCAACAATTACAAAATTACCAAAATAATCGCCTGGTTTACATCTTGTTTTCTTTAATACTTTATAAGTTGTTACACCAGCACAAAACAATGGTGCTGATTCTTCATAACTCAATCCGTCTTGAATTTTACATATATAATTTGCATTTGCTAAACAATGAGTTGAATAACCACCGTTTTTTGTATATCCTCCATAAGACGCATTTGAACAAATAGTTTCTCATCCTGTTAAAAATCATTCAAATGACCACAAGCTGAAAATAATCATGGTAATCAAATAAGATATCCAACTTTTATATGTTTAATATTTTTACCAACTTCAATAACTTCTCTAATTCCTTCACACCCTGGAATTAAAAGTAAAACTGGTTTAATTGGTCAATCTTCTTTTGCTGCATGTAAATCTGTATAACGAACCCCACTTGCCTTAATTTTAACCAAACGATCATTATCTCCACATTTTGGAGTTTATAATTCTTTAATTTGTAATTTTTCTCCTAATCTTTTACATACTGCTGCTTTTATATCAATTTATTTCATTCATATTTAATTTTATTCCTTTTAAAAAAAGAAATAAAAAAAAAAGCATAAAAAAGTCAATAAACAATGAGCTTTTTACATATTTTAACTATTTATTAAATCTATATGGATATTGTTTTATTAAAAACTCTTTTCAACCTGGATTCGCTTTGTGATCAGGATAAATTTTTCAAAACTCTTTTTGACTTTCTTGATAGGTATCTCCTTTTATTAAATTATTTCTAACCATATACATAAAAACAATTGAAGGACTTCTATTTATTCCTCAAACACAATGAACATAAATAACTCTATTTTTAATATTTTTTTCAATAGTTTCAATCGCTTCATTCACTAAATTTACATCAATATTTTTATAAATTGGAAAATCTTCAAAATTGTAATATAAAACATTGTTTTTGTCATCTCAATAAATTTCATTATTATCACTTTTTGAGTTATTTAAAAAAATCTCTTCAGCACAACTTATACGAAGTTGAGTTTCTTTTGGTGCGCTATTTTTATCGCCAAGAAATAAATTATTTATTATTTTTCTCATAGTTTTTTTTCCTTTTATCAGACTTATTATCTAATAAAATAAGAGAAAAACAAAATAAATCAATAAAAACATTATATAAGTGTTAATATCAAAGTGTAAATGTCAATAAAAACAAATGATTATTTAAATTACTAATAATTATTACATTAATTTATATTTACACAAAAATTAACTAAGGAAAGCGAGGTTTCTAATATGGAACTTGATTTTATTTGTCCAAAATGTGGACAAAAAATAACAGAAAAAGACTTTGATAATAGCGAACAAAGTCTAAAAAATTTAAATGATTTTTTAGAATCAAAAAAACAAGAATATATCAAAGAATTAGAAAAAAAATTAATAACACAATTAGATGCTCAAAAAAAAGCAGAAATTACTTCAGCACTAGCTAAACAAAATGAAGAATTTATATTGGAAAAAAATAAATTAAAACTTGAAATAAATACTTTATCAATTAATAATGAAAAAATGATTGAAAAAGCAAAAAATGAAAAAGATATTGAGATTACAAAATTAAAAGAACAAATCAACAACTTTGATCAAAAATTAGTAAGTGATATTGAAAAAGCAAAGGCTTTACAAATTCAAGCAATGCAAAAAGAAAAAGATGAATTAAACTTAGCTATTTCAACCAATAAAGATTTAATTTCTAAATTAGAAGCAAATATTAAAGTTTTAGAAGCATCTAAAAAAGAAGAAATTTTAATAGAGAAAGATAAATTAAGAAATGAATATGATTTACAAATTAAAGAATTAAATAACCAAATAATGGAATTAAAAGAAGCAAATATTCAATATAAAGTTATTCAAAATAAAACTAAAGGAGAAAACTTTGAACATGATGTTGAAGCTGAGTTAAGAAAAGTATTTCCAGATGATGTTATCAAAAAAATTACCAGTCAAAGTCAAAAAGCAGACTACTTGCAATTAGTTAAAGAAAATAATGTAGAAGTTGGAAAAATTGTATATGAAGTAAAAAATGCAACATGAAGTAAAACTTGAGAAAAAAAACTTATAGAAGACACTGCAAAAGAAGGTGCAAAATATGGAATATTAATTGCAACAAGTTTTAACGATCAATATCGCGGTATTCCTTTTAAAGTGTCAGATGAAAATCAAAACATCTTTTTAACAGATGCAGATAGCTTTGCTTTTGTAGGTCACATTATAAGGACATTAATAAAAACAGAAGCAAGATTGTTAGAAAAATATTCAAGAGATGATAAAAATGAAAAAGTTGAGTCATTTAATAAATGAAGAGACACATCATTTGTAACTGTATCAAAAGTTTTTGAAGATCAATTCAAAAGAATTGAAGATTCTGAAAATGCAATTACAAATAAACTAAACGAAATTAGAATTGCAAGAGAAAAAATCTTTGGTCAATGAAAAGCTGTTATAAAAAATTTTATAGAGGGATTAAATTTATAAAAAATAAAAAGTTCATTTTAAATGAACTTTTTATTTTTGTTTTTTATATACTGCATTTAAAACTATCCCTAATGGTAATCAATCAACTAATTTTTTGTTTAATTTATTAGTAAATCCAGTTAGTAAGAAGTTTTTTCGATTTGTTTTCAAAGCTTTTTTAAGTGTTTTTTTAACATATTTTGTTACATTCATTCCATGAATAGCTTTTTTATTGTTTTGTTTATATTCACTTCTTAATCAAAAATCAGTCTTAATTGGTCCTGGACAAATTGTAACTACTCTAACTTTTGATTTAGTTTTTTTAAGTTCTGTATTTATAGCAATTCCTAAACTTAAAACATAAGATTTAGATGCAAAATAACTTGAAAATAAAGGTCCTGGTTGGAAAGCAGCAACACTTGCTACATTTATAATTCTCCCATTATTATTTTCTATAAACTTTTTTGTAAAAAATTTAGTCATGTAATGTAATGTTTTAATATTTAAATCTATCATATTCATTTCTTTTTCAACATCAGTTTCAACAAATTTTCCTCAAACTCCATAACCAGCATTATTAACGACTAAATTTATATCTAAATATGATATTCTTGCTAATAAACTTTTTAAATTATTTAAATCTCTTAAATCTGTTTCTATTTTTTCAATTTTATTATTTGGATAAAATTGCTCTAACTCAACTAATTTATCACAATTTCTTGCCACTCCAACTATGTTATAACCTCTATTTAATAAGTATTTACAAATCTCTAGCCCAATTCCTTTACTTGCTCCAGTTACTAAAACATATTTATTTTTAACATCAAATATTTTCATTTTATACCTTCTAACTTATAAAATATTATATATATTATTTTTTAAAAAAAACTTTTAATAGTTTATTTACTTTACTTCAAAAATATTAGAAAATGTCAAAAAGGAAAAAAGGAATATGAAAAATATAAAAGTAGTTGTTAGTGATTTGGATGGAACATTATTATTTAATGGTGAGTATTCAAGTGAAAAGCAAAATCAGTATTTAAGAAATTTACAAAAAAATGGAATAATGCTAATTATTTCAACTGGTAGAAGTTGAAAAGAAGCTATAAAAATTGCAAAAGATTTAGAAATAGATAAATATTTGAATTATATAGTTTGTGAAAATGGAAGTTATGTTTCAAAAGTAACTGAATTTAAACCAGAAATGGTTGAAGTAATGAACCCAGAAGTTGTAAAAGATGTTTATCTAACATTAACAGATCATAAATTTAGTATTTATTTAAAAAAATATACAGAACAATATGTTTATTATACAAATGAATTTGGAATGGAAAGGAAATTTTATAAAAGAACAAATAAATTGATCGACATTAATAAACATAAAGATTTTGAAAATATAAGTTATGTATTTTCTCAATTTCCTTTTGAAAATGAAGCAAATAGTATTTTTAAAAAATTTGATAATAAATACAAAGATGATTTAACTCTTATTTGAGATGCGAATGATAACAAAACTAGAATGCATTATTTAATATCTTCAAAAAATTCAAATAAAGGATCTAAAACATTAGAATTACTTGATAAGTTAGGATATAAAAATGAAGAAACCATTTTTTTTGGAGATAGTGGAAATGATATTCCTGCTTTAGAAAAATTCAAGTTTAGTGTTGTTATGGGAAACGCCACTGAACAAGTTAAAAAAGCAGCTAAATATAAAACAAATCATTGTTTAGAAGATGGAGTTATGAATTTTTTAAAAAGCTGAAACATATAAAAAATCTAGCAATGCTAGATTTTTTATATGTTAATTAATATCATATTTTGTAAACTTTTTTAATTCATTAATTTCAGGTTCTTCTCTTTCAAGATTTCTTTGTAAACTATTTTTTTTGCAAAATTCTTCTATTTCTAATAATTTTTTATTTAAATTATCTTGTAAACTAGATTCAGAATTTTTGTTTTCTAAATCATATTTTAAATTTCTTATTTCATTTTCTAGTTTAAACAATTCCATATAAACTTTATGCTTTTTAAGTTGATCTTCATTTGAAAAAATTTTTTTATCAATTTTTGTATCTCCTGGATAATAATCAATATCAACATGAGTACAACCAATATGATGATATCCATTAGAAATCGCTTCTGACATAGTCAAATATTTTTTATCTAAAACTTCAAGCGATAGAACTTCATTTTCATATTTTTGACAAAGTTCGCAGCTATTTTCTTTAGGAAGAACATAAACTAATTTTTTCATTCTTAAAGCTTCACTTTTACCAATACTGTTATAAATTCCCATAAAACTTAAAATAGCAGGTTCTTCTTCTGGTTTACTATCTTTAATAACATTTTTAGGTTTGTTTACTAAATCTGATTTTTCTTTTTTTAATTTTTTTAATTTTTGTCAAGGAAAAAACATCGCTATAAATAAAACAATTACTAAAATTATTACAATAACCACTCAACTTACATTTGTTCCAAATCAATTCATATTTATTTATTATTATCATTTAAATGATGATAATACTCCCTTGCTTCTTTTAAATTTATAGTTTGACCTTTTTTACAACTTGTACAAACTGCAGGTTCTTTTTTTGCTTTTGAAAAGTCTAAAGGTTTATCAAAAACAAATTTTTTATAATCTCAACAAGTTTTACAAAATGTAAAAATTCAATCAGTATCTTTTTCAAAGTTAAATGCCATACTTTCTCTCCTATTAAAAAATAAAATGGTTATCCATTTTATTTTAAAATATTTTTAGTTTTATTTTACTAATTTTTGTAATTCTCTTGCAACATGTTCTACATCTGGACCAATTACTATTTGAACACTTTCTGTTCCTAATAATTTAGTTCCAAATGCCCCTGATGCTTTAACTTGTTTTTGATCAATTGTAGCATTGTTTTTTACTTGTAAACGTAATCTTGTTGCACAGTTATCAATTTGTACTAAGTTATCTTTTCCAATTGCTTCTAAGATTTTTTCTGCCATTTGAGCATATTTATCTTTTCCTTTTGAAATTTTAGCACTATCTTTATTTGCAACTGATGATGCAACTGCATTTTCATCTTCGACTTCTCTACCTGGAGTAAGAACATTCATTTTTGTTATTACAAAGTAGAATACAAAGTAATAAGTCGCTCCTGCTCCTATCGCTAAGACCATAGTCATTAACGGGTTACTTAAGAAGTTTCAAATTCCACCATTTTGTGCTGCATTGTGTTTTGCAAATCCTCATGATTGTGCAAATGAAATTGCATAATCTATAAATCCTGCACTAAATCCAAATCCTAATTGAATTCTTAAAGCTGTTGAAATTCCTACAAATATTGCAGTCAATACTGAGTGAATTCCTAATAGAAGTGGTGAAATAAATACAAATGAGAACTCTAAAGGTTCTGTTATCCCTGAAAGGAATGAAACTCCAGCAACTCCTCCTAAGAATCCTGCTACTTCTTTTCTTTTTTCTTTTTTAGCTGCCATTATCATAGCAACAGCTGCTAATGGTAATCCTCCCATCATAATTGGGAAAAATCCTGATTGGAATAATCCAGCATTAGAAACTCCATCTGTAAATGCTTTTATATCCCCGTTAACTATTTGGTTAGATCCAATTACTTCACCTGTTAAAGGAGCAATTTTATCTCCTAATATTGGCATTTGAAATCAAAAAAATGTATTTAAAATTTGGTGTAATCCAAATGGTAATAACAATCTATTTAATAAACCATATACCATTGTTCCTGGAATTGCTGCAGCCGGATTATCTGGAGTAATTATTTTTCCAAATGAAATTAATCCAAACTGCATTCATGGTCAAACAAGTGCAAATGCAATAGCTAATGGAATTGATGACGCAAGCGCTACCATCGGTACAAATCTTCTTCCTCCAAAGAATGAAAGTGCTACTGGAAGTTTGATTTCAGATAATCTATTATACAATCATGCTGATAAACAACCTGAGACTATACCGCCTAAAACACCTATATTTAAAACATACGTTCCTCCAACAATGGTTTCTCCATCTTTTCCGATATTTGGAACATATATTAATTTTGAAAATTTAGATATAACATCTTGACCAGCATCATTTGTGCTATGAGCCTCAAAAGGTAATACTTTTGAATAAAATGCATTAGGAAGGGTTCCCTCTGCTGTTAATGAACTTATTGCTAAGTACATAACTGCGCTTACTAAAGTTACCTCACCTCTATGATCTTTTGATAAACCGAATGCTGTTCCTAATGCAAAAAATAAAGGTAAGTTAGCAAATGGTACATCCCCAGGTTTTTGAATAACTAATGAAATTCAATAACCAACAGAATCTTTTTCTGCTAATGACATACCCAAAGCACCAAAACGATTTAAAATTGCAGCAAATGGCAATATTGCTATAGGAAATTGTAACGCTTTACCTAATTCTTGAAGTCTTGATAAAAATGTACTTCAGCCCGAAGGTTTAGTGCCGATACTTTTTTCTTTTTTAGCAAGTTTTTTTTCGCCTTTGCTTAATGTTACGTTAGCTTCTGACATATTTTTTTCTCTTTCTATGATATAAATCTTTAATATTATATCTACTTTTTCACAAAATACTCTATAAAAAATAAAAAAAATAAAAAAAATTCCAATTAAAATTAGAATTTTATTTTACCAACCCTTCAATAGATATTGTTAATAATATTAATGATCCAACATACCCTACTAATGCAACTATTATAATAGCGTAATATTGTCAAAATCTAAATATTTTATATATTCCTGTCACAACAGCAAAATTATCTTTCGCTTCTTTTTTAATTCTTTTGAATTTTATAAAAAATATTGTTGCTAATACTCCAATTATTAACAAACCAATTCCAATTCCAAATAACATTCACAAAGTATTTGTTGATAAACTTTTTTTGGCTGTTTCTGTTAAAAAAACCATATTACTCCTTTAATACATTATTATATTAATCTAAAAAATAATAATAAGCAATTATAAAAAATATAAATATATAATAAAAAAATAGCGCACATAAACATCTAAAATAAAATTGACAGTAAAAAAGTACTTTTATTGTTAAAATTTTATTAAGAGGTCTTCTTTTTATATGGCAAAATAATAATCAAAAAACAAAAAGATAAAGATTATTGAAGAAACTAAAAAAATTGGAATAACATATGCTGCATTAAAATATAATGTTAGCACAAGTACAGTCAAAAGATTAAAAGTAGAAATTAAAACTAAAGATGAAGGCTTTCCTGAATGAGGGAACAAAATCAAAGCAAAAGAAATATTAAAAAATTTAAATTTCTTGATTGATTTTTAAAAACCCTGATTATATGACAACAGAAGAATTAAGAGAGGCTTTAAAATTTGATTGAGCTTTAAAAAACATTTGGCGAATACAAATAAGGAAAAGTACTACGCCATTTTTAAAAATAAAAAAAGTTTACTTTATAATTAGTTGTAAATATTTAGGTGTTTCAAGATTTGGTTATTTAAAATGTCTAAAAAATGGAAAACCAATGAATAAAAATTTTAATAGATTTCTTACTGTCAAATTATATTTATTTTTGTTTATTTAAAAAACACTTTAAATATTAAATAATAATTTTACTTTTTAAAAAAATAATTAAAATTTTAAACTATGAGTTGCTTATAGATATAAAAAATATTAATTTAAAAGCATTCAAAAATGACAAAATATTATAAACCAAAGCATTTTAGCTATGAAATTTTTTTAAATCTAAATTTTTATGTAAATGGTCCACATTTAAAAAAAGTACAAATGTAATTTACATAAAACAATATAAAGAAATGCTTATTTATATATTCTAAAAAATTATATAATTTATAAATAGTTTATTAAAAAATGATCTAAAATTCCTGATGGAAAAATGTGTTATACATATATTAGTTATGTAATTAAAAAGAGATGAGTACTAATATTATTCTTTTTAATCAAGGTAGTTCCTATAACAACGAAATAATAAAACTTATTTTAATAAAAAAGATAAGTTTTATTAATGTCGAGAGTAATTAACTCTTGTGATAATTGAGCATGCAATTCTTTTTTTAAAACAATACAAAATGAATATATTTATACTTATAAAATAAAAGAGTTAAATTATTCAATATTTAAACAATAATTTTAGATTATATTAATTTTTATAATTATGTTAAACATAGATTAAAGCATAAAAAAACTCCATACGAAATTCGTATGGAGAAAGTACCATTTAAAGCCAATTTGTTTGATAAATTAACTAAATACTATCTTTTAAATTTAATATAATTAAGTTTCATACCAACCAAAGCAGCAACTTTATTTGCTGAAAAAAATGATGCAGTTGGTCTATCTGTATGAACAGTTGCTCTGAACTCAAAACTATATTCATCTTTTGTAGGAATAGCTCATCATGATGTACTACCTTTTATAAAACTTGAACTCATATAAAAGTTAAATAGTACAACATCTTTGTCGCCATCATCAATAAATGTTTTATCAATTTCGTCCACTAATTTTAAATTACTATAATTTTTTATATCTAGAGTGATCGATTTATCTTCTCTTTTTTCTTCTTTTATATTATTTTCTCACTTACCTGTATACTCACTAGTATATTTGTAATAAATTGAGTAACTTATTTCCATGCTTTTATAAGTATTCATAAATTCATCATAAGACATATCAAATTTTCCATTACTTACTGATATTTTAACTTCTTTATTATCTGCATTTCTGTTTGAATAAGAAAGTTCACTTCAACCTGTGTCAATATCATAATTTACAACTTTTGGAGATAAGTAATTTACTTTTGCTTCTCCATAGAACCATCTTCTTGTTATGTCATCATTTGCATAAATTATTGCACTATTTTCTGTAATATCTTTAACGCCAAATCCTTTAAAATCATTCATATCTAAACCATATTCGCTGTTTTTATTAAAAAATGCTTCTTTAATAGTATTTGATTCTAAATCGTTTAAATAATCAAGATTTTTAGTTGTACTGTTCAAATCTTGTTGTTTTACAACATCAAAAACTAATTCTTTAAAAGTTCCATTTACAGATTTTACAGTTAATTTGAAGTTTCTACAAAATGCATTGTTTGATAATGAGTCAATAATAATTTTATGACTATATTGATCGTATTTGGCACTAACAATACCATTTTTACTATATGAGAAACTTAATGGATAATTATCTGAATGTAATAATGAGTATCAATTTTTAACATCAATTGATTGAGAACTTCCAACACTCATATTACTTACATTTCCTAAGTCAAAATCGACTCTTGGTACATTAATATTATAAGTAACTGTTTTTTGAGTCCCATTTTGAGAACTTATAATTAATTTTTTATTTTGCGTTTTTAAACCTTTAGCTTTTATAACTATTTCATTTAAATTTCTATCATAACTCACATTAATTTCATCGGTATTATAACCACTGTACTTTAGCGGTAAATTTTTATCTGAATATGAATACAATTTATCTTTATTTAAAATTTTTATTCTTGCTTCTTTATAAACATCTAAACTTACATTATTGGTATCTAATTCAAAATCGACTCTTTGAACAGTTACATTGTAGTTAATATATTCTGTATGATTATCAGATTCAACTATTATTTGACCTGATGCTTCTTGTTTTTTTGTTTTAATTACAATTTCAAAGTTTTTACTATCATAACTTACATCCAAAACATTTTTGTTGTATTTCAACCCTTGAGAGGTTGGGAAGTTTTTTGCAGCACCATAAAGATCATTATGATTAGTTATTTTGATTCTTTTTTCTTGTTCCACTCCTAGCGAAACACTATTTGTTTCTAATTTAAATGGAACATTTGGAATAGAGACTGAATAATTGATGGTTTTACTAAATCCAGACTGAGATCTAACAATAAAACTTCCATTGTTAACTTCTTTATTTTTAGCTTTTATAACTATTTCATTACTTGATGAATCATATGATAATTTTAAAACCGAATTATCATAATCAAATATTTTTGGTAAGTTTTTCTCTACTCTATAAATTTGATCTAAATTTATAACTTTTAATCTTGTTTCTTTGTAGTAATCTATTGATATTAATTTTTCTTCAAGTTTGAATTCAACGTTTGGAATAGAGACTGAATAATTAATTTCATCAATATGTCCTGAAACCGATTGTACAGTTATTTTACCATTGATCACTTCTTTTTCTTTTGCTGTAATAACTATTTCATTAGTTTTATTATCATATATAACGTCTATTGCGTTATTATCATATCCTAAGAATTGATTTGGTTTATTTTTATCTGCATTATAGATCTCATCTAAATTTGTAACCTTAATTCTTTTTGTTTCTTTATATTCCATTGTTATATTTTTATTATCTAATTTAAAACCAATATCTGGAATTCTTACTGTAAAACTAACAACTTCTTTATGCCCCATTTTTGAGCTAACCTCAAGCGTTTGGTTAGTTGCTTCTGTTGTTTTTGCTGTGATTTCAATTGATTTAGCAATACTATTAAATCTTACATCAATAAATTTATTATTATACTTGAATAATGTTGGATAATTTATATCCAAACCGTACAATTCGTCATAATTTTTTACTTTAATAGTTTTTGTTTGTTTATAGTCAAGAGTTATTTCATTACTTTCTAAACTAAAATCTTTAGCTACACCTTTTACATTTACAGTGATTTCTTGTACTTCTTGAACATTTTTTGATTTGATTTTAATGATTACTTTTTCTACTGGTTTATTATTAGTTCTAATTTTTATAGATTGAGATGCTTTATCTAATTCTGCACTTAAAGCATTTGTGTCAGATATAGATTGTACATTAGGCATGTTATCTTCTACATATAATTCATTAAAGTTAGTTATTTTTATAAATCCTTCAGAATTAACATTAATATCAATAACATTTGTATTTAGTTTAGCTTTTCTAGGCGGACATATTAAAGTTACTTTAATTTTATGAATAAAGTCATTTGAATACACTAAAACTTCAATAACTTTATCAATGTAATTATTATTTGCTAAAATGCTAATATATCTTTTATTTTTATCTATATTTGCAGATAAATATGTTTCATCACTAACTTCTACTTTTTTAACATAGTTACTTTCATCAATTAAATCATCAAAATTAATAATCCCAATATCTGTTTTACTTCCGTTTTGAGCTAGAATATTAATTTTTTCCGTTTCTAATTGAAAGTCAACTTTTTGAGCGTTTAAAGTAATTTTTATAGTTTTTTTATTATTTAGTCTAGGTATATTTGAATTAACTGTAATTTCCAAACAATTAAATTTTGGAGGGATTTTTTTATCTTTTGCAGTTACAACAATTGAGTCTATGTTTTTTTTGAATGAAACTATGAAGTAGTCTTTATTATATTCAAAATTATTTGGATAATCTTCATTTCTTCATTCTGATGAAAAATTAGTAACTTTAAAAGTTCTTTGTTCTCCAACCCTCATAGTTTCTTCGTATTTATCAAGGTTGAAATTATAGTTTTTATATTGATCAATTGAGAAATAAATATAAACTTTTCCTTTATATTTTAATGAATCATCCTTCGCATTAATGATAGCAGAACCATTTGTTTGTTTTTCTTCATCTGGCATTTTAAAATCTTTGATTTCCACTTCATTTTTAAGTTCAGGATATTTTTTTAATACAGTATCTAATAAAATATTTTCATCAACATTTTTAAAATTGTAATAACTTGTTTCTTTTATTATTTCAAATAAATTTGTTCTTTTGTCTTGAGGAATTGTTGGTTCTTTTTCCTTTTCGGGTACAAATTCAGGGATAGAATTTGCAGTACCTTCGCTACCATTTTTTGAAGATTGTTCATCAGAATTTGCATTATTATCATTTTTACTTCCGTTTGTATCTAATTCAGAATTTGAATTATTATTACTACTACTAGTTTTAAAACTTGCAGCAGAAACATTACTCAAAGTACTAGACCCAATTGTAAAAGTAGCTAATATTGTTAACAAATGTTTCATACAAATCCCCCTTACTTATCTAGAAATCTATTAGTTTCTAATTTAAACTTTTCAATTCAATAATATATTAATGAATTGTTTTAAAATAGACAAATTACTATTTATGACAAGTTGAATTATAAATTGATAAAATATAGTGTAATTAACAAAAAAAATTATTTAAAACTTAAAAATATTTTTACAATCAGTTAATTTTTGAGCGAAAAAAAATAAGCCTTAAACTGCTATTAAAGGCTTATAGTTATTGAATTATTAAATTTTAACCTAATGAGTTGAAAAAAATATATAAATCATTAATGTTTTCGTCAGTAAAACTATTGCTTTTTTTCATACTTTTTATTAAAAATTTTCTATTAGATAAAGTATTTAAAATTACATTTTGATTTGCAAAGTTAGTTTTTGCTTTCAATAAATCATAAGTGAAAATTGCTTGAACTCCTAAAACATTACTTTTATTAGTTTTTAATACTTCACACACATTTAAAACACTCTGTCCTGTAGATATTAAATCTTCAATTACTACTATTTTTTGATTTTCTTTAATAATTCCTTCAACTTGTGAGTTTTTACCATGATCTTTTGACTTTGTTCTTACATATATCATTGGTAAACCCATTTTTTGACTAATCATTGCTGCAAATCCAATTCCTGAAGTCGCAACTCCAGCTATTAATTCTACATTTGGATAGTTTTTTTTGATACTATCTATAAAACTATCAATTATTATATCTCTTTGCTTTACAAAACTTAATAATACTCTGTTATCACAATAAATCGGACTAATAATTCCACTTGCTCAAGTGAATTTATTTTCAAAGTTTAATGAAATTGCATTAGTATCTATTAAAATGTCGGTAATTAATTGTTTATCCATTTTGTCACTCCTTTTTTATATTTAAATATGTTTGATATGGATCTTTAGATTTAGTAATTTCTCTACCTACAACAATATAATTTGAACCACTAGCTTTTGCTTGCAATACAGTTGCTACTCTTTTTTGATCTTGATTATTAAATTCATTTCTAATACCTGGAGTTAAGCAAATAAAGTCTTTACATATGTATTTTTTTATATTTTCAACTTCATATACAGAACATACTACTCCATCAATACAATTGACATTTGCAAGTTTTGCAAGATTTAATGCAGTTTCTTGAGTATTTGTACTAATATTTAACTCATTTTTTAAAGCATTATCATCTAATGAAGTTAAACAAGTAATTGCAAGAATTTTTGTATCACTATTTAATTCTTTTTTTGCTTGATAAGTAACTTCTAGCATTTTTGCTCCTCCAAATGCATGAACAGTGACTATTTTTGGTTTTAATAATAAAACGTTTTTTATAGCTTTATAAACAGTATTTGGAATATCATGTAATTTTAAATCAATGAAAATATCATGATTTTTTTTAATCATTTTTTTTATAATTCTCGGACCATATTTATAAAATAGTTCCATTCCAATTTTTAAAAAAAGTCTTTCTTTTTTCATTTTTTTTAAAAATTCTTTTACTTCTTTATAGTCAGAAAAATCTAAAGCAATAATTGGTGTTGTATTCATATATATTCTTCTTTCTATATTGTATTTAATGAGAAATTTCGATATTCTAAAACTTCTAAAATTGCTTCAACTGTATCAAATGATGTAAATAAAGGAATTTGTGCTTCAATTGCAGTTCTTCTTATAATTAAATCATCTTGACTATATAATTTTGACTGATCTTTATTTTTTGTATTTATAACAATATTGACTTCTTTTGATTTTAATAATTTTAAAATATTATTGTCAGCATTATTTTCTTCAATTTTTGACACTTCACTAACAGCTAAATTATTTTCTCTAAATTTTTTAGCAGTTCCTTTTGTAGCATATATTTGAAATCCTAAGTTTTTAAATCTTTTTGCTAGCAATAAAGCATTTTCTTTGTCATCCCCAATAGTGAATAATATATTCCCGTGTTGAGATATTGATATACCTGTTGCTTCAATTGCTTTATATAGTGCTTTAAAGTAATTTCTATCTCATCCCATAACTTCTCCAGTTGATTTCATTTCTGGTCCTAAATCTACATCTACTTCTTTTAGTTTTAAGAATGAAAATACTGGAGCTTTTATATAGATATTTTTTTCTTCATTTTTGTTATTAATTTTATCTTGTAAATCTTTAAGTTTTTTATCAAACATTACACTAGTTGCTAAATTTACTAAATTTACATTTGTAATTTTGCTCATAAATGGAACAGTTCGACTTGATCTAGGATTAACTTCAATTACAAATAAGTCATTATCTTTTACAATAAATTGAATATTTATAATTCCAACAACTTTTAATGCTAATGCTATTTTTGTAGAAGTTTCAATAATTTGCTTTTTCATTTGCTCAGATAAGTTTTGGGGAGGATATACCGCCATTGAATCGCCTGAGTGAACCCCTGCTTTTTCAATATGTTCCATAATCCCTGGAATAAATACATCACTTCCATCACTTACTAAATCAATTTCATATTCTTTTCCTTGAATATATTTATCAATCAACAAACCATTGTTATTACTTTCATTAATTGCATTATCAATATATGAATCAAATTCTTTTTGGTTATTTACAATATGCATTGCTTGACCACCTAAAACATAACTTGGTCTTAACAAAATTGGATATCCAATTTCTTGTGCTACTTTTAATGCTTCATCTTTGTCTGAAACTGTTTTTCCTAAAGGTTGTAATATATTCAAACTTTTTAATAGTTTTTCAAATTTTTCTCTACTTTCTGCAGCGTCTAAACTTTCTAATGATGTTCCTAAAATTTTTACACCATTATTTTCAAGTTTTTGAGCAAGATTAATTGCAGTTTGACCTCCAAATTGTAGAATCACACCATATGGTTTTTCATAGTTAATAACATTCATAATATCTTCAACTGTTAAAGGTTCAAAAAATAATTTATTTGATATTGAAAAGTCAGTAGAAACAGTTTCTGGATTTGAATTTATAACAATTGCTTTATAACCACATTGTTGAATTGCTTTAATACATTGAACTGTTGCATAATCAAATTCTATTCCTTGACCAATTCTAATTGGACCCGATCCCAATACAACTATTGATTTTTCTTTAAAAGGTATACTTTCATTTTCTGTTTCATAACTACTATAAAAATAAGGTGTAGTTGACTCAAATTCTCCAGAGCATGTATCAATCATTTTAAATACAGGAATAATATTATTTTTAATTCTAAAATCATATATATCTTTTTCTTTTTTGTTTCACAATTTTGCAATTATATAATCAGAAAATCCTTTTTTCTTTGCATCTTTTAAAACATCTAAATCATCTTTATGTTTTTTTAGTTCATTTTCTAAATTTACTATATTTTGTAATTTTTCTAAAAAGAAAACATCAATTTTTGTAGCTTCATGTATTAAATTTATTTCTAAGTTTCTTTTTAAAAGCTCTGAAATTATAAATAAACGATTATGATTTGGAATTGCTATCATTTCTAAAAGTTTTGTAGTTTCAGTATTTTCAAACTCTATTGATTCAATATGATATTTTTTATTTTCTAAAGATCTAACAGCTTTTAATAACGCTTCTTCTATATTTCTACCAATAGCCATAACTTCACCAGTTGATTTCATCTGTGAAGTTAATCTGAAATCTGCATTTAAAAATTTATCAAATGGTCATCTTGGAATTTTTGCAACTACATAATCTAAAGTTGGTTCAAAAAATGCATAAGTAGATTTTGTTACTGGATTTATAATTTCATCAAGTGTTAATCCAACAGCGATTTTTGCAGAAATTTTTGCAATTGGATATCCAGTTGCTTTACTTGCTAAAGCAGAAGATCTACTAACTCTTGGATTTACTTCTATTACATAATATTGAAATGAGTTTGGATCGAGAGCAAATTGTATATTACATCCACCTTCAATTTTTAATGCTTTAATTATTTTCAAAGATGAGTCTCTTAACATTTGATTGTCTTGGTCGCTTAATGTTTGAGTTGGTGCAAAAACTATTGAATCACCAGTATGCACTCCAACTGGATCAAAATTTTCCATATTACATACAATTATTGTATTGTTGTTTTTATCTCTTACAACTTCATATTCTATTTCTTTAAAACCTAGTAAACTTTTTTCTAATAAAACACTTTTCACAGGTGATTCTTGGATTCCTTGAGTTACTATTTTTATCAACTCTTCTTGGTTGGAACAGATTCCCCCTCCACCCCCTCCAAGTGTAAATGATGGTCTAATTATTAAAGGATAGCCAATTTCATCTGCAACTTTAAGTGCTTCATTAATTGAAGAAACGACTTCACTTGGTGCAATTGGTTCATTTAAATCATCCATTAAATTTTTAAACAATTGGCGATCTTCTGCTTTTTTGATAGCTTCAAGTTTTGTTCCCAATACTTCAATATTTAATTTATTTAAAATTCCAGTTTTTTCAATATCAACAATTAAATTTAATGCAGTTTGTCCTCCAAGTGTTGGTAAAATTGCATCAGGATTTTCTTTAATAATTATTTTTTCTACAAACTCAACTGTCAAAGGTTCAATATAAATTTTATCAGCAATTTCTTTTTCAGTCATTATTGTAGCAGGATTAGAATTTATCAAAACAACTTCATAACCTTCTTCTCTTAAAGAAATGCAGGCTTGACTACCTGAATAATCAAATTCTGCTGCTTGACCTATAACAATTGGTCCTGATCCAATAACTAATATTTTTTTAATATCTGTTCTTTTTGCCATAATTATTTAACTTTACCTTTCTCAATCATGCTGATAAATTTATCAAATAAATAAAATGAATCACTAGTTCCTGGACATGAGTCAGGATGGAATTGTACTGAAAATGCATTTAAATTATTATAAGATATTCCTTCCACTTCATTATCATTTAAACTTCTATGAGTTATAGTTGCTTTTTTAAAATCAATTGTATTTTCATCAACAACATATCCATGGTTTTGCGAAGTTATACATGAACGATTATTTTCTAAGTCTTTTACAGGATGATTTATACCACGATGTCCAAATTTCATTTTCTTAGTTTTAAAATCATTTGCTAATGCTAATAGTTGATGTCCTAAACAAATTCCAAAGATAGGAACTTTTCCTATTATATTTTTTATAACTTCAATTTGTTCTGTTAAAACTATTGGATCTCCAGGACCATTACTTAAAAGTATTCCATCCACATTCATTTCTAAAATTTCTTTTGTAGATATATTGTATGGGGCAACAATGACATTACAATTTCTTTTTATTAATTCTTTTGTTATAGAAATTTTTAATCCATAATCAATTAGTAAAATATTTCACTTACCTCCATAAATATAATATTTATTTTTTGTTGAAACTTGTTCAACACTATTTGAAGGTATATTATAATTTTTAAGTTCTTTTTTTACTTTTTCAATATTTTTTGCATCACAAACTATTGCAGCTTTCATTACACCATGTTGTCTGATTTTTTTTGTAAGCATTCTTGTATCTACATCACAAATTCCAGAAATATTTTTTTGTTTTAAAAATTCATCTAACGAAATTTTATTTCTAAAGTTTGACCCGTTAATTGCAAATTCTTTTACAACAACACCATTACATGAAGGAGTTAAAGATTCATTGTCTTCTAAATTAATTCCATAATTTCCAATTAAAGGATATGTAAAAGTTATAATTTGATTATTAAAACTTTGATCAGTGATTGACTCTTGATATCCTGTCATTGCTGTTGAAAAAACTAATTCAGCAATTACATCTTTATTTGCTCCTAATGCCTTACCTTCTATTATTGTGTCATCTGATAAAACTAATCATCTTTTCATTTTATTTCTCCTTCAAATATTGTCAATTTATTTTTTCCAAATAATTTTTTATTTAAAAATGGGGTATTTTTTGATTTTGATTTTATAAAATTTTCATTAATTTCAAATTCTTCTTCTAAATCTCAAACTACTAAGTTTGCATTTTCTTTTTCTGCAATTATATTTTGTTTTAAATTGAATATTTTATTTGGATTACTATGCATTTTTTTTATTAACTCTGATAAAGATAATAAATTTTTTTTAACTAACTCTGTATATAGAATACTAAAACTAAAATCTAATCCTATCATTCCGAAGTTAGCCTTATCAAATTCTACATTTTTTTCATCTCAGTGATGGGGTGCATGATCTGTTGCTATACAATCAATGGTTCCATCTTGTAAACCTTTTATCAATGCAAGTCTATCTTCTTCTTTTCTAATTGGTGGATTAATTCTAAACAAACCACTATTTTTATTAAACATTTCAGATTGAAGAATTAAATGATTTGGTGTTACTTCACAAGTTATATTTAAACTTTTTTTATGTTCTCTAATTAAATCTATAGATTTTTTTGTAGTAAGATGTCCAACATGATAATTACAATTTATATCTTTTAATAATTCTATATCTCTTTTTAATTGTTCTACTTCTGAGTCTTGACTAAAAGTATTTAAATTATATTTTTTTGCTAAGCTACAATCATCAATGTATCCATCTTTTTTTATACTTTCAGTTTCTAGATGAATAGAAATTATAGAGTTTGTTTTTTTAATTTGTTTTAAAATTTTTTTCATAACTTCTTTTTTTTGAATTCCAAAACCATCATTTGAAAAATATTTTGCTCCAGCTTTTGATAAACTTTCAAAATCAACTAACTCATCACTATTTAGTTTTTTTGTTGCAGCACACATTTGAAAAATATTTAAAAAAGATTTTTCTTTAATCATTTTTTTTATTTTTAAATAATCTTCAACATTATCTGGAACTGGATTCAAATTTGCCATTGCACAAAAAGTTGTTACTCCTCCAACCAATGCACTTCTTGTAACACTTTTTAAATCTTCTTTGTATTCATAACCTGGTTCTCTAGTATGAACATGCACATCTATTAAACCTGGTGTTATAAATTTATTATTTGCTTCATAAACTAATAAATCTTTTTCATTAACTTCAATCATTTGACTTATTTTTTTTATTATTTTATTTTCAATTAATATATCTTTTTTTACAAGTAAATCATTTTCAAAAAACTTAGCATTTTTTATTAGTAGTTTCATTAAAACTTATCTTTCAATACTTCTTGTAGTATTGCCATTCTCATATATAAACCATTATTCATTTGCTCAAGTATTTTTGATTTTTTTGATTCAACTAAATCTGAATCAATTTCTACATCTCTATTAACAGGACAAGGATGCATAATGATTGCATTATCTTTTAATTGATCATATCTTTTTTTATTTAAACCATACTCATTTAAATAATCTATTTCAATTTGATCTTCTTTTGTTTGTCTTTCTTTTTGAATTCTTAATAGCATCATTACATCAATATCATTTATAAACTCATCAATGTTTTTGTATTCACCAAAATCTTTGTAGCTATTTTCAAATCATTTTTTAGGTCCAAAGAAATATATTTTTGCACCAAGTTTTTTTAAAATTTTCATATTTGAATGTGCAACTCTTGAATATTTTAAATCTCCTAAAATTGCTATTTTTAAATTTTTAAATGTTTTAAAGTTTTCATATATTGTCATCAAATCCAATAATGATTGAGTTGGATGTTCTCCATCTCCATCTCCACCGTTTATGATTGAACATTTAATATTTTTTGAATTAATTAATTCTTTGTAATATTCTTTTTGTTGATGTCTAATCACCAAACAATCAACTTCTAAACAACTCATTGTCAAAACTGTATCATATAAAGTTTCTCCTTTATTAACAGAACTAGTTTGAGGATTAAAATTTATTACCTCCATATTTAATTTTTTTTCTGCTATTTCAAAACTCTTATGAGTTCTAGTACTTGATTCAAAAAATAAATTTGCAACAATAGTTTTTTGATTAATTTTTTTTATATTTTTATTTTTTTTAAGATCTAAAGCTTTGTTAATTAAAGCACTAATTTGATCTAAACTTAAATCTTCAATTTGTAACAGATGTTTCACTATTTTCAACTCCTTAATATGAAAACTTTTTTATTATTTATTATTTCAATTTCTTGTTTTTCTAACACTTTCCACTAATTGTTCAACAGATTCAAAGTTGTATCTTTTTAAATCTTTTTCAAAGTTAATTGCCATTTTGTATGCTGCTAAAGGATCATACATAATCGCACTACCAATTCCAACAGCACAAGCTCCTGCTAATAACATTTCAATAGCATCATCATTGTTAAATATTCCTCCAACCCCAATAATTGGAATATCTACTTCATGAGATATTTCATTTACTATTTTTAAAGCAATATGTTTTAAAGGTTTTCCACTCATTCCTCCATATTGTCTTGTTAGAACAGATTGTCCTGTATGTAAATCTAATCTCATTCCGGCTGGAGAGTTTAATAATACAATTGCATCAACCCCAACTTCTTTACAAATTCTTGCTGTTTTTAAAATGTCTGCATTATTGTTTGAAATTTTTACTAATATAGGTTTTTTAGAAACTTCTTTAATTTTTGTTAATAAGATTTTTATTCCTTCTGCATCAGATTCAAACATAATGCTTTTATTGTGAACATTTGGACAAGAAATATTTAATTCAATAGCTGTTATAAATTCAATTGGATTTAACATTTCTACCATTTCAATGTATTCTTCCATTGATTCTCCTGCAATACTTACAAATGTAGGAACATTCATTTCTTCTACAAATGGTAATTTCATTTCAATAAATCTTTTAATTCCAGCATTTCTTAAACCAACTGAATTAATGTATCCATCTTTAATTTCAGCAACTCTAGGACTTGGATTTCCTTTTCTCGGTTTATAAGTAACTGTTTTTGTTGTAATTGCTCCAAGAATATCTAAATCATGAATTGTATCTAAGTATTCTCCATTTACAAATGGACCTGATGCAATTGTAATTGGATTTTTTAAAATTATGTTGTTTATTTTAGTAGTTAATTTTGAGCTCATTTATTTTTCCTTCTTTCTAGTAATTTACATATAAAAAAAACCGATATATTAGCAATATTTAAAGTTGAAATACAAAACATAAAATAATGTTTTATATAAGCTTTTATTTACTAATATATCGGTTTGATTATTATCTTTTAAAAAGTGTTGTGTTTGCTGTAATGTAGATAGATATAATGGGATATCTTTGTAACAAGAACAATCAATTATAAAATTTTTTATACCTATATCAAATATAGATTTATTAAATTGCAAAATATGAAAAAATGATGTACCAATACACTGAATGTTTGATATGTTCATTTTTTTATATCTTCCCATAATAGTACCTCTAAGTGAAAATAACCTAAATATCTATTTAATAGATTATTATTTTCAAAAGTTATAATAACTTATTAAATAATAAATGTCAAACTTTATTAATATAGATTTTATTCTTTTGTGTCAATAACATATGATATTTTCCCTATATATAACAAATAAAAGTTTCCCAAATATATAATTTATAAGGGTGATTTAAATATGAGGAGATATTTAAAAATGAATAAAAAAATAAAATGGAAATAATTAAAGCTGTAATTGATGAAAAACTATCTAAAAAAGCTGCAGCAATAAAAATCTGTCAAACAATAAGAAATGTTAACTTATTAATTAATAAATATAAAAAGTATGGTTACACAGCATTTATTCACAAAAATACTGGAAGAATATCAAATAAAAAAATGAAACATCAAATAAGTGATCAAATTATTGACTTGTACATTAATAAATATGAAGAATATAATTATAAACACTTTCTAGAAAAACTTTGATCAAATCATCAAATAAGTGTTTCATATACTTACTTAATCAACTTATTAAAAAAGAATAATTTATATTCACCAAGAATTCATAAAGTAACTAAAAAAATGATTAAACAAAAAATTACTAACTTATTAAAAAATGAAAATATTAAAAAACTTGAGAAACGAGAGTATTTAAATACTTTGCTTTCAATAGAAAATATTCATCCTATGCAGAATCGAAAAACAGAGTTTGGTGAGCGCTTGCAAACTGATGCATCAGTCCACTACTGAGTTGATAATGAGAAATGGTATTTACATGGTTTTATAGATGATGCTACAGGTAAAGTTTTAGCTTTATATTTTGATAAAGAAGAAACTCTTATGGGATACTACAATATAACAAAAAATTTTTATTGGAGTAAGGGGTTCCAAGAGAGATACTTACTAACAAAAGAACTGTATTTTGAAGTCAAAAAGAAAAAGAGTCAGATCTTCACTCTGACTCTTTAACACAATACGGATTCTTATATCATAACTTAGGAATAAAGCTAACAACTTCAAGTGTTCCTCAAACAAAAGGCCGTATTGAAAGGTTGTGAAATACACTTCAAGATCGCCTACCAAAGGAACTCAAAGAAAATAATATATCAAATATAAATGAAGCAAATTCATTTTTAAATGAATATATTAAAAGATATAATTCACAGTTTTCCCTTCAATTAAATAATATCATTAACTCTTTTGCTATTTTTAAAGAACATAAAAACATTGACTTTTATTTATCAAGAAGATTTGAAAGAACTATTAATAAAGGTTCTACAATAAAATACCAAAATAAATTTTATTTACCACATTCGAATGGCGAGCCAGTCTTTTATAAAAATAAAACAAAAATTTTTGTAGTAGAAACTTTTGATGGGCAATTATATTCAAACTCATTTAGTGAATGAATGCCTTTAATTGAAGTTCAACAAAACTCCACTTATAAAGAAGCTTATGAAGATAAAAGTGTTTCTGATATAAAAAAAACACATAAGCAAATCAAAACAAATAGTCCATGAAAATATACTAATTGAATATTTTACAAAAACTCTAAAAATAAAGTTTTGGGAAAAATTGATTAGTTATTGACATTACAATTTACAAATTGCCGAATTAATAATATGAACTTAGTTATAATTTATGAACATATAGCAAAATAAATACCTCAATATATCTTTAAAAAAAGATTTTGTTTTTTATAAAAAAAAAAAAAAATATTAAATACTTATATTAGTATTTAATATTGTTATAAATTGGAAAATTATCACATAAAGTTTTAACTTCTTTTTTTAATGATTCTAGATCTTTATTATTTAATGCATCAACTATTATACGACCAACTTGTTCAAATTCTTTTTCTTTGAACCCTCTTGTGGTCATAGCAGCAGTTCCTAATCTTAAACCAGAAGTATTAACTGATGATTCAGTATCAAAAGGGAGTAATTCTTTATTACATACAATTCCAATTGACTCTAAAATTGCTTCTGCTTTTTTTCCTGTTATATTAAAAGCAGTTTTTACTTCAATATTTAATAAGTGATTGTCTGTTCCATTTGTTAAGACAAAAATATTATTATCCATTAAAACTTTACATAATGCTTTAGAATTTTTAACTACTTGATTTGCATATTCTAAAAAACTTGGATCACTTGCTTCAATTAAAGCTTGAGTTTTTCCTGCAATTAAATGTTCTAAAGGTCCACCTTGAACTCCTGGAAATACTGCACTATCAACTTTTTTTGCAAATTTTTGCTTACAAAAAATCATTCCTCCTCTTGCTCCCCTTAAAGTTTTATGAGTTGTTGTTGTAACAACATCAGCAATTGGACAAGGATTTGAATGTGCTCTTCCAGCAACCAATCCTGCAATATGAGCCATATCTACCATTAAATATGCCCCAACTTCATCTGCTATTTCTCTAAATTTATTAAAATCTATTTCTCTTGAATAAGCACTTGCTCCAGCTAAAATCATATTTGGTTTAAATTCTAACGCTTTATTTCTAACTTCTTCAAAATCAATATAATAAGTATCTTTATTTACTCCATAAAAAGCAAATTCATATACTTCTCCTGAAAAGTTTAAGTCAAACCCATGAGACAAGTGTCCTCCAGCTCTTAAATCCATTGCTAAAACTTTATCACCTGGTTTTAAAAATGCTTTATAAGCAGCTGCATTTGCTTGACTTCCTGAATGTGGTTGAATATTAACATGTTCTGCATCGAATAATTTTTTTGCAACATCAATTCCTAATTGTTCAACTTTATCAACATTTAAACAACCACCATAATATCTTCTTCCAGGATATCCTTCTGCATATTTATTTGTAAAAATTGATCCATTTGCAATTAATACAGCTTCTGAAACATAGTTTTCACTAGCTATTAATTCTATATGATCTTGTTGTCTTTTCATTTCTGCATTTAATGATTCTCTTATAATTTCATTTAATTTCATATTTTCTCCTATTAATATAAAAATCATAACATTTTATAAAAAAAATAAAATGTTATTTCAAATTAACATTTTATTTATTGTTATTTATATATAATAGGTTTAATATCTGATACTTCAAGATCTTGCTCATTAGAAAATTCAATTCTATTAAAGTTTTTAACAAAAAATCTTGATGTAAATACTGTTTTATAATCATCTGCAAATAATTCAATAGATGAAGAATCAATAAACATTTCTATAACTTGAGATTTATTTTTAACTTTTCTTTTAGCATATCTAGTTGTTTCAAAATCTCAACTTACTTGTGAAGTTTGTTTAGATCTATCCATAATAATCTCATCATCATTAAATATAACTACTAAATACTCATTTTCATCATTTATAATTTTAAATTCTGTATTGCCTTCTAAATTAAATTTAATGTGTTTTGCTTTGTTTATATTTACTATATTTGTTTTTATATTTTTTTTATTAAACAAAGTATTTTTGCTAAATTCTTCATATGGTTTTTGAACTAATAAATCATTTTCAATAGTCATTTCTCTAGGAATAGTCAACATTGAGTGTCATGAGTACTCGTCTGTTGGATATTGAACATCACAAATACCAAATCATCCATAAACTACAAGTTTGTTATTTGCTCAATAAGTTTGAGGAGCGTATCAATCATAACCATAATCCATTGTAATTAATGGGAACTTTTCATTTAGTTCTTTTGCTTCTACATCAAATTTATCTAAAATAGTATAAACAACATTTCTAGAACCATTTAATTCATACTTATTGTTTTTATCAAAATATCCTTCAGCTGAAATGAAAAATAAATACTTATCATTTATAACATCAAGATTAGGACATTCTCACATATATCCATATGTGTTATCTTTTAGACTTGGTTTTAAAATAGTTTTATACTCAAATTTGTCATAATCTTTCATTTCATAAATAGCCAAACCACCTTGGTCATCATCTTTTGTTCTAACTCCAAAAATCATATATTTTTTACCATTATGATCAAAAATTTTAGGATCTCTAGCATGAGGTGTAAATTTTTCACTATCTCAAGGAACAGCTATTCTCTTGTTAATAATTTTTCCATCTTCAAAGTCAGCTACTAACTGAACTTCTTCTGTCATATTTCCTTTTCCATCTTCCATATTACCTGTGTAATAAATTTTTACAGTATCTCCAAAATCATAAGCACTTCCTGAAAAAGCACCAAATAATTCTTTTTCATGATCTGGTGTAACTGATACACCTTTATCTTCATAATCTACAAAATTTTTTGTTGTTACATATCTTCAATGTTTAAAACCATGGTATGGTTCAACTGGAGATCATTGATAATGAATATGATGAACTCCATCTTTAAATAATAATCCATTTGGGTCATTTACCAATCCATTTGGTGATGCAATATGATAAGTTGGTCTATAGTAAATATCTTTTTTTACAAGTTCATTTGCTTGATCATAATATTTTTTATCAATATCAAATCATTTTTTTCATTGTATTTCTTTTATTCTTTTCATTCTGAATTAACCTTTACTTTCTACTTTTGTTTTTTTTACTTCATTAGTTACTCCAGGAACAGGAGCAAAATCTCTTTCTAAAATAGACTTAGTCAATTTTTTAAAGTATTTAAGTCTTGATAATAAAATTGTTGCTAAGAATGTTGTACCTATTGTGACAATAATTGCTATAGCCATTCATAAGAATCCTGTACCCCCTCAAGTATTCATATCAAAACCAGGTCTTGTTGATGCTTGAGGAATTACTGTCAAGAATACTAGAAGTGAACATGGACCCATTGTTGTTAAAACTCCTGATGCAGTTGTAACAATTACTCCTGCTGTTGTTCCTATACTTACAGCAATTACAGGGAATAAAAATCTTAATGCTACTCCAAATAATGCAGGTTCAGTTGAACCTCCTACAAAAGCAATCAAATATGCAGGTACTGCTGTTTTTTGTAACTCTTTATTTTTTTTATTCATTATAGCAAATGCCATAACACTAGTTGCAACCGATATATTTAATTGTGTAAACATTGGGTTTATTGAAGTTGCATTATAAGTCATAAATTGTTGTAAAGCAACCACTACAAATATCTGAATAAATCCAGTCACCACTAGTCAAGGTAGTAACAATGCAAATAATGGATTAAACACAAATTTTGCAATATTGTGAGTTGTTGCTCATAATACAGCTATATTCATTCCATAAGTTATTAACATCCCTATTGGCGCCAATAATAATTGACCTATAAAAAATGCAATCAACATTACAGAAGGGATTCCAAATATCTCTTTTACAACACCAAATTTTATTTTTCTAACTAACCTTTCTAAATAAACTGCTGTAAAAGCAATCAATACCAATGGAAGTATTTGACCTTCATATGAGATTTTTCATGGATAACCACTTGCTAAATCTGAAAAAGATCAATTAACACTATCAGTTCCAACTTGACCATTTTGTCCTCAATCAAATAATGGTCTACCAGAATTCATAAAGTCATTTGTTGTAACCATGTCTTTTCCACAAAGCACAACCCCTAAAGAAATACCAATAGCTTCACTACCTTTCATAAGTTTAAAAATAGATCATGGTATCAAAATACTAAATGATAATGCAAGTGCTTTTTGAAGAGATTTTAAAATACTTCCTAATGTTTTTGAAAACTCTCCTGTATCCTTTATTGTTGAACCATTAACTTCAATACCATTTATTATATTTTCTATTGTTGAAATAATCGATAAAGTAATTAAATAAGGAATAATAGGCATAACCAATAGTCCAATACCATCAGTTAAAGTTTTAAAAAAACTTTTTTTTGTAGTAAGTTTTACATCATAAAAATTAACTACTCTTTTCAAAGAAACTCCTAGTGATGATAATAAATCTTTATTAAATTGCTCAATATCTTTTTTAATTACAAGTTGAACTAAATTTTCATTTACAACAACACCATTGATTAATATATTTTCTTTTAGTGAATTGATTTTAACAATATCTATATTTTTAACTTTAATTCTGACTCTAGTTGCACAATGACTAACGTTTTCAACATTTTCTGTATTACCTAAATCTTCTGCTATAGCAATAATATTAGTATCAATAGTATTTTTTTTACTAAAAATTTTCATTTTATTTCCTTTCATAGATACATCATTAACATATCGATATAATTAAATCATAAATTTTATGTTTTTTTTAAAAAAAATGGAAAATTTACCAAAAAAATAAATTCATTTCCATTTGTATTAATATATATTTAATTTAAATTAGAAAAATTTTTACTTAATTTAAGGAGATACAAACATGGAAATAAAAGTATTTCAAAATGAGTTATTTAATAATGGTAATTCTTATTTACTTATAAATGATAAAAAAGAAGCAATTTTAATTGATCTTGCAAATAAAGCAGATGAAATTTTAGAATATATTGAAAAAAATAATATCAATTTAACAACAATTTTAATAACTCATGGTCATTTCGATCATTTAGTAAGCATTGAAAAAGTTTTAACTAAGTTTAATAATTTAAAATTGTACATAGGAAAAGAAGATGAAGTTTGCTTATATGATCCTGAAATGAATGCTGGAGCAAGTAGAAATAATTTTTGAAAACTAGAAAATAAATATAAAAATACTATATTGATTGATAAAAGTATTTCACTTAATATAAATGACTTTAATTTTGATATTTATCTTATGAAAGGACATACTCCTGGAACTGTATTTTATCATCTAGTTGATTTAAATTATATGTTTTGTGGAGATACATTGTTTAAAGAAAAGATTGGATTTCATGGCAAAGAAATGAAAAGATGCAATGATGATATATTTAAAAAATCTATTCAATTTTTATACACAAATAAGTTTAAAGATACAACATTGTTTCCAGGTCATCATGAATCAAATATAAAAATATCAGAGATTAAAAAAATTAATATTATTGCAAATGAATTTATAAAATAAAAATCTTGTACAAAAATATTTAAATAATAAAAAAAGAAACCAAATATTATAAGATATTTTTTGTTTCTTTAAGGTTGTTTATTCTATTTGTTAATTTTAGTTTTTATCTCTTTTTTATTTTCTAATTTTTTTGAATATGAAATTTTAAAAATCCAGCTGGAATAATCAAAATAACTATTAAAATCATTACAATTGGTTTTCAAATATCTGCGGTTTTTATCCCCATAAGTAATAGCATAAACGATCCAACTAAGGTTAATATACAAGCTAAATATGAAAATGCAGCAAAAGTATAAAACAATCAATCTTTATATATTTTTTTATAATCTTTATCTTTAATTCTTAAATATATTACATTTGTTGTCATTAATGTTTTTAAAGCGCTTACCGCAAGAGAAAAGTATCCCAATAAATCTCTAATATCATTAAAAATGATATAAACAGTTGCTAACAACATTAAAAGTAACATTGAATTAAGTGGTTTATCTGAAAGTTTTGAGTTTTTTAAAAAATGTTTAGATAAATCTTTTTCTTCTGCCATTTTTTTTACCAAAACTGTTTGATAAACTAAATAAGAATTGATAGCCCCTATAAATAAAACTATAGCGATTGAGTTGAATACCATTTTTGCTCATTTAGGAGTATTTGCAAAAACATTCAAGAATTTATTAGTTCCAATATTACTGATTGATAAGATTGCAACTGCATAAACTATATAAACTATTGCAACAATTATTACTCCTACAAAAATAACTCGTGGTGTAGTTTTTTCGGGGTTTTTTGTATCTGCTGCTACATAAGTTGGAATTTCAGTTCCTGAATATGAAAACATAGTCATTGTAATTGCAGGAATTAAAAGTGATCCTCCAATATAAGCATCTTTTAAATTTTGCTTCATAGTATTAGAACTTAATAAATCATCGTTTACTCCATAAATTAAAGCTAGTATTAAAATAAACAAAATTGGTAAACTTTTAATAACAAGAAATACTATTTGACTATTATAACTAAAATTTCTAATAAATATTTGACTACCTCCAATAATAAATAATATAAAAATAGATATAAACTTTCATAAATATTCATTATCGTATCCTGAAAATTCTTTAATAATATTTGTAATTGCCAGACTAGCTGTTGCTATTGCAACAGCTGATACAAATAACATTAAAACTCATCCTAATCAAAAAGCCATAACTTTTCAGTTTGCCCTTCTTAGTCAACTATATGCTGTTCCATTTTCTTTAAAAGAAATTGTTGGTTCTACCATTATAAATGTTTCAGGTAAAATTATAATTCCACCAATAATTCACGCAAATATCATTAACAAAGGATTGTTTTGACTTAAAGCAAATACACTTCCATAAGTTAAAATAATACTAGTTCCAATTGTTGCAGTTAAAGTCATTGCTAAAACTGTTCAAAAACCCATTTTTTTATTTTTCATTGTTGAATTTCTCACTTTCTTTTGCAAAGTTTAAAGTTTTTAATAAATAATCATTATAATAATCACTTATCATATAAACATGTTCTGAACCTTCTGGTGTTCAAATTTCACTTTTTATATTAGTTTCAAATTTAATTTTTTTATTATACATATCTCAACTCATTTGATAATCAATAAATGTATCACCTTTTCCATGCACAAAAAATATTGGAATATTTTTATTTAAATTCATATGTTTTAATAAATTATATTTATTTTGATTTGTTTTTGTTAATTTACTAAACTTTTTAGTATATCCTAAACTAATTAGTCATCAAGGTTTTTTAAAATAATTATTTTGAATATAGTAGCGATACTGTAGTTTGATACTACTAAATCCACAATCTGAAATAACTCATTTAATTAAATCTTGATAACTTCCAAATTGAGAATATAAAACTGAAGTAGATGCGCCCATACTATTTCCAATTAATCCAATTGATTCAATTTCATATTCATTTTTTAGATTAGCTATAATTTCATCAATAATTTCAACACATGAATAACCAATATCTGTATATTTACCATAGCTTTTTCCATGAGCAAATGAATCAAATGTTAAAATGTTATAACCTTGTTTGTAAAAATGATGAACTAATCTTAGTCCTAAAAATTTATCTTCTGTTCAACCATGTAATCCAAATACTCATTTTTTAGAGTTAGCAACAGTTGCCTTAATACAGCTAATATTTCCTTTTTTTGTTTTAATATCATATTCTAAAATCTCTTCTGATTTAAAAGAATCAAATTTTAAGTTCATTTTTTTAAGATCTCAGTAGTGATATTCTAAGGTGTTTGTTAACGTTGGTATTAATTGATAATATTTGTTGTCTCCTTTATACTTGCCATATCGAGGATAAGTATAACAAAAATTTTTAAAGCTATTAAAATGTTTTTTCGACTTAAAATAAATAATCGGAAATAAAATAACGGTCAAAATAATTGTTAATAAGTTATAAGTATATTTTTTCATTTTTTTTGACATATCTTTATCTTTCTATCATTTTTAAATTACAAAAAAATTTTAAATTAAAGTTTTTGAATATTTTTTTCAATATTAAAATATTTATTTTTAAACTAAGAAAAAATAAGTATAAGTAGACTAATTAAAAAACTGGTCTACTTTGAACATCTAAAATAAAATTGACAGTAAAAAAGTACTTTTATTGTTAAAATTTAATTGAAAGGTGTTCTTTTTATACGGCAAAACAATGATCAAAACAAGAAAAAATTAACATAGTTAATGAGGCAAAAGAAGTTAGAATAATTAATACTGCAGTGAAATTTAATTTAAGCACCAGTACTATTAAGAGATGAAAACATGAAATAAGAACTAAAGGTGAAGGTGCTTTAGAATGAGGTAATGGAGTTCAAGCTAAAAGTAATATTAAGAAATTCAAATCTCATGATTGGTTATTTAAAGATCCTGATGATATGAGTTTAGAAGAATTGAGAGAAGCGTTAAAATTAGAGCGCGCTTTAAAAAAGCATTTGGCGAAAACTGTTAAGGAAAAGTACTTCGCCATTTTTAATGCGAAAAAGTGTTTTTCATTAAAAATAGTTTGTGAATACTTAGGAGTATCAAGATATGGTTATTTAAAATGATTAAAGACAGGTAAACCTAAATACAAAAACTATGATACAAAAATTGCTAACAAAATCATTTATATACATAATCTTTTTAAAAAACGTTATGGCTACAATATGATTACACTCATGTTAAATAAGTATTTTAAAATGAACTTAAAACCTTGGGTTGTATACAGATATATGAAAATATTAGGCATTAAGGCAGTCAAAAAGAAAAGAGTACCGATTATGATAAATCAGGTCCATTAAGATTTAAAAATATTTTAAACAGAAATTTTAAAGCAAATAACTTAAATGAAAAATGGGTTACAGATGTTACTTACATTAAAACAAGTTCAGGGATGGTTTATTTATCAGTCATTAAAGACTTATACAGTTCAGAAATAGTAGATTGAAAACTTTCTAAAAGACCTGGTAATGAACTTTGCCATACAAATTTAAAATCTGCAATCACAAAAAAAGTTAAACCAAAACTTATTCATTCTGATCAAGGTTCGCCATACACAAATGAAACTTGAAAATATTTATGTGATTCTAATAATATAAAGATTTCTATGTCGAGAAGAGGAAATTCTCCTGATAACGGTGCATGTGAATCGTTTTTTGGAACTTTAAAAAACGAGTGTATTTATACTTATAAAGTAAATGAGCTAAATTATTCTAATATATATAATGTAATTTCTGATTATATTGAGTTTTATAATTACGTAAGACCTATATTAAAGTATAAAAAAACTCCATACAAATTCGTATGGAGAAAGTATCTTTTTAATGTCAATTTTAATTGACAAGTTCAACTTAAGTTTCTTTTTTCTTTTCTAATAACTATTTTTTTGCAACTATAAATTGTAAAATAAATGTGCATGGTTATGCAAATGCTTGAAACTAAAAATGAGTTAGATCAACATTACAAATGTTTTTAATAGCAATTTTTAATAGAACTTAGTTTTAAACTAAGATCTAAATAAAAAATAACAATTTATTAAAATGCTAAATATACTTTGTCAAGTATACATAATGTTTTTTATAAGAATGTTTCAACATAGTTTGAAACATTCTTTTTATTTTGTGTTAGTTTTAAATAAACATAGGCTGGTGGGGTTTTATGTTTTACCATTATTCTTTCATAATTATAAAATTCTATGTAATTATCAATTGATTTTTCTAAATCTAAAAAGTTATTTTGTTTTAGTTGTTGTTTTCATTCTTCTTTTAATGATGAAAAAAAAGTTTCACACATTGCATTATCTATAGAATTGCCGGGCCTAGATAACGAAATAATAATATTATTTCTTTTAGCATATCTTTTCGCAAATATAGAAGTGTATTGATTTCCATTGTCAGAATGAATCATAAGCTTTTTAGATAAATCATTTCTATAAAAAGATGCCTTTTCAAGCGTTTTTCTATATAGTTCAACATCATTTTTTAGTGATAATTTATGACCAACAATAAAACCAGTATTAGCATCTTTAATAATGCTTAAATAAGCAAACTTTTTATTAAAGGTATATAAGAAACATCAGTTACTCAACATTCGTTTTTTAAAAATATTGATCAGTTTCTATTGACGTAATTTGGACCATGAGTAATTGTTTTAATTTCTTTTGGCTTTCTATACATTTTTTTTACCCTTATAATTGAATATAATTTGAATATTTTCATAATCCTAGCTACTTTGGTTTGACTTACCTCTAAACCTTGATTATTTAAAATAATTCTAATTCTAGGTGATCCATATATTCCATTATTATTTGTAAAAATATTTTTAATCTTAAGAGCTAGATTCATATCAATTTTTAAATCATATTCTGGTTTACCTTTACAGCATCATCTATAATAACTTGCTCTTGTAATTTTAAATAGTTTACATAATGATAAAACAGTGTACTTATTTTTATATTTCTCTATGGTTTTATAGTAATTTATTACTCTTTTTCTGAATCCTCCATTAGTTCACTGAGTTTTTTTAAAATTTCATTCTCCATTTCTAGTCCTTTTAATTTTTTATTTAATTCTGCTATTTTTTTATCTTTTGAATTTTTGAATTAATCTTAATTTTACCATTGTGCTTGTTGTGCTTTCCATTTTTAGAAATAAGTGCTGCTTCTCTATAAATTTCTCAATCTATAAACATCCTTCTAGCTGCTGAATAAGAAATGTTATAAATCATTGATAATTTTTTGTAAAAAATATGCTCATTGAAATGTTTATTCACAAGATCTTTTTTAGCGTTTAAGTCTAAAATTGTTGATTTGTTGCCTTTATGATTTGCCATATAAAAAATTCTCCTTGTATAATTTTATGTTTTTTTTAACATAATGTATACTTAGAGAATTATATTTAATAAGTTAATATTAGTTTTTATTTTACCTATCCACTTTTTCATTAGCACCTTTTTTTTCAAATTTTATTTGAATAAAATTAGAATATGCTGAATCTTTATTATAAGTTGACATAAGTTCTGGTCCAACATGTTCTTCTTCATTTCAATAATCTAATTTAACATCATTTGTAGTTAATTTATAAGCTTGTCAAGGTTTATCTTCTCTACTTGTATTTTCTGAACCATTTCATGCTTTTAATACCTCTTCTAAAGTGGGATGATCTCCTTCCATATCAATTTCTCCAAGATCAACAATTGCAGTGTCTACTATATCTTGATATAAATTAATTCTTGAACATTCAACATGAACTATTTTTTCTAATCCATCATATTTTAATAAAATTGGTGCTACAAAATAATATTTTTCTTCTTCACCTTGTCCACTATCTATATATTTTTCTAATTTATATTTTATTGTAAATACACCATCACTATTATTAGAAGATGTTTCAGGAGTTATTATTTTTAAGCATTTAGCATCTCTTTCTTCACTTGGAACAATAACTTCTAATTTTTGGTTTACTACTGGATTATTAATTCTTATAGAAAACGATCTTTCTTCAAATACTTTAATATATAAATTGATTTCTTCTTGTGCAAAACTTGGTTTTAATTGTACATAATTATAAGTAATAGTAGTTGATCCAAATACTTTTGTAGAAGTTGCTAAAGCTTCAATTTTTGCTTCTTTTAAAGTTGGATCACTTGAAAATTTAACATCACTTGTAGTAAAAAATTCTTCTTTATTTACATCTAAAAGTTTAGATAAAATATCTTGTAAAGTTGGTAATTTATTACTTCCTTTAATATCTCCTAATTCTTTAATTTTTATAGAATTTAAATCTCTTTTAGTATGTGTTGAAGAAGTTGATCCTCCTTGATTTGTATCATTGTTATTATTATTGTTTTGGTTTGTATCAGCTGGTTTTTTATTACACGCAATAATTGAACCTGTTGAAAATACTAAAATGTTTAAACTGTTTAATAGTAATAATAATTTTTTCATTTTATCCTCCTTTTTATATAGTTATATTTTATAATTTTTAAATACTAGATCTATAAATAACTTAATATTTAACTTATTATTTTTTCAATTTAAGTTATTTTTACTAAATGATTATAAATCATCTTTTATATTATTTTCTATTGATAAATTTTTATACATTTTTTTCAATGAGTTATCTTTTTTCATGACTTCTAAATATTGATCATGAAGTTTTTTTATTATTTCAAATAGTTTTGTCATTTCTTCATCATAATTTTCTATATATTTTAAAATTTTTTTTAAGATATCAATTTTCTTGTCATAACTACTAATCATTTCAAAAAGATTCATATAATTATCAATTGAATAAATAATAGCAGTTAATGTACTTGGACCTGCAATTATAACTTTACTTTTAAATGCATAATCTATCAATTGAGTTTGCTCACATAAAAAAGAAAATATACCTTCACTTGGCACAAACATTACAGAATAAACCGTTTTATCTTCTTCACTTATGTATTTCTCGGTTTCTTTAATTCTGTTTTTACAATCGTTAATAAATTCATTCAAATATTTTTTATACTCTTCAGAAGAAAGATCTAAACCTGACAACTTTTCAAAAGCATTAAATGGAAACTTAGCATCAACTGGAATATTAATAAATTTTGTAGAATCACCTTTTATAAATAAATCTACTATTAAACTTTTGTTATCATTAGTTTTTTTTATCATTTTATATTGGGCTTCGTATAAAATATTATCAGATTTTTTTAGATTGACAATATTAGATAAAATTCTTTCTAGCATGTATTCACCGGCTTTACCTGCTTTATTATTTTGACTTAATAAATTATCTAAACGACTAACCTTTTCTTTAACTTCGCTAATTGGTATAGTTTTTTCATTTATTGCTTTTAATGCTTCTTCTAGTTTTGTAGTGGAACTATCTAATTTATTTTTTGTTTCGTTTGCTTGTTTTAAAATAAAATCTCTAACTTGTCTTTCGGTATCATTTAAGTTTTTATCTGATTTTGAAGAAATATCACTTAAAAATGTTTTAAGATCAGACTCTGATTTAGTAATAGTATTTTTTTGTTCACTTATTATATTGCTTAATAAAGTATTTATATTAGTTGCTCTTTTTTCGTTTTCAAGTTCTAAATCTCTTTTTAGAATTTCTATATCATTTTTGTCTACACCTTCTATTTTTACATTACTTTTTCTAGTGAAAAAAATAATCATGAAGATTGATATCAATATTATTACAATTGATAATAAAACTATAATTACAGTTTGCATAATTTAACCTTTCACCTTTTTTATACTTTTTAATTACTTTTATTTTATAACCCGCTATTATTAAAAAAAATATAGTTAATTTTATAAATCATATTTGTTTAATATTTTACATATATTACTTATATAATGATTTCTTAATAATTTTTTATTATCTTCATAAGATAACTCATTTGGAAAAGAAGAATTGCCACCAACAATTACATCCGCTAAAATTTTACTTCTAGCAAAAAAATAATCATTTTTAATCTCAAATAAACTATCAAAATTTTCAGGTACATTTAATTGATTTCAAACTTTTATTACATCTTTATCTATTAATTTTCTTTTATAAGGATATATTCAAGAGTTTTTTAGTAAAATATAACCATTTTTAGTTTTTTTAACATAAGCTGTTTTATTTTCTTTAAACTTTTTATATAAAATTTTTCCTTCTTGTATATATTTTGCATTAGGAAATACAGATAAGCTATAGTTATATGGCAGTTGATTAATCTTTCTTTTAGAATATTCATTAATTTTTTCGATGTTATTATGAATATATGTGATTTTTAAATCATCTTCCGATTTAGTAATCTTTAAAAACTTTAAAATATCAAATTCAGAAAAATCTAATCCATTATATTTGTAGACAAGATTGTAAGATGTATCATTTATATCAAAAATACTTAAATTATCCCCATTAACTTCATAAATCTCATATCATCATCTACTATTTTTATCAAATATTAAAACAAAATCCTTATTGGTTTCTGATAATATTTCAAAACATTTTAAATCTCAAACTATGTAATTAGATAAACTATTTTTATACAGAACATCTTTTTGCTGTTTTAATTTTTTTAATAACTCATTGTAACTTAATTCATCAAAATCAAATGTTAAACCTGAAAATTTAGTACAGTTGTTATCAACTAATTCAACTAACTGTGTTTCAGTGATTAAATTGCAAAATCTATTTAATCAGTAATCTTTTATTTCTATATTTGTAGCTATATCAATGACTTTTAATTTCTTATCATTGAACTTTCTTAAACCTCTCCCTAATTGTTGCAAATATATTGTTTTAGATTGAGTTGGTCTCAAAAAAATAACACTATCAATTTCAGGTATATCAATTCCCTCATTTAAAATATCAACCACACAAAGAAAATTTAATTTTTTGTTAATAAATTTATCTAATTTTTCAGATCTATTTATATCATCTGACACTAAGTAATCTGAATTATAGCCGTTGTTAATTAAAATTTCATTAATTCTTTTTGCATGTTCTATATTTATACAAAATATTATAGTTGTAAAACAATATTCTAAATATTTTCTAATTGCATCTAAAACTAAACTATTTCTTTTTAAATTATCTGCTTTCAAAAGCAACTTAACTTCACTGTTTAAATCATCTCTTGTAAGTTTTATTTCACTTTTATCATGCATTAAATAATAATTTATTTCACAAACTAGTTTTTTTTCAATTGCTTCATGTAATTCCATATGATACAAAACATTATCAAATATATTTGTTATACTTTCTAAACCTTGTCTTCTTTCAGGTGTTGCTGTTAAAGCAATATTATTTGTCGGATTAAAATACTTAAAAATATAATCAAAAATATTTGTTTCAGATTCATTATCAAAATGATGAGCCTCATCATAAAAAATAATATCAAACTGATTTTTATTAAATTTATTTTTATCAATTAGATTTTTTAATAATTTATTAGTAACAAAAACAGATTTATTTTTTATACTTTCAAAATCAATAATTTTTTGATTATTTGTATCAATTAATACTGGTTCAAAACCTTTTACAATTTGTTTGAATCTATTAAAAGCATTATTTAAAATTTCTGTTCTGTGTGTTGTGAATAATAATTTTGGTTTATCAATTACATCTTGTAAATGCAAAAACATAAAAGCTGCAACAATAGTTTTTCCAGTTCCTGTTGGTAAAATTACACTATGATTTTTATACTCAAAAAGATCTTCTTTATACTTTTCAATTATTTCTTGTTGATAATCTTTTAATATAAAACCACTATTATCATTTTCTTTATCTCTAAAAGGATTAAAATAGTTATTTTCCATCTTAATTCAATCTTCCTTTGATAACTCTTTAAAATTAACTAATTTATAATTACCTTGTTCATTTCACATATATTCAATCTCATTTAATAAGTTTTGTTTGCTTTCATTAGATTGTAACGAAGAAATTTCTTTGCCATATAATCCTCTATATGTAAAATTTGCACTTCCTAAAATGATATCAAAATCATTTTCATACATAAAACCATAAATTTTTTTATGTAAAGGTTTCTCTCCTCTTTTAACAATTTGTACTTTAATTTCAATATTTCTTTTATACTTTTTGCTTATATAAAAAAGATCATCATAATTAAATGACTCTCCACTTTCAGTAAATGTTGAAGTTATAATTTTTAATTTTCCATTTCTACCAAAAAAATCTTCAAGTTCCTTATCAAATTCATAAAATGCTTCCTTGGTTATAAAAGGACTTATTATATAAAAAGTATTTGTTTTATTTATAAAGCTTTTAATAGCTTCTACTAAACTTGTAGAACTTAAATCAGAATAATGCATAATATATCCTTCCCTTTTTAATCATTAAGTTTATCTTTAATATACTTTGATAAATTTTCATCTATACAATAAATATAACATCCTTTGATCGCTCTTGTTAACAAAACGTTGTATGTATTTCTAACTATAAAATCTCCTATTTCAGAAGAAACTTTTGAATCAAGCTTTTTTAAACCTTTTATTGATTTGTCAGTAGATGCTCTTTTTGTTCAATCTGTTTCTATTTTATTATTTTTCACAATCAAATCTGGACCTATAATAACTCCAACATAATCAATTTCTAATCCTTGAGAGGTATGAATACAACCAATTTGTTCAATAGAGTTTTTTTCAAGCATAAAATACTTATCATTTTGTAAATTTCATTGCCTTTTAAAATTACCTATCACAATATCATACAGTTTTTTATCTTTTTTTGACACTCAATTTCAACAATAACCTGCCAATACCCTTGCTGAGCAACATTTAGATTTTTTAACAATTGCTTCATACATATCTTGTGGGTTATCAAAAACTTTAAAATCAAAAGCGTTTCTAAATGACATATCACATTTTAATCCATCATATAAAATATTATCTATAAATTGAATATAGTCATCTGCACCACTAGATCTAAACTGAGAAGTAAGTTCTTCAAATTCTAATATATTTTCATCTAAAATTCCTTCTAATTTAGCTTGTCTTTTAATTTCTTTAATTGTTCCAATATCACTATTAGTAACAAGTTGTTTTTCATCTATAAAAAAAACCGAAACTCTAGATTCACAAATTATTTCTCTAATTTGATTATTGTAGCCTTTCCCAATAGGAGTATATTGACTTCTTTCAATTAGCCTATGCGATTCATCAACTATTGTTAAATCATAATGATTTTTAAGCAAATCAGAAAATATAGAAGAGCCTTTAAACAAATTATCTAATCTAACTTTTGTAAATTTTTTATCCTCATTTTTATCTAAAATTAGTTTTTTAAACGCTTCTCTTACAGAAGCATTTTTAGAACAATATATTGCATTTTGTTCTTTTTGAATACAACTAGATAATACTTTTAAAGCTATTAGTGTTTTACCAGTACCCGGTCCTCCAGGCACTATTAAAACTCTTTTTTTATTATCTTTTTTTGATTTAACAGATAAAGAAACTATTTTTTCATATACAACTTTTTGATCATCTAATAAGTAAAAATCACTATTATTATCAATAATTTCACGCATACTATCTTGAATTGATTTACCTGGCCTTATTTGACCATTATCTATCTCATCTATAAGTTGAGCATTATCACCACTTATTAAATTTTCTTTAATATAATCTCTTAATTTCTTAAGATCTTTTTTAAAGAATAAAGGTGCATCATATAAATAATCATTATATTGACTATCAATTATATCAGGATGCTTATCAACATCATAATTATGCAAAAAAGCACATGTTAAAACTTCTATATTTTTATTACTATAAACCACTTCTGAAAAGTCATTCAAAAATCTTCCATACGCAAAAGCTTGATAAGATGGGTGACTAACTTCTCTTCTTCTTCCTCCGACATAAGTGTCAACAATCATATCACTACCTATAACTTTTATACACTCTTGTCATTGTTTCAATTCAATTATTATAATTCTTCTTTTTTCATCATTTAATCCTGACAAAATAATATCAATTCTCTTACTACTTCTTGGCAAATTATATTCTATTGCTACTCCAATATTTTTACTAATATCGTTATCTGAAAAAACTATTCTCATTTCTCTTAAGGAATTATTTCAACTATTTTCTTCATTAATATTTACTTTTTTATTCATTTTAAATTTAAGTTCTTCTTTAATTTTTTCAATTAAAATACCATTATCTACATCTTCATTAAATCCATCAACGTTATTTCTATAAATTATCATAAATACCTCTTTTACAAATTATTATATATATTTGTTAATAAATTTGTAATAAATAATTAATTAATAAAAAAACCTAATCCTTCAAAATAACAGATTAGGTTTTTAAAAAATTAATTATTTTATAACATTAAAGGACTTATAATACAAAATAATAATATAAATATAGAGCATGTGTAAAATGCAACTGGTAAATTTCTTATGAAGTTACCAAAAAAACCTTTTTTTGTTATGCTTAAACTAAAATTTTTTTTGTTAACAATAAATATTTTAATTATTATGCCTATAACCAAAAATATTATAGAAAGTATTAAAGGAACAAAAATTTTAACTAACATATTTAAACACCTCTTCATAATCATTATTAAATTTAATATTTTTATATTTCACAATCTTTGTATTAACTTCTTCTTTTAAATTTTTTAAAGGTTTTAACAATAATTCAAAATCTTCAACTTTAATTAGAACATCACTGCCATCTTCATAACTTCTACAAATAACACTTTTTACTTCTATATTTTTACTAATTTTATTAAGCAAATCTATTGTTTTTTTTGTATTCAAAGTACAGTTATGATTTAAATAAAAATAACTATTAATATAAGAAAGTATATTTACATATCCTTTTCTTATAATCTCTATTTTTTGCTCTTTAACAAAAAATATAATAATTTCTTTTTTTCTTAATTCTATATAAACTTCATTTTCTTCTTCTATCAAAGAGTTCAAAAAATCTATTTCAGAAATCATCTCTATATTATCTTGTTTTTTTAAATTATATCTATTTACAAACTTAAAGTTTTTTATATTATTTGTTTCTAATAATTTAAATATTCTTACTTCAAAATCTTCAAAAGAATTTATTTTTCTATTTTCGCTAAAATTTATAGCTAACATATTTATGTTTTCTTTTAATTTTTCTGTACAACCATCACCTATTTCAATTATTTCATTACTTAATAAATTTCTTAGTACCATAGCATTTTCTTTTTTAATAAGTTTTTTACCTTCATAAATATTAATTACATTTCAGTCAGCATCAATTATATATCCCATTATAGATCACCTCAGTTTGTGTTCATTTTATTTGCTATTTCTTTAAATGGGAAATTATTTTCCAAAAATTTATAAACTCCTAAGTTTAATTTCATATACGGATAAAAATCTTTTATATATTTTTTTAAAGCCTGTTTAAAATTATCATGTGGTAAAACTTTCATAACAACTAGAAAAATGAATATAGTTGAAGCACTTCTACTAACACCTAGTTGACAATGAGTGTAAATATTTGTCTTTTCACTATTTTCAATTAGGAATTTAATTGCTGGTACAAACAAATCATTACAAAAGTCATCAGGATCATGTGAATCTTTCATATTAATAGCCATTTTATCACCACTTAAAATGAAATATTGATTTTTATAGTTATACTCTTTTTTAGAATTTAAAATATTATAATATATGTCACCTATTTTTAATTCACATTGATGATCAATTAAATTTAAAGAAAATTGATCGCCAAGATAAATGTTATTTAAAATATTTTTAAAAGGCATTAGCTTTCAACTCCTAATTTTTCTCTAACTATAGTTGCTATGTTTGTAACTCTTGGTCCATATATTATTTGCATTTGATCACCAATTTCAGCATATCCATAAGGTTTTGTTTTATCAACCAATTCTTTGTTAAACTTACTTTTATCAAACATGGTTACTCTAAGTCTTGTGACACAATTTGCCATTATTTTAATATTTTCTGGCCCTCCACAACCATCAATAATGTTTTTTATAAATTCTTCATCATATTCTTCTTTTTTATTTTTTGTACTAGATTTTATTTTTTTATTTACATTTTCTGATTGATCAACTTTTTTTAAATCTTTACCAATAACAGCAACTTTACCATCTCTACCTGGAGTTTTAAGATTTAGTTTTTTTATCAATATAAAGAATGTACCGAAATATAATGCCCCCATTATAGGTCCAACTACAAATAAACCTCATACGTTTTGAATTTTATTTCAATTTATGGCATCTACCGCTAATCAAGTTATTATACCGCTTCCTCGTGTGCTAACTTGAGCAAAATTACATACGTACATAATCATATAAGTGAATCCTGTAAAGAAAACATGGATACCATATAATATTGGAGCTGAAAATAAAAATGTGAATTCTAAGGGTTCTGTAGTTCCAGCTAACATTGATGCCAATAAAGCTGATATTATGGCACTACCAACAACTTTTCTATTTCCTTTTGGAATACAGAAGTACATCGCTAATGCAGCACCTGTTAAACTAAATATATTTGTAGGAAATGTTCCATTAACAATTCAAGTGTCTTTTGCTTTTATAAATTCTCCTGATCCTAATTTAGCTATAGCAATGTTGTATATTCCTTCAATTTTTTCTCCAGAAGGAGAAATTCATTCTCCACCTACTGATGTATAATATAAGAAATAATTTAAAACTTGATGTAATCCAAATGGAATTAAAGCCCTATTTGCGACTCCATACAAAAATGGAGCTCCTGCATCTAAATATTGTCAAGAATTCCCAACAGCTTTTAAACCTTGAGAGATATATATTCATAAAATACCAAGTGGCATACCAATGATTCAAGCAACCAAAGTTGAAGCAACCGGTGAAAATCTTGGGCCTCCAAAAAATGATAGAAACTCTGGAAATTTTAATTTATAAGTTAATTTATGTATATAAAATCCTAATAAACCTGCTATCATACCTCCAAAGGCACTATATTGGAATGATGTTACTCCAAATCTTGTAGAAAGACCAAATTCTTTAGGTGTTTTTAACATCTCTGGATATACACTTTGTAGCATTAAGTTTGCTGCAAAGTGAATTGCTGCATATGCCATTAATCCAGAAAGTGCTGCTGAAACTTTTTCTGATTTTGCAAGTCCAGCTGCTAATCCAACAGCTACTAAAAAGTCAATATTAGATATTGCAATCATACCAATGTTTTTTATTGCATCAAATGCAATTTTTACATTTCCTGTATATGTTCCCGCTTGTGTAGCAATTGCTTGTCCTGCATATCCAATACTACCAATTAACGCTAATAATGGAATAACAGTAACAGGAACTAAAATAGCTCTTCCAAAACCTTCAAGTGAAGAACGTAATTTTCCAAAAAAATGTTTGTAATTTATTTTTATACTTTTATTCATACTCTATTTCCTCCTGCTTTAATTATATTTATTTTGCAGGTATTTAAAAAAAGTATAAATTTTCTTTTTTTACAATTTATGTAAAATTTATTAATTAATGAAATTATTTGATTTAATTTTACTTTTAAAATGTTTTTTATCTTCATCTATATTTATAGACAAAATTAATAATAAAAGATCTATCAAATATAAAAGGTTATATTTTTCAACAAATGGATTAGCCTTATTATTATCAACAAAAAAATTAGTTTCATTACTTTTAATAAGAATATCTACTTCTTTATCTAAAAAAAAATTATAAGAACCACAAATAGCTATTATTTTATAAGACTTTTTATTATAAATTGTGTTTAAATATCTATTAATTTTGCTATTATTACCAGATAAAGATATTAATATTACAATGTTATCTTCTACTTCAAAAGCATTAATATCATAAAGTGACGAAAATATTTCAACAATAAATCCCATTTCAATTAACTGAAAAAATAACAATTGAGCTATAATTTTTGTCTTACCTGTTGCAAATATTTTAATTTTCTTATTAGAGACTAGTAATGTTTTTGATAGTTTTAGAAAATTTTCAAAATTTAAATCATCGTTTGTTTTTTTGATACTTGTAATTATTTTTTCCAAAAAACTTTGCAATAAAAATGAATAATCATTATCGTTTTGTTTTTCTTGATCTAAATAAAATTGTTTATCAAGACTAATTTTAAGTTCTTTTAAACCACTAAAACCAAGCTTTTTTAAAGTTTTTGTAATAGCACTTTGTTCACATTTTATTTTATTAGATATATTTTTTAAAGAGAGTTCTTTATAACTATTTAAATTTTCTAAAATATAATTACTAATTTCTTTTTCTTGCGGCGATAATTTATTTATTTCATTTAAAAACTTATACTTAACATCCATATTTATTAACTCTTTCTTACTTAATTTTTATTATACATAATTACCTTATCTTTTCAAAAGTTTGTAAATTAGTTTATCTAAATAAATTTAGTGCAATTAATTATGCTTTTCAATATTATTTATTATAAAAAAGCACTTTTAATTAAAAGTGCTTTTTTATTAAATTTTTCCTTTATAAAACTTATTCATTAAATTTCTTACTGTCCCATATTCTTTTCTAATTTCTTCAATTGTTTTATCTAGTAAAACTTTATTATCAGAAATTATAATTAAACGATTACACAATTGTTCAATTTCATCAGGGTGATGAGAAACAATTAATAAAGTTTGTTTATTTTTTACTTTTTGTTTAAAAAATTCAATTATTTTAAACTGTAATTCTAAATCTAATCCAGTTGTTAATTCATCAAGAATTATAATTTTTGGGTCATTTATTACAGATAATAAAGCATTAAATCTTTGTTTTTGTCCTCCACTTAAACCGTTTAGTGGTGTTTTAAAAAATGGCATAACATCAAAAGTTTTATCAAGTTCTAAAAATTTTTCTTTTGTAAATTTTGGAAATACACTATAATAAAAATCAATTATATCTTTTGCACAAATTCCAGTTGGTCAATTTCCTTCTTGAAATTGAATCCCAATTTCTTATTTTAAATTTTTTTCAATATTTATATTAATTTCTCCTTTAGTAGGGCTTTTAATTTTTGCAATCATTTCTACTAATGTAGTTTTTCCAGCACCATTTCTTCCTAAAAAAGCAACAGCTTCACATTTTTCAATATTTAAAGATACATCATCTAATACAATTTTGTTTTTAAATTATTTACATACATTTTTTACTTCAATTAAACTCATAAAATAATTCTTCCTTTCTAACCTTTTTTATGTCATCTAAATCTTCAGATTCCCAGTGTTGAAAAAGCAATAATTATTAAGATTGATCCAAGTACTGGTTGTCATGTACTACTAAAATCTTTAAATAAAGGTACTTCATTATCATCATATCTTCCAATATTAAAACCTGCACTTTCTAAAGTACCATTTTTATACTGAGAAAATAACATTATTGAAACTGCATACTTTAAAGGCACAAAATATGTAAATATTCTTATTCCCTCTACTCCTTCATATAATCTTGGATCTAACATTGTTCCTGAAAAAAACATACATATCCATTAGAGATATTCCTTGATTTAATCCTTCATCTCCCATTATTCCACCAAGTAAAACTCCAATACTAATTGCAATTAAAGAAAGTAAACAAATTGATAAAATAAAATATCCTCAATTCATAGTTTTATATAATATTGCAACATTTTAATTATCAAGAATATATCCAACTAATAGTTCTAATAATACTCCAGATCATGTAATTAAAAAATAAAATGCTGCTATACATAATAAGAATAAGGGTTTATTAATAGCTGTGGTTTCTACTCTTTTTAAAAATATTGAGTTTTTTCATTCTACTATTGTAGAATATAATGAAACAATAATTCATAATGAAGGAAGTACATAATAATTTAATATTGAGCTTCCTGGTTTACATATTTACTTTAAATAATAAATATAACATTACTGTAAAAAATACTGGAATTACATATGTAAATAATTGTCCTCTAATATTTTTAAAATATGATTTTTAAATTAATTTAAACAATTCAAAAAAATTCATAAAAGCTTCTTTTTTTATCAAAACTTAAATCGTCTTTAATATTTAAATTTTCCTTCATAACTTTTACTCCTTATAAAATTTTTTAAAATGTTTTATAAGTTGTAAAGTGTGGTGGTTCCTCCATTATTTTACTTAGAAGAAAAATTTTATTTAATTTTATTTTTGCTTTTAAACTTTTAGTTTTAATAAAGGATCGTATAAAAGCAAATATTTTTGAACTTTTAAAGAAATTAGCTAAAAAACTTAAAAATTTTAATAGTTCATATTTAATATATTGTAAAAATTTTTAAAATTTCTTTAAAAAATCATATCTAATAATTGCTTTAATAAGTTTAAAACAAAAATAAGCTATTATTGTTGTTACTAAAAAACAAGCAAAAAAACCAAATGTTTTAATCATAACTAAACTTTCAAAAAAACTAAGATTATCTACCTTTTCTACTTTTAAAGCAAATTGTGTTAATCTAACTATTAATAATGGTACACATGTATTGATTAGGTTCAATAAAAATAAGACATTATTTTTAACTACATTAAAATTAGAGTTATTATTTTTAGATGCTTTTAAATATTGTTTAAATTGATAAACAGATTCATATACCATAAATGCTAAAAATAAAACTATAAATAAAACTAATCCAAAATACTTTAAAAAATCAGTTTTAAATATGTAATTATTATTTGTATCATAAGGATTAAAAAAGAAATTCAAAAAATATGTCGATAAAGCTATAAACATCGCTAGAATAAACGTTGTTTTTAAAAACTTATTTAGAATAATAACTCCTTTGAAATATTTTGAACTTTTTTCTATGAAAACAATTTTTAAAATAAAATAAAAGTTTTTTAGTAAATAAATATTTATTAATCAGATTATATATATTTAAAAGACTTACCTAAAATTTTATTATTTAGCTTTTTATAATTTCTAAATTGATAAATTAAAGTATTAAAATTTTCTTAAATAATATAATTTTGATTATTTAATAAATAATTTTTTACATATATATTTTTTCATAATAACTTATATTTGCAATACCATTTAAAACCTTTTCATTACTATATTCTAATTCTAAATATATTAAACAATTGTTAATATATTTAATATTTTGAAACTCACTTTTTAATAAAATAAATAATCCTAAAATATCTTTATTTGAAGAATACAATCGTTTTTTGTTCTGTTCATTACCTGTAGATTTAGCAATTGATTCAATTTGTTCTTACATAGTGTCTGTTATAACATTTATTATTATATTTTTATTAGTTTTTATATTTTTATATGCATTTGAAGAAGTATTAATTCCAATCATAACAATATCATTTACATTATAAATAGAACTAATTGGAGTAATATTTGTATTTTTATTTTCATCAATACTTGAAATTATACAAACTGGAAAACCTCAATATAAAGTTTTACTTTTTATTTATTTATACATATAACAATCCTTTCTATTAGAATAAATTCTAAATAAATAAAAAATATAATTGAACTAGTAAAATAAGTCAATATGGTTATTTATAATGACTATTAGTATCATTAAAAAAACATATAAATAATAAGATTATTTATATGTTTTTAATTTATTCTGGAAATTTAATTAATACTTTTAACGTTTTATTATCTTTTGCATTTTTAAATACATCAAATGCTTTTTCAATATCTTCAAAATTAAATTTATGAGATATTAATTTTTCAAAAGGTATTTTATTTTTATTAATGTTTTCAATTAATTCTAGTGAAGAATTAGCATTAACTAATCCAGTTGTTAAAGTAATGTTTTTTATTCATAAATCTTGTAAATTAAATTCAACAGATTCTCCAAATACTCCAACAATTGCTATATGTCCTGCTGTAGAAACTATTTTTTGAGCTAAATCAAAGGTGAATTTTGTACCAATTGCTTCAATAACTACATTTGAGCCTTCATTATTTGTTATTTTCATAATTTCTTTTATAGCTTCTTCTCCAGTTGCACAAACTATATCAGTTGCGCCATGTTCTTTTGCAAAGTCTAATCTTGATCGATCTAAATCGATCATAATAATTTTTTTAGGATTTATTTGTTTTGCTGTCATTAATCCAGCCAATCCAATTGGACCAGCTCCAATTATAGTAACAACATCCCCTTCTTTAATTCGGCCATTTAAAACTCCAATTTCATAAGAAGTTGGGAAAATATCACTTATTAAAACATAGTTTTCAAATCCCTTTTTTGGATCAATTTTATGTAATGAATTTGTTGCATGCGGAACTCTTAAATATTCTGAATGCGTTCCATTAATTAAATGTCCAAAAATTCATCCTCCATCTTCACAGTGAGATTGACAGTTTGTTGAACAATACTTACATTTTCCACAACTAGTAATACATGAAACTATTACTACATCTCCTATTTTTAAGTTAGAAACTTCACTTCCTAATTGTTCAATTCTACCAATACCTTCATGACCTAAAACACATCCATCTGGAACTTCAGGAACATCACCTTTAAGAATATGTAAATCTGTTCCACAAATTGTTGTATACATCATTTTTACAATTGCATCAGTTTGCTTTTGTATCCCTGGTTTTTCTATTTCTTTTACTACGTATTTTAAATTACTTTTATCAAAACATGCTGCTTTCATATATTATTACCTCCAAGATTATATTAACACTTTTTCCAAATGATTAAAATATCTTGGAATTTTTTATAAATATATTTTATACAAAAAACTATATAAATATAGGTTTTTTTGACTATAAATTACTCTTCACTTATTTCATCATCTTTTAACTCTTTTATATTAATAACTTGATCATCTGGAAAATTTGCAAGTTCATTTATATAATTTAATAAATCCACACCTTTTTTTAAATCATTAAAACTATGTTCTTTTACTTTATCAAAGTCTAAATCATCTGCATCTCTTCCTTTAGCAATTTTTTCAAAATGCTTCATACCATCTTTTCCAATTTCAAAGTTTTCATACTCATCACCATAATTAATCATATAATCTTTTAAAATATGTTGTGTTTTATATTTATATGAAATGATTTTAAAGTTATTTTGATTAAAGAAAAAATCATACAAATCATATCCTTTAATTAATAAATACTCTTTTAAAATGGGTAAATCATTAAAAATACTTACAAAAAACTCTAAAGCAGCTACTTCTAAAAACTTTGCCATATATAAGAATTTTTCAATATTATTTTCTTTTACATAATTTGCAACAAATATTGCCAATTCTTCTAATTTTGCTAATAAATCACTTTGTGTAGATCAATCATCTTTAAATTGATATACAACTTCATTTGAGCTTACAAATTTATTACAGACTTCATCAAATACTAATGTATTTAAACATACTGTATATGGAATATCATTAATTGTAATTTTTTCAAATTTTTCTCTAGTTCATTTTGTAAACTGAAATGCTTCAAAATCAATTACACATAAACGTTGAGGTTTTAATCTATTAATTACTTGAATAGCTGTATTTTTATTAAATGCTAAGTAATAATTCTCTTTTTTAACTAAATGCATATTTTTTCTCCATTTTTTAATTATAAATCAAAAGTTTATAACAATTTTTTTATTAAAGTTTTTTTATATTATTTTATATTTTTTTATAAATATCAATAGTAATTTCTTTATAAAAAAGATAATATTAATATTTAAGGAGTATAGATATAAATGAAAAAATTATTAACATTATTAGCATCAATCGGACTTGTAAGCACAGCTTCAACTGCAATTATTGCATGCAATAACACCACACAAGATGTTATTACTGATTTAAATAAAATTTCTAACAAAGATTTAAAAACACTTGTTGGAAAAGATCAAACACCAAGTCTTGAAAGCATTGTACAAGCAATCAATTGATATAATGACAATATTAGTTTAACAGTTGATGAGGTTGAATTTAGCGGTGAACCTACCACTTCAAAAGCAACTATAAAAGCAAAAGATGATGCAAAAATCTTTAAAGGAAAAGTTAATGTAACTTACAATTATAGTGTTGGAAATGCTTTTAGCATTTCAATATTTGAAGATGCAATCAATAACGTTGGATTTGGAGCAAGTTTAAGACCAAATAGCTATAATTCAGGCTTTTTAATGTCTTCAAACTTACAAAATAGATTAGTTGTTAAAGATAGTTTAAAAAAATTTGTTGTAGAACTTGCAAAAAAAGCAAGTAGTTATGTTGCTTTTACAGCAGATCAAATTATGGATATGATAGATATCAATTATAGAGATGGACAAAATAAATCAATTATAGAAACAGATAAAGAAACAAAAATTGAAAAACTTTATATAACTGTAAAAGATGGCCACCAAAATGATATTAAAAATTATATATCTTATGGAGTTGCAAAAATTAATTTAAAAGAACAAATAGACTTAAAAACAGCTGCAACTCAAAAAGATTTAGGAAAAATAACTTTTATAAACATGGATTATGAAGAAGACCAAAAATCAAAAATTATTGTAGAATTCATGAATAAAAATTCTAATATCACTGTGGATAATGCCAGTCAATTTTCTATATCAAATTATAATTTAAAAGGTGGATTTGCAACAATAAATAATGGATTTAACGGTAGTTACACTAATGAAGTTACTGTTAAATTCATTGCTGATATTCAAAATAATGAGAATATTCAAAATTGAGATTTATCAATTATGAGCAATAGTCCAAATAGCGAAGAATGAACTGATTGAAGTTTTTTTGATGCAATGAAGCTAAAAAAAGATCCTAATTCAAGCGCTTTAAACGATGATGAATTAACTACTTTAATAAATTATATAATGAGTTTAGAAGATAGCGAACCTTACTCAATGTATTGAATTCAATTTAATGAAGGTAAAAAATATTTTTTAGATACACAAGGTAGTGGCGAAGAACAAGGTAAAGTTAAATTTAGTGATTTTAAAAATGATTTTTTATCAATATTTGATGTAACTGTTAATACAAACGATGTGCCTTCTGAAAACGAAGGACCATTTGATGCAACTGGTTCTATAACAATAGAAGTTAAAAAAGGACAAGAAAATAAATACTTAGATAAAGGATATATTTTATCTGGTAAATTAAAAACTTGATATAGTGTATAAAAAGAAAAAAGTGATAAATTTATCACTTTTTTTATAAAAATTAATCTATTAGAATTGTTGGTGATTCAGTTCTAATTTTTTTTGTTGTTAAGACAATTGCCCCCACATAAGAACTTACTATTAAAACTGAAGAAACTATTGGAGTTCACCACATAAATCCAACAGGTATAGAAACTAAGTATGTAGAAACATATTGAAGCACATAATAAACACATAAATAACTTAATGCTGTTGCTAATACAAACAAAATTACTGAAAAAATGGTTACAAATTTAAATGTATATGTAATAATTTCTCGATTTGAATACCCCATTGATTTCATAACAACCATAAATTTCTTATATTGATTTACATACAAATCAGAAATTAAAATTATTGATAATGTAGAAATAATAATAGTAAATGCTATAAAGAAAGCTCCAATTGTAATTATTAATGAAGATATTTGATTAACTAAGTTTTTTTCTTCACTAATAAATTTTGTATCTTTAATTTCTGTTGTTGCTAAGAAATTATTTGGAGCATTAACTGAATAATCTCCCATTTTTGGGTTCATTGAAAATGAAGCTTGTGTACTCATAAAATAAGGTTCTTTAGAGTTTAAATAACTTCCATTGTATCATAAATGGGGTTTTACTGATTTTTGTTCTTCACTTGAACCAAACATTCAGTTATTTTTATTTGATTCACTAATTTGTGATTCAGGTGTATTTATTTTATAAGTATCTATATTTACCCCTTCTCCTGCTTCATATTGTCCTGAAGGATTATTTTTATCTTCATAACTAAAATCAAATGGTAAATATCTAGCTGTACTATAACCATTAATTAAGTTTACTAAACTTTGATCTGCAACAATCATACTATCTCCATAAACCGAAATATCATCATATTTTTGAAGATTTATTTTACTTACATTTTGATTTGAAATTTTATTTCATTCTATTTGTACATTATTAGATATATTAATTGGATTATCTGATCTTGCAAAAGCATATTCTAAGAAACTAGTTCTAATTGTTGTTAAGTTGCTTGTTTCACTACCAGATAAGTTTGTTTTTGGTTTTGAATAAACATTTGTTGGTTCAAAATAATACGAATAAGGTCTAATTCACAAATAACTACTTGGACTATAACCTAAAGTATTTTTTCAATCATTTATTGTATCATCTGGAACTTGTGATTGATCTACTTGTCCATATCATGCATCTTTATACTTATTATTTCCTAAACTTAAAATATTTTTAAAGTCATCATATTTTTCATATGGTATAAATAACATCACATTATCATATTGATAATATGGTCTAATTGATGCTTTTAATTGTTCTTGATCATTTATGTTAACTTGTTCTAGGTTATAAAAACCATATGCATCATCAACAATTTTTTTTGCTTTTTTATATCTATCAAATCCATCAATATAAAAATCATCTCCTGAAATATTATCTTGGGTTTTAAATATTGGAGCATAAGTAAATTTTGAGTTACTTAATGATGCAGGATCAAGTCAACCTTTGTTTTGACTATTTACTATTGAATTATTATAACTTTGATAATCTCTATCATCATATTTTCAAGCACTATTTGGAATATTTATTCCATCTTTTGTTAAAGTAAATCTAGTTACATTTGTTTTAACATCTTGAATTTGACTATCTTTAAACTCATAGTTGATACTTGATTGTTTATTTGCAAGCACTGGAATATTTAAAGTTTTTGAATCAATATCATAAACTTTTATTCCGTTTATAATTAAGTTTTCTTTTGGAATAACTCTTCCATACAAAATATTTTCGATATCTTTAATATCTTTATCACTTAAAAAAATATTATTTGCACTATTTGATATTTTATAAGCACTTTGAGTTTTATCTAAACCTGTGACTAAAGGATTATCTTTTTGATTGTTCATAACTACTTTTGTATAAAAGGAATCATCTTTTGGTATATATGAGTTAAAATCTCATCCAAAGCGATATTGATTTATTCTGTTATTAGATTGATTAACATAATTTCTTACATAAGCTGGAGTTTCAGCTAATATTATACTTATGATTTTATCTTTTCAAGTTCCTTCAAATGCATTTATATCTATATTTGCAAATAAAGTTTTTAAAATTGGAGGTAAACCATTAGTTAATAAAGATGATACTTGTAAAATTTTTTCTTTTCTTTGTTCTAAGTCATTATATTTTGGATTGTCTGAATGAATGATTCATTCTAATAATAATTGCACATCTTCAATACTAATACTTTTTCCGATCATTTGAACTAAGTTGTTCCCAAATAAAGAAGTCATATATGAAATTATATTTGCATTATCTAATGAATTTCCATTTTCATCTTTTACACCTTCAATTACTCTGTCATAGGTTCAATTATAATTAAGTTTATTATCAACTTTTTTATCTTCTGAAATTAAAATTTTTGGTATGACAGAATGTTCTGAAAGTGGTTGAACAGCAGAAGTAGATTTACCAATTAGTCCAATATCACTATCTAATACACCTTTTGTATCAATATAATTATTTTCATAACTCTCTACTCCATTTCATGGAGATAATGCTGTTTTTGAAAAAGGTGCATTACCTATTACATCAACATTTGAAACAGAACTTGAGTAATCAGCATTTTTATAATATTCATTTAAAGTTTTTTTAACAACTCCAGGCATTGACATGACTCCTGAAATTAAAAATGAATTTAAAAATATTGTAATAGCAGTTAATAAAGTTTTTGAAAAACCATTAATAGCAAGCTCAGTACTAAACTTTGTAGAAAATGATTGTTTATAAGTTAATACTTTTTTTAGTGTTTCTAAAAACTTATTTCTTTTATTTAAACTTTGATCTGTTGCAATTTCTAATACTGGTTTTTTTACTAATAAATATGCAACAAGATATGAAACTCCTAATGTTAAAATACCAAATATACTAAATGAAGCTAAAATTGCTTCTCAATCAAAAGTTGATTGCCAATAAGAACCTCCAGCATAAGAAATAAGTAAACTTACTATGGCTTCTTGGCAAAATGCAGAAATAACTCAAGCAATTGGAACAATTATAAACGAAGAAATAATTCCATAAGATAAATATGATACAGCAATGTGAGAATTTTTTGAACCCATTGCTTTTAAGATTGATATTTCTCCAGCATTTAATTGAATTGTTTTTTTAATTGCAATTAAAGTAGCAGCAAGTGCTATCAATGCAATTAAAGTTGCAGCTAAATATGAAAATATTTGAAATGTTTTTGTAATTTTTGGCGCTAATGTCCAATTGTATGCAAAATTTGAACTATCAAATGTTTTATACTCTTCAAAATTTTTATTAAATGATGCAAGTAAATCTTGTGTATTAATACTTTTATTAGTTTGATTTATATTTTGACTAACTTCTTGTTTAGCATTGTAAGACTGATATAAATATCACTCTTCTGACATCATATTTGAATAGTAATCTAAAACTTGTAATTCACTCTTGTTTTTTTCATTTGCAGTAACAAAATTATATAAAAATTTAGAAGTATATTTTGCATAATCATTTGTTACAACTTGTGCTAAAGTTTCTTGAGTTCCATAAACAATTACACTTTTTTTACTATTTGGAACTGGTATATTTATATCTGCAATAGGAAAAAAAGTTAATGGGTCAACTCCAAAACCACTGATTACAAAAGTAGAACCTCCTATTGAAATAGTTGAACCTAGCTTATAATTATTTGCTTTTGCAAATTGCGGATTAATTATAATTTCATTTGATGCTGTAGGAAAGTTTCCAGAAACTATTGACAATCTTGATTGTCATTGATCATCTAAAACTATTAAACGATATTTCATTTCTTTTTGAGAATCAGGAAAAGACATTTCTGCTCTTAAATCAGATTTAACATTTGACGCTTGTGCAACTATTTTATTTTTTAAATAAAATAGTTTTATATTATCAATATTGTTTCTATTTAACTCATTTTTTGTTGCAAATGTAGTAAAACCATTTTTTTCAACTAAATTTTCATTTAATGTAGAAGTTTCAGATTCTAATTTTAAAAGTTTTAATCTATCTCTTCTAATTACATTACCTGTTGGTTGATTTTTATTATCAACACTAACTACTAACTGATTTAAACTTCCTCTTATTCCCCTTTCATAATTATCATCACTTTCATTAACATAATAATTTTTATAATTAATATTTTTATTTTCATTTAATGTATTTGACGCTAAATCAATTTGTTGCAAATATGGTAATTGATATTTATTTTCTTCAACATTATATTGCATTTGATAAAGTTTATTTTTATAATCTTCATTTAAGTAATCTTTTTGATCTGAATATATATTTCCAAAAATATATGTATATAAAACATTTGCGATTACTTTTCTATCATTATCGTTACTTGACTCATCATAATAAGCAAATCCTGGGTTTTCATTTGTATTTTTTAAAGCATCAAAAGTTTTTGTTAAAACTGTTTGATCAATAACTTTATTTTCTTTATCATTTTGTGCTATAAATATTGATAAGTCAATATAGTGTTGTACATAATCAATTGTGTTATTAATAATTTGTCCAATTAAAGTATTAAATGCAGATAATAAATATAAATCATATATAGATATATTTTCGTTTGTTAAAGGATTATTCTCATTAAAAATTTGATTAAAATTACTCTCATTAATTATGTTATTTTCAAACAATTTATTATAAGTTGTTGTTTTTAAATAATCTTTTTTATCTTTTAAATCATTTAAAAAATTAGTTCTTAAAGCTAAAATTGTGGTTTGATAAAAATCTTTATATACTTTACTTTTAATTGAACTATTATCAATAAAGTCAGCATACTTTGTTAAGTTTGTAATTTTTAATTGATTATATTTTTCATAAGAATTTTTATACTCAATTTTTCCGCTATATTCATCATATTTATAATGAAAAATAGGTTCTAAAAAACTATCACTAGATAATAGGTTAAAAAATGAGTTTTTCACTTCAGTTTGTCTAAAAGATTTTGCAATAAATGTATCAATATATTCTTTTTTATATTCATCAACAAAACTATTATCAATATTTTTTAATGAGAATTGATCTTGATTTTTTGATGCATTTCCAGATAAATATGTTGCATTTTCATTTAATGAAATTAAGTTAAAATTATAACCAACTCCATTATTTGCTTGATTATATGTATCTAAATCACTAAATTTTTTTGCTAAAAATTGAAAATCTACAAAATCCATCATAGGAACAGATTTTAAATCTAAATTATTTACAGTTCCTACTTCTCTAGAAGAAACATAATCAAACTTATCCATTTTTGACATGACTTGTTTATAGTTGTTTATTATTCTTGTTGAAGCAGATAGAGATATTCCTAAAATTAATGAAGCTATAAAAGTTAAAATAATAATTACATAAAATTGAATTTTAAATTTATATACACCTTTTATTCCTTGTTTTAAATATAGGAATATACTAAACTTTTTCATTATTTACCTACCTTTTGTTAATATATTTATACTTTAATATTAATTATAAGAAAATAACTTTTTTTATACAAAAAACTTTTAGTAAAATGCTTCTATATAATCTATTTAAGGAGAAAAAGTATGAAAAAACTATTAGCAGTACTATGTTCATTATCAATATCATCAACCTTATTTTCAGTGACTTCATGCTCGCTTGTAAATTATGAAAAACAATATGTAAAAAACAAAGTTAATTCACTAGTTGATATAGCAAGTTTAGCTTCTAGAAGTGCTATTTTAAATGATGTTGAGGGAATTGATGTTGATTATTTAAATACTTTTATTGGTAATAAAAAAATCAAAGATTTAGAACCTAATTTTAGTGCTTCAGATCAAGCATCAACAAGCAGTGTTGTTAACTCAGTTTTTGATAAAACTTTAGATAGAAGTTATTATGAAAATTTAGCTTCAAATAGTGAATATAATTTATCAAGTAAAACTTCACCCAATTCTTATGCAGATTCAATTGTTGATAATGGTTTATTAATATTATCAACTATTAAATCATCTGGTGGTATAAAACCATCACTTGGAGGAGTTATTGAGGGACTTATTCCTCAACTTTCTAGTATTTTTGGTAATTTAAAAAATGAATTTAATATTGATAAAAATTGATCTGATTCATTGTCTCAACTTGCTCCATATGCACAACAATTGATAAATGATTTAGATAAAACTAATCTAATTTCAACAATTTGTCGTTTACTTTTTAATATTAATTTTATAAATGATAAAAAAGTGGATGATTCAGTTATAGATAATTTAACTCCAATGATTTTAGGAACTAATAGTGAAAAAGTTACCAATATTCCTTTTATTATTGAAGACTATATCAATAATGTAATGTTTAAAGATTTTAAAGGACAATATAAAGATAAATTTAATGAAACTCATAAAATTGATTTAACTTTAAAAGTTGTTCAACAATCAGCTTTGAGAAAATTAAATAGATTTTTATACAATTTAAGTGGAAATGAAGATAATAATTTGAAAGCAGAATTAAGTCTTGATGACTATTTACCTATTGATAATTCAAGTTGATTTAGAAATAATTTAGCACAAAGTTTAGGATATATAATAAAAAACACTGACAAATTAAACTATGCTTCAATCTTAGAAAATATAAATGATATTTTTTATATCTTATCAAGTTTAATAATCAATATTGGTTTATTTGATTTTGAACAAATCAATAATGATTTAAGCACTAATATAAGTGAAGAACATTTATTTGAAAAACAAAGAACAAATAAAGAAGTTTTTAAAGAATTAAATGATCAAAGCAATCAAAATCATTTAGTAATAAGTTTTAATAGTGAATTAGAAAAACAAAATGGAATAATTACAAATAATATAAAAACAAAAAGAAAATTTAGTATATACAGTTTCTTAAAAAATATTTCACTTGCAATTAATCCAAATGCAGACAAAGGAAGAGATATGCAAAGAATTTTATTTTTATTGTTATATTCTAATTCTCCAACTAAACAAGATTATTTAATACCAGAAAATTTAGGATTATTAGATGTTTTAAGTTTAGGATCAGATAAATTAGAACAAGAAGTTACAGGCACAGATAGTTTGTTAAATGGAGTTATTCAAGCATTAGGTTTTAAATTATTTGATATTTTAAAAGATATAAGTCTTCCTGAATTTTTAAAAAATATTGGTGCTCTTGCTGCTTCAAGATTATTTGGGATAACTGGAGATTCAATAGTAAATGATAGAAGTATAATGGGATTGTCATCTTTATTAAAATTAATTAACTCATTTACAGATACTGGAATTAGTATTAGTGATGAAAGTACAAACAAATTACAAAATGGTTTTCAAGCCTTATGAAATAAAGACTCAAATGTTTTAACAGAGTTAACAGGATGAAAAATTAACAATAAATCTTTAAATTTTGTAAACATTTTTAGCATGGAAATAACTTCAGGTTTATATTTAAATACAATTTTAAAAATTTTTAGTGAAATTTATAATGAAAATAGTGAAGCTAGAAGCAAATATAATTCTGAAAAAGAAAAAAATCAGCAAGGAAATGTTAGTGATGGTATTAAAAAATTTGCATCTAGTGCTACAAATAAATTTAAAGTATATTTTAATAATAAAATAAATAGTGATGAAGGTTTAGTAAAAGATTTAAAAGGAACATCTGGTAATTCAAGTGGAGAGTATAATACATTAACAACTGCTTTATCATTAATGAAATATAATGGACTTGCATTAAGAGATGATGATTATAAAAATAATAATCTTTCTTTTGCTGGATATAAAGGTTTAATGTATGCATTAGGTTATAAAGAAGGAGTTAATGAATTTAAAGACAACTCGATTTTAAAAGCAGCAGAAATAATTTTTGATGATAATCATTTCGAAAACATTATGACAAATACATTAGATGACTTTAAGTTTTTATCAAATACAAAAAAAGAATATATAAAAGATAAAATTGAACCTTTAATTGATTCTAAAAACTTTGTTTCAAAACTACTTACATATTCTGAAATAGATAATAAAAATATTTTAGGAACTATAAGTTTTGAAATTAGTTACACCCCTATAAATAAAAACATTTATAAATATCAAATTACATTAATGGAAAACTCTAAAATGGAAAATTGAAAAATTAGTGAAGTAAAAAAAATTGCTTAAGTAATTTTTTTTTCATTTTCGTTTTCATTTTCTTCTTTAGAAATATCTATATACTCACTTTTATAATTTAAAACTGATTCTAGAAATTCATTTATATCTCGATAAACTTTTTCTTTTCCAACTTCATTTAAAATTTCATGACGCATATTTAAATATAATCTTAATTTAGAATTAAGTCCATTTTTTTTATAAATCTTTTGTAACTTTCTTGGGTCTTTTCCAAATTTACCAACACTATCTTTATCACCTGAAATTATAAAGATTGGTAAATCTTTTGGAATTCTATCAATATAATCTTGTTTTTGAATTTGATTTAATCCAAAAAATAAATCTTTAAAAGCAGAACTTGTAAAAACTTGTCCAGCTAAAGGATCATCTAAAAAATTCTTTACAACATTTTCATCAGTACTTAATCACTCTACACCTGTTTTTCCATGCTTTTTAAATTTTGCATTTAAAGGTTTGTAACTTAGTTTTCAAATGAGCTTATCAACATTTTTTTCTCCATATTTTTTTTGATTTTTTTTAGCAACACCTAATCCAAAGTTTAATACTAAACTTGAGTATAATGCAGTTCCTACTATTATAGCTCCATCAACACTATCTCCATAATTAGAAATATAATTTCTAACCATAAAACTACCCATCGAATGTCCAACTATTACAACTTTTAAATCTTTATATGTACTTTTTATAAAGTTATTTATAATATGTAAATCTTTAATTATAATATTTCATCCATCTTCTTTGGCAAAAAAACCTAATTCATTTTCTTCTAAATTAGCAGTTTTACCATGACCTCGATGATCTGAACCAATTACTATATAATTATTTTTGTTTAAGAATTCTACAAAATTAATATATCTCAATGTGTGTTCTGCACTACCATGAACTAGATGAATTACTCCAACTGGATTTTTTACTTCATCTCAGATATATGTATGTAATTCTTTATTGTCAAAGCTTTTAATCTTTATTTCTTTCATATATTTTTTCCTAACTTTATTTAATATTTTATAATAATTTAATAAAAAACAAAAATCTAGTTACAGTTAATTTTTTATAAAAAAACCGATTTGTTATAATCGGTTAAGTAATTATTATAATTTTGAAATAGAACTAACTTTTAAGTATTTACCTTCATAACTTAATTTGATTTCAAATTTATTTTCTGTATTTGTTGTAGCATCTTTTACAGTGTAAGTAAAGTCATTAGTTTGTTGTCCATCAATTGTAACTTTTAAACTATCAAATACTTTATTTGCTTCTGATTTTGTAACTTTTATTTTTTCACCAAAATCATTAATCATACCATTTAAAGTATTACCAACTACTCCAACTCAAGTTACATTTTCTTGAATAACTGTTTGTAATTGTTCTAGAACTGATTTTTCTTTAATACTTCCATCACTATTTAATCCCAATATATTCATCATATTATCAAGATCTGCTAATGCATTTGATAAAGTACTATTTGTATATAATCTTTTAAACAATTCAGCAAAACTATCAAATTTAACAATAACATCACTTGTATCATCATCTCTTGCTTCAGGTTTTTTAGGAGTAGCATTTTCAATCATTTTATTAACAATGAATTGTAAAGAATTTGTAGTTAAAAATCCCATTCCTAAATCTTTTTTACTATCAAAAACTTTTACTTCTTCTTTTTTAGAAGCAAATAAAGGTAATTTAAAGATATTTTCAATTGGACCTTGTAACATTTTTTTAATTGATAGTCCTAATTTTTCATTTTTATTATCATAAAGATATTCTATTCATTTTCCTATTGTTGCAAAATTTGAATTTCAATCACCATTTTCAACAATACTTTTAATTAAAGTTTTTAACATTCCATCTGGGAAACTAGAAATAAAATTTGGAATCATTTCAAAAGTACCTTTTAAATCATTAGTTAAAAGACCGTTTGAACTTTCACATCCTATACCTCAATTAATGAATGTTCTTAAAAATGAATCAATGTAAATTTTATAAATTACAGCATCCATTGATTCATTTCCTAATAGAGCTATTGCAAATTGAGAAACTATATTAATTAGTCCATTTTTTAAACCATTATAAGGTTTTAATAAATTTGTTCAATTACCTTTTGCACTTGTATTTTCACTTTTTGTTTCTGAAGGAGTTGCTAAAAATGCACCTAAAAGGTTTCTTATAACTCTTGCTCCTAATCCTTTTGAACTTTCTCCTTCTTTAGCTGATGTAGAACTATCATTTACAATAATACTTAAAACTTTTAATGCATTACTAAAATTAAACACATTATCTTTTTCTGCAACTTTTGTTGTTCTTTTTGTATCAATTTCACTTATTGTTAATTCTTTTGAAGTTAATTCTGTAACACTATAAGAATTTAAATAAACTAATAAAGTTCTAACAAAGAATAAAACTCCAGGCAAACTTCCAATATCTGTTAATAAATCTAAATTTATTTTTTTAGATCCATTTAAGACCCCACCAATATTTTGTCCTAAAACTTTTGAAGCTCCAAAGATATTACTGTTGATATCTCTAGAATTTTTATAACTTAATGCTTCAGAACTACTATCTTTATTTATAATTTTATCAATTGAATTTGATAATGCAATAATACTTGCATTCATTGCATCTTCAAAACTTAAAAATTCTCCCTTATCATCTTTATATGCATCAATACTAAAAGCTTTTTCAAAATCTTTTAAAACATCATCTGTAACGATTTTTCCTAATGATTTAATCAAATCAACTGAAACAAAATCTTTTAGTTTTTGACCAACTAAAGCCATTAATCCTGGAAATGCAGCAGGATTTGCAAGTGATTTTAAAATAGTTGGAACAGATTGTAATAATGATCCTAAAGTTGACATAGTACCACTTATTTCTGGTGCAACTACTTCACCTTTATAAACACTATCATCAACTGCTACATCACTTGAAACAAATTCACTACTATTTTTAAAGTATTTACTTGCTATTTCACTATATCTAGTATAGGCATTTGTTTCTACACCAGAAAAACTTATAATTTTTAAGTTTGATATATAATTGTTTTTTACATGATCATTCATAATGTATGAAGAACTGTAATGAACTTTATTTAATCCTTCACTTGTTGTATCAATTTCATTTTGATTTAAATACAACGCTTTTGCATACTGAGACATTAAAATAGAAATGTTATCTTGATCTTCTTTGCCATCAAAACTCGTATTAGTTTTTGCACCACATGCAATTGCAAATGACACTGGAGAAGCACTGATAGATAATACTCCTAAAATACTAATTAATTTTTTCATTGTATAACCCCTTTATTAAATATTTATCAAACCTAATTGTGATAATAAGTTTCAAATTTTATCTGCTACGAATTTATGACCAGCAGCTGTAGGATGAACTTGATCTATAAAGAAAAATTCATCTATATTATTTACTTGATATTCTTTTCTGACAGTTGCATTAATATCAATGTTTGTTAAATCTAAACTTCCTAAATCAAATGCAGTTGATGTACATAAGTTATTTTCTATGTTTGCATTTGGAGTTGTTTTTTTAAATTCATCTAAAATATTTTTTAACTCTGAATAAAGATTGTATGTTTTAATGACATCATTTGTTTCTTTATTTATTTTTGTTATTAAATTTGATAATTTTGAGTCAAACTCTTGGCATAATAATTTAATTTTATTTAAATCATCTTCAGTATATGGTTTTTCTGTATTTTTATTGTTATATCTAGGAGTTAATAAAATATCTGGAGGACTTGCAAAAATGATTTTTTTTGCACCATTGTTGATTAAAGTATAAAAACATTTTTTTATATTTTCTATTGCATTATTCATAATATCTGCTTGTGCATTCAAATCATCTCTTGCATCAGCTAGAGCAAATAAATCGTTTCCCCCAATTTCAATAAAGAATAAATCATTTTCATTGATAACTTGTTGTTGAACTAGAGCAACTGCTTGTTTATAAATTCCAGTTTTTCCCATCAATAATTGTGATGCTAAACCAGATCCTTCATATGCAGTTGCTCCTCCAACTGAATAATTTCTTCCTCAAGACTTTTTACCTTTATAGTCAACATCAGCTTGGTGAATTAAGTTAGATGATTTAAAACTATCTGCACTAAAGTTTAATTTTTGGTTTATTAGTTCAGCAGTTCTTAATCCATTACTAAATCCATTTTTATATTCTCCTGACATTTTTGCATCAACACCAAGTTCATCTTTTGCAATTGTAACTAATCCACCATTATCACTTAAACTATCTCCTAATGTATAAAAATTAGAAACACCAAAATGATTTGCTGGATCTTCACTTGTATCTACAGCATTTGATTTATCAATGTCTTTACCAATAAGATTGTCAAAAGTTGTATTTATTTTTGCTTGTGCAGGTAAACATGCTACACTAGCTGATGCAGTTGAAATAGAAATAGTTACCATTGAAAGTAATGTAAGTATTTTTTTCATTAGCTATTACCTCTCTTTTTGTTAATGATTAACATTGTTAAAGTATATGTAAAGCAAGGAATAACAACAATTAATAAAATAAGGAAAAATACTACTCCTGCTCTTAAGTTATCTAATGTACTTGTGAAAAAAGGAACATATAACTCACTAGTTTCAACTTTTTGTTTTGGCATTTTTGATTCATCTAAAGTTTTATCTTTAAATATATTATGTCCCATAACATTCATACCAAATTTTATATTTTCGATTTGTTTATTTAAATATCAAATTTTGTTGTTTACTAACAATGTTCCTAAAGATGCGCTAACATCAATTCCACTTATTCCAGGATCACTTGCTTGTAATTTACTTTCGTACACGTCTTGATCTATAATAGTTTGATTTCTTAATAAATCATTTCTAATTGATGAAGAAAAAATTTCTTTTATTCCTCCATTTTTGAACATTCATTGAATTCCAGAATTAACATATCCAAAACTCAAGAATTTAGTTGAAACAGCTTTGTCAAATTTAATTAGATCTTCACCTAAGTCGTATAAATCTACGTCTCCTTTTTCATCTCTAACTTTTGCTCATCTTGTTTCATATCATTCATTTGAGAATTTTTCATAGTCACTTCTTTTTTGACTATAATTTTCTGTTTCGTAAGAATTTAATGTAGAAATTGAGTCACTTGTATATGCTTTTTTAATAACGTTTTCCATTACTAGATCGTAAGATACATCTTTACCATCTACAACAAAAACACCTTTTGGCATAACTTCCCCGATTTGTTTATGGATACTGTTTATGAATCGTAATGATTCTATACCAACACCTGGAATCACCATAAGTAAGCTAAATAAAAAGTAAACTGAAAATACTATTGGAAAAATAATTAATTTCAATTTTACTTTTGTAGTAAAAAAATCTTTAAATTTTTGCATTTATAAAACCTTCCTAATATTTTGTATTGCTTTATTTTATAGTTTTTTTAGAAAATAGCAAAGCGTTTTTTATTAACTTGAAAATTATTTTAAATTTATAAAAAAAAATACTTCAAACAGAAGTATTTTAATCCATTAATCCTGCTTCATATAATTTTTTGAAATGTCCTTCTTGTTTTTTTAATTGATCAAAAGTTCCTACTTGAACAACTCCTTGATCTCTTCCTAAAACAATAATTTGATCACAGTTTTTAATTGTTGAGAGCCTATGCGCAATACTTATTGAAGTTCTACCAACCATAAGTTTATCTAATTCTTTTTGTATTTCTTTTTCCACAATATTATCTAAAGCACTTGTAGCTTCATCTAAAATTAATAATTCAGGATCTTTTAATATCATTCTAGCTATAACAAGTCTTTGTTTTTGGCCTCCAGACAACATCATTCCACGTTCTCCTAAAATAGTTTTATAACCATCAGGTCAAGTCATAATTAAACTATGTAATTCAGCTTTTTTAGCAGCTTCAATAACTTCTTCATCAGTTGCATCAAATCTACCATATTTAATATTGTCAAATACATTTCCATATAAGATTTGAGGTTCTTGTTCAACATAACCAACTTTATCTAAATAATTTGCTAGATTTACATTTCTTAAATCTGTTTTTCCATTAATTAAAATTTGTCCTTTACTTGGATCGTAAAATCTTAATAACATTTTTGCAACTGTTGATTTTCCTGCCCCAGTTTCTCCAACAAATGCATAACTTTTCCCATGTTCAAATGTAAATGAGAATCTTGGTAATATGATTTTTTCGGGTTTTTCAGGATAAGCAAATTCAATATCTTTAAAGATAATATCTCCATTAATATTTTTAATTTTTTCTCCAGTTTCTTCATCATAACTAACATTTAATATTGATTTTGATTTTATGATCTCATTAATTCTTATAGATCCAGCAGATGCTTGAATCAATCCAACGATTAATCTTGTTATTTGCATAATTGGTCCAACCATTGTACCAATTCCACTTATAAATGATGATAAAGTTACTGCTAAATAGTTTGGATTGTCATAATACATTAATGCTGCTGCAACTACAATTGCAACTTGAATTGAACTTATTCCAACTGTAATCACAGTAATTATACTTGACTGAGTTGCTATTAGAGTTCTAGATTTTTTATTGTAATCAACATGTATTTTTTTAAATCTTTCAGTTTCATAGTTTTCAGTTCCACTTGCTTTAATTAATCTAATAGTTGCAATTCTATCAGTTACATCTCCATTAATATTTGTGATTGATTTTCTAACTCTTAAAGCAATTTTTTTAACTACTCCAAATGTAGTTATCAACACTCCAAATATTGATATCATTAATAAAATAACTACTCCTGTTAGTTTTAAATCAATTGTTGATAAAGTTGCAATAGATCCACAGAAAGTAAATAATGCTCCCATAAATGTAACAGGAACTTGTTGAGCTTGTTCTCCGATTATTTGAGTATCTGCAACAATTTTAGTAAGGATTTCTCCAATTTTTTTATCAGAATAATAACTCATATCTTGTTTTACAAGTCTTTCTAATGCTTTGTTTCTTAACTCAATCTCAATATTTTTTCCCATAATACCAGCGATATATTGGGTTAAATATGTTGTTATTCCTAATAATATAAACAATCCTAATTGTACATAAATTCATTCTACTCACCCTAAATGTAAGTTCCCAATTTCTGTATAAAAGTTTTTTGAGTTACTTAATAAATCAATATCACTATTGTTTAAAACATAACTGTCATCTCCTTTAAATTTAACTCCCTCTAGTTGTGCATTTAAATCCGCAACCGTTAAAGAATTACCTTGAGATTGGTATAAGTGAAAAATTTGTACCGCAGTTAAAGGTACTAATAAAATTTTCATCATATATTGAATAACTTTTGGACCCAAAACTGAAGTTCCAGATGAAATCGCTGCTATCAAAACTAAAATGATGGCTGTTCAAATATGTCTTGCTAAATAATGTCTTACAATTCCTAAAAAATTACTTTTAGGCTTTTTTTTGAAATATTCTTTTTCTGCTGCTTTTGTTTCTTTTAGATTAGGATCATCAAAAACTTTTTGCTCAGCTTCTTTTTCTTTTGTCATTTTTTCTCTCCTTTTTTTCATATAAAAAATTGTTTTTATTTATAAAAACATCATTTTAGATTAGTAAAAATAAAAATTATTTTCTTAAATCTCCATTATTATATTCGGTGATTTTAATATATACTGTGTGCTTATAATTTGCTACTTTATAATTAATTAAATCTCTTAATTTTATTCTTACGTTTAAAATTATTGAAATTAAAAATATTACAAAATTTGTAGTAACAATCATTAGTCTAGATACACTTTTTGATAGTAAATTAAATATTTTAGCTAAAAATTCAATATGTGCTAAAAAATGAGTTATAACACCAATATAAGTCATAAAAATTAAATTCATTATTGAAAATTGAGTTAAGAATATTGAGTTTATAATTAATGCAATTTCTGAACTGTTTGAAAGTAACAAAAATGAAAAAGTTAATAATAATAAAATTGTTGCTAATGTTTTCATAGCTACAAATTTCTTAGTTTGCAAATTATCAAGTCTATTAATAGTTTTTTTATCATAACTTAAATAATAGATAACTAAATTAACAATATTTAAAATATGAATAAAAATAATTAAAAGTAAAATTAAAAAATATGAAAAAACTAACGAAATTATTGCAAATTCTTTAAACTTAAAAACTACTCTACTAAATGGATCTAAAAAAAGAATAATCAATGAAATTAAAAAATATAGTATAATCTTTGATAAATTGTTTTTCAATTTTGTTTTTATCATTTTTTAAATCCTCCTTACCTCTATGAATTATTATAACTATAAATTAAAATAAAAATCTATAAAATTATCCAATAAAAAAATGGTAATTTAAATAAAATTACCATGTTTATTTTTTTAATTCAACTATCACATTACAAAATTCATAGTAAGCTTCTGCACCAATATCAATCATTGCATCAGTTAGTTCTTCTTCATTTTTTAAACCGTTAAATAAATTGTGTTTAAAATCATCTACATATTTTGTTAAACTTTTTTCGAATCCTTTAATCAAGTCATTTTTTGTTTTTTCACTAATTTCAATTCTACTTGCATTTAAAAATTCAAAATAGTCATTTAAAACTTGTAGTGAGTATGCTTTATATTTAACAGTTGCATAAAGTTGTGCTAATAAAATTAATTTTTTTGATTTAATATCTCCAAATTGTTTAATAAAATCCATTTCATTAAAATTAAATACAACATTTTTAAATTTAACTGTTAAATCATGGATTTTTATTTCTATTTCTTTTTTATCAAATTTAGAATCTAAGTTAAATAAAAAATTTTTAACTTTAATCTTATTTTTATCAATTTGTTTTTGAATGTACTCATATCGATTTGTTTGATTTGTTAAAGAGTCATAACTTCAAAATTTATAATCGTCAATAATATTAAATTTATGATTTTTCAAATCTGGAGTAATGCTTATAATTGGTTTTAAAGGAATAAGTTCAAGTTCTTTATCTTTTGGATCATTTTTTTTCATTCTTCTTACAATATCCATATTTATTTTTTTAGCTTTTTTTGCAATTAAATCAAAAAATATACTAGACAGAACTATACTACATAATGAATTAAACAAGATTGTTGTGATAGATAAAATAGTACAAATTACAGCAAAAGCACTTAAATTTAAAATAGGTATATTATTTTCATATTTTCAAAAATCTTTTGCATATCCTACAAGTTCAAAAACTTTACTTGATTTATTATAATCAAATGCTTGTGAAGATAAAAAAATAAATAAGCAGATATTTGAAATTATTAATATTAAATTATCTAATATTACAATAAAGTTCAAAGCAATTAATCCTACTTTTAATTTTTCATTTTGCTCTTTTGTTTTTTCTTTAAAAAGTTTATATGAATATTTAGAATAAAAATACATAATATAAATTGCAGCACCAATTTTAAAAATATTAAAAACATTAGCATCATTTAATCCTGCTTCAATAACTACTTGATTGTTATTGTTATCTTTAATATTAAAGTCATCTAATATATCTATGAAACCATCATATGTAAGTAACTTAAAATCTTGATAAATGCAAAGAATAATAAAAATTATACTTAAAGTCATCAAAGTAATACTATTTTTTTTATTTATTGCTCAAACTAGGCGCTTTTTATCTACCTTTGAAGCCATTGCACTTTTCATTAAATTTCCTCTTTCAAATCTTTACTTTAAATATTATATAAAAAACTATTATTAATTTCTAGTTATTTTTTTGCAATAAATGTTATAGTTTTTAAATTTATAAGAGTTTTATTATTATAATTTTTTATTATATCAATATTTTTAAAACCAATTGATTTTAAAATCATTTCAAATTCAAAAATCCCATATCACATTAATTTTACTTCTTGTTGTTCAACTAATTGATCATTTATTAAATAATCTATTTTAGTAATAGTAAATTGTTCTTCTCAATTGATTTCTTTACTATAATTATTTACTTGTAAATCAAATTCTTTTAAATTATGAGTGTAAAAATGATTTATCCCCTTTTTATATTCATTAGGCATAATTAAATCTATTGCTAATCTTCCATTTGAAATTAAACTAACATAAAAATTTGTTAAAACTTTTAATAGTTCTTGTCTAGATTCAATTAAACAAATACTTGCATTTGGCATAATAATATATTCATAATAATTTTCTTTTTTAAATGCTTTTAAATCTGCTTTTATTAGTGTTGTTTTAAGATTATTTGCTTTTAAATTTTTCAAACACAAATCTAGCATTTCATTTGACTTATCAACGCCTTCTATATCAATCTTATATTTTAAAAAAGGTATTAATAATCTACCATTTCCAACTCCCGCTTCTAAAACTTTTCCTTCAACTGGCATTAAAAGGTTTTTATAGAATTCTAAATCACCATCAACACTTGTACCTGGTGGTTTTGTAAAATCATAAAGCATACAACTATAATTTTTATATTGATTTTCCATAAAAAAAATCTCCTTAGTTATTAAATATACTATAAAGTATAGCAATTTACAAAGAGATTTGTTTTTTTTACATTGTATATTTTTTATGTTTTACATATTTAATAAGGTCATTTGCAAGTGTACCTTGAGCTTTTGCCAAAATTTCACTAAACTGAAATTCATTTGGTTCTTCTGACATTGTGTCACTTACAATTTTAAATGAAATTATTGGTTTATTTAAATTGTATGCTGCTTGAAAAAAACCATTACATTCCATATCAACAACATCAATTTTATCTCCAATTTTATTAACAAAAAATTCAACTTGTTCTTTTTTACTTATAAAAATATCACTTGTTGCAATATTTGTATATTCGATGTTTCCTATAAAACTTTTAAATTCTTTATTTACAATCGAATCACTTGTAAAGTATCTGGGCATTTTTGGAATTTGTCCGTATGCATAACCAAATCCAGTAGCATTTGCAGCTCCATAATAAGCTTTACTTACAAGTAATTTATCAAGTCTTTTGAAATCAGAGTTAATACATCCAACTAATCCTGAGTTTATAAATAAATCAATATTTTCATATTCCGAATTTAAGTAAGTTAAACAAGTAGCTGCATTTACAATACCAATTCCGCTGATCGCAATTAAAACTTTATCTTTTTTATATATTAGAAATGGATCTGAAGTAATTTGTTCAGCTTCTAAAAGTCCGATAAAATCTTCTGCTTCTTGTTCCATAGCAAATAACACACAAACTTTACTCACTATTTACCTCCTCCTTTACTCAATATTTATATGAATCAATTAGTTTTGATCCAATATTTTCTTTTCCGTGTTTTTTTACAGATGCTTCATATTGATTTTTTAGCAATTCTATAAAACCAAGTTTTAAATCTCTATAAACCAAAGTTCTTATTTTTTCAATACCAGGATAATCTCTTTCGATTGAAATTTTATCAGCGCAAAACACAATCATATCCAAAACTGACATTTCTTTGTCAGCAACAGTATGTTTAAATATTGCATTGATTATTTCTTCATCATCAAATAATCATTCATATTTTAAATGAAAAGCACCCGAAAAGGAATGCCAAACTGGTTTTGGTTCTTTTAATAAAGATTGATCGTACTTTTTAATTATATCAATTGTTTTTTCATCATTTCATCTTTTTGTAATATCATGTAAAGTTCCTGCAATTAAAGCTTTTTGTAAATCATAATTATTCATTTGCGCCAATTGCAATGCTGCTTGACCTGTATTTAAACAATGAAAATATCTATCTTCTTCCATTTTTGTTTCAAGTCTTTCATATAAATACAATAAAGATTTATTTATATAGTCATTTACTTCTTTAATTTGTAAATCTATATCAATTAAGTTTCTAATTTTAGTAGAACTTAAAAAGTTATTATCGAATTTAAAAGTTTCTAAATTATATTTTTTTATTATTTCATTATTTATATGTTCTGGGTCTCTTATAAAAACTTTAAATTTGACAGTTTTTATCAAATCACTAAAATGATCTCATTTTTCAAAATTATCAAGTTGATCTGAACCCATTATAAATGAAAAATCAAAATTAGGATAGTTTGTAACATAGTGCAAAATTGTATCATAAGTATAACTTCTTACTGTTTTTCTAATTTCAAATTTTTTTACTTTTACATAATTTAAATTTTTTACTGCCAAATCAATCATTTCAAGTCTTTGTGTAACACTAGAAGTTGAAACTGTCTTAAAGGGGTTTACATATGCAGGTAATACTCAAACTTCATCAAAGCCTAAATCATATTTGCAAGTTTTAATTATATTTACATGATCTGTATGAATTGGATCAAAAGATCCGCCAAATATTGCTATTTTTTTCATTAGCCATTAGAAAGTAAACTTGTTAAGTACTTTCCAACCCCGTTTTCATCAATACTTTCTAAAACTTTTTTTGCAACTTTTTTAAGAGGTTCAACTGCATTCCCAACACAACACCCATTATCTGATAACTCTACCATTTCTAGATCATTATTATTATCACCAACTACATGAATATCTTTAACATTTAGTTTTTTTATCTCAGCAAACATTTTTAATCCAAATGCTTTATTAATACCACTGTTCATAGCATCAACTAAAATTCTACCTTGCATTCTTGTTGTTGGATGCGATAGATTTAATGAACTTAATAATTTATAAGTTTTATTTAACAATCTTTCATCTTTATTATCTGGAAAAGAAAATAAAAATTTAACTGGATTATAAGTTTTATTCATAATCACTTCTTTTAAATCATTTAATGATTCTACAAACTCAATATCTGGTTGTAATGACTTTTCATAATCTTTATATAAATTTTGAAAATATAAAGCTCTTTCTGCAGTTTTTGGAGCAACTAAATAATCAGCTGAATAAAACAATAAATCTATATTATTTTCAATTGCAAAATCGAGTAGTTTTTCACTTATATTTAAGTCAATTACACTTTCAAATAGTACTTCTCTTGTAATTGGGTCTGTAATAGTTGCGCCATTACATCCAATAACAGGAAGTGTTATATCAAGTTGAGAAACATAAACTTTGGTTGTTGCAAAAGTTCTTCCAGTTATTAACATAAATTTTGAATCACTTTTTTCTTGATAATTAAGAATATCTTTAACAGTTTCGTTTAATATTTTAAAATTAGAATTTAGAACTATAGTTCCATCTAAATCACTTGCAACATAAGGTAATTTCATATTTCCTCCTTATATGTTTACTACTATACCTTTATATAAATTTAACACTTTTTTATATAAATACAATTTTTAAATGAAATATTATTTTTTGTAAATAAAATTAGTTAAAAAATGCTCAATTGCCGGAAAAGCAACAATGTATAGTTTAATTCCATTATCTAAATCAATTCTTGGATTAACTTCAAGAATATCATTTACTAAAAGAACCATTGAAAACTGACAATCTTTTGGCAGTTTCAATTGTTTTGATATTTTTTTATAATCTTTAAAGATTATATTAAATCTTGGTGTTATAACTTTTTTTATAATATTATCTAAACCTTTATAAGTTATTAAACCACATTTATAGATATGTCACATTTGTGGCGCTTCTGGAAAGAAGTGGTTAACAAAGAAAAAACATTTTTTAATATTTTCTTCATAAGCAATAGCGTCAACAAAAACCTCATCAACACTACCTCGATTAATATTTGCTTTTTGCTGAAAAAAAGGAATTTTTTCAGGTTCAATATTTTTTATTATTGAAAATCGCTTGTGCAGACTAACCAATGAATCTTTTAACATTTCTCTCAATCTTGAATTCATAAGTTTATTAAAATTTGTCAAAATCGAAGCATCAAATAACATTCATTCTTTATGAGCATGAAAACTCATTCAAATAATTTCTGGAAATCCGACTAAATTACTTTTTTTATTATTATCAAAAAAAGCTAATAAAGGTTTTTTATAAATACCTTCTTGATAAAAATCTTCTAATACATTTTTTTTAAAAGGTTCATCTCTTTGTCTAGAATAAGTTATATTTTTTATCAAACTAACCACTCATTCACCACTTAAACGGTTATGAAAATGTTTAAATATTGTTCCATATAGATTTGTAACATAACCTTCATAATCATAAACGTTATAATACCTAAATGAAAAGATTAGAGTTTCTAAAATTTCTAGATATTCATTTAAGTTTAAACTTTCACTATATGATACTTTTGAATAAATATCTTCACGATTCGCACGAATACTTCTTTTTAAAGAATCATCAATTCAAATATTATAATCAAAAATAAATTCTTTTCTTTTTATTTCTAAATCGTCATCATCTAATTTAAAAATAGAGTCAAAATTTAAAGGTTTTAAAGCATTATAAGCAACTTTAATAGATGATAAATTATCTGGTTCTAGTTCTAAAATATATTCTCTTAATTCTTTTGCTTGTTTTACATAACTTTGCATCCAAATCAACATAAATAAATCTTTATAAGCTTTCAAATCATATATTTTTGTATCAACAAATTCATCCATTTTTGTAAAATAAATCAAATATTCAAAATCTTGTCCCATAATCGCAAAACTTCATGCTGATAATGACTCGTAAAAAACTCTAAGACTTTGCAAATAAATCTTATAACTAAACTTTTCATTTCCAAATTTATGAACTCTTAAATCAACATTATATTTAGTTTTATTAACTGTTGAAAGTAACATATATTCTTGTGCTAATAATCTTGCAGATAAATAAAGCATTGAACAAACAAAAGCTCTACCTGACTCTTTTAATTTTTCTTCTCCAACTGCAATAAACCCTAAATGTGAATCTCTTAAATGAGTACTATAGAATTGAATTTTTTTATAGATTTCTTTTTCTAACTCATAAAAAAAATCTGCCATTCGGTTTTCATTTTTGCTCATAATATTAATCATTAATTTAATATCATCTGGGGTGATACCAAAATAGTCAAAATAATTTAATTGACTGTTAAAATCATAAAAATTACCTCTCCCAGAAAGTTTTTTAAAGAAATCAAATTCTATTTCCATATTATCCCCTATTTTGATAACTAAATTAATTATACCTTATTTATTTTTATAAAAAATCTTTCATTAATTTGTAAAAAAATACTTGTATTGTAAAAAAATAAGTGATATATTTAATATGTCCTTTAGGGCGCACTTATGGTTGCAAATATTTAATACATCACTTTCATTAAATATTCGCTAAACAACATCCTTTCTTTCGACTCGACTTGTATCTACTTCCATAAGTGCTCAGTTGGTATAAGTCTTATTCATTACTCATTCATATCTTTTTAATTATTAGTAAATCAACATTTATATTATGTGAAAACATACTAAATAATAAAAAAAAAGCGTTCTACTCAAACGCTTTTTTTCTGTTTAATTTTAATAAAATAAAAAGCTCAAGTTTTTGAGCTTTTTTTATTGATCATTTCCAGGGTATCAATCAATATTGTTTTCGTTTAAACGAACTAATTGATCTCATAGCTGAGAAATTACATCTTCATTTTGATTTTCATAGAATATTTTTAATAACATTGGAACTTGTGCATCCATTATGTCATTTCCTTCTAATTTTCATCATGTTTTTCTATCTAATGATTTATAGGTCTCATAAACTTCACCATAGTTATTTAATATTGAGGCTGAATATTGAAGACTTATGTTTGATACATAATTATTAATTGATTTAGTTCCTTCTTTATAAATTCCATTTCTTAATTGAGATTCACCAGAACCAAGTACATCAACTGGTGCAGCATGGAATGGTAAACCATTAAAGTTATTTTTTAAATTACTTAAATGAGCAGCAAATTGTTTATCATCATTCTTTTCTAATTGATTAAATAATTGCGCTTCTGTAATAATATCATTGATATTCAATCGTTTTTTGATCAACTCTCAATTATCAACACCTTCTTCACCTGCAAAATCAGAAGAAATATCATATGTTCATATATTTCCTTTTCTAATTACGTCTCTTGGAGTCAATAAATCAGTTGCTAAAGCTTGATTTTGTACATCAAAGGCAGTTAATATTTTTTGATCAACTAATGATGAAATTATATCCATTAAATATCTAATTCTAAATTTATCTTTATCATCGTCGATATTAGAATTATATTTTTTTAATAAACTAATCAATTCATTTACATTGCTTGGAACATTTCCATTTTCATCTGCAAATAAATCTAGGAAAATCATTGTATCGTTAGTTGAACCATAAGCATTATCTTCTGCTTTCGCTGTTAAATAAACATGAGCTGAGTTATATTTCAAGTATTTTGATAATAATCCTGATATTCTTGGTTGTATAAATAAATTATTAAATCCAATGTCACTAATGAATTCAGTTTTGTTGTATCATTCAACAAACTCATTTGTTGAACTAGGCATTAATTTAACATTTTCTGCATCTGGATCATATCAATACTTGCTCATTTCTACTTCATTTTCTTCGTCTTCTTTAATAAATTCTTTGTAATAGTAATTCATTTTAAATAAAGTATTGAAATTAAGACCAAAGAATAAGTAATCTCTAACATTTTCAAGTTTAATTTTGTTATAGACTCATTTACTACTATTGCTTTCTGAATTTGCGCTATTTAAATCAAGTGAAAAATCATACATAGTTAAGTTAAATTCTTTAGAAGTAAAATCTTTTTGTTCTCCTGCGCCGAGACTTAAATATCTACTTGAAAAGAATGTTCTATCCATTCTTTCGTACAAGTTGCTGATATCTTCTTCTTTAACATTATTTTGTGCATTATTATCTTGTAATTCACTATAATAAGTTAAATCATCTTGAAGTTTTTGTTTTAACTCATCATCTTTTACAATATTAATAATCATTTTTGTATTTTCAATTAATTGAGCAAAAAATTCTGATCAAACTCTTGCTGCTTCAATTTTATCTTCGTCTTCAATTGGTGTTGCATCTCCAATTAAGTTATTTCTTTTAATAAGTTCCATAAATACGACTGAAAATACTTGATTTCTCATTCTATTTTCAATATCAAAAATATCAGTAGATTCACTTAAAATAATTTGATTGTTTTTTAAATTTGTAGATACTTTATCTTTTATTTCTTCTTGTTTTTCTTTTAAAATTCTATTTATTAATTGAGAATTTAATAAAATATTATTAACAAAATCACTTACAGAAGGACTATATCCAAGAATTGATGCAGGTAAACTAGTATCTGTTTCATCAAAAATATTTGCTAATTCAATTAAAGTAGAACTATTTGTAAATCCTTGATAAATAACTCCCCTTTTTTCAGTTTGAGTATTTGAAGATGAAGAAATAGGATCTACTGCTAGAGGAATTTTATCATTTTTTGGTTCTTTTCAAACTGCTCCTACTGTTGAATTTTTGACATCAACAGAAGTATCGCTATTAACTTTAATACTTCTATTTATATTTATACGTGCATATGCTGGTGCTTTTTTTGGATTAGTTCAACCTACTAATTCATCATTTAAAAATGTCACAGAAACAGATCAATCATTTTTTCCTAATCATCCAGCAGCATTTTCTGCTAATGCTTGTTTTCCTTTATTTAAATTTAATAAGTCTCTTAAATTTCATTTTGAAGCTTGTCATTGTAACTTTGAATATAATCATCCAAAGCCCGGAACTTTTTGAGCGATTTGAGTAACAAGTTGGTTTGACATAATATATGTTCTTAAACTTGACATAAACGCCCCAGTAACCGCTTTATCTCCATTTTTTACGATATCTGAAAAACCTAATGCTGCAATAATAGCATCTGCATTTTTAGCTTCAATTCCTGCACCCATTTTTACATTATTTTCTTTTAGTTTTTTAGTATCTAGTGTAGTTAATGAAAGTATTTTTTGTTGATCTGAATAAGACCAAGACATTCCAGCTCCACCTTCACATGATGCGACAAGCGATGTTGATGCTGAACCCATTAAAACCGTCATCAATAAACTCATTATTTTTTTCAAAACTAGCACCCACCTTTTATAAAATTATATCAAACAAAAATTGCAAATATCTATTATTACTAATAATATTTGCAAACAAAATTATTTTTTTCTCTTTTTTTCAAGTTTTTCAATTCTTTTTTGATCTTTTTTTTCATAATATGATGCTTTTCATTTTTCAATAACTATATTTATTTTTTTAAATACATATGCACAACCAATTCCAATTCCTCATCCAAACACTACCACTGAATAAAAACATCCTACACCATAGTATAAAAAAGCAAATATTCCAGCAACATGTTTTAAGTAATTATCACCAAATGTTCCCAGAATTGCTAAAAAGGTTTTATGAGGTAATATCCCACCACCACCAATGTAAGAAAATAAGCCAGGAATTAATATAAAAGAACCCGCAAGAATAGAATAATGTATAAATTTACTTCATTTTAAATACTCATCTTTTGGTACATTTATAAATTTATCACTTAAAACCTCTTCAATTAATCATCTAACTGAAACAAAATATAAGATTGGAACTATTATAATAACCGGCACTAAAGCAACTCCTGCTGCAAAAATAAAACCATGAGCAGCATTAGGTTCAACTAAACTTTTTCCAAAAAGAGCATAAAATCCAAAAACATAATATTTAAAACCTGATTCAATATGTGGAACAATCATACTAAAAATTAGCATAAAAAACTGAAATAAATATAAACAAACTAAAGTAAAAGATAATCAAAACATTTTATATAATCTTTGATAGGGTTTAAGTTTAATTAAAAAGTTTGTAAATAATTTCATATATCTGTTCCTTTCAATAATAATATTTTAAATTATTTTTATAAATATAAGTAAAATTTTATATAATTTTAGTTAAAATATCTCTAGGTAGGTTAGCTATGAATGTAATAAAAGTAACACCAAGAGGCTTTTGTTTAGGCGTTGTAAAATCAATAAAAATGGCAAGAGATGCTTTAAAAACATATCCTGATAAACAAATATATATGATTGGATTATTAGTTCATAACAAAATTATTGTAAAAGAACTTGAAGATCAAGGAATTATTGCCATCGATGATTGAAAAAAATCCAGAATGGATATAATAAAACAAATTCCAAAAGGAAGTGTTGTTATTTTTTCAGCACATGGAACTAATGGGGATGTTGTTAAAAAAGCAAATGAATTAGGATTAATTTGTATAGATACAAAATGTGAATGAGTTTTAGAAACCGAAGACTTAATAAAAGAATATTTAAATAAAAATTATGAAATTATTTTTATAGGTACCTATTTTCATCCTGAAACAATTGCATTAACAAGTATTAATGATAAAAACATTCATTTAGTAACCAATATTTATGAAGTAAAAAAATTGAATATAGATAACAAAAAAATTTTAGCAACAAATCAAACTACATTATCAATAATTGATACCGAACTTATTTATAATGAAATCAAAAATAAGTATCCAAATTGCATAATAAAAAATGATATTTGTGAAGCAACACTATTAAGACAGCAAGCGGTTTTAGACTTAGATGAAAATCACATTGATTTATTATATGTTGTTGGAGATAAAAGAAGCAATAATACATTAAAACTTGTAGAACTAGGTAATAATAAAGGGATTAAATCTTTAAGAATTGATAGAAAAGAAGATATCAATAAAAATGATTTAATAAATATAAAAACAGTTGCAGTAACAGCTGGTGCTTCAACAAGTAGTATCATTCAAAATGAGGTAATAAAATTTTTAGAAGAAATTGAATAAAAAAAATCAGAAATCTGATTTTTTTTAAATGTAATTAAATGTATTTTTGATGTCGTAAGGAATTACAACTATGTCATCTCCAAATGTTTTATTTATTTTTCCAGAAATATCATCAATAAAGTGATTTTCCATATAATGTCCTAATGTTAACATTGTGATTTCGTTTTGGTCTGCATAAAGTCATTCGCTTCATTTTGCTTCACCTGTTACAAATACATTATTCTCAAGTTGTTCAGAAATCATACAATCAGCTCCAGCCCCTGGAGCTATATAGAATTTTTTTATCAAACAGTCTAAATTTGCATTTTTTGAAAGTAAACTGCTTTGTTTTCCAAAGACAAATTGCATTTTTTGAATTACTTCTTTTAATGTCAATTCACTTAATAACTTAACTTTATATCCTTCTTTAATAGAACCAATCTTAGTTGCTTCTTCTATATTAAATTGACTTGCTAATAATTCCATTAAATTATTATTTTTACTAGTATCATAGTTTGTGTGAATTGAATATACTTGAATTTCATTTTCAATTAATTGTTGATAAATTACTTTTTTTGCTTGATTCTTCATTTCCTGATCTAATTCATTAAAAATGAAAGGATGCTTTGTAATTATAAAATTTGATTTAATTTCTATAGCTTTATTTAATGCTTCTTTTGTTAAATCTAAACAAACTACTACATTTTCTACAACATCTTGACTTGGTAAACCATACACTTCTTGAATTTGAAATCCAACCTTATCTCATTCTGGTATTTGTTCTGTTGGGAATAAATCATTTAAATACTTAACCATATCGCTGGTCTTAATTTTTGACATCGTTTAAATTCTCCTTTTTTAACATTTTTGATATTAATTTCTTTCTTTTCATAAATCTTTTAAAATTTTTATCTTTTTTAGGAATTTGATTTAATAAAGAAACTAGTTTTTGTTCTTCAATCATTCATTTTTCAATAAACAATGAATTATTTTTATTTTTAGAAATAATCGGACCGAATATAACATCTTTTTTTGACTTAATTTTTTGTCCAGCAAACTTATTTATTTTAAAAACCTCATAAATAATATCGTTATCCTTGATTATATTTTCTGATTCAATATAATATTTTTTTTCTTTCACTCATAATCGTATATTTTCAGCATTAGTGTTTGAAGATATTACATAACAATCAATATTATCATTATCTTCTTTTAAAATATTTAGAACTGTATTTGAACCCATTCCTGCAATAATGCATGAGGTTATTTTAATATTTTTTTGTTTTGTTCATCCAATACCATCCGTTAAAAGCGTTTCTATTCTATCACTAACTCCAAAACTCAAAATATTATTTTTAGCAACTGATAATGGCTTTTCGGCAACATCAGTTGCATAAATTTTTTTAGCTTTGTTGTCTTTTGCTAAATAAATAGCAATATAACCATGATCTGTTCCTATATCAGCAACAATTTCTCCGTCTGAAATCATTTTACTAATAGCAATTAATCTTGGTGTAAGAATACTCATATTAACCTTTAAAGAAATCCCTTAAAACTTTGGCTTTTGGATTAGAAGCTGAAGGTTTAAATTTTCTAATAGTTTTTGCTTCTATTTGTCTGATTCTTTCTCTTGTTACTTTTAATTCTTTTCCAACTTCTTCTAAAGTTTTTGGAGAATCATATTTTGCTAAATGTAATTGGATCATTTTAGTTTTATATTTTTTGTTTGCTTGAATTTTTTCAATTGTAGTATCATAGTGAATATCTAATTCATTAATAGTTTCTTTTAAATCTTCAAAAGTTTCGTCTTCACATTCTTCTGCTAATCTAACTAATGTTCTTAGTTTTGTTGGTAAAATTCCAAAACGCATACGAATAACCTTTTCTTCTCTTGGTTGTAAAATTTCTGCAAAAACATCATCTATGACTTCACGTAAAGCTTCTTTTTCTGCATATTCATCTGGTGAAGCGATATCTTTATCTTCAACAAAATCTCCAAAGTGAGTATCATCTTCATCCCCAAATGGTTTTTCTAAACTTACTGGTTCTATTGATAACTTTTTAATTTCAATAACTTTTTGAGCAGTAAATCCTTTTCCAAACTTTTTAGCAACTTCTTTTGGTGTTGGTTCTCTTCCTAGTTCCTGAGTTAATTGTCTTTCGATTCTTGTAAGTTTGTTAATTGTTTCAACCATATGAACCGGGATACGAATTGTTCTTGCTTGATCCGCTATAGCTCTTGTAATCGCTTGACGAATTCATCATGTTGCATAAGTTGAAAATTTAAAACCTTTTGTATAATCAAATTTATCAACAGCTTTCATTAATCCAATATTTCCTTCTTCAATTAAATCCGCAAAGTCTAAACCACGGTTTAAATGTTTTCTAGCAACTGAAATAACCAATTTAAGATTAGAAGTTATTAATTTATCTCTACCTTCTTTTACAATATCTGGATCTTCATCTTCTAACATTTTTGCATATTCTACTTCTTCATCTTTTGTTAAAATTTTTGAATAACCAATTTGATTAAAGTAAGATTTAATAATATCTTGAATTTTAGTATCATTACTAATTCCGCCAACTCTATATTTAAGTTGAGTAGAACTAGTACTTCCATCTTTAATTTTTTTTGAATCTTTTTTTATCGTTTTAAACTTAGCAGCTAATTCATCTGCAGTTTCAGAATCATCGTCTTCATCGTCTTCATCATCTAAATCTGATAATTTTTCCAAATCTTCTTCATCAATTAATTCATCTGTAAAAACTACATTTCTATTTGCTAATTCTTCAAAAATTTGTGATAATTCTTCTTCTTCGATATTAGGAAATTTTTTATTTACTGCTTCATAAATTTCTTCTTGTGAAATTTCATTATCATTTTTTTCTAAATAAATAATTAAATACTCTTTAAATTCTTCTAGTGTATTAAACTTTTTAAGATTCATTGTCATAATATGTACCACCTTTGTTTCTAAATTTTATATAATTTTTGGATAATAACTCAAAGTTTTCTGCTAATTCTTTTTTTATGAACTGATCTGTTGCTTTTTTTAATTCTTCAGCTTTTTTACTTAATTCATCAAGTTGTTTATATAGTTCAATTTGATAAAACATATCTTCTATTGCCTTTTGACTAACTACTTTGCTATGTTCCAAAAATAATACTTTTTTCATTTTTTTTAGAACATTGTAATAATGCTGATTAGTTTTTTCAAAAATATTTTCAATAGCTTCATAATCATTACCAATATAATTATTGCTTCTATATTCTTCGATAATTCTTTTTACAATAATTTTGCAACTCGCACTATCGAATTTGTTAATATTTTTTTCAATGATATTTAAATGTATATCACTTTTAATTAAACTCAAAACAATGCTTGCTTCTGCTAAGTTTTTTGTTCTTTTTGCGAGTTTTAATGTTCTTTTTATATATGATTCTTCAAGTTTAACATCACTTGGTATTTTTTCTTCATAATAATCATCTATATAAAAATCTTTATCCCTTGGTATGAATTTATTGAAATCTGGTATTGCATTTTCAAAATCTATTGGTTCATAATTTTGAACATACTCAACCGCTTCATTTACATTATCATTTACTTTTAAAGGTTCTTTTACTTGTTTTTTAATTACTTCTTTGTCAATATTTGTTAATTTTGATAATCTTTCAATACTTGATTCTCTTAAAATTTCACTTGACTCATGACTAATTACATCAGTTACAATATCTATAAATTCTTTAATTTCTCAAGAATTTTGTAAATCGTATTTTTTTTGATAATAATTAATAACAAAATCAATTGGTGATAGTGCTTTTTTAATCATTTCTTTAATTAAATTTGCATTTCCTTCGACAACTAACTCATCAGGATCTTTATATGTATTATTATAAATAATTTGTACATTTATTCTTTTATCCATTAGAAACTTCGCCGCTTTTAAAGCAGCTTTTATTCCAGGATCATCTCCATCCAAAAACAATTTAAAGTTTTTTGTGAACTTAGAAAATAATTTAACATGATAATCTGTAAAACTCGTCCCCATTATTGCAACTGAGTTATGAATATCAATTCTTTCTAAACTTATAACATCCATAAATCCTTCAAGAATTATGACTTCATCATTAATTCTTATATCTTTTCTTGCGTTTGCAAAATTGTAAGCAAGATGTGATTTTTTAAAAACTAAATTTTCTGAACTATTTTTATATTTTGGTTCTTCACCATCAATAAATGCTCTTCCTGAAAATCCAATAATATTTTGTTCATCATCTGTAATCGGAAAAACAATTCTATTTTCAAATACACACCGATTATTTACACCCTTTGTATAAAATAACCCAGAAGCAATAATATCGTTTTCTTGATGACCTTTTTTTAATAAAATATTATATAGTTCAATATTTTTTGGAACAAAACCAATTAAAAATTTATTAATCTCATTTGGTTTAATATTTCTTTTTTCTAAATATTGTTTTGCTAATTTTGCTGTTTTTGTTATTAATAATCCATTAAAAAACTTTGCAGCATCATTATTTATATCAAATATTTTTTGTGCTGCACTTGAATATTTAGGTTTATCATCTACAAGTTTTAAACCCGCAATACTAATATTAGCATCTTTTGCAATTAGAGAAATTGCTTTTAAAAAAGTTACATTATTAAATTCTTCAACAAATGTTATAACATTTCCTCCAACTCCACAGACAAAGCATTTAAAAATTTTTTTATCTTGCGATATACTTAAGGATGGATCTGAGTCATCATGAAAAGGACAAACAGCTATATAGTTTCTACCTTTTTTTTGTATATCAATATATTTACCAATAATATCAACAATATTAACTTGATTTAATATATTATCAATTTCATTTCTACTAATAGCCATATTATCACCTCCAAATTATGATAATTTGTTTTTTAAATAGCTATTTAAATCTGGTATTGATATTCTTTCTTGTTCCATAGTATCTCTATTTCTAATCGTTACACAATTATCATTTTGAGTATCAAAATCAATTGTTATACAATATGGAGTTCCTATTGCATCTTGTCTACGATATCTTTTTCCTATGTTACCTTTTTCGTCAAAAGTACAAGCTATATTTAAATTTTTATTAATATGTTCATATACTTCTAAACTTTTATCTATTTGTTGTTTTTGTAAAGGTAGGATAGCAATTTTATAAGGAGCTAAATTAACTGGAAGTTGCATCACAATTCTTTCTCCATTATCAAGTTTTTCTTCTTTATAACTTTGACAAAATATAGCCAATAATAATCTTTCAACTCCAACACTTGGTTCGATTACATGAGCTAAATATTTTTCATTAGTATTTGGATCTAAATAAGTAAGATCTTCTCCACTTACTTTTTGATGCTGAGACAAATCAAAATTCCCTCTATTTGCAATTCCTCATAATTCACCAATTCCAAATGGAAATTTAAATTCAATATCAACTGTTCTTGATGAGTAATGAGCAAGTTCTTCTTTATCATGTTCTCTTAAAATATAATTTTCTTTACTTATTTTTACTATATTATCTAAAAATTCTTGTACTTGATTAAGTCAATATTCAAATCAGTCTTTTGAATCATTTGGTGAAAAGAAGAACTCTAACTCCATTTGTTCAAACTCTCTTGTTCTAAAAATAAAATTTCCAGGTGTTATTTCATTTCTAAATGATTTACCAATTTGTCCAATTCCAAATGGTAGTTGTTTACGAAGAGTTCTTTGCGCATTTTTGTATTGAACAAATATTCCTTGTGCAGTTTCTGGTCTTAAATAAACTATTGAACTTGCATCTTCTACAACTCCTTGATTAGTTTTAAACATTAATTCAAATTTTCTTATATTTGTAAAATCACATTTCTCACATTTAGGACATTTTATTTGTTTTTCTTTAATAAAATCTTCAAGTTGAGTATCACTTCAACCCCCAACATTTAAATCTAAAAATTTTTCTTCGATTAATTTGTCAGCTCTTCATCTAGATTTGCAGTTTTTACAATCCAATAATGGATCATTAAAATTACCTACATGACCACTAGCTTGTCAAACTTTTGAATTCATTATAATAGAAGTATCAAGACCAATATTATAAGGATTTTTTTTAATAAAAAAATCTCATCACGCTTGTTTTAAATTATTTTTAAGTTCTGCTCCAAGTGGACCATAATCTCAAGAATTAGCAAGCCCTCCATAAATTTCTGAACCTTGAAATACAAACCCCATAGATTTAAGGTGTGCAATTAGCTTTTCCATTTCGATTTTCATTTGTTATCTCCCATATAAAAAGTTTCTAGCACAAACTTTTCAGTCGATGCTAGAAAAACATTATAATTTTGTGCTTTAAGCACTACTTTGTCAACCCACTATAAGTGTTATTTATATTGTATAGCATTTACTTCACTTATGAAAGTAGATGCACTATTTTTTAGTATTCTTGAACCGCTTATAAATATGCCTAAATCACTCTCTAAATAATCTAACATAAGATTATGTAAAACTATAATATCAACTGCATTATATCTTTGATCTACTAAATAGTTAAATGTATGTTTATTGAAGTTTGAAAGAATATTTACAAAAGAGAGTGGTTGAATAATTTCTCCTGGTCATAAACATCGTTTACATACCAAAGTTTTATCGCTATATTCAAACCTTACAATTGGATAGTCTCTTTTTTTGCATCTTGAACAATAGTTTAAATTAAATTTATACTCACTATTTTGAATATAAAATAATAAAAATAGTACATAGTTATTAAAAACATTGATGTTATTATCAATGTTTTCTAGCATAGTTTTAAAAGCATTATATATTTTATAGTTTTGAAAACCAGGAACTGATAATTGTTCTATCATACTTATTGTTACACTTACATAAACATAATTAACATAAGTTTTTGCAATATTAAAATACTCTTTTTTTAAATTACCAGTTTTTAATTTACTGATTTTATTATCACTTCTACTTTTAAAAATTTCAAAATCACTATAACTTAAAGTTTGTATTGAATACTTATTTTTAGAAGCTTCTTTATTAACCCCTGGAGCAAAAAAAGATAGAACTCCATATTGTTTTGAATATACTTTTATTACTTTTGCATAATCATCATAATCATAACTATTCAAAACAAATCCTTCTATTTTTATAGCTGCCATAAAATCACCTAATATGTATCAGTATCATAACCTAATTGTTTAATTAATGACGCAGAATTTCTTCATTTATCTTTAACTTTCACAAATAGTTCTAAGTAAAATTTATTTGCAAATAATATCTCAAGTTTTTCTCTTGATTTTATTCCAATTTGTTTTATTTTACTTCCCTTGTTACCAATAATAATTCCTTTTTGACTATTTCTTTCACAAATAATTGAAGCAATAACTTTAATAATATGAGTATTTTCTTCAAATTTATCTATTAATATTGCTACACTATGAGGAATTTCTTGTTCAGTTTGTAACAAAATCTCTTCTCTTATTATTTCTCTAATTATAAAACGATCTGGTTGATCTGTATATTGATCATCTGGATAAAACTTAATACCAGTTTCAGGTAAAACATTTTTTATCTCATCTAGTAAATCAATTAAATTTTCTCCCATAGTTGCACTAATTGAAATAGTTTTTGCAAATTTAAACTCTTGACGATTTCACTCTTCAATTTTTGCTTGTAATTGTTCTTTACTAACTAAATCTGATTTAGTTATTACTAAAAAGGTAGGAACATCACGTTCTTTTAAAGCGTTTAAAATAAATTGATCATTTTCTCCAATAAATTCATTACTTGGTGCTAAAAATAAAATTGCATCAACCCCTTTAGTTGATTGAATTGCAGTTTTATTCATAAATCTATCTAACTCATTTTTTGCTTTATGCACTCCTGGTGTATCAACAAAAACGTATTGACAATCAGGCTTATTTAAAATCCCATTGATTCTATTTCTTGTAGTTTGTGCTTTTGGAGTAATAATTGAAACTTTTTTTTCTAATAATGAGTTTAATAATGTTGATTTACCAACATTTGGTCTTCCAATTATTGATATAAATCCTGATTTTATTTTTTCCACATTTTTCTCCACCTACACACTTGTAGGTTCTAATTTTCTATCTTCTTCTCTTTTTTCTAAAAATTTCTCAAAGTCATCTTTGTTGTCAAACATATTTAAAACAACAGCTTTTATTTCTTGTGCATCTTTTATAGTTCATGTATATCTAATCGAAGCTTTTAAACTTAATACCCAAGGTATTAATAACAATCCATAAAAATACATATATCAATTGTATTGTTGCCAGGCATTATTTTGAATTAAAGTTAAAGCATAAATTAAAAGACCAAGCAAAAATGTTTGATTTACTCAAAAAAATATCAAACTATATTTATTATAAGGAACAACATAGGCACCTAAAAATACAATATATCCAAATATTAAAATAATATACTTAGTTAATTCATAATGAGTATTTAAAAATACATCTGTTATTTCAAAAACACTTGCTAATATAATTGCAAATCATCCTGCTGCAATCATTTCTCTTCTAGCTTTGATTTCACCAGGAGTTACTCAAGTTTTAAAAACAAAAGCATTTTCTTTATCTTCTGTTTTTCTATATCTATCAATTCTAATTCATTCTCGATTTCACATATTAACATCTTTAAAAATACCTATTAAAGGTCTAAATGATCTTAATAGTAAATAGATTCCAACAATTCAAAGCCATTGGGTTTTTACCATTTCTCATACGTAACTTATATCTTTAAATTTTTTTAAAATACCTACTCAATCTAAAACAAATAAAAAACTACCATAGAGCAATGCTTCAGCTATAAATAAGAAATTATAAATCGTTGTAAAAATAATGGTTCCAATTCCCAAAGTTTGATTTAACATAACTATCATAGTAATTGAAAGTAATAAAATATGATATAGTTGTAAAGCTACAAAAATATTTAACAAGTTAACTTGATCTCTAAATAAATAGTTATCTTCACTTGGTACTATAAAAGATTTGTTTGCTTCAATTTGAACAGCAACTCTTGCATAAATAAAATAAAAAACAAAGATTAATTGAAATGGGAGAGCATATGTAGCAGCACATAAACATCTAATTCTTGCTAAAAAATCACCTTCAGAAACCATGTTAACGTGTTTAGATTTTAAAAACCTTTTAGTATACATGTTTCCAACTGGTCCATGAATTAAAGCTTCTTGAAGTGCTTCTCTTCTTCTTTTCGCAAAGAGAATTCCTCCTTTGCTTCTTCTTCTAGTTGTTCCCACTATTTTTCTCTCCTTAAAATGCTATATTTACAAGTATAAAAATAAATCCCACAGCAATTGGTACTATTGCTCCAAAATATACTATTTTAAAATCTTTTCAAACTTTTTCCTTTTTAGATAAATTAATTTGTCTAACTTCATCGTTTACAACTTTTTTAACTCTAACTCATTCATAGTATTTATTTATACCACATAATACAAAAGCACACATTAACAATACTCAAATTGATACAAACCCTGTATTTGAATCCATATTTTTTTGGTCAAATAATCATTTAAAAAAGTCTAAATAACTTCCTCCACAAATGATCAAAATACACACCACCATTATGAAAAAATGATACATTGCCCTTTTCCAAATGACTTCAAAGATAAACTTTTTAGCATATAATTCATTAAAATATCAAACTAAATCTCTTGAGTTATATTCCATAGCTCCTTTAAATATTGTTTTTGCATAATGCACATCTCTATACAATCTAACTTTATCAATACCTGTTATTCTTGGTAATTTTAAATCGTATTTTAGCTTTTCAAAAAGTTTTTCACCATCAACCTTAGTATGCAATCTTAAATTCAAAATTCTTTTTTGAATTCCAGCAAAATAAAGAGGTGTAATTATTATCATAAGCATTCCAATCGCAGACAAAACATCTGAAACAATTGTTTTTTCTGAAATTCCCATATTTTCACCTCTAACTTATATAATTATATAAAATATTTGCTTAAAAAAATAAAAAAACACAATTTAATGTGTCTTATTTAATATTAAATGCTTTTTTGACTAAAATTTTTGTCTAACAAGAATTCTGAGTTGTGCATTCAAAGTTTTAAGTAATATTTAAAATTTAGATTGCTAGTTCATTGAGAAAAAGGTAAATTTGTAATTTCGGCTATTAATTGATTATAAATTTTTGTCATATTTTCAAATTCTCAATCTTTTTTTGCAAAACACATTGGTGGTATATTTTTGAAAATTAATAACCCATTAATTACCATAAGTGATAAAAATTCAGTATATTCTCCTAATTTTTTATCTACAACTAATTTTAAATTTCATAACGCTAATTCTTCAATAACTACATCATTATCTAATTTTTCCAAAATCCTTGAACACATTTTTTTAAAATATTCTAAAAAATCAATACTTTCAATAGTATCACCTTGAAAAAGACTTATATACTTTTTTTTAGGATCTAACATTCTGTAAACTTCACTTAAATCCAACATAGTTAGGTTATCAATTTTTTCATCAATATTTTTTTCATTAATATAAACAGTGGTTAAAAAATTTTTAATATAACTTCATGCTTTTCCAGCATTAATGATTTGAGGTTCAAAATCTTCATTTATTGATTCATCTTCAAATTCTTCATCATATAAGCAATCATACAATTCTTGAGTTGATGTTTTAATATTATAGTAATTACCAAAATTTTGAATCATTTTAGCACCAATTCAATTTCAAATATGATCCTTATCATTTAAATCTATTTTATTCATATTTTTCCTCCGACTTTAATAAAATAATATTATTTTTATTAAACTTTAATATATTTAATATAAATATAATAATTTATACTTATTAATCTAAGTTTTGTTTTGAAAAACTTAATGGGAGAAGTGATTCAAGAATATATTCACCTGCAAAACCTTTTTTATTAAATATTCAAATTTTTTGATCTGAATTTAACAATTCTATCATTGTTTGTCTACAAGTCCCACATGGTGATCCTAATATTTCTGAATCAGTATATAGAGAAAAAACCTCTACATCATTTGCTTTATAACCTTGAGAAATCATTTGAGGCAAAGCACATCTTTCGGCACAAATTGTTGGATTATATGCTGAATTTTCTACATTTACTCCAACTATTTTTTTATTATTTTTTAAATAAATGATACAAGAAACTCTAAAGCCTGAATAAGGCACATAAGCATTTTCTTTTAGTTCTAACAATTCCTTAAATATATCATTTTTATCCATAATAATTCCCCACACAAAAGTAATTATATTAATTTATCAAACTTGATATTTTAGATATGAACGGTTCTAAATAAATTAGAAAACCAATAGCTACTGATATAATTGCATTTAAAATACTTGCAGCAGCACATATATCTTTTATTTTTTTTGCTTGAATATTGTATTCAAAACTAAGCAAGTCAACAAAGTTTTCAATTGAAGTATTAACAAACTCAAATCCAATAAGAACACCAATTGTTAATAATATTATTGATCATTGAACATAACTTAGTTTTACTCAAATCCCCAAAGCAATACAAAGGATTATGGCAAATAAATATACAATTAGCGTGCTTTCTTCTTTGAAAGCAGTAATCATACCTCTAGCAGCATTACCAAATTTGTTTTTTACCCTAGTACCAACTTTGGCTTTTTTCTTTACCTTATCTGCCATTTGTAACCTCCTAAATTTATTATACTACTATGTCATACATAACATTTACTTCTTTTAAAATACTTTCTGTTAGATTAAACATTATTTTTTCTTGCTTTTCATCAACTTCATGATCATATCCTAAAACATGCAATAGACCATGAACAAATAACCAACACATTTCATCATCAATTTTATGCTTATATTTAAGAGCTTTATTTTGTGCTTCGTTATAAGTTATAAAAATATCTCCTATTTCTTTAAAACCGATTTGATCATATATTCCACTCGGATCATCAATAGGGAAAGAAATTACATCACCGACATATTCTTTATTACGATATGTTTTATTTAGTAATATTGATTTTTCAGGTAATATGAAAAACACTGATAAAAGCAGCGTTTGATTAATATTTAAATGCATTTTTGTAATTTTAAGTAATGTTTCAAATATAGTTTCATATTTTGTTAGTTCTATATTGTCATCTTCATAAATAAAGCTAATTTCGTCCATATTATTCCCTATTTATAAAGATTATATCAATTTATTTTATGTTAGATATCATATAATTCAATAAATTTATTTTAGGACCAATTATAAAAACTTTATTTTTTGAAACTTCTAATCCTTCTAAATCAATATTTTTAAGTTGTCATATTCCTTCTTCAAATCTTAAAAAATCCTTAGAATATTTTTTGTAACCATTTTTATACTCTATTTTAATGGATTTTATGCTATTAACATCAAATTTTTCTTGTAAAAAAACATACACTTTTTTTTCGTACTTATCATCATCATTTAATTTATCTTGAATAATATAACTACCTGCATAAATAGTAGTTTTTTTAAACATTATCAAACAAAATAGTAAGATAACGATTACAATAAAAGAATAAAAAATATAATTAATTATTTTTTTCATCATTACATCTCCATTCTTGTTTCGAAAAATTGTTGATAAACAGGATTGTGATCAGTCATTATTATCAAACTATCATTTTTAAGTTTTAAAAAAGTATCTAATAAATAATATGCAGTTTGCCTATCTACATTACTTAAGGGCTCATCAATCAAATATAAATCTTTATTAGTAAAAAAAGCAGATATAAAATTAATAATTTGTCTTTGCCCTTTACTTAAATTTGCACCATTATCAATTATTCTTTTGTTAATGTCAATATTATTATTTTGTAATATTTCAAATAAATGAAATTCTTTAAAAACGTTTAAGTCAATTTTGTTTTGGAATTGTTGAATATTTGATCAGACACTTCCTGTGAATAGAAAATCATATTGTCCGATATATAAAATTTTGTTTTTTAAAACTTTTTGATTTAGTTTTTTATATTCTATACCATTAAAAAATAACTCTCCTTCGTAATCTTCTATACTAGCTGACATAAGATGCATTAAACTAGTTTTACCACAACCACTTTTACCAAAAATAAAAGTATTATTATCAATTTTTCGATTGATATCAAATAAAATTTTTGCTTCATTTTTGTACTTATAAATTTTTTTAAACTCAATAGATTTAATTTTATCTATTTCTAGTCCTTTAACTTTATCTTCTTCTTTCTCAAATAAAAAAACTATTTGCTGCATAGCGATTTTATTATCTTCTTTATTAATAATAAAGTTGAATAACATTGATGAGAAATTATATATATAACTTGATGTTGTAACATAAAATAATAATTGTGAGAAAGTTATTTGCTCTTTTAAAATTAAATTACCAGCAATATAAAATATCAACAGCGAGAAAAATTTTGAAATAATATTTAAAATAAATCCGCTTACATTATTTATACTAAAAATTTGATAATCGTTTTTTAAGTTATTTTCATAAGACTCTAGAAATTTTTTTTCAAAATGATTTTCTAATTTTTTAGTTTTTATTTCAAAATTAGCATCGATTATTTCTCTAAAGATACTTGAAAATTTTATCTCATCATTAAATGATTTAAGTTTTTTATCTTTAACTCAAATAAAGAAAATAAAAGATATAAAAAGAGAAATAATATTTTCTGTAATTAAAATTAGCAAAATAGTTTTAGAAATTATACTAATCATAATTAGCGACAATCCAAATAAAAGCAACTGAGTTGGCAAAGATAAAAATAAGTGCGATGATAATACAACTACTTTATTAACATAACTAACTTTTTTTATTCATTCTTCTTTACTTATTGTTTGATATTTTTCTATATGCATTTTCAAAATTTTATTTATATAAATTGTAATTAATTTTTTTAAAATATTATTATTTATCAAAAAAATTATTTTAGTCATAAAGTAGTTTAGTATAAATTGTCCAATAAATAATAAACCAAAACCCAGAAAGGTAATGTTTTGGTTTTGCCTATCATCAATTAAAATTGTATTTGAATAAACTTTTAAAAAGCCGCTTGATAATATAATTATACAATTTAAAAATATTGATAATAAAAAATAGCAAGCTATTAAATTAATGTTTTCTACAAAAAGTTGAGCAACCGTTAAAAGAGAGTTACTTTTAAATTTAATATTACTAATTTTTTTAGCAACACCTAAATATCCTTCATAAACTTTATAAAAATCTTCTGCACTAATATGTCTTAAATCATTATCGTTTGGATCAGCAATCAAAAAACCATTGCGATATTTTTTATAGACAACTATAAAGTGGTCGCTCGTTTTTTTATTTTTTACTTTTACAACAATTGGATCAACAATTTTTATCTCTCTAAAACTATCTATATCACAACTATATGTTTTAAACTCTATTTTATAATTAGCTAAAAGTGTTTCAATATTAAAAAAACTTAACTCTCCTTCAGGAATCACATTATCATATTTAATTTGTTCAATAGTTAAATTTTTCTTTTGTAAATAATTTATAAGCATAGCACTAATTGCTATACCACAATCAGCATAACTTTTTTGTTTTATAAACTTGTATTCCATATAATCACCTAATTATTAAATCGACATAAAAAAACATAAATTAACAAATTTATGCTTATTTTTTTTGAATAGACATATTTAAATAATTTACAAGTACATCAATGTATGATTTATTATTTTTATTTTCTTCTATTGAGCTTAACATTTTTTTTGCTAGGTTTTCTAAGCTTGTCAAACCATCATTTGCATATAAAGATATTTTTCTAGTTGAGTAGTTTTCTTTTACAAAATCATTAAACTCACCATTTGCAATTTTTTCTAAAAATATTTTTACAGAAACTGATCTTTCCGTTTTTTCCATAACCTCATACTTTGATAAAATGAAATTTTCTATAATATCTCCACTAATATTTTCGATTCTTGAGCTGATTATAATTTTAGAAGCAATAATAAATAACTTCAAATTATTAATTGATGATTTATTTGCTATTTTTTTTATTCTACTATTAAATTCTGGTTCTTCTTTTATATCAGTTTCGTTTATTAACGATAAGTGCCCATTATCATTTTTATACATTCTTGAAATTACTTGTTTTCTATCTAATAAAAATGGAACAAATGAGATATTAAAATTATTCTCTATTTCTACATCTATTGATGATTTATTTTTATAAGTTTTTACATTATATTTTCAAAAATATTCTCTTATAACATTTTCAAATCAATTAAAAATAAACAAATTATGTTCATCATCCTCTGGTTTAGAAACTTTTTTTAACAAAATTCAAACATCAATATTTGTTGTTAAATCACTATCTAAACCATGAGCAAATGAACCTCTTATTAAATAAGGTTTTTTATTATGTCATTCTAAAAATAAATTATCTTTTTCTAAAACAAACTTATCTAATAACTTTATAATTTCCATAAAACGCTTTTGTCTTGAACTTTCATTCTTGTCAATAATTGTTTTTAATACTTTAAGATTATCCATACTCATCACCCCATCAAAATATTAAACTTCTTTTAAAATTTAATAGCAAATCTAATAAAATTTATATCTTCATATCTTAATTTAACTTTTTTAGGCCTTCCTTTAATAAAAAAACTAAATACAAATTCATCCTTTTCTTTATCATATTGTTCTAAAGTTGCATCAAATTCATTAATATTTTCAAAACTTAAATTACTTTTTATATGAAAATAATTATCTATATTTTTTATTAAAACTTCTTTTTGTTTAACTTGTCTTTCAGCACCAGCAGAAGAAACTTCCAAAATATAAGGATCTTTCAAATCAATTTCATCATCTAATAATGTTGAAATTGCTTCATTTCCAGCAACTAAATTATCAAAATTCACAAATTTAGAGTTAGAATTAGAATTTTCAACTAATATTTGCAATACATTAGATTCATGTTCAAAAATCCAATTTAATTCATATAAATCTAAGTTATTTTTTTTTAATATTTCTAAAATTTCTTTTAAGTATTTTTTTTCTATTAATTCTTTTGACATAATTACCTCGAATTCAATATAATTTTACAGCATTTACATATATAAATTAAAAAATCCTAAAAATAGGATTTTTTAAAAATCAAATGATAATTGTTCATCATCTTTCAAACTTTGCGTTATTTTTAAGTTTTCAAACATTTTTATATGAGTTTGAGTCACTTGTGTTCTTAATTTTAAATCATTAACGCTTGTAATTTGTTTTTGTTTTCTTGCATTAACAATAGATTTTGCAACAGCTTCACCTAAAGAATCTAAAACATTAAAAGGCGGATATAAAACTTTTTTATTATTTTCATTAATGATAACAAATTTTAAACTATCCGAAATATTAAAATCAATATTTTTTACGATAACTTTTCTTTGAAACATTTCAATAATAACTTCATATATTGAAATCATTGCCATTTCTTTTGCACTTAGTTTTTCTTTATTCGCATTTCTTTCTTTTAAATTTTCATATTTACTTCTAACAACATTTTCTCCACCAACAACTGCTTCAATATCAAAAAAATCAGCTCTTGTCGTAAATCAAGTCGCATAATATTCTTCAGGATAATAAAGTTTAAACCAAGCTACACGATAAGCCATTAATACATATGCTGTTGCATGTGCTTTAGGAAACATATATTTTATTTTTAAACAACTGTCGATATATCATTCAGGGATATTCTTTTGTTTCAATATATCAATTCATTCTTTTTTAAGACCATTTCCTTTTCTTACACTTTCCATAATTGCAAAGCTAGTAGATGCATCAATGTTCTTATTAATTAAATAAACCATAATATCGTCCCTACATCCAATAACAGTAGAAATGTTTGCAACCCCTTCTTTAATTAAGTTTTGTGCATTGCCAACATAAACATCAGTCCCATGACTTAATCCAGAAATTTGGACTAAGTCAGCAAAAGTTTTAGGTTGAGTTTCTTTCAACATACTTTTAACAAATTGAGTCCCAAACTCAGGCAAACCTATCGCTCCAGTTGATTCGCCATATAAGTTTGCAGCAACTAAATTAAGATTTTCTAATGATGAGAATAATGAATAAACTTTTTTGTCATCAGTAGGAATTGTTGTTGGATCAATTCCTGTTAAATCTTGTAACATTCTTAAAGCAGTTGGATCAACATGTCCTAAAATATCCATTTTCAATAAGTTATCATGAATTGAATGAAAATCAAAATGAGTTGTTAATCAATCGCTTTTGTCATCATCTGCTGGATAGTTAACAGGTGTAAAGTCTTCTATTTCATATTCTTTTGGTAAAATTATAATCCCTCCAGGGTGTTGTCCTGTAGTCCTTTTAACTCCAGTTGAAAGTTCTGCTAGTCTTTCGATTTCTGCTTTTGGTACATTTAACATATTTCTTTTTTCAAAATATCCTAAAGTATATCCGAATGCAGTTTTTGCAGCAACAGTTGATATAGTACCGGCTCTAAAAACATTGTTTTTTCCAAATATTTCTTTTGTGAAATTGTGAGCAATTGGTTGATAATCTCCTGAAAAATTCAAATCTACATCAGGGACTTTGTCTCCGTCAAATCCTAAAAAAGTTTCAAAAGGAATATCATGTCCATCTCCTGTTAATTTATTATTACAATTTGGACAATTTAATTCTGGCAAATCAAATCCACATTTATATTCTTCTGGTGTATCAAAGTCTGAGTAGCAACATTTAGTACATCGATAATGAGCTTTTAGCGGATTTACTTCAGTTATATTTGCAACAGTTGCTACAAATGAAGAACCAACCGAACCTCGACTTCCAACTAAATAGCCATCATCTCTTGATTTTTTAACTAATAAATGACTTATTCAATAAACAACAGCAAAACCGTGCTTTATAATTGAATGTAATTCTTTTTCTAATCGTTCTTTTACAATTTTTGGTAAGTTTTCTCCATATAAACTTTTTGCATTTTTATAACATTCTTCAGTTAAAAGTTTATCTGCATTTTCAATTTTTGGTGGATAAGATCCTGATTTAATAGGTTTAACATCTAAATCACATTGATCTGCAATCTTGTTTGTATTTTTAATTACTATTTCACGAATTAATTCACTGTCTTCCAATCATCTAAACTCTTCTAACATTTCATTAGTCGTTCTTAAATGTTGATCGGGGTTGTTTTTAACTCTTTGTTTAAAATCATAAAGTGGATGGTATTTACCTCCAAGTCCTTTTGTGTTTATATAAATATCTCTAATGATTTTATTTTCTAGATCAATATAATGAGCATCACTCGTTGCAACAATTATTTTATTTTCTTCTTTTGCAACTTCTATTATTTTTTTAATTAAAATTTTTAATCTATTATCATCAATATCTCCAGTTTGAATAAGTTTAGTATAAACACTTAATGGTTGAATTTCAATATAATCAAGTTCTTTGATAGTTTTTCGCAACATATTAAATGTCCCTGTTCTTGCATTTTCAAAAACTTCTCCATTTATACATCCACTTCCAATTAAAATATTATTTTTCTTTTTGAATTCTAAAAGTTCTGAACGAAAAACTTTAGGACTTCCTAAAAAACTTTTTGTATGAGATAAAGAAATTAATTTGTATAAATCTTTTAACCCTTGTTGATTTTTTGCTAAAACGTTTATGTGATAACCTCAACTACGATATGAGTTTTCATTTTGATATTTATCTTTTTTAAATTTATTTAAATCAATATCATAATCAATACTGTATGTTTTTTTTGCTTTACTTCACATATGTTCAAAAACATTTGTTAAAACTTCTGCATCATAATCACCACGGTGAGCAATTCTTTCATCGTACAGGATTCCATATTCTTTTGCAACCGTTCCTAAACGATGATTTTTTAAATCTGGATTTAACAATCTTGCAAAAGTTAAAGTATCAATTACAGTATTTTTTAATTCACCATATCCAAATCTATTTGCAAAAACTTGTAAAAAGTTAAAGTCAAAGTTTGCATTATGAGCAATTAAAATTCCATCTTGAATAATATTGATTATATTTTTAAACTCTATTTCAATAGAGTTTTTATCTTCTAACATTTCATTAGTTATATGAGTAAGTTCAGTTGTAAAACTTGAGATTGGTTTTGTTGGTTTAATTAAAATATCATATTTTTTTGAAGTACCTTTTGCATAATCATAAACATAAGCTCCAAACTCAATAATTTCATCATACTCTGGAGATAATCCAGTTGTTTCTAAGTCAAAAACCACAAACTTAGCTTCTCTAAGTTTTTGATTTTTTGGGTTTTTCACCACTCAATAATCATCATCAATTACTACAAGTTCGCTTCCATAAATCAGCTTCAATTTTTCTTCATCTTTTACATTTTTATTAGCTTCATTTATTGCATAAAAAGCATCAGGAAAACATTGCACATTTAAATGATCTGTAATAGCGATTGCATTTCATCCTCATTGCTTAGCAGTTTTTATGTAATCTCCAACATGACTTACACCATCCATAACACTCATTTTTGTGTGGGTGTGTAACTCAACTCTTTTTTCGATAGCATTATCTTTTCTTACAATATTTTTTGATTCAATTTTTTTAAAATTATCTATATAAAAAATTAATTCACGATCATAAGTTGAATAATTATAATTTCCATTTATAGCTATTCAATCACCTTTACTAATAATTTCTTTTTCTAACCCACTTAATTCATCTTTATTCTCTTCTGTGATCTCATCTAATAAAGTTGCGTTATTATTTTTTGCAAAATATGTACATGTAACAGAGCTGGTTTTATCACTAATTGTTAAACTATAAATTGTTCTATTAGCTCTGCTCAATCTTGAAGATTTTGTAATTACTTCACCATGAATAGTAACATTTTTTGCATTTTCTTCTAAATCAATTAATTTTTCATATGTTGGATTATCTAACAAAGTTTTTTTATTTACAAACTTTGGTCTTGTACTACTTTTTGTTTCTTTTTTTACTTCATCATTATTAAAAACTGTTTTACTAGCTTGTTGATACATTTGTTGAACTTCTTCTAAAACCTTTTGATTATCTTCTTGTTTAATTTCTATTTCTAAATCAATATTTGAAAAACCATATTTACATAATTTATTTTTATAATATTCTTTATGATCCAAAAGTAAAACTTTTTGAGTTTCATTTTCTGCAAAAAATTTAACCAAACGGTATTTTGAAAAATATTTAACAGTACTAGGACTAATAGTTTTTATAACACCATCTTTAGTATGTGCTTTTGCATCTTTAATATATTTAATATGTTTTCATATTAAATCATCATTATAATCTTGATTTTCTACAATTAAATTTAGTTTACAAGGCATATAAACATTTTTTACTAATTCATTTTCTAATTTATATAGAACATTTATTGGTAAAAAATCTTTCAACGAAACAAAAAGTCTTGTTGTTTTTGTACTATTTGAAAATTCTGCCTTAAGTATTTTTGCATCTTCGAAAAAAATCATCTCTTTTTTTTCAAAAAAGATGTTTAGTTGTTCTAATAATTCTTTAAGATCTTTATGCATAAATACCTCTCATATAAGTTATCGGAATAAATCCATTAATGTAACACCAATAAATAGCGCTAGCATTAAAACTGCTCCTGTAGAATAAACTCAAATTTTATATTTTTTTGATAAATCTTTTCTCATTATCATTTCGATTAATAATTCTACAGTTTTATATCCATCAAGCGGTGGAATTATAAGCATATTTAAAACAAACAAGTTAGCACTTAGCATTGCAATATAAGTGAAAAATGTTCTTGGAGTTCCCATCATATTTGCAGTTTGTGTCGCAATTCCAACTGGTCCTGCTAAGTTTTTGAATCCTTTTGTAAAAATTGATCCAAAGCTTTTTAAAATACTAAATGATTGTTTAAAAGTTTCTTCTCATCCAGCTAAATATGCTTTTCCTCCACTTGAATAATATCTAGTTGGAGCCATTATACCAACTGCAAGTTGAGTTTTACTATACATTTCAGTTGTTGAATAATCTGTAGTTTTGATTTGTTGATATCCATTAAGTGCAAAACCTGTATATTTGTCAACTTTTTTGTAAGAAAACATAATGTGTAAGTCTTCTTTATTATCTAAATCATTTTCATTTTTTAGTTTAGTTAAATTATCAATAAAGTTATAAACAATAGTTGAGTAATTTGCAGCTTTTAATGAATCTGCTTCATTAATTTTTGGACAATTTAAATCAGGATTACTATCATCAATATTATTAAATAAGACTTCTTCTTTATCTTCTTGTTTATTGATTAATTTTCATCCTCAAATAGCATAAGATTGATCAATTACAATTGTTTCATCGTTTAAATCTTTTCTTTCTTTATCAGTAATTAATTTTTCAGCAACAGCATCAGTTTGAAATTTTTGCCCAAAATAAGACATATCATCGGTTTTTGCTTTTGTTACTGCAAAAATAGTTGTAAAGATAAAAATGGCAATAAATAAATTCATTAAAGGACCAAAAATTAAAAATAATAATTTTTTTCATCGTTTAATGTAATCCATTTGTCTTTCTTTAGGAACTTCGACATCTTCTCGATACGATGGAGGATCAACTTTGTCTGAAGCAATTGAACAAAACCCACCAAGCGGAAATGCTCTAATTGTGACTCAAGTTTCTTTTCCTTTAATAGTTAAAATTCTTGGTCCAAAACCAATTGCAAATTCATATACATAAGCACCACTAAGTTTTGCTACCAAGCAATGTCCAAGTTCATGCAAAGTTATTAAAACCAAAACAGAAATAATACCAATTGCAAAACCTAATAAAAACATTCCTGTTGACATTTATTTATCTCCCTTTATTAAACTAATAGTTAGTTCTCTTACTTTTTTATCAAAAGCACATATATCATTATAATTATTGTAATTTATTTTTTGAGTTGTGTGAAATATTTTGCTAACAATTTCTGTAATTTGATAAAATTCAATTTCATTATTTAAAAAAGCTTCAACACACACTTCGTTTGCAGCATTCATACAAATTGCTTTTGAGTTATATTCATCTAAACATCCTAATGCCATTTTTATTGGAATGAAGCGATTTTGATCAATTTCTTTTAATTGCAAGTTTAAAGTTTCTTTAAAATTCAAATTTTTTTGATTTGTAAATTCTACTCTATCAGGATAATTAAAAAAATAATTAATAACTTGTTTCATATCAGGTACTGATAATTGTGCTTTTATTGATCCATCTTTAAATTCAACCATCGAGTGAATAATAGAATTTGGGTGAACAAGTGTTATGATATTTTTGGTTTTAAACAAGTGATATGCTTCTAATATCTCAAATGCTTTATTAAACATAGTTGCACTATCTATTGTAATTTTAGAACCCATATTTCAATTTGGGTGATTTAATGCATCTTTTAAATTAACATTTTTTATTTCTTCTAATGTTAAATTTCTAAATGGTCCACCAGATGCAGTTAAATATATATTATTTATTTGATTATCAACTTCTAAACACTGAAAAATTGCACAATGTTCTGAATCAACTGGATAAATTTTTGCTTTCACAAATTTTTGTTGTAATTCTTGAATTAAGTTACCTGCAACAACAAAACTTTCTTTATTTGCATTTAATAAAATTTTTTCTTTTTTAATTGCTTCTAATGTAATTTTTAAACCAAAAAAACCAGATAAAGCATTAACAATAATATGTGCATCATTATAAATTAGTTCTTCAATGTTATTTGAAACGAAATTGATTTTAGTAAATTTATTTTTTAAGTTTTCTATTGATACAGAAGAATAAACAGTTTTTATATCTTTAAATTCCTCTAAAATAGTTTCTAAATCATTTATTCTTTTACCAACACTAATCGCAATTAACTTAAATTTGTTTTTGTTTGTTTTTAGTATTTCAAGAGTTTGTTTTCCTATGTTTCCTGAAGCGCCAAATAAAACTACATTTTTCATTTATTTAACTTCCAATTGCAAGTACAATAAAGAATAGAACGAATAAAGAAAATATTATTGAATCAAGGCGGTCTAAAATTCCACCATGTCCAGGAATTAATCTAGAATAATCTTTAATATCAAATACTCTTTTAACTCAAGAAAAAATTAAATCACCCATTAATGCAATGATTGGAAAAACACATGAAAGTAAAACATAAATAAAAAACTCTACTACTTTATTATTAATTAATGATATTCCAATATTTAAAGGTTTGAAATTATCTAAAGCTGGTACAAAATAGAATATAGCAGCATAAGCAATTCCAATAACAGAAGCAACGCTTGATCCGATTGTAGCACCTTCTCATGTTTTATTAGGACTAATTTTTGGTGCTAATTTAGTTTTTCCAAACATCATTCCCCCGATATATGCAAATGAATCTCCTAAAATTACCATTAATCAAATTCATACAATTGTATTAAATGAGAATATTGGCATATTTGCTTCAAGTAAATCTAAACTTACAATCGAATATGTTTTCATTGCAATAACGATCATAGCCATAAAACTAAATCCTATTAATACTTTTTTAAGTTCGACTCTTTTATTTTCAATTAGAGCTAAAAATAAATAAAATAATGAAGAAATTGACAAAACTAATGTGAAATGTCATCCTTTTAATCATGAATATAAATCCATACGAGTATAAGGTGAGAAAGTATATAATTTTGGAGTAATTGGGAAAATATATAAAACTAATGCTACAGTTATTAAAATGAGTTGTTGTCATCATTTTTTATATCCTGCTGCTTTATTAATTTCAAAACAAGCAATACCACAAATCAATATAGTTAATCCAATAGAAATGAAACTAAAAATATCAAAATATTTTTCTCTTGTAAAATAAGTGTAAATAGATCCGGTTGTAATATAAAAAACTAAAAAAATTAATAAAAAAACAGAAGAAATTAATCTTGTTTTAAAAGTTTCTTTACCTTTTTTTGTTTTAAAATGTTTTATACTTCTTTCTAATTCTAAATTATTGTTATCATTTTTATCTTCAACATTTGAATCTGTAACTTCACTTTTATCTATCATAATTACTCCTTAATTTCTCCAAATCTTCTATTTCTAGATTTAAATTCTTTAATAGCAGCTTCAAAGTCTTTTTTTTCAAATGCAGGTCAATATGTTTTTGTAAAATATAATTCTGCATAAGCGCATTGCAATAATAAAAAATTACTTAATCTTTGTTCTCCACCAGTTCTAATTAAAAAATCAACTGGTGGACTATTTTTTGTATATAAGTTTTTTTCTATATCTTCAAAATTTAAATTATTTATATCAGTATCATTATCATTAATTTTTTTGTAAATTATTTTAAATGTATTTAGAACTTCATCAAAAGATCCATAATCAAAAGCCAAATTAAATTTTATACTTTTACAATCTTTTGTTTTTTGTTCTAAACTTTCAATAACATTTTTACATTCTTCTGGAACCTTTGATCTTCTTCCAATTCAATTTACCTTAATATCATTTTTTATATATTCTTTAATTCTTTTTTCATTAAATCCTTTTTGAGGAAATTCAACTAAAAATTTAACTTCTTGCTTTGGACGATTTCAATTCTCAGTCGAAAAACAAAAAAGAGTTATATGTTTTATATCAAATTCTTTTGCTCAAAGGATGACATCATGAATTTTATTTAATCCTTGTTCATGACCAAAAGTTCTTGATTTCTTTTGAGCAGTTGCTCATCTACCATTTCCATCTAAAATTATAGCAAGATGGTTTAGATTTGAGGTTTTCAAAACATTAGCTCCTATCTTTATTATTTATTTTTTACAATTTGTAATTCTCTTAATGGGGTCGTTAAGTAGTCATGACCTTCTTCTGTGACTAGAATATCATCTTCTATTCTAACTCCTCCAATTCCCGGAATATAAATCCCTGGTTCAACTGTAACACACATTCCTGGTGCTAATGGAGTTTTATCAGCACTTGAGTTATTTGGCGCTTCATGAATTTCAATTCCTAAACCGTGTCCAGTTCCATGAGTAAAGTATTCTCCATAACCTTTGTTTTCAATATAATCAAAACAAATTTTGTGAATTTCTGCTCCTAAAACTCCTGGTTTAATTGCATCAATTCCTGCTTGTTGGGAATTATAAACTATATCATAAATTTCTTTAAGCTTAGCATTATTATCATTTCCTAATGCAAAAGTTCTAGTTTGATCTGATGCATATCCATTAAAATAACATCCCATATCAAGAGTTACAAAGTCACCTTCTTTTAAAACTCTTTCACTTGGAACGGCATGAGGTTTGCTTCCATTTTCACCACTAGCAACAATCGTGTCAAAACTTAATTTTTGAGCTCCATGTTTTAAGAAACTATCTGATACAAATCTTGCTAAATCTGTTTCTTTCATTCCAGGTTTTACAAATTCTAATACATCTAGAAATACTTGATGAGTTATATCACAAGCTTTTCTAACTTGCGCAACTTCTCATTCATCTTTTACCATTCTTACTCTAGAAAAATTATATCCTTCCACTTCAGCTTCTAATCTTTTTTTAAAAATTTCAGCTTCATTTAAATAAACTCAATCAGATTCAATTAAAAGTTTTTTAACATTATTTTCTTTAATTTTTTTATTTAACAGATCAAAAACATTTCTATAAGTTTCTAATTCATCAATATTAATTAACATTTCACTTTCTCTAGCAGCAGTTATATATCTGCCATCTAAATATAAATATGATTTTTGTTTTGTATATAACAGATATCCTAAACTTGATGGGAATCTTGAAAATCAATAACGATTTTGAGGTGAGTACAATAAGATTGCATCACTATTTGTTTCTTCTAATATTTTATTCAATAATTCTTTTTTCATACTTTCTCTCCTTAATTTAAAATAAAAATAAGGATGTGATTAAACCCACATCCTTATTTTTTTTGTTTGTGCACTTGATGGGCATTACATTTGAAACAATGTTTATTAACTTCAATTTTTTCTTTTCTTTTGTCATTCTTAGCAATGTAATTCTCTTCTTTGCAAACTGTGCAACGCAAAATAACTCCTTCGCGCATATTATTTCCTCCTCTAATACAAAATGATTCTTTATGTTAAGCAAAATTATAATATCAAAAAAAGAAGTAATATTGTAAGTTTTTTTCAATAAAATATAAAAAAATGATAAATATGTGTAAAATAATATTAGTTATTTTAGGAGTGGTTAAATGAAGAAATTATTAAGTGCCATAAGTGCAACAGCACTTATAAGTACATCATCAATTTCTATTGTATCTTGTGCGTATAAAAATTGAAATCAATTTAATAGTTGAATAAAAGATAAACAATCTTTTGTATTATATCTTGGAGCAAAAGATTGTGAATATTGCAATCATTTCGAAGATGATCTAGCAAACTTAAAAGATATAAAAAATATAGATTTTATAGAAAATAATTTTAGCGCATTAAATAGAGATTATAAAAACGCATTAATGTTAGAGGGAGACCAAATAAGTAAGGATAATCTTACTGATTATGGTGAATCTATCATAAAAGATAAAATTGAATTTAAAAAAATAGTAATAGATGAGAAAAAAGATAATTTTAACGAAAAATGAAGCAAAAAACTTTGAAAATGAGTAATTGATAGAGAAATTGAAATGTATATGCAAGTTGCTTTTTCAGCAGATAAAGATTACAAAGAATTCGAAAAAAGATTCAAAGCTATTGCAAAAGAACGTGTGGAAAACTACTTTAACAGTTCAGATGTTAAAGGAACACCAATATTTTTAATTGTAAGAAACGGTAAATTAGTTTCATGAGTAAATGGTTATACATCAAATACTAACGAAACAGCTATTAGTGGATTGAATAATTGAATGAGTGAAATTAGAGTTAATTTCTTAAATGCTCAAGTTAGTAATGCAAACTTTACAAAAATCAATAATTCAAGTAGTAGCAGCGGTGAAAATGGAAATGACTCAGGTTCAGGTTCTAGTTCAGGTTCAGGCTCTAGTTCAGGTTCAGGAGAGAGTGGTGGTTCTAGTTCTGGAGGAGAATCTGGAAGTTCAAGTTCTTCCAACATGACAACATTTGATGGTTTTGATTTTAACAAATATTTACAATACTATAAAAAATAAAAATGCATTATTAAATGCATTTTTTTATATCATTTTTATCTTTTAAAAAATAAAAAACATGTTTCCATGTCTCTTAATCAAGTCCTTAATATGGTCCCCAGGGCCGGACTTGAACCGGCACGGCCGTTAAAAGCCGCTGGATTTTAAGTCCAGTGCGTCTACCACTTCCGCCACCTGGGGAAAATAAAATTAATGGTGTCCCGTATAAGACTCGAACTTATGACCCACTGGTTAAAAGCCAGTTGCTCTACCGACTGAGCTAACGAGACGCTAATAAATATAATAAATGGCTGGGCTAGCAGGATTCGAACCGGCGCATGACGGAGTCAAAGTCCGTTGCCTTACCGCTTGGCTATAGCCCAATAAATGGTGGGGAGAGACGGATTCGAACCGCCGAACCGTTAGGAGATGGTTTACAGCCACCCGCGTTTAGCCACTTCGCTATCTCCCCATAAAAATAAAGTGGTGCTGACTAAAGGACTCGAACCTTCGACCTATTGATTACTAGTCAATTGCTCTACCAACTGAGCTAAGTCAGCATTCTCGTCCTTAAATTTAAGAACCTTTTCAATTATACAAAATATTTAAGTTGAATGTCAATTGTTTTTGTATAAATTATTTTTTTTGTAAAACAAATCACAAGATATATAATATCATTAATAATTGTTTTTTATAAAGTTTTATTACTTTTATTTATATACCTTTAGAAAGGAATTATTATGTTTATCAAGTTTCAAGAAGCATTTTTCGATTTTATAAATGATATTTATAATAATTTTAAATATAATTATAAAACTTTTTTATCTAGTTCTAAAAAAATAGATAAATTCTTTAAAAAAACTAAAATGATTCTTGATCTTGAAAAAATAGATTATATTTGTGATTTTATAATAAGAAATATGAAGGATTTCATTGTTTTAAATAATGTAATAGAAAAAGAAACACACATTATAGTAAATAAATTCTATGATGTATTAACTGTTGCTAAATTATTTTGAACAAATTTTATAAATTTAACTGCATTTCAAAGATTAAATATTGAAAAAACCAACTTAAATGAATCTAAACAAGTTTCTTTACTATTAAATGCTCTTTTTCAAATATCTAAGAATTTCTCTAAAAGTATTTGTTTATTATATAAAGAATATAACTTTGATAAAATCAAAGATAAAGATGCAGATTATTTTTACAATATTATAAAAAAGAATTTATATAAATTTAATGAAAAAACTACAATAGAAAAACTAAAAAATCTTAAAAATATTTGCGTAACATTTAAAGATGTTGTTGAAAATGATTATACAAAAAAATATCAACTTCATATTATTGATAATAGTAATTTTCAAACTATTTATGATTATTTATTTACTTTGTACAAAAGATTTTATTATATAACTTCATTTACAATTAAATTTAGTCTTTTATTAAAATCTGATAATGAAAACAAAGAATATAATCAAATATTAAGTAATTATCCATTTAGTTTAAATGTTTTTGAACAACATAACAGATTTATAGAATTAGATATTAATAAACTTATGAATAATTAAAAATACCTAATAAATAGGTATTTTTAATTATTTCCAGCATCATGTAAATTTTTAAAATGACCTGGTATTTTTATAAGTTCATCATATGTTCCTGTTTGAACAATTCCTTTTCCGGGTGCTAAAACAAAAATTTGATCAACATTTTTTATTGTTGTTAATCTGTGAGCGATAATAACTGAGGTTTTATCAACCATAAGTTCATTTAACTGTGCTTGTATTTCTTTTTCAACAATGTTATCTAATGCACTTGTCGCTTCATCTAAAACTAGTAGTTCAGGATTTTTTAATAATATCCTTGAGATTACAAGTCTTTGTTTTTGACCCCCTGAAAGCAATAATCCTCTTTCTCCTAAAACTGTATTATAACCATCTGGCCAACTATTGATTATTTTATCTATTTGTGCTTTTTTACAAGCTTCATGCACTTCTTCGTCTGTTGCTTGAAAATATCCATATTTAACATTATCATAAACATTTCCATAAATGATTTGTGGTTCTTGTTCAACATATCCAACATGAGATATATAAGATTTTAAATTTAAAGTTTTTAAGTCATGATCATTTATCATAACAGCACCTTCAGTAGGATCGTAAAATCTTAATAATAATTTAGAAATGGTTGTTTTTCCACTTCCAGTTTCACCAACAAATGCATAACTTTTTCCTTTTTCAAATGTTAAATTAATTCCATTCAAAATATTTACACTTGGTTTTTCAGGATAATTAAATTTGATATCTCTAAATTCTATTTTATTAATATTTTCAGAAAATAAAACTCCATCATCTTCATTATCAAATAAAATTGGTTCTTTTTTGATTACTTCATAAATCTGTTGAGTTGAAGCACCAGCTCTTGAAATACCAGGAACCAATGCCGCAATTTGTCATAATGGTCTTGTTAAAATGATTGAAGCAGAAGTAATTGGAATTAAAATAGATAAGAACTTTTCAACATCATTATTTCCATACACTAAAATAGCAGTTACTAAAACCAAAATATTACAAATAATATCAGAAGCAACTAATGTTGCAAACATATTACCATCAACTCTAGTAATTGGTTTAAATGCATTAATATAAGGTCTGTGAATCTCTCTAATTCTTTTTTCTTCATATGTTCTTGTCGCTGTTGATTTAATCAACTTGATTACTCCAAGACGGTCAATAACATCACCATTTACACTTGAAATTACTTCCCTAACCTTTTTGTTTCTTCTACGATATGTTGATGAGAAGAAGAAAATGACAATTGTTAAAACATATACAACTGCAATTGAAGTAGCTGCAACTTTTAAATCAATTAATAATATACTTACTGATCCAAAAACTAAAACAAATGGAACTTGAATACCTCAAATTAAAATACCAGGTATTTCATTTCCAACAACATTAGTATCCCCAACTACTTTTGTCATTATTTCTCCAGTTTTTTTATCACTATAATAAGATATATCCTGATTTAATAATCTTTTTATAATTAATAATCTAAGTTCAACTTCTAATCTAACCCCTAATTTAAGACCTGTAATACTTCTTCAATAAGTTGTTACATATAACAATATTAAATTTACTGCACAAACAATCATTCAACCCCAATAAGGAACATCTCAATAATTTTTTCCTTTTTTTGCAAAATCTCAAAGCGCTTGTTGAATAGTAATGTTAATTATATAAGAGTTTGCACTCATTAGTAAAGAATTTATTAAAACTATGAAAAGTAAAAAATAAAAGTACTTACCAAATTTATGTCCCAAAATAAATACTACTCAAATAAATTTAAGTTTATTTCTTTCTCTTGCAAGCTTTAATAATTTATCAGCTGCATCCATTTTTGCATTTTTAATTTCTTCATAATGATTGCTTTCTTCAATCAAGGTTTCTCTTGTTCGAATATTTCTTTGCATATATATTTCCTTTCATATGATTAAAACTATTATATATTAGTATTTTTAAATAATAAAAAGAAACAAAAAAAAGCACTCTGGGCGGAGTACTTATTTAATCTAGGATAAGTATATATTATATATTATTATTTAAATATATCATGTTCATTTGATAGGGCTAAATAAACATTATGGGCTAATGATTTTTTACCTATCCCAGACAATTAAATTATAAAGTAATGATTATCTAAATACAATACTTTTTTTAAAAAAATCTATAAATTTTAAAAAAATACTGTTTTTTAAAGTAATATAGATAGTTAAAAAATAGATTAAGAAATATTATGTGCTTTTTTGTATTTAACATTTTTATAAGCATAATAAGCAGTTAAAATAAAACAAGATATAAATAGTATTTGACTTACTGCCAATCATAATTTACTAATGTTTTTATTTTCTTTTAAATATATATTTGTACTTATTAATAATAAAGAATTTATTATATAACAATAAATTATTCCAATAAAGTTTCAAATTATATATAAAAATAGATCTCCTTTATTACCAATTCCATTAAATAATATATTGTGTCTTAACACTAAAGACAAAACAAAAATAATTGAAATAGCATAACCTACATAACTTAAAATTAATCTTCTATTTAATTTTTGATTTGCTTTAAAATTATTTTTATAATTATTTTCAAGAACACCATCTTCTCGACTTTCTTTTTTAACTGAATTTAAATACATATAACCAATAAATGCAAACAATAATCCTATTAGTGATAGCGTTAGAAAAGAACTTAAACTTAATAAATAAATTTTTCCTTGCTTTGAGCTAATTAATCTTTTTTCAACATATAAATAAACATAGAAAAGTAAGTTTAAACTCACTAAAATACAAGTTATACCATATATAAATATTAAATAGGCTCATCATGAAATGTTTTTATCATCTTTAAAAAATCCAACTATCAAGTTTTCAAAAACTATTGAAATAATTATTAATGCAGCTCCTATAATTACACCTAATATTAAAAATACTAAAAATACAGTTCCAATGAGCTTTTTCTTATTTTTTATAACATTATTATTCACTAATTTTTTTCCTTTAATTGAATATATATAAAATTAATTTAGGAAAAAAGTTTTAGTCAATCAACTTAATGATTGTTTCTTGACTAGAAGGTTTAGAATCAATAATTATTAATTGTTTAGCTAAATTTATAAAACCATTTTTATTATCTATATTGGTATATAAAGTCATAATTAAATCATCTTTTTTAACAAATTGTCCGATTGTTTTTGTTAAGTATATTCCAGCTGAAAAATCAATTTTATCTTCTTTTTTTGCTCTTCCAGCTCCCAAATGCATTGATAAATAACCCAAACTTTCTGCTGATTTAAATTTTAAATACCCTTCATTTTCAGATCTTATTTCTATTTTATATTTGGTTATAAAATGTTTATCATAATCAATAATCTTTGAAAAATCACCATTTTGAGCCTCAATAAAATCTTTTAAAATATGTGCTGCTTTTCCACTTTTTAAAACTTCTGTGACTTCTTTTTTAGCAGTTTCTAAATCATTAAAAATATGATTTGAAACCAAACTAATAGAAGCTGCTGTAATACATAATTCATTTAAATCATCAGGTCCATTACCATGCAGTGTGTCTCAAGCTTCTTTAACTTCAAGTGCATTTCCAATTGCTTTTCCTAATGGTTTATCCATATTTGTTATCATTACACTAACTTTTCTATTATGTGCTTTTCCTATTTTTATCATAACTTTAGCAAGTTCTTGAGCATCTTCTATATTTTTCATAAATGCACCAGACCCTACTTTAACATCTAACTCAATACTATCTGCAGGAATTACTAATTTTTTAGACATTATACTTGAAGCAATTAAAGGGATAGAATCAACTGAACCTGTAACATCTCTTAAAAGATAAATTTTTTTATCTGCAGGAACAACATCATCAGATTGACCCATAATTGATAAGCCGACTTTATTTAAAACTTCTTTAAATTTTTCTTGACTTATATTTTCAGTTCAACCAGTACAGCTCTCTAACTTGTCAATAGTCCCTCCAGTTTGGCCTAAACCTCTTCCGGATAATTTAGATACTTTAACACCAAAATAAGCCACTAATGGTCCGTAAATTAGACTGGTTTTATCGCCAACTCCACCAGTTGAATGTTTATCGGCAAATGGACCTTTTAAGTCGCTTAAATCATAAGTTATACCCGAATTAACCATTGCATTTGTAAAATTAATCAATTCATTTTCTGTCATGCCATTAAATCAAATCACCATTAAAAAACTAGACATTTGATAATCAGGTAGTGATCCATCAACAAAAGAGTTGACGATTCATTCAACCTCTTCTTTATTTAATTCGATATTTATCTTTTTTTTATTTATGATTGTTGAATAGTTCATTATCTCACCCTAAATATTAATAATAATAAATTTTATTTTTTTTATCATATTTTTTAACAACTAAGTTTTTTGATTTTAAATCTACATCTTTATATTTATCAATATTTTTTTGAATTTCTCTTTTAACAGTTTCTGTTAAAACACTTGTTTTTGTTGCAATAAATTTATTTGGCATCATTGGTTTTCCAAAAACTATTTTAACAGGCATAATCCCTTTTCTTTTTTGATAAACCTTATATGAATCAACTATAGAAACTGGAATAATTGGTGCATAAGCCATTTGAGCTACTTTCATGCTTGCGCCATGAAATTCATTCATTTCTGGTCCTTGACTTCTTGTTCCTTCTGGAAAAATTACAACAGATCTTTTATACTCATTAATTAATTCTTTAGCTTCTTTCATTGCATTTAAAGCACTTCTTGGGTTTTTTCTATCTAAAGGTACATTATCTATCAAATTCATAAAGTGTTTTATTGATTTTGTAGATCAAGTTTCAATTTTTGCAACAAATGAGATTGGTTGTTGTTTTTGAAAATCATTTATAACTATTAGCATTAATGGGTCAAGATTAGATTGATGGTTTGGCGCTAATACCACTCCTTTATCTAATCAATTTTCTATTCCTCAAACATGCATTTCAATATTTGGGATTCTAAGTACTTTTGAAATTTTTTTCTTAAATCAATTATAACGATATTCTTCTGAATATGAATTTGGGTCAGTTTTGATTCTTTTTGAGATTTTTTTTGCTTTACGAATTAAAAAATAAAGTCCTAAAGCACTTGTAAATAATCTTCATTTACTTAATTTGTAAGGTAATTTTCCACTCTTATCATCTTTTTCGTAAGTGTCATATTCTACGATTTCATTGGTATTACTTTCAACAGCCACTTCATTTTTTACATTTTGTTCTTCTAACTTTTTTGCCATTATAATGCCCTTTCATATATTTTAACTTGAAACTCAGAAAAATCTTTTGTTCCAATTACTTTAAATTTTTTTTTATCAATTTCTGAAGCGAATAAATCACCTTTATAATCATCAAAAATATAGCTAACCACAAGTCGATCTGCAAAATTAATTGTATAATCAAAAATTTGTTTTCCACCAATTATTATAAGTTCTTCGTCACTATTTTTAAAGTCTTTTATGACTTTTTCTAAATTATCAACAATTTCAAGATTCTCATGAATAAAATCTATTCCTTTTGTAGTAACAACTATATTTTTTCTTTTAGGTAAAGGTTTTAACTTTAATGAGTTTCATGTGTTTCTACCCATTAAAACAGTTTTTCCTCTTGTATAATTTACAAAATGCTGCATTTCTTCTTTTATATCTCAAGGCAAATGTCCATTTAATCCAATTGCGTTGTTTTTAGATTGCGCTCATATTAAAGTAACCATTAAACAGCAACTACTCCTTTTAATACTGGATGTGATTGATAATCTTCAAGAACAATATCTTCATAACTAATATCAAAAATACTTTTTTTATCAAAATTAACTTTTAATGTAGGTAATTTTTTTGGTTCTCTTTTTAATTGAATATTAATTTGGTCTAAATGGTTTAAATAAATGTGTGCGTCTCCAATTGTATGAATAAAATATCTTGGTTTTAAATTACATTCTAAACTTACAAGTGTTAATAGTAATGAATAACTTGCAATATTAAAAGGAACACCTAAAAAAGTGTCTCCGCTTCTTTGATAGAGTTGTAAATCTAAATAACCGTCTTTTGAAACATAAAATTGATATAAAGAATGACATGGAGGTAAAGCCATACTTTCAACTTCTTTTGGATTTCATGAACTTACAATTAATCTTCTTGAATTAGGATTGGTTTTAATTTCATTTAAAACTCATTTAAATTGATCTTTTCCTTCAAAATTTCTTCATTGTTTCCCATAAACTGGACCTAAATCTCCATATTTTTTTGCAAAATCACTATCGTTTTTAATTTTTTCAACAAATGCTTCAATAGTTTCGTTTTGATAGTCTTTTGAATTTTTATAAATTTCAAAAGGTCATTCATTTCAAATTTTTACACCATTTTCTACAAGATATTTAATATTTGTATCACCTTTAATAAATCAAAGCATTTCGTGAACTACAGCTTTAAAAAAAACTTTTTTAGTTGTTAATAAAGGAAAACCTTCTCTTAAATCGTATCTAGTTTGAACTCCAAACTTTGAAATAGTTCCAGTATTCGTTCTGTCATCTCTTTTTTCTCCATTTTTTAAAATATCTTCTACTAAATTTAAATATTGTTTCATATCTTATTCTCCATCTACAAATACAAAGCAACCGCAATAGCATATTCTTTTTCATGCGAAATTGAAATAACTATTGATTTTAGTTCTTCATTTAAAATTACTGGTTTATTATTTAAATACCCAATTGATATTTTATTTGGAGCAATATTTTTATTTGTTGCTTTAAAAATCGCTTCTTTTGCAGCTCATCTTCCTGCAACAAATTGTTTTTTTGCCTCTATATCTTGAATTTGTTCTAAATAGACAAATTCATCATCATGTAAAATGCGTTTAATTAAATTTTCATTTGTTAAATCAACTCGATTAACTTGTACAATGTCTGTTCCAATTTGCGCCATACTAACCACCTAGTTTTGCAAAATCAAAGTAATATTGAATTCAAAATCCATAGAACTCATTATAACCAGATTCACCATCTCTTGTTATTCTAGTTTTTGAAGTATCATTTAAATTATCTCAATTTTTTTTGATATCTGTTGTGAAATATTTATATAGAGCTGAAGTGTAACTTAATTCTAATGATTTTGTAAAATATAAATTTGATCAAATTGATGGTATAAATCCAGGCACGTTTGGATACTGAGTTAATCTATTTACATAAGTGATATTTCTTAATAAATTATAAGTACTTGTAGGGTTTTTCAAAATAGTTCCAAGCAATTTATCTGAATCACTTGCATTATCATTTAACAAAACACTATTATTTTTTAAAAATGGGTTTTTTGTTATATCCTCACCAGCTCAAGCGTAAAAGTCTTTAAATCTCTCTAAATTCATAAAACCACTTCCATCTTCGTTATCTTCAATTGCTTTTTCTGCTTTATATTGTTCCAAAGCATTCATTATCTCAATACTTGATGGTCTATTTGAATAGTTAGGATCTTCTGCAAAGGCTTTATTTGTAACCGATCCTACTTTTATAGTTTTATAAGTTTTAATACTTGATTGATCACTTGGTGTGTTGTTTTCATCTGTTCCATTTTCACCATTTTCGTTTCCACTTGAGTTTCCTTTTTCAGTATCTTGCCCTGATAAATAAGCACTTGCAAGTTTTGTAGAGACTAATGCTAATTCTGAAACTAATCTTAATAAAATTCTTGAATCATCTGGCAACAACTCAACACATACAGAAATAGGAATTTTTGTAGGATTTGTTTCAACATAACCTTTTAATGCCAAAATCGAATAAGTTTCTAAAACTTCAGGTGGTAAATTTGCTAAATTATCAACACTCATTCCTTTTGAAGTTAATTGACTAACAATAGTTGAAGCTGGGTTTAAAATGTATTTTCTTATACATGCATTAGTAAAAATATAAGAAAAAGCTTTGATTTGTGGTATTTTTACAGATAATTTATTTGATAAGGAATATCGGCTATATGAGTTTCCGTTTTTAGCTCAATTTACTTTTTGTTCATCTGTTAAACTATTATAATCTAACATACCAAATTTTTGAGTTTCAGTTGCAAAAAAAGATAATGATAAAATTCAGTTAATTCAAACTACAAAAATCATTCCAAATGCAAGTCCGTTAAATCCCCCAAGTAGCATATCTGCAGCTCCTAAGATTTTAATTTTTCTAATTTTAGATTTGACAGAAAAGTAAAAAGCAAATCCTATTAAGTTTATTATAAAAATAAACAACACACAATAAATAACATATAATCCAAGTCCGGTTATAATTTTTAAGATTAAAGTTCCCATTCCATCTCATGATAAACTTGGTAATTGCACTGGTTTTCCATCAACCATAGCACCTTCGACAATGTATTTTAGTAAATCAAAAAATACATCACCCACTTTTGAACCTACTTGATCAAATATATCCTCTAAACCTAATTTAGACCATAGTTTCATAATAGGGTCCATTGTAGCATTAACTAATAAAGGAGGAATAAACGTTATGATAATAACAACGATTAGTTCTAAAAATAAAATATAAAAAGTGATTAAAAAACCTCTTTTTAAACCAAATATAAATGCTCCGATTAAAATAGAGATTGTAAAGAAATCATATAGCCATCAAGGACCAATATTAACAACCATTTATTTTTTCTCCTAACTTTTAAAATTATACCAATAATTAATCTATAAATTATAAATATATATGTCAAAAGTATTATAATTTAGTAGAGGAAATAAGGCATGAAATCAATAAGTATCAAAAAAGTAAATCAAGAATTAATTAATCAAATTATTAAAGATAATAAAACTTATGAAAAAAAATCAAATAATCCTTTAATTAAGTTTTTTTGTAAAACAAACAATGATGAAACTATTAGTATTTATACAAATAATACAGTTTTAATTCAAGCAAATGATGCTGCATTTTTTTTAAGTAAATATGATTTAAAGTCAAATACATCTAAAAAAAATGAAAAACAACTAGATTATAATCATATTAACTATAATAATTTAAATACATTAGGATGTGATGAAGTTGGAGTTGGTGATTTTTTTGGTCCTTTAGTAACTTGTTGTGCTTATATTGATAAAGAGTTTAAATATAATAATAAAGAAATATATAACAAATTAAAAGACTCTAAAAAAATAAATAATGATCAAATATTTAATATTTATAATGAGTTAAGAAGAAAAGTTAAATATTCTGTATTTATCTTAGAAAATAGTAAATATAATGATCTCTATTCAAAATACAAAAATACCCATATCTTAAAAGCAATTTGTCATAATAATGCTTTATTAGATTTTTATAAAAAAAATAAAGAGTTAAAAATTGAAACAGTACTTATGGATCAATTTGTTAGTGAAAAATTATATTTTAATTATTTAAAAAATCTTGATTTAGAAATTGTTAGAGCTATTGAATTTAAAACTAAAGCAGAAGACATATCAGTGGCAGTTGCATGTGCTAGTATAATTGCTAGGTATTATTTTTTAATGAATATTGAAGAATTAGAAGAAAAATATCAAGTTGACTTGCCACTTGGAGCTAGTAATAAAGTTAAAGAAAAAGTACAACTGTATAAAAGTGAATATAAAGAACTTGCAAAAAATTTTATAAAACTACATTTCAATGAAAAAATAAAAAAACCTATTTAAAATAGATAAATTTATACTATTTTTTTAGGTTATTTTTTATTTTACTGAGCCAGTTTTTACAACTTTTACAAAAAACTGTAGTTCAGTTTTTTCTTCAGCCATATATTGTAAATAAAAGTATGGTGTATCATCTGCGTCAGTTAAAGTTTTTCCTTTAATTCTTAATGTATATTTTGAACTATCACTTTCATCTTGTTTTAACTCTAAAACTTCAATATAAAATGAATATGCTGCTGGTAAAACATATGTTTGTAAATATCCATTTTTTGCTGGATTTAATACTTGTATGTTTATTGTTCTATATAGTTCTTGTCCTATACCGTCACTATTTGTTTCAATTGTAAGAGTGTTATTTTCTACACCATCTCCTGTTACTTTAATATCTGGAACTTGAGCACTTTGTGCTTCATTGAATAATAAAACAAAAGTTGTTTTTCCTTTAAGTTTTGACATTTCTTCATTTGCTGTTGCAACAATTTTTCCTTCTTTATCTTTAGTTGCTTGTTCAAAATCAGAGAATATAATATCTTGTTTTTCTTTAATGTCATTTGTTGTTATGTCTGATAATTTTTTTAAAATTGCTTTTTTAGCATAAGTTTGATAATTCATCTCTGGTTTAATTTTTAAATCATCATCTTTTAAAGTTGCTAAATCTAAGTATTGTGCAGATAATCTTATAACTTTAACTTTTATAGAAGCCGATGATTTTCCATATGTTACTTTAATGTCACACTCTCCAACATCAGTCCCACTAATATCAACACTAAAAATACCATTTCCTGCATCATCAGATGATATAGATGGTGCTACTCTTGCAATATCACCATCACTTGTTTCAGCTTTTATTTCTGCATTTTTTTGTGGTTTGTCAACTTTTAAATCTAAAGTTATTTTTTTACCAACCTCAACAGAACTATCTTTGAAACCACTTCCAAATGATACACTACTTCCAAAACAAGATATAACACTATTTGAAGCAGTTGCTATCATTCCAAACGATCCTAAAAAACTTAATAATTTATTCATATTTTTTTCCTTTTCTAAATAATTTATACACTTTTTTTTTTTTTTTTGTAAAGGGGTAAAAAGCATAAAAATTAAAAAAAATGTCAATAACATATGATATTTTCCCTATATATAACAAATAAAAATTTCCCAAATATATAATTTATAATGGGGGATTTAAATATGAGGAGATATTTAAAAATGAATGAAAAAAATAAAATGGAAATAATTAAAGCTGTAATTGATGAAAAACTATCTAAAAAAGCTGCAGCAATAAAAATCTGTCAAACAATAAGAAATGTTAACTTATTAATTAACAAATATAAAAAGTATGGTTACACAGCATTTATCCACAAAAATACTGGAAGAATATCAAATAAAAAAATAAAACATCAAATAAGTGATCAAATTATTGACTTGTACATTAATAAATATGAAGAATATAATTATAAACACTTTTTAGAAAAGCTTTGATCAAACCATCAAATAAGTGTTTCATATACTTACTTAATCAATTTATTAAAAAAGAATAATTTATATTCACCAAGAATTCATAAAGTAACTAAAAAAATGATTAAACAAAAAATTACTAACTTATTAAAAAATGAAAATATTAAAAAACTTGAGAAACGAGAGTATTTAAATACTTTGCTTTCAATAGAAAATATTCATCCTATGCAAAATCGAAAAACAGAGTTTGGTGAGCGCTTGCAAACTGATGCATCAGTCCACTACTGAGTTGATAATGAGAAATGGTATTTACATGGTTTTATAGATGATGCAACAGGTAAAGTTTTAGCTTTATATTTTGATAAAGAAGAAACTCTTATGGGATACTACAATATAACAAAAAAAGTTTTATTGGAGTATGGGATTCCAAAGGAGATAATTACTGACAAAAGGACTGTATTTTGAAGTCAAAAAGAAAAAGAGTCAGACCTTCACTCTGACTCTTTAACACAATACGGATTCTTATGTCATAACTTAGGAATAAAGCTAACAACTTCAAGTGTTCCTCAAACAAAAGGCCGTATTGAAAGGTTGTGAAATACACTTCAAGATCGCCTACCAAAGGAACTCAAAGAAAATAATTTATCAGATATAAATGAAGCAAATTCATTTTTAAATGAATATATTAAAAGATATAATTCACAGTTTTCCCTTCAATTAAATAATATCATTAACTCTTTTTCTATTTTTAAAGAACATAAAAACATAGACTTTTATTTATCAAGAAGATTTGAAAGAACTATTAATAAAGGATCTACAATAAAATACCAAAATAAATTTTATTTACCACATTCGAATGGCGAGCCAGTCTTTTATAAAAATAAAACAAAAATCTTTGTAGTAGAAACTTTTGATGGGCAGTTATATTCAAACTCATTTAGTGAATGAATGCCTTTAATTGAAGTTCAACAAAACTCAACTTATAAAGAAGCTTATGAAGATAAAAGTGTTTCTGATATACAAAAAACACATAAGCAAATTAAAACCAATAGTCCATGAAAATATACTAATTGAATATTTTACAAAAACTCTAAAAATAAAGTTTTGGGAAAAATTGATTAGTTATTGACAGGGGTAAAAAGCATAAAAATTAAAAAAAAAAAAAAATCTTATGCAAATTACTACATAAGATTTAAGTGTTTTATAAATTATTGAATAAAAGCAAAAGCTATAAAGTATGCGATAAACACAACATCCAAGACTCATATAATTGGATGTACTTCTTTAACTTTTTTAGTTGCTAAACATCCAATTGTATAAGTTATTAATCCTAAACCAATTCCTACAGCAATATTATATGTAATTATCATAAATAATATGATAAAGAATGATGCTAATGAAATTTCTGGTTTTTTTCATTCGATTTCAGTTATATTTGAAATCATAATTATTCCAATAAATACAGTTGCAGCACCACTTATACATGATGGTAACATTGTAAATAATGGTGATAAAGCAATACTTAATAACAATCCAATTGAAGTTACAATTGAAGAAAATCCAGTTCTTGCTCCTTGAGAAATACCAACACAACTTTCTGCATAAACTGCATTATGAGAAATTGCCATAAATGAACTGAAAATTGTAGATCCTCCATCAATAATCATTGCAGATTTTGGAATTTCTCTTTCATAAGGTGAGTTTTTATTTGATTCTACCATTACTGAAGTTAATGTTCCTGTAGCATCAAAGAAAGTTAAAATAGTAAATACAAATATTGATATATACATAGTAGGACTTTTTCAAATTGCTAAATTTCCTGCATTGTTAAATGTTGATTTAATATTATTTACAAATCCATTAAACATTGATTTATATTCTCAATTTGAGTTAAATTTTGCAGTACCAAATGAATTTTTAATTACATCATTATTTGGAAGTACATTTGCAAGTATAACTGCAATTATAAATCCCGCCAACATCATAACTGCAATTGGAGCTACAAATTTTTTAAAGTGTAATACTACTGCTCCAAGTAATACCAATGTTCCTATAATTATTGCTGGATAAAATACTTTAAAATTATTTAATGTAGCTACTGGTAAACCACTTATTTCTGTATTTTCATCTCCAATTTTAACTCAACCTATATTAGCTACTCCTACATAAGCGATAAAAAATCCAATTCCTAAACCAATTGCAATATGTAAAGATTTTGGTAAAGCTTTGATAAGCATTTTTCTAACATTTGAAATACTTATTATACAAAATAGAACACCTGATATCATTGTTGCAAATAACGCACCTTGATATCCGATTCCTTTCATAGCGACACTATATGTAAACATAGCATTTACACCCATACTTGGTGCTAGTGCAACAGGTATATTTGAAACCATACCCATTACAAAAGTTGCTGCAAAAGCAATAATTGCAGTTGCTAAAAATACTCCTTTACCATCTAATTTTGCTCCACCATCAACACTTGGAGCATATTTTAATATTTCTGGCTCAACAGATAGTATATAGATCATTGCAAGAAGTGTACTAATTCCACCAATGATTTCTTTTTTTAAAGTTGTATTAAATTTTTTAAATCCAAAGAACTTAGCAAGTTTTGAGTTTTCATTGTCAAATCTCATTTTAGACTTACTAGCTTCTTTGATTTTAATATCATTATTGTCTATTGACATTTTTCCTCCATATTGTTTATCTATTTGAATTAAAAATAAAAAAAATTACACTTAATTAAATAGACAAATTCTTATTTTAGTATAATTCGTGTAATTAAATATAATTTGCGAATAATTTCTTTTAAAAAGCAATTTATAGTGTTTGGATAGGTCCAACGTAGATACTCTAACCCTATATGTTAGATTATACAAATGCTATTTAATTACATTTTCATTTTATATTAATTTATTTGTAATTAATATATTTATTTAAATAAAAAATAAATTAGTTGTCTAATTTATTTTTTGATTATATTTACTTTTACAGCCTCTTTATATATTAAATTTACTTTTGCAGTTTTTAAAATTTTTTTAGCTACATCATCTTTAATTGTATTTTCGTATTTATTGTCTGAATAAATTACTGTTTGTATTCCCGATTGAACAATAATTTTTGCGCATTCAAAACAAGGAAATTGTGAAGTATACATAATACATCCTCTAACACTAGTTGTTGCACTTAAAATTGCATTCGATTCAGCATGAACTACATATGGGTATTTAGTTTCTTCTCAATTACCTTCTCTTGCTCATGGAAAATTATCATCACTCAAACCTCTTGGTAAACCATTATATCCAGATGCAATAATATGATTTAAATCATTTACAACAACAGCTCCAACTTGAGTATTTGGATCTTTACTTCTCATAGCGTTTAATTCAACCATCGCCAAAAAATAAGTTGTTCAATCAATATAATCATTTCTTTTTTTCATTTTAAAATTCTCTTTTAAATAAATGCAGAAATTACATAAGAACTTGCATCCACTCCAGATGATTGAAGTGAATAGTTTCATCCATTCAAATCATGAATTATTTTATTTAAATAATCAGCACTAAAAACTTTATGATTTGCATAAGATAACATTGCTAATAATGCATTTAAATCAGGTGCTATTCCATAAGAAGGAATAAAAATAAATACAACCGGCACTACAAATGCAATACCTAATATTAAAACTGGCAAAATAATATATCCATCAATATTTTTATAATCATATGTAAATAATAATGTTATAGATGCAGATACTCCACAACCTAATATAATTAATACAACATCATATTCACTTACAGTAATAAATAGAACATAAATAAGCATGATTATTAAAGGATAAATTAATCTATTTTTTGAAAATAATACAATTGTATCTGATTTTTTTGATCAAGTTGTTACTCCTAAACTACCTACAACCATTGCTGGTAATATTAAGTTTCCACTAAAAGTTGGTGAAGGAAACATTACAGATAAGAACAATCCAACTAATGGATAAGTAATAAAAATTACAAATGCAAATTTTAAAGTTCCTAATAATCCTTCTGTGTATTTTGTAACTTTTAAGACAAATACACCTAAAAAAATTAATTGAAATGCTGATGCAACAACTCCGTTACCTTGAACATTAAAAATATAAGTAAAAATTCTTCAAAATTGTTGACCAATAATTGTTAATGCTTTATTTGTTCCGCCAAAAAACATTGCTGTTGCACTAGTACCATTAACACCAATTCATGCATCACTAATAAATGAAGATAATAGTAAACAAATAACTGGTAAAATACAAAATGCTACAGAAATAAATATTGAAACCGCACTGTTAGAATTCATTTTTCCAACTAATTTTTTTAATTTGATATTTGATGAACCACTTGGATCTGTAAGAGTTTCTAAAAGTTCTTCTTCACTTAAATTTTCTTCTTCAACTTCTGCTTGTTTAATTTGTAAAGATGTGATTTTTGGAAAATACTTTTTTAGATTCATTCTTGCTTCGTCTAACGAAGAGATACAAACTACTCCTTGCTGACTTCCATCATAAATCGCAATCTTTAAAGTATCAACTTTTTCTCTTTTTGAACCTTTTAATGAATTAACTAATTTATTTAGTTTTTCATCATGTTCTAAAGCTTCTCCTATTGTTAAAGCAATAACTTTAAATTGTGCTTTTTTATTATAAAGATATACATTGTAATCATCACTTATTTCAGCATTTACTTTATATTTTTCAACTTTAACTAGATAATGAACTAATGTTAATCTTAAGTCATTATTATTATTTGACATTTTATGCACCTATTTTTCTATCTCTACTATTTTATCATTAAACTCTTTTGGTAATTCACAAGAAAATTCAAATCTTTCATTTGTTACAGGGTGATCAAAACTTAATTTATGAGAATGCAAAAATTGTCCAAACTCAATATTTTTATCTTCTTTAAATGCATATAAATGGTCTCCTAACACTGGGTGTTTTATAAAAGCCATATGAACTCTAATTTGATGTGTTCTTCCTGTTTCAATAACACAGCTTAGCAAGGAGAATTTATCAAATCTTTTAACTACTTCAAAATTAGTCACTGCTTTTTTTGAATTGATTTCAGTTACTGTCATTTTTTTTCGATTATTTTTATCTCTTCCAATTGGTGCATCAATTTTTCCTTTATTTGGCTCAACATTACCATGGACAAGTGCTAAATATTCTTTATAAATTTCATTATTTGCTAACATTTCTGTTAATCTTTTGTGTGCTTTATCATTTTTTGCAACAATCATTAAACCAGTTGTATCTTTATCTAAACGATGAACTATTCCTGGTCTTAAATATCCTCCAATAGAAGATAAATCTTTAATCTTAAATAATAATCCATTGACAAGTGTTTTATCAGGATTTCCTATTGCAGGATGCACAACTAAGTGGTTTGGTTTATTAACAACGATTATATCTTTATCTTGATAAACTATTTCAAAATCTACATCTTGAGGAATAGCATTTAATTCTTCAGGAGACTTTGGATCAATTGTGATTATGTCTCCGATCAATAAGTTATAATTAGATGAAACTAAATTATCATTAACTTTAATAAAACCTTGTTTTATTAAAGATTGAACATAACTTCTTGAAAAATCATAATCTTGTTTTAAATAATCAGTTACATATTTATCTAAACGATCAGAATTAGTAGTAATTTCAATTGTAATTGGTTCCATATTTAATTACTATTCTCTTTTGAATTTTTATTTTTAAAATCCATTTTTGTTTGTTTTCAATCACTTCTAATTTTTTTACCATTTGCCAAATAATCTTGAAACATTTTGAATTGTACTTTTATTGGTTGTTTTTTCACAGATTGTAAATATTTACTTTCAAGTAGTTTTAAATCTTCTTTAAAGTTTTGATATAAGTCATATAAATCACCTTGTTTTTTATAAAAACCAAGAATTATTTCTTGAACAATAAAAATAATTAAAGCGATAACTAAGAGACCTACTGCAACATTAACATAGACATCAGCGATATTAAATGTATAATCAGTTAATCCAAAAAAATCAAAATCTCATTGTAAAAAATCAACAACCCCACCTTTAATTCCGCCATCTTTACCAGCATTTTGTGGAATAGTAGGAGCTCATGCTCTTCCTAATAAATTTGCTAAACTACCAGCCAACATTAAATTAACAGACTGGGTTCAAAATTTTGGATAACAAAATATTCATACAATAATCAAAGCAATTGTAACAAGTGCTGCTAATGCAATTGCAACAGAAGGTTTTCCTGCATTCATACTTAATGCAGCCCCTGGATTAATTATGTATTGGAATTTTAATAAACCTGGAATAAAAGCAGTAGGTTGTGCCAAATACTCCATTTTTGATGAAACAATAATTTTTGTGATTCAATCAAAACTAGCAAGAAGGATTAAAAAAGGTAAACATCAGATTAATTTGTATCTTCAAGCATAATTATGATTTTTGAAAAATAATTTAATATTTTCAATAATTTCCATCTTATTGTCTCCTTTTATGTATTAATAACATCATAACATCTTTGGCATATATCTTCTACCAATTGATCAAATATAGCTCAACAACGTTCACATTTTAAACCTTGCTTTAATTCTACTTTTACAGCAGCAACATTATTGTTATTTGCATCTTTTGCATTTTCATCAAAATCAATCGAGTTAACAATTAATATTTGACTTAAATCATCAATTTGTTTTATATAATCATATTCAGATTTTAAACTTAAAGTTATTTTTGCTTCAAAACCTTTTTTAATAATTTTTTCATTTCTTGCTTTTTCTAATGCTTCATTAACATCATCTCTTAATTTCAAAACTGTTTTTCATTTATCTACAAACTCATTGTCTTTCAAAAAGTTTTGTTCTCTTAAATCTAATAAATGAATAGACTCTTCTAATTGTAAGTTTTTTATATTTTTATAAGCTTCTTCAACTGTATGAATTAAAATTGGTTTTAACATATCCAATAATGCTCATAATTGTTCATACATAACTGTTTGAACTTGTCTTCTTCTTACAGAATCTTGACCTTCAACATAAACTATATCTTTTATAAAGTCTAAGTAAAATGCTGATAAATCATTAACAACATAGTTATTAAGATGTTTTAATGCAATATTGAAATTATAATCATTAAATGAAGCTATAAATTTATTTTTTACAGTAGTTAAATTATGTAAAGCAAACAAATCAACATCTTTAAATTCATTTTGATAATTTTTTTGACTATCAAAATCACTTAAATTTGATAATAAAAATCTTAATGTATTTCTTAACTTACGATAATTTTCACTAACTTGTTTTAAAATTTCTTTTCCTAATTTTTGATCATCAGTATAGTCAGCAGAAGCAACTCATAACCTTAAGATATCTACTCCCAGATCATTTGCAATTTCTAAAGGATCAATTGTGTTTCCGATTGATTTAGACATTTTTTTACCTTGCTCATCGTTTGTCATTCCGTGAGAAATTAATTCTTTATATGCTGGTTTACCATCATAAACAACTGAGTTAATCATTGATGAGTTAAATCATCCACGATATTGATCTGTTCCTTCTAAATAAACATCATAAGGTCTTGCTAACTTGAAGTTATCTTCCAAAGCAATATTAGAACTTCCTGAATCAAATCATACATCCAAGATGTCTTTTTCTTTTGTTCAACCTTTGTTTCTATTTTCTGGTTCTAAAAATTCGTCAGCATCAAGCTCAAATCATGCGTTAGTTCCTTTTTCTTCTAAAACTTTAACTGCATAATTTACAACCTTATAATCAAATACTGGTTCTAAATTTTTATCATAAAAAGCAATAATCGGAACTCCTCAAAGTCTTTGTCTAGAAATTGTTCAATCATTTCTATCGCCAATTATATTTCTTAATCTTTCTTTTGCTCATTCAGGTTGAGTTTTTACATTTTTAACAATTACATCATCAATTTCTTTTTTTACTTTATCTAAACTAACAAATCATTGACTTGTTGCACGATAAATTATTGGTAATTTAGTTCTTCAATCATGTGGATATGAGTGCTTTACAAATTTCAGTTTTAAAGCTAAACCTTTATTTTCTAGTTCAACACCAATTATTTTATTAGCATCCTCATAAAATACCCCTTCAAGTCTTTTATCATTAATTTTGCTATTAAATTTTCCTTGGTCATCAATTGGAACAAATGCTTCCATTCCGTTTGCTGTAACTATATTAAAGTCATCTTCACCAAATCCCCCAGCACTATGAACTAATCCAGTTCCTGCTTCATCACTAACATGATCTCCTAAAAAAATTGGTGCAGTTTTGTCATCAAATCAAGGATGTTGATAATAAATGTTGTTTAATTTTTCTCCTTTAAATTCTTTTAAAACTTTTACATTTTCTCAACCAATAGTTTCGCTAACTTCTTCTAAAAGTTTTTTTGCCAAAATATATTTTGTGTTTTTTCCTTCAACTGCAACTTGAACATAGTCAATATCTTTACCAACACATGTTAACTGGTTTGAAGGTAATGTTCATGGAGTTGTTGTTCATATAACAATGTGAGTATCTTTAAACTCATCATTATTTACTATTGGAAAACCAACATATATAGAAGGACTTCTAACATCTTTATATTCTATTTCAGCTTCAGCAAGCGCTGATTCGCTTGATGGTGATCAATAAATTGGTTTTAATCCACGATAAATTAATCCTTTTTCTACCATTTTTGCAAATAATCTTAACTGACTTGATTCATAACCTTTTGTTAAAGTTATATATTTAACATCATAATCTGAAAATATTCCTAATCTTTTAAATTGTTCTGTTTGAATTTCAACTTGTCCTAAAGCATATTCTTCACATAGTTTTCTAAATCGAGCTGGTGGAACTGATTTTCTATCAACTCCAGACTTTGTAACAGCTGTTTCAATTGGAAGACCGTGAGTATCTCATCCCATTATATAAGGTGATTTAAATCCAGTATAGTTTTTTCATCTAACTATAAAGTCTTTTAAAATTTTGTTTAAAGCATGTCCTACATGAATATTTCCATTTGCATATGGAGGTCCATCATGAAGAACAAATTGTGGTTTATTTTTATTTGCTTCAATTTTTTTATTATATATATTTAATTTTTCTCATTCTCTTTGCATTATTGGTTCTTTTGTTTTTAAATCAGCTTTCATATCAAAATCTGTATTTGATATCAATAACGTGTCTTTATAATTCTTATTCATAATTTTAATTTCCTTTCAAAATAAAAACGCTCCTAGTAAGGAGCGTTTGAACGCGGTACCATCCTTTTTATATAACAAAAAAGTCATATATCTCTTATGATTTTGACGCTATCAGCGTGGAGTTCTACTAAGTTGACCTTTTCTTCTCCCGTTATAGTTAAGTGATAAATTTATAGATCATTATTAGTTCACACCACACACTAACTCTCTGAAAATAATTTATATAAATTTGTGTCTTAACAACTTTAATATTTAATTTTATTTAACTTAATAATTATACAATATATAAGATTAAATCTTGATATTATCAACAATTTTTTGAGCAATTTCTTCAACTTCTTCTTTTGAATAATTAAAAACTTCACCATTATCTTCTAAAAATTTTTCAACAATGCTTTGAAAATTATTAGGTTGGTTTTTTATAATATTTAAACACTTTTCCATTTCGTCTTTGATTTCATATGCAATATCAACAGATTTAATAATAATTTTTTGAGCATTGTGTTTTGCAATTTTATACATTTCTTGTGATCTAGATAATTGTTGATTAATATAATCTTCTTTTTCTTTATAAATATTTATCTCTTTTTTTAATTTTTCAATTTCATTTAATAATTCTTCATTTGTTGGCATATTATAAATGTCCTTCAAAGTTTCATCTTAGTGAAATCTCACTAGTTTTTTGAAATTTCTCACGATATTCTTTATTTTTAGTAACTACAATATTAAACAATACATCAAAAATGATTAGTTCTCCAGGAAGTGATGATATTGCAGGATATTGAATTTTATCATAACTTAATGTTTGAGTTTCAATTGTATAAATTAATTCTTTATTTTCTTCACCCATCATTTCAAGAGTAGTTTCTTGATCAGTTGTTAAAATTAATACAGGAATACCTCTATTAATTGCTCATTTTGCAGACTCAATAACTTCTTTAGTTCATCCAGTCCTTGAAACAAATACACAAAAATCTTGATTTGTAAAAAATACCGCTTTTTGAACAAATAAGTGAATATTTGAAACAGCAACAGCTTCTTTGTTTAATCTACATAAATTTTGTACAAATGAGTTTGCAGAAACTTCTTGTTGTTCTACACCAAAAACTATGATACTTCTGGCTTCATATATTTTTTTTGCAATTTGATTAGCATATTCAGGGTCTAAATTATTTAATGTTTCATTAATTGTAAATAAAGCACTACCTTTTACGTTATGAATAACTTGTTCAGGAGTCTTATCTTCACCAAGTTTATAGTATTCTGTTTGCATTCTTGATTTTTCATACACAAACATTTGTGCTGCTTTAAAGCTTTTAAAACCAAGTTTTTGACAAACTCTTGTCATTGTACTTGAACTTACATTACTAGCTCTTGAAACCTCTTGAATATTGTGTGAACAAAAATAATCAGGATTATTATTAATCTCATTAACTATCGCTTGTTCTGTACTATTTAATTTATCTTCACTTAATTTTAGTATTTTCATTACTAAATACCTCTTCTTTTATTTGTGTTTAGGTTTATGATGTTTTTTATCTTTTGCCTGCCACTTTATTATTTTATCATAGGATAAGTTATCATTGCTATATCCCATCTCTTTTAAATGAGAAGATCTTAAATTTGCTAATTGTTCGATACTTGAACAACGTTTTATATCTCTAATATAACGATTTGATAGTTTTAAAATAATGCTTGTTCCATAGTCATCTTTTGTTCTTCTTCTTAATTTGATTAAAAAATGTAATACTAAAAAGAATCCAAAAAATAAGATTATACCAATAGTTGCTGCATAAGGAATTGCTAAATTTCCCCCTAAATTTCATTCAACACTATAATTATGACTTGAAGTATTAAAAGTATCTACATATTTCAAATCAGGAGCATTTACTCATCCAGCTTGCATAACATTCATCATGTATCGCGGCGGAAATGCATACATCACTATATTCAACCATTTATAGTGAGTAACAATGTTATACGGATATGCACAACCTAAAAAATATCATGTAAATATATAAATTACATTTGCTAAAATCATAGAAACCATTGGGTCTTTTATGTAAATATACATTATATAACATAAAATAACCATTAAAAAATAAAGCATTAATATGCTTGAAATATACATTGATCAGTTTACATTTGCAATTAAGGTTCTTTGATGAGGATATGCTAAATATGTGATTAAAATCAGTCCAGAATTTGCAATAAATACAATAACAAAATTTGCTAAAATATTTGCAAATAATACTCGAAATGGACTAACTGGTAGAAAATCAACTTTTGAGCTAAATCCAGTTTCTCTATGAATATTTAAATTACGATATAGCATATGGATAGCATTTCTAACTGTAATAGCTCCTGTTGCAGATGCCAAAATAAATGGGTCAGTACTACGATACAATAATCAAATCAAGGTTATAAAATAAAATAAAAATATCCCTAAAAAAACATTAATTGGCGAACAAAAATAAGTTTTTGTAGAAAGTCGATAAAACTTTCAAAAAACATACATTCTATTTTTTACTTTTGAGCTCAACATGTTTTTTGCCATTTTTTGCATTTTTCCTTTCTGAAACTTGATGTTTTAAATCTTTTAAAGTGTTATTTAATTTTTTCTTATTTAAATTAATATTATCTCTAACTTCAATTAAACTTTCTAATTCTTCAACTGTAGAACTTCTATTAATTGCATAAATTATTGCTAAATGTTTATGTTGATTTTTAAACTTTTTATATCTTCTATTTTCAAACTCAAATGCTTTTTTAAACATTATTAAAACTAAAAATGAAAGTACTAAAATTATTAATAAACTAACCACATATGGTATCCAAGCAAAATTGCCATATCCAAAATCAATATTGTTTCCATTATTTCCCTTATAATGGAAGTCTGGTGCATTTATCCAGCCTGCTGCCATAATATTGGACATATATCGCTGAGGAAATAAGTACGAAACATATATTACTCATTTTTCAGAAACTAAAACATTATAAGGAATTCCAAGTCCTAGTAAATAAACAGATCCAAAATAATAAAAATTACCTATTGTAAAACATCATTCAATTGACTTTGTTCAAAAAGCAATCAAAAATGCCATTAAATTTGAAAGTATTAATAATAATATATATCCAACTAAAAATATTGGTCAATTGACATGTAGAATAGTTTCTCTTTGTTCAGGATATAACATTGCAATTGCTAAGGTTACTAAAGTTACAACCATATTTGCAGATAAATTAAATACAACCATTGTCATAAAAATAAATTTTTTTGAGATATTTGTTGAAAATAATCTGTTAAAAAAGTCTTTTTTTCTAAATTCGTGAATTGTTTTTACAAAATTATACATACAATTTCTAATTCCACAAACTCCAAGTGCACTTGCCAAAACGAAAGGATCATAAGACAAACTACTTTGAGAAGTATCTCTAAATGTTAGTCATCCAACTAATGTAATAATAGTTACAAATCATCCAGAAAAAAGGTTAAACTTATCTCTTATGTAGTTTTTGTATTGCATAACAAATAATTTCTTAAAAATACTCCATTTTGACATTTTTAACTATTCTCCTACTACTATCTCTTCTGATTGTGTGTTTTCTATTTCTTGTTCTAAAGCTTTTTCAAGTTCTTTTTGTTCAATATCTTTTGCATCACCAAATGTTCTTAATTTTTGTTGACGTTTTAATATTTTTGCTTCTAATTTCATAATTCTTATTTCTTCTTGAATATATTTTTTCTTTAAAAAACGAAGTTTTGTCAACTCTTGTTTTGACAACTCTCCTGTATTTTCGTTTTCATAAATGATTGTTCTTTTATTTTTAAAAATTGGATAAAAATCAGTTTTTAAATATAAAAAAAATGGTTTAATTTTTTGAATAAACTTATCTAAATAAGATTTTCATTTATAAGCTTCACGATGTTTTTTTCAAGTCTTTGATAATTCTTTAATTTTATTTATAACATTTTTGATACTTACTTTAAGTTCTTCAATCAACAAACGATTTAAACCACTTGATGCTACAGTTATAAATTTTGTATGCATTTCTTGAATATAAAAGTTTATGTTTTTTACCATAACTAAAATTTTATCAGTGTCAAAAAAATCTAATATTTCTTCTTTTGAATTTAACTTTTCATAATCTGCATTAAACTTTTCTAAATATTTTTCAAATTTTTTTAAAATTGGTTTAAAAACAGGATCTGGTTTTAAAGTAGTTTGTTTGGCTTCAATCGCTGCTAAAATTTTATAAGCATATTCATCATAATCAAAATTTAAAGTTGTTTCATCAATATAGTCATCAGATAAAATTAATCCCATTTCCATAACAACAATTCTGTCACACAATGCTTGAAAAATTGATTTATCTGGAGAAACTATTACATAAGTTGCATTATGATCTTTTTTATAATTTTTTAAAAACTCAATTACCTTTGTTTTCATATCTAAACCAATTGTATTTGAAACTTCATCTAAAACTACAAGTTCTGGTTTATGTAAAAATGCTAAAAATAAAGAAAACAACTGTAATCATGAAACAGCACAAGTTGCTAATCTTTTATCTAATCTATTATTAATTTCAAAAGTAGTAAATAATTTATCTAGTCACTCTTCATCTTTTATATCATAAATACCTTTATACAATTCAATTACATCTCTAACAGTAAATCCATCTGGTCATGCAGTTTGTCTAAATTGAAATCCAATTGAACTTAAAGCATATTCTCTTGTAAAGTTATATTCAATAATTCCACTAGTTTGAGGAATTTGATTTGCTATCAATCTTCCTAAAACTGTTTTTCCTGATTGATTTGGCCCAATTATAGAAATACCTTCACCTTTATAAATTCTTAAGTTAATTTTTTTAATAGCTCATATTTTTTTATCGAAAATCTTACTTACATTTTCTAACTCTACTAAAAGCTCTTTTTTATTTTCCATAACCAGATTTTTACCTTTCTTATTTTAATAAATCAATTGATTGTAAGAATTTTTTTATAGCATTTATATAATCGCTAGTGTGTTCAAGTTGGGTTTTAACGTGAGCACCAGTATCAAATAATAGTATTTGGTCTTGCTTAGAGATTTTTGTTCGGTATTTAAATAAAGCTTCACTATCTTTTGGATAAGTAACTAAATCTTTTTTTGAATGAATAAAAAGAGTTGGAACTGTTTTTTCATTTTTTTCAATTAATTTAACAATATCATATTCTAATACATTTATTTTATAATCTTTTTGATATTTTTCAATAATTTTGTCCATAAAACTTTCAACATAATCTTGAAACTGTTGATTTGAAAAAACTAAAATAGTTTTAAAAACTTGTTTAATAAACATATAAGTTGAGTCAGAAATTGTAAACTTTACTTTATATTTATCGATATAATTTTTATCTGCAACTGAAAATAAATTTACAGTGAATGCTCCCATACTAAATCCAATTAAGCCAAGATGTTCTACTTGAAAATTATTTATCAAATGATCTAAAACTTCTAGCAATGCATTTAGTTCATTTACTCCAAATGAAACATAACCATCAATTGATTCCCCATGATTTATAAAATCAAAAACCATAATGTTATATCCCAAATTATCAAATAAGTATGTTGATAAAGCACTTGATTCTTTTGAACTACTATATCCATGGCAACCAACAATTCATTTATCACTATTATTTTTATTAATGTGATAGATTGCATGAATACGATTATTTATTATTTTTTTTTCTCATCCGTCAAAGTTAGAGAAATCTATTTCTTTTAATTCATATTCGGTTACTAATGACTGTTGATATAAATGTAGCAACTGTTCTCAACCATATTCTTCATAAAATTTTTTATTATTCGCTTTTGTATTATTTATTACTTTTATTAATTTATCAATTATTAAATTGTTCATTTTTTTTACTCCTATAAATGATATTTTAATATAAAAAATCACTCAAAATGAGTGATTTTTTATAATATTAATTTTTAAAAACTTTTTTAACTTGATTTTCAAGCTGCAGTATCTTGATGAGATTTTGGGTTTGCACTAACTTCTTTTGTAAATGTTTCTCATTCATTTCTTAAGTATTCAATTTCTTCATGTGTTAATAGTTTATCCACTAATTTAAAGTTTATAAATTTATTTGCAGATAATCCATAAGCAACTTTTGATTGAACAAATGGAACGTTGTAAGAAACTGTAAATGATTTTCCAGCAAAAGGTTTGTAGTAGTATAATCCTAAATAGTTTTCATACATTAAACTTGATTCCGCTTTTGCAAATCCTTGATATCTTTTATCTTTGTCTGCATTAACATCACTTGATGTTTCTGTTTTATCAGTTTTTTCTATTCCAGCATCATAAGCTCTACTTGCTTCTAATAACGCTCACGATGAACCTTTTACAAATACTCCTGGGTCCATAGCTTGTTGTAAGTCGCTTTCTTGTTTAATTACAAACTCACCCATTTCATCTTTTTGGTTAACATTTGTTACATTAACTCCGTTAACTTTAACAGCATTAGTTTTTGGGTCAGGATTATTTGAAATGAATAGAGAACCTCTATGCATATACATTTGATCATAAATTTCTCCTGTTTCTCATGTTTGAACATATGAATAAGGATCATCATAATCTGGACTTCATGAACTTCCGGAGAAGTCTTGGTATCCCCCTCTAACAAGACTTAAAAAGTCTTGATAAGAGTTTTGATATAATAATTTAACTTCAAATGGGTTATTTGGAATTGCATTGAAGTAATCTCACATTTTTTGTAATCTTACTTCTGATTGAGATCCAGATTGTTGAGTCATTATTATATTTACTGGAAGTTTTGCAACACTAGTATCTATTTTTAGACTACCATCACTACCTGAAACTTTAAAGTAACTTTTTAAATTAGTATCAGCATTAATGTCTTTTAACATAGCTTGTATTAATTTACTTTGTTGATCTGTTATTTTTCCAGCTTTCATATCTTCTTCATTAAATGAACCTACATAGAATGGATCAACTCCGTCTTTTAATCAATCATATGAGAATTTCTCTGCAGCACTACCTTTACCGTCTGCTGCTTTATTAACAGTTGCTCATTCAGCTGACCTCACACTTTCTGATGTTTTTAATTGCTCTGATAAATATTCTACATATCCTTTTTTACCACTAGTGTTCATTCCGCTACTATGTCCTGCTTCAACTTGACTAGCTTCTTCAGAGTGCATTCCATCAGGTACATAAGCATTTCTAAGATAATTTGAATATTTATTGTTTGCCCCATCATAAAGGTTAGTTGCATATTTTAAATAATAACTTCTATTAATGTCTTTTGCAAAAAATTCTCTAACACTTTTTAATTGGAATAATCTTGATTTTAGTAATGCTATATTTTTATCATTTATTTTTTTATTTAATATATCTGAGTTGAAGAAGTTAAAGTAGTTAATAACTGATGAATAATCACCAGCAGATGTTGTATACATTGCTAATCCATCAGTAGCTTTTGGATTTGCAATGTCTCCTACATATTTTTGGAATCCTTCTTCGTCTGCTTGACTTGGTCCAAATGAACTTAAACTTCCACCTTCAAATAATTTTCTTGTAGTTGTTGCATCTGATTTTCCTAAGAAAGTATATCTTATTCTATTTACATGTACATCATCTTTCAAGTGATAATTTTGGTTTTTGTCTAAGATTAATGAACTTTCTTTAACATGACTAGTTGGAATGTATTCTCCTGAATATAAACCTTTTGTATAATCAGTGTTAATGTTTGAGTTTATATCTAACATTTCAACTGGAATTGGTGAAAATGCATGATAAGTTAATAATGATTCAAAATACGGCATATCTCTTTGTAAAGTATATGTTACTGTTCTATCAGTATCATTAACCGCAATACCAACTTTTTTTAGTAAGTTATCATCTTCATATTTTTTTAGATCTTCATCACTAAAACTATCTCCTTTTTCTTCAATTAAATCTTTTAAACCATCATGATATTCTTCTGCTCCTTTGATGAAACTTGCTCATAAAGAATAAACAGCTGAACCATTTTGAGGATTTAATACATATCTAGCTGTATTTAAAAAGTCATTCATTTCAATGTTTCTAACTAATTTTCCTTTGAAATTACTTCATGTTGCATTAGATCTAATTTTATATTGATAAACTTTTTTATCTGAACCTGGGTGACTAGCTAATGACTTATCACTTGATCCGTAATTAGGGTTAGAACTTGGGTCTACTAAGTCTCCATAAGTTCTACCATAACTATCTATTCCCAATAAAGTAGCATTTGTTGATGCAGTAAATTGTGAATCTTCTCCACTAGCAGAATAAGCAGTATTTCAGTTTGAAATTTCTGCTGTATATGCTGTTTTAAAAGTTTTGGCTGGATCTTTTGCTTTTCCACAAGCAACTAATGATGCTGACGAAGTAGAAACTAAAGATATAGCCAATAAACTTGACATTAATTTTCTCATTTTTTATTTCCTTTCTATTCATATTTTATTATGAATAAGATTGCTAATTTTATTTATTTTGTATTTGTTTTTTTATATTTGCAAGTTCTCTAGAATTTAAAAATACTTGATGACCAGGAGAAACTTCAACTAATTTTGGTAAATCAAAGACATAATCAAAATGCTCTTGCTCAGGGTTATAAATAATATTTTTAGTTTCTTTTGCAATTGATGGTTCAGGTTGAGGAATTGCTGATAATAATGATCTTGTATAAGGATGAAGTGGATTATTAAATAATTCTTCAGCCGCAGCTACTTCAACAATTTGACCTCTATAAATAACTGCAATTTTATCAGCAATAAATTTAACAACTGATAAATCGTGAGCTACAAATATAAATGTAATTCCTAATTCTTGTTGGAATTTTTTGAACAAGTTAAGAACTTGCGCTCTAATTGAAACATCTAATGCAGATATTGGTTCATCTGCAACGATAATTTTTGGTTTAAGAATTAAACTTCTAGCAATTCCAATTCTTTGTCTTTGACCTCCTGAAAATTCATGTGGATATCTTGACAAATGTTCTGGTATTAACCCCACAGAAGTTAAAGCCTTTAAAATTAAATATTTTTTAACATCTCTGTACTTAACTTGATCTATTGAAATTTTATTATTAGGATTTTTTTGGTTGTAATCTAATAAATACTCATTCACTACTTCTGGATTTTTATATGTTTTTGGAAAGTTAATTAAACCCTCTCCAATAATTTCTTCAACAGCCATTCTATCGTTTAATGAACTTCCAGGATCTTGAAAAATCATTTGGGTATTTTTTCTATTTAAGCGTTTTTGCTTACTAGTTATTTTTTCAAATAAGAAAGATTTTTTTACCAATCTATCAATAGAAGGTAGTTCTAAGAATTCAATAAATTTTTCTAACTCATCTTCATTTATTTCGCTGTTTACTTCCTTATTAATATTTTTTCAATTATAGTAATCTTCGATTGCACTTTTATCTTTAACAACATTTCTTTTTACTATTTTATCAATGTATTTTAATTGTTTTTCTAATTTTTGTAAATCTTTTTTATCAAATGATCTATTTTGAATAGCTAATTTAATATTTAATTCAAAATCCGTTTCAAATAAATTATTGCTATGCTTGTCTAATAAATCATAGTTTATTTCTTCTTTTTTAAATTCTTCTAAAATTAGGAATAAACAACTTATATTTATATTTCCTTTTGATCAAAAATCTTTTTTATGATGAAAAGCTTTAATATATTCTGGGTTATTCTCATAATTTGGAAGTGTAGATAAGCGTGCAATTTGATTTTCGCATTCTTTAATAAAATCTTCTCTAAATACATATAATTTTTTATAGTATTCTTTAATAACTTTATTTTTAATTGTAACCGGAGCGGTTAGTAATTCATTCTCTTTTTGAATATTAACTGCAACATCAACTTTATTAATTGTTTCTTTGTGATGTTTTACAATTTCTTCAATACTTACTAGTAATTTTTTAACAACATTATTCATATCGACTTCTTCATCTTTTTCCATTTTTTTCCTATGTTTTACTAAAGGATGAATAAGTTTATAGTTGTTTGCTAAAACTTCTTTTATTTCATAAACAACTTCATTGGTTTGTTCTTGCTTTTCTAAAATCGCATCTTCTAATTCTTGTGAAATTTTAGGTATTTGTGAATGAATGTTAGATATAAATCTAATTATTCTTTCTTGGTTATTTATGATCTCATTTACGTGCTTTAAGTTTGATAGAAAAACATCATCTATAAACTCTACACTTGATAATTTAAATTTTTTTAAAAATTCTTTTTTTGTTATACTTGAAAGAGAATTATCTCTTTCATAAAAACTTCTCAATATATCAATAAATTGTTTTAAATAAATACTTGTGAAGTTCATTTTTCTTTTCATATCAAATAACTTTCTAGTTATTTGTCTATTCAATTGATATAAACTTGATGGTTTACCTGCAATTAATTTTTCATCCATATAAATTGCTCCATCATATAAAGGTTGAACACCAACTATAGCTCTTGCTATTGTTGTTTTACCACTACCAGATTCTCCTACTAAACCAAATATTTCACCTTTTTGAACATCTAACGAAGTTTGTTTTACAGCATAAAACTTATGACCACTATTTCTGAAAACAACTTCTATATTTCTAATTTTTAAAAAAGAATTATTTTCTCTGTTTTTTGTAGACATATTAATCTCGCTTTCCTTGGTTTTTTATTTTTTCTTTTAAGTTCGTAATTGCTTCTGGTTTGTTTATTTTTGGTGCTCTTTTATCTAACAATCAGGTTTTTGCATAATGTGTATCACTAACTTTAAACATTGGCGGTTCATATAGATAATCGATCTCCATTGCGTAATTATTTCTTGGTGCAAATGCATCACCTGTTAAGTTATTAAATAATGATGGAGGTGTTCCTGATATTGAAAACAATTCTTCTCCTTTATTACTTAATTGTGGTAATGATGATAATAATGCTCATGTATATGGATGTTTTGGATCATGAAATATTTCATCTGATGTTCCATACTCAACAATTTGACCCGCATACATAACAGCAATTCTATCAGCTAGTTTTGCAACAACTCCTAAGTCATGTGTAATAAAAATAACTGTAAATTTATACTCTTCTTGAAGTTCTCTAATTAAATCTAGTATTTGAGCTTGAATAGTTACATCAAGCGCGGTTGTTGGTTCATCACAAATAAGAATTTTAGGTCTACATGCTAAAGCAATAGCTATAACAACTCTTTGTCTCATCCCCCCAGAATATCTTCCTGGTATATCTTTATATCTTTTTTCTGGTTCTGGTATTCCAACCTTACCTAATAAATTAATCGCTTCTGCTTTCGCTTCTCTTCTTGAAAGACCTAATTGCTTTCTTAAAACTTCGGTTATTTGAAATCCAACAGATAACAACGGGTTTAAAGATGTCATAGGATCTTGAAATATTGTAGCAATAGTTTTTCCACGTAATTTTCTTATTTCTCTTGCTGCTTTTAATTTATTAAAAGTACCAAAGATACCTTTAACTCTATTTCAGTCTGTTAATAAATTTTCAAAGTGATCATTATCAATTTCTTTTTCATTCCAATAATCATCAACTAAACTTTTTAACTCTGCTTCTATTTTAAAGTGATAATTTCTGTGTTCATATCATCTATAAAATGAATCCAACTCTTTTATAGAGAATAAATGTAAATTGTTTGAATTTAATTTTGCATCATTCAAAGCAACTTCTTTTTTTACATTTATATTTTCAAGCTCAGCTTGTAAATTATTTAATTCTTTTTCTAAAATCTCTTTTTTAAAATTATGTAAACAATTTAATTTATATTCTTTAAAAAGAAATTCTTTTTTTTCGATATTTTTAATTTCAGATAAAATTTTTTCTTCACTATATGAATTAAAGTTATTTATTAAACTATTTATAAAATTAATTTTAGTATTTAACTTTAATATGCTTAATTGATTTTTAAATGCTTCAAATCCATGTGTTTTAACAAATTCTTTAGCTTTTAATAATCTATCAACATTAATTCTATTTAATATTTTACTTATTAAAGATATTCCTTTAACTTTGGTAATATCTTGTTTAAGTAACTCAATTTTAAAATTTAAATCTTCAAAATATTTTTGCTTTTTATCTTCATCAAAAATAACTTCAAGCTTACTTGTTACTTCTTTTACTTTTTCTTCAAGCAATCCTATTTTATAACTATTAGTATTACTTTTAGAAAAGTTTAATCCTGCTCTTAATTTGTCTATTTTTTTTAACAAATCATCTTTAGTAGCTTTTAGCTTTTCTTCTTTTAATTTTTCAAAATTTTTAATTTCGTTTTTTAATTTTTTTATAGAATTTTTATTTATTTTAACAATATTTTTTACAGTACTTCCGTCCATAATTAATCTTTGAAAGTTTACTAGATTGATAGGTTTTTTAAAATAAGCTTTTTTATCATCTATAGATTCTTGATTTGGACTGTATATAATTGATCCATCACTTATATAACCATTTGATTCCAACATACCTGTGAACGTTTTGGTTATAACTGATTTACCACTACCTGATTCTCCAACAATTGCCAACACTTCTTTGTCGTAAATATCTAAAGAAATGTTTCTAATTGCTGTTAAAAAACGTTGTCTAACTTGAAATTTTACTTCTAAATTTCTTATAGCTAATATTTTGCTTTTTTCCATTTTTTTTAAAATTCCTATCTATGTAATTTTGGATCTAGTGAGTCTGCAAATATTTTTCCATTAAAGTAGAACAATAATGATATAACACCGATAAATGAAAGTGGTATATAAAGTAAATGCGGATATAAAGTATATGGACTTTGTAATGCCTGGTTTAAAATTGTACCTAATGAGGCATCAGATGCATAATTTTCTATAAATCCAAAGCTATAGTATGATAGCGCTGCATCTAAACCAATTGCTCCAGGAATTGAGAATGATATTGTTTGAATAATGATTGGTAAAATTTTTGGTAAAATGTTTTTCACAATAATTCTTGGACCTCTTGTACCAAGAACTTGAGAAGCAACATTATATTCTGAATTTCTAACTAAAATCATTTGAATTCTCATTGTCTCTGCTAAACCAATCCAACTTGTAATTGATATAGCAACAATTATTTTAAATAAATCTGCTTTTCCACCAAATAAGAATATAATGAATAATCACAATATTAGAGATGGAATGATTGTCATAAATCTAATAAATTCTATAAATAATATGTCTAGTTTAGAGTAGTATCCTCAAATAGCTCCTAAAACTAAACCTAATGATATTTCTATTGCCGATATAATAAAGGCAAATATTATAGTTTTTCTTGAACCAAGTCACATTTTATTTCATAAATCTTCACCATTGTAACCGATCCCGAATCAATGTTTAACACTTGGAGATTCTGGATGAAATGGATCACTAGACACAGAAGAAATGTCTGCATTTTTACCTATTATAAAAGCCATAAGTACAAAGCTTATGAGTATTATTGAAGATATTATAAAAACCTTGCTTTTCAAAACCAACTTAGATACTGATTTTCAATAACTATATGGTTTTGAATTGATTTTTTCTATAGATTCTTCTCTCTTCTCAACAAACTTAAAAAGAGATGCATCTATAGAACTAATTTCAATTTCTTTTTGATTATGTAAAATTACTTCCATAAATACCTTTCTATTTTTTAGATAATTTAACTCTTGGGTCTAATACAGCCATTAATAAGTCACTTAATAATGACACAAATATACCAATTCCTGCAGATAGTACAATATATCCTAAAACAATGTATATATCATTTGTACCAACACCTTTAAGAATGTATTTACTCATACCTGGAGCTACATAAAATTGCTCAACAAGAATACTTGATCCAAATAATGAATAAATAATACTTGCTGGTATTGTTCTAATAATTCTTATTCCTGCATTTCTAAAAATATGAATATAGAAAACATAAGAATTACTTAAACCTTTTGATTGTGCAAATTTTGTATAATCTGCTGTCATTTCATCAATTATAAATCTTCTTGTTATAATCGATAGACCAGGAACTCCTAATATAACAAGTGCAAATATTGCAACAAATTTTGTATAGTCGTTCATGTCCCACACACCGGCGGAGTTGAAATATTTAACTGTAACTGTTCAATAAATTGAAACAATAATTACTGATGGTACTGCTGTAAATCCTAAAAAGATTCAATTTAAAGAGTTATCTAATGGTTTTTCTTTAAACCTTGCCATAACTATACCCATCGGAACTCCAATCAAGTAAGTTATGATAGTTGAAGAAAATCCTAAAATAAATGATATAGGCATAGCATCTTTAAAAGTATCTAGAACAGAATTATATAAGTTACCGTTTGTTCCGTTCATAATCATTCCTAATCAGAATCATTTTTTAGTTTCATTACCATAAACTCCTGTAGAACTTACTTTTGTAACCTCCATAATTGTTTTTGGAATAAATGGTGTTATATTTCTTCAAAATATAAGAACTTGTTTTATCATACTTCCGTATAAACCAAATGCTTTTCGTTTATTTTCTATTAAGTCATAAAACTCAGGAGTATTTGGTTTTATTGGGTTTTTTATTGGATCATAATCACTTAAAAGTGCATCATCCTTTAAAAAGGCAACCATTAAAACATAAACAACAGCAACGGCTAAATAAAATGTTAAAAAAGCATATAAAATTCTTTTAACCGAATAACTTAGCAAAGGAGTCTTTGCTAAAAATTCTCTACGACCTGAATTAAATTTTGCATATAAGTAACCAAGTTTTTTATAAATAGGTACTTTTGTTTTACCAATTTCGTCTTTTAGTTCGATTCTATCAAAGACTGATTGTAAATCTTGCTCAATTAATTCATTTTGAGAAGTTAAATCATTTTTCATTTTTATCCTTTCCAACTTATTATTTTATAAACATAAATTTTTACTATACAATAATTAATACAGAGGTGAATTCATGAAAAACAATAAGAATAAATATAATGTACTTAAAGAGCTTAGAAAAGATCAAAGAGACGCTCATAAAGACTTCGTTAATAATAAAGTTGATGAAGTTCTTGATGATTATGTTGAAAAGCATTCTGAATACATAAGCTCTAAAAAACTAAGATGGTACGATTATATAATTATAGTTTTTATTTCAATTTTAATAACTGGTTTATCATTTATTATATCTATTTATGGTTTTAAAGATATTACTAGAACAAATTATTTCACAGCAGCTGCTGGTTTTCTAGGTCTCTTTATCTGAATTGTTTATGGATTTGTCATAAACAGAAGAACTGCTAAGTTTTATAACGATTCAAGAAGAAGATATTCTTCAACCTTATCTCCTGAAGAAGCACTAAGCAGAAGGATTAATAAATGTTTCTTTTTTGGTTCAATAATATTGTTAATTATAAGTTTAATATGCTATTTTTCAATTTAGCAAAAGTTTGCCATAAAAAATAAACGTTCTAACTTAAACAAGTACTAAAATCACATTTAATAGGTACTTATTTAAATTAGAACGTTTTTTTTATTATTTTTAAAAATTTCATATTATCTCTAATAACACATTTAAAAATAGCTTTCTAATTAATAGCACCTATTTAAGCATAATGAACTTAATAGCACGTTTAGCGGCAGTTTTAATGGTTTTGCCATTAATATTTTTGCACACTAAAAAATCATTAAAAAAGTTATTTTTCAATGACAATAAAGATAAAACAAATGATTGTTCTAAACTACTTAAAAAATGGTTTATTTCATATTTTCTCATTATGTATACCTCCATCGCCTATGTAAATACTAACAAAATTAAAAAATAATTGCAATAAAATTCAATTTTTTATTACAATTATTTTATTTTAAATATATATATTTAGCCAACAGAAAAATCACTTTTAGTTTTAACAGTTAATTCTAAATTATTTGCTCCACTGTATTTAAATGTTATTTTAATTCCGTTTTCAGCAATAACAGCTGATGATGAAATGTTAAATTTATATTCTTCTAAATTAACAGCATTACTTTCATTTGCTTCAATTGTGAATGATTGAGGTTTTTCAGATATCTCATCAAATTGTACTTGAGCATCGGCTTTTTTGTTAGCAACTTTAATAGTAACTGTAACAGGATTTTTATCTTGTAATTCTAAAACATTATTTTGTAAATGATCTAATGTAACAAATGACAATTCAGGACTTTGTTCTGGTTGAGGATCTGTACTTGACTCACTAGAATCTTTAAAAGTAAGAGTAAATGTTGCTGTTCCAGTTACTAAATTACTTTTTTCAGCAGCTTTCACAATTATTGATCCAGCTTTTTCTTTTGTAGCAGCTGAGAATCTATCGAAAATAACATCAGTAGTTTCTACAACTTGTTTGCTTAATTCAGTTTTTATTTTTGTAATAACAGCAACTTTAGCAGCAGCTTCATCATTTGCTGTAGGAGCAACTGTTAAACTTTGTGCTGTTAATTTAGACAAATCAGCAGGTTCTGAACTTGATTTGTCGTTTTTACATGCAACAGCAACACTACTTGAAGCAGCAACCATTCCCATTGCACCTAATAAACTTAATAATTTTTTCATAAATTTTTCTCCTATTCACGGTTAGACCGTATTATTATTATATGTTTAATACTGATTTTAGGCAAGAAAAAAAGCACTTTATTTTATATTTTAAAAAAAAAAAGAAATAAATATGAAATCTCAAAAAAAGTATTTATTTTGTTGATTGTAAGCGATTATGTCACAAAAAAAACAATATATTAATATATGCTTCTTGTATTTCTTCTTTTTTTATTAAAGAAGTATCAATTACTATATTTTCATGGACTATCAGTTTTTGGTGGTTTAATAGACTCTAGTTCTTCTTTTTTAATTGTATATTTATTACCGTGAAGCCTATTGTCATCTATTTCTATTAAGTTATATACATCATTATCAATTGAAGAATAATATTTATTATCCTGAGTTTTCATAACCATAACTTTTGTTTTTGGTTTTAAATACAGCGGCTCATACCCTGAACAAACAAACCATTTTTTATTATCATAATCAATACTTGAACCTTTATTGACGATTCTTGTGGTTCTATATGAAAAAACAATATTTGGATTTTCTGTAAATTTTCTTATAACTGATTTACAATTATCAATAGGAGTTGAATATTTTTTATTATATTCTTTAATCAGTGTAGGTAAATAATCATTTAACTCTTCAATTGTTTTAATATTTTTAATTCGAATTCTTTGAGGTCATCTTCTTTGAAGGGTGCCAAAAGTTCTCTCAACCAAAGCTTTTTCTTGTGGTATAGAGGTAGTTTTTGTTGATTCTTTTAAAGAATGAAAAATAAATTGCAATTGAGTACGAGACTCTGAATACCCTTCAGAGTCTCTATTTATTTTAGAGCTAAATACATTTCGATTGTCAGTTACATTCTTAATAGGAATGCCATAATTTACAAATGTTTCTTTATAAACACGATAATAACTCTCTGTTGTTTCTTGCTCGCTAAAATGTCCTGCTAAAATTCTTTTTGTTGACTTATCAATTACAATGTGTAAATGACTTTTTACTCCCTTAATCCACTCGTGATTTGAAGCATCTGCTTCAAAAATTGCCCCAAAGTTTGTTTCTGTTTTTTGGGTTGGGTGAGGGTGTTTTAATAATGGAATTTTATTTTTGATTATAACTAATGGTTCTAAATCATTGTTTAATAGCTTTGTTCTTAATCTAATTTCTTTTTTGGTTTTTTTATGCATACTAAAAACTAACTCATTATTTTCTTTCATTATATTTCTTAATGAAGAATAGCTAATTTTATCTTTTCAACAATTTTCTCAATAATCTAACATACTAAAATCATAATATTTTAAATTATAAAGACTAATTATTTTTTCTTTAATATCATGATCTATTTTATTTCTTGGGATTTTCCCAGTGTTTTTATGAATAAAAGCTTTTGGTCCAATTTTTTTATACTCTTTTAACTTTCTATATGTGTGTCTTTTTGATCAACCAAGAGTTTCTGCGCTTGTGTTTATGTCATGTAGTTTATTAGATAAACCTTTTATAACCTCTAATTTAATTTGTTTCATTATGTCTAATTCAATTCCTCTCATAATTTTGCCTCCAAGAATATTGTACTTGTGACATAATCTCTTGTTATTCATAATATGAAATCTCAAAAAAAGTATTTATTTAGGATTTTATAGTAATTTTTGATAAAATATAGAAGTTATTTAAAATAAATAGATATAGAAAAGAGGAAAAATAAAATGAAAAAATTAATGGGAATATTATCTGTAACAGCTAGTGTTGCAAGTGCAGCTTCAGTAGTTGTAGCTTGTGCAAAAGATTTAGAATACGCTGAAGGATTTGATGACGCTAAATTTTTAAAAAGTTTTCCTATAATGCTTGGCGACGATACTGGAGCTTCTAATTTAGACGATTGCATTGAGGAAGGAAAATTGAAAAGAGACTTTTTAGATACTAAAAAGAGCGATTCTTCACCAGTAAGTTATTCTGGAACATTTATTTCGGGAAATATCGATAATATTAAAAGTGTTTTTAAAGGTTTAGATTCATTAAAAAACGATGAAAATACAGCTTATATTTTATCAGTTAGCGGAAAAAAAGGTAAAACATCATTGGTTGTTTATGTAATTAAGTTATCAGGTGATGCTAATGGATTTACAAGCGCTTCATCAGTTTATAAACATAAAATTACCATTCCTGCTCCTGAAGCAAAAGAAAGTAATTAAAAAACTATTTTTAAATTGTTTAAAAATAGTTTTTTTTTATTTAACAATAAATCTACTAGATACCATTAAAAATAACCAATAAACAAATATTACTGAAAAGTTAATTAAATATAATTTGTTTGTTTCAATATTTTTTGCTGAAAAATAATTTAATGTAAACGAAATTATAAACAAGCATATCGGAATGATAATATTAAATATTAAATTTAATACACTAAATGTTCGATATTCAAATAGTTCTAATATGCTTGAAAAAACGAAACTCAAAAGCATTGTTGATAAAACAATATACACTAAATAACATAAAAATGTAATTAAATCGGATTCATACCATTCTGTGGAACTTTTTAAAATTGGAGAAAATATAATATTTAAAAATATATCTAAAAATATTAAAAATATAAAGCCTAAATATATCATTAAATGTGGTCAGAATATACGAATATGTCTTTTTCTAGCATTATAAATTAAATTTGATAAATACAAACTTGATGCAACTAAAAATACACAAAAAGCAAATGAAGCATAAAAGTATCTGCTTAAAACAATATCTTGACTATATAAACCAGCTCCAATTGAAATGAACAAGATCAACGAAATAAAAAATGCTGGGTATAAAAAATAAGAAAATCTTAAAATATATAAGCTTGTTATTTTTCATTTGTTTACTTCATATTCATCTGAATGAATATCTTTATTAAATAGAGTCATATAAAACTTAATAACAATTCAGCTATTTTTGTTGTAGTATTCGTTTACTCTTTTTAATTCAAATAAGTTTTCACTTTTTTTATACCCAAGTCTATCCTTCTCTTTTTGAAATATTTCTTTTATACTTTCAATTGCTAAATTACATGATTGAACTAAATCTCCATAATCATGTTCTGACAACATACGACTTGCTAATTCATCTATTAAGAGATTTAAATAAATAGGTCTATATTTAATATTGCTATAATATTTAACATATCATTTAATTTTGTTCATATTTTTTTCAATTAAGCTGTTTTTTAAAGAATCTAAATAGTCTAAAGTGCTTTCAAATTCAAATAATATATTATTTCTTAGATTTTTTTTGTATTCAGATAAGTTTTTTAAATTATAAAATAATATAGTTTTAATAGCTCCATAAACAATTGTAAAAATAGATCCTAAAATAATTAATTTAAATGGGGAAAAAATTTCATATAATGTACTATCAGTATCTTTGCTATTATCCAGTCATGAACTATATATATAATATAAAAATGTCATTATGGTTATAAAAACTATTTCAAATATTATTTTTTTCATATACTAACCCCTAATTAATCCTTTAAAATTAATTATAACTTAAAATCATTTACACAATTAAAGAACTAAAAAAAATCATAATCAATGATTTGCTTATGGTTTTTTAATTATAATTCATCTTTTTAATATCTGATATTTCTAATTCTTGATCACTTGAAAATTCAATTCTATTAAAATCTTTGATAAAAAATCTTGAACTAAATACTGTTTTATAATCATCTGCAAATAATTCTATTGATGATGAATCAATAAACATTTCTACAACTTGATTTTTATCTTTAATTTTTCTTATTGCATATCTTTTGCTTTCATAATCTCAATCAACTTTTTGACCTTGTTTTGATCTATCCATCGAAATTTCATTATCGTCAAATACAACTTCTAAAAATTCATTGTTATCATTTAAAATTTTAAAACTTGTATTTCCCTTTAAGTTGAATTGAATATGTTTAGCTTTATTAATTTCTACTACATTTGTTTTTTTAACTACTTTATTTTCTAAAACATTTTTTTTAAAATCACCAAAAGGTTTTTGTATTAAAACATCACCTTCCAAAGTTAACTCTCTTGGAATTGTTAGCATTGAGTGTCATGAATATTCATCAGTTGGATATTGTACATCACAACACCCAAATCATCCAAACCAAACTAATGTATCTTCTTTTCAATATGTTTGAGGCGCATAAAAGTCATATCCATAGTCAACTTGTAATAATGGAAATTTCTCATTTAATTTATTGCTTTCAAAATTTAAATTTTCAATTACTGAATAAACAACATTTCTTGAACAATTTAGTTCGTACTTATTGTCATCATTAAAATATCCTTCTGCAGATATAAAGAAAAGATATCTATCTTTAATTTTATCTAAATTTGGACACTCTCACATATAACCATATGTTTGATCTTTAATTGATGGTTTTAAAACTGTTTTAAATTCAAATTTATCATAATCTTTCATTTCATAAACTGCTAATCCACCTTTAACCTCATCTTTGGTTTGCACTCCAAAAATCATATATTTTTTATTATTCAATTCAAATATTTTTGGATCTCTAGCATGAGGAGTAAATTTATCTTTATCTCATGATACAGCTACTCTTTTATTAACTACTTTGTTGTTTTCAAAGTCTGCTACAATTTGAACTTCTTCATTCATATTGCCTTTTCCATCTTCCATATTCCCAGTATAATAAATTTTTACAGTATTTCCAAAATCATAAGCACTTCCTGAAAAAGCACCATATGCTTCTTTTTCAAAATCAGGAACTACAGAAACTCCCATGTCTTTATAATTTACAAAGTCTTTTGTAGTAACATAACGTCAGTGTTTAAAACCATGATAAGGTTGAACTGGTGTTCATTGATAATGGATATGATGAACTCCATCTTTAAATAATAAACCATTTGGATCATTTACTAATCCATTAGGTGATGCAATATGATACAATGGTCGATAATATTTATCTTTTTCAACAAGTTTATTTGCTTGATCATAATATTTTTGATCAATTTCATTAAACTTTTTTCATTTTAATTCCGCTATTTTTTTCATTAACTTCCCCCTTAATATTAATTTTAAAATTTATATGTTTTACTTAAAATTAGTTTTCAGTAACATAACAACATTTAACTATATTCTAATAAAATTTTTCAAAAATATCTTTTTTTTTATAAAAAAATTCTATTCGAATATATTTAATCATATTAAAATTAAATTTCAGATTTTTTATTTAAAAAAAAAAAAAAAATAAGCTTATTTGCTTATTCAAAATTGAAATACTCCTTGATCAATTTTTTTATAATCTCCTTCAAGAGCATACATAACTCCTGTTAAAAAGTCGATTAATCTTTTTTTATCATCCTTAGAAATTTCTGTTAAATTAACAGTTACTCTTTTAAACTTCATTAAGCTGTCAACAATTTGTTTAGTATCTTTATAACTTTGAGGTTTAAAATGTGTTGCGTGCATTTCATCAAATTCTGTATTATCATTTGATATTTCTTCAGAAACCATTTGGCTTTCATAATATTGTTGTTGAGAATGTCTTTGTTGCTGCAAGTTTTGCTCATATTGAGGATTATTGATTTGTTGAGGATTATTGATTTGTTGAGGATTATTGATTTGTTGAGGATTATATTGTTGTTGATTTCCCATTCCTTGTTGATTTATATTTTGCGGATTTTTATTTTCACCTTTATTGTTTTCAACAACTACTTCTTGAAACTTCTTTTTGAAAATTGCCATAAACTATCATTTCTTTCTTAGGAATGGTGGAAAATCTCCGTCCTCATCATCAACTGTGTCTTCAATTTTTTGTGCAACTTGAGGTCTTTGTTGAGAAACATTTCCTTCTTTTCAATTTTCCATTCTTTGAGCTACATTTTTCATCTCATTTTCAGAAATTTTACTTTGTTGTTGCACATAACTAGGTCTTTTATTATTTTCATCATTTAAAAAACTGGTTCTTTTTTCTTGAGCTGATTCAATGTAATCATCATTACTAATGTTTCTTTGATTTGATACATTCATATTTTGTTCTTGAACATGATTTTGGATATTTTGTGGTTTTACAACTTCAACATGTTGTTCTGAACTTATTTCTTTATTATGATCGTTATCAAAACCAGTTGCAATAACAGTAACAATTAATTCATCACCTAAATTTTCACTAATAGCAATACCAAAAATTAAGTTAATATCTTGTCCACTTGCTTGTTTAATAATATCAGCTGCATCCTCTGCATCATTTAAAGTTGTAGAAGGACCACCAGTTACGTTAACAATAGCATCTTTTGCTCCTCTAATTGAAGTTTCTAATAAAGCGCTAGTAATAGCTTTATTAGCAGCTTCTATTGCTTTATCAGGTCCTGAACCAATACCAATTCCAAATAAAGCATTTCCTTTACCTTTCATAATTGTTCTAACATCAGCAAAGTCTAAGTTAATAGTTGCAGGAACTGCAATTAAATCAGTGATTGTTTGAACTCCTTGTTTTAAAATATTATCCGCTTCTCTAAATGAATCTTTAACTGGAATTCCTCCAATTATTTCAAGCAAACGATCATTTGAAATAACAATAATTGAATCAACAAATTTTTTTAACTCATCAATACCTTTTATTGCATAACTATTTCTTAATCTACCTTCAAATCCAAATGGTTTTGTTACAATAGCAATAACTAATGCTCCAGTTTCCATAGCAATTCTTGCAATTTCGGGTGCAGCACCAGTTCCAGTTCCTCCACCCATTCCAGAAGCAACAAATATAAGATCTGCATCTTTTAGTATTTCTCTTATTTCTGATTCTGATTCAAGTGCAGCTTGTTTTCCGACTTCTGGATTTGCTCCTGCACCTAAACCTTTTGAGATATTTGCTCCTAATACAACTTTTTTTTCTGCACTACTTGCAGCTAAAACTTGAGCATCAGTATTTGCAACAATAAATTCAACACCTTCAACTTTATCTTCAATCATCCTGTTAACAGCATTACATCCACCACCACCAACACCAATTACCTTGATATTCGCAGCTTGTTTTACGAAATTATTTGACATTCTCCATCCTCCTTATAAAACTATCTATTTGTTTGCTTTTTAATAATACCATTTTGATTTGCAAAATTATTTACATTTTGATAATTTTGTTGATTATTAATATTATTAATATCGTATATTGATTGATTTTGTAAATTAGTAAAATTTTGTCTATGCATCATTTGTGGTTGAGACATTTGATTTTGGACAATATTTGGTACATTATTAATACCAGTATAAAGATTAGACATTGGGTTTTGCATTAATCCTTGTTGATTATTTTGCATCAATTGTTGGTGTTTTTCAACTTTTGAATATTCAATTGTACTTGTTTTAAATATTTGTGCATTTTTATTTACATCATGACAGCTTTTAATAGCCCCACAAAGAGAAGAAGTTCAAATTTCATTTGCTCCTGTTACAAGTGAATAATAAATAAATACTTTATTTTTGAAATTACTTCTTGATATCATTTTATCAAATCCAGAAATTTCAGTTACTTTACCATTAAAAAATACTTTAAAATCTCTTACTTTTGTTATAAACTCGTTTTGAATCTCTAGATCTATTAAATCAATTATATAATTCATCTCTTCTAAAAATAGATCTTTTAATTGTTTTATGCTTATTTCTAAAGTTCTTTTTTCACTTGATATATACTTTCGATAAATAATTAAATCATCATTTTTAGTTGATTTAAAGTTCAACATTTTAAAAATATATGTTTCAACTACTTTATTTTTAGCATAAATTTTTTTAGCTATATTGCTAAAAATTTTATCTATTCCAATTGGTTTTGAGATTTTTTTAACTAATGTTTCTTTTGCAAAAAATCCTATTTCTAATGTTTTAATATTTCAATCTACTAACGCAGAAGGTTCTTTAAAGTTTTTTTCTTCAATACATTGTTTTGCAAGAGCATATGTTTGAATATATTTTGCTAATATATTTTTTTCACATTTTTGAACAACTTCCATATGTGAATCAACAACTTTTTTATCTAATGTATAAGCTTTTGCATACATAGCGACACTATTTGCAATCATCCCAACATTAATTGAATTTCTTCTGTCTTTATTATTTAAAACATATTCATAAGGTCTAACGTTAATTACAACTGTGTTTTCATTTTCATTAATTACAACTGCATCTTTATATAGTTTTTTAATATGTTCATGAGTGATTATTTTTTTATCATTATCAATAATTATGTGAAGATTTGTTTGAGCAATTTTTAAAGTTTTAATCGGATATACTATGCCAACATTGATAATTTTTTCATTGTAGGTATTTTCATATTTTCTTATCAGCTTTGATAAATGCTGTTTTGCACTATTTATGTCTAAAACTTCATCATTTTCATTTAATCAGTTTCCTTTGACTCTTTCTTTGAAAATAACTTTTAAACCAAGATTGTTTCGATATTTACCTACGATAAATCTAATGTCTTTTTTTGTTATTTCAACAACTGCATATATTTCGTTTTCCATATTATCACACCTTCTTTATTGCTCACAATTTTGCACTATGTGCTCTTCTATTAATTTTTAATTCATCATCACTTGGTAAAATTGGTTTTTTAGTTAATAATTTAAACTCTTTTTCTTTGATTAATCCCTCAACTGGTAACTTTGATAAAAATTTATCTTTTATATCGGTAGTTTTAGTCTTAAAAATATCTTTAATTATTTTTTCTTCTAAAGAATGAAAACTAATTATTACTAATACTCCATCTTTTTTTAAAAGTTCTAAAGCTTGAATTAAAGATTTTTTTAAAACTTCTAGCTCATCATTGACACAAATCCTTAAAGCTTGAAACACTTTTTTTGCTGGGTGTTTTTTTTGTTTTAATATTTTTTGAGGTAATGCTGATTTAATAATTTCAACCAACTCAAATGTTGTATTAATTGGTTTTTCAACTCTTGTTTCAATAATTTTTTTTGCAATTTGATAACTTAGCTGTTCTTCACCATATAATTTAAAAATATGATTCAACCCTTTTAAATCATATTTGTTTACAATATCTTTTGCGGTTAATTTGTTGTTTTTTAAATCCATCCTCATATCAAGATCGCTATCAAAACGATAACTAAATCCACGAGATCCAACATCAAATTGCGGCGATGATACTCCTAAGTCATATAAAATACCATCAACTAAATTAATGTTTTTTAATGCTAGTAAAGCCTTTAAATATACAAAATTACCTTCCAAAATAGTAAAATTATTTGAAACTGCCCTAAGTTTCATTTCACTATTTTGGATGGCTTCTAAATCCTGATCAACTGCATACAAATGACCAGCTTTCAATCTTTTTAAAATCTCAACACTATGTCCAGCACGGCCCAACGTGCAATCAACATAAACTCCATTTGGTTTAATATCTAACAAATCTATTGATTCATTTAATAAAACCGATATGTGTTCTTGCGTCATTAATTTTCTCCGCCCAATTTTTCAGCAGCTGCATAAATTTCATTTTCATTCAAATCTTCTAAAGATTTTTCATATGCAACCTTGTCTCAAATTTCTAGTCTATCTCCTAGCCCTAGGATATAGACATGTTTTGAAACCCCTATTTTTTCTAATAAATTTGTGGGAATTTTTATTCTGCCAGAAGAATCAACTAATAACTCATCTGAATTAGATAAAATTAAACGTTCAATTGTTCTAGTAGAAGCGTTAAAACTACTTTTATGCCCTAACTCTTGAAGTAGTTTATTAAAATTATCTGGGGTTCTTATTTCCAAAAAGTTCCCTATCCCTTTTGAAACAAAGATAACATCACCCAGTTTATTTCTTAATTTAGATGGAATAGTTATTCTACTTTTATCATCTAAACTATGTTCAAAGGTGCCAAGTAACATATTTTTGCCCCACTTTCTCCCACACAAATACAATTATATACACTTTTAAGATTATTTCAACATTTTTTTTAATTTCTCTCCCACAAAATAAAAAAATCATTAATGCATGATTTTCTTTTGTAAATTTGAAACACATTTTATATACATTTTTTGCTCCAGTTTTTGAATATCAATTGATTCAATATCTCTTTTCAACAAGCTTTTTAATTGATTTTTAAAATTTGTATAATGATAATAAATTGAGTTTGTTACATTAAGACTTAAAACAGGATCTAGCTTGTCTAAGATATCTCCTAATTTATAAATCTCATTATTGATAAGGTTTAAATCTACTTTGTTTTCAAATAAAGCTAAACAAATTGATGAATTTAAAATTTCTGTTTCGATATTTTCTTTTGAAATCATATTTACCTCCAATAAATATATCGATATTTTTAAAAAAAAATTTATCTTATATAAAAAAAAAAAAAAAATAGTTTTCCAAACTGTATTTATTTGGTCAACTATATTTTATTAATTGTGAGATTAATCTTTTTTTACAACTTCTTTATTTTTGTAATATCCACATTCACGACAAACTCTATGTGGTTTAATTGTTGCTCCACAATTTTGGCATGTCATAAGTGATGTACTTACCAATGCTAAATGACTTCTTCTCTTATTTTTTGCAGCCTTGCTGGTCTTTCTAAATGGTACAGCCATATTTACACCTCCTATAATTAAAACTTAAACTCTTTTAGTTTATCCCATCTTGGGTCTTGTTTTTTTTCTTGCTCTTGTTGGTATTCTTCTTCTGACATAAATGTAAAATCTTTACCGACAAATGAGATTTTACCATAATTATTTGTAAAATTAATAGGAATATTTAAAACAATTTGTTCAATTGCATATTCTAAAATGTCAAATTCAGCTCCTAAAACGACATTTACTTGATCATTGTTAATTTCTTCAAAAAAATACTCATCATTTCAATCATACTCTTCATTTTTTATATTAATTAATTTACCGTCTCTTGCATCTATTAAATCTATATCTGTGATTATTTTTGCTTCAACTTTTAAACATTTAATAGTTTCTTGGTATTTTAATGCTCCTAAAACTTTAATTTTATTGATTTTTTTTAATAATGCATGATTGAAGTTGTTAATACTATCACAATTAAAAACTTCATCAATTTTTATCGTTTTTTTAAGCTCAATATCTTTTTTAAGCATATTATTTTACCTCTATTTTTAATTTTTTTATTTTATCAAGTATTTTTTGTCATTCACTAGACACTTCTTTATCGGTTAACTGTTTTTCATTTGAATTAAACTCAAATCCAACACTTATAGCTGATTTTTGCTCATTTGCAAGTGTTTCATCTTGATAAATATCTAATAAACTAAAATGTGTAAGATAATTTATATCTTTTGTAATATTTTTAATTACTTCATTGTAATTATCACTTACAGATAATAACATTGTTACATCTCTTGATGTTTTTTGAAATTTTGAAGCTTCTTTGATAATATTTTTTCTTTCAAATAATTTTTCAATCTCACTTAAGCTAAGTTCTATTACAAAAGTATTAGCAAGTTTATTTGCTTGTTCATATCTTGGACTAAGTTTGAAAATAAATCCTATTAATATATCTTTATATTTAACTTGTGCATTAATAAATGGATGAATTTCATCAATTGGTTTTGACATATTTTGAATGTTTAAATCATTTAAATCAATTTGATAAATTGATAAAACTTCATCCAAAATCCCTTTTAAGTATGGATAAGAAGAAGAAATGTTTAAATTATAAGCTTTTTGATAAAAAACTTCACCGCTTGTAAGAACTGAAAGTCTTTTATCTCTAATTCCTTTTAAATTATAAACATCTGCGATTTCATATAGTTTCAAGTTTTTATTACCTCTTGAACTATTTAAATTTGCAATTTCAATCGCACTTTGAGCTATACTTAATCTATAACTTTCTCTTAGATTACTTAAAGGAGACATTAAATCTATTGGATCTTTTAAGTTAAATAAATCTCATCTTTCAACAACTTTTTTATTCATCAATGAATAAGTTTTAATATTATTAAACCCATTATCTATCAAGTAATTTTCAAGTTGTTTTAATAATTTATTTTCAAGTTGTTTTTCTTTTAAAGTTGCTTCTATAATTTGAGGTTTTGATTCAATTTTGTTATATCCATATAATCTAGCAATTTCTTCAATAATATGTGCTTTATGACTAATATCTGTTCTAAATGGATCAACTTCGAATTTTAAAACTTCTTTTTTTGATTCACTGATCTTAAATTCTAAATTTTCAAATAATTTTTTAACTTGATCTACTTTTAATTTAGTTCCTAAAAATTCATTAATATAATCAAGACTCACTTCAACTTTTTTTAATGAATCAACTGGTTCAACTTGAACTTCAACTTCAGTATTTGCAGAGTAAAGATTATATTGATCAAATCAATAATGTAATCTTTTACTTGCTAATGAATATAATCTTGAACTTATTGGTTTAATTCATCTTTGTAATAAAGCTGAATTTGAATTTGCAAACTTCTGATGTTTTCTCATTAAAATTGGGTTTAATGATAAATAAACAGCAATAACTTGTTTACTTTTTGCACTTGGCAAGAAATATTTATTAAAATCAACACCAAGAGTACTTACAACTTCATCAGCGCACATTAATTGATAATTAATTGGTTTTTTGTCTGTTGGATTATTTTGAATATGTAATTGTGTTTTTAATTTTTCAGGATCTAAAAATAAAATTGGTTGACCAGTTTCAATAGCAATTACATTAGCTAAATCTAGTCAGAAGTTTTCTTGAGATTTAAATCCACAAAACTTTAATCATATATCTTGAAATGAGTAAATATTTGGTTCAGTTTCATTTTCATGAATACTGTGAACTTCTTTTAAATCAAATAACTCCATTGCACAACTTCTAACAAGTTCTTTGCTTTCTTCAGTCTCTTTTAATGAAACTGAAACATGATAAATTGAAGGAATTTGTTTTAAATTTTTTGTATAGTCTTTGACATCCTTATCAAAATAATTTGCTAATTCTTTTACAATTTGCATTGCACCAAGTGCATCACTTCTATTTAAAGTTAAATCAACATCTCAAACGACATCATTAAATCCAATTATATTTAAAACTTCATTGCTTCCAATTAGTGAATAAGGATCAGTTTTTGTAAAAATTGGATAAATCCCTTCCAATTCAACTTCTGTTTGAACATTTTGATCTACACCAATTTCAGTTAAAGAACAAATCATTCCTTCTGAAATTTTTCCTTGTATTTCTTTAGTTTCTAACGTTAAACCTGTTGAAATAGTTTTTCCTGGACTTGCAACAATTACATATTGTCCTTCTTTAACATTATTTGCTCCACAAACAATCGGACTTACCAAATCTTCTCCTTTATCAACAAAGCAAAAGTTTAATTTAGTTCCTTCAATTGGAGCAACACTTCCAACATGCCCTAAAGTAAGTTGATCATTTAAGTCTCTATACACTCTTTTTGCATCAACTTCAAATCCTAGCGAGTTTAAAGCGACAGTTATTTCATCACTTCTAATACCTTTAATATCTATAAAATTTTTTAATCAATTTCTTGTAATAACCATATTTACCTCCTAATCTCCAAAGAATTTGAATTGTTCTAAAAATCTAATATCATTTTCATAAAAATCTCTTATATTATTAATTCCAAATTTTAGCATAGCAACTCTTTCTACACCAATTCCAAAAGCTAATCCACCAACTTCATTTGAATCTAAACCATTTTGTTCTATTACTTCTGGTGCAATCATTCCTGATCCTAAAATTTCAATTCAACCAGTATTTTTACATACTTTACATCCTGAACCACTACAATTTACACATGAAATATCAACTTCACAACTAGGTTCGGTAAATGGAAAAAAACTAGGTCTTAATCTGATTTTTGTTTTAGGTGAAAACAATCTTTTACACATATATTCTAATGTTCATTTTAATGTTGCGAAATTAATTTTTTTACCAACAGCAAAACCATCAATTTGCATAAATTGATGTGAATGTGTTGCATCATCATCATCTCTTCGATATACATTTCCATAACTAATTGAAGCGATACTTTTTTCTTCAACATTCATTTTCGACAATTGAGTTAATCTTCTTGCTGTCATATTAGTACAATGAGTTCTTAAAACATTTTTTTCATCAACATAAAAAGTATCTTGCATATCTCTAGCAGGATGACCAATTGGCATATTTAATTTTTGAAAACAGTATTCATCACTTTCAAACTCTGTTCCACTAACCATTTCATAACCTAACTCAGTAAAAATATCACTAATTTCATCAATTACTAAGTTTAAAGGGTGTTTTGAACCTCTTTTAAAAGTCATTCCTTGCAAAGAAATATCGATTTTTTCTTTTTCTAATTGTTTTTTTAATTCTTCATATTTTAAAGCATCTTCTAGTTCATTTAAAGCTGAAAAAACCTCAGTTCTAACTTCATTTATCTTAATTCCAAATTCTCTTTTTTGATCTGGGTCTAAATCTTTTAAATCTCTTGAAATTTCAACTAAAGCAGAATCTCTAGAAGCATATTTTCTTTTTAATTCTTCATGACTTTTTTTATCTTTTGCATCTTTAATTTCTTTTCTAAAGGTTTTTAAGATTTCTTCTAATTTTTTTAACATAGTTTTTCCCCTTCTAAATAGTTAATTAAATTATACTAAATAAACGCTTTGTTTTTGGCATTGTTTATTAATACATCAATTTGCTTTATTTGATCTTTAACTTCACTAATAATATAGTCATATTCTTTGGTTTTCTTGTTAATTGATAATAGTAAGTCTTTTTTAGCTACTAATATTGATCTTTTAAAATCTAAAAACTTTCATTTATAAAATTTATCATTATCATAATAATTATTTTCAAAAAAAATATCACCATGAATATAATTGAAAAAAATATAGTTGAAAAATGCTATATTTATAAAATCTCTAATATTTTGATAAAAACTTGCTAGAAATTGAGTATAAATATTTTTATATTCATCTAAATTATTAGTTTTTAACAAACAAGTCTGACTTTTAAAAATATCTCTTATTTCATTAATTTTGTAAAAAATATCATCATACTCAACTTTGTTAAAAGTTAATTTTAATTTTGTTTCAATTGATGTAATCAAATTATTTATATTTATAATTTCTGGAAAACCAACAAACTCTCACATAAATTTAACACCGTTAACTTCACTAAACTGGTTTTTTTTAGTAACTTCATGATTAACTTCTTTCAAAAATTCTTTCAATTTTAATAACTCCTTTATAAAAAGCAATAGTATTTTATAATAACAAGATAAAATATACAAAACTTTATAATAAAAAACACCTCTTTTTAAGAGGTGTTTTTTAAATTTCTGAACTGGCAACGTCCTATTTTCGCATGATACTATCTTCGGCGCAGCTAGCCTTAACTTCTGTGTTCGGCATGGGAACAGGTGTGACCCTAGCGCTATTGTCACCAGATCTGAAATTTTTTTGAGAGTGTTGGGTTATATAAATAACCAAATCATCCTCTCAAAACTGAATATTAGATGTATAGATTTATAATACAAAATGTTTTTCTGGGTTTCTTTCAAGAAAGACTCTCGATCTATTAGTATTGGTAAGCTGAACACGTCACCGTGCTTACACACCCAACCTATCAACCATGTGGTCTACATGGGATCTTACTTCCGAAGAATGGGAAAACTCATCTTGAAGGAGGCTTCTCGCTTAGATGCCTTCAGCGATTATCCTTTCCGCACATAGCTACCCTGCTGTGCCACTGGCGTGACAACAGGAGCACCAGGGGTGCGTCCATTCCGGTCCTCTCGTACTAGGAACAGCTCTTCTCAATTTTCCTACGCCCACAACAGATAGGGACCAAACTGTCTCACGACGTTCTGAACCCAGCTCGCGTACCGCTTTAATGGGCGAACAGCCCAACCCTTGGAACCGACTACAGCTCCAGGATGCGATGAGCCGACATCGAGGTGCCAAACCTCCCCGTCGATGTGAACTCTTGGGGGAGATCAGCCTGTTATCCCCGGGGTAACTTTTATCCGTTGAGCGACGGCCCTTCCACACGGGACCGCCGGATCACTAAGTCCTGCTTTCGCATCTGTTCGACTTGTAAGTCTCGCAGTTAAGCACCCTTCTACCTTTGCGCTCTTCGTACGATTTCCGACCGTACTGAGGGTACCTTTGAGCGCCTCCGTTACATTTTAGGAGGCGACCGCCCCAGTCAAACTACCCACCAAACACTGTCCCTGGCCCGGATAACGGGTCTAGGTTAGAACCTCAATGTAACAAGGGTGGTATTCCAAGGATGACTCCACGATCACTAGCGTGACCGCTTCAAAGTCTCCCACCTATCCTCTACATGTTACACCAAAATTCAATATTAAGTTATAGTAAAGCTCCACGGGGTCTTTCCGTCTAGTTGCGGGTAACCAGCATCTTCACTGGTACTAAAATTTCACCGAGTCTATAGCCGAGACAGCGAAGGGATCATTACGCCTTTCGTGCGGGTCAGAACTTACCTGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTCACCGGGGCTTCAATTCAATGCTTCACCGAAGCTAACATCTCCTCTTAACCTTCCGGCACTGGGCAGGCGTCACCCCCTATACTTCGTCTTACGACTTTGCAGAGAGCTGTGTTTTTGCTAAACAGTTGCCCCTCCCTCTTCACTGCGGCTCACCATAAGTGAGCACCCCTTCTTGCGAACTTACGGGGTTATTTTGCAGAGTTCCTTAGCTATAGTTATCTCGCTTGCCTTAGGATTCTCTCCTTGACCACGTGTGTTCGTTATAGGTACAGGCACCAAGTAAATTAACACTAGAAGCTTTTCTTGGAAGCGTGGAGTCATGGACTTCGCTACTAGCCGAAGCGTTCACTCCCCATCATACTTCAGAGTTAAAGCACGCGGATTTGCCAACGTACACTCCTTTGTATTTAGACCGGCATATCCAACAGCCGGCATCCACTATCCTTCTCCGTCACTCCATCATTTTACTTGGTGGTACAGGAATATCAACCTGTTGTCCATCGACTACGCCTTTCGGCCTCGCCTTAGGTCCTGACTAACCCTGGGTGGACGAACCTTGCCCAGGAATCCTTGGTCAAACGGCATGGAAGATTCTCACTTCCAAACGTTACTCATGCCGGCATAATCACTTCTAAGCGCTCCACCAGTCCTCACAGTCTGACTTCATCGCACTTAGAACGCTCCCCTACCACTTACATTGCTGTAAATCCTAAACTTCGGTAATACGCTTAAGCCCCGGTACATTTTCGGCGCAAAGGCACTCGACTAGTGAGCTGTTACGCACTCTTTAAATGATGGCTGCTTCTGAGCCAACATCCTAGCTGTCTGTGCACCTTCACATCCTTACACACTTAGCGTATATTTAGGGACCTTAGTTGTAGATCTGGGCTGTTTCCCTCACGAGCATGGACCTTATCACCCATGTTCTGACTGCCGAGTATGAAATTATGGCATTCGCAGTTTAATTGTAATCAGTACCCCTAGGTGGGGCCATCATACATTCAGAGCTCTACCTCCATAATTCTAAACCTCGACGCTAGCCTTAAAGCTATATCGGGGAGAACTAGCTATCTCCAGGTTCGATTGGAATTTCACCCCTAGCCACAAGTCATCCACGGTCTTTTCAACGAACGTTGGTTCGGTCCTCCATTAGGTTTTACCCTAACTTCAACCTGCTCATGGCTAGATCACCTGGTTTCGTGTCTACGACAACATACTAAACGCCCTATTAAGGCTCGCTTTCACTACGGCTCCGTATATTCTACTTAACCTTGCATGTTATCGTAACTCGCCGGCTCTTTCTACAAAAAGCACGCTATCACCCATTAACGGGCTCTAGCTTCTTGTAAGCATATGGTTTCAGGGACTATTTCACTCCCCTCACGGGGTACTTTTCACCTTTCCCTCACGGTACTGGTTCACTATCGGTAAAATGGTAGTATTTAGGCTTACCCAGTGGTCTGGGTAGATTCCGACAAGGTTCCACGTGCCCCGCCGTACTCAGGATACTCTATCGAGATCAGTGCATTTCGCATACGGGAGTATCACCCTCTACGCTTGTGCTTCCCAACACATTCTGCTATACACTGATTTTGTAACTCTAACAAGAGTCCTACAACCCCGGCCCGTAGACCGGTTTGGCCTGTTCCGCTTTCGCTCGCCGCTACTTACAGAATCACATTCGTTTTCTTTTCCTCTAGGTACTAAGATGTTTCAGTTCCCTAGGTTCCCGTTATATAACCTATGTATTCAGTTATAAACACTATGAGATTAATCATAGTAGGTTTCCCCATTCGGACATTTCCGGATCATAGCTTACTTCCAGCTCCCCGAAACTTTTCGCAGGTAGTCACGTCCTTCATCGGCTCCATTTTCCAAGGCATTCACCATATGCCCTTACTATACTTTCTTTAAAAAGAAATCCTATTTTGCATTATAGATAATCTAATAAATATGAAATTTCAGTTTTTCTTAGTAATTATAAAGTTACTATTTTACGTTTTTTATGAAACGTAAGAAAAATTAAAATGTCTTTTTTCATCTAATATTCAGTTTTCAAAGAACGATTCTCAGAAATCAAAAACGCTTTGTAGCGTCCACGATCTCTGAAAACTAGATAGAACCAGAATATAATCAAAAGCTGTTTTATCGATTCGCTCAGCTTTTATATCTCTACTATGATTAACTCCATAGAAAGGAGGTGATCCATCCGCACGTTCCCGTACGGATACCTTGTTACGACTTCACCCTAATCGCTAATCCTACCTTGGTACGCTCTCTCCTTACGGTTAAGATACGTGCTTCTGGTATTACCAACTCTCATGGTGTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCGACGTTGCTGATTCGCGATTACTAGTGATTCCGGCTTCATGAAGTCGAGTTGCAGACTTCAATCCGAACTGAGACTGACTTTTTGAGATTAGCTCCCTCTCGCGAGATTGCGACTCTTTGTATCAGCCATTGTAGCACGTGTGTAGCCCAGGACATAAGGGGCATGATGATTTGACGTCATCCCCACCTTCCTCTAGCTTACACTAGCAGTCTCGTTAAAGTCCTCAACTTAATGTTAGTAACTAACGATAGGGGTTGCGCTCGTTGCGGGACTTAACCCAACACCTCACGGCACGAGCTGACGACAACCATGCACCACCTGTCTCAATGTTAACCTCCACTACATCTCTGTAGCTTTGCACTGGATGTCAAGCCCTGGTAAGGTTCTTCGCGTTGCTTCGAATTAAACCACATGCTCCACCACTTGTGCGGGTCCCCGTCAATTCCTTTGAGTTTCACTCTTGCGAGCATACTACTCAGGCGGAGTACTTAATGCGTTAGCTGCAGCACCGACTAATGCCGACACTTAGTACTCAACGTTTACGGCGTGGACTACTAGGGTATCTAATCCTATTTGCTCCCCACGCTTTCGTGCCTCAGCGTCAATTACAGGCCAGTAGACCGCCTACGCCACTGGTGTTCCTCCATATATCTACGCATTTCACCGCTACACATGGAATTCCATCTACCTCTCCTGCATTCTAGTTACCCAGTTTTCAAGGCGAACTGGAGTTGAGCTCCAGGCTTTAACCTCAAACTTAAGCAACCGCCTACGCACCCTATACGCCCAATAAATCCGGATAACGCTTGCCACCTATGTATTACCGCGGCTGCTGGCACATAGTTAGCCGTGGCTTTCTGGTTAGGTACCGTCAAACTAAAAGCATTTCCTCTTCTAGCATTTCTTCCCTAACAACAGAGCTTTACAATCCGAAGACCGTCATCACTCACGCGGCATTGCTTCATCAGGCTTTCGCCCATTGTGAAAAATTCCCTACTGCTGCCTCCCGTAGGAGTCTGGGCCGTATCTCAGTCCCAATGTGGCCGATCAACCTCTCAGTTCGGCTACGTATCATTGCCTAGGTGGGCTTTTACCCCGCCTACTAGCTAATACGCCGCATCCTCATCTTCTAGCGACCCAAACGGGCCTTTCAACACCTTCTGATGCCATAATGGTGTCGTATGCGGTATTAGCAGTCGTTTCCAACTGTTATCCCCCACTAAAAGGTAGATTAGATACGTGTTACTCACCCGTTCGCCACTGGGTGCAAGCACCCCGTTCGACTTGCATGTATTAGGCATGCCGCCAGCGTTTATCCTGAGCCAGGATCAAACTCTCATTAAAAAAATGCGAATATTTTGATTCATGACTATATCTGTTTATTTACTCAAAAAATTGAATGTATGTATGTACAATAATAATTTGGTTGTTGTTGTTCTATCTAGTTTTCAAAGATCGTTATTTTATGACTCTCTTTTTTGCAAAGCGAGCACATAGATAAATATATAATATTTTAAAATTTAATACAAGTCTTTTTGACATTTTTTTTAAAATATTTTTATTTTTTTTACCACTTCTCTAAAAGGCCATAAACATTAGTTTTTACCTTAACTTGAGCGGCTTTCATATAATAATACTTTATTAGTACAAATACAAGTCTTTTTTTAAAAAAAGTGAAAAAATTTGTCAATAACATATGATATTTTCCCTATATATAACAAATAAAAATTTCCCAAATATATAATTTATAATGGGGGATTTAAATATGAGGAGATATTTAAAAATGAATGAAAAAAATAAAATGGAAATAATTAAAGCTGTAATTGATGAAAAACTATCTAAAAAAGCTGCAGCAATAAAAATCTGTCAAACAATAAGAAATGTTAACTTATTAATTAACAAATATAAAAAGTATGGTTACACAGCATTTATCCACAAAAATACTGGAAGAATATCAAATAAAAAAATAAAACATCAAATAAGTGATCAAATTATTGACTTGTACATTAATAAATATGAAGAATATAATTATAAACACTTTTTAGAAAAGCTTTGATCAAACCATCAAATAAGTGTTTCATATACTTACTTAATCAATTTATTAAAAAAGAATAATTTATATTCACCAAGAATTCATAAAGTAACTAAAAAAATGATTAAACAAAAAATTACTAACTTATTAAAAAATGAAAATATTAAAAAACTTGAGAAACGAGAGTATTTAAATACTTTGCTTTCAATAGAAAATATTCATCCTATGCAAAATCGAAAAACAGAGTTTGGTGAGCGCTTGCAAACTGATGCATCAGTCCACTACTGAGTTGATAATGAGAAATGGTATTTACATGGTTTTATAGATGATGCAACAGGTAAAGTTTTAGCTTTATATTTTGATAAAGAAGAAACTCTTATGGGATACTACAATATAACAAAAAAAGTTTTATTGGAGTATGGGATTCCAAAGGAGATAATTACTGACAAAAGGACTGTATTTTGAAGTCAAAAAGAAAAAGAGTCAGACCTTCACTCTGACTCTTTAACACAATACGGATTCTTATGTCATAACTTAGGAATAAAGCTAACAACTTCAAGTGTTCCTCAAACAAAAGGCCGTATTGAAAGGTTGTGAAATACACTTCAAGATCGCCTACCAAAGGAACTCAAAGAAAATAATTTATCAGATATAAATGAAGCAAATTCATTTTTAAATGAATATATTAAAAGATATAATTCACAGTTTTCCCTTCAATTAAATAATATCATTAACTCTTTTTCTATTTTTAAAGAACATAAAAACATAGACTTTTATTTATCAAGAAGATTTGAAAGAACTATTAATAAAGGATCTACAATAAAATACCAAAATAAATTTTATTTACCACATTCGAATGGCGAGCCAGTCTTTTATAAAAATAAAACAAAAATCTTTGTAGTAGAAACTTTTGATGGGCAATTATATTCAAACTCATTTAGTGAATGAATGCCTTTAATTGAAGTTCAACAAAACTCAACTTATAAAGAAGCTTATGAAGATAAAAGTGTTTCTGATATACAAAAAACACATAAGCAAATTAAAACCAATAGTCCATGAAAATATACTAATTGAATATTTTACAAAAACTCTAAAAATAAAGTTTTGGGAAAAATTGATTAGTTATTGACAGTCTTTTTTTAAAAAAAGTGAAAAAATTTTTCATTTTTTTTAAAAAATATAAAAAAACAAAAAAAATGACGACTTTTACTAGTCGTCTCATTCTATTGTTGCTGATTTTTCTTCATTTTCATCATTAATTGGGTCAAAAATTTTATTTGTATCTATTTCTAACGTTCTTGTTTTTTCTTTTTGCAAATTATCTAACATGTTAAAGTTATCATTATTTGCTAAGTTTTTTTTAGGTTGAATATTACGGTTTTGTTTTTTTAAAGCTTCTCAGATTCTATCTCCATCACCTAAAAAAATCTTATTTTCATAATTCATATCAACCTTAGGTTGTTTTCTTTCAGTTTGAGGTTTACTTGCTATTTTTTGGGGAATATTTCCTATTGGATCTTTATAAATACTTGCTTTTTGTGCAACAAGTCTTCTTGGTACTATTGTTTGTTTATAAGGGTCTTTTGGCTTATCAGAAAATAAATACTCTTGTACAGTATTTGATAATTGCTCTTCTTGGACACCCACAGGTCTATCTGGACGTTTTATTCTTGGTTGTTGACTATTTGATTGGTTTTGTTGTTTAAATTGATTAAACATAATATCTTGTTGTTGATTTTGAAAGTTTTCTTGATCGAAATTATTTTCTTCTTGAGTTTGATCATAATTTTCTAAATTAGGTACATCAAAATTTTGATCTTGAACACTTTCGTCGTGATCTTCTATGTGCATATTTTCAAAATCATTTTCAGATAGATTATTTCTTAATTTTTGAATTTTATCTGCTATATTAAATGTTTCATCATTTGGAGTTGAAGTAAATGATAAATCATCATGCGCCTGATTCATATTATTTACTTGTTGTTGCATGTTAAATTGAGGTTGTGGTTGAAATTGAGGTTGTGGTTGAAATTGAGGTTGTGGTTGAAATTGAGGTTGTGGTTGAAATTGAGGTTGTGGTTGAAATTGTTGATTAAACTTATTTGAAGTAACATTTTTATTACCATCTTCATTATTTGATTTAACTATAGCAACAATACTCAATGCAGATCTTACTATGAAAATAATTATAGGAAAAACTATAAACAGCACTATAGAAATTATAAGATAACTGCTACTTCCTAATAATTTTATTACAACATCATATGTCATAAAATAAAATGATATAGATATAATTATTGCTAAAATTGATGCTAATAAATCAAAAATTGAAATATAAGGATTGTTATTGATAAAAAAACAAACCATAGTAGCAATAAAAGCAATAATTGCCACAAGAATTAATAAATATTGCAATCAATGAGCATATTCACTATTAAACATTGAATAAGCATGCATTTTTTCGCCTGGAATACTAATAATAATTAAAGATGCAGACATAAATACAAATAATGCTCCAAAAATTCCAAGCACTAAGTTCATAATTTTAATTGCTTTCATAAAATAACCCCTATCTTTTAGCCCTACATTAATATAATTTTAGCATATTATCATTGTAGTTTTTTACAATTTTTATGCACAAAACTAATAAAATAGTCTGATTTAATAGTTTATAACTATACCTTTATATCTTGTCATACTTATTAATGACTCTCTAATTCCTTGAACACCTTCTCCAGAATCTTTTATTCCTAAAAAAGGAAAACAATCAGGCCCTCGTTGAGATTTTGAATTAATATTTACAGTTCCTGTTTCAATTTGTTTTGCAACATTTATAGCTGTTGAAATATCTTGACAAAATACACTTGCTTGTAATCCAAAGTTTGACTTATTTGCAAGTTTAATCATTTCTTCAATACTATTTACTCTCAAAATTGGCAAAACTGGTCCAAACGGTTCTTCTCATGCTAATTTCATATCAGGAGTAACATAATCAACTAATGTTGGTCACATTAGATTTTTTTCTCTTTTATCTCCAAATAAGATTTTAGCACCTTTTTGTTTTGCATCATCAATTAATCCTTGAATAAAATCACTTGATTTTTCATCAATGACTGGTGTTATAAATGCATTTTGTTCTGGTGTTCCAACACTTAATTTTTCTACATGTTTTTTTATAATTGGTACTAATTTATCTGCAATTTGATCATTTACAAATACTCTTTTAATTGCAGTACATCTTTGTCCAGAATATCCAAAAGCTCCAGTTACAATTTCTGAAGCATATTTTTCTAAATCGCGATCATCTAAAACTAAAGCTGGATCTTTTCCTCCAAGTTCAAGTACTAAATCAGTTGAACTACCTTTTGCTCTAATTTGATTTCCAATACCAACACTTCCTGTAAATGAAATCATATCAATTTCAGGATTTGAAGTAATTATATCTCCCACTTCTCTTCCTCTACCAGTCACAACATTAAAAATGCCTTTTGGAAAGTCTGCTTCAATTGCTAATTTTGCCATATAAGCGCCAGTTAAACTTCCTGCAGTTGCTGGTTTGAATACAACTGTGTTTCCCATTACAAGTGCTGGAATAATTTTTGCTAATGCTAAATTAAAAGGATAGTTAAAAGGTGAAATTGCTAATATAACTCCTTTTGCTACTCTTTCAAATATTCCTAATTTATTTTTAGCACCCATTCCCTCACCTGTCATAGCAAGCGGATCCATTCTTTTTGCTTCTTCAAATGTATAATCAATTATTTCTACAGTTCTTAAAACTTCAGCTAGTGAGTCTTTTAAATTTTTTGCAATTTCTTCACTCATTATTTTTGCTATTTCATCTTGATGTTTTAAAATAGCATCTCTAAATTTTTTTAAAATACTAATTCGTTCTAATAATGCTAATTTTTCTCAATCTTTTTGTGCATTTCTTGCTGCGCTATATGCTTTATTAATGTCTTCTGCTTTTAATGCAGTTACTTTTCCAGCCGGTAAAAGTGTAGTAGGATTAATGATTTCTAATCATTCTCCATTATTAATAAATTCATTATTAATAAATGCTTTTAGTTCTCTCATTTTTTGATTCCCTTCAACTGAATTATAACTATAAAATTTTAAAATTAATTTTCATTTGATAATTTAAACATTATTATCGATCCTGCTACTGCAATATTTAAACTTTCCACTTCTTTATTTGTTTCTAATAAAAAGTTTTTGTCACATATATCAACAATACTTTGTTTAATTCCTGAACCTTCATTTCCTAAAACTAATGCTAAGTGTTGTTTTTTTGCAACTTGAGATTTGTCAAAATTATTTTCTTTACTTAAGCTAGTAGAAATTAGTAGATAATTTTGTTCTTTTAAGTTTCTAATTGTTTTATCTAAATCTACATATTCAATATTTAATTTAAAATGATTTCCTTGGGCTGCACGCAAAACCTTAGAATTATACACACTTACACTGTTTTTTGAACAAATAATGTTTTTAAAATCAAATGCAATTGCACTTCTTAAAATGGTTCCTAAGTTTCCTGGATCTTGAATATCATCTAGAATTAAAACATTAGATTTTTCAATAAATTGAGTTTTCATATTACAAATCGCAAAAACTTCTTGAGAGGTTTTTAAGTCACTTAATTTATTTGCAACATTGTCACTAATTTCAATTACATTATCATACTCTCTAAACTCATTAATTGTTTTTTTAGTAACTAAAATAGTATCAACTAAGTGATACTTTAAAGCTTCTCTGACAATATTCAAACCTTCAACTAAATATTTTTGTTCTTTAAATTGAACTTTTCTATCTTTATATTTTAAAATCTTGATTATTAAATTATTATTTACTGATGTAATCTTTTCCATTTTAAGAACCTTTCTTAATTATTCAACATATGTAAAACCAATTTCATATAGTTTATTTTCAGGTTTTATATAATCTTTTCCTTTATATTTAGGATCTTGCACAGGATATCCATGAACTCCTTGCGCTCTTCTTGGTGGGTCTAATAATTTTGCTTGAATTGAAGCTAATGGACTTACACGTTCACCCTTTGCCTTTTTTTCTCTTGTTTCATTCATTAAATCTTCAATATCTCTAACTTTTTCTTGTTTAACTAAAATTCAAATCTTATTTTCATCTCATCATTTAACAATTTTTCGATATTCATCTCATGTAAATTTTTTAGGTGTATCTCCAACAATGAATCGATTATTTTTTTGATTTCAATCAATTACAAAATCTTTTCATACAACATCACCTGTCCTTGTAGAAACAGTTAAATCTTTTGCTTTTTGAATACATTCGTCAAGTGTTTTGTTACCATATCCTATGAAAGTATTACCATTTCAATATGTTATATATGAATATTTTCTTGGATTTCAAACTTCTTCAAATATCAACGTACTAACTCAATATCTTCCATCAGAGTTATTTTTAAAGAACTCAAATCCATACTTACTATACTTTAAAACTACTTCTTTTTTTGTAACTTTAACAACTTTATAAGTGAAAGTTTCTACAATTTTATCAATTTCTTCTTGAGTAAAATTATCTCTTGCATGTCTACTTGCATCTCTTAATTTTGTTTTTGGATCTTTAAATACTTTTGTGTAATCTTCAAAATTAGCTTTTGGTCTCCCATATAATCTATTTTCACTATTAGGGTCTGGCATAACTACTTTACCACCCTTTTCAAGTTGTTCATCTCTTTGTTCTTTTTCTTCTAATTGTCTTTTTAATCTTGCAATTATACTTTTTGCATCATTTTTATTATTTTCTAAGTTTTGATTTTGGGTTTGGTCTTCTTCATTTGTTTTTATTGGACTATTATTTGTTTCAGTATCATTATTTAAATCAAATCTATCATACGTTTTAGTATAATTTGTTTTATCTTCATCTAAATCAATACTTTCATCCAATGTTAAAGTAGGACGTTTAGGGTCAAACTCTTGACTTGGTTTAAAATCTGCAACCTTTTTATTTTTTTTATCATCCATAAATAGACCTCCCTAATTAATTATTAATAATTATTATCTTGTCTTTCAAAATTCACTTTATTTTTTTCAATATATGCTTCAATTATCTCTTTTTCGCTAAAATCCAAAATTTTTGCTATTGAAAAAAATGCATCTAACATATTTGTAAAAAACTGTACATTTCTATTTTTATTAAATTCTCCAACTTTTTGTAAACAATTTAAATAAGCATCAATAATAGTATTATTTTGAAAAGCAAAATTATAATCTTCTGGTTTAAAACCTGTCAAATAACCAATAGAAACAATAAAATGAATACCATCAATATATTCTTCTAAAAGAATATTTTTCTCGCTTGGTTTTTTATTTGATCAAAATTTAAATGCTCTTTGTTCATTAATAAATTCACATATTTCTACATATAAAGCAACTATTTTTTTTGACAAAATCTCTTCATTATTTGTTATATTCCACTTTGTTTCTATATATTTATCTAATTCTTTTTGCTTATCAATGATGAAATTAAGGTTTTTTTCATTAAGCATATTTTTTCTCCTTTGCTTATAATTTTAAATAAAAAAAGTAACTTTTAAAATTACTTTTTTAATTCTTTTAATTTTTATTTTTAAATATCTAAATTATAATAATCCATAGAAATTTGATAATTATTTTGCATAATAATACTTAATTTTTCGTCATTTTTTGTGCCTAAAAATTTAGACATTGTAAAAGTATAACCATTTGGGAATTCTAATTCAATTATTCTTTTATCTAAAAAAATCTTTAGTATGTCATTTTTTGAGAACTTAACATTAAATTCTCTTGTTTTAATAAATTCAGATCTTTCTTGCAAAATTTTGTAACTTGTATTTCTTTTTATGCATACCTTATTTTTTTTAAAATCTAAATATATATCAATTTTATAAAAACTGTCAAAAAAGCTAAAAGTTATTGCTTCATTAAAGTCTTGTACATCTTTTAAATTAACATTTAACTGATATGCACCACTAAGATTATTGAAATTTGTTGAGTTTGAAAATATCTTAGTCTTAGTTAAACCACTATTTTCATAATCGATTATCTTTGAACTAATAAAATAGTCATTTTTTGATTTATTTAGTTTTAAATTTCTCGCTAATGACATAGCCCCATATCTTCCATCATTAGGGCTTTGATAAATATATGATCAATTACCAATTCAACCCGTTGTAACTAAACTATTGATATTTTTTATGCCTTTATCCTTTTTCATAAAATTTGCAGCGTAATAATCAGGTCCAAAATCTAATCTTTTTGATGTAAAGTTTTTATCTGGTATAAAAACATAATTATTATCTATATCTCCAATTGTGTAGTATGTACCTACAGAATAACCATCTTCATCTTTACCTCATGAACCATTTCCGCCATAAAATAAAACTCATTTTTTTTCATTACTTCCAAAAACATTCATTTGATATAAGTTCGGACATTCTAGCATAGGGTGTGGAACAGTTATTTTCCCAACTTTTTCAAAACCACTTGTTGGATTATCAGATACTCATACTCCAAAATATTCATTTTGAGCTAAATATACGACATACTTATTATCCATTTTAAAAAAATATGGATCTCTAAAATCACTTCTATTTTCAGGAATTTCTTGATTTATATTAATAATTGGTTCTTGTTTTATAGGTAAAAAATTATACCCTCCATCAGTAGAATAATAACCTAAAATATTTTGGCCCTCATCAAAAAAACTTGAGTTAATAGATATTATTGCGTCATTTCCATATCCAAATCAATTATCCAAATCTTCAAAAATAGTTCCAGAAGAAATATCAGCATATCTTGTCATATTTTTTTTAATAGCAATGCCTTCATATTCTCAGTTTAATCAATCTTTTGTTGTAACATGATAAACATTGGTTCCCAGCTCACCAAATTTTCATCCTTTCGCATTAAATCTAATTTTGTCACTGTATAAAAAATATACATGTCAAGTTCCATCTCTATAAAAACCACCTTGAATATCGTTCATCATTCCCGCTTTTTTCATATCAACGTGAAACTTATTAGAAAATCTTTGTTGTAAAGGTTGTAAAGGTTTATTAACATATATCATTGAAAAAAAATAAATTACAAATAAAACAAAAATAAACAAAAAAGAAAAAATAAATTTACTAACCTTAGATAATAAATATTTTTTCATAATCTTAATCCTGTACAATTTGATAATACTTGTAATTAATAGATTCTTTTTCTGAAGTTAATTTTACTTTTTCTTTTGTAACTCCATCTGGATATTTAAGCATTGTAAATGTAGAACCGTCTAAAAATTTAAATTCTAAAATAGTTTTGTCATTATATATTTCTAAAATACTTTTATCATTAACGTTTTCTCTATTTATATCAAATACTCTTTGTTTTTCAAATGCTTCTTTTCCAAAGTGAAAGTCTTGATTTATTGATCTTGTAACTGCAATTTTATTATTTAAAAAATCAATTATGACATTTACATCATATTGTTCATCTCCAATATATAAGTTTATTTTGTCTTCTGTGCTTTTTAAATTATCAAATAATAAATCTAGTTTATAAAATTGTCCTGCTAAATTTTCTTTTTCTATCAAATCAGAATCGTTACTGTATTCACCTTCTTTTGTAACTTTATAATCGTCAAAACCTAAGTAACTAGAATTTATGTAATAAACTGGTTTTTCAATTGAACCTTGATTGACTAATTTTAATTCTCTTGCTAAAGACATATTTCCCAATCTACCATCATTTGGTACTGAGAAATTATAATTTCAATTGCTAACTCACGCTGTTGCAATTAAGCTATCTAAATCGACATTTGAACTACTTTTAGTAACAAATTTTGCTGCATAAAAATCTGGACCAAAGTCTATTCTTTTATAAGTTTGGTCTTCATCTGGTTTAAAAATATATGTATTTTCATCAAGAGTTCCTGTAATGTAATAAGTTCCTGTTGATAATCCATCTGCATTATCACCTCATTCACCATTACCTCCATAAATAGCTACTCACTTTTTTGCACATTCATTATTTGAAACATTCATTTGAAATAAATTTGGGCATTCTAACATTGGGTGGTCAGCTTTAAATGAACCAGTTTTTTCAAATCCACTAGTAGGTTTATTTGAAACATATACTCCAAATTCATTTTCTTCTGCAATATACATAATAAACTTATTATCTTTTTTGAAAAAGTATGGATCTCTAAAATTTTCATTTGTTTTTTTGTGTAGATTTCATAAAATTGGTTCTTCTTTTACAGGATCAAATTTATATCCTCCATCAATAGAATAAAACATCATAATGTTTTGACCTTCATCACTATATGATGTTGTGACTGCAATAATAGCTTTTGAACCATATCCAAAATCGTTATTTACATCTTCAAAAAAAGTTCCAGAAGCTTGATCTCCATATTTTGTAGTGTATTTTGGGACAGCTGGACCTTCATACTTTCAATTAATTCAATCGGTTGTTGTTACATGATATCAAACAGAACCAAACTTTCCGTGGTTATATCCTGATGGATCAAAAATACCATCTGCATTTTGCAAGAAATAAATATGTCATTTATTATCTCTAAAAAATCCACCTTGAATATCATTCATCATCCCTGTTGTTGGGTTTTGAACGTGAAAACGATTTGTATATTTTGCATCATCAATTGGTGGTAATTTATAGTTTGGATAACTTTTACATGCAACTGAACCAAAAGAAAAACTTGTTCCTAAAAATCCAACAAAAATTGCTTTTAATAATTTTTTCATAAATGTTTTTCCCCTAATGCTTATTTTTTAATGTTACTATAGTAATTCATATCAAATTTTAACTTACTTGATAAAGAATCAATTTTAAGTTTTTCTGGTGTTTTTCCGTCCCTAAACTTAATCATAGAAATAATACTTCTATCAGGTAAAACTGCTTCAATAGTTGTTGTGTCTACTATTAAAGTTATACGAGAATCATTTTCTAAATTTAAATTTGTACTATATGCTCTTTCCTGAGTAAATCCTTTATTACCTTTTAATGTTTTATCAAGAGAAGATCTTTGAGTCATAATTTGATTATTTTTAAAGTCTAATTTCAATATATTTTTATAAGTTTCATCATTAAATACAAATTGGATAACATTATCAGAACTTTTTGTACTTTTGAAGACAATATCCATTTTATAGCTTCCTCCATCAATTTTTGAAGGGTTTATAGCATCTGAGTTAGTTGAAATACTTTTATCTCAATCATTTACTCCTAAAAATTCTTGATTCATGCAGTATTTTCCAGTTCCATCTTGAGAAAGTCTAATTTTTCTTGCCAATGACATATTTCCTCAATAACCAGTATTTGGAACTACTCTATTGTAATCTCAACTGCTCATTCAACCTGTTCCTATTAAGTGATCGTTTTTTACACTTGAACTATCATCTTCAAAGAATTTTGCAGCATAAAAATCTGCTCCAAAATCAAGTCTTTGAGGACCTTGCTCTTCTACAAAAACAAAATCTTCATTTAAATGACCAACCGAATAATATGTTCCAGTTCCTAAATTATCAACTGATTTTGCATCATTATTCTTGTTGTTCCCGTTACCTCCATAAATAAATACATATTTTTTATTTTCTGAGTCTCCATTGACGTTTAACTCAAATAAATTTGCACATTCTACCATAGCATGTTTTACATAATAATCGCCTTTATGTATATATCCAGATAATGGTTTATCAGAAACATAAACTCCAAATTTATCTAATTGAGATACATACATAACAAATTTTCCGTCCTTTTTAAAGAAATGTGGGTCTCTAAAATCAGGATAAGTTCCTTCTGGTTGCCCATTTTTTAAAATTGGCTCACCATCATTTAAAACATTAAAATTATATCCAAAATCATTGCCATTTCCTTCTTTATCTCCAGGACTTGAGTAATAAGCTAAAATGTTTTGTCCTTTTTCTCCACCATATGCCGTTGAAATAGCCACTCTACCATTTTTTATTTTATTTTCCTTAAAATCTCCATCTTTGTCGACAAATAAAGTTCCTCCAGCTGCATCCCCTCAGCCTTTAGCGTTTCATTTTTTTACAGCTAAACCTTTATATTCTCAATTTATAAAGTTTTTAGTTTGCATATGGTATCATTCAGTACCATTTTCTCCGATTTGTTCTCCCTTTTCGTCATATTTTGCATCTTTATTATATAAAAAGTAAATATGTCAATATGTTCCGTCAAATCATCCACCTTGCATATCATTTAACATACCTTTATAATCTGGTGCATCAACATGAAAATTATTATGATATTTATCATTTTCTTCTGATGAATTAAAGTTAGTTCCATTTATTATTTCAAAACTTTTTTCAACATCAAAAGATTGATCAATTGGTCTTTTTTTACAAGACATTAAAAAAGATGATGAACTTGCTGACAAAGCTACAACACCTAATATGTTGAATAATCTTTTCATTTTTTTTATTCCCTTATCTATTGTTTTTTTTAAAAACAATATTATAATTTTATAATATTTTTTTGTAAGGTTCAAACAAATAATATTATAACTAGAGATATTAAAAAGCACTTAAATAGAGTATTTAGAAACTGGTCTATTATATTAGAAATATAAATATCTAAAAAAATGATATAAATGTTATAGAGTATTTATTTGCCTTGATAAAATGGAAAACTTGTTTTAGCAAAGTAACCATAATTCATTGTAAAACAATTACTAAAAACTATATCTAAACTCATATAGCAAATAAAAACCTTTCATATAAATTAAAACAATTAATTAAAGAAGGTCACGTAGATAAACTACTATAAAATATAAAAAACTTAAAATCTTTTAAATAGTTAATAAGCAAAGAAATAAAAAAAAAATATTTTAAGATATATCTGAAAAATATATTTTAGAAATGCTTTGTAATTAACATAATTTTTTTATAGATAAATAGAATTTTTGCTTAAATTATTTAATAATATATAATAATTTAGTAAAAAAAAGATTATTTTAGGGAGATAAAAATATGATAGTTATTGATAAAGTTAATAAATATTACGGTAAAAAACAAGTATTAAAAGATATAAATTTAACAATTAAAGATTCAGAGTCAATTGCATTTTTAGGTTCAAATGGAAGTGGAAAAACTACATTAGTAGAAATAATTGCTAAGTTGCTAAAGCCAACAAGCGGTTCAATAAAATATACTGATGAGTCAAATTCTGAAGTACAAAAAAGAGTTGGGATGCAATTTCAAGATGGAAGCTGACCACCAGGGACTAAGGTATTAGATTTAGTAAGCTTTTATAAAAATAAAACATTTTTAAAAACAAAAGAGTTTGAAGAATTAGTAGAAGCATTTAACTTAAATGAGTTTATTAAAAAGCCGATTGATTCATTATCTGGAGGTCAAAGACAAAGAGCTAATTGCTTCTTATCAATTATAAATGAACCACAAGTATTAATTTTAGATGAGTTAATCACCGGTCTTGACCTAGAGATGCAAATAAAATTAATCAACTTTTTTAAAAGTTATAAAAAAAATAAAAATTTAACTCTTTTAATTGTTTCTCATATTCCTGAAGAAGTTGAAGATCTTTGCGATAGAATTGTTATTCTAAAAGATGGTGAGGTTTATGAAGATAAAAACATAAAAGAAGTTAAAGAAAAATATGGTAGTTTAAGAAAAAGATTAATGGATTATTATGAAATCAAGAATTAAAAAATAAACATTTAATTTAAACTAGACTCAAAATACTTATATTTTAAAAAATACTCTCAAAATTTTTTTGAGAGTATTTTTTATTTTGCACTTTACTTATTAATTTTTAATTATTTTCATAAACTTTTAACTCTTATTTATTAATACAAACTCCAATTTTGCCTAATTTATCTTTTCTTGGTCTCTTCGCATCGATAAAGATAACAATCTTTTTTTGTCTATTAAGATTTCATAAAAGTTAAATAATTGCTTATAGTTTAATACTATATTTTAAATATAACTTTTTTGCACTTATATAGATAATTATAAACTCTTCTCTTATCTTCTTTTTTATCTAACATTAAATATCTTAATATATGAAAAAACCAAACTATATAAAATCATATGCATAATTTTATATAGTTTGGGTTGACTTTTAAAATATAATTGCTTATATTTTATTTTTTAATTGAAATATTGAAATTGTAATAAGATAAAAGACCTATTACAGGTATAATTGCAACCGAAGAAAATAATGGTGCAAATAAATTTGTAAATGGGAAAAACGCTTCTACATTCTTTAAAATCTTATATATACTTGCAGAGTTTGTATAAGTGTTTGTATACGATGTATAAAAAATTCAATTTAAATACTTTTGAGGATTTAAAAAACTAAACATCTGATAATAAAAACTTTGTGTAAACTTGTAATCTAACAAATAATCACCTGTTAATATCAAAAACATAACAACCAGTACAAATAAAGCATTAATTAAATAAACATTTCTAAAAAAGCCTGCAATTAATATTGCAATAAAATAGACAAATGCAATATTTAAAATGATACCAATAAATATTAATAAAAATGAAGGTTGAGTAAAAACATTACCAAACATTTGCAATACTTTTTTATCAAAACTAAAGGCATCAATTGTTGAAATAACACTTGAAATGATTATTAATGAAATCATTGAGTAAGTAAAAAACACTACAAGCAAAGAAGTTAAAAATGTTAAATTATTTATTCCAAAATTTTTGATCTGTTTTATAAAAATAGTTTCTCTTCATGAGCAAATTGAGTTTGTTACAAATAACGAATTAAAAATAATAGTTATGAAAATTAGTGGTCCACAAACAATCGCTCTATTTGATATAATGTTTTGCTTAATCAAATAAAAGTAAATAAATAACTCGATTAGAAAAGGGATAATAAAGATAAAAATATGAGTAAATATAGATCTAAAAGTAATTTTAAAGGTATAACGTATAACTTTATCTAATTTTTGAAAACGCATGTTTTTTTCTTCTATAAATTAATTTTAAATTTATAGATATCTCCTTTCTTACCAGTAGATTTATATACAGGTCTCATTCCTATTTCTATTCCATTATCACTTAATAAGTCTTTTAAGTAATAAGCTGTTTGACTAGTTTCTCCAATTCTAAATCATTTATTATCTTTAAATACATAAATTTGATAATAATCTACTAAGTTTTCATCAGAAACTTCTCAATTAAATCTAATACTATTTTTTACTTGATCTTCATAGTTCCTATAGATAACATATTCAGATTTAGGATTGAAGATTCTAAAGTTTTTTTCTTGTTGATTTGTAACAAAATTATTACTTTGTACATTTAATTCACCAACATTAAATTTAAATTTTTCTGACTTAGGTTTTATATTTAAACCAATTCTAGCTAAAACTTTATTTTCATTTAGTCCTAAATTTTCTTCTGCTAGATTAATAGTTATTCTTTTTCAATCATTAGAAAGATTTTCTATTTTTTCTGTTTTATATACCTTAGATTCATCTTGATAAATGGGTTTCCCTTCACTGTCAGCAAAAGTTAATCTTATATTCACATCAGATTTAGATTCAACTGGTGCATTATCTTTATAAACCAAACTTAAAGTATTGTTATCTTTTTTAATATTAGTTCCGATAATATCTCAACCATAAGTTTTATTTGTATCTCATGTAGCAGGTAATATTTTTCCTTCTTGGTCAAAACCAGAACCTATTACAATAGAGTTACCTTTATTGTAAATATCATAATAATCATAACCTCCAGCTATTTCATCAATTGGTAAAGCTGTATCGGGGGATTTTGTGTCAAATATTCTCCATTTATAAGTTGGTAATATATCTGTCAATCTTCTATTTAATCATGGATAGTTTTTAAAAACTGTATTTTGATCCTCTACAAAATTTACTCCGCCACCAGTAGAAAAATTAGTTTTTAAAAATGAGTTTTCTATATTTTTGTCTATAAAAACTGTTTTTTCTCTTACAAAACTACCGATTCCTAAACTACTTGTGTTTGTTTTTGAAGCATTACTATTATAATTAAATATTTTTTCGATCATATCTACATTTTGTTTGGGTTTGTTATTTCAATGAATTCTAGGATCTACTGAAATTGCTTCTGAAGCAAAGTTACTTAAACTTCTTACTTTCTCTCCATATTCGCTTCCATTTAATCCTTTATCAGAATTACTAATAAACATATTTGTTCCGCTGTAAATAATATCGTTATATAAAGCATTAATCTGATTTTTTAGTAAGTATCTTCCAATTGTTCCTTTTTTTTCTTTACCTAATATATTATCAACTGCTTCTGCAAATTTTGCTGATCCACCATCATAAAAACCTGAAAAACTACTTGGTCTAGTTTTATCATATGCTTCACTTCCATTTAAATTAAAAGGATAAATTAAGTTTTTATAATTATATGTTCCATGAATAAATACGTTATAACCACCATCAATAATTGTATAAATATCAGAACTCTTATAATCAGGATTTTCTCTTAAAAAGCGATCATAACTACCTGGAGAATGTCCAAAGTCAAGTTGTAAACTTGTCAACTTGTTAATATTATTATCTTTATAACCAGACTTACTAAATTTGGCAAAGTTATAATTAGTATATGATTCTGAGGTTTCATCATATTCTAGATTTGCTCATGATTGATAGTAGATTATATTTAAATCTCTTATTTTTTTATCTTCTGAAAGACTTGTTTTTCTATTAAATTCTTGAACTATTTTTAACATGTCATTAGTATTTAAAATAGTTCCATCTGCAGCAAAACCATTTGCTTCATTGTTGATAAATCAACCATCAAATCCAAAATAATTAGCAATTTCAATCAATTTGTCAACAATTAAGAAATTGCCTTGTTCATCTTTTTTTAAAAAGCCCTGTAACATTTCTTTTGTTAATCCATGAAAACCATCCAAAAAAATATTTCCATAAATTTTTGCACCTTGTTTATGTGCTGATTCGATATTATCTGCAGGTGGTGGAATAATTGGTCCTTCATATCATGAACCAGATCATCCAACAAAAACGTTGTTGAATTGTCAATTAAGCTGAGTAGTTTCAAATGGATTTTTTGATCCTACAATTGTATTACGATTCGTTGATGGACCTTGAGAGTTATAACTTAATAAGTTAAAGTTAACACGATCATCTTGCGAATCAGTTGTTTTTGCAGCTACAAATTCTCTATCACGAATATCAAAATTAGACTTTGCATATTTTGCATCCATATCTTTTTGAGGATCAAAGTTTAGCAACTCATTCAATCGACGATAATATTGTGCTGGAGATTTAATACCAAAATCACTTGCGACATTCCCATTTGGCATAAAACCTTTATTCAATGGCACACCAGTTGAAACTTGTTTTTCTATATCTTTTGGTCATTTAAAACCTGTACTAAAATTTTCATAATCAAGATATGTTTTATAATTATCTGGATTTATACTTCCTAAATCATTCATGTTTGATTGAGAACTATCAATTTGGTAATTAATATCATATGGATCATATTCGATTCCATCACCATTTTCTTGATTTGATCATTGAAAATTGCTAAATCCATTCAAAAAGCTATTTATATCTTCTTTAACTTTACAAGAAACAACCTGAGTAATAAAAGTAGAAGGAATTGATAAAAGCAGCATTGCATTAAGTAATTTTTTCATTATAATTTATACCCCCATTTAAATAAAAAATAATATCCACATAGAGAAACACCTAAAAATATTATAGCCGGTATTAAAGTTTGATATATATTTCAAAAAGGCGCAGGACTTCCATAAAAATAATCTGGAATTATTTGAGTAAGTCCATATATATCATAAATGGAATAAGAAGTAACAAGCATGGTAAATCAAACAAAATATTTTGCAGGATTTAAGTAACCTAGTATTCTAAAAACTTTAAAATTACTTGTCATGCTCGGTTGTACAACAGAGTCTGATAAACTTAAAGAAAATATTAAAAATAAAATAACAAAAAATATTGATAAGGCTACATTTTTAGTAATTGAAGTTAGCAATAAATTTATCGCAGTTAAAAACATAATAAATATAAAAGTGCATAAAATATATAATATTCAAATATACCATTTTAAGTTTTGTAACACTTCGTTATGAATAACAACTGTTGTTGAATAAACTAAAATATTATAAGTTATAATGTTTAATATAATGTTTGTTGTAGAAATTATAAGATTTATAAAAAATACAGACAATAAGAAGCTTATTCTGTTAACTTCTCCAATCTTTAGCTTAACTAAATAATTTCTTTTTTTTCAATCAATCACAACAAGTCCAATGTACATCGATGAAAAAAATACGCAACTTGTTATAATTGAAACTATAAATGGAGGCATAGGTAAATTTGCAGAATTTTTAAATCATACAATAAATACTAAAATAAATGTCGCTATAGAAATGACATATGTATAAAAATAAGTTTTATAGTTTAAAAATACTCCTTTTGCCAAAAGTCTGAACACTTTATTAAAATTGCTTACTTCGCTTTTAAATTTCATTTTCTTTTTTCCTTTATCAAATTACTATTATTTTTTAATTATGTTTTTCTATAAACACATAATCATAAAGATCGTCAATAAAACTTTTCATAACTGAGTTGGCTTCAACTTTTACATCTGCTGGGTAGTTTGCTAAATCTTCTTCAGATGGCCCCTTAGTTCAATCACCATCTTGAACATAGTTTCCAAAAGTGTAGAAATTAATATCAAGTGCAAATCCAACAATTTCTCATAAGTTTGAGTTTCATTCTCTAACGGAGTCATAGTAAGTTATTGCATTGAAATATTTTAAAGCTCATAAGATAATAAATGAATTACTATCAATTAAACTACTCCCTGTTTTTTTAATTTTGTTAATTCTAGATTCAATGTATAAAGATTTTAATGTTTGTGCTCCAAACATTTGAATATCATCAGAGTCACAAACTTCTTTATAGATTTTTTCAATTTCAAAATTCGGTATTCCTCTATTATCACAATTTTGATTACATGAATATGGATTATCTTTATAGTAATACAATAATTTTGTATAGTTTTTCAAATAATCAGATTTTATCTTTTGACTTATATCATTTAGTTCTTGTGCAGATTGTGTGTGCATACTTTGTCAAGTGCTTAAATATTCATCTGTTTCATCCGGTCAATTTTTATTATAGTTGAGTTTTTTTTCAATTTTTGATTCAATTTTAGGATTAATATTTTTAATATAATACGCTACACAAATTCCAAAATTAACTATAAATATAAAAAAAAGACATAAAAACAATAAATAAATTCTTTTTTGTTTCATAAACTTTTTCTCCATTTTTAATTTTTTTTAAATTTTACTTATACATTTTAACAATATATTGATTAAAATGATACATTTAAAAACTTTTTTTCTATTATTACTTTTTTATTAAATACTTGGTTATATTAAACTTGAAGCCAAAAGTTTACAAAACATTTAATAGTAGTTTGATCTTTTAAAATACGATAATAAGATAGTTAAATCAATATATTCTAAGAGAATAAAATTTAATAACAAAAATATCAAGGCATTGAATTTAATTCAGAAAGTTTTAAAAGCAAAGAGTATTTTAAAGTTTTTCATAATAATAGTATTTTTTCTTTTTAATGCAAGGAAACTCAAAATTTGAAAATTGAATAAAATTTTTTATCTTTTTTTATAAAAATATACTTATAGAAAAAATTCATATGCGGAAGATAAAATATGTAATTATTAATAAACATAATTTTTTTACAGAATTAAGTTTTTTATCTTTAAATAAAAATTATTATAAAACTTAATTGAAAGATTTATGTTAACTCTATATTTTTTGTAAATATAGATTTTATATCCTTTAGACATATATAATTGTGTAATTATTGGTTTAAATTTAACAAAATAAGCAAAAAATTACTAAATTATCTAATTTAGTAATTTTTTATATTCTAAAAGTATTTAATTATGACTAATAACCAGGTTTTTTAAGTAGTTTAAACATGTTATTTTTGTAAATTTCTACTCCAGGTTGATTGAATGGATTAATTCCAAGTAAATATCCGCTCATAGCAACAGCTAACATAAATCAGTATATTGCATAACCGAACATTTTTGCATCCATTGTTTCAAATTCTAAAACAATATTTGGAACTTGACCGTCATTTGCATGAGCATCAATTACTCCTTGAAGTGCTGTTTGATTAATTTTGTGGAATGAATTTTTTGTTAAATAATTCAATCCATCTAAATTTTCTTTATTTTCTGGAACATTTATATCTTTTGTTGGATGTTTTACATCAATAATTGTTTCAAATAAGATATTTTTTGTTCCTTCTTGTATAAATTGTCCTAAAGAGTGTAAATCAGTTGAAAATACACAGCTTGTTGGGAATAGTCCCTTACCATCTTTTCCTTCTGATTCACCAAATAGTTGTTTTCATCATTCGCTAAACATTTGCATTTGTAGTTCATAACTAACCAAAGTTTCTGCTTTAAAGCCTTTTTTAGTATTTAAAATGTATCTTGCAACAGCATATTGATATGCTTGATTGTTAATATCTTTTAAATCTTCATAAGCTTGTTTTGATCCTGCGAATAATGCATCTGTATCAATCCCTGCTACTAATAAAGGGAAAACTCCAACTGGTGTAAATACACTAAATCTTCCTCCAATATCGTCTGGAATTGTAAAAGTTTCATAACCTTCAGCAGTTGCTAATTCTTTTAAAGCACCTTTCGCTTTATCAGTAACTGCTACAATTCTTTTTTTTGCTATTTCTTTTGATTTTGTTTCTACTAAAAGTTTTTCAAAAACTCTAAATGAAATTCCAGGTTCAGTAGTTGTTCCAGATTTTGAAACATTTACAATTCCAAATTCTTTATCTTTTACATAGTTTACAACTTGATCAATGTAAGTTGAACTCATTGTATTTCCAATATAAATTAATTCAACTTTATCATTTGGATATAAACCTCTAATCATTTCATCAGCAGCTCTTGCTCCCAAATAGCTTCCACCAATTCCAATAACTAAAAGTACTTCAATTTCTTGACGCAGCTTTTTTGCAACTTCTTTCATTTTGTTATATTCATTTTCATCATAGTTAACAGGTCAATCAAGTCATCCTAAAAAATCACTACCTTGTCCTGTTTTGTTTCTAATCATTTCATCAACTTTTTTAATTTTTTCTTTATCAAATTCTTTAATTTCTTTTTCAATCTTAGAATTAGAAAAGTTCACTTTTATCATATTTAAATACCTCTTTTTTATGTACTATTTTGTATCTGCTACAACATTTTTTAAATTATCAAAACCTTCTCCAGTTTCTTTTATTTTAGATTCATTTTCTTTTAAAAGTTCTGGTCTAATGCGTTTATAACTTAATTTTACTTGATTCTTATCATTTATAAATTCAATAACCTCAACATCAACTTCATCACCAATATTGACAAATTGAGTAATATCACCAACAAAGTAATCTGAAAACTCAGATATGTGGATCAATCCTTTAATAACATCAGATTCATCTGTAACTTCACAAAAGGCACCATAGTTAACAATACTTGTTATTTTTGCTTTAACTTTTTGTCCTTTTTCCATTATTTCCTTGCTCTCCTTCAATAAAAATTATAAACTTATTTTAGGAAATTATAAAGGGGTTTAAGAATAAAATTAAAGTTGGTAAAATATGGAAAAAAATAAAGACAAAAGTTTAGAACAAAAAGTAATCGATGTCATAGATCAACTAAAAATGTATGTTCGTCAAGATGGTGGAGATATGGAATTTGTAGCCCTTAAAGATAAAATTGTTTATATTCGACTTTTAGGAAATTGTGTTGGTTGCGGACTAACAAATATGACTTATAAAGAGGGAGTAGAGAGTATTTTATTTGAAGAATTTCCCTATGATATTGATGGTGTAGAATTAATTTTATAATTAGAAAAGGTAGGAGAAAAATGATAATACTTGCAGATAATGTTAGATTTATAGATGCTTATAATGCGGCAATTGCAACAATTTCAACAATAACAGTTATTTTTGCAACATTAATTATTCCAATATTGGTTAAAAAAAGTAGTAATCGAAAAATTAAAATGGATGCAGCTCAAGAAGCAATAGATAGTGCATTTGATAAATATCATTCAGATCAATCAAAAATAAATGATTTTGATTGATATTTTGCAGAAATTTGTGCAGTTCAAAAAAAATATGATGTGACTTCTATTAGATGTTTGAACTGTAGTAAGGTAAGTAGTTGTGATAAATACAATGAATGATTTAAGACAAGATTAAGAAATGTTCCTGAAGTTAATAATTTTAGTTTTAAGTCAGGAAAACTTAACTTTAAAATTCAATTATCAGTTTTACTTTGTTATAACTGTGTTAATGATAAAAAAGTCAAACCTTTTATCGATAAAGAAAGTGTAAAAAAATAAAACGTTATTTATTAATAATAATTAACGTTTTTTTATTCAATATTTTTAGTTCTTTTTTTAGAATCTTTTGCTACTTTTCTAGGTTTTTTTTCATTTGCTAAATTATTTTGTTTTGCATAAACTAAATTAGAAGTATAGTTGAAAAATACTGCAATTAATCACAATGCAACATACAATCCAATAATACCAACAATAAACACTCCTACTCCAACTTTTTGTCAATCCAATTGTGGATATGGAAACGGATTATATCCCATGCTCTCATCTCGAGCTCCTGGATAATATTTTATTTCTAATGCCGCTCTAGTAATCGCAAAAGTTACATACATAGTTAAAAATATGTAATTTAATCAGCTATATTTTTTCATATAGTCTTTATCTTTTACAATTGATTTTGGAAATAAATAATAAAATGTGAACATTAAAATTGGTGTTAACATATGCTCTAGAATTGATTTAATGATGTTATATCATGTATTGAAACCAATAGTTTGTTTATTTGTTGACTTTTGATAAATTAAATTTAAATTATAAACAAGAAACTGCACAAACGTTACCGCTATTAAAGCTGTAAAAAAATTTTTATTTACAACTCATTTTGGCATTGCGTCAGGTTTAAAAAAAGCAATTGTATTAATAATTCCATAAATAGATGTTAAAGCTCCAACTCAAACAGATAAATAAATAGATTGAGCCATAAAACTAATGTCAAAATCTCTTGTTCTAAGACCAAATGGTGGTACATCAACTGGATTTGTAATTGATAAGATTAAATCTAAACCAATGCAAAAAATCGGCACAATTGCTAATCATAAATAAAATCCAAGTTCTAATTTCTTAGGTAATTTATATTTCATTTTTTAAATTTCACTTTCTATTTTTATAATATTTAACATTTTACATTTTAAAGAAAATAAAAAAAAGCAAAAAAAAATTATTTTTTAAATAATTTTTTTTTGCTTTTTAATCAATATTAACTGTTTTTGTAAATAATGCATTCCAAGTATATTTACCATCATCTGCAGTTACTTTTTTTATTATATATATGTCAAAATTATTTTGATTTTTTTTACCTTGAGCGCTCAAAATATATTCAATATTAACCTCTAATGTTATCAATGATAAATTTTTAAAATACTTTTTCATTTCTTCAAAATTGTTTGATATTTGTTTTCCTGTATTACCAAATACAATTTTTGGGTTACTTAGATCATTTTTTTCATTTTCTAAGCTTTCTTTTAAAACCCTTTTCTCTAAATCAATATATTTTAAAAAAACTCCATCATCAAAATTTTTAATAAAATTTGAATCATTCATATTATCTACATATGTAAGTTTATTTATTTTTTCACATGAAGACAATATAACTGTAGTATTTGATATTATTGTTGTTGAAACCATTAAACTTATTATTTTTTTCATATTTACCTCTATAATTTATTTATTACTTTTAAATTTCTTTTCTATTTCATCCATAGCTCATTCGATTTGTAAATATTTAATTCTTAAAGATTCACTTTCTTGATTTTTATATACTTGTGAAATTTGATAATATATTTCTTTAATTTCATCTAAATTCATTTTATCATCAACACCCAAAACCAAGAATGGATCAACAGTTTTATCAAAATCAAGATCCATATTTTTTAACTTCTCTGCTTTAACAAATTGTTGACCCACTTTTTTTTGTTTAAGTTTAATCAATAAACTTTTAATATTATTTTCTTTTTGTTCAATTTCTTCAGCAAAAACACTATAATATTTTTGATAATCTTTATAGTATTTAAAATTACTAAGTAATTCTTTTCTAATTTCTCAAATTTCATCAACTTCATTTTTATATCCATTATGTAAATAATTATATAAAGTGTCAAATTCAGATTCAAAATTTGTTACATATCAAGGGTGTTTTTCGAAATTTTCATATGGAAATAAGTATATACGATTATTTTTTTTCAATAATTTTAATCAATCCCGCTTATTTTCTCTTGTCAATGTCATTAACTCTTCTAAATTAACATCTTCACTATTTTTATATGTTTTTTTGATTTTATTTTTTTTATTAATATAAAAAGTTAAACATACCAAAATGATTGCAATACCAATAATAGCAATAACAAAAGTAATTAAAGATGATTTTCAATTAAAATTATCAAAAATACCATACATAGTAACTTTAAAAAATAAGTTATTCATTTTTTTACTCTATCTTTCTTTCAATATTATAACTTAACCAACAGAACCTTCCATATCCATTTTTATCAATTGATTTAACTCAACTGCATATTCTAAAGGTAATTCTTTTGTAAAAGGTTCTAAAAAACCCATAACAATTAATTCCAAAGCTTCTTGTTCACTAATACCACGACTCATTAAATAAAATAATTGTTCTTCACTTACTTTTGAAACTGTTGCTTCATGTTCTATTTGCGACTCATTATTGTGAACTTTATTTTGAGGAATAGTGTCAGAATGACTTTGGTTATCTAAAATTAAAGTGTCGCATTCAACTCTTGCTTTTGAATTATATGCATTTGGACCAATAAAAGCTAAACCTCGATAATTTGCTGTTCCACCTTGAAAAGTAATTGATTTTGAAACAATCTTAGATTTAGTTTCTTTTCCTAAGTGTATCATTTTACTTCCAGCATCTTGATAAACACCTTTTTTTGCAACAGCAATTGATATAGTATCTCCTTGTGCTCGATCCCCTTTTAAAATACATGACGGATATTTCATATTAATTTTTGATCCAATATTTCCATCAACTCATTCCATTCTTCCATCTTCTTCAACAAGACTTCTTTTTGTAACTAAATTTAATACATTATCACTTCAATTTTGAACAGTTGTGTATCTAACATGACTTCTTTTACCAACAAATATTTCTACAATTGCTGCATGTAAATTGTTACTTGAATAAATTGGTGCAGTACATCCTTCAACATAATGAAGTTCTGCATCATCTTCAACAATTATTAATGTTCTTTCAAACTGTCCTGATTTTTGAAAGTTAATTCTAAAATATGCTTGTAATGGTCTTTCAACTTTTACTCCTTTTGGAACATATATAAAAGTTCCTCCAGATCATACAGCACTATTTAAAGCAGCATATTTATTGTCATCATTTGAAACTAATTTCCCAAAGTATTGTTTAAAAATTTCAGGATATTTTTTCAAAGCAGTATCACAATCTGTAAAAATTACTCCTAAATCTGCAATTTCACTTTGTAATTGTTCATAAACTGGAGTTGCATCTCATTGAGCATTTATTCCCATAAAAAAGTTTTTTTCAGCTTCTGGAATTCCTAAACGATCATAAGTTTTTTTAATGTTTTCTGGTAACTTTTCTCAACTGTCAACTATTTCATCAGTCCCTCTTGTGTAGTAATAATAATCTTGAAAATCAATAAAATTCAAGTCTGGTCCAAAATCAGGTTGAGGACGAGCATTAAACTTTTTCAAACTATCTAAACGAAAATCAAGCATTCATTCAGGTTCATTTTTAATTTGAGAAATTTGACTAACTATTTTTTCGTTTAATCCTTTTTCTACTTTAAAACTTGAAGTTTCTCCTTCATTAAATCCATATTTATAATTACTTATTTCTTTAATTTCTTTTTCTTGTTTTAATTTTTTCATTACTTAACCTCACTTTCTAATATATTTTTTAAGCCATCTGCACCAAGTAAGGCACAATTAATACGATTGCCTTGTTGATAGATTTGATAAAAAATAATTAACTCATCCAATATATCTTCATTATAATTTTGTCCAACAATCATATTATGATAATTTGACAATATATTTAAAGCTTCTTCTTTTGATTTATTAATAATTTGATTGCATAAAATATCAATTGCAGCTGTACTGATTGCACAACCAACTCCTTCAAACTTTGCATTTTTAACTTGATTATTTTCATAAGTTAATTGAACATCAATTGCATCTGCACAAGTTGGTGAATCTTGATATTTTACATAAATATTTTTTTCATTTTCAATTAGTCCTTTATTTTCTGGATTTGTAAAGTGTTCCATAATTATAGAACGAAGCAATAATTTGTCATTTTTATCTATCATATATATCTCCTCATTATAATAATTCATCAATTCAACTATCAGCATCTTGTAAAGCAATTATTAATTTATCAATATCTTCTTTGTTATTATAAATTGATAAACTTATTCTAATTGTTGATTCGCTATCAATTAAATGTTTAGCTAATCGAGCACAATGTTTTCCTGTTCTTACTAAAATATTGTATTTTTTATTTAAAAATGATCCAAAATCTTGAGCATTTACATTTTTTAAATTAAACAAAATGATTGGTTCATGATTATTAATATTATAAAACTCAAACTTTTCCAATTCGATTTTATTAATGTTTGCTATGAAATATTTTTTTAAATCTCTTAAATAGTTATTTATGTTTTCAATATTATGCTCTTCAATAAAATCAATTGCCGCTTTTAAACCAGCAATAGCACTTAAATTTAAAGTTCCTGCTTCAAATTTGTAAGGCACTTTTGCAAGAATATATTTTTCGTATTCAATTGAAGAGTTATTTCCTCCACCATACATAATTGGATCTAAGGATTCTAATAATTGTTTTTTTCCTCATAAAACCCCTAAACCAAAAGGACCAAACATTTTATGTGCTGAAAAACAAAAAAAATCAATATTTCAATCATTAACATTAGATTTAATATGAGAAACCGATTGAGCTCCATCAACTATAACTATAATATTTTCATTAATACTCTTTATAATACTTGTGATTTTTTTAACATCATTAAGCGAACCCATAGTGTTAGAAACATTTGCAAAAGAAACTATTTTAGTATTTTTATTAATTTTATTTTTTATATTATCAACATCAATTGTTCCATCAGAATTCAAATCTAAAAAGTTAATTTTTATTCCAATTTGCTCTTCTAATATTTTTCATGGTAGTAAATTTGAAGAATGTTCTAAAATAGTTAAAAGAATTTCATCATCTTTTTTTAAAACTTTTTTCAATCCAAATGCCACTTGATTCAAAGAATGGGTTGTACCACTTGTAAAAATAATTTGTTCATAATTGCTTGTGCCAATAAAATTTGCAACTTTTTTTCTAGTTTCAATAAGCATTTCATTTGCAATATAAGCGTTTTTGAATAAATTATTATGAGTATTTGCAGCGATTTTTACATTATATTCATATTCTGCATCTAAAACTTGCTTTGGTTTTAAAGCTGTTGCTGCTGAATCAAAATAAATATCATCTTTATTAAAATAAAAATATGGAAAATGTTTTTTATAACTCATATTAAATCATTCCTTTTAATATATCTTTTAAATGCATAGCTATATTATCATTTTCTAAATTAATAAAAACAGGTTCAAAATATCCCATTAAAATTAATTCTTGTGACTGTTGTTTTGTTAATCCTCTTGAACGCAAATAAAAGATTTGATCTGGGTCTAACATACCAATTGCATTTGCATGACTTGCAACGATATCATTTTCATCAATTAATAAAACTGGATCTGAATTTGCTTTTGCTTCTTTATCTAAAACTAACAATCGTAATTCTTGATGCGCTTCACTTGAACTAGAACCATTTTTAATATCGCTTATACATCTAATAAAACCTTTTGACTTGTTTTTTAAAACTTCATATGCACAAATATTAGATTTTGTATTTCTTGCTAAATGACATACTTTTATAATTGAGTTTTTTTTGTATTCTTGGTTTGCAATTGAAGCACTATAATACTCAACTGAACTATTTTCATCTCTTAAATTAATTGAGATATTATCATCACAATCATATTTAGTTAAATTAGCAATATTTAAAACCAAATTAGCATATTTTTCTAAATTAATAATTATATTAAAAGTTTTTTTGTCAAAATTATTGTTTGATACAAATATAAAATGTAGATTAACATTACAACTTTCTTTTATATTGATTTCTATATCACCTTGAATATCGCTTAAAAAAATGATTTTTTTATCATCATTTTCAAAAACTAATTGATTATCAATCTTGCTAGAAAAATCTATAACTGTTTTTTCATTTAAAAAAACCATATTAGATTAACTCCTTAACTCAGTTATAACCTTCTGAATTAATTTTATCAACTATTTCTTTTCCTCCACTAGTTATGATTTTTCCATCAATTATGACATGAGCATGAGTTGGTATAACTTTTTTAAAAAAACGATCATAATGAGAAACAATAACCATACCCATTTTTGAAAAATCTAAAGCATTTAAATTTTTTGAAACCACTTCTAAAGCATCAACATCAAGTCCTGAATCAATTTCATCAATTAAACTAAATAATGGATTTAACATTTTCATTTGTAAAATTTCGTTTTTTTTCTTTTCTCCACCTGAAAATCCATCATTTACAAATCTTTTTAACATATTTAGATCAAAATCTAAATCTTTTGCTTTTGTTCTGATATCTGACATTATGTCTTTTAATTTTTGTTTTTCTTCACTATGGGCATTTACCACATATTTTAAGTACTCAAGATTACTTACACCTGGAATAGTTTGAGGGTTTTGCATAGCTAAAAATAATCCTAATTTACTTCTTTCATCAACTGATAAATCTAAAATACTTTTATTATTAAATAAAATATCTCCTTTTGTTATTTCATATTTCGGGTGACCCATAATTGCCATTAACAAAGTTGATTTTCCATTACCATTCGGTCCCATCAAGGCGTGAATTTCTCCAGACTTTATTATTAAATTAATTCCTTTTAAAATTTCTTTTTCTTCAATTTGAACATGTAGTTCTTTTACTTCAATAGTGTGCATATAAAGTTCTCCTAACAAAATAATTATAATTTGATTTGATGAAAAATAATTGTCAATTTAATAAACTATAAAAAAGTTAAATTTTAGCAGATAAAGTAAAACTTTCAAATTAATCATATTATTTTTATTTTTTTCTTTATAATTATTGTGATAAACAAAATTCAAGGAGTGAATAGTGTGAAAAAATTGTTAACACTACTAGGAAGTTTAACACTTGTGTCAAGTGCAGCGAATGTTGCAGTTGCGTGTGGAACTTACGACATAAAAGACAACGGTAACTCAGTTATCGTACAATTTCTAAATTCTTTAGACGGTAAGGCTCATATTGATGCATCTCATGTATTAGTAGACTTAATCAATGCTTCAGGTCCAACAAATAGAGAAGCGTTTTTAATTGAAATGCTTCAATTAATGAATGTATCATTATTAGCAAATTCAAATACATTTTTTGGAGCTGAAGGTACATTAAAACTTGATGAAAGCAATACTGCTTACAACAAAAATTTAGGAGAAACTTTATCTTATAGATGAGATTCTTTAAATAAAGCTGTGGATCAACAAATTGAACGTGAAAAAGAAACATACAAAGTAAAAAACGGTAAAAAATGAGAATCTAAATGAAAAGATATGCTATATGAAAAATACACAGTATATCAAAACAAGAAAAAAGAAATGGATTTAGATTTCTTAGAAAAAAAATATAAAGCAAATATTTTATTAACAGATACTACAAACAATGCTACAAAAGCAATTTTAGATGTTTTATTAAATACAGATAGTTATGGAGTTACTTGAGTAACTGCGCAAACAGTTAAAAATAAACTATCTAAATTATTAGAAGTTATTAATGATGATGCTAAATTTAGCTCAGTTTATGAAGCTGATAAAAATGCAGTTAGTCAAATTATAAATGCTCAAACAATGGATTCAAAAAATTGAAAAGCACCTGCCGACTTAGATGTTGCAGCAGCTAAAGCAGCTGTTAGAAATATTACAAGTGATAAAATTATTTGTGATGTTCCAGAAGACATCAATCAATGAGTTGCAACATCAAGTAATACAAGATCAGGAATGTTAAGTAACTCACAACTTTTCTTTTTAGAGAAATATTTTGAAATTAAAGCACCACTTGCAATTAGTGAAATTACAATTCCGTTTGCAACAAATGGTAAATTTGAAGATGGAATCTCTTACGAAGACTTTAAAGGTGATTTTGATGTAACTGCAAAAGATATTGATAAACTTTTAGTCAAATTAACACCAGATAAACAAGAACCTTTAGCTGAAAGTTTTTGAAATGAAGCAGCTAGAAACTCAAGTAAGTTAAACATCGGGTCAATTAAAAAGTATGATAAATTGCTTACTTTACAATCAACTGATTTTTCAGATTCATTAAAAAACGTAGTTTACGATTATGTTTTAGGAAGTGAATATGAAAAACCAGAAGAATTAAGTTTTGACGGAAAAGATTTTGAAGCTGATATTAAAAAAATAACTAACAAACTTACAAGAGCGGAAAGTGTTGGATCTCCATCATTAGAATCAAGAGCTGCAGCTGCTTCTAAGGGTGCAAATGTATTTTATGGTACTTTAAAAAATAATCCAGGTAAATTATTATATATTGATACTGATGGAATGCATATAGTTTCAATTGATGGGTATGATCAGTTAAAAAATAAAACAGAGAATAAATTCAAAGATTTAACACCTCTTGCTCAACTTCAAGCATTTAATGATTTCCATAAATTATCAGATAACCAAAAAATCTATTATATGCAACACGATACAGAAACTACTTCAAATAGTGAAAATAGAAACTATATGAATATCTTAAATAACTCAATCAAAAACAATTATTTAAGATATCTTGTGAATAACTCTTTGATTAGTGGAATTTCAGATGCTCCTGTATCATTCGACATAGTAAATGAGTTAAAATCATGAGTTTCAGTAACAAGTGCAACAGATAAAGAAACTTTTTGAATGACAGCAGTTTTTGATTATTTCAAAAATGTTACAACAAAAACTAAAGAAGATTCAAATTCTCTTGAAGATGTTGAAATCTTCCTTAAAAAATTAGTTGTTTTTGGAGAAGAAAATCCTACAAATAAAGAGTTTGAAGAAATTGCGAAATCTATGCAAGGATGAGTTGCAAGCAAAATTAAAGTAGCTCAAATTAATATATCAGTTGCACCTCAAATAGCATTTTCCGAAAAACATACTGCATGAGTAAAAACAATCAAATCAAATACAACAACAAACTATCCAAAAGCAGTAATTGAAAACTCTAATTTCTCTATTGAAAAAATTGGTGGAGCAATCCAAAAAATATGACCAGCAAAAGGCGCAATTTATACCGAAGGTGCTGCAGCTATTTCAAGTCCAATTAGTATGAAAAGCTTATTAGAAAGTGATTTAATTAAAAATAATTTTATCAATAGTTATTTAGAAGCTAAAAAAATTGGAGGTAAAAAATAATGAAAAAATTATTAGGTTTCCTTGGCGCTATTACCTTAATTACTTCAACTAGTAGTTTAGCAGTAGCTTGTGATAACAAACCAGATAGAGTTTCAAAAGTAAGCTTAAATCCAGAACTTGCAAAACAATTAATTGCTGCTCTTGCAGGAGATCCAAGTCTTGCAAATAAAGACTTCGGAGATATATTCTCAAGTTCTGATGCAACAACAATTGTTGTAAGAATTATTAATGAATTAATTGCTAAAAAATTTGGTTATGATTCAACAAATAATAACTTAGAAAAATTAGGTTTAAAAAAATTTGATGATGAAAACTCAGAAGGTTATTTGCCCCAACAATTCATTGATACATATAAAAATCAAGCAGGAACAGTTGCAGAAGATTTATTATTTACAGAGTATACAAGTTCAATTTCAAGTACAAGATTAGACTTTAGTCAAATTAATACAAAATTATATTCTTTAAATCCAATAGAAGAAGTAAAAAGTATAGTTGATTTAAATGGTAAATCATTTAATGTTATAAAGGGTGCAAAAATCTCATTTAATAAAGACGGAGACAAAGAATGAACAATTTTAGCAGAGGGAGATAACAAACAACAAAATCTACCCGAACTTTCTGATTTAACAAATCCAAAAAGTATTTTCTTTATTGATGGTAAATATACATCTGATAACGCAAAACATCAAATATCTCCAAAAACTGCTTTAAGACTAAGATTTCAAGATTATTTCGATAATGAATTAGTTAAAAACATTATTTCTAACCTATTAACAATGTCATATATGGATGCTAATAACTTTTCTATCTTACCTTCATCTGAAAGTCAAGAAGATTCAACTATGAGTCCATTTATAAATACTAGTTCACCATTATTTTCAAAAACACAATCATGATTTACAACTAACACAACTGGTGAAAATAGAAATTGAACCACTAATGTTAGAATGGTTTGGTCAATAAAGTTTAGAAAAGATAACGAAAGTAAAGTTAGAGATGAATTAAAAAAACATGACATTAATAGCGGTTCTGATAAAGTTGTTGACTTTTCAAACGGTAACTTAAAACAAGGATCTTCATTAATTAAATTGATGTCAGATATTGCTAAAAGTTTAAAAACAGAAGAAGAAAGCGGGGTTATTTATAATGAAGATAACTCAAATGCTTACGACTCATTCTTTAGAGCACAAGGATATAAAGGATTTACAATATTTGAAAATGGTAGTGCAATTGGTAATAACCCAATTTCAGGAAAAAACTATGAAAGTGCTGTAAAAGAGGCTAAAAAACCAAGTATTTTATTAAAATCTGGTAGTCCCTTCTTTGAAGATAATGAAGATAAAAACATTGAAGAAATCGTATTTACATTACCAATTTATATGATTGAATTATTAGGAGCTAGTGCTGAATCTAATGATAGTTATATATATCAAATTAAAGGCGCTGATGAAAAAGGTAAAGATATCGAGTTTGGTTGATCTGGATATGGATCAAGTAAAACTAAATATAAAGATATTTGAAACCAAGATAATAATAAAGAGTACCACTCAGTTGACGTTCAAAATTTAATATCAGGTAAAGATATTGAAGACTCATCACAAGTTTCTACACAAGAGTCAAATTATAATTCAGCTGGTTATGCAATGATTAACCAGATAAAATATATGGTTTCTCAAGACTCTACTATCTCAGAATTAGCAAAAACAGTTCTATATACTAAATATCTAGATGCGGATCACATTTATTATGCAGGTTTATACGATCAAATTGGTAAATATATTAAAAATAATAAAGATGCAGACGATTAAAAAATAGCATATAATGTGATATATCAAAAAAATATTCTATTAAAAATAGTAAATATAATTCTCTAAGTATACATTATGTTTAAAAAAACATAAAATTATACAAGGAGAATTTTTTATATGGCCACCTTCAAATAGATATATCATATTTTTTTATATTTTGATACTTAAAAATGATAAATGAATGTTTTTAAAAATACTTATGTTATAAAGATTTATAAAATATGTATATTTTTTTATTCGGCAGTTTGAAGGTTGTGTATATATCGAGAAGCTTTTAGAGATAACTAACGCATTTAAAAAACTACAAACATGATAAGCACAATGGAAAATATGAATTAATTTAAAAAATTAATAGATAAAAAAATGCAAAGCTTAAAAAAATAAATGACCAAAAATAGAAAATTTGGTTTTAAAAAGTTTAATAAATAAATATAATTATAATAAAGGGTCACACCAAACTACATATATTTTAACAAATTACTCTCAAAAATTTCTTTGGGAGTATTTTTTAATTTGTTTATTATTCTATTATTAGAATAATTTCATACACAATCTTTCATTCAATTTATAAAAGTTCCATCATCTTCAAACTTATAACCTACATAATAATTTTGTTTTATGCTTTTAAAAAATGTTTCTACTATCGAGTTTTGTCAAGAAGCATATCCGTCTGTCATGCTTTGAATAATATTGTAATTGTTACAAAATTCTTTCATAATTAAGCTCCTAAATTGTGATCCTCTATCCGTATGGATAATGCTATTTTTTACATCATATTTAGCAACTAAAAGTTGCATACTATTAATAAGTTCTTCGTTTGTTTGATTGTTTGCAAAATATGTTATTAAAGGTAGTCTAGAATATATATCAATATAAACAAATAAGTAAATTTTTTTGTTTTTTATTTTTAACTCCGAAATATCTAAACAAATTTTTTCTAACGATTTATTTGCAATAAACTCGATTTTATTTGTTTCTTGGTTTTTTAATAAATTGGGAGCTGTATTTATTGGATCTTTGCTTTTTTTAGTATAAGCTTTTCATTTTCTACTTTTTTCACAATTTTCAGGAACTAGATTTTGTGCTTTCATAGAACTCAAGACCATTTTTAGACATAAACCAAATTTTAGTGCAATTTTTTTATGCCCTCATTTTCGATGAGTTCAATATTTTGAATCTTTATCGTAAAAAACTTTGTTTATAAATAAGTCATAACTTGTGTCTCTTTTGTCATATATTCTTTTGAACCATTTGCTAATCATTTATTATAAGCTTTTAGATTAATATTTAAAAGATTAATTAGTCATGATAATGCTATATTTTTTCGCTCGTAATTTTTTGCTATTTTATACAATTCGATATTTACTTTTTGTTTTTTTATTCCTTGACTAGAGATGCTGTATACTTTTCCATAACTTTTACTTTACTTGTTAGTTTTTTATTCTTTTTTTCTTTAATTTGCATCTCTCTTCTTAAATGTTCCAACTCTTGTTTCGTTTTTTCAAACTCAACTTCTTTATTAATTTTAGCTTTTCTACCTCTCTGTGCATCAATTAGCCCAGCAATTCCTTTTTGTTTATAACGATTTTGTCAAACATAAATAGTTGATGTTTGTTTAATATTATATTTTAAAGCTAACTTTCTTGCGCTTATATCTGTAGTTGTAAACTCATCTATTATTTTCTTTTTTTCTTCAGCACTAAATAAAATAGTTTTTGCCATAAAAAAAAATCACCCCTCTATAAAAACTATATACATAATTTTTATGTAGTTTGGGGTGACCCTTTAAGATTATATTAGATTTCTTTATTTTAACTTTATTAATATTAGATTATAATAAATTTATTTTTAATGTCTTTTTTACTATAAATATTAATCTCCCAAGGTAAATAGTTCAATTCATTTTTTAATTATTATTATATTTTTTACTCCTTTTATTGTTTGAACTTTTTGTCTTTGACTTTCGGTATATAAAAACAACCTTTATATAAAAACTAGTTATTTAAATTATTTTGAATAACTCGGTCTTTTATAGGTTGTCTATTCTATTTCTTATTTACATATTCTTCTTATAACTCAAACTTATTTTTATTATTTTAATAAAGCTTTTTTATTGTTTATAAATTTTTTTTAAGAAAATTATTAATTACAGTTTTAAGAACTATTCTAAAGTTTTAACTTTATCTAAATATGTGTTTGCAAGTCAATTGTCCACATCGTTTCTACTACTTGAATAAACTTCTTTTTCTATAATGGCATCTTTTGATGAATTATCTCTTAAAAAGTTTAAAGCTCTAGTTAAATGTTCACTTAAATAAGCAGAAGATCTAATAAATGGAAAAATACGTTTATTATCTAAGTTATAGTGCTCTAAAAATGAACCTATTATCATAGGTGCAACATGTCACCATATAGGAAAACCTAACAATATATAATCATAATTATTTATATATTCTGGATATTCTTTCATTTTTGGTCTTAAGTTATTTACCGCTTCATTTCTTGCATCTTTTGATAATTCTGAGTAATTTGAAGAATATGGCAATTCTCTTTCAATTTTAAATGTTTTTACATCAAGTTTGTTTGCGATATAATTTGCCATAGTTTCAGTGCCATTAGATCAAGAAAAATAAACCACAATTGTTTTTGATTTTGTATTTTCATTTATCTTGTTGTCAAATTCGTTATTTATATCAGATGTTGAACAACTAACGGTACCAATTGATAAATTTGAAATTAGCGCGATACTAAATACTCATTTTAAAATTTTTTTCAAAAATACCTCCTTATATATAAAGTTTAAATATTTTAACTTTATAATATAATGATAAAACATTAGAGCAACACTAATGCAATACAAATTTATATTAAATTAAAATTTTTTGAAAAATTTTAATTTTATTTTTTAAAAACTCTATTTGATCATCAATATCTTTTCGCATTTTTATTGCTAATTTTAATTGTTTATCTATTATTTTAAATCTCTCTAACATTGTAGTATCACCTTGCTCTATAAGTTGCAAATATCTTTGAATATTTTTTAGGCTAAGTTTTGTTTTTTTAAGGCAAATTACAAGTTCTATAAATCTAAGATCTTTTTCTTCTACATAACGATATCCATTAGCATCTCTTTTAAAACAACTTAAAATGTTTTTTTTATCATAATATCTGAGTGTATGTTCAGATATAGAATATCTTTTTGAAATATTATTTATATAATATTTTTTATTCATAAAATCACCTATTAAAAATATAGCATATAAAATAAATTTTTTTAATAAAATGTATTGACTTAGAGCAACTCTAATGATTTATTATATAAATAATTACAAATGCGTAATTAGGAGGAAAAATTATGAAAAAAATCAAATTAAATGATGGTAATGAAATGCCTTTTATATCTTTTGGTACATATCAAATAACAGATTTAGAACTATGTGAAAAAGTTGTTTTAAATGCTTTGGAAGTAGGATATAGAGCAATTGACACAGCACAAAGTTATTTCAACGAAGAGGCTATAGGTAATGCCCTAGAAAAAACAAATGTTGCAAGAAAGGACATATTTTTAACTACAAAAATATGAATTAGTAATTATAATTACAATAAAACAATTGAGTCATTTTATAATTCTTTAAAAAAATTGAAAACAAATTATGTAGATTTAGTTTTAGTTCATCAACCTTTTGGTTATTATAGAGAAGCGTTATCTGCACTTTTAAGTCTTAAAAAGTTAGGTTATATAAAATCAATAGGTATATCAAATTTTTACGATGATAAATTGGCTGATTTATGCTTATTTAATAATAGCGATTTTATTCCAGTTATTAATCAAATAGAAGTGAATCCATTTTTTCAAAGAGACAACACAATAGAAAATAACATAAAATATGGAGTAAAACCAATGGCATGAGCTCCATTTGCTGAGGGAAAAAATGATATATTTAATAACTCAGTATTAAAAAAAATTGCAAACAAACATAACAAATCAGTAGCACAAGTTATTTTAAGATGATTATACGAACAAGATATCCCATTTATCACAAAAAGTATTAATATTGAAAGAATGAAAGAAAATATTTCTATATTTGATTTTAGTTTATCTAACGAAGATAAAGAACAAATCAAGTCTTTAGATAAAGGGGTTTCTCAGTTTTTTAATCATAATGATATTGATGGTGTTGAAATGATATATTCGTTAGTGAAAAAGAGAAATGAAATTAAGTAGTTAAAATTGTTTTGTAAATTAAACATAAATGAGTTAAAAAAGCAAATTGAGTAGGATTGTCTAAAATTAGTCTTTTATATTAGAAAAAAATTTAAAAATGAATTTCTTAAAAAAATGAAAATTAAAATAATGCAAGTAAAAATACTTTAAAATATTTAATATTCTTTGTAAACCTAATTTAGAGTTTAAATATCGATCTAGTTTTATAAGAAGTAAAATTGAATAGAACTTTTAGATAAATAAAAAACTATAACAAAGTTAATACAAACAGCGGCAGGTTTTATTTTGATTAGAAAATAAATTTTGGTAAATAAAAGTATTAGGGTATCTGAAAAATAATTAGAAAAGATAGACATTTATTAAGCTAGTCATTTTAAGGAAAATTTTTATATTAGTAATGATTTGATTGAATAACTTATGAAATATCTAATCTTATTTGTTTAATTTAACTAAATCTAAGTTTTTTATAATAAAAATATAATTAAATAGATAAAAAAAATTTTTTGCATTATATGTAGGTGAATTTTAAATTGAAAAAAAGTTTTTACAATATAAAATATATATTCCAAATATATAAAAAAATTACTTTAGTGAGGTCCTTTTATTTAATAAATTTTAATAACGATATTCTAAAGGGCAACACCGAAATAAATATATTTCAACAAAATTACTTTAAGTTTCTATTTGGGAGTAATTTTTTTTATTATTCAAATATTTTCATATACAATCTCTTATTCAATTTATAAAAGTTTCATTTTTTTTTGCAAGCTATAACCTACATAATAATTTTGTTTTAGACTTTTAAAAGATGTTTCTCTATCAAGTTTTGTCAAAAACATATCCTTATGTAATGCTATGTATAGTATTGTAATTATTAATATTTTTTTCATAATTATGCTTCTAAATTGTTATTCTATATTTCTATTAATAATCCTATTTTTATATCATATTTATTATTTGCAATTTAATATTACTAATAAGTTCTTCATTTGTTTTATTGTTTGCAAAACATATTATTAAAGGTAGTTTAGAATATATTAATATAAGCAAATAAGGGAGTTTTTTTATTAATTATTTTAAACTTTGTATATATAAACAAATTTCTTCTAATGGTTTATTTGCATAAAGTACCAATTATTTGTGTTTATCGTTTGATAAACCATTAACTATATTTATTGAAGTTATGCTTTTTTAGTATAAGCTTTTTATATTCTACTTTTTTAGCAATTTTTCAGTAAAAATAATTTTTATGCTTTCATAGAACGTATATTCTTTTTTCGACCTAAATGAAATTTTAGTTTTGTTTTTTTATGTACCCACTTTCGATATGTTTCATATTTTTGATCTTTAATATAAAAAACTTAGCTTATAAATAAATCATAACTTATGTCTATTTTGAATACATACTCTTTTTAACCCTTTGCTAATCATTTTTTATAAGCTTTAGGATTAATGTTTAAAACCTCAATTAGTCATGATAATGCTATATTTTTTACTTATAATTTTTTGCTATTTTATACAATTAAATAATTATTTTTTGTTTTTTCATTCCTTACTAAAGATGATGTATGCTTTTCCACAATTTCTACTTTACTTGTTAGTTTTTTAACTTTTTTTATATTGCATCTCTCTTCTTAAACGTTCCAACTCTTGATTTATTTTTCACTCCTACCTGTTTGCGCATAAATTAAATTAATATTTATTTTTGTTTATAACGATTTTCAAACATAAATAGTTGATTTTTGTTTAATATTGTATTTTAATAATCAAAATCTTGGGATTATATCTGTACTTCTAAATTCATCTGTTGTTTTCTTTATTTCCTCAGCTCTAAATAACATTGTTTAGCAATAAAAAAATCACCCTTTTACAAAAATTATATGTTTGATTTTTGTAGAGACTTGAGCAATTATTCTAATAAAATATTTTATAAACTTAAGTTCATAAAATATTTTTTATTTTACATAAAAGCTAATTTTTTTTATAAAATATATGTGAAAGATAAGAGACAACTATATGAATAATTGTATATTTTGCAAAATAATTAAAAAAGAGATACCGTCAAAAATAATATATGAGAATGATTTTGTATATTCATTTTTAGATATTACACCAAATTCTGACGGACACTGCCTGATAGTCCCTAAAAAACATTATGAAAATTTTGAGCAAACAGATAAAGATTATTTACATCATGTACTAGACGGAAAAATTGAAGTTTTAAAAATATTAAATACAAAATTACCTAAGAAACCATTAGGCTATAATTTCGTTACAAATCAAGGGGAAGAGGCTTTCCAAACAGTTTTTCATTACCATGAACATATAATTCCTAAATACAAAAAAAATAAAGGTTACACTTTTTTGATCAAGAATAATCCTGATGATTTAAGCGATTTAGATGTTTTATACTCATATTTTAAAAAATAAAAAGAGAAATAAATTGAACTTGTCAATTAAAATTGACATTAAAAAGGTACTTTCTCCATACGAATTTCGTATGGAGTTTTTTTATGTTTCAACATAGGTCTAACATAATTATAAAAATCAATATAATCTGAAATTATTGTATAGATATTTGAATAATTTAACTCTTTTATTTTATAAGTATAAATACATTCATTTTTTATTGTTCCAAAAAAAGATTCGCACGCTCCGTTATCAGGAGAGTTACCTCTTTTTGACATGAATATACTTATCTTGTTTTCATCTCATAAACTTTTTCAAGTTTCATTTGTATAAGGACTACCTTGATCAGAATGAATAATATCAGGAGCGCCTCTCTTTTTGATTGCAAAAAATAAGGTTTGTATAACATAATTTGCCATTAGGACTGTTAGATAATTTTCAAACAACAATTTCTGAATTATATAAATCTTTTATAACAGATAAATATGCATTTCCTGAGGCTGTCTTTATGCAATTTACATCTGTAACTCATTTTTGATTTAAACAATCTGCATTGAAATTCCTATTCAATAAGTTTTCATATCTCAAAGGACAAGTTTTGTCATATTTTGGCACTCTTTTTTTTCGAAATGCTTTTAAATTATTAATTTTCATATATCTATAAACTACTCATGGTTTTAAGTTTTGATTAAAATATTTGTTTAAAAGTAAAGTTATCACGTTGTAACCTAAACGTTTTTTAAACAAATAAAAAATAAATTTGATTTTTATAGCAAGAACTCGATTGTAGTTTTTATTTATAGGTTTTCCACTTTTTAGTCATTTTAAATAACCAAATCTTGAATCGCCTAAATATTTACAAATTAATGTTAAAGTAAACTTTTTAGAACAATTAAAAATAGCGAAGTACTTTTCCTTAGTTGTCTTCGCCAAATGCTTTTTTTAGAGCTCGTTCCAATTTTAAAGCTTCTCTTAATTCTTCTGTTGTCATATCGTCAGGGTCTTTAAAAATTCATTCAAAAGATTTAAATTTCTTAATATTTCCTTTTGTTTGAATTCCGTTCCTTCATTCAAGAGCGCCTTTACCTTTAGTTTTGATTTCTGATTTGCATCTTTTGACTGTACTTGTGCTAACATCATATTTTAATGCAGCATCTGTTATTCCAAATTTTTTAGATTCTTCAATAATATTAATTTTTTTATTTTTTGATTTTTAATTTACCATATAAAAAGAACACCTTTCAATAAAATTTTAACTATAAAAGTACTTTTTTACTGTCAATTTTATTTTAGATGTTCAATAAATCCTCTTTTTATTTTTTTTTATGATGTTTTAAAAATGCTCTTCCGCCTTCTGTTAAAATTCTTCCGGTTCAACCTTCGCCATCAACTTTAGAAAGTTCTTCATTTACTTTATATATCCTTGCGTCTAGAGCATCTAGGGATGAAACTATAATTGCCTCTAACATGCTTGGTTCTACTGGAGATCCAAATTCATGCTTACCGTGACTCGAGAGTACTATATGTTGCAATTTAACACTTTCTTCATATTCTTTTTCCGAAAGTTTTAAACTATTTGATGCATGACTTATGAAAGCGCTTCCAATTGTTATATGGCCTAATAGTTTTCCTTCATCCGTATAATCTGATGCATTTTTGCCTTTCATCTCAACAATTTTTCCTATATCATGTAAAACAGCTCCACAATAAACTAATTCTCAATCAACATTGGCATACTTATAAATATCTTTCAAAGAAATAGCTCCTTTTAATAATGAAAAACTATGTCAAAATAATCCACCTAATACATTATGGTGAATTGATGTTGCTGCTGGATAAGTTTTAAATTTTTTTTCATTATCTTTTATAATTTTTAAAGTAATTTTTTTATATATCGGATTTTTCAACTCTTCAATAGTTTTTATAAGCCAATTATAATGTTTATCTATATTTAAAGGGGCTGATATGAAAAAATCGCTCTGATCAATACCGTATTTGTTAAATTCTTCTTCAACTATTATATGGTATTTACTAATTTTAAGTTGTAATTGTTTACGATATAAACTGATTAATCCTTCTACTTTTATAATAGATCCTTCTTTAATTATTTCTTCATCTTCCGGATCACAATTTCATAATCTAGCTTCAATTCTACCCGTTTTATCAACTAAATAAATTATTAAATAATTTGCACCATTGTTACCAGTGGAAACTGACACTTTTTCAACTCTAGCTATAAAATCAATACTTTTGGAATCACTCTTAATTTCGTTAATTCACATATTTACCTCGCTTATACTTAATATAATATCAAAAAAAAATAACCCTTAATAGGTTAGTTTGTTTTTAAATTAATAATCCTGGGTTTGAAATTAAACTTGTAAACTCTTTACCAAAATTTATTGCATCATTTAGATTTATTACATTTGAGTCATAAATAATTGTCACCATAACGTAATTTGACAATATCATATCCCCTTTTAAACGAGATTGATTATCCCCAATTGAAATTGACAATAAAACATCTTCATTAAGTTGTATATTTGAAGAAATGATATTAAAGTGTGATAAATCAAATAATACTACTTTACTTAATTTTTCACTTATTTTATTTTTTTCAACTTCCATAGCTATTTCCAATATTGAGTTTTTTTCATTTATTTTTACATCAACAAAATTAAAATTATCTTTAATATTTTTGTAAACTGATACTACTTGCTTTTTAAATAAACCTATATTTTTAAAATTTGTTAAAATTAAAGCTAGTGCTTTTAAATAAAAACTATTTAAATTTAAAATTATGCCTTTATCCAAAATAGAATCATACATAATAGTATGTAAATTCAATAATGCAGTAATATCAGCTTCAAAACTAATAGTATTTGCTTTTCTTAATTCCTTAGAATTGTCTATTTTTTTAGAATTAACTTCTTTTTTTTCTAAATTAACTAATTGATTTTTTGCTTTTAAAAAGTCTTCTCTCAATAATTCAAGTTCTTTTTCGATGCCACTAATTATTACATCTTTATTTTCAACGCTACTATCTTGATCTTCTATTTCTTCATTAATTACTACAGTTTCTTCTAAAACTGCAAAAGCAGATAGTTCTTCAATAGAGTCATCATTTTGTTTTAGCAACTCATCTGTTTCAAAATCTTTAGTAATTGCGTTGTTTATTTCTTTATTTATTTGACTATAATCTTCGTTAATTTTAGAAAAATCTTGTTTTATTTCACTAACTTCTTCAATCGAATAACTACTTTTTACAATATTTAACTTTTGATTTACTTCTTCTTGTTGTTGAAATTGAGATAAAAACTGAGAACTTTCAACTTTTCTTTGCAACTCTGTTTCACTAAATTCTGTTTTATTTTTTTCTGCTTGATCATTAGAATTTTCTTGAACTAATTCATTTAAATTAATTTCTACTTTTTCTTGATTTGAGAGCTTATTTTCATACTTAGATGTTTTTTCATTTTTCTCATTACTATCTTTATTAAAAAAGTCATTATTAATTTCTTCTATAACTTTTGAGCTTGATTCTTCTTTTTCAATTTCAGGTTTAAATAAATTTAAATTTTTTAATTCTTCTGTAACCCCATCTGTCTCAATGGGTTTATTATTAATATATTCATTTGCACTTTTTTTTGTATCACCAATACTTCTCGGCATATTATTTGTATAATCTACTTCTTTTTGTTTTTCTTTTTTATCATCTAAGTTGTTGCTAAACAAAAAGTCATTATTAATTTGATCTAGTGATTGAGTTTTTGAAATCTCAGTTAAACTTTCTTTGCTTTTTAAAGCAAAATTATTTAATTCTTGAGTTAAACTATTTGTTTCGATTGGTTTTACAACAATATCTATTTTTTCATTAATTATTACTTTTTTATTTTCTTCGATAATCAAATCCTTATTATTGTGCTCATTTTGAATATTAGTTTTGTTTAAAAAATCTTCATTTAATTGCTCTATTGCATGAGTTTTTGAAACCTCAATATCTGTTTCTTTTTTTAAAAACTCAAGACTTTCAAGTTCTTTAGTGATGTTACTAGTTTCGACTGGTTGATTTAAATTAGTATTATTTTCGTGTTTAATTTCTTTACCAATACTTTCTGGCAATTTATCAGAATAATCAATTGTATGAGTCAATACTTCAGTATTATTTAAGTTTATATCCATTTGAACTTCATCTAATGTTTCATCTAAAAAACCAAAATCAGTTAAAGCATCTTTTAAAGTATCACTCATTTCAGAAGGTCTTCTTAAAATAGTTTCTAATTCTTTATTAGAAATAATATCAAAAATGGTATCTCCATGAGACACTATCAAAGAATCAATAACATATACATTTCTTACAACACCATCAATTGGTGATTCTAAACTAATTCTTTCAAGTTGAGTTGATATTTGAGCTAAAATGTCACCTTTGTTTACAGGTTGGCCATCTTTTACAAATATTTTTTCAATAATTCCTTTGTATTTTTTTGCATTCTTAAATTTTATTTTTTCCATAAACACTTAGCCCTTCTCAATATAAAAATGTGTTTCGCCCAAAACACTACTTTATTATTTTATATCAATTTAATAATCTTTAAAGAATTTTAAAAAATTTTTTCAAGATAATTTTTTATTATTAACATGCTGTTTTCATATATATAGTCATACTTTTCAGTTTTTGTGTCAAATTCTTTATCTACTTTGACAATACCCATATTTGCTTTCATTGGTTTTAATTTTTTTAGCTTTTTATTTGTTATATAGTTTGTTAATGCACCTAAAATAGTTTGATCAGGAAAAGGAATAAACTTTTTATTTTTAAACTCAGAATATAAAGCAAAGAAAACAATAAATGCAGAAGCAAATGATTCTATATATCCTTCTACACCCGTTACTTGACCTGCAAAATAAACTTTTTTATTTCTCATTACTTGTAATTTTTTATTCAAGATTTTTGGTGAGTTTATATAAGAATTTTTATGCATAACACCATATCTTGCAAACTCAGCATTTTCAAGACCAGGTATTAACTGAAATACTCTTTTTTGTTCAGGTCAAGTTAAGTTAGTTTGAAATCCTACAATATTATATAAACTATCAATAGCATTATCTTTTCTAAGTTGAATAACTGCATATGGTTTATTATTTTCGTGTTCTAATCCATTTGGAGACATAGGTCCATTTATAAGATTTTTTTTAGATTGAATAGCTATTTGTTCAATAGGCTGACATCCTTTAAAAAAAATTTCTTTTTCAAAATCTTTTAATTTAACTTTCTGAGCATTTATCAAATTAATATAAAAATTTTCAAACTCATGTTTATTTAGAGGTGCACAAATATAACTATTATCATTTGAATGTCTTGAACTATAATAAACTTTTTTAAAATCAATAGAATCTTTTTTGATTATTGGAGAAGATGCATCTAAATAAAATAGTTTTTGATTACCAACAACTCTATCTATTTCTTTTTTAAATTCATCACTAATCAAAGGTCCACAACATATTACATAAATTTTATCTGCATCCAATATTTTTAATTCTTCATTAAAAACTGTTATATTTTTTTGTTCTCTTATTTTTTTATCCACTAGTTTTGAAAAACTAATTCGATCAACCGCTAAAGCGTCATCGCTAGGTATTTCAGTTAGATATGCACATTTCAAGATAAATGAGTCTAATTGCTCTAATTCTTTTTTTAAAATTCCAACTGCATTTTGTGTAGACTTACTTCTAAAAGTATTTGAACAAACCAATTCTGCAAATGTATCTAATTTTTGAATCTCATTTTTTTCAATATTCTTTTTTTCATATAAATTAACTTTAATTCCCTTTTGTGCTAATTGATAAGCTAATTCACAACCAGCTAATCCAGCACCTATAATATTTACTTCCATATGTTCTCCTAGTATAAAAAAATAAAAATATTAGATACTTTTATTTTAAATATTTTTTTAACTCTCTTAGTTTATCAAGTTTTTCTCAAGTAAATTCTTTTTTACCAAAATGACCGTATTTTGCGGTTCTAAAATAAATTGGTTTTGTTAGATCTAAGATGTCAATTATATTTTTTACTTTAAATGAGAAATTTTCATTTAAGGCTTTATAAATTATATCCATAGGAACTTTATTTGTTCCAAAGCATTCAATAAAGATTGATAATGGGTCTGGTTTACCAATTGCATAACTGATTTGAACTTCAATTTTAGATGCCAATCCAGCTGCTACCATATTCTTAGCTGCATATCTTGCCATATACGCAGCACTTCTATCAACTTTTGAAGGATCTTTTCCTGAAAAAGCTCCTCCACCGTGTCTTGCATGACCACCATATGAATCTACAATAATTTTTCTTCCTGTTAATCCAACGTCACCTAAAGGACCTCCAATTACAAACTTACCAGTTGGGTTGATCAAAACTTTAAAATCAGTATTTAAACCATGATTTTTTGCAACTGGAATCATAATGTTCTCTTTAATAAAAGTTTCAAATTCTTCTTGATTGTAATCTTCGTCGTGTTGCACTGACATTAAAATTGTTGAAATATGTGGATTTTTTGGATTTGTATAATTCATAGTAACTTGTGATTTCATATCAGGTTGAGCATATTTAAATGCCCCTGTTTTTCTTAATCTACTAGCCATATGAACTAAATCATGAGCTAATTGAATTGAATAAGGCATATAAGTATCTGTTTCATCAACTGCATAACCGAACATCATTCCTTGGTCTCCTGCGCCCATTTCTAAGTCATTATCAACACCTCTAGCAATATCAATAGACTGCTTGCTTAGTTTTATGATAATTTCGCAATTATTTGGGTCAATTCCAGTATTAGCATCTTTATAACCAACTTTATTTAATATTCTTCTAACTTGTTTTTCGCAATCTACTTTAGCAGAAGAAGATATTTCTCCTGTTACTAAAACGAAATTTTTGCTTGCTACAGTTTCACAAGCTACCCTTGCATTAGGATCTTGTTCCAAATATGCATCTAAAATTGCATCAGAAATTTGATCACAAAGCTTATCTGGATGTCCCTCTGACACAGATTCACTAGTAAAATAATTTTTCATAAATTTTTTCTCCTTATTTGTTATAAAAAAGACCCAAAAAGGGTCTTTTTTAAGCATATAGATTTAAACTCTTATTGCTGGTTTCCCCTGATTTAAGCACCTAATTTAATAGGTTGCTACTACTTCTACGAGTTTACTCTCTCAATAGTTCTTAATAAAAATGTTTATCTTTAATATCATAACAAAAAATTAGATTTTTGAAATAATATTTTCAAAGTTTTGTTCATTGTATTTATATAATCAAAAATGTTTACAATCTTTTAAAGTGTTCAATTTATACTTTTGTTTATCTAACTTATTAATAAATTTTGCTAATTTTTTTTGTTTTGTATATATATCTAAATTAGGCAAAATTAAAGTAATTTTACACTTAGCATTATTAATATATTTTTTAGTTCTTCTTTTGATAATATAATTTTGTAAGGTTTCTCTAAAAGTATAAGTTCCTTTTTCAAGATGATTTACATCAATTTCTTTACTGATTTTTTCATCATCAATTAAATCAATACCATTTAACTTATCTTTTAATTTTATTTTTTGATAAAAAATAAAACCAATTATACATTTAATTATATTTGAAATACCATTTCTATAACCTTTATTTATTTTGAAACTTGTTATTATTATTTTTTCTATTTTTGGATTGCTGCTAAAATATAAGGCCATATGAGAACTAAATCCAGAAGTTAACAAAATAATCTTTTTTTTAGGATATTTTTCATTTATCGATTCAATAATTTCATCCAAATCAGATATAAAAGTTGCTTGACTAGCATCTTTATAAACGGCGTTTTTTCCACAACCCCTTTGGTCATAAGCAATAATATCTATATCTAAATTTTTTTTAATAAAATAACTAATTAAATTATCATACTCATTTTTTGTTGATTTAAAATCATGAATGCTAATGATTATTTTTTTATTTTTTTTATTAATTTGACCATTTAATGACAAATCATATCCATCTTTTGTTTTATAACTTTTTAAATCAACAAACTCACCTCTTTGTTTTGCTTGTGTTTTAAATTTCAAACTACTCATTTTAATAAATCTATGTAGAAAATATAAAAAAATAAAAAATAAAAATGTTGCTCCAATAATATAAAAAATTGGAGTTATTAGTTCCAATAAAGGTTCTCAAACCATTAATGTACCCCCTTTAGCATATTGATTTTAACATAAAAAAATACAACAAAGGTTGTACTTATAAATGCTAACTAATCCCCATGTGAAAGATCTAAGGCATATACATCAAATTGACCCATAAATCAAAATGCAAAAATAACGTTTTGCTTTCTTACGATAAACTCATCGTTACCCATAACATTAATTGATTCATAAATAACATTCCCAGCATCTTGTTCTAAGTTTATACGCATTCTTTCAAAGTCATAAATAGTAGATCTACCATACATTTCGTTTTTACGTTCAAATTCTACTTCTGTTAAAATTCTTTCATAGGTATCTCTATATTTAGCCACTGTTTTCAAACGTGTCTCTAATCCTCTACACACATTTTTAACTTCTTTATCTAGGGCAAACAATGCTTCATGTAAATTTCTAAGTTTATCATGTCTTTTCATCTTTTATTCTTCTCCCACATTAGGCCAACTTCTAACCTTGATATATTATATTATATCATAAAAATTATTTTTTTATTAAATATGCTATAATACTACGTTTTAATAGCCTATATTTAAAATTAAATAACTTGAATTCTTTCAATACTTTTTGCTTTTTTATTTTCAAATCTAATTATAACAGCTTGTAACTTCCCTGCATTTTCTGATGGAATAAACTTTGTTGGTAATCCTGTTTTTTCTTTATAGATTACTTCATCTGGATTTGCTCCTATTATTGAATTTATTGGACCCGTCATTCCTATATCAGTTATAAAAGCCGTTCCTTTTGGTAAAATTCTTTCATCTGCAGTTTGTACATGTGTATGAGTTCCTACTAAAGCACTAATTTTACCATCGTAATTTCAAGCAAAAGCTATTTTTTCAGCACTTGCTTCTGCATGAAAATCAACAATATGGATATCACTATTATCATTTTCGAGTAATTTATCAAGAACTTCAAATGGACTATTTGCATGATCCATAAAAGTTGTTCCAAGTAAATTGGTAATTCGGATTTTAAATCCATTTTTTTCAAATAAAACAGTTCCCTTTCCTGGTAAACTTTCATACATATTTAAAGGTCTTAATAAATCATTTGTTTCTATTATAAATTCTTGAGTTTCTTTTACTTTAAAAATGTGGTTACCTGAAGTAATAACATCCACTTTTAATTGTTTTAAAAAGTTATAATGATTTTTATTTATCCCCTTACCATGAGATATATTTTCAGCATTAGCAACAACAAAATCAATATTATTTTTAGCTACAATATTATTTAAATGTTTTTTTAAAACATCTCTACCTGATTTTGAGTAAATATCTCCTATTATTAATATATTCACTAAATTTCTTCCTCTATATTTCTAATTAATACTTCAATATTTATTTTACTCTCTTTAAAGTTATCGATTTGTTGTTTTATAAAATCATTTTTTTCTTTTATATGAAGTTTATTTTCAAAATCTTTTAGATTATTTATTGTTTTATTTATACTATCAAAAACAGCATTTTTTGAAATTCCTAGCTGTTCTCCAATTTCTTGAAATGTTAAATCTTCAAAATAATATAGCTCAAAATACTCTTTTTGTTTTTCGGTCAATAGTTCTTTGTAGTAATCATATAAACTACTTATTTCTTCATTTTTGTTAATATTACTCATCTAAATCCTCTTCCATAAAGTCACTTGCCAAATCTCAAATGTAGTCATCTAAATCAAATTCTTTAATATCTTCAACTTTTTCGCCATAACCAACTAATTTAACTGGAATATTTAAAATATCTTTAATTGCAAGAGCAATTCCACCTTTACTTGTTCCATCCATTTTAGTTAAAACAATTCCTGTAACATTTGTTGCTTCTGAAAAGGCTTTTGCTTGATTTACACCATTTTGTCCAGTTTGAGCATCAATTACCAATAAACGTTCATGAGGTCCATCTTCAACACTTTTTTTAACAATCTTTGTCATTTTTTCAAGTTCTCTCATTAAATGCTCTTTATTTTGTAATCTTCCTGCGGTATCAATTAACAAAAGGTCATAACTATTTTCTAATCCTTTTTTAACCCCATCAAAAACAACACTAGCTGGATCTGAAGAATTTCCTTTGATTAAATCAACACCTTTTAATCTTTTTGAACATCATTCTTCCAATTGTTCAACAGCTCCTGCTCTAAATGTATCTGCTGCTACTATTAAAACTTTTTTCCCCATTTTTGAATAATAGTTGGCAATTTTGGCAATACTTGTTGTTTTTCCAACACCATTAACTCCAACCATTACATAAATATTTAAACGATTATCTTTTCAGTTTAATTTAATATCATATTTTCCTGAATCATTATATGCATAATATAACTCTTCTGCAAGAATTTCTTTAATATCATCAAAATTATGTTTTGGTTTAACTCTTTTTTGAACTGCATTAGATATTTCTAAAACCATTTTCATACCCATATCAGTTTTTATCAAAACATTTTCTAACTCTTCAAAAAATTCACTATTTGCGCTTTTGTATTTTTTACTTAATTTTTTTATATCACTTGAAAAAGTTAAAGTATTTTTATGTTCTTTTAAGTGTTTTTTTTGTGTTTTTTTTATTTTTCTTCTTTCTTTTAAATTTGCTCAAAATCCCATAATATTGTCCCCTTTTGCTATATAATAATTTTATAGTATTTTTATACTATTTAGAGTTTTAGGGTGATATTTATGAAAAAATGATTAAAAGTGTTATTTGCATTAAATATGAACGCAACTCCTTTAAAAGAACTTTACAGTATAACTGAAAGAAAAAGTAATAAGTACAAAGGCTTTTTACAAGATTCAGAAATTGATTTATACATTAAAAAAGATTTATCTTTTATTGGTAGCGACAAAGATTTTGTATTGCAAAATTTAGACGATATGATTAAAGAAAACTTTGCTGATTATGACTTAGGCGAAGAATTTTTAAAACTTACAAATTATGAATTTATAAGTTATGATAATTATCAAGTTACCTTAAAATTTTTTGATAAATATGGTGAATCTTGCTTAGGAAAAAGTGTAATTAAAACATTTGATGTATTAATTTATAATTATGATAATTTTGAAAAATTACAAAATGAAGTTCTTTTAAATAGCAAAGTTGTAATTCCTGTGAATATAGTGAATTTAAAAGAAGTTGTTGATTATGTAAGTAATATGTATAAAGAAGAATTTAATAAAATAGCAAGTGAAAATATTTATCTAAATGATGAAAAAGACTTTTTCAACTATTTAAGCTTTTTTGAAATTGATGATTATGGGAACTTAAAAGCAGAATTTTTAGGTTCAAATATTTTATCAATTCCACTATATCAATTATCAGTAACTATTTAAAAACACTGCAAAAACAGTGTTTTTATTTACTTATTATTTTATTTAAAAATGTATTTATATCTTGATAAATTTTGTAGTATCCATATTCACAAAGACTATTATGTCTCATATTACAAAATAAATCTAATTTTATATCTAAGTTAATTTTTTATAGATTTTATACAATTTCACTGATTATGTTAAAAAAACTAACAACCCCATCTTCATTACCGGCATTTATTAAATAAGTAAATCTTTTGGTATGGATTAATATTTTTTCTTTGAATATCCAGTCATCCTGTAAAAATATCTTTAAAGCAAAACTTGTAAACTTTTCTATAGATAATTGATTATTTATAGAAGCGTTAAAATTTTCTTTTTAACACTTAATCATTGTAATCCTGTACTTCAGGTTTCTTCAATTTTATCATTTAAGGGTTTATAAGTAAGCTTTCAAACTTTTTTATCAATATGTTTTTCACCATATTTAGGTGATTTTTGTAGACCCTTTTTTTAATATTTTAAAAAGTTACTTCCATAAAATCCAGTTCATATAAGTATTGATTCATTAATTGAATTTCAATATTTTGCAATTTAATCTCTAACCACTAAACTTCCAATTAAATGAACAAGAATAACATTTATATTATCTTTTATATTTTTGTTGATACTTTTAAATCTTCTACCAATGTTTCTCATTCACTTTCTTTTACAAAAAACAATTTTCTTCTTAATTTGCAGTTTTACCATGCCTTCTACGATCAGATCCTATAACTAATCAGTTCATTTTATTTAAATATTTTGCATATTTGCTATGACTAAAAGCATGCCTGCATAAATCATGAGCAATACAAATTATTTCAACTGGAATTTTAGCATCATCTCACAAATAAGTATTTAATTCTTTTTTGTCCTAACTTTTTATACTTTATATAAAAATGTTTTGCTTATTTATCTTTTTTAATATCTTCTAACTTATTTTCAATAGATTCCCCGTACTCTTCAAATTTCCCAGTTCTTATGAACTGTAAAGTTTCATCAATATTTATAAGATGCTCTCCAGCTCTTTCTAAATTTTTCAATTGTCTTACAATAGTTATAATTTTTTTGACTTCAGTTTGTTCTTTGGAACCATATAATCTTTCTGCTAAATTTAAACTTAAGTCTGAAAATTGAGAGTTAAGTTCTTTTTCCATTTTTTTAACTTTTTCGTTTTGATCATTATTATAGTTTTCAATAAGCGAAGAAACTATATTTAGCATCTCGTTAACTAGGTCAAACATTTTTGAAATATAATCAATTTCTAATGTAATAGGTTTATATTTAATCGTAAATTTACAAATATGTTTTGCGACGTCAGCGATTCTTTCGATTTCCTTACTAATCAACACTCCACCAACAGCAAGCCTTAAATCTCCCGCAACCATTTGCTGTTTTGCAATTTTTCATAAAGCCATACTTGTAAATTTATTTTGTAAGTCGTTTATTATTAAATCGTCTGCTTCTACTTTTTTTGCTAACTCATAATCTTTATTTTTTAAAGCGGTAAAAGTTTTTGCATATTGAGATTTAGTAGTTTCAACTAAATATATCAAATCTTTTTTAATTGCTTTAATATCATTATCCAATATTTTATTATATGACATACACTTTCACCTCTATCCAAATCTTCCTGAAATATAATCTTCTGTTTTTTTATCTTTAGGATTAGTAAAAATTTTTTTAGTTCTATCAAATTCAACTAATTCTCCTTGTAAAAAGAAACCTGTATAATCACTTACTCTTGTTGCTTGAGCCATTGAGTGAGTTACTATTACAATTGTATATTCTTCTTTTAATTTTAAAATAAGTTCTTCAACTTTAAGTGTTGCAATTGGGTCTAAAGCGCTCGTTGGTTCATCCATTAATAAAATTTTAGGTCTCATCGCAATTGCTCTTGCTATACACAATCTTTGTTGTTGTCCACCACTTAATCCTAAAGCTGAATCTTTTAAAAAGTCTTTTACATTATCTCATAGAGCTGCTTTTTTTAATGCATCTTCAACAATTTGATTTAATGCATTTTTATCTTTAACACCTTGATTTCTTGGACCAAAAGCAACATTATCATAAATTGACATAGGGAATGGATTTGCTTTTTGAAAAACCATTCCTACTTGAGTTCTAAGTTTAACAACATCTGTTCCTGCTTCATATATGTTAAAATCATTTACCATTACTTCACCATCAATTATTGTTCCGTCTACTAAATCATTCATTCTATTAATAGTTCTTAATAAAGTTGATTTACCACAACCAGAAGGACCAATAAAAGCAGTTACTGTATTTTCTTTTATTTTCATATTGATATTAAATAAAGCTTGTTTTTCACCGTGATTATAAAAAAAGTCTAAATTTTTTATTTCAATAACATTCTCTCTTTGTTTCAAAGGAACCTTTTTGGGTTTTTTCATTATTTTTGCTTCATCTAAAATTTCAAGCTCTTTATCCTGATTATTGTTCCACTCTGTTTTTTTTGTTTCTGCCATTATTTTTTGCTTCCTTTACAATATCTTTAATAACTTTGTTTTTTATACTTGAGTTTTTAACATATATTTTAAGTCTTTTAAATTTGATATAGTTAAATCATTTTTTTGTTCTGATTCTTATTGATTTTCCAAACTTTTTAAAATCATTTATATAATTATGCTTAAAAATACCTACTATTCTTTGTTTCCATTTTTTTTCAAAACTTAATTTACTTTTATTCGGATCTAAATTTGATGCTGCTAATTTACTTAAAGCATTTAAACCTAAAACTAATATTATTGTTACTGTTGCTAATTCATATGCTGTATTTAAAACTTCTGCGTTGCTTCCTTCAGAAGCTAACATATAAATTTCAGTTGTTAATGTTGCTCCAGATGCAAAAAAACCTTCACTTGGCATTCTTACAGATGTTCCAAGCGTTAAATAAATTGGAGCAGATTCACCAATAATTCTAGAAATTGCTAGAATTAGTCCTGTGATAATTCCTTGCATTGCATTTGGTAATACCACTTTCAAAGTAACCTTGGTTTTTGATAATCCCATTCCGTATGCAGCTTCTCGATAAGAATCTGGAACACTTGTTAGTGCATCTTCAAACGTTGTTATCAAGGATGGTAAAACTACAATAGTCATTGTTAAACTTGCTGCAAATATTGACATTGGTAATTTAAAGATTACAACAAATAAACTTAGACCAAATACCCCAAAAACAATACTAGGAGTTGATGCTAAAACATTAATTGAAAATCTTATTGTTTTTGCAAACTTACTATTTTTATGTGCATATTCTGCAAGATAAACCGCTACAAATAACGCTAATGGTATCGCTAATATAATTGTTGCAATTATTAACATTAGAGTAGTTAATAAAGTTGCAAATATCCCAGATTTTTGACCAGAGATTTGTATAAACGTTGCTGGATCAAAACCAATAATCCCCTTTGATATTACAACTAATATAATTCACATTGTAAATGCAACAATAATTGATGTTGATAATATCATGAAAAACTTATATATAAATGTTTCAAATGTTTTATATATTCTCTTTTCGGTATAAGTTCTTACAAGAACTTTAAGTTTATATGGTTCATAATAATAAGAATTATGCAATCCACTATTTTTAGAAAGTTTTAAATCTTTTTTAATTTTTAGTTTTCTAGTTTTTTTATTATTTAAACTACCAATTGCAATAATTAATAAATTTATAATAATAACTAAGAAAAATAAGACTAATCCAATTGCATATAATGCAGATTCATGGACTGTTCCATGATTTTCCAACATTTCTAATCCAATAGTTCCCGCTAATGTTCTAATTGAAGAAAATATAAAACCTCTGAAACCTTCTGAAAAGTTTAGTCCTTGAGAAGAATTACCAGCAATCAAGATAACTGCCATAGTTTCTCCGATAATTCTTGCCACTCCTGTTATAATAGCTGTGATTATTTTTGGCATTGCGCTTACTAGAACAACTTTATAAGTTGTTCTTTCTTTTGACATTCCCAATCCTAATGAGGCAAAACGATAACTATCAGGAACTGCTTCTAACGCATTAATTGACAAACTTATCATTGTTGGTAAAGCCATGAATGCAAGAGTAACACTTGCTGTCATCATGTTTCCTCCAGTTGGTGCACCCATTTTTACAAATAATGGTCCAATCTGATCTAAGGCGAATAATCCAAACACAACTGAAGGAATACCTGCTAACAACTGCACAAATGTTATAATGGTTTTTTTCAATCTTGTTGATAAATACTCTGTTATGAAAACTGAGCAAAATATAGTTAATGGTACCGCTATCAATAGAGAAATAAATAGCATTACCATTGTAGAAAAAATTATTTTTAATATTCCATAACTTCCAGCACCATCTTTGTCTGGAGCTCAAATTGTTGAGAAAATAAACTTGAATAATCCAACTTCTTTTAATGCAGGGACTGACTTATATAGTATAAACGAAATCAAAATAGCAAGAATTATTAGAGTAAACGTAGTAAAAATTATAATAGTGCTTTTGGAAACTAAATCAACTTTTGATTGTTTAGATTTATGCATTTTTTTCTTAGCTTCCATCAATTTTTTACTATTAAAATTTGGGTTTAAATTAATTTTCATAAACTACCTTTCTGATTTCAAAGTTTTGGACTAATCCTTCATCTACAAAGTTTTCTTTATAAATATTTTCATCCTTACTTATTCCAATCATCGCAGAAAAGAATTCTATCAATAATTCATACTTTTTAAAATGAGTATTAAATATTGATATAAATGGTCTTTTAAACTTATACTCTTTGCCATCATAACCTTTAATAAACTGTTCATTAGAAACATCACCAGCAATTTTTTCAAAAGCTTTTGTTTGTTCGTTTAACTCCATACCAAACTCTCAATTATCATTTCCTAAATTAGCAGGATTACCTAATTTTGTTTTATTAACTCCTGCAACATTTACTCCCGATTCTTTTGTTACTTGTTTTATAAACGCATAAGATATATATCCAATTGCACTTTGAGATTTTTGGATATTTTCAAACATTGAACCGTTTGAGTTCACAACGTTTGCTGTTTCCATTTTTTTTATTCCTGTTAAATCTCCAAAAGCACTTCTTGTTCCTGAACCATCTTCTCTTGTAAATGTTACAATTTTGGTTAAACTACTTGGCACATCACTTTGTCCAGCATCTTTTGCCAACTCTTCTCAAGTATAGTTGTTTGAATAAATTTTACTTAAAACTGACTCATCTGTTTTATTTTTAGGTATATCAAAATTAATTTTATTTACAGTTTCTTCTGTTACTCAATCTGGTTTTTTAAAAATAATTACAATTGCATCAAGCGCAAATTCAAATGCAACATAACTTTTATCAATATCAATATCATTGTTGTGAGTTTTTAAATCAATCATTTCTTCTGAGAAACCGGTAGCCTCTCCTGGTAAAAATACTAATTTATCATCTTCACCAAAACTACTAAAACGATTATTTCCAGTTAAAGTTCCAGTTCCTACATCTTTTGATATAAAACCAGCTCCATACATTCCTTTTTCAACCCCTCCAACACCAGCTTGACTTCCGGTTGAGTTGTATATAAAATCTTTTTTTTCGTTTGCTAAATAATCTTTTGTAAAAGATTGCATAAATGTATTTACACTTGTGCTTCCTCCTAAAACTACATAATTTTGAGTTGATAACGATGATCAAATTCATAATCCTGTAATTATTGAAATAATTGCCAATAAGAGGATGCTAACTTTTTTGTTCATTTTTTTAAGACTCCTTATAAGTTTTAAAAACTAATTTGCATTACTCAATTTTTTAGCTTCAATTAATTTAATTTGAACTAGCTTCGTTACCCCTTTTTGTTGCATTGTAGCGCCAAAAAGAACATCGCAATTTTCCATTGTTCCAATTCTATGTGTAACAATCATAAACTGAGTTTTTTGAGTAAATGTTTTAATATATTTTGCAAATCTTTCAACATTTGCAATATCCAATGGCGCTTCTACTTCATCCAATATTACCAAAGGTATTGGTTTTACTTTAAGTATTGAGAATAATACAGATAAAGCTACTAATGATTTTTCTCCTCCAGATAGTAAATTTAAATTACTAATTTTTTTACCAGGTGGAGCTATTTTAATGTCAATTCCAGTATTTAAAATATCCTCAGGATCTGTATAAACAATCTGAGCTGTACCTCCGCCGAATAAAGTTGAAAATGTTGTAGGCAAAGCTCCATTAGCCTCTTTTACAATACTTTTAAATTGTAATATCATTTGTTCGTCCATATCCGTAATTGCTTCTTTTAAATTTTTTATTGAATCTTGTACATCACTTGACTGTTCAACGTATTCTTGATATCTTTGATTTTCTTTATCGTATTCTTCAATAGATTCTATATTTACATTTCCCAATTCTTTTATAGAACTTCTTAATCAATTAATTCTATCTCTAGTTTCATTTTCGTTATTAAAATCACTTATATCCATATCAAATGCAGACTCAAATGTTAAATTATAGTTTTCTGATAATCTTTCAACAGCTGACATTTGTTTTTGTTTTAATAAAGTTAAATCTGTATTTACTTTTGAGTAATTTTCTTTATGCGCATTTAATAATTTTCTTTCTTCATCTAAACTTTCATTTATTAGTGTTTGTTTTTCAAAGGCTTTTTCTTTTAAATTTCTTATTACACTTAGTTGTTGTTGAATTTCTTCTTTTTCTATTTCTTTTACAGCAACTTCTTCACTTATTTTGATTATTTGTTCATCAACAGTTTTATAAGTGTTTTCTTCTTTATTTAATTCTTTTCCTGTAATTATTCGATATTCTTCTTCTACTGATTCTTGCTCATTTTCAATTTGAGAAATAACTTGTCTAGAAGTACCTGAACTAGATTTTATTTCAGATATTTCTTCTCTTAAATGATCTATTTTAAAATTTAATGAGTTTATTTTTTCTTGCTTTTCTTTTTCAACTTTTTCTAACTCTAATTTTTCTTGCTCTAATTTTTCTATTTTTATATTTTCATTAAATGAAGAATGCTTAGATTTTCTGCTTCCTCCAATAATTGCTCCATGAGGTAATATTCTTTGCCCGTCAAGAGTAACTATATTAAATTTATATTTTATAATTTTTGCTGTTCTAATAGCACTTTCATAATCTTTAACGACTATAAAATTTGCTAATAAATAATCTAAAATTATTTGATATTTTTTTTCTATTTTTACAAGTTCATTTCCAAAACCAACAAACCCTTCTAAGTTTTGAACTGCAAATCTTATATCACTTGATAAATATGATGCTGTTAAAGTGTCAAGCGGTAAAAAAGTAGCAAAACCTGCTTTATTATTTTTTAAAAAATCAATAGCTTGTTTAACGTCATTTGTAGTTTTAGCAACAATTGATTGGATTGAATTTTGCATAATGCTTGATATCGCAACTTCGTATTTATCTTCTACACTTATCAATTCTTTCACAGAACCAATTATTCCAGATAATACTTTTTTGTTTTCTAATATATTTTTAACACCTTCAAAAAGTCCATCAAAAGAATTTTTTTTATTTATCAATGTTTCTAAATCATTTTCTATTTTAAAAAGTTTTTTTCTAATCTGTTCTATGTTTTTATTGTTTTCTTGTTTTTCTTTATTATAAGTTTCAAGTTGACCTTCTTTTACTATTTTTTCATTTATTAATTTTGCCAATTTTTGTTCTTCTGCTCTAAATCTGATATCCAATTGCTTTGATTTTGTTTTTAAATCATTTGCTTTAAATTCTTTATCATTAGCATTGGTTATTGTTTTTTTAGATTCTAAATTAACCTTAGAAACTTTTAATTTACCTATTTCTTCAACAACTTTTTGAAACTTACTTGTTAAAACATTCAACTCATTGTCATTACTATAAGCATTTTCTCTAAATATTTTTTCTTGATCAGCTTTATTATTAACACTTTTTTCTAGTGAGTTTATCAAATTTTTTAAATCGATTCTTTGTGATTCTATTTCTTCTATTCTTTGTTTATAAACTTTTATATCTTTTACAAGTACTGATATTTCAATTTGCTTTAATTCTTCAAACTTTTCTTGATATTTTTTAGCCTTAATAGATTGTCTTTTTAAAGATGGTAATTTTCTTTCAATTTCATTAATTATGTCATTTATTCTATCTAAATTATCTTGTGTTTTAACAAGTTTTCTTAACGCATCTTCTTTTCTTTTTTTATAAACAGCTACTCCAGCCGCTTCATCAAAAAGTCTTCTTCTTTGTTCAGGACTTGATTCAACAAAATTTGAAATTGAACCTTGAGATATAATTGCTAAACTAGATTTTGTCAAACCAGTCTCGAGTGCAATTTCTTGAACATCTTTTAGCCTAACTCTTGAGTTGTTTATAAAATATTGAGACTCTTTATCTATTAAAAAATATTTTCTAGTAATTGATACTTCATTATAATCTAATGTTTTAAATGCTCTAGAACTGTTATCAAAAACAAGAGTAACTTCTGCCATATTTAATGAGCTTCGATCAGAACTTCCAGAAAAAACAATGTCCTCCATTGAATCTCCTCTAAGCGATTTAGAAGATTGCTCACCTAATGCTCACATAATAGCATCTGTTATGTTTGATTTTCCTGATCCGTTTGGTCCAACAATACCAGTCATTGCAAAATCATAGTTAATAACTACAGGTTCTGCAAAAGACTTGAATCCAAAGGCTTCAATTCTTTTTAAAAAAATCATGTTTTTCTCCTGTTTTGTATATAGCAATCCTATATAATCTAACTTACATTTGTATTATATATGCTTTTTATAAAAAAAAATATTTTTTTTAAAATACAATGGCTACTAATATGAATAAAAAGCGATTATGTTGCAAGTAAAATATACTTTGAATAATAAATATTAATAAGCAAAAAAACGTATATAAATTTGATCTAATAAAATATTTAAGTTTAGCACATGTACATAAGTCTTTTTTTTATAAAAAGAACATACATATTGAAAAATAGAAAAATTAACAACAAAGAACGAGTTGTTAATTATAAAGGTAAAATGATTTGTTTGTCTAATATGCAAAGTTATATATTTAAAATTCATCATAAAAGTTTTTGCTACAAAAATGTAGAAAATATTATGATTTACTAAATTAAAAAAGCATTTAAACTTAAAAAATAAAAACTATAAACATAACAAGGACGAATTCTAATTAGCAAGCAAAAAAAATATAAGTTGTTAATTCAGTTATATATAAAGATTTTTTATAAATATAGCAATTTATATTACTGCCGTTAAAAAACAAATATTAAAATGTAGTTGTAAATATATATTATTCAAAAAACCTAATGTATACAAAAAAATATCTATACAATAATTTAAAAGAAAGTATGCACAAAAAAAGTTTTAAAAGACAATTAAGTAACTTTAAAAAAAATTGAATAAAAAAAATGAATACTAATTAAGGAGTCGAAAAGTAAATAATAAATCATTATAAAATTATTTAAATTAAAAGATTAAATAAATTTAATTGTTTATTTAATCTATTAACAAATACTATTAATAGTTGATATTATTTATCTAAAAAATCATCATTAATCAATAATTGACATAAATTAGAAATATATAATAAAAGATATATTATAGTAAGACAAACTAAAATAAGGAGAAATTTAAATTATATTAAATCATTCAAATAAAAGAATGTATAAAACAAATGAAAGCTAAAAAATAATATATAGTACTATTCATGTATATAAAAGAACATTTTAATATAAAAATATATAATAAAATAAAAATATTACTTGCATAACATGTAATAAGAAAATACTTATTTAAGCGTTATAAAAGTTAGTAATTGTTTTGCCTAGAGCGTAAACAATATTTAAAAAACTCAAAAATCTATAAAAATTTTTACTATGCCTTTTTTTATTAAAATATAAAAGTTTGATGTGTAAAATTTAAAAAAATATCATAATTTTATAAAGCTTTTAAATACATGAATAATAATAAAAAAATACTTCAAAATAGGGAGAAGTATTTTTACGAAAGACAATTTGTATAATCAAAAATGCTTTTAATTTATTTTTTGACTATTAAGTATATTAGAAATTATCATTTTATTAAGTTTTTTATATTTTTATTTAAATAATTTTATTTTTGACAAAGCATCCTTGGCAGCATTTTGTTCTGCTTGTTTTTTGTTTAAACCTTTACCTATTCCATAAACCATATTATCTAAAATACAATTTATTGTAAATAATATTTTATTATTATCTATTTTTTCTTGATTTACAAGTTTATAAACTAGATCACTTCTTTTATCTATTTGTATTAATTCTTGAAGTTCAGATTTAAAGTCAGATTTAAAGTCCAAACAAGCTAATAAATTATTTGGTTCTAAAATTGTTTTATTTAATCAAATTTGAAGACTTTCCAAACCTAAATCCAAATAAATAGCAGCTGTTAAAGATTCGTATAAATCAGCTAGTATATTATCTTTATCAAAACCTCTAGAATCATGTTCACCAATTCCTAATCTTACATAATCTCCAAGATTTAACTTTCTTGCAATCATTGCAAGGCTTTCTCTTTTAACTAATGAGCTTCTATATTTTGACAATTCTCCTTCATTTGCTTTCTTAAACTTATTAAAAAGATATAAACTTACATTTAATTGTAATACTGCGTCACCAAGAAATTCAAGTCTTTGATAATGTCTTTCTTTTTTGTTTTCATTAGAATATGAGTTGTGAGTTAAAGCTTCTACATATAGTTCTTTATTTTTTATAATTATATTCATTTTTTTAAAAAATTCTTCAATATCCATATTAGGTAATTTTTAATGCCTCTTTCATTTTTTCTACTATTCTATTTTTTATAGCACTATAAGTCATACTTAAAGTTGCATAAAATGATATAGCATCACTCGAACCATGTGACTTAAACGCTATTTTGTTAACTCCAAGAAGTATAGCACCTGCATGATTTTTGTAGTCAAACTTTTCTCTAACTTCTATAAATGCTTTTTTCAAGCAAAATGCAGCTATTTTTCTAAATATGTTTTTAGTCAAACTATTTTTTATTTCTGTTAATAAGTTCTTCCCCATACCCTCGGCAGATTTTAGAGCCACATTACCACTATAGCCATCAGTTACAACAACATCTACAAAACCAGATGTGATATATCTCGGTTCGAGATTACCATAAAAATCTAAATATTTATTATTTTTTAATAATTCATAAGCTTTTTTATGAATTTCTGTCCCTTTTGTTGATTCCTCTCCAATATTAAGTAAAGCTACTTTGGGATTTTTTACTTGTTTTATAACTCTTGAGTAAGCATTTGCCATTATTGCAAATTTTTCAATATCTTCTGGATCACTCTCTAAATTTGCTCCAACATCTAATAATAATGTTACTTTATTTTTTAAAATTGTAGGTATAACAGGCATAAATGCAGGTCTCTCTATACCTTCTAATCTTTTTAAAATAAATATACATCCAGCTATAAATGGAGCGGTTGCACCCCCAGTCGTAACTCCATCAGCAATATCATCTCTCACAAGTTCTAAGGCTCTCACCATAGAAGAATCTCTTTTTCTTCTAATATCCATAATTCCATCTTTCATGTCAATTGTCTCTTCGCAATTGAAAAAATCTACTTGTTCAAGATTATACTTTTTATTTTTTAAAAAACTCTTAATCTCAAATTCTTTCCCTACAAATATGATTTTTAGATCTTTCTTTTCTTTTAGTATTTTTAAAGCAGCTTCAATCGCTGGTTTAAAACCATTATCAGAGCCCATAACATCGAACGCTATCTTTATGTATTGCATTTAATTTTCCTCTCTTATAAAAAATATATTTACATTATATATTAAAATAAAAAAATGCATAATGAATAATATTGTATATTTAAATTGGAATAGGCGATTCTAAAGGCAATATAATTAATCTAATGCTAATTATTATTTTTATTATGAATTCAGACGATAATCCTATAACCACTTATGTATTTCTTATTTATTTATATATAATTCGAAAAAACAATCTTTCAATAATAGTTTTCAATTACATTAAGTGCATCAAGTTTAAAACGTTCTAAATAATCAACAAATAAGAATCTATTAAATTTTGTATCATATATTATTCATCAGTAGTTTTTTAACTACTATTGGTATTACATATTAAATTTTATATTGCTTAATAATTATTATAACTTCATAAATTGTTTTTTAACAGCTTCTAAAATTATATTTAAGCAAAATTAAAAACTATGATATTTCTAATATTAATTATACGAAAATATTCAAGCAATTAAACTGTTTATCTAAAATTATAATTTTTAAATAAGATTATTTAAAAACTATTTGAAAACTATAAATAATAGTAAAAACTTGTTTTAATAAATTAAGCAAGTATTAATTTTTTTTCAAGTTTGTTTTTTTGTTTGCTTGTATTTAGCAACAATAATAATTTTATTATATCGTTACCCCTTTATAAATTTGTAGTTACTAATAATCTTAAATGCATCAAAATTTCAAAAACTATATTTGTAGAACCAAATTTAACCTATTTTTATCTAAAAATATTTATTAACTAAGTTGCTATTTATTTATGTTTAATTTTATTTTATTTTTTTAGTAGTATATCTTTATTATTGTATGTTAATTTAGAAAGTTTATGAATGAGGGAATGCACTTATCTTTAAAAATTTTTCATAAATTAGCAAAACAATTAGCAATTTAATTAGGTCTTTTCATTTATTTTTTAGTTTTTATTTCCGACTTTAAGCCCATTCTTTTTTGTCATTTTTCATTTAAATAGCAGCTTCTTTTCAACAATAATTTAATTTTTAGATTTCTTAAGTTACATTTATCTATATTTTAAAATTTTTTCTGCTAAATTTTTAGCTCTTTTTAAAGTTTTGAATAGCGCAAATTTTAATAGCAAATAATTTTCTTTATTATCTGTTTTTTTTTCATCATCTAAAAGCCAACATTATAAAAAAAACTATTATTACTATTATAACAACTTAATTTTATAATACTGTTATTCCGTTCTAACAATATAGTTATTTTTTTATTTATTTCGATAATTACAATATTATATAAGTTTATTATTTATGGGCATTTAACTTTACATATAATAAAAATCACTCTTTCTAAAAATTATGTATATAATTTTTAGAAAGAGTGATTTATTTTACAAATAAAATTTTTTAATAAATTATATTTAAACCATTTCAATTACAGATTTGTATCTTCAAAATGATTGACTTTGTTCTCCTCAATTAAATCAAATATTGTCTGTTCTAAATCTTATATTTATAAAGTCAAGTTTAAAGTCAAAATCAAATTGACTAACATTATTTTTATAATAACCGTCCATTACAAAACCTTTTTGCAAATCGCTTTGTTGAACATTAATAGAAAATCTATTTCATGCAACGTTTGATGGATCTGTGTCAATTTTTCATTGATAATCTTTTTGATTACCTTTACTTAATAATTCACTTCTAGCCTCAAATTGTTTATTGTTATTTACTGCAATTAATGATAAATTATCGCTAAATTTATCTCGGATTCTTTGTAAAGGCAAATATATTTTATGCACATTATCATAATATAACTCACTAACGCTATAAGATTCTCATAATTTATAATCACCACCATCATAAGCAGCTATTCTATAATCATCAGTTCCTTTATTTGTTCCAAAAACTTTATGATATGACTCAACACCATCTATCATGTTATTTAACACAGACTTAAATTCACTTGAATTTTTATCAACGACACTTAAATCTGTATTATCATTATTTCTATTTAAAACATAACCAACTCCAACAACAATATCATTTAAATCTGTTTCAAAATCATTGATTTCTAATTTCAAACCTTTAATTTTTACAAACTTTAAATTTACTGTTTTTTTAAGAGTTTTTATAACTTCATCTTTATTTTCATAATTAGAATCATCACTAAGTTCTGTGTTACTATCTATAATACTATTTAAGTAATTTTTATATCATTCATTTCAGTTTTCACTTAAGTAACTTTTTAAATACTCATTTTCTTCTTGCTTTGCATTTTCGTTATATTTAGTTTTAAAAATATAATCATATAAGTTTTGATTTGATTTATAAATATTTTCATCTTCTTTATTTGTTCAATTTACTTTTTTTTCTTTTCAAGCCATTTTAGATTCTGTATTAGCATTAAATGAATGGTCTCAAAAATCTTTTATATTTGATCAATTTGTTTCAATTTCGTAATTAGTTGTATTAATTTTAACTCCATAATTTTCTAAGTTTTCAGTTAATTTATTTTGAATATTACCTTTTATGCTGTTTGAATTTTCATTAAATTTTTTTATCATAGACTCGTAATCATTAGTAAAATCGTTATTACCGTCTATTAAAGATGATTTATCTTGCAAAAAATCAAACTTTAACTTTGATTTTTTGCTTTGTATAAATTCATACAAAGCTGTATTATCTGTTATTGAATACTTAAAATTTATAGGGTTAGAGTATTCAAAAGTTGTTAAAGTTCCATCTTTTGAATTACAATTTAAATTGATTTTTAATCATGAATTTGCATATGCAAAAAATGATTCATTACCTTCTCTTTGTTGTACATCATTATTAGAACTATTAAAATTACCTTTATAGTACTGTACAAATGCTTCTTCCGGATCATTTTCAAAAAACTCTCTATTTATATTGATTAAACTATCTTCATTCAAGGATTTAAATAAAATATCATACTCACTTTTTTTAGTTAAATCAATTACCTTTTTTTTAAGATCTGAAAAGTTTAATAAAGATTGAATATCGTTAAAATATTTAGTTTTATTTTGTGGTCCGTCGGTCTTTTCAAAAACAGTTTTTAATTTATACTGATTATTATTATTTTGTAAACCTTTTATTGCAGATTCAAGACTATTAGAGTTTAAAAACTCATGCTCCTGATTTGATTCACTTGACGATGCAGATTGAAATCATTTTTTTGAAACCTCTTCAACATGACTAGCTATAATATCGTTAACTTCAAACTTATATTTACTTAAAACTTCTTCATAACTATCTGCTATTGGACCATCTTCTGATTGATCACTATCTTGTTGTGTTGATTTAGGTTTACAAGCTATAATTGAAGTTGATGCACTTATACCCAAAGTAATTGTACATAAAATACTCATTAATTTTTTCATTTCTATCTCCTTTTAAAAATATTAGTTTTCTTTTTTAACTATTTTTTCAATATAACTTTTATGCAACAAAACATTTTCAACAGTGTAACTACCATACACTTTGTCTGTTCTAAAACTTAAATTTAAAAAATCTAATTTATATATAAAATCCATATATAAAGTATTTCCAGACGCAGAACCTCCTGTTTGATTAAATATTATTCCAGGTGTATCTTGATTTCATAATTGATTAAACGGATCATTTGATAGACTTTGCTTTAAACTAAAACCTAAAGGTTTACTTGAATCTCTATTTAAATCAAAACCAATTTCAAAGTTTTTTTGATTACCTGAAGTTAACAAATCATTTCTCGCCAATACTTGATTGGCAATATTTTCTTTTAATGAAAGGATGCTGTTATAAAACGGAGAATATATATAGAATACTCAATTCATATTTGCAAGTTTTGTATTTTCAAAGGTGTTTCAGATATCATATTTTCCACCATCAAAAGCAAATAATCTATAATCTTCATATCCATCTTTGTCAATTTTTGTTGGAGTACCAATACCGTAAATATCTTTAAAAGATTTTATTCCTTTTTCCACATTTGTTAAGACAGCATTAAAAATAGTTGCTTTTTCTAAAGCTTCATTGTTTGTTGTTAATTCTAATATATTTTCATTTTTATTAACACTAAAACCAGAATAAATTTTTAAGTTAGCTATATCATTTTCATAATCACCAATTTTTACTTTTAAACCAGTTATATCCAATAATTTTATATTTATAGTGGATTGAATAGCCTTTAAAATGTCTTCTGCCGACTTATTCCCTTCTCTTCCCTCAGAAAATACTTTATCTACATTAAAATCATCTTTAATTAGATTGTAATATTTACTATACATATCTTTAAAATTGTTTATAAAGTGATTTTTTAAGGCAATTTCATAACCATTTTCATCTTTTTTTGCAGATACATCTTTTAAGATGTAATCATATAAATCTTGGTTACTTAAAATCGATTCATCTTTTCAAGCATTTACATCTCTTTCAGTTTTTCAAGCGTATTTAGTTTCATCAACATTTTTATCTAAAGCATAATTCCATATTTCTTTTATATCTTTACCAAAATTATTAATAATAGATTCATTTTTATCGTCAAACACAAAGCTTGTATTCACATCTGTTTGAGCGTTATTTTTAAAAGTATTTAAAATTTTATTTTTTAAATTATCATTATTAAATTTTTCATTAAAAGTTTTTTCTATATTTGCAAAATCATTAATAATTTTGTCTTTATCTTCAATTGAACTTTCAATTATACTAGATGTATTCGCATCTGTTTCTGCTAGTAAATCATATTTTAAAGTCTTTAAAGATTTGTTGATAGCATCATATAAATTGATATTTTTTGTTATTGAATAATCAAAACTAAATTTATTTTCAAAATTTTCTATTTTAGTTCCGCTTTTATCTAAATAATTAAATTGTAAATAAATCTTAGAGTGAACATCAACGTTATTAAAATCGCTATCATGCTTTAAAAAAGCTTTAAAATCACTTACATCTGTTTCATCAGTTTTTTCCATATTTATTGTAACTAATTGGTCTTCACTTATATTTTTTATTAACAAGTCATATTTTCCGGTGCTTTTCAAAAGATTTAAACTATACTTAATTGAGTCAAATCCAATATATGGTTTTACATCTTCATAATAATAATTTTTTGCTTCATTATTTTTAAAAATATCACTTAATAATACGTTTGAATTGGCTTGCGAATCTTTAGGTATATAATTTTTTATTTTATCTAAATTTAAAAATTTATTATTATATGTGCTTTCTTCTTTAGCGTATCAATTTATACTAGATTCACTTAATTTTTTAGCTACTATATCATTAACTACGGATTTATAATCGTTTAATAAAGTTTCATAAGTATTTTCTTCTGCATTTTCATCATCAATATTTTCTCCTGTTTTTTTTGCTTTACATGCTATCTCATAAGAACTCGCTGAAATAGATAAACATAAAGAACTTAATAATATTAATAATTTTTTCATAACATCTCCCCTTAGATTTATTTTATACCAAAATATAAAACTTATAATATAAATATTAAATATTTATATAAAAGTTTAAATTTCTTTCTTCTTATTTAAAAAGAAATTGTTTTTATATAATTCAATATATAATTAGAGATTTTTTAAAATTTTTAAACTATTATTATTTTTAATCAATCTCTGTATTTTACAAAACTTTTATTTCATACAATTATTCAAACATTTAGCAGTGTCAATATGTTTAAATATTTTTCTTAACATTGATTGCATAATTTTATATTTTTAAGTGCATAGCTGTTTATTTATTTTTTTTAAAATATAGCAAACATGATATTCTACCATTGATCATAATTTTATATGTAAATCATAAAGGATAGTCGATATTAATAGATTAAAATTATAGCTTATTTATAATTTTTGAGTTATTAAAAAAACCTTAAATTTAACTCCATCAATACCTACAAAATTAACTACTTTACAAAATATTTTACCTAAATCTTTCTAATTTAATTATTATTTTTTTATTTACTTAAAACAGACCTTTTTAGGTACTTTACTGGGGTTTTTAAAATTTTAGTTTTACATTCTTATTTTTCTAATTATTTTTTTTAAATACTTTGTACTTTTATTTTTGAAAACTTTTTATTAATTAAATATCTCTTTTGTAATTTGAAATTACAAAACTAAGCTTATATTTAAATTCTAAACTTTTTTTATACAAAAATATTAAAGATTCTAAATTATTTTTTTATATTTTATTTTACTTTATATTTTATTTATTTAGTAGTGAGCAATATTTTTAATTTTTGCTCACATTATCAATTTTAATTACAAATTTTATTTTTACTAAAAACACAATAAACTTTTTATTTTTATCTTAAGTCCTTATTAATTGGATAAGTGCTATAATATTTTGTGCATTTTATTTGCCAATGTAGCCAATGGTCATATTTATTTATGATGAACCTTTATTTTTTGTATATTTTTTAGGCGCACTTCCCGTTTTAATATAAAAGACCCGTTGCAAAACTTGTAGACTTTGAACTCATTAATTAAAATTATTATTAAAAAGATATTTTCTCCATACGAATTATGTATATAGTTTTTTAAGTTCTTAACTATGTGTAACATAATTATAAAAACACATTATAAGCTAAAATCACTGTATAGATATTTAAATAATTTAGTTATCTTATTTTATAATTATAAAAACATTCATTTTTTATAGTTTTAAAAAAAGTCTTATTCTCGATTATCAGGAGAATTACCTCTTCTTAATATTTGCTTTTGTTTGGATTCTTTTCCCTCATTCAAGAGCGCCTTCACCTTTATTTTTAATTTCTACTTTTCATCTTTTGACTGTACTTTTTTTAACATCATATTTCAATGCAACATCTTTCGACCAACTTTTTTTAGATAATTTAATAATTTTAATTTTTCTTTTTTTTATCATTGTTTTTTATATAAAAAGAACACCTCTCAATAAAATTTTAACAATAAAAGTAATTTTTACTATCAATTTTATTTTAGATGTTCACTTAGTTTTGTTTTTCTTAATATAAAATTTATTAACTTATGTCAATTTTTCTAAATCTATTCATTGCAATAAATATTAAAACTATTGTTGATGAAAAAATAATCAATAATGAATATAGTGGATCAAAATATTTATTATAAGTATCTTTAATAATAACATTAGAGTCATCTGATTTAAGATTATAAATAACATATGGCAGGAAAATGTTTTCTTGTTTTCTTGTATTTATAAGAGAATCATTGGAATATTCAAATCAAATATTATCATTATAAAACCCAGTATATTGAGTAAAATAACTTCATGTTGCATAAAATGGATTTAAATACGAAATTGCTTCTGCTATTTTTAGGTTTTTTTTGAATTGCACATAATTACTATCTTCTCGTAAATTTAATGTTGTTAAGTAGTAATAATTAGTAGTGTAAGGAATGAAATATTCCTCTAATATTCTAGCAGTAAACATTAATGGAAAGTTCATATTTGTATTTATATATTCTTTCAAAGAATTTGTATCATCATCAAATAAACCTACACTTGGATTTGTTGCATCCGGTCTAGAACCTGTCATTAATATATTATAAATAGAAATTAGATCAGATTTTGCCAACACAACACTTTCTTTGTTTTCTTGTTTTAAAACATAATTTGTTTGTTCAATTGAATTGTAACTTACATTTACGCTTCCTTTGAAATTTTCAGATTCACTCTTAGCTTTAATAGAACAATTAGTTTTTGTTTGTGTTTGTTGATTATCTATCTCAACATCATTTTCTGTTATATTCAAACCTGTATTAGCTTTATTTAGCGAATTAATTATTTGCTTAAGATTTGGTAAATCTTGATTTATTTCTAATTTAATATCACTTAAATTTTTTTGAGGCAAATTATTTAAATCAAACTTGTCATCTTCTCCCTTAACAAATTTTTCCACTTTTGGAGAGTTAAGTTCTTCTCCATATAATCAAATATAAGTTTTAAATAAACTAGATTTATCGCTTAACATGTTAGGTATTTTTGTTCAAATTTCTTGATTAAAGTTTAATAAATCATTTAAAATATTTTTTTGCTCAATTGAAGTTTCTTCAGAAGCTATCATTTCTTGTAATTGTTGTGTTGTTTTGAAAGTGCTCCCCAAAGAAAAGTTAACATCAACTTGATCTGTTATTTTTCAATTACCAGTTTTTGATGAAATCATATCACTGTTTAAATAACTTAACTTGCCGCTCATTTTGTAATCTTTTTTTGTTTTATCAATTACATTTAATTGTTGATCTCAAAAATTGTTATATCTGTTTTTTAAATTTGATGCTAAATCTTTATTTGGTTTAAGATTATAATCATTTGGGTTTTCTGATGAGAAATCAGTTAAATAATTATTTAAAGCTTTTGCTAAATATTTATACTTAATTTTTCCAGTATTTATAGAATTTTGTAAATTAAAACTTTCATAAATATCTTTTACTGAAATTACAGTTTTTATTGCACTACTATCTTTTTCGTTAATAGTTAAATTTAATGCTTCATATTTAGATTGAACTAGTTTGGCAGGTATATTCGCAACAAATGATAAAGACATTAAAATTGTAGAAATTATTAAAGTTGGTTGTGAACCTAAAATTAAAATTAAAAAAATAATAAAATTTAAAAGTGCTATTACAATAATTAAAGCAAAAATTAAAAAGTAGGTTGTTTTGTGAAAAACATATTCACTTACTTTAAAGCCGTGCATAAAAAAATATAATGCATTGAAAATTATATAAGAGAAAATAACAGAAAATACAATAGTTATGAACATTGTTAAATATTCTGCAATAAAAAACTTACTTCTAGAAATATGATTGGATAATGCTATGAAAATTGTTTTATCATCTTTTTTTCTCACAAAATAAAAGTTAATAATTCTTATAATAATTAAAAACATAAAAACATTTATAAAAATAATTACATAAAAATCATAAACTTCATTCATCATTTCTCCAGATTTCATAAAAGAAAAAATAACAGCTACTAAAATACTAAACAAATTTGCTATAAAAATAAATATTAAAAAAGTTTTTTCGAAAAATAATATTTTAAAAGAAAACCTTATTAAAGATAATAAAGATATATTTTTAACATTAGAACTAATTTTTTTTAATTTTTCTTCCATAATTCCACCTTCTAATAATTTTGAAAACTTTAAATCTAGTAAAAAGTTTTTTCATATTTTATGAAAATTTGTCTATAAATGATTTTACTTTTTTTGTATTTATATTTCAGTCTTCAATATTATCTTCGCCATCTTGAAAGACAAGTTCTTTTTCAACTTCAATAGGTTCATCATAAATAGTTTCATCATCGTACTCATATTTATTTACTATACTTTTATCAATAATTACTACTTTATCATTATCACTTTCTTTATTTAATTCAAGGTTGTCGTTTATTTCACTTTCCTCATTTTGAATATTATTCAAAGATTTTGTGCTATTTTCCTGATTTGTAAGTGTTGTTTTTTGACTTTCTTTAATTAAATTATTTTCGTTTTTGTTTTCATTAGCATTTATATTAAAAGATATATTATCATTTATATTGTTATTTGTTTTATATTTTTGATCGTTATTTACTAAATCGCTTTTATTAATAAAATCAGCTGAATTATCTTTTTGATTTTGTTGAGTATTTGGTTTGAAAACTTCTTTATTGAAACTATTCATATATGGATAATTACCTTGATATTGCAAACTACTATTTTGAGAAAATATATCAGGTTCCATTAAATTCTGAGGCAAACCATTCATCTGATTCATATTATTGTATAACGAGTTATTTATTAAAGGTGCTTGTTGCCCAAAAAATGAGTTTTGGTAATATGGATTAAAGTATGGATTCGTCATAGGTAGCATACCTCTATTCAATTGTTGACATACCATAAAAGCACTTTGATAATTATTATAAACCCCACAAAAAAACCTATTTTGGTCTAAAATATAGTAAATATTATCTTTTAAGCATAGAATGTAGTACATAAATAACCTCCTTTTTCATTTTATTTATTTTACGATTTTAACTTTTTTTCTTTCTTCTTTTTTAATTTTGTTTCAAATGAATTATTTTCTTGTATTTCAAATGAATTATTTTCTTGTGTTTCTTGATTAATATTATTTTTTGACTTTTTTTTCTTCATCTTTTTTTTCTCAGTTAATTTATTTTCGCTAGGCTCTTCATTATTATTTAAGTCTTCTAAATTTTGTTTTTCTTTTGTTTTTTTTCCTCCGTCAATAGCTTTATAAATTGACTCCATATTTATTGGTAATCTAACTAAATTTAAAACTGGGGTTTCTTCTTTTAATAAAAACAAGAAAATTCAGTTAATTTCTTTTGTTGATTTAGTACCAAATACTACTGAATTTTCTTTTTCATCATATTTAAAAACACTAATGTTTTTTTTAATTAAAAACTCTTTAAAACCATTATAATTAAAACTTCCGTAAAAATATATTTTATATTTAGAGTACATATTTAATTGTTCTTTTGATCCGTTAAAAACTTGTTTTCCATCTTCTAAAATTATATAATCATCTATCAAATCGTTAATTTCGTCAATATTATGAGATGTTATTAAGATAGTTTTATTATTATTTTTATAGTCAACTAATAAATTTCTCATTTTATTCCTTCATGAAGAATCTAAATTTGCTCCAGGTTCATCCAAAACTAATATATCAGCATCTTTGATTGCGCAAATGATTAAACTTAATCTATTTTGCATTCCTCAAGAAAAATTTTTGATTTTCTTTTTAGCGTCTTTTTTTAAATCAAAAAAATCTAGTCAGAAATCGATTTTTTCATTAACTACTTTTTTATCAACACCAAGAACAATACACATATTTTGTAAGTATGTAACTACATTCATTTCATAAAGCGAAAAATCCATTTGTGTATAAAAACTTACATTTTTATTTGCTAAATGCGAATTCCTTTTCTTTTTTGAATAACCGCAAATATTTACATCTCCTGAAAAATTTGTAATTGCTCCAATCATTGTTTTAATTGCTACAGATTTACCGCTACCACTAGCACCTAAAATAGCTGTTATTTTTCCTTTTTTAATTTGAAAATTCAGTGGGCCTATTGCATTTTTTTTAAATTTCTTTATATAATTTTTAAACTCCATTACATAGTTTTCCAAAACTTTCACCCCAATATTATTTATTATACAATAAAAATGGACTTTTAACAACCTTATAATGTAACCAATCTATAAAACTTTATTTTTAAAATTTAGTTTAATTAATAATAATATATTACATAAATATAGTAAATAAATATAAATTTAATATGTTGTTTTTATAGATTATATTTAATTTTTATAAAGAGTTTCTAAATAATTAAAGTATAATGAAAATAAAATTTTTTATAAAAATATGTTACATATTTCTTAAATTATAAATACCAATTTAAAAATATAAACAATCCAGTAGGATAGAAGATTTTGTATATAATATTATTTATTTTTTTAATTTAAGAGTTCAAATGTTAAAGATAGATTGAGCCTAAATTTTTTCAACTATTCCAAATAAAGAAAAAGAGATGTTTACTAATTAAACAATTTAATTATAAAAAATCATTTATTAAGAAATTAAATTAATAAAAAAAAAAAAAAATGATTCACATATTTAAGGTCAACCCAAACTATATATATTTTAATAAATTACTTTTAAAAAATTCTTTGGAAGTATTTTATAAAAATTTTTATTAGTCTATTATTAGAATAATTTTATATATAACCTTTAATATAATTTATAAAACTTTTATTGTCTTCAAATTTATAACTTACATAATAATTTTGTTTTATACTTTTAAAAATTTTTCTACTATCGAGTTTGTCAAGAAGCATATTTTTCTATCACGCTTTAAATAATATTGAGATTGTTGGTAAATTTTTTTTATAATTAAGCTCTAAATTGTGATCATCTATCAATAAAGAAAATACTATTTTTTTAAATCATATTTATTAACCAGAACTTCATACTGTTAATAAGTTATTCATTTGTTTTATTGTTTGCCAAATATGTTAAAAATATAGTTTAGAATATTTATCTATAAGCAAATAAGTATTTTTACTTTAAACTCTTATATATCCAAACATATTTTTTTAATGATTTATTTACATAAATTTCATTTTATTTTTTCTTTGTTTTTTTATGAATTAGGAGATGTATATATCGGATCTTTGTTTTTTTATTATAAGGTTTTCATTTTCTTCTTTTTTCACCATTTTGATAACTAAATCTTATGCTTCGATAGAACTCAAAATAGTGTTTCAGCATAAAACAAATTTTAGTGCAATTTTTTATGTCCTCATTTTGATATCTTCCATATTTTAGATCTTTATTATAAGAACTTATCTTATAAATAAATCATAACATGTGTCTATTTTGGTTACATATTCTTTTGAACCATTTGCCAATCATATTTTATAAGTTTTAGGATTAATGTTTAAAAGATTAATTAGTCATGATATTGCTATATATTTTTGATTGTAATTTTTTGCTATTTTATAAAATTCAATATTTACTTTTTGTTTTTGCATTCCTTAACTAGAGATAATGTATAATTTTTTATAACTTCGACTTTACTTGTTAGTTTTTATTCTCTTTTCTTTATATTAAGTTTTTCTTCTTAAACGTTCCAACACTTGCTTCTATTTTCCAAACTAAATTGTTGACATATTTTCTACTTCTACCTCTTTGTGCATAAATTAACTCAACATCCCTTTTTGTTCATAACTATTTTTCAAAACATAAATAGTTGATGTTTGTTTATTGTTTTATTTTAATGCAATATTCTTGCGATAATATCTGTAGTTGTAAATTCATCTATTATTTTCTTTTTTTCTTCAGCGCTAAATAACTTTGTTTTTGCAATAAAAAAATCACTCTACTACAAAAATTATATACATAATTTTATATTGTTTGTTGTGACCTTTTAATGAATTAAGGTTTTTTAGAACTATTTATTATTTAATATATTTTTTAATTTATTATTTGTTTTTTTATAGCTATTAAATATTTAACATCGGACTATCACTACAGAAGATAAATTTACACTAATTGAGAACTTTTTCCAATTCATTTTTATAACACCTATATTTAATTTCTTAATAATTTTTTATATATAACACTTTTATATTTATTTGTAAAAATATTGCTAAAAATATTATGCTTGACTAGTTTAATTATTGTCAATTTCGCCTATATTTTTTACCTATTCTTAATATTAACTTTATATTGATCTTCTTTTTGTTTATATAATATTGCATTTTTGTTAATAGTCTAGTTTTTAACTCTTTAAAAAAAAAATTACACCTATTATAGTGTAAAATTTTTTTTAAATTATTTATCCAATTATTTATTATATTTCTCTTTATTTTCTTTTTGTCTTAAACTTCCATTCGAACAACATGGACATTTCTTTTGTAGACATATTTGGCAACTAATGCATTTCAAACAACTTTGGCATCCATGAAAAGAACCAGAACAAACTCTACAACTATAGCAATTGTGCGCTCCACCCGGACAGCAAATATCTTTATTTTCTTCTATTTTTTTAGATAAAGGCATATTACTTCTCCTTTTATAGTGTTAATAAAATTATACCAAAAATTTTTTAATCAACCAAGTATGTAAGGGGTTGTTTTTTTATTTGGCGCATTGCTGCTAATCAACCTATAAACATTATTCCGCCAACCGCAACAAAGGAGACTAAAGGGATATAATATAATATCGGCATAGCTATTAAAACCTGCAACTTAATTCATATCACATACTTAATAACTAATCAAACAACTCATGACATTGCATAAGCCCCTAAAAATGCTACTAAAGCTCCAGTTAGGTACCTGCCCATAACCATTCAATTGACTTGTCTATCTTTATATCCCATTGACCGCATTATTGTTATTATGTTTATAGCATCAGTAACAACTATATTCATTATTACTATTAATAAAATAACCAATAAAAATATATCTATTAAAATATACATTAACATTGTATTTGACATTTCTTGCATTATTGCATTTATAGCGGATTTTAAAATCGGAATTACAACTAAGGTTAAATCTGTAGAACTAGCATTCAATGCATATACCATTTTTGGGTCTGCATCTTTAGTATAATTTTGAACTATTTTTAAAATATCTTTTATACTGTCGCTAATTGGGACATTTGCATATTTTAATAATTCGTCTAAGTTTTTATAATATATATCTAATGAAGGACCTAATCATTCTTTTGCACCTTTTCCAAAAGATGTAAGTACAGTTGTTGTTGTTAATTTATTTGCGATATTTAACTGAGAACTTTGTAAATTTTTTATATCAAAATTTCCTTCTAAACTTGGATTTATACTATATTTTTGATTAAAAAATAATTCATCTTTTGGTAAAAATTTATCTCCTAATTTATCCATTAATACATTATAATCTATCAAAATTTTTTGAGACATATTGTCAGCTTTAAGAACTCCTGCAATTTTTGCATCAATTACCATTTCTCCATTTCTTCCAACTTGTAGTTTAAAGTTTTGATTTACACTAAGTTTTAAAATTCTTGCAATTCTTTGAGATACAAAAACATTTACATAATCATTAGAAGAGTCTTTTATTTCTTCTATTTGGTTTTCTTTAATACCTGATAAATTCAATATTGTTTTTGGGTTTCCATATTTATTCGAAAAATCTATGGCAACAATATTTGTATTATCAATATCAATATCATGATAATCAGTAGCAAATCCGGAAATTATTAAAGCTAATAAATCAGTATTTGAATTATATAAAATCCCATTAGATGCTATAAATTGATCATTTGTCCCATCGGTTGCATTAAAATTTTTTGTTGCAAACTCAAATAATCAAGTTTTTAAAATATTGCTCATAAATTTATCAACATTTGATACTTCTGATTGTTCGTTATTATTTTCGTTTATATTATTTCAAATGTTTTCATTTTCATTATTTTCTATAAAATTTCCACTTCCACCTAAGTAGTTTTTATAAATATTTTGTCTATATGCTTCAACATTATTACAATCTTCATATTCTGTTTCACTTGAAACGCAAATGTATTTTGCGACATCACTTAACTTAATTGCGTTTGTAACTTTAGTTTTAGTTTGTTCATAATTTTTTACATTATATAAATTATCTTGGGCAATTCAATTTTTCAGTTTGGTTTTCAAATCTGCTTGAGAATTTGGATTATTTATATTAATAAGATCATTTAAAACTTCTAAAATATTATTATCTAAATTATCAATTTCTGAAAAAGGATATATCAAAGAAAATGTATTAAATACTAATGGCATCATCTTTTTGTATTCATCAGGAATTTTATATGTATTGTTGGTTAATATGAATTTTCTTATATCTGAAATTTTTGTAAATAAATCAGAAATTTCTTGATATTTGTTAAAGTCTTTCAATCCCTGAGATTTTGTATAATTATTTACATCTCCATATTGAGCATAATCTATATAATTAATTGTTGGAGTTTTAGAACTTGGATCAATTCTTATTTTATCTCGATAACTTAATCTTGATTGTCTTCAATAATTATAATAGTGATTTGTTTTATCTGTGAAGATATTAAATGCCCCATTAATCATATTATTAATAATCGGCAGAGCTCTCATTTGTAAAGTAAATAAGAATGAACTAAATCCAATTAATATCATAATTAATATAAATTTTCCTTTACCAAAATTAATAAACGTTTCTTGCATTCTATATGTAAATCCAATACCTTTTTTCTTTAATCATTTTAAAACCAGTTTATTAATTCCTACATAAATTAAAGTAATTGGAATGAAAATATATATAAACAACAATAATAATTTATATTTTTTTTGTTTTGGTCCACTATTCATTAAATCAAGCGCACCTTCATTTAAATAACGATAAATCACTAAATACGAAACTATAGAAAATATAAAAGGTATGCCTATAATTAACACAACTAAGAATCACGGATTAGTATAAACTTGTTGATAGTCAAAAATAACAATATTTTGATAAACTTCTGTTGCTGCTTTAATTTGAAATGGTATTGATAAAAAATAACCTATAGTTATTGCTACAAACATCGTTATAAAAGTCTTAACTGCAAAAACCCAAGTAAGATCTTTTGTTTTGTAACCTAATGATTTAAACACACCAAGTTGTTTTCTAGTAGCGTTAATTTCTTTTTTAAGAACAAATGTAATAAAGAAGAAAGCTAACACAAACAAAATTCCACCAATTACACTGAAAATATAAGTCATTATTGTTAAATTTGTCAAATTATCAATTTGATTAAACTTACTCATATTTTTAAATACAGTAGTTCCGGCATTTATCATTCCTGTAAATCCTTTTGTAGCATCAGATACGAAATATGAATTTATATCGTATTTACTATTTTTAATCATTCTATCTTGATCCATAGTTGAATTACTTGGAAGATTATAGTTTTCTCCTAAGAAATTATTTGCATATAATATGTCACTATCAAAAAATGATTTATCGACATAAATTTGACAATAGTTTTTTGACGAGTCTAAAATATTACTATTATCCGGAGTTAAAGCTGAATATTTATTGGCAATACCAATTATTTTAAAATTAAAAATAGCATTTTTATTTCCTCTTATAGGAAAATTTAGATAAAACATATCTCCTAATTTTAAATCATTTTGTATTAAAAATTCATCATTAACAAAGGCTTCAATTTCATTTGTATCTTTTGTAACTTTTTGTAAATCTTTTTTTAATGCTTTATCAATAACTAGATTATTTAAGTTAGCATCAATTTGGCTCGACAACCTTGAATTGTAACCTTGTATCTGATATGAAAAATTGGTTCCATCTTTGTTATATTTTGTAAATAACTTTTGAAACATATTAAATCTAAAATCTGATTCTTTTGAAGAAATAAACGCTAATACTTTATTGGCAATATAACCTTGAACATTTCTTGATGCATTATATTCTTCTAACTCTTGATGAATTTCTGGTCTAAAAATATCTTTGAAAGCAATAGATAATACTCCTTCATCATCTAACTCATATAGTTTATTTTCTTCTCTTCTTTGTGTTTCACCATTTTGTTCTTCTGCTTTATTTGGATCAACTTGAATTTGATACTCATAATTCATACCAGATCTTGTAGAGTAATAAGCATATTCACTAATTATTTGTGATTCAAATTCGAGAACTAAATCTTTTTTCTCATCATCTGTAAATGGGTTTTCAGATTTACTTTCAGTAAATCTTATTCAATTGTCTGTATAATCTTGAATTGTCTGGTGTGCTTTTTTTGTGAACCATCCATTTTCATCAATTTTTGAATAATCTTCAGTTATTTCTATGTCTTTATCTTCGTATTTTATTTTATAGGATTCACCTTTATATAAAACTTTATCCAAAAAATTTGCATTATAGTTAAATTTATTTTGCATTTGAGAATCTCAAGTGTTAGTAGCATTTTTGACTCCGTTAGCTTTTAAAGAAAGTTGTAAGGGTATCGCTAACATACCCATAACAATCATTGTAAAAACCGCTAAAAATAAAACTGTTCCTAAAGTTTCTACTCAGGTTTTTGTAAATAACTTTAGGTATGATTTAAATATGTTTTTCACAGTTTCACCTATTCCCTAAATTATTATAACTAAAAGCAATAAAATCTAGAATATCAATTTAAAAAATATTTTTTATTATAGTTTATAATTATAAAAAATAAGGGGATTTTAAAATGGAAATATTTGAAGTTGTTTTATTGGTTATAAATTTGTTTTTTTTAGTAGATATTAGAGATATTTTTAATAACGATGAAAAGAAAATAAACAAAAGATATTTTAATCAATACTTAAAAACTGGTTTTTTATATATATTTATTATTATCATTACTTTAACGGCTGCATTATTACTACAGCTTAGTTTTGAAAAAAAATATTCGTATTGTGCAGATATTCCTGGTTATATATGTGCAACTTTTGGTTTTATCATTTATCTAGAACAAATTGCTTTTTCAATTGGATGTACATATTTATATAAAAAAATTAGAAAAGATAGTAAGTCAAAAGCACTAAGAACTTTTTATATAATGTTTATAGTTTTAACACCTGTTCTAGGATATTTTTTGAATATTATTTTTTATTCTACAATGAAAAATAAGGCTGAACTAGAAGGTTATACCTATCAAAGTTGATTGAAAAATAAAAAATCAAGAATAAATCAAAAAAAGTTTGGTTTTGAATCAGCAAATCAAGAAAAATTATAAATATAAAAAATTTTTTAAGTAATTTGATAAAAAAATATGTAATTTGTAGCGATATTTTATTTTAAATATATTAATAACTTTAACAACAATATTTAGTAAGGTTACTTCATATGTACATGCTTATGTGAAATTTACAAACTTGTTTCATGCTAATTTCGCCTAGATCTAATTTTCAGTTTTATCAAGAAATTTTAATTTTATATTACAACCAACAATGATCATAGATTTAAAAAAACTACGGATATATCTAATTAATCAATTAGTTTTTTAATATTTTCTCATTTTCATTTAATTTATTACCTATTTTATATTATTTTTAATTAGTTTTAAATATGTTTAAAGCTAAATCAATTTTTGAGACTTCTTAATAAAATTGTATTTTAAATAAATATAATTTTTAATAATTTAGTTGTTTTTGTATTATAAATATTATATTATATTTTAGTCCGAGGTGAAAAATATGGCAAGAAAAGACAATTTAACAAATAGAGGTCCATTATCAGGTAGTTCTAGATCTCATGCTATGAACTCAAACAAGAGAAAATGAAACCTTAATTTGCAAAAAGTTAAAGTTATGGATGAAAATGGAAAAATATTAAGCGTAAAAGTTTCAGCCAGAACCTTAAGAACTTTGAAAAAACACAATCAATTAGCTAAATAAAATAAGTATTATTTCTTACATTTGTAAGAAATTTTTTTATTTTACAATAAAAAAGCACAAATTGAACTTGTCAATTAAAATTGACATTAAAAATGTGCTTTCTCCATACGAAATTCGTATGGAGTTTTTTTATGTTTCAACATAGGTCTAACATAATTATAAAAATCAATATAATCTGAAATTATTATATAAATATTTGAAAAGTTTAACTCTTTTATTTTATAAGTATAAATACATTCATTTTTTATTGTTCCAAAAAAAGATTCGCACGCTCCATTATCAGGAGAGTTACCTCTTCTTGACATGGATATACTTATCTTGTTTTAATCACATAAACTTTTTCAAGTTTCATTTGTATAAGGACTACCTTGATCAGAATTAATAATATTAGGAGTGCCTCTCTTTTTAATTGCAGAGATAAGGTTTGTATAACATAATTTACCATTAGGACTGTTAGATAATTTTCAATCAACAATTTCTGAATTTTATAAATCTTTTACAACAGATAAATATGCATTTCCTGATGCCGTCTTTATATAAGTAACATCTGTAACTCATTTTTAATTTAAACAATCTGCATTGAAGTTCCTTTTCAATAAGTTTTCATATCTCAAAGGACTAGATTTATCATATTTAGGTACTCTTTTTTTGCGAACAGCTTTTAAATTATTGATTTTCATATATCTATAAACTACTCATGGTTTTAAGTTTTGATTAAAATATTTGTTTAAAAGTAGAGTTATCATGTTGTAACCAAAACGTTCTTTAAATAAATAGAAAATAAATTTAATTTTTATAGCAAGAATTCGATTATAGTTTTTGTTTATAGGTTTTCCATTTTTTAGTCATTTTAAATAACCAAATCTTGAATCGCTTAAATATTTACAAACTAATGACAAAGTAAACTTTTTTGAATATTTAAAAATGGTGAAGTACTTTTCTTTAGTTGTCTTCGCCAAATGCTTTTTTAGAGCTCGCTCCAATTTTAAAGCTTATCTTAATTCTTCTGTTGTCATATCGTCAGGGTCTTCAAAAATTCAATCATGAGATTTAAATTTCTTAATATTTCCTTTTGTTTGGATTCCGTTCCCTCATTCAAGAGCGCCTTCACCTTTAGTTTTAATTTCTGATTTTCATCTTTTTACTGTACTTGTGCTAACATCATATTTTAATGCAGCATCTGTTATTCCAATTTTTTTAGAATCTTCAATAATATTAATTTTTTCGTTTTTTGATCATTGTTTTGCCATATAAAAAGAACATCTCTCAATAAAATTTTAACAATAAAAGTACTTTTTTACTGTCAATTTTATTTTAGATATTCAAAATGTGCTTCTTTTATTCAATTCCCATAATGAAAGAATATACTTCTTGTCCTGCATCAACAACTTCATATTCTACATCAAAATTTTCATCTAAAATTTTTCTTAGGTCACTAATATCTTTGAAAGATGCATCTGTTCCAGTAAATATTGTGATTATTTCTGTTTTGGTTGAGATATATTTTGATAAATACTTATTGAAAAGGTCAACAAGTTTATCTGTAGATGCTATTACTTTTTTATCAACAGACATCATATATTGTCCTTCTTTGACGAATATACCATCAATATTCGCATCTCTTGCAGCTTTATTAATTGTTACTGAAGTAACATTTTTTATTGCTTTAGAGACATTTGATTCGTTTTTTCTAGGTGTTTCTTCTGGATCTAAACTTAAATATCCGGTCATACCTTGTGGAATAGTTTTGGTGTCTAAAACAATAACTTTTGACATTTTTTCAACAGCCTTTGCTTGCTTAGCAGCTAAATAAACATTACTGTCATTTGGGAAAATATAAACTATTTCTGCATCTACTTCTTCAATTGCCTTTAAAAAATCGTTAGTAGAAGGATTCATTTTTGCTCCCCCATCGATCACATAGTCAATATTCAACTCTTCTTTGAAGTATTTTTGCATTCCTGCTGATCTTACAACAGCAATTGTTGCAAACTTTTTAGCTAAAGTTCTTTGTTTTTGCGCTGTAGCTTTTGCTCCACCTGGTAAATTATTTGCATCTTTTACTTGATGTTCGGCTTGAATATTCATATTTTCTACTTTAACTGTTTTAAATTCTCCATATTGTTGTAAATATGTTAAAACTTGTCCTGGTAATAATGCGTGTGTATGAATTTTTAAAATATTTTCATCAATAACAGCAACAATTGATGTGTTTCCATATTGTTCTAGTTGTGAACGAATTGGGTCCACTTTTAATTTATTTATTAAATCGTTATTTAAAATAACTATAGTTTCTGTACAATAACCAAACTCTTGTTCAATTTCTAAATCTATATTACCACCAGTATTTTCTTCTAATTTTTTTAATTTTTGTACTGGTTTAAAATTAACAGCATAGTGTTGTGCACCTTCTAAAAACTTAACAAAACCATATCCACCACTATCTACAACACCAACTTCTTTTAAGGCTGGTAATAAATTAGGTGTGTTTTCCAATGATTTATTTGCTACTTCTATAGTTTTTGCTCAAAAAGTTTTTACATCAATGTTCTCATCTTCTATTGAATTAATAAAATCACTTGTTTCTCGTACAACAGTTAACATTGTTCCTTCAACTGGTTTCATAACAGCAGCATACGCTACTTCTTTTGCCTTTGAAAAGGCTTGTTTTCAAGTATCTAAGGTTAAAGAATCATTATTCTTCATTGCGTTTGAAAATCCTTTAATGATTTGCGAGAAAATAACACCCGAGTTACCTCTTGCCCCCATTATTAATCCTCTTGCAAACTTTGTCATTAAAGCACCGATACTATCAAAGTTTTCTTTTTCTATTTCGGCTAACCCATTTGTGCAAGTTAAATTCATGTTTGTTCCTGTGTCACCATCTGGAACTGGAAAAACATTTAACTTATCAATGTGTGGATAATTATTATATAAATTATTCACACCACTAGTGATCATGCCTTTTAAAATTTCTACATCTTTCATAGTACTGTCACCCTCTAGTATTTATTTGTTTTTTTTATTGTAAAAAAATAATAAAAAAATTGCAAAACTATTTTTATTAGCTTGCCAGTTACATTTATGTTGTAGTTAAGCAATATGAATATCGTCAACTACAACATCTACAATATAATTTCGCATGAATTTACTTGCTTTTTCCAATTCATACTTTACACGCGTTTGGATTTCACTTAAAACATCTCTTATGCTAATTCCATTAATTAACACTACATGAATTTTTACTCTTTCAAATTCTAATGAAGAAGATAATTCAATTGCTCTTGTGATATCTTTTGTCAAAATTTCTTCTTCACTTTTTGCTTTACTATTTGCAAAAGAAATAACTCCTGGTACTGTTACAACTATGTCATTTATAACATCATATATTGATATATCTGCCATTCAACAATACCTCCAAATTTAAAAAAAGCGAAACACTTCAAACTGTACATATATATTCTATCATTATCTAAAAATAATAAAAGTAATATGTAATTTTTTTAGATTTTAAAAATATTATATAATTTTTAAAATAGTTGTATAATTATCAAGTATGCCCTCTTGGCGGAATTGGTAGACGCAGCAGACTCAAAATCTGCCGAGTAAAATCGTATCGGTTCGACTCCGATAGAGGGCACCAATTAAAAAACCAAAAAACCACATCTGTGGTTTTTTTATTTATTAAAAATAACTATGATAGCTTTATCTGTTTTGATTATTCCATCTTGATGATCTACAAAACAATTAGAATAAGCTCTTGTTGAGTAAGGTAATAACATCAAATCAGATACTTCATATTTTAAATTTTTTATTGTAATAGTTGTTTGGTGTACCGGAAAGAAAGTTATGTAAGTATAATCTTGATATTTATCAAACTCAATTATATTTTTACCCTTTTGCAAACAAAACATAATTGAATTTTCATTAAAAACTTTAACACGATCCTTTGAACAAAAATCAATTAAGCTAAAATTCATATCTAATCTTTTTGTTGGTTTTGCAATCATCAAAACTTCTGTAGCACCTAACTCATAAGCTTTTTGAATTGCTTCTTTTCCATCCAAGAAATCTTTTTCATTATTTAATTTTATAAATTCATTTGAGTTTTGCTTAATTAAATCTAACTCTTCATCAAACACATGATCGAAATCGCTTATCGCAAAATCAATTTTATAACCTTTAGAAATTATATCCAGACAACCTCTTTCTACTCCAATTAATCAAAAAGAATCATAATAATAACTTAAATTTAAGTCATTTTCACACGTTACAATTAAAAATTTAGTTTTCAAGTTTTCACACCCTTTGTTTAATTTTTTCAACCGATAGACCACCAACTAAATAACTTCCTGCAACAATCATTTCAGCTCCAGCTTCTTGAACTAATTTAAAAGTTTGTTCGTTTACTCCCCCGTCTACTTGAATTCTGAAATTTAATTTTTTTTCAAGTTTTAGATTTTTTAATGCTTTTATTTTTTCATATGTTTTTTCTATAAATTTTTGACCACCGAAACCTGGAAACACACTCATCACTAAAATATTATCTAAATCATTTAAATATTCATCTAAATAACTTAGTGAAGTATCTGGATTAACCGCCAGTGAAGCTGCAATGTTATTTTTTTTGCAAAAACTAATAAATTCTACTACTTGTTCTTTGTTTAAAGATTCAAAATGAAAAGTTAATTGTTTAATTTTATTATTAATAAAAGGTTTTAAATATTCTTCAACTGATATATTTAAAACCTGAACCATTAAATGAATATCAATTTTAAAATCATATTTAGAAGTAATATCACTTAATATCTTTGGTCCAAAAGTTAAATTTGGAACAAAATTATAATCCATAACATCATAGTGAATTCATTCTAAACCTGCTTCTTTTAAGTTATCTAACTCTTTTCCTAAGTTTAAAAAATTTGCAGTTAATATACTTGGAGCAACTATAAATCTTTTCATAAATTATCACCTCTTTTTTGGTTGTTGATTTAATTCGTTTTGCATTTTTAAATAATCATTATAAATAAATTCAGGAAAAATTCCTTCTTTAACAAACTTAGTAATTGCACAGCCTGGCGTTTCTTTCAAATGAAGACAATCTTTAAATTTACAATCATTTATATGATCTGAGAAAAATTTAAAACTATGTGCTAATTCACTTTTTTCAATTGATTTTAAATCAAACGAAGAAAAACCTGGCGTGTCTCCAATCAAACCATTTTTATACATAAATAATTCATTTTTAGTAGTTGTATGTTTTCCTCTATTTAAGGCTTTTGATATTTCTTGAGTTTTTTCTAACGCTTCTGGAAGGATATGATTTAAAGTTGTGGATTTCCCAGCGCCAGTTTGTCCAGTGAATACTGATACTTTATTTTCTAATGATTTAATAAATTTTTGTCATTCTTTATCTGTTTCAATTATATTATTTATTAAATAAATTTCATATCCTATTTTTTTATACTCATTTGCTAAAGCTCAAACATCACTATTTTTACTTAATAAATCCACTTTTGTAAATGCTAATACAGGTTTAATATTTACAAACTCAATAAAAGCAAGATATTTATTAAGAGTATATGAATTAAAATCGGGTTCTTTAACTGATGTTATTATTACAACTTGATCAACATTAGCAATTCTCGGTCTGTATAATTCGTTTTTTCTATCCACTATTTTTTCGATTGAACCTTTTAAATTTATTTCATCTAAAATTTCAAACATAACATAATCGCCTGTTATAGGACTTTGATTTTGGTGCCTAATTTTCCCTTTCGCTTTACACTCATATAAACTATTTTCATAAAATACATATGCGTATTCACTTAAAATTTTTAAAATAATTCCTTTGAGCATCACTAAATTAAAATGGCTGCCAATAAAATACTTAACAATGCAAAAAGTAAAAAAATAATAATTACAAAGTATTTAGTTGTGTTTATTAATGGTAATTTTTCATAAATAGTACCAATATTAATTCTTTTTGTTTTACTTTCATCACTTAATTTTGTTTTAATGTGATAATTATATGGTTTTGAGGAGTCTGTTAATTTAACTTTTTGAATTTCATTATAAACTTCTCTTGCTGACTTATAACGGTTTTCTGGGTCTTTTTCAATCATTTTTAAAATTATGTTTTCTAGACTTTGAGGAATAGTTGGGTTTATTAACCTTGGAGGAATTGGTTTATTTTTAACTTGTTTTCTTGCAATTTGATGTGCATCTTTTCCTGGAAACGCCGGAGATCCAGTTGCACACTCATAAAGCATTAATCCAAGAGAATAAATATCACTTTCAGGAGTAGCCTTTTTTTTCATAATTACTTCTGGAGACATATATCTTGGAGTACCAATTGTCTTAGTTTCTTCTTTTGAAAATCCTTCCATAATTGATATACCAAAGTCGCCAAGTTTAACTTCACCAGCCTTCGTTAATAAAACATTATCTGGTTTTATATCTCTATGAATAATTTTATATTTATGCGCACCTTCTAAAGCAATACACAATTTACTAAAATAGTATTTAATTTCTTGCAATGTCATTGCACCAAAGAAATTAAATTTATCTTTTAAAGTTCCACCTTCAACACATTCTAAAACTATATACCATTCACCGGTTTGATCATTTTTGATAATATCAAAAAGCTTTACAACATTTGGATTATCTCCTAATTTTGCAAAAGCTTCTTTTTCTATTTCAAATCTTTCGTTCCCTATTTCAATTTCTTTTATTTTTGATGTATTAATAATTTTTATTGCTACAATTGTTGAAGTCAATAAATCGACTGCTTTTACAACTGATGCCATTCCCCCAGAACCAAGATTACTTATAACTTGATATCTATCGGCTAATACTTTTCCTTCAAAAAAATCGCTCATATTTATTTAACCCTTCTTAAAGTAATTATATCAACAAAAAAAGCAAAGTAAATTATTACTCTGCTTCAATAAGCAAAATTGATAAGTTGTCAGTAGAAACGTTATCTTTTGCATCTTCTATAATTTCTTGACCTTTATCTTTTAATTTAACTTTTTTATTAGATAAAATTGCTGCAACCATATCTTCATCAATATAATCGTGAACTCCATCTGTTGTTAAAATATATGTTCCTAATGGTGCTTCGATATAATAAGTATCTATTTTAAGAGTCTTTTGTGGTCCCAATGCACTAGTTAAAACTTTTCAAAATGTAATATCATTTGCTCTTTCATATAATCCAGACATTTGAATATCTTTTCTTTCTGCTTCAGGAGTTGAATTTCATAAGTTTTGATCTTGTGTAATTTGAAATAACTTATTGTCAACCAATTTATAAGTTCTTGAATCCCCAATATTTATAACAAATCCACCAATTTCTGTAAATAGAATTGCTGTTAAAGTTGTCCCCATATCTTTTGTGGAAAAATCCTCATTTGAATATTCAATCATTTCATTTAAAATTTCACTTATACAATTTCTCAATCAGCGATTGATTGTTTTTTGATTTTCACCTTTAAAACTATGTTCTTTAAATAAGTCAATGAATTTTTCTACTGCCATTTTTGATGCGATTTCTCCATGAGCATGACCACCCATACCATCACAAACTATTCCAAAAGCAGCACCATCTTTATTAATAGCGAAATCCAAAAAATCTTGATTTGATTTTCTATAATTTCCAACTTCTGATAGTTTCGCAAAATTAAACTTCATCATTTTTGAATACCCCTTCTCTTTTTGCTCTTAATTGACCACAAGCAGCATCAATATCTGCACCAAATTCTTTTCTAACAATTGCATTGATTCCTTCTTTTTTTAAGATTTTAAAAAAAGTATCAATCTTTGTTGATTTTCTATATGGGTTTTCTTTTACTTCATTATATGGAATTAGATTCACATAAGCATTCATACCTCTAATTAATCTTGCCAATTCAACTGCATGTTCTTTTTTATCATTTACATCTTCTATTAAAATATATTCAAATGTTATTCTTCTATTAGTTGCTTCTATATAATAACTAACTGCATCTAGCAATTTTTCAATCGGATATGCTTTATTTATTGGCATCATTGAGCTTCTTACTTCATTATTTGAAGCATGTAATGAAATAGCTAAATTTATTTGTGTTTTCATATCTGCAAACTCAATTATTTTTGGAACAACACCACATGTTGAAATTGTAATGTGTCTTGCACCAATTTGAAAACCTTTTGTTTCATTGATTATCTCAATAAACTTCATAACATTTTCAAAATTATCCATTGGTTCTCCAATTCCCATTACAACAATATGGCTTACTCTAGACCTTGGATTAGATAGATCATCTTTAAATTTTTCTTTTAAAATTTGATTCATTGTAAAAATTTGTCTAACTATTTCATTTGTTTCTAAGTTTCTTTCTGTTTTTATTAAACCAGAAGCACAAAACTTACAAGCCATTTTACAACCAACTTGAGTTGTCACACATACTGATTGTCCATACTTTTGAGGCATTAAAACAGTTTCAATTGTTTTTTTATCATCTAATAAAAATAATATTTTTATAGTTCCATCTTTCGATTCTTCAACTACTAAACTTTTTAAAGGGTTTGCATTAAAATTACTCATTAAATAATCTCTTAAATCTTTTTTTAAATTTGACATATTATTAAAATCAGTTTCTAATTTTACATATATTCAGTCAAATATCTGTTGTGCTGCAAATTTATTAAAACCATTTGCTACTAAAATTTCTTGTAAATCTTGAATTGAATAATTAAAAATGCTTTTTGTTCCCATATAAATAACTCCATAACAAATTTTAACACATTTAACTATTAATTAGTTTTAGGTTTTAAGATTGCTTCTTATTTTCTTTTTTTGCTATTTTTAAGTAATAATAAACTTGACGAGATTATAATAACTAAACTAGCAATAATAATTGCAATACCATATTTTATAAAAAAACTTATTTTTGTTTTAGCAACATCTACTTGATCATCTATTGATTTATTATCACTGTTATTATCTTCCTTATTATCTGATTGGTTTTGTTGTTCATCATTGTTTTTTTTATTAATTTTTAAATTGTATGTTAAAACACGTCCTGCTCTTGTAAATAATTTCAACTCTTTTTGCTCTTTAACTTTATAATTAACAATTATTTTATTACCAAATCTTTCTCAATGTGCTGTTATAGTGTTTACATCTACGAAGTATTTATTCAAATCAATTTCAAATTCTTTTTCTATATTATAAAAATCGATTGGGTCATCATATTCTAATTTATCAAATGAAAATATATCAAAATAAGTTTTTTTATTTTTATACATAATTGTATAAGTTATTTTTTTTTCATTTACACAAGTATAAAATAATTTACCGTTACTATAAATTGCATCTTTATCATTAGATTCAACTTTTAATAAGTCCTTATTAACCTGCTCTAAATTAACTAATTTTATTTCAAGATTTTTTTTACCTTCTATAACATAAAAATTAGTATAGTAAAAATAATCAATTTCACTTTCTACACACTTAATATTTACTTCTATTTCTACTTTTTGTTTTTGCGATATAAACTTTACTTTATACTCACCCATTTTTTTAGCATAAACAAAAAATACTTTTTTTTCTACATAAACTTCCAAATCTTTATTTGTATTGTATACCGAAACACTGTCTTTGCTATTAATTCAACTAAATTCAAACATTTGTTTTTTACCTTGCTGAACTTCGAAATAAGTTTTATTCATTCTAAAACTATAATCTTCATGATGAATCATATGAACATTTACAATTGCAAAATCTTTTGCATTATATGCATCAAACACTAAACAAGTATTTATTTCAAAATCTAAAGTTACATAAAATTTATTATCAGATTCATTTTTAACCATTAACCCATCACTACTTTTAATATAAAAATTTTTAAGTTCATCCATATTTTCAACAACAACTAACTTCTCTTCACCAACATTCAAAGTTAAATCATATACGCTTAATTTGATATCTTTTTTAACTAGATTTTTGTATTCTTTATCATCTTCATTTACAATTTTTAAACTACTACTATTTTTTTTAACTTGAAATTTTTTATAAACAACTTGATCAAAAGTTTTTAGTTTTGCATTTTTATCACTTTGCTCACAATAAGCAGCTATAACAGAAGCTTTACTTATTTTATTTCCAGCATTATCTTCAATGGAGTAATAAAAAGTCATATGTTCTCATATTTCACGATTAGCAATTTGCTTAAATTTTATTTCTTCTGGACTATTTGGCATAAAAGATAATTTGAATGTACTTGCTACAAAATCATATCTACTTTCTATATAATATTTAAATCTTTCAATATAATTATCATAATTTCCTGTTATTGCAAAAAATCATGCATCAAATTTATCTTCAATATGATAAAGATAAGAAGTTTTAACTACTATTTTAGTTTTGAAATCCCTATAAAATACATTTAAAATTTGATCTACTTTATAATCTTTACCGTTTTCAATATAAGAATAATCTAATAAACCTCCATGGAGTACTGAAAACCTATCAATTCATCCTTGCATATATTTATCTCGATAACTTCTATTTATTAAATCATAGCCAAATCTTTTTTGCCCTAAATCAAGTCTTTTTAATTGCACAACATCAGCTTTAATTGATGGATCTTTAGTAAGAAAAGTTAATTTTATATTTTCTAAAAATAGAGAACTAAATTTAGGTTGTAACATTTTAATATTTTTACTAAAATCACTTAACTCTCTTTCATATTCATAAGTTCCTGAAATTCTAAAAGCATCTAGTTTTTCATTTGTTCTTTCTATTTTAAAATTCAATTTATATTGAGAATATTGCAATGAAAATTTATTGTATATTGAAGTTTCATAAACTATTTGTTTATATTTTTGCTGTTTTTTTAAATTTATATCAAAACTATAATCTTTATTATCAAAAGCTATAGCGTTACGAGTATGAGTATCTGGAACATCTTTATACTTTGACGTAGATAAAAAACTTAAATCAATATCTGAATATTCAAAGTAATTTACTAAACTCATTATTCCTAAATCTTTTAGACTTATTGTTATATCAAATGTTCTTTTTGCGTAATAATTTGTTCCATCAAACTCAACTGCTTTATCGTAATCTTGACTACTATCATTATAAATACTAGTTATTATAAACTTAGAACTAACCTCGATTGTTTTTTGATAGAATGAATCATCTATTTGCTTTACACTTTCATTTTTAGTGTAATCATATTTCTTCATTTCATCTTTATTCTCTATATTATAATTTTTAGAATATCCACTTGTTGAAACTGCACCAATTGATAATCCCGAAAATCCTAAAATTGATATTAAAAACTTTTTAAATTTTCCCATATAATCCTCCCATTATATTAATCGTTAGAAAAATTTAAAAAGTATCTTATTTTTTTAGTTTTTTAATTTTAGCAATATAAAATCCATTATTATTTCCTTCAAAACCAAAAAATTGTTTTTCGAAAATTAATTTTGCATTTTTATTATTATCTAAAAAAACTTTAATTTGATTTTGATTTTCTTTTTTATTTATTGTACAAGTTGAATAAACTAAAATTCCTTCATCTAATAAATGTTCAAAACCTTTTTGAAGTAAATCAAATTGCAATTGATAAAGAGCATCCATATCTTTTTTGCTAAATTTTTTTAATTTTATATCTGGTTTTCTTTTTAATACCCCAAATCCAGAGCAAGGAGCATCTAATAAAATCCGCTCATACTTTTTATTTATATTCAAGGCACTTTTAAATTCTATATTTACATTATTTATACCAAGTCTATTTAAATTACTATAAATTATATTTTTTTTATTTTCATTAATTTCAAAAGCATCAACAAGGTTTTTTTTATCAACTAATGAAGCTATATAACTTAATTTTCCACCTGGAGCACAACACATATCAATAACTTTTGATTGCTTTTCAAGATCTAATAATTCAACTGCTAATATACTTGTTTCATCTTGTATAAAAACTAAGCCTTGGTCAAATACTTGTGTATTAATAATATTGAAATCTGTAAGATAGCAATTTTTTGCGATTTTAGATTTTTTTAAATTAAATTTATGTTTGTATAGTTTTTCGAATTCAATTTGTGATATTTTATTTTCATTAACTCTAAAACTAAACATAGTTTGATTATTCGAACTTTGTACAATTTGTAAAGCTATTTCTTTTGAATAATCTTGCTCTAAACTTTTATACAATCAAAATGGAAAGCCATATTCTAGTGGAATTTTATTTTGATTATTTTTTATATCAACTTTTCATAAATCTAAGTTTGCTAATTTTTTTGTTGTTGCATTAACAAAACCAGCTAGATTATTATCAATAATTTTAGCAACTTCAACCGCTTCATTATTAACAGAGTATTGAGGTGTATTTAAAAACTTAATTTGATAAAGATTTAATCATAATAATAATTGAATTTTATAATTAGTTTTATTAGGCTTAATAATTTTATTAACAACATATTCTAGATAGATTTTATATTGAATTGTACCATATACCATTTTAAACACAAAGGCTATGTCTGATTTTGACATAGCCTTTGTGTTGCTTAATTCATTTAATAGTTTATTTGGTTGTTTGTCCTCTTTAAATACACCATATAAAATATTTAATGAAATTAATCTTGCATTATTGGAATGCATTTTGTTCAATACTAAAGAAGTTAACATCAATCATTAAATGTTCAATGATTGCTTCAATAAATTCTTTACTTTCAATAACAGACAATTCTTCATTTGCTAAAACATGAGAATATATTTTATTTGTCAAAATATCTACTAAATAATTTTTAAAATCAAATCCATCAGGAATTCTTATAGTATTTATTCTTTCAACATTTTCTCTTCAGTTGTCTACAAAAAACATGTAACTTTGTTTGACAACTGTATTTACTTCTTTTCTTAAAACGTGATATTTACTATAATATTTCGAAACTTCTAATGTCTCTTCTTTCATTAAAACATCTTTTACTTTTTCAACAGCATTTTCTACTGTATCTATTTCAATTACATATTTGTACTTATGTTTTAAAGGAATTTCTAAAAGCGCTTTATCTAATCTTTGTTTAATAATTTCTTCTTTTTCTGTTCCTCTTCTTCTCAATCTTTGTTCTAAAGATTTTAAACTTGGTGGCATTAAAAATATTGATACTAAATTTTCTTGTTTTTCTTTTTTCAAAACTTGGGTTGCTCCTACAACTTCAATTTCTAAAATTACATTTTCCCCGTTTCCAATTCTTTCATACACAGTCTTCCTAGGAGTTCCATAGAAATTTCCAATAAATTCTGCATACTCAATTAATTCATCATGTTGAATTGCATCTTTAAATGTTTCTTTATCAACAAAAAAATAATCTACTCCATCAACTTCTCCTGGTCTTGGAGGTCTTGTTGTCATAGAAACAGATTGAACTAAATTAAGACTTTTATCTTTTCTTAACTCCTTGTTAATCGTTCCCTTTCCTACACCTGAAGGTCCTGATAAAATTATCATTTTTCCTTTTTTTGATTCCATAGATATCATCTTTCTAGTTTTTTTCTTTTTTTTAAAAAAATACCAACTTGTAATTATATTTGTATTCAATTTTAATATATCATATTTATATTGATATTATTCTCATAAAAATCTTTATCTATATTATTTTAACTATCGTTTTCTAATCTTAATACATAAAGATTTTTATTTTTAAAAACTTTATGCTTTAATAACACAAATTTATTTATATATTCATTTTCGATAGGTTTTTCACACTCAACAACAATTATTGCATAATTATTTAATAGATTTGAATTTTTTAAATAGTTTAATGCTTGATTATAATAATCAATTTCTCCATATGGAGGATCAATAAAGATTAAATCTATTTTTTTTTGATTTAAATCAAGATATTTTAATAAACTTAAATAGTCTATTGAACTTAATTTATAATTTGATTCATCAATTTTAGCTAAGTTCTCTTTAATAATTGGCAAAATTTGTTTATAAGTATCATTTATATAAGCAAATTTAATTCCTCTACTTAAACATTCGATACTTAATGCTCCACTTCCTGCAAATAAATCTAAAGAAGTTTTATTTTCAAATATAAAATAATTATTTAATATATTAAAAATATCTTCTTTTAAACGAGCAGATGTAGGTCTTGTATTCTTTCCTTCAATAGTTTTTAACATTCTACCTCGATATTTACCGCTTATAACTCGCATAAAATCAATCTCTTTTCTTATATACTTAATATATCAAAAAAATAATTTTTATTACTATATAATCAAATAATGAGGTAATTAATATGAAACTAGATTTAGAAAAAGATTTATTACAAAAAGAGATTCCTACAAATAAATGACTTTGAAAAGACAGTCAACCAGAAGTAATTAGAAATACAAGTGTTGATGTAGAATTACCCTTAAATGAAGAAAATGAACTAGTTATGAAAAAATTAATTGATTTTGTTAGATATTCTCAAGATCCTGAATTAAACGTTAAAGGAAAAGAAGATTATCTAAGACCTGCAGTTGGTCTTGCAGCTCCTCAAATCGGAAGTAACACAAATATGTTTTTTACAAGGTTTGAATGAGATGAAGAAACTGGTGACATTGAAGAATTTGCAATGATTAATACTAAAATTATTGCTAAAAGTGAACAAATTACATATTTAAAAGGCGGTGAAGGATGCTTAAGTGTTGATAAAGACCATCAAGGTCTTGTTCCAAGAAGTTATAAAATTAAAATAAGGGGTTATGATTGATTAACTAAAAAAACTATCGAACTTACATTAAGAGGTTATCAAGCAATTGTGTTTCAACACGAAATCGAACATAATGTTGGAAAACTATATTACGACAGAATCAATAAAGAGGATCCTTATAAACTAGAAGAAGATTGAATTCAAGTTTAGATAATACAAAAAATAACTACCATATGGCAGTTATTTTTTATTTGGTCGCCAAGTTTGGGTTAACCTTAAAATCTTGTCGATAGATATTTTTATACTTATTTATTAATGCGACTTTATCTTTCAAAATAAATATCATTAGAAATGATCCTAAATATGGAATATATACGATTTTTTTAGCTAAAAATTCTAATTGAAAATCCCCGAACTGGTCTTTTGTATCTAAGCACATGACATTTAGTAAATAATTATTAATCAATAAATTTAAGCAAAATATTGCTCCTGCTACCGAACAAGACATTATTAGTATGCCAACATGTTGTTTTTTATATGGTATTGAACTTCTAAAATAAAAATATATACAATATGCAAATGCAATGGTTGCAATCACTTTTAAAACCCCATTAAAAACACTGAGAACAATCAAGGGTAGTGTTTTTACATTATATATTTTGGGTAAAGTAAAATTTCTTTTTTCCATCCTAATTAAAAACCCTCCTTCATTACTCTTATCTTTTTAATTATATAATATATAAAAAAAAATTATAAAATTTTGAAAAATAGTTTTAAATAAATAAAAAAAGATAAAAAAATAAGAAACTTTGATAAAATATTAATAATGAAAATCTTGTTTTAATATCATTAATCGATCATAAAAAATTTTTATAATATATTTTTTTTAAAGTAGATTTTCTAGTTTTTTTAGGAGAGAGAATTAGTTTTATGGATAATAAAAATAACACCAAAGTAGCAAGTTTAGTTGCTGATTTAGAAGCGAAAATAGAAGTTAAAAAAATTAATAGTAATGGCAAACCAATTAAAAAGAAGTTTGATGTAGCACCTTTTCCTACAAAAGTTTTTGCTCTTGGAGGACTTGAAGAAGTTGGTAAAAATACTTATTGTATCGAATATGATGATGAAATTATAATTATTGATGCTGGAGTTAAGTTTCCAGATGCAACTCAATTAGGAGTAAGTGCAGTAATTCCAGATTATAGTTACTTAGCAGATAATAACAAAAAAATTAAAGCTTTATTTATAACACATGGACATGAAGATCACATAGGAGGAATACCTTATCTATTACAACAAGTAGATGTACCTGTAATTTATGCTCCAGAACTAGCAGCAGCTTTAGTAAGAGATAGATTAAAAGAATATAAATTAACAAATAAAACTGTTGTTAAAGAATATATAGAAGATGATGTCTATCAAACAAAACATATGACTATTCAGTTTGCAGCAGTTAACCACTCAATTCCTGATGCATTTGGAATACATATTACAACACCGAATGGGGCTATTTTTTCAACTGGAGATTATAAATTTGATTGAACTCCATTAGGACACTCTGCAAATATCCAAAGACTTTCACAATGAGGAAATGAAGGAATCGAATTATTAATGTCAGATTCAACTAACGCAGAAGTTGAAGGATATACTCTTGGAGAAAGAAAAGTAATTCAAAATATTGATGCACATTTTTTAAAAGCAAAAGGAAGAATCATTATTGCATCATTTGCATCTAACGTTCACCGTATTCAACATATCATCGAACTAGCAAATAAGTATGGTAAAAGAATTGTTGTATTTGGAAGAAGTTTAGAAAGAATTATCAAAATTATTCGTCAAATGGGGCATTTAAATATTAATGACAAAATGTTTATTAAACAAAATGAAATTGATAATTATCCAAAAAATCAAATTATGATTTTATGTACAGGAAGTCAAGGAGAACCGATGGCTGCTTTATCAAGAATCGCAAGACAAGAACATCCTGCTGTTAAATTAATTCCAGGAGATACTGTTATTATGTCTTCATCTCCAATTCCAGGAAATAGAGCTGATGTTGAAAATGTTGTTAATAAATTAACAAAAATAGGTGCAATTGTTATTGAAAATAATGGAGAGCAAAAAATCCATACATCAGGTCACGCAAGTCAAGAAGAACAAAAACTATTGTTCACATTGCTAAAACCTAGATGCTTTATGCCAATGCATGGAGAGTATCGAATGCTTAAAGTGCATGGAGAAACAGCAGTTAAGGTTAATGTTAAACCTCACAATGTTTTTGTTATTGCAAATGGAGATCAAATCTTATTACATAATGGGGTTGCAGAACTTGGAAAACGTATTCCAGCAGAAGCTATTTTTATTGATGGAAAAGATATGACTGGAAAAGCAAGTAACATCATTAGAGAAAGAAATATTTTAAGTAGAGATGGACTAATGGCTGTCATTATCTCAATTGACTCACAAGAAAATAAGCTATTAGCTCCACCTAGAATTGTGTCAAGGGGAAGTTTTTATGTTAGAGATAGTGGAAATGTAATTGCAGAATCAATTAATATTGTTACCAATGCTGTATTAGGAGTTTTAAGTTCTCCTAAACCAACATTTGGAGCAATAAAAGCTGCAGTTAAAGAAACTTTATCCCCTTTTATTTTTAGATATAAAAGAAGAAATCCATTAATTATTCCAGTTATTTTAAATAAAAAAATGGATATTAAATAGAAAGATATTAATATTATGAAAAAGAAAAGTGAACAACTGAGTCTATTCAATATAATATGAATAGGTTTTAGTTTTATAGCAGGTATAACCTACACTGCTAGTTTTAGTACGGTTTTAGGCAAGGCGAGCGTCGGAAACCATATTTATTGAATATTTTTAATAGAAGGATTTATAGCATATATGTGTGCATGAACCTTTGCAAGATTAGTACAAATTCATCCAGAAGCAAATGGCGGAGGTGGTCAATATGTTAGAACCGCCTTTGGAAAATTTTGAGGCTTATTTATGGGAATGCTTAACTATGCAGTTATTCCAGCAATTGGAGTTAACTTATTAGTTAGTATGGTTAGATTAAATTTTGATGACTTAGCAGGAATCAAAGAAGATGGAAGTTTTGGAATTTGAGGAAGTTTTGGAAGTTTATATTTAGATTTAATAGCATTTGGATTATGTTGTTTAGCAACTTCAATTGTATTTTTAGGAGTTAAAAAATATAAAATAGCTTCTACTTGTATAGCATATTTAACATGAATTATAACTCTTGGTTTAGTTATTTTTGGAATAATTGGTGCTACAACAAATCTTAAAGCTGGAAGTAAGGGCTTATCAGAATATGCAACAAAAATAACTATGAGTAATTTTGCAACAACTTTTACAAGTATGTTTTTTGCCTTTTGTGGATTAGAAACTTGTATTACATCAGGAAAAAATATAAAAAATAGACAGAAAAATGTACCTATTTCAATTATTGTAATAATTGTTTTAGCGACATTGTTCTATAGTGTATTTACACTAATTGTAATGTTAGCAGTACCTGCTTCAGAAGGATTTGAACAAAACCCGAATTTACAAATATTTAAAAGTTTAAATAGTTCATTTTTACAAACATTTGGAAGAATAATAGTAATAATTTGTACTATATTAATGAGATTTAACTCAACTTTACAAGTTTCATTATTTGGAGGAGCAACTTTAGAACCTCTTGCAAAACAAAAGTTTTTACCAAAAGCATTTGCAAAAGAAAATAAAGAAAAAATACCAGTAGCTGGTGTGCTAGTGAACTTTATAGTATTTATAATTGCATGTGTAATGTTTATATTTATACCAGATATTGTTCAAGGATTTACAAAAAAACCAACTCCATTTGACTATGCAACCTTAGCTAGTGTCGGTTCCATCTTATTAATTGCAATTTATATGACAATATTGCCTGTTGCAATTTATCATGGAATCAAAAAAAATATGAAAGTACATATTTGAGAATACATTGGATGATCAATTACACTATTATTCTTATTATTTATAGTAGGAGTATATTTCTATGGAATAGGTGCTGATTATGCAAGTCTTAATGTAAATGGAAGTTTAGATATACAAAAATTATTTAAATGCACTTTCCAATTAATATACTTTGTAGCAGTAATTGTAGTTTCACTATTGCTATATTATGTTTATCATAAAAAAGCAATAAATAAATTAAATGAATCAGAAAAAAAAGAATTACAAGAATATGAAAAAAGCTATGTAATTGTTGAAAACCAAACTAAATAATAGTTTGGTTTTTTTTATAGTTTAGTTATAATATATTTATATTAATGGAAGGAAGTGTGCTATGAAAAAAATATTAATATCACTAGGAGCATTTGCATTAACTGGTGCAACCGCTGGACCAATTGCATATAACATTATAAATAAAGCTCAAGGTGCACCATCTGAACAGCTAGCAGATGCAGGAGATGATCATCAAGATCAACAAACTGCTGAAGAAAACTCAGTTTGAATTTACAATGATTTTAGTTATAATGTGTCATTAGCAAATAACGAAGACAATAAAAGTGCAAGTGATATTGAAACATATTTAAAAACAAATAAAAGCATAACAATTAACCTTAATAAAGATGTTTTAAATGATTTTTTTGCAGAAATATATAGTTATGTTTCTGCAAATAATGTTGGACAAAAAGGTCAAAAGTTCGCAAAAGCAGTAATTTCAAATATTTCAGGAAGCAATGCAAGTGATACAAATATTATTAATGACTATTCCAAAAATGCCGGAAGAAGAACTGGAGATAATGTTGAATACTTTGATTATCCTGAAGCAAAAAGCTATTTAAATCCAGACAAATTAAGTCCAATGTTACAAGGAAAAGTTGAAGGAATTGAGCAAAATCCTGAAAAAACAGTTGAAACACTTTCTCACACCTTATTAATAGAACATGATCTAAATAATATAGCACAAGACGAATATAACTTTTCAATTTATGGAAGTTTTAGAGTTACAAATGAAAATGGTGAGAAAAAAGAATATAAAAAAATAAAATTGTCATCTTTTCCAACATACTTCCCTTTTAAACATGTTAGTGATTTTCTAACTACATTTAGAAATACTCTATTTTGCCATTTCTTAATTGTTGTTGATATCGACGGATATGATATAGATAATAAATCAAGCATTTATGGATTATCTTACTATGAATATTCTAATCAATCAGTTGGTTGAATAGTTACACAATTAGATCCACTATATAATGGTGAATATGATGAATCAACTGGTTTATATGATATTAATGGACTTTCAAGAGCTTCAATAAATGCTAGAAAAAGACTTTTATATTACACTTTATCTAAAAAAGGATATAAAAATATTAGTAAAATGGGAATTGAACATAAAGATTTAGGGGTTATGACTTTCCACGAGGCTGAACAAATAAATGGCCAATACAAACCAAAACTTGATCCAATGCAAGGTAGTTTTTTCCTAGATTATAATAAAGTAAAATACTACTATATTAAAGTTACAATTAATAAAAAGGCATCTGGAACATACTTTGTATTAGTAAAAAACATTAAACTTATTAAAGATGCAAATGGTAAATTAGAACCAGGAATTACTTATGATCCAGAAGCAAATGTTAGTGAAGATGAATATGCAAAATAACATTATAAACTCTACTTATATAAGTGGAGTTTTTTTGTGTTTATATAATATTTGGTGTATTATTTAATTATGGAGGGAGGGACAAAATGAATAGAAGTATTAGCGGTGTGAAGACTTGAACAATAGTTTCTGCAATCTTTGGTATCATTGTTTCTTTAATTGGAATGGGAGAAGCTTTATATTATTATAAAAAGTTAAATCTAGATCCACAAATTGAATTAATAATTGTGACATTGATAGTCTTTGCATGTGCATTAAGCGTTTCATTTAGTTCTTATATAGTATATTTTGCAATGACATCAGATGAAGACACTTTTTCAAATAACAGATATATTTTGATGTTATTTTCACTAAGTGTTGGTGGACTAATTACACCATATTTACTAATGAAATTGCCAAATACAAATGTACAAACCACAATAACACCAAGAGTTTCAATATCTAGAGGTTATGGATACTCATTCTTAGCAACTGGTCTTGTAACATTGTTAACATTTATTGGATTATATGCAAAAAACTCAGGTATTTCATCAATTATGGATGGAGATTTTAAAACATATAATATCTTAATTGTTGCAATTTCTGGAGCTATGATATTTTGAGGATTATTAAATGTTGCTACATTTTCAGCAAAAAGTACAGAAGGAACTTTTGAAAAAAAAGGAGCAGCATATACTTGAATGATGATTTTATCAACAATTAATTTAATTATTGGTACAATTTCATTAATTTGAGTTATTATAGCTTCTGTTTTAAATATAATCTCTTTAATTTCAGATATATTTAATAGAAGAGATGGATTATTAGCAATATTTACAATTCCATTAATATTGCTAAGAATTGCAATGCAATTTTTTGTAATCTATACTGCTGCAAATTGTATGAAATCAATATGAGCGCCAAAAGGTTATACATATGGTCAATATCAAAAATTGGCAAGCAGAGAAGAAGATTATTTAAGTTCAAGAAAAAAAGGTTAGTCAAAAAAATCATATGAAATACATATGATTTTTTTGTGCCAATTTATTAACTTTTTATTAATTACTTTCTATTTCTGGATTACTAGTTTTTCTAATTTTTTTAACTGTTGTATTTATACCAAAAGGACATAAAGCTAATAGTTTAAAATTACTAATTATATATTTGAAATCATCTTCTTTAATAATTGGTTCTGCAATCTCTTTAATTTTTTTATTTAATTTCATAAAAACTATTGTTCATCACATTCAACCAATCATAATTAAAACTACTCCAGTTATAGAAACAATAGCATATGATTCTCCTACTAATAATATCTCATAACCTGGTGAAATAAAATTTGAAATAATTGCTATGAATATATTTAAAAAAGTTCCAATTATAGAAAATAGTTGACTAAAAATTAAATTAGATCAAAAATTAGACTTCTTTTCTTTTAATTCAATTATACTTATAAAATTATAAAAAACTAACATTGCTGATTGTCCACTACTTGACTCTTCAAATTTTTTTGATAGATGTAGTTCTTCTTTACTTGCTATGTAATTAAAATGATTATTATATCTTTTTGCTGTTCCATAATATATTTTTAAATCAATATATTTATAATTTGCTTTTAATTTATCGAATAAATTTTTATTAGAAAATGAAATTTGTTTTTTTGAGCTTTTAAAATATACCAATATTCAAATTGTTAAAGAAACTAAAATTACTAAAATCGCAAAACAAATTCCTACAACAACAATTATTTTACATCAAAATGGAATGAAATCTTTTTGATCATTTCATATACCTGGTATTATTGACATAACTTTCTCTCCTTTTTTTTAGTAAATTAATTTTAATAAGCTTTTCATATTAATATTATCATTGTTATCATACATAACTTTTACTAGCAAATTATTATCATCTAACAAAACTGCTCTAATTAAAAAGTTGTCTATAATTTGTAATTTGTTTTTATCTTTGATATTTATAGCAATTGTACTTTTGCTATCTTTATAACTAATTAAAACATTATTTTTATTTAAATAAAAGATATTTTTAAATTCTTTTGTATTATCAATACATTCTATGTCTTCAAATTCTTTATCGCATAATCATACTTCAAAGTTATTTTTTAAAACTATAAAGTTGTTTTCAAATTCTACGCAACTTAAAATATCTATTTGATAGTTTTTTAATTTTTTTAAATTTTCATCATATAAACTAATTTCCTTCCCGACTTTTCCAACCATTCCATTTGTATTATTTAATAATACTTGTATGTTTTTTCTTTCTTTATTTTCATCAAAAACCTGAGTATATAGTTTTTGATCAATTAAATAACTTATAAATATTTTTTCTCTAAACTTAAAAAAATTTTGAATATAGTTATCTTCTTTTTTTACAAATTCTACATCACTTTGTGATATTAAAATTGCATCATTTGAATATTCTATTAAAGGATTTGCTAAAAATTTTCTCCCAAAATCCCCTTTATTTTTTAAATTTTCTATTAAGTTTATCTTTGATATTTTATATAAACTCGAATATGAGCTATTAAAGTTAGCATCAGTAAAATATACAAAGTCATCAATTACAAAAATATTTGTTATTCATCCTGAATTTTCTAAATCTCTAACTTTTCTAGCCATTTCAATCACCATAATAAGTATAAATAAAAAAAAGCATATATAATATGCTTTTATAATTAAATATTATTTATTTTGGATTGCTTCAACTCCTGGTAAAGTTTTTCCTTCCATATATTCTAAAGAAGCTCCTCCACCTGTTGAAATATGTGTGAATTTTTCTGCAAATCCATTTTGAATAGCAGCTGCAGCAGAATCACCACCACCAATTAAAGTAAATGCTTCTTGTAAGTTAGCAATCGCTTCACAAACTGCAACTGTACCTTTTTTAAAGTTTTCAAATTCAAATACTCCCATTGGTCCATTTCAAGCAACAGTTTTTGCCCCTTTTAAAGTATCTTCAAATAATTTAATTGAGTCCGGCCCAATATCTAATCCCATTACATCATCAGGTAAATCTACTCCTGAAAATGATGGATTTACATCTTTAAATTCTGGTGCATTTGCTGAGTCTATTGGTAAGATTATTTTTCCATTTGCTTTATCCATATATTGTTTTGCTAAATCAACTTTATCTTCTTCACATAGTGATTTTCCAATATTGTGTCCTAAAGCTTTGAAGAATGTATACGCCATCCCTCCACCAATAATAATTTTATCAGCTTTTTGTAATAAGTTATCAATTACTCCAATTTTATCTGAAACTTTCGCTCCACCAATAATTGCTATGAATGGATGTTCTGGAGAGTCAATTCCTTTTGCTAACATTTCTAATTCTTTTTGTACTAAAAATCCAACACAGCTTTCACTAATGTTTGATGCGATTCCGACATTTGAAGCATGAGCACGGTGTGCTGTACCAAATGCATCATTTACAAATACGTCACCTAAACTTGCTCAATATTTTCCTAATTCGGCATTGTTTTTTGATTCATATTTTACTACTTCACCATCTTTAACATCTTCAAATCTAGTGTTTTCAAATAATAAAATTTCTCCACCATTTAAAGATTTAATAGCATTTTCTAATTCACTTCCTCTAGTTTGAGCAACAAATTTAACAGGTTGTCCTGCAACTTCTTCTAATCTTTTTGCAACTGGTGCTAAAGATTTTTTAGCTTTATCTTCTTCTGCTTTAATTCTGCTTAAGTGTGAGAATAAAACAACTTTTGATCCTTGTTCTACAAGATATTTGATTGTTGGCATAGCAGCTTTAATACGGTTGTCATCTCCAATAACTCCATCTTTGATTGGTACATTGAAGTCAACTCTAACTAAAACTGTTTTACCAGCAACTTTTATGTCTTTTAATGTTTTTTTCATGTTTAAATAATCTCCTTACAATTAATATTTTAAAACAATTATAATAATTTTTTTTATTTTTTATCATTAACAATAAAATCTAAATAACAAAAGAAGTTATCTTGATTTTGATTATGAAACTTTATTATATCTTCATCTTTTATTTTTATATTCTTGTTTGGTTTATACAAGTTCTTTCAAGGTGTTTGTTCATGACAAATTTGTACAATATCTCAAGAATTTAAATTAAGCATAAAATGAATGATTTTTTTACAAACTAGATAATCTTTTTCAAACTTTAAATATTCAATATCTATATTTTTATCAAATTCTAAAGGAATATTTTTATCTTTATATTTAGTTTGCTGTTTTCACAACTCATAAATGACAGGGCCTCATCTTCAAGTTTCAAAACTTATATTAGCGATTGGTTTTTTAAATATTAAAAAATAAGCATATATTATATAAATTATTTTTTGAATTTGAATTTGTGTTATTTTTGAGTTAATTTTTTTATTAATTTTTGCAATTAAATTTAGTATAAAATTTACAAAACTTAATTTGGAATAAAAAAACATATTATCACTCCTCATTAATATAATCGTCGTGAAAATATGTCTATTGTACAATTATTTAAATATTATAAAGATAGCATGTATTTAATTGTACGTACGAATTGTGATGTAAATGAGTTTTCATTATCGTATCATGAGAATACTTTAACTAATTGTTTTCCTTCAACTTCCATAACTCTTGTTAATGTTGAGTCAAATACTGATCCGTAGTGTGATCCAATAATATCTCCTGATACAATTGGGTCTACTGAGTATTCTAAAGCTTGTCCTAAATCTTTATCTGCTTTTACAGCTTCTTGAATAGCTTTATTAATGTCTTCTGCTGATGCGTTTTTTGATAATTCACATGTTAAATCAACAATTGATCCTGTGATTACAGGAACACGTAATGCTAATCCATCTAATTTACCATTTAATTCAGGTAATACTTTACCCACTGCTGCAGCTGCTCCTGTTTTACTTGGAATAATATTTCATGCTGCTGCACGTCCTCTACGTAAGTCACTGTGTGGTAAATCTAATAATCTTTGGTCGTTTGTTACGGCATGAATTGTGTTCATTAACCCTTTAACGATTCCAAATTTTTCATTGATAACTTTTGCCATAGGTGCTAAACAGTTTGTTGTACATGAAGCTGCTGAAACAATTTGATCGCTTGATTCAAGTGTTTTGTGGTTAACTCCAAATACGATTGTTTTTAAGTCTCCTGTTGCTGGTGCAGAAATAATAACTTTTTTTGCCCCTGCATCTATATGAGCCTGTGATTTTTCTTTTGATACATAAAATCCTGTACATTCAATTACTAAATCAACTCCCATACTTCCTCATGGTAATTGACTTGCGTCTTTTTCTGCTAAGATTTTAATTTCTTTTCCATCTACAACAATTGCTCCTTCTTTAGCTGTAACTTTACCTTTCATAAAGCTTCTGTGAGCTGAGTCGTATTGTAATAAATATGCTAATGTTTTAGAGTCTGTTAAGTCGTTAATAGCAACGATTTCAACATCCTTTTCTAAAAATAATTGTCTAAATGCTAGACGTCCGATTCTTCCGAATCCGTTAATTGCAATTTTTTTCATATAACTGTTTTCCTTTCACATTTTTATTATATTCCTATTGTTTAAAATGGACGTTATTTTACAAATATTTTTTTCCAAAGGTTTTTTCAAATTATTTATTAATTGGAAAATATTCTATTAGTACCTTTTATTTTCTCCTTTAATAGAAAGTTGTTCAGCTAATCCTTTAATTCTTTCAATAATTCTTGTCGTTCTAATTCTTTCAATATCTATCATGTCATTGTTTAATGGAATATTTTTTAAATACAATTTTTCAAGTTGGTTTAATGTAAAGTTAGATGTAAAAAAAGTTAATTTATTATTTTCTAATCTTGTGTTTAATATACCAAATAATAAATCATCTTTACTTCAGTTAGACACCAATTCTGCTCCAATGTCATCTAATATCAATACATCAACTCTTGTACAAAGTTCTAAGAATTTATTATAGTCATTTGAATTGCTAGAATTAAATGTTTCTTTTACAGTTTTAATAAGTTTATTTACAGTAACAAGAATTACTTTCTTATCTAAAAAAGCGAATGAATTAGCAAGTATTTTCATTAAATATGTTTTGCCAATACCTGGAGAACCACATAAATAAACACCTTTTTGTGGATTTTTATTTAATAATATTTCTTTTGCTTTTTCTAAAAAATACTTAATTGAAGGATTTAAAGTATTAATGTTTTCTTTTAAAAATTGAGATATTTTTTGAGTATTTTTATAAATGTCATAATCTGCAAAAACTATATTTTCTTTTAATTTATAGTTTTCATTTTCATACTGTCAATGACTACAATATGTTGTTGAGATATATATTTGTTTATTTTCATAAGATAACTTAGGTTGAAGACCCTGTATTAGTTGTTTACACTCTGATAAAGGTGCTTTTTCATAACAATACACTAATTGCTCTATAAAGCGAGATAATACAAGGTAATTAGTTTCTAAAACTTCATCATTTATGTTATTTTTTTCAATGAACTTTTTTAATTCTTCATTTTTTTTTAAAATATCAAGATCTTGACTCATTAAATGTCACCTCAAAGAGTTGGGTCAATTTTAATATTTTCATCGACTTCTAAAATATAAGTATCTTTTTTAATTTCTTCTTCTCAAAGTTTAGTATGAAAATTGCTAGACATTGGTTTTTTAGGATTACTTTTTTTATTAGCCAATTTTAAATATTCCATTGTTTCTTTTGCATTTGTAATTCCACGTTCATTAATAGTTTTTGCTATTTTTAATAAGTAATTTTTTACTATTTTTGAATCATTTTTTAAATAAGAAAATTCTAACAAACAGTTTACAACACCATCTCTAAGTTTGTGTTCTCTTCTCAATGATCTAATTATTTCTAATTCTTCTAAAGCTAAATTATCAACACCCATTAATAATTCTAAAAATGTGATCGGATCAATTGTTTCCATTTCTTTAATTTTTGCATTTGTTTTATTTTTCTTATTAAGTTCTGGGTCAAATTCCGCTTTCAACTCACTTGTATCTTCATGAACAAAGTACTTTGATGATATTGAAATATAAAACTTTTCAATATCTAAGTCAACATTTTCAGCATCATAAGCTTTAATTAAAGCTTGAACAATGATATCTTCAGTTAAACTATATGAAATATATACTTCTTCAATAACTTCTTTTAATTTAATATTTTCTTTTGAAACATATACTTTATTTTCTGCTAGTTTTTTAATAATTCTTTCAAAGTTTAAGTCTTTTAAAAGAACATTAGTTTTATTTTGTCTAAATTCAAAATCATTACAAATTGTATTTTCAATTTTTTTATTAAACTCTTCAAATACTTCTAAAAATTTTGAAGATGTGTTTTGATAACCATTGTCGTTTAAATCATTTTCTTCTTTAAATGTTAATTTTGCTATTTCATAGTTTTTGTCTCCAATTTTATCTAATAATGCAGCGTTAAATAAACGATTAGCAAAATAGTCTTTCGGCTCTAAAGGTGAGTATAAATTAAAAATAATTGAGTTTTTTGCTTTATTTTCTAGAGTAACAACTAATCCCATAGCTTCAAGTCTTTTGATTGCTTTGGTTAATTTATCAGAAGAGATTAAAGATATGTCTAATAATCTTTTTTCATCATATATTTCAGTTTTTTTCAACTCTTTAATGACTTCTGCTTCATGAAATAATGTCTTATAAAGTGCAACACTTCTTAAACCTAGTATTGGTTGATATAAGTAAGAAAGAACTTTGTCATCTAACAAATCAATTCTATTCTTTAAAACTACTTTATATGTATAATTTCTCATGATAGTATTACCTTTCACCTATATGATATTTAAATAAAAAAAAATATAAATAAGTTTAATAACTTTTAATAAAATGACTTGAAAATGTGGATAACTAATAACAAAAAACCCTTTACTTTAGTGTTTATTTACACTTATCCACATACGAGATTACTTTTGACAATTTTTACAATAATAAGTTCCTCTACCATTCACTTTAATTTTTACAATTTCACTTTGACATTCATAACAATTTTGACCTTTTCTAGTATGAACTTTTAATTCATTTTGAAATTTACCATCAATTCCTTGTTCAGGTTGATAAGTATCAATTGTTGTTCCTCCAAGTTCAATAGATTTTTTAAGTATTTTTCTTGCAGATTCAGCAATTCTATCATAATCTTTAACTATTAAATAATCTCCTGTTATTAAAGGATTAATTTTTGCATCAAATAAGATTTCATCTGCATAAATGTTTCCAATTCCAGATATAATAGTTTGATCTAAAAGCATTGTTTTTATATGTCTAGAACTATTTTTCATTTTTTCATACAAAAAATTACCATCCACTTTTGAATTAAATGGTTCAGGACCTATTTTTTTGATCGGATTAATATCTAAATACTCATTTACATCTTCTAAATTAAAAGTCCCAAATCTTCTAGTATCATGATAATTTAAAAGTTTATTATTTGACAAGTGAAATGTTGCTAAAACGTGTTTTTTATCATATTCTTCATTTTTATCATAAACAAATCATTTACCTTCCATACGTAAATGACTAATTAATACTTTATCTTGTAATCTAAAGATAATGTATTTTGCAATTCTTTCAATATTATCTATTTTTTTATTTTTTATTATATTTTCAAAATCTTTAACAGTTTGATTTGACTTAATTATTTTTGGATAAAATATTTCAACTTTCTCAATAGTCAAACCTTTTAATCTTTTATTTAAAGATCTAACAACAGTTTCGACTTCTGGTAATTCTGGCATACTTTTCTCCTTTTATTTTAAATCATATCAAGTAGCACCAACTCCACTATTAACTTCTAATTTAACATCACTTGTTCTGTTTTTATTAGCTATTTTTAGTAAGTCATCATATGCTTGATTCATTATTTGTTGTACTTCAACTTTTACTTTATCAATATTATCATTTTTAACGTGCAAAATAACTTCATCGTGAATTTGAGCAACTAATTTTGCATCAAGTTGTTTGGATTCTAGCATTTCAAAAATATTTATCATAGCAACTTTTAATATATCTGCTGCAGTTCCTTGAATAGGAGCGTTAATAGCCGCCCTTTTCCCAAATTCTCTTACCATAAAATTTGAGTTTTGTAATTCATAAATATATCTTCTTCGATTCGCCATTGTTTCTACAAAACCATTTTCTTCACATTCTTTAATAATTTTGTCTTTATATTCTTGAACCATTGGAAAGGTTTTATTATAAGCTTTTATATATTGATCTGCTTCTGCTTGACTAATTTTCAAATCTTTTGAAAGACCAAACTTAGTTAATCCATATAAAATTCCAAAATTAAATACTTTAGCAACTCGTCTTTGGTCAGAAGACACTATTTCATTAGCATCTAGTCCAAAAATATTTCTTGCAGCAAGTTCATGAATATCTTCATTATTTTTATATGCTTGAATTAAAGTTTCTTCTTTTGCAACATCAGCTAAAACTCTTAATTCAATTTGTGAGTAATCAAAACTTAGAAAAATATAATTTTCTTGAGCTATAAATATTTTTCTTACCTTTCTTTGTTCTTCATCTCTAATCGAGATATTTTGTAAGTTTGGATCTGTTGAACTTAATCTTCCTGTATTTGTTAGTGTTTGATTAAAAATTGTATGTACTTTATTTTTATTATTAATAAACTTTTCAAACCCTTTTAAATATGTTGAATATAACTTTGAATACTTTCTTATTTCAATAACTTTTTCAATAATTGCATGAGCTCCTAATAAAGCATCAAGGGTTTCTTTATCTGTACTTCCCTTGTTATAATTTTTTAAACCTAAATCAACAAACAATAATTCTTTTAGTTGTTTAGGACTAGCATAATTTATTGGTTCAATACTTTCTCTTTTTAAAATTTCATTTGCTTCTTTTTCAAGATTAGTTAAAAGTTTTAATATATTTTGAGTTTGATTTTCTAATTCTTTTCTATCAATTAATACTCCAGCATATTCCATATCTAATAAAACATAACAAAAAGGAAGCTCCACTTTTTGATAAAGCTCATATTGATTTGTTTCTTTTAAACTATTTATAATTTCTTCTTTTGTTTTTTCAATTAATAATGCTTTTTTCAAAATATATTTAATTTTGACATTTTCATCAATGTCTTTTGTTTTTTTAACACCTTTTCCAAATACTTCATCGAAAGTTTCTATTTCTAATGATGAGTCTATTAAATTTAAGTGTGACTCAAAGTTTGATTTAACATTTGAGTTAATAACATAACAAGCAATCATCATATCATATACAAAGTTTTTGTGTTTAATTTGATATCCTAAAGTTTTTAATACGTACATTGTTTTTTTAATATCATAAGAATAAAATTCATTTTCTAATAAAAATTTTTGTAAATTTTCGTCAATATTTTTTTCTTGTCAATTAAAAATACTTACTTCTTGTTGATTTTCAAAAGCATAGTAAAAATTCCCTTTTGCATTTACTATTCCCATACCAATTACATCAGGGTTGTGATAATTATCATTTAAAACTTCTAAATAAATATAATTATGTTTATCACTATAAGAGCTATTTCATGTAGAAACTTTCTTAAAGTTAATAGTTTGTTTAGGTTCTACATCTTCAACTTCGCTTGAATATTTTCTTACCAATGAAACCATTTCATATTTTATAAAAAAATCTTTTAAGTTATTAAAGTTAATTTTAGTTTCTCTAAAACTAAAATCTTCTAATTTAATATTTGTATAAATTGTTGCTATTTCTTTTGACAAAAAAGCATCTTCTTTTCCATCAATTAACTTTTGTTTTTTTGGCCCAGTTATTTTATCAATATTATTATATAAATCTTCTAAGTTTTTAAATTCTTGAAGTAAGTCTTTTGCAGTTTTTTCTCCAATTCCAGATACTCCTTTTATATTATCAGAACTATCTCCTCTTAAACCTTTATAGTCAATTACTTGTTCAGGAGTAATACCTCATTTTTCAAATAATTTATCTCTATCATAAGTAATTAAATCACTAGTACCAGTTTGCGGAGCAATAACAAAAATATTTTTAGTAATAAGCTGATACATATCTTGATCACTTGTTAATATATCTACAACATAATCATCAGTTTCTTTGACCATGTTTGAAATAGAACCAATTATATCATCAGCTTCATAACCATCTAATTCATATCAATCAATATGTGCTTCACTTAAAAACTCTCTTACAATTGGAAATTGTTGAACCAATTCTGGAGGAGTTTGTTTTCTTCCTGCTTTATAGCTTTCCAGTTTATCATGTCTAAATGTTTTTTTACCTTTATCAAAAGCAACTTTTATATCATAGTATTCATTTTTTTGAACAATGTTTAATAACATATTAATAAATGAATATACTGCATTTGTAGGAATACCACTTCTAGTTGTTAAATTTGCTCTTCCATATGAACTATAAAATGCTCTAAAGATTAATGCATTTCCATCAACTAATAAAATTCTTTTTTTCATTTTTTTGTTTCCTACTTCTATTTAATTACTTTTACAACATCTAATAACAATGCTCCAACTTTATTATTAAATACTTGAGATTTAATTCTTATAATTAATTTTTGGTCTAACTTAATTTGCTCTTTAATTTTTTCATAAACAGAAGCAAACACAGTTACAATAATTTCTCCTGTTTCATCACTAACATCAACAAAACACATTTGTCCACCATTTTTATCAGTTTTAGTAACAATATTGTCTATTGTAACAAAAACTTCACACACAATATTTTCTTTTTTTAAATTAGAAATATAAAATAGCTTTTCTTTATTTACTAATTTTTCTCTTATAAGAGTTAAAGGATGAGAACTTATATAAAATCCTAAGTATTCTTTTTCATATAAAGCGAGAGATTCTGGTGAGTCTTTTTCTTCAGGTAAATCTATTTCAAATTCATTTTCATTGGTTATGTCAATAAAATCAGTTAAGTTTAAAATAGTATTTTTATTATCGATCAATACTTTTCTTGAATATCCATAGCAATCAAAAGCACCTGTATAAACTAATGCAAGATATCTAGGTTCAGTTAATCCATTTTTTAATAACTCTGCAATTATAGTAAATAGATTATCAAAAGCTTTTTTATTATTTATATATATTTTTTTTATTGTATTTAAAAACTCTGGACCAATTCCCTTTATAATGTTTAAAGGCATATTTACAAAGTTATTTGAAAAATAATAAATACTGTTTGGGTTTTTTATACTTGGACCATTTATGTTATATCCATTTTTTTTCAATTCAGATAAATATTTGGATGTTTTACTTTCATTTCCTAAAACACCATTTAATAAAGCGCAATAAAATTCTGCTTTATAGTTTGTTTTTAAATAAGCCATTCAATATCCAATTAAAGAATAAGCAATTGCATGAGATTTATTAAAACCATACTCTGCAAATCTTTCAATATAATGTCATAATTCATTTGCTTTTATATCTGTGTAATTATTTTTTATAGCATTTTGAATAAACTCATTTTTAAATTGATCCATAAGTTTGGCATCTTTTTTACCCATAGCTCTTCTTACAATATCTGCTTTTCCTAGACTAAAATTTGCTACTCTTTTTAAAATTTCCATAACTTGTTCTTGATAAACAATTATTCCATAAGTTGAGTCTAAAATATCTTCTAGATTTGAATCAATAATATAATTTTTTGTTTTTGAGTTTTTTCTTTTAATATATAAAGGAATATTTTCTTTTGGACCAGGTCTAAACAAAGAACTGGTAATTGCAATTTCTTCAACAGAGTTTACTTTCATTTGCATTAAAACATCTGTCATACCATTTGATTCAAGTTGAAAAATACCAGTAGTATCTCCACTTCTTAAAAGTTCAAAAGTATTTTTATCATTTAATTCAATTCGATCTAAATCAATTCTAACTTTTTTTGATTGATAAACTAATTTTAAGACTTCTTGAATAATTGATAAGTTTCTTAAACCTAAAATATCAGTTTTAATTAATCCAATATTTTCTAAATAATTCATTGAGTATTGAGTTTGTAAAATCCCGCTTATTCCAACTTTAGTCGGGACAATATCTCATAAGTTTTCATCACAAAAAACAACTCCAGCAGCATGAGTTCCTGTTTGTCTAGGTAGTCCTACTATTTTTTTAGCAGCTTCAAATACTTGGGGATATTTATTTTGATACTTTTGTAAAATTTTTGAGTCACTTAAAGCTTTATCAAAATCTAAAATATTTCTATCATTAATTTGTTTTGACATATGATTTACATCATCAATATCAATTTCAAATACTCTTCCACAATCTCTTAATGCATTTTTAATCCCAATTGTTTGAAATGTTGTAATTGTTGCAAAATGATTTTTACCATATTTTGAAAATAAGTATTCTAAAATTTCTTCTCTTCTATCATCTTGAAAATCAATATCAATATCAGGCAAAGTAACTCTATCAATATTTAAAAATCTTTCAAAGAGTAATCCTCATTTAATTGGATCTAATTTTGTAATTCCTAATAGATATGAAACTAAACTTCCTGCAGCAGAACCTCTTCCGGGTCCTACTAAAATATTTAACTCTTTTGCTTTATTAATCATGTCACTAACTATTAAAAAATAATCTTCAAATCCCATTTTAAAAATAACATCTAATTCTAAACTTAATCTTTCTTTATATTCTTGTGTATTTAACTTTAAATCATCAAGTTTATCATTACATATTTTTTCTAAATAATTTTTTGAAGGCATATTTAAAGCATTAGGATAAGTTAAAAAATGTGTTTTAAAATCATTAATAACATCATCTTCAACTATTGAAATTATTTCATTCATATTTTTGTTATGAGTATCTATATCAATATAATTTTTTAAATCTTCATTAGATAAATAAAAATCTTTTTCTAAATCGTTTACTTCATTTACTAGTTTGGCTTCACTTATAGCATTAATAACTTTATACTCAAAAAAGTCATCTTCATATAGATAACTGATTTGATTTGCATATATTATTTTATTTTCTTTTAAATATTTATAGTTTTGTTTTGTAATACCATAATATAAATTTTTAAAACAATTATTTAATTTATCTTTGAAATTTATTAGGTTTTCTACACTTGGACAAAATATTGCAATTATATTTTCAAAACTTTGTTTATATAATTCTTTTTCAAATAACTCACTATCAATTCTATCCATATTTGAAATAAATGAAGATAAATAACTTATAACTTTATAACCTTTATTGTTAATAGCATATAAAACAATATCTCCATAAGTTAATTTAAAACTAACTCCGATAATAGGTTTAATATTATTTTTTTTAGCTAAATTTTCAAATTCAGCTGCTCCGTACATAGTATTTAAATCTGAATAAAAACCTACATTTAACTTATTTTTATTTAAAAATACAATATAATCTTGGGGTTTTATAGTTGACTTTAAAAAATTAAAACATGATTTAATATTTAATAAATTAGAATATGACATATAAACACCCCTTAACTACAATTATTTTAACAAACTGAATAAAGATTATATATTTTCTGTAATTAATTCATAAAATATTTCTAAAAAATTCATCATTTCTTCTTTTTCTAAAGTGTTGAGATTATCATAAACAAAATTGATTTCTGATTTAAATTGCTTGTAAAAACTTTTAACTTCATTTAAAACATACATATCAGATTTACAAATATTATTAAATATACTTTTAAATTTTATTAGTAATATATCATTTTTATATAAAAACTTTTCATTTTTTAGTTTTTTTCACTTCATATATTCATTAAATAAAGTAAATATAAAATTTAATATTATTTTGAAATAAAAAAATTTATTTCAAAATAATTTTCTTATACAATTAAACACTATAATATAATTTTTTTCATTTATGTAGCTCATAAAGCTTTTAAAAAGCAAATACATTAATTCGTTGTTTTTTAAAACTTTTAGGTATCCTTCTTCAAGTTTTATAAGATTATGCTTTATCATAAAATCTTTAATAATTTTATTTTTATTTACTAGTATTCCAGAATTTAGTAAAGCATTATTTTCTCAAATAAGCTGAATAAACCTAAATTTGGAAATTATAGCTAAAATGTATTTAAAGTTACAACTTTCAAAATTATCTGCTATATACAAACTTTCTAAACTTGCAATAATTTCTTCAACCTCAATATCACTCATGTTATCAAGATTATCATTAACTCTTAAAAACTTTATATGCATTAATAAACCTAAAACTTTTTCGAAAGTATACTTGGTTATTTCTACACTAACAATATTGTTTAAAGAATAGTTTTGTAATTGCTCTTTTAATAATTTTTCCATTCTTTCCGATAAACGATTTATATATAAATTATGATACTTATCTAAAAATATACTTAATTTATCAAAAAAATTATTATCTAACTTTTGATAATTTATTATATGCTGCAATTCACTAAAAAATATGTTGACTTCTTTGGGATTTATAAAAAACTCAACTTGAGCTTTATCGAGCTTAAATGATAAATCAAATAAATAGTCATTTTTATTTCTAAATTCTTCATTTTCAAATAGTAAAGTATCAATATAAACAGCTTCTCTAGAATCTTTTGTCTTTATAATATTTATTTCTTTATCATTTTTTGAGAAAATATTGTTATTACTTATTTTTTGTTGTTCATAATCAAATTCTATCAATTTTTTATTATTTATTAAACTATCTCCTTGTAAACTAAATTCTAATAACTTACCATAAATGTAAGAATTAAAAAAAAATGAGTAAATTAAAATTAATATATGATCTCAATTTATGTATTGATGAAAAACTTTTTTTATATTGTATTCTTTTATATAATCCAAAAAGGCATTAATTATTCTGAAATTTTCAAAATAAAATATATAATTTTTGAATATGTTTAAATTTAAATTTTTAAATTCTAGATTATTACATATTTGATAATACTTATTTTCTAAAGCTTTTCTTACAATATTACTCATTTTTTTAACAATTACTAAATCATAAACTTTTGAACTAAACTCAAAATTTTTTTCTTCAAAATCTTTATTATCTACTATTATAAATTTGTTATTGTCATTAGATAAAGCCTTAAATAATAAAAGATATCTTTGTCTTTTAGAACTTTCTACTCTATTAAAATCTTCTACAATAAAAATATTTCTTTTTCTTAAAAAAATATTTATTTTTGAGTTAAATATTTTTTTAAGTGTTACAAAATTTTTTTCTTTATAAAAATTTTTTATGAGCGAAAAAAATATATCTCCTGCAATTATAATAAAAAACATAATTATATTACTAACCCAAAAATAATCTTGAAAAACTTTAAAAAAATCAAAAACAATTCTTAAAATAATTACAAACAGAAAATCAAAAATTGAGTGCTTTATAAAAGCTGAATTTTTGAACTTGTAAAAATCATAAAAATAATCTATTTCTTTTTCAACAGAAGATAAAATTGCTGTATCTAAAATCCTAATTTTTCATTTTTCTTTGCGTATATTTCGAAACTTTGTAATATTAGTAATGGGATTGTTTTCTTCAAATTTTTCTTCTAGAATATCTTTTTCACTTATTTGCTCTTCAAAACTATATTTTGGTGAAAAATATTTAGCAATGAAATCTGTTTTTCCTGTACCATAGTCACCAACTAAACCGATCATATTAATTTTTTTCTTACTTGATAGTACTTCATTGAATTTTTCAGCGATTTTTATGTTTTCTTCTATAATTTCTTTATTCATTTTAACCTCTTTTAAATGATAACAAAAATAAAAACTTATACACCAATATCTTTTCTAAAGTAAAAGTTTTCAAATTTAATTTTATTTATATTTTCATAAACTTTTTTAATAGCTTCTTTTTTTGATAAATCACTGTTATATATAAATAATATTCTTCCCCCATTGCTTTCAAAATACTTTTTTTCATCATTATATTTAGTACCCATATGAAAGATATTATTCTTGTCAAATATTTCTTGATCTGCAATTTTTACGTTATTTTTATATTCTTGAGGATATCCTTTACTTGCAATTGTAACTCCTACAAAATTTTCTTTATTTCAAACTAAATTTATTTGTTTATTATTTAATAAATCTAAAATACTTTCAACTAAATCACTTTGTAATGCCGGCATTAAAACTTCTGTTTCAGGATCACCAAATCTACTATTAAATTCAATTACTTTAACTTCATTTGAATCAGTTAAAATTAATCCTGCATATAAAACACCTTTATAAGTAGTTCCTTCTTGTTTTAAAGCATCAATTGTTTTTTTAATAATTTCAATTTTGCTATATTCAATAATATCTTTTGTAACATAATCTACTGGTGTATAACATCCCATACCTCCAGTATTTTCGCCTTTATCATTTTCAAATATTTTTTTATAATCTTTTGCTGGTTGTAAACATTCAAAAATATCACCATTTACTAATGCTAGTAAACTAAATTCTTTTCCAACTAAAAATTCTTCAATAACAACTCCACATTTTTCATTATTAAAAATATTTTGATCTAATATTTTTTCAACTGCTTCAATTGATTCTTCTAATGAATTAGTTATAAACACACCTTTTCCACTAGCAAGTCCATCATTTTTAATAACTATTGGATATTTTTTATTAGCTTTTAAAAAATCTATTGCAACATTTTTATCACTTGTAGTAATAAAATCAGCTGTTGGGATATTATATTTTTTCATTAAGTTTTTTGCAAACATTTTTGATGATTCTATTTTAGCTGCATCTTTGGCAGGACCAAAAATTGTTAAATTATTTTTATCAAATAAATCAACAACTCCTTTTTCTAAAAACATTTCATCTCCAACAATAGTTAAATCAATATTTTTTTCAATTGCAAATTTTAAAACTTCATTCATGTCACTATAATTAATTTCATTATTTATAGTTGCACAATCTTTTATTCCATCATTTCCAGGTATTACATATAATTCGTTACAAAGATTTGAAGATCTACACTTTCTTGCAAGCGCATGTTCTCTTCCACCTTTTCCAAGTATTAAAATATTTTTTTCCATATTAGTGTTTAAAGTGTCTGATATTTGTAAATATCATAGCTATTCCTTTTTCATTTGCTAAATCAATTGATTCTTGATCTTTTAATGAACCACCTGGTTGAATAATAGCTTTAACTTTGTATTGACTTGCAAGTTCAACAACATCATTAAATGGTAAAAATGCATCACTTGCTAAAAATGATCCTTCTGCTTTTTTTTCTGCTTGTTCTAAAGCTATTTTTGCAGATCCAACACGATTCATTTGTCCTGGTCCTACTCCAATTGTTTGAAAGTTTTTTGTTAAAGCAATTGCATTTGATTTAACATGTTTTACAACAGTGTATGCAAATTGTGCTTCTTTTAATTCTTCTTCGCTTAATTGATTATTTGTTACACATTTTCAATTACTAATGTCATGTTTGTATAAATCTTTTTGTTGAACTAACAATCCTTGATCAATTGAAGTATATTGATATTCATCAAGTGCTAAATCGCTCATTTTGTAATTTAATTTTAATAGTCTTAGATTTTTTTTCTTTAATAAAATATCTAATGCTTCTTTTTCAAAATCTTGTGCAATAATTATTTCTAAAAATACTTTACTTAATTCTTCTGCTACTTTTTTTGTAATAACTTGATTTGTTGCAACAATTCCTCCAAAAATAGAAACTGAATCACTATCTAAAACTTTTTCTCATAGTTGTTCAACAGTTCCATTAATTGCAACTCCACAAGGATTTAAGTGTTTTATACCAACCATACAACTGTTTTCATTTAAATCTTTTACAATATTAATTGCACTATTTGCATCTAATAAGTTATTGTATGATAATTGTTTTCCGTGCAATTGTTCTGCATTACTTAATGAAATTTCGTTATGATACTCATCAACATATCATGAAGCTTTTTGATGTGGATTTTCTCCGTATCTTAATTCTTCTTTTTTTGTAAATGACATAGTTATTTTTTTTGGCATTTCTTCTTGATTTGTTTTAGTTAACATATAATTTGCAATTAAAGAATCATAACTTGAAGTATGTGCAAAAGCTTTTTGTGCTAAAAATACTTTTAAGTCTTTATCATCTTTTTTATTTTTGATTGTATCAATTACCAATTGATAATCATTTATATCACAAATTGTAATTACATCTTTATAGTTTTTTGCAGCAGCTCTAATTAAACTAACTCCTCCAATATCAATGTTTTCAATAATATCTTCATGAGAATTATTTTTATTTTTTACTGTTTTTAAAAATGGATATAAATCAATTGCTACAAGATCTATAAAATTAATATTATGTTCTTCAACTTGTTGAACATGATTTTTATTATGTCTAATTGATAAAATTCCTCCATATAATAAAGGATGTAATGTTTTTACTCTACCATCTAAAATTTCTGGAAACTTAGTAATATCTTCAACTTTAATAGCATCAATACCATTATCTGTTAAATATTTATAAGTTCCTCCAGTAGAAATAATTTTAAAATCATTTTCAACTAATTCTTTTGAAAATTCTAATACATTTGTTTTGTCAAAAACTGATATCAATGCATATTTCATATTATATCTTTTCTCCTTTTATAACTTTATTAATAATCTGTCAATAATATATGTGTTCTTGTTCTTGAATTCTTTTTTGTAAAGTATCATGAGTATCATCTTTATATACTCTTACTTCTTTTTGAAATATAATTTCTCCAGCATCCATTTCAATATTTACATAATGAATTGTAAATCCTGCTAAATAAACTTTATAGTCAAGTGCATCTTGTATTGCATCTTTTCCTTTAAAACTTGGAAGCAATGAAGGATGAGTATTTATAATTTTTCTTTCATAGTGACTTAACAATGTATTTGAAATCATTGTCATATATCCTGCTAAAATTACATAATCAATATTTTCTTCTTTTAAAACTTTTAAAATATCTTTTTCATACTCTTCTTTGCTAGGATAATCTTTTAAAAAAAAATTATAATTTTTTATATTATTTTGTTGTGCTCTTTTTATTGCAAAACAATTTTTTTTATTTGTTATCAATATTATTTTATCAACTTCTAGTTTTTTTTCATTATATGCATCTATTATTGCTTGAAAGTTACTTCCATTACCAGAAGCCATTATTGCAATATTAGTCATGATTTAATTTTATTTTAGTTTCTTTATTTGAAATAACACTTCCAATAATATTTGCATTGTAGTCTTTAAAATTATTTATAAAGTCTAATACTTCTTGTGCATTATTTTTATTAACAATAACAACAAATCCTACTCCCATATTAAATACATTAAACATTTCATCATTTTTAATTTTAGCTAAATTTTGCATTACTTTAAAAATATTTAATACATTTATTTTTTTCGTATCAATATTTGCACATAGTCCATTAGGAATAACTCTAGGAATGTTTTCAATTAATCCCCCACCAGTTATGTTTGCCATTGCAGATATTGCATAATTTTTTTCTATTAAACTTGAAATTACATCAACATAAATTTTTGTTGGTTTTAATAATTCAGTTATCAAATCACAATCTAACTCTTCAAATTTATGATCAAAACTAAAGTTATTATCTTTAAAAAATATTTTTCTTACCAAAGAATATCCGTTTGAATGAATTCCTGAAGAATTAATTGCTATTATCACATCATCTTCTTTAACGTTTTTATAATCAATTAATTGATCTTTTTCTACAGCACCTGTAATAAAACCAGCTAAGTCATAATGATTTTTAATGTACATATCTTTCATTTCAGCTGTTTCTCCACCAAGTAATGAGCAATCACTTTGCAAACATCCTTCAACAATTCCTGTAATTATATCTCTAATAGTATCTACATTTATTTTTTCAACTGCAATATAATCTAAAAAGTATAAAGGTTTTGCACCAAGAGTTAATATATCATTAACACACATTGCAACTAAATCTATTCCAATAGTTTTATGATTGTTTGCTTCAATTGCTAGTAATAATTTAGTACCAACTCCATCAGTTCCAGAAACTAAAACTGGTTTTTGATAATTTAAACTAGAAAGATCATAAGCACATCCAAAACTTCCTATATTATTAGAATATTTTGAATTAAATTTTTCACTTACAATTTTTTTTATTGAATCAACAATTTCATAACCTTTATTTAAATCAACTCCAGATTTTTTATAATTATCGCTCATGTTATACTCCTTTATTTAAGTCGTAAATATCGACTGGATATTCTCCTGTAAAGATATCAAAACATCCTTGACCGGGTTCGAATAATGTTTTTAAATTTTCTAATGTAAGAAACTCTAAACTATCACATCCAATGTAGTTTTTCATTTCTTCAACACTCATATTTGCAGCTAATAATTCTTTGTATGTTGAAATATCTATTCCATAATAACTTGGATATTTAATTGGTGGTGATGCAATTTTTAAATGCACTTCTTTAGCACCATTATCTTTTAATAACTTAACAATATATTTAGAAGTAGTTCCTCTTACAATCGAATCATCAATTAAAATAACTTTTTTATCTTTAACAACATCTTTTGTAACAGAAAGTTTTGTTCTAACTCCAATTTCTCTTAATTCTGGAGTTGGTTGAATAAAAGTTCTTCCTGAGTATTTATTTTTTATTAATCCAATATCAAATGGTATCTTAGAACTTCTAGCATAACCTAGCGCAGCAGAAGTTGAAGAATCAGGAACTCCAATTACAACTTCTCCTGGATAACTTTTACTTTGTTGTGCTAATAATTCTCCTGACTTAACTCTAAAATTATGAACATTAATATTATTTATAGTACTACTTGGGTGAGCAAAATAAATATATTCCATCGAACAAACATTGTTAAAATTATTTTTTGAAAAATAATGACTTTCGATTCCATCTTTTGAAATTCTAATTATTTCTCCTGGATTAACATCTCTTATAAATTCGCTACCAGTTACATCAAATGCATAAGTTTCAGAAGATACAACATATCCATCATTAAACTTTCCTATTGATAAAGGTCTTAAACCATTTCTATCTCTAATTGCATACATTTCATCTTCAAATAATAATAGAAATGCAAATGCTCCATTTATAACATTTAAAGAACTTTTAATTTTTTCTAATCTTGATTTTTCTTTACTTTTTCTAATTAAGTGAGCTAAAACTTCTGAGTCACTTGTTGCTTGAAAAATACTTCCTTCAGACTCTAATTTATTTTTTATAATATGTGCATTAGTTAAATTTCCATTATGAACTAAACCAAAACTTTCATGATTTAAATTAAAGAAGAAAGGTTGAACATTACAATCAATTGATCCTCCAGTTGTTGAATACAAAACATGTCCAATTGAATTTTTTGCATTTCAATTATTAAAGTCACTCATTGTAAACTTTTTAGTTACTAAACCCATTCCTTTTTTTAATAAAAAACCGTCTTGATCATCATAACCTAAAATTCCACAACCTTCTTGACCACGATGTTGCAATGCATGTAAACCATAATAGTTTATCAAAGTTGCATTATCAACATTAAAGCATCCAAAGACTCCACATTTTTCTTTTAAAACTTCGCTCATATTAAATATTTAAACTTTCTAGTTTTTCTAAAATAATTAAATAAATAGCTGTTATATCATCTAAATCTTCTCTAAAACAATCTTTATCTAATTTTCTATTGTTTTGGTCTCAAAATCTGCAAGTATCAGGACTAATTTCATCACCAAGACAAATATTATTGTCTTTATCTAAACCTAATTCAATTTTAAAGTCTACAACTTTAATATTTATTTGTTTAAATAATTCAATTAACAATTGATTAATTTTTAAAGTAACTTTTTTTATTTCTTCTAATTGTTTTACTGTTGCTAAATTCAAAACAACACAATGATCATCATTAATTAATGGATCTCCATATGTATCATTTTTATAACAAATTTCAAATATAGGTTTATCAAACGCAGTTCCTTGTTCAATTCCTAATCTTTTAACAATACTTCCTGCAGCAACATTTCTAATAATTATTTCTAATGGAAACATTTTTAGTTTTTTAACCAAAACATTTTGTTCATCTAAGACTTTTATTGTATGAGTTTTAACTCCATTTTTTTCTAAGTATTTAAAAATAATATTTGAGATCTTTGCTGTTAATAATCCTTTTGATTCGTATGATGCTTTTTTTAAACTATTAAAAGCTGTAACATCATTTTTAAAAAATATTTTTAATTCATTTTCATTTTTTGTACTATAACAAATTTTAGATTTTCCTTCGTATAACTTTTCCATTTATTTATCTCCTTTATTATTTTTTAAAAAGTAATTTATAGCGCTACTAAATATATCTTGATTTTTATCACCATAAATATTTTTACAAATGTCTGTTCCAAATCTCTCACTGTGTCCCATTTTACCTAAGACTAATCCACATTTAGAAACTATTCCTTCAATGTTGTAATAAGATCCGTTTGGATTGTTTTCTTTATTTATATATTCAAAAGCAATTTGGTTATTTTCAACTAGTTCTTTATATTTTTTTTCATTTACTGCAAATCTGCCTTCTCCATGTGATACAGGAATATTATTTATTTGATTAAATTTTAAATCCTGAGTTCATGGTGAAGTTGTGTTTACTACTTTGCAATTTACATATTTTGCAATATGTCTATTAATATCATTTTTAATTAATGATGGATCTGACTCAGATAAGTTATGTGTCTCACTATCTATAAGAATACCTGCTTTGATTAATGCTTGAAATCCATTACATATTCCTAAAATTAATTTTTTTTGTTTTAAAAATTCACTCAAAGCATTTTTTATTTTTTTGTTTCTTATAACATTTGCAATATATTTACCACTTCCATCAGGTTCATCTCCTAGGCTAAATCCTCCTGGAATAACAAATATATGTGAATCTTTTATCTTATCTGCTAAAATATTAATCGATTCATTTAATTTTTCATTGTTTAAGTTTTTAAAAATAAACTCTTCACATTCTACATTATTTCGTTTAAAAGCTTTTTTGATATCATACTCACAATTAGTTCCTGGAAAAATAGCTAATAAAACTTTTACTTTATCAACATTATCTGAGTAAAAATTTTTGTTTTCAACTTTTTGTTTTATCTCTATTGGTATAGGATATTCTTTCAAACTATTTGGATATATTTTTTCGATTGGTTTTAAATAGTTTTTCAAAATAATATTTCTATCTAATTCAATTCCGTTAATTTTTAAGATTTTATTAGTTTTTCCTAATGAAACTAAATTTTTATTTTTTATTTCTTCTTTACTTTCAAAAATTATTGATCCATAAATTGGTTCTAAAATATTTAAATCAGTATTAACATCAAATCCTAAACCATTTCCTAAACTCATTTTAACTAAAGCTTCTAATATTCCACCTTGTTGAATTGCAAATGCTGATAATACTTTTTTTTCTTTAATTAAACTCTCATAAAAAATATAGTTATCGTTTAATTTTTTATAATCTGGATAGTTATTTATTAATTCATGTTTCAATAAATAAATATGATTATTTTCATTTTTAAAATCAGTTGAAACTATATCACAAGTTTTTGCAGTTGTTAATGCGAAACTGACTAATGTTGGAGGCACATTCAAACTTTCATATGTTCCACTCATACTATCTTTTCCGCCAATTGCTGGAGTATTTAGTTCTTTTTGAGCAATTAATGATCCAAGTAATGCAAGTAAAGGTTTTCCTCATTTAACATTATCTTTATTAAGTCTTTCAAAATATTCTTGAAAAGTTAATTTAATTTTTTCTTTGCTTCCTCCAGCTGCAATTATTTTTGTTACACTTTCAATTACAGCAAGCATTGAACCAATAAATATATTTTTTTCAAATAAGTAAGGATTATAACCATAACTCATTAATGTACAAATGTTTTCATTTTCTTTAATTGGTATTTTTTGACAACTTACTTGACTTTCTGATAATTGATTTAAACCTCCATAAGGAGCTAGCACTGTTGTACTTCCAATTGAAAAGTCAAACATTTCAATCATTTCTTTTTGAGACATTATATTTAAATTACTAAAATAATTTTCTAAAAATTCTTTTTTTAATTCATTTTTGTTTTCAAAACTTAAATCTTGTAAATAATCTGTTGCAAACATTACATCAATTTGATTTGTTATTCCTCCAGAGTTAATAAAGTCTCTGTCTAAATCTACTATTTTATTTTTATTATATGTTACTTCAAATTTATTTTTATCTGTAACTTCTCCAATTTTTACTGCATATAAATTTTCTTTATTTGCTTCTTCAATAAATAATTGTACTGATTCTTTTTTAATAACCACAACCATTCTTTCTTGTGATTCTGATATTAAAATCTCTTTACCGGTTAGTCCAACATATTTTAAATGAACATCATCAAGAGTTAAACTTACACCGTTAGCAAGTTCACCAGCTCCTACTCCAATTCCTCCAGCTCCTAAATCATTTGCTTTTTTAATTAACTTAGAAACTATTGGTTTTGAAAATAATCTTTGTAACTTTCTTTCTTCAACAGGATTTCCTTTTTGAACTTCACTATAGGAATTTTTCATTGAGTTTTTATCTAAATTTTTTGATGAACCAGTTGCTCCACCAATTCCATCTTTGCCAGTTGCTCCACCAACTAAAACTATAATGTCACCAGCTTCAGGTTTTTGTCTAACTAAATTTTCTAACTTAGTAACACCAACTACTGCACCGATTTCTAAACGCTTAGCTTTATAACCTTCATGATAAATTTCTTTTACTAAGGTTGTTGCCATACCAATTTGATTTCCATAACTTGAAAATCCTTCTGCAGCAACTTTTGAAATTTTTGATTGAGGCAATTTATTAGGTAAAGTATCTTTTATGTTTTCTAAAATATTTCCTGCACCAGTTACTCTTAATCCCTGATAAACATATGCTCTACCAGATAAAGGATCTCTTATAGCACCCCCAAGACAAGTTGATGCTCCTCCAAATGGTTCAATTTCTGTTGGATGATTATGTGTTTCGTTTTTAAATTGTACTAAACATTTTGTATCTTTTAAATCAATAAATATTGATGCCGCATTTATTTCTTCTGATACTTCAATATCTTTACAAATATTATTTTTTATAACATGTTTAACATAACTTGTTGCAATATTCATTAAAGTCATATTTTTTTTAGTACTAATTTCTTTATAAAAATTTATTGCTTCATTTATTTTATTTTTATTTTCTTCACTAATATTTTTATCAAAATTTATATTATTAATTATAGTTTCAAAAGTTTTATGTCTACAATGATCACTTCAATATGTATCAATTAAAAATACTTCTGCTTCAGTTGGATTTCTTTTTAAACTTTCTTTGAAATAATTTATACAAAATTCAAAATCTTCAAAACTCATTGCAAGACTTAATTGTTCATATAAATCTTTTATTAAGTTATTTGCTATATCGATTTCTTTAACTTCATATTGATTAGAACTATTATTATTGTTTTGTAAATAGTCATAATCTAAATTTATTTCAAAAGCTTCGATTGGATTTATTAAATAACTTTTAATATTAACTAATTCATCTTCACCAACACTTTTATCTAACACATACAATTTAAAATGTTTTATTTTAACTTTTTTAAATAACAATAAGTTTACACATTCACTTGCGCTTTCTTCTCTTGTATTATATTGACTATCAAATATTTTTACACAAAAATACTTTTTATTATTTAAATCAATTTCTTCTAAATACTCATCTGTATTTATTTCTGCTAAAACATTATTTACAATAATTTCTTTTTCTTCTTTTTTTACATCAAAAATGTCATACACGTTATAAACTTTTAAGAAATCTAAACTTAAATTCAAACTTGATTGAATTTCATTTTTTAAATTATTTGATTCAACATCAAACTCAGTTTTTTTACTTATAAATATTCTATTATTCATTTTTTTCCTCCAACTTATTTAGAGCAGATTGATAATCTTTCAATAAATTTTTTTTATTTTTATTTATTATGTTTATATGCCCCATTTTTCTTTTATCTATAGCTTCACTTTTTTTATAATCAAACTTGATTATGTTTTGAATATCAAACTCTTTATAAATATTTTTCCCTAATAAATTTATCATTATTGTTTTATAAATTAACTTAGGTTTAATAATTTTTTTACCAGTAACAGCTAAGATATGATTTCTAAATTGACTTACATTACAACCATTTATTGTATAATGTCCAGTGTTATGAACTCGTGGTGCCATTTCGTTAAAAAATAATTTTTTATCTTTTACAAAAAATTCAAAAGCAATAGTTCCTACTATATTTTCTTTTTGTAAAATATTTTTTATTAACCGTTTTGTTCTTTTATCAACAAAACTTTTTTTAGTTAAAACTTTTGAAGTCATTAAGATTCCATCTTTATGTTCATTAATTGGAGTTGGAAAAAAATATATTTGATTAAAAATACTTCTTGTAACTATTAAACTTGTTTCAAAATCAAAATTACAAAGTTCTTCAATTATAAAATCAATATTATTAAAATCTAAAAACTCATAATCTTTTTTTTCTTTTATTAAATATTGTCCTTTTCCGTCATATCCACCAGTATTTGTTTTTAATATAAAAGGATAATTTAATTTATTATTATTAATTAGTTCACTTATTTCATCTGAATTTTTTATTTTAAAGAAATTAACTGTTGTTAAACCATAACTAGATGCAAAGTTTTTTTCTTTAAAACGGTTTTTAGATACACTTAAAAAATTTAAACTTGGATTGATTGAATTTTTATGCTCTTTTAAAACTTCAAAATCAATATTTTCAAATTCATATGTTATAGTTTCAGTTTTATCAAATAAATTTTTAACAGCTTCTTTATCATTGTAATTGCTATTTAAAATTTCAACCTCAAGATCCAAACAACTATTATTTTTATTTGGTTCTAAAACAACAAACTCATTTTCCTTAGAAGATTCAATTAACATTCTTGCTAATTGTCCTCCACCAATCAATCCAACTTTCATCTTAATCTACCTCTATCTCTAAAACTTCTTGAGTTTGATTATTAATGAAAGCTTCTAAATTTTTTTTAACTTCAACATTATATAATGAAATAATTCTTGCACAAAATAAGGCCGCATTTTTTGCACCACTATCACCAATAGCCATTGTTGCAACAGGAACTCCACTAGGCATTTGAACAATTGAAAGTAACGAATCAATTCCATTTAGATTTCTAGATTTAACCGGAACTCCGATTACAGGCAAAATTGTCATGCTCGCAACCATCCCTGGTAAATGAGCACTTCCTCCTGCCGCTGCAATAATAGCATCATAATTTTCATGTGCTTTTTTTGCATAACTAAATAATAGATCTGGAGTCCTATGAGCAGAAACTACTTGTAGATCATAATCTATCCTTAGATTTTTTAAAATATCAATTGCTGGTTCAAGAGTTGTTTTATCGCTAATTGATCCCATTATTATCCCGATTTTATTCTTCATAAATGACCTTTCCAAATAAAAAGACTCCTACATTACAAAAGGAGCCTACAACAAAAAATGCAATATGTCATATGCTCATTTTATAGACAATAATTTACGGTTATTTGTAGAAACGTTCGACCATATTACGAACTTATATAAAATGATTACAAATTTATTATAGCATAAGATTTTTGACCTAATTAAGTATTAAAAAATACTTATTTACACAAAAAAATCATAAATACACTTGCCTTAACCTTAGGTTAATGTTGTATATTTATAACTAGATATGAAGTATTAAAAAAATATCTAAAGGAGTAAAATGGAAAATTTAGATCAATTATATTTTAATGGTGAAAGAGATTTATTCAAAAAGAAAGATTTAATAATAAACAAATGATTTTTTGAAAAAGGAGAGTCACCTTTAAAAGAATCAAGAAATATTGAAGTAAATGACAGTATTTTTAAATGAAAATATGTATTGTGATATGCAAAAGACATAAAAATACAAAATTCTGTACTATACGAAACAGCAAGATCAAGTATTTGATATACAAATAATATTGTTATAAAAGACACAATCATTGAAGCACCAAAAGTTTTTAGAAGATCAACAAACATAAGTTTAAATAACGTACAAATGCCTAATGCAGCAGAAACTTTTTGAAACTGTGCTGAAATAATAATAAAAGATAGCCAAGTTAAAGGTGATTATTTTGGAATGAATTCAACAAATATTACAATCAATAATATTTCATTAACTGGTAATTATGCTTTTGATGGAGCCAAAAATATAACAATTAAAAACTCTAGACTGGTTTCAAAAGATGCATTTTGAAATTGTGAAAATGTTACAATAAAAAATTGTACTATTTTTGGAGAATATATTGGCTGAAACTCAAAGAATGTAAAATTTAAAAACTGCACAATTGAAAGTGAACAAGGTTTTTGTTATATGGATGATGTAGTATTAAAAATTGTAATATTATAAAAACAGATTTAGCTTTTGAATATTCAACAGTAAATGCACAAATCAATACAAATATAGAGAGCATTAAGAATCCATTTCTGGCAAATATCAAAATTAATGGAGCAACAAAAATAATTTAGATGACAAGGAAATTGATAAAACTAAAATAAATATTTTTACAAACGGAGAAAAAATCAATGTTTTATAAAATTGTGAATAGAAGAAATTCTAATTCTTATAAATGAGATATCAAAGAAAATGAAATACCAATGTCTTTAGCTGATATGGATTTTAAAACAGCACCTTTAATTAAAAAAGCAATAAAAAAAAGAATTAAACAAGATGCTTTTGGATATTCAACTATACCTAACTCTTTTAAAAAAGCTGTTAAAACCTGATGATTGAAATATTTAACTGAGATTTTGATGAAAATGATGTTTTATTTTGCACTGGAGTTGTTCCTGCTATTTCTTCTATTGTTAGAAAATTACTAAAAGATAATGAAAATGTAGTAATGCTAACTCCAATTTATAATATTTTTTTAACTCAGTATACAACAATAATAAAGTAGCCTTAACAAGTGATTTAATTTATAAAAATGATGAATACTCAATTGATTTCAATGATTTAGAACAAAAACTAGCTAATAGCAAGGCTAAATTACTTATATTATGTAATCCGCATAATCCAATTGGTAAAGTATGAGATAAAGAAACATTAGAAAAAATTGGAGAATTATGTTTAAAACATAACGTAACAATATTAAGTGATGAAATACATTGCGATATAACTTATAAAAAAAATAAATATATTCCAATGGCATCAGTTAGTGATAAAATTGCAAACATAATAATAACGTGTGTTTCAATGTCTAAAGCTTTTAATTTAACAGGATTGCAATCTTCAGCGATCATAATTAAAAATGAAGAAATTAAAAAAAGTAGAAAGAGCAATAAACACAGATGAAGTAGCAGAACCAAATATTTTAGCTATACAAGCTTTTGAAGCTGCAACAAAATCAAAAGCGTGACTAGATAAGCTCTTAAATTATTTAAGCATAAATAAACATTTAATAATAAAACAACTTAATTTACATATACCTGAAATTAAAATTATAAAATCAAATGCTACCTATTTAATTTGATTAGATTGTAAAAATATATGCGATGATTCATCAGTATTATGTAATTATATAAAAGAAAAAACTGGTTTAATTTTAACTCCTGGAGAAGTTTTTAAAGGCAATGGAAAACAATTTATTAGATGAAATTTTGCTTGCTCTAAAAAACTTTTAAAAATGGCTATTAAAAAATTTATTTCTGCAATTAAAGATTTTAAAAGTTATAATTTAAAAAAGGAAAAATAAACTATGTTTTTAGAAGTAATAGCAAAAAATATCAAGGATGTGATAGATATAAATAAAACCAAAGCAGATAGAATTGAATTATGTAAGGATTTAGAAGTTGGTGGATTAACTCCAGATTATGAAATAATAAAACAAGCCGCTGAGATATCTAAGTTACCAATTAATGTAATTGTAAGACCAACATCAAGAGGCTTTGTTTATACAAAACAAGAAAGAAAACAAATTTTTAATGATATAAGATTTATAAAAACAACAAAGGCAAATGGAATTGTTTTTGGAGCATTAAATAAAAGAAATAAAATTAATACTAAACTTTTAAAAAAAGTATTAAAGAAAAAAGGAAATTTAAAAATAACTTTTCATAAAGCTTTTGATGAATTAGAAGATTTAAAATTTAACTACATTTTATTAGATAGATTAAAAATAGATACAGTTCTAACAGCAGGCGGGCGCAATATTGACCAAGGAATTGATGTGATAAAAGAACTTATTAAATTAAACAAAAAAACAATTATATTAATAGGAGGAGGCGTGAATTTAAACAATATCTCATATCTTTCTAAGTTGTCAAATAATATACACATCGGAAGGTTAGCTAGACATGAAGGCCAGTGAATTTATAAAATTAATACAAAATTAGTAAACAAAATAAAAGCTTCTTTTTAAGAAGTTTTTATTTTGTTTACTAAGCTTTTGGAGCTTCGTTTTTTGGATATAATACTGATGCTTCAACTTCAGTTGATTTATCAAAAGTTTTTGCAGCAGCACCTTCTGCTTTAATTAATTCAATAGCTTTATCGATTGCTGCTTGTACTATTTTTGAGTATTCTTGTTTTACAGTTAGATAAATATGATTTCTTTCTGTTTCAGATCATGAGTCAACTTCTTTTGCAACATCATCTGACCCATCAAATCCAACAATAAATCCAGCTGGTTTATCATCTACTGTTGAACTAAATCATTTTTTCATATCTGTATTTAAATCAATAGCTTTTTTCATACCTAAAGCCATTGGATCATTTCCCGCTCAAATTACATGAGCATTTTTAGCAGAATCTGAACCACTTCATTCATTTGTTAAAACATTTCCTGCTGCATCTCCTGTATTTTCGTTTCCTGTTGCAACACTACCTTGTTTATAATCTGATCCAGGTTTATTAATAATTTGTATTCATTCTTGATTTTCTAGTACAAAACCTTTGAATCTTTTTTGTTCTGCATCATTATCTTGATTTGATCACATTGCATAAACTTTAACTTTTTTACCTTTATTTGAATCACTTGGATCTTCTCCATAAATTTTATTATAAATTTTTTTAAACATTAAAGAACTTGCTTTTGTTTGTTCAGAAACAAATCCAGCAGCTCCTCTTTCTCCAACAGAAGAATCATATTCAGTGTCGATGTTGATTATTGGAATGTCTTTTTCTAAAGCAGGTTTAATAGCATTATTATTTTTAACGTTTGCTGGGTTAATTATTATTGCTTTATCTCCTTTTGTCATTGAATCTTTAACATTAGTTTGATCTGTTGCGCCACTTATGTCTGCTTTTGAGTCATATGTATTTAGTGTATAACCTTTTTCTTTTGCATAATCTTTTCCTGCAGCCATCATATTTTTAAAATAGTCATTGTTAAAATTTGATATTAATAATCCTAATGAATCACCTTTATTACAAGCCACAATTGATGACCCTGATGATACTAATATACTAGCTCCTGCTATAAATGATAATAATTTTTTCATACTCTATTCTCCTTTTATAATGTTTTTAAATTATTAAATACTTTTGTAAATCACAACTGCATTTTTCTTGTTATTTTATATTCAGTGTTTGACAAAACAGCTATCATTATAATTAAACCTTTAAGAATTGATTGGATATCACTTGATAAACCTATTAAGTTTAAAGCATTTTTTAAAATACTTAATGATAATCATCCTAAAAATGTTAAAAATATTCCACCTTTACCACCTGTTAATAAAGTTCCTCCAAGAACAACACATGCGATTGCATCTAGCTCTCAAGCATTTCCTGCTGATGGACTAGCAGTTTGTATTCTTGCTACATATATAAATGAACCAATACCAATGCATAATCCACCAAATACATAAGCTGATGCTAATATTGTTTTTACTTTTATACCTGATAACTGTGCACTTTTATAATTTCCTCCAACTGCATATAGGTGTCTGCCATATATTGTAAATCTTAAAATTATAAAGGCTATTATTGCTAATGCAAACATAATTCAAACAACTAAACTTAGTCCTAAAAAATCTTTTTGAATTAAGTTTGTTAAAAATTGACTTTCAAAAGCTTTTGAAGTATTTCCTAATAAGAATTGAGTAGCTCCACGTCATACCATCATCAGTACTAAAGTTATAATAAATGATGGGAATTTTAAAATACTTACAAATAGTCCTGAAATTAATCCTGAAATTCCACAAAATAATATAACTGCTGCAATTGTAATACCAACATTAACACCACCCAAAATAAGCCTTGCAGCTAATGCTGTTGCAAATGCCATTGTTGAACCAATAGATAAATCTATTCCTCCTGTAAGTATTATTATTGTTACTCCTATTGCCATACACCCTATGTCAGCATTTAAATATAAAATGTTTTTTCAGTTATCCCCTTTAAAAAAACCAGGTTCAATTATTCCTACAATAATTGCAAATGCCATAATTATAAAAATTAATTTTATTGAGTTTATAGCACTTAATGATTTGTTACAAAATTTCTTTTGATTTGAAAAACTTAAAAGAAATTTTTGTTGAATTTTCATTCCATATTTTTTTGAAAATTGTGTTTCTTGTAGTTGATTGTATCTCTCGACATGTAAATCAACTTTCTCACTATATTCTTGTTTTAGCTGTTCATATTCAACTGGTCCAATTTTTTTATTATTTAGATCATTATCTAATTGTTCTAGCTTCTTAAAAACAGCTAAATTTTCTATTTTTTTATTTTTGTTTTCTAACTCTTTTTTGTCATTTTCAATTATAATGTTTTGTTTTACATTTATTTCAGCAACTATAGAATCTTTTTTAATGTTTATTTTTTCTAATTGTGTAGATTCTTTAACGCTAAGTTTAGCAATTTTACTTTTATTGCTAATTTTTTTCTTTTCAATTAATTTATTTCATTTATTATTTTTTTTATCAATTTTTTGGTTAAGTTTCTCTATTTGGTTTTTTACACCTTTATACTCACCTGACTCTATTGTAGCTTTTTGAACTTCATACTCAGATTTAGTAATATTTAGATTTTTAAATTTAAATTCAGCTTCCTCAAGATAGCTTTGTTTTCGCTCTTCCAACCTTTTAATTTTGTTTTTTAAATTTGAAATGCAACTATCTCTATATGAAGATAACAAAAACACAAAATCATATTTTTTTTCTGTTTTTTTTCTGAAATATTTTTGAACTGATTGTAATTCTGCATCAGTTTTGATATCTAAGTAATTAGTTATAAACTCTTTACTGTTTTTATTCACTAATTGTTTCATACTTTTTCATACTTTCTATATTGCATATTTAATTATCTCTTCTGGAGATAGTTGTTCACCTTTTAATTTATTAGTGATTCTTCCATTTTTCATTACTACAACTCTATTGCATAAACCTAAAACTTCTGGTAAGTCGCTTGAAATTACTATTACACCAATTCCATTTCTTTTAGCTTCATAAATTAAGTCATAAATTTCTCTTCTACTTCCAACATCAACACCTCTTGTAGGTTCATCAAATATTATAACCTTAGGTTCTGCTGCAAAAGCTTTTGCTAAAAGTACTTTTTGTTGGTTACCACCACTCATACTTCCAACAGTATTTTCTCCACTTGATGTTTTAACTGACATTATTCCTATAAAATGATTACTTAATTTTTTTTCTTTATTTAAGTTAACAAAACCTAAATTAGAAATAGAATTTAAACAAGAAATAGAAATATTTTTTCTAATAGTCTCATCTAAGAATAAACCATCATTTTTTCGATCTTCAGTGACATAATAGATACCTTTTTTAATAGAAGATCCTACACTATTTAAACTTATTTCTTCGCCATTTAATAAAACTCTTCCTGCTATTTTTGGGAAAAAGCCAACAAGAGATTTAAACAACTCAGTTCTTTGAGCTCCCACTAATCCTGAGAATCCAAGAATTTCATCTTTATATAAATCGAAGTTTATATTTTTTACAAAATCATTTGTTAAATCTTCAACTTTTAAAATAACTTGATTATAAGAAGGATTATCTTTTTGTGGATATTTTTCTACAACTTCTCTACCTACCATTTTACTAATCAATTCATCTTCAGTTAACTCATTAACTGTATACTCACCAATATATTCTCCATCTCTGATTACTGTTATAAAATCACATACAATAGGTATTTCTTCTAGTTTATGTGATATATAACAAATTGCTATACCTTCACTTTTAAGCTTGCTTATTATTTCAAATAAAGATTCAGCTTCTTTTTTACTTAAAGATGATGTTGGTTCATCAAAGATTATTAACTTACTTTTTCTTAAAATTGATTTTGCAATTTCTACCATTTGTTGTTCTGCAATGGTTAAGTTAGACATTATTTCATTTAAATCTACTTCTAGTTTTAAAAGTTTAAAAACTTCTTTTATCATTTTTTTTTCTTTTTTGTAATTAACAAACCCAAATCTTCCAACTTCATGTCCAGCATAAATGTTGTCAAGAACATTCATATCATTAAAACAAGCTATTTCTTGGTGAATAATTGATATACCTAAATGCTCAGCTTCTTTAACATTTCTAAAACTATTTTTATGAATACCTTTTCAATAAAGATCTCCTGATGTTCTTTGAATGACTCCGCTTAATATATTCATAAGTGTTGATTTACCTGCACCATTTTCTCCTAGAACTCCCATTGCTTTTCCTTCGAATGCTCTTAAGAACACTCCTTTTAAAGCGGTAGTATTTCCAAATGTTTTTTTTATATCTTTTAATACAAGTAAGGGTGTCAATTTAATTTTTTCATTAAATATATTTTCCATTTTTTATGTTAATTAGTTAAACTAATTAATTCACACAACCTCCCTTCCTAAATATTTTGCACTTTTTTAATTTCATTGTAAAATAACAAAATATCACATTAAAAATAGAAAATTTTTTATTAATTATTAAAATAATGGAAAAAAGATATAAAATTAACATAAATATGATAATTTTATATATATTTTTGTTATATTATGTTATATATATGAGAAAAGAAAGAATAAATTTAATTTGAGATTTTTTAAAAACTAAAGAAAAACATAGTTCTAAAACATTACTTAAATTTGCAAAAAACAACAAAATCAATGAAATGACCTTTAGAAGGGATTTGCATTTTTTAGAGAAAAATAATTTAATAAGGCTTTATTATGGTTTTGTTGAGGTTATTAATACAAATATTGATCATTTAAATAATTTCGATATAAATGAAGTAAATAATTATGAAATAAAAAAAAATATGGCTATTAAAGCAGTAAATGTTATTGAAGATGGAGACTCTATTTTTATAGGTCCGGGTACAACATGTGAGGTTTTAACATCTCATATAAATAAGAATGTAGATCTATTGGTTACAAATGGAATTAAGATCTTATCTAAGTCATCAATAAATAAAAAATTTAAACAAATTATAATGGTTGGTGGAAAACTACTTAGTTCAAAGGATAGAATATCATCATTAACTTCAATTATTCAAATACAAGATTTAAGATTTGATAAAATTTTTATTACTGCTCAAAGTATTGATGAAAACAATAATGTATACATAACAGATATTGATGAATATGAGTTTTTAAAAGTAATAATGAAAAATGCAAATAAAAAATTTTTATTAGTAGATAGCTCTAAATATAATTCAATAGGCAATATTAAACTTTGCAAATTTGAAGATTTTGATAGTGTAATAACAGATAAAAACTAAAAAAGCATAAAAACAATATATAGTTTTATGCTTTTTTTACATCTATTAAGTTTTTAAAATACAATCCCGATTTTTTTATTTTTGTTTTTTTACTATTTAAATCATATTCAACTATTCCGTACCTATTTTTATACGCATTAGCTCAGCTTCAACAATCAATAAAAGTTCATAATGAATATCCAAAACAGTTAGCACCTTCATCAATAGCTTTTTTTAAATAACTTAAATGTTCTTCTATAAACTCAATACGATAATCATCCATTATCATATTTTCTTTTTCAAATCTAAGTTCATCTTCTACACCCATACCATTTTCGCTTATTATTCAAGGAAAATTATCGTATTTATTTTTAATTAGCATTGCAATATCATAAATACCTTCAGGATATATTTCTCATCCTCTATACGGATTAATTCTTTTTTCTGGTCAATCATAAACATCATAAAAACTTTCTGGCATTAGTTCATCATCTTCTTTAACACTTTCTTTTGCTTTGACCCTTGATGGTTGATAATAGTTTAAAGATAAATAATCGATTTTTGCTTTTTTAATAAAAGCAAATTCTTCATCTTTAACATCAGGCATTAAGTTATTTTTTTGTAAAAAAATAATTAAGTCTTTACTTACTATACCCTTTAAAACTAAATCAAGTTGAGAATTTGTTATTAGCATGTTTTTAAATTCAGCAGCTTTTAAATCTTCTTTACTATTTGATCTAGGATAAGCTGGAGTAACATTTAAAATTATTGAAATTTTTTTATTTTTAAAATGTTCTTTAAAATAGACAACTACTTTTGCATGTGCAATAATCATATTTATAAAAACTTGGATTGATCTTTTAAAATCAGAAATTTTTGGATAGTGTCAAGCATATAAATACTTAGCATCAACATCTGCTAAAGGCTCATTAAAAGTTGTTCATTCATCAACAATATCTCCAAACAGTTCAAAACATTTTTTTGCAAAACCTAAAAAAAGTTCTATAGTTTTTTTGTTTTCTCATCCACCTTGCTCTAAAATCTCTTGAGGTGTATCAAAGTGATGTAAGTTAACAACTAATATAATATTTCTTTTTTTTATCTCTTTAAAATAATTTAAATAAAAATTATATCCATCTTCATTTATTGTTAAAGTTTCAAAATCATCTAATAATCTTGTTCATTGAATTGATGTACGATAAATTTCCAAACCAATTTCATCAATTCATTTTAATTTTTCTTTGTAGTCATAATAAAAATTACTAGTTACATCCGGTCCAACACAATTAAAAAAATCATTTTTATTTTGTTTATATCAATAATCCATTACACTATATTTATTTTTACCATCTCACCCTTCGGTTTGAGGTCCTGAAAGTGATACACCAAAAATAAATTCTTTAGGAAACTTTATCAATTGCTACCTCCAATTGGTTTGCTCCAATTATATTTGCATCATTTGTAAATTTACAACGATCTAAAACTATATTTTTTTGCATTCCAGATAGAAAATATAACTCTGTTAATTTTTTATTTAATAAATCTATAAATAGATCATTTGCACTAATTGCTCCTCCAACAAGAACAGCATCAGCATCTAAAACAAAATTTGTATTTATAATAAGCTTTGCAATTTGAAAAATTTGTTCATTAATTAAGTTTTTACAAAGTTCATCTTTTGCATATAAATTATAAATTTCTTTTCCTGATTTTGCTTTTCCCGAAATATTTTTATATTTATATTCTAAATTATACATTCCTCCATAATGTGAGCCGTTATGAAATTCATTTTTATCTAGTTTTTCTAGTACACAACCAAACTCCCCAGCAGCCAATTTTGAACCTTTATAAATTTTTTTGTTAATGATAACAGCGCCACCTATGCCTGTTCCAATAACAAATAAAAACAAATTTTGATATTTTTTCCCATTTCCAACATTTATTTCTGCAAGCGCAGCACATTTTGCATCATTTTCTATAAATACTTTTTTATTAAACTTTTTTTGCAATTCTTTTTTCATATTAATTTTATCATTATCAGCAATTGCTGAAAGACCGGTAATTCAACCTGAATTAACATCAACAACACCTGGAGAGGCAATAGAAATATTATTCAAACTTTTTAAATCAATAAAATTTTCAATGTAAAAAATAATTTTTTCCAAAAGTTCCATAGAATTAATTAATTTACCATACTCAATTTTATCTCTTTTAATTATTTCACAATTTTCAAAAAGTGCTACTTTTGTAGACATGCCTCCAACATCAAAACATAAGTTTCTTAACATATTTCAACCTTTGAAATCAACTCAAAAACTTCTTCTTTATTTTTTGAATTAATTAAGTTTTTTTTAAATGTTTCATCAACAAGTTTTCTTGCTATACTACTTAACATTTTTAAATGATCAACTTCAGCATCTTTTTCAGGTATTGCAAGAGCTATAAAAAAGAAAGTTGGTTTATCATCTAATGAGTCTCATTCTATACCTATATTATTTTTTAAAATAAAAATACCTGGTCTTTTTATAGTTGCTGTTTTTGAGTGAGGTATTCCAATACCATCAGTAAATGCCGTTGACCCTTCCTTTTCTCTTATAAAAAAACCTTGATAAATTTCTTTATAATTGTCAGCATATTTATTATTCACAAAATAATTTGAAATAAAAGCAAAAACTTCTTCTTTATTATTTAAGTTTTCGTCTATTACAATAGAATCTTCATTAAATATTTCTTTATTTATCATATATAACATCTCCATTTATTTTTATCGATACAATTTGATTTTTTTTAATTTTTATAGATGATAATTTTTTTAAAATTACTTCTTCTTTTAAATTAACTAAATCAAAAATTATATTTTTATTTTCACAAGCAATCATTAAATCAATTTCTTTATCCGTTGGATTAAAACCTCTAACTATTATATTATCTCCATTTTCTTCTTTTTTTATTGTTTTAATTACAAAAGAAGAATTATTAACTTTTATAGTTTTAATTTTTTTTGTATTAAATATAACTTCATTTGTTAGAAATCTATCGAATTTTTTATATAAATTATTAAAATTTTGTTTTTGATAATATAAGCAATCTTTAATATAAGTTTTAGATTTTATTGAGTGATTGTCATTTAAATTAAAATTAATTAGTAAGTTTACATTTAAAAAATAATTTATTAGTCTAGAATCAATTGTTTCTATATTAAATTCTGATGTTCCGCTTGATCTTCCAGGTCTTCACAGTAAATTGTTTCTACCCAAAGAAGAAACGGATCTAAATAAAGTTAAAACTAAATCTGTGTCATTTTTTAACTCATATTCATTTAAGTCCTTTGTATAAACAAAAACTCCGTTCTCTGATCCGCAAAAACTTTCAAAAGGTTCAATATTAACTGGTGCTTCTTTTCAACCATCTTTTTTTCAATTATCAAAATATTTATTATGTTCTCGATTGATAACACTATAGCATTGATCGTTAATTGTATAACTACTTTTGTCTTTACTTCTAAGTGATAATCTTCATCTTATATCTTTTGCTTTGTTTACCATATTCAACGAAAGATGAAGCTTATTACTTTCAAAAACTTTTAAAATGATGCTAACTTTTTGCTCAGTTTCTGCTTCACTGGTTTCTGAATTAGGCACTAAATAATATAAGTCAACTTTATAAATTTGTAAATTATCGATATTTTTTTTACTAAATCTTGATCTTAAAAAATTATTAATTAAAATGGTTTTATCTGCTTCAGGTGAAAAATCATAAGAATCCCCTAAATCTCTTTCTGCCTCTAGAAAAACTTCTATTATTTTTTTATTACTTTTACTTTTAATAATAATTTTTTCATGTTCTATTTTAATATCAAAGTTTTCATTTAACAACGATTCTTTATTTTTTTTAGTTTTTTCTATAAGAGAAAACTTTTTATAAGAAAACTCTTTCAACTTAACATTTTGCAAAAAAATATTATGTTCATAGAAACCATTTGCTTTTTCCACTTTTTCTCCATTAGCAGAAGGTTTGACTATCATTCCGCTATTGTGGTATTCACTTTTTAAAATACTAAAATTTATAACTTTATTTTCTTCATCTAAAATATCTATATCTTTATATTTAGAAAATATTTTAATTTGTTTATTTGTTATTTCTTCTGTTAATTCAGGGTTAAATATAATAAATTCTTCTTCTTTTATATTTATTTTACTAGCTATATTTTTTAAAACTTTAGTTTTTAAAGATTCAACTAAATCAAAACATCTATCAATTCTATTTTTTACATCACTATTTGTTCTATCGCTATTGCAACCTCCAATACTATCATGGGCTTGCGATACTAATAAATTTTTTATAATGTCATCTAAAAACTGTTTATTATAAATACCTGTGCTTAGGTAATAAAAAGTCATCAGCGGTTCTAAATTATAATAAAGCTCAGTTTCCAAACTTTTCATTTTAGATTTTATATCTTGTCTTTGAGAACCTATAGTCCTGTGTATTCTAGAAAGAAATGGGTACCTTAATTCTTCATCAAATGCATCAACCTTACTAATATTATTTTTTAAATCATCAAAAAACTTTTCATAATCACTAAGTATTCAATTATCTTCTGAAAATTCATTAAGTTTTTCTGTAAAACCTTTTAAATGTCTTATAATTGGTGCTTGATCACCACCTAATGGTACTAAAATGTGATTTGTGCACTTTTTAGATTTTTCTTTTATTGATTCTAACATTTCTTTAGTGTTATTTAAAAACCTCTTAGCACTTTCATCTATGTTTGATTCATTTATACTATTGTATGGAAAGTTTGCTCCAAATGGTCAATAACCATATTGCATATTATAAGAAAGTATCTTATCACCATTTATTCCTTTTCAAAAACTCAATACACCTTGCTTATCTAAAATACCCTTAGAAATACCTCTTCAATATAAAAAATTATTCAAGCCAAAAAGATTATATATTTGTGGCATTTGATTGTTATGGCCGAAAGAGTCAGGCACATATGCAATATTTAAGTGATTTGCTTCAAATTTTTTACAAAAATTTATTCCATACAGCAAATTTCTTATTATTGATTCAGAAGTGATGTTAAAAAGGTCAGGTTGTGTATATCATGGTCCTATAATTACTTTTTTTTCTTTTATATACTTTTTAATTTTATCTATATTTGTTTTATCGTATTTTAAATAATCATCAATAACAGAGACTTGTCCGTCATAAGTAAAATTATTAATTTCATTATTATCTAACATTTCTAATAACTTGTTTATGTTATCAAAAAGCAAGATATCACTATCCTGCTTAGTGAAATATCACTCTTTATCTCAATGTGTATGAGGTACTAAGTGAATATATCAATTATTTTTTTGCTTCATTAATTTCTTTTTCTAATTTTTCCATTGTTAGATAATAATTATTTTTAAAGTCTTCTTTTTCTTTTTTAGCAGCCTCTTTATTTTTTTGTAACATAATTCTTCTATTTTCTTTAATTTCAATTTTATTTGCTTTTTCTTCAGCTGTTTTTTTAGAAAATAATTTTTTAATTATTAATAATACACTTATAAATGAGTTTCATATTCTTACAAAAAAGTCAGCAATTGATAAAAATATAACTTTTCAATATTCACATCAATTTTTTCAAAATGTTTTTCAATAATTTTTTTGACTTTTGTTTATTTTGCTAAAAATTAATTTTGGTTTTTTAAAAAATAGTTTAAAGTTAATTCTTCTTATTATTCTTCTTTCTCTGGCTTTTCTTTTGTCTTCTAAATATAATTCATATTCCTCATCAGTTATTTTTCGTTTTAGTAATCCCGCTATTAAAGCAGTAACTATAATTCCTAGAACAATAGGTAAAATTCATGACAAGGGTCATAGAGGTCCTTTTATGTATCCTAAAAATGCTCCGATAGGTGAACCTAATCCTGCTGCAAATTTATTGTTTCATAATACTACACCAACACCAGCTACTACACTTCCTGTAATATTTGCTAAAATTATTCTAAATGGATCTGCAGCTGCAAATGGTATAGCCCCTTCTGTAATTCCAACAATTCCTGTACCGAAAGCAGCATTACCCATTATTCGCTCATTTTTAGTATATTTAATTTTAAAAATCTTTGTAGATAGTCACATTCCTAATGGTGGCACAGATATTGCAGCCTGTGACGCTGTACCAGGAACGAAGTTGGCATCTCAATATCCTAAACCTTGAGACATTGCATCTGCAAGTGTTTGGTAGAAAACTACAGTCCCAAATACTAAAGCTGTTTTATTGAATGGTCCACCTAAATCGAACGCAATCATTATTGATATAACAAAAGCTATGACAATTCCAGTTGCAGCAAATTTCTCTTCAAGAGAGCTTAAACCATCAAACATACTTAAAACTAAATGTGCAATAGGTGGTCCTATTAAAAATTTTACTAAACAAGCCATAATTGCAGTAGCAATAATAGGAATAATCATTATTGGAACAATAGGACTTAAAAATTTAGGTCAATGTATACTTTTTAAAAATTTTACTAAATATCCAGTTAATAATCCAACAACAATTGCTCCAATAAAACCTGCTCCAGGTTCTATTACAGATTGTTCAGAAACTTTAACTGATACACCTAACATATTGTTATCATTTATAATTCAACCAGCTATTAAAGCAGGTGCTAATCCAGGTCTATCAGAAATAGAATATGCAACAAAACCTGCAAAAATAGGTATCATTAATTTAAATCCTAATCCACCGATGCTCATTAGAAAGTTAGGTAAAACCCTTTTTCCTAATACTCAATTTTCTCCATAATCACCTAGACTATCAACATACTCTGTTTGAAAAGCACATAAATTGGCTATAGCCATTAATAACCCAGAAGCTATTGTTAAGGGTAACATTCAGCTTATTCCTGTCATCAAGTGACTTAATATACCTTGTTTTTTTGTTTTACCTAATGTTACAAAACCTTTTTTTGTTCCTTTTCCGCCTTGTACTTCTCCATAAACAAATGCATCTTCGATAAGCTTTTGAGGATCTTTAATAGCATATTTAATATTTACAGAGTAAACTTTTTTACCATTAAATCTAGTCATATCAATTTTCACATCAGATGCAATAATTACAATATCAGCTTCAGATATTTTTTCTAATGGTATTTCATTTTCTTTACCAATAGTGCCTTGTGTTTCAACATGAATATTATATCCAAGTTCACTTGCTTTATTTTTCAAACTGTCTGCAGCCATATAAGTGTGAGCTATTCCTGCTGCACAAGCAGTTATAGCTACAATATTTTTTGTATTTTTTGAACCTCCCATTAAACACTCACCTCCATATCTATATAAAACACTATAGGGTCGATATCGTGCTTTACATTGGGACTAAAACTGAATAAAAATCTTATTTGATATTTATTAGAAACAAAATTTTCTTCCCCTATTTTTCATAATTTTGATATATCTAATGTACTATATAATTTTTCTTCTTTAAAAGCAGGATCATTAGGTTTATTTTTATCATTTATTTCTTTATTTTCATTATTTATTTTTATTGCAGTTTTAACACTTTCTGAATAAGTTTCAGATAGCCACTGATTTTTTGATACAGATTTTATATCATTTAATCTCACTGTAAAATAATCATTTTTTAACAAGTTAAGTTTTTCCTTTGTTATTTCCAAACTATCTTCTAAATAATTATCATTTTCAGCACCATTTACAATATTCAATCCTTTATTTAAGTAACCTTTATCTTTTTCGACTAATGCATTACTTAATAGACCAATAATATTATCACTTCATTTTTTAGCAGCTTCTATATTTTGATCATCTTTTTGATACTCTCAAGGCATTTTATAATTAATTGATTTGTCAATTAAAGGAATATCATTATCATAAGAATTATAAACATCGTCCTGAGTAGTTTTAAAAATATGTTCTAACTGTTTAGCGGATAATGGGGGTGTTTTTCAATCGCACCCAATAATAGAAATGCTACTGATACTTATCAAACTAATGCTAGAAACAATACTTAAAATTTTTCTCATCCTTTCACCTCCAAATTTATTTTATAATTTATTATTTTTTTAAGTTGTAAATTAAAAAAAATGGAATATTATTCTTATAGGAGGCATTATGGCACTAAATATTCAAACATTAAATGAAAAACAGATAGATTTTTACAATTTCAGCATTGAAAAATATAATTTATTTTATTGTAAAACGCTTAAAGAAATAGCTTCGATATATGGATGCGGAATGAGTTTTATATATAATTTTTTTAAAAAACTAAATATTAAAGGCTTAAAAAATTACATTTCTGAATTAAACGGTATTATATACACAAAAAAGAGTTTCACTAATAAGATGTTTGACTTAAATATTAAAGAAAAATTTCAAAATTCATTATTTATTAATTTTGAACAACAAATAGAGCAAATTAAAAATATAGAGATACAAGAAAATAAAATAGTTTTAATAAAAAAAATACTGAAAAATTCTAATTATATTTACGGAATAGGTTTTGGGCATTCTAAATTAGCAATAAAAGATATATTAAGTTTCTTTGAGTTTTTAAATCCTAATACTATATTTCTAAACTATGATAAAAATATTGATATTAAGCATTTTGTAAATCAAAAATCTGTAATTATAATTTATTCAGTTAGATTGGTTAATAAAAAATATTTAACAATAATTAAAGAATTAAAAAAAATTGAAAATATTAAAATAATACTTGTAACAAGCAATAGAAATATTGATGAAGAACTGTTCGAAATTGTATTTTATGTTAATAATCCAATGAAATATCAAGATTTTTTTAATATGAATATTTATATAGGACCTTTAAATACTTTTTTAATGTTTAATAATTACTTAAAGTCTAGTATTTATCTTGACAATAAAGAATTTTTATTAAAAAATAAAAAATTTGTTAAAGAAACTATAGGCTGAGTTGATTACAAGGAAGCTGTTGATTTATAAAGTGATGTTTTATAAAAAAACATACTTTATATTCACAAAGTATGTATACTAATTTGAAAAAAAATATGTTTTTATATAAATAGAGTATAGTTATTAATTTATTTGAATTGATAAATTAATTACTTCTTTATTACCAGGATCAATTTGACGCATAGCCAACTTATCTCTAAATCTATTACCAATTCTTTTTTCAAGATCTGGTAATCCTCAATATGGTTCTATACAAATAAAATCCACATCATTTGTAGCTTTTCATAAAACAAAGTATGGCTCTTTATCGAAACTCATTTTAATTTTTTTATTTTTATATTCATACAATATTGAATCCAGTTTAAATTCATCAAATAATAAAGATTTAGAATCACTATAATCAACTTCAGAAATAACAACTTCTTTTGCATACATTTTTTCTTGATTTGGAATATATGTTCCACCTTTGCCGAACTTTGTTACATATGCTTGCTCGCTTTCAAAAACAACTTTTGAATTTTTATCAACTTTAAATGCTGGGTGATGTCCAAATGAGTAAGACATCATTTCTTTTCCTACATTTATAACTTCAAAAGTATATGTCAACATATTTCTTTCAATAATAATATTGATAACTAAATCGAAATCAAATGGATAAATACTTTTAAATTGATTATGCGCTCTAAACATACAGACCGCTTTAGTTTCACCTTCTAATTTAATATCTCAATCTTTCATTTGTGCAAAAAACCCATGTCTTGGTGTATGAAATTCTTTTTCATCATGAACAAATGGCCCTGATACATTACCACAAATTGGAAATAAAATTGGTCAAGTTTTATTTCAACTCCCATCTTGTTGATACAAAACTTCTTCTCCTTTATGTTTAATACTAACTATTTCTAAACCTTGGTTTGCAACTTTAAAACCAACGTTTAGAACATCATTTTTTAATTGGTACATTACTTTCACTCCTCTTTAAATACATGTTAATTTTACAAGAAAAATATAATTTAATTAAAATTAAAAAACTTAAAAAGTTTTATACTTTTTAAGTCTTACTTATTTACCTTTTTTAGCAAACATATTAGATACTTTTGTTTTAAATGAGTCTCTAACTAATACTTCTTTATTAATTACAGCTCTATTTGGTAATACCATTAATTCTTCTAAACCATAACCAATTTCAACTGAATTAATTGCATTTCAAAATCCATTTTTATATTCATTAAATTCTTTTTTATCTGTATTTTTATAAACTCAATCAATATATTCATTACATTTTGTTAAAGTTGTATCTTTAATTGATTTAACTCTATTAGCTAATTCTTTATAGTCATTTTCAACATTTATTAATTTATCTTTAAATAAATTTTTTTGATTTTCTAAATTATATTCTTCATATTTAACAATTAAGTTATTGACTTTTTCAATATTAACATTTGGATTGTTATATATTTTTTGTATTTTTAAATACATTTTATTTTTTTTATTTGCTTCTGAATCTTCAATATTGCTAATTTTAGTATTTAAGTTAACAACTTTTTGAATGTATTTTTCATACTCTTTAAAAGTTTTTTTATTTTCTTTAAACATTAATTTTAATTCATTAACTTTTTTTAAATTTTCTTCACTTAAATCATTATATTTTAGTTTTAATAATCTGCTGACTTTTCTAAAGATATTTGTTGAGTATTTTGTTTCATCAAAACGTTCTTTATAGAATAAGAATGCAAATAGAATAGCAACACCCATTACAAGACAAACCATTCCAAAGTATAAGATTTGATCTTTTACTTTTGTAAAGTTAGTAAATGGATAGAATATTCCTGGTCCCCCAACTGGTATATCTTGTTTTAAATCTAAGTTAGTTGATAACATTGTTACTAAGAATGCTGCAACACATGCTCATAAGAAAGGTTTAATTTTAGGTAAGTTAACCCCATAAATAACTGGCTCAGTTATTCCAAAGATTCCACTTGGAATAGCAGCAATCGATACCCTTCGTAAGTTTTTGTTTTTTGTAAAGATTGCAATACCAATACCCATACCAATTTGTGCAAACATAGCTAAAGTGTTTGCTGGATATAATAATGTTGGTTCACCTTTCAAAACAGGTATACCAATAGCGACGTTAATTGGAACATGTAATCCTGTAATAACTAAAGGTTGCCATACAAGTGCTAGAATAGCTGGACCAAATCCATATGGTATTTTTTCAACCCCTGAAATTACTTTTGTAACACCAAGTTCTAGTAAAGATAGAGCTGGACCAAACACAAATAATACTGGTAAGATTGTTGTAATAACAACAAGTCCACTACCAAACACCATTTCTAATGAAGGTGTTAAGAATTTTTTAAATAATTTTTCCAGTTTTGCTGCTAAAAATCCTGCAAATACAAACGGTAAAACACTACCTTCGTATGATTTAACAACAACTGGATAATCACCAATTGAAAATAAGAATCATCCTTTACTTCCATATTGACTATTTTCAACAAATTTTCCTACAGAATAATCATCAGGATTAGTAATTCCATTTTTTGCCATAAAGAATCTTGAAACAAGAATCAATCCAACAAATACTCCTAATAAATAATTTCCTCCAAAATATTTTGTAGAAGTTATACAGAAAAATAATCCTACAAGTAATATCCCTACTTTAGTCATTGCATATAATACAACTGATAAAACATCTGCATCTTGCATATTAGTTCCATCACCAAGATCTTTTGCTAATTTAAATTGTACTAGCAATGAATAAATTAATGCAAGTATCCCTGATGCAACAAGCACTCTAATGTTAGGACCAATTATTCCAGAAAGTCCTCCCATAATTTTTTGTCCAACTGTTGTTTTTTGAGCTTGCACTTGAACTTCTTTTTTACTATCTTCTTCTTTAATTCTTAAAATTTCTTCTTTTATATTAGCACTTTCTGCTCCAACTATAATTTGTAGTTCATCACCAATTCAGTTAATTCCTTTAACCATTTTGGTTTCTTTAATTTTATTTTCATTAACCAAACATTTGTTAATAATTCTAAATCTAACTCTTGTCATACAGTTATATACTTGTTTAAAGTTGATAAAACTTCCAACATTTTCTAATATTTTTCTAGCAACTGCATTGTATTTAGATTCAGATTTAACTAATGCTAATTTTTCTGTACTACTTACTTGGATAATTTCAGGTTTATCTTTTTGAACTAATTCAATAGTACAAATTAAATCACCTTTTTTATATTTGCCTTCTTTATAATTTATTTTTTCAATTTTATTTTCATCGCTTGAAAAAATAAATGGACATTCATTAGGGATATTATTTTTTTTAAACTTTTCTAAGTTTACTTCAAATAATTTATTTTCTTTTTTTACAATATCATTTGTTTTTAAATCTGTTTTAAAAGGTTTACCTTTTAAATTTACAGAATCAATACCACAATGGATTAGTAAATTAAGTTTTTGGTTTTCTAAAATGTAAGCGTGTTTAGTTTCTCATACCAAATTTACTTTAGCTTTTTCAAACGGACAATAGAATTCTTTTTGTTCTAGAACAAGTAGAAATCCATCACCCATTGATTTACTAGCAAAAGCTTGGTCTACACTTTTGTCCAAATCTTTTAAAGTACAATCTTGAGGTGCATATACTTTTATCTCCATAAAAATTCCTTTCTTATTTTGTATAACTTATTTTTTTTATTTTATTAGTTTTTAACTCAACCTCTTTTTGTAACTCTAAATTTAAATCTCCTATTACAAAAAATTTGCTTGTTAATAATTGATTATCTACAAAGACTTCTATTATAGAATTATCAATCCAAATATCCACTTGTTTTAGTTTGTTATTATTTTTTATATAACGAAAATCTCCAAAATTAGATTTTATTTTTAAAGATTGTTTTGATCTATCAAATATAACTTCGTCTTTTTTTATTTCTAAACAAATATACTCATTTTTTTCATTTTTTATTTTAATAACATTTTCATTCGTACTTAAACTTATTCTTGCTGGTAGGTTTAAACTTTTTATTAATTTAGTTTTTTCGGATTTTAAATCATTTTCTAAAATGTTTTTTTCAAAAAAATTAAAAGGTTTTTTTTCTAACTTATTATTTTTAATATTTAGTTCAACTGGAATACTCAATGATCCTGTTCAATAATCTTTATCACTTGGATACTCTACGTCAAGAGTTCCAACTCATGATATTGCAAGTAATTTTTCTTCATATCAAAATGTTTGAGTTGCATACAAATCTTGTCCGTGATCGAACATTTCAAAAGGTTGTTCATCAATTAAATCACCATTTTCAAAATCTATATCACTACATACAATACTTATAACATTGCTAGAATTTTGTAAATTATACTTATCAGTATTATTAACTCCTTGAATTGAAAACATAACAACATACATGCCATCAACTTTTTCTATATTTGGACATTCTCACATGTATCCAGGATCTTTAAGTTGTTTTAATTTAATGTAAGATTTAAAAACTCAATTGTCTTTTACTTTTTCAAATACTGCAATAGTTCCCTTTTTTTCAAGAGTTTGTGCTCCTACGATCATATATTGTTTGTCATTTGCATAGATTATTTTTGGATCTCTAATGTGTTCTGTGCTAATTTTGTTATCATGTTTTACAACTACTTTTTTATTGACAATTTTATTATCAATTAAGTCCCCAACGATTTGATGTTGTGTTCTAATTGCATTTTCGTCTTTTTCATTACCTGTATAAATTATTTTAATTTGGTTATTTTCTAAATATGCTGATCCAGAAAAACAACCATGATTTTCTTCTTTTAGTTCTGGTGAATTTGAATAACCACAATCAATATAGTGAACAAAATCTTTTGTCTTTACTAAATATCAATACTTCAATCCATGAATAGCTCTCATAGGATGATTTTGATAATGAATATAAAAATATCCATCCTTATAAAACAAACCATTTGGATCATTCATTAATCCATTGAATGGTGATATATGGAAATAAGGATAATATAAACTATATTTAACAATTTCATTAACTTTATCAATCTCATCATTACTATATTCAGTAATTTTTTTATATCTGTTTATTTGCTCTGCCATTTTACTTTCCTTTTTCATTAATTAAATTTTAGTAATTATTTATTATCAAAAATTGCTAGATTTATACAATTAATGATACAAAAAAATTATAAGTTGCATTTTAACAAAAAAATAACTCATAGTTATGAGTTATTTTTTATAATATTATTATTTAGTAAGTAACCTTTTTATTTATGTATTTTGCAACATAAATTGATACAAATAATAAAAATAGTGAAGCTGTTATTGGAATAAGTAATTTAATAGATAATGAGTAAATATCTTCTCCTTTAACAATAGTGAAAGGAGAAAAATATAAAAATCAATCTGCTACATTTTTATTTATTTCTGCTAATTTTATACTAATTATTTTATTGGATATACAATATACAATTATTAACAAGAAGTATCAAAAAATATGATAGTTGAGTGTTTTTCCTAATAAGAGCATATAAATTACTCCAAGCATAGCTACTGAAAACGCTATAGTTCATAATATCAAAATCTCTAAAATAAATTTGCCTAGTTCTACAGGATTTGCTTCGTTACTTACATTTAAAGAAACTAATGTAACAATCAACTCAATTAAAAAATAAAATATTTCTACAATTACAAGAGTTAATAAATTTGATAAAAATAAGTTCAATTTAGTCATTCTTGTTGTTAAAAATATTTGATATTTTTTTGTTTTAACATTTTTAAAAAATAAGTAATATGCACGAATCATTAAAAATATAAATAAAAATGGCAAGACATAAGATGAAATATTACTATATATTTCAAAATTAACATCACTTTTTTCCTCTGTTCCAAAAATTGTTGCTAAAAATGAAAGAGATATTATAAAAAAAGGATCAATAAACATTATTCAATACTTTTTAAATTGCAATAAAACAAAATATAAAGTAAAGGGTCACCCCGAACTACATATATTTTAACAAATTACTCTCAAAAATTTCTTTGGAAGTATTTTTTAATTTGTTTATTATTCTATTATTAGAAAAATTTCATATACAATCTTTAATTCAATTTATAAAAGTTCCATTATCTTCAAACTTATAACGTACATAATAATTTTGTTTTATGCTTTTAAAAAATGTTTCTACTATCGAGTTTTGTCATGAAGCATATCTATCTGTCATGCTTTGAATAATATTGTAATTGATACAAAATTCTTTTATAATTAAACTCCTAAATTGTGATTCTCTATCCGTATGGTAATGCTATTTTTTACATCATATTTAGCAACTAAAAGTTGCATACTATTAATAAGTTCTTAGTTTGTTAGATTATTTGCAAAATATGTTATTAAAGGTACCTAGAATATATATCTATATAAGCAAATAAGTAAATTTTTTTGTTTTTTATTTAAACTCCGAAATATCTAATCAGATTATTTCTAGCGGTTTATTTGCATTAAATTCCATTTTATTTGTTTCTTGATTTTTTAGTAAATTAGGAGCAGTATTTATTAGATCTTTACTTTTTTTAATATAAGATTTTGATTTTCTACTTTTTTCACAATTTTTAAGAACTAGATTTTGTGTTTTCATAGAATTTAACACCATTTTCAACCTAAAACAAATTTTACTGTAATTTTTTTATGCCCTCATTTTCAATGAGTTCCATGTTTTGAATCTTCATTATAAAAAGCTTTGTTTATAAATAAGACATAACTTGTTTCTCTTTTGGTCATATATTCTTTTAAACCATTTTCTAATCATTTTTTATAAGCTTTAGAATCAATATTTAAAACTTAATTAGTCAGAAAATGATATATTTTTTTACTCGTACCTTTTTGCTAATTTATAAATTCAATATTTATTTTTGTTTTTTCATTCCTTGACTAGAGATGCTGCATACTTTTCCATAACTTCTGCTTTACTTGTTAGTTTTTTATTTACTTTTTCTTTATATTGCATCTCTCTTCTAAAATGTTTCAACTCTTGTTTCATTGTTTCGAACTCAACTTCATGACTTATTTTTGGTTTTCCCCTCTCTGTGCATCAATCAGCCCTGCGATTCCTTTTTGTTTATACCGATTTTGTCAAACATAAATAGTTGAAGTTTGTTTAAAGTTGTATTTTAATGCTAACTTTCTTGCGCTTATATCTGTAGTTGCAAATTCATCTATTATTTTCTTTTTTTCTTCAGAACTAAATAGCTTTGTTTTTGCCATAAAAAAATCACCCCTCTACAAAAATTATATACATAATTTTTATGTAGTTTGGGGTGTCCTTTTATTTAAGAGATGTTTTTTATTCCAAATTTAGTTTCATACTAATATGTTCAATACCCGCATCAACATATTTATCACCATATTCAACAAAATTAAATTTTTTATAAAAATATATAGCATTAACTTGGGAACTAATGTGAATTTCACTTGTTTCAAGTTCATTTTTTGCAAAACTCACAATATGTTTTACCAATTTTTCTCCAACATTCTTGCCACGATAATCTTTGATAACAGCTACTCTTCCTAAGTATCACTTGTTATCTTTCATATATAATCTCGCACAACAAATTGGTTGCGAAATTAAATATCCTACAAAATGATATGATTCCATATCATAATCATCTAATTCTTCTTCTATTGGTACATTTTGTTCATTTACAAATACACTTTTTCTAATTAATAAAGCATCATAAGATAATTTACTGCCAATACCAAAGACTTTTCCAAAATCTATACCTTCCATATAATTATCCCCAATCTACTAAAATTATATAATACTTACATTATTTTACAAAGTATATTACAAATTATATAATAATAAAAATACAACCTAAGGGAGATAGAAAAAATGAAACAATTAATAAGTTTATTAGGTTCAATCGGACTTATAGCAACTTCTTCAAGTATTGTTGTTGCTTGTTCAAAAAAAGCAAAGTCTGAATTCTCAAATTCAATTACGCCAAATAATGTAAAATATGGAGAAAAACAATCATTTAATGTAGAAATAATAAATCCAAGTGAATATGACAGTTTGAGTGTAGAAGAATTACAAGGAAATAGTTATTTAACAAGTATTAAAGTTGAAAAAAACAAAGGTGATATTAGTAAATTTGTTGTAAGTTATATGGGTAAAAAAGTAACAGAAAAAGCTATTATTAAATTATCATATGGTGATTTAGTAAAAGAAGTTAACTTAAAAGTTGAAAAAAACACTTTAGAAGGTCTAATAAAAATTAAGGATCTTGGCCGTATAAAAATGGCTAATGATACACCTACAAAAGATGAGTTATTGAATGCAATTGAAAATGCTAATAGTGAAATTTATTCTCAACAAACTCTTTCAAAAAGTGATTTTGAAATACAAAACGCATCAAAAACTGAGGCTACTATAAAAGCTAGCGGTCAAAATTTAGAAGGAACTATTGAATTAACTTATAGAAACAATGCCAAAACACAACTTAACAGTTTAATAAAAATAACTAATCTTGGTCAAATTGAAGGTAAAGAACTAATACCTAGCGAAGAAGAAATTTGAAATAAAGTTAAAGAAGTAAATATAACACAAATAAAAGAAGAGGAAATTAGATTAGAAAGTTTAATTTTAAATAGTGACTTTACTATTACGAAATATAATTCAAATGCAGCAATAAATTCAAGTCCAGCTTCATCTAAAATAGTTGGTAATGTTCAAGTTAACTATACATATAAACAAAAAAGTGGAATTTAAGTTTCCACTTTTTTAATGTTTAATTTTTCTTTTTTCAGTTATTAAATCATATGCATTATTGATTTCGCTCATTTTCTTTTGAGCTTCTTTTGAACCATTTACATCTGGGTGGTATTTTTTTGCAAGTTCGCGGTATTTCTTTTTAATATCCGCATCTGTTGCACTAGTTGAAACTCCCATTATTTTATAAGCTTGAATTAAACTTTTTTCTTCCTGATTAAACTGTTGTTCATTTGAATAATAATCATCGCTTGAAGATTGTTGATGCTGATCGTTGCTAAAATTACTTCTTTGATCATCTCTTTCTCTATTATTAGATCTTCTTCCCGTTCTAAAAATTGATTGAATTATCATAACAATAAAAATATAGTAAAGAATTCTAAATATTATCTCTAAAACTTTATCCATTATCAATCACTCTTTCTTTACTACCTTACTATTAAGTATACTATGATTGCAACAATTACTAACAAAATAATTACATATGCAATAACTTTATATACTGTAGAATTAATTTTTTTTCTTTTTTTAATCAAATTTTCTTTAATAATTAATTCTTCATCTTCTTTTAAAGTTTTTGTTTTAACTTCAGTTATTGTAAGAGATTCGTCATGATATTCTTCAACTTTAAATTCATTTTCTAATACAAATGTTTCACTATTTATAACATTGCCATTAAAAACTCCAAACTTATTTGTATTTTTTTTATCTTTATTCTTTTTCAACTAATTCACCATCTTTGCATATATACTGTTTTATTTTATTTTCTATCGAATAATTAATCATTTCATCTAATAATAAATTTTTTTCTTGATCTAATGCTGTTAAAATTCTGGGTTTTGTAACAGGACTTTTTGGAACGTATAAAGAACAAACATCATCAAATGGTAATATTGATGTTTCGTATGTATCAATTTTTTTTGCCACACTTATTATTTCTTCTTTATCATAAGTAATTAAAGGTCTTAAAATTGCAAGATCTGATGCTTTATTAATAACGTTTATTGACTCGATTGTTTGTGAAGCAACTTGCCCTAAGTTTTCTCCTGTTATTATAGTTTTTGCACCAATTTTATTAGCTAAAATATTTGCGATTCTCATAAAAATTCTTCTCATGATTGTGATTCGATAAGACTCTTCTTTTATATGCATCAATTCTTGAATAATCATTGAAAAATCACAAACATATAGACTAAAATTTGTTTGATTATATTTTTCTAATTTTAATGCTAAGTTAAAAACTTTGTCTAAAGCTTCTTTTGAAGTATGGGGTGGAGTCATGAAATGTAGAAAATCAACTTGCATTCCTCTTTTTAATGTTAAATAACTTGCCACAGGAGAATCAATTCCTCCACTTAATAAAGAAATTGCTTTTCCCCCAACCCCAACCGGAAGACCCTTTGATGCTACAATTTTAGAAGTGAAAATATAAGCACCATCAATTTTTATAATAACACTAATTTTATTTTCAGGATTTTTTACATCAACTTTTAAATTATTTGTATTTTTTAATATATTTGCAGCAATGCTTAATTTTAAATCACTAGAACCAATTGAAAAACTTTTATCTTTTCTTTCAACTTCTATTTTAAAGGTAAACTCTTTTAAAGTTTTTGCAATTTCTAAGGTTTTTGCTAAAATTTTATTTTCATCTTTTTCAACTATATCAACAATTGAAATTGAATAAATACCAAAAACATTTTTTATAATATTTATTACTTGATCGCAAATCTCATTTTTTACAGATAGAGTTAAACTATTGTAGTCTTTTTTATAAACAATATCTTCTTTGTACTTTTTTAACTTAAATTTAATATTTTGAATTAGTTTATTGATAAATATATCTTTGTTCTTACCTTTTAAAGTTAGTTCCCCATATCTTACTAATATGCTTTTCATTTTTTCCTCTTATCGTCGTTTCTTTTGATTTTTGTTAATGCATCCAATGAAAGATTTATTAATTGTTCTAAATGTCTTTGCTTAAATAGTTTTTCACATTGAATAATTAATTGTTCAACTCCATCAAACTTACCCACATATCTTTCTAAATATATCATTATTTCTTGTGAAATATAATCTAAAAAGATAGCATCATTTAAATCCCTAAAAATCATCATTATATCATTTGCAACTCTATCCAGTTGGATGGCAGCTTGTTCTTTTTCTTGATTTGTTTTAATTTTACTAATTCTTTCTTTTGAAAAACTTGTTAATTTAGCATGTTCCATATTAACACTTTCTTCAAAGCGTTCTTTTAATTCTTGAATTGATTTAAATTGATTTATTTTAACTTCGCATTGACTTAAAATGCTTTGTAAAAATATAATTTGATTTTCTAATGAAATTATATTTGTGCTATTTTTTTCAATTATTTTTGTTGATTTTTCTAAGTTTTCAATGTCATCAATAGCTTTTGTTAAAACTTTTAATAACTCGTCTTTCAATTGTATTAAATTAACTTCTTTTCCGCTATTAATACCAACATCAAAATTTGCAAAAACTAAATCAAAGCTTTCTTTAGTTTTTAAAAAATCTGCTCTTGCTGCTTCAAAGTCACTTCTTTCTGGACTTCTAATTTTTGATACATTATTTGTATTAAAATATATTTTTTGGATATTTCAAGTTGCTTTGACAACATTCTCTAAACTTAGTTTGATAGATTCCGCTCTTGTTGAAAAATATGATTTTAATTTATCATCATACTCTAAAGTGTTTTTAAAATTATCAATAAGATCATTTATTTCATTTATTTTTTGTGATGCAGTTTTAAACTGTAATTTTTTGATTCAATTTCTAACTTCAACTCTTAAAATATCAACTTGTTTTTCTAAAGATACAAACGCTTTTGCATTACTTGTAAGTTTTTCATTTGTAGCATTACCAAATGTTACGTGTTTATTTTTAAGATCTAATAATTTTTCTGGAATTACAGCTTCAACTGATGAAAAAATATCTGGAATAGCTTCTAATAATTGGATTAAAAAAACTAAAGCACTTCTAATATCGCCTAATATTTTTCAACATTGATTTAGTCACCCTTCTTCCATATTTAAATAAAAATCTTCAAATAAAACTTCAATTTTACTAATTAAATCACTTAGTTTTTTTTCATCAATATCTAAATCTGAAAAAGTTATAATAACCGCTTCTTCTTTAATAGAAGTAAATAGTTCTTTTAAAAAAGTAATAAAGTCTCTTTGAATATATTCAATTTCTAATTTTGAATATATCTCTACAAAAACTTCATGAATTGTTTTATTAATTGCTATTACATCTTCATAAATTTTTTGATACTTTCTTTGGTTTGCTAAAGTTGGTTTTGTAGTTTTTCGATCTTTTAATAAATTAACAAAACTTAACATTACTTTTTGCAGCTGTTTTTCATAAATTAACTCATATTTAGTTCTTCAAACTGCATATTCTTTTTCTAAGTTTTCAGTTTCTTCGTAAATATTTGAAATTCTTCTAATTAAATTTTTTAAAGGTGATTTTGAAATGGTATCAAATAAATCTATTATTTTTGCAATTGTTTGAATAATATTTTTATATACAGATAAAACAATTAATATTATTGTCGCTATTAAAAAGCATCCAAAAAAAACTGCCATACAAGCAATCGTTACTGGATTTGTAAATAAGTTATTTATATCCCATGATAATATCATTTGCCTACCCCATTAAATCATATTAATTATAGCATAATTGCATATTTATCTTAAAAGGGAAAATGCACAATAAATATGATACTTATCTCGAGTTATGATTAAAATCTATTTCAATTAAAAAAAACTCGTTACTTTTAGAATTATAAACACCATACATTCTTAATTCTGTATTACCGCGTATCAAATCATAAATATTTTCATCAAAACTATTATTAAAATAAGAGATACTACCAAGTACTGATATAACTCTATTGATTGTTAACTTACTTTTTTCCAAAATGACCTTATTTACTATTAATCAGCTCCATAAATGTTTTTCCATTACAATTATTTAATACTTCAAAACATTTTTTCTCTCATCAAAATCCACTTTAGATGGAAAAATGAAATATTTTAAACAAAAGTGTATTGGTACTTTTTTTACTAAATCCGGAGTCGAAAAATCTAATTTTTTTGTACTCATTTATCTAAGTTCTACGTTTGAAAAGTATTCTTTTAAAAAAACTTTATCTATAACTTTTGATTGTTCAGTAGCACCTCATGGCGAATCTTCAATATGAATTAACTTAACTAATCTTCAAGTAGAAATTTTAAATAAAATATCTAACAGGTTTTTTATTAATTGAACATCTATGTGATTTTCAAGATTTAAAGTATTTTGAAATAAGTCTTTTGGTAAATTCTCGTTTTTATTTAAGTTATATTTTTTAATTTCATTATATAAGATTTCTATGACAGGTCCAAATTTATAAGCTACAAAATCATCTTCAAAAAGTTCTTTTTTGTATATGAATAGTATAAACGATACAAAAAATATAAGATTTTTTATAACCTTAAATGTTTAAAATCTATAAAATCAAAATAATTATTTTCTGAATCTTCTAACAAGTTTGCTTTTTTTGATAAACATAATCAATAACAAAATCAGCAACATCTCTAGCTGTTACTTTTTCCATAAAAAAACACCTTTTTTTATTTTTATTATAGCAATATAGTATAATAAATAAAATATTTTAGAAAGGATTTTTGCTAGTGATAAAAATTAAAAATCTTAAAAAAACTTATAACAATAAAACAGTTTTAAACGTTGAAAATTTAACATTAGATCAAAATCAGTGTATTGGGATTATGGGTAAAAATGGTGCTGGAAAAACTACTCTTGTAGAAATTATAATGGGTTCTAAAAAACAAAATGAAGGTGATGTAATTATTGATAAAACAGATCTAAGAAAAAATGCAGTGTTTCAAGAATGTCAATATGAACAAGATTTAAATTTAATAACTATAGCAAGATTTTATAAAAAGTTATTTAAATCAAATGAAGATCTTGAAGTTTTATTTGAAAAATTTGAGTTAAAAGAGTTTAAAAGGAAAAGATTTATTAAACTGTCTGGAGGAGAAAAACAAAAGTTTAAATTATTAATAGCATTTGTTAATAAACCAAATTTACTTTTACTTGACGAACTAACAACGTCATTAGACTTTATTTGAAGAGAAAAAATATATGATGTTTTAAATGATTATATAAAAGAAAATAAAACAACAATTTTAATGGTTTCTCACGATGTTAATGAAGTTGCCAAACTTTGCCAAAGAGTAATTTTTATAAATGATGGTATTGTAAAAAAAGATTTAAACCTAAATAAAGATATTAAAGAAAATATTGAGATTTTAGAAAAAGAGGTTATATCATGTTACAAATAATTAAATTAGAAGCATATAAGTATGTGAAAAATATTTTTGGAGTAATTTTTGGTTTAGTCTTTCCCATAATGTGAACTGTCATAATTGGTGTTGCATGAGGAAAAGAAACATTTTATATACCTAATGTTAACAAAACTGTTAATGTTTTGGACTATTGTTTCCCTGCACTAATGGTAATGGCTATTTTAAGTTTCTCAGTTGCAGCTATTCCTATTACTTTATGTTCAAATCGTATCGATAAAAGAACAAAAATAATTGCCCTAGCAAATATTTCAAAATTACAATACATAATTTCATTAATGCTTTGCTATTATATAATGTATTTTATTGAGTTTGTAATAGTTTTAATAATAGCAATTACCGCTTTTAAATTAACAACTTCAATAGCGATGATAATGTCACTATTATTTATTCCAATTGTTATATTTGTATTACATTTTTTAATATCTGTAAGTTTAGCTAATTTTTGTCAAACTATGACAATAATTTCTTCAGTTTCATTATTATTTTTAATGATATCTTTATTCTTTTCAGGATCAACTGTATCAACTTATGTAGTTGACCCAAATAATGCATGATTTAAATACATACAATATATACTCCCAACAGGAAATGCAGTACTAATAATCAACAGTATTGCAAATCAAATAGATACTTCAAAGATATGATGAATATATGTAACTAGTTCTTTATACTTTGGATTATTTACATTTTTAGCAGTAAAATACTTTAAATGAGATTAAATGACTTTATAAGTCATTTTTTTTACTTATTTATTAAGTTTTTATAAAATAAGGTTAAAAATCATATATAATTATTTTTGGTTAATCTGCAGGTAAGCATAATAAAACAATTAGTCTGTGATTTAGATATAGATAGTAACTCTTGCAGATAAGAGCGAAACACAGACTTCCTTTATTAGAGCTTATATTATTCTTAAGCGATTTTCCAAATTAATATATCAATCAAAAAATAAGGAGATTAATAGATGTCAAGATACACAGGATCTAAATTTAAAAAAGCTCGTCGTTATGGGTTTTCAATTTTAGAAACAGGTAAAGAATTTTCAAAAGGTAAAAAAAGAACTTCTGCACCTGGACAACATGGAGCAAGAAGAAGCAAATTGTCAGGTTATGGACAACAAATGCAAGAAAAACAAAAATTAAAATTTATGTATGGATTAACTGAAAGACAATTTAGAAATACATATGCAAGAGCTAAAAAAATCTCAGGTATTACAGGTACTAATTTTATGCAATTATTAGAATCTAGATTAGATAACATAGTTTATAGAATGGGATTAGCATTAACAAGACAAGGAGCAAGACAATTAGTTTCTCACGGTCATATTTTAGTTAATGGTAAAAAATTAGATATTCCTTCATATACAGTTAAACCTGGTGAAGCGATTGCATTAAAAGATAAAATGCATAAAAATGATAAAGTTATTGAAGCAATGGCTTCAAGTGCAAAAACAGTTGAATTTGTAAAATTTGATCAAAAAACTTTCTCAGGAACATTTGTAAGACTACCTGAAAGAAATGAATTAAACCAAGAAATTAATGATGCATTAATTGTTGAATGATACAACCGTTTAATTAAATAAGAAAAACCACGCTTTGCGTGGTTTTTATATTATCAATCAATAACTTCACTAGCTTTGAAGTTACTTGTCGGAGAATGAATTTTTTCACTTATTTTTTGAATGCTTTGGTTTTTTAAATAAAAATCATTATATACTAATTTACCGTTTTTTAATATTATCAATTTATTTATAAATTTCTCAAGAAACTCAAATGAATGAGAAATAACTACAATTGTAACGCCTTTTTTAGAAAGTTGCTGTAAAATATCAAAAAATATATTGTTATAAGCATCGTCTAAATTATCTGTTGGTTCATCAAAAAAAACTACTTCTTTTTTGATTAATAAGATAATCATCATATAAATTCTCTTTTTTTCCCCAGTACTTAAGGTTTTCATATTATTAGTCATTTTATTTTCTAGATCCAATTTTTTTGAAAACTCTTTTATTTTTTCTTTATATTCATTAGATTTAATACCATTAACTTCACAAAAGTGAGAAACTAGTTCTATAGGTTTCATGTTAATTGCCATATTAGAAACATCTGGAAAATAATTAAAATTTTTGCTGTTATAAATAATGTTACCGCTACTTGCTTTTATCAAACCTAAAAGAGTTTTAACAAGTGTTGATTTTCCACTACCATTTTCTCCAACAATTCCAATAATATCTCCGCTATTAATTTCTAATGATATATTTTCTAATATTGTTTTTTTACCAATTTTTTTAGTTAAATTATTTACTTTTATCATATTAATCCTTTCTATCACATTTTTTCATATCTTTTTACAAAAATAAATATTGTTCCAAAATCAAGTAAAACTGATATTACTAACCAAGGAATATATAATGCATAATAATTCAATAGTTCACCTTTTTTATCTTCATTAAAATATCCATCACTATAAATATCTATATTATAATCATTATTAATTTTAAACTCACTCCCCATAAATTCAGTACTATAGTTTTTAGAATATAAGATTAAATCATCTGAAGTAGGTTCACTATAACTACGTCTATCATTGTTTAAATATGTTAAATACTGTGTCATATAAACACTTTCAATATTAATTTTTCCATTAATATATTTAACACTGTCACTATAAATTTCATTTATAGGAACAAAGATCTCTTTTGAATTATCCGTAGATGATGTTAAATGATAAACTATTGTTCAGTTTTTTAAAAAAAATGAATTTAAAGGTTCATAACTCATAACTAAGGAATCTGCTAGATAAATAGTTTTAGTTAAGTTTTCTTTTAAAAAACATTCATAATGTCTTTTTTTAAGGGCAAAAAAATCAGAAGAGAATTTATAGTTGTTATTAATATTTTTATAATAACTATAATGGTAATCAACACTAGTTCTATATTTATCAAGCTTACTTGGTTCATTAACAAGTCTCTTATAATAAAGATCACTTAATGGACCAAATGGTTGATTTGCAATTATGTCAGCATAAACAGAGTCTTTAAAACCATAAGCCATTTTTGACATTTGGTTAAAATAATTAAATCTAACAGAGTCATAAAAAGATTCATTTAAGTTAGTTTGTTCAATATATAATTCATAAATATATGAATTAATATTATTATCTTTTTTTAAATCATAAAACTCATTAACTATATTTGAGTAGAAATCAATTAATAAAGCGATTTCAGGATGTGCTTTTATAAAATTATATTTGCCATTATTTTCATCAAAATAATAACTTGGATTTTTAAAATTAGAATACAAAAATGAACCATTGCTAAGTGTTAATTTTTCATATTCAAATCTTTTTTTATAATTATTTAAAAAATTTAAATAACTTTTATTATTTGTTTTATTATAAAAATTTTCTAAAATTTCATTCATTATAGGTACTTCTTGTCAATTATTATCATATAAGTTATTCATATCTAATAAGCTTTTATAAGACATTTTAAATAAATCATTGTTCATACTTAAAATTTCATATTGCTCAAGAATAAACTTCATAAAAATATTGTCTTCATTTCTATCAATAAAACTATCATAAAAGTTAGTAGCATTTAACAAATAAACTTGTTGTGAATAGTATGAATTTTCTAAATTATTTTCAATATAGCTCATCAAACCTAATTTATGTCAATCTTTTATAAAATTTGATGTATTTTCTCCCATAAAATTTTTAATAGAATTATAGTTATCGATAGTTAGTTCAATTTTTCTATAAGCTTTATTTGATTTAACTAGCCCAATCCCATTAATATCATCACTTTTAAAAAAGTAATTACAAATCAAAGAAATTGAAAAAATTAAACCTACTACAAACATTATAGTTGCAACAAACGCTTGTTGACTTATAAAAGAAAGGCAAAACTGATAAACAAAATCTAAAAAAAAGGAAAAAAACAGTAAATATAATCAATAAAATAATCTCTGATTAATTAAGTAACTTTGATAAACTTGGTCATACTTAATCATAATAGTATTTACTATAAAAACTTGTATAAAAATTAAACCTAGTATAATTATTTTTTGAGTAATAAAACGTGACAATCAAATAGTTTTTTTATTTATACCACTTACTATTTCCATGTTAGTTTTACCACCATACAAAGCATTATAAAATAAGCTTGTATTAATAAGCAAAGTAAAAATTACTATAAAAAATAAATTAATTATAAAAAAATAAAAACCTATTTGTAATTGTTTTATTTTGATTTCTTGATCTTCATTTTTGCCAATAAATAATAATAGCGAGTAAGACACAATATTAACCAAAGTTAATAAACCATATAATATGTATATTGATTTTAATTTAAAGATTTGTTTTATGTTACATTTTAATAATACTTTCATAATATACTCATTTCATTCATTATTAGTAGTTTTACTACTTATTTAATTATACAATAATTTAAATAATATTCTAACTTGTATAAGTAAACTTTTTTTTAAATTAATTTAATAATATTTGTTCGTTTTTGTTATTTTCGTTGTTTTGTAAAGTTGATTCAAAAGCTGCGTTTGATAATAAGTATTTATTTATATTAAATAAAAACAATCTTGCTAAATTAAATAGTTAATAAATTGAATTATAACCATTAATAACAAGATTGTTATTTCATATTTTTTTAAAATAAATTTTATTTTATTTTAAAAATATTTATATCTTTTGAAGTAAAATATTATGAAATTTTTACGCTTAAAAATTTTGCTGATACTTTACATTGAACGTTAGAGTTATTTCATTTGCTAGCAAACTTTCCTGATATTGTTATAAGTCTAAAATGCATAATACCATCAACTGATGTATAATAATCTATTACAGCAGCTGCATAAACTTTATTTTGAGCATAATCATGTTTAAATTTCATAACAACATTATTTTTATCATCATCAGTTAAACTATCATAAAATTTTTCTGGATTGTTTAAATAATTTTTATATTTCCAATCATAAGTATAAAGTGGAAAGCCGTTATCGTCAAACCCTAATGGTTTTTCTTTTTCAATTTTTCTACTGTTATAAAATTTTCATGGAGTAACAACATTATTTATAGATAAATTTTTTATATATTCCTCATCAATTAAAGTTTTACCACCATATGTGCTTCCATCTTTAACTGTAATATAAAATTTAAGTTCAAAATTATTTATATCTTTTCTAAATTGATATACTGAGTCTTTATAATCTTTTATATTTATTGTAAAATCTGAACCTATCGCTATCAATCATCTTGATTTTGCATCTACTTCATTACCAATTGTAGAGTTTGTTCTATTTACATACTCTGTATATGGGAGGTTTTTCTTAGGTTTTTCAGGAGTTACTGTTCCTCTAATAAATTTAACATTAAAACTAAATGAACCAAAAAAACTCATATTTTGATCTTTTGCAATTATTCTAACATTTTTAAAATTTATTTCTGAATTTTGATTTGGTTTTATAAATTTAATATTCTCAATTTCTCAATACATTAGATTAGTGTCTTTAATAATTGAATCAACTAAAAAAGCTATGTTTTCAGCTGCTTTGTTTTTTTCGGCCATAGTTCTAAAAACATCTTTTTTTATATCATTTTCACTTTCATTTTCTTTAATAAATATAGAAAAATCTTTTATATCATAATTAGTTATTATAGTTTTTTGATATTGATCATTGCTATATTTGTTAACTTTTGATAAATATATATCTTTATTATTTTCAAAATCTTTTATATTATAATTTTTTGTAAAAGAAACCATTCCTAAAGAAGTTGAAAAAAGTAATAAAGAATTAATTAATTTTTTCATTATTATCCTTTCTTGTACTATGTACATAATAATTATATCTTAATACTTGTAAATTAAATTTTTAAAATACTAAATCAAAGTAAAAAATAAAATACATAATTTTTTCCAGTACATTTCTTTTTAAATTATAAAAATCTTAATTGATTCATTTATTACAATAAAAATTTAAATTATAAAATCAATCAAATACTTTTAAATTTATTGAAACATAAAATTTTTTAACTCATTTTTTCATATCTTTTTACAAAAACGTACATAGTTCCAAAATCTAATAAAATTGAAAAAAATAATCATGGAATATACAGGGAATAATAATTTAATAATTGTCCTTTTTTAGAATAGTCAAAATATTCATCACTATAAATTTCAATATTATAATCGTCATTTAATTTATATTTATCTCCCATAAAATTAGTAATTTTATTTCGAGAATATAAGATTATGTCATTTTCGCTCGGTTTATCATATTCAAGTTGTTCATTACTATATTCACTTTTTTTTCTATAGTTAGTTATGTAAACATTTTTAATAATTAATTTTCCATATATATACTCAACACTATTTTCATAAACTTTATCAATTGGAACAAATATTTCTTTTGTACTATCTTCTAATAATGAAAGTTCAAAAACAATCATTCAGTTTTTTAACATAAAAGAATTAAGCTTTTCGTATTTCAAAATTAAAGATTCACACAATAAAATAATTTTATCTAAGTTATCTCTCCTAAAACATTCAAAATATTCATCTTTATATTCAAAAAAATTATAATTAAACTGAAAGTTATTTTCTTTTTTTGTTTCTTCACTTTCAAAAAATTTATTAATATTTCTATATCTATCTATTTTTTCAGAATCATTAACAAGTCTTTTATAGTAATAATCACTTAAAGGCCCAAAGGGTTCATTTGCAATTAAATATTCATAAAGATAGTCTTTGTAACCATATGCCATTTTTGATAATTGATTAAAAAGATTTCATCTTATGCGATTATAAAATGAGCTTTCCAAATTATTTTTTGCAATATATAAATCATAAATGTAAGAATTGTAATTTTCTTTATTTTTTAGATCATAAAACTCATCCAGTATATTTGAATATAAATCTATTAATAAAGCTATTTCAGGATGTTTTTTTATGTATTCATATTTATTATTTTGCAAAATATAAGTAGGACTTTTAAAATAGCTATATAAATATGATTGGTTACCTTCAGTGAATTTTGGAAAACTATATCTTGCTATATAGTTATTTAAAATATTTAAATAACTAGAATTATTTGTCACTAAATAAAAATTTTCCAAAATTTTTTTTATGATGGGCACTTCCTCAGAATGTGCATAAGTAGCACTATTTAATTTCAGTAATGAATTAAAATTCATATTAAATAGCTTAGGATTATCTTCTAAAATTTTATATTGATCATCAATAAAACTTATAAAGATGTTTTGTTTATTCACTCTAATAAAGTCATCATAAAAAGCAGATGCCTTTATAATATTGATTTCATTTGAAAAATTATCAATCATTTTGTTTTCCACATAGAATTGTAAATTTAACTTATGCCAATCTTTAACTAAATTTGCAGTCTTATTTTCTGAAAGATTTATAAAAGCATTATAATTTTCCATTATTAAATTATTTTTTATATAAGCTTTATTTGATTTAATAAGTCCAAAGTTATTTATGTTATCTTGTTTAAAAAAATAATTACATATTAAAGATACTGTGAAAAATAATCCCACAACAAACATAATGGCAGCTACAAAAGCTTGTTGTTTTATAAAACCAATACAAATATGATATATAAAATCTAAAAAAAATAAAAAGAAAATTAAAAATAATCAATAAAATAATCTTTGATTTATCAAATACCCTTGCAAAGCTTTATCATACATAAGCATAATTAAATTTACAATTGTAATTTGGATTATAATTAGGTTTAATAAAATTATTTTTTGAGTAATAAAACGAGATAGTCAAATTGTTTTTTTATTCAAACCATTTATAATCTCCATATTTATTTTACCGCTGTATATAGAACTATAAAATAAATTGGTATTTATAAGCAAAGTAAAAATTACAATAAAAAATAAATTAATTATAAAAAAATAAAAACCTACTTGTAAAGAACTTAATTTATTTTCTATTTTATCATTTTTACCAACAAATATAAGTAAAGAATAAGAAACAATGTTAATTAATGTTAATAAACTATATACAATATAAATTGACTTTAATTTAAAAATTTGTTTTATGTTACATTTTAATAATACTTTCATAATATACTCATTTCATTCATTTTTTATTAGTTATAAACTAGTTACTATTATTATATATTAATAAAAAAGTTAAACACTTTTTAAACAAAAAATATCTTTATCAATAGATAAAGATATTTTGTTAAGCATTTTCTTGTTTTAATTTTTAGCCTCAGTAATTTTATTCTTGTAACTATTTTTTATATCTTTGTATTTTTGATTATATTCAAGTTTGTTTAAACTTTTATTTTCGTATTTTAATTTAAGGGATTTAATTTCTTCACTTCTCGAATCTTTTAAAATATTAATATTATTTATTTTTAACTGTTTAAGGCCTGCTTTTTTACTTAATATATCAGTTTCTGGATGTATCATCCCTTCGCTTAAAGCAACAATTGTACTTACAACCATTGCTGCAAGAATATTTACAGCAGTTCTTCCTATATCAAAAATATCTTCTAAAACTAACATGATTGACATTGTAGCTTCTCTAAAACTTGGCACACCTAAAGAGCTAGTTAAACTTGTTATAACTAATGTTGAAGTTCCAGGAGTTCCTGGTATTCCAAATGAAATTATTATCGTCATTATTAAACCTAAAATTAAAAATAATCATATACCTTGGTCGTGAATAATAGGAGAATCAGATCCAGTTCACATTAATGACATAATCAAGCCGCCTTCTGCACCTGCTCCTCCAATCATGCCCATAGTTGTTGATAAAGGAATTATTGTTGATACACAAGTTTCATCAACTTTCATTTCATCTACTAAAGATTTCATAGTATAAGGTAATGTTGCACTTGAAGACTGAGTAACTAAACCTTGATAAGTAGGTCTTCATCCTTTTTGTCACCATTTATGTGGTTTTATTTTAGCAATTGCTAATGCAGCTGTTAAATAAATTACACAAATAAATAAACTTACATATGCTGCTCCTAAAACTTTTGCAACTGCTGTTAAAGCTGTTAAAGATTGAGTTATCATTAAGTTTGTAACAATTGACATAATTGCTAAAGGAATTATTTTAATAAAACTATTTACAATTTTTAATACAATATCTCAACTAGCATCCATTAATTTTACAAATGCTTCAACTTTTTTTGGATTTTTTAAAGATATCGCTTTTACACTTAGCCCTACTACTAACGACATAATAATTACTGGAATTACAGCATCACTTGCAAGACTTGCAAAAAAGTTTTTAGGTAAATAATTTATTATCATGTCAGGAATAGATGTTAATTTAGTATCTTCATCTCCTGAACTTCCGTTTGAAAATTTATCTAAAACTTTTTCTCCTTCACTTGTGACTCCAACTTTAAATAATATTCCAATTCCAGCTGCAATACAAAATGCAACAGCAACGTTAATTACTAAAAACACAATACCTTTTGCAGTAATTCTTCCTAATCTTTTTGAACTTTTTTTGGTAACTGCACGATAAATTGATAAGAATATTAAAGGTATCATCAATAAAGTAATTGACAATATAAATACTTTTTTAAATAATACAGATCAGCTATCTAGTTCTTTAATTCATTGATATTCTGCTAATTGATTTCCTTCTTTATCTGTAAATGACTCAGGAAAACCTACAACAGCTTGTATTATGACACCATAAACTAATCCTAAAACCAATCCTGAAAACAAATGTAAAAACTTATTTTTAAATTTCTTTAGAAAAAATCATAATAATATTTGCAGTGTAAAAAAAACTAAAATTGCAATTAATGATTTATAACTACTTATTGAGATAAAATCTTTTAATTTATCTCAAGTACTTGCATATAACATATTTCCCTTTCTAACCAAATAAAAAAAGAGCATCAAATAAAATAGGTGTATTTAACTATTTTTTATTCAATACTCTTTTATATTATTAGTATAAATTTTATTTTTTTAAATTTTAATAAAGACAACATAAAAGAGTAGATCTGTTATTATCATCATTATTATTTGTTAATATAAATTTACTCATAATACTTTGCCTCCATATTTTTATATTATCACAAGATATATAAAAATACATTCAATTAAAGTAAAATTAAAAATATTTAAAGGAATTTTATAATGAAAAGATGTAATTGAGCAAACATAAACGAATTAATGAAAAATTATCATGACAATGAATGAGCAAAACCTATTTATGAAGATAAAATATTTTTTGAGTTCTTAATTTTAGAATCAATGCAAGCAGGTTTAAGCTGAGATATAGTTTTAAAAAAGAGAGAGAACTTTAGAGTGGCTTTTGATAATTTTGATTATCAAAAAATCGCAAGTTATGGCAAAAATAAAATTGATGAATTAATGAAAAACAAAGGCATTATTAGAAATCAGCTAAAAATAAAAGCAGCAATTAATAATGCAAAACAATTTATTGAAATAATTAAACAGTATAATAGTTTTAGTAAATATATATGAAGTTTTGTGAATAATAAACCTATTATAAATGAATTAAAAAGTGATAAAGATATCTTATCTAGTAGCTTATTATCTGACAAAATTTCAAATGAGTTAAAAAAATGTGGTTTCAAATTTGTTGGAACCACAATAATTTATTCTTTTTTACAAGCCACCGGAATTATAAATGATCATATAAATGATTGTTTTGTTAAAAATAAGTATTAGCTATTTTCTTTTTCTTTGATAATTATAAACTGAGTTTAAAACCATCCCCATCGGAGCTCATTTAGTTATTTTTTTTACAAGTTTGTTAGAAAATCCTGTAATAATGAAATTTTTCTTTTTAACTTTCAAAGCTGCTTTTAAGCTTCTTCTTGCATATGTTGAAGTTTTCATAACTTTAATTGTAGATTTATACTTGGCTTCTTTTTGATTGCTACTTCTATTTCAAAAATCAGTTTTTAAAGGTCCAGGACAAACTGTGATAACCCTTGCTTTTGATTTTGTTTTTTTAAGTTCTGTATTTATAGCCACTCCTAAACTAAAAACATAAGCTTTTGATGCATAATATGATGCAAAAACTGGTGCTGGAGTAAATGCAGCCATTGATCCAACATTAATTACTCTTCCATAATTTTGTTTAACAAATTTTTTTATCATTTCTTTTGTTAAAAAATGCAATGATTTAATATTTAAATCAATCATATTCATTTCTTGTTCAACATCACTTTGTGAAAAATAACCTCAAACTCCATATCCTGCATTATTGATAAATATTTCTATATCAAAGTCTTTACATTTATCTATTACTATCTTATTGTTTTCAAAAACACTTAAATCATAATTTCAAGCAATAATATCTTTATCACCAAACTGTTCTTTTAAAGATTCTAAACTTGAAGCATCTCTTGCTATACCAATTATGTTATAACCTAACTTTAATAATTCTTTGCAATACTCAAATCCAAGACCCTTACTCGCTCCAGTTACAACTGCATATTTATCCTTGCTTATAATTTTTTTCGCCATTAAATTAATCCTCTTTTTTTAAACTGCTTGTGTTAAATAAAACTTTTTTGTTTTTTATAATGTAATTTAACGCTGAAGCTATGCAAAGCACAGTTGTAATATACATTGGAATCATTATAATCTGATTGATTCATCCATACTCATCAAACTTAGTTTTACCTTGAAATGAACCATTAAAAAATCTGAATCCTACAAAAAACAATATTGTTAAACCAATCATTTCAAAAGTTGCACGATATTTTCCCAACTTGTCTGCTGCCATAATCGTATTGCTTGAGGCTAAAATTTGTCTAACAACATCAATTAAAAAATCTCTACAAATTAAAATAACACACATTCAAACAGGAATAATTCCTCCAATTGCAAAAACTATTAAAACACTGTTTGTTAATAATTTATCAGCAATTGAATCAAAGAACTTACCAAAAGTAGTTATTTGATTATATTTTCTTGCAATGTATCCATCTAAAGCATCGGTTAAACTTGCCACAATAAATAAAATTCCTGCAATTAAATATGCATAAGGTAATGAATAATTACTTATATTTATTGCTTTATTAAAAACTCCATATAATAAATTAGCATTATTATCAAAATTACAAATTATCATTAAAGTAATTATGATTGGTATCAAAATTATCCTAATCATTGTAATTCTATTTGCTCAATTCATATAAACTCCCCTTTTTATTTTTTCATAAAAAAACCCAGAACAGTAGGTCTGAGCTTTTATCTATGCAGCAGATTTTTGTACTTTATAATACTTTTTAGAAAGTACACCGATATAAATATCTGCATTAACTAGTCATCCAATAACTCCAGCACTAACTCTTGATAATTTCACAACATCATGAACTCATCCATACTCTTCTACTAAGACATCATAATCAACAAAATTGTCTAAGTGTAAGATTTTATTATAATTTAAAAGTATATCTTTTGACAATTGTAGGATATTTTCAATTTCATTTGTACTTGTTATTTGTTTTAAAACTTCAATAATTTTTGATAGTTCTGAATTTTTCTTTAATCTAGTTGGTAAATGTTCATATCTTGATAAGATGTTTGAAGCTAGTGATGATATTTTTTGAATTGCAAAATCTTCATTAATATCTAAAACTTTCTCTCCGTGTTTTTGTCTAGTTAAATAATTAATATTTTTAAAACACTCTGATAAACTTTCAAATGCGACATTTGCAGAAGATAAAATTACTTCATTTTTAGCAAAAATTTTTACATCAAACTTTTCGTCTTCTAATTGAGATTGATTTTCTTGTCTCAAATCATTTACTTTGTGAATCACGCTGTTTAAAATCGATTCAAGTTCATTTTCGCTGTCTAATTCCTTTAATTTATTTTCGTCATACTCAATTTTAAAATTATCATTATTAATTGTTTGATCTTTCAAACAATCATTATTGTAATAATTGATAATTTCTTCAAAGACTCTTTTAAAAATATCTAGCACCATTTTAAACTCCTATTTAACTACATTTTACACTAAAATACTTTTTTTTACCTTTTTTAACAATGATAGTTTTTCCAAAATATATAAAATTTTTGCCAATAATTTCATCTTCTTTAAAGTCGTTTCTACCTTTTATAGTAATAGATTTATCTCTAATTAACTCTCTAGCTTCTCGATTTGATGAAGCGATTTTAGATGAAACTAAAAAATCAATAAACTTCAAATCAAGTTGTGAGCTACTATTAGGAATTGATAGGCAAATTGCTTTTAATTCACTTTCATTTAAAGATTCAATATCTCCTGAAAAGATAGCTTCAGTTATTTTTATTGCTTTTTGATATCCTTCTTGTCCATGAACTCAACTAACAACTTCTTGTCCTAATCTTTTTTGAGCCAATCTTTTGAAAGGCTCTTTTTTATGTTCTGTTAAAATTTTATCTATTTCTTCTAATTCTAATGTAGTTAAATGTTTTAAAAATGTTTCGACATCATCATCATCTTGATTTACAAAAAACTGATATAACTCATATTCACTTGTTTTATTTGCATCTAACCATATTGTTCCTGTTTCAGATTTACCAAACTTTCCACCATCTTTTTTAGTTAAAAGTTTAAAAGTAACTCCAGCTGCTTTTGAATTTTCTCTTCCAACTTTTGAAGCAATATAATCAGTTCCACTAGTAATGTTTCCTCATTGATCTGAACCACCAAATTGAATTCTACAATCTCTTGTACTATATAATTGATAAAAGTCATATCCTTGCAACATAGTATATGAAAATTCTGTTACACTTAATCCTTTTTCAATTCTTGTTGCAATATTTTCTTTTGCCAATAAATAAGCTAAGTTAAAATCTTTTCCTATAATTCTTAAAAAATCAATTAAGCTCATCTTACCAAGTCATTCATTATTATCCACAACTTCAATTGATGGAATAATTTTTGTAACCTGTTTTCTAATTGATTCAACATTTTCTTTAACTTTATCTAAAGTTAATAAAACTCTTTCAGTATTTTTAAAACTTGGGTCTCCTATCATTCCAGTTGCTCCACCAAGAATTAAAATTGGTTTAAAACCAAAATCTTGAAATCTTTTTAAGTTTATCAACGGAATAATATGTCCAATATGTAAAGAATCAGCTGTTGGATCAAATCCACAATAAACTCCAGCATTATCTTTTTGTGCGTTTAATAATTTTTCTTCATTAGTGATTTGATTTAACAAATCTCTTTGCTTCAATTCTTCTATGATTGATTTCATTATTATTGTTCCTCACTATTTTTAGCAGGTTTTTTATTATCACCTTGTACTGCAACATCTTTACTCATACTTGCACTTACATCTTTTACTTCTGAATAAACTTCATCTGCTTTATCAATTATATCAACAGTAATTAAGGCTAAATCTTTTGCAATTGCTTGAACGTTTTTAGAGTTTTTTATCTCTTTACCAATTTTCATACTTGTTTGTCCCATTTTCATTAAGACTTTATATGCTAGTTCTTTTGATTTAACAGCATCTAGTTCATCACTTACTTCTTTTACTTTGTCTAGTTTCATTTCAATACTTGCAATAACTTCATCACTTTCATTACCTTGAGTTTTTTCTCAAGCTTCATCTAGTGCTGAAATAAATTTTTTGATTTGTGGACGATATTTTTTTATATAATCAACAAAATCGGCTCTTAATTCAATTCCTTTTTTTGGAGCAAGCATCATACCAATGAATGCAAACCCAAAAATTTTAGCTAACTTAAACATTTTTTTAACTCCTTAATTAATCTTCTGAGTTTGCAAAATCTCTTAATTTTTCAACCATTTTATAAAATATATCTTTGTTTTTTGTAGCAACTTTTACTCATGATTTTACATTTCTTTTTGCTAAAGCATCAAAAATATCAACGTAGTTTGAAACTCTTGCAATTGTATCTACTGTTGCATTCAAAATTTCAGATTTATATGTTAAATCTTCAAAAAAGTAATCAACTTTCTTAGCGGCAATCCCTACTTTCCTTAAAGTAATGATTGTATATAAAACTAAAATTATGGCTAATACCATTAAAACAATTATTAAACCTGTTTGTGTTGCGCTTAAAGCATCAGTTGCATAAAAGTGAATTGGTAACATAAATTTTCTCCTTAAAAAACAATACAATTTCATTATACATTATTAGTTAAAATTCTAATCTTTATTATTGAAAGATATCTTATTTATTTTCTTTTTTAAATCTTTCAAGTTCATCATCTCATGAACCTTCTCTTTTATGTCCTGCATTTTTGTCTGGCTGTGGTTTAACACTTTCACTATAATCAACATGACTTTCTCAATTGAATGCTTGTTTTTTATTATTTGCAGCCTCTCTTAAAGCGATTAGTTTTTGTGCTCTTCTAGTTTCAGAATTGTAAGCATTATTATAAATTTGTTTTCTTCTGTCTTTAAGACTCATATTTGGATCAAAAGTTTGATGTGCTTCAACAAATAATAAGTTTTGATGAATTTGGTTTAATTTATTTTTATAATTCTCTTTTAATTCAATAGTTTTTTCGACTTTTTCTTCACTATAACCTTTATTTTTCATTACTTCAATTTTTTTAGAATACTTATTAACAAGTTTATTAAACTTGTTTTCTTCTTTCATAAGTTTTTTATGCTGTTTAATTATATTTTCATTTTTTTCTCTTAATTCAGCAGTTACATCCGAAATAGTTTTTTCTAATTCTTTTCTTTCTTCTTTAGAAACTAAGGGCTCTTGTTTTCTTCTCGGTTTAATTAAAGTTGGTTTACCCTCATTTGGTGAAATACTAATATCTTTTCCTAATCTTGAAGGTCTAATAAATTCTTTTATTTCAACATCTTTGAATAAATCATTAGATTTTTTAATTTCTTCCATTCTTTTTTTAGGATCATTTTGTATATTGTTTTTTTCATCATTTTGATTTGCCATAATTTTCACCGCCCATTTTTTAAAAAAAGATTAATCGGAAATCAAAGTTACATCTTTCTTTTTACCAGTTTTAATCTTTTTTTGTAATTTATCAATATATGTATTTAATTCTTTAAGTTTTGCTATCAAGTATTCTTCTCTTTCTTGGTCATTTTTAAAAGTTTTTGTTTCAAGTTCTAAAATGCTTAGTTCAGTTTCTTTCTCTAAACTTTCGCTTTTAATTTCTTTTAAAAAAAATATTTTATCTTTTACTTCATTTTCTAAACTTTCTAATGAATATTGATCATCATAATCTAGATTAGAGTTTTTAAGTTTTTTTGTTTTGTATTTTGATGTATCTGTATTTAAAAAACGTTGCAGCATATCAACCTTAGTTTCATCAGAACCACCAACAGATCTCATAGCTTCTCTTTTTTCTTGAGCCTCTCTTGATAATCTTAGTTTTCTTTCTAATTCTGTTTCCACTTTATTATTTTTTAAATTTTTATCTAAATATTTTTTTGCCCTATCTGCATAATTTTCTGTTTTTGATTTTGATAAGTCTGTATAAAGATTTTCATCAACTCCACCAGTTCTTTTCATTTCTTCTATTTTATGCAATTTTGCAATAATTGGATCATTTTCTATGATTTCACTTTGCAATTGTGAAGACTTATCTCTAGCTCTATTAATAATTAATCCTAATGGACCTTCTACTTTTCTAGTTTCTCTTTTAATACCAACATTTTTTCTCATTTCAGCAAGTTTATTTGCTATTTCTTGAGTTTCTTCATAAGAAACATTATTTTCTCCTTCAATGTTTCTTGCAATATCATTAATTGAGGGTGCAGCATTTTCTGAATCTACAAAAACAGGATCTAAATTAAGTAGCGGATCATTGTTATAACTTCAATGATTTGGTACTCTATCTTCTTCGTGTTTAGAAAATTCACTTTTGTCTTTTTTATTCTTCTTTTTAATAAGACTCATGTTTTTGCCCCCCAAACTTTATTAATAATATTTTATACTTTTTATTCTTGTAGAACTAATATTTTCTCTTCCAAATTTTGCTTGTTTAACCCCATTTATAAGCACTAAATCACCTGTAAAATATATTTTATTTGCTGTAATTGCTTCACCAACTCCATAAATATCTACTGGAGTATTTTCTTTTTCAAATAAACTAATTTTTTCAACATTAAACCCTGACGAAACTATTATTTTTACATGATTATGTCCAGCGTTATCCAATGCTAATCTTAGTTTTTTTACTAATGTAGGATTAACACCATGAAGTTCTTTATCTTTTTCTTTAACTCCTTGAAGAGATTTATCAACTAAAGCACTTGAAGTATCTAATCTGACTGCTCATAAATCATTTTTAAATTCATTTGCAACAAGCAAACTATCATTAATACAATCATTATTATAATCAACAAGAGCTACTAAATTATTATCTGGAAATGTTTCTTGATATGCTTTTAAAGCTTTTACCAAGTTTCCGTCAAATGATGCAATTAAAGCATGAGGCATAGTTCCTTTTAGATTTGGCTCTAAATCAAGGTATTCAAAACTAGCAGCAGTCACTAAATTATTATTTCCACCAATAAAAGATGCATAACCATCAATTTGTTGAGTGTTATAAAAATCCATTCTATCGTTCATATTTAATATTGTTTTGTTATTTGCAACTCTTTTAAGATTAAAAACATTGGTTGCAATAGTTGATGCTCTTGATAAAATACCATCAAACAAACCTTCAAATCTTGCAAAATCTTTATATTTACCAGTTATTTTTAATATTGGTTCTAACGGTTGAGCTATGTCTCCATCTTGTAATCCTTCAACAATTAAATCTTTTACTCCACTCAATCTTAAAATTTCACAAATTATATCAATTCCACAAATTACAGTATTTTCTTTTCTTTGAAACCATTGCATAGTTACATTTTGATCTGGTTTATATTTATTAAGTATTTCTTTTGTTTTTTTGAAATAATCTGCAGAATAATAATCATCAAATATTCTTAAATCAATATTAAATTTATTTTTCATCTAGATAACCTCTCAAATTGATTTTCCTAAAAAATCATTTGCTAAATTTAATTCAATTATTCCACTATCATTGATATTTCTATTATCAATTTTTAATTCTTTACCACTACATAACATGCCATATGATTCATTTCCTTTTAATGAACCTTTTAAAATTTGAACTCCACTGGGCATAAATGAACCAATTGTTGCTAAACAAGTAATTAAACCTTGTTTAACATTATTTGCTCCACATATTATTTGCAAAATTTCTTTTCCATTATTTACTTTACATTTTGACAAATGAGTACCTTCAATTTTTTCGCACTCTTCAACTTTAGCCACAACAAATTGAGCTTCAATATTATCAATTTTTATATGTTCTTTTAAAGCTTGTTTTGCATAATTCAGCAACACTAAATCTTCTATACGATAAGTTTTTTCTTTATCTATTTTTGGATCAAAAATATTTGCTCCAATTAACTTATCATTATTGAATAATAATTCAATATTATTTACTTTTTTTGTATTATTGACTGCTCTATTTTCAAATAAAACAAATAATACATCAAAATTTTTATTGTAATTTACAAAAAATTTCATATTCTATTCTCCTTTTACACTAGGAATGATTACAAAACAATTATATAATAATTTTGTCTTATATATAACTATGCAACTAAAAAAGTTTGTGTAGTCATAAGTAATAGTTTAAAATATACTAATACTTATTATTAACTATATATAGCGAAGGGAGAGTTAAATGAAAGTAGCAGTTATTATAGATTCATCAGCGGGAATAAAAAATATAAAAGATTTCAAAGATTTGCATCTAGTTCCATTAATGATTACAAAGGAAAATGGAGAACAAATTAGTGACGACGAACATTTTAGTTTTGATGAGTTTTATAAATTAAACGATAGCCAATTGTTAAAAATATCAATGACAATACCAGGTGTTATGATGAAAAAATGAGATGAACTGTTAAAAAGTTATGACAATATTGTATGTTTATTATTGTCAAAAGGCTTATCAAGCCAGTTTGAAACATATAACATGCTAGCTAAAGATGAAAAATATGCAGGTAAAGTTTTTGTAGTGGATACAAATGGTGTTAGCGTTGTTTTAAAACAGCAAGTTTTAGATACAATTGAGCTTATAAAAGAAGGAAAAACTGGACAAGGAATTTTAGAAGTTATTGAATCTAGAAATAATAATTTTAAATGTTTTATCATTCCAAAAACATTAGATCAACTTGTTAGAGGTGGAAGAATTTCAAAAGCAGCAGCCTCAATGGCAAAGTTTTTAAAAATTAATCCTATCTTAAAATATGATGGGAAAATTGATAAAGAAGGAAAAACAAGAACTTTTAAAAAAGCAATTTTAGAAGCTCTAGAGTTATTGCGTAAAAGAACGAAGTCTAAAACTATGGAGTTAGATGTGTCATATTCAAGAACAGATGAAGAAACTTTAAAATTTGTACTCGCAGCAATCGAAGAAAAAGGATTTAAAATTCGTTTGAAAGAAGATATCCCAAACACAATTACATGCCATACAGGTAGAGATACATTTGCTCTATCTATATGAGACACAAATATTAAATAAAATTCGCAATAATTAGGAGGAAAACATATGAAAATAGGAATTTTGGTAGATAGTTCAACTGGTCTTGAGCCCGATAAAATCGCCAACACAAACATTGAAGTGATTCCACTTCATATTATTATAAAAAATACGCAAGATATTCTTGATACAAAAGAACAAAGAGATTTAAATAATGTTTATGAACAAATTCATAATGGGGTTAATGTGACAACCAGTCAAGCTTCTCCAGGAGAACTAATTTTAAAATATGAAGAAATGTTGAAAAAATATGATCATATTATTCATTTACCCATTCCTACAAATTTATCAGGGATGGCTCAAACTGCAGTTATGACTTCTAAAGATGAAGAGTTTTTAGGAAAAGTAACTGTTGTTGATCATTATTTAGCAGCAAATCTATTAGGTAGATTAGCACTTATTTTAAACGATATGACAAAAGATGAAAGTCTTGAAATAAAAGATTATTTAGAAAAAATAAAACTATGAGAAGATAACTCATTGATTTATTTAATTCCAAGTGATTTAAAAAAATTAGCAAAAGGTGGTAGAGCGCAATCTTTATTGCTTTCAGTCTTAAAATTTTTAAAACAAAAAATTGCAATTCAATGAGGATTAAAACCTAAAAAAGCTGCAATGGGTAGAACTATTGGATCAATTATTGATAAACTACTTGATAATATTAAGGAGAAATTTAAAAATGCTTATAAAATAATTCTTGTTAGAACTGAATTAATTAGCGAAAAGTTTTTAAATCAAATTAAAAGTAAATTTGAAGAGTTAAAAATTGATTATGATGATGAAATAATACCAACTCCCTTCCCTTGCCACGCCGGATTAGAAACTGTTGGTTTCTTAATCTATGATAAAAAAATGGAAAAATAAAAACGATTAGAAAACCTAATCGTTTTTTTACCTTACTTGGCAGGGATAGCAGGACTTGAACCCACGACACTCGGATTTGGAGTCCGATGTTCTACCAACTGAACTATATCCCTAAATAAAAAACCTTACAATCGCAAGGTTTACTTCCTGTTTGGCAGGGGTAGCAGGACTTGAACCCACGACACTCGGATTTGAAGTCCGATGTTCTACCAGCTGAACTATACCCCTAGATAACTCTTAGATTATACATTATTTTGTACAAAAAAGAGTTATTTATTTTTTTTACTTTCTACAATCCTTACAAAGACCGTATACATCAAGTTTAAAATAATCAATACAAAAATCAAATTTTTCAATTAATGGTTTTAAAACTTCAGAAACCTTCTCATCTATCGAAGAATAATTTATATGCTCAAATTTCTTACACTTATAACAATTTATATGTATTAATTTAGGTGCAGCAGCCTCATAAACTATTTGTTTACCGTTTAAGCTGTTTGCAAGCAATAGATTTAAGTTTAAGAATAGATCAATGTTATTGTAAACTGACATAACATTAACTGTATCCATTTGTGATTCTAATTCTGATATTAATTCACTTGTAGTAAAATGTTTTCTTGATGCTATTATTTTTAAAATGCATTGTCTTACGTAAGTGATTTTAATTTTATTTTTTTTAAGAATATTTATATATTCTTTGTATAACTCGTCATACATATTTTAGTTTTTAGCTAAAGATTCGATTATTTTTACTAGATCATTTACAGTATTCATGCCCATTAATTGATCATCTGATAAAGTTATATCAAGTTTTTCTTCTAAAAAAACTACCATGTCCATAAGATCTAGTGAGTCCAACCCTAAAGATTTTAATTCTGTATCTTTAGTAATTGCTGCTTTAGCTCCTTTATTTATAAGAGTTCTTTTTATTTCTTCAAAATAATTCATTCTAATCACCATTTAATATTATATATATTTTGTCATAAAATATCATAAAAAATGTGTATTTAAAAATTTTTCGCTATTATAAAAAACTTTTACTATTTTAGGCTTTAATAATTCATCAAAATTAAACTGCAATTTTATGGTTTCTTTTTTAGGACCTAAACTTTTAAAATGCTTTAAAAAATAATATTTAAACATATCGATATTTATAAAAGGTTCCTTACCATCTAAGACTAAAATTTTAATTTTTTCTAATTTACTAAAATTTATAGTTAAATTATTTTCAACAAAATCATTCACAATATTTTCACTATTTTTATCTTCTTTATCATTATCATTATTTGCATTTGTGTTTTCAATTATATCTGTATTTGATTTAACAACATATTTTATTAAAACAACAGTCGTTATAGATAAAAAAGCTGTTACTACTAAAAACGGAATAAATACTTTAGATAATATCTTTTTCATTTTTTATAATATAATCTATAACCGTTTCAATATCATTATCATCAAATGCAAAATTTAATAAATCTGAATTTGTTATATTTAGCTCATATGCTTTTTTAATTTCAAAGTTAACTGACTCTATTTGAACAAGTAAGTTTGATAAATCAATAGTATTTATATTTTTAAATAAATTTAAAATTAATCCACCAAAGTTTATATTTCAGCTAAATGTTACTTTATCATCAATATTTGGATTTTTTACAATTCCATTTCTCCCATATTCACTTTCTCTAACTATATTTTTTTGTATATTATATTCTGTTTTAACATTTGTTTTAAAGGCATAATCATTTTCTGACTCTAATTGAAAAATTGGATTTGGTTTTTTAAGATCATAAAATTTTTTTATGTCTTTTGAATTAATATCTCAAGTAGCTTCAACTACTTTATTATTATTTTGACCAATTTTTAATCTATCCATAAAAGTTTTTAAGTTTAATCCTAAAACTTGTGAGTTTTTTATTTCATCATAAAAAAAATAATTTATATTTTTAATATTTAAATCAAAATCAATTCTATTGGTATCTTCAAATATTTCAATTGTAAATAATTTTTTAACAAGCACTTTTCTTTTAAAGTTTGTTTTATCATAATCATTTTGTAAATTTAAATAAACATAATCATGTAACAAAATGCTTGTGTCAACAACTGTTGTAAAAGGTCTTAAATCAATTATTATATGTCCGCTTGTATTATTATCAAAACCACTGATTGTATAAGAACTATTTAAAGTAAAACTGATTCTCATAATTTTATTATTTCTGATATCTTTAATAGGAACCAATATTTCTCTAAACTCAACATTAGACATTTGAGATAACTTAGTATTTTTAATTTTAAATAACATTTTTTTTATGATATTTTTTTCAGTTTGATTATTTTTTCCTCAATCTAGTTTAATACCTTCAGCTCCAAAATCTGAATCAATAGCCATATTAATTTCAGTTTTTTCAATTGATATATTTATTTCTTTATTGTAAGAATCTCTAGAAATTTTTGACCAAGCGTCATCTTTTATAGTAGGTCTAATTAAAAGTCGATAATACTTTTCTTTACCTATATAAAATTGTTGATTAACAAAAACAACATCCATTGATAAAAAACCATCTTTGTTAGTTTCGATAGTTACTTTATTTCCAATATCGTCATTATTTTTAAGTTGTCCTACATCACGTTGGTATTGCACTTCTGTAATCATATGTACCTCCTAGTATATAATCGAAAAAAAATACTAAACTTTTTCAAAATTTAGTATTTTTATTTATTATAGTTTGGAGATTCTTTTGTTAATTCAACATCATGAGGATGTGATTCTCTTAAACTAGCAGAAGTAATTTTTACAAATTTAGTATTATGTCTTAAATCATCAATGTCTTTACTTCCGGTATATCCCATACCGCTTCTTAATCCTCCGTTTAATTGAAAGATTACATCTTTTGCATGTCCTTTAAAAGGAACTCTACCTTCAATACCTTCTGGAACTAATTTTTTTGCATCTTTTTGGAAATATCTATCTTTACTTCCTCTGCTCATTGCAGCAAGCGAACCCATTCCAACATAAGTTTTATACTTTTTACCATTTGCAATAATTTCTTCTCCAGGAGATTCTTCTGTTCCTGCAAAAATACTACCAAGCATCACGCAATTTGCTCCAGCCGCTAATGCCTTGACAATGTCGCCAGAATATTTAATTCCTCCATCAGCTACAATTGTAACATCTTTATCTTTTGCTCATTCATAAACTTCATTTATAGCACTAATTTGCGGAACCCCAACTCCAGCAACAACTCTTGTTGTACAAATACTTCCTGGACCTACTCCAACTTTCACAGAATTTGCCCCTGCTTCATACAACGCTTTTGCTCCGGATGCAGTACAAACATTTCCTCCGATTATGTTTAAGTCAGGGTATCGTTTTCTAATATTCTTAATAACTTCTAAAATGCTTTTACTATGACCATGTGCTGAGTCAACCACGATTACATCAACCCCAGCTTCAACTAAAGCTTTAACTCTTGGCATTGTATCTTCTCCAACACCAACTGCAGCACCGGCTCTTAATCTTCCTTGTTGATCTTTACATGCATATGGATAACTTATTGCTTTATCTATATCTTTTGTAGTTATTAAACCTTTTATTGTTCCTTCTTTATCAATAATTGGTAATTTTTCAATTTTGTTTTTTACCATTATTTGTTTTGCTTCTTCAATAGTTGTTTCTGGAGTTCCTGTAATTAAACCTTCTTTTGTCATAACTTCTTCAACAATAAAGTTGGTACTTTTAATATATTTAATATCTCTATTTGTAATAATTCCAATAAGTTTTTTGTTGTCATCAATTACAGGAAGTCCTGATACTTTATATGTTGACATTATTTTCATCGCTTCTTCAATTGTATTATTTTTAAATACCGTAATTGGATCTTTTATGAATCCAGATTCATTTCTTTTAACTTTTGAAACTTCTAATGCTTGCTCTTCAATTGTTAAGTTTTTATGAATTATTCCTAATCCACCTTCTCTTGCCATTGCAATTGCTAAATCAGCTTCAGTAACTGTATCCATAGCAGCGCTTATAACTGGCATGTTTAATGTAATTTTTGGAGTAAGTTGTGTTTTTAAACTAACTTCATTTGGTAAAACTTCTGAGTAATTTGGTACTAATAAAACATCGTCAAAGGTTATTCCTTCTCCAATTATTTTTCCAAATAAATTGTCCTTGTTCATATTTTAATCCCCTTTAACTATTCTCACTCAATGGTTCCTGGTGGTTTTGAAGTTATATCATAAACTACACGATTTACTCCACTGACTTTATTAATGATCTCATTTGTTACTTCTTCTAATAATTCTCATGGTAAATGACTTGCATTTGCTGTCATAAAATCAATTGTATTTACACTTCTTAATGCAACTACATAATCATATGTACGATTATCTCCCATTACTCCAACTGTTTTAACAGGAAGGATTGTTGCAAATGCTTGACTAACTTTATTATACAAGTCGTATTTAAATAACTTACTAATAAATATATCATCAACTTCTCTTAATATATCTGCTTTTTCTTTTGTTACTTCATTTATAATTCTAATTCCTAAACCTGGGCCTGGGAAAGGATGGCGATTTATAATTTTTTCATCAAGTCCTAGTTGTTTTCCAACTTCTCTAACTTCATCTTTAAATAAGGTCCTTAAAGGTTCTAATAATTCAAAGTTTAAATTATCAGGTAGACCTCCAACATTATGATGTGATTTAATCATTTTTGAACTGTGATTTTTAGATGATGATTCAATTACATCAGGATAAATTGTTCCTTGTGCTAAAAATTTTGCATTTTTCATTAATTTTGCTTGCTCATTAAAAACATCAACAAATTGTTTTCCAATAATTTTTCTTTTATCTTCTGGATCTTTAACGTTTTCTAAAGCTTTATAAAATTGATCACTTGCATCAACTAATTTGATATTCATATCAAAAAGTTTTGAGTATGCATCCATAACTTTTTTTGCTTCATCTTTTCTTAATAATCCTGTATCTACAAAAATACAAGTTAATTGTTTTCCGATCGCTTTTGATATTAAAGCTGCTGCAACAGAAGAATCTACTCCTCCACTAAGCCCTAAAATAACTTCTTCTTTTTTTACAACTTCTTTAATTTCTTTTACTTTGTGGTCAATAAAAATGTTCATACTTCAATCTTTTTTTGCTTCACAAATATCATAAACAAAGTTTTCTATCATTTGTGTACCTTCTTGGGTATGAGTTACTTCTGCATGAAATTGAATACCATACATTTTTTTAGCATCATTAGAAATAGCTGCAATTGATGCATCTGAATGAGCAATTTGTTCAAACCCTTCTGGCATTTTTATCAAATGATCAGCATGGCTCATTCATACTTGTTTTTTGTCACTAATATTTTTAAACAATTTGTCACTTGTCTTATCAATAAACAAAGTTGCTTTTCCAAACTCTTGATTATCTGCTAGTTCTACTTTTCCACCATTAATTTCTGCCATCAATTGCATTCCATAACAAACTCCAAGAATTGGTATATTTAAATTAAAGATTTCTTTATCGATTGTATATGCATCTTGTGCGTATACACTTGAAGGGCCACCTGATAAAATAATACCCTTCAGGTTTTTATATTTTTTTAAATCTATTGCTGTAGTTGTAAATGATATAACTTCACTAAATACCCCAATTTCTCTAACTCTTCTTGATAAAAGTTGAGTATATTGACTACCATAATCTAAAATTATAATCTGTGTGTCTTCCATTTAAATCTCCTATAAGTCTATGATAATTTTAACAAAAAAAATAAAAAAAACTCACAAGTTAAGTTGTGAGATGTTTTCTTTAAATGGGGCGTGTGAAGGGAATTGAACCCTCGAATGCCGGAACCACAATCCGGAGCGTTAACCACTTCGCCACACACGCCATATTAACTTTATTATTATACTAAAAAAAAGATTTGATTCATAAATAATAATAAAAACATTAAAAAAAGTAACTTTTTATAAGTTACTTTTAATTATGTTACAGTTAAAATTTCAGGTCTTTCTAAAATTTCTTTTACTTTTGCCAAAAATTTTCCCGCTTCTGCTGCATCAATAATTCTTTGATCAATAGTTAAACTAATATTCATCATAGCCTTAATTGCAAGTTTTTCATTACTTACAACAACAGGTTTTTTAACAACTTTACCAACACCAACTACTGCTGCATTTGGATAAAAGATAGTTGGAGTAGCTTGAATTGCTCCAATGTTTCCATAGTTAGCAATTGTTATTGTACTTCCTTCAACTTCATAGTTGTACAATTCTCCCGCTCTTAATCTTTGAGTAATTTCTTTAATATCAATTGCAACATCTTTAATTGACATTTTTTCAACGAATTTTAAAACTGGAATAATTAATCCTTCACTAGTTTCTGTTGCTAATCCAATATTATGATATTGCTTAATAACAACTTCATTTGTTTCAGGATCATAACTAGAATTTAGTTTAGGATGTTCTTCTAAAGCGACACTTATTGATTTTACAATAAATGAGATTGTAGAAAATTTAATACTATTGTGAGTTGTTTTTAATAAGTGTTTTAATTTTAAAATTGAAGACATATCAACTTCTGTAGAAATAGTTAATGGCGGAATATAATTTTGACTTAAAATCATTGATTTTACAGCTTGATTTCTATTTTCATTAACTTTCTCTCTTGTTACCATTTTATTCTCATCTTCACCTTCAAATTCCATATAGCCAATTGATTCTTCATTACTATTTTTTTCAAAATTTACAGTTTGCATATCATCATAATTTTTATTTTGTTGATTCATTTGATTCGTTAAATTTTCATCAAACTGTTGTTGATTAGGATAGTTTTGTTGAGGATAAAACTGATTTGGTTGAGGATTTTGTTGAGGATAAAACTGATTTGGTTGGTTATAAAAATGGTTTTGTTGAGGATTTTGTTGAGGATAAAACTGATTTGGTTGAGGATTTTGTTGAGGATAAAACTGATTTGGTTGGTTATAAAAATGGTTTTGATAGTTTGGATCTGATGCTCTTTTTAAATCATATTTGAAATCATCAATTTCTCTTTTAATAATTCCTTTAATATCATCATTTGAAACTTTTCCTGAACCTAATGGTATATTTTGAATTAAGTTTTGCATTAATATATATTGCATTAATTGAGAGAAAGTATCTGTTCCTCCATTTAAAGAACTTACTGTGTTTACTCTTTGGGTTGCTTGATTTAATTGATTTTGTTGTATTAACGCAGTTTGTAAATCATTAATTTGTTTTTGTAAATATGTGATAGTTTCATTTGCTTGATTTCCAGCCAAATTGATATATTCTCCTCCAACTTCATCAAGTTGTTTTTTGATTTGTTTTTGCACTTTTTTTGGTGTTGTGTCAGGAACTTCTTGAGTTACTGTCATTGTCGTGTTTTGCTCTGGTTTATAAAATTCATTAGCAGAAAACCAGTTTTTTTGATGTTCAAAATTTTCGTGTGCTTGTTGTTTTGTATTACTATAAACAACACCATTTTGTTGATCATTTTTTACTTCTAAATATGAAGTATATAAATTGCTTGCTCTTAATCATGATTCAAATTCTCTTTTTCCAGCTGGAGACTCCCCATATGGAACTTGCATTGATTGGCCAGTATTAGGATCTGTAATTGTAACTGGTTGAAGAAATTGTTGAGGGATTTTCCCTTCTTGCAAATATTGAACATATTTCGGAATGCTTTCATCCAAACCTTGTTCTACTGCTCTTCTTCTAGAAAGAATAGTACTTCTTTCATCTCTATTTTTCATTAAATTTCAACGTTTATTTACATCATATAAATTTGATAATTTTGATTCTGCATATGTTTTTTGTTGTTTATTATCAATTTCATTTATTAATTGTTCAGGTTTTTTTTGTGGCATTACAAAACCTCCATACGGATTCAAGTCATTTGCATCAATTAAAGTTGCTTCACTATCATAAACATATGCTCCAAATGAAGTACCAAAATCACCATCTTCACTGGCTTTTGCTCTCATAAAAACATCATCGTTTCTAACCTCTAGATTTTTGCTTCCTCTTTCAGCTCAACTTTGTTGTTGTATTGGTTGTTTTGGCATTTGACTCACCTCCTGAGGTTTTTGTCTATCTTTATCCATAATTGCATTTTCTTTTGTTGCAACTATATCTCTTTCTAAGACGCTAGGGTCTCCGCCACCCTTATTTAATTTTTCAATTCTAGAAGCAATAATATTTCTCATTATCAAAGGACGACCATTTTCGTCTAATTTAGACATAGCATCGACATGTTGTTCTGTATTAACTTCTTTATAATTATGCTCTTGCAATAATTTTTCTTTTCTTGCTTGAATCATTTGTCTAAATTTACTAGGACCTACTCCATCTTGTTTTTCAAAGATGTTTCCTCCACTTTTTATCATTTCTTGATTATCTATTTTTAGTAATTCTTCAGAAGAAAGATCTCCCAAAACTTTTTTTTGTGGAGAGTTTTTTATTGAATTTTGTATATTAGCTCTCATTTGAGCAAATCTGTCGCTTGCAGAATTATTGCTCTGTGTCATTTTTACATCCCTCTCCTCCAACTTTTTGTATTTTTCAACACTATCGACAATGTCATCTTCACCACTTGAGAAAGGAGTTATAGCTTGGTTATATCTGTTATAAACAACAGCTCCAGAAAATTGATCTGCATCACTTTCTACAGGTTGAAGTTTTTCAACTTGAACCTCATCAGGAATATAAATTCCTTTAACAACAGTATTTTCAACATTTCCGGGATTTGTAAATCTATTTTTAAACTTAGCTATTTCTTTTTCTCCAATAGCAATATTTGCAAGAATACTTCCATTTTTAACAGGGCTGCCTATCTTAATTGTTTTAACAACAACTCCATTATAGTTTGATTTAATAGTCACAGTACTTTTATCATCTAATTTTATAAGAGCAAAATCATCTCCAAAAGAGATGTCTTCACCAGTAAATAGTCACTCTGTTAAGATACCTTTTTGAGGTAAATTTCTAGCCCTTAAATGTACCACACTATCCCCGTTCTTTCCTATTATACCATTTTTTTACCCAATTTTTAAGTGTAATTAACCTATCAATAATTATATAACATTCTATAATAAAACTCTATTTTCCTATATAATCAATAAGAAAGGGGTTTTAAAAAAATGAGCAAAAAAGTTAGAGCACAAGATGATTTTTACTTACACGTAAATGGTGAGTGAATTGAAACTGCAGAATTTCCAAAAGGTTATGCAACTTGAGGAAGTTTTGAACAACTACACAAAAAATCAGTTACTGATGTTGAAAATTTGATTTTAGACATGAGTAAATCATCAAATTTAAATGACGATCAAAAGAAAATTGTTGCATTATTTAATAACTATTTAAATTATGACAAAAGAGACGAACAAGGAGTAAACCCAATCTTACCAATTATTGAAATTATTGATAAATTAAAAGATAAAAAAGACTTAACAACAACATTAATAGAACTTTCAAAAAAATTTGGATTCGCTTTCTTTGTGGATTTTGGTATTGATTCAGACTTTGAAGATAGCAATCTTAGAGCATTAGGATTGTCTCCAATGGGATTGGGAATGAGAGATAAAGATTTTTATGAAGAATCTCACAAAAGACATGCAGAAATTAAAAAAGCATATAAAAATTTTATAGAAATTTTTTCTTCTAAAGTTAGTCCGATCAGATTTTCATCAAAAAGCTTATTTGAATTAGTTTATAATTTTGAATTAGAACTAAGTAAAATAATGCTAAAAAATGAAGAAAAAAGAAATCCATCAAGAATTTATAATGTATTAACAGTTGAAGAATTGGAAAATTTAAATCCAAGTTATGGATGAAAAAGATTTTTAGAAGAAACTGGATATATTAAAGCAAAAAAAATTATTGTTACAGAACCAGCTTATTTATCAGGACTTGAAGCACAGTTGAATAAATTGAGCATTGAAGATATTAAAGACTTATTAAAATTTGATGTTGTTACAAGTTTTGCTGGATTATTAAGCACAGAATTACACAAGATTATGTTTGAATACAGTTCTATATTTAGTGGTGTTAAAGAAATGAGACCAGATAATGAAAGAGCTGTTGGGTTTACAAGTTCATTACTTGGAGAATTAATTGGAAAAGAATATGTAAAAAAACACTTTTCTGAAGAAGCAAAAAAAGATGTTTTATCAATAGTTAATGGGTTATTTGAATCATATAAATCTAGAATTAAAAGCTTAGAATGAATGAGTGAAGATACAAAAGTAAAAGCATTAGAAAAGGTAAATTCTTTTACAGTTAAAATTGGATATCCTGATAAATGAGAAGATTTTAGTAAAATTGAGATTAAAGATTACAATGATGGTGGTTCTTTATATGAAAATACAAAAAATATTAGATTACACTTCAGAGATAAAAATTTAAGAGAAATTAATGAACCTGTAGATAAGTCTAAATGACATATGTACCCTCAAACTGTAAATGCGTATTATAATCCAACTTCAAATGAGATATGTTTCCCAGCTGGAATTTTACAATTACCATTCTATAGTATTGATCAATCAAAAGCTAAAAACTGTGGTGGAATTGGCGCTGTAATTGGACATGAAGTAAGTCACGGTTTTGATGATCAAGGAAGCCAATTTGACAAAGATGGTAACTTTAAAAATTGATGAAAAGAAGAAGATTACAAAAAATACAAAGAAAGAACACAAAAATTAGTAGAACAATATAATGCTTATGAAATAAATGGTACACACGTTAATGGAAATTTAACACTTGGTGAAAACATTGGAGATTTAGGCGGATTAAGTGCTGCACTTGATATATGTTTAAAAGAAAATCCAGAAGATATTAAAGGGTTTTTTGAAAATTACGCTTTAGTATGAAGCAGAATTATTACTCCAGAAGAAAGAAATACAAGATTAGCAACAGATCCTCACTCACCTGAACAATTTAGATGTAATGGTATAGTTATTAATATTGATAAGTTTCACGAAGTTTATGAAACAAAACCTGGTGACGAAATGTATAAAGCGCCAGAAGATCGTATAAAAATTTGGTAATTAAAAACACGCAAAAGCGTGTTTTTAATTACTCTATTCTTCTTGTTGCTATTCCTTTTTTGACAAGTTTTGCGTATCAAGCAGCATCTCTTAAATTTTGTTTTATTATAGCTCTATCTTTTGTTTTTGCTTCATTTAGGATTTGTTTTAAAGCAATTTTATGTTGTTTTTTTTCTAAGTTCAACTTTTTAATGTCTGCTTTTTTCAAACCATTTTTTAATGTACGATTATTTCTAAATTCTATTAATTTGATTAATTTTTCTTTGGTAGAAAGATTTTTTAAACTTTTCAACCAATCTTTATACTCTTTTTTCATTTCTAATCTTATTAATTTTCTTTCGCTTCTTGCTTCTTGTCTTTTAAATTTTCTAAATCTTAATCAATAATCATGTTCAGCTTTTGAGATTAAATTTCCATCAATATCATGTCATCTATAATATTTCACGTTATTTATAAATAAATATAAATATTGAAAAAAAACAACTAAAGAAATTATAAATAGGTAGCCCATAACAACTTGACCTAATATCATTGATTCTGATTTATCATAACTTTGTCAAATTCTTTCTTGACCTGTTACAATATCTGTTGTTTTTAATTGACCATTATGTAAATTCATAAATCAATATGGATATCACATTTCACTATTATATGGATTTACTTTATCAGCAAATGCAATAAGATCAGTTGACCAAGGTCCTTTTGGATTTACTTTTCATACTCCATTTTCACAAATATAAGCCTTGGAAAAAAACTCAGGACCATAAGTTTCTCAGCGAAACTCTCCTCTAATAACTGCATAAAATGAGTATAAAACAGGATAAATGGTTATACCATATAATGAAAATCGAGCATGTACTCTTGGACTATAATAAGTATCTCCAGAAGATAGAATAAAATTAGTTATCATTATAAAAGGAACAAATAAATGCAAAATACAAGTTGTAAATCAATCACTCGCTCTAACTTTAGCAACATTACCTGTATGAGTATGCTGAGTTACAATTCCTGCTCAAAATACAACCATTGTCAAAGTTATATAAACAGTTACTCCAAGTTCAATTCCAAACGGTGGTTTTTTATTATAACTATATTGAGTAAATAAACTATAAAAAAGATAAATTACAACTAAGTAATTAGATTGTGTTGTAAAAAATGCATAGTAATGGCTAAATCTTTCTAAAACCGGAATACCATCAAGAGATGGTTTTGGTGATATCAATATTCTAATGAAATCAAAAATTAAAAATGATACTAAACCAATTAGTACCATTAATTTTAAAGAAAACTCAAAATTCTTATTAATCTTCATTAAAAAGCCTCCTATTAAATATTTTAGCAAATTACAATATAATTTAAATAAATTATTTTAATTATAAAAATTTCAAAGTTTCTTTACAAATCATTAACTCTTCATCTGTTCTAATTTTTATAATTTTTATAGCAGATTCGTTTGTTGATATTTCTAAATAATCATCATATTCTCTTAAATTTGTTTCATTATCCAATTTAAGATTTAATAAATGAACTTTATCTATTACTAATTTTCTTGTAATAAATGAATTTTCTCCAATTCCTGCAGTAAATACAATTGCATCTACTTTACCTTCTAATTGATTTGCAAATTTTAAAATATATTCTGCAATTCTTTGTGTATACATTTCTAATGCAACTAATGCTTTTTCATCGTGATTTTCAATTGCAGCCTTTGAAACTTCTCTCATGTCACTAGAAATTTTGCTTACTCCTAATAAACCTGATTCTTTATTTAAAGAATTGGTCAATTGATAAACATCTTGATTTAATTCTTTTGCCATATACTCAATAATTGATGGGTCGATATCTCCGCATCTTGTTCCCATCATCAATCCTGCTAATGGAGTTAAACCCATTGTTGTGTCATATGATTCACCATTTTTTACACAACACATACTTGCTCCGTTTCCCAAGTGACAAATTACAAGATTTAGATCATTTTTATTTTTATTTAATATTTGACTAGCTTTTTCAGTTATATAATCAAAACTAATTCCATGAAAACCATATTTTCTTACTTTATGGTTTTCATATCATTTTAATGGAACAGAATACAAATAATTTTTAGCAGGCATTGTTTGGTGGAATGAAGTATCAAAACATCCAACTAATTTTGCTTTTGGTAAACCCTTTTGAAAAGCATTTATAGCTGTTAATGCACCCGGATTGTGTAAAGGCGCTAATTTAATATTATCTTCAACAGCTTGTTTGTTTTGATCAGTTAGTTCAACAGGTTTAACAATTTTATCTCCACCATGAACTATTCTAAATCCAATTCCTTCAATATCTAACTCATTTTTAATAACATTTAACTCTTTAAAATGTTTTAAAATTGATTCAACAGTCATTAAATGGTTATCATATCTATCATTATATTCATACTTTTGATCTTCTATTTTTATAGTTAATGCTCCATCAACACCAATTCTTTCAGCTAATCCTTCGACAATTGGTAATGGACTGTTTTTGTCATTGGTTTCATATAACTTAAACTTAATTGAACTACTTCCTGCATTTACTACTAAAATCATTTATTTTGCTCCCTTCATAATAGCTTGATAAATTGTTACAACTGAGGTTTTGTAAATATCTTCAACAGTTGCTCCTCTTGATAAATCATTAACTGGTTTTCTTAATCCTAATATAAATGGTCCAATTGCTTCAAAACCTCCAAGTCTTTGAGCAATTTTATAACCTATATTACCAGCATTTAAATCTGGAAAAACAAAAACGTCTGGTTTTTCTTTAGTTATTCTTGAATTAGGATATTTTTTATCTCTAACGGCTTTTATAAATGCGCTGTCAAATTGCATTTCTCCATCAAATAAAAACCCATTAGTATCATCTTCCATACCTTTTAATCTATCTACTGCTTTTTTTACTTTATCAACTGTGGGACCTGAGCCAGAACCTGCTGTTGAATAACTTAACATTGCAACTTCTACATTTTTAACATTCAACTTTAATGCAAACCTTGCTGCCATATATGCAATATCTGCTAAATTTTTTGAGTCTGGATCAACATTTAAAGCACAATCAGTGAATATATAATCTTCTTCTCCTTTATGCATAATAAATATTGATGAAGCAATTGAATAATTTTCTGAAGTTTTAACAATTTGCAAAGCTGCTCTTAATGTGTCTGCTGTTGTATAATTTAAACCACAAACCATTGCATCTGCTAAATCCATATCAATTAATAATGCTCCATAGTAGTTTCTTTTTTGAACTAAAACTACCGCATCATGAACCTCTAATCTACCTTTTCTAATTTCTAAAATTCTTTGTAACATATCTTCATTTAAAGATTCTTTTACAACTGTATATTTAAGTCCAGGGTCTAAATCTTTTGGCACTTCAAAACTCCCATTAAATAATAAATTAACATCAGCTAATCCTTCTTTTTGAATTCTAGTGGCAACTTCTATTATCTTACTTTCTACACCTTCTGGAAAAACCAATCTTATTTTTTTATGATGTTCTAATATTTGTTTTTTTATATCTTCTATTGTAAACATTATTTTTTCCCTCTCTTATATAACTCAATCTCTTTAATACTAGTAGATGATATTTCTCTCTTTTCAGAATCAGCAATTAAAATTATTGTTTCAAGTTTTGGATTTAAATATTTATTAACATCATAAATTTCTCTTTCATAAGAAAAATCAGCTTCGTTTCTAACACCTCTAATGATATAACTTGCATTAAGTTTTTTTGCAAAATCTGCTGTTAACTCATCTTGATTTATCAATACTTCACAGTTTTTTACTTCTTTTGTAAAGTTTTTAACTTGAATAACTCTACTTGCTAAATTTGGTTCCAACTCTTTTGCTATATTCTTAGTTATTACTATGTATACCTTTGAAAATAGTTTAACTGCTTTGTTTAGTATGTCCAAATGTCCTTGATGAAACGGATTGAAACTTCCAGGATATATAGCAATCATAATTTACCTCTACTTCAATATCTTTATTATTTTATTCTATTTTTATGAAATTCTTTTGCTTTTTTCCCCTTTTTAAGAAAAATTTTTTAAAAAAACAAAGCAAATGCTTTGTTTTTTTAGTAGTAATTGAAATATTTTTTTATTTCTCATTCTGTAACTTCAGTTTTATATTCTTCTCATTCATTTTGTTTATAATCTATAAACTTATTAAATAATTCTTCTCCTAAAAAATCTTTTATATAGTTTGATTCTTTAAAGTACTTTATCGCATCATTTAAATCAATTGGTAAATTATCTATTTTTAATTGATTTTTTTCTTCTTCTGATAAATTAAACAAGTTTTTTTTAATTGGTTCATAAGATTTAAGTTTATTTTGTATTCCATCAATTCCTGCCATTAAAATTGCACTTAATGCTAGATATGGATTACAACTTGAATCAACTGATCTTACTTCGATTCTTTTTGCGTGTTTATTTGCAGCAGGAATTCTTATCATAGTTGATCTATTACAATCACTTCATGCAATATAACAAGGCGCTTCATAACCAGGAACTAATCTTTTAAATGAGTTAACTGTTGAGTTTGTTAATAGTGAAATAGATTTTGCATTTTTTAAAACTCCATTAATAAAGTATATTGCCATATCGCTTAAACCATTTGGTTTAGATTCATCATAAAATAAGTTATTATTATTTTCGTCAGCTATTGAGCAGTTTGCATGCATTCCACTTCCATTTATTGATTTAATTGGTTTTGGCATAAATGTTGCATACATGCCATACCTTTTAGCAACAGATTTAACTAAAACTTTAAAAGTTTGTAATTTATCACAAGTATCTAATGCATTTGAATATTCAAAGTTAATTTCGTGTTGAGAATTTGATACTTCATGGTGAGAAACTTCCATTTTAAAATTCATTTTTTGTAATTCAAACATTATTTCTCTTCTCACTTTAAATGACACATCTAAAGCTGGAGTATCAAAATAAACACTATTATCAGTATGTTCTAAAATTGGTTGTTTATTTTCATCTAATTTGAATAAGAAAAATTCAGGTTCAACTCCAACATTAAAAGTATGTCCAATTTTTAAATCTCTCATTTTTTGTATACAATTTTTTAATATACTTCTTGGATCACTATGAAAGTGCTCTTTTTTTGATGTAAATACATCACATAAGAATCTTCCCACTTTGTAATCTTCAGTAGTTTCGCTTTCTAAAATAAGTCAAGTACTTAAATCAGGATATAAATACATATCTGCATCATCAATTTTTGCAAATCCTTTAACAGAAGATCCGTCAAAAATAACTTCATTATTTAAAGCTTTATCAATATTAGTTGCAGGTATTTCTAAACTTTTTAACATACCTAACATATCTGTAAATTGTAATTTAATGAATTTTATGTTTTCTTTTTTAATTATTGCAATAATGTCTTCTTTTTTCATTTTTATATCTCCACTAAATCTATTATATATAAATAACTTTATTAAGTAATTAATAAATTTTTTAATTTAAATAAGTTTTGACAGATATTAAATTTTTATATTTGTTAAAATTATTATATTTAGGAGATAAGATATGAATGTTTTATTAGTTGATGTTGGTAACTCTACTGTTGATTTTAGAGTTTGAAATAAAAAAACAAATATTATGACAAAAATTTTTAGACCAGAAACTCATGAAAAAGAATTTAAATCAAGCTCAAGATTAAAAAGAAAAATATTAAGTAAAAATATAGGTTTTGATGAAATTATTTATTGCTCTGTTGTTCCAGAATGAAATGATATTATAAGAGCGTTAGGTCAAAGTGTTGGAGTAAAAGTTTATAACTTTAGAAATGAGTTAGTTATTAATAATAGCGATTTTAATTTAGAAGGTGTTGAAAATATTGGAGCTGACATTTTAGCAAACTTTAGTGCTGTTAAGTTAAAACACAAACTTGATAATGTAGCTGTGATTTCAATGGGAACTGCTACAACAATATTTGTTGTACAAAATAAAAAATTTCAAGGAGTAAGTATATCTCCAGGTTTGGAAACATCCATTGATGGTTTAATAAGTAAAGCGTCTTTACTAAAAAACTTTGTATATGCAAAAACAAATGTAGATATCGGAAAAACAACCAATGATGCAATTAATCTAGGAGCTTGTAACGGACATTTTTTTATGATTAAGGGTTTAATAGAATATTTTAAAACTAAATTTACAATTGATAAGGTCATAATTACTGGTGGAATAGCAAATATTTTTGAAGATGATATATTTGAATTAAATTATACTTTAAATGAGCAATTAATTTTCGAAGGTATAATTGAAGTGTATAAGCAAATAAAAAAAGAGGGTTAATTTGTACTTGTCAATTAAAATTGACATTAAAAAGATACTTTCTCCATACGAATTTCTTATGGAGTTTTTTTTATGCTTCAAGTTAGGTCTAACATAATTATAAAAATCAATATAATCTGAAATTATTGTGTATATATTTGAATAGTTTAGCTCTTTTGTTTTATAAGTATAAATGCATTCATTTTTTATTGTTCCAAAAAATGATTCACACGCTCCATTATTATGAGAGTTATCTCTTCTTGACATAGATATACTAATCTTGTTATCGTCACATAAACTTTTTCATGTTTCATTGGTATAAGGGCTACTTGATCAGAGTGAATAATATCATGAGCACCTCTCTTTTTAATTGCAGATATAAGATTTGTATAACATAATTTACCATTAGGACTATTAGATAACTTTCAATCTACAATTTCGGAGTTATACAAATCTTTTATAACAGATAAATATGCATTTCCTGAATCAGTTTTTATATAAGTTACATCCGTAACTCATTTTTGATTTAAACTATATGATTTAAAATTTCTATTTAACAAATTATCATATCTCAAAGGACCAGACTTATCATATTTAGGTACTCTTTTTTTCGAACTGCTTTTAAATTATTAGTTTCATATATCTATAAACAACTCATGGTTTTAAATTTTAATTAAAATATTTATTCAAAAGTAAAGTCATCATATTGTATCCAAATCGTTTTTTAAATAAGTGAAAAATAAGTTTGATTTTGATAGCTAATATTCGATTATAGTTTTTATTCATAGGTTTTCCGTTTTTTAGTCATTGTAAATAACCAAATCTTGAAACACCTAGATATTTACAAACTAAGGTTAAAGTAAACTTTTTTGAGCAATTAAAAATGACGAAGTACTTTTTCTTAGTTGTCTTCGCCAAATGCTTTTTTAGTGCTCGCTCCAATTTTAATGCTTATCTTAATTCTTCTGTTGTCATATCAACAGGGTCTTTAAAAATTCAATCATGAGACTTAAATTTCTTTATATTTCCTTTTGTTTGAATTCCATTCCCTCATTCAAGAACGCCTTCACCTTTAGTTTTAAATTCAGATCTTCATCTATTGATTGTACTAGTGATAACATCATATTTTAATGCAGCATTTGTTATTCCTATTTTTTTAGATTCTTCAATTATTTTAATTTTTTCATTTTTTAATCATTGTTTTGCCATATAAAAAGAACACCTTTCAATAAAATTTTAACAATAAAAGTACTTTTTTACTGTCAATTTTATTTTAGATGTTCAAATTACTCTTTTTTATTTGCATACCTCTTTCGACAATTTCTCTACATTTAACAACATAATCTTTGGTTGGAGGTTCAACATCTTTTAAATAAAACCTCATTTTTAAATTTTCGTATTTTGGAATCATCATATTATGATATGGTAGCATTTCAAATCTTTCCATATTTTTTAAAGTTCCAACAAATTTTCCCATTTTTAATAAATCTTGCTCATCATCTGTATAGCCTGGAACTAAAACGTGTCTTACTCACATTTTAGCATTGTTATCATCTAAAAATTTAATTCCTTGTAAAACATTTGTATTTGGTCTTGATGTCAAATTAATATGTTTTTCATTATCTATATGTTTTAAATCTGCAAGTATTAAATCGGTATATTTTAAAAGTTCTTTTCACTTTTCTTGAACTGCTGGAATTTCTTGATATGTTCCTAAGCAAGTATCTAAGCAAGTATTAATTCCTTTTGCTTGAGCTGCTTTAAAAACTTCAATACAAAAATCAATTTGGGCAGTTGCTTCTCCTCCAGAAAGAGTTATTCCACCTTTTTTGTAAAAGTTTTCATTTTTTTTATACATAGCTAAAATCTCATCAACACTAATTGTTTTTTCATGTTTAAATTCAATTGTTTCTGGATTGTGACAATATTTACATTTGAAGAAACAACCTTGTAAAAATATTACTAATCTAATCCCTGGGCCATCAACAGCGCCAAAACTTTCCGTACTACTATAATATCCTGTTTTATGATCTTTTATTTCTTGACTCATCTTTTCAATAAAAGGAGAGTACCTTTTAAAGTACTCTCCTTTTTCAACTTTCTCTAATTACATTGATTGATGGAAAGTTCTTGAAATAACTTCGTCTTGTTGAGATTTGGTTAATTTAATAAAGTTAACAGCATATCCTGAAACTCTGATTGTTAATTGAGGATAGTTTTCTGGATGTTGTTGGGCATCTAATAAAACTTCACGTTTTAAAACATTAACATTTAAGTGGTGCCCTCCATTGCTCATATATCCATCTAACATATTAACTAAATTATCTTGTTGTTGTTTTGAAACTTTTTTGTCCATAATTTTATTCTCCCTTTCAGATACTTTTTTTATTATCTATATTATATCACTTTTTTATTTCAATGCGTCTTTTGGAATTTCTCCAGTAATTTTAATTTCTCCTGAAATTACTAAATCTTCATCTTTTCCAAGAGCATTTGGTACAACTGAGAAAGTATTTGAAATTCCATCCGCTGCATGTTTGAATGGTATTTTAGATACTGATGCTAATGAATTTACAGCTCCTGTGCAATCACGTCCATGCATCGGGTTTGCTCCTGGTGCAAATGCTTCAGGATATCTTCTACCACATGGAGTATCTCCAGTTGATTTTCCATAAACTACGTTTGAAGTAATTGTTAAAACTGACATTGTTGCTTCTGAATTTCTGTATGTGTGATGTGATCTAATTTTGTTCATAAATACTTTAACCACTTTTTTAGCTAAATCATCAACTCTATCGTCATTGTTACCAAATTTTGGGAAGTCCCCTTCTGTTTTATATGATGTTACAATTCCTTTTTCATCACGAATTGGATAAACTTTTGCATATTTAATTGCTGATAATGAGTCGGCAACTACTGATAGTCCAGCGATTCCTGTTGCAAAGAATCTATGTACATTTGTATCATAGAAACACATTTCTGCACTTTCATAGTAGTACTTATCATGCATATAGTGAATTACATTTAATGTATTTACATATTTGTCCGCAACTCAGGTCATCATATTATCAAATTTTGCTCATACTTCATCAAAATTTAATGGTCCATCGCCAGTTAATACTGGTTCATATTTAGGAGAGATTTGTTCTTTTGAGATTTCATCGACACCTCCATTAATTGCGTATAATAGTGTTTTTGCTAAGTTAGTTCTAGCTCCAAAGAATTGCATTTGTTTTCCAACTCTCATTGGCGACACACAACAAGCAATAGCATAGTCATCACCATGAGTAGTTCTCATAATATCATCATTTTCATATTGCATTGACGAGAACATAATTGAATATCTTGCACAGAATTCTTTAAATCCGTTTGGTAAACTTGTTGATCATAAGATTGTTAAGTTTGGTTCTGGTGAAGGTCCCATATTTGATAATGTGTGAATGTATCTAAAACAGTTTTTAGTTACAAGCGGACGTCCGTCTAATCCCATACCAGCAATTGATTCAGTTGCTCAAACTGGGTCTCCTGAGAAAATTTCATTATATGCAGGAGTTCTTGTGAATTTAACAATTCTCAATTTCATAACTAAATGGTCAACTAGTTCTTGAGCTTCTTCTTCAGTTAAGATGCCTTTTTCTAAATCTCTTTCAACATATATATCTAAGAATGTTGCAGTTCTACCAAATGATTCAGCTGCACCATTGTTTTGTTTAATTGCTGCTAAATATGCCAAGTAAGTAAAGTTAAATGCTTCGGTTGCATTCTTAGCTGGTTTTAATACATCAAAACCATAACTTTTTGCCATTTCTGTAATATCTTTTAATGCTCTAATTTGTTCTGTAATTTCTTCTCTTAAACGGATTTTTTCTTCAGTCATTTCTCCATCAATTAAAGATGCATCTTTAATTTTTTCTTGCATTAAAAAGTCACTTCCATAAAGAGCTAATCTTCTATAATCACCAATAATTCTTCCTCTACCATAAGTATCTGGAAGCCCTGTAACGATATGGCTTTTTCTAATTTTTCTCATATCTGGAGTATATGCGTCAAACACCCCTTGATTGTGAGTTTTACGATATTTTGTAAAGATTTCTTTTACACGATCAGATACTTGGAAACCATATGATTCGTTTGCTTGAATAGCCATATTAATACCACCTCAAGGCATTAAACCTCTTTTAAATGGTTTGTCTGTTTGTAAACCAACAACTTTTTCAAGTTTTTTATCAATAAATCCTGCCGCATGTGAAGTAATTGTTTGAGGTACATCACTATCAACATCTAGAACACCGCCAGCTTCTCTTTCTTTTTTAGATAACTCCATAACCATTTCTCATAGTTTTGTGGTGTTCTTAGTAGGACCTGCTAAGAAAGAATCATCACCTTCATAAGGTCTATAATTTTTTTGTATAAAGTTTCTAACGTCAACTTCTTCAGTTCATGATCCTTCTTCAAAACCTTCTCATTCTTTAAATTTCATTTTAATTGCCTCCTTAAAGATATTATCTACTAAAAATAAAAAATTTTCTATAAATTTATACTATTTATAGAAAATTATTTAATTATGAGAATTTTTTTATTGGATTGCCATAATATGCATCTAAATAAATTTGTTTAATATCTTCTATTAATGGATATCTTGGGTTTGCACCAGTACATTGATCATCAAATGCATCTTCTGCCATTTTTTCAAGTGATTTTTGAAAGTTTTTTTCATCAACTCCATAATCTTTAAATGAGGCATATAAACCAACTTCTTTTGTTAAATTTTGAACAGTTTCAATTAAAGCATCAACTAATTGTTCATCGGTTTTTCCTTTTAATCCTAGTTCTCTGGCCATTTGAGCATATTTTTCCATTGAATTTTGTACTTTATATTGTGAAAAGTAAGTTTGTTTTCCACCTTCTAATAGACATGCAGCATTATATCTAATAATGTGTGGTAATAAAATAGCATTAGCTGCACCATGAATTACATTGTGATATCCTCCGACTTTATGCGAAAGTGAATGAACCAATCCTAAGAAAGCATTTGCAAATGACATACCTGCAAATGTTGCTCCATCCATAACTTTCGCTCTTGCTTCTACATCTTCGGTTCCGTTTTTATAAGCTCTTGGTAAATAGTTTAAAATGTTTTTTGCTCCTTGAACTGCATATCCATCTGTATATTCAGTTGACATAACAGAAACATAAGCCTCTAAACAGTGAGTTAATGCATCTAATGCAGGTGCATTTGTTGCATTTTTAGGCACTGTCATAGTTAATTCAGGATCAATAATTGCCATGTTTGGTGTTAATGAATAATCTGCCAAAGGATACTTTGTATGTGTCTCATCATCAGTAATAACCGAGAAAGGAGTTACTTCTGATCCCGTACCTGAAGTAGTTGGAATACATAGCATTTTTGCTTTTTTACCAGTGTTTGGATATCTTACGATTCTTTTTCTAATATCTGCAAAAGTAACAGCTAAATCTTTAAAATTAACTTCTTCTCCATCGTTTTCATACATTAATCACATAAGTTTAGCAGCATCCATGGATGAACCACCACCAAACCCGATAATTAAATCTGGTCGATATTGTTTCATATCTTCTGCACCTTTTTTAGTTGTTGATAACATTGGGTTTGGTTCTACACCATCAAATACTGTGTAACTAATTCCCAATTTATCTAATTGCTCTGTAATTCTTTTACCGTATAATTGGTTAATTATTTTATCAGTTACGATATATACTTTTTTAATATCTCATTCTCTTAAATCTTCAAAAGCATACTGTAGTGACCCATATTTATGATAAATTCTTTCTGGTAATCTTAATCACTGCATATTTTCCCTTCTTTCTGCAATAGTTTTAACATTTAATAAGTTTAATGGACCAACATTTTGTGAAAATGAGTTTTTTCCGTGAGTTCCACACCCAAGTGTCATACTTGGGTCCATACCAAAGTTATACATATCTCCAACTCCACCGAGAGATGAAGGAGAGTTAACTAATAATCTACCTGGATTTAATCCTTTAAATAATTCTAATCTATCTTTATGTTTATCAACATCACATCATAATGATGCTGTGTGACCTGCACCCATTTTTAAAATTTCTCTTGAAACTTTAATTGCTTCTTCAAAACTTTTCACTTTATATGCAGCAACATATGTTGAAAGTTTTTCATGTGCTAAAGGTTCATCATAACTTGTATTATTTGCTTCAACAATAATAAATCTTGTAGTTTCAGGAACTTTAATTCCTACAATTTCCGCAACTTTTAATGCCGATTTACCTACTAAATCCGCATTTAATAGACCATATTTTCCTTCTTTAAACATTGCTTTTCTAAATTTATTTTTCTCGTCTTCAGAAGTTACAATATAACTATTCTTTTGCTTAAATAACTCTATTGTTTTATCATATACTGATTCTAAAATTACTAAAGAGTTTTCGGTTGCACAAACAACCCCATTATCAAATGTATTTGATTGTACAATTGATGAAGTTGCAACATCTAAATCAGCTGAATCATCAATAATTGCTGGTGCATTCCCAGCTCCAACTCCAATTGATGGAGTTCCTGATGAATATGCTGCTTTAACCATTCCTGGGCCCCCTGTAGCTAAAATTATATCTGAGTTTTGCATAACATAATTTGTTTTTTCTAAACTCGGACAATCTAATCAAGCTATAATATCTTCTGGCGCTCCTGCTTTAAACGCTGCTTCATATATAATTTTTGCAGCTTCTATAGTACAATTTTTTGCCCCAGGGTGAGGTGAAATAACAATTGCATTTCTAGTTTTTAAAGCAAGTAAACATTTAAAAATTGCAGTTGCAGTTGGGTTAGTTGTAGGAATAACGGCTCCGACTATACCAATTGGTTCATACACTTTATGTATTCCTAAAGCCTTATTTTCATAAAATGTTCCAACTGTTTGTAAATGTCTATATTTGTTATAAATGAATTCACTTGCATAGTGGTTTTTTAATATTTTATCTTCAAAGATTCCCATTGAAGTTTCATTATGAGCTAATTTTGCTAACATAATTCGATTTTCATTAGCTGCTAATGCAGCTGCTTTAAAAATTTTGTCTACTTGTTCTTGAGTAAATGTTGAATATTTTTCATAAGCTTTTCTTGCTTTTTCAAAAACTAAATCCAATTCTTCCATTTTTAATATCTCCTTACTCAATTATTATAGACTAATTGGAAAAATTTTTGAAAATTTTATTTTTTTCCCTACTTTTAGAAAAAAAATACATACTATAAAAGTATGTATTTTTGTGTACACAAAATAAATATAAATTAACGCTTTGAGAATTGTGGTGATCTACGCGCTCCATATAGACCGTATTTTTTACGTTCTTTAACACGAGCATCACGGGTTAATAAACCTTTACCTCTTAAATCTGTTTTATAATCTTTGCTTGCTTCTAATAAAGCTCTTGCAATTCCTAAACGAGCGGCTCCAGCTTGACCTGTGAAACCTCCACCTTTAACTGTAATTTTAATTGAAAAGTCTTCTTTTGTACCTGTAGCTTCTAAAGGTTGTTCCATATCTTGAACTAGTGTAGGATATGGAAAAAATTCTAGTGCAGGTTTACCATTTACGATAATCCCACCTTTACCTGGAGCTAAAATGACTTGAGCAATAGAAGATTTTCTTCTTCCAGTTCCTCTATACATAACTGAGTCTTTTTTGATAACAGCCATTATTTATCTCCTTTTCTTGAATTAATCACTAAAACCTCTGGGTTTTGTGCTTGGTGTGGATGTTCACTACCAGCATAAACGTGCAATGCACGGTATTGGTTAGCTCCTTGGGTATTTTTAGGTAACATTAATCTTACAGCTCTTTCAATAATTCTTTCTGGGAACAATTGACGTTGTGTTTTAACGTTTCTTGATTTTAATCCCCCTGGATACATTGAATGGTGGTAGTAGTTTTTATCCGCTTCTTTTTTACCAGTTAAAACAACTTTTTCTGCATTAATAATGATCACGTGATCTCCATTATTAATGTGAGGTGTAAAATCAGGTTTATGTTTTCCTCTTAATACAGTTGCAACTTGAGTTGATAAACGACCTAATATTGCATCTGTTGCGTCAACTACATATCATTTCTTAGCTATATCTGCTGTTTTTATAAGTGTAGTTTGTTTCACTGTGCTTTTTCTCCTTCGCTTCCGGGGCTTGTGAGTAAGCATATATATTATATACTAGTAATTTAAATAGTTGTTAAAATAATTTGTCTTTATTTTAGTTTTTTGTCTTTTTTATAAGACAAAAAAAATATTTTACAGGATATCTTTTTTTATTTTATCAATTATAGTTTAACTTGTAGAAAGGAGTTGTAATTATGGAAGAAGTAATTAAAGAATTAAATAAAAAAGAAAGCAAAAATAGTTTTACATTATGATTTAAAAATAATTTTAACAAAAGAACTTCTCTTAGAAGAGTACAAAAATTTGGTGGATGATTAAGTTCAATGATGATGCCTATAATTGGTATCATGATAGCTTGAGGACTATTAACAGCATTTTTCATACCAGATGGATGAACTCCGGTTGCTGCTATTAACGATTATATTGTTGGTAATGTTATTACTTATTTAATACCCGTTTTGATCGGTTTTAATGCAGGTAAATTAGTTCATAAAACTAGAGGTGGTTTTATTGCGACGTTTGTAGTATTTGCTGTAATTGTTGGAAATCAATACAATCCAGGATTTACTGAAGGTTCAAGTCCTTCGCCTCAATTTTTATCAGCTATGATAGTTGGACCTATGGCTGCCGGAATATTAAAATTAATAGATAAAATGTTGGAGGGAAAAATTAAACAAGGATTTGAAATGCTTGTAAATAACTTTGTAATGGGTTTCTTAGCTTTTGGACTTGGAATAGCAGCATTTTATGGAATGCCATATGTATTTAACTCAATCACTTGAGCGCTAGCAGAAGCTGTAAAATTTTTAATCAATAATAAAATTATATTTTTAACAGCACTTATAGTAGAACCAGCAAAAATATTTTTCTTAAACAACGCAATTAATCATGGAGTGTTCTCAGCACTATCACCAAGCTTGGTTACAGAAAAAGGAAGATCAATCTTATATTTATTAGAAGCAAATCCTGGACCAGGACTTGGAGCATTAATAGCAATTATGATTTTTGATAAAAAACAAAGAGAAAATGCTGCTGGTGCATCAGTAATTCATTTCTTTGGAGGTATTCATGAAGTATACTTCCCATTTATATTGATGAAAATAGAAATGATAATTGCTTTAATTGTTGGGGGATTAGTTGGAGATGCAATATTTCAAATATTTGATGCAGGGTTAATTGCACCGTCATCACCTGGATCAATAATAGCAATCTCGATTTTTATTCAATCAAGTGCATTAAATTATGCAGGGGTATATTTAGGTATATTTGCAAGTTGTGGAGCGGCTCTATTAACAGGATCACTCATCCATATTATAATGAGAAAAAAATATAAAAAAAATGCAGCTACTTTAGAAGAAGCTACTAAAAAACTAGAACAAATTAAAGGTAAAGAAATTAAACATTTAAGTAAAAAACCTTTAAAAGAGTTAGACTTTAATGAAGTAGATACTATAATATTTGCTTGTGAAGCTGGTATGGGTTCGAGTGCGATGGGTGCATCTTTACTTAGAAAAAAACTAAAAGAAGCAGGAATTAAAATTAAAGTGGTTAACTATCCTGTAAAAGAGTTGCCAAGTGATGCTAAGTTTGTCATAACACAAGACAAGTTGACTGAATACGCAATTCAAAAAGTACCTAATGCAACTCATAGAAGCATATCCAACTTTTTAGATAAAAATTTCTATGATAAAATAGTTTTAGAATTTAAAGAAAAGTTAGAGCACATCAATGAAGAAAGAAAGACAACTTAGAATTTTATACACGCTATTAAGCTATAAAAAACTTAATGTGGATGTAATCACAAAAGCTTATGACATAAGCAGAAAAACTTGAGAAAGAGATTTTGAAGATATAAATCTCTTTTTATCAAAAAAGGGGCAATTTAGAATAATTGAAAAAAATAATTCAATTCATTTTATTGGATCTGATATTAATTTATTAGAACAATTACAATTAGATGACTCATTTTTATTAAAAGAAGAACGATTAATTTATATATTTATGATTTTATTAAGAGATTTACATATTGCAAAAAGTCAGCTTATTGATGATTTAGATGTTTCAATGAAAATTTTAGAAAATGATATAAATGAATTAAGAAATATATTTATTCAGAATGAAGCTAACTTATCAATCGATAGTAGAGGGATTAAAATATCTAATATACAAAAAGATAAAGAAATTAAAATTTTAATAGATATAATTATTAAACATTTATCTTTAAAACAAGTTTATTCTATTTTAAAGTTAAATAGCATTGAAAAACTATTTTCGAGCTATATTTATAAATCTTTAGAAAAAAAATATAACATTAGTATTTACAACAAAATATTTATTTGAACTTTAGAACATGCTTCAAATCAATATAATATATCAAATTATGAAATAATAATTTTGTCAATAAAAATAACTTTATGGTTAAATCACCCAAATAATAAAGAGCTTATGATAGCTATTGTCTCACTCAATAATCAAAGAGATTTTTATGAACTAGTCAAAAAAATTTATTGCACAGAAAAATTAAAATTGTTTACAATTAACCACTACTCAAATAATAATTTTAATGAAGAGATTGATTTATTTACTGAATATTTAAATAAACAAATCAAAAAGTTATTTAAAAGTAATATTAATTTAAATAAAGATATTCAAAAACGAATAAAAGATCACATAAAATCTAATCTTGATTCTACTAATATTGATGAAATAATATTAGCTGAATACAACAGAAATTTAAGTCAATATATTAATACTTATACAGAATTATGAAAAGTCATAAAAGATTGTGTAGCTAAGTTTTTTAATGATAGTAAGGTATTAAAGTTGATTCAATATGAGATTTTTATTCACATATTGGTTTGATTTGATACTTATATTTATGAACTTGAAATTAATATTTTAACAATTTGTATTGGCGGAATGGGTCAAAGTGCTATGATAAAAAATCATTTAGCATCTATGTATCGCAACGCAAAAATTGAAAATATTGCTTTTTCGAACATTAACAAACAAGTTTTAAAAAGGTATGACATCATTATATCTGCAGTTGATATAAGCGAATTTAAAATTGAAAATTTTATTTTAATGCCTTTAATATTAATTTTAAAAAGTAAAAATGAGATTCATAAAGTTATAACTGAAACAATTTATAAAAATTTACTAGGAGGAAAAATGCAAAATCAGATTTTAAAAAAAGAAAATATATTAATAAACCAAAAAGCGAAAGATAAAAACGAGGCTATTTTGCAATGTGCAAACTTACTTAAAAGTCAAGGATATATAGAAGATGAATACATAAACTCAATGATAGAAAGAGAGAAAAAGTTTTCTGTATACATTGGCAATTATTTAGCAATTCCACATGGACTTGATCAAAAAGGTGTTATTAAAGATGGTATTGTAGTTATTCATTACAAAGAGCCTATTGATTATGATTCAAATCCTGTTAATTTTTTTATAGGGATTGCTGCAAAAAGTAACAATCATATGGACATTTTATCAAATATAGCCGAAAAAATGATGGAACTTGATTTTGTAGAAGAATTAATAAAAAACCCATCAGAAGAAAGAATATTAGAGGAGTTTAATTTCTAATGAATGTAGTACACTTTGGAGCGGGAAATATTGGTAGAGGATTTATAGCTCCAATCCTAATTGATAGCAACCAAATAAAAGAATTTTATTTTGTAGATAGCAATAAAGAGTTGATTGATAGTTTAAAAAATATTGCACAATATAAAGTGATTGAATTAAATGAAGAAAATAAAACAAAAATTTATAAGAATTTTAAAGCTTTGAACTCTAGTGACATTGATTTAATCAATAAAAAAACAGTAAGTATTATAACAACATCAATATCATCGGTTAATTTAAAATACATTAAAGATAGTGTTATTAGCATAATTAAAGAAAAAGAAGCAGTCAAACAAACTCTAATAATAATGTGCTGTGAAAATGGAGAAAAAGTTTCTAGTTATTTTGCTCAGATTATTAAGCAAGACTATCAATATGATGATGATTTAATAAAATTTATAGATGTTATGGTTGATAGAATCGTACCTAATGAAAAAGTTTTATCCTTAGATGTTAAAGTAGAACCTTATTTTTCTTGAGTAGTAGATAATGAAAAGTGACCTGAAAATATTAATAAAATAAAAGGAATGACTTATACCAATGATATTGATGCTGATATTTGTAAAAAAGTTTGAATGTTGAACGGAACACACGCTTCTCTCGCTTGAAAGGAATGGCAACTTTCTAAATTTAATAATCCAATAATAGTTGATGTGTTAAATTCTAATGACAATAATGAGTTAAATAATTTTTTAAAAAACTATTTAAAAGAGATGTCTGATATTATTGAGGTTGTTTTTAAATATGATAAAAAAGAGTTGAAGAGTTTTGTTGAAACTTTAATAAAAAGATTTAAAAATCCTTTTATTAGAGATGAGTTTTCAAGAGTTGCTAGAAATACTATAAAAAAAATTCAACTAGATGAAAGAGTAATAAAACCTTTATTGTTAGGAATTGACAATAATCTTGAAGTAAAATATATAAAACAATCTCTAATAAATGCTTTATCGTACAATAACAAAGAAGATGAAGATGGTTTAAAAATACAAAATCTTTTAGATAAAAACTACAAAGTAAAAGATATTGCAAAAGAACTTATTGAAAATATTAACGACTATATTCTAAATAAAATATTATAAAAAAAGTGCTAAGTGAACATCTAAAATAAAATTGACAATAAAAAGTACTTTTATTTTTAAAAATTTATTGAAAGGTGTTCTTTTTATATGGCAAAACAATGATCAAAAAACGAAAAAATTAATATTATTGAAGAGTCTAAAAAAATTGGAATAACAAATGCTGCATTAAAATATGATGTTAGCACAAGTACAGTCAAAAGATGAAAAGCAGAATTTAAAACTAAAGGTGAAGGCGTTCTTGAATGAGGGAATGGAATTCAAACAAAAAGAAGTATTAAGAAATTTAAGTCTCATGATTGAATTTTTAAAGACCCTGTTGATATGACAACAGAAGAATTAAGATAAGCATTAAAATTGGAGCGAGCACTAAAAAAGCATTTGGCGAAGACAACTAAGAAAAAGTACTTCGCCATTTTTAATTGTTCAAAAAAGTTTACTTTAACCTTAGTTTGTAAATATCTAGGTGTTTCAAGATTTGGTTATTTAAAATGACTAAAAAACGGAAAACCTATGAATAAAAACTACAATGGAGTTCTTGTTATAAAAATAAAATTTATTTTTTATTTGTTTAAAAAACGTTTAGGTTACAACGTAATAACTTTACTTTTAAACAAATATTTTAATCAAAACTTAAAACCATGAGTAGTTTATAGATATATGAAAATCAATAATTTAAAAGCAGTTCAAAAAAAAAGAGTGCCAAAATATGACAAATCTTGTCCTTTGAGATATGAAAACTTATTGGATAAGAATTTCAATGCAGATTGTTTAAAGCAAAAATGAGTTACAGATGTAACTTACATAAAGACAGCTTCAGGAAATGCATATTTATCTGTTGTAAAAGATTTTTAGATTCAGAAATTGTTGATTGAAAATTATCTAACATTCCTAATGGTAAATTATGTTATACAATCCTTATCTCTGCAGTCGAAAAGAGAGGCGCTCCTGATATTATTCATTCTGATCAAGTTAGTCTTATACCAATGAAACTTGAAAAAGTTTATGTGATGAAAACAAGATAAGTATATCCATGTCAAGAAGAGGTAACTCTCCTGATAACGGAGCGTTCGAATCTTTTTTTGGAACAATAAAAAATGAATGTATTTATACTTATAAAATAAAAGAGTTAAACTTTTCAAATATCTATACAATAATTTCAGATTATATTGATTTTTATAATTATGTTAGACCTATGTTGAAACATAAAAAAACTCCATACGAATTTCGTATGGAGAAAGTACATTTTTAATGTCAATTTTAATTGACAATAAAAAGGTACTTTTATTTTTTTGTGGTTAAGGTAATTAATTATTAACTTAAGGTTTATACTTATCACTAAAAGTTTATCCAAATAAACTATATTTTAATATTTAATTACTTTTAAATATGACGTTATTTAATGTTTCTTTAACCACTTTTAATATAGTAATTTATAAATAGTTAGCTGTCAAACTCATAATTTATTTCATATAATATAAGACCTTCAGGATTTGCCATATAGGGTAGTTTTTCTTCTTTTAAATCTAAAACGTTTTTTATATTTTCTAAAGTTATTTTACCACAAGAATAAGCTAAGCAAACACCGACTATAGATCTAATTTGATATCTTATAAAACCTTTAGCTTCAAAAACTATAATAATATCATCATTCTCTTGTTTTAAAAATATTAAATCTATTTTTCTTATAGTATTTATAGTATCTAATTCTTTTCCTTTTAAACCTGAAAAGTTTTTAAAATTATGTTCTCCTATAAATAGATTTAAAGCTTGTTCTAATTTTCTTAAATCATAATCTTGGTTTGAAAAAAATCAATATCGATTCGAAAATACGCTTTTAGGCTTTAAACTAATTTGATAATGATAAACCTTTTTAATACAATTTCTAACTCTAAAAGTTTTTTCTATTTGATTAGCTTTCCTTATTTTTATTCCAAGGGGCAACGCTCTATTTAAAGCATTTAAAAAGCCTAATATGTTTGGTTTAAAATCCAATTCTATTCAGGCTTTTTGATCTTTTGCATGTACTCCAGAATCTGTTTTTGATGCTCCAACAACTCTGTAGTGAGAGTTTCTAGTAACTAAATTAATAGCTCTTTCAATTTCGCCTTGAATAGTTTTTTGTCCTTTTTGCTTAGCTCATCCACAAAAATCTGTACCGTCATACTCAATTGTAAATAAATAGTAAAACATTATAAGTTTAGAATTGCATCGATTCTCGGAATTTCAACTTGTCTTAACACTTCAACATAAGGATAACAAAATAAAATTGCCGCTATACCAATATAAATTAAAAATATTACTCAATCTAAAAGTCTAAATTTGACTTGTCTATATCTTGTTCTTTTTGCATGCGGATCAAACCCTCTTGAATCCATTGCAAAAGCTAAATCTTCGGCTTTATTAAATGATGATACTAACAACGGAATAATCAAAGATGTTGTTCCTTTAACTTTATCTGCTAAATTTCCATTCTTAAAGTCTATTCCTCTTGAAGATTGCGCCTTCATAATTCTTCCTGCTTCATCAATTAAAGTCGGAATCATTCTTAAAGCAATAGAAATAATAATAGAAAAAATATAAACTGGAATTCCAATTAACTTTAAAGGTCATAAAAGATCTTCAATAGCTAAAGTTAACTCTAAAGGTTGAGTTGTCCCTGTTAAGATTGTTGTTAAAGTAATCATTAAAAATATTCTTAAAGTCATATATGTTGCTCTATATAAAGCTTTTTCGGAAAATCATAATTTTTTATAATTAAAAATATATCCATAATCACTTGATTCTGCATATCTTGCTCCACTAGAACCTAATACAGTTCAATTTATACTTGTATCGTTTGTTTCTGGATGTAAAACAAAGATATTTAAAATTATAAGCATTATAAAAATAAATAAAATCGGTGTAAATAATTTAAATAACATTTTAAAGCTTAGCTTGCTTATTGTATACATACATATAATCCCAGTACCTATTAAAACAAATCCTGTAAATCCAACCGGCATAAATACTGCAACAATTAATGCAATAACCATAAACAATTTAATTCTTGGATCCATTCTATGAACCACTGAGTTATAAGGCATGTATCTACCAAATACCATTCTCATTTTTTTACACCTACTTTCTATTTTTTGCTAGCTTAATTGCATTAGCTACTTCTTCAACAGTTCTAAATTTACTTGTAGTAATATCTATTCCTTGTTCTTTTAATTTATATGCTAATTTATATAATTTTGGTGGTTCTATTTCAATTGTTCTTAGCAAGTCAAAATTTGAAAATATTTCAAAAGGATCTCCCACAGAAATCACTTTTCCTTTATGCATAACAATTACTTCATCTGCGATTTGTAAAACGTGATCCATATTGTGAGTAACTATTATAATTCTTTTTCCTTTTTCTTTATTTAGATTATAAAAAAGTTTCATAAAGTCTTCTTCACCCTGCGGATCTAATCCCCCAGTAGGTTCATCAAGTACTAATGTATCTCCATCCATTGCAATAATTCCAGCAATAGCAACTCTACGTTTTTGACCCCCAGATAAATCAAATGGATTTCTTGAAGCATATTCAACTGGTAAATCTACCATTTTTAATAAATTAGGAACATTTTTAAGAGATTGAGTTTTTTCTGCTCCTAAGTTAATTGGACCAAATGCAATATCTTTTTCAATTGAATCTTGGAATAATTGATATTCTGGAAATTGAAATACTAGACCAATTTCTCTACGCAAATCTTTAACTTCTTTTATTTTTTTAGTTTTAGCATAAAGTGAATAATTTCCTATAATAGTTCTACCTGTTTCTGAAATAATTAAACCATTTGTTAATTGAATTAAAGTTGATTTTCCACTACCCGTCATACCAATGATAGCTGTAATTTTTCCTTTTTTAATACTTATATCAGTTCCGTTAAGTGCTCTAAATTCAAATGGGGTTCCTTTTGAATAAGTATATGAAACATTTTCAAAAACAATATCTCCATTAAAATCAAAAGCTGGTTGTTTTGCTTTTTTTAATTGTTTTTTATAATGTTTTTCTACTGATTTAGATTTTTCAACTGTTTTATATCAATCGTTTACTTTTTGAACTCTTTCATTAACATGTTTTAATGATTCTTTTTTAACTGCTTCAAACTCTTTTTTATATTTAACTTGGTTTGGTTTATCTTTTTTTATAAGTTTTGCAATTTCTTTATGTCTTTTTTTTCTTTTTTTATTTTCTTCACGATTATGTACTGCAAGTTCTCTTAAATGTTCTTTATATTTTGCCTTTGAAACTTTTCTTTCAATCATCGCTTGAGCTCTTTGCTCCTGGTTCATATTTTTTAGTTTTGACATATCTTATTCACCAACTCTTCTAAACTATTACTGTGTTCAAGATTTATTCCAACATTAGATAAAGCTTCTTCAACTTGGGCAACAAAAGGAATATCTAAGTGAATAGATCTTAAAAATTCTTTATCTGCTAAAATTTCTTTTGGTGTTCCAAATTTTACTAATTCCCCTTTATTCATAACTAAAACTTTATCAGCATTTAAAATTTCATCCATATCATGAGTTATCGAAAATATAGTTTTTTCTCTAGTGTTTTTTAATTCAACCATAATATTTTTAACTTCTGTTTTTCCTTTTGGATCTAACATACTTGTTGCTTCATCAAAGATTAAAATGTCAGGTGATAATGCTAGAGCTGATGCAATCGCAACACGTTGTTTTTGACCTCCAGATAGCATTAATGGTTCGTGATCTAAAAAGTCATACATATTAACTTTTTTTGCAGCTCATTCGATAATATCTGACATTTTTGATGGTGCTACTCTTCTATTTTCTAAACCAAAAGCAATATCATCTCTAACAGTTGAACCAATGAACTGATTATCAGGGTTTTGAAAAACTATTCCTAAAAATTTTCTAGCAATATTTATATTACTTGAAGTTACTTTATTTCCATAAAGTTCAATTGAACCACTTGTTGGAACTAAAACTCCAATAATAATTTTAGATAATGTAGATTTACCACTCCCATTATGACCAATAATTGCAACATATTCACCATGATTTACTTCAACGCTTACTCCGTTAACAGCAAATGGATGATTTGGATTATATCTAAATTTTATATTATTAAGTTTTAATGCAGTATTTGATAATTTAGATAGTTCTCCCCCGTGACCACGATCTTTCATAGCGATTTTAGATTCTTTTAAAAGAAACTGTGCTAATTTTAAATCTTGATAAGCATGTCAATATTGATCATCACCTTTTTTGTGATTTGCTAACAATTGTTTTGCTAATTTCAAGTTTTCTACAAATTGTTGATTATCCACTTTGTTTTTAAACTCAGCTTTTGCTTTTTTGAACTCTTCTTCATATTCTTTAACAATATCTACAGTAATTTCACCTTTTGAAAGCTTCATTTTTGCAATTATTAATTTTTGACTAGAACGTACTAATTTATCATTATATTCATTCAATAATAATTTAAAATCATTTAGTTCCTTTGTAGTTAAAAGTTTTTGTTCTGACATATTAAATTTGTCCTTTCACAATTTGTATAAATTATACCAAAATGTATTTAATCATTATTTATATTTTATATAAAAATGATAAGTAAGCAAAGAGTTTTTATAATTAATTAAATTTTTTATAAAATAAAATTTTTTTCAAATTTTCATAAACTTACTATAAAGCCTTATAAATAAGCCTATGCTATAACCTATATGAAAGGATAAAATTATGAAAAAATTTAATAAAACTGTATGATTTAACTATTTTATCTATAGTTTTTTGTCTTTATTAAGTAATGCTTGTTATGTTGCAATGAGTTATGCTTTTTCATTCATTATTGATAGTGCAATTGATAAAAATTTAAATAAATTTCTTATAGCTTCAGGAACTGCATGTGGTTTAATACTTGGTCATTTAATACTTGATTATATCTGTGATTTAATTTTAAACAGTTCATTAGCAATTATAAATAATAATTTAAGAAAAATTGTAGCTTATAATACATTTAAAGAAAACTATGAATTAAAGTTAGATTCAGGAGAATTTATAAACTTAAACTCAAATAAAGTTAATCAATTAGCAAATAGTTATTACAAAAATATTTTTGAAATAACTAATTGCTGTTTAGCAATAATTGTTGGTTTTGGTTTTATAGCTTATATAAGTTGAATATCTTTATTAAGTTGTATTATTTTATCAATATTAATCATTATTGTGCCAAGTATAATGTCAAAAACTAGTCAAAAAGTTGTAAATATTGCAAATGATAAAAATGATAAATTTTTACAAACTACAAAAGATAGTTTTAATTCTTATTGAGTGTATTGAAGTATGAATGAAACAAAACAATTAATTGAAAAAATTAATACAGGATCTAAAATTTTAGAAGCAAAAAATCGAAAAAAAGAGAATATTTTAAACTTTTCTAATCTTTTATTTAGTGTAATTTTATTTTTAGGACAAGTTATTTTAATTATTTTATTTAGTTGAATGTATCTTGCTGGATTTATAAAAAGCATCGGAACAATTACAACTCTAAATATTATTAGTGGTGTTTATTGTTTCTTTGGAGGATCAAGCGTAAGAAGTTTAATGGGAATATTAAGTTATAAAAATGTAGTTAAAATTGATTTTAAAGATATTAAAGATAATATAAATTTAGTAGCAGTACAAAAACTTGATTCAATTGAGCTAAAAAACTTAAACTTTAAATATGATGACCATGACAATCATGTTATTAAAGACTTTAATTTAAGTATTATAAAAAATGATAAAGTTTTAATACAAGGAGAAAGTGGAGCTGGTAAATCTACACTTTTAAAATTAATTTTTAATTCAAATAACGCTAGTCAAGGACAAGTATTTATTAACGGAGTTAATTTAAAAGAATATGATATTAGACCACTTTGTGCATATATTGGACAGGATATAGTATTAACTAAGGGAACTATTTTGAAAATTTAACTATCGCTAATAAAAAAATCAAAGAAGACGAAGTTAAAAATTATTTTGAATTGCTAAATTTAGATGAATTATTAAAAAACTACCTGATGGGTTAAATACTCAAGTTTCAGACAATATGTTAAATCTATCTGGAGGAGAAAGACAAAGACTTTCAATTATTCGAGGATTAATAGTTAACAAAGAGTGATTATTTTTAGATGAAATCACTTCTGCTCTTGATGAAAAAACTGCCTTTAAAGTTTTAGATATCTTTTTAAAAGATAAAAATAAAACTATTATAATGGTTGCTCATAAATTAGATCAAAATATTGTTAAACAATTTAATAAAGTAGTTAAATTATAAAAAAATGACCATTAATTTGGTCATTTTTTTATTAAACTAATTCAATAATACACATTGGAGCATTATCTCCACGGCGATTATCTAATTTTAAAATACGTGTGTACCCACCGTTTCTTGATTTAAATCTTTTTGCAAGAGTGGTGAATAATTTTTGTAGTGCAGTTTCTTTTTCACTTGCATTAATGTGTCTTAATCATGCTGCAGCTTGTCTTCTAGCATGTAAATCTCCACGCTTTGCAAGAGTAATCATACTATCAAAGTGCTTTCTTAACTCTTTTGCTCTAGTTTCAGTGATTTCTAATTTTTCTGAAATAATTAGTTCAGTAGTTAAGTTTCTCATTAAAGCGACTCTTCAAGCAGTGTTCTTACCTTGTTTTTGAATGTATGACATACATTAACACCTCTTTCTAGTCTTGTTTAAAAGTTAGTCCTAATTGAACAACTTTATCTTTAATTTCTTTTAATGATTTTCTACCCAAGTTTCTAATTTCTTGAATATCATCTTCACTACGCGAAACTAAATCACGTAGAGTATTTATATTTGCTCTTTTTAAGCAATTTAAACTTCTTTGTGTAAAGTCTAAATCTTCAATTAATTTATCTAGTTCTTTTTCGTCTTCTTCGCTTGTTACACCAATTACGTTTAACTCATTAATTTCTTCATTTAAGTTAACAAAGAAATGTAAATGTTCTACTAAAATTTTTGATGCAGTTGCAACAGCATCACTTGCTGAAATTGTTCCGTCAGTTTTAACTTTTAAAATTAATTTTTCTAAATCTACTGATTTACCAATCTTTGTAGCATCAACATCGTATGCAACAGATATAATTGGTGAATAATTTGAATCAATTGTAATTGAATCAACTGTTAATTTTTCTTTTTTATTATCTTTAAATGATCTATATCCTCTTGAGTTTTTTGCAAATAGTGTTAAATCTAATACTCCACCATCAGCGATATTACATAAAACTAAGTCTTTATTAACAACTTCTACTCCTGTTGGTAATTCTATATCTCCTGCTTTTACAGGTCCAACTGCTGAAGTTTTGATTGATAATTCTACTACTTCATCTAATGAAAACATATTATTGTCAATTCTCAAAGCTAATTGCTTTATATTTAAAATTATTCTACTTACGTTTTCAACAATACCTTCTATTGATGTAAATTCATGAGCCGCCCCTGCAATTTTAATTGCATAAACTGCTGCTCCTGGCGTTGAACTTAAAAGAGTTCTTCTGATTGCGTTACCTAAAGTAATTCCAAATCCTCTTTCTAAAGGTTCAACTTTAAATTCCCCATAATTTTTGTTATTTTCTTCTTTTAGTAAAGTAAATTCTGGTCTAGCGAATTGTCTCATGTTTCTTATCCTCTTGGGCGTTTTCTAGGACGTACACCGTTATGAGGTATTGGTGTAGTGTCATTAATTGAAGTGATTTCTAGTCCGATACCCTGTAAACTTCTTACAGCAGCATCTCTTCCTGGTCCCGGTCCTTTAACTTCTACTTGTATAGTTTTAACTCCGTTTTCCATTGCTCCTTTTCCAGCAGCTTCTGCAATCATTTGTGCAGCATATGGTGTTGATTTTTTACCACCTTTAAATCCTAAAGCTCCGGCGCTTGATCAAGATAAAACATTACCTTTTTCATCAGAAACAGTTACTATTGTGTTATTGAAAGTGGCATGAATGTGAGCGATACCTTTAGCAATATTTTTCTTAACTTTTTTACGGTTAGCAGTATTTTGTTTTGGGTTTGCCATATATTTTTAACTCTCCTAACTATTTTTTCTTGTTAGCTACAGTTTTTCTAGGACCTTTTCTAGTACGTGCATTTTGTTTTGTTGATTGTCCACGCACTGGTAGTCCTTTTCTGTGTCTCATTCCTCTGTAACTTCCAATTTCCATTAAACGTTTAATGTTCAATGCTGTTTCTCTTCTTAAATCTCCTTCAGTCTTGAATTTTGAAATTTCTTGTGAAATAGATTTTTGTTGTTCTTCTGTTAAATCTTTAACTCTAACATCTTCACTAACTTTAGTTGCCTCTAAGATTTTTTGTGATGTTGATAAACCAATACCATAAATGTAAGTAAGAGCGATAACTACTCTTTTTTCATTAGGTATTTCTACCCCATTTATACGAGCCATATCTCTTTTCCTTTCTAAATTAATTCAATTTTTATTTTGTTTTAATTAAAATTAACCTTGACGTTGTTTATGTTTTGGTTGTTCACAAATAATCATTACACGGCCTTTACGTCTAATTATGCGACACTTATCACATATTTTTTTGACAGATGATCTTACTTTCATCCTTTAAACCTCCTGATTTTTGTATATTTAATTTTTTAAAAATAATTACTTATTTACTGTTTTTAAAACGGTATGTAATTCTTCCACGTGTAGGGTCATAAGGTGATATTGCAACAGTTACTTTGTCACCTGGTAAAATGCGAATGTAATTCATACGGATTTTACCAGACACGTGGGCATCAATAACTATTTCATTTTCTAGTTTCACCTTAAATGTAGCATTTGGCAACACCTCTTGCACTATGCCATCAACTTCTAAATAGTCTTCTTTTGCCATAGATTAATTGTCCTCCTTTGGTTTATATAATGTTAATATTTCTGGATCTCCATTTGTAACCAAAATAGTATGCTCAAAATGAGCTGCCATGCTATTATCTTTTGATGATACTGTTCAATCATCTTTTCCAACAACGGTTTTATCAGTTCCAATTTGTACCATTGGTTCAATACAAATTGCCATTCCTTCAATTAGACGCATTCCGGTTTCTTTTATTCCTGTATTAGGAATAAAAGGATCTTCATGCATTTCTAATCCAATTCCGTGTCCTGTATAATCTTTTGGCAATTGAAAACCATATTCTTCAACAAATTGTTGAACAGTAGAAGAAATGGTTCCGATGCGCACACCAGCTCTTACCTGTTCAATCGCCAAGTAAAGTGACCTTTCAGTCACTTCTACTAGTTTACTATGTAATTCGTCTTTTGCTTGTCCACAAATTACTGTGAATGCAGAATCAGAATGATAATCTTGATATATACATCCTGCATCAATTGATACGATATCACCATCTTGAATAAGACGATTATTTGGAATTCCATGAATTAATTGCTCATTTATTGATATGCATATATGAGCAGGATAGCCAAAGTAATTTTTGAAGTTACTTTGGCATCCTTTTTTTGTGATAAATTCAATAAAATATTTATCTAAATCCAAGCAATTTACACCTGGTTTTATCATTTTTTTTAAGTTATACAAAGCTTCACTTAAAACTTTGCCAGCAACTCTCATTTTGTTAATTTGATCTTGATTTTTTATAGTAATTGACATTATAGTTTTAACGCTTCTACTAATTCTTTATGAAAATCAATTGCTGACTTAACATTTCCATCAACTTCAACTAATTTATTTTGTTCTCTATAATAGTTGATTAATGGAGATGTTTGTTCATTGTATACTTTTAATCTAACTTTAATTTTATCTTCTTGGTCATCTTCTCTGGTGATCAATTTTCCACCATCAAAGTCACACACATTTTCTACTTTAGGTTTACGATTTATTTTATGAAAACTTCTTTTACAAACTTCACAAACTAATCTACCAGATAACCTTTGTAATAAAACACTTTCTTTTACATCAATATGAACAACATAATCTAATTTTTGATTTAAATCACTTAACATTTGATCTAAAGCTTTTGCTTGATCTAAAGTACGAGGATATCCATCGAAAATTAATCCTGAGTTTTTTGTTTGTAAATAGTCTTTTACCATATCGTTTGTAACATCATCTGGTACATATATTCCCTTAGTCATATATTCTTGGGCTTTAAGACCTAATTTAGTTTTATTAGAGATATTTGTTCTAAATAGATCTCCTGTTGATAATTGAGTAAAATTATATTCTTTACTCAAAAGTTCTGATTCAGTGCCTTTTCCACTTCCTGGGGCACCAATTAAAAGAATGTTCATAAATTATTGTTTGCCTTTCTTATCAAATGTGAGTATTTAAATTTTCATCTGAGAATTTTTCAGATTTTTTGTCAATAAATGATTGTTGAATTAATCTTCCTTTTAGTTGTTGAGTTGTTTGAATTGCAACAGAAATAATAATGATCAATCCAGTTCCTCCAATTGCAAGCGAGCTTGGCAAGGCAGTTAATTTACTGATAATGTAAGGTAAAACAGCAATTCCTGCAAGGAAAGTTGCTCCAATTACACTTAATCGATTTATTGTAGCTGTTAAGAATTTTTCTGTATCTTTTCCTGGTTTAATTCCGGGAATAAATGTTCCTGATTTTTTGAAGTTTTCTGCAATTTTTTCAGGATTAATTTGAACTTGAGCATATAAGAATGTGAATAATAATGTCATTATTCCATAAATTCCAATACCTCATCAAGTTCCAAACGATAAGTAATTCTGAGTAAATTTATAGAACCCACTATCTTGACCAACAATTTGTGCAATTGTAATCGGAGTAGATATTATCGCCGACGCAAAAATAACTGGAATAACCCCTGCATTGTTTAACTTCAACGGCAGATAGGGCGTGTGTTCTTTTGTATCGACCAGACCGGATCCTGTTTGTTGTATTGGAACTTTTCTTTCAGCTTCATTCATCAACACAACAATAAATATAACAAATATATAAGCTGTAACATAAATTAAGAATTTCATGATTCCATCAAATAGAATTGAAGGGTCATCACCTTTTTTAATTCAGAAACTAAATGTTTTTATAAAGTTTGTAGGCATGTTTGAAACAATCCCTGCAAAAATAATTATAGAAACACCATTTCCTATTCCTTTAATTGTAATTTGATCTGCAACTCATAACATTAAAAATGTTCCTGCTAACATAACCAATGGTACTAAAATGTAATAGAATCATGCTGGTCCTTGACCATCTGCTCCTGTCTCTCATTTTGCTGTAATTAATTGGTTATTTTGAGAAGTTAATGTAAATATTGTTGCAATTGATTGCATAATTGCAAAAGGAACAGTTAAAACTTTTGTCAATTTATCTAATTTTCTTCTTCCTCTTTCTCCTGATTTATTTCATCTAGTTAAAACTGGAATAACATCAGTTGAAAGAAGTTGTACAATAATTGATGCTGTAATATAAGGAGAAACTCCTAAAGCCAAAATTGAAAATTGACCAATTGAACCCCCTCCAAGTGTTGATAACAATTGGAAAAATTCTTGACCATTAACAGCGTCACTAAACCCAGAATTTAGTTCAATTCCTGGAACAGTTAATAGTGAACCCATTCTGATTAGAACAAGTACTATTAAAGTAAAAACGATTCGTTTTACAAGATCTTTATTTCTTACAAAGAAATTACCTTTAGCGAATTCGTTCTTATATTTAGTTTTTTTGATGGCTTTTTGAGCTTTTTTTTCTGCTCTTGTTATTTTTGCTGCCAAACTAAATCACCTCTATAGATCCCCCAGCTGCTTTGATTGCTTCTTGGGCGCTTTTTGATACTTTATTAACTTTAATTTTTACTGCTTTTGTAATTTTACCATTTCCTAGCACTTTTATTAAAGTTTTTTCAGATTTAATGAATTTTTTTTCAATTAATGTTTTGTGATTAACATCAGTTAATCCTAATTTTTCAATTGTATCTAAGTTTAAGATAACAAATTCTTTTCTATTTAAACTTGTAAAACCAATTTTTGGTAATCTTCTGAATAATGGAGTTTGACCTCCTTCAAATCCAGGTCTAACTCCACCACCAGAACGTGAGTTTTGTCCTTTGTGTCCTCTTGTTGAAGTTTTACCTTTACCTGAAGCCATCCCACGACCAACACGAGTTGCGCTTTTTTTGCTACCTGGTGTACTTTGTAATTCATGTAATTTCATAAACTAATTCCTCCTATTAAGCTTTTTTAGCTTCAACTTTCTTTTCTGTTGGTAATGCTGTGCCTCTTAATCTTGCTATTTGTTCTGCTGTTTGCATTTCTTTTAAACCGTCTAATGTAGCTCTAATCATATTAATAGGTGTATTTGAACCTAATGATTTTGTATAAACATCTGAAATTCCTGCCAATTCGATAACTGCACGAGCTGGTCCCCCAGCAATAACACCAGTACCTTTTTTAGCTGGTTTGATTAAAACTCTACCTGAACCATAGTGACCAATAACATCATGAGGAACTGTTGTTCCTGTGATTGGAACTCTTACTAATGATTTTCTTGCTTCTTTGATTGCTTTTTTAATTGCATCAGGAACCTCATTTGCTTTTCCTGTTCCTAGACCAACTCTACCTTTTTTATCTCCTATAACAACAACTGCAGCAAATCTAAATCTTCTTCCCCCTTTTGTAACTTTTGTAACACGATTAATTGTTACAACTTGCTCTTCAAAAGGATTGTCTTCTTTATTTCTACCAAATTTTCCATTTTTATCACGACGTGGACCTTTATTAAATTCACGTTTTTCTCCAGGTTTTCCAAATGGTGGTCTTGAGTTGTTGTCTCTTCTTGGTGCTTGGTTTCCAGCAGCAGCTGGAGCTTGTTCTTTTGGTGTATTTTCAGGTTTTGGTGCTTCTTCTACAGCATTAACTTTTTTATCTTCTGCCATTTACTTTATCTCCTTTAATTAGAATTTCATTCCGTTTTCTTTTGCAGCATCTGCAAACGCTTTTACTTTACCATGGAATAAATATCCCCCACGATCAAATACTACATTACTAATTTTTTTAGCTTTAGCTTTTTCAGCAAGGTCTTTAGCAACTGCTTTTGCAGTTTCAATATTATTTGGTTTTTTTAATTTGATTGATGAAGATTCTACTAAAGTAACTCCTTTAGTATCATCGATTATTTGCGCATAAAAGTATGAGTTTGATTTAAATACATTCAGCCTTGGTCTTTCACTAGTTCCAGATACTTTATTTCTTACTCTATAGTGTCTTCTTTTTCTTGCTTCTGCTTTAGTGTACTTCATAACTACTTCTCCCTAGCAACAGCCTATTTACCAGCTGCTTTACCTTCTTTTCTAATGATTTTTTCACCTTTGTATTTAATTCCTTTACCTTTATATGGTTCAGGTCTTCTATAACCTCTAATATGCGCAGCAACTTGTCCAACTAATTGTTTACAAATTCCTGAAATTTTAATTTCAGTTGGTTTTGGAATTTCAACACTTATTCCTTGTGGAATTTGATATTCTACAGGGTGTGAAAATCCTAATGATAAATTAATTTTGTTACCTGCTAATGCAGCACGATAACCAACCCCAACGATTTCTAATTCTTTTACAAATCCTTGGCTAACTCCAGTCAACATTCCTTCTAATAAAGAGTTTGTTGTCCCGTGAAGTTGTTTTGTGTGTTTAAGTTCATTTTTACGAATTGTTTTTAATTCGCTACCTTCAACTTTAACTTCAATTAATGGAGAAACCTTTTGGCTTAATTCTCCTTTTGATCCTTTGATAGTTACAACATTTCCTTCAATCTTAACTTCTACTCCGGCTGGAATAGCTAATATTCTGTTTCCAATACGTGACATATTTCTATTCCTTTCTTATCAAACAAATGCAAGAACTTCTCCACCTGCATTTTTTAGGCGAGCTTCTTTATCTGTCATGATTCCATTTGAAGTAGATACGATTGCGATTCCTAACCCGTTAAGTACATTTGGAATTTTGTTAGCTTGTAAGTATACTCTTAATCCTGGTTTTGATATTCTTTTTAACCCTTTAATTACTCTTAATTTACCCTTGTATTTCAAACTTATTGTGATTTCTTTTTTAAAGTCTTCTGAAACTTTGAAGTCTTCAATGAATCCTTCTCTTTTTAAGATATTTGCTATTTCTAGTTTAATTTTGCTTCCAGGGATTACTACTTCTTTGTGAAATCTTTGGTTAGCATTTCTAATTCTAGTAAGCATATCTGCTATTACATCTGTTGTCATATTTCTCTAATTCCTTTCACTATCATGAAGCTTTTTTAATACCAGGTATTTGTCCTTTGTAAGCTAAATCTCTAAAGCATACACGACATAGGTTAAACTTTCTCAAAACTGCATGTGGTCTACCACAGTTACCACAACGAGTATATTCTCTAACTTTAAACTTCTGAACTTTAGCTTGTTTTACTTTTAATGATTTTTTTGCCATTATTCTTGTTCTCCTACTTAACGAAAGGCATTCCAATTTTTTGAATTAATGAAAATGCATCTTCTCTATTTGTTGCTGTTGTAACTATTGTTATGTTCATCCCACGAACTTTTTTTACTTTATCGTAATCAATTTCTGGGAAAATAATTTGTTCTTTAATTCCTAATGAATAATTTCCTTGTTTATCAAAACTATTTTTAGGTACACCTCTAAAGTCACGAACACGTGGAAGTGCAACTGAAATTAATCTATCTAAGAATTCATACATTTTTTTACCTCTTAAAGTAACTTTTGCTCCAATTGACATTCCTTCACGCAATTTGAACACAGCTAATGATTTTTTAGCTTTAGTTATTAAAGGTTTTTGTCCTGTAATCAAGGCTAATTCTGCTACTGCATCATCTAATCTTTTTGAATCTGCAACAGCATCTCCAACTCCTTGGTTTACAACTACTTTAATTATTTTTGGAACTTGCATAATTGATTTATATTGTTTTTCTTTTAACATTTCTGGGATAATTTTTTCTTTGTAAAGTTTTTCTAATCTATTAACACTTGCTTTTGCTGCCATAAATTTCCTTTACCTTCCTATTTAATATCCGCTTTTGATTTAACGGCTATTCTAGATTTTTTCCCATCAACGATTTTGTAAGCAATTCTTGATCCAGTTCCTTTGTTTTTCGGATCTTGAATAGCTACGTTTGAAATGCTAATTGAAACTGGAATTTCTCTAATTCCACCTTCTTGGTCTGTTTGACTTGGTTTAAAGTGTTTAGTTCCATTTACACCTTCAACTCAAACTCTTTTTTTATCTTTTGATAATTTTCTAACTGGTCCGATTGTTCCTTTGTGGTTTCCGGCAATAACTTTTACTACATCACCTTTTAAGATTTTTGATTTAGTCATAAATTACCTCCTACAACACTTCTGGAGCAAGTGATGCGATTTTTGCAAATCCTGCATCCTTTACTTCTCTTGCAATTGGACCAAAAATACGTGTCCCTCTTGGAGACTTATCATCTTTTACAATGACTGCTGCATTTTCTGAAAATCTAATGTATGTACCATCAGCTCTTCTTAAACCTCTAACAGTTCTAACAATAACAGCTTTAACAACTTGACCTTTTTTAACAACTCCACCAGGAGTAGCAGCTTTAACAGTAGCTACAACAATGTCACCAATATTTGTAAATTTTCTTACACTTCCACCTAAGTTTCTAATAACTAAAATTTCTTTTGCACCTGAGTTGTCAGCGATTTTTAATCTTGATTCATTTTGGATCATTTTTATTTACCTCTTCTTAATTAAATAACTGATTTTTCAACAACTCTGATTAGTCTAAAATTTTTAGTTTTACTTAAAGGACGTGTTTCCATGATTTCTACCTTGTCACCCATCCCGGCAACTTCTTGTTCATCATGTGCTTTGTATTTTTTAGAATACTTAACACGTTTTTTATATGTTGGGTGGTTTTTGTAAGTTTCAACTAATACAGTGATAGTTTTGTTCATCTTATCTGAAACAACTTTACCAATGTAGGTTTTTCTTAATTTTCTTTCCATGACCTATTTAGCTCCTTTTGTTTTAGTATCTTTTTTAGCTGCTAATTTTTTGTTTGCTTCGTCAATTTGTTTTTTTGCTTCATCAGCATTTGAACCATAAGTGTATGTTTTAATGTCTTTTGGTTTTTTTGATAATTTTAAGTCGATAGCTTCAATGTCTTCACCTTTAGCTGCTTCAACTTTTATTTTTTTAGTTTTAACTTCACCTAATGCTGCTTTACCTTTACCAGTAGCTTTTGCTTCTCCTACTTCAACTTCAATAGTTTTTGCTTCTGCTACTTTGGCTTTTTTAGTTGCTACAGCTGGTTTTCCAATTCCTACAGGTTTTGGTTCTTCTACAGATGTTGATGAAGATTTTTTAGATGCAACTTTTGCTTTTGCAACTTTAACTTCAACTTGTGCTTCTTCTACTTCTGCTTTAGCTTCTGCTACTTTTGCTTTTGCCACTTTTGCTTTTGCTTCAGCAACTGGTTTTGCTTCTGCTTTTGCTTTAGAAACTTTTTCTTCTGCTTTTTCTAAGTTGTTTTCAGCTTTAACTTCTTTTGCTTTTGCTTTAACTTCTTTTACTACAGCCTTAGCTTCTGCTACAACTTCAACTGGTGCTTCAGGTTTTGACGCACCAGCTTTTTTAGCTGCAGGTTTTGCACTTGATTTTGCTTCAACATTATTGTCACTTGATGCTTCTGTGTTTCCTTCAACTGCAGCTGCCATAGCAGCTTCAATTGCATTATCACTAACACTTCCTTGACCATATTGTTCTTGTTGCATTTTTTCAAGCATTTCTCTTTGTTTTGCTCTAACTGCTTTTCCTGCTTGTTCAGCATTGTCAACAGCTTTTGCATAGTCTGGTTTAACAACAATGTTTTTTGTTACTTCTCCAGCTCTTTTTCTTTCTGCTAATAATGTTTCAATACGTGCAATATTTTTTCTCAATGCGTTAATTTTGTGAGTTTGTTCTAAACTTCCAACTGCTGCTTGAAATCTTAAAGCAAATAATTCAGCTTTATGATCTTCACTTTGTTTAATTAAATCAGCTACTGATTTTGCTCTTAATTCCAATACAAGGTCTGCTACTTTAGACATTATTCATCACCTCTCTTAACGATTTTGCATCGAACTGGTAATTTGTGCATTGCAAGACGTAAAGCTTCACGAGCAACTTCTTCAGAAACTCCTGCAACTTCAAACATAAATTGTCCTTGTTTTACAACTGCTACTCAATCTTCTGGCGAACCTTTCCCAGATCCCATACGTACTTCTAAAGGTTTTTTAGTAACTGCCATATGTGGGAAAATTCTGATTCAAACTTTTCCAAAACGTTTCATATAACGAGTCATAGCAATACGAGCAGCTTCAATTTGTCTTGTAGTAATTCAAGCTCCATCTAATGACATTAATCCATATTCTCCAAAGGCAATGAATTTACCACCTTTAGCTTTTCCTTCATAACTAACTCTATGAGGACGACGGAATTTAACTCTTTTAGGCATTAACATAATTATCTAGCCCCCCTAACCGGTGGTTTTCTATCAAACTTTTTGTCTGCTATAACTTTGTCTTGGTTTTTTTGTTGTCCTGGTTTACCTAAAATTTCACCATGGTTAATTCAAACTTTAACTCCAATTTGACCATATGTAGTTCTTGCTTCATATAAAGCATAATCAATATCACTTCTTAAAGTAGATAATGGCACTGATCCTTCTAAATAACCTTCAGTTCTTGCCATTTCAACTCCACCAAGTCTTCCTGAAACACTAGTTTTAATTCCTTTTGCTCCAGCTTTTAGTGCTTTTCTGATAGCTAATTTTTGAACTGTTCTAAATGATGCACGATTTGTAATTTGTTCTCCAATAAATTGTGCAACTAATCTTGCATCAACATCTGGATTTTTGATTTCTAATACATTAACTTTAACTGCTGCTTTTTTGTCTTTAACAGTTTTTCTAACAGTTAAAATAATATTATCGATATTTTTGTTTTCTTGACCTAGAACGATAGTTGGACGAGCAGTACGGATAATAAGAACAATTTCTTTTTGTGTTCTTTCAATTTCAACTTTAGATACAGCTCCGTTTTTCAATAATTTCAAAACAGCTTTTCTAATTTTAATGTCTTGGTGTAATCATTTAACATACTCACCTTTTTCTGCATATCATCTATTATCTCATGTTCTGATAATTCCAATACGCATTGCATTAGGAGATACTTTTTGTCCCATACTAATCTTCCTTCCTATCTACCGTCACTTACAATAATTGTAATGTGACTTGTTCTTTTTAATATTTCATACGCTCTTCCGTGAGCTCTTGGTCTAAAACGTTTTAATGTTGGTCCTTCGTTAACATAAATTGTTTTTACGAATAGTTGGTCAGCTTCCATACCATTGTTGTTAACTGCGTTAGCAACTGCTGAGTTTAATAATTTTAATACTGGTTCTGAAGATCTTTTATCTTGGTTTTGTAATATTGCTACTGCTTCTGAGATTTTTTTTGCTCTAATTGAGTCGGCTACTAGTCTAACTTTTCTTGGTGAGATTCTAATCATTGATAATTTTGCTTTTGCTTCCATATTTTCTCAATACTTCCTTTAAAGATTATTTTTTCTTTTTCTTATCATCACCATGTCCACCAAACTTACGTGTTGGTGAAAATTCTCCTAGTTTGTGGCCAACCATATCTTCAGTAACATAAACTGGAATGAACTCTTTACCGTTATAAACTCCAAATGTGTGACCTACAAACTCAGGAAAGATTGTAGATCTACGTGATCAAGTTTTAATGTTTTCTTTTTTGCTTCCTAATGCTTCTACTTTTTTTAATAAGTAGTCATCTGCAAAAGGACCTTTTTTAAGTGATCTTGACATAAATTACATTCCCTCCTTATTTAGTTGCATTTCTTCTTCTTACAATCAATTTGTTTGAAGCTTTTTTAGTGTCACGAGTTTTAACTCCAAGAGCTTTTTTACCTCAAGGTGTTAATGGAGCTTTACGACCAATTGAAGCTCTTCCTTCTCCCCCTCCGTGAGGGTGATCAATTGGGTTCATTACAGAACCACGAACTGTTGGTCTTATTCCACGTCAACGGTTTCTTCCAGCTTTTCCTCAGTTTACCAAGCTATATTCTTCATTTCCTACTTCTCCGATTGTTGCATAACATTCTGAAAGTATTTTTCTAACTTCACCTGAACCTAATCTTACGATTACATATTTTCCATCATCATCTTTACCTAAGATTTGAACTGAACTTCCTGCACTACGTGCGATTTGTCCACCTTTTCCTGGTTTTAATTCAACGTTGTGGATTAATGTTCCTTCAGGAATATTTTTAAGTGGTGCTGCATTACCAACTTTGATATCTGCAGTTTCACTTGCAATTATTTCTTGTCCTACTTGCATTCCTTTTGCAAATAAGATGTAACGTTTTTCTCCATCAATATAATGGATTAAACAGATAAATGCATTTCTATTTGGGTCATATTCAATAGTGGCAATTTTTCCAGCGATATCGCGTTTATTACGTTTAAAGTCAATAATACGATATTTACGCTTGTGCCCTCCACCTTTATGGCGAGTTGTAATTTGACCATGATTATTTCTTCCAGCTCTTTCGTTAACCTTAACTGTTAATGAAGATTCAGGTTTAGAAGTAGTAAGAATGCTATAATCTAAAGTTGTCATATTTCTACGTCCATTAGTCGTAGGCTTATACTTTTTAATTGGCATAATATTCTTCCTTTTCGCCTTTCTATTAACTTACAATAATTTGTACACATGTACTTTTCTATAAGTCTGATAAGATGTCTAATTTTTCTCCATCTTTTAAAGTAATGATTGCTTTTTTATAAGCGTTTGTTTTTCCAACAAATCTTCCCATTCTTTTGTCTTGTCCATCATAGTTTGCAGTTCTTACTGACTTAACTTTAACTTGAAAGATTTCTTCGAATGCTTTTTTAATTTGAACTTTGTTTGATCTTTTATCAACGATGAATGTGTATGCGCCATTTTGTTGACCTGCATATGATTTTTCAGTTAATAAAGGTTTTTTAATAACTTCTGTTAAATGCATTATGCATACACCTCCTCAATACGATTTACAGCATCTTCTGTTAAAACTAATTTTGACGCATTAAGTAAATCAAATATATTCATTTTTTGAAAATCCAAAGTTTTTACTCCAGGAATGTTTCCTGCAGATTTAACAACTACTTCTTCGTGTTCTTTTGTCACGATTAAAGTTTTTTGATTATCAATTTTTACATTTTTCATAACACTCAACATTTCTTTTGTTGAAGGTTTTGAGAATGCGAATTTGTCTAAAATTACTAAATTTTCTTCTCTTGCTTTTAAGCTTAAAGCACTTCTAATAGCAAGTTGTCTAACTTTTCTATTAACTGCTTTTTTGTAATTTATATTTGGTGTAGGACCAAATGCGATTCCCCCACCTCTTCATTGTGGAGCTCTAATTGATCCTTGACGAGCACGACCTGTACCTTTTTGTCTTCAAGGTTTACGTCCCCCACCTCTTACTTCTGCTCTAGTTTTTGTTTTTCTTGTTCCTTGTCTTAATGCTGCTTGTTGTGAAACAACTGTATCGAAAATTGCTTGTTGGTGTGGTTCTATATTAAATACTTTGTCATTTAAAGTAATTTCTTTAACTGATGAACCAGTAACATCTAAAACTTGTGCTTTCATGTTATTTTACCTCCAATTATTCAGCAACTGGTGCTTCTTCAACTTTTGGTGCTGAAGCAGCAGGAGCTACATTTTCTTTTACATTTCTTGCAAGTAATTCAACTGCTGTTGTTTCTTTTGCACCTTTAGCATTTTCTCTTATAACAACTAGTCCTTTTCTTGGACCTGGAACTGAACCTTTAATTAAAACTAGATTTCTTTCACTATCAACTTTAATAATTTCAAGATTTTGAATTGTTACTTTTTCATGCCCCATATGACCTGGCATTTTTTTTGATTTGAAGATTCTATTAATAATTGCTCCCATTGATCCAACTCCACGGTGGTATCCTGAACCGTGACCCATTGGTCCTCTTGAGTAATTATGTCTTTTAATTGACCCTGCAAATCCTTTTCCTTTTGAAACTCCTGTAACGTCGACAAATTGACCAGCACTGAATATGTCGGCAGCCTTAATTTCGGCTCCAATTTCATATCCATCCATATCTCTGATTTCTTTAACGAAGCGCTTAGGTTCAGAATTTGCTTTTTTGAAAGCTCCCATTTCTGGTTTATTGATTAAGTTAGCTCTTTTATCAATAGTTCCTAGCTTAACTGCTACATATCCGTCTTTTTCAACTGTTTTTACTTGTAAAACTTTATTAGTTTCAACTTCAATAACAGTCACAGGGATAAGAGAACCACGTTCACTAAAAACTTGTGTCATCTCTAACTTACGTCCTAAGATTCCTTTCATACGATATTTCCTCCTGTGTTATTAATATAAAATGATAATCATGTATACTTTGTTAAATCCTATAATTTTATTTCGATGTTTACACCTGTTGGTAACTGAACTCTTGTTAATGAATCCATTGTTTTTGGTGTTGGTTCGATGATTTCTAGTATTCTTTTGTGTGTTCTCATTTCGAACTGCTCTCTACTATCTTTGTATTTATGAGTAGCTCTCAATATTGTAATAATTTGTTTTTCTGTTGGTAATGGAATAGGTCCACGAACTTTAGCTCCAGTAGATTCAGCTGCTTCAATTATTTTAGCAATTGATTGATCAACAATAGCGTGATCGTAACCTTTTAATTTGATTTTTATTTTTTGTTGAGCCATTTGCATCCTCCTTACACAATGACAACCGCTTCCTGTGTGTTGTCTAATAACCACAAAATATACATGCCAAATTATTATTACACAAAGATTCTAACAATTCAACATAATTTGAAAAATATTTTCATATAATACTACATAATTTTATACTGTTATACTCCCATTAATACTATGTTTTTTTACAACAAAAAAATAGTTTTTGTGATATGTTAAAAACGTCTAATTTGGGTTTAAATAATATTTTTTAAAATGCTATAATTAAAAAGTGTAAGTTTAATGATCTAATTTTAGATATATTAAAACCTACCTATTTTAAATTGATAAAAAATAGATCGGAGAAGCGCTATGCAAATATTATCTTTAACCACTAGAAAAGCTATGACAGCCAAAACTACAGGTATATTTACTTTTGAATGTTTTTTGGGTTTTTTAGTTTTGCATAATGCTACTTTTTAAAAAGTAATACTTTAAAACAAAATAATATTTAAAAGTAAATATAAATTTAATAACTATTAAATTTATATTTTTTTTATTTTTTTATCAATTATTGAAAAGAAAGGAATTAAGAAATGGAAAACAAAAATAAAGATAGTGTTAGAATAGACCCAACACAAAAACTTTATAGCCAGCTTAATAACAAAAAGACGAGAAAGTCAGCTGCTTTTGACTTTTGAAGAGTTTTTTCAATCGTGTTTGGAAATTCTATTGGTGTTGGAATTTATTTAAAGAGTAAGCAAGCTTTACTTGCTGCTCATAACCCCTACATTGTTATAATAGTTTTGTTTATAATGGCTTTTGTTGGTGTTTCTATGGTGTTTGTTTTTATCGAACTAGCCACGAGTGCCAAAAACCGCTATCACACGCATACTTCATTTGCAGAGACATTTATTGGAAGAAGAACAGGAAGCTTATTTTCATTATTTTACTGCATAATTTACATTCCAGTTTATGTAGGATTAATTTCAATAACAGTTTCTTACTATGTATTTAGAGTTATTGATGACTATTATGGAAATACAGCTTGAATAAATCCTGATTTAGAAGCATTTTTGATAATATTTATAGCTGTAATAATAATCTTTTTTATGTGTATTTCTAATGGTCATGCTTCAAATAGTTGATTTAAATATTTTCATATCTTTTTTAATAATTTAAAATTTGTACCATTATTATTTGTAATTGGGCTTGGTATTTATGCCAAGTTCCACTTAAGTACAACAGCATTTGTTGAGAATAATACTAATCAATGGAAGCTAAGCTACTTCATCTTAGTTATTCCTATGCTATTATTTGAATTAGATGGATTTATGTATGGATCAAGTATTGAAAAAGAAATAACTCATAAAAGAATGCTTGTTTTTGGTCAAGTAGTTGGTGTAATCTTGGTTGTTGCAGTTAATGTAACATTTGCTGTTGCATTGTACTTTGGAACAACTGATGCTGATTCATTTTCGCTAATATCTGCACTTCTTTCCAAAACCGGGGCTTTATTGTGTAAATTATTAATTGCATTTGTAGTACTAGGATCAGTTGCTGGGTTTTCAAGTTTTGGTGTTATAAACTTATCTAGTACAACTGATAATAATGGAGTTCAACTAGTTTATTATAAAAAAGGTAATGATATGATTTCTTATCGTATGAGTGGATACATTAATTCAGTACTAATTTCTGTAGTATTAATAGTAATATCAACAATTTCATGATTAATTTATCGTGATTCAATTAATCGTTTAGATCCACTTTCTTCCTATTATTATGTAGGACAAGCGGTTACCTTTTTAATTGATAAAATTTCAGATTCAGTTGTAGTAATGGCATTCACAACATATCTTGCGTTAATGCTAGCTGCACTTATGAATCACAAAACCAAAAAAGTTGATGATGTATTAAATGTCAAAGGAAGTGTCTATTATAATATAATCGCTTCAACAATCATGACAGGATTCTTATTATATATCTATTATGATATTTTCAAAAAATTTACATTAAACGATATTGGTCAAATTCTTCAGCCACTATTTGTTATAATCTTTTCCTTTTTGCTTTTATTAGCATATTTAATTAATGAGATAAGAATTTCTAAAGTCAATATTGATGAAAACGATTTTGTTTTAAAAATTAATCCTAAAAACTGAACAAAAAAATATGATAAAACTAAAGCTATACAAGAATATAAAATTAAACATAAAAACTTTTATGATAAATTAAAAAATTAAAACCATTCTTTTAAAGAATGGTTTTTTTATAGGCTTATTACTTTATCAAAATTTTTATTATTTACATCTGTTGTATGTGATATATAAAGAATTGTTTTATTTAAACTTCCTACCAAGTCTTCAATACTTGATCGATTTTCTTTATCTAAACTAGCTGTAATTTCATCTAAAATCATAAACTCTTTATTTTGAAGCAGTGCTCTAGCAATTGCCATTCTTTGCACTTCTCCTCCAGATAAATTTTTATTATCGTTATCTAAAATTGTATCTAATGAGTTTTGTTCAAGTCAACTTGATAAATTTACTTTTTTTATTACATCAATAATTTTATCATCACTAATTGAATCATCAAATAATGTAAGATTATCTCTCATACTGACATTATATACAATATTGCTTTGTGGAACATATGCTATTAAGTTTCAAATGTCTCTTTTATCAATTTGCTTATAATCTTTTTGATCATTTATAACAATTTTTCCTTCATAATCATCAATTAATCCAAATATAGTCTTAAATAAAGTTGTTTTTCCTGCTCCTGATTTTCCGACTAATAAATATTTTTTATTTAAGCCAATTTCTAAATTAAAATCTTTAAAAACTTGTTTTTCATCATAAGATAGTGACAAATTGTTAATATTTAATTTTTTAAATTCAATTGGATTTGGTTCATATTCTTCGACATTTTTAACCTCTGTTTTAAATTTTTTATTAATATCTTTAACAGATCACATATTTTTAATAGATCCACATCCATTAAAAATATGACTAAGTAATGTATATGCCATTACAGGTGCTGAAAGTGCAGATCCTGCAGATATATTCATACTTGATGATGTATCATTTAAAGTATACAAATATATTGCCACAAGAGATAATAATGTTTGTGAACCAACAGTGATTAAATTTAAAATTCAATTTTCACTATATAATAGTATTTTTAATTTATAGTCATTTTTTTCATAAGGTTTATTTACAGTGCTGATCATTTTTCTGAATTTTACTTTTTGGTTTCTATATGAAAACTCTTTATATCCACCAATTAAAGATACAGCTTGTGCATTTTTTTCTTCTGCTAATTGTGAACTTTTATTTTGTCTTTTTAAACTTTTTTTACTAAACAAATATGGTAATAAAATTGCACTAATAGCAGATAAAAATGCAATTAAACCTAAAATTCAATTTATTGCATAGAACCCATATGCCATAACCCCTAAACCAGGAATAACTTCTAATATTACAAAAATATCAGAAAAATAATAAGTTTGAATTCTATCTACATCATTTGTAAATCATGATATGTATTGCCCTTTTTTATTTTCACTATATTCTGAATATGACATTGCATTAATTTTTAAAGCAATAGTTGTTCTTAAACCGTTATTTAATATTCTAATAGCTCTTGGTTTAAAAATGAAATCATTTAATAAACTAACAAATAAAGATGCACAAAGTCCCGCAACAGCAAATGACATATGAAAAATAAATTTGTCTTTATCTTTATTAATTACATCATCAACAACTCAACCTAATGCTAGACTAGCATATACACTTAATCCAGATGCTAGCGTTGCAAATACAATAAATATTAAATATATATATCATATTTTTCAATAATATCTTTTCATACTCATCCTTTCTATAATTTAATAACTTGATCAAAATTTTTATTATCTGCATCTGTTGTATGCGAAATATATAAAATTGTTTTGTTCAAACTACCAATTAAATTTTCTATGCTTTCTCTGTTTTCTTTATCTAAGCTGGCTGTTATTTCATCCATTATCATTACTTGTTTATCTTCAACAATAGCTCTTGCTATTGCAACTCTTTGTAATTCACCACCAGATAAGTTTTTACTTTCAAAGTTAATTACACCATCCAAACCATTTTCTTCTAAAACTTTAGATAAATTAACTTTTTTTAGTGCATCAATGATTTTTTCATCACTTATACTTTCATCTCATAAGCTAATATTGTTTCTTAAAGTATCATTAAAAACACTTGGTTCTTGAGGTAAATAAGAATATAAATGTTTTAAATCTTCAGGTGCTAAATTTTTGTAATTTATATTTTTATTTATTTCTAAATCTCCACTGTAGTTTTTAATTATTCCAAATATGATTCTAAATAAAGTTGTTTTACCTTTACCAGATTCTCCAACTACCAAATATTTTTTATTTGCATTAATTATTGAATTAAAGTCTTTAAATATTTGTTTGTTTTCTACACTATAATTTAAGCCTTTTATTGCAAGTTCTTCAAAGAAAATATCTTTTCCTTCAAAATCTTTATCAAAAACAACTGGTGAGAATTTTTTGATTATTTTTTTACCTTTGATTGCAGTTTCAATATTATTTATTAATCCACCAAATCCTTGCATGAAATATGCTGAAAAACTTATAGAAACAAGCATTGCTCCTGGTTCTACATAACCTAAATAATATAAAATTCCTGCACCAACAAAAACTCCTTGTTGTAAAATTACTTGGAATATACCTATTAATAAGCTAGTTATAAAGTTTAAACCTTCTATTTTTATTTTTGTATTTTCAACTTTATTTGAAAAACCTTGAGTCAATTTTACAAATAAGCTTTTTTTGTTTCTAAATGCAAATTCAGAATATCCATTAACTAAATTTTCAATACCTTGAGTTAATTCTCCATTTTTTATCATTAATTCTTGTTGTTTTTTTGAAGTTATTCCTCCAAAAAATACAGGAACAAAAATTATTAAAATTCCCCCAATTATTGCTGTTACACCAACAATTCAGTGAACAAAAATAAATAACAAACTAATTGAAACTATACACATTGTTATATTGTGTCAAATTTTTATTAATTTTGCATCTAATGCTAAATAAATTGCAGGGGCATCGTTTTCATATCATGAAAGCAATTCACCTTTTTTGTATTTTTCTATTTCTTCATCTGTCATAGAGTTGATTTTATAACTTACTACATCTTTAAATCTCATTTTCATTTTATATCCTACATAAGAATTTAAAATATTTGAAAGATAAGTTATTGTTAGCGATCCAAGAGTTGCTACAAATGCAAAAACTATTTGTAATCATATATCTGTTAACTTTGCATTTTCTGATATTGCTTTGTTAAATATAATGTATGAAAAATAATTTGATCCAATGAAAATTACCTCACCAACAACTTTTAATAACATAGAAAATAAAAAACCTACTCAATATTTTCTTACTACTTTACCCATTTTTTACCTTTCTTATATTAGTGTTATTTTATATTGTTACCACTTTTTTATTATAAAATAATTATTTTGTTAAATAACAATAACTTTTTCTAGGTCTTTACAAAAAAAAAAAAAAATCCACATAACTAACTACAAAAAGTATAAATAATATTTACTTTACTTTTGCAAGTTAAATGTGGTTTTTTTATGAATAAGAACTCTTTAAATGCTATTTATGATCTCTTTTCTTACCAAATCAATATTGTATTTTTTAATGATTTTTTCAATTTTTTTAGCCTTATTTTTTCCATTATAAAATAAACATACTCGATTATCATAATTTGGTGTTTGTACATATAATACAAATCCTATTTTTTGCTCTATTATATATCCTTTTGTTTTATTATGATGTTTTGCATTAAACTTGTTTTTTCAACATCTCACATGACGATTTACAAAATAATTTGCTAATGGGATAAATCCTATTGCAAAAATTGTTGTAAATTCTAAGTCACTAGCTCAATGAGTTCTTTGAGCCATAAGACCAAATTTCATTGAAGGTAAAATAATTAAAAAGACAAAGTATATATAAGCTAATTTATATCAAGTCAATTTTCTTTTTTTATTTGGGTTTATAAATAAAAACATTATTGAAACCATTGAAGAAGTAGCAGCAGTATGTCCTGATGGAAAATCACGGTTTCATCATCCATTGTTATCTTTTTCAAAAGCATTAAATACAAATCAATTTTTAAAGTTTTTAAAAAAGTCATTTGGAATTCATCATGGTAAATAATCAACATTACTTGTTCCATCTGGTCCTGTTCCAAAATAACCTGTTTCAGGAGTATAAGTTCATCCACTTTCATGAGCTCTTCTTAAACTATTTTCAAAATCCACTGTATAAGGATAAGGTCTACCAAATGACATTTTCCCTAAAACTACAACAATATACATAAATACAATTCAAACGCATCCTTTTAATGCATCCGTTCAATACTCATTTAATAAAATATCTTCGCGCTTTGCAAATTTAAATCTTAAAACTACAAAACCAACAATCATTACACCCAGTTCTAGTATTTTTATAAATATTGTTGAATAAGTTCTATATTTTTGACTTATAAAAGTATAAGGATCATTTCCTGGTCCATATCCAAAATCTCTTGAAAAACCTGCTTTTACTGCAATTGCCATTGAAGCAACTCAAATTATAAATCCTAAAGCGTAGTAAATATAAACCATTCATTGATTATTTTTTATAAATTGTTTTTTACCAAATTTTTTTTGATAAAAGAAAATAGTTTCTCAAATTACACCAAGCAGGATAAATACAAAACACATCATGTTGTAAATTCCAAACTCTTCCATAAATGAAGCTCAAATTTTTACTGGAAAATAATCAATCGTTTTAGAAATAACTGCATCAATTTCTCTATCAAAAAAACCTGTTACTAAAAAACTAATTGATGAAAATATAACTATAACTAATCCTGGGATAAATAAAAATATAAACTCTTTACTTTTTTTATTTATATCAAACACAATTTTTTTCCCTTCTATTGTTAAACTATTTTTCCTTGTGCAAAGTTTTTATTTCCTCCGCCTTTAACTTCAAATTCTTTAGTCGACTTAAATATATCAATTGCACTATATGAATCAGATAGTTTTTGTCCAACACTAACTATATAAACCTTATTTGTTTTATTAATTAATTTTAAAATTAGATTTTCATACTTATTTTGAAGTTCATCAGATAATGCTTTCATTTCTTTCATTTCTAAATCATCTAATTCTAAATCAATATAATTTATTCCATCAACTAATTTTGCTTCTACATTTTTATAACTATCTAATTTTTTTGCAATTAAAATATCTTCAACTGATTTTTGATATAATTTAAATTTATTTTTTAAATTAAATACTTTTATTTTTATAATTGCTAGATTTTTTTTATTGATTGATAAATTATTAATTTCATTAATTTCTTTTTCTATTTCTTTATTTTCTACATATTTTTTAAACTCATTAAATTTATCAATAGTTGGTCTGATTTCTGCTTTTTGTTTAGCAAATTGTTCATTTAAAACAGCAGCTACTTCTTTATGACTAGTTACAGCATGATATCTATAAACTCCACTACCTTTTGACTCAACATTAGTTATTAATAAATCTTCAATATCTTTTGTATTTAAAACGTGAGTTCCTCCACAAAGTTCACATGAAAATTCTCCAAACTTAATTGCTCTTACAAGTTCTCCATACTTATCTGTAAAAATAGCTAAAGCATTATGAACATTTAAAGCTTCATCTAATGTACAATAGATTACTTCTCTAGGAATTGCTTCTTTTATAACTCTTTCAATTACTGAATGCATTTGATCAATTTCTTCTTGACTAGGTAATCGATTATAACTAATATCAAGTCTTAAGCCATTTTCATCATTATAACTTCCAGATTGTAAAGCAGATTTGTCTAAAATTTCTCTAATAGCAGATTGTAGAATATGAGTTCCTGAATGATTTTTCATTGTATAAAATCTTTTATCTAGATTTATTTTTGCTTCAACTACATCACCAACATTTAAAGTTCCATTTAGTTTAACTTTATGAATGTGTTGCTTATTTGGACCGGTTTGAACATCAATAACATTATGGTTATTTCCATTTTGATCTACTAATACTCCATTGTCAGCAGCTTGTCCACCTTTTTCAGCATAAAAAGGAGTTTTATCTAATGTTAAAAAAACTATTTCATCAGTAGCTGACATTATTTCTTTATCATCTGCAAACATATAGTTTATTTTTGCATTACATTCTTCAACTTCATACCCAATAAACTCACTTTCAACTTTTAAACTTGTTAGTACAGCTGATTGTTTATTTCAAGCCTTATCATCTTTTCTAGCATTTCTAGCCACTTCTTTTGCTTGTTCAAATAAATTATAAAAATCTTCAACTTCTACTTTTATATTTGAGTCGTTTGCAATTTCTACTGTTAATTCAATTGGAAAACCAAATGATTCAAATAATAGTAAAGCATTTTTTCCGCTTACTATTTTTTCTTTATTAATAATAGATTCTAAGTGTTCATAACCTTTTGATAAAGTTTGTAAAAATCTATTTTCTTCAATTTCAACTACTTCTCTAATTGTTGAAGCTTTTTCAACAATATAAGGATAAAAATCTTTCATAGTTTCAATTACTATATCAACTAATTTAAATAAAAATGCATTATTAATTCCAAGTTTTCTTCCATATACACTACTTCTTCTAATTAATCTTCTAATTATATATCCTCTGTCTTTATTACCAGGAAATACTCCATCACTAATAGCAAAAACAACAGCTCTAATGTGATCTGCAATAACTTTAAAAGCAGTATTTATTTTAGTTTGCTCTTTATTTTCTTTAAAATAATTTTCTATTGAGTATTTAAAGCTATTATCACATAATTTTTCCACTGCTTTAATAGTTGGTAAAAATAAATCTGTTTCAAAATTAGTTGGTGTATCTTGAAAAATAGATACTAATCTTTCAAATCCAGCACCAGTATCAATATTTTTTCTTGGTAATTCAGAATAATTATTGTTTCCATCATTATTAAATTGTGAAAACACAATATTTCAGATTTCAATGTAACGATCATTTTCGATATCATCTTCTAAAAGTCTTGGACCTATTTTTTTCGGGTCTCAAACTTCGCCTCTATCAAAAAATATTTCAGTATTCGGACCACATGGTCCTTGTCCTACATCTCAAAAATTAGTATCTCTTGTTCCTTTAAAGATGTGATTACTTGCTATTCCGATAGTTTTTGTTCATATTTCATATGCATCATTATCATCTTCAAAAACAGTTATATATAATTTTTCTTTATCAATGTCAAATCACTCTTTTGAAGTTAACAATTCTCAAGAAAACTCTATTGCTTCTTTTTTAAAATAATCTCCAATTGAAAAGTTTCCCAACATTTCAAACATTGTTTGGTGTCTTGCTGTTACTCCAACATTTTCAATATCATTTGTTCTAATTGATTTTTGTGAGTTTGTTAACCTTGGTGATGGTGGATTTAATCTTCCATCAAAATAGGGTTTTAATGTTGCTACTCCTGAGTTAATTCATAATAAACTTGGGTCATCAACAGGCACTAAACTTACTGGTTCTAAAAAATAATGATTTTTTGATTTAAAAAAATCTAATCACATTTTTCTAATTTGATTTGCACTTAGTTTTTTCATTTTTATCTCCTTGCAAAAAAATAACAATTTAATTTTAGCATATTAATAAGGGTGTTTTAACTTGTTGCTAAATTATAAAAAGAAAAAGTAAGACAAGCTTACTTTTAATTTTTACTACTATCATAAAGAGTTTTAAAAATTCCTGGTTCATTTATAAGTTCATTAAATGTTCCTCTTTGTGCAATCCCTAAATTTGGATCTAAAACAAAGATTTCATCAAAGTCTTTAATGGTTGACAATCTGTGTGCAATACTAATTGTTGTTCTACCAACCATTAATTTATCAAGTTCTTGTTGAATTTCTTTTTCAACAATATTGTCTAATGCGCTTGTTGCTTCATCAAGAATTAATACAGCAGGGTCTTTTAAGAAAGCTCTTGCAATGACTAATCTTTGTTTTTGTCCCCCTGAAAGTTGTGCTCCTCTTTCATATAACACAGTTTCATAACCTTTAGGAAGCGCCATTATTAAACTATGTAATTTAGCTTTTTTACAAGCTTCAACTAACTCTTCTTGTGTTCAGCTTTCTAAACCATAAGCAACATTTTCAATAATAGTTCCACTAAAGATTTGAGGTTCTTGATCAACATACCCAACATGTTTTAATCAAGATTTTAAATTTAATTCTGCTAAATCTTGTTTTCCATTAATTAAAATTTTTCCATCGGTTGGATCATAAAATCTTAGTAGTAATTTTGCAATTGTAGATTTACCACTACCTGATGGACCCACAAATGCATACTTTTTATTTTTTCTTAATGTTAAATTTAACTTATTAATAATAGTTTTATCAGGTGCATCAGGATATGAAAAGTAAACATCTTTTAAAATAATATCTCCGTCAACACTTTCTATTTCTGCTTCTTTGTTGACATCGATTTTTGGCATGCTCGATGTGATTTTATCTATTGTATTAAAACTATTTTTTGCTCGATTGACACCTTCTAAAATCTCTTTTAATTGAAATAATGGTGTAATAACAACAAATATTCCTGCTGTAAAAGTACTAAAAATTGTTAAAAGTTTAGCAGTTTCTCCTGTATAAATAAAGTTTCCAAATACAATAGAAGCCATTGTAAAACTACCAATTCCCCCAACTAATAAAGCTGCAATTAAAGTTGTCATAGCTATACTAATTTTTTTATCTCTATCTAGTTTTTTGGATTGTGATTTAAATTTTTCTTGTTCTTCTAATCAAGTTCCAGCTGATTTTACTAATCTAATAGCTTGAATTCTTTCAGCCATTGTGTTGTTTAAGTTTTTTTCTTCTAAATTAATTTTTTTAGTTGGTTTTGAAATTACAAATACAACAAGCAACGCAACTAAAACAACACCTAAGATTAATGACAATGTACATAGTGTAATTTTTCAATCAATAATTCCAAGAGTAACTGTTGCTCCAACAAAACTACCTAGTATATAAACAATAATAATTGGTGCTATTTTTAATTGATCTCCAATAAATCCAATATCTTTTACAATAATTGTTACTAAACTTTGAGTTTTATTTGCATTAAAAAAGTTTAAATCCTGAGATAAAATTTTTGTTATTGTATCTTTTCTTAAATCAGTTTCTTTTGTTTGAGCTATAAGTCCTGTAAAAAAATAACTTAAATACATTGAAATAACAATTAAACCAATATTTCCCATCAATGTATAAATTCATTTACTAAAAGTTAATTCAATTCCAAATATACTTGAATAAATACTTCCATCACGATATAAAACATCTTCATTCCCAAGTTTTTTAAGAATTGAGTTTACTAAAGCCTCATTTCTTAATAAAGCATCAACATCAAATTTAGTATCTTCTCCTCCAGTAATTACTCCATTTTGAATCAAATCTCCAATTATAGTTTGAGATGCTTCATCTTTTTTTGATATCATATCCACTAAATTTTGAGCTGTTAAGATTTTTACTAAATTCTCTGCTATTTTAATATTAAAAACAGTAAAAAGAATAACTGCAATTATCGAAAAAAGAGTTAGTGCTGCATAAATTGGTTTTTGTTTACAACCTTGCATAAATAATCCAGCAATAGTTTTTTGTCTAGGTTTTATAAAAATACTAGTGCCTTCATTTTTCTTTTTCATAAAATCACTCCTTAAAAAATTATATCATTTATTATTTTCACTTGAAAACAATATAAGTATTTAGTAAAAGATGAAAAAAGTATTCTTTATGAATAACTAAAACTTTTTTGTCCTATGGGTTTTAAATCATAGAAAAAAGTTTTATAATTTTATCATTAAACTTTTTTAATATAGAAAGGAAATAATATGAAATTACAACATTTAAATAAAAAACGACTAATTTTAGTTGATTTAGATGGTACTGTTTTAAAATCTGATGGTCAAACTATTCATGAAAAAACAGCACAAGTTCTAAAAAAAGCTTGTGAAGATGGTCATACAGTTTGTATAGTAACAGGAAGACCACATAGAGCAACAATGCGATTTTATAAACAATTAGGAATTACAAGTTTAATGACAAATTTTGATGGAGCACATATTCATGATCCATACAAAAGAAGATTTAAAAGATTAGTATTTCCAATTAGTGAACAAGTTGTTTTTGATATTATTAATAATCCTGTAGTAAAAGAAAATGTAACAAATATTTTAGTTGAATCATACAACAAAGCTTTTGTTATGAAAAAAGATGAATTCATTGAAAACTTCTTTCACTTAGATGATGTTGACGATGATGATTATTTTATAGCAAATCCTTATGAGAGTTGAGAAGGACCTGCAACTAATTTATGTATATTTGCATCAAAAGAAGATAAAAAAGACGATATTATTAGACAACTTGAGAAGTTCAAAAACACTATAAAAATACAATCAGGTCATATTTATGGAAATATTACAAAAGCATCAACTTTAATGATTACATTGACAAATAAAATTGTAAATAAAGGTTTTGTTGCAAGTATATTAGCTCAGTATTATAACAAAGATATCAGAGATGTAATTGCATTTGGAGACCAAATGAATGATTATGATATGATAAAAACTGTTGGTTATGGTGTTGCTATGAAAAATGGTATCACAGAACTTAAAAACGTTGCTGATGGTATTACTAATTTCACAAATGATGAGGGTGGAGTTGGAGAATATTTAGAAAGACTTCTTAATGGTGAAGAGGTTTAGATTTTTTTAATGGAGGACAAAGAATATGCTTTTAGAAAATAATATATACGAATTAGATACACAACAAGAAAGTTCATTATCTGGTTTGATGGGTTCAAGAGGATTGGTCTTATTCTTTTATCCCAAAGCAAGTACACCCGGATGTACTAGAGAAGTAAATGAATATTCTAAATTAAAAAAAGAGTTTGACTTATTACAATACAATATTGTTGGAGTAAGTGCTGATAATGTTGAAGATCAAAACAAATTTGCATGCAACAATAAATTAGAATTTCCTTTAATAGCTGATAAAGATAAAAAATTAATTAATGAGTTATCTTTATGAGGGAGTTTTAAAAACACTAATGGTATTTTAATGGAAGGTACAAGAAGATGTACTTTTATTATAAATACAAACTTAGAAGTAATTAAATCATTTATGGATGTTAATCCTACAGAACATGTAAAAGAAGTTTTAGAGTTTTTAAAAACCAGAATCAATGAATCAAATAAAACAATATAACAAAAACCTTTGTACAAAATTGTACAAAGGTTTTTGCTTTTTATAAACTAAAATTCTAGTTTCATATTTATATGTTCTATGTTATCAAAAATATATACATCTCCATACTCAATAAATCCAAATTTTTTATAAAACTCCATTGCATAATACTCAGCGTGAATATGAACTTCTTTTGATTTTAAATGATCAAAAGAAAATTCTTTTAAGTAATTTAGTAATTGTACTCCTAAATTTTTTCCTCTATATTTTTTATCAACTGCAATCCTACCTCATAATAAAATTTCTTCATCAAAAAATACTCTTGCACAACAAATAGTCTCGTTTTCATAATATCCAACAATATGATATGCAATATCATCAAAGTCATCTTCATCAGGTGTATCAAAACACTCTTGTTCAATAACAAAAATATCTTTTCTTAATTTTATTGCATCATCATACAGATTACTACCTTTACCTTTTTTGTAATTAAAATTCAATTTCATTTTATATCTCCTATTTTTTATATAAACATTTATAATTGCATAAAAAAATCTTAAACTTATTTAAAAATTATTTTAAATAAAATATTGTTTAAGATTTTTTTAACTAAATTAATTTTTTTAATTCTTTTGTTAAGTGATCAATTTCGTTAATTAGTGGCATATATGTTTCTTCTTTATTAAAGTCAACACCACAATCTTTTAAAATATCTAACGGATCTTTGTGTCCACCAGATTTTAAGAAATTTAAAATACTTTCTGGTCCATTTTTTTTGAAATCATCATAAAGTTTAAAACTAGCAGTTATATCAACAGCATATTTATAAACATAAAATGGTGAAAAGAAGAAGTGTCCAATGTAAGGTCATTGGAAAGCATCTCTATCTTTATCATCAAAAATGTCATAACCATATTTATTTTCAATATCTAAGAATAAATTCATTAAACTATCTGCAGTAATTGGTTCACCTTTTTCAGCCATTTTATGTGCTTGATATTCAAATTCTGCAAATTGAATTTGTCTATAAAATGTCGAACATAAATCGAATATTCTTTGTTGTAGTAAATAAACTTTTTCTGAATCATCTTTTAAATTTTTATATGTGTAATCAAATAAAATGTGCTCATTAAAAGTTGAAGCCACTTCTGCAAGAATTAATGGATAATTCCCTAATGGGAATGGTTGATACTTATTTGATAAATATGTATGTACTGAGTGTCCTAACTCATGAGCTAGAGTACTTAATGAACTTAATTTATCACTTCAATTCATTAAAATAATAGGTTCAACTCCATATCCACCAGATGAATAAGCACCACTTCTTTTAGTTTTATCTTCATAATAATCTATTGCATTAGGCCTTGATGCTTTATCTAAAAATTCTACATATTCATCTCCTAAAACTTTTAAAGAGTCTTTTACAATTTTAATTCCTTCGTCAACTGAATAAGTTTTGTTAAATTCTTTTGTTAAAACTAATTCTCTATCTGTAGAATTAAATTTTTTAAAACCATATTTTTCTTTAATTAGTAAATAGTAATTTTTTAAAACTTGAATATGTTTTTTTCCTGTTTCTAAAAGTTTTTCATATACACTAACAGGAACATTATCTCTTTTTAAACTCATTTCTAATGAGCTTTCATAGTTTCTTATTTTATAATTTTCCACATCTTTTAGTAAAATACCTTCATAAATTTTTGCATATGAATATTTTCTTGATTTATAATTTATAAATCTTTTTTCTCAAACTTCTTTTCTTAAATTTTGATCTTCAGTTGGGTCTGAGTCTTCCATAATTTTTCTATATAAAGTTGTATCCACAACTTCTTCTTTACCATCAATTAATATTTTTTCTTCAATGTTGTCAGCATAAGCAAGTGTATCATATAATTCTCCTACAGCTCCTCTACTTCTTGCCACTTTACTTAGCAAAGATTCACTTTCATCATCAAGAATATGTTTTTGTTTTCTAAATAATTTTTCAAAAATGTAAGTTTCACTTTCAAACTCACTACCTTTTAAAAATCCTAAAATAGTTTCTTTACCAACTGATATAACTTCTGGGTCAAAAAAACTTACTTTTGAAAAACACTCTTGATATGTATTTTGAAATAATCCTTGTAATTCTTGTAATTCACTATTTGCTTGATCTACATCATACATATGAATGTATTGATTTAATTTTGCAAATAGATAATCTATTTCTTTATCTAATTTTAAATATTCTAAAAATTTATTATTGTTATTTAATTGTCCTTTCATACTTTCTAATTTGTCAAATTGTTGTTTTAAAACTTCAAGATCTTTTTTAAATTCATTTCCATTTTTATATAAATGTGAAAAATCTCACTTGTAGTTTTGTTTTGCTTCATTTCTTTTCATAACAAGATTATACTTAAAAAAATTTTTAAATACTAATTAAAAAAGTAGTTTTCTTATAAAACTTTAACTCAAAAACTTGTTTTGGTTGCATTTTTATAATTTAAAACTACTTTTGATTTTTTTCTAGAAAGTGCTTTAATGTTAAAACGATATATTTTTTTTGTATAAAATAGTTCGTCTTCTATAAACTCAATGCTTATAGCTTTACTATTTTTATTTTTTATGATTAATGAGCTATCTTCTAAAATATTTAAAACTTCTATTTCAATTAAAAGTTTATCTTCAACACCTAATATCATTTCAATATTTTTTGGTTTATTTATTTCAGGAGTTTTTTTAAAAACTGTTATTTTTGGAGATGTTAATTGGTTTCCATACATATTCATAAGATCTTCTGCTTGATTTATTAAATGTAACCATTATCCAAAAATTTATTATATTTTTTAAATACAAAATCGTTATTAATTAATATTTTTGTTATTTTTTTATAATAAATCAGTGTTGTTATTGAACCTATTATAAAAAATCAAGACAATATTAAATATGTATTGTATAAATTTTTTATCTTTATGTTTTCATCAAATTTCATTTTAAACAAACTTGTTTTTAATATAAATAAAATATTTCCTGAAATCATAAAAACTGTTGCAGCAATATAACCAAAAATCAATCCACCTAATCATTCTGAATCGCTTTTAACATCATCTTTGATAAAATAAGAACCTACAATTAAAAGAAACAAGAATAAAAAGCTAACCATAGTTCTTATTAAAAACATATTAAAAACTCATCCGTCAATAATTTTTTTATCTACATCTTTTCATCAATATTTTCTTGTTAATCAAGATAAACTTTTATCTTTATCCATAAAAAACACTCCTATTTTTTTAGATTACTTATTTAACATTTCAAAAAGAGTTCTTGCCATTGTTGCTTTTCCTCTTTTATCTTCATAAGCTGTACTTGCAACATCTAAGTGAATATATGGTTTATCTTCACTAAATGCATTTAAAAAGGCAGCTGCAGTTGAAGAACCTGCAAAACCAGTAGTTCCAGAATTATCTAAGTCAGCTATTTTCGATCCTTGCATAACTTTTAAATGTTCTGAATCCATTGGTAATCTTCAAATTGTTTCAAAAGATTTTTTTGATCCATTTTCAAACTCATTATAAAATTCGTTATTATTAGAAAATGCACCTGTATATCACGGACCTAACGCAACTCTTATTGCACCAGTTAAAGTTGCAACTGTTATTAAACGATCTGCTTTTAACTTTCTAATTGCATAAGTCATACCATCAGCTAAAACCAATCTTCCTTCAGCATCTGTATTTCCAATTTCAACAGTTTTACCATTCATTGAAGTTAAAACAGATTCAGTTAAAGTCGCATGACCACCAATTCTATTATCAGTTAATAATCCAATTGATACAACATTACATTTTGCTTTTTTCTTAGCTAAAGCTAAAACTGCAGCACTAACAATTGCACATCCTGACATATCAAATTTCATGTTTGCTAAAAATTGTGAACCTTTTAAGTTATATCCTCCAGTATCAAATGTGATTCCTTTTCCTACATATGCGGTTTTAGGTAATTTATCATCTGTACAATATTCTAAAATTACAACTCTAGCATCAATATGAGATCCTTCATTAACTCCTAAAAGTAATCCCATTTTATTATCTTCAATTTGTTTTTTATTTAAAATTGTAACTTTTAATCCATCTATTTTTTTTGCTTTTTCTTCAATTCTATTTGCTATTTCAATTGAAGTTCCAATATTTGGTGGTAAATCTTGTAAGTCTCTTGCAAAATTTACATACTCTACTTTAATTTTTGAAGTCTCATAAATATCATTGTATTTGTTATCAAATAATAAACTAAATGATTTAAATTCAGAGTTTTTTTCTTTCATTGAAAATTGTTGATGTAAACTAAATAAAATTATTTCTACAACTAGTTGAAATACTTCTTTTTTATTTTCAAAGATATTTAATACTGAATCTAAATCGATATTCATATCATATTTACTTGAAGATACTATTGATGAAAAAGTTTTTTCTAAACTTTTTTTGTTCATTTTATTATCTAAACATAAATATAAAACTTTTTCTTCAAGCGATAAAGTTGTTGAACCACTTTCGTTTACTATTAAATTATTTTTTAAGCTATCTTTTTCAAAAGCTTTTAATGTTAATTCAAAATTATTTTCATTTACTAAAATCATTTTTCTATTCCTATCTATTTTTATAATATTATATTAAATATTTTTTGAAATTAATTTTTATTATTAATTAAATTTTATAAACTCTTCATTTTCACAAGCTCATGATGATAAAGCATCTAAAACCAATTTTAAACTTTTTCCTAATTCAGTTAATGAATAAGTTACTTTTAAAGGAAACTCGTTATTAGAATTTCGATTTAAAATATTTAATTGTTCTAAATGTTTTAAAGTTTCTACAAGAACTTTTGTAGTGACACCTTTTAAGCTTTTTTTTAATTCGTTAAATCTTTTTTTTGATACTAATAACTCACGAATTATAAAAATAGTTCATTTATTTTTTAAAACTTTTAAACTTAATTCAACAGGGCAGACTTCCATTATTAATCTCCTTTTTAAGGTTACTTAAAAGTAACTACTTTTATTTTTTAATGCTCTATCTTATTATATTAAAGAAAGGAGGTAAATATGAGTTTAGATAAAAATAATTATGTGCATGTCACTAATGGTGATTTTAAGGAAATAGATAAAATTTTGAACGAAGGAAAAACTGTTTTAGCTGCTTTAGAATGTGGAGAAAAATTAAAAGCATCACTAGAAGAAGGCAAAATGAGTAATGGTTTTGCAAATGTAGAACTAAAAGAATATAAAGATAATTGTGGAACTTGTGGCTGTGGAAAACCTGCAAACTGTTTAGTTTATTTATGAAGATAAAAATATTTATTTTTTATCAAATATATAAGTCGCTATACATACTTTTGTAGCGATTTTTTAATTTACACTTTTTATTAAAAAATAAAAAATTAAATGTAATATAATAAGTATGTTTTAACAAATTAAGTTAAAGCATAACATATTTTATCGTCAAAAGGAGAGAATATGAAAATAGTTATACTTGGTGGAGGAGCAACTGGAATGGGAGTTGCTGCTAAAGTTAAAAGAAATGATAAAAACTGTGAAGTTTTAGTAATTGAGACTGGAAATTATGTTTCATTAGGTGCATGCGGTTTGCCTTATTATGTAGGTAAAAATTTTGATGAACCAAACATGTTATTTGCAAGAACTATTGAAAAATTTAATGAATCAGGAATAGAAATAATTATAAATTCAAAAATAAAATTAATTGATTTAAAAAATAAAAAAGTTGTTGTTAATAACAAAGAAATTACTTTTGATAAATTAGTTATTGCAACTGGTGCTGATGCTATTAGTCCAAATATTAAAGGGCTAAATACTATTGAACATTTTAAATTAACTAAGTTTGAAGATGGACTAGCCTTAAGAAATATTGTTGAGAAAAAAAATATTAATAATATTTTAATAGTAGGATCTGGTTTTATCGGATTAGAACTTGCAGAAAATTTAAAAGACTTGAATAAAAATGTAACAATGGTTGAAATAGAAAAAGATATTTTAAGTAATTTATATGATGCAGAAATATCTGAATTAATCAAAACTACTCTTGAAAAAAATAAAATTAATTTAATGTTAAATAGTTTTGTTAATAATTTTTATAAAAAAGAAAACAAAGTTATAGCTAACATAAGTGATAAAGAATATGAATTTGATTTAGTTATTACTGCAACAGGTTTTAAACCTAATACTGAATTATTATTAAATACTGGATTAAATTTTTATAAGAATAATGCAATTATTGTTGATGAGTTTGGAAAAACAAACATAGAAGATGTTTATGCTGGAGGAGATTGTTGTGCAATCATGAATAAAATTACAAATCAATTTTGTTATTCTCCATTAGCGACAGTTGCATCAAAACAAGCAAAAGTTATTGCAAATAATATTTGTAAAATAGAATCAAGATTCAACGGAACAATTCAAAGTTCAATTATAAGATTATTTGACAAAGCAATAGCAAGATGTGGTTTAACAGTAAGAGAAGCAAATGATTTAAATATTAAAACAAAAGTTTCTTACATAAAGGATAAAGACCATACACATTATTTAAAAGGACAAAGTGATGTACATTTAAAATTAATTATGAATGAAGATACACATGAATTAATTGGTGCACAAATGTTTTCGCATAAAGATTCAATATTAAGATTTTATAGTTTAGCAACAATGGTTTGAAGTAAAATTAAAGTTAATGAAGCACTAGAACAAATTGACCTTCCATATTCTCCACCATTCGCAAAATCATTTGATATTATTCATATCGCAATATCAAAATTTATATAAATAAGGAGGAAGAAATGCAAATTTTAGCAGAGAATAAAAATAATATTCTAAGAGATTTTTTAGCTATTAGTAAATGACAATCTGCAGTCGCTATTCTAATTTTTGTTGCATTACAAATTGGATTTTTCATATTTTTAAAAAAAATAAAAATTACTTTTATGTACAGAGTTATTATAGGAATGCTTATAGGATTAGTTTTTGGAATTGCTATTCAAGCAATTATTAAGTTTCCTGATCAAGAAACTTTATCAGCAGGATTTAAAGATAGCGAAAGTAATATATATTGAGTTAACGAATTAAATATTTGATCTCAATTTTTTAAAAATATTTTTATTAGAGGAATTTATTTGCTTACAATTCCCGTGGTATTTATAGCAATATTTAAAATAACAGCTAAACCTGGAGAATCTGGTTTAGCAAGAATAACTTTAAAAGGAATTGCTCTACTTTTAATTAATGTTGGAGTGATGTTTACAATTACATTCTTTTTAGGGATTGTCACTAAGGTTGGTAAAGGTGTTTTTGATGAAGCAGCAGGATCAACTCCAACAGGAAAAGACAATATTCCTTTACCTCAAATTATTTGAAATTATTTACCAGAAAACTTTTTTGCAGCACTTTCAACAAACACTATCATACCTGTCATGGTTATTGCAGCTATTGCAGGAATGTCTGTTAAAATTTTAGCAAAGAGACACAAAGTTGAAATGGCAGCAATTGTTAAAGGTTCTGAAACCGCTTGAAAAATTACCTCATCAATGCTATCAACATTTATGAAAATAATGCCACTTGCTGTTATGTCAATGATCTCAACCTCAATTACTGCAAGACCAATTGGTGAACTTGCAAACATTGGAAAAGTAATTGGGGTTGGTTACCTAGGAATTGTTATTGCTATAGTTTGATTAAGTTTACAAATATTTTTATCAAGAATAAAATTAGGAGCATGATGGAGACAAGCATGAAGACCTTTAGTGCAAGGTTTTAGTACTCAATCATCAAATGCATCATTACCAGTCTCTCTTGAAAGTTTAGAAAAAATGAAAGTTTCAGAAAGAGTTTCAAGTACTGTTGCTCCAATTTCTACAACAATGGGATTGATTGCTTGTGCTGGTATTCAAGCTGGGTTAGCAACAAGTATTTTATGAACAGGATCACAGGTTCCACACTCAATGGGGTTATTTACTTACTTTATAATCTCTTTATTTGTAACAATAGTTGCATCACTTGGAATTGCAGGAGTACCTGGAACCGCAACTGTTGTAACAGTTGGGGTTATTGGAGGAATTGGATTTTCAGAATTTATTGCCGCTGTTTTAGCAGTCATCACACCACTTGATGGATTATTTGATATGGGAAGAACTGGTGCAAATGTTCTTGGTGGAGTTGCTGCTTCAACAATTGTTGCAAAGTCCGAAGGTTTAATAAAAGAAGGGTCAATAATTTTAAATTCTAAAGAAGTTGAAAAACAAAAACAAATATTATTTTTAAAAAGTTTAAGAGATGAATATAAAAATAACATTTTAAATAGCAAAAAAGAATATGCTAAGGAATTAAAAAGAATAGAGTTGACAAGAGAAGAAAAAAATAGTTTGAAAAATATTTTAATTAGTCAGCAAAAAGATTTTAAAGAAGCATATTTAAATAAAAGAAAAAAATTTAAAGAAATAAAAAATAAATAAAAAAAGTTTTGCTAAGCAAAACTTTTTTTAATGTTTAGATAATTTTTTAAGTTTTTCTTTTTCTTTTATCAATATCTTTTTTTTAATCCAATAATTTTTATCACAAATTATAAATATACCTTTTTTTAAATGCTCAATTATAAGAGTTTGAACTAATGCTGTTATAAAAATTAATAATGTTAAACCTATTAAAGCAAAATTTAATTCTACATCATTTAACTTAATTAAATATGTGCTTAGTAAAGAATATAATAAATGATTATAAATTGTCATACATAAATATATTCCTAAGGTAAATGAAGAAATGTAATTTATAAATTTACTTTTTATTTTTATGTTATAAAAGATTGTGAAAATAAATAAAGGTAAAACAAAGGCCAATGGATTATTTTCTTTAAAGAATAAACTTGTTTTTAATAATTCATCATCTTCTATTTTTCCTAAACTTAATATAACATCCATAGCAATTGTTGTAATTACTAAAACTAAAATACTAACAATTAAAAACCATTTTTTATTCATTAGATTTACTAAATGTAACCTTGAAAATGATCCAAATAGTGCAACTAAAATTAATCATGTTGCTTGTCATCCTGTATAATTATTAAAAACAGATAAAGTTATAAGTAAAATAATTAATATTAACAGAAAAACTTTTCAATCTAGTTTTGCCATTTTATCTGAAAAGAAAATATATAATGCAAAAACAAATATAATCGAAAAAGCATATCATCAAGCTTCAATAGTAAAATTATAAATTGTTGATAAACTTGTTACATCATAATAAAAATACTCTACAAAAAATGACACTATGAAATTAAAAGCAAAATAAAAAATTAAAGTTGTAACATACTTAAATAATTTTTTTGGTTTTCCTTTGTTAGCCAAAAAAAATCCTGTAATGAAAGCAAATGTTGAAATGTGTGTCATATTAATAGGAAAAAGATATGTAAAAAAATATAAATTTGGTGCACTATCGTTCTCTCCTCAAACATGATTTGCAATAACAAAAAATGCTAAAAATAATCTAAGTAGCTCTATCGAAGAAACTCGATTTTTCATTTTATCTCTCCTTAATAAAAAAACATATATAAAAAATTATAACAACTTTTTATATATGTTAGTCTTATTTATTCAACATTTCAAATAAAGTTCTTGTCATTGGAGCAAGTCCACGTCCATCTCTATCAGCTGTTAAAGCAATGTCTAAATGAATGTAAGGTTTTTCTTCACTAAACGCATTTAAAAATGCAGCTGCAGTTGAAGAACCTGCTTCTCTAATATTTCCTGTGTTTGATAAATCTGCAATTTTTGAGGTTTGCATTACTTTTAAATGTTCTTTAATTAAAGGTAAATTTCACACCGGTTCATTTGCATCTTTTGCAGCATTATTAAATTCTTTTAAGAATTCTTCGTTATTAGTAAATGTTCCTGTAAATCATCTTCCTAATGAGAAAGTCATTGCTCCTGTTAAAGTTGCAACAGTTACTAATCTTTCTGCTTTCAAATTTCTAATAGCATAAGTCATTCCATCAACTAATACTAATCTTCCCTCAGCATCTGTATTTCCAATTTCAATGGTTTGACCGTTCATTGATTTAACTACTGATTCGGTTAAAGTCGCATGCCCACCGATTCTGTTATCTGTTAACATACCAACTGCTACAACATTACATTTTGCTTTTGCTTTTGCTAGTGCCATTACAGTTGAACTAACAATCGCACAACCTGACATATCAAACTTCATTCCCGCCAATGATGCAGAAGGTTTTAAGTTATATCCTCCTGAGTCAAATGTGATTCCTTTTCCAACATAAGCTGTTTTTGGTAAAGAACTATCAGTACAATATTCTAAAACAACAATTTGTCCTTCAACATGCGAACCGTCATTTACAGATAAGAATGAACCCATTCCCAGTTTTTCTGCTTCTGCTCTTCCCATTATACTTACTTTTAATCCCTCAATTAAGCTTGCTTTTTCTTTTATTTTGTTTGCAATTATAACTGAAGTACCAACATTTGGTGGTAAGTCTTGCAAGTCTCTTGCAAAATTTACAAATTCTAATTTAATTTCTGCTTTATTAAATTCATCTTGATATTTAGAATCAAAAATTAGATCAAATGATTTTTGTTTTGAGCCTTCTTTTTTCATTTCATATGGTTTATGGTTTAAGAATAAAAACTGCTCAACTATTGCTTGAAATGCTCCTTCTTTTTCTTCAACTATTTCTAAAAATGAATTAACGTCAACATTCAAGTCATATTTAGCTGATCCCACAATTGAGCTTACAGCATTTGCTAAACATTTAGCTTTTGCTTTTGGATCTAAACAATAATAAATTGTTTTATCTTCTGATACTAAAGTCAAAGATCCACTTTCTAATATTACTACTGGATTAACTTTTGCATCTTTTGTTATTGCTTTAACAGTTATACTGTGTAATTTTTTATTTGTAGTTATCATATATAAATTCCTCTCTTTTTATTTATTTAATAATTCGTACAATGATTTTTGCATTGGCGCTAAACCTCTAGCATCAAAGTCAGCAGTTCCTGCAATATCTAAGTGAAGATATGGTTTTTCTTCACTAAACTGATTTAAAAATGCAGCAGCTGTACATGAGTATGCTCCATCTTTATTTGATAGTTCACAACTTGCAATATCTGCAATTTTTGTGAATTCAAGTGGCTCTAAATGTTCACTTAACAACGGCATTCTTCATATTCTTTCTTGAGCTTTTAATACTCCTTGATTAAATTCTTCAAAAAATTCATCATTATTTGCAAACACTCCTGTTTGTCATTTTCCTAATGCTGAAAATATTGATCCTGTCAATGTTGCAACAGTAAATAATCTTTCTGCTTTTGCTTCTCTAATTGCATAAGTCATTCCGTCAGCAAGAACCAATCTTCCTTCAGCATCTGTATCTGCAATTTCAACATTTAACCCATTCATTGATTTAACAATTGATTCAGGAAGTGTTGCTAATCCACCAATTTTATTATCGGTTAACATCGCAACTGATACAACGTTACATTTTGCTTTTCTTTTAGCAAGAGCCATTACAGTTGCACTTACCACTGCTGCTCCAGACATATCATATTTCATATTTTTTAAGTAGTTTCCAGGTTTTAAATTATATCCTCCAGAGTCAAAAGTTATTCCTTTTCCAACTAATGCTGTTTTCGGTTTACTTGAATCTCCACAATATTCTAAAACTACAATTCTTGGATCAATATTTGATCCTGCATTAACTGCTAAAAATAAATTCATTCCATAACTTACAGCTTCTTTTTTGCCATAAACTGTTACTTTAATTTCTTTATTTTCTTTTGCTTTTTCAATAATCTTGTCAGCAATAGTTATTGATGTTCCTAAATTTGGAGGCAAATCTTGTAAATCTCTTGCAAAGTTTTGATACTCTAATTTAATTTTAGAATTTTCATAAATGTTTTCATACTGTGCTGAAAATATTAAATCATATGATTTATGTTTGGTTTCTTCTGTTTTCATTTCAATTTGCTTGTGATTTGCAAACATAAATGTTTCAACTAGTAATTGCAATACTTCTTCTTTGTTTTGATAAATTTCTACAAAAGAATCTAAATCAACATTTAAATCCATATTATTTGATTTTACAAAATCTAAGATAAATGCCTGCATTTTAAATAAAGTCATTTTAGGGCACATACATACATATAAAGTCTTTTCTTCAGATATTAATGTAAACTCTTTATTTTCTTTAATAACAAGTGGATTTACGTCGCTCTCTTTTGTTATTGCTTTTAATGTGATATTAAAAGACTTTTGATTACATGTGATCATTTTAAGTTCTCCTTTATTAGTGATATTATCATAATTTTATAACCTAACTAATTATAAATTTATTATTACATTGCTTATTTTTACACACTCCAAAAATATAAAGTCTGAACTTTGCCTTATTTTTATCATAAGTTAAATACGTTTTTTTTACACCATGTCCGAAATCACATCTCATTTTCATATTAGCTAGTTTTGAATTTATATTTGTAAACTTCGAGCGAAACTGATAAATATAATAAGTTTCTTTTTTTAATCTTTTGTTTTGATCTTCTTCTTGTTTTAAAATCGCAAATCTAATATTATTTAAATCTTTTTCTTTATAGATTAGCTTTTTTGCAGCAGGTTTGCTATTTTTATAATTGTTGATGTGAGATTTTCATCTTTTTTTTATATCTTTTGATTCACCAATATAACTAAACTTTAAATTATTACCTAAATCTAAAGAAAAAATTATATATACGCCTGAAATGTTGCTATCTAGTTTTTCTAAACTTTTAACATCATAAACTTGATATTTTGTAATAACACCACTAATAGCCTTATTGCAATACTCTTGACTAATCATTTTAAATTTTTCTAGTTTAGATGTTTTTACTTTTTTTATAAGTCAAAGTTTCTTATCATAATCATTTTTCATAAACAAGCTCTCTTAACTATCTATTTATATATATTATTTTAAATGAATTGTAAAAAGATATTACCAACTTAAAAATCTTTTAGTTTATAAATTGTTATCATTAATTATATGAATAGAATAGGATAGATATTAATGGAAAATTTAGCATGAGCTATAGCTATAGTTTTAGCGGTTTTTATGTGAGCATCACTTTCGATGTTCCCAAACTATTATAGAAACAAAAAAGTTTATTTAACAATCCGAATTGTATTAGTAGTTTTCTTGCTTTTTACAGAAGTGCAAAGAACTGTATATTTAGGACCCATTCATCAACAAAATTATATTGAAAATAGTAATCCAACAACATATGTAGGACAACAATGGTATCAAAATCCGATAAATTATTTTTTATTATATTTTTGTACAATTTGCTCTTATGTAATAATAATTATCTTAATTTTTCCAAATAAACTTTTAATGGAATGTTTTTTTCCATTTATGATAATGGGACCAGTTGTAACATTTATATTCCCAACTGAAAAACCCTTATTTTGAGACTCCAACTTCTTAAATTGATTTACATTTTTCTTTGGACACGCTTGTATTATGTTTGGTGCACTATATATGTACTTATACGGACATACAGAGTATAAATTTGGAAAACAAGCACTTCTAAAATCAATGTTAACTGGTTTAATTACTGTTACACTTGTGGAAATATATAATTTATATTTTGGAACTGATTTCATTGTTGGAGAAGTAACTGGTGCATTTGGATTAAAATGACCTAGACCTTGAGTATTGGTGTTTATTTTATCTGTGGGTAACCTTTATTTATGAATCGGATTAAGTTTAACAATATTTTTTAAACCAATATATAAAAAAGACAAAGATATGAAATTACACAATACATGATGAGAAGAATTAATAATAAAAATTAAAACAAAATATCAAAATAGAATTAAAAAAACAAATTAGAATAACAAAACAAAAACCCTTAAGCCTAAGGTTTTTGTTTTGTTTATATACATATTTTAATAAAGTTTTTAGTTTTTTTAATACCAAAAAATAATTACTTTGCTTTGTGCTTCAAAATAGTTTTTTGATATGTTAGTTTCATTACCCAATAAATATAAAATAAATTTTTTAACATCAATGTCATTATAAATACTTTTATTTAAATGGTATTGAGTTGATCTTATTTTACAAATATCTTATAGTTAGCAAGTTATAATATCATATTCTATTTTATTTTCATTATTTAATATTAAATTGTAAAAATGATCTTATTCATATTTATCGGGTTTTTTTATCATACAATTTTGCTCTGAGCTGATTTTGACTCTTAAAAATAATTTTTGTAACTTGAAATTGATATATAAATCGAGTGTATTAATTCAAACTCTTTATTTTTGAATGTAAAAACAATACTATTATCCATATTTATTTTCTTTTATCAAAACTATTTAATGCTTTACTAACGTCAGAGTATTTAAAATATGAAGTAGCTATTTTTATTTTTTATGTTAATTTCCTTATTTGATAAACAACTTTCAAATATTTTAGTTTAATTTAATTCAGTCAGATTAATAAGATTTCTATGTTTTAAACTTTCTATTACTTTATAAGAAACACAAATAATAACTCCCGCAATTGCTGGAAAAATTATGCTTGATAAATATACAACCATAGATGTGTTTTGAAAAAATTTGTGAAATGTAAATGTTAGTATAACAGCTATTATCAAAATTGCTAATATTAAAATATAAAATAATTTTAATATTAGAAAGTCAATTTAATGGGTTTATATTTTTTTTAATATTTTTGCTTTGGCAACTCTTTTTTTAAAAGATTATGTCTATATTTTTTAATTTCTTTATTTATGTCATTATTTATACCTACTATCTTGCAAAAAAATTTAAATCTAATTTCACTAATGTAATTATTATAACTATCCATTTAACAATAATAAAATAAGTTAATATGTACAGCTAAATAAAAACTATAGAATTATTTTTCTTAGTTAAAAAAGTTATATGTAATTTATATATAAATTACTTTAAATTCTTCAAAAATAATAACCTCATTTTCGCTAAATGTTATTTGTTTTTTTTCTAAAAGCATCACTAAAAAAAGCAGTATGTTTTTTTCTTCAAGAATTTAAATCTATATCTTCCCCTTCTTTTTCGCATAAATCAAAAGTCATATCTTTAAAATATAAATAAGTAACTTTTAAGTTTTTAATTATGCATATAGGGTTATTTTTAAAATCAGTAACTATAGATATATCTCCCACTTTTGGTTTATTTTCTTTTTCTAAATCATATAAAACATCACATGATGTTGTAGCAGTTTTAATACCTCTTGCAACTAAATCACCTAATTCATCAGCCATCTCTTTTGTGTTGCCAAAATAAAATGCTTCAGTAAATTTTAAGCTCTTACTTAATTTATTTTTTTCTAAATACTTATTTCAATAATCATTAACTTTAATACTCATATTTTCTCCTAAAAAAAATCTTTTTTAAATTAAGTATTAAAACTTATTTTAAAAAAGATTTTTGTTTTACTTGTTTTAATTATTCAACGATTGAAATTACGCTTCCAGCACCAATAGTTCTTCCACCTTCACGGATTGAGAATTTAGTACCTTGTTCAACAGCAATTGGTTTAATTAGTTCAACTGTTAATTCAACATTATCCCCAGGCATAACCATATCTGTTCCTTCTGGTAATTTTACTTCACCAGTAACATCAGTTGTACGGAAGTAGAATTGTGGACGGTATTTATTAAAGAATGGTTTGTGACGTCCACCTTCTTCTTGAGTTAAAGCATAAACAGAAGCTTGTAATTTAGTATGTGGTTTAATTGTTCCTGGTTTTGCAAGAACTTGTCCACGTTCGATATCTTCTCTGTTTACCCCTCTTAATAAAGCTCCAACGTTATCTCCAGCTTCAGCAAAGTCTAGTAATTTTCTAAACATTTCTAATCCTGTAACAACAACTTTTTTGCTTTCTTCAACTAATCCAACGATTTCAACTTCTTCGTTAACTTTAACAATTCCTCTTTCAACTCTACCTGTAGCAACAGTTCCACGTCCTGTAATTGTGAAAACGTCTTCTACTGGCATTAAGAAAGTTTTATCTTTGTCACGTGTTGGAGTTGGAATGTAATCATCAACTGCGTTCATTAATTCTTCAACTTTAGCAACTCATTTAGCATCACCGTTTAAAGCTCCTAAAGCAGAACCTTTAATAACTGGTGCTCCGTCTCCATCAAAGTCATAACTTGATAATAAGTCTCTAACTTCCATTTCAACTAAGTCAATTAATTCTTCATCATCAACCATGTCACATTTGTTTAAGAATACTACAATTGCAGGAACTCCGACTTGTCTTGATAGTAAGATGTGTTCTCTTGTTTGAGGCATAGGTCCATCAGTTGCAGCAACAACTAAGATAGCCCCATCCATTTGTGCAGCACCTGTAATCATGTTTTTAACATAATCGGCATGCCCTGGACAGTCTACGTGTGCGTAGTGTCTTTTATCTGTTTTATATTCAACGTGAGTTGTATTAATAGTAATACCACGTTCTCTTTCTTCAGGAGCATTGTCGATGTTTGCATAATCTTTAAATTCTGCTCCTCCTTTTTCGGCTAATACTTTTGTAATAGCAGCTGTTAAAGTAGTTTTACCGTGGTCAACGTGTCCAATGGTACCAATGTTAACGTGAGGTAAACTACGGTCAAATGATTCTTTTGCCATTTTGATTTCTCCCCTTCATTTTGAATTTGCGACAAATGTCTTACTTAATTGTAATTTATTTTTGTCAAAATACAATAGTTTTTTTTATAGTAGATAAATATTTTATTTACTTGCGTTTTTAATAATTTCTTCAGCGATGCTTTTTGGTGCTTCGTTGTAGTGACTGAAAATCATAGTGTAATTTCCACGTCCTTGAGTAAATGATCTTAGTTCAGTAGCATATCCAAACATTTCTGATAATGGAACTTTTGCTTTAACTGTTTGAGCATTTCCTCTTTGTTCTGATCCTTCAATTAATCCACGTTTTGATGAAATATTTCCCATTACATCTCCGTAATATTCATCTGGAACAGTAACTTCAACTGACATAATTGGTTCAAGTATGACAGGTTTTGTTCTTTTTGCAGATTCTTTTAAAGCCATTGAAGCTGCAATTTTATATGCCATTTCATTTGAATCGACATCATGGTATGATCCATCAACAATTGTTGCTTTAACATCGATCATTGGATAACCAGCGATGATTCCGTTTTCTAAAGCATTAATTAATCCTACTCTTGCAGCATTAATATATTCTTTTGAAATTTTTCCTCCAACAATTTTGTCAACTCATTCAAATCCTTTATCTGGATTTGGTTCAAATTCAATCACAACGTGACCATATTGTCCACGTCCTCCTGATTGTTTAACATATTTTCCTTCAGCTTTTGTAGCTTCTCTAATTGTTTCACGATATGAAACTTGTGGTGCTCCAACGTTTGTTTCAACTTTAAATTCACGTTTTAAACGGTCAACTATAATGTCTAGGTGTAATTCACCCATACCAGCAATAATTGTTTGTCCAGTTTCTTCGTCTGTATAAGTTCTAAATGTTGGATCTTCTTCTGATAATTTGTTTAATGATAACCCTAATTTTTCTTGGTCAGCTTTAGTTTTCGGTTCTAAAGCTAAGTGAATAACTGGTTCTGGGAATATCATTGATTCTAAAATAATAGGATTTTTTTCATCTGATAAAGTATCTCCAGTTGTTGTATCTTTTAAACCAACTGCAGCTGCAATATCTCCAGCATAAACTTCTTCAATCTCTTCACGATTGTTAGCATGCATTTTTAATAAACGTCCAACTCTTTCTTTTTTATCTTTAGTTGCATTTAGTACATAACTTCCTTTTGTAAGGATTCCTGAATAAACTCTAAAGAATGTTAGTTTTCCTACAAATGGGTCTGTCATAATTTTAAATGCTAAAGCTGAGAAAGGTTCGTCATCTGATGAATGTCTTTCTGATTCAGTTCCATCTAATAAATGTCCTTTAATTGAAGGTACATCTAAAGGTGATGGTAAGTAATCTACAACTGCATTTAATAATAATTTAACACCTTTATTTTTAAATGCACTTCCAGCTAAAACCGGAAAGAATTCTGCAGATATAACTCCTTTACGAATTGCTGATTTTAGTTCTGGAATAGTAATTTCTTGACCATCTAAAAATTTCATCATTAATTCTTCATCGTATTCAACTGCTGCTTCAACTAATTGAGCTCTTAATGCTTCAGCTGTATCTTTTAAATCAACTGGGATTTCAATTTCTTTTGCTATTTCTTCTGCAGCACCATCAAAATGTCATGCTTTCATTTCAACTAAGTCGATGATTCCATCAAATTGATCTTCTGCTCCAATTGGTAATTGGATTGGAGCTGCTTTTGCTCCTAATCTTGTTCCAATTGTTTCTACTGAATATAAGAAGTCAGCTCCAGTTTTGTCCATTTTGTTAACAAAAACGATTCTTGGAACTTTATAAGTTGTTGCTTGTCTTCAAACCGTTTCAGTTTGCGGTTCAACTCCACTTTGTCCATCTAAAACTGCAACCGCACCATCTAAAACTCTTAATGATCTTTCAACTTCAACTGTGAAGTCAACGTGACCTGGAGTATCGATGATGTTAAAACGGTGATCAGCTCAGAATGCTGTTGTTGCAGCAGAAGTAATAGTAATTCCACGTTCTTGTTCTTGTGCCATTCAGTCCATTTGTGATTCACCTTCGTGAGTTTCACCAATTTTGTGAATTTTACCTGTATGGAATAAAATACGTTCTGTTGTAGTTGTTTTTCCAGCATCAATATGAGCCATAATACCAAAGTTACGGGTCATATCTAAACTAAATTCTCTTGCCATATTTTTTTCTCCTATATATATTTAATTAATTTGCTATTATCAACGATAATGAGCAAATGCTTTATTTGCTTCTGCCATTTTGTGAGTATCTTCACGTTTTTTAACAGAACCACCAATACCGTTTGATGCATCAATGATTTCATTAGCTAATCTATCAATCATTTCTTTTTCATTTCTTAATCTTGAATAATTAATTAATCATCTTAATGCTAATGTAACTTTTCTATCTCCTGAAACTTCTACAGGAACTTGATAGTTAGCTCCACCAATACGACGAACTTTAAGTTCTAAGTGAGGTTTAATGTTTTCAATTGCTTTATTAAAAACTTCGATTGGACTAGTTCCAGTTTTTTCTTTAATTTTTTCAAAAGCTTTATATAGAATGTGTTGTGCTGTTCCTCTTTTACCATCCAACATAATTTTGTTTACTGCTCTAGTAACTAATTTTGAACTGTAAATTGGATCTGGAAGCACATCTCTTTTTTCTGCTTGATGTTTACGCATTGAGTTGTTTTTCCTTTCATTTTATTTAAATTGTTAATTTGTGTATACACTCTTATTTTTTTTCTTTTGGACGTTTTGTTCCGTATAAAGAACGACCTTGCATTCTTCCATTTACTCCAGTTGTATCTAAAGTTCCACGGATTATGTGGTAACGTACCCCAGGTAAATCTTTTACCCTTCCACCACGAATAAGAACAACACTATGTTCTTGTAAGTTATGACCTTCTCCAGGAATATAAGCTGTTACTTCCATTCCGTTTGTTAATCTAACCCTTGCATATTTACGTAAAGCTGAGTTTGGTTTTTTAGGTGTCATTGTTGCAACCCTTGTACAAACTCCTCTTTTTTGAGGTGAAGATATTTTAGTTACTTTTTTAAGTAATGTATTTACACCTCTATTTAAAGCTGGTGCTTTAGTTTTTCAAGTTTTTGCTTTTCTTGGTTTTCTAACTAATTGGTTTATTGTTGCCATTTTTAGGTTTTCCTCTTTTCCACTTTACCGAGTGTATTGTTTCACACACAAAATATATTATATAGTAAAAAGTGATACTGTATAAAAATTTTTTATTATTATATATAAAAAGGTAAAATATAATAAATATAAAGGAGTACGAAATAATGATAACAAATTTATATGCAATGAGTAGTGAAAATAAAACTATTGTAATAGTTGCCTTTTCAATAATTGGTTTTATTTTATTAGTTATTATTCATGGAATTGGTATTAACCTTTGATCTTATGCCAAAAAAAGATCACTATTTGCAACTTGTTTCTTTTGATTAACTTCTATTATAACAGTGATTGGTGGAATAACTGTTTTAGCTTTGGTTGGCATATATGGTGGTATTAGTGGCGGCGGGGGAGGAACATTAGGAGAATATAGAAGTATTATCTGATTTCCTAACCAAATTAAAAAGAGAAATAAATTAAACAAAAAAAAGGAAGTTTTAAATGATTATGTTACTTAGCAAAAGTATCTCTAAATCATTTAGCAAAACTTCATTTTTTTCATGTTGTTTGACCAGCATTTTCTATTGGTCCATCATATCCATCATAATTTAATGCTCAAGTCATTAAACCTCTAATGTTAATATTATTTTGCTTTGTTAACTCATAAAATTTATTAATAGCACCTTCATATGCAGCACCTCTTCCTGCAGGCTCATTTGTTGAGGCTCCTAAAACAAATTTATTTGGATCTATTAAATAAAATCCGTTTAAATTACTTTTTTTAGTAGTTAAATATTTTGTCATTAAATAATAAAATATACCTCTGTTTGCATAATCATCATTTGTAATTACGCTACCATATCCTAACCCTAGTTCTGTTGCTTCTTCTTGATCAACATAAGGGCCATAAGCTCATCCATTATAACATTGAGGGTTTATTCAATCATAGTATTTATCTAATTGTTTAAAAAATGGTATATAACTATTTCCGCTTGCTTCTGTACTTTCTTTTAAATATGGAAGTTCTGGGGCCATACTTATAAAAAAATGTTTATTTTGTTTTGCTCATTCATTTTTTATTTCAATTAATGCTTCAGAAGTTACTTTTTGACTTGTTCTATCCGCCAAACAACTTCCTTCTCAATCTAAATCAATTCCATCTAAATCATATTCTTTAACTACATTTGAGATAGTTTGTTTTAAATCACTTTTTTGGTTTTCATTAAAACGCATTCCTTCTCCAGTTTGTCCACCCATTGAAATTAACACTTTTTTATTTTTACTATGTAAGTATTTAATTCCATTTTTAACTTCAGTAGGATTACTTGGTTGAAATATTGGCATTGCGTTTGCAGTTTGTGCATATAAAAATGATAAATTTATTACATTATAAGAATCATCAATCTCATTAAAATTAATTTTAATTTGATAATTTCCACCTCAATCATATCAATAACCAATTAATAGTTTATTTTTTGATCAACCTTCTGGTTCTGAAGGGTTTTCGGGAACAACTGGATTTTCAGGTTCAGTTGGAGTTTGTGGATTATTTGGATTTGATCCAGGATTAGTATTTGTTCCTGGATTGTTTGGTTCAGATGGTGTTTGTGGGTTACTTGGGTTTTCTGGTTCTTTTGGATTATCAGTAGTTGTTTGTCCGCTTGTTTCGTTGTTATTACATGCAACAACGGATAAAGAAACAGAGAATGGAACAAAAACAGAGCTTAAACTAATTAATAATTTTTTCATAATTCACCTCAATAAATATTATTAATAGTATAAACAATTTAAAATATATTTTCTATTCAATATTTTTATCTAATTGATCAATAAAATCTCCTATTCTTAATAATAAATTATCAATATTATTTTTCATAAGTCCTGATGTTTCAATAATTGTTATATTTTTATAAGTTTTTTTAAATAAATCTAAATTATTTTTTGCTAACTCTAAATCTATTTTGTTTGCAACTACAATTTCTGGTTTTTTATCTAAATCTAAATTATAAGATTTTAATTCATGTCTTATAATCTCATAATTTTTAACTACATTTTCTGTCCCATAGTTTCCACTCATATCAATAATGTGACAAACTATTTTACATTTTTCAATATAAGTTAAAAATTCTACACCTAAACCTTTCCCTTGATTTGCTCCTTTTATTAAACCTGGCAAATCTGCCACTGTAAAGGTTCTATTTTTTTTATCAACGCAAATCCCTAAGTGTGGTTTTAAAGTCGTAAAGGGATAGTTTGCAATTTCAGGTTTTGAATTTGATATGACTCTTAACATTGTTGACTTTCCTGCATTGGGAAGTCCTACAAAACCAACATCAGCTAAAACATCTATTTCAATTCTTATATTAAAGTTTGCTCCTGGTTTCCCATATTCAAATTCATGCATAGTTGCAACTTTATTTTTATCATATAGATTTCTATTTCCTCTTCCTCCTTGTCCACCTTTTGCTATTACTATTTTTTGATTATTTATATCAAATCTTGCTAAAAGCTCATTTTTTTCATTAAAAACTGATGTTCCTACTGGCACATAAATAATTGTATCTTTTCCATTTTTACCGTTTTTATTTTGTTTCTTACCATCAGTTCCATTTTCTGCTATATAAATTTTTTTACTTTTTAAATCCATTAAGTTAGAAACGTTTTTATCACTTATAAAAACAATGTTTCCTCCATTGCCTCCGTTTCCTCCATCCGGTTTTCCTTTATAAAAAATATCAAATCCAATGGCACCTTTTCCGCCATTTCCAGATCTAATATTAAATTTGGCTGTGTCTATAAATCTCATATTATTTTCCTCATTCTAATTTTTGTTTTTATAAAACAAAAAAATCTAACTTCTGTTAGACGTAAAAAAAATTGATCTTACTAAGAAATTATTTGTTTATTAAATTATCTATTATTATGATTGGATCATAGTAAAATCGCTGCTATTGACACTGCCTTATTCCTCCTATTAGACTTTAAATTTTTATAAATTAATAAATATTGATATTTGGAACAATACGATTAAATACTTCTTCAGTCATTAATCCTTCTTGTTTTGGATAAGTTAATACTAATCTCATAAACAATGCTAATAAGTAAAATGAATTTACATAATCCATTAACATATCTATTTTATCTTTAGTTCAATTAATTTCTTTTGCTTCTGATAGTTTTTTATAAGCTAAGAAATATGATTCAAAAAAATCAACTAAATTTTGTACTAAATCTCTAAAAGCTTGTTCTGCTGGAATATTAATAATTTTTTTTAAACTGTTGTGAATATTTTCATACATGTTTAATTCGCTATCATTTTTTACTCTCTCTTCATAAGCTTTAATAAGTTCATTTGCTTTAACTCCAAATGCTTGAACAGTTGTTGTTACAATTATATCTAATCCACCCATTTCACTTACAACACCTTTAGGTAGTTTTTCTTCTTCTAAGTTATTATCAATTGACATGATTACAACTGCTGCGTTTTGAAAGATTGACATTAAATGATTTAACATAATTAATTGATCACTATTTTCAACTGCTGGTTTTCAATCAGGAAAAGACTTATCAAATGTTAGTCCAAAGGTATCTAAATCTTTTTTTGATTTAATTTCTTTTAATTGTTTAAATAAATCTTGAATTGTTTCTGGAACTATAAAGTCTTTTGAAACATTTTTTTGAAAATTTTTGTATACTTCATTAATTGCATTAGTTATTATTTTTTCATATTCAATTGGCTTTATTTCTTTTTGCATTTATTTATACTCTTTTCTATGATTATGGAATATTATCTTAATTTGTTATTATAATATCATAGAAGAAAAGAGGTAGCAAGAATATGGTATGAGGAGAGTCAAATTCAAGGGAATTTCTAGATTGAGCAGATTTTTGTAGAAATAATGCTTTAAGAACAAGAGGTATTACAAATACTGGTGGACCAAACTTTACAAGTGATAGATCATCACCGCAATATCAAGCTACAAAACAACAACTTTTAGATATAATTCAAAAATCAAGAACTATAAGTGTTCAACAATTATATAACTCTTTACCTACTAATTTAGTTTCCAACCCAACTGTTAAACATGTTTTATTACAGTTATATTACGAAGATAACTTAACTATTCAAAGTCAATCAAAAAGTACAAGTGATCGTGAAACTAATTTTGTTGTCACTTTTGTTAAAAAAGCTACACCACCAAAACCATCTAAACCAAATTTCCAAGGTGAAAGAAAACAGTCAAACATCGAAGATTTAATTGATAATTCGTGAAGTGCAACAGGAAGAAAATTAAGTTTTGATAAATTAGAAAAACCAAAAAGAGAAAATTTAAACATTAGTTTAAAAAGAAATTCGACACCAACTGTAAATATGCCTGGCGAAAAACCTGTAATTGATGTTAGAAAAAAAGTTGATTCTCCAAAAGTTATCCAGCCAGTTGTGATTACAACACCAAATAAAGCCGACCCACCGGTTGTTGAACAAAACTTTACTTATATTGAAATTCCTAAACCAAAACCAGAAGTTCAAGCACCAGAACCAGTTGCTCCTGTAGTACAAATTAATCCTGTTTATAGACCTCCAGTAAAAGAAGAAGTTTATATAGAAGATAGAGTTTTTGCCGGTTTAACCGATTATGAATTATATTATCTTGCAGCGTTTTTAAGGGATGCTGCCAAATTAGAAAAAGCAAGAAACTCTTATATTGATTCAACAAGAGATTTAGTGTATACCAAAGCAGATATTCAATATTTAAATAATAAAGAGGGATCTAATATTGGTCTTAAAATTGTTGGGGCAGTGTTATGTATTGTAATCATTGGTATTTTTATTCTTATTTCAGCAAGTAAAAATAAAATCAAAGCAAAAGCAACAAAAGACTATTTTAAAGAACTAAAAAACGTTGGATATGACGATTTAAAAGTAGAGTTAAAATCTAAATATCCTAAAATAATTGAGTTTTAACTAAAAAAATCACAATTGATATAAACAGGGAAAAATAAATTCTACACAAGAAAGAGGTGTAGAATTTTTTATGTCAAAAATTTATCAATAGAACAATGAGTTGAAATAATTGGAATATATAAAAAACAAGGAATTAAAATAACTGAACAAAAGTTTCGTAAATTTAAAGCAAAAGAAATTAAATTTTTGCGAATTCTTCAAAAAAGAATAAAACAAAAGGCTTATTTATTAGATAATTATGGTATGAAAAGTTTAAACAGAAAAAAGGTTCAGGAAGATATAAAAAGAGAGATGATTCTGACATCCCTGGAATAATTGATGATCTAACAGAAGAACAAAAACACGAATAATTGAAGATTGAATAAAAAATCAAAGAGATAAAAGAAAAAAAGAAGCAATTAATAAAATAACATCCCTAAATATTAGTATGAAAGCAAGAATTATATCAATGTATATAACAACTTTTTATAAAAAACAAAAAATTAGAAGTTATAAATACAATAATTTAAAAAGTGAAGTTATGAATATATTAAGTGAGTCTAAGTTTATCTATGGCAGCAGAAAAATAAGTATATTACTAGAAAAAGAAAAAATATTTATAAATGATAGAACTTTAAGACATTATTTAAAAAGATGAGGTTTTGTAATAAAAACAAGAATAAAAAAATATTTATGCTAAATATAAAGACTTAGTTAAACGTGATTATAATCCAATCATTGATAATATTATTGCAACTGATGTATCTTACATACCTGGTTTGGTTGAAGGAAATAATTATTATTTATCTGCAGCTATTAGTCATAAAACTAAAAAAATTGAGTCATGATGCTTGTCAAAAAATAACAATACACAGTTGGTTGTTGATACTATAACTAAAATTAATAAATCTAACTTTATTCTACATTCAGATCATGGTTCTCAATATTCAAGTAACGAGGTTACTGAATTAGTAAAACAAATGAATTGCCAAACTTCAATAAGTAGAATTGGTAATTCCTTAGATAATAGAGAAATTGAATATTTTTTTAGTTGTTTAAAAGGAGAATAGCTAAATCATATTAATACAAGCAAAATGAACTTTAATGAAATTTTTAACCATATAAATTGGTATGTAGATTGGTATAATAACAAAAGAATACAAAAAGTTTTAAATAGAAAAACGTCAGCTTGTGCTGACGTTAATATTTAAAACTGTAGAATTTATTTTTCCCAGATTATGATATTTGATTTTTTTTATTAAAATTACATATTTGAGCTTTTGTAACTTGATTTGACTAATTTTTTTTCAGATTTGATATTTTTTAATTCTCTCTTTAGTTTTTTTAAACGAATATTTGCTCTTTTTATTTCTTGTTTTTGATTTTGAATTTCTTCGTGTTTAGCTGAAGCTTTATCATCAATACTTACCACTTTTTGTTTTAACTCTTCTTTTGTCATACTATTCTCCTTGCTAATACAATATATTAATTTTATCATTTTTCTACATATTAGCAACAAATTAGTAACATTGATTAAATTAAAAAATAAAAAAGTCATTTCAAATATTTATATAAATAATTAAAACGTTTCTTAATTTTTTTATTATAGCTTTATTTTTTTTGTGATCTGCTTGTCTAAAAATTGTGTATAACTGTGTATACTCTTTTCATAATTCTTTATATCGATTTAGGATTTTTTCATTTGTTTCTCTGATTATTTTTTTATCTTCTTCATCGAATGTTTTTGAACACAATAAGAAAATATTATGTTTAGATTTTAAATTATATTCTTCAAAATTAACATGAGTATAATTTGAATCAAACTTAGCATCTTCAAATAAATCTTTTAAACTATCGAATTGAGCTGTTAAATAGTGATTTAATAATTTTTTATATTTATTTATTATTTCTAAAATAGTTTCAAACATTTTAACAAATGCAGGAATTAACAATAAGTGAATTGAAAGTATACCGATTTCTACATAAATCTTATGACTTGTGTATTCTTCAAAAGTTGTATATATTAAATATGAAAATATTAAAGTTGAAGCAAAACTTGATACTATATTTATAAAAATATATCTTACAGAGTTTAACTCTACGATTCTAAAAATTTTAGTTTGTGAGTTTTTCAAATTTATATCATATTCAAAAACTTTTAAATTATTGTAATAATACTCTGTAGAAAATCACCCAATTATAGTAAATATAAATATTAAATATATAAAAAAAGCAATACAAACATAATTAACTTTTAACTTAACTTTTAAATTATGTTTAAAAACGATTTCATTAATAATAACTACAGCAAATAAAATAATAAATAAAATAATATTGTATAAAAAGTTACGATAAGTTTTTTTTGATTGTGTATATAATTGTTTTATATTTTTTTCACATTTTGCTATTATAGAATTTTTTTCAGTCATTGTAAATCTCTTTTCTATTAAATAACAAGTTAATTTAAATTTTGATTAATATTTATTAACTGTCTTTTTTATTCATCTTTATTATCTTCTATAGTTTTTTTAAATTTTTCAAATCTATCTTCTGAATCATCTTTTGGTTTTTGAGCTTGATTATATTTTTTCATATAAACCGCATCCTTATTTAAAGTATAAATTACATACTTATGACAAAAAACAATTATAGGAAAAAGTAAATCAGTTAAAACAAATATATGCAAAATACTTAGATAAGATAATATTTTATGTAGTTTTTTATTTTTAAACTTAAAAATATTTAAAGCAAACAATATTTGTGTTGTTAAAATAAACACTTCATAAAAAAATAAAATTATACAAACATAAATTGAATATGATTCAAAACTACTTTCTTTAACTAAACCAAGTAGATATGGTACATTTACTAAAATAATAACTAAACAAATATCTGTAAATTTTAATTGAAAAATAGTAAACTCAGGTCCGTTTTTAAAATCAATTACACTAAGTGAAATAATTGCACATAATAAAAGGACACCGTTTAGACCTACTCAAGCTCAAGCAAACTTACCTAATGATTTTGACATTTGCGACCTAATTCTAGGTTCTTTATCTATATACATCGTTTCACCCCAATAAATAGATTATAATAAAAAAATTCCTTTAAAAGGAATTTTTTTAAACAACACAAGCGTCACACTCATAATTTTCACTATCTTCTAAAACTTCTTGTCTTACTCTTACGTAATAAATTGATGCGCAGCCTTGTTTAAAGGCTTTAATATAAGCTTTATTTAAATCACGTGTTGTTGCACTATCTGTCATAAATAGAGTTAGTGAAATTGCTTGATCAACATGTTGTTGTGCCGCTGCACAAATGTCAATAATTGGATTGGGACCAACTTCATATGCCCCTAATGCATAATAAGCCATATTTTCAAAGTTTATGTTATATGCAGGCACATAAATTCTGCCCAATTTTCCTTCTTTTCTAGTTTCAACTGGTGCTACAACTGGTTGCAAACTTGGTGTACATGAAGATAAATAACTAATTGAACCAGTTGGTGCAACTGCTAGTAAATGTGAATTTGCAATACCATTTACTTTTATATCTTCTACCAATTCTTTTCAATCTTGTTGAGTCGGAATTGAGACATTGTATTTTTTAAATAACTCTTTAACTGTAACAGTGTCTGGAGTTCATTTAGATTCTTCACAATTTGTGTATTTGTCAAAATATGATCCATCTGCAAATGATGATTTTGCAAATGATTTAAATGGTCCATATTCTTTTGCTAATCTATTTGAAGCTTTAAAAGCATGGAATGCCATTGTGTAAAAGAACATGTTTGTAAAATCAACTGCTTCTTTTGAGTTGTAGTAAATAAAGTTTGTTGCTAAAAATCCGTGTAAGTTCATTGCTCCTAATCCAACGGCGTGGTTATTATCATTTCCTTTTTTAATTGAAGGAGCGCTTGATAAATTACTTGCTCTTGAAACTAAATCTAAAGCAGCAATTGATCTAAAAATAACATCTGAGAATTCTTGTCCACTTTCCATAGTTTTTGCAATATTCATACTTCCTAAGTTACAACAAATATCTTCTCCAACTTTGCTAAATCCTAAGTCATCTGTAAATTCACTTGGTGTGCTTACTTGTACAATTTCACTACATAAGTTACTCATAACAATTCTTCCTGTTTGACAATGAGCATTTCTATTATTTACAGTGTCATCAAATAAAATGTAAGGGTATCCACTTTCAAAGTGTAATTCAGCAATTGTTTGGAACAATTTTCTTGCATTAATGTATGTTTTTTTGATTTCAGGATTATTTACCATATTGTAATATTCTTGTGTAATTGAAATATCTGACATTGGTTTTTTATAAACTCTTTGAACATCATATGGACTAAATAAAGCCATTTCCTCATTATTTTTTGCTAATTCAAATGTAATATCAGGAATTACCACTCCTAATGATAATGATTTAATACGAATTTTTTCATCAGCATTTTCTCTTTTAGTATCTAAGAAACTCATAATATCTGGGTGGTGAGCTTGTAAATAAACTGCACCCGCACCTTGTCTTTGCCCCAATTGATTCGCGTATGAAAATGAGTCTTCTAAAATTTTCATAACAGGAATTACTCCAGTTGCTTGGTTAGCAATTTTTTTAATGGGAGCTCCATATTCCCTTAAGTTAGTTAAACATAAAGCCACTCCACCACCACGTTTTGATAATTGTAAAGAAGTTGTAACCGCTCTACCAATTGATTCCATATTATCTTCTACTCTTAATAAATAACATGAAACATATTCTCCACGTTGTTGTTTTCCTGCATTTAAAAATGTTGGTGTTGCTGGTTGAAATCTTCCTAACATAATTTGCTTCATTATAGCTCTTGCATCTTCAAACTTCCCATTTCCTAAGAACAATGCATTCATAACAACTCTATCTTCATAATTTTCTAAGTATTGTTTTCCATCAAAAGTTTTTAATCCATAAGCATTATAAAACTTCAAAGCCCCCATAAAACTTGGAAATTCTCTATTAAATCCATAAGCTTCTTTTGTGATTTGATCTATTTGTTCAATTGTATATAAATCAATCACTTCTTTTTCATAATATCCATTTTCAACTAAAAATTTAATTCTTTCCTCTGTTGATTTAAATTTTACAGAATTTGGTTCTACATGATTTTTTAAATATACTTTTGCAGCCTCAGCGTCTAATTTAAAATTATCATCACCTTTAGCTGTAAATAATTTAGCTCTCGCATTTAATGTTATATACTCATCAGACTCTTTAGCACCTGATAAAGTCAATACTTTTTCTTTTGTTTCCATAAATCTCCTATTCTTGTCAAAAGTCCTTAATTATTTTTCTAATTTCTTTAACATCATGTTCGGTTCCTAAAAGCTCAAATTGGTACAACAAAGGAACTTGCAGTTTCTTTGAAATAATTGGTCCTGCAATCGCATATGTGTCTCCGAAGTTGGTATTACCAGAAGCTATTACGCCCCTACAGTAACTTCTGTTTGTTTCGTTATTTAAAAACTTTATGACTTGCTTTGGAACAGCTCCTGCTGTAATGGTTCCTCCGCCCGCATATGTTGGTGTTATTAAAATATAATCTTGATTTACATTTAATTGTTCTTCTAAATCATAAGGTATTCTTTGATTTGGTAAGTCCAATTTTTGCATAAATCTGTGTGTATTATTTGATATTGAAGAGAAATAAACTACCATTATTTCTCCTTTTGGTCTTACGACGTTTTCGCTATTAACTCTAATTACATCGTCATGCATTAGTCAAATTCTCAGTCTTCATCCAATGTTTCTTCAGTAACACCCATTACATAAGAAGATCCATTACCTGAGAAGAAATCATGATTTTCATCTGCTCTAGCAGATAATTGTGTAAATATTTCGGGTTCAATTCTTGTTTCTTCTTCACTGAATGGTGATTCATAACCAAGGTTTTGTAAAAATTTACCTGCATTGTATACACTAAATCTAATTGCATCTTCTGCAAGACCAAATCCATCGTAAAGTTCATAAAGATAAGCTTTTTCTAAATCAATTAATTTATATAAAAGGTCGAAAACAAATTCTTTCATTTCTGCTTTCTTTTGATCGCTTAGCTTTTCAATTTTTCTTTGATATTTATAACCACTATAATAATTATGAATAACTTTATCTCTTAAAATTAGTCTAATTATATCTGAGGTATTTGGTAATTTACCTCTTGAAGATAAATAAAATGGTAAATAAAACCCTCCATATAATAAAAATCCTGGCATCAATGCTGCTGCTACTTTAGATTTTAATGGATCACTACTAGTGTAGTAAGGTATTAATTCCTTTGCTCTTTCTTGCAAAGATTTACAATTTATTACTCATTCGTGTGCTTCTTCAATTTGGTCACTTGAACATAGTGTTGAAAAGATAGTTCCATAACTTCTGGCATGAACTGCTACCATAAATGCAAAGTTAGTATAAATAACTTGTTCATGATCTGTTAATGAGTGATCAATTTGAGCTACATCTCCAATAGTAGCTTGAATTGTATCCAACAAGGTTAAACCTGTAAATGTTCTTGTAATTAATTGTTGTCAATCTGGTGTTAATTCAGATCAAGATTTAAGATCGTTTGATACCGGGATTTTTTCAGGTAATCAAAAATTTTGTGTAATTCTATTTCAAACTTCTAAATCCTTTTCGTCATTAATCACATTTCAGTTTACTGATCTCATTTTTCCTTTAAATCCATCCAGTGCGTATTGTAAAGGTGAAACTGAGTCGTTATAGTAGCTATTTTTTTGTTTTGCCATAATAATGAATCCTCTCTCAACTGTGATTAATTTATTTCCAAATTATATTCTCTCTTTAATCACTTATTTTTAACAACTATAAACAGCTTTTATTTTGTTTTTTGCATATAAAGACAACAAAAAAAGCGCCCTTATGAAACTAAAAAATATTGGAAAGAAATTTAGAATATGTAAGTAAAGTTTAAAACTTGTTCATATGATTGTTTTGTATAAAAGTAAAAGTTTAATTGATATTCTTTAATTATTTGCTTTAAACCTTTATAAAGCACTTGTAAAAAAGCCCTTATTTGCTTACATTTGCCCCTAAATTTCATGCTGTTTAGTTGCAAGATAATAATACTATGAAAAGAATAAAAAGTGTGTGAAATTTACAAAATTAAAAATTTTTTGCAAAAATGATTTTTTCCAGAGATTTTTTAGGTTTTTGATATTCTTGTATGACTTTGTTTTCTCGAATGTTTAATATAAAGGATTCTTTTATCTTAATTTCCTTAGAATCTTCTATTAAAGCTTTATTTAAAAATAAACTAGCGTTGTTTTTTTCAATGAAATTTACTTTACTTGTTTTAATTTCAATTTGAAAATATTCGTCTTTTGACTTTAATAATAGATCAACTCGTCCAATAAATGGTGTTTTATAAGAAATGTGCATAAATATCTTATTTGCAAATACCTCATGAATCTTGTGCTTATAAATAAAAGCATTAATCTCAGTTATAAATCTTTTTACCATATTAATATGAACTTTATTATTGCATTCATTTTTTATAAATCTTAAATTTTGTTCTTTTTTATGATAAACACTTTTATAAATCATATCTTTTACACATTCTTGTTGATTTATAGAATTATTTATTGTGTCTTTACTTAAGTTATTAATATATGGGAAGTTTTCTATTAGAATATCATAAGTATTCATAATGTTGATATATCCACCCGTGCAGTTTTTACGAAGTTTTTCTAAGTATATATTAGCTGGTTTAAAATCCTTTTTTATAAAAAACTTTTGTTCATTTATGCCATAACTGACATAACTAGATATATCATTCATCGAGATTTTTTTCATACTTATATAGTATAAAAAAATAATGGTATTAACCATTATTTTGATTATAAGTATGTCTTTTTGTTAAAATATCAATTATTGATTTTGGACTTGTATTTTTCATACTACCAACATCATTACTAATTTTGTCTAATTGTTTAGTGATTTGTTCAAATTGATCTTTTAAAGCATTCATTGCTTTATCATTATTTAAAGAGCTTATTGCACTTTCAAGTCTTTCCATTCTTTTTTCTAATTCTGAAACAATTTTTTCATCTAAAACTGAATTTGATGCATTTGATACACTAGGAGTTTCAATGCTTTTATGTAATAATGAGCTATTTTCGCTTGCCTCAAAAGTGTTAGCAGTTACATTAATTTCTTGTACTGTAGGTATTGAAGGAACTATGTGTTCTTCTTCGAGTTCTTGTACTGTAGGCATTGAAGGAACTATGTGTTCTTCTTCGAGTTTTTGTACTGGAGGCATTGAATTGGTTGAGTTTTGTTCAATAATTTCTTCTTTTATAGAATCAGCTTTTGGTGCAATAAAACTATTTGGCATTTCTTGATTTTCATCTATATCAACAAATCCAGCATTAATGAAACTTGGTGGAGCAGAGATTGTTCCTGGCATAGTTCCAAGCTCTTGAGCTTTTTTTGCTATTACTTCTTCTTGATGCTGTTTTTTTTGAGCAACTTCAAGCAGTTTATTTTCAAATTTAAAGTTTTTATCTTTTAAAATTTGACTTAATAATGAAATTGATAATGAGTCACCTTCTCTTAAATCGCTAAAATGAATATTAACAGCATTTTGTTTGTATCTATTTAGACTTTCTTTATATTGTCTAATAGATTCTGCTTCATCATTTTTTAACACTTTAGTTTGAGGTGCTACAAATCTATTTGGCATTTCTTGATTTTCATCTGTATCCTCAAATCCAGCATTAATGAAACTTGGTGGAGCAGAGATTGTTCCTGGCATAGTTCCAAGCTCTTGAGCTTTTTTTGCTATTACTTCTTCTTGATGCTGTTTTTTTTGAGCAACTTCAAGCAGTTTATTTTCAACTTTGAAGTTTTTATCAGAATAAACATCTTTTATTAAGTCGACAGAGTCATAACTTGCAGAAGGTAATTCATTTAAATCTTCATTTACGGCATTTTTTACATACTGATCAAGATTTTTTTTGTAATTTTCTTTAGACTCAATAACTCTTTCATTTCCTTTGATTTTAGGAATAACAAAGTTGTTATCATTTGTATCTGAATTTGTATCCTCAAATCCAACATTAGTGAAACTTGGTGGAGCAGAGATTGTTCCTGGCATAGTTCCAAGCTCTTGAGCTTTTTTTGCTATTACTTCTTCTTGATGCTGTTTTTTTTGAGCAACTTCAAGCAGTTTATTTTCAACTTTGAAGTTTTTATCAGAATAAACATCTTTTATTAAGTCGACAGAGTCATAACTTGCAGAAGGTAATTCATTTAAATCTTCATTTACGGCATTTTTTACATACTGATCAAGATTTTTTTTGTAATTTTCTTTAGACTCAATAACTCTTTCATTTCCTTTGATTTTAGGAATAACAAAGTTGTTATCATTTGTATCTGAATTTGTATCCTCAAATCCAACATTAGTGAAACTTGGTGGAGCAGAGATTGTTCCTGGCATAGTTCCAAGCTCTTGAGCTTTTTTTGCTATTACTTCTTCTTGATGCTGTTTTTTTTGAGCAACTTCTTTTAATAGATTTTTTTCGACAAAGTTTTTATCATTATAAACTTCAACTTTACTTGCATTTGCATTTTCTCCACTTACTTTTAAGTCATTAAAATCTAAGTTGATTGCATATGCCATAAACTGTTTAAGTTGATTTTCATAGTTTTGTCTTGATAGTTGAGTTCTTTTAACTGAGGTTTCAGGAATTACAAAATCTTGAGGTATACCAGGTTTATTTCCGCCACTATATCTTTCATGCATATCTTCAATATCATAATCAATAGCAGTTGATGAGTCTCCTCCAAATGCAGAAGTTGCTTCATCAATTGAACTTGTTTGGAAGTTTGTATTTACAACTTCACTTAATTCATTTTCAATGTTTAAGTTTTCAGATATTGTTTCTACAGATTTTTCTTCATCAAATGTTAGATATTTAACTTTATATTCATCTGGTAAGTTTAAATGACTTGCTAAACAATTTAGTTTTAAAACTTTACTATTAAATTTGTTAGCAAATTTTGTTTTAACATTTTCATTTAATTTATCAGATTTACTAGTTAGATCAATTCTTAAAGTTTCAAGTTGATCTTTTTTAGATTTTCAAACCAAATAAGCTTTACTTGAGTTATTTACTTTTTCTTCTTTATTTATTTCTTCAGATAATTCTACTTTTTGAGTTGTTTCTAAAGAGCTTGAATTAGGCAACGCAGAATTATCAATTGTGTTTGCTTTCTCAGTTAGGTCCAACACCTTTTTTAATTTGTTTTGGACTACTGAATCTGCGTTGCCAGTGAACTTTCCCTCTTTATTTACCTCTCTTTCAAATTTTCTTTCTTCTTTATAAATTGAAATTAGGTTTCTTTCTTCTGCATAATTGTTTAATGCTTCAGAATCAAACAATACTGCTTCTAATAATATTCATGCTAAAATCAAAGTTCCTGATAATAACAATGTTATTACTTGCCCGTATAGTAATCCTAATACTGGCAATAAAACTAAAACAGCTTTAACGTAAGGTTTTGATATTTTTTGACGTTTTTTAGCTCTTACAAGCTCAACTATTGCAATCACATATAAGAATACTGCTATAATTATCATTACAGCTGCAATTATAATAATTGTTGTTTGAGTAATACTTCCTGCAGCTACATTTTGTAATGAAACAGCTGATTTTCCTGATTTAAAGAAATTTAAGCCAAAAGGTTGATTTGAGAAAAAGTTGAATAGATTTTGCATAAATGCACTAGATGATCACATCTTTATTAACAAAGATAAAACACCAAATGCCATTAGAAATGTTGCACCGACCATAACTGATGATCATGCAAGTATTATAAGTAATAAAAACATATTTCGGTCCTCCTATTTATTTAATTTGCTTCAATCACCAGTTACTTTTAAAAGATTTTCATCTTTCTGTCCTCCCTGTTGATATTTACTGTCTGCAATATTAATTGCCGGTCTTTGCGCAAATGTTGTAGCCATATCTCTCAATTTTCCATTGACTTCGTCATAGCTTCTTGGGTCTAGTGCTACATTCTTTGCCACTAAACTTGAGTTGTTTGTATCAAAATGATTTATAAAACTATTGTTTTGATTTTGTTTGTATTGTAATTCATTGTTTTCGACAAGGATTGCAGGATTGAATCCAACCCTTCCTCCTTGTCTTTCTAAACGCTCTTCTTCTTCTAATCTTTCTCTCTCTTTAAGCTCTTGTTCTTTTCGTTTTAAATTTAAATCTATTCGAATTCTAATGCTTTTATCAATTCCTGAATCATATTCTTCTTTTTGAACTTGATCTTCTTCTTCAATTTTTAAACTACTTGGAAATCCAAAACTTACATTTGATTGAGATTGATTTATCATTGGTTGATTTATTGGTAAATCAAATCCAGGGTAAGTCGGTATAGAAGAGTGGTTTTGATTGTTGTTTGAATAATGATTTTCCATATTTAAGTTCATTTCACCCAAAGGTGATTTTAGTGATGAACTAACTAAATTATCTCTAGGTTGATTTATATTTTGATCAAAACTTGTTTGTTGGTTTTGTGTAAAACTACTTAAATTATTTTCGTTTGGTATCCCAAATGCATGTTCGCTGGGAAATTTTAATAAATCATCACTTGAAAAGTTATAAGTATCAGTTGTATTTACAAAATCATTTTGCTCAAATAATGGTGGTTCAACTTGATTGTTAAATACTTTTGCTTTATGAGTTTCATTTTCAAAAATAGCTATTTCAACTAAATGATTTATTTTTTTCAATAATTCACTATCTTTAAAGTCTTTTAAAATGTGAGCACTTATGTCAAATACAAATTTAATTGGTTTTACTTTATGCAGTATTTTGTATAAAAAGCTTAAACTTTCATAAATTTTTATTTCATCCAATTTTTCAAAACCTTTTAATACTACAAAGATTGATTTATCCAATAACTTATATCCATTTAATAATGATTTGAACTCACTTTTTATTGAACCAATTGGATCAAATATATCCATTTCCTCAATAATATCATCAACATCAGAACCTGTTTTTCCATATTCTGTCGCCACTAAAAACAATGAACATTTTTCTCATAATACTCTTTTATCTTCTAAATCAACTTCTGGAAGTGAGCTTATAAGTTGTTTTAATAAAAATAAGTAGGGTGTTCCATATAAGAAAACTTCTTCAAGTTCAATCTCTTCAATTTTATCCATATCAATTAAATCAACAAAATCTTCAGACAGTTTCTTAGAACCATTTTCTACTAGTCCATAAAATTGTTTTTTCAAACTATTTTTTTCAACATTTTCAATTAAATCTTTAAACATTAAGCAAGCTACTTTTGGATCAATAAATCTATTTTTTTCTATTTCTTGAGATTCAAAAGTTAATGGTTTAATATTATTTTTTTGATAACTATTTTTAAAAGTTTGCTCATCAAAGTCAGATGATAAAATACTTTTTATGGGTCCAGGTAGGTCTTTTTCAAAATCATTGTTATTTTGGTTAAACGTTTCTTTGCTTTGATTTGGTATGTCCATTGGTTGAGTCATATTTGGTTGATTAAAACTTGGCATTTCCATTGGTTGAGTCATATTTGGTTGATTAAAACTTGGCATTTCCATTGGTTGTTGTGCAAAACTTTGTGTAACACTTGGTTGTGCAAAACTTGGTTTTGGTATGTCCATTGGTTGAGGCATATTTGGTTGATTAAAACTTTGCATTTCCATTGGTTGTTGTGCAAAACTTTGTGTAACACTTGGTTGTGCAAAACTTGGTTTTGGTATGTCCATTGGTTGAGGCATATTTGGTTGATTAAAACTTGGCATTTCCATTGGTTGTTGTGCAAAACTTTGTGTAACACTTGGTTTTGGTATGTCTATTGGTTGAGGCATATTTGGTTGATTAAAACTTGGCATTTCCATTGGTTGTTGTGCAAAACTTTGTGTAACACTTGGTTGTGGAAAACTTGGTTTTGGTATGTCTATTGGTTGAGGCATATTTGGTTGATTAAAACTTGGCATTTCCATTGGTTGTTGTGCAAAACTTTGTGTAACACTTGGTTGTGCAAAACTTGGTAAGTGTTCATTTAAATGGTTTGTATTAAAATTATTTAAAATGCTTTGATCACTTGTAAGTGGTAATTCAGATATATTTGGAATATTAATTTTTTTGCTTTCATTTTCAAAGCTTGTAATAGTATTATCTGTGCTTGAAATAGGTTCATTTGAAGTGATTGACATCCCAAATGGAGGAATATTTTTGTTTTTTTGTTCTCCAATTAGACTTTTGATAAAAGAAGGCATAATTCCTTTTTCTTGAGTCAACCCCATTTGTGCCCCTAATCTTGCATATTTTTCACGTTCTTTTTCAGCTTCTAATTTTGCTTTTTCTTCATCTTCTCTTTTTTTACGCATTCTTTCAAACGGGTTTACATACATAGAAATACCTCCTTTTTAACACTTTAATTATAGCACAAAAAATGTAAAAAAGTTGTATAAATTGTTGCAATAGCAATTATACTTTGGTATTATATATTCTATCTTTTTATAGATTTACTAGTAAAATCAAGGATTTTTGAAGGTTTTGCATCTAAAAAATCTGTATAAAAACAATTCTTTTTTCCTATAAAATTTTCAAGTTCTGTTTGATTTGATAAAAATTTTTCATTTGAAATATTTACACTTGTTGAAAAAATAGGACCTACATTTTCAATTATTTCACAAATATCTTTTCTTTTAACTAAACGAATTGCATATGTTTCATTAGCAAACTCTTTTTTAAAAATAGCAGTTGTTGGTTGATCATCTTTTAAAACTTTTATTATTTCTTCATTTAAGTCAATAAACTTGCTAGCTTGATCTAAGCTGGAAACTAAAATTATTAATGGTTTATCTAAAGAACTATTTTTCTTTTTATTTATTTTAATTCTATTTTCTTCACTAACTAAAGCACTTAATCCATATATAGTGTCTGTTGGTAATATTATTATTTCATTACTTTTCAAAAGCTTAATTGCTAATTCTTTTTGTAAAGGACTTAAAAGCATTTTATATACCCCTTTTAATAAAATTGTAGCATAAAAGAAACATTACCAAAAAAACTCCTTATAAGGAATTTTTTTTGCTATTGTTTTGCAAGTTGTTATTCTGTGAAGAATCTATAAACTTTGCTTTTTTAATTACATCTCTCATTTTAGATACTAATATAATATTAACTGTTAAAGTCACGCATAAAGAAATTATAATTTCACAAGTAAATTGATTTCCTGATAATCATGGATATGAAATCTCATTATTTAAAAAGTTAGTATTTAAAAATGGTATTCTATCAACATAATTTGCAATTGAGCTTACTAAATCTTTTTCTTTTCATACATCAATTAGTCGATTTATTTCATGATTTGAATAAGAATTTATTCCTATAACAACTAATATTTCAATAAACATGCATAAAAATTGAGATATAAAAAATGTTCTTGTAGTTTCAATTCGTTTCACATAAATAATTGCAAACACACAAATTGTTGCTAGTAAAAATGAAGATGCAACAATTGGTAAATGAACAACTATAAAATAGGATAAATTTAAATCGCTAATCGCATTATAAAATTCTGTTGCTTGATCTTTTAACAAAGATGAAGCAATAAATGATCATTGCAGTATTGAAGACAATAATGAGTTTGAAGAAGACAAGTTTATAACAAAAGCAAACTGAGTTACAAAAATTATAGATGAGCTAATTAATAAAATTATACTTATATTTTTTTCTGAACTTAAACTTAATTTGCTAATTAATAATCCGATTTTACTTTCACCTAAGTTTTTTTTGACAACAGTTGCTTCTTCAGAACTTGATTTAGTTCTAGTTTTAAAATTATTATTGAACATTGAAAAATAAATAATGATCATAATAGTTTGAAATAGACAAACTCATCAAGAAAGAATATCTCCACTTCATTGAAAATTGTAATTATTTACATAATTGTTACTATATAAATCAATAATATTATTTAAAGTTTCATTATCTGTTTTATTCATTTGAGCAATATAACAATATAAGCTGTAAAAAAAAGAATAATTATATTCTGCTATTGTAAAAAGAGCACTTGATATTAATAACAAGGCAATAATCATAACTATGTAAATATGTAATAAATAACTTTTTTTAGCTTTTTTTCTATAAACAAATTTTGAACATAATATATTTATAAAAGCGATTAAAAGAAGTGATAAACCCATTCACATTGCTATTTCCATAAATAAAGGTGATGGAGCTGCTTTATAACCAAAAATATCATTAATCATTTGGTAATTTTTTACATATACTCTCATATTTGGATTACCATAATAAATACCTATAAATGTTATTGATGATAAAAATATTAAAAGAAAAACACCGCAAGCTATAACTGATTTTGCGGTTAAGTTATCTTTTTTGTCATGTATCAAATTTTTAGTCATAAGTCTCCTTATTTGTGATTTTAAAATATCTTCAGTGACCAGAATAATCTTTATTAAATTCTATTTTATATTTTACTCTATATTTTTCAAAATTTAATTCTAATTGCTCCTTTTGATTAAAACCAAACTCGCAAATAATTACTAAATTCTTATTAATTAAAAATAATCTATCTAAATCAGCAAATAATATATTATAAAATTTATATCCAAGTTGATCTGCAAATAATGCTAAACTGGGCTCATGTTTTAAAGTACTAGTACCAATGTTTTTATCATCAATTTCAATATAAGGTGGGTTAATTACTAAAAAGTCTGGAGTTAAATTGTTTTTAAATATAACATTTAAAAAATCTTCTTTATAAACTTTTGCTTCAATATTAAAGCGTTTTAAATTTTTTTTAGTAACTTTTAAACATTGTTTTGATATGTCTGATAAAAATAAATCTGCATTTTTATTTTTTAGTTTAATACTTATACCAATGCAACCAGAGCCACAACAAATATCAATTATAATTTTTTTAATTAAATCGTATTTTAATAACTCTTCAACTAGTAATTCACTTTCCGGTCTAGGAATTAAAACTTTTTTATTAACAAAAAAATCATTTTCAAAAAAGTATTTTTTCTTAGTTATATATTCTAAAGGATAATCTTTTTTTATTTTATTTAAATACTTATTAAATTTTTTAATTTCTGTTTTAGATAAAAAAATATCATACAAAAAAGTTTTTGAAGATATTTTTTTTATATGCATGATTAATTCTTCAAACTGGTTTTTTTGAATAATATTTTTGTTTTTTTCAAATAATTCTCTAGCTTGCATTTTCAATTTGATCAGCGATTAATTGTTTTTGAGCCTCATTAATTAACTCAACAATTATTTCGTCTATGTTTCCTTCCATAAATTGATCAAGTTTATTCAAAGATACATTTACTCTATGATCTGTCACTCTGTTTTGGGCATAATTATAAGTTCTTATCTTTTCACTTCTTGCTCCAGTACCAACAGCATTTTTTCTTAAACTTGCTGCTTCTGACTGTTGTTTTTCTAAAAGACTTTCATAAATTCTTGCTCTTAACATTGTCATTGCTTTGTCTTTATTATCATGTTGACTTCTTCCGTCTTGAGATGAAGAAACTATTCCTGTTGGAATATGAGTAATACGAACTGCTGAGTCAGTTGTGTTAATATGTTGACCTCCAGCTCCACTTGCTCTATAAGTATCTATTCTCAAGTCTGATGGTTTAATATCTATTTCAACATCACTAATTTCTGGTAATACCGCTACTGTTGCTGTTGAAGTTTGAATTCTTCCTTTTGATTCTGTTTTAGGAACTCTTTGAACTCTATGACTTCCTGATTCATATTTCATTTTTGAATATACTCCATCACCTTTTACCATAAATGAAATTTGACTAAATCCCCCAGCTGTTGATTCATATTGATCAAGAATATCTATTTTTCAGTTATTTTTTTCTGCATACTTTGTATACATTCTAAATAAATCTCCCGCAAAGATATTTGCCTCATCTCCTCCAGCAGCTCCTCTAATTTCAAAAATAACATTTTTATCATCGTTAGGATCTCTTGGTAAAAGCAACAGTTGTATTTCATCTTCTAATTTTTCAATTTGAGTTTGTGCTTCTTCAAGTTGCATTTTTGCAAGCTCTCTCATTTCAGGATCTTTTTCATTTGTCAAAACATCTTTTGCATCATCTAGTTCAGTTAAAACTTTTTTATACTCTAAATATTTATTTGCTTTATCTTCAAGAGTTGATCTTTCTTTATTTAGTTCTGTCATTAATTTGATATCTGAAATAATATTGTCTTTTAATAAATCTTCATCAATCTTTTCTACTCTTTTTAAAATTGTATCTAACGCTTCTATTGTTTTTTTATTCATAATAAAATTCCTTTTCTAATTTGGAGCAATGTAACAATGTCTACATCTTGCTTCATATTTGTCATATCCAGATATTTGAACTAAAGGTTCATCTAATTTTGCAGCCACTCCATTAACAATTCTTTGAGTTCTACTTGCATTTCCACCACATTCAAAACATATTGCATAAAGTTTATCAACATACTCTGCTATATATAAAAGTTTATCAACATTTTGAAATGGATCATTTCTATAATCTTTATCTAATCCACTTACTATAATTATTTTTCCTTGATTTGCAAAATCATCTAATATAGAAATTATATTTGTATCAAAAAATTGTACTTCATCAATTGCTAAAACATCAAAGTCGTGATCTTTATTTATAACTTCTAAAAGTTGCTCACTATTTGAAACAGAATATGCAGGAACTTTTATTCCTGAGTGAGAAACAACACTCTTTTCTGCATATCTTTTATCCATTTCAGGTTTAAAAACTAAAACTTTTTGTCTTGCATATTCATAACGTTTTATTCTTCTAATAAACTCTTCTGTTTTTCCAGCAAACATACAACCAGTTATTAATTCTATTCAACCTGTTTTACTTTTAGGATTTATTCTGTAACTCATATAATTTCCTCTTCAAAAACTTTTACGCTATAGTTTATTATCAAGTAATTTTTTTAAATCTTCAATCAAATTATCTACTTCTTTAAAATTATTTAGTTTTGCTCCACTTGCAAGTTTGTGTCCACCACCATTATACATTTTTGCTACTTTATTTACATCATAATCTCTTGATCTAATTGAAACTTTTATTTTGTCTGAAAGAATTGATTCATATGCAATAAATCAAATTGCTATTTCTTTTATATTTGACATTGTATATAAAGCTGATTTAACTTCTTCTTCGTGTAGGTTTAAATTTTCATGATCTGCATTTTCAATTTTTATAAAAGCAATTGGATATCCCATAACAAATTCAGCCTTTTGAAAAGCTTTATTCAATCATTTAACTGACTTTAAATTTTTCAAATATAATGAGTCATATATTTTTTTTATTTCAATTCCAAAACTTATTAAAAACATTGCAGCTTCAAATGTTTCATTGTTTGTTTTATCATACATAAAACGATTTGAATCTGTAATTAATCCATAGTACAAACCTTCTGCACCTTGCTTTGTAAGTGTAAAACTATTTTCTTTTGCTCATAAAGCAATTATTTGAGTACAAGCAATTGCTGACTCATCAACTAATTCTTCGTTTCCATAATTATCAACTTTAATATGATGATCAACTTTAAAAATTTCTTTTACTTCATTTTTATTTTGAAAGTCTAATCTTTCTAAATTTGCTGTATCAACAGTTATTAATAAAGATGATTTTATAATTTCGTCATTAAGTAGTTTTTCATCTTCAAAAATTTTTGTTTCGTCTCCAACAATATGTCCTACAATAAAAACATTTTTATTTTGAAAGTTATTCACAATTATATCTTTCATGCCAATAGCACTACCTTGTGCATCTCAATCTGGACTTTCATGTTTTGCAATTATTATGTTTTTATATTCTTTTATTTTATTCACTAATTTTTGTGAATCTTTTTTATTAAACATATTGCCTCCTATATAAATTTAAGTATTGAATCTTTTGTTAGATAAACTTTTATTTTTTCTTTTCCTTCATATTTATTAGGTGAATAAAAAAATAATTTTATACCATGTTTAGAATTAAACTCATAAACATTTTTATCTTTGAATGAATCTGTTAAATTTACAATTCCAGAAAATTCTATACAATCTCCTTGAGAATCTTTTTTTGTTGAAAAAATTTTTAAAGGATCAACAAGTAGTTGTCCTTTTTCATTTAGTTTTAAATTTTCTTCTTTTAATTTAAATTTTTCTTTTGCTATTTTTAAATTTTTACCATCATATGTATAAGCTAATCTATTTTTATTATGAAAAAAAGCACTTCCATATGTATTTCATTTTTCTTTTAATATTTTTGAAAAATTTGTTTCCTCAATTTTTGATTCTTGAACTAAATAAACTCTATCTTTTAATTTATAAATATTTTCTAAACTGTTTTCTAAAAATACTACACAAAATTTTTTGTTAACTTTTTTTAAGTTTTGTACAACTTCAACTAATTGATCACTTTCTTCACGTGATAATTTTTGAAACACATTGTAAAAAACTATGTTGTATTTCTTATTATAGATTGCTTCTAACAGCTGAAAGTAAACATTGTTAATAGAACTGAACTTAAATAAATTGTTTTTAATACTAAAGTTCATCTTTAAATCTTTTGCAGTTAAATCGATTCATTCATTTGCTTGAACAGATATTTTTTTTATAGCATCTTTATACTCTTGCTTACTTTTATTAAATTCTTTTTTATTTCCATCTTCAATTTTATTTTCCAAAACATATTTATGATACTTATGCATAACTTCAACTATTTTTCCTCTAATCATAGTTGACTCATCTAATAATGCTTCAAAAAACATTTTTTCTTGTTTTTTTCTAAATTCAAAACGTTGATCAATTGCAAGTTGTCTTCAATTAAACAATCCATCAACAGTTCTTATTTTTTTTATAAAAAAGTTTTCTAATTTTGTAATTTCAAATTTAATTTGGTTTTCTAAGCTTTTAATAATAAATCTATTTTTTGTAAGCTTTCTTTTTATTGTGCTAATTTTTAAATCTATAATTTTTAACTGTTTTCTGATAACAAAATTTTGTTGTTTAAAAGAAAGTTCTTTTGCTTTTTTCTTTATAGATTTATCTTTATTATTTTTTGCATTATACTCACAATTACATAAAGAATTTAAATCTATAAAAGAATAAACTTTATCTCAAAGACTTTGTAAAAAAGTTTGTAGTAATTCAAGATTGCTATTAGTTTCTTTTAAAAAATAATAATCTTTAATAATAATTTTAATGTGATCTGGGATTTCGTTATTATCGTTATCAATTTTTGTATCATTAAAATCAATAATATGATCTAAAAATTCTTTTAATCATTGTTCTTCTATTTCAATAGAGTTTTTGATAAACTTTTCAACCATTTCTTCAACTTTATCTCTCATCTCTAAATCAGTTTTATTGTTTTTAGAAGTTGCAAAAGAAAGATAAGTGTATTTAGAATTTATAAAGTTTATTTTTGCTTGACTATAAAAGTTCTTATTTAACAGTAAAGAATAGTATAGTCATAATTTTTCTGGTCATTTTCTTAAAAGTTTCACTCCTGGCTTTATAAGAGCTACTTTTTTACTAGTTCAGTTTTTATTAACTTTGTCATATCCATCAACTTTAAAATAACCACTTTTTACTAAATGTTTTCCTTGTAATATATTTTTGAAGTTTTTTAATAAATTTTTTTCACTTGAAATTACATTAATTATTTCTCCATCATTTAAATCAAAAGTAACATCTTGAGGAAGTACTTTTTTATTTAAAAACTTGGCATTTCTTATATAAAAACTCATATAGTACCTCCTTTGCTCTTTTTATTGTATAACAAAAACCCTAAAATAAATAAAACCTTATTAAACATATATAAGGTTGTTTGATAATAACAACATATAAATGCTAAAATAAATTAAAATTAAGCAAAGCTAAAAGCTTTATGTTGGAAAATCATAAGACTTAAAACGGTTAAAAAAACTAAAAATAAATTTAATAAAAAAAACTATAAAATGAAATTAATAGTAAAATTTAAATTATTAGAGAGAGGATATTTTATGGATGATTTTTTAAAAAGCACGAACAAAGAATGAAAAAACTTGATAAGTGAAATGATGAAATAAATAAAAGAAATGAAGAAACAAATAAAAAACAAAAAGAAGTTGGAAAAGAATCCTTAATATTATTAGAAAAGTGAGATTATATTGAACAAGAACTTAGAAGCATAGCTCATGATATTAATATGAAAATTAAAAGATTTTTAGATTCAGATAATCAAGATAGAGATTTTGATGCTTAAAAATAAAAAATTAATTAATGTTTTTTTAAGAATTTTAATTTAAAGTGATAGTACATTTAAAATTTAAAATAAATCATTTGTACTTGAAAATAGAAAATATATAATATAAAATATTCTTAATCAAATATAAATGGTTTGGGTTGGCAAAAGCCATTACACAGACAGGGTTGAAAAAACCCGAGGATAAAAAAGGAAACAATGTTTCCTTTTTTTGATTTATAGTGAGTTTGGTTAAAAATTACAAATAAAAGTTAAATTTATAAATAATTTAATTATTAAAAATATCTTGTATAATATTAATACTTCCAAAAAAAGGAAGAGATACAGGCCTAAGTATTTTTAGGTAGGGTGGCCCCTTTGAACATGATTTAAAGCACTTTTAGTGTTTTTTTTATTAAAAATCACTATAAAAAATTTAATTAATATATTTTTGCACTAAAATTAAAGAACAGTTTATATAATAAATTGTTAATGATCTAAATTTAAAATAAATTTAATAACAAAAAAACTATAAAATGAAATTAATAGTAAAATTTAAATTATTAGAGAAAGGATATTTTATGGATGATTTTTTAAAAGAGCATAAAAAATGAATGAAAAAAACAAATAAAAAAATTGAAGAAACAAATAAAAAATTTAATCAAGCTTTGAAATGAAATGAAGAAATAAATAAAAGAAGTGAAGAAACAAATAAATGAAATGAAGAAATAAATAAATGAAATGAAGAAATAAATAAAAGAAGTGAAGAAATAAATAAATGAAATGAAGAAATAAATAAAATAAGTGAAGAAACAAATAAAAAACAAAAAGAAGTTTGAAAAGAATCACTAATATTATTAGAAAAGTGAGATTATATCGAACAAGAACTTAAAGGCATAGCTTATGATATTAATATGAAAATTAAAAGATTTTTAGATTCAGAAGAAAACGAAAGAATTTTTGATGCTTAAAAATAAGAATTTATTAATTTTTATTTAAAGTGATAGTGACATTTAAAGTTTAATATAAATAATTTATACTGTCAATAACTAATCAATTTTTCCCAAAACTTTATTTTTAGAGTTTTTGTAAAATATTCAATTAGTATATTTTCATGGACTATTTGTTTTAATTTGCTTATGTGTTTTTTGTATATCATAAACACTTTTATCTTCATAAGCTTCTTTATAAGTGGAGTTTTGTTGAACTTCAATTAAAGGCATTCATTCACTAAAAGAGTTTGAATATAATTGCCCATCAAAAGTTTCTACTACAAAAATTTTTGTTTTATTTTTATAAAAGACTGGCTCGCCATTCGAATGTGGTAAATAAAATTTATTTTGGTATTTTATTGTAGAACCTTTATTAATAGTTCTTTCAAATCTTCTTGATAAATAAAAGTCAATGTTTTTATGTTCTTTAAAAATAGCAAAAGAGTTAATGATATTATTTAATTGAAGGGAAAACTGTGAATTATATTTTTTAATATATTCATTTAAAAATGAATTTGCTTCATTTATATTTGATATATTATTTTCTTTGAGTTCCTTTGGTAGGCGATCTTGAAGTGTATTTCACAACCTTTCAATACGGCCTTTTGTTTGAGGAACACTTGAAGTTGTTAGCTTTATTCCTAAGTTATGACATAAGAATCCGTATTGTGTTAAAGAGTCAGAGTGAAGATCTGACTCTTTTTCTTTTTGACTTCAAAATACAGTCCTTTTGTCAGTAAGTATCTCCTTTGGAACCCCATACTCCAATAAAACTTTTTTTGTTATATTGTAGTATCCCATAAGAGTTTCTTCTTTATCAAAATATAAAGCTAAAACTTTACCTGTTGCATCATCTATAAAACCATGTAAATACCATTTCTCATTATCAACTCAGTAGTGGACTGAAGCATCAGTTTGCAAGCGCTCACCAAACTCTGTTTTTCGATTCTGCATAGGATGAATATTTTCTATTGAAAGCAAAGTATTCAAATACTCTCGTTTCTCAAGTTTTTTAATATTTTCATTTTTTAATAAGTTAGTAATTTTTTGTTTAATCATTTTTTTAGTTACTTTATGAATTCTTGGTGAATATAAATTATTCTTTTTTAATAAATTGATTAAGTAAGTATATGAAACACTTATTTGATGGTTTGATAAAAGCTTTTCTAAAAAGTGTTTATAATTATATTCTTCATATTTATTAATGTACAAGTCAATAATTTGATCACTTATTTGATGTTTTATTTTTTTATTTGATATTCTTCCAGTATTTTTGTGGATAAATGCTGTGTAACCATACTTTTTATATTTGTTAATTAATAAGTTAACATTTCTTATTGTTTGACAGATTTTTATAGCTGCAGCTTTTTTAGATAGTTTTTCATCAATTACAGCTTTAATTATTTCCATTTTATTTTTTTCATTCATTTTTAAATATCTCCTCATATTTAAATCCCCCATTATAAATTATATATTTGGGAAATTTTTATTTGTTATATATAGGGAAAATATCATATGTTATTGACAATTTAAAGTTTAATATAAATAATTTATACTTGAAAATAGAAAATATATATTATAAAATATTCTTAATCAAATCTAAATGGTTTGGGTTGGCGAAAGCCATTACGAGGAAAGGGTCGAAATATACCCGATGATAAAAAAGGAAACTATGTTTCCTTTTTTTGATTCAAAATATACTTTTAAAGCTATAAGATATCTATTTAGATTCTATTATTTTCATTTAAAATATCAAAAAGGTCTTTTAATTAATATAAAGTTGATTAATATTAATTAAGTTTTTTTTAGTCTATAAATTACCTTAAAATATATTATTTTTTTATTAATTATAAAATATATCAAAAGCAAGTCTAAGGAAAGGGATATTTATGAAAGATTTTATAAATTTTTTAGAAAAATACATAAAAAGATTTAAAAAAAAATGTTGATAAAAGAGATAGACTTATAAAACTAGCAGCAGAGAATAAAAACTTAAATAAAAAAGTTGATTTATATGAAAAACAACTTAAAAATTATTTGATATTTGTAAAATAGGTGTGGAAAAAGCTGCATTATTAGCCACTGAAAAAAAGGATATAATAGAAAATGAAGAAATAAAACTTAAAGAAATGAAGGAAATAATAGCAATTTATGATGATAAATCTTATTTAGAAAATGAAGATTTTATAAAATTAACTAATCTACAAGACGAATACGAGATTGAGTTTAACGAACTAAGTGAAATTCAAGATATGTTTATTCATTTAGTAAAAGCTGCATTAGATAAAGCCATGAAGATTAGTGAAAAACTAGCAGAATGTGAGGTTAAATATAACAATAATATAAAAAACTTAAGGAAGCTCTTCCTCAGTATAACAAGGATTGAAGAATGATAAATGATAGATCTAGTCCTGTTCAAGAAGAAATATCTAAATTTATTGATAAGCATCTTAAAAAAGTTTTTGATAATTAAATATTAATTGAATAAAAAAATCTTAAATACAATTTAAGTATTCAAGATTTTTTTATAAAGATTTCGAAAAACTATTTAGACTTTGCAGACTTATTAGCTTTGTTAGCTTCTTTTTGTTTATTACTTGCTGCTTCTTTTTCGGCAACCTTAGCTTCTTTTTTAACAAATTTTTCTTTAAATTTTTCAACTCTTCCTTCTGCATTTGCAAAATTTTGTTTACCTGTGTAGAAAGGATGACAGTTTGAACAAGTATCTATTCTAACTTCTTCTCCTTTAGTTGAACCTGAAATAAATTCATTAGAGCATGTTGTACATACAAATTTAGCTTCGAAGTACTTTGGATGTATATCTGTTTTTGGCATATTTCCAACTCCTTTTTTAAAACCATATAATATAGGTCATACAAAAGTAATAATACCATATTTTTTAAATATATAGTAAATATTTAATTAACATTATTTTTTTAATTTAAACAGTAATGAATTTAATAATACTAATAATGTTGAAAAAAACATTGCTATCATTCCTATAAATGGAGTTAATATTGCAAAAATCGCAAGTGGTAATACAATAGCGTTATATATAAACGCTCAAAATAAATTAGTAAATATTATTTTTTTTGTATACTTGGCATATTTTATTGATTCAACTATTAAATCAATATTTGGATTTAATAAGCTAATATCAGACTCAAGATTTAAAAAAGCATTTTTTGATAATATTGAAATTGAAAGATCTGCTTTTTGTATAGCGAGAATATCATTTATTCCATCTCCTACATAAGCAATTGCTTTTTTTTGATTTTGAAAATCTTTAATTACATTTAATTTATCTTCAGCTGATTGTTCAGCGTATAAGTTTTTTATATTTAATTTTTTAGCAACATTTTTAGAAATTGTATAGTTGTCTCCAGTAACAATTACAAGTTCATATCCTTGTTTCTTTAATTTGTTAACTGCTAAAATTGCATCCCTTCTTAATTCATCTTCAAATTCAATTTTTGCAACTACTACATTATCTTCTAAAAGTAAAGTTGCTGTATTGTCAATACTTTTAAAATCTATATTAATACTTGACTTCATTTCGTTTTTGTATTTAAAGATTGGTAACAGTTCATAGGTTTTACTATTTATTTTATATTTTAAATCTTCTATTTTTTTAACCTCTAATTTTGAAGTTTCATAGTTTATTTCTCTAATATAATTTTTAAATCCATTCGCAATTGGATGATCAATTTGTTCTTCTATCAAAGCAATTATATTTAAATAATTTTGCCTTCCTTCATAACTTTTAACTTTTACTTTTCCTACAGTTAAAGTTCCAGTTTTATCAAAACCAATAACATTAATATTTGCTAATTTATAAAAAGCATCAGGTTTATTAAAAATAACTCCTTGCTTTGCAGCCTTAGATGATCCTATAGCAATTGCTAAAGGTATAGCTATACCAATAGCGCAAGGACATGCAGAAACCAAAACTGTTATTAAAGTTTTTATACTTTCATAAAAACTATAATAGTTTAATCAAAAGTATGAAACTAAAAAACCTATTAAAGATAGTAATAAAACTATTGGAGTAAAAATTGTTATTAGCATATCGATTGTTGATTTAAGTTTTGATTTTTCAGATTGAATCGATGATACTTTCATAGTTATTTTAGATAAAAATGAATCAAAACTATTTTGTGTGTTTTTAAAAATTAACTCTTCAGATAAATTTAACATTCCAGCAAATATAACATCGTTTTTTACAAATCTTTTAGATTCATTTTCTCCATCAATTATTTGAGTATTTAATAAAACCTCATCACTAATAATTTTACCGTCTAAAGGAATAATTTGATTTTTTAGAACTTTAATTATTGATCCAACTTTTATAGAAGTTGTATTTGCTAATTTTTCTTCATTATTTTCAATCAACAAAACTTTTTTTGGTTGAATAGATAAAATATTTTTTAAATCAGTTGCTATAAAACTTTTTAATTTATCATTTATTAAATCACCAGTTTGCAAAAACAAACTAACAAAAATCGTAACTTCTATTAAATCTAGATTTTCATTTATTATAAATTGATAAATTGAAAAACAAATTGCAGTTTGTGTTGACAAAAAAACTAAAAAATTCATACCTAATTTTTTTCATTTAAAAATCTCAAAATAGCATCTTTTAATATATTTATATCCAAAAATATAAGTTGAAAATAGTCCAAGAGATAATAAAAAATATCTATTATGACCAACGTTAATATAAGTGTTATCAGTTTTATTATGCAAAAACATACTTATAATTATTCAAATACCGATTAATCATAATAATATTAAAACTCCAAAATTGATTTTTTTAATCATTAACTAATTTGCCTTTATATCCACTTTGTTTTAAAGTTTTTAAAATTTGTTCTTCATCAATTTGTTCTTCATCAAAATTAACATAAACTTCTTTTAAAGGAATAATAACATTGTGGTTAATGATTTTAATTTTTTCAAATGCTTTACCAATAGTTGCAGCACATGCAGCACAATCTAAACTATCTACATGAATTTTTATTTGTTTTTCCATTCTCTTAACTCCTTTTAAATATTTTAAACTTTTTTAGAAAAAAAATAGGTGTTAACCTATTTTTCGTATTTTGTTTTTAATGCGTCTATGCCACCTTGTTCATATTTTTTAATTCAATTTCTCAAGGAAACAACACTTATGTTTCTTGTAGGCGCAAAATTTGATGCTGTAACGCCTGATTTTTTAAAATCTTCAATGATTTTAATTTTTTCATCAGCTGTTAAATGCATTTTCATCTATCCTTCACTAACTATTTAGCTTTTCCATAGCATCCAAATACTTTTGTAAGTTCTACAAATGTATTTTTCATTGCTTTGAATCCAGGATTTAATAATTTACGAGGATCAAATCCTTTTTCTTCATCGTCTAAGTCTTTTTTCTCTTCGATGTATTTTCTTGTTGCATCTCTAAATGCTAATTGTAATTCAGTATTTACATTAATTTTTGAAATACCTAAGCTGATTGCTTTTTCAACTTGATCTTGAGGAACTCCTGAACCACCGTGTAAAACCATTGGCATATCGCAAGCATCTTGTAAGCTTTTTAATGTGTCAAATGATAATCCTTTTCATCATTCAGGATATTTACCATGAATGTTTCCAATACCTGCTGCTAAGAAGTCAATTCCTGTTTTTGACATTTCTTCTGCTTGTTTTGGATCTCCAAGTTCTCCAGAACCAACAACTCCATCTTCGTTTCCTCCAATTGAACCAATTTCTGCTTCAACTGAAACTTCGTGTTCTTTAGCAAATCCAATTAACTCTTTTACTTTTGCTAAGTTTTCTTCGTATGGTAAGTGTGATCCATCAAACATTACTGAAGAATATCCTGCTTCAATACATTTTTTAGCCATCTCAACTGATTGTCCATGGTCTAAGTGTAAAGCAACTGGTACAGTAATGTTCATTTCATCTAATAATCCATTTACCATTCCTACAATTGTTTTTAAACCTCCCATGTATTTAACTGCACCTTCTGAAGTTGCAATTATAACTGGTGTTGATGATTCTTGCGCAGCTTCTAAAATAGCCTTCGCTCATTCAAGGTTGTTAATGTTAAAGTGCCCAATTGCATATTTTCCAGTGTGTGCATCTTTAACCATTTTGCTAGCATTAACTAGCTTTGCATGATATTTTCTTGACATAAAAATATTCCTCCCACAATCTATTATACAACTATAAGTTTCTTTATTATCATTATTCTTTAAAACAATGTTATTTATTGTCTATTATAGCTTTTACAAATCCTTTAAATAACGGATTTGGTTTAATTGGTCTTGATGTAAACTCAGGATGATATTGACTTGCTATAAAAAATTTATGATTAGGTATTTCAACAATTTCAACTAAATTTTTTTCTAAATATTTTCCTGAAAAAATCATTCCGTTATCTTCAAATTGTTTTATAAAATCATTATTAAATTCATATCTGTGACGATGTCTTTCAATAGCAATGTTTGAATTATAAAGTTTATTAGCAAGTGAGCCTGGTTTTAAATCCGCTTGATACTCTCCTAATCTTAAAGTACCTCCAATATTTTCTCTATCTTTACCTTCCATAAGATCAAATATTTTATTATTTGTCGTAGGGTTGATTTCTGTAGAATGAGCTTCACTTAATCCTAATACATTTCTTGCAAATTCAATACATGCAACTTGCATTCCTAAACAAATTCCTAAATAAGGAATGTCTTTTGTTCTGGCAAAATTTGCTGCTAAGATTTTTCCTTCTACACCTTCTTCTCCAAAACCTCCAGGAACAAGTATTCCTTTTGCTCCTTCAAGTTCTGAATCAATGTTGTCTTTATTTAAAAATCTTGAGTTAACTCAAACAAACTCAATTTTTTTATGAAATTCATATCCTGCTATTTTTAATGATTCCATTACCGATAGATAAGCATCACTTAGCTCAACATATTTTCCAACAATATGGACTTTTATTTTTTCTTTTGATTCAATTATGTCTTGATTAAATTTTTCTCATCCTTCAAGCCTAAGTTCTTTAATTTTTAAATCTAAATGTTTAGCTACAATTTCATGCATTTTTGTTTCTTTTAAAACTAAAGGCACTTTATAAATTGAATCACTATCTGGACAAACTATAACATTTGAAATTGGTATATTACAAAATAATGAGATTTTTGATTTCAAGCGATCTTTTATTGAACTTTCTGTTCTTGCAACAATTATGTCAGGTTGAATTCCTAAGCTTAGCATTTCTTTAACTGAGTGTTGAATTGGTTTTGTTTTATATTCACCTGAAACTTTTAAATAAGGTAACAATGCAACATGGATAAACATAACATTGTTTTTTCCTTTTTCCATTCTTACTTGTCTAATTGCTTCTATGAAAGGTTGTGATTCAATATCTCCAACTGTTCCACCAATTTCACTAATTATAATATCTGCTTTACTTTTTTCTTCTGCTTTATAAATTTTTTCTTTAATTAAATCAGTAATATGAGGAATAACTTGAACCGTTTTTCCTAAATACCCACCTTTTCTTTCTTTATTAAGAGCTTCTGAATAAATTCTTCCAGCACTTCATGAAGAAACTTTTGATAAATTTTCATCAATAAATCTTTCATAATGTCCAAGGTCTAAATCTGTTTCTCCACCATCAACAGTTACATAAACTTCTCCATGTTCAATTGGATTCATAGTTCCAGGATCAATATTTAAATAAGGATCAAATTTTTGCATAAACACTTTTAATCCAGAATTTTTTAATAAAACTCCTAGTGAACTTCCTGTAATTCCTTTTCCTAAACCAGAAACAACTCCTCCTGTTATAAAAATATATTTTGCCATTGTCTTACCTCCTTTAAAAAATAAAAAGTAGTCACAAAAAACTACTTTATCTTAAGTTTAATTATCATAATCGTCTTCTAAATCTACTAATGTAATTTCATCAGATTCTTCATCTTCTTCTTCATCTAATTCATCAATGTCATCTTCGTCGTCATAATCATCTGCATTTAGCTTTAACTTAGCAGTTTCTAATTTGCTAGTTGTGTCTCCGTCGTCAAATAAAGATGATTCTGAACTCATATAATCTAAATCATCAAATTCTTCTGTAGTTTCGAACTTATCAACATAATCATATTGCTTTTTAATGTCATCAAATTTTAAATAATCTCTTAAACCTCATTTACCTTCTGAAGTCAATGCAAATCTATTATCTAGTACTAAATCACTATATAGTTCAGCGATTATTTCATTTTTAGACTTTTTAGAAGCTGGAATATCTTTTGAAATATTGTTTCAGATGTCTTCAAAACTAGCATCACCTTTATTTGATTGTAAGTAATTATATGCTAATTCAATTGTTGGTGTGGTTGCCATTTTTAAATTCCTCCATAAATTCTATTGTACATTATCATTTACAAAAACAAACAAATTTTTTTCAATATTTGTTGTTACTTCTCTTAAAATTTCAGAGATTTCACTCATTTCAACTAATGATCCATCTTCTTTTATGAAATATATTTTCTTTTTTTCTTCATCTTTTGAATATATTGTTAAAGTTATTTTATCAATTTTATCAAAGTAATACTTTTGATATTCTTTTTTGACATTATTTTTCCAGCTGTTAAGTTTTTCTTGTTCAATGTTTGTTGAAACTGCTAAGAATCTTCTATTAATCATACGATCTGAAAAGTCTCTTAGTACTTCATCATCTTCTTCTGATGTTTTTTTCATAAACTCAATCATAGAATAATCGTCTAATCGTAAATAAGTTTCTAAATTACATACCTTATCATCAAAAAAGTCTTTAAAAACTTCAACTACTTCATTGTTTTTGAAATTATAATTTTGCAAATACAAATCTTTTAATCTCATATATCAAGATTTAAAAGTGCAATCAAATCTATAACTAACATTGTGATGATAAATTTGTTTAAACATAAAAAATCTACCAAGTAAGAAATTTTCAACTGCATATAAAGCTTTTTTTCTAAAAACTAATTTTTTATCTTTACATCTTGCATTTCTAATTATTCAATCTAAATCTAAATTTGCATAATCTACTCCAGTATTAATAGAATCTCTTAAAAGATAATCTAAACGATCAGCATCTAATTGACTTGATACAAGAGAGTTCAAAAATGTATTTTTATGTGTTCCATTTATAATATTTGCAACATCATTTGGATCTATTAAATGTTTTTTTAATACACTATTAACTTGTGTATTGCCAAGAATAATATCAATTGTATACACTTCATGTTGTTGAGCTTTTGAAATTTTTTCAAAAGTATGACTAAAAGGACCATGACCAATATCATGTAATAGTCCAGCAATTAAAACTGTTTTTCTGTCATAATTATTTATTTGACTTTTAATATCTTCATTAGCCAAAAACTTTCTAATTACTTGATACACACCAATACAATGTGAAAAACGTGTATGATTTGCACCAGGAAAAACAAATTGACCTCCACCAAGCTGAATAATTCTTCTTAAACGTTGGAACTCAGATGTGTTTATTAAATCTGCAATAACAGACTCTTCAATTTTTACATCCCCATGAACATTATCTCTTATATATTCCATAACCCACCTACACCAATGAACTTATGTTATTCATTACTTTTTCTTTTCCTATTAATGAAATTGTTTTTGCCAATTCTGGTCCATGCTCTGAGGCAGTTGTAAAAATTCTAATTGGCATAAACAAGTCTTTTCCTTTTTTATTATGTTTTTTTCCTACTTCTGAGATTATAGTTTTAATTTGTTCTTCTTCAAAAATATCAAGACTAGATAATCCTTCTTTTAAATCTTTAATCATATTTTCATAGTCTGAAAGTGTTGATAAAGTTTTTTTTGTTTGTTCGCTTATCGCTACATCATTAAAAAATATATCTAAATGATTATTAATTTGTTCTCCATATTCTAATTCTTTTTTAAAAAGTAATAAAACTTTGTTTAATCAATCATTATCTTTTTTTGAAATATCAAATCTATTTGAATCAATAAATTTTTTTGTAAATTCTAAATAAGAAGATTCATCCATTTTTTTCATTCATTGATGATTAATTCATTTCATTTTTAACATATCAAATGTACTTGGTGATTTTGAAAACCTTGCTTCATCAAACATTTTTACAAATTCTTCTTTTGAAAAAATTTCTTGCTCTCCTTTAGGACTTCATCCAAGTAAAGAGATGTAATTAAATAGAGCTTCGGGTAAATATCCTTGTTCACGATATTGAGAAATAAAAAACATTGCATTACCACTTCTTTTAGATAGTTTCTTTTTAGTTTCATCAACAATTAGAGTTAAATGACCAAAGATAGGTTCTTTTCATCCGAATGCAGAGTAAATTAAACACTGTCTTGGTGTATTTGAAATATGTTCTTCTCCTCTAACAACATGAGTAATTTCCATATCAACATCATCAATAACAACTGCAAAGTTATAAGTTGCAATACCATTTGATTTTAAAATAACAAAGTCTCCTAGCTCTTTTGTATTAAACTCAACTTCTCCTCTAACTATGTCATTTATTTTTATTATTTTTTCATCTGGAACTTTAAATCTTATATTATAAGGTTTACCTTCTTGCTCTTTTAAATCAGTTCTTGTTAAACATTTTCGATTATATTTTGTTGCAACAATTCCTTTTGCTTCTTGCACTTCTCTATCTACTTGAAGTTCTTCAGGTGTACAAAAACATTTATAAGCAAATCCTTTTTCAATTAAATCATGCGCTAATTGTTTATAACGATCAAATTTTTTTGATTGCATATATTCACCATATTTTGCAACAGGTTTTAAAAACGATTCATCAGGACTAATCCCAAGTCAATCCATATTATCAAATTGTGATTCAATAGCTCCTTCTACATTTCTTTCAATATCTGTATCTTCAATTCTTACAATAAAATCTCCACCATAATGATGAGCAAATAAATAATTCATAAGTGCAGTTCTTGTATTACCAATGTGTAAAAATCCAGTTGGTGAAGGTGCATATCTTAATCTAAACTTTGCCATTTTATTTTTCTCCTTTATAAATTAATACATTACTAAAAACAGAAATAAATTCATAATTTGATTTTTCTGTTGTAGTTGCTTTTATAGATACTTGATCTAAATTAATATTAAATAATTTTGCTATATTATTTTTTATTGCAGGTTTAATATCTTTCAAATTTGGTTTTTCTAATTCAATTAATATATCGATATTTGATATATTATAATTTCTTTCTTCTAATAATTTTAAAATATCATTAACAATTTCAAGTGAACTAAAATCTTTAGGTTTAGTTTTGCTATTATAATATGTTCCTAAATCTTCTAATCCCATTGCCCCTAAAAAAGCTTCGCATAATGAATGCAACAATACATCTCCATCACTATATGCATTCATAATTTTAGGAAAACTTTGGTGATTCATTCCGCCTAATATACCATTTTTAGATAACGGAAAAATCCTGTGCATGTCTTTTGAAAAACCTACTTTAAACATAAATTTACCTCTAATAGATTATACCTAATTAATTAAGTTTGATAAATCTATTAATTGATTATAGTTATAAATAAAGTACAAAAAAACTTATCAAATGATAAGTTTTAATTATTAAATTTAAAGAAACAAACATCTCCATCTTCTACTAAATAGGTTTTACCTTCTAGTCTAATTTTTCCACTTGCTTTTAAAGCTTGTTCACTTCCAAGTTCAAAAATATCTTCACATTTATATACATCTGCTTTAATAAAACCTTTTTCAAAATCAGTATGAATAATTCCTGCACATTGAGGTGCAGTATAACCATTTTTAAACTGTCATCCTCTTGCTTCAATTGGACCAGCTGTAAAAAAAGTTTTTAAACCTAAAGTTTTATATGCTGCTTTAATTAAAACTTCTAAACCTGGTTCTTCAATACCTGCATCTTGTAAAAAAACTTCTTTTTCTTCTGAGTCTAATTCGCTTAATTCTTCTTCAATTCTTGCAGAAATTTTAACAACTTCACAGTTATTTTCTTTTGCATAGTCTTTTAATTTTTTTACATAATCATTATCTGATAAGATTTCACTTTCAGATACGTTAGCAACATAGATTATTTTTTTTGTTGTTAACAATTGAAATGATCTTAATAAAGATTCTTCTTCAGAATCAAAATCAAGTTTATTTAATAATTTTCCCTCGCTTAATTGTTGCTCACATTTTTTTAACAAGTTGTATTCAGCAATTATATTTTTTTCTTTTGTTGATTTAAACTTTGGTTCTACTTTTGCTAACCTTTTTTTAACACTTGCTTCATCAGATAATATTAATTCTAATTCTATAATTTCAACATCTCTTATTGGATCAACTGACCCTTCAACATGAGTTATATCTTTTGAATCAAAGCATCTTACCACTTCACAAATAGCATCAGTTTCTCTAATATTTGCTAAAAAAGCATTACCTAGCCCTTCACCTTTACTTGCTCCAGCTATTAATCCTGCAATATCAACAAACTCAATTGTGGTATAAATTGTTTTTTTACTTCCAAATATTTTTGCTAAATTATCCAATCTTCTATCTGGCACTTCTACAACACCAACATTAGGTTCGATTGTTGCAAAAGGATAGTTAGCTGCTTCTACTTTTGAATTTGTAATTGCATTAAATAAAGTTGACTTTCCTACATTTGGCAATCCAACAATTCCGACTTGTAATCCCATTGTTATCTCCTGTTTCTAAAATTAATCTTCTTCTAATAATCCTAAAATTTCCAATACTCTATTTAAATCAGCTTCACTTGAATAACCAATTGTAATTTTTTTATTATCAATAGTAACTTTTGTACCAAGTCTTCTCATAATTCTATTTTCTGTTTGAATTATATTTGGACTTTTTGGTTCTTTAATTGTTTCTTGTTTTTCTTTTCCAGCATTTTTTACTAAGTTTTCAACATCTCTAGCAGTTAAATTTTGATCGATAGTTTTTTGAAATATATCTTCTAATAATGACTCATTTCCTAAAATTGTTAGTAGTGGTTTTGCTTGACCCATTGTTATTTTTTTTTGCAATAAAGCATCTTGAACTTTTTTTGGTAAATTTAAAAGTCTCATTATATTAGCAATATGAGATCTTGATTTTCCAACTCTAATCGCAATTTCTTCTTGTTTTAATTTTAAACTCATTGATAATTGTTTATAAGCATTTGCTTCTTCAATATCTGTTAAATCAACACGTTGAATATTTTCAATAATTGCAAACTCTTCCATTTGTGCATTTGACAAAGTTAAAACTATAACAGGTACTTCTTTTAATCCTGCTAGTTTTGCAGCACGCATACGTCTTTCCCCTGCAACTATTTCATTTTTATCATTAACTATGATTGGTTGAATTATTCCATGTAGTTTTATTGATTCTGCTAAATTAACAAGTTCTTCTTGCTCAAAAACTTTTCTTGGTTGATAAGGGTTTGGTTTTAATAAGTCTACAGATATTATTAAAGTTTTTTCTTTTGCAAGTTTTTTATCATTTTCAATTACATCAATTATATCTGTAACTGATTCTCCAAATATGTCATCTAGTCCTTTAAAATTATATTTCTTTTTAGATGCGGCCATTTTCTTTCAACACCTCTTTTACAAACTCAACATAAGCTAATGCTCCAGGTCCACTTTTGTCATACTCAAAAATTGATTGACCTTCAATTGATGACTCTGAAATTTTAATATTTCTTGGGATAATTGCTTTGTATACTTTGTTACCAAAAGTTTTCATAATTTCTTCTAAAACATCATGTGCTAATCTTGTTCTAGAGTCAAACATTGTTACCAAAACTCCTTCTACTGTTAAATTTTTATTTAAAGTTTCTTTAACTTTTTTTATTGTTCTTAAAAGTTGAGCAACCCCATGCATTGCATAATGTTCCGCTTGAATAGGAACAAGTACAGTATCTGATATTGCTAAACCATTTCTATTAATAAGCCCTAAGCTTGGAGGACAATCAATTATAACAAAATCATATTTGTCTCTTATTAAATTTATTTGGTCTTTTAAAACATTTTGATTATTGTTTTTTTGTTCCAACAAAATAAGGTCAACTGCTGCTACATCAATTGAACTTGGAGCAAGGTCTACATTTTTTTTGATATCTTTAATAATAATTTCTTCAAGTGTTTTTTCACCAACAAAAACATGATACATACTCAATGTTTTATTATCAATTTCAAATCCAACTCCAGTTGTTGCATTGAACTGAGGATCCATATCAATTAACAATACTTTTTGGTCAGCCATTGCTAATCCACATGCTAAATTAATAGCTGTTGTAGTTTTTCCAACTCCTCCTTTTTGGTTAGCTACAGAAATAATTTTTGCCATAAATTTGTTCTCCTATTTTTAACTTCCTAACGGTTTTTTCTTTATTTGTGAATACAATCTTGGATAATTATCATTTGTTTTAGTTACTTTTTCATAAAACAGATTGATTCTTTCTCCTATATTTTCAATTAACAGGTTTTGTTCTTTTATTAATTTTAACCCAATCAAGTGTTCTTTACCATTTAATTGTGTAATTTCTTGAAAAACATTTTTTGCTTTCAAACAAATAAAATGTCCTTTTATTTTTATTGCTTGAACACCAACTTCTAATAAAATATTTAATGGTGCCATTGCTCTTGATATTACAATATCAAACTGTTCTTTTGTTTCAGTACTGTATTCTTCTGCTCTTTTATTAACTGTATAAATATTTTTTAAACCTAATTTATTAATCACAAGATTTAAAAAATTTATTTTTTTATTATTAGATTCTACTAAAAACACTGATGTATCAGGAAATAATATTTTTATAACAAGTCCTGGGAATCCAGCTCCTGTACCTATATCCATAATTTTTTGATTATTAATTTCAAACTCTTTTATAAACAAAACTGAGTCTATAAAATGTTTTAAATAAATTTCTTGGTCATCAATAATAGTTGTTAAATTATATTTTTGATTTTCTTCTTGAAGCAATTCTTTGTAGGTTATAAGCAAACTTTTTTTTTCTTCACTTAAACATCCAATATATTCTTCTATTTTAGATCAATCTCACATATAAACCTCATGACAAAAAAATAACCAATCATTATATTACCATATATTGACAGGTTATAGTTTAATACTAGTTGAAATATTGCTATTTTGTTTTTTAATTTTAAATTCATTGAAATAATATATGCCGCTTCCGATGACTAAAAATATTGCTCACAATATAGGAATTATTAAACTATTTGCGTCCTTAGTTTTTGAAAATATAACTATACTATCAATTAAACTAAGATAATACATATACAAAATCATAAAACTTAATAAACTTAAAGTTATAACTCCAATTAAAAAACCTCCTTTTAATTTTTTAACTTCTATTTTCTTTGTTCTTCTATTATTTAATATTCCTCCAATAATAACTGCATATATTATAAATACATATAGAATTGCTGTGTCCGCAGAATAGTACGATGCTAAAAAGTAATCTGGTTCTCTAGATTTTCAAGTAACAAGTAATGAAACTGTTACAAAAAATATTAGAGTTCCTATGTTAATTAGTATTGCAGTTATTTGTAATTTCTTATTAGATAAATTAATATTTTTTAAGTTTTTTACATAACTGTTTTCTAAAATAGCTGCTTTAATTACTTTTGTATATACATTTGAATATGCATTAACAGAAGTTATTAATGTTAAAACTATAATTATTTTAAATACCAAAGCTAATGCAGGATATGCTTTGAACAAGTTTAAAACATTTCCATCATCAGAAGATATAAAAATAGAAACTGTTACAAGTAGATAAAATAACGCACAAGCAATTATTCCTGACAACATCGCTGGAGCAACTACAGATTTATGTTCTATGTCTTTTTGTAAAGTGACAGAATCAATAAAACCATCAAATGCAAACAATACTGGTATTAGTGCTGCAAATATTTGATTTACTTTAAAAGGCTCATGCTCACTATTAAATGAGTTAGACTGGACTTGTCCGCTTGTATATAAAGCAATTCCTCCAACCAATACCATTATTAAAGGTATAAATTTTATTGTTGAACATATAATTTGTAAAAGCTTTCCACCTTTATCGCTTTTGTAATTTAAATATTGAATAACTAGTAAAATAATTATGCTAAGTAATATTTCTAGTATTATTCTTGTTTCTTTTCTTAGATAGTCGTCAATACCTTTATTTGATGTGCTCAACATAAAAGCATCTACTGCTTGAAACGATGAATTGATTAAAAATAGAGATCCAATAGTTGTTAATAAAGGGATGTAGAAAACAGCAAACACAATTGCTGTAACTGTTCCTCATTTTCTACCAACAAATTTTTCTGCAAACTTTGATAATGTACTATGTTCTTCATTTTTCATTGCACTTGATGCTTCAATATAAGATAACATCATCATACATGCAACTACACCAACAAATATTCATACAGCAATTGCAATGTATGGATTTTTTCCTGCTGCAGCAAGTACTCCATTTTCACTTGAGTTTTTTAAATATATCCCAGATCCAACAACTATTCCAAACGTCATTGAAAACAATACCAAAAATTCAAAAACTTTATTTTTGAATTTATTTTTTTTATTTATATTAATCATTTTTTATTTAGCCTCATTATATTTTTTCTTTAAATAAAATAAAAGCATTTGAATATCTGCAGGGTTTACTCCTGTTATTCTTGAAGCTTGGCCAATTGAAAGTGGTCTTACTTTTTCTAACTTTTGTTTTGCTTCTACTGCAATGTTTTCAACTTTAGAATAATCTATATCTAAAGGAATTTGCTTTGCTTCTAATTTATTAAATCTTTCTATTGTTTCGTTTTCTTTTTTAATATAACCTTCAAAACGAATATTTATTAAAATATTTTGTAATTGGTTATTAGAAAGTAAATTTAACTCAGCAATATGTTTTTTTAAAGTATTTAATTTTACTTTAGGTTGCTTTAAAATTTCATAAGCACTTAGTCCTTGAGTTAGTTCTGCTTCTCCATTTTTTAAAAGATCTTTTGCTAAATCGGTTTTAGGAGAAAATCTTAATGTTTTTAAAAGTTCAATTGTTTGATCAATTTCCTTTTTATATTTTATAAATTCTTTAAACTGATCTTCGTTGATTAATCCAACTTCGTATCCATATTTTTTTAATCTTATTTCTGCATTATCATTTCTAAGTGATAAACGATTCTCAGCACGACTTGTCAATAACCGGTATGGTTCAATTACACCTTTGTTAATTAAATCATCAATCATAACACCAATGTATGATTCGTTTCTTTTTAAAATTAATGGTCTTTCATTGTTAATTTTTTTAACAGCATTAATTCCAGCAATTAATCCTTGACCAGCAGCTTCTTCATAGCCGCTTGTTCCATTTATTTGCCCTGCAGTGTAAAGCCCTTCAATATATTTTAGCTCCAAAGTTAATTTTAATTGTTGAGGATCAATACAATCATATTCAATAGCATAAGCTCATTTATCTACTACTACATTTTCAAATCCAGGTAAACTTTTTAACATTTTTTCTTGAACTTCTATAGGCATTGAAGTTGAAAAACCTTGAACATATAATGTGTCAAGGGAAAGTGATTCTGGTTCTAAAAAAATTTGATGTGTATCTTTTTTATTAAATCTTACAATCTTGTCTTCAAAACTTGGACAATATCTTGGCCCTACTGATTCAATTTGTCCTGAGTACATAGCAGATCTATGTAGGTTTTTTTCAATTATTTCTTTAGTTTCTAAAGTAGAATGAATTAAATAACATGGTTCTTGTTTTTCAAACTCAATAGGATTAGATGTTGAAAAAGAAAAAGCTAATTTCATATTTGTTCCTGGTTCTAAATTAGCTTTTGATAAATCTATTGAGTCTTTTTTAACTCTTGGAGGAGTGCCTGTTTTAAATCTAAAAGTTTTTATGTTTAAATCTTTAAATACTTTCGATAATCCTGTTGTAGTTCTTTCTTCGTTAGGACCACTTTGAAATTTTTCTTCTCCTCTATAAATTAAACTTGTAAGATAAGTTCCTGTAGTTAAAATTACTGCTTTACAATTTATCAAAGTTTTATCTTCAAGTTTAACTCCAACAACTTTATTATTTTTATCTAAAATAATATCATTTACAGCACCAATTAAAAGTTGTAAGTTTTTTTGACTTACAACAACATCATGCATATATTTAGAATATTTTATTTTATCTGATTGTGCTCTTAAAGCTCAAACACCAGGTCCTCTAGATGAGTTTAATAACTTCATTTGTATAGCTGTAGCATCTGCTGCTTTTGCCATTTCTCCACCAAGTGCATCAATTTCTCTTACAACTATTCCTTTTGCTGGTCCTCCAATTGAAGGATTGCAAGGCATTGTTGCAATTTTGTCTTCATATAAATTTACTAGAATTGTTTTTTTACCAAGTCTTGCACTAGCGAGTGCTGCTTCAACGCCGGCATGACCTGCACCAACAACTACAATATCAGCCTCCATAGCAAGACCTCCTTTTAATTTTTTATTCTTTCAAATAAAACTAATTTATCAATTATTTTTTTATAATTAAAATTATTTTTTTCGATACTATCAAAATTTATTTCTTGATGCTTCAATCCCATTTGTTCAATCATAGATGAAAAACTTTTTGTTAAAATTGGTTTTAATAAGTATGAAATTATAATTATATTTTTTTGTAAAATTGTTAATACTTCATTTAATTCATCTAATTTATTTTCTTTTTCAAGAGCTCATGGTTTTGTGTCTTCAATAAATTTATTACACTCCTGAGATAATTTTAAAACTTCTTTTATAGCACTAGACATATCATACTTGTCCATAAACTTTTTGTAATTTACAATAGTTTCTTCTCCAATTTTAACTAAATAATTATTTTTAGCAACTTCTTTTTTAGGAAGAAGTCCATCAAAATATTTTATTATCATGTTTGAAACTCTAGACAATAAATTACCAATATTGTTAGCAAGATTTATATTAAATGATTCTATAAATAATTCTTCTGTTCATTCTCCATCTTTGTCAGTGGGTAAGTTATTTATAATATAAAATCTAACTGCATCACTAGAATATTTTTTTAGCAATTCAATTGGATCTATAACATTTCCAAGTGACTTAGACATTTTGTTACCACCACTAATTATTCAACCATGACTTAATAATTTATCAGGAGTTTTTAAATTAAGTGAGTTTAAAATAATTGGCCAATAGATTGAATGAAATCTTGTAATTTCTTTTCCAACAATTTGTAAAATCTCACTATCTTTTGCTCAAAATTTTTCTAATAGTGAAGTGTTATCACTACCATATCCTAAAGCTGTTATGTAATTTGAAAGAGCATCTATTCAAACATAAATAATATGTTTATCATTTTCTAAAACTGGTATACCTCATTTAAAACTTACTCTTGTTACAGATAAATCTTCTAAACCAGTATTAATGAAACTATTTAACATTTCATTTTTTCTTGATTCAGGTTCTAAGAAATCTGTTTTAAATAAATCTTGTAAGTACTTTTGAAATTTTGAAACTCTTAACATATAAGTTTCTTCTTGAAAATCAATTGCGGTATTTTTGCAAACATTATGAACAAAATCTTTATCCATTTGCTCAAAAGTTAAAAACTCCTCACAACTTATACAGTACTTACCTTTATAATCAGATAAAAAAATTAAATCTTTTTCTAACAAAAAAGAAAAGATTTTTTGAACAGCTTTAATATGATCTTCATCTGTTGTTCTAATAAATCGATCATACTTTATGTCTAATTTTTCTCATAAGTCTTTAAAAGTTAAAACAATTTCATCCACATATTCTTTTGGTGATTTATTTTGTTCTTTTGCTTTTTGTTCTATCTTTTGTCCGTGTTCATCTGAACCAGTTAAAAAGAAAACATCATAAAAGTTTTCTTTTTTATATCTTGCCATTACATCTGCTAAAGTAGATGTGTATGTATGTCCAATATGTAACTTTCCGCTTGGATAGTAAATTGGAGTTGATACATAAAATGTTTTTTTCATTTTTCTATCCTTCTAAAACTAAATTGTAAATACCTTTTAACCCACGATAACTTTCGTTATGTGTTAAACCATATCCAACTAACAATACATCTTCTGTACTAAATAATGATATAACTGGTATTTCTTCGTTTTTAGTTTTGCATTTTTTATCAATTAGTGCTAAGACTTTTACATCTAAAGGCTCTTCTGATTGGACAATGTCATAAACTTGTTTCAAAGTGTTTCCTCTATAAAATACATCAGTTACAAGTAAAACATGACGGTTTTTTAATGATGTTTCAACTCCTAGATCAATTACAGATCTAGCATCTGATTGTTTATTTTTAACTATAAATTGAATTGTAACATCAATTGGCAATTCTCTAATTAGGTCCGCAACAAAAACAAAAGCACTTGAAAGTTCTGCAACTATTGTAAGTTGTTCACCTTCATATGTTTTTGCAAGTTCAACAGCAATTTTTCGAATTGCACCTTTTATTTCTTCTTCTGTTATTAGCGTAATTAAATTAATTTTTTCTTCCATTTTCTTTCAACACCCTTTCAAAGATTTTGTCTACATTTCTTAAGAAAAACTGTATATTAAATAGTTGATCAAACTCATTTTCACTTTTAATAAAATTTAAAATACCTTTATCTTTTAAAGCTTTTTTAAAGTCAGTTCCAGTTTTTTGCGCTTCTAAAGTACAAGCTTGAATGAAATCATAAACTTCTTCTCTTGAATAATTATACTTCATTAATATGTAAGTTAATACTCTTTGACTAAAAAATAAGTTATTTGCTTCTTTAATGTGATTTTCGATATTTTCTTTATTCACAACTAAATTTTTAATTGTGTTTGTCATACGATTTAAAATGTAAACCATAATGTTATAAACATCTGGTAACATTAATCTTTCGTTTGAACTATGAGATATATCTCTTTCATGTCATAATAAGTTATTTTCATATCCCATTGTAACAAAACTTCTAATGTATCTTGCTAAACCTGAAACATTTTCACTACTAATAGGATTTTTTTTATGTGGCATTGAACTTGAACCTTTTTGTCCTTTATCAAAGCCTTCACACACTTCATTAACTTCACTTCTTTGAAAATGTCTTATTTCAATTCCAATTTTTTCAAGTGTTGAAGCCAAGTTTGATAAAACACTTATTAAAAAAGCATGTCTATCTCTTTGAGTAACTTGAGTAGAAATATTATCAACATTTAAGTTCATTTTTTTTGCAACAAATTCTTCAACTTCCATTTCGATGTTTGCATAGTTTCCCATAGATCCTGAAATTTTTGCAACTTCAATTTGCTTACGAGCTAATTTAAATCTTTCTTCTTGTCTTTTTATTTCATCAAATCATAATAAAAATTTTAACCCTAATGAAGTTGGTTCTCCTCACATACCGTGAGATCTTCCCATAATAATTTGTTTTCTATTTTCATTTGCTTTTTCTAAAACAGCCTCTAAAAGTTTTTCAATTGCTTCTTGAACTAAATCATTTGACATTTGAATCATTTTATTTTGTGCAGTATCCACAACATCTGTTGAAGTTAATCCTAAATGAATTCATTTTTTTTCTGCTCCAAGAGTTTCAGAAACCGCTCTTGTAAATGCAACAACATCATGTTTAGTTTCTTTTTCAATTTCTAACATTCTTTCAACGTCAATTTTTGCATTTTTATAAACTAAATTTGTTTCTTCTTTTGAAACAATTCCTAGTTCTCTTCACGCATCTACAACAAACTTTTCAACATCTAATCATATTTCTAATCTATTTTTTTCATCTCAAATTTTTTCTACTTCTTTAATTGAATATCTATTTATCATTTTATTTTCTCCTGTTGTTTATTAAAAAATTTCTTCTAACAATACAGTTTGTTTTCTATCTGGTCCAACAGAGAAACCTGCAACATTAATTTCACAAAACTTTTCAATTAATTTTAAATAGTTTTTTGCAGCATCTGGTAATTCAGAAAATGATTTAACATTTGTTATATCTTCTTTTCAACCTGGTGTTGAGAGATATACTGCTTCACATTTTTCAAACTCTTCTGCAGTTGGTGGTGGAGAAGAAATACTTTTGTCTTCCATTTTATATGAAGTACATAATTTAATTTCATCTAGTCCTGATAAAACATCAAGTAATGTAATAAAAATTTTATCTATAGCTGAACTTCTAATTGCATATCTTAACGCAACTAAATCAATTCATCCAACTCTTCTTGGTCTTTTTGTATTAGATCCATATTCATTTCCTCTTTGTCTAATACCATCACCAATTTCATCTAAAAGTTCTGCTGGAAACCCTCCCGCTCCAACTCTAGTTGAATATGCTTTAACAACTCCAAGAACTGAATCAATATATTTAAAACTTATTCCTGACCCTAATGCAACATTTGACGCAGAACAATTTGAACTTGTAACAAAAGGATAAGTTCCATGATCAATATCTAACATTGCACCTTGTGCACCTTCGAATAAAACTTTTTTACCTTCTTTAATTGCAGATTCTAAATATTCTCCGCAATCAATAACTTGTTCTTTTATTTTTTTATAATTTTCAATTAATGAGTTATATGTATGATCAAAATCAACTATTTCAACATCAAACATTTTTTTTAAAAAAACTTTTTGATACTCTCAAACTTTTTTAAACTTTTCTTTAAAATTAGGCAGCCCTACATCCCCAACTCTAATTCCTGAACGAGAAACTTTATCTTGATAAGCTGGACCTATTCCTCTTTTTGTTGTACCAATTTTGTTTTTACCTCTTGCTAATTCTTGAGCTTCGTCAATTTGAATATGATAAGGTAAAACTAATTGTGCTCTGTTTGAAATTAATAATGTTCCATGATTTATAAAAGTTTTTTTTATCATATCAAATTCTTCGTTCAATTGTTCTAAATTGACTACGCAACCATTTCCAATAATGTTAACTACATTTCTATTAAAAATCCCTGAAGGAATAATTCTAACTTTATGTTTTTCTCCATTAAAATTAATTTGGTGTCCAGCATTGTCTCCGCCTGAGTATCTAACTACAAGATTTGTAATTTGAGAAAAGTAATCTGTAATTTTTCCTTTTCCCTCGTCTCCTCATTGTGAACCAACTACCACTAATGTGTTATATTTTTTCATGTCTCTCCTTTTATTTATTATAAGCACTCACTATTTTTTTGAATTCTGTTTTGGCTGCAAAGTCTTTAACAAAATTTTTTATATTATTAACACTACTTTTTATTATTTGAATTTCTTCTTGAGATAATTTACTTAAAACCCAATCTACAATTTTAAAATTTTCTGCTGGAGGATCAATACCAATTTTTATACGATTAAACTTTTCACATCCTAAATGTTTAATTATATTTTTTATTCCGTTATGTCCACCAGAACTTCCTTGTTCTCTAAATCTAATTCTTCCAAGTTCTAAATCTTTGTCATCATATATGATTATTATATCTTCAGTTTTTATTTTATAAAAATGCATAATCATAATTAAAGCTTCGCCAGAAAGATTCATATAAGTTTGAGGTTTAGCAAAAATTACTTTTTCATTATTTATACTTGAAAAATATAAAATTGACTTAAAATCTTCTTTTGTGTTTTGATATTGATAATAATCTAGTAAAAAATCAATAGCTATAAATCCTGTGTTGTGTCTTGTTAATTCGTATTGTTTTCCTGGATTTCCAAGACCAACTATTAACTTGGCCATTTTTATATTATCTCCTTAATGTATTTTTCCACTTTCTCAACAATTGAATCTTGGTATTCTTGATATACATCTGTTAAAGGATGTTTTTCGTATGATGATTTAATCATGTTTGCTAACAATCCTGCCACTGATATAATTTTTAACCCTTCAAATAATTTTTCTTTTGGTTGCTCAATAGTATCAGTTATTATAACTTCTTTAACTACTCTTTCTTGAACTGCGCTTTTCATTCTTTCAACAGCTGGTCCACTAAATACTCCATGACAAGCTATTAAATAAATGTCTTTTGCACCTTCTTCTTTTAAAGCTTTTGCTCCGTTTATTATTGTTCCTGCTGTATCAATCATATCATCAATTACAAAACAAACTTTATCTTTAACTTCCCCCAAAATAAATTCTACTTCTGATTTATTTGGTTCTGGTCTTCTTTTTGCAATAACAGCAATTCCTTTTGCAATGTTCCCGGTATACTTACCAACATTGTGAACTCTAGTAAGTCCTCCATGATCTGGTGAAACTAAAATACATTCTTCTGGATTTAATTTTTTTTCTATTATTTTAGATATGATATCTTCTGCGACTGTTTGTGCAGTTGAAAAATTATCTGTTGGGATATTAAAAAATCCCATTGATTGAGTTGAATGAATGTCTACCATAATTACACGATTTGCACCTGCAGTTTCTAATAAGTTGGCTACTAGTCTTGCCGAAATTGGTTGTCTTCCTCTTGCTTTTCGATCTTGTCTTGCATATCCAAAGTATGGAATCACAACATTTATTTTTGCTGCACTTGCACGTTTAAATGCATCAATTGCAATTAATAACTCCATTAAATTTTCATTAACTGGGTTATTGGTAGATTGTATTATATAAATTTCTTGCCCTCTAACAGAGTCTAGAGATTGTACTATTAATTCTCCATCCTCAAATTTTGAAGTCATTGCAACTGATTCTTTTACTCCTAAAGCATCACAAACTTTTTTTGCTAATTCTTTACTTGCTGATAATCCAAATATTTTAATGTTACTTTTGTCCATAAAACTTATCTCCCCCTTAATAATAACAAATTTAAATAAGCATAAAAAAATTAATATTAAATAATAAAAAGTTTGTTATATTGGGAGAAATACATTATAATTTTTTTTGTATGCGGAAAAAACGTTGAATTTGAGAGTATATTGTTGAATAATTATCCATTTGATAAAAAACTTTTGGCCTTCTACGCAATGTTTTTTTAGCTAAAAAGTATCAAAATAATAGTAATTTGATAAATTTTTTTATTAAAATGCCCTTGAATAAGGGTTTTTAGGGGGTTAAATATATGGGATTAGTTAGTATAAATAATATTACGCACAAAAATGGTGATAAAAAACTATATGAAGACACAGCAATTAAATTAAATAAAGGAGAGCATATAGCACTAATTGGTCCAAATGGTGCTGGAAAAACTACATTATTAAATATTATTGCAAAGAAGATAGTACCAGACAAAGGTGAAGTAAAAATTCATGAAAAAACAAAAATAGGTTATTTAGATCAGCATCAAGATGTTGACCTAAATTTAACAGTTGATCAATACTTAAAGTTTGCTTTTAAAGACTTATATGAATTAGAATCTAGAATTCATAAAATTTATGAAGATATGGCAATAGAATATAATGAAAACGAGTTAGTTAAAGCGTTAAAATATCAAGACATACTAAATCACAATGACTTTGATATGATTGATAAAAAAATCGGTAACTTAATTGATGGTTTAGGAATCGGTTTAGATAAATTGAATATGAAAATGGGAGAACTATCTGGAGGACAAAAAGGAAAAGTTATGCTTGCTAAACTTTTGTTAAGCGGAAATGATTTTTTATTACTAGATGAACCTACAAACTTTTTAGATATTCAACAAGTTGAATGATTAGCTAAATTTTTACAAGCATATGAAAAAGCCTTTATTATGGTTTCTCATGATAATGATTTTATAAATAAGACTTGCAATATAATTTATGCATTAGATAATTTTAGATTAACAAGATTTGTTGGTAATTATGATAAATATTTACAAGACTCACAAATGCTAAAAGATCAATATGATAAAGCAGTTGTTTCACAACAAAAAGAAATTAAAAAACTAGAAACATATATTGCTAAAAATATTGCTAGAGCTAGTACTTCTAGGTCTGCACAATCAAGAGTTAAAACTTTAAATAAAATTGATGTTTTACAAGAAAGACGTGAATTAGTAAAACCTAAATTTAGTTTTATGTATAAAAGACCTTCTACAGCTGTTGTTTTACAAGCAAAAAACTTAGTTATTGGATATGATCATCCACTATTACACGCATTAAACTTTGAGTTAAGAGAAGGTGAAAAATGTATTATTAGTGGAAAAAATGGAATTGGTAAAACAACTTTTTTAAAAACAGTTTCAACAGAAATCAATGCATATGAAGGAAGTGTTGAATTAGGTAACGGGGTTCAGTATGCCTACTTTAAACAAATTGAAGATGTACACGGAATAACACCTGTTCAATATTTACTAAATAAGTTTCCTGATATTAGTGATTCAGAAGCAAGGGCTAAGATTGGACAATTTGGTTTAAAAAGCTCTCTAATGATGCAACCAATGGAAAAATTGTCAGGGGGAGAACAAACAAGAATAAGATTAGCGGCGTTGAGTATGATTCCTTGTAGCTTGCTTGTTTTAGATGAACCTACAAACCATATTGATGTTCTTGCCAAAGAAGCTTTGTTAGAAGCTATTCAGGCTTTTAAGGGAACAGTATTATTAACAACTCATGACATAAACTTCTCAACTTTATGAGCAAATAAAGTTTTGGATTTTGAAACATTAGTTTAAAAAAGTTTCTGTTACTAGAAACTTTTTTTTATATTTTCAATTTTATATTTATAAATAAAAGTTGAGCCACTTCCAGACATTTGTCCGATTTTTAAGTAATTATTTAAAATAGGATATAATTTACAAGCTGCTTTTGTTAAATTATTTTGTTTTTCTGTATGTTCATAGTCTAGTTTGTCAAAAGCCTCATAAACTTTTTTTGTATCACAATTTATATTTGTAAATATTAAATCTTTTTTTCTTATAGTAATTTTCTTTTTATATTTACTAACTAGTTCTCCATAACCTGATACTAAAGCAGTTTTATACTTTGAATAAAAAAAATAAGAGTCATAACCGATTTTTTTACAAATTTGTTCAGCACTAACTTTATCACATTTAAAGAACTTTGCTAAACTTATAGCATCACTAGTTCCACCACCAAGACCTGCTCCTATTGGTATATTTTTTTTTAAAGTAATTTTATAAAAATCTTTTATAACTAAATTTTTTCTTAAAATTTTAAGAACCTGGTATATAAAATTTGTTTTTTCAAGCTCTTTGATATTACAAACAACAATATCTTCATTTGTATTTTTTTCAATAATTATTTCATCATATAAATCTTTTACATATGTAATTAAAGAATTAATTTTATGATAACCATTAGAGTCCTTCGGGAATACTTCTAAATAAAGATTAACTTTTGCAAAAGCTTTAATTTTTTTCATTTTGTACCTCATTAAATAAATTAATAAACTCATTTAGACTAATGTTTTCAGGTCTTTTATTTGAATCTATTTTTATCTCATCTAAAACCTTTAAAGATTTTTGTTTGTTATTAGTTATATTTGTTAAATTATTTAAAATAGTTTTTCTTTTGTTATTAAATAACTTTCTTACAAAAGAAACAAACTTTATATCATCATTTACTTTACCAATGTTGTCTTGAATAAAACTCATTGAAATTATTGCAGAATCTACTTTTGGGATTGGAGTGAAAAGATTTTTTTTGACTGTAAACTCATATTTCAAATTACTATAAAATTGACAAGCAACAGATAAATTATTGTAATTCTTTTCATTTGCTTTTGCACAAATTCTTTCTGCCACTTCTTTTTGTACCATAAAAACAGCTTTATTTATTTTTTGACTTATTTTAAGAGTTTTAAAAATTATTTCACTTGTTATGTAATATGGAGTATTTGATATTATTGAAATTCTGTTATATTTATCTTTTATCAAATTCTCAAAATTTATTTTTAAAACATCATTAATGATCAAGTCTAAATTGTTGTTTGGTATATTAGATTTTAAAATCATTTCCATATCACTATCTATTTCAATAGCAACTACTTTTTTAAATCGATTACATAACTCTAAAGTAAGAGCTCCCCTACCTGGACCAATTTCAATAATTAAATGATCTGGTTCTTGATCTAAAATATTTATAATTTTTTTTATTAAATTTTTGTCAGTTATAAAGTTTTGGCCAAACTTTTTTTTAGCAGGTTCCATTTTGTTCTCCTAAGATTTTTTTTATCTTTTCTATATCTAATCCAATTAAATTTACTCACTTAAAAAGTTTTTTTGAATTTATTTTTTCATTTCAACTAAAGTGTTCTGCAATTTTTTTTCTGTTATCTGGCAAGTAAAAATTATTTTTTAAAAAGTCTTCTCAAGATATAGATTGTTTATTGTTGCTATTAAAAATTATTAAATTATCTAGTGCTTCTCTAATATCTTTTTCTTCTGCTTCTGCTATACCAATTTTTTTTGTATTTTTTATATTTTTTTTGTTGATAAATGCATTAAAACATTTAAAATCTAAATAGGAATTAATAACGTCACGAATCTTAACTCCAGGTCCATCTGGATCTGTAAAAATTATTACTCCACGTGCTTTATTAATATCTCTTATCAATTCTAAAGTTGAATTGTCTAAGGCTAGTCCATTTGTTTCAATTGTTTCAATATTACACTCGCCAAAAATAATTTTAAGTTTTGCAGTATCTGACTTACCTTCTACAATTATTACTTGTTTAATTTTCATAACAAAAACCTTTCAGATATACACTAGTATTTTACATACAAATAATGTATAATTATACACGAAGGGTTTTTTCTTTACAAAGGAGGAAAATAGAATGGCATCATGAGATCGTAAAAGAGAATTCGTTGCTTTAGACTTAGGAACTGCTAACGTAGTTGCATACCTAGGTGGACAAGGTATCATTTATAATGAACCTTCAACAATGGCATACGACGTTCACACAAACACAGTTATCGCTTTTGGAGAACAAGCTTACGAAATGGTTGGTAAAACAAACGAAGACGTAAGAATGGTTGTTCCTTTAGTTGATGGGGTTATCGCTGACTTAGACGCAGCTAAAGACCTAATTAAAATTATTTTCTCACGTATCAAATTATCTGATATTCTTAAAAATGCTTTAGTAGTTCTTGCCTGCCCTTCAGGAGTTACTGAACTTGAAAGAGGAGCATTAAAACAAGTAGTTGCGGATATGGGAGCAAAAAATGTTCTTGTTGAAGAAGAAGTTAAATTATCAGCAATCGGTGCTGGAATTAACATTTCAATCGCTAGTGGTCACTTAGTTGTTGACATTGGTGGAGGAACTACTGATATCGCTATTATTTCAGCTGGAGAAATTATTATTTCTAGATCAATCAAAACAGCTGGAAATCACTTTGACGAAGAAATTAGAAAATACATTCGTGCAGAGTACAACGTATTAATCGGAATTAAAACCGCTGAAAAAATTAAAGTAGAGATCGGTGCATTAACAAAAATCGATAATGGACGTACATTCCGTGCATTCGGACGTGACGTAATTTCAGGGTTACCAAGAGAAGTTGTTATCTCACCAGATGAAGTAAAAAATGCTTTATTAGCACCATTTTCAAAAATTACTGACTTAATTGTTGAAGTAATGGAAAATACTCCTGCTGAATTAGCTGGAGATATTATTAGAAATGGTATTACTATTTGTGGTGGTGGAGCTTTATTAAGAGGAATTGATACATACTTTGAATCAATCTTCCAATTAAAAGTTATTAAAGCTCAAGATCCTTTATTAACAGTTATTGAAGGAACTAAAGAATACGAAAAACAAATTGAAAAATGATTAGACGTTGTTGAATTACGTGATTCAAGAGAATACAACATTAAATAATAAAAAAGAAGCCCGTTAAAGCTTCTTTTTTATTTACTCTGATTTGAAATTTTTAATTAATTTTTTTACAATAATAAAGTATTACAAATATAAAGGTATTTGAATATTATTTTTTACTAAAAATTGGAGGAAAATTATGAAAAAATTACTAAGTATTTTATCTTCATTAGCTCTAGTTTGCCAAGGAGCAACAATTGTTGATGCATGTAAAAAGAAACAAGCAGCAAGTGCTGGTAATAGATCTGAAAATAAAGATCAATTACAAAAAATTCAAGATCAAACTATGTATGAAGAAAAAACAAAAATTGTAGTAGTTAGAGCAAAAGAACTTATAAATGACGCGCAAGTTAGTGCTGTTTCTAGTGATGAAAATTTATTAACAGCATCTATTACTAATTACAATAAAGAAAAAGGATTTTTTGAAGTTGAATTACTTGCAAAAAAAGAAGGACAAGCAAAAGTAACAGTTAAGTATGATAAAACAGAGCTTTCTTTTAATGTAAATGTTTTAAAAAGAAAATCAAATGAACCTAATTATGAAAATATAGAAAATTTAAAGTTACATAAGAGTTCAACATCTCCATTTTTTGTGAACTTTTCACATCCTGTGAAAGGTTCAAAATATGAAATTATAGCAGTTGATAAATCTCTTGTAGAATTAGATAGAAATACAGGAACAGATGAAAATGGAACTGGAGAAATTGAATTTTTAATTAAATGTATTGAAAAAGGAACAACTAAATTATTAATAAACTATGAAAATGTTCAGAGCGTAATTAATTTAGAAATAGAAGAAAAAGATGACCAACCAAACTTTGAATATATTCAAGACGAAGTTGTTGTTGTCAAAAAAACAATACATAAAAAAATAGTTGTTCATAATCCAAATGATTCTACTTTAAAAGCAAGTATTGGTGATCAATCTGGAATTACTGTGACTGTTGGAAGTGAAAATGTTGTTGATGGTGATAATTTTAAAATGTATGATTTAGAAATAAAAGGTGGAGATAATGCAACTGGAGATATTACTGTTACTTTAAGTTATGGAACTATTAATGCACATTTTAAAGTAAAAGTACAAAATGAACCAAAACTTTCAGTTGTTGGACAACCAATAGTTCATGAAGGAAGTTATAAAGAGTTTGAATTAAATGTTGAAAATAGAATTCAATATGCTCAAATTGATGTTGAAGTAATCAATAAAAATAATATTGATGCTTTTTCAATGAATGATTTTGATTTAGACACTACTAAAAGCTTAAAAATAATAGTTTATGGATTAAGCAAAACCGAGGAAGAATGTACAATAAATATTACTTATCACAAAGAATACAAAACTCAGATAAAAGTTAAAGTTGAAGCAAAAAAACAAGATCCGCCTGCAATTAGTGGAGTAAATGAAGGAGAAACTATAAATTTATCTAAAATGCAAGGTAGAGCAATTAGTATTTATATTGAAAATCCAATATCAACAGAAATGTTAACAACAGATTTTGATAATAATTTAAACAAGGATAAATTAAAAGTTACAATTCAAGGTGTTAAAGGTGATAGCCACTATACAGTGTTTTTAATTTCTGACAAAGCTACATTTAGTGGTAGTGATGCTTTAACTGTAACTTTAAAATATAGCAGTGCAAGTGATTTAAGTTTTAAAGTAGAAGTAGAATAACATAAAAATTTAAAGGAGAAAAACTATGAAAAAAATATTATTTTCTTTTTTAGTTTCTCTTATTATTTTATTTTATTTATCTAACCCACAATCAGTTTCAATGAGCTATAAAAAACTATCAACCCATAACAAAAAAGCAGAAGGACAAGAAGTACAAACTATTAACTTTAATGAAGCTGTGTGAGCAGGACAATCATTACAATATTTCATTTATAAACATTCAGATATTGAATCAAGTGCTTCTGCAAAAAAAACTTAAAAATAGTCTAATTGCTGTTTAATCTATAAAAGCAGATGCTCAATAACTTAGAAGTTTATCTTATTTATATGACATATACTTAGTCTCGATTGCTTTAATGTTTCAATATATGGAATGACAGAATATTAAGAGTTTTTTGCAGAAGCATATTCTAAATGACTTACAACTCCTGATAGAATAAAAAAACAAAGGTTGAGAAATACTAAATTATTATTTTTTAAATATATTTAAAAATTTAAAAAAATGAATACTCAAGATCAATAACTTGAAGAAAATGAAATACAATTAAGCAATTAATTGATGACGATTTTCAAAATAATAGCAATAAAGATAATTTAGTTTATAAAACAACTCTACAAAATAAAAGTAAAGATTTATAAGATCAAGATTTAATGTATAAAAATCAGTATTGAAGAATAAATAATTTTATTATAGATAAAAATGAAGGTATGGGTTTTGCTCCTGACCTTTTAATTGCTTCAAGATTAGCTTGAAGTTGACCATTTTTCTCAAAAACGTCAATATAAAAAACAAACTGAATATAAATTTAGTTACAAATTAAAAACTAATGATAAATATTGAAATGATGTTAATGGAACTTATAATAATATTTTAAGTACAAAAGAACTTGCTAAATTTAACAATAACTTGTATACAAAAGCAACAGCTGCTTCAATAGAATAATTCAATAATATAATTAAACAAAGAAATGATAAAAAATTTCAAACATTGGATCATTTAAATAAATATTATAAAGAAAAAACTAAAATTAGACTTTGTGGTTATTCAAATATTGATTTTGGTGGTGCCATAAATGATATGCAAAAGAATATAATTGATCAGATGAAAAAGTTAAAAGTTTTAAAGAGCAAGTTCTAAATTTATTAAATATAACAATCAATATTTCTAAATATGCTGATGAAGATTATTTTTTAAACTATTTTATAGGATTAATAATAACTCCTTACTACCCTTTTGTTAATACTTATGAAGGGAGTTATGGCATATGCTTAATATCAAATTGGTATAGTTTCAAGATGATTAAATACAACTGAGCATGATTATGTTGTTTATGTTGGTTATTCATTAAATCGATTTAAAGCCGAATAAGAAAACACTCATTATAAAAAACTTGATGAAGGAGTCCGAATATTTATACAACCATAAATCATGAATTTGGTCATATCTTAGATTCATTTTTAAGTCAAACTGTAGATACAGGAAATTGAATGAAAACAAATTTTGATAAAGAGTTACAAGATAATTATGATAGAACACTTTATACAGGTAAAATATTTGGAGTTTATTCAGCAAATCAAGGAAAAAAGTAGATCCTGAACCAAATCAGCCACAAGAACCTTCTGATCAGGGAAGAAATTAAAATTCTGGACAAGGTAATAAAGCTTATCGTAAACCTGAAGGAAATGAAAATTCTGGTAAAAATGATTCAGAAGTAAAAAGTGAGCCCCCTACAAAAAATAAATCTAAAAAAGCGCTAAATGAGTGATCCCCATTGCTATCGGGGTTACTTTCACGATTTTAATTTTAAGCGGGTGTACAGTTGGTGGAATATTTATTATAAAAGAAAAAGATAGATATTAATCAAAGAGTAAAGGAAAAAAATCAAAAATTATTTTTTGAGAAAATATTTTACTTTTTGGTTTTTTTTTGATATCTTATAATAGTTGGGATAATTTTTTATTTTTATAATATATAATCTATAATTAGTTTGATTTTTTTTTTAAAAAGTGGTTAAAATAATATTAGTAAGAAAGAGGACAACGTCATGGCAAAAGCAACTTTACACCAAAAAACTCATGTTGCAATTGATATAGGTACTAGCAAAACAAAAATTCATATAGAAAGAATTGGAATGGTTTTTAATGAGTCAACCATTCTAGCAATCGATTGAAAAACTAATAAAGTATTAGCTATTGGTGATTCAGCAAAAAAATTTGTTGGAAAACTTAGTGGTACTTTACAATTAAAATATCCAATGAAGCGTGGTGTAATTACAGATATGAACATGCTTAAAAAATTTTTGCTAACAATATTAAATAAATATGCAGCAGAAATAAAAGATTCTATTGTTACATTAGCATGTCCTACAAGCGTTACTGAGCTTGAAAGATCTTCTCTAATTAAATCAATTAAAGAACTTGGAGTATTTTATGTAAACGCAGAAGATGATGTTAAATTAGCTTTATACGGAGCAGGTGTAGACGTTTATAAAACAGTTGCTAACCTTTGTTTAGACTTAGGAGCAGGAAAATCTACAGCTGGTATTGTTGTGAGTGGAGAAACAATTCAATCAAAATGAACTAAAATTGCTGGAAATACAATTGATCAAGAAATTATTAAACAAATTAAAACCAAAGAACAAATGTTAGTTGGTGAAATTACAGCAGAACAAATTAAAAACACAGTTTGTACGTTAGTTAAAAGCAAAAATATGCTTAAGTTAACAGCATATGGTTATGATTTAAATTCTGGTTTACCTAAGGAATTTGAAATTAGTGAAAATGACGTATCAAAATTATTAATAGCTTCTTTTGGTAGCATAACAAGTATTGTTACAAATGTTTTAGAAGGTTCTCCAAATGAAATTGCAGGAGATGTTATTAGAAATGGTATTGTTGTTACTGGTGGACTTGCAAAAATACCAGGAATTAAATCATTCTTAGAAGACTTTTTTGAAATTCCTGTAAAAATAGCAAATAATTGTTTAACTGCTACCATTGATGGAGCTGTTAAACATAAGGATTTAACTATTCAAAAATATGAGCATGAAAAAAATCCATTAGATATCGTCTTTTAAAAATCATTGAAAGATGATTTTTTTATAAGAAAGTGTGATTATTGTGAAAAATGAAAAAATTTTAAGCCAAGATGAACATTTTAAAATGAACTATGATCGAATTTATTTTACTAAAAGTATAAGTTCATGTCCTCATAAATACATGAGTTTTGATTTTAATGATGGTAATTATAAATGCACAAACTGTTTTTATTCTTTTTATTTTAATAAAAAAGAAGCACAAAAACTTTTTGGAAAAAAAATATTAAAAAATTTTGATTTTGATAAAGCTTATAAACAATATTCAGATAATATCCTTGAAAAGAAAAGAAATGAAAAAATTTCCGAAAGTTTAAAAGATTTATACGAACTTTACTAATCTTTTGTTATAATTATAGAAATATTTGGCGCCTTTCATTATTGAAAGTTGCCTTTTTTTATGTTAAAATCTTACCAGATTATGTATCCTACATATAAATAGAGATATGTAATTCAGATAAAAATAAACAAATAATTACAGAAGTAAAGAAGGAGATTATAAATATGGCAAGCAAAAAACCTGCATTTGTCTCAATGGACTTAGGTACAGCAAATACTCTAGTTTATATTGCTGGACAAGGAATTGTTTACAACGAACCTTCAATCGTTGCATATCGTATTAAAGAAAACAGAATTGTAGCTGTTGGAGAAGAAGCTTACAAAATGATCGGTAAAGGAAACAAAACAATTAGAGTTGTTAGACCGATGGTTGATGGAGTTATTACAGATATTAGAGCAACAGAAGCTCAATTACGTTATATTTTTACAAAATTAAGAATTACAAAACAATTAAGACATTCAATTATGTTATTGGCATGTCCATCAGTTATTACTGAATTAGAAAAAACTGCTCTTAAAAAAATTGCAGTTAACTTAGGTGCAGACCAAGTTTTCGTTGAAGAAGAAGTTAAAATGGCCGCTTTAGGTGGAGGGGTAAACATTTATGCTCCAACAGGAAACCTAATCGTTGATATGGGTGGAGGAACTACTGATATTGCTGTATTAGCATCAGGAGATATCGTTCTTTCAAAATCAATTAAAGTTGCAGGAAACTACTTAAATGATGAATGTCAAAAATTCATTAGATCACAATATGGATTAGAAGTAGGATCAAAAACTGCTGAATCAATTAAAGTTAACGTTGGTTCATTATCAAAATACCCAGATGAAAGACGTATGAAAGTTTATGGACGTGACGTTGTTTCAGGATTACCAAGAGAAATTGAAATTACTCCAGAAGAAGTACGTGAGGTATTAAAAGTACCTGTTTCAAGAATTATTGACTTAACAGTTCAAGTGTTAGAAGATACTCCACCTGAATTAGCAGGAGATATCTTTAGAAATGGTATTACTATTTGTGGCGGTGGTGCTTTAATTAGAGGTATTGATAAATATTTCGCAGATACACTACAATTACCAACAAAAATTGGTGAACAACCATTGTTAGCCGTTATTAACGGAACTAAAAAATTCGAATCAGAAATTTGAGAAATCATTAAAGCTCAAAGAGCACATGAAGATATCATGAATAGATAATTATCTCTTTTATAGTTATATTTAAAAAACATAAAAGGAGGTTTTATTGATGTATATAGAGTCAAAAAGACCATTTATAAGTCTGGATTTAGGAACAAGTAATATTCTTGCTTATGTTTCTGGTCAAGGAGTTGTTTACAACCAACCTAGTATTATGGCTTATGATATTAATCAAAACAAGCTTATAGCAATAGGTCAAGACGCTTATGAAATGATAGGTAAAACAAATGACAACATTAGAATGGTAACTCCATTAGTTGATGGAGTTATAGCTGATTTAGATGCTGCAAAAGATCTTTTAGAACACATCTTTGAAAGATTAAAAATGATGAATTTTTGAAAAGACTCAGTTGTTGTTCTTGCTTGTCCTAGTGGAGTTACAGAATTAGAGCGTGATGCTTTAAAACTGATTGCTAAGGATATGGGTGCAGATCTTGTTGTTGTTGAAGAAGAAGTTAAAATGTCAGCTTTAGGAGCTGGTGTTAATATCGAACTTCCTTTAGGTCACTTAATTATTGACATTGGTGGAGGAACAACAGATATTGCTATAATATCAGCTGGAGATATTGTTTTATCAAAATCTATTAAAGTTGCGGGTAACTACTTCAATGAAGAAATATTAAAATATGTAAGGGCGGAGTATAATATTTCAGTTGGAATTAAAACTGCTGAAAATATCAAAAAAAATGTTGGTTCATTAGTAAAATATCCAAATGAACGCTCTATGCAGATTTATGGTAGAGATATTGTTTCGGGATTACCAAAAGAAGCTACAGTTAACTCTGAAGAAATCAGAAATATTCTTTTAGGGTGTTTTGGTAGAATCACAGACTTAGTTATCGAAGTAATGGAACAAACTCCACCTGAATTATCTGGTGATATTTTAAAACAAGGTATTATTTTATGTGGTGGTGGAGCATTAGTTAGAAATGCTGATAAGTATTTCCACGATATTTTTCAATTACCAACAAAGATTGCAGCAGATCCTTTAAATTGTGTTATTGAAGGAACTAAAGCTTATGAAAAAATAATACTAAAAAGAATTGAAGAGGGATTCTACAAAGGAACCCAAGAAACTTACCTTCAAACATTAAAAAAATAACCCCGGTGGGTTATTTTTTTATTTATTATCTTTTCTATCTTTAGCTTTTTTTGTTTTTGCTTGATTTATTTTTTTCAGTGATTTTTTTTCTTTATTTGTTTTTCTTACTTCAGCGTCGCGTTTGAAATTATCTATAAAGTTCATTTTAAATAATCCATCATTTAATTGATTTGGTAATAAGATGTTTAATAACACACCTACTATTGTAGCTATAAATAGTCCTGTAAACTTAAATCCAGAATTTCCTCATGAAATTTCAGTTCCAGTCACCCCTAACCCTACTCCTATTGCTAAAGTTATAGCTATTACAAAGATATTTTTAGCATTTCCAAAGTTTACTTTTCCTTCAACAAGAATTTTGATTCCATTTGAAGCAATCATACCAAATAAAACAACACCAATTCCTCCCATCACAGGTTTTGGTATCATGCTAATTAATTGATTAAATGGTGCTATAAAACTCAGAACTATTGCAAATATTGCTGCAAGTCCTATTGCTCAAACACTTGCTATTCTTGTCATGTTAACAACACTTGTGTTTTCAGCATAAGTTGCATTTGCTGGTCCTCCAACTGCACCTGCAAACATTATTGAAACTCCATCTGCAATTAATGTTCTATGAATACCTGGATTTGAAACAAAATCACGATTTGTTATTGATCCAATGTTTATGTGCTCACCTAAGTGTTCAGTCATAGTAATAATTGCAATTGGTACAATAGCAACTAATGCTGGTCCAATTTGATTTCCTTTTACATTTCAAATTGCTTTAAAACTTGGATATCATTGTCAATCTTTAACATTTGTAATTAAAGATGTGTCTAACAGACTTACTCCTTCTCCTTTTGCTGCATAATGTATAATTATTGCTAAAATATATCCTACAATTAAAGCAAGCAAAATTGGAATTGCTTTGAAAAATGTTTTCGCTTTCAAAACACAAATCGCAGCTACCACAATTGTTATGAATCCAAGTAGAATTGCTAATCATTGTGGATAAGATGTGTTGCTTGCTTCATCTCTTATTCATCCTTCGCTTGCATTATTTCATAATCCTATGTTTTGAAGTGCACTTGATATTGCACTCATCCCTATAATTATAATAATAGGCCCAGTAACTACAGGTGAAAATGCTTTTTTCACTCATGAAGAACCTGTTCAATAAATAATGAATCCCATAAGAACATATACAACTCCAACTACAAACACTCCTATAAATACAGCATTCCCTCAATCTTTAAATCCAAGACCAATTGTTGTCATATATGCAAAACTACTCCCTAAATATAAAGGCACTTTAGCAGATGTAAATGCAATATAAATTAAAGTTCCTACTCCTGAACAAAATAATGCCATTGAAATATTCATGACGTTTCCCCCGCCATTATTTGTTGAAATAGAATTCATAATCATTGGCACTAAAACTGTAGCCCCAAACATTGCAAATACGTGTTGGACTGATAATAAAATTCACTTACCTACATTTTTAGGTCTTTGATGCGGTTCTAAAATCAGTTCAACTTTGGTTAACTCTTGTTTATCATTATTGTTTAACTGTTCCATTTTTTCTCCTTATCTATTAACTTTAATTGTGACTTTGCAAAAAAAAAAAAAAATCAGTAGTTGAATAAATCAACTTCGAACAAATTTTTTTCTCAAAAATTATTATATAGCATATATTTTTTTATTTTAAAAAAATATATAATTTCTAAAAAGGGAGTAAGAATATGAAAAAATTACTTAGTTTTTTACAAATTGGAGTTTTAAGTACATCAATTTTGCCACTAGTTGGATGTGGAACTAATTTAGATAAGACTGCATCAAATAAGTTTGTAGATTATGTGCAAGAGCTACTTAAAGAAACTTATGATTCAGAACAAGATTTTAGAAAAATTTTAGTAGATAAGATCAAAGACTTTGAAAAAAAATATAATCTTGTAGTTTATACTGATAAAACTAGTAAACCAAAAAATAAAAATGATATTTTTTTTGATATGTATGTCGAAAGTGCGTATCATAGTTTAAACCAAAAAGAGTTAGAAATAAGAGTAACTGGAACAATTAAATACAATGGAGATTCTAGTTACACGTGAAGTCAAACTTCACAAAAGAAAAAATTTAAATTAAATACTAATTTATTAAACTGGAAAATAGACTCTGACTTAAGTAACAAAGATAATAATTTTGATAGTCAAAAAAGAAGCTCAATTAATTTTAAATCTGAACAAAAGGAAAATAACTCTCCTGTTGTAAAGTTTTTAAAAGGAAATGAAGTTATAAATTCTAATAAAAATAATAAATATGGTTCATCAGCAAATGGTTTTTCATATAACTTTAAATGAGAAGCACAAAGAGATGATGGTTTTGAACCTATTAGACAGATAAAGTTCGATTTTATAGGCTCAAAATTTGAGAACTTAGTTGACAACTTGCTAATTTTTTATATTGAAGATGGAGATTATCGTTGAATAAAAATAAACTTGCTTTAATAAATATAATTGCTTTATTAAAAATGAAAATGTATAATTAATATACAATAATTTTAAATTAGGAGGAAATATGAAAATAGAGGATCGTACATTTATCGCCCTAGACTTAGGGACAAGTAATATACTTGCTTTTGTTGGAAAACAAGGTATTGTATATGATGAACCATCAATCATGGCTTATGACACGCTTTCAAATGAATTAGTTGCTTTGGGACAAGAAGCATATGACATGTATGGAAAAACTCACGACAGCATTAGAATGATAGTTCCAATTAGAGACGGAGTTATAACAGACTTAGAAGCAGCAAAAGATATGCTTAAACACATTTTTTCAAGATTAAAAATGTTAAATGATTGAAAAAACTCAATTATTTTATTAGCTTGTCCAAGTGGAGTTACAGAACTTGAAAGAGAAGCTTTAAAACAAGTTGCATACGATATGGGAGCAGAAATTGTTCTTGTTGAAGAAGAAGTAAAAATGGCTGCATTGGGAGCAGGAATTAACATTGATATGCCAAAAGGACATGTTGTTATTGATATTGGTGGTGGAACTACTGATATTGCAATATTATCTGCAGGAGATGTAGTTATTTCTAGATCTGTTAAAGTTGCAGGAAACTATTTTGATGAAGAAATTAAAAAATACATTCGTTCAGAATATAATGTAACAATTGGAGATAGAACAGCTGAAAATGTTAAAAAAGAACTTGGTTCATTAGCAAAATACAAAGGTGAAAAAACTATGTCTGTTTTTGGTAGAGATATAGTTTCAGGATTACCAAAAGAAGCTATTATTAGTTCAGAAGAAATTAGAAACGTTTTAGTGAACTCATTTAGTGTAATCACAGATCTATTAATTGGATTAATGGAAAACACACCTCCTGAATTAGCTGGAGATATCATTACAAATGGATTTGTAATTTGTGGTGGTGGATCAAAAATTAGAGGAATTAAAGAATATTTCAATGGAATCTTCTCGGTTCCTTGTGCTTTATCACCAAACGCATTAACAGGTGTTGTTGAAGGAGCAAAAAACTTTCAAAAAGTTATTAATAGACGTCTTGAAGCAGGATACTATGGTAAAAATGCAAAAGATGTTAAAAAAGGAAGTCAAAGTAAATATATTTAATAAAACAAAAAGACCTTTTTAAAGGTCTTTTTGTTTTATATAACTAAGATATATTAAATACGTTTTTTGCATTTCTTGTTGTAATATCAATTACATCATGTTTGTTTAAATTTTTAATTTTTGCTATCTCATTAACTGTGTGAGTTATTTCTTTAGATGTATTTACTTTTCCTCTGTTTGGTACAGGAGTTAAATATGGAGCGTCTGTTTCAACAATTAAATTATTAAGAGATAGTTTTTTAACCGCATTTTGTAGTTCTGTTGCGTCTTTAAAAGTAATTACTCCAGGTATTGAAATATAATATCCTTTATCTACAAATTTTTTAGCTAAATCATATCCTCTTGTAAAACAATGAACAATGGCTCTTTTTATTTTCATTTTTTCTAATATTTTTAAAGCATCGTTGTATGCATCTTCTTTACCATCTTGATCTCTCAGGTGTAACATAACCGCTAAATCATTATCCAAAGCAATTTTGATTTGTTTTTTAAAAACTTCTTGTTGTACTTCGACATGTTCTTTTGAGTAAAAATAATCTAACCCAATTTCGCCAATTGCCACAACTTTATGCCCATGTGCTAATATTTCTATTTCTTCTAAATCTGTTTTATTAATTGTGTGCGCTTCATTTGGGTGAATCCCAACTGCTGCAAAAACTTCATCATATTTTAAAGCATATTTTGTTGCTTGTTTTGACGAAGGCACATCGTACCCCACACAGCAAAATCTATCTACTCCAACAAGTTTTGCTTCTTTTATCATTTCTTCTGTTGTGATACCTAATTCCTTATATCTTGGATCATTAAAATGTGTATGTGTATCAAATATTCTAGCCATTATGTCCCTACTTTCCTAAGCAATATTTTCTAAAAATATTGTCAATTACTTCTTCATCCATATCTATTATACCAAGTAAATTATTAATGATTTCTAAGGTTTTATACAAATCAACATTTACAATGTCAAAATCAAAACCTATTTCTAGGTTTTCGATGGATGTGTTTGTTAGATTTAGTGCTCGTTCTAAATTTGCAATACTTTCGATGCTTGTTAATATTGGCAAATCTGAATTCAATAAATCCTCGTTGTCTCACATTTCTTTTAGTCTATTTGTTAGATTTGTGATTTGGTTATTTATTGCACTTACAAAAATTATATTCTCATTAAGACTAAAAATGTTTTTAATTTGCTCTTTTGTTAATAAATCTTCTTTATTTACAACGATTATATAATTTTTATTTTTTATTTTATTTAAAATCTCTTTATTTATATTTTCATTATTTACAACAAACAAAATTAAATCAGCATAATCAATATTGTTAAGACTTTTTTGAATTCCTATTTTTTCTATCGGATCTTTAGTTTTTCTTATTCCCGCTGTATCGATTAAGTTTAAACTAAAGTTCTCAAAGTTAATTTGACCTTCAACAAAATCTCTTGTTGTACCTTCAATGTCCGTTACAATTGCTTTTTCTTCATTCAACAAAGCATTTAGCAAAGAAGATTTGCCAACATTAGGTTCTCCAATTATCAAAGTCTTAATTCCGTCATTAACTTTTATAGCTCTTTTACTATTTTCAATAATGTTTGTAAAACAATCTTTTATTTTTTTTAGAGTTATTAAAATTTCTTCAGGTGTTGATCCTTCAATATCATCATAATCGGGATAATCGATTGAAGTTTGGATTCTGCTTATAACATCAATGATTTGATCTTTTATTTTTAAAATTTTTTTATCTTTAATTCCACTAACTCCAAGCGCACTAATTTTTAAAGCTAATTCATTTTTAGACTCTATTAAATTATTGATTGATTCAGATTGCAATAAGTTAATCTTTCCGTTTAAAAAAGCTCTTTGAGAAAATTCTCCTTTTTGAGCCGCTCTTGCTCCATTTTTAATTAATAAATTTATTATTTTATTACAGACAAGAACTCCACCATGACAATTTATTTCTACAACATTTTCCCCTGTAAAAGACTTAGAATTTGCAAAAGTTATAAAAAGCGCTTCATCAATCATTTGATTATTATCATATATTTTTCTGAGTTGTTGAGCATTAGAAATATCCAAATCTTTTTTTAAAATTTTATTTACAATATTAAAAGCGTCTCTTCCAGATAATCTTATTATTGAGATTGCTTGCTTTGATACTTTAGTTGCTGGCGCAATAATTGTATCATCTAAAAATATTCTCATATACTCACCTCTTTGCCATTATATCAAAATAAAAAGGTAGATTATTTAGCTACCTTAAAAGATATTTTTATAATTTTACCAGCACTTGTATCAACTGATTTTCAAGTTATATTATTATAACCTAAAAAAACTTTATATAACTTTTCTCTTTTATTTTTTGAAATAGGAAGAGAAAACTGTGTTTCTTTAGTAGTTAAACAATTTCTTATTAGATTTTTTAGATATCTTTCATCTACAACACTGTTTCCTTTGTATAGTTGATAATAGTCTGCTAAAACTATATTAACTGTCATATTGAAACTATTTTTAATGATAAGATTTATTAATCTTTCAATTTTGTTTTTATCAACAATATTAATCGGTTTTTCACACCTTATAAAAACAAAATTGCTATTTGTTTTTTTGTTATAAGCAATTGCAAAAACTTTAATATTAAAACTCTCTTCAACTAGTTCTTTTAAAAACATAAAAATTTTACTTCTTATTGAATTTGATAAAAATAAAATCATTTCATTTGATTTATTTTTGTAAGCAAACTTAACTTGTTGTTTACGTTTTTCAAAGAAATGATAAAATTTTTTATTATTTATTTTTAGCAATGTTTTTTTCAATTTGTTTCACTTTTGTTGCTTTCAATCTTTCACGTTTTTTAAGAACTCTTTTAGATTTACTTTCTCGTAAATAATGAAACATAAGTGTTTGACTTATTTGTAGAGTTGAAGAGAAAATTCAATATATAGCGACCCCTGAAGCAACTGAACTGACGAAGAACACAAATACCGCAATGAAGATTAACTGGAATATTAACTGTTTTCTTTTTGCTTTTTTTTGTTGCTCTGATTGTGGTTGTTTTTTCTTTTTAACTGCATTTAAGATCATTGGCAAGAACATAGATAAAACTTGTAATGGTAAATAAACTGCAATTAATGATAAATAAACTCAATTCCCTGATTTGATCTGTGCTCAAGGTTGTTCAGTAAGTGTAATTGCTCCAACTGTTGCGATTTTCAATGCGTGAGTTGATCTAACAACTGAGAACATCGCAAATAAGAACGGCATTGATAAAAATGATGTAGCTATTGAACTTATTGGACTTATACCTTCTTTTTTATATAGAGCCATTAACTCCATTTGTTGTTTTTGTTTTGCTTGAGGATCATTTGATCCTTTATATTTTTGTTGAATTTCAGCTTGCTTACCCTGCATACCTGTCATTTTTTCTTGATTCATCTGCGTTTTCAATGTAAATGTCAAGATTATTAATCTAACAAAAATTGAGCTTAATAGAATTGAAAATATTACTGATATACCGTAATTACTTTTTGCAGGATCCAATATTCCATCTGTTGTTCCGGAGAACACTCTAATAAATGCCGTTAGCATTCACGCTAAAGGATAAACAAAAAATCCATAATATGGAGAAGAAGTCATTGTAAATGCTTCCGCTCAGTTTGTAATAACTTTATATTGGTACTCGTAAAATACTCCGTTTTTATCAGCTGTGAATCAGTGTGTTTTTGATCCATAATCACTTAAACTTTTAATAATGATTTCAAAAGCGACACCTGGAGCATATACTTTGTTTCCAGCCATATCCGAAACTTGGTTAACTGTATATCCGTTTGTGTTCATCTGAACACAACCATATAAAACCGAGAACATAATAAACACGAAAAGTATTAATTTTATATAACCTCAGACTCTTTTTAAAATGTCTTTTCTCGATGGCTTGCCTTTACCATTACTATTTAAGTACTTGGAATAATCTTGTTTGTACAAACCTTGCACCTCTCTTCTTTAACCAAAGTTTTTTAATAAGCTTTTTAGTTCATTAAAATTATACTCAAAGGTTTTTGTAATAAATTGGTTTCTCGCCATAATAACAATCTGTGCATCTTTAGTTTTTAAAGTTGGTAACAAATAATAAACCATGTTTCTGATTTGTCTTTTTACTTTATTTCTTACAACTGCATTTCCTATTCTTTTACCTACAGATATTCCATATTTAAAGTTATCTTGCTTTTCTTTACAGAAATATATTATAAAACTTCTTCCTTTTAAATAATTTTTTTTCCCTATAATTTTTTGAAAATGATGATTTTTTTTAACAATATTTTCATTTTTCATATTAAGCGCTTAGTTTAGTTCTACCTTTTGATCTTCTTGCTTTTATTATCTTACGACCATTTTTAGTAGCCATTCTAGCTCTAAAACCATGAGTTCTAGCATGCTTAATTTTACTTGGCTGTCATGTTCTTTTCATAGTTTATACCTCCTTTTAAACAAAACTTCATTTAAAATTATATATTATTTCTATACTATATTCCAAATAACTTTATATTTTCTTTGTTTATAGTGTGTTAATAAAAATGTGGATAATTTAATATGTGGATAACTTTTTTAAAACCTTTTAAAATCAAAGTTAATTTCGCAAAGTTATTAACATATAAATAACAAAAATATTTAAAAACAAACGAATTTGCTTTATTATTTGTTAATATTTTATAATATGTTTGTTTAAAAGGAGACCTGTT